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- type Input[T] = object
- toks: seq[T]
- index: int
- type
- ResultKind* = enum rkSuccess, rkFailure
- Result*[T, O] = object
- case kind*: ResultKind
- of rkSuccess:
- output*: O
- input: Input[T]
- of rkFailure:
- nil
- type
- Parser*[T, O] = proc (input: Input[T]): Result[T, O]
- proc unit*[T, O](v: O): Parser[T, O] =
- result = proc (inp: Input[T]): Result[T, O] =
- Result[T, O](kind: rkSuccess, output: v, input: inp)
- proc fail*[T, O](): Parser[T, O] =
- result = proc (inp: Input[T]): Result[T, O] =
- Result(kind: rkFailure)
- method runInput[T, O](self: Parser[T, O], inp: Input[T]): Result[T, O] =
- # hmmm ..
- type tmp = proc (input: Input[T]): Result[T, O]
- # XXX: above needed for now, as without the `tmp` bit below, it compiles to invalid C.
- tmp(self)(inp)
- proc run*[T, O](self: Parser[T, O], toks: seq[T]): Result[T, O] =
- self.runInput(Input[T](toks: toks, index: 0))
- proc chain*[T, O1, O2](self: Parser[T, O1], nextp: proc (v: O1): Parser[T, O2]): Parser[T, O2] =
- result = proc (inp: Input[T]): Result[T, O2] =
- let r = self.runInput(inp)
- case r.kind:
- of rkSuccess:
- nextp(r.output).runInput(r.input)
- of rkFailure:
- Result[T, O2](kind: rkFailure)
- method skip[T](self: Input[T], n: int): Input[T] {.base.} =
- Input[T](toks: self.toks, index: self.index + n)
- proc pskip*[T](n: int): Parser[T, tuple[]] =
- result = proc (inp: Input[T]): Result[T, tuple[]] =
- if inp.index + n <= inp.toks.len:
- Result[T, tuple[]](kind: rkSuccess, output: (), input: inp.skip(n))
- else:
- Result[T, tuple[]](kind: rkFailure)
- proc tok*[T](t: T): Parser[T, T] =
- result = proc (inp: Input[T]): Result[T, T] =
- if inp.index < inp.toks.len and inp.toks[inp.index] == t:
- pskip[T](1).then(unit[T, T](t)).runInput(inp)
- else:
- Result[T, T](kind: rkFailure)
- proc `+`*[T, O](first: Parser[T, O], second: Parser[T, O]): Parser[T, O] =
- result = proc (inp: Input[T]): Result[T, O] =
- let r = first.runInput(inp)
- case r.kind
- of rkSuccess:
- r
- else:
- second.runInput(inp)
- # end of primitives (definitions involving Parser(..))
- proc map*[T, O1, O2](self: Parser[T, O1], p: proc (v: O1): O2): Parser[T, O2] =
- self.chain(proc (v: O1): Parser[T, O2] =
- unit[T, O2](p(v)))
- proc then*[T, O1, O2](self: Parser[T, O1], next: Parser[T, O2]): Parser[T, O2] =
- self.chain(proc (v: O1): Parser[T, O2] =
- next)
- proc `*`*[T, O1, O2](first: Parser[T, O1], second: Parser[T, O2]): Parser[T, (O1, O2)] =
- first.chain(proc (v1: O1): Parser[T, (O1, O2)] =
- second.map(proc (v2: O2): (O1, O2) =
- (v1, v2)))
- proc repeat0*[T, O](inner: Parser[T, O]): Parser[T, seq[O]] =
- var nothing = unit[T, seq[O]](@[])
- inner.chain(proc(v: O): Parser[T, seq[O]] =
- repeat0(inner).map(proc(vs: seq[O]): seq[O] =
- @[v] & vs)) + nothing
- proc repeat1*[T, O](inner: Parser[T, O]): Parser[T, seq[O]] =
- inner.chain(proc(v: O): Parser[T, seq[O]] =
- repeat0(inner).map(proc(vs: seq[O]): seq[O] =
- @[v] & vs))
- proc leftRec*[T, O, A](inner: Parser[T, O], after: Parser[T, A], fold: proc(i: O, a: A): O): Parser[T, O] =
- (inner*repeat0(after)).map(proc(ias: (O, seq[A])): O =
- var (i, asx) = ias
- for a in asx:
- i = fold(i, a)
- i)
- proc lazy*[T, O](inner: proc(): Parser[T, O]): Parser[T, O] =
- unit[T, tuple[]](()).chain(proc(v: tuple[]): Parser[T, O] =
- inner())
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