// Package parser contains stuff that are related to parsing a Markdown text. package parser import ( "fmt" "strings" "sync" "github.com/yuin/goldmark/ast" "github.com/yuin/goldmark/text" "github.com/yuin/goldmark/util" ) // A Reference interface represents a link reference in Markdown text. type Reference interface { // String implements Stringer. String() string // Label returns a label of the reference. Label() []byte // Destination returns a destination(URL) of the reference. Destination() []byte // Title returns a title of the reference. Title() []byte } type reference struct { label []byte destination []byte title []byte } // NewReference returns a new Reference. func NewReference(label, destination, title []byte) Reference { return &reference{label, destination, title} } func (r *reference) Label() []byte { return r.label } func (r *reference) Destination() []byte { return r.destination } func (r *reference) Title() []byte { return r.title } func (r *reference) String() string { return fmt.Sprintf("Reference{Label:%s, Destination:%s, Title:%s}", r.label, r.destination, r.title) } // An IDs interface is a collection of the element ids. type IDs interface { // Generate generates a new element id. Generate(value []byte, kind ast.NodeKind) []byte // Put puts a given element id to the used ids table. Put(value []byte) } type ids struct { values map[string]bool } func newIDs() IDs { return &ids{ values: map[string]bool{}, } } func (s *ids) Generate(value []byte, kind ast.NodeKind) []byte { value = util.TrimLeftSpace(value) value = util.TrimRightSpace(value) result := []byte{} for i := 0; i < len(value); { v := value[i] l := util.UTF8Len(v) i += int(l) if l != 1 { continue } if util.IsAlphaNumeric(v) { if 'A' <= v && v <= 'Z' { v += 'a' - 'A' } result = append(result, v) } else if util.IsSpace(v) || v == '-' || v == '_' { result = append(result, '-') } } if len(result) == 0 { if kind == ast.KindHeading { result = []byte("heading") } else { result = []byte("id") } } if _, ok := s.values[util.BytesToReadOnlyString(result)]; !ok { s.values[util.BytesToReadOnlyString(result)] = true return result } for i := 1; ; i++ { newResult := fmt.Sprintf("%s-%d", result, i) if _, ok := s.values[newResult]; !ok { s.values[newResult] = true return []byte(newResult) } } } func (s *ids) Put(value []byte) { s.values[util.BytesToReadOnlyString(value)] = true } // ContextKey is a key that is used to set arbitrary values to the context. type ContextKey int // ContextKeyMax is a maximum value of the ContextKey. var ContextKeyMax ContextKey // NewContextKey return a new ContextKey value. func NewContextKey() ContextKey { ContextKeyMax++ return ContextKeyMax } // A Context interface holds a information that are necessary to parse // Markdown text. type Context interface { // String implements Stringer. String() string // Get returns a value associated with the given key. Get(ContextKey) interface{} // Set sets the given value to the context. Set(ContextKey, interface{}) // AddReference adds the given reference to this context. AddReference(Reference) // Reference returns (a reference, true) if a reference associated with // the given label exists, otherwise (nil, false). Reference(label string) (Reference, bool) // References returns a list of references. References() []Reference // IDs returns a collection of the element ids. IDs() IDs // BlockOffset returns a first non-space character position on current line. // This value is valid only for BlockParser.Open. // BlockOffset returns -1 if current line is blank. BlockOffset() int // BlockOffset sets a first non-space character position on current line. // This value is valid only for BlockParser.Open. SetBlockOffset(int) // BlockIndent returns an indent width on current line. // This value is valid only for BlockParser.Open. // BlockIndent returns -1 if current line is blank. BlockIndent() int // BlockIndent sets an indent width on current line. // This value is valid only for BlockParser.Open. SetBlockIndent(int) // FirstDelimiter returns a first delimiter of the current delimiter list. FirstDelimiter() *Delimiter // LastDelimiter returns a last delimiter of the current delimiter list. LastDelimiter() *Delimiter // PushDelimiter appends the given delimiter to the tail of the current // delimiter list. PushDelimiter(delimiter *Delimiter) // RemoveDelimiter removes the given delimiter from the current delimiter list. RemoveDelimiter(d *Delimiter) // ClearDelimiters clears the current delimiter list. ClearDelimiters(bottom ast.Node) // OpenedBlocks returns a list of nodes that are currently in parsing. OpenedBlocks() []Block // SetOpenedBlocks sets a list of nodes that are currently in parsing. SetOpenedBlocks([]Block) // LastOpenedBlock returns a last node that is currently in parsing. LastOpenedBlock() Block // IsInLinkLabel returns true if current position seems to be in link label. IsInLinkLabel() bool } // A ContextConfig struct is a data structure that holds configuration of the Context. type ContextConfig struct { IDs IDs } // An ContextOption is a functional option type for the Context. type ContextOption func(*ContextConfig) // WithIDs is a functional option for the Context. func WithIDs(ids IDs) ContextOption { return func(c *ContextConfig) { c.IDs = ids } } type parseContext struct { store []interface{} ids IDs refs map[string]Reference blockOffset int blockIndent int delimiters *Delimiter lastDelimiter *Delimiter openedBlocks []Block } // NewContext returns a new Context. func NewContext(options ...ContextOption) Context { cfg := &ContextConfig{ IDs: newIDs(), } for _, option := range options { option(cfg) } return &parseContext{ store: make([]interface{}, ContextKeyMax+1), refs: map[string]Reference{}, ids: cfg.IDs, blockOffset: -1, blockIndent: -1, delimiters: nil, lastDelimiter: nil, openedBlocks: []Block{}, } } func (p *parseContext) Get(key ContextKey) interface{} { return p.store[key] } func (p *parseContext) Set(key ContextKey, value interface{}) { p.store[key] = value } func (p *parseContext) IDs() IDs { return p.ids } func (p *parseContext) BlockOffset() int { return p.blockOffset } func (p *parseContext) SetBlockOffset(v int) { p.blockOffset = v } func (p *parseContext) BlockIndent() int { return p.blockIndent } func (p *parseContext) SetBlockIndent(v int) { p.blockIndent = v } func (p *parseContext) LastDelimiter() *Delimiter { return p.lastDelimiter } func (p *parseContext) FirstDelimiter() *Delimiter { return p.delimiters } func (p *parseContext) PushDelimiter(d *Delimiter) { if p.delimiters == nil { p.delimiters = d p.lastDelimiter = d } else { l := p.lastDelimiter p.lastDelimiter = d l.NextDelimiter = d d.PreviousDelimiter = l } } func (p *parseContext) RemoveDelimiter(d *Delimiter) { if d.PreviousDelimiter == nil { p.delimiters = d.NextDelimiter } else { d.PreviousDelimiter.NextDelimiter = d.NextDelimiter if d.NextDelimiter != nil { d.NextDelimiter.PreviousDelimiter = d.PreviousDelimiter } } if d.NextDelimiter == nil { p.lastDelimiter = d.PreviousDelimiter } if p.delimiters != nil { p.delimiters.PreviousDelimiter = nil } if p.lastDelimiter != nil { p.lastDelimiter.NextDelimiter = nil } d.NextDelimiter = nil d.PreviousDelimiter = nil if d.Length != 0 { ast.MergeOrReplaceTextSegment(d.Parent(), d, d.Segment) } else { d.Parent().RemoveChild(d.Parent(), d) } } func (p *parseContext) ClearDelimiters(bottom ast.Node) { if p.lastDelimiter == nil { return } var c ast.Node for c = p.lastDelimiter; c != nil && c != bottom; { prev := c.PreviousSibling() if d, ok := c.(*Delimiter); ok { p.RemoveDelimiter(d) } c = prev } } func (p *parseContext) AddReference(ref Reference) { key := util.ToLinkReference(ref.Label()) if _, ok := p.refs[key]; !ok { p.refs[key] = ref } } func (p *parseContext) Reference(label string) (Reference, bool) { v, ok := p.refs[label] return v, ok } func (p *parseContext) References() []Reference { ret := make([]Reference, 0, len(p.refs)) for _, v := range p.refs { ret = append(ret, v) } return ret } func (p *parseContext) String() string { refs := []string{} for _, r := range p.refs { refs = append(refs, r.String()) } return fmt.Sprintf("Context{Store:%#v, Refs:%s}", p.store, strings.Join(refs, ",")) } func (p *parseContext) OpenedBlocks() []Block { return p.openedBlocks } func (p *parseContext) SetOpenedBlocks(v []Block) { p.openedBlocks = v } func (p *parseContext) LastOpenedBlock() Block { if l := len(p.openedBlocks); l != 0 { return p.openedBlocks[l-1] } return Block{} } func (p *parseContext) IsInLinkLabel() bool { tlist := p.Get(linkLabelStateKey) return tlist != nil } // State represents parser's state. // State is designed to use as a bit flag. type State int const ( none State = 1 << iota // Continue indicates parser can continue parsing. Continue // Close indicates parser cannot parse anymore. Close // HasChildren indicates parser may have child blocks. HasChildren // NoChildren indicates parser does not have child blocks. NoChildren // RequireParagraph indicates parser requires that the last node // must be a paragraph and is not converted to other nodes by // ParagraphTransformers. RequireParagraph ) // A Config struct is a data structure that holds configuration of the Parser. type Config struct { Options map[OptionName]interface{} BlockParsers util.PrioritizedSlice /**/ InlineParsers util.PrioritizedSlice /**/ ParagraphTransformers util.PrioritizedSlice /**/ ASTTransformers util.PrioritizedSlice /**/ } // NewConfig returns a new Config. func NewConfig() *Config { return &Config{ Options: map[OptionName]interface{}{}, BlockParsers: util.PrioritizedSlice{}, InlineParsers: util.PrioritizedSlice{}, ParagraphTransformers: util.PrioritizedSlice{}, ASTTransformers: util.PrioritizedSlice{}, } } // An Option interface is a functional option type for the Parser. type Option interface { SetParserOption(*Config) } // OptionName is a name of parser options. type OptionName string // Attribute is an option name that spacify attributes of elements. const optAttribute OptionName = "Attribute" type withAttribute struct { } func (o *withAttribute) SetParserOption(c *Config) { c.Options[optAttribute] = true } // WithAttribute is a functional option that enables custom attributes. func WithAttribute() Option { return &withAttribute{} } // A Parser interface parses Markdown text into AST nodes. type Parser interface { // Parse parses the given Markdown text into AST nodes. Parse(reader text.Reader, opts ...ParseOption) ast.Node // AddOption adds the given option to this parser. AddOptions(...Option) } // A SetOptioner interface sets the given option to the object. type SetOptioner interface { // SetOption sets the given option to the object. // Unacceptable options may be passed. // Thus implementations must ignore unacceptable options. SetOption(name OptionName, value interface{}) } // A BlockParser interface parses a block level element like Paragraph, List, // Blockquote etc. type BlockParser interface { // Trigger returns a list of characters that triggers Parse method of // this parser. // If Trigger returns a nil, Open will be called with any lines. Trigger() []byte // Open parses the current line and returns a result of parsing. // // Open must not parse beyond the current line. // If Open has been able to parse the current line, Open must advance a reader // position by consumed byte length. // // If Open has not been able to parse the current line, Open should returns // (nil, NoChildren). If Open has been able to parse the current line, Open // should returns a new Block node and returns HasChildren or NoChildren. Open(parent ast.Node, reader text.Reader, pc Context) (ast.Node, State) // Continue parses the current line and returns a result of parsing. // // Continue must not parse beyond the current line. // If Continue has been able to parse the current line, Continue must advance // a reader position by consumed byte length. // // If Continue has not been able to parse the current line, Continue should // returns Close. If Continue has been able to parse the current line, // Continue should returns (Continue | NoChildren) or // (Continue | HasChildren) Continue(node ast.Node, reader text.Reader, pc Context) State // Close will be called when the parser returns Close. Close(node ast.Node, reader text.Reader, pc Context) // CanInterruptParagraph returns true if the parser can interrupt paragraphs, // otherwise false. CanInterruptParagraph() bool // CanAcceptIndentedLine returns true if the parser can open new node when // the given line is being indented more than 3 spaces. CanAcceptIndentedLine() bool } // An InlineParser interface parses an inline level element like CodeSpan, Link etc. type InlineParser interface { // Trigger returns a list of characters that triggers Parse method of // this parser. // Trigger characters must be a punctuation or a halfspace. // Halfspaces triggers this parser when character is any spaces characters or // a head of line Trigger() []byte // Parse parse the given block into an inline node. // // Parse can parse beyond the current line. // If Parse has been able to parse the current line, it must advance a reader // position by consumed byte length. Parse(parent ast.Node, block text.Reader, pc Context) ast.Node } // A CloseBlocker interface is a callback function that will be // called when block is closed in the inline parsing. type CloseBlocker interface { // CloseBlock will be called when a block is closed. CloseBlock(parent ast.Node, block text.Reader, pc Context) } // A ParagraphTransformer transforms parsed Paragraph nodes. // For example, link references are searched in parsed Paragraphs. type ParagraphTransformer interface { // Transform transforms the given paragraph. Transform(node *ast.Paragraph, reader text.Reader, pc Context) } // ASTTransformer transforms entire Markdown document AST tree. type ASTTransformer interface { // Transform transforms the given AST tree. Transform(node *ast.Document, reader text.Reader, pc Context) } // DefaultBlockParsers returns a new list of default BlockParsers. // Priorities of default BlockParsers are: // // SetextHeadingParser, 100 // ThematicBreakParser, 200 // ListParser, 300 // ListItemParser, 400 // CodeBlockParser, 500 // ATXHeadingParser, 600 // FencedCodeBlockParser, 700 // BlockquoteParser, 800 // HTMLBlockParser, 900 // ParagraphParser, 1000 func DefaultBlockParsers() []util.PrioritizedValue { return []util.PrioritizedValue{ util.Prioritized(NewSetextHeadingParser(), 100), util.Prioritized(NewThematicBreakParser(), 200), util.Prioritized(NewListParser(), 300), util.Prioritized(NewListItemParser(), 400), util.Prioritized(NewCodeBlockParser(), 500), util.Prioritized(NewATXHeadingParser(), 600), util.Prioritized(NewFencedCodeBlockParser(), 700), util.Prioritized(NewBlockquoteParser(), 800), util.Prioritized(NewHTMLBlockParser(), 900), util.Prioritized(NewParagraphParser(), 1000), } } // DefaultInlineParsers returns a new list of default InlineParsers. // Priorities of default InlineParsers are: // // CodeSpanParser, 100 // LinkParser, 200 // AutoLinkParser, 300 // RawHTMLParser, 400 // EmphasisParser, 500 func DefaultInlineParsers() []util.PrioritizedValue { return []util.PrioritizedValue{ util.Prioritized(NewCodeSpanParser(), 100), util.Prioritized(NewLinkParser(), 200), util.Prioritized(NewAutoLinkParser(), 300), util.Prioritized(NewRawHTMLParser(), 400), util.Prioritized(NewEmphasisParser(), 500), } } // DefaultParagraphTransformers returns a new list of default ParagraphTransformers. // Priorities of default ParagraphTransformers are: // // LinkReferenceParagraphTransformer, 100 func DefaultParagraphTransformers() []util.PrioritizedValue { return []util.PrioritizedValue{ util.Prioritized(LinkReferenceParagraphTransformer, 100), } } // A Block struct holds a node and correspond parser pair. type Block struct { // Node is a BlockNode. Node ast.Node // Parser is a BlockParser. Parser BlockParser } type parser struct { options map[OptionName]interface{} blockParsers [256][]BlockParser freeBlockParsers []BlockParser inlineParsers [256][]InlineParser closeBlockers []CloseBlocker paragraphTransformers []ParagraphTransformer astTransformers []ASTTransformer config *Config initSync sync.Once } type withBlockParsers struct { value []util.PrioritizedValue } func (o *withBlockParsers) SetParserOption(c *Config) { c.BlockParsers = append(c.BlockParsers, o.value...) } // WithBlockParsers is a functional option that allow you to add // BlockParsers to the parser. func WithBlockParsers(bs ...util.PrioritizedValue) Option { return &withBlockParsers{bs} } type withInlineParsers struct { value []util.PrioritizedValue } func (o *withInlineParsers) SetParserOption(c *Config) { c.InlineParsers = append(c.InlineParsers, o.value...) } // WithInlineParsers is a functional option that allow you to add // InlineParsers to the parser. func WithInlineParsers(bs ...util.PrioritizedValue) Option { return &withInlineParsers{bs} } type withParagraphTransformers struct { value []util.PrioritizedValue } func (o *withParagraphTransformers) SetParserOption(c *Config) { c.ParagraphTransformers = append(c.ParagraphTransformers, o.value...) } // WithParagraphTransformers is a functional option that allow you to add // ParagraphTransformers to the parser. func WithParagraphTransformers(ps ...util.PrioritizedValue) Option { return &withParagraphTransformers{ps} } type withASTTransformers struct { value []util.PrioritizedValue } func (o *withASTTransformers) SetParserOption(c *Config) { c.ASTTransformers = append(c.ASTTransformers, o.value...) } // WithASTTransformers is a functional option that allow you to add // ASTTransformers to the parser. func WithASTTransformers(ps ...util.PrioritizedValue) Option { return &withASTTransformers{ps} } type withOption struct { name OptionName value interface{} } func (o *withOption) SetParserOption(c *Config) { c.Options[o.name] = o.value } // WithOption is a functional option that allow you to set // an arbitrary option to the parser. func WithOption(name OptionName, value interface{}) Option { return &withOption{name, value} } // NewParser returns a new Parser with given options. func NewParser(options ...Option) Parser { config := NewConfig() for _, opt := range options { opt.SetParserOption(config) } p := &parser{ options: map[OptionName]interface{}{}, config: config, } return p } func (p *parser) AddOptions(opts ...Option) { for _, opt := range opts { opt.SetParserOption(p.config) } } func (p *parser) addBlockParser(v util.PrioritizedValue, options map[OptionName]interface{}) { bp, ok := v.Value.(BlockParser) if !ok { panic(fmt.Sprintf("%v is not a BlockParser", v.Value)) } tcs := bp.Trigger() so, ok := v.Value.(SetOptioner) if ok { for oname, ovalue := range options { so.SetOption(oname, ovalue) } } if tcs == nil { p.freeBlockParsers = append(p.freeBlockParsers, bp) } else { for _, tc := range tcs { if p.blockParsers[tc] == nil { p.blockParsers[tc] = []BlockParser{} } p.blockParsers[tc] = append(p.blockParsers[tc], bp) } } } func (p *parser) addInlineParser(v util.PrioritizedValue, options map[OptionName]interface{}) { ip, ok := v.Value.(InlineParser) if !ok { panic(fmt.Sprintf("%v is not a InlineParser", v.Value)) } tcs := ip.Trigger() so, ok := v.Value.(SetOptioner) if ok { for oname, ovalue := range options { so.SetOption(oname, ovalue) } } if cb, ok := ip.(CloseBlocker); ok { p.closeBlockers = append(p.closeBlockers, cb) } for _, tc := range tcs { if p.inlineParsers[tc] == nil { p.inlineParsers[tc] = []InlineParser{} } p.inlineParsers[tc] = append(p.inlineParsers[tc], ip) } } func (p *parser) addParagraphTransformer(v util.PrioritizedValue, options map[OptionName]interface{}) { pt, ok := v.Value.(ParagraphTransformer) if !ok { panic(fmt.Sprintf("%v is not a ParagraphTransformer", v.Value)) } so, ok := v.Value.(SetOptioner) if ok { for oname, ovalue := range options { so.SetOption(oname, ovalue) } } p.paragraphTransformers = append(p.paragraphTransformers, pt) } func (p *parser) addASTTransformer(v util.PrioritizedValue, options map[OptionName]interface{}) { at, ok := v.Value.(ASTTransformer) if !ok { panic(fmt.Sprintf("%v is not a ASTTransformer", v.Value)) } so, ok := v.Value.(SetOptioner) if ok { for oname, ovalue := range options { so.SetOption(oname, ovalue) } } p.astTransformers = append(p.astTransformers, at) } // A ParseConfig struct is a data structure that holds configuration of the Parser.Parse. type ParseConfig struct { Context Context } // A ParseOption is a functional option type for the Parser.Parse. type ParseOption func(c *ParseConfig) // WithContext is a functional option that allow you to override // a default context. func WithContext(context Context) ParseOption { return func(c *ParseConfig) { c.Context = context } } func (p *parser) Parse(reader text.Reader, opts ...ParseOption) ast.Node { p.initSync.Do(func() { p.config.BlockParsers.Sort() for _, v := range p.config.BlockParsers { p.addBlockParser(v, p.config.Options) } for i := range p.blockParsers { if p.blockParsers[i] != nil { p.blockParsers[i] = append(p.blockParsers[i], p.freeBlockParsers...) } } p.config.InlineParsers.Sort() for _, v := range p.config.InlineParsers { p.addInlineParser(v, p.config.Options) } p.config.ParagraphTransformers.Sort() for _, v := range p.config.ParagraphTransformers { p.addParagraphTransformer(v, p.config.Options) } p.config.ASTTransformers.Sort() for _, v := range p.config.ASTTransformers { p.addASTTransformer(v, p.config.Options) } p.config = nil }) c := &ParseConfig{} for _, opt := range opts { opt(c) } if c.Context == nil { c.Context = NewContext() } pc := c.Context root := ast.NewDocument() p.parseBlocks(root, reader, pc) blockReader := text.NewBlockReader(reader.Source(), nil) p.walkBlock(root, func(node ast.Node) { p.parseBlock(blockReader, node, pc) }) for _, at := range p.astTransformers { at.Transform(root, reader, pc) } // root.Dump(reader.Source(), 0) return root } func (p *parser) transformParagraph(node *ast.Paragraph, reader text.Reader, pc Context) bool { for _, pt := range p.paragraphTransformers { pt.Transform(node, reader, pc) if node.Parent() == nil { return true } } return false } func (p *parser) closeBlocks(from, to int, reader text.Reader, pc Context) { blocks := pc.OpenedBlocks() for i := from; i >= to; i-- { node := blocks[i].Node blocks[i].Parser.Close(blocks[i].Node, reader, pc) paragraph, ok := node.(*ast.Paragraph) if ok && node.Parent() != nil { p.transformParagraph(paragraph, reader, pc) } } if from == len(blocks)-1 { blocks = blocks[0:to] } else { blocks = append(blocks[0:to], blocks[from+1:]...) } pc.SetOpenedBlocks(blocks) } type blockOpenResult int const ( paragraphContinuation blockOpenResult = iota + 1 newBlocksOpened noBlocksOpened ) func (p *parser) openBlocks(parent ast.Node, blankLine bool, reader text.Reader, pc Context) blockOpenResult { result := blockOpenResult(noBlocksOpened) continuable := false lastBlock := pc.LastOpenedBlock() if lastBlock.Node != nil { continuable = ast.IsParagraph(lastBlock.Node) } retry: var bps []BlockParser line, _ := reader.PeekLine() w, pos := util.IndentWidth(line, reader.LineOffset()) if w >= len(line) { pc.SetBlockOffset(-1) pc.SetBlockIndent(-1) } else { pc.SetBlockOffset(pos) pc.SetBlockIndent(w) } if line == nil || line[0] == '\n' { goto continuable } bps = p.freeBlockParsers if pos < len(line) { bps = p.blockParsers[line[pos]] if bps == nil { bps = p.freeBlockParsers } } if bps == nil { goto continuable } for _, bp := range bps { if continuable && result == noBlocksOpened && !bp.CanInterruptParagraph() { continue } if w > 3 && !bp.CanAcceptIndentedLine() { continue } lastBlock = pc.LastOpenedBlock() last := lastBlock.Node node, state := bp.Open(parent, reader, pc) if node != nil { // Parser requires last node to be a paragraph. // With table extension: // // 0 // -: // - // // '-' on 3rd line seems a Setext heading because 1st and 2nd lines // are being paragraph when the Settext heading parser tries to parse the 3rd // line. // But 1st line and 2nd line are a table. Thus this paragraph will be transformed // by a paragraph transformer. So this text should be converted to a table and // an empty list. if state&RequireParagraph != 0 { if last == parent.LastChild() { // Opened paragraph may be transformed by ParagraphTransformers in // closeBlocks(). lastBlock.Parser.Close(last, reader, pc) blocks := pc.OpenedBlocks() pc.SetOpenedBlocks(blocks[0 : len(blocks)-1]) if p.transformParagraph(last.(*ast.Paragraph), reader, pc) { // Paragraph has been transformed. // So this parser is considered as failing. continuable = false goto retry } } } node.SetBlankPreviousLines(blankLine) if last != nil && last.Parent() == nil { lastPos := len(pc.OpenedBlocks()) - 1 p.closeBlocks(lastPos, lastPos, reader, pc) } parent.AppendChild(parent, node) result = newBlocksOpened be := Block{node, bp} pc.SetOpenedBlocks(append(pc.OpenedBlocks(), be)) if state&HasChildren != 0 { parent = node goto retry // try child block } break // no children, can not open more blocks on this line } } continuable: if result == noBlocksOpened && continuable { state := lastBlock.Parser.Continue(lastBlock.Node, reader, pc) if state&Continue != 0 { result = paragraphContinuation } } return result } type lineStat struct { lineNum int level int isBlank bool } func isBlankLine(lineNum, level int, stats []lineStat) bool { ret := true for i := len(stats) - 1 - level; i >= 0; i-- { ret = false s := stats[i] if s.lineNum == lineNum { if s.level < level && s.isBlank { return true } else if s.level == level { return s.isBlank } } if s.lineNum < lineNum { return ret } } return ret } func (p *parser) parseBlocks(parent ast.Node, reader text.Reader, pc Context) { pc.SetOpenedBlocks([]Block{}) blankLines := make([]lineStat, 0, 128) isBlank := false for { // process blocks separated by blank lines _, lines, ok := reader.SkipBlankLines() if !ok { return } lineNum, _ := reader.Position() if lines != 0 { blankLines = blankLines[0:0] l := len(pc.OpenedBlocks()) for i := 0; i < l; i++ { blankLines = append(blankLines, lineStat{lineNum - 1, i, lines != 0}) } } isBlank = isBlankLine(lineNum-1, 0, blankLines) // first, we try to open blocks if p.openBlocks(parent, isBlank, reader, pc) != newBlocksOpened { return } reader.AdvanceLine() for { // process opened blocks line by line openedBlocks := pc.OpenedBlocks() l := len(openedBlocks) if l == 0 { break } lastIndex := l - 1 for i := 0; i < l; i++ { be := openedBlocks[i] line, _ := reader.PeekLine() if line == nil { p.closeBlocks(lastIndex, 0, reader, pc) reader.AdvanceLine() return } lineNum, _ := reader.Position() blankLines = append(blankLines, lineStat{lineNum, i, util.IsBlank(line)}) // If node is a paragraph, p.openBlocks determines whether it is continuable. // So we do not process paragraphs here. if !ast.IsParagraph(be.Node) { state := be.Parser.Continue(be.Node, reader, pc) if state&Continue != 0 { // When current node is a container block and has no children, // we try to open new child nodes if state&HasChildren != 0 && i == lastIndex { isBlank = isBlankLine(lineNum-1, i, blankLines) p.openBlocks(be.Node, isBlank, reader, pc) break } continue } } // current node may be closed or lazy continuation isBlank = isBlankLine(lineNum-1, i, blankLines) thisParent := parent if i != 0 { thisParent = openedBlocks[i-1].Node } lastNode := openedBlocks[lastIndex].Node result := p.openBlocks(thisParent, isBlank, reader, pc) if result != paragraphContinuation { // lastNode is a paragraph and was transformed by the paragraph // transformers. if openedBlocks[lastIndex].Node != lastNode { lastIndex-- } p.closeBlocks(lastIndex, i, reader, pc) } break } reader.AdvanceLine() } } } func (p *parser) walkBlock(block ast.Node, cb func(node ast.Node)) { for c := block.FirstChild(); c != nil; c = c.NextSibling() { p.walkBlock(c, cb) } cb(block) } func (p *parser) parseBlock(block text.BlockReader, parent ast.Node, pc Context) { if parent.IsRaw() { return } escaped := false source := block.Source() block.Reset(parent.Lines()) for { retry: line, _ := block.PeekLine() if line == nil { break } lineLength := len(line) hardlineBreak := false softLinebreak := line[lineLength-1] == '\n' if lineLength >= 2 && line[lineLength-2] == '\\' && softLinebreak { // ends with \\n lineLength -= 2 hardlineBreak = true } else if lineLength >= 3 && line[lineLength-3] == '\\' && line[lineLength-2] == '\r' && softLinebreak { // ends with \\r\n lineLength -= 3 hardlineBreak = true } else if lineLength >= 3 && line[lineLength-3] == ' ' && line[lineLength-2] == ' ' && softLinebreak { // ends with [space][space]\n lineLength -= 3 hardlineBreak = true } else if lineLength >= 4 && line[lineLength-4] == ' ' && line[lineLength-3] == ' ' && line[lineLength-2] == '\r' && softLinebreak { // ends with [space][space]\r\n lineLength -= 4 hardlineBreak = true } l, startPosition := block.Position() n := 0 for i := 0; i < lineLength; i++ { c := line[i] if c == '\n' { break } isSpace := util.IsSpace(c) isPunct := util.IsPunct(c) if (isPunct && !escaped) || isSpace || i == 0 { parserChar := c if isSpace || (i == 0 && !isPunct) { parserChar = ' ' } ips := p.inlineParsers[parserChar] if ips != nil { block.Advance(n) n = 0 savedLine, savedPosition := block.Position() if i != 0 { _, currentPosition := block.Position() ast.MergeOrAppendTextSegment(parent, startPosition.Between(currentPosition)) _, startPosition = block.Position() } var inlineNode ast.Node for _, ip := range ips { inlineNode = ip.Parse(parent, block, pc) if inlineNode != nil { break } block.SetPosition(savedLine, savedPosition) } if inlineNode != nil { parent.AppendChild(parent, inlineNode) goto retry } } } if escaped { escaped = false n++ continue } if c == '\\' { escaped = true n++ continue } escaped = false n++ } if n != 0 { block.Advance(n) } currentL, currentPosition := block.Position() if l != currentL { continue } diff := startPosition.Between(currentPosition) stop := diff.Stop rest := diff.WithStop(stop) text := ast.NewTextSegment(rest.TrimRightSpace(source)) text.SetSoftLineBreak(softLinebreak) text.SetHardLineBreak(hardlineBreak) parent.AppendChild(parent, text) block.AdvanceLine() } ProcessDelimiters(nil, pc) for _, ip := range p.closeBlockers { ip.CloseBlock(parent, block, pc) } }