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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 threadpool's ``spawn``.
- import ast, types, idents, magicsys, msgs, options, modulegraphs,
- lowerings, liftdestructors, renderer
- from trees import getMagic, getRoot
- proc callProc(a: PNode): PNode =
- result = newNodeI(nkCall, a.info)
- result.add a
- result.typ = a.typ[0]
- # we have 4 cases to consider:
- # - a void proc --> nothing to do
- # - a proc returning GC'ed memory --> requires a flowVar
- # - a proc returning non GC'ed memory --> pass as hidden 'var' parameter
- # - not in a parallel environment --> requires a flowVar for memory safety
- type
- TSpawnResult* = enum
- srVoid, srFlowVar, srByVar
- TFlowVarKind = enum
- fvInvalid # invalid type T for 'FlowVar[T]'
- fvGC # FlowVar of a GC'ed type
- fvBlob # FlowVar of a blob type
- proc spawnResult*(t: PType; inParallel: bool): TSpawnResult =
- if t.isEmptyType: srVoid
- elif inParallel and not containsGarbageCollectedRef(t): srByVar
- else: srFlowVar
- proc flowVarKind(c: ConfigRef, t: PType): TFlowVarKind =
- if c.selectedGC in {gcArc, gcOrc, gcAtomicArc}: fvBlob
- elif t.skipTypes(abstractInst).kind in {tyRef, tyString, tySequence}: fvGC
- elif containsGarbageCollectedRef(t): fvInvalid
- else: fvBlob
- proc typeNeedsNoDeepCopy(t: PType): bool =
- var t = t.skipTypes(abstractInst)
- # for the tconvexhull example (and others) we're a bit lax here and pretend
- # seqs and strings are *by value* only and 'shallow' doesn't exist!
- if t.kind == tyString: return true
- # note that seq[T] is fine, but 'var seq[T]' is not, so we need to skip 'var'
- # for the stricter check and likewise we can skip 'seq' for a less
- # strict check:
- if t.kind in {tyVar, tyLent, tySequence}: t = t.lastSon
- result = not containsGarbageCollectedRef(t)
- proc addLocalVar(g: ModuleGraph; varSection, varInit: PNode; idgen: IdGenerator; owner: PSym; typ: PType;
- v: PNode; useShallowCopy=false): PSym =
- result = newSym(skTemp, getIdent(g.cache, genPrefix), idgen, owner, varSection.info,
- owner.options)
- result.typ = typ
- incl(result.flags, sfFromGeneric)
- var vpart = newNodeI(nkIdentDefs, varSection.info, 3)
- vpart[0] = newSymNode(result)
- vpart[1] = newNodeI(nkEmpty, varSection.info)
- vpart[2] = if varInit.isNil: v else: vpart[1]
- varSection.add vpart
- if varInit != nil:
- if g.config.selectedGC in {gcArc, gcOrc, gcAtomicArc}:
- # inject destructors pass will do its own analysis
- varInit.add newFastMoveStmt(g, newSymNode(result), v)
- else:
- if useShallowCopy and typeNeedsNoDeepCopy(typ) or optTinyRtti in g.config.globalOptions:
- varInit.add newFastMoveStmt(g, newSymNode(result), v)
- else:
- let deepCopyCall = newNodeI(nkCall, varInit.info, 3)
- deepCopyCall[0] = newSymNode(getSysMagic(g, varSection.info, "deepCopy", mDeepCopy))
- deepCopyCall[1] = newSymNode(result)
- deepCopyCall[2] = v
- varInit.add deepCopyCall
- discard """
- We generate roughly this:
- proc f_wrapper(thread, args) =
- barrierEnter(args.barrier) # for parallel statement
- var a = args.a # thread transfer; deepCopy or shallowCopy or no copy
- # depending on whether we're in a 'parallel' statement
- var b = args.b
- var fv = args.fv
- fv.owner = thread # optional
- nimArgsPassingDone() # signal parent that the work is done
- #
- args.fv.blob = f(a, b, ...)
- nimFlowVarSignal(args.fv)
- # - or -
- f(a, b, ...)
- barrierLeave(args.barrier) # for parallel statement
- stmtList:
- var scratchObj
- scratchObj.a = a
- scratchObj.b = b
- nimSpawn(f_wrapper, addr scratchObj)
- scratchObj.fv # optional
- """
- proc createWrapperProc(g: ModuleGraph; f: PNode; threadParam, argsParam: PSym;
- varSection, varInit, call, barrier, fv: PNode;
- idgen: IdGenerator;
- spawnKind: TSpawnResult, result: PSym) =
- var body = newNodeI(nkStmtList, f.info)
- var threadLocalBarrier: PSym = nil
- if barrier != nil:
- var varSection2 = newNodeI(nkVarSection, barrier.info)
- threadLocalBarrier = addLocalVar(g, varSection2, nil, idgen, result,
- barrier.typ, barrier)
- body.add varSection2
- body.add callCodegenProc(g, "barrierEnter", threadLocalBarrier.info,
- threadLocalBarrier.newSymNode)
- var threadLocalProm: PSym = nil
- if spawnKind == srByVar:
- threadLocalProm = addLocalVar(g, varSection, nil, idgen, result, fv.typ, fv)
- elif fv != nil:
- internalAssert g.config, fv.typ.kind == tyGenericInst
- threadLocalProm = addLocalVar(g, varSection, nil, idgen, result, fv.typ, fv)
- body.add varSection
- body.add varInit
- if fv != nil and spawnKind != srByVar:
- # generate:
- # fv.owner = threadParam
- body.add newAsgnStmt(indirectAccess(threadLocalProm.newSymNode,
- "owner", fv.info, g.cache), threadParam.newSymNode)
- body.add callCodegenProc(g, "nimArgsPassingDone", threadParam.info,
- threadParam.newSymNode)
- if spawnKind == srByVar:
- body.add newAsgnStmt(genDeref(threadLocalProm.newSymNode), call)
- elif fv != nil:
- let fk = flowVarKind(g.config, fv.typ[1])
- if fk == fvInvalid:
- localError(g.config, f.info, "cannot create a flowVar of type: " &
- typeToString(fv.typ[1]))
- body.add newAsgnStmt(indirectAccess(threadLocalProm.newSymNode,
- if fk == fvGC: "data" else: "blob", fv.info, g.cache), call)
- if fk == fvGC:
- let incRefCall = newNodeI(nkCall, fv.info, 2)
- incRefCall[0] = newSymNode(getSysMagic(g, fv.info, "GCref", mGCref))
- incRefCall[1] = indirectAccess(threadLocalProm.newSymNode,
- "data", fv.info, g.cache)
- body.add incRefCall
- if barrier == nil:
- # by now 'fv' is shared and thus might have beeen overwritten! we need
- # to use the thread-local view instead:
- body.add callCodegenProc(g, "nimFlowVarSignal", threadLocalProm.info,
- threadLocalProm.newSymNode)
- else:
- body.add call
- if barrier != nil:
- body.add callCodegenProc(g, "barrierLeave", threadLocalBarrier.info,
- threadLocalBarrier.newSymNode)
- var params = newNodeI(nkFormalParams, f.info)
- params.add newNodeI(nkEmpty, f.info)
- params.add threadParam.newSymNode
- params.add argsParam.newSymNode
- var t = newType(tyProc, idgen, threadParam.owner)
- t.rawAddSon nil
- t.rawAddSon threadParam.typ
- t.rawAddSon argsParam.typ
- t.n = newNodeI(nkFormalParams, f.info)
- t.n.add newNodeI(nkEffectList, f.info)
- t.n.add threadParam.newSymNode
- t.n.add argsParam.newSymNode
- let emptyNode = newNodeI(nkEmpty, f.info)
- result.ast = newProcNode(nkProcDef, f.info, body = body,
- params = params, name = newSymNode(result), pattern = emptyNode,
- genericParams = emptyNode, pragmas = emptyNode,
- exceptions = emptyNode)
- result.typ = t
- proc createCastExpr(argsParam: PSym; objType: PType; idgen: IdGenerator): PNode =
- result = newNodeI(nkCast, argsParam.info)
- result.add newNodeI(nkEmpty, argsParam.info)
- result.add newSymNode(argsParam)
- result.typ = newType(tyPtr, idgen, objType.owner)
- result.typ.rawAddSon(objType)
- template checkMagicProcs(g: ModuleGraph, n: PNode, formal: PNode) =
- if (formal.typ.kind == tyVarargs and formal.typ[0].kind in {tyTyped, tyUntyped}) or
- formal.typ.kind in {tyTyped, tyUntyped}:
- localError(g.config, n.info, "'spawn'ed function cannot have a 'typed' or 'untyped' parameter")
- proc setupArgsForConcurrency(g: ModuleGraph; n: PNode; objType: PType;
- idgen: IdGenerator; owner: PSym; scratchObj: PSym,
- castExpr, call,
- varSection, varInit, result: PNode) =
- let formals = n[0].typ.n
- let tmpName = getIdent(g.cache, genPrefix)
- for i in 1..<n.len:
- # we pick n's type here, which hopefully is 'tyArray' and not
- # 'tyOpenArray':
- var argType = n[i].typ.skipTypes(abstractInst)
- if i < formals.len:
- if formals[i].typ.kind in {tyVar, tyLent}:
- localError(g.config, n[i].info, "'spawn'ed function cannot have a 'var' parameter")
- checkMagicProcs(g, n[i], formals[i])
- if formals[i].typ.kind in {tyTypeDesc, tyStatic}:
- continue
- #elif containsTyRef(argType):
- # localError(n[i].info, "'spawn'ed function cannot refer to 'ref'/closure")
- let fieldname = if i < formals.len: formals[i].sym.name else: tmpName
- var field = newSym(skField, fieldname, idgen, objType.owner, n.info, g.config.options)
- field.typ = argType
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), n[i])
- let temp = addLocalVar(g, varSection, varInit, idgen, owner, argType,
- indirectAccess(castExpr, field, n.info))
- call.add(newSymNode(temp))
- proc setupArgsForParallelism(g: ModuleGraph; n: PNode; objType: PType;
- idgen: IdGenerator;
- owner: PSym; scratchObj: PSym;
- castExpr, call,
- varSection, varInit, result: PNode) =
- let formals = n[0].typ.n
- let tmpName = getIdent(g.cache, genPrefix)
- # we need to copy the foreign scratch object fields into local variables
- # for correctness: These are called 'threadLocal' here.
- for i in 1..<n.len:
- let n = n[i]
- if i < formals.len and formals[i].typ.kind in {tyStatic, tyTypeDesc}:
- continue
- checkMagicProcs(g, n, formals[i])
- let argType = skipTypes(if i < formals.len: formals[i].typ else: n.typ,
- abstractInst)
- #if containsTyRef(argType):
- # localError(n.info, "'spawn'ed function cannot refer to 'ref'/closure")
- let fieldname = if i < formals.len: formals[i].sym.name else: tmpName
- var field = newSym(skField, fieldname, idgen, objType.owner, n.info, g.config.options)
- if argType.kind in {tyVarargs, tyOpenArray}:
- # important special case: we always create a zero-copy slice:
- let slice = newNodeI(nkCall, n.info, 4)
- slice.typ = n.typ
- slice[0] = newSymNode(createMagic(g, idgen, "slice", mSlice))
- slice[0].typ = getSysType(g, n.info, tyInt) # fake type
- var fieldB = newSym(skField, tmpName, idgen, objType.owner, n.info, g.config.options)
- fieldB.typ = getSysType(g, n.info, tyInt)
- discard objType.addField(fieldB, g.cache, idgen)
- if getMagic(n) == mSlice:
- let a = genAddrOf(n[1], idgen)
- field.typ = a.typ
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), a)
- var fieldA = newSym(skField, tmpName, idgen, objType.owner, n.info, g.config.options)
- fieldA.typ = getSysType(g, n.info, tyInt)
- discard objType.addField(fieldA, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, fieldA), n[2])
- result.add newFastAsgnStmt(newDotExpr(scratchObj, fieldB), n[3])
- let threadLocal = addLocalVar(g, varSection, nil, idgen, owner, fieldA.typ,
- indirectAccess(castExpr, fieldA, n.info),
- useShallowCopy=true)
- slice[2] = threadLocal.newSymNode
- else:
- let a = genAddrOf(n, idgen)
- field.typ = a.typ
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), a)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, fieldB), genHigh(g, n))
- slice[2] = newIntLit(g, n.info, 0)
- # the array itself does not need to go through a thread local variable:
- slice[1] = genDeref(indirectAccess(castExpr, field, n.info))
- let threadLocal = addLocalVar(g, varSection, nil, idgen, owner, fieldB.typ,
- indirectAccess(castExpr, fieldB, n.info),
- useShallowCopy=true)
- slice[3] = threadLocal.newSymNode
- call.add slice
- elif (let size = computeSize(g.config, argType); size < 0 or size > 16) and
- n.getRoot != nil:
- # it is more efficient to pass a pointer instead:
- let a = genAddrOf(n, idgen)
- field.typ = a.typ
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), a)
- let threadLocal = addLocalVar(g, varSection, nil, idgen, owner, field.typ,
- indirectAccess(castExpr, field, n.info),
- useShallowCopy=true)
- call.add(genDeref(threadLocal.newSymNode))
- else:
- # boring case
- field.typ = argType
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), n)
- let threadLocal = addLocalVar(g, varSection, varInit,
- idgen, owner, field.typ,
- indirectAccess(castExpr, field, n.info),
- useShallowCopy=true)
- call.add(threadLocal.newSymNode)
- proc wrapProcForSpawn*(g: ModuleGraph; idgen: IdGenerator; owner: PSym; spawnExpr: PNode; retType: PType;
- barrier: PNode = nil, dest: PNode = nil): PNode =
- # if 'barrier' != nil, then it is in a 'parallel' section and we
- # generate quite different code
- let n = spawnExpr[^2]
- let spawnKind = spawnResult(retType, barrier!=nil)
- case spawnKind
- of srVoid:
- internalAssert g.config, dest == nil
- result = newNodeI(nkStmtList, n.info)
- of srFlowVar:
- internalAssert g.config, dest == nil
- result = newNodeIT(nkStmtListExpr, n.info, retType)
- of srByVar:
- if dest == nil: localError(g.config, n.info, "'spawn' must not be discarded")
- result = newNodeI(nkStmtList, n.info)
- if n.kind notin nkCallKinds:
- localError(g.config, n.info, "'spawn' takes a call expression; got: " & $n)
- return
- if optThreadAnalysis in g.config.globalOptions:
- if {tfThread, tfNoSideEffect} * n[0].typ.flags == {}:
- localError(g.config, n.info, "'spawn' takes a GC safe call expression")
- var fn = n[0]
- let
- name = (if fn.kind == nkSym: fn.sym.name.s else: genPrefix) & "Wrapper"
- wrapperProc = newSym(skProc, getIdent(g.cache, name), idgen, owner, fn.info, g.config.options)
- threadParam = newSym(skParam, getIdent(g.cache, "thread"), idgen, wrapperProc, n.info, g.config.options)
- argsParam = newSym(skParam, getIdent(g.cache, "args"), idgen, wrapperProc, n.info, g.config.options)
- wrapperProc.flags.incl sfInjectDestructors
- block:
- let ptrType = getSysType(g, n.info, tyPointer)
- threadParam.typ = ptrType
- argsParam.typ = ptrType
- argsParam.position = 1
- var objType = createObj(g, idgen, owner, n.info)
- incl(objType.flags, tfFinal)
- let castExpr = createCastExpr(argsParam, objType, idgen)
- var scratchObj = newSym(skVar, getIdent(g.cache, "scratch"), idgen, owner, n.info, g.config.options)
- block:
- scratchObj.typ = objType
- incl(scratchObj.flags, sfFromGeneric)
- var varSectionB = newNodeI(nkVarSection, n.info)
- varSectionB.addVar(scratchObj.newSymNode)
- result.add varSectionB
- var call = newNodeIT(nkCall, n.info, n.typ)
- # templates and macros are in fact valid here due to the nature of
- # the transformation:
- if fn.kind == nkClosure or (fn.typ != nil and fn.typ.callConv == ccClosure):
- localError(g.config, n.info, "closure in spawn environment is not allowed")
- if not (fn.kind == nkSym and fn.sym.kind in {skProc, skTemplate, skMacro,
- skFunc, skMethod, skConverter}):
- # for indirect calls we pass the function pointer in the scratchObj
- var argType = n[0].typ.skipTypes(abstractInst)
- var field = newSym(skField, getIdent(g.cache, "fn"), idgen, owner, n.info, g.config.options)
- field.typ = argType
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), n[0])
- fn = indirectAccess(castExpr, field, n.info)
- elif fn.kind == nkSym and fn.sym.kind == skIterator:
- localError(g.config, n.info, "iterator in spawn environment is not allowed")
- call.add(fn)
- var varSection = newNodeI(nkVarSection, n.info)
- var varInit = newNodeI(nkStmtList, n.info)
- if barrier.isNil:
- setupArgsForConcurrency(g, n, objType, idgen, wrapperProc, scratchObj, castExpr, call,
- varSection, varInit, result)
- else:
- setupArgsForParallelism(g, n, objType, idgen, wrapperProc, scratchObj, castExpr, call,
- varSection, varInit, result)
- var barrierAsExpr: PNode = nil
- if barrier != nil:
- let typ = newType(tyPtr, idgen, owner)
- typ.rawAddSon(magicsys.getCompilerProc(g, "Barrier").typ)
- var field = newSym(skField, getIdent(g.cache, "barrier"), idgen, owner, n.info, g.config.options)
- field.typ = typ
- discard objType.addField(field, g.cache, idgen)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), barrier)
- barrierAsExpr = indirectAccess(castExpr, field, n.info)
- var fvField, fvAsExpr: PNode = nil
- if spawnKind == srFlowVar:
- var field = newSym(skField, getIdent(g.cache, "fv"), idgen, owner, n.info, g.config.options)
- field.typ = retType
- discard objType.addField(field, g.cache, idgen)
- fvField = newDotExpr(scratchObj, field)
- fvAsExpr = indirectAccess(castExpr, field, n.info)
- # create flowVar:
- result.add newFastAsgnStmt(fvField, callProc(spawnExpr[^1]))
- if barrier == nil:
- result.add callCodegenProc(g, "nimFlowVarCreateSemaphore", fvField.info, fvField)
- elif spawnKind == srByVar:
- var field = newSym(skField, getIdent(g.cache, "fv"), idgen, owner, n.info, g.config.options)
- field.typ = newType(tyPtr, idgen, objType.owner)
- field.typ.rawAddSon(retType)
- discard objType.addField(field, g.cache, idgen)
- fvAsExpr = indirectAccess(castExpr, field, n.info)
- result.add newFastAsgnStmt(newDotExpr(scratchObj, field), genAddrOf(dest, idgen))
- createTypeBoundOps(g, nil, objType, n.info, idgen)
- createWrapperProc(g, fn, threadParam, argsParam,
- varSection, varInit, call,
- barrierAsExpr, fvAsExpr, idgen, spawnKind, wrapperProc)
- result.add callCodegenProc(g, "nimSpawn" & $spawnExpr.len, wrapperProc.info,
- wrapperProc.newSymNode, genAddrOf(scratchObj.newSymNode, idgen), nil, spawnExpr)
- if spawnKind == srFlowVar: result.add fvField
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