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- #
- #
- # The Nim Compiler
- # (c) Copyright 2013 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # This module implements the semantic checking pass.
- import
- ast, strutils, hashes, options, lexer, astalgo, trees, treetab,
- wordrecg, ropes, msgs, os, condsyms, idents, renderer, types, platform, math,
- magicsys, parser, nversion, nimsets, semfold, modulepaths, importer,
- procfind, lookups, pragmas, passes, semdata, semtypinst, sigmatch,
- intsets, transf, vmdef, vm, idgen, aliases, cgmeth, lambdalifting,
- evaltempl, patterns, parampatterns, sempass2, linter, semmacrosanity,
- semparallel, lowerings, pluginsupport, plugins/active, rod, lineinfos
- from modulegraphs import ModuleGraph
- when defined(nimfix):
- import nimfix/prettybase
- # implementation
- proc semExpr(c: PContext, n: PNode, flags: TExprFlags = {}): PNode {.procvar.}
- proc semExprWithType(c: PContext, n: PNode, flags: TExprFlags = {}): PNode {.
- procvar.}
- proc semExprNoType(c: PContext, n: PNode): PNode
- proc semExprNoDeref(c: PContext, n: PNode, flags: TExprFlags = {}): PNode
- proc semProcBody(c: PContext, n: PNode): PNode
- proc fitNode(c: PContext, formal: PType, arg: PNode; info: TLineInfo): PNode
- proc changeType(c: PContext; n: PNode, newType: PType, check: bool)
- proc semLambda(c: PContext, n: PNode, flags: TExprFlags): PNode
- proc semTypeNode(c: PContext, n: PNode, prev: PType): PType
- proc semStmt(c: PContext, n: PNode; flags: TExprFlags): PNode
- proc semOpAux(c: PContext, n: PNode)
- proc semParamList(c: PContext, n, genericParams: PNode, s: PSym)
- proc addParams(c: PContext, n: PNode, kind: TSymKind)
- proc maybeAddResult(c: PContext, s: PSym, n: PNode)
- proc tryExpr(c: PContext, n: PNode, flags: TExprFlags = {}): PNode
- proc activate(c: PContext, n: PNode)
- proc semQuoteAst(c: PContext, n: PNode): PNode
- proc finishMethod(c: PContext, s: PSym)
- proc evalAtCompileTime(c: PContext, n: PNode): PNode
- proc indexTypesMatch(c: PContext, f, a: PType, arg: PNode): PNode
- proc semStaticExpr(c: PContext, n: PNode): PNode
- proc semStaticType(c: PContext, childNode: PNode, prev: PType): PType
- proc semTypeOf(c: PContext; n: PNode): PNode
- proc hasUnresolvedArgs(c: PContext, n: PNode): bool
- proc isArrayConstr(n: PNode): bool {.inline.} =
- result = n.kind == nkBracket and
- n.typ.skipTypes(abstractInst).kind == tyArray
- template semIdeForTemplateOrGenericCheck(conf, n, requiresCheck) =
- # we check quickly if the node is where the cursor is
- when defined(nimsuggest):
- if n.info.fileIndex == conf.m.trackPos.fileIndex and n.info.line == conf.m.trackPos.line:
- requiresCheck = true
- template semIdeForTemplateOrGeneric(c: PContext; n: PNode;
- requiresCheck: bool) =
- # use only for idetools support; this is pretty slow so generics and
- # templates perform some quick check whether the cursor is actually in
- # the generic or template.
- when defined(nimsuggest):
- if c.config.cmd == cmdIdeTools and requiresCheck:
- #if optIdeDebug in gGlobalOptions:
- # echo "passing to safeSemExpr: ", renderTree(n)
- discard safeSemExpr(c, n)
- proc fitNodePostMatch(c: PContext, formal: PType, arg: PNode): PNode =
- result = arg
- let x = result.skipConv
- if x.kind in {nkPar, nkTupleConstr, nkCurly} and formal.kind != tyExpr:
- changeType(c, x, formal, check=true)
- else:
- result = skipHiddenSubConv(result)
- #result.typ = takeType(formal, arg.typ)
- #echo arg.info, " picked ", result.typ.typeToString
- proc fitNode(c: PContext, formal: PType, arg: PNode; info: TLineInfo): PNode =
- if arg.typ.isNil:
- localError(c.config, arg.info, "expression has no type: " &
- renderTree(arg, {renderNoComments}))
- # error correction:
- result = copyTree(arg)
- result.typ = formal
- else:
- result = indexTypesMatch(c, formal, arg.typ, arg)
- if result == nil:
- typeMismatch(c.config, info, formal, arg.typ)
- # error correction:
- result = copyTree(arg)
- result.typ = formal
- else:
- result = fitNodePostMatch(c, formal, result)
- proc inferWithMetatype(c: PContext, formal: PType,
- arg: PNode, coerceDistincts = false): PNode
- template commonTypeBegin*(): PType = PType(kind: tyExpr)
- proc commonType*(x, y: PType): PType =
- # new type relation that is used for array constructors,
- # if expressions, etc.:
- if x == nil: return x
- if y == nil: return y
- var a = skipTypes(x, {tyGenericInst, tyAlias, tySink})
- var b = skipTypes(y, {tyGenericInst, tyAlias, tySink})
- result = x
- if a.kind in {tyExpr, tyNil}: result = y
- elif b.kind in {tyExpr, tyNil}: result = x
- elif a.kind == tyStmt: result = a
- elif b.kind == tyStmt: result = b
- elif a.kind == tyTypeDesc:
- # turn any concrete typedesc into the abstract typedesc type
- if a.len == 0: result = a
- else:
- result = newType(tyTypeDesc, a.owner)
- rawAddSon(result, newType(tyNone, a.owner))
- elif b.kind in {tyArray, tySet, tySequence} and
- a.kind == b.kind:
- # check for seq[empty] vs. seq[int]
- let idx = ord(b.kind == tyArray)
- if a.sons[idx].kind == tyEmpty: return y
- elif a.kind == tyTuple and b.kind == tyTuple and a.len == b.len:
- var nt: PType
- for i in 0..<a.len:
- let aEmpty = isEmptyContainer(a.sons[i])
- let bEmpty = isEmptyContainer(b.sons[i])
- if aEmpty != bEmpty:
- if nt.isNil: nt = copyType(a, a.owner, false)
- nt.sons[i] = if aEmpty: b.sons[i] else: a.sons[i]
- if not nt.isNil: result = nt
- #elif b.sons[idx].kind == tyEmpty: return x
- elif a.kind == tyRange and b.kind == tyRange:
- # consider: (range[0..3], range[0..4]) here. We should make that
- # range[0..4]. But then why is (range[0..4], 6) not range[0..6]?
- # But then why is (2,4) not range[2..4]? But I think this would break
- # too much code. So ... it's the same range or the base type. This means
- # type(if b: 0 else 1) == int and not range[0..1]. For now. In the long
- # run people expect ranges to work properly within a tuple.
- if not sameType(a, b):
- result = skipTypes(a, {tyRange}).skipIntLit
- when false:
- if a.kind != tyRange and b.kind == tyRange:
- # XXX This really needs a better solution, but a proper fix now breaks
- # code.
- result = a #.skipIntLit
- elif a.kind == tyRange and b.kind != tyRange:
- result = b #.skipIntLit
- elif a.kind in IntegralTypes and a.n != nil:
- result = a #.skipIntLit
- else:
- var k = tyNone
- if a.kind in {tyRef, tyPtr}:
- k = a.kind
- if b.kind != a.kind: return x
- # bug #7601, array construction of ptr generic
- a = a.lastSon.skipTypes({tyGenericInst})
- b = b.lastSon.skipTypes({tyGenericInst})
- if a.kind == tyObject and b.kind == tyObject:
- result = commonSuperclass(a, b)
- # this will trigger an error later:
- if result.isNil or result == a: return x
- if result == b: return y
- # bug #7906, tyRef/tyPtr + tyGenericInst of ref/ptr object ->
- # ill-formed AST, no need for additional tyRef/tyPtr
- if k != tyNone and x.kind != tyGenericInst:
- let r = result
- result = newType(k, r.owner)
- result.addSonSkipIntLit(r)
- proc endsInNoReturn(n: PNode): bool =
- # check if expr ends in raise exception or call of noreturn proc
- var it = n
- while it.kind in {nkStmtList, nkStmtListExpr} and it.len > 0:
- it = it.lastSon
- result = it.kind == nkRaiseStmt or
- it.kind in nkCallKinds and it[0].kind == nkSym and sfNoReturn in it[0].sym.flags
- proc commonType*(x: PType, y: PNode): PType =
- # ignore exception raising branches in case/if expressions
- if endsInNoReturn(y): return x
- commonType(x, y.typ)
- proc newSymS(kind: TSymKind, n: PNode, c: PContext): PSym =
- result = newSym(kind, considerQuotedIdent(c, n), getCurrOwner(c), n.info)
- when defined(nimsuggest):
- suggestDecl(c, n, result)
- proc newSymG*(kind: TSymKind, n: PNode, c: PContext): PSym =
- proc `$`(kind: TSymKind): string = substr(system.`$`(kind), 2).toLowerAscii
- # like newSymS, but considers gensym'ed symbols
- if n.kind == nkSym:
- # and sfGenSym in n.sym.flags:
- result = n.sym
- if result.kind != kind:
- localError(c.config, n.info, "cannot use symbol of kind '" &
- $result.kind & "' as a '" & $kind & "'")
- if sfGenSym in result.flags and result.kind notin {skTemplate, skMacro, skParam}:
- # declarative context, so produce a fresh gensym:
- result = copySym(result)
- result.ast = n.sym.ast
- put(c.p, n.sym, result)
- # when there is a nested proc inside a template, semtmpl
- # will assign a wrong owner during the first pass over the
- # template; we must fix it here: see #909
- result.owner = getCurrOwner(c)
- else:
- result = newSym(kind, considerQuotedIdent(c, n), getCurrOwner(c), n.info)
- #if kind in {skForVar, skLet, skVar} and result.owner.kind == skModule:
- # incl(result.flags, sfGlobal)
- when defined(nimsuggest):
- suggestDecl(c, n, result)
- proc semIdentVis(c: PContext, kind: TSymKind, n: PNode,
- allowed: TSymFlags): PSym
- # identifier with visibility
- proc semIdentWithPragma(c: PContext, kind: TSymKind, n: PNode,
- allowed: TSymFlags): PSym
- proc typeAllowedCheck(conf: ConfigRef; info: TLineInfo; typ: PType; kind: TSymKind;
- flags: TTypeAllowedFlags = {}) =
- let t = typeAllowed(typ, kind, flags)
- if t != nil:
- if t == typ:
- localError(conf, info, "invalid type: '" & typeToString(typ) &
- "' for " & substr($kind, 2).toLowerAscii)
- else:
- localError(conf, info, "invalid type: '" & typeToString(t) &
- "' in this context: '" & typeToString(typ) &
- "' for " & substr($kind, 2).toLowerAscii)
- proc paramsTypeCheck(c: PContext, typ: PType) {.inline.} =
- typeAllowedCheck(c.config, typ.n.info, typ, skProc)
- proc expectMacroOrTemplateCall(c: PContext, n: PNode): PSym
- proc semDirectOp(c: PContext, n: PNode, flags: TExprFlags): PNode
- proc semWhen(c: PContext, n: PNode, semCheck: bool = true): PNode
- proc semTemplateExpr(c: PContext, n: PNode, s: PSym,
- flags: TExprFlags = {}): PNode
- proc semMacroExpr(c: PContext, n, nOrig: PNode, sym: PSym,
- flags: TExprFlags = {}): PNode
- proc symFromType(c: PContext; t: PType, info: TLineInfo): PSym =
- if t.sym != nil: return t.sym
- result = newSym(skType, getIdent(c.cache, "AnonType"), t.owner, info)
- result.flags.incl sfAnon
- result.typ = t
- proc symNodeFromType(c: PContext, t: PType, info: TLineInfo): PNode =
- result = newSymNode(symFromType(c, t, info), info)
- result.typ = makeTypeDesc(c, t)
- when false:
- proc createEvalContext(c: PContext, mode: TEvalMode): PEvalContext =
- result = newEvalContext(c.module, mode)
- result.getType = proc (n: PNode): PNode =
- result = tryExpr(c, n)
- if result == nil:
- result = newSymNode(errorSym(c, n))
- elif result.typ == nil:
- result = newSymNode(getSysSym"void")
- else:
- result.typ = makeTypeDesc(c, result.typ)
- result.handleIsOperator = proc (n: PNode): PNode =
- result = isOpImpl(c, n)
- proc hasCycle(n: PNode): bool =
- incl n.flags, nfNone
- for i in 0..<safeLen(n):
- if nfNone in n[i].flags or hasCycle(n[i]):
- result = true
- break
- excl n.flags, nfNone
- proc fixupTypeAfterEval(c: PContext, evaluated, eOrig: PNode): PNode =
- # recompute the types as 'eval' isn't guaranteed to construct types nor
- # that the types are sound:
- when true:
- if eOrig.typ.kind in {tyExpr, tyStmt, tyTypeDesc}:
- result = semExprWithType(c, evaluated)
- else:
- result = evaluated
- let expectedType = eOrig.typ.skipTypes({tyStatic})
- if hasCycle(result):
- globalError(c.config, eOrig.info, "the resulting AST is cyclic and cannot be processed further")
- result = errorNode(c, eOrig)
- else:
- semmacrosanity.annotateType(result, expectedType, c.config)
- else:
- result = semExprWithType(c, evaluated)
- #result = fitNode(c, e.typ, result) inlined with special case:
- let arg = result
- result = indexTypesMatch(c, eOrig.typ, arg.typ, arg)
- if result == nil:
- result = arg
- # for 'tcnstseq' we support [] to become 'seq'
- if eOrig.typ.skipTypes(abstractInst).kind == tySequence and
- isArrayConstr(arg):
- arg.typ = eOrig.typ
- proc tryConstExpr(c: PContext, n: PNode): PNode =
- var e = semExprWithType(c, n)
- if e == nil: return
- result = getConstExpr(c.module, e, c.graph)
- if result != nil: return
- let oldErrorCount = c.config.errorCounter
- let oldErrorMax = c.config.errorMax
- let oldErrorOutputs = c.config.m.errorOutputs
- c.config.m.errorOutputs = {}
- c.config.errorMax = high(int)
- try:
- result = evalConstExpr(c.module, c.graph, e)
- if result == nil or result.kind == nkEmpty:
- result = nil
- else:
- result = fixupTypeAfterEval(c, result, e)
- except ERecoverableError:
- result = nil
- c.config.errorCounter = oldErrorCount
- c.config.errorMax = oldErrorMax
- c.config.m.errorOutputs = oldErrorOutputs
- const
- errConstExprExpected = "constant expression expected"
- proc semConstExpr(c: PContext, n: PNode): PNode =
- var e = semExprWithType(c, n)
- if e == nil:
- localError(c.config, n.info, errConstExprExpected)
- return n
- result = getConstExpr(c.module, e, c.graph)
- if result == nil:
- #if e.kind == nkEmpty: globalError(n.info, errConstExprExpected)
- result = evalConstExpr(c.module, c.graph, e)
- if result == nil or result.kind == nkEmpty:
- if e.info != n.info:
- pushInfoContext(c.config, n.info)
- localError(c.config, e.info, errConstExprExpected)
- popInfoContext(c.config)
- else:
- localError(c.config, e.info, errConstExprExpected)
- # error correction:
- result = e
- else:
- result = fixupTypeAfterEval(c, result, e)
- proc semExprFlagDispatched(c: PContext, n: PNode, flags: TExprFlags): PNode =
- if efNeedStatic in flags:
- if efPreferNilResult in flags:
- return tryConstExpr(c, n)
- else:
- return semConstExpr(c, n)
- else:
- result = semExprWithType(c, n, flags)
- if efPreferStatic in flags:
- var evaluated = getConstExpr(c.module, result, c.graph)
- if evaluated != nil: return evaluated
- evaluated = evalAtCompileTime(c, result)
- if evaluated != nil: return evaluated
- include hlo, seminst, semcall
- when false:
- # hopefully not required:
- proc resetSemFlag(n: PNode) =
- excl n.flags, nfSem
- for i in 0 ..< n.safeLen:
- resetSemFlag(n[i])
- proc semAfterMacroCall(c: PContext, call, macroResult: PNode,
- s: PSym, flags: TExprFlags): PNode =
- ## Semantically check the output of a macro.
- ## This involves processes such as re-checking the macro output for type
- ## coherence, making sure that variables declared with 'let' aren't
- ## reassigned, and binding the unbound identifiers that the macro output
- ## contains.
- inc(c.config.evalTemplateCounter)
- if c.config.evalTemplateCounter > evalTemplateLimit:
- globalError(c.config, s.info, "template instantiation too nested")
- c.friendModules.add(s.owner.getModule)
- result = macroResult
- excl(result.flags, nfSem)
- #resetSemFlag n
- if s.typ.sons[0] == nil:
- result = semStmt(c, result, flags)
- else:
- case s.typ.sons[0].kind
- of tyExpr:
- # BUGFIX: we cannot expect a type here, because module aliases would not
- # work then (see the ``tmodulealias`` test)
- # semExprWithType(c, result)
- result = semExpr(c, result, flags)
- of tyStmt:
- result = semStmt(c, result, flags)
- of tyTypeDesc:
- if result.kind == nkStmtList: result.kind = nkStmtListType
- var typ = semTypeNode(c, result, nil)
- if typ == nil:
- localError(c.config, result.info, "expression has no type: " &
- renderTree(result, {renderNoComments}))
- result = newSymNode(errorSym(c, result))
- else:
- result.typ = makeTypeDesc(c, typ)
- #result = symNodeFromType(c, typ, n.info)
- else:
- var retType = s.typ.sons[0]
- if s.ast[genericParamsPos] != nil and retType.isMetaType:
- # The return type may depend on the Macro arguments
- # e.g. template foo(T: typedesc): seq[T]
- # We will instantiate the return type here, because
- # we now know the supplied arguments
- var paramTypes = newIdTable()
- for param, value in genericParamsInMacroCall(s, call):
- idTablePut(paramTypes, param.typ, value.typ)
- retType = generateTypeInstance(c, paramTypes,
- macroResult.info, retType)
- result = semExpr(c, result, flags)
- result = fitNode(c, retType, result, result.info)
- #globalError(s.info, errInvalidParamKindX, typeToString(s.typ.sons[0]))
- dec(c.config.evalTemplateCounter)
- discard c.friendModules.pop()
- const
- errMissingGenericParamsForTemplate = "'$1' has unspecified generic parameters"
- proc semMacroExpr(c: PContext, n, nOrig: PNode, sym: PSym,
- flags: TExprFlags = {}): PNode =
- pushInfoContext(c.config, nOrig.info)
- markUsed(c.config, n.info, sym, c.graph.usageSym)
- styleCheckUse(n.info, sym)
- if sym == c.p.owner:
- globalError(c.config, n.info, "recursive dependency: '$1'" % sym.name.s)
- let genericParams = if sfImmediate in sym.flags: 0
- else: sym.ast[genericParamsPos].len
- let suppliedParams = max(n.safeLen - 1, 0)
- if suppliedParams < genericParams:
- globalError(c.config, n.info, errMissingGenericParamsForTemplate % n.renderTree)
- #if c.evalContext == nil:
- # c.evalContext = c.createEvalContext(emStatic)
- result = evalMacroCall(c.module, c.graph, n, nOrig, sym)
- if efNoSemCheck notin flags:
- result = semAfterMacroCall(c, n, result, sym, flags)
- result = wrapInComesFrom(nOrig.info, sym, result)
- popInfoContext(c.config)
- proc forceBool(c: PContext, n: PNode): PNode =
- result = fitNode(c, getSysType(c.graph, n.info, tyBool), n, n.info)
- if result == nil: result = n
- proc semConstBoolExpr(c: PContext, n: PNode): PNode =
- let nn = semExprWithType(c, n)
- result = fitNode(c, getSysType(c.graph, n.info, tyBool), nn, nn.info)
- if result == nil:
- localError(c.config, n.info, errConstExprExpected)
- return nn
- result = getConstExpr(c.module, result, c.graph)
- if result == nil:
- localError(c.config, n.info, errConstExprExpected)
- result = nn
- proc semGenericStmt(c: PContext, n: PNode): PNode
- proc semConceptBody(c: PContext, n: PNode): PNode
- include semtypes, semtempl, semgnrc, semstmts, semexprs
- proc addCodeForGenerics(c: PContext, n: PNode) =
- for i in countup(c.lastGenericIdx, c.generics.len - 1):
- var prc = c.generics[i].inst.sym
- if prc.kind in {skProc, skFunc, skMethod, skConverter} and prc.magic == mNone:
- if prc.ast == nil or prc.ast.sons[bodyPos] == nil:
- internalError(c.config, prc.info, "no code for " & prc.name.s)
- else:
- addSon(n, prc.ast)
- c.lastGenericIdx = c.generics.len
- proc myOpen(graph: ModuleGraph; module: PSym): PPassContext =
- var c = newContext(graph, module)
- if c.p != nil: internalError(graph.config, module.info, "sem.myOpen")
- c.semConstExpr = semConstExpr
- c.semExpr = semExpr
- c.semTryExpr = tryExpr
- c.semTryConstExpr = tryConstExpr
- c.semOperand = semOperand
- c.semConstBoolExpr = semConstBoolExpr
- c.semOverloadedCall = semOverloadedCall
- c.semInferredLambda = semInferredLambda
- c.semGenerateInstance = generateInstance
- c.semTypeNode = semTypeNode
- c.instTypeBoundOp = sigmatch.instTypeBoundOp
- pushProcCon(c, module)
- pushOwner(c, c.module)
- c.importTable = openScope(c)
- c.importTable.addSym(module) # a module knows itself
- if sfSystemModule in module.flags:
- graph.systemModule = module
- c.topLevelScope = openScope(c)
- # don't be verbose unless the module belongs to the main package:
- if module.owner.id == graph.config.mainPackageId:
- graph.config.notes = graph.config.mainPackageNotes
- else:
- if graph.config.mainPackageNotes == {}: graph.config.mainPackageNotes = graph.config.notes
- graph.config.notes = graph.config.foreignPackageNotes
- result = c
- proc isImportSystemStmt(g: ModuleGraph; n: PNode): bool =
- if g.systemModule == nil: return false
- case n.kind
- of nkImportStmt:
- for x in n:
- if x.kind == nkIdent:
- let f = checkModuleName(g.config, x, false)
- if f == g.systemModule.info.fileIndex:
- return true
- of nkImportExceptStmt, nkFromStmt:
- if n[0].kind == nkIdent:
- let f = checkModuleName(g.config, n[0], false)
- if f == g.systemModule.info.fileIndex:
- return true
- else: discard
- proc isEmptyTree(n: PNode): bool =
- case n.kind
- of nkStmtList:
- for it in n:
- if not isEmptyTree(it): return false
- result = true
- of nkEmpty, nkCommentStmt: result = true
- else: result = false
- proc semStmtAndGenerateGenerics(c: PContext, n: PNode): PNode =
- if n.kind == nkDefer:
- localError(c.config, n.info, "defer statement not supported at top level")
- if c.topStmts == 0 and not isImportSystemStmt(c.graph, n):
- if sfSystemModule notin c.module.flags and not isEmptyTree(n):
- c.importTable.addSym c.graph.systemModule # import the "System" identifier
- importAllSymbols(c, c.graph.systemModule)
- inc c.topStmts
- else:
- inc c.topStmts
- if sfNoForward in c.module.flags:
- result = semAllTypeSections(c, n)
- else:
- result = n
- result = semStmt(c, result, {})
- when false:
- # Code generators are lazy now and can deal with undeclared procs, so these
- # steps are not required anymore and actually harmful for the upcoming
- # destructor support.
- # BUGFIX: process newly generated generics here, not at the end!
- if c.lastGenericIdx < c.generics.len:
- var a = newNodeI(nkStmtList, n.info)
- addCodeForGenerics(c, a)
- if sonsLen(a) > 0:
- # a generic has been added to `a`:
- if result.kind != nkEmpty: addSon(a, result)
- result = a
- result = hloStmt(c, result)
- if c.config.cmd == cmdInteractive and not isEmptyType(result.typ):
- result = buildEchoStmt(c, result)
- if c.config.cmd == cmdIdeTools:
- appendToModule(c.module, result)
- result = transformStmt(c.graph, c.module, result)
- proc recoverContext(c: PContext) =
- # clean up in case of a semantic error: We clean up the stacks, etc. This is
- # faster than wrapping every stack operation in a 'try finally' block and
- # requires far less code.
- c.currentScope = c.topLevelScope
- while getCurrOwner(c).kind != skModule: popOwner(c)
- while c.p != nil and c.p.owner.kind != skModule: c.p = c.p.next
- proc myProcess(context: PPassContext, n: PNode): PNode =
- var c = PContext(context)
- # no need for an expensive 'try' if we stop after the first error anyway:
- if c.config.errorMax <= 1:
- result = semStmtAndGenerateGenerics(c, n)
- else:
- let oldContextLen = msgs.getInfoContextLen(c.config)
- let oldInGenericInst = c.inGenericInst
- try:
- result = semStmtAndGenerateGenerics(c, n)
- except ERecoverableError, ESuggestDone:
- recoverContext(c)
- c.inGenericInst = oldInGenericInst
- msgs.setInfoContextLen(c.config, oldContextLen)
- if getCurrentException() of ESuggestDone:
- c.suggestionsMade = true
- result = nil
- else:
- result = newNodeI(nkEmpty, n.info)
- #if c.config.cmd == cmdIdeTools: findSuggest(c, n)
- rod.storeNode(c.graph, c.module, result)
- proc myClose(graph: ModuleGraph; context: PPassContext, n: PNode): PNode =
- var c = PContext(context)
- if c.config.cmd == cmdIdeTools and not c.suggestionsMade:
- suggestSentinel(c)
- closeScope(c) # close module's scope
- rawCloseScope(c) # imported symbols; don't check for unused ones!
- result = newNode(nkStmtList)
- if n != nil:
- internalError(c.config, n.info, "n is not nil") #result := n;
- addCodeForGenerics(c, result)
- if c.module.ast != nil:
- result.add(c.module.ast)
- popOwner(c)
- popProcCon(c)
- storeRemaining(c.graph, c.module)
- const semPass* = makePass(myOpen, myProcess, myClose,
- isFrontend = true)
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