123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361 |
- #
- #
- # 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, msgs, idents, renderer, wordrecg, trees,
- options
- import std/strutils
- # we precompile the pattern here for efficiency into some internal
- # stack based VM :-) Why? Because it's fun; I did no benchmarks to see if that
- # actually improves performance.
- type
- TAliasRequest* = enum # first byte of the bytecode determines alias checking
- aqNone = 1, # no alias analysis requested
- aqShouldAlias, # with some other param
- aqNoAlias # request noalias
- TOpcode = enum
- ppEof = 1, # end of compiled pattern
- ppOr, # we could short-cut the evaluation for 'and' and 'or',
- ppAnd, # but currently we don't
- ppNot,
- ppSym,
- ppAtom,
- ppLit,
- ppIdent,
- ppCall,
- ppSymKind,
- ppNodeKind,
- ppLValue,
- ppLocal,
- ppSideEffect,
- ppNoSideEffect
- TPatternCode = string
- const
- MaxStackSize* = 64 ## max required stack size by the VM
- proc patternError(n: PNode; conf: ConfigRef) =
- localError(conf, n.info, "illformed AST: " & renderTree(n, {renderNoComments}))
- proc add(code: var TPatternCode, op: TOpcode) {.inline.} =
- code.add chr(ord(op))
- proc whichAlias*(p: PSym): TAliasRequest =
- if p.constraint != nil:
- result = TAliasRequest(p.constraint.strVal[0].ord)
- else:
- result = aqNone
- proc compileConstraints(p: PNode, result: var TPatternCode; conf: ConfigRef) =
- case p.kind
- of nkCallKinds:
- if p[0].kind != nkIdent:
- patternError(p[0], conf)
- return
- let op = p[0].ident
- if p.len == 3:
- if op.s == "|" or op.id == ord(wOr):
- compileConstraints(p[1], result, conf)
- compileConstraints(p[2], result, conf)
- result.add(ppOr)
- elif op.s == "&" or op.id == ord(wAnd):
- compileConstraints(p[1], result, conf)
- compileConstraints(p[2], result, conf)
- result.add(ppAnd)
- else:
- patternError(p, conf)
- elif p.len == 2 and (op.s == "~" or op.id == ord(wNot)):
- compileConstraints(p[1], result, conf)
- result.add(ppNot)
- else:
- patternError(p, conf)
- of nkAccQuoted, nkPar:
- if p.len == 1:
- compileConstraints(p[0], result, conf)
- else:
- patternError(p, conf)
- of nkIdent:
- let spec = p.ident.s.normalize
- case spec
- of "atom": result.add(ppAtom)
- of "lit": result.add(ppLit)
- of "sym": result.add(ppSym)
- of "ident": result.add(ppIdent)
- of "call": result.add(ppCall)
- of "alias": result[0] = chr(aqShouldAlias.ord)
- of "noalias": result[0] = chr(aqNoAlias.ord)
- of "lvalue": result.add(ppLValue)
- of "local": result.add(ppLocal)
- of "sideeffect": result.add(ppSideEffect)
- of "nosideeffect": result.add(ppNoSideEffect)
- else:
- # check all symkinds:
- internalAssert conf, int(high(TSymKind)) < 255
- for i in TSymKind:
- if cmpIgnoreStyle(i.toHumanStr, spec) == 0:
- result.add(ppSymKind)
- result.add(chr(i.ord))
- return
- # check all nodekinds:
- internalAssert conf, int(high(TNodeKind)) < 255
- for i in TNodeKind:
- if cmpIgnoreStyle($i, spec) == 0:
- result.add(ppNodeKind)
- result.add(chr(i.ord))
- return
- patternError(p, conf)
- else:
- patternError(p, conf)
- proc semNodeKindConstraints*(n: PNode; conf: ConfigRef; start: Natural): PNode =
- ## does semantic checking for a node kind pattern and compiles it into an
- ## efficient internal format.
- result = newNodeI(nkStrLit, n.info)
- result.strVal = newStringOfCap(10)
- result.strVal.add(chr(aqNone.ord))
- if n.len >= 2:
- for i in start..<n.len:
- compileConstraints(n[i], result.strVal, conf)
- if result.strVal.len > MaxStackSize-1:
- internalError(conf, n.info, "parameter pattern too complex")
- else:
- patternError(n, conf)
- result.strVal.add(ppEof)
- type
- TSideEffectAnalysis* = enum
- seUnknown, seSideEffect, seNoSideEffect
- proc checkForSideEffects*(n: PNode): TSideEffectAnalysis =
- case n.kind
- of nkCallKinds:
- # only calls can produce side effects:
- let op = n[0]
- if op.kind == nkSym and isRoutine(op.sym):
- let s = op.sym
- if sfSideEffect in s.flags:
- return seSideEffect
- elif tfNoSideEffect in op.typ.flags:
- result = seNoSideEffect
- else:
- # assume side effect:
- result = seSideEffect
- elif tfNoSideEffect in op.typ.flags:
- # indirect call without side effects:
- result = seNoSideEffect
- else:
- # indirect call: assume side effect:
- return seSideEffect
- # we need to check n[0] too: (FwithSideEffectButReturnsProcWithout)(args)
- for i in 0..<n.len:
- let ret = checkForSideEffects(n[i])
- if ret == seSideEffect: return ret
- elif ret == seUnknown and result == seNoSideEffect:
- result = seUnknown
- of nkNone..nkNilLit:
- # an atom cannot produce a side effect:
- result = seNoSideEffect
- else:
- # assume no side effect:
- result = seNoSideEffect
- for i in 0..<n.len:
- let ret = checkForSideEffects(n[i])
- if ret == seSideEffect: return ret
- elif ret == seUnknown and result == seNoSideEffect:
- result = seUnknown
- type
- TAssignableResult* = enum
- arNone, # no l-value and no discriminant
- arLValue, # is an l-value
- arLocalLValue, # is an l-value, but local var; must not escape
- # its stack frame!
- arDiscriminant, # is a discriminant
- arAddressableConst, # an addressable const
- arLentValue, # lent value
- arStrange # it is a strange beast like 'typedesc[var T]'
- proc exprRoot*(n: PNode; allowCalls = true): PSym =
- result = nil
- var it = n
- while true:
- case it.kind
- of nkSym: return it.sym
- of nkHiddenDeref, nkDerefExpr:
- if it[0].typ.skipTypes(abstractInst).kind in {tyPtr, tyRef}:
- # 'ptr' is unsafe anyway and 'ref' is always on the heap,
- # so allow these derefs:
- break
- else:
- it = it[0]
- of nkDotExpr, nkBracketExpr, nkHiddenAddr,
- nkObjUpConv, nkObjDownConv, nkCheckedFieldExpr:
- it = it[0]
- of nkHiddenStdConv, nkHiddenSubConv, nkConv:
- it = it[1]
- of nkStmtList, nkStmtListExpr:
- if it.len > 0 and it.typ != nil: it = it.lastSon
- else: break
- of nkCallKinds:
- if allowCalls and it.typ != nil and it.typ.kind in {tyVar, tyLent} and it.len > 1:
- # See RFC #7373, calls returning 'var T' are assumed to
- # return a view into the first argument (if there is one):
- it = it[1]
- else:
- break
- else:
- break
- proc isAssignable*(owner: PSym, n: PNode): TAssignableResult =
- ## 'owner' can be nil!
- result = arNone
- case n.kind
- of nkEmpty:
- if n.typ != nil and n.typ.kind in {tyVar}:
- result = arLValue
- of nkSym:
- const kinds = {skVar, skResult, skTemp, skParam, skLet, skForVar}
- if n.sym.kind == skParam:
- result = if n.sym.typ.kind in {tyVar, tySink}: arLValue else: arAddressableConst
- elif n.sym.kind == skConst and dontInlineConstant(n, n.sym.astdef):
- result = arAddressableConst
- elif n.sym.kind in kinds:
- if n.sym.kind in {skParam, skLet, skForVar}:
- result = arAddressableConst
- else:
- if owner != nil and owner == n.sym.owner and
- sfGlobal notin n.sym.flags:
- result = arLocalLValue
- else:
- result = arLValue
- elif n.sym.kind == skType:
- let t = n.sym.typ.skipTypes({tyTypeDesc})
- if t.kind in {tyVar}: result = arStrange
- of nkDotExpr:
- let t = skipTypes(n[0].typ, abstractInst-{tyTypeDesc})
- if t.kind in {tyVar, tySink, tyPtr, tyRef}:
- result = arLValue
- elif t.kind == tyLent:
- result = arAddressableConst
- else:
- result = isAssignable(owner, n[0])
- if result != arNone and n[1].kind == nkSym and
- sfDiscriminant in n[1].sym.flags:
- result = arDiscriminant
- of nkBracketExpr:
- let t = skipTypes(n[0].typ, abstractInst-{tyTypeDesc})
- if t.kind in {tyVar, tySink, tyPtr, tyRef}:
- result = arLValue
- elif t.kind == tyLent:
- result = arAddressableConst
- else:
- result = isAssignable(owner, n[0])
- of nkHiddenStdConv, nkHiddenSubConv, nkConv:
- # Object and tuple conversions are still addressable, so we skip them
- # XXX why is 'tyOpenArray' allowed here?
- if skipTypes(n.typ, abstractPtrs-{tyTypeDesc}).kind in
- {tyOpenArray, tyTuple, tyObject}:
- result = isAssignable(owner, n[1])
- elif compareTypes(n.typ, n[1].typ, dcEqIgnoreDistinct, {IgnoreRangeShallow}):
- # types that are equal modulo distinction preserve l-value:
- result = isAssignable(owner, n[1])
- of nkHiddenDeref:
- let n0 = n[0]
- if n0.typ.kind == tyLent:
- if n0.kind == nkSym and n0.sym.kind == skResult:
- result = arLValue
- else:
- result = arLentValue
- else:
- result = arLValue
- of nkDerefExpr, nkHiddenAddr:
- result = arLValue
- of nkObjUpConv, nkObjDownConv, nkCheckedFieldExpr:
- result = isAssignable(owner, n[0])
- of nkCallKinds:
- let m = getMagic(n)
- if m == mSlice:
- # builtin slice keeps l-value-ness
- # except for pointers because slice dereferences
- if n[1].typ.kind == tyPtr:
- result = arLValue
- else:
- result = isAssignable(owner, n[1])
- elif m == mArrGet:
- result = isAssignable(owner, n[1])
- elif n.typ != nil:
- case n.typ.kind
- of tyVar: result = arLValue
- of tyLent: result = arLentValue
- else: discard
- of nkStmtList, nkStmtListExpr:
- if n.typ != nil:
- result = isAssignable(owner, n.lastSon)
- of nkVarTy:
- # XXX: The fact that this is here is a bit of a hack.
- # The goal is to allow the use of checks such as "foo(var T)"
- # within concepts. Semantically, it's not correct to say that
- # nkVarTy denotes an lvalue, but the example above is the only
- # possible code which will get us here
- result = arLValue
- else:
- discard
- proc isLValue*(n: PNode): bool =
- isAssignable(nil, n) in {arLValue, arLocalLValue, arStrange}
- proc matchNodeKinds*(p, n: PNode): bool =
- # matches the parameter constraint 'p' against the concrete AST 'n'.
- # Efficiency matters here.
- var stack {.noinit.}: array[0..MaxStackSize, bool]
- # empty patterns are true:
- stack[0] = true
- var sp = 1
- template push(x: bool) =
- stack[sp] = x
- inc sp
- let code = p.strVal
- var pc = 1
- while true:
- case TOpcode(code[pc])
- of ppEof: break
- of ppOr:
- stack[sp-2] = stack[sp-1] or stack[sp-2]
- dec sp
- of ppAnd:
- stack[sp-2] = stack[sp-1] and stack[sp-2]
- dec sp
- of ppNot: stack[sp-1] = not stack[sp-1]
- of ppSym: push n.kind == nkSym
- of ppAtom: push isAtom(n)
- of ppLit: push n.kind in {nkCharLit..nkNilLit}
- of ppIdent: push n.kind == nkIdent
- of ppCall: push n.kind in nkCallKinds
- of ppSymKind:
- let kind = TSymKind(code[pc+1])
- push n.kind == nkSym and n.sym.kind == kind
- inc pc
- of ppNodeKind:
- let kind = TNodeKind(code[pc+1])
- push n.kind == kind
- inc pc
- of ppLValue: push isAssignable(nil, n) in {arLValue, arLocalLValue}
- of ppLocal: push isAssignable(nil, n) == arLocalLValue
- of ppSideEffect: push checkForSideEffects(n) == seSideEffect
- of ppNoSideEffect: push checkForSideEffects(n) != seSideEffect
- inc pc
- result = stack[sp-1]
|