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- #
- #
- # The Nim Compiler
- # (c) Copyright 2012 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- ## This module implements the pattern matching features for term rewriting
- ## macro support.
- import
- ast, types, semdata, sigmatch, idents, aliases, parampatterns, trees
- when defined(nimPreviewSlimSystem):
- import std/assertions
- type
- TPatternContext = object
- owner: PSym
- mapping: seq[PNode] # maps formal parameters to nodes
- formals: int
- c: PContext
- subMatch: bool # subnode matches are special
- mappingIsFull: bool
- PPatternContext = var TPatternContext
- proc getLazy(c: PPatternContext, sym: PSym): PNode =
- if c.mappingIsFull:
- result = c.mapping[sym.position]
- else:
- result = nil
- proc putLazy(c: PPatternContext, sym: PSym, n: PNode) =
- if not c.mappingIsFull:
- newSeq(c.mapping, c.formals)
- c.mappingIsFull = true
- c.mapping[sym.position] = n
- proc matches(c: PPatternContext, p, n: PNode): bool
- proc canonKind(n: PNode): TNodeKind =
- ## nodekind canonicalization for pattern matching
- result = n.kind
- case result
- of nkCallKinds: result = nkCall
- of nkStrLit..nkTripleStrLit: result = nkStrLit
- of nkFastAsgn, nkSinkAsgn: result = nkAsgn
- else: discard
- proc sameKinds(a, b: PNode): bool {.inline.} =
- result = a.kind == b.kind or a.canonKind == b.canonKind
- proc sameTrees*(a, b: PNode): bool =
- if sameKinds(a, b):
- case a.kind
- of nkSym: result = a.sym == b.sym
- of nkIdent: result = a.ident.id == b.ident.id
- of nkCharLit..nkInt64Lit: result = a.intVal == b.intVal
- of nkFloatLit..nkFloat64Lit: result = a.floatVal == b.floatVal
- of nkStrLit..nkTripleStrLit: result = a.strVal == b.strVal
- of nkEmpty, nkNilLit: result = true
- of nkType: result = sameTypeOrNil(a.typ, b.typ)
- else:
- if a.len == b.len:
- for i in 0..<a.len:
- if not sameTrees(a[i], b[i]): return
- result = true
- else:
- result = false
- else:
- result = false
- proc inSymChoice(sc, x: PNode): bool =
- if sc.kind == nkClosedSymChoice:
- result = false
- for i in 0..<sc.len:
- if sc[i].sym == x.sym: return true
- elif sc.kind == nkOpenSymChoice:
- # same name suffices for open sym choices!
- result = sc[0].sym.name.id == x.sym.name.id
- else:
- result = false
- proc checkTypes(c: PPatternContext, p: PSym, n: PNode): bool =
- # check param constraints first here as this is quite optimized:
- if p.constraint != nil:
- result = matchNodeKinds(p.constraint, n)
- if not result: return
- if isNil(n.typ):
- result = p.typ.kind in {tyVoid, tyTyped}
- else:
- result = sigmatch.argtypeMatches(c.c, p.typ, n.typ, fromHlo = true)
- proc isPatternParam(c: PPatternContext, p: PNode): bool {.inline.} =
- result = p.kind == nkSym and p.sym.kind == skParam and p.sym.owner == c.owner
- proc matchChoice(c: PPatternContext, p, n: PNode): bool =
- result = false
- for i in 1..<p.len:
- if matches(c, p[i], n): return true
- proc bindOrCheck(c: PPatternContext, param: PSym, n: PNode): bool =
- var pp = getLazy(c, param)
- if pp != nil:
- # check if we got the same pattern (already unified):
- result = sameTrees(pp, n) #matches(c, pp, n)
- elif n.kind == nkArgList or checkTypes(c, param, n):
- putLazy(c, param, n)
- result = true
- else:
- result = false
- proc gather(c: PPatternContext, param: PSym, n: PNode) =
- var pp = getLazy(c, param)
- if pp != nil and pp.kind == nkArgList:
- pp.add(n)
- else:
- pp = newNodeI(nkArgList, n.info, 1)
- pp[0] = n
- putLazy(c, param, pp)
- proc matchNested(c: PPatternContext, p, n: PNode, rpn: bool): bool =
- # match ``op * param`` or ``op *| param``
- proc matchStarAux(c: PPatternContext, op, n, arglist: PNode,
- rpn: bool): bool =
- result = true
- if n.kind in nkCallKinds and matches(c, op[1], n[0]):
- for i in 1..<n.len:
- if not matchStarAux(c, op, n[i], arglist, rpn): return false
- if rpn: arglist.add(n[0])
- elif n.kind == nkHiddenStdConv and n[1].kind == nkBracket:
- let n = n[1]
- for i in 0..<n.len:
- if not matchStarAux(c, op, n[i], arglist, rpn): return false
- elif checkTypes(c, p[2].sym, n):
- arglist.add(n)
- else:
- result = false
- if n.kind notin nkCallKinds: return false
- if matches(c, p[1], n[0]):
- var arglist = newNodeI(nkArgList, n.info)
- if matchStarAux(c, p, n, arglist, rpn):
- result = bindOrCheck(c, p[2].sym, arglist)
- else:
- result = false
- else:
- result = false
- proc matches(c: PPatternContext, p, n: PNode): bool =
- let n = skipHidden(n)
- if nfNoRewrite in n.flags:
- result = false
- elif isPatternParam(c, p):
- result = bindOrCheck(c, p.sym, n)
- elif n.kind == nkSym and p.kind == nkIdent:
- result = p.ident.id == n.sym.name.id
- elif n.kind == nkSym and inSymChoice(p, n):
- result = true
- elif n.kind == nkSym and n.sym.kind == skConst:
- # try both:
- if p.kind == nkSym: result = p.sym == n.sym
- elif matches(c, p, n.sym.astdef): result = true
- else: result = false
- elif p.kind == nkPattern:
- # pattern operators: | *
- let opr = p[0].ident.s
- case opr
- of "|": result = matchChoice(c, p, n)
- of "*": result = matchNested(c, p, n, rpn=false)
- of "**": result = matchNested(c, p, n, rpn=true)
- of "~": result = not matches(c, p[1], n)
- else:
- result = false
- doAssert(false, "invalid pattern")
- # template {add(a, `&` * b)}(a: string{noalias}, b: varargs[string]) =
- # a.add(b)
- elif p.kind == nkCurlyExpr:
- if p[1].kind == nkPrefix:
- if matches(c, p[0], n):
- gather(c, p[1][1].sym, n)
- result = true
- else:
- result = false
- else:
- assert isPatternParam(c, p[1])
- if matches(c, p[0], n):
- result = bindOrCheck(c, p[1].sym, n)
- else:
- result = false
- elif sameKinds(p, n):
- case p.kind
- of nkSym: result = p.sym == n.sym
- of nkIdent: result = p.ident.id == n.ident.id
- of nkCharLit..nkInt64Lit: result = p.intVal == n.intVal
- of nkFloatLit..nkFloat64Lit: result = p.floatVal == n.floatVal
- of nkStrLit..nkTripleStrLit: result = p.strVal == n.strVal
- of nkEmpty, nkNilLit, nkType:
- result = true
- else:
- # special rule for p(X) ~ f(...); this also works for stuff like
- # partial case statements, etc! - Not really ... :-/
- result = false
- let v = lastSon(p)
- if isPatternParam(c, v) and v.sym.typ.kind == tyVarargs:
- var arglist: PNode
- if p.len <= n.len:
- for i in 0..<p.len - 1:
- if not matches(c, p[i], n[i]): return
- if p.len == n.len and lastSon(n).kind == nkHiddenStdConv and
- lastSon(n)[1].kind == nkBracket:
- # unpack varargs:
- let n = lastSon(n)[1]
- arglist = newNodeI(nkArgList, n.info, n.len)
- for i in 0..<n.len: arglist[i] = n[i]
- else:
- arglist = newNodeI(nkArgList, n.info, n.len - p.len + 1)
- # f(1, 2, 3)
- # p(X)
- for i in 0..n.len - p.len:
- arglist[i] = n[i + p.len - 1]
- return bindOrCheck(c, v.sym, arglist)
- elif p.len-1 == n.len:
- for i in 0..<p.len - 1:
- if not matches(c, p[i], n[i]): return
- arglist = newNodeI(nkArgList, n.info)
- return bindOrCheck(c, v.sym, arglist)
- if p.len == n.len:
- for i in 0..<p.len:
- if not matches(c, p[i], n[i]): return
- result = true
- else:
- result = false
- proc matchStmtList(c: PPatternContext, p, n: PNode): PNode =
- proc matchRange(c: PPatternContext, p, n: PNode, i: int): bool =
- for j in 0..<p.len:
- if not matches(c, p[j], n[i+j]):
- # we need to undo any bindings:
- c.mapping = @[]
- c.mappingIsFull = false
- return false
- result = true
- if p.kind == nkStmtList and n.kind == p.kind and p.len < n.len:
- result = nil
- let n = flattenStmts(n)
- # no need to flatten 'p' here as that has already been done
- for i in 0..n.len - p.len:
- if matchRange(c, p, n, i):
- c.subMatch = true
- result = newNodeI(nkStmtList, n.info, 3)
- result[0] = extractRange(nkStmtList, n, 0, i-1)
- result[1] = extractRange(nkStmtList, n, i, i+p.len-1)
- result[2] = extractRange(nkStmtList, n, i+p.len, n.len-1)
- break
- elif matches(c, p, n):
- result = n
- else:
- result = nil
- proc aliasAnalysisRequested(params: PNode): bool =
- result = false
- if params.len >= 2:
- for i in 1..<params.len:
- let param = params[i].sym
- if whichAlias(param) != aqNone: return true
- proc addToArgList(result, n: PNode) =
- if n.typ != nil and n.typ.kind != tyTyped:
- if n.kind != nkArgList: result.add(n)
- else:
- for i in 0..<n.len: result.add(n[i])
- proc applyRule*(c: PContext, s: PSym, n: PNode): PNode =
- ## returns a tree to semcheck if the rule triggered; nil otherwise
- var ctx: TPatternContext
- ctx.owner = s
- ctx.c = c
- ctx.formals = s.typ.len-1
- var m = matchStmtList(ctx, s.ast[patternPos], n)
- if isNil(m): return nil
- # each parameter should have been bound; we simply setup a call and
- # let semantic checking deal with the rest :-)
- result = newNodeI(nkCall, n.info)
- result.add(newSymNode(s, n.info))
- let params = s.typ.n
- let requiresAA = aliasAnalysisRequested(params)
- var args: PNode =
- if requiresAA:
- newNodeI(nkArgList, n.info)
- else:
- nil
- for i in 1..<params.len:
- let param = params[i].sym
- let x = getLazy(ctx, param)
- # couldn't bind parameter:
- if isNil(x): return nil
- result.add(x)
- if requiresAA: addToArgList(args, x)
- # perform alias analysis here:
- if requiresAA:
- for i in 1..<params.len:
- var rs = result[i]
- let param = params[i].sym
- case whichAlias(param)
- of aqNone: discard
- of aqShouldAlias:
- # it suffices that it aliases for sure with *some* other param:
- var ok = false
- for arg in items(args):
- if arg != rs and aliases.isPartOf(rs, arg) == arYes:
- ok = true
- break
- # constraint not fulfilled:
- if not ok: return nil
- of aqNoAlias:
- # it MUST not alias with any other param:
- var ok = true
- for arg in items(args):
- if arg != rs and aliases.isPartOf(rs, arg) != arNo:
- ok = false
- break
- # constraint not fulfilled:
- if not ok: return nil
- markUsed(c, n.info, s)
- if ctx.subMatch:
- assert m.len == 3
- m[1] = result
- result = m
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