goparsify/parser.go
2017-08-08 19:36:32 +10:00

293 lines
5.8 KiB
Go

package goparsify
import (
"bytes"
"fmt"
"strings"
"unicode/utf8"
)
type Node struct {
Token string
Children []Node
Result interface{}
}
type Parser func(*State) Node
// Parserish types are any type that can be turned into a Parser by Parsify
// These currently include *Parser and string literals.
//
// This makes recursive grammars cleaner and allows string literals to be used directly in most contexts.
// eg, matching balanced paren:
// ```go
// var group Parser
// group = And("(", Maybe(&group), ")")
// ```
// vs
// ```go
// var group ParserPtr{}
// group.P = And(Exact("("), Maybe(group.Parse), Exact(")"))
// ```
type Parserish interface{}
func Parsify(p Parserish) Parser {
switch p := p.(type) {
case nil:
return nil
case func(*State) Node:
return NewParser("anonymous func", p)
case Parser:
return p
case *Parser:
// Todo: Maybe capture this stack and on nil show it? Is there a good error library to do this?
return func(ptr *State) Node {
return (*p)(ptr)
}
case string:
return Exact(p)
default:
panic(fmt.Errorf("cant turn a `%T` into a parser", p))
}
}
func ParsifyAll(parsers ...Parserish) []Parser {
ret := make([]Parser, len(parsers))
for i, parser := range parsers {
ret[i] = Parsify(parser)
}
return ret
}
func WS() Parser {
return NewParser("AutoWS", func(ps *State) Node {
ps.WS()
return Node{}
})
}
func ParseString(parser Parserish, input string) (result interface{}, remaining string, err error) {
p := Parsify(parser)
ps := InputString(input)
ret := p(ps)
ps.AutoWS()
if ps.Error.Expected != "" {
return nil, ps.Get(), ps.Error
}
return ret.Result, ps.Get(), nil
}
func Exact(match string) Parser {
if len(match) == 1 {
matchByte := match[0]
return NewParser(match, func(ps *State) Node {
ps.AutoWS()
if ps.Pos >= len(ps.Input) || ps.Input[ps.Pos] != matchByte {
ps.ErrorHere(match)
return Node{}
}
ps.Advance(1)
return Node{Token: match}
})
}
return NewParser(match, func(ps *State) Node {
ps.AutoWS()
if !strings.HasPrefix(ps.Get(), match) {
ps.ErrorHere(match)
return Node{}
}
ps.Advance(len(match))
return Node{Token: match}
})
}
func parseRepetition(defaultMin, defaultMax int, repetition ...int) (min int, max int) {
min = defaultMin
max = defaultMax
switch len(repetition) {
case 0:
case 1:
min = repetition[0]
case 2:
min = repetition[0]
max = repetition[1]
default:
panic(fmt.Errorf("Dont know what %d repetion args mean", len(repetition)))
}
return min, max
}
// parseMatcher turns a string in the format a-f01234A-F into:
// - a set string of matches string(01234)
// - a set of ranges [][]rune{{'a', 'f'}, {'A', 'F'}}
func parseMatcher(matcher string) (matches string, ranges [][]rune) {
runes := []rune(matcher)
for i := 0; i < len(runes); i++ {
if i+2 < len(runes) && runes[i+1] == '-' {
start := runes[i]
end := runes[i+2]
if start <= end {
ranges = append(ranges, []rune{start, end})
} else {
ranges = append(ranges, []rune{end, start})
}
} else if i+1 < len(runes) && runes[i] == '\\' {
matches += string(runes[i+1])
} else {
matches += string(runes[i])
}
}
return matches, ranges
}
func Chars(matcher string, repetition ...int) Parser {
return NewParser("["+matcher+"]", charsImpl(matcher, false, repetition...))
}
func NotChars(matcher string, repetition ...int) Parser {
return NewParser("!["+matcher+"]", charsImpl(matcher, true, repetition...))
}
func charsImpl(matcher string, stopOn bool, repetition ...int) Parser {
min, max := parseRepetition(1, -1, repetition...)
matches, ranges := parseMatcher(matcher)
return func(ps *State) Node {
ps.AutoWS()
matched := 0
for ps.Pos+matched < len(ps.Input) {
if max != -1 && matched >= max {
break
}
r, w := utf8.DecodeRuneInString(ps.Input[ps.Pos+matched:])
anyMatched := strings.ContainsRune(matches, r)
if !anyMatched {
for _, rng := range ranges {
if r >= rng[0] && r <= rng[1] {
anyMatched = true
}
}
}
if anyMatched == stopOn {
break
}
matched += w
}
if matched < min {
ps.ErrorHere(matcher)
return Node{}
}
result := ps.Input[ps.Pos : ps.Pos+matched]
ps.Advance(matched)
return Node{Token: result}
}
}
func String(allowedQuotes string) Parser {
return NewParser("string", func(ps *State) Node {
ps.AutoWS()
for i := 0; i < len(allowedQuotes); i++ {
if ps.Input[ps.Pos] == allowedQuotes[i] {
}
}
if !stringContainsByte(allowedQuotes, ps.Input[ps.Pos]) {
ps.ErrorHere(allowedQuotes)
return Node{}
}
quote := ps.Input[ps.Pos]
var end int = ps.Pos + 1
inputLen := len(ps.Input)
result := &bytes.Buffer{}
for end < inputLen {
switch ps.Input[end] {
case '\\':
if end+1 >= inputLen {
ps.ErrorHere(string(quote))
return Node{}
}
c := ps.Input[end+1]
if c == 'u' {
if end+6 >= inputLen {
ps.Error.Expected = "[a-f0-9]{4}"
ps.Error.pos = end + 2
return Node{}
}
r, ok := unhex(ps.Input[end+2 : end+6])
if !ok {
ps.Error.Expected = "[a-f0-9]"
ps.Error.pos = end + 2
return Node{}
}
result.WriteRune(r)
end += 6
} else {
result.WriteByte(c)
end += 2
}
case quote:
ps.Pos = end + 1
return Node{Token: result.String()}
default:
r, w := utf8.DecodeRuneInString(ps.Input[end:])
result.WriteRune(r)
end += w
}
}
ps.ErrorHere(string(quote))
return Node{}
})
}
func stringContainsByte(s string, b byte) bool {
for i := 0; i < len(s); i++ {
if b == s[i] {
return true
}
}
return false
}
func unhex(b string) (v rune, ok bool) {
for _, c := range b {
v <<= 4
switch {
case '0' <= c && c <= '9':
v |= c - '0'
case 'a' <= c && c <= 'f':
v |= c - 'a' + 10
case 'A' <= c && c <= 'F':
v |= c - 'A' + 10
default:
return 0, false
}
}
return v, true
}