diff options
Diffstat (limited to 'vendor/github.com/klauspost')
18 files changed, 22164 insertions, 0 deletions
diff --git a/vendor/github.com/klauspost/compress/LICENSE b/vendor/github.com/klauspost/compress/LICENSE new file mode 100644 index 00000000..87d55747 --- /dev/null +++ b/vendor/github.com/klauspost/compress/LICENSE @@ -0,0 +1,304 @@ +Copyright (c) 2012 The Go Authors. All rights reserved. +Copyright (c) 2019 Klaus Post. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +------------------ + +Files: gzhttp/* + + Apache License + Version 2.0, January 2004 + http://www.apache.org/licenses/ + + TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION + + 1. Definitions. + + "License" shall mean the terms and conditions for use, reproduction, + and distribution as defined by Sections 1 through 9 of this document. + + "Licensor" shall mean the copyright owner or entity authorized by + the copyright owner that is granting the License. + + "Legal Entity" shall mean the union of the acting entity and all + other entities that control, are controlled by, or are under common + control with that entity. For the purposes of this definition, + "control" means (i) the power, direct or indirect, to cause the + direction or management of such entity, whether by contract or + otherwise, or (ii) ownership of fifty percent (50%) or more of the + outstanding shares, or (iii) beneficial ownership of such entity. + + "You" (or "Your") shall mean an individual or Legal Entity + exercising permissions granted by this License. + + "Source" form shall mean the preferred form for making modifications, + including but not limited to software source code, documentation + source, and configuration files. + + "Object" form shall mean any form resulting from mechanical + transformation or translation of a Source form, including but + not limited to compiled object code, generated documentation, + and conversions to other media types. + + "Work" shall mean the work of authorship, whether in Source or + Object form, made available under the License, as indicated by a + copyright notice that is included in or attached to the work + (an example is provided in the Appendix below). + + "Derivative Works" shall mean any work, whether in Source or Object + form, that is based on (or derived from) the Work and for which the + editorial revisions, annotations, elaborations, or other modifications + represent, as a whole, an original work of authorship. For the purposes + of this License, Derivative Works shall not include works that remain + separable from, or merely link (or bind by name) to the interfaces of, + the Work and Derivative Works thereof. + + "Contribution" shall mean any work of authorship, including + the original version of the Work and any modifications or additions + to that Work or Derivative Works thereof, that is intentionally + submitted to Licensor for inclusion in the Work by the copyright owner + or by an individual or Legal Entity authorized to submit on behalf of + the copyright owner. For the purposes of this definition, "submitted" + means any form of electronic, verbal, or written communication sent + to the Licensor or its representatives, including but not limited to + communication on electronic mailing lists, source code control systems, + and issue tracking systems that are managed by, or on behalf of, the + Licensor for the purpose of discussing and improving the Work, but + excluding communication that is conspicuously marked or otherwise + designated in writing by the copyright owner as "Not a Contribution." + + "Contributor" shall mean Licensor and any individual or Legal Entity + on behalf of whom a Contribution has been received by Licensor and + subsequently incorporated within the Work. + + 2. Grant of Copyright License. Subject to the terms and conditions of + this License, each Contributor hereby grants to You a perpetual, + worldwide, non-exclusive, no-charge, royalty-free, irrevocable + copyright license to reproduce, prepare Derivative Works of, + publicly display, publicly perform, sublicense, and distribute the + Work and such Derivative Works in Source or Object form. + + 3. Grant of Patent License. Subject to the terms and conditions of + this License, each Contributor hereby grants to You a perpetual, + worldwide, non-exclusive, no-charge, royalty-free, irrevocable + (except as stated in this section) patent license to make, have made, + use, offer to sell, sell, import, and otherwise transfer the Work, + where such license applies only to those patent claims licensable + by such Contributor that are necessarily infringed by their + Contribution(s) alone or by combination of their Contribution(s) + with the Work to which such Contribution(s) was submitted. If You + institute patent litigation against any entity (including a + cross-claim or counterclaim in a lawsuit) alleging that the Work + or a Contribution incorporated within the Work constitutes direct + or contributory patent infringement, then any patent licenses + granted to You under this License for that Work shall terminate + as of the date such litigation is filed. + + 4. Redistribution. You may reproduce and distribute copies of the + Work or Derivative Works thereof in any medium, with or without + modifications, and in Source or Object form, provided that You + meet the following conditions: + + (a) You must give any other recipients of the Work or + Derivative Works a copy of this License; and + + (b) You must cause any modified files to carry prominent notices + stating that You changed the files; and + + (c) You must retain, in the Source form of any Derivative Works + that You distribute, all copyright, patent, trademark, and + attribution notices from the Source form of the Work, + excluding those notices that do not pertain to any part of + the Derivative Works; and + + (d) If the Work includes a "NOTICE" text file as part of its + distribution, then any Derivative Works that You distribute must + include a readable copy of the attribution notices contained + within such NOTICE file, excluding those notices that do not + pertain to any part of the Derivative Works, in at least one + of the following places: within a NOTICE text file distributed + as part of the Derivative Works; within the Source form or + documentation, if provided along with the Derivative Works; or, + within a display generated by the Derivative Works, if and + wherever such third-party notices normally appear. The contents + of the NOTICE file are for informational purposes only and + do not modify the License. You may add Your own attribution + notices within Derivative Works that You distribute, alongside + or as an addendum to the NOTICE text from the Work, provided + that such additional attribution notices cannot be construed + as modifying the License. + + You may add Your own copyright statement to Your modifications and + may provide additional or different license terms and conditions + for use, reproduction, or distribution of Your modifications, or + for any such Derivative Works as a whole, provided Your use, + reproduction, and distribution of the Work otherwise complies with + the conditions stated in this License. + + 5. Submission of Contributions. Unless You explicitly state otherwise, + any Contribution intentionally submitted for inclusion in the Work + by You to the Licensor shall be under the terms and conditions of + this License, without any additional terms or conditions. + Notwithstanding the above, nothing herein shall supersede or modify + the terms of any separate license agreement you may have executed + with Licensor regarding such Contributions. + + 6. Trademarks. This License does not grant permission to use the trade + names, trademarks, service marks, or product names of the Licensor, + except as required for reasonable and customary use in describing the + origin of the Work and reproducing the content of the NOTICE file. + + 7. Disclaimer of Warranty. Unless required by applicable law or + agreed to in writing, Licensor provides the Work (and each + Contributor provides its Contributions) on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or + implied, including, without limitation, any warranties or conditions + of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A + PARTICULAR PURPOSE. You are solely responsible for determining the + appropriateness of using or redistributing the Work and assume any + risks associated with Your exercise of permissions under this License. + + 8. Limitation of Liability. In no event and under no legal theory, + whether in tort (including negligence), contract, or otherwise, + unless required by applicable law (such as deliberate and grossly + negligent acts) or agreed to in writing, shall any Contributor be + liable to You for damages, including any direct, indirect, special, + incidental, or consequential damages of any character arising as a + result of this License or out of the use or inability to use the + Work (including but not limited to damages for loss of goodwill, + work stoppage, computer failure or malfunction, or any and all + other commercial damages or losses), even if such Contributor + has been advised of the possibility of such damages. + + 9. Accepting Warranty or Additional Liability. While redistributing + the Work or Derivative Works thereof, You may choose to offer, + and charge a fee for, acceptance of support, warranty, indemnity, + or other liability obligations and/or rights consistent with this + License. However, in accepting such obligations, You may act only + on Your own behalf and on Your sole responsibility, not on behalf + of any other Contributor, and only if You agree to indemnify, + defend, and hold each Contributor harmless for any liability + incurred by, or claims asserted against, such Contributor by reason + of your accepting any such warranty or additional liability. + + END OF TERMS AND CONDITIONS + + APPENDIX: How to apply the Apache License to your work. + + To apply the Apache License to your work, attach the following + boilerplate notice, with the fields enclosed by brackets "[]" + replaced with your own identifying information. (Don't include + the brackets!) The text should be enclosed in the appropriate + comment syntax for the file format. We also recommend that a + file or class name and description of purpose be included on the + same "printed page" as the copyright notice for easier + identification within third-party archives. + + Copyright 2016-2017 The New York Times Company + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + +------------------ + +Files: s2/cmd/internal/readahead/* + +The MIT License (MIT) + +Copyright (c) 2015 Klaus Post + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +--------------------- +Files: snappy/* +Files: internal/snapref/* + +Copyright (c) 2011 The Snappy-Go Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +----------------- + +Files: s2/cmd/internal/filepathx/* + +Copyright 2016 The filepathx Authors + +Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. diff --git a/vendor/github.com/klauspost/compress/s2/.gitignore b/vendor/github.com/klauspost/compress/s2/.gitignore new file mode 100644 index 00000000..3a89c6e3 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/.gitignore @@ -0,0 +1,15 @@ +testdata/bench + +# These explicitly listed benchmark data files are for an obsolete version of +# snappy_test.go. +testdata/alice29.txt +testdata/asyoulik.txt +testdata/fireworks.jpeg +testdata/geo.protodata +testdata/html +testdata/html_x_4 +testdata/kppkn.gtb +testdata/lcet10.txt +testdata/paper-100k.pdf +testdata/plrabn12.txt +testdata/urls.10K diff --git a/vendor/github.com/klauspost/compress/s2/LICENSE b/vendor/github.com/klauspost/compress/s2/LICENSE new file mode 100644 index 00000000..1d2d645b --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/LICENSE @@ -0,0 +1,28 @@ +Copyright (c) 2011 The Snappy-Go Authors. All rights reserved. +Copyright (c) 2019 Klaus Post. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. diff --git a/vendor/github.com/klauspost/compress/s2/README.md b/vendor/github.com/klauspost/compress/s2/README.md new file mode 100644 index 00000000..81fad652 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/README.md @@ -0,0 +1,717 @@ +# S2 Compression + +S2 is an extension of [Snappy](https://github.com/google/snappy). + +S2 is aimed for high throughput, which is why it features concurrent compression for bigger payloads. + +Decoding is compatible with Snappy compressed content, but content compressed with S2 cannot be decompressed by Snappy. +This means that S2 can seamlessly replace Snappy without converting compressed content. + +S2 can produce Snappy compatible output, faster and better than Snappy. +If you want full benefit of the changes you should use s2 without Snappy compatibility. + +S2 is designed to have high throughput on content that cannot be compressed. +This is important, so you don't have to worry about spending CPU cycles on already compressed data. + +## Benefits over Snappy + +* Better compression +* Adjustable compression (3 levels) +* Concurrent stream compression +* Faster decompression, even for Snappy compatible content +* Ability to quickly skip forward in compressed stream +* Compatible with reading Snappy compressed content +* Smaller block size overhead on incompressible blocks +* Block concatenation +* Uncompressed stream mode +* Automatic stream size padding +* Snappy compatible block compression + +## Drawbacks over Snappy + +* Not optimized for 32 bit systems. +* Streams use slightly more memory due to larger blocks and concurrency (configurable). + +# Usage + +Installation: `go get -u github.com/klauspost/compress/s2` + +Full package documentation: + +[![godoc][1]][2] + +[1]: https://godoc.org/github.com/klauspost/compress?status.svg +[2]: https://godoc.org/github.com/klauspost/compress/s2 + +## Compression + +```Go +func EncodeStream(src io.Reader, dst io.Writer) error { + enc := s2.NewWriter(dst) + _, err := io.Copy(enc, src) + if err != nil { + enc.Close() + return err + } + // Blocks until compression is done. + return enc.Close() +} +``` + +You should always call `enc.Close()`, otherwise you will leak resources and your encode will be incomplete. + +For the best throughput, you should attempt to reuse the `Writer` using the `Reset()` method. + +The Writer in S2 is always buffered, therefore `NewBufferedWriter` in Snappy can be replaced with `NewWriter` in S2. +It is possible to flush any buffered data using the `Flush()` method. +This will block until all data sent to the encoder has been written to the output. + +S2 also supports the `io.ReaderFrom` interface, which will consume all input from a reader. + +As a final method to compress data, if you have a single block of data you would like to have encoded as a stream, +a slightly more efficient method is to use the `EncodeBuffer` method. +This will take ownership of the buffer until the stream is closed. + +```Go +func EncodeStream(src []byte, dst io.Writer) error { + enc := s2.NewWriter(dst) + // The encoder owns the buffer until Flush or Close is called. + err := enc.EncodeBuffer(buf) + if err != nil { + enc.Close() + return err + } + // Blocks until compression is done. + return enc.Close() +} +``` + +Each call to `EncodeBuffer` will result in discrete blocks being created without buffering, +so it should only be used a single time per stream. +If you need to write several blocks, you should use the regular io.Writer interface. + + +## Decompression + +```Go +func DecodeStream(src io.Reader, dst io.Writer) error { + dec := s2.NewReader(src) + _, err := io.Copy(dst, dec) + return err +} +``` + +Similar to the Writer, a Reader can be reused using the `Reset` method. + +For the best possible throughput, there is a `EncodeBuffer(buf []byte)` function available. +However, it requires that the provided buffer isn't used after it is handed over to S2 and until the stream is flushed or closed. + +For smaller data blocks, there is also a non-streaming interface: `Encode()`, `EncodeBetter()` and `Decode()`. +Do however note that these functions (similar to Snappy) does not provide validation of data, +so data corruption may be undetected. Stream encoding provides CRC checks of data. + +It is possible to efficiently skip forward in a compressed stream using the `Skip()` method. +For big skips the decompressor is able to skip blocks without decompressing them. + +## Single Blocks + +Similar to Snappy S2 offers single block compression. +Blocks do not offer the same flexibility and safety as streams, +but may be preferable for very small payloads, less than 100K. + +Using a simple `dst := s2.Encode(nil, src)` will compress `src` and return the compressed result. +It is possible to provide a destination buffer. +If the buffer has a capacity of `s2.MaxEncodedLen(len(src))` it will be used. +If not a new will be allocated. + +Alternatively `EncodeBetter`/`EncodeBest` can also be used for better, but slightly slower compression. + +Similarly to decompress a block you can use `dst, err := s2.Decode(nil, src)`. +Again an optional destination buffer can be supplied. +The `s2.DecodedLen(src)` can be used to get the minimum capacity needed. +If that is not satisfied a new buffer will be allocated. + +Block function always operate on a single goroutine since it should only be used for small payloads. + +# Commandline tools + +Some very simply commandline tools are provided; `s2c` for compression and `s2d` for decompression. + +Binaries can be downloaded on the [Releases Page](https://github.com/klauspost/compress/releases). + +Installing then requires Go to be installed. To install them, use: + +`go install github.com/klauspost/compress/s2/cmd/s2c && go install github.com/klauspost/compress/s2/cmd/s2d` + +To build binaries to the current folder use: + +`go build github.com/klauspost/compress/s2/cmd/s2c && go build github.com/klauspost/compress/s2/cmd/s2d` + + +## s2c + +``` +Usage: s2c [options] file1 file2 + +Compresses all files supplied as input separately. +Output files are written as 'filename.ext.s2' or 'filename.ext.snappy'. +By default output files will be overwritten. +Use - as the only file name to read from stdin and write to stdout. + +Wildcards are accepted: testdir/*.txt will compress all files in testdir ending with .txt +Directories can be wildcards as well. testdir/*/*.txt will match testdir/subdir/b.txt + +File names beginning with 'http://' and 'https://' will be downloaded and compressed. +Only http response code 200 is accepted. + +Options: + -bench int + Run benchmark n times. No output will be written + -blocksize string + Max block size. Examples: 64K, 256K, 1M, 4M. Must be power of two and <= 4MB (default "4M") + -c Write all output to stdout. Multiple input files will be concatenated + -cpu int + Compress using this amount of threads (default 32) + -faster + Compress faster, but with a minor compression loss + -help + Display help + -o string + Write output to another file. Single input file only + -pad string + Pad size to a multiple of this value, Examples: 500, 64K, 256K, 1M, 4M, etc (default "1") + -q Don't write any output to terminal, except errors + -rm + Delete source file(s) after successful compression + -safe + Do not overwrite output files + -slower + Compress more, but a lot slower + -snappy + Generate Snappy compatible output stream + -verify + Verify written files + +``` + +## s2d + +``` +Usage: s2d [options] file1 file2 + +Decompresses all files supplied as input. Input files must end with '.s2' or '.snappy'. +Output file names have the extension removed. By default output files will be overwritten. +Use - as the only file name to read from stdin and write to stdout. + +Wildcards are accepted: testdir/*.txt will compress all files in testdir ending with .txt +Directories can be wildcards as well. testdir/*/*.txt will match testdir/subdir/b.txt + +File names beginning with 'http://' and 'https://' will be downloaded and decompressed. +Extensions on downloaded files are ignored. Only http response code 200 is accepted. + +Options: + -bench int + Run benchmark n times. No output will be written + -c Write all output to stdout. Multiple input files will be concatenated + -help + Display help + -o string + Write output to another file. Single input file only + -q Don't write any output to terminal, except errors + -rm + Delete source file(s) after successful decompression + -safe + Do not overwrite output files + -verify + Verify files, but do not write output +``` + +## s2sx: self-extracting archives + +s2sx allows creating self-extracting archives with no dependencies. + +By default, executables are created for the same platforms as the host os, +but this can be overridden with `-os` and `-arch` parameters. + +Extracted files have 0666 permissions, except when untar option used. + +``` +Usage: s2sx [options] file1 file2 + +Compresses all files supplied as input separately. +If files have '.s2' extension they are assumed to be compressed already. +Output files are written as 'filename.s2sx' and with '.exe' for windows targets. +If output is big, an additional file with ".more" is written. This must be included as well. +By default output files will be overwritten. + +Wildcards are accepted: testdir/*.txt will compress all files in testdir ending with .txt +Directories can be wildcards as well. testdir/*/*.txt will match testdir/subdir/b.txt + +Options: + -arch string + Destination architecture (default "amd64") + -c Write all output to stdout. Multiple input files will be concatenated + -cpu int + Compress using this amount of threads (default 32) + -help + Display help + -max string + Maximum executable size. Rest will be written to another file. (default "1G") + -os string + Destination operating system (default "windows") + -q Don't write any output to terminal, except errors + -rm + Delete source file(s) after successful compression + -safe + Do not overwrite output files + -untar + Untar on destination +``` + +Available platforms are: + + * darwin-amd64 + * darwin-arm64 + * linux-amd64 + * linux-arm + * linux-arm64 + * linux-mips64 + * linux-ppc64le + * windows-386 + * windows-amd64 + +By default, there is a size limit of 1GB for the output executable. + +When this is exceeded the remaining file content is written to a file called +output+`.more`. This file must be included for a successful extraction and +placed alongside the executable for a successful extraction. + +This file *must* have the same name as the executable, so if the executable is renamed, +so must the `.more` file. + +This functionality is disabled with stdin/stdout. + +### Self-extracting TAR files + +If you wrap a TAR file you can specify `-untar` to make it untar on the destination host. + +Files are extracted to the current folder with the path specified in the tar file. + +Note that tar files are not validated before they are wrapped. + +For security reasons files that move below the root folder are not allowed. + +# Performance + +This section will focus on comparisons to Snappy. +This package is solely aimed at replacing Snappy as a high speed compression package. +If you are mainly looking for better compression [zstandard](https://github.com/klauspost/compress/tree/master/zstd#zstd) +gives better compression, but typically at speeds slightly below "better" mode in this package. + +Compression is increased compared to Snappy, mostly around 5-20% and the throughput is typically 25-40% increased (single threaded) compared to the Snappy Go implementation. + +Streams are concurrently compressed. The stream will be distributed among all available CPU cores for the best possible throughput. + +A "better" compression mode is also available. This allows to trade a bit of speed for a minor compression gain. +The content compressed in this mode is fully compatible with the standard decoder. + +Snappy vs S2 **compression** speed on 16 core (32 thread) computer, using all threads and a single thread (1 CPU): + +| File | S2 speed | S2 Throughput | S2 % smaller | S2 "better" | "better" throughput | "better" % smaller | +|-----------------------------------------------------------------------------------------------------|----------|---------------|--------------|-------------|---------------------|--------------------| +| [rawstudio-mint14.tar](https://files.klauspost.com/compress/rawstudio-mint14.7z) | 12.70x | 10556 MB/s | 7.35% | 4.15x | 3455 MB/s | 12.79% | +| (1 CPU) | 1.14x | 948 MB/s | - | 0.42x | 349 MB/s | - | +| [github-june-2days-2019.json](https://files.klauspost.com/compress/github-june-2days-2019.json.zst) | 17.13x | 14484 MB/s | 31.60% | 10.09x | 8533 MB/s | 37.71% | +| (1 CPU) | 1.33x | 1127 MB/s | - | 0.70x | 589 MB/s | - | +| [github-ranks-backup.bin](https://files.klauspost.com/compress/github-ranks-backup.bin.zst) | 15.14x | 12000 MB/s | -5.79% | 6.59x | 5223 MB/s | 5.80% | +| (1 CPU) | 1.11x | 877 MB/s | - | 0.47x | 370 MB/s | - | +| [consensus.db.10gb](https://files.klauspost.com/compress/consensus.db.10gb.zst) | 14.62x | 12116 MB/s | 15.90% | 5.35x | 4430 MB/s | 16.08% | +| (1 CPU) | 1.38x | 1146 MB/s | - | 0.38x | 312 MB/s | - | +| [adresser.json](https://files.klauspost.com/compress/adresser.json.zst) | 8.83x | 17579 MB/s | 43.86% | 6.54x | 13011 MB/s | 47.23% | +| (1 CPU) | 1.14x | 2259 MB/s | - | 0.74x | 1475 MB/s | - | +| [gob-stream](https://files.klauspost.com/compress/gob-stream.7z) | 16.72x | 14019 MB/s | 24.02% | 10.11x | 8477 MB/s | 30.48% | +| (1 CPU) | 1.24x | 1043 MB/s | - | 0.70x | 586 MB/s | - | +| [10gb.tar](http://mattmahoney.net/dc/10gb.html) | 13.33x | 9254 MB/s | 1.84% | 6.75x | 4686 MB/s | 6.72% | +| (1 CPU) | 0.97x | 672 MB/s | - | 0.53x | 366 MB/s | - | +| sharnd.out.2gb | 2.11x | 12639 MB/s | 0.01% | 1.98x | 11833 MB/s | 0.01% | +| (1 CPU) | 0.93x | 5594 MB/s | - | 1.34x | 8030 MB/s | - | +| [enwik9](http://mattmahoney.net/dc/textdata.html) | 19.34x | 8220 MB/s | 3.98% | 7.87x | 3345 MB/s | 15.82% | +| (1 CPU) | 1.06x | 452 MB/s | - | 0.50x | 213 MB/s | - | +| [silesia.tar](http://sun.aei.polsl.pl/~sdeor/corpus/silesia.zip) | 10.48x | 6124 MB/s | 5.67% | 3.76x | 2197 MB/s | 12.60% | +| (1 CPU) | 0.97x | 568 MB/s | - | 0.46x | 271 MB/s | - | +| [enwik10](https://encode.su/threads/3315-enwik10-benchmark-results) | 21.07x | 9020 MB/s | 6.36% | 6.91x | 2959 MB/s | 16.95% | +| (1 CPU) | 1.07x | 460 MB/s | - | 0.51x | 220 MB/s | - | + +### Legend + +* `S2 speed`: Speed of S2 compared to Snappy, using 16 cores and 1 core. +* `S2 throughput`: Throughput of S2 in MB/s. +* `S2 % smaller`: How many percent of the Snappy output size is S2 better. +* `S2 "better"`: Speed when enabling "better" compression mode in S2 compared to Snappy. +* `"better" throughput`: Speed when enabling "better" compression mode in S2 compared to Snappy. +* `"better" % smaller`: How many percent of the Snappy output size is S2 better when using "better" compression. + +There is a good speedup across the board when using a single thread and a significant speedup when using multiple threads. + +Machine generated data gets by far the biggest compression boost, with size being being reduced by up to 45% of Snappy size. + +The "better" compression mode sees a good improvement in all cases, but usually at a performance cost. + +Incompressible content (`sharnd.out.2gb`, 2GB random data) sees the smallest speedup. +This is likely dominated by synchronization overhead, which is confirmed by the fact that single threaded performance is higher (see above). + +## Decompression + +S2 attempts to create content that is also fast to decompress, except in "better" mode where the smallest representation is used. + +S2 vs Snappy **decompression** speed. Both operating on single core: + +| File | S2 Throughput | vs. Snappy | Better Throughput | vs. Snappy | +|-----------------------------------------------------------------------------------------------------|---------------|------------|-------------------|------------| +| [rawstudio-mint14.tar](https://files.klauspost.com/compress/rawstudio-mint14.7z) | 2117 MB/s | 1.14x | 1738 MB/s | 0.94x | +| [github-june-2days-2019.json](https://files.klauspost.com/compress/github-june-2days-2019.json.zst) | 2401 MB/s | 1.25x | 2307 MB/s | 1.20x | +| [github-ranks-backup.bin](https://files.klauspost.com/compress/github-ranks-backup.bin.zst) | 2075 MB/s | 0.98x | 1764 MB/s | 0.83x | +| [consensus.db.10gb](https://files.klauspost.com/compress/consensus.db.10gb.zst) | 2967 MB/s | 1.05x | 2885 MB/s | 1.02x | +| [adresser.json](https://files.klauspost.com/compress/adresser.json.zst) | 4141 MB/s | 1.07x | 4184 MB/s | 1.08x | +| [gob-stream](https://files.klauspost.com/compress/gob-stream.7z) | 2264 MB/s | 1.12x | 2185 MB/s | 1.08x | +| [10gb.tar](http://mattmahoney.net/dc/10gb.html) | 1525 MB/s | 1.03x | 1347 MB/s | 0.91x | +| sharnd.out.2gb | 3813 MB/s | 0.79x | 3900 MB/s | 0.81x | +| [enwik9](http://mattmahoney.net/dc/textdata.html) | 1246 MB/s | 1.29x | 967 MB/s | 1.00x | +| [silesia.tar](http://sun.aei.polsl.pl/~sdeor/corpus/silesia.zip) | 1433 MB/s | 1.12x | 1203 MB/s | 0.94x | +| [enwik10](https://encode.su/threads/3315-enwik10-benchmark-results) | 1284 MB/s | 1.32x | 1010 MB/s | 1.04x | + +### Legend + +* `S2 Throughput`: Decompression speed of S2 encoded content. +* `Better Throughput`: Decompression speed of S2 "better" encoded content. +* `vs Snappy`: Decompression speed of S2 "better" mode compared to Snappy and absolute speed. + + +While the decompression code hasn't changed, there is a significant speedup in decompression speed. +S2 prefers longer matches and will typically only find matches that are 6 bytes or longer. +While this reduces compression a bit, it improves decompression speed. + +The "better" compression mode will actively look for shorter matches, which is why it has a decompression speed quite similar to Snappy. + +Without assembly decompression is also very fast; single goroutine decompression speed. No assembly: + +| File | S2 Throughput | S2 throughput | +|--------------------------------|--------------|---------------| +| consensus.db.10gb.s2 | 1.84x | 2289.8 MB/s | +| 10gb.tar.s2 | 1.30x | 867.07 MB/s | +| rawstudio-mint14.tar.s2 | 1.66x | 1329.65 MB/s | +| github-june-2days-2019.json.s2 | 2.36x | 1831.59 MB/s | +| github-ranks-backup.bin.s2 | 1.73x | 1390.7 MB/s | +| enwik9.s2 | 1.67x | 681.53 MB/s | +| adresser.json.s2 | 3.41x | 4230.53 MB/s | +| silesia.tar.s2 | 1.52x | 811.58 | + +Even though S2 typically compresses better than Snappy, decompression speed is always better. + +## Block compression + + +When compressing blocks no concurrent compression is performed just as Snappy. +This is because blocks are for smaller payloads and generally will not benefit from concurrent compression. + +An important change is that incompressible blocks will not be more than at most 10 bytes bigger than the input. +In rare, worst case scenario Snappy blocks could be significantly bigger than the input. + +### Mixed content blocks + +The most reliable is a wide dataset. +For this we use [`webdevdata.org-2015-01-07-subset`](https://files.klauspost.com/compress/webdevdata.org-2015-01-07-4GB-subset.7z), +53927 files, total input size: 4,014,735,833 bytes. Single goroutine used. + +| * | Input | Output | Reduction | MB/s | +|-------------------|------------|------------|-----------|--------| +| S2 | 4014735833 | 1059723369 | 73.60% | **934.34** | +| S2 Better | 4014735833 | 969670507 | 75.85% | 532.70 | +| S2 Best | 4014735833 | 906625668 | **77.85%** | 46.84 | +| Snappy | 4014735833 | 1128706759 | 71.89% | 762.59 | +| S2, Snappy Output | 4014735833 | 1093821420 | 72.75% | 908.60 | +| LZ4 | 4014735833 | 1079259294 | 73.12% | 526.94 | + +S2 delivers both the best single threaded throughput with regular mode and the best compression rate with "best". +"Better" mode provides the same compression speed as LZ4 with better compression ratio. + +When outputting Snappy compatible output it still delivers better throughput (150MB/s more) and better compression. + +As can be seen from the other benchmarks decompression should also be easier on the S2 generated output. + +Though they cannot be compared due to different decompression speeds here are the speed/size comparisons for +other Go compressors: + +| * | Input | Output | Reduction | MB/s | +|-------------------|------------|------------|-----------|--------| +| Zstd Fastest (Go) | 4014735833 | 794608518 | 80.21% | 236.04 | +| Zstd Best (Go) | 4014735833 | 704603356 | 82.45% | 35.63 | +| Deflate (Go) l1 | 4014735833 | 871294239 | 78.30% | 214.04 | +| Deflate (Go) l9 | 4014735833 | 730389060 | 81.81% | 41.17 | + +### Standard block compression + +Benchmarking single block performance is subject to a lot more variation since it only tests a limited number of file patterns. +So individual benchmarks should only be seen as a guideline and the overall picture is more important. + +These micro-benchmarks are with data in cache and trained branch predictors. For a more realistic benchmark see the mixed content above. + +Block compression. Parallel benchmark running on 16 cores, 16 goroutines. + +AMD64 assembly is use for both S2 and Snappy. + +| Absolute Perf | Snappy size | S2 Size | Snappy Speed | S2 Speed | Snappy dec | S2 dec | +|-----------------------|-------------|---------|--------------|-------------|-------------|-------------| +| html | 22843 | 21111 | 16246 MB/s | 17438 MB/s | 40972 MB/s | 49263 MB/s | +| urls.10K | 335492 | 287326 | 7943 MB/s | 9693 MB/s | 22523 MB/s | 26484 MB/s | +| fireworks.jpeg | 123034 | 123100 | 349544 MB/s | 273889 MB/s | 718321 MB/s | 827552 MB/s | +| fireworks.jpeg (200B) | 146 | 155 | 8869 MB/s | 17773 MB/s | 33691 MB/s | 52421 MB/s | +| paper-100k.pdf | 85304 | 84459 | 167546 MB/s | 101263 MB/s | 326905 MB/s | 291944 MB/s | +| html_x_4 | 92234 | 21113 | 15194 MB/s | 50670 MB/s | 30843 MB/s | 32217 MB/s | +| alice29.txt | 88034 | 85975 | 5936 MB/s | 6139 MB/s | 12882 MB/s | 20044 MB/s | +| asyoulik.txt | 77503 | 79650 | 5517 MB/s | 6366 MB/s | 12735 MB/s | 22806 MB/s | +| lcet10.txt | 234661 | 220670 | 6235 MB/s | 6067 MB/s | 14519 MB/s | 18697 MB/s | +| plrabn12.txt | 319267 | 317985 | 5159 MB/s | 5726 MB/s | 11923 MB/s | 19901 MB/s | +| geo.protodata | 23335 | 18690 | 21220 MB/s | 26529 MB/s | 56271 MB/s | 62540 MB/s | +| kppkn.gtb | 69526 | 65312 | 9732 MB/s | 8559 MB/s | 18491 MB/s | 18969 MB/s | +| alice29.txt (128B) | 80 | 82 | 6691 MB/s | 15489 MB/s | 31883 MB/s | 38874 MB/s | +| alice29.txt (1000B) | 774 | 774 | 12204 MB/s | 13000 MB/s | 48056 MB/s | 52341 MB/s | +| alice29.txt (10000B) | 6648 | 6933 | 10044 MB/s | 12806 MB/s | 32378 MB/s | 46322 MB/s | +| alice29.txt (20000B) | 12686 | 13574 | 7733 MB/s | 11210 MB/s | 30566 MB/s | 58969 MB/s | + + +| Relative Perf | Snappy size | S2 size improved | S2 Speed | S2 Dec Speed | +|-----------------------|-------------|------------------|----------|--------------| +| html | 22.31% | 7.58% | 1.07x | 1.20x | +| urls.10K | 47.78% | 14.36% | 1.22x | 1.18x | +| fireworks.jpeg | 99.95% | -0.05% | 0.78x | 1.15x | +| fireworks.jpeg (200B) | 73.00% | -6.16% | 2.00x | 1.56x | +| paper-100k.pdf | 83.30% | 0.99% | 0.60x | 0.89x | +| html_x_4 | 22.52% | 77.11% | 3.33x | 1.04x | +| alice29.txt | 57.88% | 2.34% | 1.03x | 1.56x | +| asyoulik.txt | 61.91% | -2.77% | 1.15x | 1.79x | +| lcet10.txt | 54.99% | 5.96% | 0.97x | 1.29x | +| plrabn12.txt | 66.26% | 0.40% | 1.11x | 1.67x | +| geo.protodata | 19.68% | 19.91% | 1.25x | 1.11x | +| kppkn.gtb | 37.72% | 6.06% | 0.88x | 1.03x | +| alice29.txt (128B) | 62.50% | -2.50% | 2.31x | 1.22x | +| alice29.txt (1000B) | 77.40% | 0.00% | 1.07x | 1.09x | +| alice29.txt (10000B) | 66.48% | -4.29% | 1.27x | 1.43x | +| alice29.txt (20000B) | 63.43% | -7.00% | 1.45x | 1.93x | + +Speed is generally at or above Snappy. Small blocks gets a significant speedup, although at the expense of size. + +Decompression speed is better than Snappy, except in one case. + +Since payloads are very small the variance in terms of size is rather big, so they should only be seen as a general guideline. + +Size is on average around Snappy, but varies on content type. +In cases where compression is worse, it usually is compensated by a speed boost. + + +### Better compression + +Benchmarking single block performance is subject to a lot more variation since it only tests a limited number of file patterns. +So individual benchmarks should only be seen as a guideline and the overall picture is more important. + +| Absolute Perf | Snappy size | Better Size | Snappy Speed | Better Speed | Snappy dec | Better dec | +|-----------------------|-------------|-------------|--------------|--------------|-------------|-------------| +| html | 22843 | 19833 | 16246 MB/s | 7731 MB/s | 40972 MB/s | 40292 MB/s | +| urls.10K | 335492 | 253529 | 7943 MB/s | 3980 MB/s | 22523 MB/s | 20981 MB/s | +| fireworks.jpeg | 123034 | 123100 | 349544 MB/s | 9760 MB/s | 718321 MB/s | 823698 MB/s | +| fireworks.jpeg (200B) | 146 | 142 | 8869 MB/s | 594 MB/s | 33691 MB/s | 30101 MB/s | +| paper-100k.pdf | 85304 | 82915 | 167546 MB/s | 7470 MB/s | 326905 MB/s | 198869 MB/s | +| html_x_4 | 92234 | 19841 | 15194 MB/s | 23403 MB/s | 30843 MB/s | 30937 MB/s | +| alice29.txt | 88034 | 73218 | 5936 MB/s | 2945 MB/s | 12882 MB/s | 16611 MB/s | +| asyoulik.txt | 77503 | 66844 | 5517 MB/s | 2739 MB/s | 12735 MB/s | 14975 MB/s | +| lcet10.txt | 234661 | 190589 | 6235 MB/s | 3099 MB/s | 14519 MB/s | 16634 MB/s | +| plrabn12.txt | 319267 | 270828 | 5159 MB/s | 2600 MB/s | 11923 MB/s | 13382 MB/s | +| geo.protodata | 23335 | 18278 | 21220 MB/s | 11208 MB/s | 56271 MB/s | 57961 MB/s | +| kppkn.gtb | 69526 | 61851 | 9732 MB/s | 4556 MB/s | 18491 MB/s | 16524 MB/s | +| alice29.txt (128B) | 80 | 81 | 6691 MB/s | 529 MB/s | 31883 MB/s | 34225 MB/s | +| alice29.txt (1000B) | 774 | 748 | 12204 MB/s | 1943 MB/s | 48056 MB/s | 42068 MB/s | +| alice29.txt (10000B) | 6648 | 6234 | 10044 MB/s | 2949 MB/s | 32378 MB/s | 28813 MB/s | +| alice29.txt (20000B) | 12686 | 11584 | 7733 MB/s | 2822 MB/s | 30566 MB/s | 27315 MB/s | + + +| Relative Perf | Snappy size | Better size | Better Speed | Better dec | +|-----------------------|-------------|-------------|--------------|------------| +| html | 22.31% | 13.18% | 0.48x | 0.98x | +| urls.10K | 47.78% | 24.43% | 0.50x | 0.93x | +| fireworks.jpeg | 99.95% | -0.05% | 0.03x | 1.15x | +| fireworks.jpeg (200B) | 73.00% | 2.74% | 0.07x | 0.89x | +| paper-100k.pdf | 83.30% | 2.80% | 0.07x | 0.61x | +| html_x_4 | 22.52% | 78.49% | 0.04x | 1.00x | +| alice29.txt | 57.88% | 16.83% | 1.54x | 1.29x | +| asyoulik.txt | 61.91% | 13.75% | 0.50x | 1.18x | +| lcet10.txt | 54.99% | 18.78% | 0.50x | 1.15x | +| plrabn12.txt | 66.26% | 15.17% | 0.50x | 1.12x | +| geo.protodata | 19.68% | 21.67% | 0.50x | 1.03x | +| kppkn.gtb | 37.72% | 11.04% | 0.53x | 0.89x | +| alice29.txt (128B) | 62.50% | -1.25% | 0.47x | 1.07x | +| alice29.txt (1000B) | 77.40% | 3.36% | 0.08x | 0.88x | +| alice29.txt (10000B) | 66.48% | 6.23% | 0.16x | 0.89x | +| alice29.txt (20000B) | 63.43% | 8.69% | 0.29x | 0.89x | + +Except for the mostly incompressible JPEG image compression is better and usually in the +double digits in terms of percentage reduction over Snappy. + +The PDF sample shows a significant slowdown compared to Snappy, as this mode tries harder +to compress the data. Very small blocks are also not favorable for better compression, so throughput is way down. + +This mode aims to provide better compression at the expense of performance and achieves that +without a huge performance penalty, except on very small blocks. + +Decompression speed suffers a little compared to the regular S2 mode, +but still manages to be close to Snappy in spite of increased compression. + +# Best compression mode + +S2 offers a "best" compression mode. + +This will compress as much as possible with little regard to CPU usage. + +Mainly for offline compression, but where decompression speed should still +be high and compatible with other S2 compressed data. + +Some examples compared on 16 core CPU, amd64 assembly used: + +``` +* enwik10 +Default... 10000000000 -> 4761467548 [47.61%]; 1.098s, 8685.6MB/s +Better... 10000000000 -> 4219438251 [42.19%]; 1.925s, 4954.2MB/s +Best... 10000000000 -> 3627364337 [36.27%]; 43.051s, 221.5MB/s + +* github-june-2days-2019.json +Default... 6273951764 -> 1043196283 [16.63%]; 431ms, 13882.3MB/s +Better... 6273951764 -> 949146808 [15.13%]; 547ms, 10938.4MB/s +Best... 6273951764 -> 832855506 [13.27%]; 9.455s, 632.8MB/s + +* nyc-taxi-data-10M.csv +Default... 3325605752 -> 1095998837 [32.96%]; 324ms, 9788.7MB/s +Better... 3325605752 -> 954776589 [28.71%]; 491ms, 6459.4MB/s +Best... 3325605752 -> 779098746 [23.43%]; 8.29s, 382.6MB/s + +* 10gb.tar +Default... 10065157632 -> 5916578242 [58.78%]; 1.028s, 9337.4MB/s +Better... 10065157632 -> 5649207485 [56.13%]; 1.597s, 6010.6MB/s +Best... 10065157632 -> 5208719802 [51.75%]; 32.78s, 292.8MB/ + +* consensus.db.10gb +Default... 10737418240 -> 4562648848 [42.49%]; 882ms, 11610.0MB/s +Better... 10737418240 -> 4542428129 [42.30%]; 1.533s, 6679.7MB/s +Best... 10737418240 -> 4244773384 [39.53%]; 42.96s, 238.4MB/s +``` + +Decompression speed should be around the same as using the 'better' compression mode. + +# Snappy Compatibility + +S2 now offers full compatibility with Snappy. + +This means that the efficient encoders of S2 can be used to generate fully Snappy compatible output. + +There is a [snappy](https://github.com/klauspost/compress/tree/master/snappy) package that can be used by +simply changing imports from `github.com/golang/snappy` to `github.com/klauspost/compress/snappy`. +This uses "better" mode for all operations. +If you would like more control, you can use the s2 package as described below: + +## Blocks + +Snappy compatible blocks can be generated with the S2 encoder. +Compression and speed is typically a bit better `MaxEncodedLen` is also smaller for smaller memory usage. Replace + +| Snappy | S2 replacement | +|----------------------------|-------------------------| +| snappy.Encode(...) | s2.EncodeSnappy(...) | +| snappy.MaxEncodedLen(...) | s2.MaxEncodedLen(...) | + +`s2.EncodeSnappy` can be replaced with `s2.EncodeSnappyBetter` or `s2.EncodeSnappyBest` to get more efficiently compressed snappy compatible output. + +`s2.ConcatBlocks` is compatible with snappy blocks. + +Comparison of [`webdevdata.org-2015-01-07-subset`](https://files.klauspost.com/compress/webdevdata.org-2015-01-07-4GB-subset.7z), +53927 files, total input size: 4,014,735,833 bytes. amd64, single goroutine used: + +| Encoder | Size | MB/s | Reduction | +|-----------------------|------------|--------|------------ +| snappy.Encode | 1128706759 | 725.59 | 71.89% | +| s2.EncodeSnappy | 1093823291 | 899.16 | 72.75% | +| s2.EncodeSnappyBetter | 1001158548 | 578.49 | 75.06% | +| s2.EncodeSnappyBest | 944507998 | 66.00 | 76.47% | + +## Streams + +For streams, replace `enc = snappy.NewBufferedWriter(w)` with `enc = s2.NewWriter(w, s2.WriterSnappyCompat())`. +All other options are available, but note that block size limit is different for snappy. + +Comparison of different streams, AMD Ryzen 3950x, 16 cores. Size and throughput: + +| File | snappy.NewWriter | S2 Snappy | S2 Snappy, Better | S2 Snappy, Best | +|-----------------------------|--------------------------|---------------------------|--------------------------|-------------------------| +| nyc-taxi-data-10M.csv | 1316042016 - 517.54MB/s | 1307003093 - 8406.29MB/s | 1174534014 - 4984.35MB/s | 1115904679 - 177.81MB/s | +| enwik10 | 5088294643 - 433.45MB/s | 5175840939 - 8454.52MB/s | 4560784526 - 4403.10MB/s | 4340299103 - 159.71MB/s | +| 10gb.tar | 6056946612 - 703.25MB/s | 6208571995 - 9035.75MB/s | 5741646126 - 2402.08MB/s | 5548973895 - 171.17MB/s | +| github-june-2days-2019.json | 1525176492 - 908.11MB/s | 1476519054 - 12625.93MB/s | 1400547532 - 6163.61MB/s | 1321887137 - 200.71MB/s | +| consensus.db.10gb | 5412897703 - 1054.38MB/s | 5354073487 - 12634.82MB/s | 5335069899 - 2472.23MB/s | 5201000954 - 166.32MB/s | + +# Decompression + +All decompression functions map directly to equivalent s2 functions. + +| Snappy | S2 replacement | +|------------------------|--------------------| +| snappy.Decode(...) | s2.Decode(...) | +| snappy.DecodedLen(...) | s2.DecodedLen(...) | +| snappy.NewReader(...) | s2.NewReader(...) | + +Features like [quick forward skipping without decompression](https://pkg.go.dev/github.com/klauspost/compress/s2#Reader.Skip) +are also available for Snappy streams. + +If you know you are only decompressing snappy streams, setting [`ReaderMaxBlockSize(64<<10)`](https://pkg.go.dev/github.com/klauspost/compress/s2#ReaderMaxBlockSize) +on your Reader will reduce memory consumption. + +# Concatenating blocks and streams. + +Concatenating streams will concatenate the output of both without recompressing them. +While this is inefficient in terms of compression it might be usable in certain scenarios. +The 10 byte 'stream identifier' of the second stream can optionally be stripped, but it is not a requirement. + +Blocks can be concatenated using the `ConcatBlocks` function. + +Snappy blocks/streams can safely be concatenated with S2 blocks and streams. + +# Format Extensions + +* Frame [Stream identifier](https://github.com/google/snappy/blob/master/framing_format.txt#L68) changed from `sNaPpY` to `S2sTwO`. +* [Framed compressed blocks](https://github.com/google/snappy/blob/master/format_description.txt) can be up to 4MB (up from 64KB). +* Compressed blocks can have an offset of `0`, which indicates to repeat the last seen offset. + +Repeat offsets must be encoded as a [2.2.1. Copy with 1-byte offset (01)](https://github.com/google/snappy/blob/master/format_description.txt#L89), where the offset is 0. + +The length is specified by reading the 3-bit length specified in the tag and decode using this table: + +| Length | Actual Length | +|--------|----------------------| +| 0 | 4 | +| 1 | 5 | +| 2 | 6 | +| 3 | 7 | +| 4 | 8 | +| 5 | 8 + read 1 byte | +| 6 | 260 + read 2 bytes | +| 7 | 65540 + read 3 bytes | + +This allows any repeat offset + length to be represented by 2 to 5 bytes. + +Lengths are stored as little endian values. + +The first copy of a block cannot be a repeat offset and the offset is not carried across blocks in streams. + +Default streaming block size is 1MB. + +# LICENSE + +This code is based on the [Snappy-Go](https://github.com/golang/snappy) implementation. + +Use of this source code is governed by a BSD-style license that can be found in the LICENSE file. diff --git a/vendor/github.com/klauspost/compress/s2/decode.go b/vendor/github.com/klauspost/compress/s2/decode.go new file mode 100644 index 00000000..d0ae5304 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/decode.go @@ -0,0 +1,565 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package s2 + +import ( + "encoding/binary" + "errors" + "io" +) + +var ( + // ErrCorrupt reports that the input is invalid. + ErrCorrupt = errors.New("s2: corrupt input") + // ErrCRC reports that the input failed CRC validation (streams only) + ErrCRC = errors.New("s2: corrupt input, crc mismatch") + // ErrTooLarge reports that the uncompressed length is too large. + ErrTooLarge = errors.New("s2: decoded block is too large") + // ErrUnsupported reports that the input isn't supported. + ErrUnsupported = errors.New("s2: unsupported input") +) + +// DecodedLen returns the length of the decoded block. +func DecodedLen(src []byte) (int, error) { + v, _, err := decodedLen(src) + return v, err +} + +// decodedLen returns the length of the decoded block and the number of bytes +// that the length header occupied. +func decodedLen(src []byte) (blockLen, headerLen int, err error) { + v, n := binary.Uvarint(src) + if n <= 0 || v > 0xffffffff { + return 0, 0, ErrCorrupt + } + + const wordSize = 32 << (^uint(0) >> 32 & 1) + if wordSize == 32 && v > 0x7fffffff { + return 0, 0, ErrTooLarge + } + return int(v), n, nil +} + +const ( + decodeErrCodeCorrupt = 1 +) + +// Decode returns the decoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire decoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +func Decode(dst, src []byte) ([]byte, error) { + dLen, s, err := decodedLen(src) + if err != nil { + return nil, err + } + if dLen <= cap(dst) { + dst = dst[:dLen] + } else { + dst = make([]byte, dLen) + } + if s2Decode(dst, src[s:]) != 0 { + return nil, ErrCorrupt + } + return dst, nil +} + +// NewReader returns a new Reader that decompresses from r, using the framing +// format described at +// https://github.com/google/snappy/blob/master/framing_format.txt with S2 changes. +func NewReader(r io.Reader, opts ...ReaderOption) *Reader { + nr := Reader{ + r: r, + maxBlock: maxBlockSize, + } + for _, opt := range opts { + if err := opt(&nr); err != nil { + nr.err = err + return &nr + } + } + nr.maxBufSize = MaxEncodedLen(nr.maxBlock) + checksumSize + if nr.lazyBuf > 0 { + nr.buf = make([]byte, MaxEncodedLen(nr.lazyBuf)+checksumSize) + } else { + nr.buf = make([]byte, MaxEncodedLen(defaultBlockSize)+checksumSize) + } + nr.paramsOK = true + return &nr +} + +// ReaderOption is an option for creating a decoder. +type ReaderOption func(*Reader) error + +// ReaderMaxBlockSize allows to control allocations if the stream +// has been compressed with a smaller WriterBlockSize, or with the default 1MB. +// Blocks must be this size or smaller to decompress, +// otherwise the decoder will return ErrUnsupported. +// +// For streams compressed with Snappy this can safely be set to 64KB (64 << 10). +// +// Default is the maximum limit of 4MB. +func ReaderMaxBlockSize(blockSize int) ReaderOption { + return func(r *Reader) error { + if blockSize > maxBlockSize || blockSize <= 0 { + return errors.New("s2: block size too large. Must be <= 4MB and > 0") + } + if r.lazyBuf == 0 && blockSize < defaultBlockSize { + r.lazyBuf = blockSize + } + r.maxBlock = blockSize + return nil + } +} + +// ReaderAllocBlock allows to control upfront stream allocations +// and not allocate for frames bigger than this initially. +// If frames bigger than this is seen a bigger buffer will be allocated. +// +// Default is 1MB, which is default output size. +func ReaderAllocBlock(blockSize int) ReaderOption { + return func(r *Reader) error { + if blockSize > maxBlockSize || blockSize < 1024 { + return errors.New("s2: invalid ReaderAllocBlock. Must be <= 4MB and >= 1024") + } + r.lazyBuf = blockSize + return nil + } +} + +// Reader is an io.Reader that can read Snappy-compressed bytes. +type Reader struct { + r io.Reader + err error + decoded []byte + buf []byte + // decoded[i:j] contains decoded bytes that have not yet been passed on. + i, j int + // maximum block size allowed. + maxBlock int + // maximum expected buffer size. + maxBufSize int + // alloc a buffer this size if > 0. + lazyBuf int + readHeader bool + paramsOK bool + snappyFrame bool +} + +// ensureBufferSize will ensure that the buffer can take at least n bytes. +// If false is returned the buffer exceeds maximum allowed size. +func (r *Reader) ensureBufferSize(n int) bool { + if len(r.buf) >= n { + return true + } + if n > r.maxBufSize { + r.err = ErrCorrupt + return false + } + // Realloc buffer. + r.buf = make([]byte, n) + return true +} + +// Reset discards any buffered data, resets all state, and switches the Snappy +// reader to read from r. This permits reusing a Reader rather than allocating +// a new one. +func (r *Reader) Reset(reader io.Reader) { + if !r.paramsOK { + return + } + r.r = reader + r.err = nil + r.i = 0 + r.j = 0 + r.readHeader = false +} + +func (r *Reader) readFull(p []byte, allowEOF bool) (ok bool) { + if _, r.err = io.ReadFull(r.r, p); r.err != nil { + if r.err == io.ErrUnexpectedEOF || (r.err == io.EOF && !allowEOF) { + r.err = ErrCorrupt + } + return false + } + return true +} + +// skipN will skip n bytes. +// If the supplied reader supports seeking that is used. +// tmp is used as a temporary buffer for reading. +// The supplied slice does not need to be the size of the read. +func (r *Reader) skipN(tmp []byte, n int, allowEOF bool) (ok bool) { + if rs, ok := r.r.(io.ReadSeeker); ok { + _, err := rs.Seek(int64(n), io.SeekCurrent) + if err == nil { + return true + } + if err == io.ErrUnexpectedEOF || (r.err == io.EOF && !allowEOF) { + r.err = ErrCorrupt + return false + } + } + for n > 0 { + if n < len(tmp) { + tmp = tmp[:n] + } + if _, r.err = io.ReadFull(r.r, tmp); r.err != nil { + if r.err == io.ErrUnexpectedEOF || (r.err == io.EOF && !allowEOF) { + r.err = ErrCorrupt + } + return false + } + n -= len(tmp) + } + return true +} + +// Read satisfies the io.Reader interface. +func (r *Reader) Read(p []byte) (int, error) { + if r.err != nil { + return 0, r.err + } + for { + if r.i < r.j { + n := copy(p, r.decoded[r.i:r.j]) + r.i += n + return n, nil + } + if !r.readFull(r.buf[:4], true) { + return 0, r.err + } + chunkType := r.buf[0] + if !r.readHeader { + if chunkType != chunkTypeStreamIdentifier { + r.err = ErrCorrupt + return 0, r.err + } + r.readHeader = true + } + chunkLen := int(r.buf[1]) | int(r.buf[2])<<8 | int(r.buf[3])<<16 + + // The chunk types are specified at + // https://github.com/google/snappy/blob/master/framing_format.txt + switch chunkType { + case chunkTypeCompressedData: + // Section 4.2. Compressed data (chunk type 0x00). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return 0, r.err + } + if !r.ensureBufferSize(chunkLen) { + if r.err == nil { + r.err = ErrUnsupported + } + return 0, r.err + } + buf := r.buf[:chunkLen] + if !r.readFull(buf, false) { + return 0, r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + buf = buf[checksumSize:] + + n, err := DecodedLen(buf) + if err != nil { + r.err = err + return 0, r.err + } + if r.snappyFrame && n > maxSnappyBlockSize { + r.err = ErrCorrupt + return 0, r.err + } + + if n > len(r.decoded) { + if n > r.maxBlock { + r.err = ErrCorrupt + return 0, r.err + } + r.decoded = make([]byte, n) + } + if _, err := Decode(r.decoded, buf); err != nil { + r.err = err + return 0, r.err + } + if crc(r.decoded[:n]) != checksum { + r.err = ErrCRC + return 0, r.err + } + r.i, r.j = 0, n + continue + + case chunkTypeUncompressedData: + // Section 4.3. Uncompressed data (chunk type 0x01). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return 0, r.err + } + if !r.ensureBufferSize(chunkLen) { + if r.err == nil { + r.err = ErrUnsupported + } + return 0, r.err + } + buf := r.buf[:checksumSize] + if !r.readFull(buf, false) { + return 0, r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + // Read directly into r.decoded instead of via r.buf. + n := chunkLen - checksumSize + if r.snappyFrame && n > maxSnappyBlockSize { + r.err = ErrCorrupt + return 0, r.err + } + if n > len(r.decoded) { + if n > r.maxBlock { + r.err = ErrCorrupt + return 0, r.err + } + r.decoded = make([]byte, n) + } + if !r.readFull(r.decoded[:n], false) { + return 0, r.err + } + if crc(r.decoded[:n]) != checksum { + r.err = ErrCRC + return 0, r.err + } + r.i, r.j = 0, n + continue + + case chunkTypeStreamIdentifier: + // Section 4.1. Stream identifier (chunk type 0xff). + if chunkLen != len(magicBody) { + r.err = ErrCorrupt + return 0, r.err + } + if !r.readFull(r.buf[:len(magicBody)], false) { + return 0, r.err + } + if string(r.buf[:len(magicBody)]) != magicBody { + if string(r.buf[:len(magicBody)]) != magicBodySnappy { + r.err = ErrCorrupt + return 0, r.err + } else { + r.snappyFrame = true + } + } else { + r.snappyFrame = false + } + continue + } + + if chunkType <= 0x7f { + // Section 4.5. Reserved unskippable chunks (chunk types 0x02-0x7f). + r.err = ErrUnsupported + return 0, r.err + } + // Section 4.4 Padding (chunk type 0xfe). + // Section 4.6. Reserved skippable chunks (chunk types 0x80-0xfd). + if chunkLen > maxBlockSize { + r.err = ErrUnsupported + return 0, r.err + } + + if !r.skipN(r.buf, chunkLen, false) { + return 0, r.err + } + } +} + +// Skip will skip n bytes forward in the decompressed output. +// For larger skips this consumes less CPU and is faster than reading output and discarding it. +// CRC is not checked on skipped blocks. +// io.ErrUnexpectedEOF is returned if the stream ends before all bytes have been skipped. +// If a decoding error is encountered subsequent calls to Read will also fail. +func (r *Reader) Skip(n int64) error { + if n < 0 { + return errors.New("attempted negative skip") + } + if r.err != nil { + return r.err + } + + for n > 0 { + if r.i < r.j { + // Skip in buffer. + // decoded[i:j] contains decoded bytes that have not yet been passed on. + left := int64(r.j - r.i) + if left >= n { + r.i += int(n) + return nil + } + n -= int64(r.j - r.i) + r.i, r.j = 0, 0 + } + + // Buffer empty; read blocks until we have content. + if !r.readFull(r.buf[:4], true) { + if r.err == io.EOF { + r.err = io.ErrUnexpectedEOF + } + return r.err + } + chunkType := r.buf[0] + if !r.readHeader { + if chunkType != chunkTypeStreamIdentifier { + r.err = ErrCorrupt + return r.err + } + r.readHeader = true + } + chunkLen := int(r.buf[1]) | int(r.buf[2])<<8 | int(r.buf[3])<<16 + + // The chunk types are specified at + // https://github.com/google/snappy/blob/master/framing_format.txt + switch chunkType { + case chunkTypeCompressedData: + // Section 4.2. Compressed data (chunk type 0x00). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return r.err + } + if !r.ensureBufferSize(chunkLen) { + if r.err == nil { + r.err = ErrUnsupported + } + return r.err + } + buf := r.buf[:chunkLen] + if !r.readFull(buf, false) { + return r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + buf = buf[checksumSize:] + + dLen, err := DecodedLen(buf) + if err != nil { + r.err = err + return r.err + } + if dLen > r.maxBlock { + r.err = ErrCorrupt + return r.err + } + // Check if destination is within this block + if int64(dLen) > n { + if len(r.decoded) < dLen { + r.decoded = make([]byte, dLen) + } + if _, err := Decode(r.decoded, buf); err != nil { + r.err = err + return r.err + } + if crc(r.decoded[:dLen]) != checksum { + r.err = ErrCorrupt + return r.err + } + } else { + // Skip block completely + n -= int64(dLen) + dLen = 0 + } + r.i, r.j = 0, dLen + continue + case chunkTypeUncompressedData: + // Section 4.3. Uncompressed data (chunk type 0x01). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return r.err + } + if !r.ensureBufferSize(chunkLen) { + if r.err != nil { + r.err = ErrUnsupported + } + return r.err + } + buf := r.buf[:checksumSize] + if !r.readFull(buf, false) { + return r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + // Read directly into r.decoded instead of via r.buf. + n2 := chunkLen - checksumSize + if n2 > len(r.decoded) { + if n2 > r.maxBlock { + r.err = ErrCorrupt + return r.err + } + r.decoded = make([]byte, n2) + } + if !r.readFull(r.decoded[:n2], false) { + return r.err + } + if int64(n2) < n { + if crc(r.decoded[:n2]) != checksum { + r.err = ErrCorrupt + return r.err + } + } + r.i, r.j = 0, n2 + continue + case chunkTypeStreamIdentifier: + // Section 4.1. Stream identifier (chunk type 0xff). + if chunkLen != len(magicBody) { + r.err = ErrCorrupt + return r.err + } + if !r.readFull(r.buf[:len(magicBody)], false) { + return r.err + } + if string(r.buf[:len(magicBody)]) != magicBody { + if string(r.buf[:len(magicBody)]) != magicBodySnappy { + r.err = ErrCorrupt + return r.err + } + } + + continue + } + + if chunkType <= 0x7f { + // Section 4.5. Reserved unskippable chunks (chunk types 0x02-0x7f). + r.err = ErrUnsupported + return r.err + } + if chunkLen > maxBlockSize { + r.err = ErrUnsupported + return r.err + } + // Section 4.4 Padding (chunk type 0xfe). + // Section 4.6. Reserved skippable chunks (chunk types 0x80-0xfd). + if !r.skipN(r.buf, chunkLen, false) { + return r.err + } + } + return nil +} + +// ReadByte satisfies the io.ByteReader interface. +func (r *Reader) ReadByte() (byte, error) { + if r.err != nil { + return 0, r.err + } + if r.i < r.j { + c := r.decoded[r.i] + r.i++ + return c, nil + } + var tmp [1]byte + for i := 0; i < 10; i++ { + n, err := r.Read(tmp[:]) + if err != nil { + return 0, err + } + if n == 1 { + return tmp[0], nil + } + } + return 0, io.ErrNoProgress +} diff --git a/vendor/github.com/klauspost/compress/s2/decode_amd64.s b/vendor/github.com/klauspost/compress/s2/decode_amd64.s new file mode 100644 index 00000000..9b105e03 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/decode_amd64.s @@ -0,0 +1,568 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +#include "textflag.h" + +#define R_TMP0 AX +#define R_TMP1 BX +#define R_LEN CX +#define R_OFF DX +#define R_SRC SI +#define R_DST DI +#define R_DBASE R8 +#define R_DLEN R9 +#define R_DEND R10 +#define R_SBASE R11 +#define R_SLEN R12 +#define R_SEND R13 +#define R_TMP2 R14 +#define R_TMP3 R15 + +// The asm code generally follows the pure Go code in decode_other.go, except +// where marked with a "!!!". + +// func decode(dst, src []byte) int +// +// All local variables fit into registers. The non-zero stack size is only to +// spill registers and push args when issuing a CALL. The register allocation: +// - R_TMP0 scratch +// - R_TMP1 scratch +// - R_LEN length or x (shared) +// - R_OFF offset +// - R_SRC &src[s] +// - R_DST &dst[d] +// + R_DBASE dst_base +// + R_DLEN dst_len +// + R_DEND dst_base + dst_len +// + R_SBASE src_base +// + R_SLEN src_len +// + R_SEND src_base + src_len +// - R_TMP2 used by doCopy +// - R_TMP3 used by doCopy +// +// The registers R_DBASE-R_SEND (marked with a "+") are set at the start of the +// function, and after a CALL returns, and are not otherwise modified. +// +// The d variable is implicitly R_DST - R_DBASE, and len(dst)-d is R_DEND - R_DST. +// The s variable is implicitly R_SRC - R_SBASE, and len(src)-s is R_SEND - R_SRC. +TEXT ·s2Decode(SB), NOSPLIT, $48-56 + // Initialize R_SRC, R_DST and R_DBASE-R_SEND. + MOVQ dst_base+0(FP), R_DBASE + MOVQ dst_len+8(FP), R_DLEN + MOVQ R_DBASE, R_DST + MOVQ R_DBASE, R_DEND + ADDQ R_DLEN, R_DEND + MOVQ src_base+24(FP), R_SBASE + MOVQ src_len+32(FP), R_SLEN + MOVQ R_SBASE, R_SRC + MOVQ R_SBASE, R_SEND + ADDQ R_SLEN, R_SEND + XORQ R_OFF, R_OFF + +loop: + // for s < len(src) + CMPQ R_SRC, R_SEND + JEQ end + + // R_LEN = uint32(src[s]) + // + // switch src[s] & 0x03 + MOVBLZX (R_SRC), R_LEN + MOVL R_LEN, R_TMP1 + ANDL $3, R_TMP1 + CMPL R_TMP1, $1 + JAE tagCopy + + // ---------------------------------------- + // The code below handles literal tags. + + // case tagLiteral: + // x := uint32(src[s] >> 2) + // switch + SHRL $2, R_LEN + CMPL R_LEN, $60 + JAE tagLit60Plus + + // case x < 60: + // s++ + INCQ R_SRC + +doLit: + // This is the end of the inner "switch", when we have a literal tag. + // + // We assume that R_LEN == x and x fits in a uint32, where x is the variable + // used in the pure Go decode_other.go code. + + // length = int(x) + 1 + // + // Unlike the pure Go code, we don't need to check if length <= 0 because + // R_LEN can hold 64 bits, so the increment cannot overflow. + INCQ R_LEN + + // Prepare to check if copying length bytes will run past the end of dst or + // src. + // + // R_TMP0 = len(dst) - d + // R_TMP1 = len(src) - s + MOVQ R_DEND, R_TMP0 + SUBQ R_DST, R_TMP0 + MOVQ R_SEND, R_TMP1 + SUBQ R_SRC, R_TMP1 + + // !!! Try a faster technique for short (16 or fewer bytes) copies. + // + // if length > 16 || len(dst)-d < 16 || len(src)-s < 16 { + // goto callMemmove // Fall back on calling runtime·memmove. + // } + // + // The C++ snappy code calls this TryFastAppend. It also checks len(src)-s + // against 21 instead of 16, because it cannot assume that all of its input + // is contiguous in memory and so it needs to leave enough source bytes to + // read the next tag without refilling buffers, but Go's Decode assumes + // contiguousness (the src argument is a []byte). + CMPQ R_LEN, $16 + JGT callMemmove + CMPQ R_TMP0, $16 + JLT callMemmove + CMPQ R_TMP1, $16 + JLT callMemmove + + // !!! Implement the copy from src to dst as a 16-byte load and store. + // (Decode's documentation says that dst and src must not overlap.) + // + // This always copies 16 bytes, instead of only length bytes, but that's + // OK. If the input is a valid Snappy encoding then subsequent iterations + // will fix up the overrun. Otherwise, Decode returns a nil []byte (and a + // non-nil error), so the overrun will be ignored. + // + // Note that on amd64, it is legal and cheap to issue unaligned 8-byte or + // 16-byte loads and stores. This technique probably wouldn't be as + // effective on architectures that are fussier about alignment. + MOVOU 0(R_SRC), X0 + MOVOU X0, 0(R_DST) + + // d += length + // s += length + ADDQ R_LEN, R_DST + ADDQ R_LEN, R_SRC + JMP loop + +callMemmove: + // if length > len(dst)-d || length > len(src)-s { etc } + CMPQ R_LEN, R_TMP0 + JGT errCorrupt + CMPQ R_LEN, R_TMP1 + JGT errCorrupt + + // copy(dst[d:], src[s:s+length]) + // + // This means calling runtime·memmove(&dst[d], &src[s], length), so we push + // R_DST, R_SRC and R_LEN as arguments. Coincidentally, we also need to spill those + // three registers to the stack, to save local variables across the CALL. + MOVQ R_DST, 0(SP) + MOVQ R_SRC, 8(SP) + MOVQ R_LEN, 16(SP) + MOVQ R_DST, 24(SP) + MOVQ R_SRC, 32(SP) + MOVQ R_LEN, 40(SP) + MOVQ R_OFF, 48(SP) + CALL runtime·memmove(SB) + + // Restore local variables: unspill registers from the stack and + // re-calculate R_DBASE-R_SEND. + MOVQ 24(SP), R_DST + MOVQ 32(SP), R_SRC + MOVQ 40(SP), R_LEN + MOVQ 48(SP), R_OFF + MOVQ dst_base+0(FP), R_DBASE + MOVQ dst_len+8(FP), R_DLEN + MOVQ R_DBASE, R_DEND + ADDQ R_DLEN, R_DEND + MOVQ src_base+24(FP), R_SBASE + MOVQ src_len+32(FP), R_SLEN + MOVQ R_SBASE, R_SEND + ADDQ R_SLEN, R_SEND + + // d += length + // s += length + ADDQ R_LEN, R_DST + ADDQ R_LEN, R_SRC + JMP loop + +tagLit60Plus: + // !!! This fragment does the + // + // s += x - 58; if uint(s) > uint(len(src)) { etc } + // + // checks. In the asm version, we code it once instead of once per switch case. + ADDQ R_LEN, R_SRC + SUBQ $58, R_SRC + CMPQ R_SRC, R_SEND + JA errCorrupt + + // case x == 60: + CMPL R_LEN, $61 + JEQ tagLit61 + JA tagLit62Plus + + // x = uint32(src[s-1]) + MOVBLZX -1(R_SRC), R_LEN + JMP doLit + +tagLit61: + // case x == 61: + // x = uint32(src[s-2]) | uint32(src[s-1])<<8 + MOVWLZX -2(R_SRC), R_LEN + JMP doLit + +tagLit62Plus: + CMPL R_LEN, $62 + JA tagLit63 + + // case x == 62: + // x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + // We read one byte, safe to read one back, since we are just reading tag. + // x = binary.LittleEndian.Uint32(src[s-1:]) >> 8 + MOVL -4(R_SRC), R_LEN + SHRL $8, R_LEN + JMP doLit + +tagLit63: + // case x == 63: + // x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + MOVL -4(R_SRC), R_LEN + JMP doLit + +// The code above handles literal tags. +// ---------------------------------------- +// The code below handles copy tags. + +tagCopy4: + // case tagCopy4: + // s += 5 + ADDQ $5, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // length = 1 + int(src[s-5])>>2 + SHRQ $2, R_LEN + INCQ R_LEN + + // offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + MOVLQZX -4(R_SRC), R_OFF + JMP doCopy + +tagCopy2: + // case tagCopy2: + // s += 3 + ADDQ $3, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // length = 1 + int(src[s-3])>>2 + SHRQ $2, R_LEN + INCQ R_LEN + + // offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + MOVWQZX -2(R_SRC), R_OFF + JMP doCopy + +tagCopy: + // We have a copy tag. We assume that: + // - R_TMP1 == src[s] & 0x03 + // - R_LEN == src[s] + CMPQ R_TMP1, $2 + JEQ tagCopy2 + JA tagCopy4 + + // case tagCopy1: + // s += 2 + ADDQ $2, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // offset = int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + // length = 4 + int(src[s-2])>>2&0x7 + MOVBQZX -1(R_SRC), R_TMP1 + MOVQ R_LEN, R_TMP0 + SHRQ $2, R_LEN + ANDQ $0xe0, R_TMP0 + ANDQ $7, R_LEN + SHLQ $3, R_TMP0 + ADDQ $4, R_LEN + ORQ R_TMP1, R_TMP0 + + // check if repeat code, ZF set by ORQ. + JZ repeatCode + + // This is a regular copy, transfer our temporary value to R_OFF (length) + MOVQ R_TMP0, R_OFF + JMP doCopy + +// This is a repeat code. +repeatCode: + // If length < 9, reuse last offset, with the length already calculated. + CMPQ R_LEN, $9 + JL doCopyRepeat + + // Read additional bytes for length. + JE repeatLen1 + + // Rare, so the extra branch shouldn't hurt too much. + CMPQ R_LEN, $10 + JE repeatLen2 + JMP repeatLen3 + +// Read repeat lengths. +repeatLen1: + // s ++ + ADDQ $1, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // length = src[s-1] + 8 + MOVBQZX -1(R_SRC), R_LEN + ADDL $8, R_LEN + JMP doCopyRepeat + +repeatLen2: + // s +=2 + ADDQ $2, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // length = uint32(src[s-2]) | (uint32(src[s-1])<<8) + (1 << 8) + MOVWQZX -2(R_SRC), R_LEN + ADDL $260, R_LEN + JMP doCopyRepeat + +repeatLen3: + // s +=3 + ADDQ $3, R_SRC + + // if uint(s) > uint(len(src)) { etc } + CMPQ R_SRC, R_SEND + JA errCorrupt + + // length = uint32(src[s-3]) | (uint32(src[s-2])<<8) | (uint32(src[s-1])<<16) + (1 << 16) + // Read one byte further back (just part of the tag, shifted out) + MOVL -4(R_SRC), R_LEN + SHRL $8, R_LEN + ADDL $65540, R_LEN + JMP doCopyRepeat + +doCopy: + // This is the end of the outer "switch", when we have a copy tag. + // + // We assume that: + // - R_LEN == length && R_LEN > 0 + // - R_OFF == offset + + // if d < offset { etc } + MOVQ R_DST, R_TMP1 + SUBQ R_DBASE, R_TMP1 + CMPQ R_TMP1, R_OFF + JLT errCorrupt + + // Repeat values can skip the test above, since any offset > 0 will be in dst. +doCopyRepeat: + // if offset <= 0 { etc } + CMPQ R_OFF, $0 + JLE errCorrupt + + // if length > len(dst)-d { etc } + MOVQ R_DEND, R_TMP1 + SUBQ R_DST, R_TMP1 + CMPQ R_LEN, R_TMP1 + JGT errCorrupt + + // forwardCopy(dst[d:d+length], dst[d-offset:]); d += length + // + // Set: + // - R_TMP2 = len(dst)-d + // - R_TMP3 = &dst[d-offset] + MOVQ R_DEND, R_TMP2 + SUBQ R_DST, R_TMP2 + MOVQ R_DST, R_TMP3 + SUBQ R_OFF, R_TMP3 + + // !!! Try a faster technique for short (16 or fewer bytes) forward copies. + // + // First, try using two 8-byte load/stores, similar to the doLit technique + // above. Even if dst[d:d+length] and dst[d-offset:] can overlap, this is + // still OK if offset >= 8. Note that this has to be two 8-byte load/stores + // and not one 16-byte load/store, and the first store has to be before the + // second load, due to the overlap if offset is in the range [8, 16). + // + // if length > 16 || offset < 8 || len(dst)-d < 16 { + // goto slowForwardCopy + // } + // copy 16 bytes + // d += length + CMPQ R_LEN, $16 + JGT slowForwardCopy + CMPQ R_OFF, $8 + JLT slowForwardCopy + CMPQ R_TMP2, $16 + JLT slowForwardCopy + MOVQ 0(R_TMP3), R_TMP0 + MOVQ R_TMP0, 0(R_DST) + MOVQ 8(R_TMP3), R_TMP1 + MOVQ R_TMP1, 8(R_DST) + ADDQ R_LEN, R_DST + JMP loop + +slowForwardCopy: + // !!! If the forward copy is longer than 16 bytes, or if offset < 8, we + // can still try 8-byte load stores, provided we can overrun up to 10 extra + // bytes. As above, the overrun will be fixed up by subsequent iterations + // of the outermost loop. + // + // The C++ snappy code calls this technique IncrementalCopyFastPath. Its + // commentary says: + // + // ---- + // + // The main part of this loop is a simple copy of eight bytes at a time + // until we've copied (at least) the requested amount of bytes. However, + // if d and d-offset are less than eight bytes apart (indicating a + // repeating pattern of length < 8), we first need to expand the pattern in + // order to get the correct results. For instance, if the buffer looks like + // this, with the eight-byte <d-offset> and <d> patterns marked as + // intervals: + // + // abxxxxxxxxxxxx + // [------] d-offset + // [------] d + // + // a single eight-byte copy from <d-offset> to <d> will repeat the pattern + // once, after which we can move <d> two bytes without moving <d-offset>: + // + // ababxxxxxxxxxx + // [------] d-offset + // [------] d + // + // and repeat the exercise until the two no longer overlap. + // + // This allows us to do very well in the special case of one single byte + // repeated many times, without taking a big hit for more general cases. + // + // The worst case of extra writing past the end of the match occurs when + // offset == 1 and length == 1; the last copy will read from byte positions + // [0..7] and write to [4..11], whereas it was only supposed to write to + // position 1. Thus, ten excess bytes. + // + // ---- + // + // That "10 byte overrun" worst case is confirmed by Go's + // TestSlowForwardCopyOverrun, which also tests the fixUpSlowForwardCopy + // and finishSlowForwardCopy algorithm. + // + // if length > len(dst)-d-10 { + // goto verySlowForwardCopy + // } + SUBQ $10, R_TMP2 + CMPQ R_LEN, R_TMP2 + JGT verySlowForwardCopy + + // We want to keep the offset, so we use R_TMP2 from here. + MOVQ R_OFF, R_TMP2 + +makeOffsetAtLeast8: + // !!! As above, expand the pattern so that offset >= 8 and we can use + // 8-byte load/stores. + // + // for offset < 8 { + // copy 8 bytes from dst[d-offset:] to dst[d:] + // length -= offset + // d += offset + // offset += offset + // // The two previous lines together means that d-offset, and therefore + // // R_TMP3, is unchanged. + // } + CMPQ R_TMP2, $8 + JGE fixUpSlowForwardCopy + MOVQ (R_TMP3), R_TMP1 + MOVQ R_TMP1, (R_DST) + SUBQ R_TMP2, R_LEN + ADDQ R_TMP2, R_DST + ADDQ R_TMP2, R_TMP2 + JMP makeOffsetAtLeast8 + +fixUpSlowForwardCopy: + // !!! Add length (which might be negative now) to d (implied by R_DST being + // &dst[d]) so that d ends up at the right place when we jump back to the + // top of the loop. Before we do that, though, we save R_DST to R_TMP0 so that, if + // length is positive, copying the remaining length bytes will write to the + // right place. + MOVQ R_DST, R_TMP0 + ADDQ R_LEN, R_DST + +finishSlowForwardCopy: + // !!! Repeat 8-byte load/stores until length <= 0. Ending with a negative + // length means that we overrun, but as above, that will be fixed up by + // subsequent iterations of the outermost loop. + CMPQ R_LEN, $0 + JLE loop + MOVQ (R_TMP3), R_TMP1 + MOVQ R_TMP1, (R_TMP0) + ADDQ $8, R_TMP3 + ADDQ $8, R_TMP0 + SUBQ $8, R_LEN + JMP finishSlowForwardCopy + +verySlowForwardCopy: + // verySlowForwardCopy is a simple implementation of forward copy. In C + // parlance, this is a do/while loop instead of a while loop, since we know + // that length > 0. In Go syntax: + // + // for { + // dst[d] = dst[d - offset] + // d++ + // length-- + // if length == 0 { + // break + // } + // } + MOVB (R_TMP3), R_TMP1 + MOVB R_TMP1, (R_DST) + INCQ R_TMP3 + INCQ R_DST + DECQ R_LEN + JNZ verySlowForwardCopy + JMP loop + +// The code above handles copy tags. +// ---------------------------------------- + +end: + // This is the end of the "for s < len(src)". + // + // if d != len(dst) { etc } + CMPQ R_DST, R_DEND + JNE errCorrupt + + // return 0 + MOVQ $0, ret+48(FP) + RET + +errCorrupt: + // return decodeErrCodeCorrupt + MOVQ $1, ret+48(FP) + RET diff --git a/vendor/github.com/klauspost/compress/s2/decode_arm64.s b/vendor/github.com/klauspost/compress/s2/decode_arm64.s new file mode 100644 index 00000000..4b63d508 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/decode_arm64.s @@ -0,0 +1,574 @@ +// Copyright 2020 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +#include "textflag.h" + +#define R_TMP0 R2 +#define R_TMP1 R3 +#define R_LEN R4 +#define R_OFF R5 +#define R_SRC R6 +#define R_DST R7 +#define R_DBASE R8 +#define R_DLEN R9 +#define R_DEND R10 +#define R_SBASE R11 +#define R_SLEN R12 +#define R_SEND R13 +#define R_TMP2 R14 +#define R_TMP3 R15 + +// TEST_SRC will check if R_SRC is <= SRC_END +#define TEST_SRC() \ + CMP R_SEND, R_SRC \ + BGT errCorrupt + +// MOVD R_SRC, R_TMP1 +// SUB R_SBASE, R_TMP1, R_TMP1 +// CMP R_SLEN, R_TMP1 +// BGT errCorrupt + +// The asm code generally follows the pure Go code in decode_other.go, except +// where marked with a "!!!". + +// func decode(dst, src []byte) int +// +// All local variables fit into registers. The non-zero stack size is only to +// spill registers and push args when issuing a CALL. The register allocation: +// - R_TMP0 scratch +// - R_TMP1 scratch +// - R_LEN length or x +// - R_OFF offset +// - R_SRC &src[s] +// - R_DST &dst[d] +// + R_DBASE dst_base +// + R_DLEN dst_len +// + R_DEND dst_base + dst_len +// + R_SBASE src_base +// + R_SLEN src_len +// + R_SEND src_base + src_len +// - R_TMP2 used by doCopy +// - R_TMP3 used by doCopy +// +// The registers R_DBASE-R_SEND (marked with a "+") are set at the start of the +// function, and after a CALL returns, and are not otherwise modified. +// +// The d variable is implicitly R_DST - R_DBASE, and len(dst)-d is R_DEND - R_DST. +// The s variable is implicitly R_SRC - R_SBASE, and len(src)-s is R_SEND - R_SRC. +TEXT ·s2Decode(SB), NOSPLIT, $56-64 + // Initialize R_SRC, R_DST and R_DBASE-R_SEND. + MOVD dst_base+0(FP), R_DBASE + MOVD dst_len+8(FP), R_DLEN + MOVD R_DBASE, R_DST + MOVD R_DBASE, R_DEND + ADD R_DLEN, R_DEND, R_DEND + MOVD src_base+24(FP), R_SBASE + MOVD src_len+32(FP), R_SLEN + MOVD R_SBASE, R_SRC + MOVD R_SBASE, R_SEND + ADD R_SLEN, R_SEND, R_SEND + MOVD $0, R_OFF + +loop: + // for s < len(src) + CMP R_SEND, R_SRC + BEQ end + + // R_LEN = uint32(src[s]) + // + // switch src[s] & 0x03 + MOVBU (R_SRC), R_LEN + MOVW R_LEN, R_TMP1 + ANDW $3, R_TMP1 + MOVW $1, R1 + CMPW R1, R_TMP1 + BGE tagCopy + + // ---------------------------------------- + // The code below handles literal tags. + + // case tagLiteral: + // x := uint32(src[s] >> 2) + // switch + MOVW $60, R1 + LSRW $2, R_LEN, R_LEN + CMPW R_LEN, R1 + BLS tagLit60Plus + + // case x < 60: + // s++ + ADD $1, R_SRC, R_SRC + +doLit: + // This is the end of the inner "switch", when we have a literal tag. + // + // We assume that R_LEN == x and x fits in a uint32, where x is the variable + // used in the pure Go decode_other.go code. + + // length = int(x) + 1 + // + // Unlike the pure Go code, we don't need to check if length <= 0 because + // R_LEN can hold 64 bits, so the increment cannot overflow. + ADD $1, R_LEN, R_LEN + + // Prepare to check if copying length bytes will run past the end of dst or + // src. + // + // R_TMP0 = len(dst) - d + // R_TMP1 = len(src) - s + MOVD R_DEND, R_TMP0 + SUB R_DST, R_TMP0, R_TMP0 + MOVD R_SEND, R_TMP1 + SUB R_SRC, R_TMP1, R_TMP1 + + // !!! Try a faster technique for short (16 or fewer bytes) copies. + // + // if length > 16 || len(dst)-d < 16 || len(src)-s < 16 { + // goto callMemmove // Fall back on calling runtime·memmove. + // } + // + // The C++ snappy code calls this TryFastAppend. It also checks len(src)-s + // against 21 instead of 16, because it cannot assume that all of its input + // is contiguous in memory and so it needs to leave enough source bytes to + // read the next tag without refilling buffers, but Go's Decode assumes + // contiguousness (the src argument is a []byte). + CMP $16, R_LEN + BGT callMemmove + CMP $16, R_TMP0 + BLT callMemmove + CMP $16, R_TMP1 + BLT callMemmove + + // !!! Implement the copy from src to dst as a 16-byte load and store. + // (Decode's documentation says that dst and src must not overlap.) + // + // This always copies 16 bytes, instead of only length bytes, but that's + // OK. If the input is a valid Snappy encoding then subsequent iterations + // will fix up the overrun. Otherwise, Decode returns a nil []byte (and a + // non-nil error), so the overrun will be ignored. + // + // Note that on arm64, it is legal and cheap to issue unaligned 8-byte or + // 16-byte loads and stores. This technique probably wouldn't be as + // effective on architectures that are fussier about alignment. + LDP 0(R_SRC), (R_TMP2, R_TMP3) + STP (R_TMP2, R_TMP3), 0(R_DST) + + // d += length + // s += length + ADD R_LEN, R_DST, R_DST + ADD R_LEN, R_SRC, R_SRC + B loop + +callMemmove: + // if length > len(dst)-d || length > len(src)-s { etc } + CMP R_TMP0, R_LEN + BGT errCorrupt + CMP R_TMP1, R_LEN + BGT errCorrupt + + // copy(dst[d:], src[s:s+length]) + // + // This means calling runtime·memmove(&dst[d], &src[s], length), so we push + // R_DST, R_SRC and R_LEN as arguments. Coincidentally, we also need to spill those + // three registers to the stack, to save local variables across the CALL. + MOVD R_DST, 8(RSP) + MOVD R_SRC, 16(RSP) + MOVD R_LEN, 24(RSP) + MOVD R_DST, 32(RSP) + MOVD R_SRC, 40(RSP) + MOVD R_LEN, 48(RSP) + MOVD R_OFF, 56(RSP) + CALL runtime·memmove(SB) + + // Restore local variables: unspill registers from the stack and + // re-calculate R_DBASE-R_SEND. + MOVD 32(RSP), R_DST + MOVD 40(RSP), R_SRC + MOVD 48(RSP), R_LEN + MOVD 56(RSP), R_OFF + MOVD dst_base+0(FP), R_DBASE + MOVD dst_len+8(FP), R_DLEN + MOVD R_DBASE, R_DEND + ADD R_DLEN, R_DEND, R_DEND + MOVD src_base+24(FP), R_SBASE + MOVD src_len+32(FP), R_SLEN + MOVD R_SBASE, R_SEND + ADD R_SLEN, R_SEND, R_SEND + + // d += length + // s += length + ADD R_LEN, R_DST, R_DST + ADD R_LEN, R_SRC, R_SRC + B loop + +tagLit60Plus: + // !!! This fragment does the + // + // s += x - 58; if uint(s) > uint(len(src)) { etc } + // + // checks. In the asm version, we code it once instead of once per switch case. + ADD R_LEN, R_SRC, R_SRC + SUB $58, R_SRC, R_SRC + TEST_SRC() + + // case x == 60: + MOVW $61, R1 + CMPW R1, R_LEN + BEQ tagLit61 + BGT tagLit62Plus + + // x = uint32(src[s-1]) + MOVBU -1(R_SRC), R_LEN + B doLit + +tagLit61: + // case x == 61: + // x = uint32(src[s-2]) | uint32(src[s-1])<<8 + MOVHU -2(R_SRC), R_LEN + B doLit + +tagLit62Plus: + CMPW $62, R_LEN + BHI tagLit63 + + // case x == 62: + // x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + MOVHU -3(R_SRC), R_LEN + MOVBU -1(R_SRC), R_TMP1 + ORR R_TMP1<<16, R_LEN + B doLit + +tagLit63: + // case x == 63: + // x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + MOVWU -4(R_SRC), R_LEN + B doLit + + // The code above handles literal tags. + // ---------------------------------------- + // The code below handles copy tags. + +tagCopy4: + // case tagCopy4: + // s += 5 + ADD $5, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + MOVD R_SRC, R_TMP1 + SUB R_SBASE, R_TMP1, R_TMP1 + CMP R_SLEN, R_TMP1 + BGT errCorrupt + + // length = 1 + int(src[s-5])>>2 + MOVD $1, R1 + ADD R_LEN>>2, R1, R_LEN + + // offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + MOVWU -4(R_SRC), R_OFF + B doCopy + +tagCopy2: + // case tagCopy2: + // s += 3 + ADD $3, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + TEST_SRC() + + // length = 1 + int(src[s-3])>>2 + MOVD $1, R1 + ADD R_LEN>>2, R1, R_LEN + + // offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + MOVHU -2(R_SRC), R_OFF + B doCopy + +tagCopy: + // We have a copy tag. We assume that: + // - R_TMP1 == src[s] & 0x03 + // - R_LEN == src[s] + CMP $2, R_TMP1 + BEQ tagCopy2 + BGT tagCopy4 + + // case tagCopy1: + // s += 2 + ADD $2, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + TEST_SRC() + + // offset = int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + // Calculate offset in R_TMP0 in case it is a repeat. + MOVD R_LEN, R_TMP0 + AND $0xe0, R_TMP0 + MOVBU -1(R_SRC), R_TMP1 + ORR R_TMP0<<3, R_TMP1, R_TMP0 + + // length = 4 + int(src[s-2])>>2&0x7 + MOVD $7, R1 + AND R_LEN>>2, R1, R_LEN + ADD $4, R_LEN, R_LEN + + // check if repeat code with offset 0. + CMP $0, R_TMP0 + BEQ repeatCode + + // This is a regular copy, transfer our temporary value to R_OFF (offset) + MOVD R_TMP0, R_OFF + B doCopy + + // This is a repeat code. +repeatCode: + // If length < 9, reuse last offset, with the length already calculated. + CMP $9, R_LEN + BLT doCopyRepeat + BEQ repeatLen1 + CMP $10, R_LEN + BEQ repeatLen2 + +repeatLen3: + // s +=3 + ADD $3, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + TEST_SRC() + + // length = uint32(src[s-3]) | (uint32(src[s-2])<<8) | (uint32(src[s-1])<<16) + 65540 + MOVBU -1(R_SRC), R_TMP0 + MOVHU -3(R_SRC), R_LEN + ORR R_TMP0<<16, R_LEN, R_LEN + ADD $65540, R_LEN, R_LEN + B doCopyRepeat + +repeatLen2: + // s +=2 + ADD $2, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + TEST_SRC() + + // length = uint32(src[s-2]) | (uint32(src[s-1])<<8) + 260 + MOVHU -2(R_SRC), R_LEN + ADD $260, R_LEN, R_LEN + B doCopyRepeat + +repeatLen1: + // s +=1 + ADD $1, R_SRC, R_SRC + + // if uint(s) > uint(len(src)) { etc } + TEST_SRC() + + // length = src[s-1] + 8 + MOVBU -1(R_SRC), R_LEN + ADD $8, R_LEN, R_LEN + B doCopyRepeat + +doCopy: + // This is the end of the outer "switch", when we have a copy tag. + // + // We assume that: + // - R_LEN == length && R_LEN > 0 + // - R_OFF == offset + + // if d < offset { etc } + MOVD R_DST, R_TMP1 + SUB R_DBASE, R_TMP1, R_TMP1 + CMP R_OFF, R_TMP1 + BLT errCorrupt + + // Repeat values can skip the test above, since any offset > 0 will be in dst. +doCopyRepeat: + + // if offset <= 0 { etc } + CMP $0, R_OFF + BLE errCorrupt + + // if length > len(dst)-d { etc } + MOVD R_DEND, R_TMP1 + SUB R_DST, R_TMP1, R_TMP1 + CMP R_TMP1, R_LEN + BGT errCorrupt + + // forwardCopy(dst[d:d+length], dst[d-offset:]); d += length + // + // Set: + // - R_TMP2 = len(dst)-d + // - R_TMP3 = &dst[d-offset] + MOVD R_DEND, R_TMP2 + SUB R_DST, R_TMP2, R_TMP2 + MOVD R_DST, R_TMP3 + SUB R_OFF, R_TMP3, R_TMP3 + + // !!! Try a faster technique for short (16 or fewer bytes) forward copies. + // + // First, try using two 8-byte load/stores, similar to the doLit technique + // above. Even if dst[d:d+length] and dst[d-offset:] can overlap, this is + // still OK if offset >= 8. Note that this has to be two 8-byte load/stores + // and not one 16-byte load/store, and the first store has to be before the + // second load, due to the overlap if offset is in the range [8, 16). + // + // if length > 16 || offset < 8 || len(dst)-d < 16 { + // goto slowForwardCopy + // } + // copy 16 bytes + // d += length + CMP $16, R_LEN + BGT slowForwardCopy + CMP $8, R_OFF + BLT slowForwardCopy + CMP $16, R_TMP2 + BLT slowForwardCopy + MOVD 0(R_TMP3), R_TMP0 + MOVD R_TMP0, 0(R_DST) + MOVD 8(R_TMP3), R_TMP1 + MOVD R_TMP1, 8(R_DST) + ADD R_LEN, R_DST, R_DST + B loop + +slowForwardCopy: + // !!! If the forward copy is longer than 16 bytes, or if offset < 8, we + // can still try 8-byte load stores, provided we can overrun up to 10 extra + // bytes. As above, the overrun will be fixed up by subsequent iterations + // of the outermost loop. + // + // The C++ snappy code calls this technique IncrementalCopyFastPath. Its + // commentary says: + // + // ---- + // + // The main part of this loop is a simple copy of eight bytes at a time + // until we've copied (at least) the requested amount of bytes. However, + // if d and d-offset are less than eight bytes apart (indicating a + // repeating pattern of length < 8), we first need to expand the pattern in + // order to get the correct results. For instance, if the buffer looks like + // this, with the eight-byte <d-offset> and <d> patterns marked as + // intervals: + // + // abxxxxxxxxxxxx + // [------] d-offset + // [------] d + // + // a single eight-byte copy from <d-offset> to <d> will repeat the pattern + // once, after which we can move <d> two bytes without moving <d-offset>: + // + // ababxxxxxxxxxx + // [------] d-offset + // [------] d + // + // and repeat the exercise until the two no longer overlap. + // + // This allows us to do very well in the special case of one single byte + // repeated many times, without taking a big hit for more general cases. + // + // The worst case of extra writing past the end of the match occurs when + // offset == 1 and length == 1; the last copy will read from byte positions + // [0..7] and write to [4..11], whereas it was only supposed to write to + // position 1. Thus, ten excess bytes. + // + // ---- + // + // That "10 byte overrun" worst case is confirmed by Go's + // TestSlowForwardCopyOverrun, which also tests the fixUpSlowForwardCopy + // and finishSlowForwardCopy algorithm. + // + // if length > len(dst)-d-10 { + // goto verySlowForwardCopy + // } + SUB $10, R_TMP2, R_TMP2 + CMP R_TMP2, R_LEN + BGT verySlowForwardCopy + + // We want to keep the offset, so we use R_TMP2 from here. + MOVD R_OFF, R_TMP2 + +makeOffsetAtLeast8: + // !!! As above, expand the pattern so that offset >= 8 and we can use + // 8-byte load/stores. + // + // for offset < 8 { + // copy 8 bytes from dst[d-offset:] to dst[d:] + // length -= offset + // d += offset + // offset += offset + // // The two previous lines together means that d-offset, and therefore + // // R_TMP3, is unchanged. + // } + CMP $8, R_TMP2 + BGE fixUpSlowForwardCopy + MOVD (R_TMP3), R_TMP1 + MOVD R_TMP1, (R_DST) + SUB R_TMP2, R_LEN, R_LEN + ADD R_TMP2, R_DST, R_DST + ADD R_TMP2, R_TMP2, R_TMP2 + B makeOffsetAtLeast8 + +fixUpSlowForwardCopy: + // !!! Add length (which might be negative now) to d (implied by R_DST being + // &dst[d]) so that d ends up at the right place when we jump back to the + // top of the loop. Before we do that, though, we save R_DST to R_TMP0 so that, if + // length is positive, copying the remaining length bytes will write to the + // right place. + MOVD R_DST, R_TMP0 + ADD R_LEN, R_DST, R_DST + +finishSlowForwardCopy: + // !!! Repeat 8-byte load/stores until length <= 0. Ending with a negative + // length means that we overrun, but as above, that will be fixed up by + // subsequent iterations of the outermost loop. + MOVD $0, R1 + CMP R1, R_LEN + BLE loop + MOVD (R_TMP3), R_TMP1 + MOVD R_TMP1, (R_TMP0) + ADD $8, R_TMP3, R_TMP3 + ADD $8, R_TMP0, R_TMP0 + SUB $8, R_LEN, R_LEN + B finishSlowForwardCopy + +verySlowForwardCopy: + // verySlowForwardCopy is a simple implementation of forward copy. In C + // parlance, this is a do/while loop instead of a while loop, since we know + // that length > 0. In Go syntax: + // + // for { + // dst[d] = dst[d - offset] + // d++ + // length-- + // if length == 0 { + // break + // } + // } + MOVB (R_TMP3), R_TMP1 + MOVB R_TMP1, (R_DST) + ADD $1, R_TMP3, R_TMP3 + ADD $1, R_DST, R_DST + SUB $1, R_LEN, R_LEN + CBNZ R_LEN, verySlowForwardCopy + B loop + + // The code above handles copy tags. + // ---------------------------------------- + +end: + // This is the end of the "for s < len(src)". + // + // if d != len(dst) { etc } + CMP R_DEND, R_DST + BNE errCorrupt + + // return 0 + MOVD $0, ret+48(FP) + RET + +errCorrupt: + // return decodeErrCodeCorrupt + MOVD $1, R_TMP0 + MOVD R_TMP0, ret+48(FP) + RET diff --git a/vendor/github.com/klauspost/compress/s2/decode_asm.go b/vendor/github.com/klauspost/compress/s2/decode_asm.go new file mode 100644 index 00000000..cb3576ed --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/decode_asm.go @@ -0,0 +1,17 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +//go:build (amd64 || arm64) && !appengine && gc && !noasm +// +build amd64 arm64 +// +build !appengine +// +build gc +// +build !noasm + +package s2 + +// decode has the same semantics as in decode_other.go. +// +//go:noescape +func s2Decode(dst, src []byte) int diff --git a/vendor/github.com/klauspost/compress/s2/decode_other.go b/vendor/github.com/klauspost/compress/s2/decode_other.go new file mode 100644 index 00000000..1074ebd2 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/decode_other.go @@ -0,0 +1,267 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +//go:build (!amd64 && !arm64) || appengine || !gc || noasm +// +build !amd64,!arm64 appengine !gc noasm + +package s2 + +import ( + "fmt" + "strconv" +) + +// decode writes the decoding of src to dst. It assumes that the varint-encoded +// length of the decompressed bytes has already been read, and that len(dst) +// equals that length. +// +// It returns 0 on success or a decodeErrCodeXxx error code on failure. +func s2Decode(dst, src []byte) int { + const debug = false + if debug { + fmt.Println("Starting decode, dst len:", len(dst)) + } + var d, s, length int + offset := 0 + + // As long as we can read at least 5 bytes... + for s < len(src)-5 { + switch src[s] & 0x03 { + case tagLiteral: + x := uint32(src[s] >> 2) + switch { + case x < 60: + s++ + case x == 60: + s += 2 + x = uint32(src[s-1]) + case x == 61: + s += 3 + x = uint32(src[s-2]) | uint32(src[s-1])<<8 + case x == 62: + s += 4 + x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + case x == 63: + s += 5 + x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + } + length = int(x) + 1 + if length > len(dst)-d || length > len(src)-s || (strconv.IntSize == 32 && length <= 0) { + return decodeErrCodeCorrupt + } + if debug { + fmt.Println("literals, length:", length, "d-after:", d+length) + } + + copy(dst[d:], src[s:s+length]) + d += length + s += length + continue + + case tagCopy1: + s += 2 + length = int(src[s-2]) >> 2 & 0x7 + toffset := int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + if toffset == 0 { + if debug { + fmt.Print("(repeat) ") + } + // keep last offset + switch length { + case 5: + s += 1 + length = int(uint32(src[s-1])) + 4 + case 6: + s += 2 + length = int(uint32(src[s-2])|(uint32(src[s-1])<<8)) + (1 << 8) + case 7: + s += 3 + length = int(uint32(src[s-3])|(uint32(src[s-2])<<8)|(uint32(src[s-1])<<16)) + (1 << 16) + default: // 0-> 4 + } + } else { + offset = toffset + } + length += 4 + case tagCopy2: + s += 3 + length = 1 + int(src[s-3])>>2 + offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + + case tagCopy4: + s += 5 + length = 1 + int(src[s-5])>>2 + offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + } + + if offset <= 0 || d < offset || length > len(dst)-d { + return decodeErrCodeCorrupt + } + + if debug { + fmt.Println("copy, length:", length, "offset:", offset, "d-after:", d+length) + } + + // Copy from an earlier sub-slice of dst to a later sub-slice. + // If no overlap, use the built-in copy: + if offset > length { + copy(dst[d:d+length], dst[d-offset:]) + d += length + continue + } + + // Unlike the built-in copy function, this byte-by-byte copy always runs + // forwards, even if the slices overlap. Conceptually, this is: + // + // d += forwardCopy(dst[d:d+length], dst[d-offset:]) + // + // We align the slices into a and b and show the compiler they are the same size. + // This allows the loop to run without bounds checks. + a := dst[d : d+length] + b := dst[d-offset:] + b = b[:len(a)] + for i := range a { + a[i] = b[i] + } + d += length + } + + // Remaining with extra checks... + for s < len(src) { + switch src[s] & 0x03 { + case tagLiteral: + x := uint32(src[s] >> 2) + switch { + case x < 60: + s++ + case x == 60: + s += 2 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-1]) + case x == 61: + s += 3 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-2]) | uint32(src[s-1])<<8 + case x == 62: + s += 4 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + case x == 63: + s += 5 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + } + length = int(x) + 1 + if length > len(dst)-d || length > len(src)-s || (strconv.IntSize == 32 && length <= 0) { + return decodeErrCodeCorrupt + } + if debug { + fmt.Println("literals, length:", length, "d-after:", d+length) + } + + copy(dst[d:], src[s:s+length]) + d += length + s += length + continue + + case tagCopy1: + s += 2 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = int(src[s-2]) >> 2 & 0x7 + toffset := int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + if toffset == 0 { + if debug { + fmt.Print("(repeat) ") + } + // keep last offset + switch length { + case 5: + s += 1 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = int(uint32(src[s-1])) + 4 + case 6: + s += 2 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = int(uint32(src[s-2])|(uint32(src[s-1])<<8)) + (1 << 8) + case 7: + s += 3 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = int(uint32(src[s-3])|(uint32(src[s-2])<<8)|(uint32(src[s-1])<<16)) + (1 << 16) + default: // 0-> 4 + } + } else { + offset = toffset + } + length += 4 + case tagCopy2: + s += 3 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = 1 + int(src[s-3])>>2 + offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + + case tagCopy4: + s += 5 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = 1 + int(src[s-5])>>2 + offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + } + + if offset <= 0 || d < offset || length > len(dst)-d { + return decodeErrCodeCorrupt + } + + if debug { + fmt.Println("copy, length:", length, "offset:", offset, "d-after:", d+length) + } + + // Copy from an earlier sub-slice of dst to a later sub-slice. + // If no overlap, use the built-in copy: + if offset > length { + copy(dst[d:d+length], dst[d-offset:]) + d += length + continue + } + + // Unlike the built-in copy function, this byte-by-byte copy always runs + // forwards, even if the slices overlap. Conceptually, this is: + // + // d += forwardCopy(dst[d:d+length], dst[d-offset:]) + // + // We align the slices into a and b and show the compiler they are the same size. + // This allows the loop to run without bounds checks. + a := dst[d : d+length] + b := dst[d-offset:] + b = b[:len(a)] + for i := range a { + a[i] = b[i] + } + d += length + } + + if d != len(dst) { + return decodeErrCodeCorrupt + } + return 0 +} diff --git a/vendor/github.com/klauspost/compress/s2/encode.go b/vendor/github.com/klauspost/compress/s2/encode.go new file mode 100644 index 00000000..aa8b108d --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode.go @@ -0,0 +1,1172 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package s2 + +import ( + "crypto/rand" + "encoding/binary" + "errors" + "fmt" + "io" + "math" + "math/bits" + "runtime" + "sync" +) + +// Encode returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func Encode(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if cap(dst) < n { + dst = make([]byte, n) + } else { + dst = dst[:n] + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + n := encodeBlock(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// EncodeBetter returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// EncodeBetter compresses better than Encode but typically with a +// 10-40% speed decrease on both compression and decompression. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func EncodeBetter(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if len(dst) < n { + dst = make([]byte, n) + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + n := encodeBlockBetter(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// EncodeBest returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// EncodeBest compresses as good as reasonably possible but with a +// big speed decrease. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func EncodeBest(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if len(dst) < n { + dst = make([]byte, n) + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + n := encodeBlockBest(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// EncodeSnappy returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The output is Snappy compatible and will likely decompress faster. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func EncodeSnappy(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if cap(dst) < n { + dst = make([]byte, n) + } else { + dst = dst[:n] + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + + n := encodeBlockSnappy(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// EncodeSnappyBetter returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The output is Snappy compatible and will likely decompress faster. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func EncodeSnappyBetter(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if cap(dst) < n { + dst = make([]byte, n) + } else { + dst = dst[:n] + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + + n := encodeBlockBetterSnappy(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// EncodeSnappyBest returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The output is Snappy compatible and will likely decompress faster. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +// +// The blocks will require the same amount of memory to decode as encoding, +// and does not make for concurrent decoding. +// Also note that blocks do not contain CRC information, so corruption may be undetected. +// +// If you need to encode larger amounts of data, consider using +// the streaming interface which gives all of these features. +func EncodeSnappyBest(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if cap(dst) < n { + dst = make([]byte, n) + } else { + dst = dst[:n] + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + + n := encodeBlockBestSnappy(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// ConcatBlocks will concatenate the supplied blocks and append them to the supplied destination. +// If the destination is nil or too small, a new will be allocated. +// The blocks are not validated, so garbage in = garbage out. +// dst may not overlap block data. +// Any data in dst is preserved as is, so it will not be considered a block. +func ConcatBlocks(dst []byte, blocks ...[]byte) ([]byte, error) { + totalSize := uint64(0) + compSize := 0 + for _, b := range blocks { + l, hdr, err := decodedLen(b) + if err != nil { + return nil, err + } + totalSize += uint64(l) + compSize += len(b) - hdr + } + if totalSize == 0 { + dst = append(dst, 0) + return dst, nil + } + if totalSize > math.MaxUint32 { + return nil, ErrTooLarge + } + var tmp [binary.MaxVarintLen32]byte + hdrSize := binary.PutUvarint(tmp[:], totalSize) + wantSize := hdrSize + compSize + + if cap(dst)-len(dst) < wantSize { + dst = append(make([]byte, 0, wantSize+len(dst)), dst...) + } + dst = append(dst, tmp[:hdrSize]...) + for _, b := range blocks { + _, hdr, err := decodedLen(b) + if err != nil { + return nil, err + } + dst = append(dst, b[hdr:]...) + } + return dst, nil +} + +// inputMargin is the minimum number of extra input bytes to keep, inside +// encodeBlock's inner loop. On some architectures, this margin lets us +// implement a fast path for emitLiteral, where the copy of short (<= 16 byte) +// literals can be implemented as a single load to and store from a 16-byte +// register. That literal's actual length can be as short as 1 byte, so this +// can copy up to 15 bytes too much, but that's OK as subsequent iterations of +// the encoding loop will fix up the copy overrun, and this inputMargin ensures +// that we don't overrun the dst and src buffers. +const inputMargin = 8 + +// minNonLiteralBlockSize is the minimum size of the input to encodeBlock that +// will be accepted by the encoder. +const minNonLiteralBlockSize = 32 + +// MaxBlockSize is the maximum value where MaxEncodedLen will return a valid block size. +// Blocks this big are highly discouraged, though. +const MaxBlockSize = math.MaxUint32 - binary.MaxVarintLen32 - 5 + +// MaxEncodedLen returns the maximum length of a snappy block, given its +// uncompressed length. +// +// It will return a negative value if srcLen is too large to encode. +// 32 bit platforms will have lower thresholds for rejecting big content. +func MaxEncodedLen(srcLen int) int { + n := uint64(srcLen) + if n > 0xffffffff { + // Also includes negative. + return -1 + } + // Size of the varint encoded block size. + n = n + uint64((bits.Len64(n)+7)/7) + + // Add maximum size of encoding block as literals. + n += uint64(literalExtraSize(int64(srcLen))) + if n > 0xffffffff { + return -1 + } + return int(n) +} + +var errClosed = errors.New("s2: Writer is closed") + +// NewWriter returns a new Writer that compresses to w, using the +// framing format described at +// https://github.com/google/snappy/blob/master/framing_format.txt +// +// Users must call Close to guarantee all data has been forwarded to +// the underlying io.Writer and that resources are released. +// They may also call Flush zero or more times before calling Close. +func NewWriter(w io.Writer, opts ...WriterOption) *Writer { + w2 := Writer{ + blockSize: defaultBlockSize, + concurrency: runtime.GOMAXPROCS(0), + randSrc: rand.Reader, + level: levelFast, + } + for _, opt := range opts { + if err := opt(&w2); err != nil { + w2.errState = err + return &w2 + } + } + w2.obufLen = obufHeaderLen + MaxEncodedLen(w2.blockSize) + w2.paramsOK = true + w2.ibuf = make([]byte, 0, w2.blockSize) + w2.buffers.New = func() interface{} { + return make([]byte, w2.obufLen) + } + w2.Reset(w) + return &w2 +} + +// Writer is an io.Writer that can write Snappy-compressed bytes. +type Writer struct { + errMu sync.Mutex + errState error + + // ibuf is a buffer for the incoming (uncompressed) bytes. + ibuf []byte + + blockSize int + obufLen int + concurrency int + written int64 + output chan chan result + buffers sync.Pool + pad int + + writer io.Writer + randSrc io.Reader + writerWg sync.WaitGroup + + // wroteStreamHeader is whether we have written the stream header. + wroteStreamHeader bool + paramsOK bool + snappy bool + flushOnWrite bool + level uint8 +} + +const ( + levelUncompressed = iota + 1 + levelFast + levelBetter + levelBest +) + +type result []byte + +// err returns the previously set error. +// If no error has been set it is set to err if not nil. +func (w *Writer) err(err error) error { + w.errMu.Lock() + errSet := w.errState + if errSet == nil && err != nil { + w.errState = err + errSet = err + } + w.errMu.Unlock() + return errSet +} + +// Reset discards the writer's state and switches the Snappy writer to write to w. +// This permits reusing a Writer rather than allocating a new one. +func (w *Writer) Reset(writer io.Writer) { + if !w.paramsOK { + return + } + // Close previous writer, if any. + if w.output != nil { + close(w.output) + w.writerWg.Wait() + w.output = nil + } + w.errState = nil + w.ibuf = w.ibuf[:0] + w.wroteStreamHeader = false + w.written = 0 + w.writer = writer + // If we didn't get a writer, stop here. + if writer == nil { + return + } + // If no concurrency requested, don't spin up writer goroutine. + if w.concurrency == 1 { + return + } + + toWrite := make(chan chan result, w.concurrency) + w.output = toWrite + w.writerWg.Add(1) + + // Start a writer goroutine that will write all output in order. + go func() { + defer w.writerWg.Done() + + // Get a queued write. + for write := range toWrite { + // Wait for the data to be available. + in := <-write + if len(in) > 0 { + if w.err(nil) == nil { + // Don't expose data from previous buffers. + toWrite := in[:len(in):len(in)] + // Write to output. + n, err := writer.Write(toWrite) + if err == nil && n != len(toWrite) { + err = io.ErrShortBuffer + } + _ = w.err(err) + w.written += int64(n) + } + } + if cap(in) >= w.obufLen { + w.buffers.Put([]byte(in)) + } + // close the incoming write request. + // This can be used for synchronizing flushes. + close(write) + } + }() +} + +// Write satisfies the io.Writer interface. +func (w *Writer) Write(p []byte) (nRet int, errRet error) { + if w.flushOnWrite { + return w.write(p) + } + // If we exceed the input buffer size, start writing + for len(p) > (cap(w.ibuf)-len(w.ibuf)) && w.err(nil) == nil { + var n int + if len(w.ibuf) == 0 { + // Large write, empty buffer. + // Write directly from p to avoid copy. + n, _ = w.write(p) + } else { + n = copy(w.ibuf[len(w.ibuf):cap(w.ibuf)], p) + w.ibuf = w.ibuf[:len(w.ibuf)+n] + w.write(w.ibuf) + w.ibuf = w.ibuf[:0] + } + nRet += n + p = p[n:] + } + if err := w.err(nil); err != nil { + return nRet, err + } + // p should always be able to fit into w.ibuf now. + n := copy(w.ibuf[len(w.ibuf):cap(w.ibuf)], p) + w.ibuf = w.ibuf[:len(w.ibuf)+n] + nRet += n + return nRet, nil +} + +// ReadFrom implements the io.ReaderFrom interface. +// Using this is typically more efficient since it avoids a memory copy. +// ReadFrom reads data from r until EOF or error. +// The return value n is the number of bytes read. +// Any error except io.EOF encountered during the read is also returned. +func (w *Writer) ReadFrom(r io.Reader) (n int64, err error) { + if len(w.ibuf) > 0 { + err := w.Flush() + if err != nil { + return 0, err + } + } + if br, ok := r.(byter); ok { + buf := br.Bytes() + if err := w.EncodeBuffer(buf); err != nil { + return 0, err + } + return int64(len(buf)), w.Flush() + } + for { + inbuf := w.buffers.Get().([]byte)[:w.blockSize+obufHeaderLen] + n2, err := io.ReadFull(r, inbuf[obufHeaderLen:]) + if err != nil { + if err == io.ErrUnexpectedEOF { + err = io.EOF + } + if err != io.EOF { + return n, w.err(err) + } + } + if n2 == 0 { + break + } + n += int64(n2) + err2 := w.writeFull(inbuf[:n2+obufHeaderLen]) + if w.err(err2) != nil { + break + } + + if err != nil { + // We got EOF and wrote everything + break + } + } + + return n, w.err(nil) +} + +// EncodeBuffer will add a buffer to the stream. +// This is the fastest way to encode a stream, +// but the input buffer cannot be written to by the caller +// until Flush or Close has been called when concurrency != 1. +// +// If you cannot control that, use the regular Write function. +// +// Note that input is not buffered. +// This means that each write will result in discrete blocks being created. +// For buffered writes, use the regular Write function. +func (w *Writer) EncodeBuffer(buf []byte) (err error) { + if err := w.err(nil); err != nil { + return err + } + + if w.flushOnWrite { + _, err := w.write(buf) + return err + } + // Flush queued data first. + if len(w.ibuf) > 0 { + err := w.Flush() + if err != nil { + return err + } + } + if w.concurrency == 1 { + _, err := w.writeSync(buf) + return err + } + + // Spawn goroutine and write block to output channel. + if !w.wroteStreamHeader { + w.wroteStreamHeader = true + hWriter := make(chan result) + w.output <- hWriter + if w.snappy { + hWriter <- []byte(magicChunkSnappy) + } else { + hWriter <- []byte(magicChunk) + } + } + + for len(buf) > 0 { + // Cut input. + uncompressed := buf + if len(uncompressed) > w.blockSize { + uncompressed = uncompressed[:w.blockSize] + } + buf = buf[len(uncompressed):] + // Get an output buffer. + obuf := w.buffers.Get().([]byte)[:len(uncompressed)+obufHeaderLen] + output := make(chan result) + // Queue output now, so we keep order. + w.output <- output + go func() { + checksum := crc(uncompressed) + + // Set to uncompressed. + chunkType := uint8(chunkTypeUncompressedData) + chunkLen := 4 + len(uncompressed) + + // Attempt compressing. + n := binary.PutUvarint(obuf[obufHeaderLen:], uint64(len(uncompressed))) + n2 := w.encodeBlock(obuf[obufHeaderLen+n:], uncompressed) + + // Check if we should use this, or store as uncompressed instead. + if n2 > 0 { + chunkType = uint8(chunkTypeCompressedData) + chunkLen = 4 + n + n2 + obuf = obuf[:obufHeaderLen+n+n2] + } else { + // copy uncompressed + copy(obuf[obufHeaderLen:], uncompressed) + } + + // Fill in the per-chunk header that comes before the body. + obuf[0] = chunkType + obuf[1] = uint8(chunkLen >> 0) + obuf[2] = uint8(chunkLen >> 8) + obuf[3] = uint8(chunkLen >> 16) + obuf[4] = uint8(checksum >> 0) + obuf[5] = uint8(checksum >> 8) + obuf[6] = uint8(checksum >> 16) + obuf[7] = uint8(checksum >> 24) + + // Queue final output. + output <- obuf + }() + } + return nil +} + +func (w *Writer) encodeBlock(obuf, uncompressed []byte) int { + if w.snappy { + switch w.level { + case levelFast: + return encodeBlockSnappy(obuf, uncompressed) + case levelBetter: + return encodeBlockBetterSnappy(obuf, uncompressed) + case levelBest: + return encodeBlockBestSnappy(obuf, uncompressed) + } + return 0 + } + switch w.level { + case levelFast: + return encodeBlock(obuf, uncompressed) + case levelBetter: + return encodeBlockBetter(obuf, uncompressed) + case levelBest: + return encodeBlockBest(obuf, uncompressed) + } + return 0 +} + +func (w *Writer) write(p []byte) (nRet int, errRet error) { + if err := w.err(nil); err != nil { + return 0, err + } + if w.concurrency == 1 { + return w.writeSync(p) + } + + // Spawn goroutine and write block to output channel. + for len(p) > 0 { + if !w.wroteStreamHeader { + w.wroteStreamHeader = true + hWriter := make(chan result) + w.output <- hWriter + if w.snappy { + hWriter <- []byte(magicChunkSnappy) + } else { + hWriter <- []byte(magicChunk) + } + } + + var uncompressed []byte + if len(p) > w.blockSize { + uncompressed, p = p[:w.blockSize], p[w.blockSize:] + } else { + uncompressed, p = p, nil + } + + // Copy input. + // If the block is incompressible, this is used for the result. + inbuf := w.buffers.Get().([]byte)[:len(uncompressed)+obufHeaderLen] + obuf := w.buffers.Get().([]byte)[:w.obufLen] + copy(inbuf[obufHeaderLen:], uncompressed) + uncompressed = inbuf[obufHeaderLen:] + + output := make(chan result) + // Queue output now, so we keep order. + w.output <- output + go func() { + checksum := crc(uncompressed) + + // Set to uncompressed. + chunkType := uint8(chunkTypeUncompressedData) + chunkLen := 4 + len(uncompressed) + + // Attempt compressing. + n := binary.PutUvarint(obuf[obufHeaderLen:], uint64(len(uncompressed))) + n2 := w.encodeBlock(obuf[obufHeaderLen+n:], uncompressed) + + // Check if we should use this, or store as uncompressed instead. + if n2 > 0 { + chunkType = uint8(chunkTypeCompressedData) + chunkLen = 4 + n + n2 + obuf = obuf[:obufHeaderLen+n+n2] + } else { + // Use input as output. + obuf, inbuf = inbuf, obuf + } + + // Fill in the per-chunk header that comes before the body. + obuf[0] = chunkType + obuf[1] = uint8(chunkLen >> 0) + obuf[2] = uint8(chunkLen >> 8) + obuf[3] = uint8(chunkLen >> 16) + obuf[4] = uint8(checksum >> 0) + obuf[5] = uint8(checksum >> 8) + obuf[6] = uint8(checksum >> 16) + obuf[7] = uint8(checksum >> 24) + + // Queue final output. + output <- obuf + + // Put unused buffer back in pool. + w.buffers.Put(inbuf) + }() + nRet += len(uncompressed) + } + return nRet, nil +} + +// writeFull is a special version of write that will always write the full buffer. +// Data to be compressed should start at offset obufHeaderLen and fill the remainder of the buffer. +// The data will be written as a single block. +// The caller is not allowed to use inbuf after this function has been called. +func (w *Writer) writeFull(inbuf []byte) (errRet error) { + if err := w.err(nil); err != nil { + return err + } + + if w.concurrency == 1 { + _, err := w.writeSync(inbuf[obufHeaderLen:]) + return err + } + + // Spawn goroutine and write block to output channel. + if !w.wroteStreamHeader { + w.wroteStreamHeader = true + hWriter := make(chan result) + w.output <- hWriter + if w.snappy { + hWriter <- []byte(magicChunkSnappy) + } else { + hWriter <- []byte(magicChunk) + } + } + + // Get an output buffer. + obuf := w.buffers.Get().([]byte)[:w.obufLen] + uncompressed := inbuf[obufHeaderLen:] + + output := make(chan result) + // Queue output now, so we keep order. + w.output <- output + go func() { + checksum := crc(uncompressed) + + // Set to uncompressed. + chunkType := uint8(chunkTypeUncompressedData) + chunkLen := 4 + len(uncompressed) + + // Attempt compressing. + n := binary.PutUvarint(obuf[obufHeaderLen:], uint64(len(uncompressed))) + n2 := w.encodeBlock(obuf[obufHeaderLen+n:], uncompressed) + + // Check if we should use this, or store as uncompressed instead. + if n2 > 0 { + chunkType = uint8(chunkTypeCompressedData) + chunkLen = 4 + n + n2 + obuf = obuf[:obufHeaderLen+n+n2] + } else { + // Use input as output. + obuf, inbuf = inbuf, obuf + } + + // Fill in the per-chunk header that comes before the body. + obuf[0] = chunkType + obuf[1] = uint8(chunkLen >> 0) + obuf[2] = uint8(chunkLen >> 8) + obuf[3] = uint8(chunkLen >> 16) + obuf[4] = uint8(checksum >> 0) + obuf[5] = uint8(checksum >> 8) + obuf[6] = uint8(checksum >> 16) + obuf[7] = uint8(checksum >> 24) + + // Queue final output. + output <- obuf + + // Put unused buffer back in pool. + w.buffers.Put(inbuf) + }() + return nil +} + +func (w *Writer) writeSync(p []byte) (nRet int, errRet error) { + if err := w.err(nil); err != nil { + return 0, err + } + if !w.wroteStreamHeader { + w.wroteStreamHeader = true + var n int + var err error + if w.snappy { + n, err = w.writer.Write([]byte(magicChunkSnappy)) + } else { + n, err = w.writer.Write([]byte(magicChunk)) + } + if err != nil { + return 0, w.err(err) + } + if n != len(magicChunk) { + return 0, w.err(io.ErrShortWrite) + } + w.written += int64(n) + } + + for len(p) > 0 { + var uncompressed []byte + if len(p) > w.blockSize { + uncompressed, p = p[:w.blockSize], p[w.blockSize:] + } else { + uncompressed, p = p, nil + } + + obuf := w.buffers.Get().([]byte)[:w.obufLen] + checksum := crc(uncompressed) + + // Set to uncompressed. + chunkType := uint8(chunkTypeUncompressedData) + chunkLen := 4 + len(uncompressed) + + // Attempt compressing. + n := binary.PutUvarint(obuf[obufHeaderLen:], uint64(len(uncompressed))) + n2 := w.encodeBlock(obuf[obufHeaderLen+n:], uncompressed) + + if n2 > 0 { + chunkType = uint8(chunkTypeCompressedData) + chunkLen = 4 + n + n2 + obuf = obuf[:obufHeaderLen+n+n2] + } else { + obuf = obuf[:8] + } + + // Fill in the per-chunk header that comes before the body. + obuf[0] = chunkType + obuf[1] = uint8(chunkLen >> 0) + obuf[2] = uint8(chunkLen >> 8) + obuf[3] = uint8(chunkLen >> 16) + obuf[4] = uint8(checksum >> 0) + obuf[5] = uint8(checksum >> 8) + obuf[6] = uint8(checksum >> 16) + obuf[7] = uint8(checksum >> 24) + + n, err := w.writer.Write(obuf) + if err != nil { + return 0, w.err(err) + } + if n != len(obuf) { + return 0, w.err(io.ErrShortWrite) + } + w.written += int64(n) + if chunkType == chunkTypeUncompressedData { + // Write uncompressed data. + n, err := w.writer.Write(uncompressed) + if err != nil { + return 0, w.err(err) + } + if n != len(uncompressed) { + return 0, w.err(io.ErrShortWrite) + } + w.written += int64(n) + } + w.buffers.Put(obuf) + // Queue final output. + nRet += len(uncompressed) + } + return nRet, nil +} + +// Flush flushes the Writer to its underlying io.Writer. +// This does not apply padding. +func (w *Writer) Flush() error { + if err := w.err(nil); err != nil { + return err + } + + // Queue any data still in input buffer. + if len(w.ibuf) != 0 { + if !w.wroteStreamHeader { + _, err := w.writeSync(w.ibuf) + w.ibuf = w.ibuf[:0] + return w.err(err) + } else { + _, err := w.write(w.ibuf) + w.ibuf = w.ibuf[:0] + err = w.err(err) + if err != nil { + return err + } + } + } + if w.output == nil { + return w.err(nil) + } + + // Send empty buffer + res := make(chan result) + w.output <- res + // Block until this has been picked up. + res <- nil + // When it is closed, we have flushed. + <-res + return w.err(nil) +} + +// Close calls Flush and then closes the Writer. +// Calling Close multiple times is ok. +func (w *Writer) Close() error { + err := w.Flush() + if w.output != nil { + close(w.output) + w.writerWg.Wait() + w.output = nil + } + if w.err(nil) == nil && w.writer != nil && w.pad > 0 { + add := calcSkippableFrame(w.written, int64(w.pad)) + frame, err := skippableFrame(w.ibuf[:0], add, w.randSrc) + if err = w.err(err); err != nil { + return err + } + _, err2 := w.writer.Write(frame) + _ = w.err(err2) + } + _ = w.err(errClosed) + if err == errClosed { + return nil + } + return err +} + +const skippableFrameHeader = 4 + +// calcSkippableFrame will return a total size to be added for written +// to be divisible by multiple. +// The value will always be > skippableFrameHeader. +// The function will panic if written < 0 or wantMultiple <= 0. +func calcSkippableFrame(written, wantMultiple int64) int { + if wantMultiple <= 0 { + panic("wantMultiple <= 0") + } + if written < 0 { + panic("written < 0") + } + leftOver := written % wantMultiple + if leftOver == 0 { + return 0 + } + toAdd := wantMultiple - leftOver + for toAdd < skippableFrameHeader { + toAdd += wantMultiple + } + return int(toAdd) +} + +// skippableFrame will add a skippable frame with a total size of bytes. +// total should be >= skippableFrameHeader and < maxBlockSize + skippableFrameHeader +func skippableFrame(dst []byte, total int, r io.Reader) ([]byte, error) { + if total == 0 { + return dst, nil + } + if total < skippableFrameHeader { + return dst, fmt.Errorf("s2: requested skippable frame (%d) < 4", total) + } + if int64(total) >= maxBlockSize+skippableFrameHeader { + return dst, fmt.Errorf("s2: requested skippable frame (%d) >= max 1<<24", total) + } + // Chunk type 0xfe "Section 4.4 Padding (chunk type 0xfe)" + dst = append(dst, chunkTypePadding) + f := uint32(total - skippableFrameHeader) + // Add chunk length. + dst = append(dst, uint8(f), uint8(f>>8), uint8(f>>16)) + // Add data + start := len(dst) + dst = append(dst, make([]byte, f)...) + _, err := io.ReadFull(r, dst[start:]) + return dst, err +} + +// WriterOption is an option for creating a encoder. +type WriterOption func(*Writer) error + +// WriterConcurrency will set the concurrency, +// meaning the maximum number of decoders to run concurrently. +// The value supplied must be at least 1. +// By default this will be set to GOMAXPROCS. +func WriterConcurrency(n int) WriterOption { + return func(w *Writer) error { + if n <= 0 { + return errors.New("concurrency must be at least 1") + } + w.concurrency = n + return nil + } +} + +// WriterBetterCompression will enable better compression. +// EncodeBetter compresses better than Encode but typically with a +// 10-40% speed decrease on both compression and decompression. +func WriterBetterCompression() WriterOption { + return func(w *Writer) error { + w.level = levelBetter + return nil + } +} + +// WriterBestCompression will enable better compression. +// EncodeBetter compresses better than Encode but typically with a +// big speed decrease on compression. +func WriterBestCompression() WriterOption { + return func(w *Writer) error { + w.level = levelBest + return nil + } +} + +// WriterUncompressed will bypass compression. +// The stream will be written as uncompressed blocks only. +// If concurrency is > 1 CRC and output will still be done async. +func WriterUncompressed() WriterOption { + return func(w *Writer) error { + w.level = levelUncompressed + return nil + } +} + +// WriterBlockSize allows to override the default block size. +// Blocks will be this size or smaller. +// Minimum size is 4KB and and maximum size is 4MB. +// +// Bigger blocks may give bigger throughput on systems with many cores, +// and will increase compression slightly, but it will limit the possible +// concurrency for smaller payloads for both encoding and decoding. +// Default block size is 1MB. +// +// When writing Snappy compatible output using WriterSnappyCompat, +// the maximum block size is 64KB. +func WriterBlockSize(n int) WriterOption { + return func(w *Writer) error { + if w.snappy && n > maxSnappyBlockSize || n < minBlockSize { + return errors.New("s2: block size too large. Must be <= 64K and >=4KB on for snappy compatible output") + } + if n > maxBlockSize || n < minBlockSize { + return errors.New("s2: block size too large. Must be <= 4MB and >=4KB") + } + w.blockSize = n + return nil + } +} + +// WriterPadding will add padding to all output so the size will be a multiple of n. +// This can be used to obfuscate the exact output size or make blocks of a certain size. +// The contents will be a skippable frame, so it will be invisible by the decoder. +// n must be > 0 and <= 4MB. +// The padded area will be filled with data from crypto/rand.Reader. +// The padding will be applied whenever Close is called on the writer. +func WriterPadding(n int) WriterOption { + return func(w *Writer) error { + if n <= 0 { + return fmt.Errorf("s2: padding must be at least 1") + } + // No need to waste our time. + if n == 1 { + w.pad = 0 + } + if n > maxBlockSize { + return fmt.Errorf("s2: padding must less than 4MB") + } + w.pad = n + return nil + } +} + +// WriterPaddingSrc will get random data for padding from the supplied source. +// By default crypto/rand is used. +func WriterPaddingSrc(reader io.Reader) WriterOption { + return func(w *Writer) error { + w.randSrc = reader + return nil + } +} + +// WriterSnappyCompat will write snappy compatible output. +// The output can be decompressed using either snappy or s2. +// If block size is more than 64KB it is set to that. +func WriterSnappyCompat() WriterOption { + return func(w *Writer) error { + w.snappy = true + if w.blockSize > 64<<10 { + // We choose 8 bytes less than 64K, since that will make literal emits slightly more effective. + // And allows us to skip some size checks. + w.blockSize = (64 << 10) - 8 + } + return nil + } +} + +// WriterFlushOnWrite will compress blocks on each call to the Write function. +// +// This is quite inefficient as blocks size will depend on the write size. +// +// Use WriterConcurrency(1) to also make sure that output is flushed. +// When Write calls return, otherwise they will be written when compression is done. +func WriterFlushOnWrite() WriterOption { + return func(w *Writer) error { + w.flushOnWrite = true + return nil + } +} diff --git a/vendor/github.com/klauspost/compress/s2/encode_all.go b/vendor/github.com/klauspost/compress/s2/encode_all.go new file mode 100644 index 00000000..8b16c38a --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode_all.go @@ -0,0 +1,456 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package s2 + +import ( + "bytes" + "encoding/binary" + "math/bits" +) + +func load32(b []byte, i int) uint32 { + return binary.LittleEndian.Uint32(b[i:]) +} + +func load64(b []byte, i int) uint64 { + return binary.LittleEndian.Uint64(b[i:]) +} + +// hash6 returns the hash of the lowest 6 bytes of u to fit in a hash table with h bits. +// Preferably h should be a constant and should always be <64. +func hash6(u uint64, h uint8) uint32 { + const prime6bytes = 227718039650203 + return uint32(((u << (64 - 48)) * prime6bytes) >> ((64 - h) & 63)) +} + +func encodeGo(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if len(dst) < n { + dst = make([]byte, n) + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + if len(src) == 0 { + return dst[:d] + } + if len(src) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], src) + return dst[:d] + } + n := encodeBlockGo(dst[d:], src) + if n > 0 { + d += n + return dst[:d] + } + // Not compressible + d += emitLiteral(dst[d:], src) + return dst[:d] +} + +// encodeBlockGo encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockGo(dst, src []byte) (d int) { + // Initialize the hash table. + const ( + tableBits = 14 + maxTableSize = 1 << tableBits + + debug = false + ) + + var table [maxTableSize]uint32 + + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + + // Bail if we can't compress to at least this. + dstLimit := len(src) - len(src)>>5 - 5 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We search for a repeat at -1, but don't output repeats when nextEmit == 0 + repeat := 1 + + for { + candidate := 0 + for { + // Next src position to check + nextS := s + (s-nextEmit)>>6 + 4 + if nextS > sLimit { + goto emitRemainder + } + hash0 := hash6(cv, tableBits) + hash1 := hash6(cv>>8, tableBits) + candidate = int(table[hash0]) + candidate2 := int(table[hash1]) + table[hash0] = uint32(s) + table[hash1] = uint32(s + 1) + hash2 := hash6(cv>>16, tableBits) + + // Check repeat at offset checkRep. + const checkRep = 1 + if uint32(cv>>(checkRep*8)) == load32(src, s-repeat+checkRep) { + base := s + checkRep + // Extend back + for i := base - repeat; base > nextEmit && i > 0 && src[i-1] == src[base-1]; { + i-- + base-- + } + d += emitLiteral(dst[d:], src[nextEmit:base]) + + // Extend forward + candidate := s - repeat + 4 + checkRep + s += 4 + checkRep + for s <= sLimit { + if diff := load64(src, s) ^ load64(src, candidate); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidate += 8 + } + if debug { + // Validate match. + if s <= candidate { + panic("s <= candidate") + } + a := src[base:s] + b := src[base-repeat : base-repeat+(s-base)] + if !bytes.Equal(a, b) { + panic("mismatch") + } + } + if nextEmit > 0 { + // same as `add := emitCopy(dst[d:], repeat, s-base)` but skips storing offset. + d += emitRepeat(dst[d:], repeat, s-base) + } else { + // First match, cannot be repeat. + d += emitCopy(dst[d:], repeat, s-base) + } + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + cv = load64(src, s) + continue + } + + if uint32(cv) == load32(src, candidate) { + break + } + candidate = int(table[hash2]) + if uint32(cv>>8) == load32(src, candidate2) { + table[hash2] = uint32(s + 2) + candidate = candidate2 + s++ + break + } + table[hash2] = uint32(s + 2) + if uint32(cv>>16) == load32(src, candidate) { + s += 2 + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards. + // The top bytes will be rechecked to get the full match. + for candidate > 0 && s > nextEmit && src[candidate-1] == src[s-1] { + candidate-- + s-- + } + + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + // A 4-byte match has been found. We'll later see if more than 4 bytes + // match. But, prior to the match, src[nextEmit:s] are unmatched. Emit + // them as literal bytes. + + d += emitLiteral(dst[d:], src[nextEmit:s]) + + // Call emitCopy, and then see if another emitCopy could be our next + // move. Repeat until we find no match for the input immediately after + // what was consumed by the last emitCopy call. + // + // If we exit this loop normally then we need to call emitLiteral next, + // though we don't yet know how big the literal will be. We handle that + // by proceeding to the next iteration of the main loop. We also can + // exit this loop via goto if we get close to exhausting the input. + for { + // Invariant: we have a 4-byte match at s, and no need to emit any + // literal bytes prior to s. + base := s + repeat = base - candidate + + // Extend the 4-byte match as long as possible. + s += 4 + candidate += 4 + for s <= len(src)-8 { + if diff := load64(src, s) ^ load64(src, candidate); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidate += 8 + } + + d += emitCopy(dst[d:], repeat, s-base) + if debug { + // Validate match. + if s <= candidate { + panic("s <= candidate") + } + a := src[base:s] + b := src[base-repeat : base-repeat+(s-base)] + if !bytes.Equal(a, b) { + panic("mismatch") + } + } + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Check for an immediate match, otherwise start search at s+1 + x := load64(src, s-2) + m2Hash := hash6(x, tableBits) + currHash := hash6(x>>16, tableBits) + candidate = int(table[currHash]) + table[m2Hash] = uint32(s - 2) + table[currHash] = uint32(s) + if debug && s == candidate { + panic("s == candidate") + } + if uint32(x>>16) != load32(src, candidate) { + cv = load64(src, s+1) + s++ + break + } + } + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} + +func encodeBlockSnappyGo(dst, src []byte) (d int) { + // Initialize the hash table. + const ( + tableBits = 14 + maxTableSize = 1 << tableBits + ) + + var table [maxTableSize]uint32 + + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + + // Bail if we can't compress to at least this. + dstLimit := len(src) - len(src)>>5 - 5 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We search for a repeat at -1, but don't output repeats when nextEmit == 0 + repeat := 1 + + for { + candidate := 0 + for { + // Next src position to check + nextS := s + (s-nextEmit)>>6 + 4 + if nextS > sLimit { + goto emitRemainder + } + hash0 := hash6(cv, tableBits) + hash1 := hash6(cv>>8, tableBits) + candidate = int(table[hash0]) + candidate2 := int(table[hash1]) + table[hash0] = uint32(s) + table[hash1] = uint32(s + 1) + hash2 := hash6(cv>>16, tableBits) + + // Check repeat at offset checkRep. + const checkRep = 1 + if uint32(cv>>(checkRep*8)) == load32(src, s-repeat+checkRep) { + base := s + checkRep + // Extend back + for i := base - repeat; base > nextEmit && i > 0 && src[i-1] == src[base-1]; { + i-- + base-- + } + d += emitLiteral(dst[d:], src[nextEmit:base]) + + // Extend forward + candidate := s - repeat + 4 + checkRep + s += 4 + checkRep + for s <= sLimit { + if diff := load64(src, s) ^ load64(src, candidate); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidate += 8 + } + + d += emitCopyNoRepeat(dst[d:], repeat, s-base) + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + cv = load64(src, s) + continue + } + + if uint32(cv) == load32(src, candidate) { + break + } + candidate = int(table[hash2]) + if uint32(cv>>8) == load32(src, candidate2) { + table[hash2] = uint32(s + 2) + candidate = candidate2 + s++ + break + } + table[hash2] = uint32(s + 2) + if uint32(cv>>16) == load32(src, candidate) { + s += 2 + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards + for candidate > 0 && s > nextEmit && src[candidate-1] == src[s-1] { + candidate-- + s-- + } + + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + // A 4-byte match has been found. We'll later see if more than 4 bytes + // match. But, prior to the match, src[nextEmit:s] are unmatched. Emit + // them as literal bytes. + + d += emitLiteral(dst[d:], src[nextEmit:s]) + + // Call emitCopy, and then see if another emitCopy could be our next + // move. Repeat until we find no match for the input immediately after + // what was consumed by the last emitCopy call. + // + // If we exit this loop normally then we need to call emitLiteral next, + // though we don't yet know how big the literal will be. We handle that + // by proceeding to the next iteration of the main loop. We also can + // exit this loop via goto if we get close to exhausting the input. + for { + // Invariant: we have a 4-byte match at s, and no need to emit any + // literal bytes prior to s. + base := s + repeat = base - candidate + + // Extend the 4-byte match as long as possible. + s += 4 + candidate += 4 + for s <= len(src)-8 { + if diff := load64(src, s) ^ load64(src, candidate); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidate += 8 + } + + d += emitCopyNoRepeat(dst[d:], repeat, s-base) + if false { + // Validate match. + a := src[base:s] + b := src[base-repeat : base-repeat+(s-base)] + if !bytes.Equal(a, b) { + panic("mismatch") + } + } + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Check for an immediate match, otherwise start search at s+1 + x := load64(src, s-2) + m2Hash := hash6(x, tableBits) + currHash := hash6(x>>16, tableBits) + candidate = int(table[currHash]) + table[m2Hash] = uint32(s - 2) + table[currHash] = uint32(s) + if uint32(x>>16) != load32(src, candidate) { + cv = load64(src, s+1) + s++ + break + } + } + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} diff --git a/vendor/github.com/klauspost/compress/s2/encode_amd64.go b/vendor/github.com/klauspost/compress/s2/encode_amd64.go new file mode 100644 index 00000000..e612225f --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode_amd64.go @@ -0,0 +1,142 @@ +//go:build !appengine && !noasm && gc +// +build !appengine,!noasm,gc + +package s2 + +// encodeBlock encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlock(dst, src []byte) (d int) { + const ( + // Use 12 bit table when less than... + limit12B = 16 << 10 + // Use 10 bit table when less than... + limit10B = 4 << 10 + // Use 8 bit table when less than... + limit8B = 512 + ) + + if len(src) >= 4<<20 { + return encodeBlockAsm(dst, src) + } + if len(src) >= limit12B { + return encodeBlockAsm4MB(dst, src) + } + if len(src) >= limit10B { + return encodeBlockAsm12B(dst, src) + } + if len(src) >= limit8B { + return encodeBlockAsm10B(dst, src) + } + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeBlockAsm8B(dst, src) +} + +// encodeBlockBetter encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBetter(dst, src []byte) (d int) { + const ( + // Use 12 bit table when less than... + limit12B = 16 << 10 + // Use 10 bit table when less than... + limit10B = 4 << 10 + // Use 8 bit table when less than... + limit8B = 512 + ) + + if len(src) > 4<<20 { + return encodeBetterBlockAsm(dst, src) + } + if len(src) >= limit12B { + return encodeBetterBlockAsm4MB(dst, src) + } + if len(src) >= limit10B { + return encodeBetterBlockAsm12B(dst, src) + } + if len(src) >= limit8B { + return encodeBetterBlockAsm10B(dst, src) + } + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeBetterBlockAsm8B(dst, src) +} + +// encodeBlockSnappy encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockSnappy(dst, src []byte) (d int) { + const ( + // Use 12 bit table when less than... + limit12B = 16 << 10 + // Use 10 bit table when less than... + limit10B = 4 << 10 + // Use 8 bit table when less than... + limit8B = 512 + ) + if len(src) >= 64<<10 { + return encodeSnappyBlockAsm(dst, src) + } + if len(src) >= limit12B { + return encodeSnappyBlockAsm64K(dst, src) + } + if len(src) >= limit10B { + return encodeSnappyBlockAsm12B(dst, src) + } + if len(src) >= limit8B { + return encodeSnappyBlockAsm10B(dst, src) + } + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeSnappyBlockAsm8B(dst, src) +} + +// encodeBlockSnappy encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBetterSnappy(dst, src []byte) (d int) { + const ( + // Use 12 bit table when less than... + limit12B = 16 << 10 + // Use 10 bit table when less than... + limit10B = 4 << 10 + // Use 8 bit table when less than... + limit8B = 512 + ) + if len(src) >= 64<<10 { + return encodeSnappyBetterBlockAsm(dst, src) + } + if len(src) >= limit12B { + return encodeSnappyBetterBlockAsm64K(dst, src) + } + if len(src) >= limit10B { + return encodeSnappyBetterBlockAsm12B(dst, src) + } + if len(src) >= limit8B { + return encodeSnappyBetterBlockAsm10B(dst, src) + } + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeSnappyBetterBlockAsm8B(dst, src) +} diff --git a/vendor/github.com/klauspost/compress/s2/encode_best.go b/vendor/github.com/klauspost/compress/s2/encode_best.go new file mode 100644 index 00000000..44803477 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode_best.go @@ -0,0 +1,604 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package s2 + +import ( + "fmt" + "math/bits" +) + +// encodeBlockBest encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBest(dst, src []byte) (d int) { + // Initialize the hash tables. + const ( + // Long hash matches. + lTableBits = 19 + maxLTableSize = 1 << lTableBits + + // Short hash matches. + sTableBits = 16 + maxSTableSize = 1 << sTableBits + + inputMargin = 8 + 2 + ) + + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + if len(src) < minNonLiteralBlockSize { + return 0 + } + + var lTable [maxLTableSize]uint64 + var sTable [maxSTableSize]uint64 + + // Bail if we can't compress to at least this. + dstLimit := len(src) - 5 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We search for a repeat at -1, but don't output repeats when nextEmit == 0 + repeat := 1 + const lowbitMask = 0xffffffff + getCur := func(x uint64) int { + return int(x & lowbitMask) + } + getPrev := func(x uint64) int { + return int(x >> 32) + } + const maxSkip = 64 + + for { + type match struct { + offset int + s int + length int + score int + rep bool + } + var best match + for { + // Next src position to check + nextS := (s-nextEmit)>>8 + 1 + if nextS > maxSkip { + nextS = s + maxSkip + } else { + nextS += s + } + if nextS > sLimit { + goto emitRemainder + } + hashL := hash8(cv, lTableBits) + hashS := hash4(cv, sTableBits) + candidateL := lTable[hashL] + candidateS := sTable[hashS] + + score := func(m match) int { + // Matches that are longer forward are penalized since we must emit it as a literal. + score := m.length - m.s + if nextEmit == m.s { + // If we do not have to emit literals, we save 1 byte + score++ + } + offset := m.s - m.offset + if m.rep { + return score - emitRepeatSize(offset, m.length) + } + return score - emitCopySize(offset, m.length) + } + + matchAt := func(offset, s int, first uint32, rep bool) match { + if best.length != 0 && best.s-best.offset == s-offset { + // Don't retest if we have the same offset. + return match{offset: offset, s: s} + } + if load32(src, offset) != first { + return match{offset: offset, s: s} + } + m := match{offset: offset, s: s, length: 4 + offset, rep: rep} + s += 4 + for s <= sLimit { + if diff := load64(src, s) ^ load64(src, m.length); diff != 0 { + m.length += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + m.length += 8 + } + m.length -= offset + m.score = score(m) + if m.score <= -m.s { + // Eliminate if no savings, we might find a better one. + m.length = 0 + } + return m + } + + bestOf := func(a, b match) match { + if b.length == 0 { + return a + } + if a.length == 0 { + return b + } + as := a.score + b.s + bs := b.score + a.s + if as >= bs { + return a + } + return b + } + + best = bestOf(matchAt(getCur(candidateL), s, uint32(cv), false), matchAt(getPrev(candidateL), s, uint32(cv), false)) + best = bestOf(best, matchAt(getCur(candidateS), s, uint32(cv), false)) + best = bestOf(best, matchAt(getPrev(candidateS), s, uint32(cv), false)) + + { + best = bestOf(best, matchAt(s-repeat+1, s+1, uint32(cv>>8), true)) + if best.length > 0 { + // s+1 + nextShort := sTable[hash4(cv>>8, sTableBits)] + s := s + 1 + cv := load64(src, s) + nextLong := lTable[hash8(cv, lTableBits)] + best = bestOf(best, matchAt(getCur(nextShort), s, uint32(cv), false)) + best = bestOf(best, matchAt(getPrev(nextShort), s, uint32(cv), false)) + best = bestOf(best, matchAt(getCur(nextLong), s, uint32(cv), false)) + best = bestOf(best, matchAt(getPrev(nextLong), s, uint32(cv), false)) + // Repeat at + 2 + best = bestOf(best, matchAt(s-repeat+1, s+1, uint32(cv>>8), true)) + + // s+2 + if true { + nextShort = sTable[hash4(cv>>8, sTableBits)] + s++ + cv = load64(src, s) + nextLong = lTable[hash8(cv, lTableBits)] + best = bestOf(best, matchAt(getCur(nextShort), s, uint32(cv), false)) + best = bestOf(best, matchAt(getPrev(nextShort), s, uint32(cv), false)) + best = bestOf(best, matchAt(getCur(nextLong), s, uint32(cv), false)) + best = bestOf(best, matchAt(getPrev(nextLong), s, uint32(cv), false)) + } + // Search for a match at best match end, see if that is better. + if sAt := best.s + best.length; sAt < sLimit { + sBack := best.s + backL := best.length + // Load initial values + cv = load64(src, sBack) + // Search for mismatch + next := lTable[hash8(load64(src, sAt), lTableBits)] + //next := sTable[hash4(load64(src, sAt), sTableBits)] + + if checkAt := getCur(next) - backL; checkAt > 0 { + best = bestOf(best, matchAt(checkAt, sBack, uint32(cv), false)) + } + if checkAt := getPrev(next) - backL; checkAt > 0 { + best = bestOf(best, matchAt(checkAt, sBack, uint32(cv), false)) + } + } + } + } + + // Update table + lTable[hashL] = uint64(s) | candidateL<<32 + sTable[hashS] = uint64(s) | candidateS<<32 + + if best.length > 0 { + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards, not needed for repeats... + s = best.s + if !best.rep { + for best.offset > 0 && s > nextEmit && src[best.offset-1] == src[s-1] { + best.offset-- + best.length++ + s-- + } + } + if false && best.offset >= s { + panic(fmt.Errorf("t %d >= s %d", best.offset, s)) + } + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + base := s + offset := s - best.offset + + s += best.length + + if offset > 65535 && s-base <= 5 && !best.rep { + // Bail if the match is equal or worse to the encoding. + s = best.s + 1 + if s >= sLimit { + goto emitRemainder + } + cv = load64(src, s) + continue + } + d += emitLiteral(dst[d:], src[nextEmit:base]) + if best.rep { + if nextEmit > 0 { + // same as `add := emitCopy(dst[d:], repeat, s-base)` but skips storing offset. + d += emitRepeat(dst[d:], offset, best.length) + } else { + // First match, cannot be repeat. + d += emitCopy(dst[d:], offset, best.length) + } + } else { + d += emitCopy(dst[d:], offset, best.length) + } + repeat = offset + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Fill tables... + for i := best.s + 1; i < s; i++ { + cv0 := load64(src, i) + long0 := hash8(cv0, lTableBits) + short0 := hash4(cv0, sTableBits) + lTable[long0] = uint64(i) | lTable[long0]<<32 + sTable[short0] = uint64(i) | sTable[short0]<<32 + } + cv = load64(src, s) + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} + +// encodeBlockBestSnappy encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBestSnappy(dst, src []byte) (d int) { + // Initialize the hash tables. + const ( + // Long hash matches. + lTableBits = 19 + maxLTableSize = 1 << lTableBits + + // Short hash matches. + sTableBits = 16 + maxSTableSize = 1 << sTableBits + + inputMargin = 8 + 2 + ) + + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + if len(src) < minNonLiteralBlockSize { + return 0 + } + + var lTable [maxLTableSize]uint64 + var sTable [maxSTableSize]uint64 + + // Bail if we can't compress to at least this. + dstLimit := len(src) - 5 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We search for a repeat at -1, but don't output repeats when nextEmit == 0 + repeat := 1 + const lowbitMask = 0xffffffff + getCur := func(x uint64) int { + return int(x & lowbitMask) + } + getPrev := func(x uint64) int { + return int(x >> 32) + } + const maxSkip = 64 + + for { + type match struct { + offset int + s int + length int + score int + } + var best match + for { + // Next src position to check + nextS := (s-nextEmit)>>8 + 1 + if nextS > maxSkip { + nextS = s + maxSkip + } else { + nextS += s + } + if nextS > sLimit { + goto emitRemainder + } + hashL := hash8(cv, lTableBits) + hashS := hash4(cv, sTableBits) + candidateL := lTable[hashL] + candidateS := sTable[hashS] + + score := func(m match) int { + // Matches that are longer forward are penalized since we must emit it as a literal. + score := m.length - m.s + if nextEmit == m.s { + // If we do not have to emit literals, we save 1 byte + score++ + } + offset := m.s - m.offset + + return score - emitCopySize(offset, m.length) + } + + matchAt := func(offset, s int, first uint32) match { + if best.length != 0 && best.s-best.offset == s-offset { + // Don't retest if we have the same offset. + return match{offset: offset, s: s} + } + if load32(src, offset) != first { + return match{offset: offset, s: s} + } + m := match{offset: offset, s: s, length: 4 + offset} + s += 4 + for s <= sLimit { + if diff := load64(src, s) ^ load64(src, m.length); diff != 0 { + m.length += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + m.length += 8 + } + m.length -= offset + m.score = score(m) + if m.score <= -m.s { + // Eliminate if no savings, we might find a better one. + m.length = 0 + } + return m + } + + bestOf := func(a, b match) match { + if b.length == 0 { + return a + } + if a.length == 0 { + return b + } + as := a.score + b.s + bs := b.score + a.s + if as >= bs { + return a + } + return b + } + + best = bestOf(matchAt(getCur(candidateL), s, uint32(cv)), matchAt(getPrev(candidateL), s, uint32(cv))) + best = bestOf(best, matchAt(getCur(candidateS), s, uint32(cv))) + best = bestOf(best, matchAt(getPrev(candidateS), s, uint32(cv))) + + { + best = bestOf(best, matchAt(s-repeat+1, s+1, uint32(cv>>8))) + if best.length > 0 { + // s+1 + nextShort := sTable[hash4(cv>>8, sTableBits)] + s := s + 1 + cv := load64(src, s) + nextLong := lTable[hash8(cv, lTableBits)] + best = bestOf(best, matchAt(getCur(nextShort), s, uint32(cv))) + best = bestOf(best, matchAt(getPrev(nextShort), s, uint32(cv))) + best = bestOf(best, matchAt(getCur(nextLong), s, uint32(cv))) + best = bestOf(best, matchAt(getPrev(nextLong), s, uint32(cv))) + // Repeat at + 2 + best = bestOf(best, matchAt(s-repeat+1, s+1, uint32(cv>>8))) + + // s+2 + if true { + nextShort = sTable[hash4(cv>>8, sTableBits)] + s++ + cv = load64(src, s) + nextLong = lTable[hash8(cv, lTableBits)] + best = bestOf(best, matchAt(getCur(nextShort), s, uint32(cv))) + best = bestOf(best, matchAt(getPrev(nextShort), s, uint32(cv))) + best = bestOf(best, matchAt(getCur(nextLong), s, uint32(cv))) + best = bestOf(best, matchAt(getPrev(nextLong), s, uint32(cv))) + } + // Search for a match at best match end, see if that is better. + if sAt := best.s + best.length; sAt < sLimit { + sBack := best.s + backL := best.length + // Load initial values + cv = load64(src, sBack) + // Search for mismatch + next := lTable[hash8(load64(src, sAt), lTableBits)] + //next := sTable[hash4(load64(src, sAt), sTableBits)] + + if checkAt := getCur(next) - backL; checkAt > 0 { + best = bestOf(best, matchAt(checkAt, sBack, uint32(cv))) + } + if checkAt := getPrev(next) - backL; checkAt > 0 { + best = bestOf(best, matchAt(checkAt, sBack, uint32(cv))) + } + } + } + } + + // Update table + lTable[hashL] = uint64(s) | candidateL<<32 + sTable[hashS] = uint64(s) | candidateS<<32 + + if best.length > 0 { + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards, not needed for repeats... + s = best.s + if true { + for best.offset > 0 && s > nextEmit && src[best.offset-1] == src[s-1] { + best.offset-- + best.length++ + s-- + } + } + if false && best.offset >= s { + panic(fmt.Errorf("t %d >= s %d", best.offset, s)) + } + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + base := s + offset := s - best.offset + + s += best.length + + if offset > 65535 && s-base <= 5 { + // Bail if the match is equal or worse to the encoding. + s = best.s + 1 + if s >= sLimit { + goto emitRemainder + } + cv = load64(src, s) + continue + } + d += emitLiteral(dst[d:], src[nextEmit:base]) + d += emitCopyNoRepeat(dst[d:], offset, best.length) + repeat = offset + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Fill tables... + for i := best.s + 1; i < s; i++ { + cv0 := load64(src, i) + long0 := hash8(cv0, lTableBits) + short0 := hash4(cv0, sTableBits) + lTable[long0] = uint64(i) | lTable[long0]<<32 + sTable[short0] = uint64(i) | sTable[short0]<<32 + } + cv = load64(src, s) + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} + +// emitCopySize returns the size to encode the offset+length +// +// It assumes that: +// 1 <= offset && offset <= math.MaxUint32 +// 4 <= length && length <= 1 << 24 +func emitCopySize(offset, length int) int { + if offset >= 65536 { + i := 0 + if length > 64 { + length -= 64 + if length >= 4 { + // Emit remaining as repeats + return 5 + emitRepeatSize(offset, length) + } + i = 5 + } + if length == 0 { + return i + } + return i + 5 + } + + // Offset no more than 2 bytes. + if length > 64 { + // Emit remaining as repeats, at least 4 bytes remain. + return 3 + emitRepeatSize(offset, length-60) + } + if length >= 12 || offset >= 2048 { + return 3 + } + // Emit the remaining copy, encoded as 2 bytes. + return 2 +} + +// emitRepeatSize returns the number of bytes required to encode a repeat. +// Length must be at least 4 and < 1<<24 +func emitRepeatSize(offset, length int) int { + // Repeat offset, make length cheaper + if length <= 4+4 || (length < 8+4 && offset < 2048) { + return 2 + } + if length < (1<<8)+4+4 { + return 3 + } + if length < (1<<16)+(1<<8)+4 { + return 4 + } + const maxRepeat = (1 << 24) - 1 + length -= (1 << 16) - 4 + left := 0 + if length > maxRepeat { + left = length - maxRepeat + 4 + length = maxRepeat - 4 + } + if left > 0 { + return 5 + emitRepeatSize(offset, left) + } + return 5 +} diff --git a/vendor/github.com/klauspost/compress/s2/encode_better.go b/vendor/github.com/klauspost/compress/s2/encode_better.go new file mode 100644 index 00000000..943215b8 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode_better.go @@ -0,0 +1,431 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package s2 + +import ( + "math/bits" +) + +// hash4 returns the hash of the lowest 4 bytes of u to fit in a hash table with h bits. +// Preferably h should be a constant and should always be <32. +func hash4(u uint64, h uint8) uint32 { + const prime4bytes = 2654435761 + return (uint32(u) * prime4bytes) >> ((32 - h) & 31) +} + +// hash5 returns the hash of the lowest 5 bytes of u to fit in a hash table with h bits. +// Preferably h should be a constant and should always be <64. +func hash5(u uint64, h uint8) uint32 { + const prime5bytes = 889523592379 + return uint32(((u << (64 - 40)) * prime5bytes) >> ((64 - h) & 63)) +} + +// hash7 returns the hash of the lowest 7 bytes of u to fit in a hash table with h bits. +// Preferably h should be a constant and should always be <64. +func hash7(u uint64, h uint8) uint32 { + const prime7bytes = 58295818150454627 + return uint32(((u << (64 - 56)) * prime7bytes) >> ((64 - h) & 63)) +} + +// hash8 returns the hash of u to fit in a hash table with h bits. +// Preferably h should be a constant and should always be <64. +func hash8(u uint64, h uint8) uint32 { + const prime8bytes = 0xcf1bbcdcb7a56463 + return uint32((u * prime8bytes) >> ((64 - h) & 63)) +} + +// encodeBlockBetter encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBetterGo(dst, src []byte) (d int) { + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + if len(src) < minNonLiteralBlockSize { + return 0 + } + + // Initialize the hash tables. + const ( + // Long hash matches. + lTableBits = 16 + maxLTableSize = 1 << lTableBits + + // Short hash matches. + sTableBits = 14 + maxSTableSize = 1 << sTableBits + ) + + var lTable [maxLTableSize]uint32 + var sTable [maxSTableSize]uint32 + + // Bail if we can't compress to at least this. + dstLimit := len(src) - len(src)>>5 - 6 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We initialize repeat to 0, so we never match on first attempt + repeat := 0 + + for { + candidateL := 0 + nextS := 0 + for { + // Next src position to check + nextS = s + (s-nextEmit)>>7 + 1 + if nextS > sLimit { + goto emitRemainder + } + hashL := hash7(cv, lTableBits) + hashS := hash4(cv, sTableBits) + candidateL = int(lTable[hashL]) + candidateS := int(sTable[hashS]) + lTable[hashL] = uint32(s) + sTable[hashS] = uint32(s) + + // Check repeat at offset checkRep. + const checkRep = 1 + if false && uint32(cv>>(checkRep*8)) == load32(src, s-repeat+checkRep) { + base := s + checkRep + // Extend back + for i := base - repeat; base > nextEmit && i > 0 && src[i-1] == src[base-1]; { + i-- + base-- + } + d += emitLiteral(dst[d:], src[nextEmit:base]) + + // Extend forward + candidate := s - repeat + 4 + checkRep + s += 4 + checkRep + for s < len(src) { + if len(src)-s < 8 { + if src[s] == src[candidate] { + s++ + candidate++ + continue + } + break + } + if diff := load64(src, s) ^ load64(src, candidate); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidate += 8 + } + if nextEmit > 0 { + // same as `add := emitCopy(dst[d:], repeat, s-base)` but skips storing offset. + d += emitRepeat(dst[d:], repeat, s-base) + } else { + // First match, cannot be repeat. + d += emitCopy(dst[d:], repeat, s-base) + } + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + cv = load64(src, s) + continue + } + + if uint32(cv) == load32(src, candidateL) { + break + } + + // Check our short candidate + if uint32(cv) == load32(src, candidateS) { + // Try a long candidate at s+1 + hashL = hash7(cv>>8, lTableBits) + candidateL = int(lTable[hashL]) + lTable[hashL] = uint32(s + 1) + if uint32(cv>>8) == load32(src, candidateL) { + s++ + break + } + // Use our short candidate. + candidateL = candidateS + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards + for candidateL > 0 && s > nextEmit && src[candidateL-1] == src[s-1] { + candidateL-- + s-- + } + + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + base := s + offset := base - candidateL + + // Extend the 4-byte match as long as possible. + s += 4 + candidateL += 4 + for s < len(src) { + if len(src)-s < 8 { + if src[s] == src[candidateL] { + s++ + candidateL++ + continue + } + break + } + if diff := load64(src, s) ^ load64(src, candidateL); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidateL += 8 + } + + if offset > 65535 && s-base <= 5 && repeat != offset { + // Bail if the match is equal or worse to the encoding. + s = nextS + 1 + if s >= sLimit { + goto emitRemainder + } + cv = load64(src, s) + continue + } + + d += emitLiteral(dst[d:], src[nextEmit:base]) + if repeat == offset { + d += emitRepeat(dst[d:], offset, s-base) + } else { + d += emitCopy(dst[d:], offset, s-base) + repeat = offset + } + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Index match start+1 (long) and start+2 (short) + index0 := base + 1 + // Index match end-2 (long) and end-1 (short) + index1 := s - 2 + + cv0 := load64(src, index0) + cv1 := load64(src, index1) + cv = load64(src, s) + lTable[hash7(cv0, lTableBits)] = uint32(index0) + lTable[hash7(cv0>>8, lTableBits)] = uint32(index0 + 1) + lTable[hash7(cv1, lTableBits)] = uint32(index1) + lTable[hash7(cv1>>8, lTableBits)] = uint32(index1 + 1) + sTable[hash4(cv0>>8, sTableBits)] = uint32(index0 + 1) + sTable[hash4(cv0>>16, sTableBits)] = uint32(index0 + 2) + sTable[hash4(cv1>>8, sTableBits)] = uint32(index1 + 1) + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} + +// encodeBlockBetterSnappyGo encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlockBetterSnappyGo(dst, src []byte) (d int) { + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + if len(src) < minNonLiteralBlockSize { + return 0 + } + + // Initialize the hash tables. + const ( + // Long hash matches. + lTableBits = 16 + maxLTableSize = 1 << lTableBits + + // Short hash matches. + sTableBits = 14 + maxSTableSize = 1 << sTableBits + ) + + var lTable [maxLTableSize]uint32 + var sTable [maxSTableSize]uint32 + + // Bail if we can't compress to at least this. + dstLimit := len(src) - len(src)>>5 - 6 + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + cv := load64(src, s) + + // We initialize repeat to 0, so we never match on first attempt + repeat := 0 + const maxSkip = 100 + + for { + candidateL := 0 + nextS := 0 + for { + // Next src position to check + nextS = (s-nextEmit)>>7 + 1 + if nextS > maxSkip { + nextS = s + maxSkip + } else { + nextS += s + } + + if nextS > sLimit { + goto emitRemainder + } + hashL := hash7(cv, lTableBits) + hashS := hash4(cv, sTableBits) + candidateL = int(lTable[hashL]) + candidateS := int(sTable[hashS]) + lTable[hashL] = uint32(s) + sTable[hashS] = uint32(s) + + if uint32(cv) == load32(src, candidateL) { + break + } + + // Check our short candidate + if uint32(cv) == load32(src, candidateS) { + // Try a long candidate at s+1 + hashL = hash7(cv>>8, lTableBits) + candidateL = int(lTable[hashL]) + lTable[hashL] = uint32(s + 1) + if uint32(cv>>8) == load32(src, candidateL) { + s++ + break + } + // Use our short candidate. + candidateL = candidateS + break + } + + cv = load64(src, nextS) + s = nextS + } + + // Extend backwards + for candidateL > 0 && s > nextEmit && src[candidateL-1] == src[s-1] { + candidateL-- + s-- + } + + // Bail if we exceed the maximum size. + if d+(s-nextEmit) > dstLimit { + return 0 + } + + base := s + offset := base - candidateL + + // Extend the 4-byte match as long as possible. + s += 4 + candidateL += 4 + for s < len(src) { + if len(src)-s < 8 { + if src[s] == src[candidateL] { + s++ + candidateL++ + continue + } + break + } + if diff := load64(src, s) ^ load64(src, candidateL); diff != 0 { + s += bits.TrailingZeros64(diff) >> 3 + break + } + s += 8 + candidateL += 8 + } + + if offset > 65535 && s-base <= 5 && repeat != offset { + // Bail if the match is equal or worse to the encoding. + s = nextS + 1 + if s >= sLimit { + goto emitRemainder + } + cv = load64(src, s) + continue + } + + d += emitLiteral(dst[d:], src[nextEmit:base]) + d += emitCopyNoRepeat(dst[d:], offset, s-base) + repeat = offset + + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + if d > dstLimit { + // Do we have space for more, if not bail. + return 0 + } + // Index match start+1 (long) and start+2 (short) + index0 := base + 1 + // Index match end-2 (long) and end-1 (short) + index1 := s - 2 + + cv0 := load64(src, index0) + cv1 := load64(src, index1) + cv = load64(src, s) + lTable[hash7(cv0, lTableBits)] = uint32(index0) + lTable[hash7(cv0>>8, lTableBits)] = uint32(index0 + 1) + lTable[hash7(cv1, lTableBits)] = uint32(index1) + lTable[hash7(cv1>>8, lTableBits)] = uint32(index1 + 1) + sTable[hash4(cv0>>8, sTableBits)] = uint32(index0 + 1) + sTable[hash4(cv0>>16, sTableBits)] = uint32(index0 + 2) + sTable[hash4(cv1>>8, sTableBits)] = uint32(index1 + 1) + } + +emitRemainder: + if nextEmit < len(src) { + // Bail if we exceed the maximum size. + if d+len(src)-nextEmit > dstLimit { + return 0 + } + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} diff --git a/vendor/github.com/klauspost/compress/s2/encode_go.go b/vendor/github.com/klauspost/compress/s2/encode_go.go new file mode 100644 index 00000000..43d43534 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encode_go.go @@ -0,0 +1,298 @@ +//go:build !amd64 || appengine || !gc || noasm +// +build !amd64 appengine !gc noasm + +package s2 + +import ( + "math/bits" +) + +// encodeBlock encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) +func encodeBlock(dst, src []byte) (d int) { + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeBlockGo(dst, src) +} + +// encodeBlockBetter encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) +func encodeBlockBetter(dst, src []byte) (d int) { + return encodeBlockBetterGo(dst, src) +} + +// encodeBlockBetter encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) +func encodeBlockBetterSnappy(dst, src []byte) (d int) { + return encodeBlockBetterSnappyGo(dst, src) +} + +// encodeBlock encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) +func encodeBlockSnappy(dst, src []byte) (d int) { + if len(src) < minNonLiteralBlockSize { + return 0 + } + return encodeBlockSnappyGo(dst, src) +} + +// emitLiteral writes a literal chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 0 <= len(lit) && len(lit) <= math.MaxUint32 +func emitLiteral(dst, lit []byte) int { + if len(lit) == 0 { + return 0 + } + const num = 63<<2 | tagLiteral + i, n := 0, uint(len(lit)-1) + switch { + case n < 60: + dst[0] = uint8(n)<<2 | tagLiteral + i = 1 + case n < 1<<8: + dst[1] = uint8(n) + dst[0] = 60<<2 | tagLiteral + i = 2 + case n < 1<<16: + dst[2] = uint8(n >> 8) + dst[1] = uint8(n) + dst[0] = 61<<2 | tagLiteral + i = 3 + case n < 1<<24: + dst[3] = uint8(n >> 16) + dst[2] = uint8(n >> 8) + dst[1] = uint8(n) + dst[0] = 62<<2 | tagLiteral + i = 4 + default: + dst[4] = uint8(n >> 24) + dst[3] = uint8(n >> 16) + dst[2] = uint8(n >> 8) + dst[1] = uint8(n) + dst[0] = 63<<2 | tagLiteral + i = 5 + } + return i + copy(dst[i:], lit) +} + +// emitRepeat writes a repeat chunk and returns the number of bytes written. +// Length must be at least 4 and < 1<<24 +func emitRepeat(dst []byte, offset, length int) int { + // Repeat offset, make length cheaper + length -= 4 + if length <= 4 { + dst[0] = uint8(length)<<2 | tagCopy1 + dst[1] = 0 + return 2 + } + if length < 8 && offset < 2048 { + // Encode WITH offset + dst[1] = uint8(offset) + dst[0] = uint8(offset>>8)<<5 | uint8(length)<<2 | tagCopy1 + return 2 + } + if length < (1<<8)+4 { + length -= 4 + dst[2] = uint8(length) + dst[1] = 0 + dst[0] = 5<<2 | tagCopy1 + return 3 + } + if length < (1<<16)+(1<<8) { + length -= 1 << 8 + dst[3] = uint8(length >> 8) + dst[2] = uint8(length >> 0) + dst[1] = 0 + dst[0] = 6<<2 | tagCopy1 + return 4 + } + const maxRepeat = (1 << 24) - 1 + length -= 1 << 16 + left := 0 + if length > maxRepeat { + left = length - maxRepeat + 4 + length = maxRepeat - 4 + } + dst[4] = uint8(length >> 16) + dst[3] = uint8(length >> 8) + dst[2] = uint8(length >> 0) + dst[1] = 0 + dst[0] = 7<<2 | tagCopy1 + if left > 0 { + return 5 + emitRepeat(dst[5:], offset, left) + } + return 5 +} + +// emitCopy writes a copy chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= offset && offset <= math.MaxUint32 +// 4 <= length && length <= 1 << 24 +func emitCopy(dst []byte, offset, length int) int { + if offset >= 65536 { + i := 0 + if length > 64 { + // Emit a length 64 copy, encoded as 5 bytes. + dst[4] = uint8(offset >> 24) + dst[3] = uint8(offset >> 16) + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = 63<<2 | tagCopy4 + length -= 64 + if length >= 4 { + // Emit remaining as repeats + return 5 + emitRepeat(dst[5:], offset, length) + } + i = 5 + } + if length == 0 { + return i + } + // Emit a copy, offset encoded as 4 bytes. + dst[i+0] = uint8(length-1)<<2 | tagCopy4 + dst[i+1] = uint8(offset) + dst[i+2] = uint8(offset >> 8) + dst[i+3] = uint8(offset >> 16) + dst[i+4] = uint8(offset >> 24) + return i + 5 + } + + // Offset no more than 2 bytes. + if length > 64 { + // Emit a length 60 copy, encoded as 3 bytes. + // Emit remaining as repeat value (minimum 4 bytes). + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = 59<<2 | tagCopy2 + length -= 60 + // Emit remaining as repeats, at least 4 bytes remain. + return 3 + emitRepeat(dst[3:], offset, length) + } + if length >= 12 || offset >= 2048 { + // Emit the remaining copy, encoded as 3 bytes. + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = uint8(length-1)<<2 | tagCopy2 + return 3 + } + // Emit the remaining copy, encoded as 2 bytes. + dst[1] = uint8(offset) + dst[0] = uint8(offset>>8)<<5 | uint8(length-4)<<2 | tagCopy1 + return 2 +} + +// emitCopyNoRepeat writes a copy chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= offset && offset <= math.MaxUint32 +// 4 <= length && length <= 1 << 24 +func emitCopyNoRepeat(dst []byte, offset, length int) int { + if offset >= 65536 { + i := 0 + if length > 64 { + // Emit a length 64 copy, encoded as 5 bytes. + dst[4] = uint8(offset >> 24) + dst[3] = uint8(offset >> 16) + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = 63<<2 | tagCopy4 + length -= 64 + if length >= 4 { + // Emit remaining as repeats + return 5 + emitCopyNoRepeat(dst[5:], offset, length) + } + i = 5 + } + if length == 0 { + return i + } + // Emit a copy, offset encoded as 4 bytes. + dst[i+0] = uint8(length-1)<<2 | tagCopy4 + dst[i+1] = uint8(offset) + dst[i+2] = uint8(offset >> 8) + dst[i+3] = uint8(offset >> 16) + dst[i+4] = uint8(offset >> 24) + return i + 5 + } + + // Offset no more than 2 bytes. + if length > 64 { + // Emit a length 60 copy, encoded as 3 bytes. + // Emit remaining as repeat value (minimum 4 bytes). + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = 59<<2 | tagCopy2 + length -= 60 + // Emit remaining as repeats, at least 4 bytes remain. + return 3 + emitCopyNoRepeat(dst[3:], offset, length) + } + if length >= 12 || offset >= 2048 { + // Emit the remaining copy, encoded as 3 bytes. + dst[2] = uint8(offset >> 8) + dst[1] = uint8(offset) + dst[0] = uint8(length-1)<<2 | tagCopy2 + return 3 + } + // Emit the remaining copy, encoded as 2 bytes. + dst[1] = uint8(offset) + dst[0] = uint8(offset>>8)<<5 | uint8(length-4)<<2 | tagCopy1 + return 2 +} + +// matchLen returns how many bytes match in a and b +// +// It assumes that: +// len(a) <= len(b) +// +func matchLen(a []byte, b []byte) int { + b = b[:len(a)] + var checked int + if len(a) > 4 { + // Try 4 bytes first + if diff := load32(a, 0) ^ load32(b, 0); diff != 0 { + return bits.TrailingZeros32(diff) >> 3 + } + // Switch to 8 byte matching. + checked = 4 + a = a[4:] + b = b[4:] + for len(a) >= 8 { + b = b[:len(a)] + if diff := load64(a, 0) ^ load64(b, 0); diff != 0 { + return checked + (bits.TrailingZeros64(diff) >> 3) + } + checked += 8 + a = a[8:] + b = b[8:] + } + } + b = b[:len(a)] + for i := range a { + if a[i] != b[i] { + return int(i) + checked + } + } + return len(a) + checked +} diff --git a/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.go b/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.go new file mode 100644 index 00000000..c8cf7b69 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.go @@ -0,0 +1,189 @@ +// Code generated by command: go run gen.go -out ../encodeblock_amd64.s -stubs ../encodeblock_amd64.go -pkg=s2. DO NOT EDIT. + +//go:build !appengine && !noasm && gc +// +build !appengine,!noasm,gc + +package s2 + +// encodeBlockAsm encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4294967295 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBlockAsm(dst []byte, src []byte) int + +// encodeBlockAsm4MB encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4194304 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBlockAsm4MB(dst []byte, src []byte) int + +// encodeBlockAsm12B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 16383 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBlockAsm12B(dst []byte, src []byte) int + +// encodeBlockAsm10B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4095 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBlockAsm10B(dst []byte, src []byte) int + +// encodeBlockAsm8B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 511 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBlockAsm8B(dst []byte, src []byte) int + +// encodeBetterBlockAsm encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4294967295 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBetterBlockAsm(dst []byte, src []byte) int + +// encodeBetterBlockAsm4MB encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4194304 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBetterBlockAsm4MB(dst []byte, src []byte) int + +// encodeBetterBlockAsm12B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 16383 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBetterBlockAsm12B(dst []byte, src []byte) int + +// encodeBetterBlockAsm10B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4095 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBetterBlockAsm10B(dst []byte, src []byte) int + +// encodeBetterBlockAsm8B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 511 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeBetterBlockAsm8B(dst []byte, src []byte) int + +// encodeSnappyBlockAsm encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4294967295 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBlockAsm(dst []byte, src []byte) int + +// encodeSnappyBlockAsm64K encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 65535 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBlockAsm64K(dst []byte, src []byte) int + +// encodeSnappyBlockAsm12B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 16383 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBlockAsm12B(dst []byte, src []byte) int + +// encodeSnappyBlockAsm10B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4095 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBlockAsm10B(dst []byte, src []byte) int + +// encodeSnappyBlockAsm8B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 511 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBlockAsm8B(dst []byte, src []byte) int + +// encodeSnappyBetterBlockAsm encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4294967295 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBetterBlockAsm(dst []byte, src []byte) int + +// encodeSnappyBetterBlockAsm64K encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 65535 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBetterBlockAsm64K(dst []byte, src []byte) int + +// encodeSnappyBetterBlockAsm12B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 16383 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBetterBlockAsm12B(dst []byte, src []byte) int + +// encodeSnappyBetterBlockAsm10B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 4095 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBetterBlockAsm10B(dst []byte, src []byte) int + +// encodeSnappyBetterBlockAsm8B encodes a non-empty src to a guaranteed-large-enough dst. +// Maximum input 511 bytes. +// It assumes that the varint-encoded length of the decompressed bytes has already been written. +// +//go:noescape +func encodeSnappyBetterBlockAsm8B(dst []byte, src []byte) int + +// emitLiteral writes a literal chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes with margin of 0 bytes +// 0 <= len(lit) && len(lit) <= math.MaxUint32 +// +//go:noescape +func emitLiteral(dst []byte, lit []byte) int + +// emitRepeat writes a repeat chunk and returns the number of bytes written. +// Length must be at least 4 and < 1<<32 +// +//go:noescape +func emitRepeat(dst []byte, offset int, length int) int + +// emitCopy writes a copy chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= offset && offset <= math.MaxUint32 +// 4 <= length && length <= 1 << 24 +// +//go:noescape +func emitCopy(dst []byte, offset int, length int) int + +// emitCopyNoRepeat writes a copy chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= offset && offset <= math.MaxUint32 +// 4 <= length && length <= 1 << 24 +// +//go:noescape +func emitCopyNoRepeat(dst []byte, offset int, length int) int + +// matchLen returns how many bytes match in a and b +// +// It assumes that: +// len(a) <= len(b) +// +//go:noescape +func matchLen(a []byte, b []byte) int diff --git a/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.s b/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.s new file mode 100644 index 00000000..1ac65a0e --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/encodeblock_amd64.s @@ -0,0 +1,15678 @@ +// Code generated by command: go run gen.go -out ../encodeblock_amd64.s -stubs ../encodeblock_amd64.go -pkg=s2. DO NOT EDIT. + +// +build !appengine +// +build !noasm +// +build gc + +#include "textflag.h" + +// func encodeBlockAsm(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBlockAsm(SB), $65560-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000200, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBlockAsm: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBlockAsm + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBlockAsm: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBlockAsm + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R11 + IMULQ R9, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeBlockAsm + LEAL 1(CX), DI + MOVL 12(SP), R8 + MOVL DI, SI + SUBL 16(SP), SI + JZ repeat_extend_back_end_encodeBlockAsm + +repeat_extend_back_loop_encodeBlockAsm: + CMPL DI, R8 + JLE repeat_extend_back_end_encodeBlockAsm + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeBlockAsm + LEAL -1(DI), DI + DECL SI + JNZ repeat_extend_back_loop_encodeBlockAsm + +repeat_extend_back_end_encodeBlockAsm: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeBlockAsm + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeBlockAsm + CMPL SI, $0x00010000 + JLT three_bytes_repeat_emit_encodeBlockAsm + CMPL SI, $0x01000000 + JLT four_bytes_repeat_emit_encodeBlockAsm + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_repeat_emit_encodeBlockAsm + +four_bytes_repeat_emit_encodeBlockAsm: + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_repeat_emit_encodeBlockAsm + +three_bytes_repeat_emit_encodeBlockAsm: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeBlockAsm + +two_bytes_repeat_emit_encodeBlockAsm: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeBlockAsm + JMP memmove_long_repeat_emit_encodeBlockAsm + +one_byte_repeat_emit_encodeBlockAsm: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm + +emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm + +emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm + +emit_lit_memmove_repeat_emit_encodeBlockAsm_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_repeat_emit_encodeBlockAsm: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeBlockAsm + +memmove_long_repeat_emit_encodeBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R12 + SHRQ $0x05, R12 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R13 + SUBQ R11, R13 + DECQ R12 + JA emit_lit_memmove_long_repeat_emit_encodeBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(R10)(R13*1), R11 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_repeat_emit_encodeBlockAsmlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R11 + ADDQ $0x20, R13 + DECQ R12 + JNA emit_lit_memmove_long_repeat_emit_encodeBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(R10)(R13*1), X4 + MOVOU -16(R10)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R9, R13 + JAE emit_lit_memmove_long_repeat_emit_encodeBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeBlockAsm: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R9 + SUBL CX, R9 + LEAQ (DX)(CX*1), R10 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R12, R12 + CMPL R9, $0x08 + JL matchlen_single_repeat_extend_encodeBlockAsm + +matchlen_loopback_repeat_extend_encodeBlockAsm: + MOVQ (R10)(R12*1), R11 + XORQ (SI)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_repeat_extend_encodeBlockAsm + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP repeat_extend_forward_end_encodeBlockAsm + +matchlen_loop_repeat_extend_encodeBlockAsm: + LEAL -8(R9), R9 + LEAL 8(R12), R12 + CMPL R9, $0x08 + JGE matchlen_loopback_repeat_extend_encodeBlockAsm + +matchlen_single_repeat_extend_encodeBlockAsm: + TESTL R9, R9 + JZ repeat_extend_forward_end_encodeBlockAsm + +matchlen_single_loopback_repeat_extend_encodeBlockAsm: + MOVB (R10)(R12*1), R11 + CMPB (SI)(R12*1), R11 + JNE repeat_extend_forward_end_encodeBlockAsm + LEAL 1(R12), R12 + DECL R9 + JNZ matchlen_single_loopback_repeat_extend_encodeBlockAsm + +repeat_extend_forward_end_encodeBlockAsm: + ADDL R12, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + TESTL R8, R8 + JZ repeat_as_copy_encodeBlockAsm + + // emitRepeat +emit_repeat_again_match_repeat_encodeBlockAsm: + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_match_repeat_encodeBlockAsm + CMPL R8, $0x0c + JGE cant_repeat_two_offset_match_repeat_encodeBlockAsm + CMPL DI, $0x00000800 + JLT repeat_two_offset_match_repeat_encodeBlockAsm + +cant_repeat_two_offset_match_repeat_encodeBlockAsm: + CMPL SI, $0x00000104 + JLT repeat_three_match_repeat_encodeBlockAsm + CMPL SI, $0x00010100 + JLT repeat_four_match_repeat_encodeBlockAsm + CMPL SI, $0x0100ffff + JLT repeat_five_match_repeat_encodeBlockAsm + LEAL -16842747(SI), SI + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_repeat_encodeBlockAsm + +repeat_five_match_repeat_encodeBlockAsm: + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_four_match_repeat_encodeBlockAsm: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_three_match_repeat_encodeBlockAsm: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_match_repeat_encodeBlockAsm: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_offset_match_repeat_encodeBlockAsm: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_as_copy_encodeBlockAsm: + // emitCopy + CMPL DI, $0x00010000 + JL two_byte_offset_repeat_as_copy_encodeBlockAsm + +four_bytes_loop_back_repeat_as_copy_encodeBlockAsm: + CMPL SI, $0x40 + JLE four_bytes_remain_repeat_as_copy_encodeBlockAsm + MOVB $0xff, (AX) + MOVL DI, 1(AX) + LEAL -64(SI), SI + ADDQ $0x05, AX + CMPL SI, $0x04 + JL four_bytes_remain_repeat_as_copy_encodeBlockAsm + + // emitRepeat +emit_repeat_again_repeat_as_copy_encodeBlockAsm_emit_copy: + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm_emit_copy + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm_emit_copy + CMPL SI, $0x00010100 + JLT repeat_four_repeat_as_copy_encodeBlockAsm_emit_copy + CMPL SI, $0x0100ffff + JLT repeat_five_repeat_as_copy_encodeBlockAsm_emit_copy + LEAL -16842747(SI), SI + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_repeat_as_copy_encodeBlockAsm_emit_copy + +repeat_five_repeat_as_copy_encodeBlockAsm_emit_copy: + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_four_repeat_as_copy_encodeBlockAsm_emit_copy: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_three_repeat_as_copy_encodeBlockAsm_emit_copy: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_repeat_as_copy_encodeBlockAsm_emit_copy: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + JMP four_bytes_loop_back_repeat_as_copy_encodeBlockAsm + +four_bytes_remain_repeat_as_copy_encodeBlockAsm: + TESTL SI, SI + JZ repeat_end_emit_encodeBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVL DI, 1(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm + +two_byte_offset_repeat_as_copy_encodeBlockAsm: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeBlockAsm + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + + // emitRepeat +emit_repeat_again_repeat_as_copy_encodeBlockAsm_emit_copy_short: + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm_emit_copy_short + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy_short + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy_short + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy_short: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm_emit_copy_short + CMPL SI, $0x00010100 + JLT repeat_four_repeat_as_copy_encodeBlockAsm_emit_copy_short + CMPL SI, $0x0100ffff + JLT repeat_five_repeat_as_copy_encodeBlockAsm_emit_copy_short + LEAL -16842747(SI), SI + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_repeat_as_copy_encodeBlockAsm_emit_copy_short + +repeat_five_repeat_as_copy_encodeBlockAsm_emit_copy_short: + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_four_repeat_as_copy_encodeBlockAsm_emit_copy_short: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_three_repeat_as_copy_encodeBlockAsm_emit_copy_short: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_repeat_as_copy_encodeBlockAsm_emit_copy_short: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + +repeat_two_offset_repeat_as_copy_encodeBlockAsm_emit_copy_short: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + JMP two_byte_offset_repeat_as_copy_encodeBlockAsm + +two_byte_offset_short_repeat_as_copy_encodeBlockAsm: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm + +emit_copy_three_repeat_as_copy_encodeBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeBlockAsm: + MOVL CX, 12(SP) + JMP search_loop_encodeBlockAsm + +no_repeat_found_encodeBlockAsm: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBlockAsm + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeBlockAsm + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeBlockAsm + MOVL 20(SP), CX + JMP search_loop_encodeBlockAsm + +candidate3_match_encodeBlockAsm: + ADDL $0x02, CX + JMP candidate_match_encodeBlockAsm + +candidate2_match_encodeBlockAsm: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeBlockAsm: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBlockAsm + +match_extend_back_loop_encodeBlockAsm: + CMPL CX, DI + JLE match_extend_back_end_encodeBlockAsm + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBlockAsm + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBlockAsm + JMP match_extend_back_loop_encodeBlockAsm + +match_extend_back_end_encodeBlockAsm: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 5(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBlockAsm: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeBlockAsm + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeBlockAsm + CMPL R8, $0x00010000 + JLT three_bytes_match_emit_encodeBlockAsm + CMPL R8, $0x01000000 + JLT four_bytes_match_emit_encodeBlockAsm + MOVB $0xfc, (AX) + MOVL R8, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_match_emit_encodeBlockAsm + +four_bytes_match_emit_encodeBlockAsm: + MOVL R8, R10 + SHRL $0x10, R10 + MOVB $0xf8, (AX) + MOVW R8, 1(AX) + MOVB R10, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeBlockAsm + +three_bytes_match_emit_encodeBlockAsm: + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBlockAsm + +two_bytes_match_emit_encodeBlockAsm: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeBlockAsm + JMP memmove_long_match_emit_encodeBlockAsm + +one_byte_match_emit_encodeBlockAsm: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBlockAsm: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeBlockAsm + +emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm + +emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm + +emit_lit_memmove_match_emit_encodeBlockAsm_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBlockAsm: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeBlockAsm + +memmove_long_match_emit_encodeBlockAsm: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeBlockAsmlarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeBlockAsm: +match_nolit_loop_encodeBlockAsm: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeBlockAsm + +matchlen_loopback_match_nolit_encodeBlockAsm: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeBlockAsm + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeBlockAsm + +matchlen_loop_match_nolit_encodeBlockAsm: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeBlockAsm + +matchlen_single_match_nolit_encodeBlockAsm: + TESTL DI, DI + JZ match_nolit_end_encodeBlockAsm + +matchlen_single_loopback_match_nolit_encodeBlockAsm: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeBlockAsm + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeBlockAsm + +match_nolit_end_encodeBlockAsm: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy + CMPL SI, $0x00010000 + JL two_byte_offset_match_nolit_encodeBlockAsm + +four_bytes_loop_back_match_nolit_encodeBlockAsm: + CMPL R10, $0x40 + JLE four_bytes_remain_match_nolit_encodeBlockAsm + MOVB $0xff, (AX) + MOVL SI, 1(AX) + LEAL -64(R10), R10 + ADDQ $0x05, AX + CMPL R10, $0x04 + JL four_bytes_remain_match_nolit_encodeBlockAsm + + // emitRepeat +emit_repeat_again_match_nolit_encodeBlockAsm_emit_copy: + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm_emit_copy + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy + +cant_repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm_emit_copy + CMPL R10, $0x00010100 + JLT repeat_four_match_nolit_encodeBlockAsm_emit_copy + CMPL R10, $0x0100ffff + JLT repeat_five_match_nolit_encodeBlockAsm_emit_copy + LEAL -16842747(R10), R10 + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_nolit_encodeBlockAsm_emit_copy + +repeat_five_match_nolit_encodeBlockAsm_emit_copy: + LEAL -65536(R10), R10 + MOVL R10, SI + MOVW $0x001d, (AX) + MOVW R10, 2(AX) + SARL $0x10, SI + MOVB SI, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_four_match_nolit_encodeBlockAsm_emit_copy: + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_three_match_nolit_encodeBlockAsm_emit_copy: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_two_match_nolit_encodeBlockAsm_emit_copy: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + JMP four_bytes_loop_back_match_nolit_encodeBlockAsm + +four_bytes_remain_match_nolit_encodeBlockAsm: + TESTL R10, R10 + JZ match_nolit_emitcopy_end_encodeBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +two_byte_offset_match_nolit_encodeBlockAsm: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBlockAsm + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + + // emitRepeat +emit_repeat_again_match_nolit_encodeBlockAsm_emit_copy_short: + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm_emit_copy_short + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy_short + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy_short: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm_emit_copy_short + CMPL R10, $0x00010100 + JLT repeat_four_match_nolit_encodeBlockAsm_emit_copy_short + CMPL R10, $0x0100ffff + JLT repeat_five_match_nolit_encodeBlockAsm_emit_copy_short + LEAL -16842747(R10), R10 + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_nolit_encodeBlockAsm_emit_copy_short + +repeat_five_match_nolit_encodeBlockAsm_emit_copy_short: + LEAL -65536(R10), R10 + MOVL R10, SI + MOVW $0x001d, (AX) + MOVW R10, 2(AX) + SARL $0x10, SI + MOVB SI, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_four_match_nolit_encodeBlockAsm_emit_copy_short: + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_three_match_nolit_encodeBlockAsm_emit_copy_short: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_two_match_nolit_encodeBlockAsm_emit_copy_short: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +repeat_two_offset_match_nolit_encodeBlockAsm_emit_copy_short: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + JMP two_byte_offset_match_nolit_encodeBlockAsm + +two_byte_offset_short_match_nolit_encodeBlockAsm: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeBlockAsm + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm + +emit_copy_three_match_nolit_encodeBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeBlockAsm: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBlockAsm + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBlockAsm: + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x10, R8 + IMULQ R9, R8 + SHRQ $0x32, R8 + SHLQ $0x10, SI + IMULQ R9, SI + SHRQ $0x32, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeBlockAsm + INCL CX + JMP search_loop_encodeBlockAsm + +emit_remainder_encodeBlockAsm: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 5(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBlockAsm: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBlockAsm + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBlockAsm + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBlockAsm + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeBlockAsm + CMPL DX, $0x01000000 + JLT four_bytes_emit_remainder_encodeBlockAsm + MOVB $0xfc, (AX) + MOVL DX, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_emit_remainder_encodeBlockAsm + +four_bytes_emit_remainder_encodeBlockAsm: + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeBlockAsm + +three_bytes_emit_remainder_encodeBlockAsm: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBlockAsm + +two_bytes_emit_remainder_encodeBlockAsm: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBlockAsm + JMP memmove_long_emit_remainder_encodeBlockAsm + +one_byte_emit_remainder_encodeBlockAsm: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm + +emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm + +emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm + +emit_lit_memmove_emit_remainder_encodeBlockAsm_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBlockAsm: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBlockAsm + +memmove_long_emit_remainder_encodeBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBlockAsmlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBlockAsm: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBlockAsm4MB(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBlockAsm4MB(SB), $65560-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000200, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBlockAsm4MB: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBlockAsm4MB + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBlockAsm4MB: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBlockAsm4MB + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R11 + IMULQ R9, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeBlockAsm4MB + LEAL 1(CX), DI + MOVL 12(SP), R8 + MOVL DI, SI + SUBL 16(SP), SI + JZ repeat_extend_back_end_encodeBlockAsm4MB + +repeat_extend_back_loop_encodeBlockAsm4MB: + CMPL DI, R8 + JLE repeat_extend_back_end_encodeBlockAsm4MB + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeBlockAsm4MB + LEAL -1(DI), DI + DECL SI + JNZ repeat_extend_back_loop_encodeBlockAsm4MB + +repeat_extend_back_end_encodeBlockAsm4MB: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeBlockAsm4MB + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeBlockAsm4MB + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeBlockAsm4MB + CMPL SI, $0x00010000 + JLT three_bytes_repeat_emit_encodeBlockAsm4MB + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_repeat_emit_encodeBlockAsm4MB + +three_bytes_repeat_emit_encodeBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeBlockAsm4MB + +two_bytes_repeat_emit_encodeBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeBlockAsm4MB + JMP memmove_long_repeat_emit_encodeBlockAsm4MB + +one_byte_repeat_emit_encodeBlockAsm4MB: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm4MB + +emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm4MB + +emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm4MB + +emit_lit_memmove_repeat_emit_encodeBlockAsm4MB_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_repeat_emit_encodeBlockAsm4MB: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeBlockAsm4MB + +memmove_long_repeat_emit_encodeBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R12 + SHRQ $0x05, R12 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R13 + SUBQ R11, R13 + DECQ R12 + JA emit_lit_memmove_long_repeat_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(R10)(R13*1), R11 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm4MBlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R11 + ADDQ $0x20, R13 + DECQ R12 + JNA emit_lit_memmove_long_repeat_emit_encodeBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(R10)(R13*1), X4 + MOVOU -16(R10)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R9, R13 + JAE emit_lit_memmove_long_repeat_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeBlockAsm4MB: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R9 + SUBL CX, R9 + LEAQ (DX)(CX*1), R10 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R12, R12 + CMPL R9, $0x08 + JL matchlen_single_repeat_extend_encodeBlockAsm4MB + +matchlen_loopback_repeat_extend_encodeBlockAsm4MB: + MOVQ (R10)(R12*1), R11 + XORQ (SI)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_repeat_extend_encodeBlockAsm4MB + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP repeat_extend_forward_end_encodeBlockAsm4MB + +matchlen_loop_repeat_extend_encodeBlockAsm4MB: + LEAL -8(R9), R9 + LEAL 8(R12), R12 + CMPL R9, $0x08 + JGE matchlen_loopback_repeat_extend_encodeBlockAsm4MB + +matchlen_single_repeat_extend_encodeBlockAsm4MB: + TESTL R9, R9 + JZ repeat_extend_forward_end_encodeBlockAsm4MB + +matchlen_single_loopback_repeat_extend_encodeBlockAsm4MB: + MOVB (R10)(R12*1), R11 + CMPB (SI)(R12*1), R11 + JNE repeat_extend_forward_end_encodeBlockAsm4MB + LEAL 1(R12), R12 + DECL R9 + JNZ matchlen_single_loopback_repeat_extend_encodeBlockAsm4MB + +repeat_extend_forward_end_encodeBlockAsm4MB: + ADDL R12, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + TESTL R8, R8 + JZ repeat_as_copy_encodeBlockAsm4MB + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_match_repeat_encodeBlockAsm4MB + CMPL R8, $0x0c + JGE cant_repeat_two_offset_match_repeat_encodeBlockAsm4MB + CMPL DI, $0x00000800 + JLT repeat_two_offset_match_repeat_encodeBlockAsm4MB + +cant_repeat_two_offset_match_repeat_encodeBlockAsm4MB: + CMPL SI, $0x00000104 + JLT repeat_three_match_repeat_encodeBlockAsm4MB + CMPL SI, $0x00010100 + JLT repeat_four_match_repeat_encodeBlockAsm4MB + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_four_match_repeat_encodeBlockAsm4MB: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_three_match_repeat_encodeBlockAsm4MB: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_match_repeat_encodeBlockAsm4MB: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_offset_match_repeat_encodeBlockAsm4MB: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_as_copy_encodeBlockAsm4MB: + // emitCopy + CMPL DI, $0x00010000 + JL two_byte_offset_repeat_as_copy_encodeBlockAsm4MB + +four_bytes_loop_back_repeat_as_copy_encodeBlockAsm4MB: + CMPL SI, $0x40 + JLE four_bytes_remain_repeat_as_copy_encodeBlockAsm4MB + MOVB $0xff, (AX) + MOVL DI, 1(AX) + LEAL -64(SI), SI + ADDQ $0x05, AX + CMPL SI, $0x04 + JL four_bytes_remain_repeat_as_copy_encodeBlockAsm4MB + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm4MB_emit_copy + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm4MB_emit_copy + CMPL SI, $0x00010100 + JLT repeat_four_repeat_as_copy_encodeBlockAsm4MB_emit_copy + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_four_repeat_as_copy_encodeBlockAsm4MB_emit_copy: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_three_repeat_as_copy_encodeBlockAsm4MB_emit_copy: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_repeat_as_copy_encodeBlockAsm4MB_emit_copy: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + JMP four_bytes_loop_back_repeat_as_copy_encodeBlockAsm4MB + +four_bytes_remain_repeat_as_copy_encodeBlockAsm4MB: + TESTL SI, SI + JZ repeat_end_emit_encodeBlockAsm4MB + MOVB $0x03, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVL DI, 1(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +two_byte_offset_repeat_as_copy_encodeBlockAsm4MB: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeBlockAsm4MB + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short + CMPL SI, $0x00010100 + JLT repeat_four_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short + LEAL -65536(SI), SI + MOVL SI, DI + MOVW $0x001d, (AX) + MOVW SI, 2(AX) + SARL $0x10, DI + MOVB DI, 4(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_four_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short: + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_three_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +repeat_two_offset_repeat_as_copy_encodeBlockAsm4MB_emit_copy_short: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + JMP two_byte_offset_repeat_as_copy_encodeBlockAsm4MB + +two_byte_offset_short_repeat_as_copy_encodeBlockAsm4MB: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm4MB + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm4MB + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm4MB + +emit_copy_three_repeat_as_copy_encodeBlockAsm4MB: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeBlockAsm4MB: + MOVL CX, 12(SP) + JMP search_loop_encodeBlockAsm4MB + +no_repeat_found_encodeBlockAsm4MB: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBlockAsm4MB + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeBlockAsm4MB + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeBlockAsm4MB + MOVL 20(SP), CX + JMP search_loop_encodeBlockAsm4MB + +candidate3_match_encodeBlockAsm4MB: + ADDL $0x02, CX + JMP candidate_match_encodeBlockAsm4MB + +candidate2_match_encodeBlockAsm4MB: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeBlockAsm4MB: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBlockAsm4MB + +match_extend_back_loop_encodeBlockAsm4MB: + CMPL CX, DI + JLE match_extend_back_end_encodeBlockAsm4MB + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBlockAsm4MB + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBlockAsm4MB + JMP match_extend_back_loop_encodeBlockAsm4MB + +match_extend_back_end_encodeBlockAsm4MB: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 4(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBlockAsm4MB: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeBlockAsm4MB + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeBlockAsm4MB + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeBlockAsm4MB + CMPL R8, $0x00010000 + JLT three_bytes_match_emit_encodeBlockAsm4MB + MOVL R8, R10 + SHRL $0x10, R10 + MOVB $0xf8, (AX) + MOVW R8, 1(AX) + MOVB R10, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeBlockAsm4MB + +three_bytes_match_emit_encodeBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBlockAsm4MB + +two_bytes_match_emit_encodeBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeBlockAsm4MB + JMP memmove_long_match_emit_encodeBlockAsm4MB + +one_byte_match_emit_encodeBlockAsm4MB: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBlockAsm4MB: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBlockAsm4MB_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBlockAsm4MB: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeBlockAsm4MB + +memmove_long_match_emit_encodeBlockAsm4MB: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeBlockAsm4MBlarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeBlockAsm4MB: +match_nolit_loop_encodeBlockAsm4MB: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeBlockAsm4MB + +matchlen_loopback_match_nolit_encodeBlockAsm4MB: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeBlockAsm4MB + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeBlockAsm4MB + +matchlen_loop_match_nolit_encodeBlockAsm4MB: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeBlockAsm4MB + +matchlen_single_match_nolit_encodeBlockAsm4MB: + TESTL DI, DI + JZ match_nolit_end_encodeBlockAsm4MB + +matchlen_single_loopback_match_nolit_encodeBlockAsm4MB: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeBlockAsm4MB + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeBlockAsm4MB + +match_nolit_end_encodeBlockAsm4MB: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy + CMPL SI, $0x00010000 + JL two_byte_offset_match_nolit_encodeBlockAsm4MB + +four_bytes_loop_back_match_nolit_encodeBlockAsm4MB: + CMPL R10, $0x40 + JLE four_bytes_remain_match_nolit_encodeBlockAsm4MB + MOVB $0xff, (AX) + MOVL SI, 1(AX) + LEAL -64(R10), R10 + ADDQ $0x05, AX + CMPL R10, $0x04 + JL four_bytes_remain_match_nolit_encodeBlockAsm4MB + + // emitRepeat + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm4MB_emit_copy + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy + +cant_repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm4MB_emit_copy + CMPL R10, $0x00010100 + JLT repeat_four_match_nolit_encodeBlockAsm4MB_emit_copy + LEAL -65536(R10), R10 + MOVL R10, SI + MOVW $0x001d, (AX) + MOVW R10, 2(AX) + SARL $0x10, SI + MOVB SI, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_four_match_nolit_encodeBlockAsm4MB_emit_copy: + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_three_match_nolit_encodeBlockAsm4MB_emit_copy: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_two_match_nolit_encodeBlockAsm4MB_emit_copy: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + JMP four_bytes_loop_back_match_nolit_encodeBlockAsm4MB + +four_bytes_remain_match_nolit_encodeBlockAsm4MB: + TESTL R10, R10 + JZ match_nolit_emitcopy_end_encodeBlockAsm4MB + MOVB $0x03, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +two_byte_offset_match_nolit_encodeBlockAsm4MB: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBlockAsm4MB + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + + // emitRepeat + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm4MB_emit_copy_short + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy_short + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy_short: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm4MB_emit_copy_short + CMPL R10, $0x00010100 + JLT repeat_four_match_nolit_encodeBlockAsm4MB_emit_copy_short + LEAL -65536(R10), R10 + MOVL R10, SI + MOVW $0x001d, (AX) + MOVW R10, 2(AX) + SARL $0x10, SI + MOVB SI, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_four_match_nolit_encodeBlockAsm4MB_emit_copy_short: + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_three_match_nolit_encodeBlockAsm4MB_emit_copy_short: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_two_match_nolit_encodeBlockAsm4MB_emit_copy_short: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +repeat_two_offset_match_nolit_encodeBlockAsm4MB_emit_copy_short: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + JMP two_byte_offset_match_nolit_encodeBlockAsm4MB + +two_byte_offset_short_match_nolit_encodeBlockAsm4MB: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeBlockAsm4MB + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBlockAsm4MB + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm4MB + +emit_copy_three_match_nolit_encodeBlockAsm4MB: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeBlockAsm4MB: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBlockAsm4MB + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBlockAsm4MB: + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x10, R8 + IMULQ R9, R8 + SHRQ $0x32, R8 + SHLQ $0x10, SI + IMULQ R9, SI + SHRQ $0x32, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeBlockAsm4MB + INCL CX + JMP search_loop_encodeBlockAsm4MB + +emit_remainder_encodeBlockAsm4MB: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 4(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBlockAsm4MB: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBlockAsm4MB + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBlockAsm4MB + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBlockAsm4MB + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeBlockAsm4MB + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeBlockAsm4MB + +three_bytes_emit_remainder_encodeBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBlockAsm4MB + +two_bytes_emit_remainder_encodeBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBlockAsm4MB + JMP memmove_long_emit_remainder_encodeBlockAsm4MB + +one_byte_emit_remainder_encodeBlockAsm4MB: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBlockAsm4MB: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBlockAsm4MB_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBlockAsm4MB: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBlockAsm4MB + +memmove_long_emit_remainder_encodeBlockAsm4MB: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm4MBlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBlockAsm4MB: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBlockAsm12B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBlockAsm12B(SB), $16408-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000080, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBlockAsm12B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBlockAsm12B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBlockAsm12B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBlockAsm12B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x000000cf1bbcdcbb, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x18, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + SHLQ $0x18, R11 + IMULQ R9, R11 + SHRQ $0x34, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x18, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeBlockAsm12B + LEAL 1(CX), DI + MOVL 12(SP), R8 + MOVL DI, SI + SUBL 16(SP), SI + JZ repeat_extend_back_end_encodeBlockAsm12B + +repeat_extend_back_loop_encodeBlockAsm12B: + CMPL DI, R8 + JLE repeat_extend_back_end_encodeBlockAsm12B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeBlockAsm12B + LEAL -1(DI), DI + DECL SI + JNZ repeat_extend_back_loop_encodeBlockAsm12B + +repeat_extend_back_end_encodeBlockAsm12B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeBlockAsm12B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeBlockAsm12B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeBlockAsm12B + +two_bytes_repeat_emit_encodeBlockAsm12B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeBlockAsm12B + JMP memmove_long_repeat_emit_encodeBlockAsm12B + +one_byte_repeat_emit_encodeBlockAsm12B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeBlockAsm12B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_repeat_emit_encodeBlockAsm12B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeBlockAsm12B + +memmove_long_repeat_emit_encodeBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R12 + SHRQ $0x05, R12 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R13 + SUBQ R11, R13 + DECQ R12 + JA emit_lit_memmove_long_repeat_emit_encodeBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R13*1), R11 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm12Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R11 + ADDQ $0x20, R13 + DECQ R12 + JNA emit_lit_memmove_long_repeat_emit_encodeBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R13*1), X4 + MOVOU -16(R10)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R9, R13 + JAE emit_lit_memmove_long_repeat_emit_encodeBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeBlockAsm12B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R9 + SUBL CX, R9 + LEAQ (DX)(CX*1), R10 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R12, R12 + CMPL R9, $0x08 + JL matchlen_single_repeat_extend_encodeBlockAsm12B + +matchlen_loopback_repeat_extend_encodeBlockAsm12B: + MOVQ (R10)(R12*1), R11 + XORQ (SI)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_repeat_extend_encodeBlockAsm12B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP repeat_extend_forward_end_encodeBlockAsm12B + +matchlen_loop_repeat_extend_encodeBlockAsm12B: + LEAL -8(R9), R9 + LEAL 8(R12), R12 + CMPL R9, $0x08 + JGE matchlen_loopback_repeat_extend_encodeBlockAsm12B + +matchlen_single_repeat_extend_encodeBlockAsm12B: + TESTL R9, R9 + JZ repeat_extend_forward_end_encodeBlockAsm12B + +matchlen_single_loopback_repeat_extend_encodeBlockAsm12B: + MOVB (R10)(R12*1), R11 + CMPB (SI)(R12*1), R11 + JNE repeat_extend_forward_end_encodeBlockAsm12B + LEAL 1(R12), R12 + DECL R9 + JNZ matchlen_single_loopback_repeat_extend_encodeBlockAsm12B + +repeat_extend_forward_end_encodeBlockAsm12B: + ADDL R12, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + TESTL R8, R8 + JZ repeat_as_copy_encodeBlockAsm12B + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_match_repeat_encodeBlockAsm12B + CMPL R8, $0x0c + JGE cant_repeat_two_offset_match_repeat_encodeBlockAsm12B + CMPL DI, $0x00000800 + JLT repeat_two_offset_match_repeat_encodeBlockAsm12B + +cant_repeat_two_offset_match_repeat_encodeBlockAsm12B: + CMPL SI, $0x00000104 + JLT repeat_three_match_repeat_encodeBlockAsm12B + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_three_match_repeat_encodeBlockAsm12B: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_two_match_repeat_encodeBlockAsm12B: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_two_offset_match_repeat_encodeBlockAsm12B: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_as_copy_encodeBlockAsm12B: + // emitCopy +two_byte_offset_repeat_as_copy_encodeBlockAsm12B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeBlockAsm12B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm12B_emit_copy_short + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm12B_emit_copy_short + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm12B_emit_copy_short + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm12B_emit_copy_short: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm12B_emit_copy_short + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_three_repeat_as_copy_encodeBlockAsm12B_emit_copy_short: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_two_repeat_as_copy_encodeBlockAsm12B_emit_copy_short: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm12B + +repeat_two_offset_repeat_as_copy_encodeBlockAsm12B_emit_copy_short: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm12B + JMP two_byte_offset_repeat_as_copy_encodeBlockAsm12B + +two_byte_offset_short_repeat_as_copy_encodeBlockAsm12B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm12B + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm12B + +emit_copy_three_repeat_as_copy_encodeBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeBlockAsm12B: + MOVL CX, 12(SP) + JMP search_loop_encodeBlockAsm12B + +no_repeat_found_encodeBlockAsm12B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBlockAsm12B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeBlockAsm12B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeBlockAsm12B + MOVL 20(SP), CX + JMP search_loop_encodeBlockAsm12B + +candidate3_match_encodeBlockAsm12B: + ADDL $0x02, CX + JMP candidate_match_encodeBlockAsm12B + +candidate2_match_encodeBlockAsm12B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeBlockAsm12B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBlockAsm12B + +match_extend_back_loop_encodeBlockAsm12B: + CMPL CX, DI + JLE match_extend_back_end_encodeBlockAsm12B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBlockAsm12B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBlockAsm12B + JMP match_extend_back_loop_encodeBlockAsm12B + +match_extend_back_end_encodeBlockAsm12B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBlockAsm12B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeBlockAsm12B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeBlockAsm12B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBlockAsm12B + +two_bytes_match_emit_encodeBlockAsm12B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeBlockAsm12B + JMP memmove_long_match_emit_encodeBlockAsm12B + +one_byte_match_emit_encodeBlockAsm12B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBlockAsm12B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeBlockAsm12B + +emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm12B + +emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm12B + +emit_lit_memmove_match_emit_encodeBlockAsm12B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBlockAsm12B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeBlockAsm12B + +memmove_long_match_emit_encodeBlockAsm12B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeBlockAsm12Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeBlockAsm12B: +match_nolit_loop_encodeBlockAsm12B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeBlockAsm12B + +matchlen_loopback_match_nolit_encodeBlockAsm12B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeBlockAsm12B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeBlockAsm12B + +matchlen_loop_match_nolit_encodeBlockAsm12B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeBlockAsm12B + +matchlen_single_match_nolit_encodeBlockAsm12B: + TESTL DI, DI + JZ match_nolit_end_encodeBlockAsm12B + +matchlen_single_loopback_match_nolit_encodeBlockAsm12B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeBlockAsm12B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeBlockAsm12B + +match_nolit_end_encodeBlockAsm12B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBlockAsm12B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBlockAsm12B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + + // emitRepeat + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm12B_emit_copy_short + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm12B_emit_copy_short + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm12B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBlockAsm12B_emit_copy_short: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm12B_emit_copy_short + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm12B + +repeat_three_match_nolit_encodeBlockAsm12B_emit_copy_short: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm12B + +repeat_two_match_nolit_encodeBlockAsm12B_emit_copy_short: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm12B + +repeat_two_offset_match_nolit_encodeBlockAsm12B_emit_copy_short: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm12B + JMP two_byte_offset_match_nolit_encodeBlockAsm12B + +two_byte_offset_short_match_nolit_encodeBlockAsm12B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeBlockAsm12B + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm12B + +emit_copy_three_match_nolit_encodeBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeBlockAsm12B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBlockAsm12B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBlockAsm12B: + MOVQ $0x000000cf1bbcdcbb, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x18, R8 + IMULQ R9, R8 + SHRQ $0x34, R8 + SHLQ $0x18, SI + IMULQ R9, SI + SHRQ $0x34, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeBlockAsm12B + INCL CX + JMP search_loop_encodeBlockAsm12B + +emit_remainder_encodeBlockAsm12B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBlockAsm12B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBlockAsm12B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBlockAsm12B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBlockAsm12B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBlockAsm12B + +two_bytes_emit_remainder_encodeBlockAsm12B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBlockAsm12B + JMP memmove_long_emit_remainder_encodeBlockAsm12B + +one_byte_emit_remainder_encodeBlockAsm12B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBlockAsm12B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBlockAsm12B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBlockAsm12B + +memmove_long_emit_remainder_encodeBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm12Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBlockAsm12B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBlockAsm10B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBlockAsm10B(SB), $4120-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000020, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBlockAsm10B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBlockAsm10B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBlockAsm10B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBlockAsm10B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x9e3779b1, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ R9, R11 + SHRQ $0x36, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeBlockAsm10B + LEAL 1(CX), DI + MOVL 12(SP), R8 + MOVL DI, SI + SUBL 16(SP), SI + JZ repeat_extend_back_end_encodeBlockAsm10B + +repeat_extend_back_loop_encodeBlockAsm10B: + CMPL DI, R8 + JLE repeat_extend_back_end_encodeBlockAsm10B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeBlockAsm10B + LEAL -1(DI), DI + DECL SI + JNZ repeat_extend_back_loop_encodeBlockAsm10B + +repeat_extend_back_end_encodeBlockAsm10B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeBlockAsm10B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeBlockAsm10B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeBlockAsm10B + +two_bytes_repeat_emit_encodeBlockAsm10B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeBlockAsm10B + JMP memmove_long_repeat_emit_encodeBlockAsm10B + +one_byte_repeat_emit_encodeBlockAsm10B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeBlockAsm10B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_repeat_emit_encodeBlockAsm10B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeBlockAsm10B + +memmove_long_repeat_emit_encodeBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R12 + SHRQ $0x05, R12 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R13 + SUBQ R11, R13 + DECQ R12 + JA emit_lit_memmove_long_repeat_emit_encodeBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R13*1), R11 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm10Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R11 + ADDQ $0x20, R13 + DECQ R12 + JNA emit_lit_memmove_long_repeat_emit_encodeBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R13*1), X4 + MOVOU -16(R10)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R9, R13 + JAE emit_lit_memmove_long_repeat_emit_encodeBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeBlockAsm10B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R9 + SUBL CX, R9 + LEAQ (DX)(CX*1), R10 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R12, R12 + CMPL R9, $0x08 + JL matchlen_single_repeat_extend_encodeBlockAsm10B + +matchlen_loopback_repeat_extend_encodeBlockAsm10B: + MOVQ (R10)(R12*1), R11 + XORQ (SI)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_repeat_extend_encodeBlockAsm10B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP repeat_extend_forward_end_encodeBlockAsm10B + +matchlen_loop_repeat_extend_encodeBlockAsm10B: + LEAL -8(R9), R9 + LEAL 8(R12), R12 + CMPL R9, $0x08 + JGE matchlen_loopback_repeat_extend_encodeBlockAsm10B + +matchlen_single_repeat_extend_encodeBlockAsm10B: + TESTL R9, R9 + JZ repeat_extend_forward_end_encodeBlockAsm10B + +matchlen_single_loopback_repeat_extend_encodeBlockAsm10B: + MOVB (R10)(R12*1), R11 + CMPB (SI)(R12*1), R11 + JNE repeat_extend_forward_end_encodeBlockAsm10B + LEAL 1(R12), R12 + DECL R9 + JNZ matchlen_single_loopback_repeat_extend_encodeBlockAsm10B + +repeat_extend_forward_end_encodeBlockAsm10B: + ADDL R12, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + TESTL R8, R8 + JZ repeat_as_copy_encodeBlockAsm10B + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_match_repeat_encodeBlockAsm10B + CMPL R8, $0x0c + JGE cant_repeat_two_offset_match_repeat_encodeBlockAsm10B + CMPL DI, $0x00000800 + JLT repeat_two_offset_match_repeat_encodeBlockAsm10B + +cant_repeat_two_offset_match_repeat_encodeBlockAsm10B: + CMPL SI, $0x00000104 + JLT repeat_three_match_repeat_encodeBlockAsm10B + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_three_match_repeat_encodeBlockAsm10B: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_two_match_repeat_encodeBlockAsm10B: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_two_offset_match_repeat_encodeBlockAsm10B: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_as_copy_encodeBlockAsm10B: + // emitCopy +two_byte_offset_repeat_as_copy_encodeBlockAsm10B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeBlockAsm10B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + + // emitRepeat + MOVL SI, R8 + LEAL -4(SI), SI + CMPL R8, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm10B_emit_copy_short + CMPL R8, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm10B_emit_copy_short + CMPL DI, $0x00000800 + JLT repeat_two_offset_repeat_as_copy_encodeBlockAsm10B_emit_copy_short + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm10B_emit_copy_short: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm10B_emit_copy_short + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_three_repeat_as_copy_encodeBlockAsm10B_emit_copy_short: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_two_repeat_as_copy_encodeBlockAsm10B_emit_copy_short: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm10B + +repeat_two_offset_repeat_as_copy_encodeBlockAsm10B_emit_copy_short: + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm10B + JMP two_byte_offset_repeat_as_copy_encodeBlockAsm10B + +two_byte_offset_short_repeat_as_copy_encodeBlockAsm10B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm10B + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm10B + +emit_copy_three_repeat_as_copy_encodeBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeBlockAsm10B: + MOVL CX, 12(SP) + JMP search_loop_encodeBlockAsm10B + +no_repeat_found_encodeBlockAsm10B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBlockAsm10B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeBlockAsm10B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeBlockAsm10B + MOVL 20(SP), CX + JMP search_loop_encodeBlockAsm10B + +candidate3_match_encodeBlockAsm10B: + ADDL $0x02, CX + JMP candidate_match_encodeBlockAsm10B + +candidate2_match_encodeBlockAsm10B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeBlockAsm10B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBlockAsm10B + +match_extend_back_loop_encodeBlockAsm10B: + CMPL CX, DI + JLE match_extend_back_end_encodeBlockAsm10B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBlockAsm10B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBlockAsm10B + JMP match_extend_back_loop_encodeBlockAsm10B + +match_extend_back_end_encodeBlockAsm10B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBlockAsm10B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeBlockAsm10B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeBlockAsm10B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBlockAsm10B + +two_bytes_match_emit_encodeBlockAsm10B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeBlockAsm10B + JMP memmove_long_match_emit_encodeBlockAsm10B + +one_byte_match_emit_encodeBlockAsm10B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBlockAsm10B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeBlockAsm10B + +emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm10B + +emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm10B + +emit_lit_memmove_match_emit_encodeBlockAsm10B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBlockAsm10B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeBlockAsm10B + +memmove_long_match_emit_encodeBlockAsm10B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeBlockAsm10Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeBlockAsm10B: +match_nolit_loop_encodeBlockAsm10B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeBlockAsm10B + +matchlen_loopback_match_nolit_encodeBlockAsm10B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeBlockAsm10B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeBlockAsm10B + +matchlen_loop_match_nolit_encodeBlockAsm10B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeBlockAsm10B + +matchlen_single_match_nolit_encodeBlockAsm10B: + TESTL DI, DI + JZ match_nolit_end_encodeBlockAsm10B + +matchlen_single_loopback_match_nolit_encodeBlockAsm10B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeBlockAsm10B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeBlockAsm10B + +match_nolit_end_encodeBlockAsm10B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBlockAsm10B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBlockAsm10B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + + // emitRepeat + MOVL R10, DI + LEAL -4(R10), R10 + CMPL DI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm10B_emit_copy_short + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm10B_emit_copy_short + CMPL SI, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBlockAsm10B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBlockAsm10B_emit_copy_short: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm10B_emit_copy_short + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm10B + +repeat_three_match_nolit_encodeBlockAsm10B_emit_copy_short: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm10B + +repeat_two_match_nolit_encodeBlockAsm10B_emit_copy_short: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm10B + +repeat_two_offset_match_nolit_encodeBlockAsm10B_emit_copy_short: + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm10B + JMP two_byte_offset_match_nolit_encodeBlockAsm10B + +two_byte_offset_short_match_nolit_encodeBlockAsm10B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeBlockAsm10B + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm10B + +emit_copy_three_match_nolit_encodeBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeBlockAsm10B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBlockAsm10B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBlockAsm10B: + MOVQ $0x9e3779b1, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x20, R8 + IMULQ R9, R8 + SHRQ $0x36, R8 + SHLQ $0x20, SI + IMULQ R9, SI + SHRQ $0x36, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeBlockAsm10B + INCL CX + JMP search_loop_encodeBlockAsm10B + +emit_remainder_encodeBlockAsm10B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBlockAsm10B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBlockAsm10B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBlockAsm10B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBlockAsm10B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBlockAsm10B + +two_bytes_emit_remainder_encodeBlockAsm10B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBlockAsm10B + JMP memmove_long_emit_remainder_encodeBlockAsm10B + +one_byte_emit_remainder_encodeBlockAsm10B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBlockAsm10B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBlockAsm10B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBlockAsm10B + +memmove_long_emit_remainder_encodeBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm10Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBlockAsm10B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBlockAsm8B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBlockAsm8B(SB), $1048-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000008, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBlockAsm8B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBlockAsm8B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBlockAsm8B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x04, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBlockAsm8B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x9e3779b1, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x38, R10 + SHLQ $0x20, R11 + IMULQ R9, R11 + SHRQ $0x38, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x38, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeBlockAsm8B + LEAL 1(CX), DI + MOVL 12(SP), R8 + MOVL DI, SI + SUBL 16(SP), SI + JZ repeat_extend_back_end_encodeBlockAsm8B + +repeat_extend_back_loop_encodeBlockAsm8B: + CMPL DI, R8 + JLE repeat_extend_back_end_encodeBlockAsm8B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeBlockAsm8B + LEAL -1(DI), DI + DECL SI + JNZ repeat_extend_back_loop_encodeBlockAsm8B + +repeat_extend_back_end_encodeBlockAsm8B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeBlockAsm8B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeBlockAsm8B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeBlockAsm8B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeBlockAsm8B + +two_bytes_repeat_emit_encodeBlockAsm8B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeBlockAsm8B + JMP memmove_long_repeat_emit_encodeBlockAsm8B + +one_byte_repeat_emit_encodeBlockAsm8B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_repeat_emit_encodeBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeBlockAsm8B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_repeat_emit_encodeBlockAsm8B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeBlockAsm8B + +memmove_long_repeat_emit_encodeBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R12 + SHRQ $0x05, R12 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R13 + SUBQ R11, R13 + DECQ R12 + JA emit_lit_memmove_long_repeat_emit_encodeBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R13*1), R11 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm8Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R11 + ADDQ $0x20, R13 + DECQ R12 + JNA emit_lit_memmove_long_repeat_emit_encodeBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R13*1), X4 + MOVOU -16(R10)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R9, R13 + JAE emit_lit_memmove_long_repeat_emit_encodeBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeBlockAsm8B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R9 + SUBL CX, R9 + LEAQ (DX)(CX*1), R10 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R12, R12 + CMPL R9, $0x08 + JL matchlen_single_repeat_extend_encodeBlockAsm8B + +matchlen_loopback_repeat_extend_encodeBlockAsm8B: + MOVQ (R10)(R12*1), R11 + XORQ (SI)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_repeat_extend_encodeBlockAsm8B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP repeat_extend_forward_end_encodeBlockAsm8B + +matchlen_loop_repeat_extend_encodeBlockAsm8B: + LEAL -8(R9), R9 + LEAL 8(R12), R12 + CMPL R9, $0x08 + JGE matchlen_loopback_repeat_extend_encodeBlockAsm8B + +matchlen_single_repeat_extend_encodeBlockAsm8B: + TESTL R9, R9 + JZ repeat_extend_forward_end_encodeBlockAsm8B + +matchlen_single_loopback_repeat_extend_encodeBlockAsm8B: + MOVB (R10)(R12*1), R11 + CMPB (SI)(R12*1), R11 + JNE repeat_extend_forward_end_encodeBlockAsm8B + LEAL 1(R12), R12 + DECL R9 + JNZ matchlen_single_loopback_repeat_extend_encodeBlockAsm8B + +repeat_extend_forward_end_encodeBlockAsm8B: + ADDL R12, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + TESTL R8, R8 + JZ repeat_as_copy_encodeBlockAsm8B + + // emitRepeat + MOVL SI, DI + LEAL -4(SI), SI + CMPL DI, $0x08 + JLE repeat_two_match_repeat_encodeBlockAsm8B + CMPL DI, $0x0c + JGE cant_repeat_two_offset_match_repeat_encodeBlockAsm8B + +cant_repeat_two_offset_match_repeat_encodeBlockAsm8B: + CMPL SI, $0x00000104 + JLT repeat_three_match_repeat_encodeBlockAsm8B + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm8B + +repeat_three_match_repeat_encodeBlockAsm8B: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm8B + +repeat_two_match_repeat_encodeBlockAsm8B: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm8B + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm8B + +repeat_as_copy_encodeBlockAsm8B: + // emitCopy +two_byte_offset_repeat_as_copy_encodeBlockAsm8B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeBlockAsm8B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + + // emitRepeat + MOVL SI, DI + LEAL -4(SI), SI + CMPL DI, $0x08 + JLE repeat_two_repeat_as_copy_encodeBlockAsm8B_emit_copy_short + CMPL DI, $0x0c + JGE cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm8B_emit_copy_short + +cant_repeat_two_offset_repeat_as_copy_encodeBlockAsm8B_emit_copy_short: + CMPL SI, $0x00000104 + JLT repeat_three_repeat_as_copy_encodeBlockAsm8B_emit_copy_short + LEAL -256(SI), SI + MOVW $0x0019, (AX) + MOVW SI, 2(AX) + ADDQ $0x04, AX + JMP repeat_end_emit_encodeBlockAsm8B + +repeat_three_repeat_as_copy_encodeBlockAsm8B_emit_copy_short: + LEAL -4(SI), SI + MOVW $0x0015, (AX) + MOVB SI, 2(AX) + ADDQ $0x03, AX + JMP repeat_end_emit_encodeBlockAsm8B + +repeat_two_repeat_as_copy_encodeBlockAsm8B_emit_copy_short: + SHLL $0x02, SI + ORL $0x01, SI + MOVW SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm8B + XORQ R8, R8 + LEAL 1(R8)(SI*4), SI + MOVB DI, 1(AX) + SARL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm8B + JMP two_byte_offset_repeat_as_copy_encodeBlockAsm8B + +two_byte_offset_short_repeat_as_copy_encodeBlockAsm8B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeBlockAsm8B + +emit_copy_three_repeat_as_copy_encodeBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeBlockAsm8B: + MOVL CX, 12(SP) + JMP search_loop_encodeBlockAsm8B + +no_repeat_found_encodeBlockAsm8B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBlockAsm8B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeBlockAsm8B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeBlockAsm8B + MOVL 20(SP), CX + JMP search_loop_encodeBlockAsm8B + +candidate3_match_encodeBlockAsm8B: + ADDL $0x02, CX + JMP candidate_match_encodeBlockAsm8B + +candidate2_match_encodeBlockAsm8B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeBlockAsm8B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBlockAsm8B + +match_extend_back_loop_encodeBlockAsm8B: + CMPL CX, DI + JLE match_extend_back_end_encodeBlockAsm8B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBlockAsm8B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBlockAsm8B + JMP match_extend_back_loop_encodeBlockAsm8B + +match_extend_back_end_encodeBlockAsm8B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBlockAsm8B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeBlockAsm8B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeBlockAsm8B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeBlockAsm8B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBlockAsm8B + +two_bytes_match_emit_encodeBlockAsm8B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeBlockAsm8B + JMP memmove_long_match_emit_encodeBlockAsm8B + +one_byte_match_emit_encodeBlockAsm8B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBlockAsm8B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeBlockAsm8B + +emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm8B + +emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBlockAsm8B + +emit_lit_memmove_match_emit_encodeBlockAsm8B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBlockAsm8B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeBlockAsm8B + +memmove_long_match_emit_encodeBlockAsm8B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeBlockAsm8Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeBlockAsm8B: +match_nolit_loop_encodeBlockAsm8B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeBlockAsm8B + +matchlen_loopback_match_nolit_encodeBlockAsm8B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeBlockAsm8B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeBlockAsm8B + +matchlen_loop_match_nolit_encodeBlockAsm8B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeBlockAsm8B + +matchlen_single_match_nolit_encodeBlockAsm8B: + TESTL DI, DI + JZ match_nolit_end_encodeBlockAsm8B + +matchlen_single_loopback_match_nolit_encodeBlockAsm8B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeBlockAsm8B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeBlockAsm8B + +match_nolit_end_encodeBlockAsm8B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBlockAsm8B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBlockAsm8B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + + // emitRepeat + MOVL R10, SI + LEAL -4(R10), R10 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBlockAsm8B_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBlockAsm8B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBlockAsm8B_emit_copy_short: + CMPL R10, $0x00000104 + JLT repeat_three_match_nolit_encodeBlockAsm8B_emit_copy_short + LEAL -256(R10), R10 + MOVW $0x0019, (AX) + MOVW R10, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm8B + +repeat_three_match_nolit_encodeBlockAsm8B_emit_copy_short: + LEAL -4(R10), R10 + MOVW $0x0015, (AX) + MOVB R10, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm8B + +repeat_two_match_nolit_encodeBlockAsm8B_emit_copy_short: + SHLL $0x02, R10 + ORL $0x01, R10 + MOVW R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm8B + XORQ DI, DI + LEAL 1(DI)(R10*4), R10 + MOVB SI, 1(AX) + SARL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm8B + JMP two_byte_offset_match_nolit_encodeBlockAsm8B + +two_byte_offset_short_match_nolit_encodeBlockAsm8B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBlockAsm8B + +emit_copy_three_match_nolit_encodeBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeBlockAsm8B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBlockAsm8B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBlockAsm8B: + MOVQ $0x9e3779b1, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x20, R8 + IMULQ R9, R8 + SHRQ $0x38, R8 + SHLQ $0x20, SI + IMULQ R9, SI + SHRQ $0x38, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeBlockAsm8B + INCL CX + JMP search_loop_encodeBlockAsm8B + +emit_remainder_encodeBlockAsm8B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBlockAsm8B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBlockAsm8B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBlockAsm8B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBlockAsm8B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBlockAsm8B + +two_bytes_emit_remainder_encodeBlockAsm8B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBlockAsm8B + JMP memmove_long_emit_remainder_encodeBlockAsm8B + +one_byte_emit_remainder_encodeBlockAsm8B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBlockAsm8B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBlockAsm8B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBlockAsm8B + +memmove_long_emit_remainder_encodeBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm8Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBlockAsm8B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBetterBlockAsm(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBetterBlockAsm(SB), $327704-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000a00, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBetterBlockAsm: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBetterBlockAsm + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -6(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBetterBlockAsm: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x07, SI + CMPL SI, $0x63 + JLE check_maxskip_ok_encodeBetterBlockAsm + LEAL 100(CX), SI + JMP check_maxskip_cont_encodeBetterBlockAsm + +check_maxskip_ok_encodeBetterBlockAsm: + LEAL 1(CX)(SI*1), SI + +check_maxskip_cont_encodeBetterBlockAsm: + CMPL SI, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x00cf1bbcdcbfa563, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 262168(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 262168(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeBetterBlockAsm + MOVL 20(SP), CX + JMP search_loop_encodeBetterBlockAsm + +candidateS_match_encodeBetterBlockAsm: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm + DECL CX + MOVL R8, SI + +candidate_match_encodeBetterBlockAsm: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBetterBlockAsm + +match_extend_back_loop_encodeBetterBlockAsm: + CMPL CX, DI + JLE match_extend_back_end_encodeBetterBlockAsm + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBetterBlockAsm + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBetterBlockAsm + JMP match_extend_back_loop_encodeBetterBlockAsm + +match_extend_back_end_encodeBetterBlockAsm: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 5(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBetterBlockAsm: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeBetterBlockAsm + +matchlen_loopback_match_nolit_encodeBetterBlockAsm: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeBetterBlockAsm + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeBetterBlockAsm + +matchlen_loop_match_nolit_encodeBetterBlockAsm: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeBetterBlockAsm + +matchlen_single_match_nolit_encodeBetterBlockAsm: + TESTL R8, R8 + JZ match_nolit_end_encodeBetterBlockAsm + +matchlen_single_loopback_match_nolit_encodeBetterBlockAsm: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeBetterBlockAsm + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeBetterBlockAsm + +match_nolit_end_encodeBetterBlockAsm: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL 16(SP), R8 + JEQ match_is_repeat_encodeBetterBlockAsm + CMPL R12, $0x01 + JG match_length_ok_encodeBetterBlockAsm + CMPL R8, $0x0000ffff + JLE match_length_ok_encodeBetterBlockAsm + MOVL 20(SP), CX + INCL CX + JMP search_loop_encodeBetterBlockAsm + +match_length_ok_encodeBetterBlockAsm: + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeBetterBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeBetterBlockAsm + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeBetterBlockAsm + CMPL SI, $0x00010000 + JLT three_bytes_match_emit_encodeBetterBlockAsm + CMPL SI, $0x01000000 + JLT four_bytes_match_emit_encodeBetterBlockAsm + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm + +four_bytes_match_emit_encodeBetterBlockAsm: + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm + +three_bytes_match_emit_encodeBetterBlockAsm: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm + +two_bytes_match_emit_encodeBetterBlockAsm: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeBetterBlockAsm + JMP memmove_long_match_emit_encodeBetterBlockAsm + +one_byte_match_emit_encodeBetterBlockAsm: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_encodeBetterBlockAsm_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBetterBlockAsm: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeBetterBlockAsm + +memmove_long_match_emit_encodeBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeBetterBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsmlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeBetterBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeBetterBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeBetterBlockAsm: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy + CMPL R8, $0x00010000 + JL two_byte_offset_match_nolit_encodeBetterBlockAsm + +four_bytes_loop_back_match_nolit_encodeBetterBlockAsm: + CMPL R12, $0x40 + JLE four_bytes_remain_match_nolit_encodeBetterBlockAsm + MOVB $0xff, (AX) + MOVL R8, 1(AX) + LEAL -64(R12), R12 + ADDQ $0x05, AX + CMPL R12, $0x04 + JL four_bytes_remain_match_nolit_encodeBetterBlockAsm + + // emitRepeat +emit_repeat_again_match_nolit_encodeBetterBlockAsm_emit_copy: + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm_emit_copy + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm_emit_copy + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_encodeBetterBlockAsm_emit_copy + CMPL R12, $0x0100ffff + JLT repeat_five_match_nolit_encodeBetterBlockAsm_emit_copy + LEAL -16842747(R12), R12 + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_nolit_encodeBetterBlockAsm_emit_copy + +repeat_five_match_nolit_encodeBetterBlockAsm_emit_copy: + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_four_match_nolit_encodeBetterBlockAsm_emit_copy: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_three_match_nolit_encodeBetterBlockAsm_emit_copy: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_match_nolit_encodeBetterBlockAsm_emit_copy: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + JMP four_bytes_loop_back_match_nolit_encodeBetterBlockAsm + +four_bytes_remain_match_nolit_encodeBetterBlockAsm: + TESTL R12, R12 + JZ match_nolit_emitcopy_end_encodeBetterBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVL R8, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +two_byte_offset_match_nolit_encodeBetterBlockAsm: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBetterBlockAsm + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + + // emitRepeat +emit_repeat_again_match_nolit_encodeBetterBlockAsm_emit_copy_short: + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy_short + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy_short: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm_emit_copy_short + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_encodeBetterBlockAsm_emit_copy_short + CMPL R12, $0x0100ffff + JLT repeat_five_match_nolit_encodeBetterBlockAsm_emit_copy_short + LEAL -16842747(R12), R12 + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_nolit_encodeBetterBlockAsm_emit_copy_short + +repeat_five_match_nolit_encodeBetterBlockAsm_emit_copy_short: + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_four_match_nolit_encodeBetterBlockAsm_emit_copy_short: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_three_match_nolit_encodeBetterBlockAsm_emit_copy_short: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_match_nolit_encodeBetterBlockAsm_emit_copy_short: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_offset_match_nolit_encodeBetterBlockAsm_emit_copy_short: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + JMP two_byte_offset_match_nolit_encodeBetterBlockAsm + +two_byte_offset_short_match_nolit_encodeBetterBlockAsm: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +emit_copy_three_match_nolit_encodeBetterBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +match_is_repeat_encodeBetterBlockAsm: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_repeat_encodeBetterBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_repeat_encodeBetterBlockAsm + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_repeat_encodeBetterBlockAsm + CMPL SI, $0x00010000 + JLT three_bytes_match_emit_repeat_encodeBetterBlockAsm + CMPL SI, $0x01000000 + JLT four_bytes_match_emit_repeat_encodeBetterBlockAsm + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm + +four_bytes_match_emit_repeat_encodeBetterBlockAsm: + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm + +three_bytes_match_emit_repeat_encodeBetterBlockAsm: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm + +two_bytes_match_emit_repeat_encodeBetterBlockAsm: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_repeat_encodeBetterBlockAsm + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm + +one_byte_match_emit_repeat_encodeBetterBlockAsm: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_repeat_encodeBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_33through64 + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm: + MOVQ SI, AX + JMP emit_literal_done_match_emit_repeat_encodeBetterBlockAsm + +memmove_long_match_emit_repeat_encodeBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsmlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_repeat_encodeBetterBlockAsm: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitRepeat +emit_repeat_again_match_nolit_repeat_encodeBetterBlockAsm: + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_repeat_encodeBetterBlockAsm + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm + +cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_repeat_encodeBetterBlockAsm + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_repeat_encodeBetterBlockAsm + CMPL R12, $0x0100ffff + JLT repeat_five_match_nolit_repeat_encodeBetterBlockAsm + LEAL -16842747(R12), R12 + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + JMP emit_repeat_again_match_nolit_repeat_encodeBetterBlockAsm + +repeat_five_match_nolit_repeat_encodeBetterBlockAsm: + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_four_match_nolit_repeat_encodeBetterBlockAsm: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_three_match_nolit_repeat_encodeBetterBlockAsm: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_match_nolit_repeat_encodeBetterBlockAsm: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm + +repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + +match_nolit_emitcopy_end_encodeBetterBlockAsm: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBetterBlockAsm: + MOVQ $0x00cf1bbcdcbfa563, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x32, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 262168(SP)(R11*4) + MOVL R15, 262168(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 262168(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeBetterBlockAsm + +emit_remainder_encodeBetterBlockAsm: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 5(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBetterBlockAsm: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBetterBlockAsm + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBetterBlockAsm + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBetterBlockAsm + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeBetterBlockAsm + CMPL DX, $0x01000000 + JLT four_bytes_emit_remainder_encodeBetterBlockAsm + MOVB $0xfc, (AX) + MOVL DX, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm + +four_bytes_emit_remainder_encodeBetterBlockAsm: + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm + +three_bytes_emit_remainder_encodeBetterBlockAsm: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm + +two_bytes_emit_remainder_encodeBetterBlockAsm: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBetterBlockAsm + JMP memmove_long_emit_remainder_encodeBetterBlockAsm + +one_byte_emit_remainder_encodeBetterBlockAsm: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBetterBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x04 + JLE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_4 + CMPQ BX, $0x08 + JB emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_4through7 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_4: + MOVL (CX), SI + MOVL SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(BX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBetterBlockAsm: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBetterBlockAsm + +memmove_long_emit_remainder_encodeBetterBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsmlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBetterBlockAsm: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBetterBlockAsm4MB(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBetterBlockAsm4MB(SB), $327704-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000a00, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBetterBlockAsm4MB: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBetterBlockAsm4MB + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -6(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBetterBlockAsm4MB: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x07, SI + CMPL SI, $0x63 + JLE check_maxskip_ok_encodeBetterBlockAsm4MB + LEAL 100(CX), SI + JMP check_maxskip_cont_encodeBetterBlockAsm4MB + +check_maxskip_ok_encodeBetterBlockAsm4MB: + LEAL 1(CX)(SI*1), SI + +check_maxskip_cont_encodeBetterBlockAsm4MB: + CMPL SI, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm4MB + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x00cf1bbcdcbfa563, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 262168(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 262168(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm4MB + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeBetterBlockAsm4MB + MOVL 20(SP), CX + JMP search_loop_encodeBetterBlockAsm4MB + +candidateS_match_encodeBetterBlockAsm4MB: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm4MB + DECL CX + MOVL R8, SI + +candidate_match_encodeBetterBlockAsm4MB: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBetterBlockAsm4MB + +match_extend_back_loop_encodeBetterBlockAsm4MB: + CMPL CX, DI + JLE match_extend_back_end_encodeBetterBlockAsm4MB + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBetterBlockAsm4MB + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBetterBlockAsm4MB + JMP match_extend_back_loop_encodeBetterBlockAsm4MB + +match_extend_back_end_encodeBetterBlockAsm4MB: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 4(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBetterBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBetterBlockAsm4MB: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeBetterBlockAsm4MB + +matchlen_loopback_match_nolit_encodeBetterBlockAsm4MB: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeBetterBlockAsm4MB + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeBetterBlockAsm4MB + +matchlen_loop_match_nolit_encodeBetterBlockAsm4MB: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeBetterBlockAsm4MB + +matchlen_single_match_nolit_encodeBetterBlockAsm4MB: + TESTL R8, R8 + JZ match_nolit_end_encodeBetterBlockAsm4MB + +matchlen_single_loopback_match_nolit_encodeBetterBlockAsm4MB: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeBetterBlockAsm4MB + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeBetterBlockAsm4MB + +match_nolit_end_encodeBetterBlockAsm4MB: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL 16(SP), R8 + JEQ match_is_repeat_encodeBetterBlockAsm4MB + CMPL R12, $0x01 + JG match_length_ok_encodeBetterBlockAsm4MB + CMPL R8, $0x0000ffff + JLE match_length_ok_encodeBetterBlockAsm4MB + MOVL 20(SP), CX + INCL CX + JMP search_loop_encodeBetterBlockAsm4MB + +match_length_ok_encodeBetterBlockAsm4MB: + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeBetterBlockAsm4MB + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeBetterBlockAsm4MB + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeBetterBlockAsm4MB + CMPL SI, $0x00010000 + JLT three_bytes_match_emit_encodeBetterBlockAsm4MB + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm4MB + +three_bytes_match_emit_encodeBetterBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm4MB + +two_bytes_match_emit_encodeBetterBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeBetterBlockAsm4MB + JMP memmove_long_match_emit_encodeBetterBlockAsm4MB + +one_byte_match_emit_encodeBetterBlockAsm4MB: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBetterBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_encodeBetterBlockAsm4MB_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBetterBlockAsm4MB: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeBetterBlockAsm4MB + +memmove_long_match_emit_encodeBetterBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm4MBlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeBetterBlockAsm4MB: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy + CMPL R8, $0x00010000 + JL two_byte_offset_match_nolit_encodeBetterBlockAsm4MB + +four_bytes_loop_back_match_nolit_encodeBetterBlockAsm4MB: + CMPL R12, $0x40 + JLE four_bytes_remain_match_nolit_encodeBetterBlockAsm4MB + MOVB $0xff, (AX) + MOVL R8, 1(AX) + LEAL -64(R12), R12 + ADDQ $0x05, AX + CMPL R12, $0x04 + JL four_bytes_remain_match_nolit_encodeBetterBlockAsm4MB + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm4MB_emit_copy + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm4MB_emit_copy + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_encodeBetterBlockAsm4MB_emit_copy + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_four_match_nolit_encodeBetterBlockAsm4MB_emit_copy: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_three_match_nolit_encodeBetterBlockAsm4MB_emit_copy: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_match_nolit_encodeBetterBlockAsm4MB_emit_copy: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + JMP four_bytes_loop_back_match_nolit_encodeBetterBlockAsm4MB + +four_bytes_remain_match_nolit_encodeBetterBlockAsm4MB: + TESTL R12, R12 + JZ match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + MOVB $0x03, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVL R8, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +two_byte_offset_match_nolit_encodeBetterBlockAsm4MB: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBetterBlockAsm4MB + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_four_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_three_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_offset_match_nolit_encodeBetterBlockAsm4MB_emit_copy_short: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + JMP two_byte_offset_match_nolit_encodeBetterBlockAsm4MB + +two_byte_offset_short_match_nolit_encodeBetterBlockAsm4MB: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm4MB + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm4MB + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +emit_copy_three_match_nolit_encodeBetterBlockAsm4MB: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +match_is_repeat_encodeBetterBlockAsm4MB: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_repeat_encodeBetterBlockAsm4MB + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_repeat_encodeBetterBlockAsm4MB + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_repeat_encodeBetterBlockAsm4MB + CMPL SI, $0x00010000 + JLT three_bytes_match_emit_repeat_encodeBetterBlockAsm4MB + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm4MB + +three_bytes_match_emit_repeat_encodeBetterBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm4MB + +two_bytes_match_emit_repeat_encodeBetterBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_repeat_encodeBetterBlockAsm4MB + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm4MB + +one_byte_match_emit_repeat_encodeBetterBlockAsm4MB: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_repeat_encodeBetterBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm4MB + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm4MB_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm4MB: + MOVQ SI, AX + JMP emit_literal_done_match_emit_repeat_encodeBetterBlockAsm4MB + +memmove_long_match_emit_repeat_encodeBetterBlockAsm4MB: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm4MBlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_repeat_encodeBetterBlockAsm4MB: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_repeat_encodeBetterBlockAsm4MB + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm4MB + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm4MB + +cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm4MB: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_repeat_encodeBetterBlockAsm4MB + CMPL R12, $0x00010100 + JLT repeat_four_match_nolit_repeat_encodeBetterBlockAsm4MB + LEAL -65536(R12), R12 + MOVL R12, R8 + MOVW $0x001d, (AX) + MOVW R12, 2(AX) + SARL $0x10, R8 + MOVB R8, 4(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_four_match_nolit_repeat_encodeBetterBlockAsm4MB: + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_three_match_nolit_repeat_encodeBetterBlockAsm4MB: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_match_nolit_repeat_encodeBetterBlockAsm4MB: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm4MB + +repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm4MB: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + +match_nolit_emitcopy_end_encodeBetterBlockAsm4MB: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm4MB + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBetterBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBetterBlockAsm4MB: + MOVQ $0x00cf1bbcdcbfa563, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x32, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 262168(SP)(R11*4) + MOVL R15, 262168(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 262168(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeBetterBlockAsm4MB + +emit_remainder_encodeBetterBlockAsm4MB: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 4(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBetterBlockAsm4MB + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBetterBlockAsm4MB: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBetterBlockAsm4MB + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBetterBlockAsm4MB + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBetterBlockAsm4MB + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeBetterBlockAsm4MB + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm4MB + +three_bytes_emit_remainder_encodeBetterBlockAsm4MB: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm4MB + +two_bytes_emit_remainder_encodeBetterBlockAsm4MB: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBetterBlockAsm4MB + JMP memmove_long_emit_remainder_encodeBetterBlockAsm4MB + +one_byte_emit_remainder_encodeBetterBlockAsm4MB: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBetterBlockAsm4MB: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x04 + JLE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_4 + CMPQ BX, $0x08 + JB emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_4through7 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_4: + MOVL (CX), SI + MOVL SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(BX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm4MB + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm4MB_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBetterBlockAsm4MB: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBetterBlockAsm4MB + +memmove_long_emit_remainder_encodeBetterBlockAsm4MB: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm4MBlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm4MBlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm4MBlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBetterBlockAsm4MB: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBetterBlockAsm12B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBetterBlockAsm12B(SB), $81944-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000280, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBetterBlockAsm12B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBetterBlockAsm12B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -6(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBetterBlockAsm12B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm12B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x34, R11 + MOVL 24(SP)(R10*4), SI + MOVL 65560(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 65560(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm12B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeBetterBlockAsm12B + MOVL 20(SP), CX + JMP search_loop_encodeBetterBlockAsm12B + +candidateS_match_encodeBetterBlockAsm12B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm12B + DECL CX + MOVL R8, SI + +candidate_match_encodeBetterBlockAsm12B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBetterBlockAsm12B + +match_extend_back_loop_encodeBetterBlockAsm12B: + CMPL CX, DI + JLE match_extend_back_end_encodeBetterBlockAsm12B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBetterBlockAsm12B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBetterBlockAsm12B + JMP match_extend_back_loop_encodeBetterBlockAsm12B + +match_extend_back_end_encodeBetterBlockAsm12B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBetterBlockAsm12B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeBetterBlockAsm12B + +matchlen_loopback_match_nolit_encodeBetterBlockAsm12B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeBetterBlockAsm12B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeBetterBlockAsm12B + +matchlen_loop_match_nolit_encodeBetterBlockAsm12B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeBetterBlockAsm12B + +matchlen_single_match_nolit_encodeBetterBlockAsm12B: + TESTL R8, R8 + JZ match_nolit_end_encodeBetterBlockAsm12B + +matchlen_single_loopback_match_nolit_encodeBetterBlockAsm12B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeBetterBlockAsm12B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeBetterBlockAsm12B + +match_nolit_end_encodeBetterBlockAsm12B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL 16(SP), R8 + JEQ match_is_repeat_encodeBetterBlockAsm12B + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeBetterBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeBetterBlockAsm12B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeBetterBlockAsm12B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm12B + +two_bytes_match_emit_encodeBetterBlockAsm12B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeBetterBlockAsm12B + JMP memmove_long_match_emit_encodeBetterBlockAsm12B + +one_byte_match_emit_encodeBetterBlockAsm12B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm12B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBetterBlockAsm12B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeBetterBlockAsm12B + +memmove_long_match_emit_encodeBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm12Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeBetterBlockAsm12B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBetterBlockAsm12B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBetterBlockAsm12B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm12B_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm12B_emit_copy_short + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm12B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm12B_emit_copy_short: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm12B_emit_copy_short + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_three_match_nolit_encodeBetterBlockAsm12B_emit_copy_short: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_two_match_nolit_encodeBetterBlockAsm12B_emit_copy_short: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_two_offset_match_nolit_encodeBetterBlockAsm12B_emit_copy_short: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + JMP two_byte_offset_match_nolit_encodeBetterBlockAsm12B + +two_byte_offset_short_match_nolit_encodeBetterBlockAsm12B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm12B + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +emit_copy_three_match_nolit_encodeBetterBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +match_is_repeat_encodeBetterBlockAsm12B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_repeat_encodeBetterBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_repeat_encodeBetterBlockAsm12B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_repeat_encodeBetterBlockAsm12B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm12B + +two_bytes_match_emit_repeat_encodeBetterBlockAsm12B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_repeat_encodeBetterBlockAsm12B + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm12B + +one_byte_match_emit_repeat_encodeBetterBlockAsm12B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_repeat_encodeBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm12B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm12B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm12B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_repeat_encodeBetterBlockAsm12B + +memmove_long_match_emit_repeat_encodeBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm12Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_repeat_encodeBetterBlockAsm12B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_repeat_encodeBetterBlockAsm12B + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm12B + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm12B + +cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm12B: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_repeat_encodeBetterBlockAsm12B + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_three_match_nolit_repeat_encodeBetterBlockAsm12B: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_two_match_nolit_repeat_encodeBetterBlockAsm12B: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm12B + +repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm12B: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + +match_nolit_emitcopy_end_encodeBetterBlockAsm12B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm12B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBetterBlockAsm12B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x32, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x34, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x34, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 65560(SP)(R11*4) + MOVL R15, 65560(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x32, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x34, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x32, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 65560(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeBetterBlockAsm12B + +emit_remainder_encodeBetterBlockAsm12B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBetterBlockAsm12B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBetterBlockAsm12B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBetterBlockAsm12B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBetterBlockAsm12B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm12B + +two_bytes_emit_remainder_encodeBetterBlockAsm12B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBetterBlockAsm12B + JMP memmove_long_emit_remainder_encodeBetterBlockAsm12B + +one_byte_emit_remainder_encodeBetterBlockAsm12B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBetterBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x04 + JLE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_4 + CMPQ BX, $0x08 + JB emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_4through7 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_4: + MOVL (CX), SI + MOVL SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(BX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm12B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBetterBlockAsm12B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBetterBlockAsm12B + +memmove_long_emit_remainder_encodeBetterBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm12Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBetterBlockAsm12B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBetterBlockAsm10B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBetterBlockAsm10B(SB), $20504-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x000000a0, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBetterBlockAsm10B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBetterBlockAsm10B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -6(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBetterBlockAsm10B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm10B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x36, R11 + MOVL 24(SP)(R10*4), SI + MOVL 16408(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 16408(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm10B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeBetterBlockAsm10B + MOVL 20(SP), CX + JMP search_loop_encodeBetterBlockAsm10B + +candidateS_match_encodeBetterBlockAsm10B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm10B + DECL CX + MOVL R8, SI + +candidate_match_encodeBetterBlockAsm10B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBetterBlockAsm10B + +match_extend_back_loop_encodeBetterBlockAsm10B: + CMPL CX, DI + JLE match_extend_back_end_encodeBetterBlockAsm10B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBetterBlockAsm10B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBetterBlockAsm10B + JMP match_extend_back_loop_encodeBetterBlockAsm10B + +match_extend_back_end_encodeBetterBlockAsm10B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBetterBlockAsm10B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeBetterBlockAsm10B + +matchlen_loopback_match_nolit_encodeBetterBlockAsm10B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeBetterBlockAsm10B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeBetterBlockAsm10B + +matchlen_loop_match_nolit_encodeBetterBlockAsm10B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeBetterBlockAsm10B + +matchlen_single_match_nolit_encodeBetterBlockAsm10B: + TESTL R8, R8 + JZ match_nolit_end_encodeBetterBlockAsm10B + +matchlen_single_loopback_match_nolit_encodeBetterBlockAsm10B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeBetterBlockAsm10B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeBetterBlockAsm10B + +match_nolit_end_encodeBetterBlockAsm10B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL 16(SP), R8 + JEQ match_is_repeat_encodeBetterBlockAsm10B + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeBetterBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeBetterBlockAsm10B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeBetterBlockAsm10B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm10B + +two_bytes_match_emit_encodeBetterBlockAsm10B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeBetterBlockAsm10B + JMP memmove_long_match_emit_encodeBetterBlockAsm10B + +one_byte_match_emit_encodeBetterBlockAsm10B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm10B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBetterBlockAsm10B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeBetterBlockAsm10B + +memmove_long_match_emit_encodeBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm10Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeBetterBlockAsm10B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBetterBlockAsm10B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBetterBlockAsm10B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm10B_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm10B_emit_copy_short + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_encodeBetterBlockAsm10B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm10B_emit_copy_short: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm10B_emit_copy_short + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_three_match_nolit_encodeBetterBlockAsm10B_emit_copy_short: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_two_match_nolit_encodeBetterBlockAsm10B_emit_copy_short: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_two_offset_match_nolit_encodeBetterBlockAsm10B_emit_copy_short: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + JMP two_byte_offset_match_nolit_encodeBetterBlockAsm10B + +two_byte_offset_short_match_nolit_encodeBetterBlockAsm10B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm10B + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +emit_copy_three_match_nolit_encodeBetterBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +match_is_repeat_encodeBetterBlockAsm10B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_repeat_encodeBetterBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_repeat_encodeBetterBlockAsm10B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_repeat_encodeBetterBlockAsm10B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm10B + +two_bytes_match_emit_repeat_encodeBetterBlockAsm10B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_repeat_encodeBetterBlockAsm10B + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm10B + +one_byte_match_emit_repeat_encodeBetterBlockAsm10B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_repeat_encodeBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm10B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm10B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm10B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_repeat_encodeBetterBlockAsm10B + +memmove_long_match_emit_repeat_encodeBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm10Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_repeat_encodeBetterBlockAsm10B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_repeat_encodeBetterBlockAsm10B + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm10B + CMPL R8, $0x00000800 + JLT repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm10B + +cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm10B: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_repeat_encodeBetterBlockAsm10B + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_three_match_nolit_repeat_encodeBetterBlockAsm10B: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_two_match_nolit_repeat_encodeBetterBlockAsm10B: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm10B + +repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm10B: + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + +match_nolit_emitcopy_end_encodeBetterBlockAsm10B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm10B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBetterBlockAsm10B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x34, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x34, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x36, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x36, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 16408(SP)(R11*4) + MOVL R15, 16408(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x34, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x36, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x34, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 16408(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeBetterBlockAsm10B + +emit_remainder_encodeBetterBlockAsm10B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBetterBlockAsm10B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBetterBlockAsm10B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBetterBlockAsm10B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBetterBlockAsm10B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm10B + +two_bytes_emit_remainder_encodeBetterBlockAsm10B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBetterBlockAsm10B + JMP memmove_long_emit_remainder_encodeBetterBlockAsm10B + +one_byte_emit_remainder_encodeBetterBlockAsm10B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBetterBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x04 + JLE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_4 + CMPQ BX, $0x08 + JB emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_4through7 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_4: + MOVL (CX), SI + MOVL SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(BX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm10B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBetterBlockAsm10B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBetterBlockAsm10B + +memmove_long_emit_remainder_encodeBetterBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm10Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBetterBlockAsm10B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeBetterBlockAsm8B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeBetterBlockAsm8B(SB), $5144-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000028, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeBetterBlockAsm8B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeBetterBlockAsm8B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -6(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeBetterBlockAsm8B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x04, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm8B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x38, R11 + MOVL 24(SP)(R10*4), SI + MOVL 4120(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 4120(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm8B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeBetterBlockAsm8B + MOVL 20(SP), CX + JMP search_loop_encodeBetterBlockAsm8B + +candidateS_match_encodeBetterBlockAsm8B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeBetterBlockAsm8B + DECL CX + MOVL R8, SI + +candidate_match_encodeBetterBlockAsm8B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeBetterBlockAsm8B + +match_extend_back_loop_encodeBetterBlockAsm8B: + CMPL CX, DI + JLE match_extend_back_end_encodeBetterBlockAsm8B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeBetterBlockAsm8B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeBetterBlockAsm8B + JMP match_extend_back_loop_encodeBetterBlockAsm8B + +match_extend_back_end_encodeBetterBlockAsm8B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeBetterBlockAsm8B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeBetterBlockAsm8B + +matchlen_loopback_match_nolit_encodeBetterBlockAsm8B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeBetterBlockAsm8B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeBetterBlockAsm8B + +matchlen_loop_match_nolit_encodeBetterBlockAsm8B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeBetterBlockAsm8B + +matchlen_single_match_nolit_encodeBetterBlockAsm8B: + TESTL R8, R8 + JZ match_nolit_end_encodeBetterBlockAsm8B + +matchlen_single_loopback_match_nolit_encodeBetterBlockAsm8B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeBetterBlockAsm8B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeBetterBlockAsm8B + +match_nolit_end_encodeBetterBlockAsm8B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL 16(SP), R8 + JEQ match_is_repeat_encodeBetterBlockAsm8B + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeBetterBlockAsm8B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeBetterBlockAsm8B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeBetterBlockAsm8B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeBetterBlockAsm8B + +two_bytes_match_emit_encodeBetterBlockAsm8B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeBetterBlockAsm8B + JMP memmove_long_match_emit_encodeBetterBlockAsm8B + +one_byte_match_emit_encodeBetterBlockAsm8B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeBetterBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x04 + JLE emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_4 + CMPQ R9, $0x08 + JB emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_4through7 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_4: + MOVL (R10), R11 + MOVL R11, (AX) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_4through7: + MOVL (R10), R11 + MOVL -4(R10)(R9*1), R10 + MOVL R11, (AX) + MOVL R10, -4(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeBetterBlockAsm8B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeBetterBlockAsm8B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeBetterBlockAsm8B + +memmove_long_match_emit_encodeBetterBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm8Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeBetterBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeBetterBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeBetterBlockAsm8B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeBetterBlockAsm8B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeBetterBlockAsm8B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_encodeBetterBlockAsm8B_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm8B_emit_copy_short + +cant_repeat_two_offset_match_nolit_encodeBetterBlockAsm8B_emit_copy_short: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_encodeBetterBlockAsm8B_emit_copy_short + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +repeat_three_match_nolit_encodeBetterBlockAsm8B_emit_copy_short: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +repeat_two_match_nolit_encodeBetterBlockAsm8B_emit_copy_short: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + JMP two_byte_offset_match_nolit_encodeBetterBlockAsm8B + +two_byte_offset_short_match_nolit_encodeBetterBlockAsm8B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeBetterBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +emit_copy_three_match_nolit_encodeBetterBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +match_is_repeat_encodeBetterBlockAsm8B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_repeat_encodeBetterBlockAsm8B + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_repeat_encodeBetterBlockAsm8B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_repeat_encodeBetterBlockAsm8B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm8B + +two_bytes_match_emit_repeat_encodeBetterBlockAsm8B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_repeat_encodeBetterBlockAsm8B + JMP memmove_long_match_emit_repeat_encodeBetterBlockAsm8B + +one_byte_match_emit_repeat_encodeBetterBlockAsm8B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_repeat_encodeBetterBlockAsm8B: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x04 + JLE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_4 + CMPQ R8, $0x08 + JB emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_4through7 + CMPQ R8, $0x10 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_4: + MOVL (R9), R10 + MOVL R10, (AX) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_4through7: + MOVL (R9), R10 + MOVL -4(R9)(R8*1), R9 + MOVL R10, (AX) + MOVL R9, -4(AX)(R8*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm8B + +emit_lit_memmove_match_emit_repeat_encodeBetterBlockAsm8B_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_match_emit_repeat_encodeBetterBlockAsm8B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_repeat_encodeBetterBlockAsm8B + +memmove_long_match_emit_repeat_encodeBetterBlockAsm8B: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R13 + SUBQ R10, R13 + DECQ R11 + JA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(R9)(R13*1), R10 + LEAQ -32(AX)(R13*1), R14 + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm8Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R14) + MOVOA X5, 16(R14) + ADDQ $0x20, R14 + ADDQ $0x20, R10 + ADDQ $0x20, R13 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(R9)(R13*1), X4 + MOVOU -16(R9)(R13*1), X5 + MOVOA X4, -32(AX)(R13*1) + MOVOA X5, -16(AX)(R13*1) + ADDQ $0x20, R13 + CMPQ R8, R13 + JAE emit_lit_memmove_long_match_emit_repeat_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_match_emit_repeat_encodeBetterBlockAsm8B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitRepeat + MOVL R12, SI + LEAL -4(R12), R12 + CMPL SI, $0x08 + JLE repeat_two_match_nolit_repeat_encodeBetterBlockAsm8B + CMPL SI, $0x0c + JGE cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm8B + +cant_repeat_two_offset_match_nolit_repeat_encodeBetterBlockAsm8B: + CMPL R12, $0x00000104 + JLT repeat_three_match_nolit_repeat_encodeBetterBlockAsm8B + LEAL -256(R12), R12 + MOVW $0x0019, (AX) + MOVW R12, 2(AX) + ADDQ $0x04, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +repeat_three_match_nolit_repeat_encodeBetterBlockAsm8B: + LEAL -4(R12), R12 + MOVW $0x0015, (AX) + MOVB R12, 2(AX) + ADDQ $0x03, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + +repeat_two_match_nolit_repeat_encodeBetterBlockAsm8B: + SHLL $0x02, R12 + ORL $0x01, R12 + MOVW R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeBetterBlockAsm8B + XORQ SI, SI + LEAL 1(SI)(R12*4), R12 + MOVB R8, 1(AX) + SARL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + +match_nolit_emitcopy_end_encodeBetterBlockAsm8B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeBetterBlockAsm8B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeBetterBlockAsm8B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x36, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x36, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x38, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x38, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 4120(SP)(R11*4) + MOVL R15, 4120(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x38, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x36, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 4120(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeBetterBlockAsm8B + +emit_remainder_encodeBetterBlockAsm8B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeBetterBlockAsm8B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeBetterBlockAsm8B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeBetterBlockAsm8B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeBetterBlockAsm8B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeBetterBlockAsm8B + +two_bytes_emit_remainder_encodeBetterBlockAsm8B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeBetterBlockAsm8B + JMP memmove_long_emit_remainder_encodeBetterBlockAsm8B + +one_byte_emit_remainder_encodeBetterBlockAsm8B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeBetterBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x04 + JLE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_4 + CMPQ BX, $0x08 + JB emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_4through7 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_4: + MOVL (CX), SI + MOVL SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(BX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeBetterBlockAsm8B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeBetterBlockAsm8B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeBetterBlockAsm8B + +memmove_long_emit_remainder_encodeBetterBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm8Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeBetterBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeBetterBlockAsm8B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBlockAsm(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBlockAsm(SB), $65560-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000200, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBlockAsm: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBlockAsm + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBlockAsm: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R11 + IMULQ R9, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeSnappyBlockAsm + LEAL 1(CX), DI + MOVL 12(SP), SI + MOVL DI, R8 + SUBL 16(SP), R8 + JZ repeat_extend_back_end_encodeSnappyBlockAsm + +repeat_extend_back_loop_encodeSnappyBlockAsm: + CMPL DI, SI + JLE repeat_extend_back_end_encodeSnappyBlockAsm + MOVB -1(DX)(R8*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeSnappyBlockAsm + LEAL -1(DI), DI + DECL R8 + JNZ repeat_extend_back_loop_encodeSnappyBlockAsm + +repeat_extend_back_end_encodeSnappyBlockAsm: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeSnappyBlockAsm + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeSnappyBlockAsm + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeSnappyBlockAsm + CMPL SI, $0x00010000 + JLT three_bytes_repeat_emit_encodeSnappyBlockAsm + CMPL SI, $0x01000000 + JLT four_bytes_repeat_emit_encodeSnappyBlockAsm + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm + +four_bytes_repeat_emit_encodeSnappyBlockAsm: + MOVL SI, R10 + SHRL $0x10, R10 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R10, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm + +three_bytes_repeat_emit_encodeSnappyBlockAsm: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm + +two_bytes_repeat_emit_encodeSnappyBlockAsm: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeSnappyBlockAsm + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm + +one_byte_repeat_emit_encodeSnappyBlockAsm: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeSnappyBlockAsm: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_8 + CMPQ R8, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_8: + MOVQ (R9), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_repeat_emit_encodeSnappyBlockAsm: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeSnappyBlockAsm + +memmove_long_repeat_emit_encodeSnappyBlockAsm: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(R9)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsmlarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(R9)(R12*1), X4 + MOVOU -16(R9)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R8, R12 + JAE emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeSnappyBlockAsm: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R11, R11 + CMPL R8, $0x08 + JL matchlen_single_repeat_extend_encodeSnappyBlockAsm + +matchlen_loopback_repeat_extend_encodeSnappyBlockAsm: + MOVQ (R9)(R11*1), R10 + XORQ (SI)(R11*1), R10 + TESTQ R10, R10 + JZ matchlen_loop_repeat_extend_encodeSnappyBlockAsm + BSFQ R10, R10 + SARQ $0x03, R10 + LEAL (R11)(R10*1), R11 + JMP repeat_extend_forward_end_encodeSnappyBlockAsm + +matchlen_loop_repeat_extend_encodeSnappyBlockAsm: + LEAL -8(R8), R8 + LEAL 8(R11), R11 + CMPL R8, $0x08 + JGE matchlen_loopback_repeat_extend_encodeSnappyBlockAsm + +matchlen_single_repeat_extend_encodeSnappyBlockAsm: + TESTL R8, R8 + JZ repeat_extend_forward_end_encodeSnappyBlockAsm + +matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm: + MOVB (R9)(R11*1), R10 + CMPB (SI)(R11*1), R10 + JNE repeat_extend_forward_end_encodeSnappyBlockAsm + LEAL 1(R11), R11 + DECL R8 + JNZ matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm + +repeat_extend_forward_end_encodeSnappyBlockAsm: + ADDL R11, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + + // emitCopy + CMPL DI, $0x00010000 + JL two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm + +four_bytes_loop_back_repeat_as_copy_encodeSnappyBlockAsm: + CMPL SI, $0x40 + JLE four_bytes_remain_repeat_as_copy_encodeSnappyBlockAsm + MOVB $0xff, (AX) + MOVL DI, 1(AX) + LEAL -64(SI), SI + ADDQ $0x05, AX + CMPL SI, $0x04 + JL four_bytes_remain_repeat_as_copy_encodeSnappyBlockAsm + JMP four_bytes_loop_back_repeat_as_copy_encodeSnappyBlockAsm + +four_bytes_remain_repeat_as_copy_encodeSnappyBlockAsm: + TESTL SI, SI + JZ repeat_end_emit_encodeSnappyBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVL DI, 1(AX) + ADDQ $0x05, AX + JMP repeat_end_emit_encodeSnappyBlockAsm + +two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + JMP two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm + +two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeSnappyBlockAsm + +emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeSnappyBlockAsm: + MOVL CX, 12(SP) + JMP search_loop_encodeSnappyBlockAsm + +no_repeat_found_encodeSnappyBlockAsm: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBlockAsm + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeSnappyBlockAsm + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeSnappyBlockAsm + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBlockAsm + +candidate3_match_encodeSnappyBlockAsm: + ADDL $0x02, CX + JMP candidate_match_encodeSnappyBlockAsm + +candidate2_match_encodeSnappyBlockAsm: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeSnappyBlockAsm: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBlockAsm + +match_extend_back_loop_encodeSnappyBlockAsm: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBlockAsm + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBlockAsm + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBlockAsm + JMP match_extend_back_loop_encodeSnappyBlockAsm + +match_extend_back_end_encodeSnappyBlockAsm: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 5(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBlockAsm: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeSnappyBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeSnappyBlockAsm + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBlockAsm + CMPL R8, $0x00010000 + JLT three_bytes_match_emit_encodeSnappyBlockAsm + CMPL R8, $0x01000000 + JLT four_bytes_match_emit_encodeSnappyBlockAsm + MOVB $0xfc, (AX) + MOVL R8, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm + +four_bytes_match_emit_encodeSnappyBlockAsm: + MOVL R8, R10 + SHRL $0x10, R10 + MOVB $0xf8, (AX) + MOVW R8, 1(AX) + MOVB R10, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm + +three_bytes_match_emit_encodeSnappyBlockAsm: + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm + +two_bytes_match_emit_encodeSnappyBlockAsm: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeSnappyBlockAsm + JMP memmove_long_match_emit_encodeSnappyBlockAsm + +one_byte_match_emit_encodeSnappyBlockAsm: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBlockAsm: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBlockAsm: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeSnappyBlockAsm + +memmove_long_match_emit_encodeSnappyBlockAsm: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsmlarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeSnappyBlockAsm: +match_nolit_loop_encodeSnappyBlockAsm: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBlockAsm + +matchlen_loopback_match_nolit_encodeSnappyBlockAsm: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeSnappyBlockAsm + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeSnappyBlockAsm + +matchlen_loop_match_nolit_encodeSnappyBlockAsm: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBlockAsm + +matchlen_single_match_nolit_encodeSnappyBlockAsm: + TESTL DI, DI + JZ match_nolit_end_encodeSnappyBlockAsm + +matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeSnappyBlockAsm + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm + +match_nolit_end_encodeSnappyBlockAsm: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy + CMPL SI, $0x00010000 + JL two_byte_offset_match_nolit_encodeSnappyBlockAsm + +four_bytes_loop_back_match_nolit_encodeSnappyBlockAsm: + CMPL R10, $0x40 + JLE four_bytes_remain_match_nolit_encodeSnappyBlockAsm + MOVB $0xff, (AX) + MOVL SI, 1(AX) + LEAL -64(R10), R10 + ADDQ $0x05, AX + CMPL R10, $0x04 + JL four_bytes_remain_match_nolit_encodeSnappyBlockAsm + JMP four_bytes_loop_back_match_nolit_encodeSnappyBlockAsm + +four_bytes_remain_match_nolit_encodeSnappyBlockAsm: + TESTL R10, R10 + JZ match_nolit_emitcopy_end_encodeSnappyBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm + +two_byte_offset_match_nolit_encodeSnappyBlockAsm: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBlockAsm + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBlockAsm + +two_byte_offset_short_match_nolit_encodeSnappyBlockAsm: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm + +emit_copy_three_match_nolit_encodeSnappyBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBlockAsm: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBlockAsm: + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x10, R8 + IMULQ R9, R8 + SHRQ $0x32, R8 + SHLQ $0x10, SI + IMULQ R9, SI + SHRQ $0x32, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeSnappyBlockAsm + INCL CX + JMP search_loop_encodeSnappyBlockAsm + +emit_remainder_encodeSnappyBlockAsm: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 5(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBlockAsm: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBlockAsm + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBlockAsm + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBlockAsm + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeSnappyBlockAsm + CMPL DX, $0x01000000 + JLT four_bytes_emit_remainder_encodeSnappyBlockAsm + MOVB $0xfc, (AX) + MOVL DX, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm + +four_bytes_emit_remainder_encodeSnappyBlockAsm: + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm + +three_bytes_emit_remainder_encodeSnappyBlockAsm: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm + +two_bytes_emit_remainder_encodeSnappyBlockAsm: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBlockAsm + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm + +one_byte_emit_remainder_encodeSnappyBlockAsm: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBlockAsm: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBlockAsm + +memmove_long_emit_remainder_encodeSnappyBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsmlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBlockAsm: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBlockAsm64K(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBlockAsm64K(SB), $65560-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000200, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBlockAsm64K: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBlockAsm64K + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBlockAsm64K: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm64K + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R11 + IMULQ R9, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeSnappyBlockAsm64K + LEAL 1(CX), DI + MOVL 12(SP), SI + MOVL DI, R8 + SUBL 16(SP), R8 + JZ repeat_extend_back_end_encodeSnappyBlockAsm64K + +repeat_extend_back_loop_encodeSnappyBlockAsm64K: + CMPL DI, SI + JLE repeat_extend_back_end_encodeSnappyBlockAsm64K + MOVB -1(DX)(R8*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeSnappyBlockAsm64K + LEAL -1(DI), DI + DECL R8 + JNZ repeat_extend_back_loop_encodeSnappyBlockAsm64K + +repeat_extend_back_end_encodeSnappyBlockAsm64K: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeSnappyBlockAsm64K + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeSnappyBlockAsm64K + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeSnappyBlockAsm64K + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm64K + +two_bytes_repeat_emit_encodeSnappyBlockAsm64K: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeSnappyBlockAsm64K + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm64K + +one_byte_repeat_emit_encodeSnappyBlockAsm64K: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeSnappyBlockAsm64K: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_8 + CMPQ R8, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_8: + MOVQ (R9), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm64K_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_repeat_emit_encodeSnappyBlockAsm64K: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeSnappyBlockAsm64K + +memmove_long_repeat_emit_encodeSnappyBlockAsm64K: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + LEAQ -32(R9)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm64Klarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm64Klarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32: + MOVOU -32(R9)(R12*1), X4 + MOVOU -16(R9)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R8, R12 + JAE emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeSnappyBlockAsm64K: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R11, R11 + CMPL R8, $0x08 + JL matchlen_single_repeat_extend_encodeSnappyBlockAsm64K + +matchlen_loopback_repeat_extend_encodeSnappyBlockAsm64K: + MOVQ (R9)(R11*1), R10 + XORQ (SI)(R11*1), R10 + TESTQ R10, R10 + JZ matchlen_loop_repeat_extend_encodeSnappyBlockAsm64K + BSFQ R10, R10 + SARQ $0x03, R10 + LEAL (R11)(R10*1), R11 + JMP repeat_extend_forward_end_encodeSnappyBlockAsm64K + +matchlen_loop_repeat_extend_encodeSnappyBlockAsm64K: + LEAL -8(R8), R8 + LEAL 8(R11), R11 + CMPL R8, $0x08 + JGE matchlen_loopback_repeat_extend_encodeSnappyBlockAsm64K + +matchlen_single_repeat_extend_encodeSnappyBlockAsm64K: + TESTL R8, R8 + JZ repeat_extend_forward_end_encodeSnappyBlockAsm64K + +matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm64K: + MOVB (R9)(R11*1), R10 + CMPB (SI)(R11*1), R10 + JNE repeat_extend_forward_end_encodeSnappyBlockAsm64K + LEAL 1(R11), R11 + DECL R8 + JNZ matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm64K + +repeat_extend_forward_end_encodeSnappyBlockAsm64K: + ADDL R11, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + + // emitCopy +two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm64K: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm64K + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + JMP two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm64K + +two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm64K: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm64K + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm64K + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeSnappyBlockAsm64K + +emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm64K: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeSnappyBlockAsm64K: + MOVL CX, 12(SP) + JMP search_loop_encodeSnappyBlockAsm64K + +no_repeat_found_encodeSnappyBlockAsm64K: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBlockAsm64K + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeSnappyBlockAsm64K + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeSnappyBlockAsm64K + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBlockAsm64K + +candidate3_match_encodeSnappyBlockAsm64K: + ADDL $0x02, CX + JMP candidate_match_encodeSnappyBlockAsm64K + +candidate2_match_encodeSnappyBlockAsm64K: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeSnappyBlockAsm64K: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBlockAsm64K + +match_extend_back_loop_encodeSnappyBlockAsm64K: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBlockAsm64K + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBlockAsm64K + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBlockAsm64K + JMP match_extend_back_loop_encodeSnappyBlockAsm64K + +match_extend_back_end_encodeSnappyBlockAsm64K: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBlockAsm64K: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeSnappyBlockAsm64K + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeSnappyBlockAsm64K + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBlockAsm64K + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm64K + +two_bytes_match_emit_encodeSnappyBlockAsm64K: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeSnappyBlockAsm64K + JMP memmove_long_match_emit_encodeSnappyBlockAsm64K + +one_byte_match_emit_encodeSnappyBlockAsm64K: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBlockAsm64K: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm64K_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBlockAsm64K: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeSnappyBlockAsm64K + +memmove_long_match_emit_encodeSnappyBlockAsm64K: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm64Klarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm64Klarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeSnappyBlockAsm64K: +match_nolit_loop_encodeSnappyBlockAsm64K: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBlockAsm64K + +matchlen_loopback_match_nolit_encodeSnappyBlockAsm64K: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeSnappyBlockAsm64K + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeSnappyBlockAsm64K + +matchlen_loop_match_nolit_encodeSnappyBlockAsm64K: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBlockAsm64K + +matchlen_single_match_nolit_encodeSnappyBlockAsm64K: + TESTL DI, DI + JZ match_nolit_end_encodeSnappyBlockAsm64K + +matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm64K: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeSnappyBlockAsm64K + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm64K + +match_nolit_end_encodeSnappyBlockAsm64K: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBlockAsm64K: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBlockAsm64K + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBlockAsm64K + +two_byte_offset_short_match_nolit_encodeSnappyBlockAsm64K: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm64K + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm64K + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm64K + +emit_copy_three_match_nolit_encodeSnappyBlockAsm64K: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBlockAsm64K: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm64K + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBlockAsm64K: + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x10, R8 + IMULQ R9, R8 + SHRQ $0x32, R8 + SHLQ $0x10, SI + IMULQ R9, SI + SHRQ $0x32, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeSnappyBlockAsm64K + INCL CX + JMP search_loop_encodeSnappyBlockAsm64K + +emit_remainder_encodeSnappyBlockAsm64K: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBlockAsm64K: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBlockAsm64K + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBlockAsm64K + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBlockAsm64K + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm64K + +two_bytes_emit_remainder_encodeSnappyBlockAsm64K: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBlockAsm64K + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm64K + +one_byte_emit_remainder_encodeSnappyBlockAsm64K: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBlockAsm64K: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm64K_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBlockAsm64K: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBlockAsm64K + +memmove_long_emit_remainder_encodeSnappyBlockAsm64K: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm64Klarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm64Klarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm64Klarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBlockAsm64K: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBlockAsm12B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBlockAsm12B(SB), $16408-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000080, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBlockAsm12B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBlockAsm12B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBlockAsm12B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm12B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x000000cf1bbcdcbb, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x18, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + SHLQ $0x18, R11 + IMULQ R9, R11 + SHRQ $0x34, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x18, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeSnappyBlockAsm12B + LEAL 1(CX), DI + MOVL 12(SP), SI + MOVL DI, R8 + SUBL 16(SP), R8 + JZ repeat_extend_back_end_encodeSnappyBlockAsm12B + +repeat_extend_back_loop_encodeSnappyBlockAsm12B: + CMPL DI, SI + JLE repeat_extend_back_end_encodeSnappyBlockAsm12B + MOVB -1(DX)(R8*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeSnappyBlockAsm12B + LEAL -1(DI), DI + DECL R8 + JNZ repeat_extend_back_loop_encodeSnappyBlockAsm12B + +repeat_extend_back_end_encodeSnappyBlockAsm12B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeSnappyBlockAsm12B + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeSnappyBlockAsm12B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeSnappyBlockAsm12B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm12B + +two_bytes_repeat_emit_encodeSnappyBlockAsm12B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeSnappyBlockAsm12B + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm12B + +one_byte_repeat_emit_encodeSnappyBlockAsm12B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeSnappyBlockAsm12B: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_8 + CMPQ R8, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_8: + MOVQ (R9), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm12B_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_repeat_emit_encodeSnappyBlockAsm12B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeSnappyBlockAsm12B + +memmove_long_repeat_emit_encodeSnappyBlockAsm12B: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(R9)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm12Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(R9)(R12*1), X4 + MOVOU -16(R9)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R8, R12 + JAE emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeSnappyBlockAsm12B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R11, R11 + CMPL R8, $0x08 + JL matchlen_single_repeat_extend_encodeSnappyBlockAsm12B + +matchlen_loopback_repeat_extend_encodeSnappyBlockAsm12B: + MOVQ (R9)(R11*1), R10 + XORQ (SI)(R11*1), R10 + TESTQ R10, R10 + JZ matchlen_loop_repeat_extend_encodeSnappyBlockAsm12B + BSFQ R10, R10 + SARQ $0x03, R10 + LEAL (R11)(R10*1), R11 + JMP repeat_extend_forward_end_encodeSnappyBlockAsm12B + +matchlen_loop_repeat_extend_encodeSnappyBlockAsm12B: + LEAL -8(R8), R8 + LEAL 8(R11), R11 + CMPL R8, $0x08 + JGE matchlen_loopback_repeat_extend_encodeSnappyBlockAsm12B + +matchlen_single_repeat_extend_encodeSnappyBlockAsm12B: + TESTL R8, R8 + JZ repeat_extend_forward_end_encodeSnappyBlockAsm12B + +matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm12B: + MOVB (R9)(R11*1), R10 + CMPB (SI)(R11*1), R10 + JNE repeat_extend_forward_end_encodeSnappyBlockAsm12B + LEAL 1(R11), R11 + DECL R8 + JNZ matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm12B + +repeat_extend_forward_end_encodeSnappyBlockAsm12B: + ADDL R11, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + + // emitCopy +two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm12B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm12B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + JMP two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm12B + +two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm12B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm12B + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeSnappyBlockAsm12B + +emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeSnappyBlockAsm12B: + MOVL CX, 12(SP) + JMP search_loop_encodeSnappyBlockAsm12B + +no_repeat_found_encodeSnappyBlockAsm12B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBlockAsm12B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeSnappyBlockAsm12B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeSnappyBlockAsm12B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBlockAsm12B + +candidate3_match_encodeSnappyBlockAsm12B: + ADDL $0x02, CX + JMP candidate_match_encodeSnappyBlockAsm12B + +candidate2_match_encodeSnappyBlockAsm12B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeSnappyBlockAsm12B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBlockAsm12B + +match_extend_back_loop_encodeSnappyBlockAsm12B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBlockAsm12B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBlockAsm12B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBlockAsm12B + JMP match_extend_back_loop_encodeSnappyBlockAsm12B + +match_extend_back_end_encodeSnappyBlockAsm12B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBlockAsm12B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeSnappyBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeSnappyBlockAsm12B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBlockAsm12B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm12B + +two_bytes_match_emit_encodeSnappyBlockAsm12B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeSnappyBlockAsm12B + JMP memmove_long_match_emit_encodeSnappyBlockAsm12B + +one_byte_match_emit_encodeSnappyBlockAsm12B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBlockAsm12B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm12B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBlockAsm12B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeSnappyBlockAsm12B + +memmove_long_match_emit_encodeSnappyBlockAsm12B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm12Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeSnappyBlockAsm12B: +match_nolit_loop_encodeSnappyBlockAsm12B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBlockAsm12B + +matchlen_loopback_match_nolit_encodeSnappyBlockAsm12B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeSnappyBlockAsm12B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeSnappyBlockAsm12B + +matchlen_loop_match_nolit_encodeSnappyBlockAsm12B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBlockAsm12B + +matchlen_single_match_nolit_encodeSnappyBlockAsm12B: + TESTL DI, DI + JZ match_nolit_end_encodeSnappyBlockAsm12B + +matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm12B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeSnappyBlockAsm12B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm12B + +match_nolit_end_encodeSnappyBlockAsm12B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBlockAsm12B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBlockAsm12B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBlockAsm12B + +two_byte_offset_short_match_nolit_encodeSnappyBlockAsm12B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm12B + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm12B + +emit_copy_three_match_nolit_encodeSnappyBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBlockAsm12B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm12B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBlockAsm12B: + MOVQ $0x000000cf1bbcdcbb, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x18, R8 + IMULQ R9, R8 + SHRQ $0x34, R8 + SHLQ $0x18, SI + IMULQ R9, SI + SHRQ $0x34, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeSnappyBlockAsm12B + INCL CX + JMP search_loop_encodeSnappyBlockAsm12B + +emit_remainder_encodeSnappyBlockAsm12B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBlockAsm12B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBlockAsm12B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBlockAsm12B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBlockAsm12B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm12B + +two_bytes_emit_remainder_encodeSnappyBlockAsm12B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBlockAsm12B + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm12B + +one_byte_emit_remainder_encodeSnappyBlockAsm12B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm12B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBlockAsm12B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBlockAsm12B + +memmove_long_emit_remainder_encodeSnappyBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm12Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBlockAsm12B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBlockAsm10B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBlockAsm10B(SB), $4120-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000020, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBlockAsm10B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBlockAsm10B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBlockAsm10B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm10B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x9e3779b1, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ R9, R11 + SHRQ $0x36, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeSnappyBlockAsm10B + LEAL 1(CX), DI + MOVL 12(SP), SI + MOVL DI, R8 + SUBL 16(SP), R8 + JZ repeat_extend_back_end_encodeSnappyBlockAsm10B + +repeat_extend_back_loop_encodeSnappyBlockAsm10B: + CMPL DI, SI + JLE repeat_extend_back_end_encodeSnappyBlockAsm10B + MOVB -1(DX)(R8*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeSnappyBlockAsm10B + LEAL -1(DI), DI + DECL R8 + JNZ repeat_extend_back_loop_encodeSnappyBlockAsm10B + +repeat_extend_back_end_encodeSnappyBlockAsm10B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeSnappyBlockAsm10B + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeSnappyBlockAsm10B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeSnappyBlockAsm10B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm10B + +two_bytes_repeat_emit_encodeSnappyBlockAsm10B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeSnappyBlockAsm10B + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm10B + +one_byte_repeat_emit_encodeSnappyBlockAsm10B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeSnappyBlockAsm10B: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_8 + CMPQ R8, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_8: + MOVQ (R9), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm10B_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_repeat_emit_encodeSnappyBlockAsm10B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeSnappyBlockAsm10B + +memmove_long_repeat_emit_encodeSnappyBlockAsm10B: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(R9)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm10Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(R9)(R12*1), X4 + MOVOU -16(R9)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R8, R12 + JAE emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeSnappyBlockAsm10B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R11, R11 + CMPL R8, $0x08 + JL matchlen_single_repeat_extend_encodeSnappyBlockAsm10B + +matchlen_loopback_repeat_extend_encodeSnappyBlockAsm10B: + MOVQ (R9)(R11*1), R10 + XORQ (SI)(R11*1), R10 + TESTQ R10, R10 + JZ matchlen_loop_repeat_extend_encodeSnappyBlockAsm10B + BSFQ R10, R10 + SARQ $0x03, R10 + LEAL (R11)(R10*1), R11 + JMP repeat_extend_forward_end_encodeSnappyBlockAsm10B + +matchlen_loop_repeat_extend_encodeSnappyBlockAsm10B: + LEAL -8(R8), R8 + LEAL 8(R11), R11 + CMPL R8, $0x08 + JGE matchlen_loopback_repeat_extend_encodeSnappyBlockAsm10B + +matchlen_single_repeat_extend_encodeSnappyBlockAsm10B: + TESTL R8, R8 + JZ repeat_extend_forward_end_encodeSnappyBlockAsm10B + +matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm10B: + MOVB (R9)(R11*1), R10 + CMPB (SI)(R11*1), R10 + JNE repeat_extend_forward_end_encodeSnappyBlockAsm10B + LEAL 1(R11), R11 + DECL R8 + JNZ matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm10B + +repeat_extend_forward_end_encodeSnappyBlockAsm10B: + ADDL R11, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + + // emitCopy +two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm10B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm10B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + JMP two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm10B + +two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm10B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm10B + CMPL DI, $0x00000800 + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeSnappyBlockAsm10B + +emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeSnappyBlockAsm10B: + MOVL CX, 12(SP) + JMP search_loop_encodeSnappyBlockAsm10B + +no_repeat_found_encodeSnappyBlockAsm10B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBlockAsm10B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeSnappyBlockAsm10B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeSnappyBlockAsm10B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBlockAsm10B + +candidate3_match_encodeSnappyBlockAsm10B: + ADDL $0x02, CX + JMP candidate_match_encodeSnappyBlockAsm10B + +candidate2_match_encodeSnappyBlockAsm10B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeSnappyBlockAsm10B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBlockAsm10B + +match_extend_back_loop_encodeSnappyBlockAsm10B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBlockAsm10B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBlockAsm10B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBlockAsm10B + JMP match_extend_back_loop_encodeSnappyBlockAsm10B + +match_extend_back_end_encodeSnappyBlockAsm10B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBlockAsm10B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeSnappyBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeSnappyBlockAsm10B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBlockAsm10B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm10B + +two_bytes_match_emit_encodeSnappyBlockAsm10B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeSnappyBlockAsm10B + JMP memmove_long_match_emit_encodeSnappyBlockAsm10B + +one_byte_match_emit_encodeSnappyBlockAsm10B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBlockAsm10B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm10B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBlockAsm10B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeSnappyBlockAsm10B + +memmove_long_match_emit_encodeSnappyBlockAsm10B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm10Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeSnappyBlockAsm10B: +match_nolit_loop_encodeSnappyBlockAsm10B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBlockAsm10B + +matchlen_loopback_match_nolit_encodeSnappyBlockAsm10B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeSnappyBlockAsm10B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeSnappyBlockAsm10B + +matchlen_loop_match_nolit_encodeSnappyBlockAsm10B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBlockAsm10B + +matchlen_single_match_nolit_encodeSnappyBlockAsm10B: + TESTL DI, DI + JZ match_nolit_end_encodeSnappyBlockAsm10B + +matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm10B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeSnappyBlockAsm10B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm10B + +match_nolit_end_encodeSnappyBlockAsm10B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBlockAsm10B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBlockAsm10B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBlockAsm10B + +two_byte_offset_short_match_nolit_encodeSnappyBlockAsm10B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm10B + CMPL SI, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm10B + +emit_copy_three_match_nolit_encodeSnappyBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBlockAsm10B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm10B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBlockAsm10B: + MOVQ $0x9e3779b1, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x20, R8 + IMULQ R9, R8 + SHRQ $0x36, R8 + SHLQ $0x20, SI + IMULQ R9, SI + SHRQ $0x36, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeSnappyBlockAsm10B + INCL CX + JMP search_loop_encodeSnappyBlockAsm10B + +emit_remainder_encodeSnappyBlockAsm10B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBlockAsm10B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBlockAsm10B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBlockAsm10B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBlockAsm10B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm10B + +two_bytes_emit_remainder_encodeSnappyBlockAsm10B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBlockAsm10B + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm10B + +one_byte_emit_remainder_encodeSnappyBlockAsm10B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm10B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBlockAsm10B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBlockAsm10B + +memmove_long_emit_remainder_encodeSnappyBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm10Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBlockAsm10B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBlockAsm8B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBlockAsm8B(SB), $1048-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000008, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBlockAsm8B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBlockAsm8B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL CX, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBlockAsm8B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x04, SI + LEAL 4(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm8B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x9e3779b1, R9 + MOVQ DI, R10 + MOVQ DI, R11 + SHRQ $0x08, R11 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x38, R10 + SHLQ $0x20, R11 + IMULQ R9, R11 + SHRQ $0x38, R11 + MOVL 24(SP)(R10*4), SI + MOVL 24(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + LEAL 1(CX), R10 + MOVL R10, 24(SP)(R11*4) + MOVQ DI, R10 + SHRQ $0x10, R10 + SHLQ $0x20, R10 + IMULQ R9, R10 + SHRQ $0x38, R10 + MOVL CX, R9 + SUBL 16(SP), R9 + MOVL 1(DX)(R9*1), R11 + MOVQ DI, R9 + SHRQ $0x08, R9 + CMPL R9, R11 + JNE no_repeat_found_encodeSnappyBlockAsm8B + LEAL 1(CX), DI + MOVL 12(SP), SI + MOVL DI, R8 + SUBL 16(SP), R8 + JZ repeat_extend_back_end_encodeSnappyBlockAsm8B + +repeat_extend_back_loop_encodeSnappyBlockAsm8B: + CMPL DI, SI + JLE repeat_extend_back_end_encodeSnappyBlockAsm8B + MOVB -1(DX)(R8*1), BL + MOVB -1(DX)(DI*1), R9 + CMPB BL, R9 + JNE repeat_extend_back_end_encodeSnappyBlockAsm8B + LEAL -1(DI), DI + DECL R8 + JNZ repeat_extend_back_loop_encodeSnappyBlockAsm8B + +repeat_extend_back_end_encodeSnappyBlockAsm8B: + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_repeat_emit_encodeSnappyBlockAsm8B + MOVL DI, R8 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R9 + SUBL SI, R8 + LEAL -1(R8), SI + CMPL SI, $0x3c + JLT one_byte_repeat_emit_encodeSnappyBlockAsm8B + CMPL SI, $0x00000100 + JLT two_bytes_repeat_emit_encodeSnappyBlockAsm8B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm8B + +two_bytes_repeat_emit_encodeSnappyBlockAsm8B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_repeat_emit_encodeSnappyBlockAsm8B + JMP memmove_long_repeat_emit_encodeSnappyBlockAsm8B + +one_byte_repeat_emit_encodeSnappyBlockAsm8B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_repeat_emit_encodeSnappyBlockAsm8B: + LEAQ (AX)(R8*1), SI + + // genMemMoveShort + CMPQ R8, $0x08 + JLE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_8 + CMPQ R8, $0x10 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_8through16 + CMPQ R8, $0x20 + JBE emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_8: + MOVQ (R9), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_8through16: + MOVQ (R9), R10 + MOVQ -8(R9)(R8*1), R9 + MOVQ R10, (AX) + MOVQ R9, -8(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_17through32: + MOVOU (R9), X0 + MOVOU -16(R9)(R8*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R8*1) + JMP memmove_end_copy_repeat_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_repeat_emit_encodeSnappyBlockAsm8B_memmove_move_33through64: + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + +memmove_end_copy_repeat_emit_encodeSnappyBlockAsm8B: + MOVQ SI, AX + JMP emit_literal_done_repeat_emit_encodeSnappyBlockAsm8B + +memmove_long_repeat_emit_encodeSnappyBlockAsm8B: + LEAQ (AX)(R8*1), SI + + // genMemMoveLong + MOVOU (R9), X0 + MOVOU 16(R9), X1 + MOVOU -32(R9)(R8*1), X2 + MOVOU -16(R9)(R8*1), X3 + MOVQ R8, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(R9)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm8Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(R9)(R12*1), X4 + MOVOU -16(R9)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R8, R12 + JAE emit_lit_memmove_long_repeat_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R8*1) + MOVOU X3, -16(AX)(R8*1) + MOVQ SI, AX + +emit_literal_done_repeat_emit_encodeSnappyBlockAsm8B: + ADDL $0x05, CX + MOVL CX, SI + SUBL 16(SP), SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R11, R11 + CMPL R8, $0x08 + JL matchlen_single_repeat_extend_encodeSnappyBlockAsm8B + +matchlen_loopback_repeat_extend_encodeSnappyBlockAsm8B: + MOVQ (R9)(R11*1), R10 + XORQ (SI)(R11*1), R10 + TESTQ R10, R10 + JZ matchlen_loop_repeat_extend_encodeSnappyBlockAsm8B + BSFQ R10, R10 + SARQ $0x03, R10 + LEAL (R11)(R10*1), R11 + JMP repeat_extend_forward_end_encodeSnappyBlockAsm8B + +matchlen_loop_repeat_extend_encodeSnappyBlockAsm8B: + LEAL -8(R8), R8 + LEAL 8(R11), R11 + CMPL R8, $0x08 + JGE matchlen_loopback_repeat_extend_encodeSnappyBlockAsm8B + +matchlen_single_repeat_extend_encodeSnappyBlockAsm8B: + TESTL R8, R8 + JZ repeat_extend_forward_end_encodeSnappyBlockAsm8B + +matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm8B: + MOVB (R9)(R11*1), R10 + CMPB (SI)(R11*1), R10 + JNE repeat_extend_forward_end_encodeSnappyBlockAsm8B + LEAL 1(R11), R11 + DECL R8 + JNZ matchlen_single_loopback_repeat_extend_encodeSnappyBlockAsm8B + +repeat_extend_forward_end_encodeSnappyBlockAsm8B: + ADDL R11, CX + MOVL CX, SI + SUBL DI, SI + MOVL 16(SP), DI + + // emitCopy +two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm8B: + CMPL SI, $0x40 + JLE two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm8B + MOVB $0xee, (AX) + MOVW DI, 1(AX) + LEAL -60(SI), SI + ADDQ $0x03, AX + JMP two_byte_offset_repeat_as_copy_encodeSnappyBlockAsm8B + +two_byte_offset_short_repeat_as_copy_encodeSnappyBlockAsm8B: + CMPL SI, $0x0c + JGE emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(SI*4), SI + MOVB DI, 1(AX) + SHRL $0x08, DI + SHLL $0x05, DI + ORL DI, SI + MOVB SI, (AX) + ADDQ $0x02, AX + JMP repeat_end_emit_encodeSnappyBlockAsm8B + +emit_copy_three_repeat_as_copy_encodeSnappyBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(SI*4), SI + MOVB SI, (AX) + MOVW DI, 1(AX) + ADDQ $0x03, AX + +repeat_end_emit_encodeSnappyBlockAsm8B: + MOVL CX, 12(SP) + JMP search_loop_encodeSnappyBlockAsm8B + +no_repeat_found_encodeSnappyBlockAsm8B: + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBlockAsm8B + SHRQ $0x08, DI + MOVL 24(SP)(R10*4), SI + LEAL 2(CX), R9 + CMPL (DX)(R8*1), DI + JEQ candidate2_match_encodeSnappyBlockAsm8B + MOVL R9, 24(SP)(R10*4) + SHRQ $0x08, DI + CMPL (DX)(SI*1), DI + JEQ candidate3_match_encodeSnappyBlockAsm8B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBlockAsm8B + +candidate3_match_encodeSnappyBlockAsm8B: + ADDL $0x02, CX + JMP candidate_match_encodeSnappyBlockAsm8B + +candidate2_match_encodeSnappyBlockAsm8B: + MOVL R9, 24(SP)(R10*4) + INCL CX + MOVL R8, SI + +candidate_match_encodeSnappyBlockAsm8B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBlockAsm8B + +match_extend_back_loop_encodeSnappyBlockAsm8B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBlockAsm8B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBlockAsm8B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBlockAsm8B + JMP match_extend_back_loop_encodeSnappyBlockAsm8B + +match_extend_back_end_encodeSnappyBlockAsm8B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBlockAsm8B: + MOVL CX, DI + MOVL 12(SP), R8 + CMPL R8, DI + JEQ emit_literal_done_match_emit_encodeSnappyBlockAsm8B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(R8*1), DI + SUBL R8, R9 + LEAL -1(R9), R8 + CMPL R8, $0x3c + JLT one_byte_match_emit_encodeSnappyBlockAsm8B + CMPL R8, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBlockAsm8B + MOVB $0xf4, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBlockAsm8B + +two_bytes_match_emit_encodeSnappyBlockAsm8B: + MOVB $0xf0, (AX) + MOVB R8, 1(AX) + ADDQ $0x02, AX + CMPL R8, $0x40 + JL memmove_match_emit_encodeSnappyBlockAsm8B + JMP memmove_long_match_emit_encodeSnappyBlockAsm8B + +one_byte_match_emit_encodeSnappyBlockAsm8B: + SHLB $0x02, R8 + MOVB R8, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBlockAsm8B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_8: + MOVQ (DI), R10 + MOVQ R10, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_8through16: + MOVQ (DI), R10 + MOVQ -8(DI)(R9*1), DI + MOVQ R10, (AX) + MOVQ DI, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_17through32: + MOVOU (DI), X0 + MOVOU -16(DI)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBlockAsm8B_memmove_move_33through64: + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBlockAsm8B: + MOVQ R8, AX + JMP emit_literal_done_match_emit_encodeSnappyBlockAsm8B + +memmove_long_match_emit_encodeSnappyBlockAsm8B: + LEAQ (AX)(R9*1), R8 + + // genMemMoveLong + MOVOU (DI), X0 + MOVOU 16(DI), X1 + MOVOU -32(DI)(R9*1), X2 + MOVOU -16(DI)(R9*1), X3 + MOVQ R9, R11 + SHRQ $0x05, R11 + MOVQ AX, R10 + ANDL $0x0000001f, R10 + MOVQ $0x00000040, R12 + SUBQ R10, R12 + DECQ R11 + JA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(DI)(R12*1), R10 + LEAQ -32(AX)(R12*1), R13 + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm8Blarge_big_loop_back: + MOVOU (R10), X4 + MOVOU 16(R10), X5 + MOVOA X4, (R13) + MOVOA X5, 16(R13) + ADDQ $0x20, R13 + ADDQ $0x20, R10 + ADDQ $0x20, R12 + DECQ R11 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(DI)(R12*1), X4 + MOVOU -16(DI)(R12*1), X5 + MOVOA X4, -32(AX)(R12*1) + MOVOA X5, -16(AX)(R12*1) + ADDQ $0x20, R12 + CMPQ R9, R12 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ R8, AX + +emit_literal_done_match_emit_encodeSnappyBlockAsm8B: +match_nolit_loop_encodeSnappyBlockAsm8B: + MOVL CX, DI + SUBL SI, DI + MOVL DI, 16(SP) + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), DI + SUBL CX, DI + LEAQ (DX)(CX*1), R8 + LEAQ (DX)(SI*1), SI + + // matchLen + XORL R10, R10 + CMPL DI, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBlockAsm8B + +matchlen_loopback_match_nolit_encodeSnappyBlockAsm8B: + MOVQ (R8)(R10*1), R9 + XORQ (SI)(R10*1), R9 + TESTQ R9, R9 + JZ matchlen_loop_match_nolit_encodeSnappyBlockAsm8B + BSFQ R9, R9 + SARQ $0x03, R9 + LEAL (R10)(R9*1), R10 + JMP match_nolit_end_encodeSnappyBlockAsm8B + +matchlen_loop_match_nolit_encodeSnappyBlockAsm8B: + LEAL -8(DI), DI + LEAL 8(R10), R10 + CMPL DI, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBlockAsm8B + +matchlen_single_match_nolit_encodeSnappyBlockAsm8B: + TESTL DI, DI + JZ match_nolit_end_encodeSnappyBlockAsm8B + +matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm8B: + MOVB (R8)(R10*1), R9 + CMPB (SI)(R10*1), R9 + JNE match_nolit_end_encodeSnappyBlockAsm8B + LEAL 1(R10), R10 + DECL DI + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBlockAsm8B + +match_nolit_end_encodeSnappyBlockAsm8B: + ADDL R10, CX + MOVL 16(SP), SI + ADDL $0x04, R10 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBlockAsm8B: + CMPL R10, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBlockAsm8B + MOVB $0xee, (AX) + MOVW SI, 1(AX) + LEAL -60(R10), R10 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBlockAsm8B + +two_byte_offset_short_match_nolit_encodeSnappyBlockAsm8B: + CMPL R10, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(R10*4), R10 + MOVB SI, 1(AX) + SHRL $0x08, SI + SHLL $0x05, SI + ORL SI, R10 + MOVB R10, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBlockAsm8B + +emit_copy_three_match_nolit_encodeSnappyBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(R10*4), R10 + MOVB R10, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBlockAsm8B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBlockAsm8B + MOVQ -2(DX)(CX*1), DI + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBlockAsm8B: + MOVQ $0x9e3779b1, R9 + MOVQ DI, R8 + SHRQ $0x10, DI + MOVQ DI, SI + SHLQ $0x20, R8 + IMULQ R9, R8 + SHRQ $0x38, R8 + SHLQ $0x20, SI + IMULQ R9, SI + SHRQ $0x38, SI + LEAL -2(CX), R9 + LEAQ 24(SP)(SI*4), R10 + MOVL (R10), SI + MOVL R9, 24(SP)(R8*4) + MOVL CX, (R10) + CMPL (DX)(SI*1), DI + JEQ match_nolit_loop_encodeSnappyBlockAsm8B + INCL CX + JMP search_loop_encodeSnappyBlockAsm8B + +emit_remainder_encodeSnappyBlockAsm8B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBlockAsm8B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBlockAsm8B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBlockAsm8B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBlockAsm8B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm8B + +two_bytes_emit_remainder_encodeSnappyBlockAsm8B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBlockAsm8B + JMP memmove_long_emit_remainder_encodeSnappyBlockAsm8B + +one_byte_emit_remainder_encodeSnappyBlockAsm8B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBlockAsm8B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBlockAsm8B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBlockAsm8B + +memmove_long_emit_remainder_encodeSnappyBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm8Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBlockAsm8B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBetterBlockAsm(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBetterBlockAsm(SB), $327704-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000a00, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBetterBlockAsm: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBetterBlockAsm + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBetterBlockAsm: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x07, SI + CMPL SI, $0x63 + JLE check_maxskip_ok_encodeSnappyBetterBlockAsm + LEAL 100(CX), SI + JMP check_maxskip_cont_encodeSnappyBetterBlockAsm + +check_maxskip_ok_encodeSnappyBetterBlockAsm: + LEAL 1(CX)(SI*1), SI + +check_maxskip_cont_encodeSnappyBetterBlockAsm: + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x00cf1bbcdcbfa563, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 262168(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 262168(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeSnappyBetterBlockAsm + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBetterBlockAsm + +candidateS_match_encodeSnappyBetterBlockAsm: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm + DECL CX + MOVL R8, SI + +candidate_match_encodeSnappyBetterBlockAsm: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm + +match_extend_back_loop_encodeSnappyBetterBlockAsm: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBetterBlockAsm + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBetterBlockAsm + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm + JMP match_extend_back_loop_encodeSnappyBetterBlockAsm + +match_extend_back_end_encodeSnappyBetterBlockAsm: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 5(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBetterBlockAsm: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBetterBlockAsm + +matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeSnappyBetterBlockAsm + +matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm + +matchlen_single_match_nolit_encodeSnappyBetterBlockAsm: + TESTL R8, R8 + JZ match_nolit_end_encodeSnappyBetterBlockAsm + +matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeSnappyBetterBlockAsm + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm + +match_nolit_end_encodeSnappyBetterBlockAsm: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + CMPL R12, $0x01 + JG match_length_ok_encodeSnappyBetterBlockAsm + CMPL R8, $0x0000ffff + JLE match_length_ok_encodeSnappyBetterBlockAsm + MOVL 20(SP), CX + INCL CX + JMP search_loop_encodeSnappyBetterBlockAsm + +match_length_ok_encodeSnappyBetterBlockAsm: + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeSnappyBetterBlockAsm + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeSnappyBetterBlockAsm + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBetterBlockAsm + CMPL SI, $0x00010000 + JLT three_bytes_match_emit_encodeSnappyBetterBlockAsm + CMPL SI, $0x01000000 + JLT four_bytes_match_emit_encodeSnappyBetterBlockAsm + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm + +four_bytes_match_emit_encodeSnappyBetterBlockAsm: + MOVL SI, R11 + SHRL $0x10, R11 + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB R11, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm + +three_bytes_match_emit_encodeSnappyBetterBlockAsm: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm + +two_bytes_match_emit_encodeSnappyBetterBlockAsm: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeSnappyBetterBlockAsm + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm + +one_byte_match_emit_encodeSnappyBetterBlockAsm: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeSnappyBetterBlockAsm + +memmove_long_match_emit_encodeSnappyBetterBlockAsm: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsmlarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeSnappyBetterBlockAsm: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy + CMPL R8, $0x00010000 + JL two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm + +four_bytes_loop_back_match_nolit_encodeSnappyBetterBlockAsm: + CMPL R12, $0x40 + JLE four_bytes_remain_match_nolit_encodeSnappyBetterBlockAsm + MOVB $0xff, (AX) + MOVL R8, 1(AX) + LEAL -64(R12), R12 + ADDQ $0x05, AX + CMPL R12, $0x04 + JL four_bytes_remain_match_nolit_encodeSnappyBetterBlockAsm + JMP four_bytes_loop_back_match_nolit_encodeSnappyBetterBlockAsm + +four_bytes_remain_match_nolit_encodeSnappyBetterBlockAsm: + TESTL R12, R12 + JZ match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm + MOVB $0x03, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVL R8, 1(AX) + ADDQ $0x05, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm + +two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm + +two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm + +emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBetterBlockAsm: + MOVQ $0x00cf1bbcdcbfa563, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x32, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 262168(SP)(R11*4) + MOVL R15, 262168(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 262168(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeSnappyBetterBlockAsm + +emit_remainder_encodeSnappyBetterBlockAsm: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 5(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBetterBlockAsm + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBetterBlockAsm: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBetterBlockAsm + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBetterBlockAsm + CMPL DX, $0x00010000 + JLT three_bytes_emit_remainder_encodeSnappyBetterBlockAsm + CMPL DX, $0x01000000 + JLT four_bytes_emit_remainder_encodeSnappyBetterBlockAsm + MOVB $0xfc, (AX) + MOVL DX, 1(AX) + ADDQ $0x05, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm + +four_bytes_emit_remainder_encodeSnappyBetterBlockAsm: + MOVL DX, BX + SHRL $0x10, BX + MOVB $0xf8, (AX) + MOVW DX, 1(AX) + MOVB BL, 3(AX) + ADDQ $0x04, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm + +three_bytes_emit_remainder_encodeSnappyBetterBlockAsm: + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm + +two_bytes_emit_remainder_encodeSnappyBetterBlockAsm: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBetterBlockAsm + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm + +one_byte_emit_remainder_encodeSnappyBetterBlockAsm: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBetterBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm + +memmove_long_emit_remainder_encodeSnappyBetterBlockAsm: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsmlarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsmlarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsmlarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBetterBlockAsm64K(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBetterBlockAsm64K(SB), $327704-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000a00, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBetterBlockAsm64K: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBetterBlockAsm64K + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBetterBlockAsm64K: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x07, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm64K + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x00cf1bbcdcbfa563, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x32, R11 + MOVL 24(SP)(R10*4), SI + MOVL 262168(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 262168(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm64K + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeSnappyBetterBlockAsm64K + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBetterBlockAsm64K + +candidateS_match_encodeSnappyBetterBlockAsm64K: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x08, R10 + IMULQ R9, R10 + SHRQ $0x30, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm64K + DECL CX + MOVL R8, SI + +candidate_match_encodeSnappyBetterBlockAsm64K: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm64K + +match_extend_back_loop_encodeSnappyBetterBlockAsm64K: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBetterBlockAsm64K + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBetterBlockAsm64K + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm64K + JMP match_extend_back_loop_encodeSnappyBetterBlockAsm64K + +match_extend_back_end_encodeSnappyBetterBlockAsm64K: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBetterBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBetterBlockAsm64K: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBetterBlockAsm64K + +matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm64K: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm64K + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeSnappyBetterBlockAsm64K + +matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm64K: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm64K + +matchlen_single_match_nolit_encodeSnappyBetterBlockAsm64K: + TESTL R8, R8 + JZ match_nolit_end_encodeSnappyBetterBlockAsm64K + +matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm64K: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeSnappyBetterBlockAsm64K + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm64K + +match_nolit_end_encodeSnappyBetterBlockAsm64K: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeSnappyBetterBlockAsm64K + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeSnappyBetterBlockAsm64K + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBetterBlockAsm64K + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm64K + +two_bytes_match_emit_encodeSnappyBetterBlockAsm64K: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeSnappyBetterBlockAsm64K + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm64K + +one_byte_match_emit_encodeSnappyBetterBlockAsm64K: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBetterBlockAsm64K: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm64K_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm64K: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeSnappyBetterBlockAsm64K + +memmove_long_match_emit_encodeSnappyBetterBlockAsm64K: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm64Klarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm64Klarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeSnappyBetterBlockAsm64K: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm64K: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm64K + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm64K + +two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm64K: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm64K + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm64K + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm64K + +emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm64K: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm64K: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm64K + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBetterBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBetterBlockAsm64K: + MOVQ $0x00cf1bbcdcbfa563, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x32, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 262168(SP)(R11*4) + MOVL R15, 262168(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x08, R10 + IMULQ SI, R10 + SHRQ $0x30, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x32, R11 + SHLQ $0x08, R13 + IMULQ SI, R13 + SHRQ $0x30, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 262168(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeSnappyBetterBlockAsm64K + +emit_remainder_encodeSnappyBetterBlockAsm64K: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBetterBlockAsm64K + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBetterBlockAsm64K: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm64K + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBetterBlockAsm64K + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBetterBlockAsm64K + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64K + +two_bytes_emit_remainder_encodeSnappyBetterBlockAsm64K: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBetterBlockAsm64K + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64K + +one_byte_emit_remainder_encodeSnappyBetterBlockAsm64K: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBetterBlockAsm64K: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm64K + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm64K_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm64K: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm64K + +memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64K: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64Klarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64Klarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm64Klarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm64K: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBetterBlockAsm12B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBetterBlockAsm12B(SB), $81944-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000280, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBetterBlockAsm12B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBetterBlockAsm12B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBetterBlockAsm12B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x06, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm12B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x34, R11 + MOVL 24(SP)(R10*4), SI + MOVL 65560(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 65560(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm12B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeSnappyBetterBlockAsm12B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBetterBlockAsm12B + +candidateS_match_encodeSnappyBetterBlockAsm12B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x32, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm12B + DECL CX + MOVL R8, SI + +candidate_match_encodeSnappyBetterBlockAsm12B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm12B + +match_extend_back_loop_encodeSnappyBetterBlockAsm12B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBetterBlockAsm12B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBetterBlockAsm12B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm12B + JMP match_extend_back_loop_encodeSnappyBetterBlockAsm12B + +match_extend_back_end_encodeSnappyBetterBlockAsm12B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBetterBlockAsm12B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBetterBlockAsm12B + +matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm12B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm12B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeSnappyBetterBlockAsm12B + +matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm12B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm12B + +matchlen_single_match_nolit_encodeSnappyBetterBlockAsm12B: + TESTL R8, R8 + JZ match_nolit_end_encodeSnappyBetterBlockAsm12B + +matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm12B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeSnappyBetterBlockAsm12B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm12B + +match_nolit_end_encodeSnappyBetterBlockAsm12B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeSnappyBetterBlockAsm12B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeSnappyBetterBlockAsm12B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBetterBlockAsm12B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm12B + +two_bytes_match_emit_encodeSnappyBetterBlockAsm12B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeSnappyBetterBlockAsm12B + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm12B + +one_byte_match_emit_encodeSnappyBetterBlockAsm12B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm12B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm12B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeSnappyBetterBlockAsm12B + +memmove_long_match_emit_encodeSnappyBetterBlockAsm12B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm12Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeSnappyBetterBlockAsm12B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm12B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm12B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm12B + +two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm12B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm12B + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm12B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm12B + +emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm12B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm12B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm12B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBetterBlockAsm12B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x32, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x32, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x34, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x34, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 65560(SP)(R11*4) + MOVL R15, 65560(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x32, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x34, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x32, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 65560(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeSnappyBetterBlockAsm12B + +emit_remainder_encodeSnappyBetterBlockAsm12B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBetterBlockAsm12B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBetterBlockAsm12B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm12B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBetterBlockAsm12B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBetterBlockAsm12B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12B + +two_bytes_emit_remainder_encodeSnappyBetterBlockAsm12B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBetterBlockAsm12B + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12B + +one_byte_emit_remainder_encodeSnappyBetterBlockAsm12B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBetterBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm12B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm12B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm12B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm12B + +memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm12Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm12B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBetterBlockAsm10B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBetterBlockAsm10B(SB), $20504-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x000000a0, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBetterBlockAsm10B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBetterBlockAsm10B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBetterBlockAsm10B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x05, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm10B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x36, R11 + MOVL 24(SP)(R10*4), SI + MOVL 16408(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 16408(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm10B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeSnappyBetterBlockAsm10B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBetterBlockAsm10B + +candidateS_match_encodeSnappyBetterBlockAsm10B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x34, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm10B + DECL CX + MOVL R8, SI + +candidate_match_encodeSnappyBetterBlockAsm10B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm10B + +match_extend_back_loop_encodeSnappyBetterBlockAsm10B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBetterBlockAsm10B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBetterBlockAsm10B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm10B + JMP match_extend_back_loop_encodeSnappyBetterBlockAsm10B + +match_extend_back_end_encodeSnappyBetterBlockAsm10B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBetterBlockAsm10B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBetterBlockAsm10B + +matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm10B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm10B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeSnappyBetterBlockAsm10B + +matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm10B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm10B + +matchlen_single_match_nolit_encodeSnappyBetterBlockAsm10B: + TESTL R8, R8 + JZ match_nolit_end_encodeSnappyBetterBlockAsm10B + +matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm10B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeSnappyBetterBlockAsm10B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm10B + +match_nolit_end_encodeSnappyBetterBlockAsm10B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeSnappyBetterBlockAsm10B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeSnappyBetterBlockAsm10B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBetterBlockAsm10B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm10B + +two_bytes_match_emit_encodeSnappyBetterBlockAsm10B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeSnappyBetterBlockAsm10B + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm10B + +one_byte_match_emit_encodeSnappyBetterBlockAsm10B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm10B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm10B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeSnappyBetterBlockAsm10B + +memmove_long_match_emit_encodeSnappyBetterBlockAsm10B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm10Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeSnappyBetterBlockAsm10B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm10B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm10B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm10B + +two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm10B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm10B + CMPL R8, $0x00000800 + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm10B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm10B + +emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm10B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm10B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm10B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBetterBlockAsm10B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x34, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x34, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x36, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x36, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 16408(SP)(R11*4) + MOVL R15, 16408(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x34, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x36, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x34, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 16408(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeSnappyBetterBlockAsm10B + +emit_remainder_encodeSnappyBetterBlockAsm10B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBetterBlockAsm10B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBetterBlockAsm10B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm10B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBetterBlockAsm10B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBetterBlockAsm10B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10B + +two_bytes_emit_remainder_encodeSnappyBetterBlockAsm10B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBetterBlockAsm10B + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10B + +one_byte_emit_remainder_encodeSnappyBetterBlockAsm10B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBetterBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm10B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm10B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm10B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm10B + +memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm10Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm10B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func encodeSnappyBetterBlockAsm8B(dst []byte, src []byte) int +// Requires: SSE2 +TEXT ·encodeSnappyBetterBlockAsm8B(SB), $5144-56 + MOVQ dst_base+0(FP), AX + MOVQ $0x00000028, CX + LEAQ 24(SP), DX + PXOR X0, X0 + +zero_loop_encodeSnappyBetterBlockAsm8B: + MOVOU X0, (DX) + MOVOU X0, 16(DX) + MOVOU X0, 32(DX) + MOVOU X0, 48(DX) + MOVOU X0, 64(DX) + MOVOU X0, 80(DX) + MOVOU X0, 96(DX) + MOVOU X0, 112(DX) + ADDQ $0x80, DX + DECQ CX + JNZ zero_loop_encodeSnappyBetterBlockAsm8B + MOVL $0x00000000, 12(SP) + MOVQ src_len+32(FP), CX + LEAQ -9(CX), DX + LEAQ -8(CX), SI + MOVL SI, 8(SP) + SHRQ $0x05, CX + SUBL CX, DX + LEAQ (AX)(DX*1), DX + MOVQ DX, (SP) + MOVL $0x00000001, CX + MOVL $0x00000000, 16(SP) + MOVQ src_base+24(FP), DX + +search_loop_encodeSnappyBetterBlockAsm8B: + MOVL CX, SI + SUBL 12(SP), SI + SHRL $0x04, SI + LEAL 1(CX)(SI*1), SI + CMPL SI, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm8B + MOVQ (DX)(CX*1), DI + MOVL SI, 20(SP) + MOVQ $0x0000cf1bbcdcbf9b, R9 + MOVQ $0x9e3779b1, SI + MOVQ DI, R10 + MOVQ DI, R11 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ SI, R11 + SHRQ $0x38, R11 + MOVL 24(SP)(R10*4), SI + MOVL 4120(SP)(R11*4), R8 + MOVL CX, 24(SP)(R10*4) + MOVL CX, 4120(SP)(R11*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm8B + CMPL (DX)(R8*1), DI + JEQ candidateS_match_encodeSnappyBetterBlockAsm8B + MOVL 20(SP), CX + JMP search_loop_encodeSnappyBetterBlockAsm8B + +candidateS_match_encodeSnappyBetterBlockAsm8B: + SHRQ $0x08, DI + MOVQ DI, R10 + SHLQ $0x10, R10 + IMULQ R9, R10 + SHRQ $0x36, R10 + MOVL 24(SP)(R10*4), SI + INCL CX + MOVL CX, 24(SP)(R10*4) + CMPL (DX)(SI*1), DI + JEQ candidate_match_encodeSnappyBetterBlockAsm8B + DECL CX + MOVL R8, SI + +candidate_match_encodeSnappyBetterBlockAsm8B: + MOVL 12(SP), DI + TESTL SI, SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm8B + +match_extend_back_loop_encodeSnappyBetterBlockAsm8B: + CMPL CX, DI + JLE match_extend_back_end_encodeSnappyBetterBlockAsm8B + MOVB -1(DX)(SI*1), BL + MOVB -1(DX)(CX*1), R8 + CMPB BL, R8 + JNE match_extend_back_end_encodeSnappyBetterBlockAsm8B + LEAL -1(CX), CX + DECL SI + JZ match_extend_back_end_encodeSnappyBetterBlockAsm8B + JMP match_extend_back_loop_encodeSnappyBetterBlockAsm8B + +match_extend_back_end_encodeSnappyBetterBlockAsm8B: + MOVL CX, DI + SUBL 12(SP), DI + LEAQ 3(AX)(DI*1), DI + CMPQ DI, (SP) + JL match_dst_size_check_encodeSnappyBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_dst_size_check_encodeSnappyBetterBlockAsm8B: + MOVL CX, DI + ADDL $0x04, CX + ADDL $0x04, SI + MOVQ src_len+32(FP), R8 + SUBL CX, R8 + LEAQ (DX)(CX*1), R9 + LEAQ (DX)(SI*1), R10 + + // matchLen + XORL R12, R12 + CMPL R8, $0x08 + JL matchlen_single_match_nolit_encodeSnappyBetterBlockAsm8B + +matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm8B: + MOVQ (R9)(R12*1), R11 + XORQ (R10)(R12*1), R11 + TESTQ R11, R11 + JZ matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm8B + BSFQ R11, R11 + SARQ $0x03, R11 + LEAL (R12)(R11*1), R12 + JMP match_nolit_end_encodeSnappyBetterBlockAsm8B + +matchlen_loop_match_nolit_encodeSnappyBetterBlockAsm8B: + LEAL -8(R8), R8 + LEAL 8(R12), R12 + CMPL R8, $0x08 + JGE matchlen_loopback_match_nolit_encodeSnappyBetterBlockAsm8B + +matchlen_single_match_nolit_encodeSnappyBetterBlockAsm8B: + TESTL R8, R8 + JZ match_nolit_end_encodeSnappyBetterBlockAsm8B + +matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm8B: + MOVB (R9)(R12*1), R11 + CMPB (R10)(R12*1), R11 + JNE match_nolit_end_encodeSnappyBetterBlockAsm8B + LEAL 1(R12), R12 + DECL R8 + JNZ matchlen_single_loopback_match_nolit_encodeSnappyBetterBlockAsm8B + +match_nolit_end_encodeSnappyBetterBlockAsm8B: + MOVL CX, R8 + SUBL SI, R8 + + // Check if repeat + MOVL R8, 16(SP) + MOVL 12(SP), SI + CMPL SI, DI + JEQ emit_literal_done_match_emit_encodeSnappyBetterBlockAsm8B + MOVL DI, R9 + MOVL DI, 12(SP) + LEAQ (DX)(SI*1), R10 + SUBL SI, R9 + LEAL -1(R9), SI + CMPL SI, $0x3c + JLT one_byte_match_emit_encodeSnappyBetterBlockAsm8B + CMPL SI, $0x00000100 + JLT two_bytes_match_emit_encodeSnappyBetterBlockAsm8B + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm8B + +two_bytes_match_emit_encodeSnappyBetterBlockAsm8B: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_match_emit_encodeSnappyBetterBlockAsm8B + JMP memmove_long_match_emit_encodeSnappyBetterBlockAsm8B + +one_byte_match_emit_encodeSnappyBetterBlockAsm8B: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, AX + +memmove_match_emit_encodeSnappyBetterBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveShort + CMPQ R9, $0x08 + JLE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_8 + CMPQ R9, $0x10 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_8through16 + CMPQ R9, $0x20 + JBE emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_8: + MOVQ (R10), R11 + MOVQ R11, (AX) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_8through16: + MOVQ (R10), R11 + MOVQ -8(R10)(R9*1), R10 + MOVQ R11, (AX) + MOVQ R10, -8(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_17through32: + MOVOU (R10), X0 + MOVOU -16(R10)(R9*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(R9*1) + JMP memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_match_emit_encodeSnappyBetterBlockAsm8B_memmove_move_33through64: + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + +memmove_end_copy_match_emit_encodeSnappyBetterBlockAsm8B: + MOVQ SI, AX + JMP emit_literal_done_match_emit_encodeSnappyBetterBlockAsm8B + +memmove_long_match_emit_encodeSnappyBetterBlockAsm8B: + LEAQ (AX)(R9*1), SI + + // genMemMoveLong + MOVOU (R10), X0 + MOVOU 16(R10), X1 + MOVOU -32(R10)(R9*1), X2 + MOVOU -16(R10)(R9*1), X3 + MOVQ R9, R13 + SHRQ $0x05, R13 + MOVQ AX, R11 + ANDL $0x0000001f, R11 + MOVQ $0x00000040, R14 + SUBQ R11, R14 + DECQ R13 + JA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(R10)(R14*1), R11 + LEAQ -32(AX)(R14*1), R15 + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm8Blarge_big_loop_back: + MOVOU (R11), X4 + MOVOU 16(R11), X5 + MOVOA X4, (R15) + MOVOA X5, 16(R15) + ADDQ $0x20, R15 + ADDQ $0x20, R11 + ADDQ $0x20, R14 + DECQ R13 + JNA emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(R10)(R14*1), X4 + MOVOU -16(R10)(R14*1), X5 + MOVOA X4, -32(AX)(R14*1) + MOVOA X5, -16(AX)(R14*1) + ADDQ $0x20, R14 + CMPQ R9, R14 + JAE emit_lit_memmove_long_match_emit_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(R9*1) + MOVOU X3, -16(AX)(R9*1) + MOVQ SI, AX + +emit_literal_done_match_emit_encodeSnappyBetterBlockAsm8B: + ADDL R12, CX + ADDL $0x04, R12 + MOVL CX, 12(SP) + + // emitCopy +two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm8B: + CMPL R12, $0x40 + JLE two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm8B + MOVB $0xee, (AX) + MOVW R8, 1(AX) + LEAL -60(R12), R12 + ADDQ $0x03, AX + JMP two_byte_offset_match_nolit_encodeSnappyBetterBlockAsm8B + +two_byte_offset_short_match_nolit_encodeSnappyBetterBlockAsm8B: + CMPL R12, $0x0c + JGE emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm8B + MOVB $0x01, BL + LEAL -16(BX)(R12*4), R12 + MOVB R8, 1(AX) + SHRL $0x08, R8 + SHLL $0x05, R8 + ORL R8, R12 + MOVB R12, (AX) + ADDQ $0x02, AX + JMP match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm8B + +emit_copy_three_match_nolit_encodeSnappyBetterBlockAsm8B: + MOVB $0x02, BL + LEAL -4(BX)(R12*4), R12 + MOVB R12, (AX) + MOVW R8, 1(AX) + ADDQ $0x03, AX + +match_nolit_emitcopy_end_encodeSnappyBetterBlockAsm8B: + CMPL CX, 8(SP) + JGE emit_remainder_encodeSnappyBetterBlockAsm8B + CMPQ AX, (SP) + JL match_nolit_dst_ok_encodeSnappyBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +match_nolit_dst_ok_encodeSnappyBetterBlockAsm8B: + MOVQ $0x0000cf1bbcdcbf9b, SI + MOVQ $0x9e3779b1, R8 + INCL DI + MOVQ (DX)(DI*1), R9 + MOVQ R9, R10 + MOVQ R9, R11 + MOVQ R9, R12 + SHRQ $0x08, R11 + MOVQ R11, R13 + SHRQ $0x10, R12 + LEAL 1(DI), R14 + LEAL 2(DI), R15 + MOVQ -2(DX)(CX*1), R9 + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x36, R10 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x36, R13 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x38, R11 + SHLQ $0x20, R12 + IMULQ R8, R12 + SHRQ $0x38, R12 + MOVL DI, 24(SP)(R10*4) + MOVL R14, 24(SP)(R13*4) + MOVL R14, 4120(SP)(R11*4) + MOVL R15, 4120(SP)(R12*4) + MOVQ R9, R10 + MOVQ R9, R11 + SHRQ $0x08, R11 + MOVQ R11, R13 + LEAL -2(CX), R9 + LEAL -1(CX), DI + SHLQ $0x10, R10 + IMULQ SI, R10 + SHRQ $0x36, R10 + SHLQ $0x20, R11 + IMULQ R8, R11 + SHRQ $0x38, R11 + SHLQ $0x10, R13 + IMULQ SI, R13 + SHRQ $0x36, R13 + MOVL R9, 24(SP)(R10*4) + MOVL DI, 4120(SP)(R11*4) + MOVL DI, 24(SP)(R13*4) + JMP search_loop_encodeSnappyBetterBlockAsm8B + +emit_remainder_encodeSnappyBetterBlockAsm8B: + MOVQ src_len+32(FP), CX + SUBL 12(SP), CX + LEAQ 3(AX)(CX*1), CX + CMPQ CX, (SP) + JL emit_remainder_ok_encodeSnappyBetterBlockAsm8B + MOVQ $0x00000000, ret+48(FP) + RET + +emit_remainder_ok_encodeSnappyBetterBlockAsm8B: + MOVQ src_len+32(FP), CX + MOVL 12(SP), BX + CMPL BX, CX + JEQ emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm8B + MOVL CX, SI + MOVL CX, 12(SP) + LEAQ (DX)(BX*1), CX + SUBL BX, SI + LEAL -1(SI), DX + CMPL DX, $0x3c + JLT one_byte_emit_remainder_encodeSnappyBetterBlockAsm8B + CMPL DX, $0x00000100 + JLT two_bytes_emit_remainder_encodeSnappyBetterBlockAsm8B + MOVB $0xf4, (AX) + MOVW DX, 1(AX) + ADDQ $0x03, AX + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8B + +two_bytes_emit_remainder_encodeSnappyBetterBlockAsm8B: + MOVB $0xf0, (AX) + MOVB DL, 1(AX) + ADDQ $0x02, AX + CMPL DX, $0x40 + JL memmove_emit_remainder_encodeSnappyBetterBlockAsm8B + JMP memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8B + +one_byte_emit_remainder_encodeSnappyBetterBlockAsm8B: + SHLB $0x02, DL + MOVB DL, (AX) + ADDQ $0x01, AX + +memmove_emit_remainder_encodeSnappyBetterBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveShort + CMPQ BX, $0x08 + JLE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_8 + CMPQ BX, $0x10 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_8through16 + CMPQ BX, $0x20 + JBE emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_17through32 + JMP emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_33through64 + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_8: + MOVQ (CX), SI + MOVQ SI, (AX) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(BX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(BX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(BX*1) + JMP memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm8B + +emit_lit_memmove_emit_remainder_encodeSnappyBetterBlockAsm8B_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + +memmove_end_copy_emit_remainder_encodeSnappyBetterBlockAsm8B: + MOVQ DX, AX + JMP emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm8B + +memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8B: + LEAQ (AX)(SI*1), DX + MOVL SI, BX + + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(BX*1), X2 + MOVOU -16(CX)(BX*1), X3 + MOVQ BX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8Blarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8Blarge_big_loop_back + +emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ BX, R8 + JAE emit_lit_memmove_long_emit_remainder_encodeSnappyBetterBlockAsm8Blarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(BX*1) + MOVOU X3, -16(AX)(BX*1) + MOVQ DX, AX + +emit_literal_done_emit_remainder_encodeSnappyBetterBlockAsm8B: + MOVQ dst_base+0(FP), CX + SUBQ CX, AX + MOVQ AX, ret+48(FP) + RET + +// func emitLiteral(dst []byte, lit []byte) int +// Requires: SSE2 +TEXT ·emitLiteral(SB), NOSPLIT, $0-56 + MOVQ lit_len+32(FP), DX + MOVQ dst_base+0(FP), AX + MOVQ lit_base+24(FP), CX + TESTQ DX, DX + JZ emit_literal_end_standalone_skip + MOVL DX, BX + LEAL -1(DX), SI + CMPL SI, $0x3c + JLT one_byte_standalone + CMPL SI, $0x00000100 + JLT two_bytes_standalone + CMPL SI, $0x00010000 + JLT three_bytes_standalone + CMPL SI, $0x01000000 + JLT four_bytes_standalone + MOVB $0xfc, (AX) + MOVL SI, 1(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP memmove_long_standalone + +four_bytes_standalone: + MOVL SI, DI + SHRL $0x10, DI + MOVB $0xf8, (AX) + MOVW SI, 1(AX) + MOVB DI, 3(AX) + ADDQ $0x04, BX + ADDQ $0x04, AX + JMP memmove_long_standalone + +three_bytes_standalone: + MOVB $0xf4, (AX) + MOVW SI, 1(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + JMP memmove_long_standalone + +two_bytes_standalone: + MOVB $0xf0, (AX) + MOVB SI, 1(AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + CMPL SI, $0x40 + JL memmove_standalone + JMP memmove_long_standalone + +one_byte_standalone: + SHLB $0x02, SI + MOVB SI, (AX) + ADDQ $0x01, BX + ADDQ $0x01, AX + +memmove_standalone: + // genMemMoveShort + CMPQ DX, $0x03 + JB emit_lit_memmove_standalone_memmove_move_1or2 + JE emit_lit_memmove_standalone_memmove_move_3 + CMPQ DX, $0x08 + JB emit_lit_memmove_standalone_memmove_move_4through7 + CMPQ DX, $0x10 + JBE emit_lit_memmove_standalone_memmove_move_8through16 + CMPQ DX, $0x20 + JBE emit_lit_memmove_standalone_memmove_move_17through32 + JMP emit_lit_memmove_standalone_memmove_move_33through64 + +emit_lit_memmove_standalone_memmove_move_1or2: + MOVB (CX), SI + MOVB -1(CX)(DX*1), CL + MOVB SI, (AX) + MOVB CL, -1(AX)(DX*1) + JMP emit_literal_end_standalone + +emit_lit_memmove_standalone_memmove_move_3: + MOVW (CX), SI + MOVB 2(CX), CL + MOVW SI, (AX) + MOVB CL, 2(AX) + JMP emit_literal_end_standalone + +emit_lit_memmove_standalone_memmove_move_4through7: + MOVL (CX), SI + MOVL -4(CX)(DX*1), CX + MOVL SI, (AX) + MOVL CX, -4(AX)(DX*1) + JMP emit_literal_end_standalone + +emit_lit_memmove_standalone_memmove_move_8through16: + MOVQ (CX), SI + MOVQ -8(CX)(DX*1), CX + MOVQ SI, (AX) + MOVQ CX, -8(AX)(DX*1) + JMP emit_literal_end_standalone + +emit_lit_memmove_standalone_memmove_move_17through32: + MOVOU (CX), X0 + MOVOU -16(CX)(DX*1), X1 + MOVOU X0, (AX) + MOVOU X1, -16(AX)(DX*1) + JMP emit_literal_end_standalone + +emit_lit_memmove_standalone_memmove_move_33through64: + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(DX*1), X2 + MOVOU -16(CX)(DX*1), X3 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(DX*1) + MOVOU X3, -16(AX)(DX*1) + JMP emit_literal_end_standalone + JMP emit_literal_end_standalone + +memmove_long_standalone: + // genMemMoveLong + MOVOU (CX), X0 + MOVOU 16(CX), X1 + MOVOU -32(CX)(DX*1), X2 + MOVOU -16(CX)(DX*1), X3 + MOVQ DX, DI + SHRQ $0x05, DI + MOVQ AX, SI + ANDL $0x0000001f, SI + MOVQ $0x00000040, R8 + SUBQ SI, R8 + DECQ DI + JA emit_lit_memmove_long_standalonelarge_forward_sse_loop_32 + LEAQ -32(CX)(R8*1), SI + LEAQ -32(AX)(R8*1), R9 + +emit_lit_memmove_long_standalonelarge_big_loop_back: + MOVOU (SI), X4 + MOVOU 16(SI), X5 + MOVOA X4, (R9) + MOVOA X5, 16(R9) + ADDQ $0x20, R9 + ADDQ $0x20, SI + ADDQ $0x20, R8 + DECQ DI + JNA emit_lit_memmove_long_standalonelarge_big_loop_back + +emit_lit_memmove_long_standalonelarge_forward_sse_loop_32: + MOVOU -32(CX)(R8*1), X4 + MOVOU -16(CX)(R8*1), X5 + MOVOA X4, -32(AX)(R8*1) + MOVOA X5, -16(AX)(R8*1) + ADDQ $0x20, R8 + CMPQ DX, R8 + JAE emit_lit_memmove_long_standalonelarge_forward_sse_loop_32 + MOVOU X0, (AX) + MOVOU X1, 16(AX) + MOVOU X2, -32(AX)(DX*1) + MOVOU X3, -16(AX)(DX*1) + JMP emit_literal_end_standalone + JMP emit_literal_end_standalone + +emit_literal_end_standalone_skip: + XORQ BX, BX + +emit_literal_end_standalone: + MOVQ BX, ret+48(FP) + RET + +// func emitRepeat(dst []byte, offset int, length int) int +TEXT ·emitRepeat(SB), NOSPLIT, $0-48 + XORQ BX, BX + MOVQ dst_base+0(FP), AX + MOVQ offset+24(FP), CX + MOVQ length+32(FP), DX + + // emitRepeat +emit_repeat_again_standalone: + MOVL DX, SI + LEAL -4(DX), DX + CMPL SI, $0x08 + JLE repeat_two_standalone + CMPL SI, $0x0c + JGE cant_repeat_two_offset_standalone + CMPL CX, $0x00000800 + JLT repeat_two_offset_standalone + +cant_repeat_two_offset_standalone: + CMPL DX, $0x00000104 + JLT repeat_three_standalone + CMPL DX, $0x00010100 + JLT repeat_four_standalone + CMPL DX, $0x0100ffff + JLT repeat_five_standalone + LEAL -16842747(DX), DX + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + ADDQ $0x05, BX + JMP emit_repeat_again_standalone + +repeat_five_standalone: + LEAL -65536(DX), DX + MOVL DX, CX + MOVW $0x001d, (AX) + MOVW DX, 2(AX) + SARL $0x10, CX + MOVB CL, 4(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP gen_emit_repeat_end + +repeat_four_standalone: + LEAL -256(DX), DX + MOVW $0x0019, (AX) + MOVW DX, 2(AX) + ADDQ $0x04, BX + ADDQ $0x04, AX + JMP gen_emit_repeat_end + +repeat_three_standalone: + LEAL -4(DX), DX + MOVW $0x0015, (AX) + MOVB DL, 2(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + JMP gen_emit_repeat_end + +repeat_two_standalone: + SHLL $0x02, DX + ORL $0x01, DX + MOVW DX, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_repeat_end + +repeat_two_offset_standalone: + XORQ SI, SI + LEAL 1(SI)(DX*4), DX + MOVB CL, 1(AX) + SARL $0x08, CX + SHLL $0x05, CX + ORL CX, DX + MOVB DL, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + +gen_emit_repeat_end: + MOVQ BX, ret+40(FP) + RET + +// func emitCopy(dst []byte, offset int, length int) int +TEXT ·emitCopy(SB), NOSPLIT, $0-48 + XORQ BX, BX + MOVQ dst_base+0(FP), AX + MOVQ offset+24(FP), CX + MOVQ length+32(FP), DX + + // emitCopy + CMPL CX, $0x00010000 + JL two_byte_offset_standalone + +four_bytes_loop_back_standalone: + CMPL DX, $0x40 + JLE four_bytes_remain_standalone + MOVB $0xff, (AX) + MOVL CX, 1(AX) + LEAL -64(DX), DX + ADDQ $0x05, BX + ADDQ $0x05, AX + CMPL DX, $0x04 + JL four_bytes_remain_standalone + + // emitRepeat +emit_repeat_again_standalone_emit_copy: + MOVL DX, SI + LEAL -4(DX), DX + CMPL SI, $0x08 + JLE repeat_two_standalone_emit_copy + CMPL SI, $0x0c + JGE cant_repeat_two_offset_standalone_emit_copy + CMPL CX, $0x00000800 + JLT repeat_two_offset_standalone_emit_copy + +cant_repeat_two_offset_standalone_emit_copy: + CMPL DX, $0x00000104 + JLT repeat_three_standalone_emit_copy + CMPL DX, $0x00010100 + JLT repeat_four_standalone_emit_copy + CMPL DX, $0x0100ffff + JLT repeat_five_standalone_emit_copy + LEAL -16842747(DX), DX + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + ADDQ $0x05, BX + JMP emit_repeat_again_standalone_emit_copy + +repeat_five_standalone_emit_copy: + LEAL -65536(DX), DX + MOVL DX, CX + MOVW $0x001d, (AX) + MOVW DX, 2(AX) + SARL $0x10, CX + MOVB CL, 4(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP gen_emit_copy_end + +repeat_four_standalone_emit_copy: + LEAL -256(DX), DX + MOVW $0x0019, (AX) + MOVW DX, 2(AX) + ADDQ $0x04, BX + ADDQ $0x04, AX + JMP gen_emit_copy_end + +repeat_three_standalone_emit_copy: + LEAL -4(DX), DX + MOVW $0x0015, (AX) + MOVB DL, 2(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + JMP gen_emit_copy_end + +repeat_two_standalone_emit_copy: + SHLL $0x02, DX + ORL $0x01, DX + MOVW DX, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end + +repeat_two_offset_standalone_emit_copy: + XORQ SI, SI + LEAL 1(SI)(DX*4), DX + MOVB CL, 1(AX) + SARL $0x08, CX + SHLL $0x05, CX + ORL CX, DX + MOVB DL, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end + JMP four_bytes_loop_back_standalone + +four_bytes_remain_standalone: + TESTL DX, DX + JZ gen_emit_copy_end + MOVB $0x03, SI + LEAL -4(SI)(DX*4), DX + MOVB DL, (AX) + MOVL CX, 1(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP gen_emit_copy_end + +two_byte_offset_standalone: + CMPL DX, $0x40 + JLE two_byte_offset_short_standalone + MOVB $0xee, (AX) + MOVW CX, 1(AX) + LEAL -60(DX), DX + ADDQ $0x03, AX + ADDQ $0x03, BX + + // emitRepeat +emit_repeat_again_standalone_emit_copy_short: + MOVL DX, SI + LEAL -4(DX), DX + CMPL SI, $0x08 + JLE repeat_two_standalone_emit_copy_short + CMPL SI, $0x0c + JGE cant_repeat_two_offset_standalone_emit_copy_short + CMPL CX, $0x00000800 + JLT repeat_two_offset_standalone_emit_copy_short + +cant_repeat_two_offset_standalone_emit_copy_short: + CMPL DX, $0x00000104 + JLT repeat_three_standalone_emit_copy_short + CMPL DX, $0x00010100 + JLT repeat_four_standalone_emit_copy_short + CMPL DX, $0x0100ffff + JLT repeat_five_standalone_emit_copy_short + LEAL -16842747(DX), DX + MOVW $0x001d, (AX) + MOVW $0xfffb, 2(AX) + MOVB $0xff, 4(AX) + ADDQ $0x05, AX + ADDQ $0x05, BX + JMP emit_repeat_again_standalone_emit_copy_short + +repeat_five_standalone_emit_copy_short: + LEAL -65536(DX), DX + MOVL DX, CX + MOVW $0x001d, (AX) + MOVW DX, 2(AX) + SARL $0x10, CX + MOVB CL, 4(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP gen_emit_copy_end + +repeat_four_standalone_emit_copy_short: + LEAL -256(DX), DX + MOVW $0x0019, (AX) + MOVW DX, 2(AX) + ADDQ $0x04, BX + ADDQ $0x04, AX + JMP gen_emit_copy_end + +repeat_three_standalone_emit_copy_short: + LEAL -4(DX), DX + MOVW $0x0015, (AX) + MOVB DL, 2(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + JMP gen_emit_copy_end + +repeat_two_standalone_emit_copy_short: + SHLL $0x02, DX + ORL $0x01, DX + MOVW DX, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end + +repeat_two_offset_standalone_emit_copy_short: + XORQ SI, SI + LEAL 1(SI)(DX*4), DX + MOVB CL, 1(AX) + SARL $0x08, CX + SHLL $0x05, CX + ORL CX, DX + MOVB DL, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end + JMP two_byte_offset_standalone + +two_byte_offset_short_standalone: + CMPL DX, $0x0c + JGE emit_copy_three_standalone + CMPL CX, $0x00000800 + JGE emit_copy_three_standalone + MOVB $0x01, SI + LEAL -16(SI)(DX*4), DX + MOVB CL, 1(AX) + SHRL $0x08, CX + SHLL $0x05, CX + ORL CX, DX + MOVB DL, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end + +emit_copy_three_standalone: + MOVB $0x02, SI + LEAL -4(SI)(DX*4), DX + MOVB DL, (AX) + MOVW CX, 1(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + +gen_emit_copy_end: + MOVQ BX, ret+40(FP) + RET + +// func emitCopyNoRepeat(dst []byte, offset int, length int) int +TEXT ·emitCopyNoRepeat(SB), NOSPLIT, $0-48 + XORQ BX, BX + MOVQ dst_base+0(FP), AX + MOVQ offset+24(FP), CX + MOVQ length+32(FP), DX + + // emitCopy + CMPL CX, $0x00010000 + JL two_byte_offset_standalone_snappy + +four_bytes_loop_back_standalone_snappy: + CMPL DX, $0x40 + JLE four_bytes_remain_standalone_snappy + MOVB $0xff, (AX) + MOVL CX, 1(AX) + LEAL -64(DX), DX + ADDQ $0x05, BX + ADDQ $0x05, AX + CMPL DX, $0x04 + JL four_bytes_remain_standalone_snappy + JMP four_bytes_loop_back_standalone_snappy + +four_bytes_remain_standalone_snappy: + TESTL DX, DX + JZ gen_emit_copy_end_snappy + MOVB $0x03, SI + LEAL -4(SI)(DX*4), DX + MOVB DL, (AX) + MOVL CX, 1(AX) + ADDQ $0x05, BX + ADDQ $0x05, AX + JMP gen_emit_copy_end_snappy + +two_byte_offset_standalone_snappy: + CMPL DX, $0x40 + JLE two_byte_offset_short_standalone_snappy + MOVB $0xee, (AX) + MOVW CX, 1(AX) + LEAL -60(DX), DX + ADDQ $0x03, AX + ADDQ $0x03, BX + JMP two_byte_offset_standalone_snappy + +two_byte_offset_short_standalone_snappy: + CMPL DX, $0x0c + JGE emit_copy_three_standalone_snappy + CMPL CX, $0x00000800 + JGE emit_copy_three_standalone_snappy + MOVB $0x01, SI + LEAL -16(SI)(DX*4), DX + MOVB CL, 1(AX) + SHRL $0x08, CX + SHLL $0x05, CX + ORL CX, DX + MOVB DL, (AX) + ADDQ $0x02, BX + ADDQ $0x02, AX + JMP gen_emit_copy_end_snappy + +emit_copy_three_standalone_snappy: + MOVB $0x02, SI + LEAL -4(SI)(DX*4), DX + MOVB DL, (AX) + MOVW CX, 1(AX) + ADDQ $0x03, BX + ADDQ $0x03, AX + +gen_emit_copy_end_snappy: + MOVQ BX, ret+40(FP) + RET + +// func matchLen(a []byte, b []byte) int +TEXT ·matchLen(SB), NOSPLIT, $0-56 + MOVQ a_base+0(FP), AX + MOVQ b_base+24(FP), CX + MOVQ a_len+8(FP), DX + + // matchLen + XORL SI, SI + CMPL DX, $0x08 + JL matchlen_single_standalone + +matchlen_loopback_standalone: + MOVQ (AX)(SI*1), BX + XORQ (CX)(SI*1), BX + TESTQ BX, BX + JZ matchlen_loop_standalone + BSFQ BX, BX + SARQ $0x03, BX + LEAL (SI)(BX*1), SI + JMP gen_match_len_end + +matchlen_loop_standalone: + LEAL -8(DX), DX + LEAL 8(SI), SI + CMPL DX, $0x08 + JGE matchlen_loopback_standalone + +matchlen_single_standalone: + TESTL DX, DX + JZ gen_match_len_end + +matchlen_single_loopback_standalone: + MOVB (AX)(SI*1), BL + CMPB (CX)(SI*1), BL + JNE gen_match_len_end + LEAL 1(SI), SI + DECL DX + JNZ matchlen_single_loopback_standalone + +gen_match_len_end: + MOVQ SI, ret+48(FP) + RET diff --git a/vendor/github.com/klauspost/compress/s2/s2.go b/vendor/github.com/klauspost/compress/s2/s2.go new file mode 100644 index 00000000..89d69e96 --- /dev/null +++ b/vendor/github.com/klauspost/compress/s2/s2.go @@ -0,0 +1,139 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Copyright (c) 2019 Klaus Post. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package s2 implements the S2 compression format. +// +// S2 is an extension of Snappy. Similar to Snappy S2 is aimed for high throughput, +// which is why it features concurrent compression for bigger payloads. +// +// Decoding is compatible with Snappy compressed content, +// but content compressed with S2 cannot be decompressed by Snappy. +// +// For more information on Snappy/S2 differences see README in: https://github.com/klauspost/compress/tree/master/s2 +// +// There are actually two S2 formats: block and stream. They are related, +// but different: trying to decompress block-compressed data as a S2 stream +// will fail, and vice versa. The block format is the Decode and Encode +// functions and the stream format is the Reader and Writer types. +// +// A "better" compression option is available. This will trade some compression +// speed +// +// The block format, the more common case, is used when the complete size (the +// number of bytes) of the original data is known upfront, at the time +// compression starts. The stream format, also known as the framing format, is +// for when that isn't always true. +// +// Blocks to not offer much data protection, so it is up to you to +// add data validation of decompressed blocks. +// +// Streams perform CRC validation of the decompressed data. +// Stream compression will also be performed on multiple CPU cores concurrently +// significantly improving throughput. +package s2 + +import ( + "bytes" + "hash/crc32" +) + +/* +Each encoded block begins with the varint-encoded length of the decoded data, +followed by a sequence of chunks. Chunks begin and end on byte boundaries. The +first byte of each chunk is broken into its 2 least and 6 most significant bits +called l and m: l ranges in [0, 4) and m ranges in [0, 64). l is the chunk tag. +Zero means a literal tag. All other values mean a copy tag. + +For literal tags: + - If m < 60, the next 1 + m bytes are literal bytes. + - Otherwise, let n be the little-endian unsigned integer denoted by the next + m - 59 bytes. The next 1 + n bytes after that are literal bytes. + +For copy tags, length bytes are copied from offset bytes ago, in the style of +Lempel-Ziv compression algorithms. In particular: + - For l == 1, the offset ranges in [0, 1<<11) and the length in [4, 12). + The length is 4 + the low 3 bits of m. The high 3 bits of m form bits 8-10 + of the offset. The next byte is bits 0-7 of the offset. + - For l == 2, the offset ranges in [0, 1<<16) and the length in [1, 65). + The length is 1 + m. The offset is the little-endian unsigned integer + denoted by the next 2 bytes. + - For l == 3, the offset ranges in [0, 1<<32) and the length in + [1, 65). The length is 1 + m. The offset is the little-endian unsigned + integer denoted by the next 4 bytes. +*/ +const ( + tagLiteral = 0x00 + tagCopy1 = 0x01 + tagCopy2 = 0x02 + tagCopy4 = 0x03 +) + +const ( + checksumSize = 4 + chunkHeaderSize = 4 + magicChunk = "\xff\x06\x00\x00" + magicBody + magicChunkSnappy = "\xff\x06\x00\x00" + magicBodySnappy + magicBodySnappy = "sNaPpY" + magicBody = "S2sTwO" + + // maxBlockSize is the maximum size of the input to encodeBlock. + // + // For the framing format (Writer type instead of Encode function), + // this is the maximum uncompressed size of a block. + maxBlockSize = 4 << 20 + + // minBlockSize is the minimum size of block setting when creating a writer. + minBlockSize = 4 << 10 + + // Default block size + defaultBlockSize = 1 << 20 + + // maxSnappyBlockSize is the maximum snappy block size. + maxSnappyBlockSize = 1 << 16 + + obufHeaderLen = checksumSize + chunkHeaderSize +) + +const ( + chunkTypeCompressedData = 0x00 + chunkTypeUncompressedData = 0x01 + chunkTypePadding = 0xfe + chunkTypeStreamIdentifier = 0xff +) + +var crcTable = crc32.MakeTable(crc32.Castagnoli) + +// crc implements the checksum specified in section 3 of +// https://github.com/google/snappy/blob/master/framing_format.txt +func crc(b []byte) uint32 { + c := crc32.Update(0, crcTable, b) + return c>>15 | c<<17 + 0xa282ead8 +} + +// literalExtraSize returns the extra size of encoding n literals. +// n should be >= 0 and <= math.MaxUint32. +func literalExtraSize(n int64) int64 { + if n == 0 { + return 0 + } + switch { + case n < 60: + return 1 + case n < 1<<8: + return 2 + case n < 1<<16: + return 3 + case n < 1<<24: + return 4 + default: + return 5 + } +} + +type byter interface { + Bytes() []byte +} + +var _ byter = &bytes.Buffer{} |