package extension import ( "bytes" "fmt" "regexp" "github.com/yuin/goldmark" gast "github.com/yuin/goldmark/ast" "github.com/yuin/goldmark/extension/ast" "github.com/yuin/goldmark/parser" "github.com/yuin/goldmark/renderer" "github.com/yuin/goldmark/renderer/html" "github.com/yuin/goldmark/text" "github.com/yuin/goldmark/util" ) var escapedPipeCellListKey = parser.NewContextKey() type escapedPipeCell struct { Cell *ast.TableCell Pos []int Transformed bool } // TableCellAlignMethod indicates how are table cells aligned in HTML format.indicates how are table cells aligned in HTML format. type TableCellAlignMethod int const ( // TableCellAlignDefault renders alignments by default method. // With XHTML, alignments are rendered as an align attribute. // With HTML5, alignments are rendered as a style attribute. TableCellAlignDefault TableCellAlignMethod = iota // TableCellAlignAttribute renders alignments as an align attribute. TableCellAlignAttribute // TableCellAlignStyle renders alignments as a style attribute. TableCellAlignStyle // TableCellAlignNone does not care about alignments. // If you using classes or other styles, you can add these attributes // in an ASTTransformer. TableCellAlignNone ) // TableConfig struct holds options for the extension. type TableConfig struct { html.Config // TableCellAlignMethod indicates how are table celss aligned. TableCellAlignMethod TableCellAlignMethod } // TableOption interface is a functional option interface for the extension. type TableOption interface { renderer.Option // SetTableOption sets given option to the extension. SetTableOption(*TableConfig) } // NewTableConfig returns a new Config with defaults. func NewTableConfig() TableConfig { return TableConfig{ Config: html.NewConfig(), TableCellAlignMethod: TableCellAlignDefault, } } // SetOption implements renderer.SetOptioner. func (c *TableConfig) SetOption(name renderer.OptionName, value interface{}) { switch name { case optTableCellAlignMethod: c.TableCellAlignMethod = value.(TableCellAlignMethod) default: c.Config.SetOption(name, value) } } type withTableHTMLOptions struct { value []html.Option } func (o *withTableHTMLOptions) SetConfig(c *renderer.Config) { if o.value != nil { for _, v := range o.value { v.(renderer.Option).SetConfig(c) } } } func (o *withTableHTMLOptions) SetTableOption(c *TableConfig) { if o.value != nil { for _, v := range o.value { v.SetHTMLOption(&c.Config) } } } // WithTableHTMLOptions is functional option that wraps goldmark HTMLRenderer options. func WithTableHTMLOptions(opts ...html.Option) TableOption { return &withTableHTMLOptions{opts} } const optTableCellAlignMethod renderer.OptionName = "TableTableCellAlignMethod" type withTableCellAlignMethod struct { value TableCellAlignMethod } func (o *withTableCellAlignMethod) SetConfig(c *renderer.Config) { c.Options[optTableCellAlignMethod] = o.value } func (o *withTableCellAlignMethod) SetTableOption(c *TableConfig) { c.TableCellAlignMethod = o.value } // WithTableCellAlignMethod is a functional option that indicates how are table cells aligned in HTML format. func WithTableCellAlignMethod(a TableCellAlignMethod) TableOption { return &withTableCellAlignMethod{a} } func isTableDelim(bs []byte) bool { if w, _ := util.IndentWidth(bs, 0); w > 3 { return false } for _, b := range bs { if !(util.IsSpace(b) || b == '-' || b == '|' || b == ':') { return false } } return true } var tableDelimLeft = regexp.MustCompile(`^\s*\:\-+\s*$`) var tableDelimRight = regexp.MustCompile(`^\s*\-+\:\s*$`) var tableDelimCenter = regexp.MustCompile(`^\s*\:\-+\:\s*$`) var tableDelimNone = regexp.MustCompile(`^\s*\-+\s*$`) type tableParagraphTransformer struct { } var defaultTableParagraphTransformer = &tableParagraphTransformer{} // NewTableParagraphTransformer returns a new ParagraphTransformer // that can transform paragraphs into tables. func NewTableParagraphTransformer() parser.ParagraphTransformer { return defaultTableParagraphTransformer } func (b *tableParagraphTransformer) Transform(node *gast.Paragraph, reader text.Reader, pc parser.Context) { lines := node.Lines() if lines.Len() < 2 { return } for i := 1; i < lines.Len(); i++ { alignments := b.parseDelimiter(lines.At(i), reader) if alignments == nil { continue } header := b.parseRow(lines.At(i-1), alignments, true, reader, pc) if header == nil || len(alignments) != header.ChildCount() { return } table := ast.NewTable() table.Alignments = alignments table.AppendChild(table, ast.NewTableHeader(header)) for j := i + 1; j < lines.Len(); j++ { table.AppendChild(table, b.parseRow(lines.At(j), alignments, false, reader, pc)) } node.Lines().SetSliced(0, i-1) node.Parent().InsertAfter(node.Parent(), node, table) if node.Lines().Len() == 0 { node.Parent().RemoveChild(node.Parent(), node) } else { last := node.Lines().At(i - 2) last.Stop = last.Stop - 1 // trim last newline(\n) node.Lines().Set(i-2, last) } } } func (b *tableParagraphTransformer) parseRow(segment text.Segment, alignments []ast.Alignment, isHeader bool, reader text.Reader, pc parser.Context) *ast.TableRow { source := reader.Source() line := segment.Value(source) pos := 0 pos += util.TrimLeftSpaceLength(line) limit := len(line) limit -= util.TrimRightSpaceLength(line) row := ast.NewTableRow(alignments) if len(line) > 0 && line[pos] == '|' { pos++ } if len(line) > 0 && line[limit-1] == '|' { limit-- } i := 0 for ; pos < limit; i++ { alignment := ast.AlignNone if i >= len(alignments) { if !isHeader { return row } } else { alignment = alignments[i] } var escapedCell *escapedPipeCell node := ast.NewTableCell() node.Alignment = alignment hasBacktick := false closure := pos for ; closure < limit; closure++ { if line[closure] == '`' { hasBacktick = true } if line[closure] == '|' { if closure == 0 || line[closure-1] != '\\' { break } else if hasBacktick { if escapedCell == nil { escapedCell = &escapedPipeCell{node, []int{}, false} escapedList := pc.ComputeIfAbsent(escapedPipeCellListKey, func() interface{} { return []*escapedPipeCell{} }).([]*escapedPipeCell) escapedList = append(escapedList, escapedCell) pc.Set(escapedPipeCellListKey, escapedList) } escapedCell.Pos = append(escapedCell.Pos, segment.Start+closure-1) } } } seg := text.NewSegment(segment.Start+pos, segment.Start+closure) seg = seg.TrimLeftSpace(source) seg = seg.TrimRightSpace(source) node.Lines().Append(seg) row.AppendChild(row, node) pos = closure + 1 } for ; i < len(alignments); i++ { row.AppendChild(row, ast.NewTableCell()) } return row } func (b *tableParagraphTransformer) parseDelimiter(segment text.Segment, reader text.Reader) []ast.Alignment { line := segment.Value(reader.Source()) if !isTableDelim(line) { return nil } cols := bytes.Split(line, []byte{'|'}) if util.IsBlank(cols[0]) { cols = cols[1:] } if len(cols) > 0 && util.IsBlank(cols[len(cols)-1]) { cols = cols[:len(cols)-1] } var alignments []ast.Alignment for _, col := range cols { if tableDelimLeft.Match(col) { alignments = append(alignments, ast.AlignLeft) } else if tableDelimRight.Match(col) { alignments = append(alignments, ast.AlignRight) } else if tableDelimCenter.Match(col) { alignments = append(alignments, ast.AlignCenter) } else if tableDelimNone.Match(col) { alignments = append(alignments, ast.AlignNone) } else { return nil } } return alignments } type tableASTTransformer struct { } var defaultTableASTTransformer = &tableASTTransformer{} // NewTableASTTransformer returns a parser.ASTTransformer for tables. func NewTableASTTransformer() parser.ASTTransformer { return defaultTableASTTransformer } func (a *tableASTTransformer) Transform(node *gast.Document, reader text.Reader, pc parser.Context) { lst := pc.Get(escapedPipeCellListKey) if lst == nil { return } pc.Set(escapedPipeCellListKey, nil) for _, v := range lst.([]*escapedPipeCell) { if v.Transformed { continue } _ = gast.Walk(v.Cell, func(n gast.Node, entering bool) (gast.WalkStatus, error) { if !entering || n.Kind() != gast.KindCodeSpan { return gast.WalkContinue, nil } for c := n.FirstChild(); c != nil; { next := c.NextSibling() if c.Kind() != gast.KindText { c = next continue } parent := c.Parent() ts := &c.(*gast.Text).Segment n := c for _, v := range lst.([]*escapedPipeCell) { for _, pos := range v.Pos { if ts.Start <= pos && pos < ts.Stop { segment := n.(*gast.Text).Segment n1 := gast.NewRawTextSegment(segment.WithStop(pos)) n2 := gast.NewRawTextSegment(segment.WithStart(pos + 1)) parent.InsertAfter(parent, n, n1) parent.InsertAfter(parent, n1, n2) parent.RemoveChild(parent, n) n = n2 v.Transformed = true } } } c = next } return gast.WalkContinue, nil }) } } // TableHTMLRenderer is a renderer.NodeRenderer implementation that // renders Table nodes. type TableHTMLRenderer struct { TableConfig } // NewTableHTMLRenderer returns a new TableHTMLRenderer. func NewTableHTMLRenderer(opts ...TableOption) renderer.NodeRenderer { r := &TableHTMLRenderer{ TableConfig: NewTableConfig(), } for _, opt := range opts { opt.SetTableOption(&r.TableConfig) } return r } // RegisterFuncs implements renderer.NodeRenderer.RegisterFuncs. func (r *TableHTMLRenderer) RegisterFuncs(reg renderer.NodeRendererFuncRegisterer) { reg.Register(ast.KindTable, r.renderTable) reg.Register(ast.KindTableHeader, r.renderTableHeader) reg.Register(ast.KindTableRow, r.renderTableRow) reg.Register(ast.KindTableCell, r.renderTableCell) } // TableAttributeFilter defines attribute names which table elements can have. var TableAttributeFilter = html.GlobalAttributeFilter.Extend( []byte("align"), // [Deprecated] []byte("bgcolor"), // [Deprecated] []byte("border"), // [Deprecated] []byte("cellpadding"), // [Deprecated] []byte("cellspacing"), // [Deprecated] []byte("frame"), // [Deprecated] []byte("rules"), // [Deprecated] []byte("summary"), // [Deprecated] []byte("width"), // [Deprecated] ) func (r *TableHTMLRenderer) renderTable(w util.BufWriter, source []byte, n gast.Node, entering bool) (gast.WalkStatus, error) { if entering { _, _ = w.WriteString("