package goparsify import ( "bytes" ) var Nil = NewParser("Nil", func(ps *State) *Node { return nil }) var Never = NewParser("Never", func(ps *State) *Node { ps.ErrorHere("not anything") return nil }) func And(parsers ...Parserish) Parser { if len(parsers) == 0 { return Nil } parserfied := ParsifyAll(parsers...) return NewParser("And", func(ps *State) *Node { var nodes = make([]*Node, 0, len(parserfied)) startpos := ps.Pos for _, parser := range parserfied { node := parser(ps) if ps.Errored() { ps.Pos = startpos return nil } if node != nil { nodes = append(nodes, node) } } return &Node{Children: nodes} }) } func NoAutoWS(parser Parserish) Parser { parserfied := Parsify(parser) return func(ps *State) *Node { ps.NoAutoWS = true ret := parserfied(ps) ps.NoAutoWS = false return ret } } func Any(parsers ...Parserish) Parser { if len(parsers) == 0 { return Nil } parserfied := ParsifyAll(parsers...) return NewParser("Any", func(ps *State) *Node { longestError := Error{} startpos := ps.Pos for _, parser := range parserfied { node := parser(ps) if ps.Errored() { if ps.Error.pos > longestError.pos { longestError = ps.Error } ps.ClearError() continue } return node } ps.Error = longestError ps.Pos = startpos return nil }) } func Kleene(opScan Parserish, sepScan ...Parserish) Parser { return NewParser("Kleene", manyImpl(0, opScan, Never, sepScan...)) } func KleeneUntil(opScan Parserish, untilScan Parserish, sepScan ...Parserish) Parser { return NewParser("KleeneUntil", manyImpl(0, opScan, untilScan, sepScan...)) } func Many(opScan Parserish, sepScan ...Parserish) Parser { return NewParser("Many", manyImpl(1, opScan, Never, sepScan...)) } func ManyUntil(opScan Parserish, untilScan Parserish, sepScan ...Parserish) Parser { return NewParser("ManyUntil", manyImpl(1, opScan, untilScan, sepScan...)) } func manyImpl(min int, op Parserish, until Parserish, sep ...Parserish) Parser { opParser := Parsify(op) untilParser := Parsify(until) sepParser := Nil if len(sep) > 0 { sepParser = Parsify(sep[0]) } return func(ps *State) *Node { var node *Node nodes := make([]*Node, 0, 20) startpos := ps.Pos for { tempPos := ps.Pos node = untilParser(ps) if !ps.Errored() { ps.Pos = tempPos if len(nodes) < min { ps.Pos = startpos ps.ErrorHere("something else") return nil } break } ps.ClearError() node = opParser(ps) if ps.Errored() { if len(nodes) < min { ps.Pos = startpos return nil } ps.ClearError() break } nodes = append(nodes, node) node = sepParser(ps) if ps.Errored() { ps.ClearError() break } } return &Node{Children: nodes} } } func Maybe(parser Parserish) Parser { parserfied := Parsify(parser) return NewParser("Maybe", func(ps *State) *Node { node := parserfied(ps) if ps.Errored() { ps.ClearError() return nil } return node }) } func Map(parser Parserish, f func(n *Node) *Node) Parser { p := Parsify(parser) return NewParser("Map", func(ps *State) *Node { node := p(ps) if ps.Errored() { return nil } return f(node) }) } func flatten(n *Node) string { if n.Token != "" { return n.Token } if len(n.Children) > 0 { sbuf := &bytes.Buffer{} for _, node := range n.Children { sbuf.WriteString(flatten(node)) } return sbuf.String() } return "" } func Merge(parser Parserish) Parser { return NewParser("Merge", Map(parser, func(n *Node) *Node { return &Node{Token: flatten(n)} })) }