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- #
- #
- # The Nim Compiler
- # (c) Copyright 2015 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- ## This module implements lifting for type-bound operations
- ## (``=sink``, ``=``, ``=destroy``, ``=deepCopy``).
- # included from sem.nim
- type
- TLiftCtx = object
- c: PContext
- info: TLineInfo # for construction
- kind: TTypeAttachedOp
- fn: PSym
- asgnForType: PType
- recurse: bool
- proc liftBodyAux(c: var TLiftCtx; t: PType; body, x, y: PNode)
- proc liftBody(c: PContext; typ: PType; kind: TTypeAttachedOp;
- info: TLineInfo): PSym {.discardable.}
- proc at(a, i: PNode, elemType: PType): PNode =
- result = newNodeI(nkBracketExpr, a.info, 2)
- result.sons[0] = a
- result.sons[1] = i
- result.typ = elemType
- proc liftBodyTup(c: var TLiftCtx; t: PType; body, x, y: PNode) =
- for i in 0 ..< t.len:
- let lit = lowerings.newIntLit(c.c.graph, x.info, i)
- liftBodyAux(c, t.sons[i], body, x.at(lit, t.sons[i]), y.at(lit, t.sons[i]))
- proc dotField(x: PNode, f: PSym): PNode =
- result = newNodeI(nkDotExpr, x.info, 2)
- result.sons[0] = x
- result.sons[1] = newSymNode(f, x.info)
- result.typ = f.typ
- proc liftBodyObj(c: var TLiftCtx; n, body, x, y: PNode) =
- case n.kind
- of nkSym:
- let f = n.sym
- liftBodyAux(c, f.typ, body, x.dotField(f), y.dotField(f))
- of nkNilLit: discard
- of nkRecCase:
- # copy the selector:
- liftBodyObj(c, n[0], body, x, y)
- # we need to generate a case statement:
- var caseStmt = newNodeI(nkCaseStmt, c.info)
- # XXX generate 'if' that checks same branches
- # generate selector:
- var access = dotField(x, n[0].sym)
- caseStmt.add(access)
- # copy the branches over, but replace the fields with the for loop body:
- for i in 1 ..< n.len:
- var branch = copyTree(n[i])
- let L = branch.len
- branch.sons[L-1] = newNodeI(nkStmtList, c.info)
- liftBodyObj(c, n[i].lastSon, branch.sons[L-1], x, y)
- caseStmt.add(branch)
- body.add(caseStmt)
- localError(c.c.config, c.info, "cannot lift assignment operator to 'case' object")
- of nkRecList:
- for t in items(n): liftBodyObj(c, t, body, x, y)
- else:
- illFormedAstLocal(n, c.c.config)
- proc genAddr(c: PContext; x: PNode): PNode =
- if x.kind == nkHiddenDeref:
- checkSonsLen(x, 1, c.config)
- result = x.sons[0]
- else:
- result = newNodeIT(nkHiddenAddr, x.info, makeVarType(c, x.typ))
- addSon(result, x)
- proc newAsgnCall(c: PContext; op: PSym; x, y: PNode): PNode =
- #if sfError in op.flags:
- # localError(c.config, x.info, "usage of '$1' is a user-defined error" % op.name.s)
- result = newNodeI(nkCall, x.info)
- result.add newSymNode(op)
- result.add genAddr(c, x)
- result.add y
- proc newAsgnStmt(le, ri: PNode): PNode =
- result = newNodeI(nkAsgn, le.info, 2)
- result.sons[0] = le
- result.sons[1] = ri
- proc newOpCall(op: PSym; x: PNode): PNode =
- result = newNodeIT(nkCall, x.info, op.typ.sons[0])
- result.add(newSymNode(op))
- result.add x
- proc destructorCall(c: PContext; op: PSym; x: PNode): PNode =
- result = newNodeIT(nkCall, x.info, op.typ.sons[0])
- result.add(newSymNode(op))
- result.add genAddr(c, x)
- proc newDeepCopyCall(op: PSym; x, y: PNode): PNode =
- result = newAsgnStmt(x, newOpCall(op, y))
- proc considerAsgnOrSink(c: var TLiftCtx; t: PType; body, x, y: PNode;
- field: PSym): bool =
- if tfHasAsgn in t.flags:
- var op: PSym
- if sameType(t, c.asgnForType):
- # generate recursive call:
- if c.recurse:
- op = c.fn
- else:
- c.recurse = true
- return false
- else:
- op = field
- if op == nil:
- op = liftBody(c.c, t, c.kind, c.info)
- if sfError in op.flags:
- incl c.fn.flags, sfError
- else:
- markUsed(c.c.config, c.info, op, c.c.graph.usageSym)
- onUse(c.info, op)
- body.add newAsgnCall(c.c, op, x, y)
- result = true
- proc considerOverloadedOp(c: var TLiftCtx; t: PType; body, x, y: PNode): bool =
- case c.kind
- of attachedDestructor:
- let op = t.destructor
- if op != nil:
- markUsed(c.c.config, c.info, op, c.c.graph.usageSym)
- onUse(c.info, op)
- body.add destructorCall(c.c, op, x)
- result = true
- of attachedAsgn:
- result = considerAsgnOrSink(c, t, body, x, y, t.assignment)
- of attachedSink:
- result = considerAsgnOrSink(c, t, body, x, y, t.sink)
- of attachedDeepCopy:
- let op = t.deepCopy
- if op != nil:
- markUsed(c.c.config, c.info, op, c.c.graph.usageSym)
- onUse(c.info, op)
- body.add newDeepCopyCall(op, x, y)
- result = true
- proc defaultOp(c: var TLiftCtx; t: PType; body, x, y: PNode) =
- if c.kind != attachedDestructor:
- body.add newAsgnStmt(x, y)
- proc addVar(father, v, value: PNode) =
- var vpart = newNodeI(nkIdentDefs, v.info, 3)
- vpart.sons[0] = v
- vpart.sons[1] = newNodeI(nkEmpty, v.info)
- vpart.sons[2] = value
- addSon(father, vpart)
- proc declareCounter(c: var TLiftCtx; body: PNode; first: BiggestInt): PNode =
- var temp = newSym(skTemp, getIdent(c.c.cache, lowerings.genPrefix), c.fn, c.info)
- temp.typ = getSysType(c.c.graph, body.info, tyInt)
- incl(temp.flags, sfFromGeneric)
- var v = newNodeI(nkVarSection, c.info)
- result = newSymNode(temp)
- v.addVar(result, lowerings.newIntLit(c.c.graph, body.info, first))
- body.add v
- proc genBuiltin(g: ModuleGraph; magic: TMagic; name: string; i: PNode): PNode =
- result = newNodeI(nkCall, i.info)
- result.add createMagic(g, name, magic).newSymNode
- result.add i
- proc genWhileLoop(c: var TLiftCtx; i, dest: PNode): PNode =
- result = newNodeI(nkWhileStmt, c.info, 2)
- let cmp = genBuiltin(c.c.graph, mLeI, "<=", i)
- cmp.add genHigh(c.c.graph, dest)
- cmp.typ = getSysType(c.c.graph, c.info, tyBool)
- result.sons[0] = cmp
- result.sons[1] = newNodeI(nkStmtList, c.info)
- proc addIncStmt(c: var TLiftCtx; body, i: PNode) =
- let incCall = genBuiltin(c.c.graph, mInc, "inc", i)
- incCall.add lowerings.newIntLit(c.c.graph, c.info, 1)
- body.add incCall
- proc newSeqCall(c: PContext; x, y: PNode): PNode =
- # don't call genAddr(c, x) here:
- result = genBuiltin(c.graph, mNewSeq, "newSeq", x)
- let lenCall = genBuiltin(c.graph, mLengthSeq, "len", y)
- lenCall.typ = getSysType(c.graph, x.info, tyInt)
- result.add lenCall
- proc liftBodyAux(c: var TLiftCtx; t: PType; body, x, y: PNode) =
- case t.kind
- of tyNone, tyEmpty, tyVoid: discard
- of tyPointer, tySet, tyBool, tyChar, tyEnum, tyInt..tyUInt64, tyCString,
- tyPtr, tyRef, tyOpt, tyUncheckedArray:
- defaultOp(c, t, body, x, y)
- of tyArray:
- if tfHasAsgn in t.flags:
- let i = declareCounter(c, body, firstOrd(c.c.config, t))
- let whileLoop = genWhileLoop(c, i, x)
- let elemType = t.lastSon
- liftBodyAux(c, elemType, whileLoop.sons[1], x.at(i, elemType),
- y.at(i, elemType))
- addIncStmt(c, whileLoop.sons[1], i)
- body.add whileLoop
- else:
- defaultOp(c, t, body, x, y)
- of tySequence:
- # note that tfHasAsgn is propagated so we need the check on
- # 'selectedGC' here to determine if we have the new runtime.
- if c.c.config.selectedGC == gcDestructors:
- discard considerOverloadedOp(c, t, body, x, y)
- elif tfHasAsgn in t.flags:
- if c.kind != attachedDestructor:
- body.add newSeqCall(c.c, x, y)
- let i = declareCounter(c, body, firstOrd(c.c.config, t))
- let whileLoop = genWhileLoop(c, i, x)
- let elemType = t.lastSon
- liftBodyAux(c, elemType, whileLoop.sons[1], x.at(i, elemType),
- y.at(i, elemType))
- addIncStmt(c, whileLoop.sons[1], i)
- body.add whileLoop
- else:
- defaultOp(c, t, body, x, y)
- of tyString:
- if tfHasAsgn in t.flags:
- discard considerOverloadedOp(c, t, body, x, y)
- else:
- defaultOp(c, t, body, x, y)
- of tyObject, tyDistinct:
- if not considerOverloadedOp(c, t, body, x, y):
- if t.sons[0] != nil:
- liftBodyAux(c, t.sons[0].skipTypes(skipPtrs), body, x, y)
- if t.kind == tyObject: liftBodyObj(c, t.n, body, x, y)
- of tyTuple:
- liftBodyTup(c, t, body, x, y)
- of tyProc:
- if t.callConv != ccClosure or c.kind != attachedDeepCopy:
- defaultOp(c, t, body, x, y)
- else:
- # a big problem is that we don't know the enviroment's type here, so we
- # have to go through some indirection; we delegate this to the codegen:
- let call = newNodeI(nkCall, c.info, 2)
- call.typ = t
- call.sons[0] = newSymNode(createMagic(c.c.graph, "deepCopy", mDeepCopy))
- call.sons[1] = y
- body.add newAsgnStmt(x, call)
- of tyVarargs, tyOpenArray:
- localError(c.c.config, c.info, "cannot copy openArray")
- of tyFromExpr, tyProxy, tyBuiltInTypeClass, tyUserTypeClass,
- tyUserTypeClassInst, tyCompositeTypeClass, tyAnd, tyOr, tyNot, tyAnything,
- tyGenericParam, tyGenericBody, tyNil, tyExpr, tyStmt,
- tyTypeDesc, tyGenericInvocation, tyForward:
- internalError(c.c.config, c.info, "assignment requested for type: " & typeToString(t))
- of tyOrdinal, tyRange, tyInferred,
- tyGenericInst, tyStatic, tyVar, tyLent, tyAlias, tySink:
- liftBodyAux(c, lastSon(t), body, x, y)
- of tyOptAsRef: internalError(c.c.config, "liftBodyAux")
- proc newProcType(info: TLineInfo; owner: PSym): PType =
- result = newType(tyProc, owner)
- result.n = newNodeI(nkFormalParams, info)
- rawAddSon(result, nil) # return type
- # result.n[0] used to be `nkType`, but now it's `nkEffectList` because
- # the effects are now stored in there too ... this is a bit hacky, but as
- # usual we desperately try to save memory:
- addSon(result.n, newNodeI(nkEffectList, info))
- proc addParam(procType: PType; param: PSym) =
- param.position = procType.len-1
- addSon(procType.n, newSymNode(param))
- rawAddSon(procType, param.typ)
- proc liftBody(c: PContext; typ: PType; kind: TTypeAttachedOp;
- info: TLineInfo): PSym =
- var a: TLiftCtx
- a.info = info
- a.c = c
- a.kind = kind
- let body = newNodeI(nkStmtList, info)
- let procname = case kind
- of attachedAsgn: getIdent(c.cache, "=")
- of attachedSink: getIdent(c.cache, "=sink")
- of attachedDeepCopy: getIdent(c.cache, "=deepcopy")
- of attachedDestructor: getIdent(c.cache, "=destroy")
- result = newSym(skProc, procname, typ.owner, info)
- a.fn = result
- a.asgnForType = typ
- let dest = newSym(skParam, getIdent(c.cache, "dest"), result, info)
- let src = newSym(skParam, getIdent(c.cache, "src"), result, info)
- dest.typ = makeVarType(c, typ)
- src.typ = typ
- result.typ = newProcType(info, typ.owner)
- result.typ.addParam dest
- if kind != attachedDestructor:
- result.typ.addParam src
- liftBodyAux(a, typ, body, newSymNode(dest).newDeref, newSymNode(src))
- # recursion is handled explicitly, do not register the type based operation
- # before 'liftBodyAux':
- if c.config.selectedGC == gcDestructors and
- typ.kind in {tySequence, tyString} and body.len == 0:
- discard "do not cache it yet"
- else:
- case kind
- of attachedAsgn: typ.assignment = result
- of attachedSink: typ.sink = result
- of attachedDeepCopy: typ.deepCopy = result
- of attachedDestructor: typ.destructor = result
- var n = newNodeI(nkProcDef, info, bodyPos+1)
- for i in 0 ..< n.len: n.sons[i] = newNodeI(nkEmpty, info)
- n.sons[namePos] = newSymNode(result)
- n.sons[paramsPos] = result.typ.n
- n.sons[bodyPos] = body
- result.ast = n
- incl result.flags, sfFromGeneric
- proc getAsgnOrLiftBody(c: PContext; typ: PType; info: TLineInfo): PSym =
- let t = typ.skipTypes({tyGenericInst, tyVar, tyLent, tyAlias, tySink})
- result = t.assignment
- if result.isNil:
- result = liftBody(c, t, attachedAsgn, info)
- proc overloadedAsgn(c: PContext; dest, src: PNode): PNode =
- let a = getAsgnOrLiftBody(c, dest.typ, dest.info)
- result = newAsgnCall(c, a, dest, src)
- proc liftTypeBoundOps*(c: PContext; typ: PType; info: TLineInfo) =
- ## In the semantic pass this is called in strategic places
- ## to ensure we lift assignment, destructors and moves properly.
- ## The later 'destroyer' pass depends on it.
- if not hasDestructor(typ): return
- when false:
- # do not produce wrong liftings while we're still instantiating generics:
- # now disabled; breaks topttree.nim!
- if c.typesWithOps.len > 0: return
- let typ = typ.skipTypes({tyGenericInst, tyAlias})
- # we generate the destructor first so that other operators can depend on it:
- if typ.destructor == nil:
- liftBody(c, typ, attachedDestructor, info)
- if typ.assignment == nil:
- liftBody(c, typ, attachedAsgn, info)
- if typ.sink == nil:
- liftBody(c, typ, attachedSink, info)
- #proc patchResolvedTypeBoundOp*(c: PContext; n: PNode): PNode =
- # if n.kind == nkCall and
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