package ast import ( "fmt" "strings" textm "github.com/yuin/goldmark/text" ) // A BaseBlock struct implements the Node interface partialliy. type BaseBlock struct { BaseNode blankPreviousLines bool lines *textm.Segments } // Type implements Node.Type func (b *BaseBlock) Type() NodeType { return TypeBlock } // IsRaw implements Node.IsRaw func (b *BaseBlock) IsRaw() bool { return false } // HasBlankPreviousLines implements Node.HasBlankPreviousLines. func (b *BaseBlock) HasBlankPreviousLines() bool { return b.blankPreviousLines } // SetBlankPreviousLines implements Node.SetBlankPreviousLines. func (b *BaseBlock) SetBlankPreviousLines(v bool) { b.blankPreviousLines = v } // Lines implements Node.Lines func (b *BaseBlock) Lines() *textm.Segments { if b.lines == nil { b.lines = textm.NewSegments() } return b.lines } // SetLines implements Node.SetLines func (b *BaseBlock) SetLines(v *textm.Segments) { b.lines = v } // A Document struct is a root node of Markdown text. type Document struct { BaseBlock meta map[string]interface{} } // KindDocument is a NodeKind of the Document node. var KindDocument = NewNodeKind("Document") // Dump implements Node.Dump . func (n *Document) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // Type implements Node.Type . func (n *Document) Type() NodeType { return TypeDocument } // Kind implements Node.Kind. func (n *Document) Kind() NodeKind { return KindDocument } // OwnerDocument implements Node.OwnerDocument func (n *Document) OwnerDocument() *Document { return n } // Meta returns metadata of this document. func (n *Document) Meta() map[string]interface{} { if n.meta == nil { n.meta = map[string]interface{}{} } return n.meta } // SetMeta sets given metadata to this document. func (n *Document) SetMeta(meta map[string]interface{}) { n.meta = meta } // NewDocument returns a new Document node. func NewDocument() *Document { return &Document{ BaseBlock: BaseBlock{}, meta: nil, } } // A TextBlock struct is a node whose lines // should be rendered without any containers. type TextBlock struct { BaseBlock } // Dump implements Node.Dump . func (n *TextBlock) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // KindTextBlock is a NodeKind of the TextBlock node. var KindTextBlock = NewNodeKind("TextBlock") // Kind implements Node.Kind. func (n *TextBlock) Kind() NodeKind { return KindTextBlock } // NewTextBlock returns a new TextBlock node. func NewTextBlock() *TextBlock { return &TextBlock{ BaseBlock: BaseBlock{}, } } // A Paragraph struct represents a paragraph of Markdown text. type Paragraph struct { BaseBlock } // Dump implements Node.Dump . func (n *Paragraph) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // KindParagraph is a NodeKind of the Paragraph node. var KindParagraph = NewNodeKind("Paragraph") // Kind implements Node.Kind. func (n *Paragraph) Kind() NodeKind { return KindParagraph } // NewParagraph returns a new Paragraph node. func NewParagraph() *Paragraph { return &Paragraph{ BaseBlock: BaseBlock{}, } } // IsParagraph returns true if the given node implements the Paragraph interface, // otherwise false. func IsParagraph(node Node) bool { _, ok := node.(*Paragraph) return ok } // A Heading struct represents headings like SetextHeading and ATXHeading. type Heading struct { BaseBlock // Level returns a level of this heading. // This value is between 1 and 6. Level int } // Dump implements Node.Dump . func (n *Heading) Dump(source []byte, level int) { m := map[string]string{ "Level": fmt.Sprintf("%d", n.Level), } DumpHelper(n, source, level, m, nil) } // KindHeading is a NodeKind of the Heading node. var KindHeading = NewNodeKind("Heading") // Kind implements Node.Kind. func (n *Heading) Kind() NodeKind { return KindHeading } // NewHeading returns a new Heading node. func NewHeading(level int) *Heading { return &Heading{ BaseBlock: BaseBlock{}, Level: level, } } // A ThematicBreak struct represents a thematic break of Markdown text. type ThematicBreak struct { BaseBlock } // Dump implements Node.Dump . func (n *ThematicBreak) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // KindThematicBreak is a NodeKind of the ThematicBreak node. var KindThematicBreak = NewNodeKind("ThematicBreak") // Kind implements Node.Kind. func (n *ThematicBreak) Kind() NodeKind { return KindThematicBreak } // NewThematicBreak returns a new ThematicBreak node. func NewThematicBreak() *ThematicBreak { return &ThematicBreak{ BaseBlock: BaseBlock{}, } } // A CodeBlock interface represents an indented code block of Markdown text. type CodeBlock struct { BaseBlock } // IsRaw implements Node.IsRaw. func (n *CodeBlock) IsRaw() bool { return true } // Dump implements Node.Dump . func (n *CodeBlock) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // KindCodeBlock is a NodeKind of the CodeBlock node. var KindCodeBlock = NewNodeKind("CodeBlock") // Kind implements Node.Kind. func (n *CodeBlock) Kind() NodeKind { return KindCodeBlock } // NewCodeBlock returns a new CodeBlock node. func NewCodeBlock() *CodeBlock { return &CodeBlock{ BaseBlock: BaseBlock{}, } } // A FencedCodeBlock struct represents a fenced code block of Markdown text. type FencedCodeBlock struct { BaseBlock // Info returns a info text of this fenced code block. Info *Text language []byte } // Language returns an language in an info string. // Language returns nil if this node does not have an info string. func (n *FencedCodeBlock) Language(source []byte) []byte { if n.language == nil && n.Info != nil { segment := n.Info.Segment info := segment.Value(source) i := 0 for ; i < len(info); i++ { if info[i] == ' ' { break } } n.language = info[:i] } return n.language } // IsRaw implements Node.IsRaw. func (n *FencedCodeBlock) IsRaw() bool { return true } // Dump implements Node.Dump . func (n *FencedCodeBlock) Dump(source []byte, level int) { m := map[string]string{} if n.Info != nil { m["Info"] = fmt.Sprintf("\"%s\"", n.Info.Text(source)) } DumpHelper(n, source, level, m, nil) } // KindFencedCodeBlock is a NodeKind of the FencedCodeBlock node. var KindFencedCodeBlock = NewNodeKind("FencedCodeBlock") // Kind implements Node.Kind. func (n *FencedCodeBlock) Kind() NodeKind { return KindFencedCodeBlock } // NewFencedCodeBlock return a new FencedCodeBlock node. func NewFencedCodeBlock(info *Text) *FencedCodeBlock { return &FencedCodeBlock{ BaseBlock: BaseBlock{}, Info: info, } } // A Blockquote struct represents an blockquote block of Markdown text. type Blockquote struct { BaseBlock } // Dump implements Node.Dump . func (n *Blockquote) Dump(source []byte, level int) { DumpHelper(n, source, level, nil, nil) } // KindBlockquote is a NodeKind of the Blockquote node. var KindBlockquote = NewNodeKind("Blockquote") // Kind implements Node.Kind. func (n *Blockquote) Kind() NodeKind { return KindBlockquote } // NewBlockquote returns a new Blockquote node. func NewBlockquote() *Blockquote { return &Blockquote{ BaseBlock: BaseBlock{}, } } // A List struct represents a list of Markdown text. type List struct { BaseBlock // Marker is a marker character like '-', '+', ')' and '.'. Marker byte // IsTight is a true if this list is a 'tight' list. // See https://spec.commonmark.org/0.29/#loose for details. IsTight bool // Start is an initial number of this ordered list. // If this list is not an ordered list, Start is 0. Start int } // IsOrdered returns true if this list is an ordered list, otherwise false. func (l *List) IsOrdered() bool { return l.Marker == '.' || l.Marker == ')' } // CanContinue returns true if this list can continue with // the given mark and a list type, otherwise false. func (l *List) CanContinue(marker byte, isOrdered bool) bool { return marker == l.Marker && isOrdered == l.IsOrdered() } // Dump implements Node.Dump. func (l *List) Dump(source []byte, level int) { m := map[string]string{ "Ordered": fmt.Sprintf("%v", l.IsOrdered()), "Marker": fmt.Sprintf("%c", l.Marker), "Tight": fmt.Sprintf("%v", l.IsTight), } if l.IsOrdered() { m["Start"] = fmt.Sprintf("%d", l.Start) } DumpHelper(l, source, level, m, nil) } // KindList is a NodeKind of the List node. var KindList = NewNodeKind("List") // Kind implements Node.Kind. func (l *List) Kind() NodeKind { return KindList } // NewList returns a new List node. func NewList(marker byte) *List { return &List{ BaseBlock: BaseBlock{}, Marker: marker, IsTight: true, } } // A ListItem struct represents a list item of Markdown text. type ListItem struct { BaseBlock // Offset is an offset position of this item. Offset int } // Dump implements Node.Dump. func (n *ListItem) Dump(source []byte, level int) { m := map[string]string{ "Offset": fmt.Sprintf("%d", n.Offset), } DumpHelper(n, source, level, m, nil) } // KindListItem is a NodeKind of the ListItem node. var KindListItem = NewNodeKind("ListItem") // Kind implements Node.Kind. func (n *ListItem) Kind() NodeKind { return KindListItem } // NewListItem returns a new ListItem node. func NewListItem(offset int) *ListItem { return &ListItem{ BaseBlock: BaseBlock{}, Offset: offset, } } // HTMLBlockType represents kinds of an html blocks. // See https://spec.commonmark.org/0.29/#html-blocks type HTMLBlockType int const ( // HTMLBlockType1 represents type 1 html blocks HTMLBlockType1 HTMLBlockType = iota + 1 // HTMLBlockType2 represents type 2 html blocks HTMLBlockType2 // HTMLBlockType3 represents type 3 html blocks HTMLBlockType3 // HTMLBlockType4 represents type 4 html blocks HTMLBlockType4 // HTMLBlockType5 represents type 5 html blocks HTMLBlockType5 // HTMLBlockType6 represents type 6 html blocks HTMLBlockType6 // HTMLBlockType7 represents type 7 html blocks HTMLBlockType7 ) // An HTMLBlock struct represents an html block of Markdown text. type HTMLBlock struct { BaseBlock // Type is a type of this html block. HTMLBlockType HTMLBlockType // ClosureLine is a line that closes this html block. ClosureLine textm.Segment } // IsRaw implements Node.IsRaw. func (n *HTMLBlock) IsRaw() bool { return true } // HasClosure returns true if this html block has a closure line, // otherwise false. func (n *HTMLBlock) HasClosure() bool { return n.ClosureLine.Start >= 0 } // Dump implements Node.Dump. func (n *HTMLBlock) Dump(source []byte, level int) { indent := strings.Repeat(" ", level) fmt.Printf("%s%s {\n", indent, "HTMLBlock") indent2 := strings.Repeat(" ", level+1) fmt.Printf("%sRawText: \"", indent2) for i := 0; i < n.Lines().Len(); i++ { s := n.Lines().At(i) fmt.Print(string(source[s.Start:s.Stop])) } fmt.Printf("\"\n") for c := n.FirstChild(); c != nil; c = c.NextSibling() { c.Dump(source, level+1) } if n.HasClosure() { cl := n.ClosureLine fmt.Printf("%sClosure: \"%s\"\n", indent2, string(cl.Value(source))) } fmt.Printf("%s}\n", indent) } // KindHTMLBlock is a NodeKind of the HTMLBlock node. var KindHTMLBlock = NewNodeKind("HTMLBlock") // Kind implements Node.Kind. func (n *HTMLBlock) Kind() NodeKind { return KindHTMLBlock } // NewHTMLBlock returns a new HTMLBlock node. func NewHTMLBlock(typ HTMLBlockType) *HTMLBlock { return &HTMLBlock{ BaseBlock: BaseBlock{}, HTMLBlockType: typ, ClosureLine: textm.NewSegment(-1, -1), } }