package ast import ( "bytes" "fmt" "io" "strings" ) // Print is for debugging. It prints a string representation of parsed // markdown doc (result of parser.Parse()) to dst. // // To make output readable, it shortens text output. func Print(dst io.Writer, doc Node) { PrintWithPrefix(dst, doc, " ") } // PrintWithPrefix is like Print but allows customizing prefix used for // indentation. By default it's 2 spaces. You can change it to e.g. tab // by passing "\t" func PrintWithPrefix(w io.Writer, doc Node, prefix string) { // for more compact output, don't print outer Document if _, ok := doc.(*Document); ok { for _, c := range doc.GetChildren() { printRecur(w, c, prefix, 0) } } else { printRecur(w, doc, prefix, 0) } } // ToString is like Dump but returns result as a string func ToString(doc Node) string { var buf bytes.Buffer Print(&buf, doc) return buf.String() } func contentToString(d1 []byte, d2 []byte) string { if d1 != nil { return string(d1) } if d2 != nil { return string(d2) } return "" } func getContent(node Node) string { if c := node.AsContainer(); c != nil { return contentToString(c.Literal, c.Content) } leaf := node.AsLeaf() return contentToString(leaf.Literal, leaf.Content) } func shortenString(s string, maxLen int) string { // for cleaner, one-line ouput, replace some white-space chars // with their escaped version s = strings.Replace(s, "\n", `\n`, -1) s = strings.Replace(s, "\r", `\r`, -1) s = strings.Replace(s, "\t", `\t`, -1) if maxLen < 0 { return s } if len(s) < maxLen { return s } // add "..." to indicate truncation return s[:maxLen-3] + "..." } // get a short name of the type of v which excludes package name // and strips "()" from the end func getNodeType(node Node) string { s := fmt.Sprintf("%T", node) s = strings.TrimSuffix(s, "()") if idx := strings.Index(s, "."); idx != -1 { return s[idx+1:] } return s } func printDefault(w io.Writer, indent string, typeName string, content string) { content = strings.TrimSpace(content) if len(content) > 0 { fmt.Fprintf(w, "%s%s '%s'\n", indent, typeName, content) } else { fmt.Fprintf(w, "%s%s\n", indent, typeName) } } func getListFlags(f ListType) string { var s string if f&ListTypeOrdered != 0 { s += "ordered " } if f&ListTypeDefinition != 0 { s += "definition " } if f&ListTypeTerm != 0 { s += "term " } if f&ListItemContainsBlock != 0 { s += "has_block " } if f&ListItemBeginningOfList != 0 { s += "start " } if f&ListItemEndOfList != 0 { s += "end " } s = strings.TrimSpace(s) return s } func printRecur(w io.Writer, node Node, prefix string, depth int) { if node == nil { return } indent := strings.Repeat(prefix, depth) content := shortenString(getContent(node), 40) typeName := getNodeType(node) switch v := node.(type) { case *Link: content := "url=" + string(v.Destination) printDefault(w, indent, typeName, content) case *Image: content := "url=" + string(v.Destination) printDefault(w, indent, typeName, content) case *List: if v.Start > 1 { content += fmt.Sprintf("start=%d ", v.Start) } if v.Tight { content += "tight " } if v.IsFootnotesList { content += "footnotes " } flags := getListFlags(v.ListFlags) if len(flags) > 0 { content += "flags=" + flags + " " } printDefault(w, indent, typeName, content) case *ListItem: if v.Tight { content += "tight " } if v.IsFootnotesList { content += "footnotes " } flags := getListFlags(v.ListFlags) if len(flags) > 0 { content += "flags=" + flags + " " } printDefault(w, indent, typeName, content) default: printDefault(w, indent, typeName, content) } for _, child := range node.GetChildren() { printRecur(w, child, prefix, depth+1) } }