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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 semantic checking for pragmas
- import
- os, condsyms, ast, astalgo, idents, semdata, msgs, renderer,
- wordrecg, ropes, options, strutils, extccomp, math, magicsys, trees,
- types, lookups, lineinfos, pathutils, linter, modulepaths
- when defined(nimPreviewSlimSystem):
- import std/assertions
- from ic / ic import addCompilerProc
- const
- FirstCallConv* = wNimcall
- LastCallConv* = wNoconv
- const
- declPragmas = {wImportc, wImportObjC, wImportCpp, wImportJs, wExportc, wExportCpp,
- wExportNims, wExtern, wDeprecated, wNodecl, wError, wUsed}
- ## common pragmas for declarations, to a good approximation
- procPragmas* = declPragmas + {FirstCallConv..LastCallConv,
- wMagic, wNoSideEffect, wSideEffect, wNoreturn, wNosinks, wDynlib, wHeader,
- wCompilerProc, wNonReloadable, wCore, wProcVar, wVarargs, wCompileTime,
- wBorrow, wImportCompilerProc, wThread,
- wAsmNoStackFrame, wDiscardable, wNoInit, wCodegenDecl,
- wGensym, wInject, wRaises, wEffectsOf, wTags, wForbids, wLocks, wDelegator, wGcSafe,
- wConstructor, wLiftLocals, wStackTrace, wLineTrace, wNoDestroy,
- wRequires, wEnsures, wEnforceNoRaises, wSystemRaisesDefect, wVirtual, wQuirky, wMember}
- converterPragmas* = procPragmas
- methodPragmas* = procPragmas+{wBase}-{wImportCpp}
- templatePragmas* = {wDeprecated, wError, wGensym, wInject, wDirty,
- wDelegator, wExportNims, wUsed, wPragma, wRedefine, wCallsite}
- macroPragmas* = declPragmas + {FirstCallConv..LastCallConv,
- wMagic, wNoSideEffect, wCompilerProc, wNonReloadable, wCore,
- wDiscardable, wGensym, wInject, wDelegator}
- iteratorPragmas* = declPragmas + {FirstCallConv..LastCallConv, wNoSideEffect, wSideEffect,
- wMagic, wBorrow,
- wDiscardable, wGensym, wInject, wRaises, wEffectsOf,
- wTags, wForbids, wLocks, wGcSafe, wRequires, wEnsures}
- exprPragmas* = {wLine, wLocks, wNoRewrite, wGcSafe, wNoSideEffect}
- stmtPragmas* = {
- wHint, wWarning, wError,
- wFatal, wDefine, wUndef, wCompile, wLink, wLinksys, wPure, wPush, wPop,
- wPassl, wPassc, wLocalPassc,
- wDeadCodeElimUnused, # deprecated, always on
- wDeprecated,
- wPragma, wEmit, wUnroll,
- wLinearScanEnd, wPatterns, wTrMacros, wEffects, wNoForward, wReorder, wComputedGoto,
- wExperimental, wDoctype, wThis, wUsed, wInvariant, wAssume, wAssert}
- stmtPragmasTopLevel* = {wChecks, wObjChecks, wFieldChecks, wRangeChecks,
- wBoundChecks, wOverflowChecks, wNilChecks, wStaticBoundchecks,
- wStyleChecks, wAssertions,
- wWarnings, wHints,
- wLineDir, wStackTrace, wLineTrace, wOptimization,
- wFloatChecks, wInfChecks, wNanChecks}
- lambdaPragmas* = {FirstCallConv..LastCallConv,
- wNoSideEffect, wSideEffect, wNoreturn, wNosinks, wDynlib, wHeader,
- wThread, wAsmNoStackFrame,
- wRaises, wLocks, wTags, wForbids, wRequires, wEnsures, wEffectsOf,
- wGcSafe, wCodegenDecl, wNoInit, wCompileTime}
- typePragmas* = declPragmas + {wMagic, wAcyclic,
- wPure, wHeader, wCompilerProc, wCore, wFinal, wSize, wShallow,
- wIncompleteStruct, wCompleteStruct, wByCopy, wByRef,
- wInheritable, wGensym, wInject, wRequiresInit, wUnchecked, wUnion, wPacked,
- wCppNonPod, wBorrow, wGcSafe, wPartial, wExplain, wPackage, wCodegenDecl,
- wSendable}
- fieldPragmas* = declPragmas + {wGuard, wBitsize, wCursor,
- wRequiresInit, wNoalias, wAlign} - {wExportNims, wNodecl} # why exclude these?
- varPragmas* = declPragmas + {wVolatile, wRegister, wThreadVar,
- wMagic, wHeader, wCompilerProc, wCore, wDynlib,
- wNoInit, wCompileTime, wGlobal,
- wGensym, wInject, wCodegenDecl,
- wGuard, wGoto, wCursor, wNoalias, wAlign}
- constPragmas* = declPragmas + {wHeader, wMagic,
- wGensym, wInject,
- wIntDefine, wStrDefine, wBoolDefine, wDefine,
- wCompilerProc, wCore}
- paramPragmas* = {wNoalias, wInject, wGensym, wByRef, wByCopy, wCodegenDecl}
- letPragmas* = varPragmas
- procTypePragmas* = {FirstCallConv..LastCallConv, wVarargs, wNoSideEffect,
- wThread, wRaises, wEffectsOf, wLocks, wTags, wForbids, wGcSafe,
- wRequires, wEnsures}
- forVarPragmas* = {wInject, wGensym}
- allRoutinePragmas* = methodPragmas + iteratorPragmas + lambdaPragmas
- enumFieldPragmas* = {wDeprecated}
- proc getPragmaVal*(procAst: PNode; name: TSpecialWord): PNode =
- result = nil
- let p = procAst[pragmasPos]
- if p.kind == nkEmpty: return nil
- for it in p:
- if it.kind in nkPragmaCallKinds and it.len == 2 and it[0].kind == nkIdent and
- it[0].ident.id == ord(name):
- return it[1]
- proc pragma*(c: PContext, sym: PSym, n: PNode, validPragmas: TSpecialWords;
- isStatement: bool = false)
- proc recordPragma(c: PContext; n: PNode; args: varargs[string]) =
- var recorded = newNodeI(nkReplayAction, n.info)
- for i in 0..args.high:
- recorded.add newStrNode(args[i], n.info)
- addPragmaComputation(c, recorded)
- const
- errStringLiteralExpected = "string literal expected"
- errIntLiteralExpected = "integer literal expected"
- proc invalidPragma*(c: PContext; n: PNode) =
- localError(c.config, n.info, "invalid pragma: " & renderTree(n, {renderNoComments}))
- proc illegalCustomPragma*(c: PContext, n: PNode, s: PSym) =
- var msg = "cannot attach a custom pragma to '" & s.name.s & "'"
- if s != nil:
- msg.add("; custom pragmas are not supported for ")
- case s.kind
- of skForVar: msg.add("`for` loop variables")
- of skEnumField: msg.add("enum fields")
- of skModule: msg.add("modules")
- else: msg.add("symbol kind " & $s.kind)
- localError(c.config, n.info, msg)
- proc pragmaProposition(c: PContext, n: PNode) =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, "proposition expected")
- else:
- n[1] = c.semExpr(c, n[1])
- proc pragmaEnsures(c: PContext, n: PNode) =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, "proposition expected")
- else:
- openScope(c)
- let o = getCurrOwner(c)
- if o.kind in routineKinds and o.typ != nil and o.typ[0] != nil:
- var s = newSym(skResult, getIdent(c.cache, "result"), c.idgen, o, n.info)
- s.typ = o.typ[0]
- incl(s.flags, sfUsed)
- addDecl(c, s)
- n[1] = c.semExpr(c, n[1])
- closeScope(c)
- proc pragmaAsm*(c: PContext, n: PNode): char =
- result = '\0'
- if n != nil:
- for i in 0..<n.len:
- let it = n[i]
- if it.kind in nkPragmaCallKinds and it.len == 2 and it[0].kind == nkIdent:
- case whichKeyword(it[0].ident)
- of wSubsChar:
- if it[1].kind == nkCharLit: result = chr(int(it[1].intVal))
- else: invalidPragma(c, it)
- else: invalidPragma(c, it)
- else:
- invalidPragma(c, it)
- proc setExternName(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- # special cases to improve performance:
- if extname == "$1":
- s.loc.r = rope(s.name.s)
- elif '$' notin extname:
- s.loc.r = rope(extname)
- else:
- try:
- s.loc.r = rope(extname % s.name.s)
- except ValueError:
- localError(c.config, info, "invalid extern name: '" & extname & "'. (Forgot to escape '$'?)")
- when hasFFI:
- s.cname = $s.loc.r
- proc makeExternImport(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- setExternName(c, s, extname, info)
- incl(s.flags, sfImportc)
- excl(s.flags, sfForward)
- proc makeExternExport(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- setExternName(c, s, extname, info)
- incl(s.flags, sfExportc)
- proc processImportCompilerProc(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- setExternName(c, s, extname, info)
- incl(s.flags, sfImportc)
- excl(s.flags, sfForward)
- incl(s.loc.flags, lfImportCompilerProc)
- proc processImportCpp(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- setExternName(c, s, extname, info)
- incl(s.flags, sfImportc)
- incl(s.flags, sfInfixCall)
- excl(s.flags, sfForward)
- if c.config.backend == backendC:
- let m = s.getModule()
- incl(m.flags, sfCompileToCpp)
- incl c.config.globalOptions, optMixedMode
- proc processImportObjC(c: PContext; s: PSym, extname: string, info: TLineInfo) =
- setExternName(c, s, extname, info)
- incl(s.flags, sfImportc)
- incl(s.flags, sfNamedParamCall)
- excl(s.flags, sfForward)
- let m = s.getModule()
- incl(m.flags, sfCompileToObjc)
- proc newEmptyStrNode(c: PContext; n: PNode, strVal: string = ""): PNode {.noinline.} =
- result = newNodeIT(nkStrLit, n.info, getSysType(c.graph, n.info, tyString))
- result.strVal = strVal
- proc getStrLitNode(c: PContext, n: PNode): PNode =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errStringLiteralExpected)
- # error correction:
- result = newEmptyStrNode(c, n)
- else:
- n[1] = c.semConstExpr(c, n[1])
- case n[1].kind
- of nkStrLit, nkRStrLit, nkTripleStrLit: result = n[1]
- else:
- localError(c.config, n.info, errStringLiteralExpected)
- # error correction:
- result = newEmptyStrNode(c, n)
- proc expectStrLit(c: PContext, n: PNode): string =
- result = getStrLitNode(c, n).strVal
- proc expectIntLit(c: PContext, n: PNode): int =
- result = 0
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errIntLiteralExpected)
- else:
- n[1] = c.semConstExpr(c, n[1])
- case n[1].kind
- of nkIntLit..nkInt64Lit: result = int(n[1].intVal)
- else: localError(c.config, n.info, errIntLiteralExpected)
- proc getOptionalStr(c: PContext, n: PNode, defaultStr: string): string =
- if n.kind in nkPragmaCallKinds: result = expectStrLit(c, n)
- else: result = defaultStr
- proc processVirtual(c: PContext, n: PNode, s: PSym, flag: TSymFlag) =
- s.constraint = newEmptyStrNode(c, n, getOptionalStr(c, n, "$1"))
- s.constraint.strVal = s.constraint.strVal % s.name.s
- s.flags.incl {flag, sfInfixCall, sfExportc, sfMangleCpp}
- s.typ.callConv = ccNoConvention
- incl c.config.globalOptions, optMixedMode
- proc processCodegenDecl(c: PContext, n: PNode, sym: PSym) =
- sym.constraint = getStrLitNode(c, n)
- sym.flags.incl sfCodegenDecl
- proc processMagic(c: PContext, n: PNode, s: PSym) =
- #if sfSystemModule notin c.module.flags:
- # liMessage(n.info, errMagicOnlyInSystem)
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errStringLiteralExpected)
- return
- var v: string
- if n[1].kind == nkIdent: v = n[1].ident.s
- else: v = expectStrLit(c, n)
- for m in TMagic:
- if substr($m, 1) == v:
- s.magic = m
- break
- if s.magic == mNone: message(c.config, n.info, warnUnknownMagic, v)
- proc wordToCallConv(sw: TSpecialWord): TCallingConvention =
- # this assumes that the order of special words and calling conventions is
- # the same
- TCallingConvention(ord(ccNimCall) + ord(sw) - ord(wNimcall))
- proc isTurnedOn(c: PContext, n: PNode): bool =
- result = false
- if n.kind in nkPragmaCallKinds and n.len == 2:
- let x = c.semConstBoolExpr(c, n[1])
- n[1] = x
- if x.kind == nkIntLit: return x.intVal != 0
- localError(c.config, n.info, "'on' or 'off' expected")
- proc onOff(c: PContext, n: PNode, op: TOptions, resOptions: var TOptions) =
- if isTurnedOn(c, n): resOptions.incl op
- else: resOptions.excl op
- proc pragmaNoForward*(c: PContext, n: PNode; flag=sfNoForward) =
- if isTurnedOn(c, n):
- incl(c.module.flags, flag)
- c.features.incl codeReordering
- else:
- excl(c.module.flags, flag)
- # c.features.excl codeReordering
- # deprecated as of 0.18.1
- message(c.config, n.info, warnDeprecated,
- "use {.experimental: \"codeReordering\".} instead; " &
- (if flag == sfNoForward: "{.noForward.}" else: "{.reorder.}") & " is deprecated")
- proc processCallConv(c: PContext, n: PNode) =
- if n.kind in nkPragmaCallKinds and n.len == 2 and n[1].kind == nkIdent:
- let sw = whichKeyword(n[1].ident)
- case sw
- of FirstCallConv..LastCallConv:
- c.optionStack[^1].defaultCC = wordToCallConv(sw)
- else: localError(c.config, n.info, "calling convention expected")
- else:
- localError(c.config, n.info, "calling convention expected")
- proc getLib(c: PContext, kind: TLibKind, path: PNode): PLib =
- for it in c.libs:
- if it.kind == kind and trees.exprStructuralEquivalent(it.path, path):
- return it
- result = newLib(kind)
- result.path = path
- c.libs.add result
- if path.kind in {nkStrLit..nkTripleStrLit}:
- result.isOverridden = options.isDynlibOverride(c.config, path.strVal)
- proc expectDynlibNode(c: PContext, n: PNode): PNode =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errStringLiteralExpected)
- # error correction:
- result = newEmptyStrNode(c, n)
- else:
- # For the OpenGL wrapper we support:
- # {.dynlib: myGetProcAddr(...).}
- result = c.semExpr(c, n[1])
- if result.kind == nkSym and result.sym.kind == skConst:
- result = c.semConstExpr(c, result) # fold const
- if result.typ == nil or result.typ.kind notin {tyPointer, tyString, tyProc}:
- localError(c.config, n.info, errStringLiteralExpected)
- result = newEmptyStrNode(c, n)
- proc processDynLib(c: PContext, n: PNode, sym: PSym) =
- if (sym == nil) or (sym.kind == skModule):
- let lib = getLib(c, libDynamic, expectDynlibNode(c, n))
- if not lib.isOverridden:
- c.optionStack[^1].dynlib = lib
- else:
- if n.kind in nkPragmaCallKinds:
- var lib = getLib(c, libDynamic, expectDynlibNode(c, n))
- if not lib.isOverridden:
- addToLib(lib, sym)
- incl(sym.loc.flags, lfDynamicLib)
- else:
- incl(sym.loc.flags, lfExportLib)
- # since we'll be loading the dynlib symbols dynamically, we must use
- # a calling convention that doesn't introduce custom name mangling
- # cdecl is the default - the user can override this explicitly
- if sym.kind in routineKinds and sym.typ != nil and
- tfExplicitCallConv notin sym.typ.flags:
- sym.typ.callConv = ccCDecl
- proc processNote(c: PContext, n: PNode) =
- template handleNote(enumVals, notes) =
- let x = findStr(enumVals.a, enumVals.b, n[0][1].ident.s, errUnknown)
- if x != errUnknown:
- nk = TNoteKind(x)
- let x = c.semConstBoolExpr(c, n[1])
- n[1] = x
- if x.kind == nkIntLit and x.intVal != 0: incl(notes, nk)
- else: excl(notes, nk)
- else:
- invalidPragma(c, n)
- if n.kind in nkPragmaCallKinds and n.len == 2 and
- n[0].kind == nkBracketExpr and
- n[0].len == 2 and
- n[0][1].kind == nkIdent and n[0][0].kind == nkIdent:
- var nk: TNoteKind
- case whichKeyword(n[0][0].ident)
- of wHint: handleNote(hintMin .. hintMax, c.config.notes)
- of wWarning: handleNote(warnMin .. warnMax, c.config.notes)
- of wWarningAsError: handleNote(warnMin .. warnMax, c.config.warningAsErrors)
- of wHintAsError: handleNote(hintMin .. hintMax, c.config.warningAsErrors)
- else: invalidPragma(c, n)
- else: invalidPragma(c, n)
- proc pragmaToOptions*(w: TSpecialWord): TOptions {.inline.} =
- case w
- of wChecks: ChecksOptions
- of wObjChecks: {optObjCheck}
- of wFieldChecks: {optFieldCheck}
- of wRangeChecks: {optRangeCheck}
- of wBoundChecks: {optBoundsCheck}
- of wOverflowChecks: {optOverflowCheck}
- of wFloatChecks: {optNaNCheck, optInfCheck}
- of wNanChecks: {optNaNCheck}
- of wInfChecks: {optInfCheck}
- of wStaticBoundchecks: {optStaticBoundsCheck}
- of wStyleChecks: {optStyleCheck}
- of wAssertions: {optAssert}
- of wWarnings: {optWarns}
- of wHints: {optHints}
- of wLineDir: {optLineDir}
- of wStackTrace: {optStackTrace}
- of wLineTrace: {optLineTrace}
- of wDebugger: {optNone}
- of wProfiler: {optProfiler, optMemTracker}
- of wMemTracker: {optMemTracker}
- of wByRef: {optByRef}
- of wImplicitStatic: {optImplicitStatic}
- of wPatterns, wTrMacros: {optTrMacros}
- of wSinkInference: {optSinkInference}
- of wQuirky: {optQuirky}
- else: {}
- proc processExperimental(c: PContext; n: PNode) =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- c.features.incl oldExperimentalFeatures
- else:
- n[1] = c.semConstExpr(c, n[1])
- case n[1].kind
- of nkStrLit, nkRStrLit, nkTripleStrLit:
- try:
- let feature = parseEnum[Feature](n[1].strVal)
- c.features.incl feature
- if feature == codeReordering:
- if not isTopLevel(c):
- localError(c.config, n.info,
- "Code reordering experimental pragma only valid at toplevel")
- c.module.flags.incl sfReorder
- except ValueError:
- localError(c.config, n[1].info, "unknown experimental feature")
- else:
- localError(c.config, n.info, errStringLiteralExpected)
- proc tryProcessOption(c: PContext, n: PNode, resOptions: var TOptions): bool =
- result = true
- if n.kind notin nkPragmaCallKinds or n.len != 2: result = false
- elif n[0].kind == nkBracketExpr: processNote(c, n)
- elif n[0].kind != nkIdent: result = false
- else:
- let sw = whichKeyword(n[0].ident)
- if sw == wExperimental:
- processExperimental(c, n)
- return true
- let opts = pragmaToOptions(sw)
- if opts != {}:
- onOff(c, n, opts, resOptions)
- else:
- case sw
- of wCallconv: processCallConv(c, n)
- of wDynlib: processDynLib(c, n, nil)
- of wOptimization:
- if n[1].kind != nkIdent:
- invalidPragma(c, n)
- else:
- case n[1].ident.s.normalize
- of "speed":
- incl(resOptions, optOptimizeSpeed)
- excl(resOptions, optOptimizeSize)
- of "size":
- excl(resOptions, optOptimizeSpeed)
- incl(resOptions, optOptimizeSize)
- of "none":
- excl(resOptions, optOptimizeSpeed)
- excl(resOptions, optOptimizeSize)
- else: localError(c.config, n.info, "'none', 'speed' or 'size' expected")
- else: result = false
- proc processOption(c: PContext, n: PNode, resOptions: var TOptions) =
- if not tryProcessOption(c, n, resOptions):
- # calling conventions (boring...):
- localError(c.config, n.info, "option expected")
- proc processPush(c: PContext, n: PNode, start: int) =
- if n[start-1].kind in nkPragmaCallKinds:
- localError(c.config, n.info, "'push' cannot have arguments")
- var x = pushOptionEntry(c)
- for i in start..<n.len:
- if not tryProcessOption(c, n[i], c.config.options):
- # simply store it somewhere:
- if x.otherPragmas.isNil:
- x.otherPragmas = newNodeI(nkPragma, n.info)
- x.otherPragmas.add n[i]
- #localError(c.config, n.info, errOptionExpected)
- # If stacktrace is disabled globally we should not enable it
- if optStackTrace notin c.optionStack[0].options:
- c.config.options.excl(optStackTrace)
- when defined(debugOptions):
- echo c.config $ n.info, " PUSH config is now ", c.config.options
- proc processPop(c: PContext, n: PNode) =
- if c.optionStack.len <= 1:
- localError(c.config, n.info, "{.pop.} without a corresponding {.push.}")
- else:
- popOptionEntry(c)
- when defined(debugOptions):
- echo c.config $ n.info, " POP config is now ", c.config.options
- proc processDefineConst(c: PContext, n: PNode, sym: PSym, kind: TMagic) =
- sym.magic = kind
- if n.kind in nkPragmaCallKinds and n.len == 2:
- # could also use TLib
- n[1] = getStrLitNode(c, n)
- proc processDefine(c: PContext, n: PNode, sym: PSym) =
- if sym != nil and sym.kind == skConst:
- processDefineConst(c, n, sym, mGenericDefine)
- elif (n.kind in nkPragmaCallKinds and n.len == 2) and (n[1].kind == nkIdent):
- defineSymbol(c.config.symbols, n[1].ident.s)
- else:
- invalidPragma(c, n)
- proc processUndef(c: PContext, n: PNode) =
- if (n.kind in nkPragmaCallKinds and n.len == 2) and (n[1].kind == nkIdent):
- undefSymbol(c.config.symbols, n[1].ident.s)
- else:
- invalidPragma(c, n)
- proc relativeFile(c: PContext; n: PNode; ext=""): AbsoluteFile =
- var s = expectStrLit(c, n)
- if ext.len > 0 and splitFile(s).ext == "":
- s = addFileExt(s, ext)
- result = AbsoluteFile parentDir(toFullPath(c.config, n.info)) / s
- if not fileExists(result):
- if isAbsolute(s): result = AbsoluteFile s
- else:
- result = findFile(c.config, s)
- if result.isEmpty: result = AbsoluteFile s
- proc processCompile(c: PContext, n: PNode) =
- ## This pragma can take two forms. The first is a simple file input:
- ## {.compile: "file.c".}
- ## The second is a tuple where the second arg is the output name strutils formatter:
- ## {.compile: ("file.c", "$1.o").}
- proc docompile(c: PContext; it: PNode; src, dest: AbsoluteFile; customArgs: string) =
- var cf = Cfile(nimname: splitFile(src).name,
- cname: src, obj: dest, flags: {CfileFlag.External},
- customArgs: customArgs)
- if not fileExists(src):
- localError(c.config, n.info, "cannot find: " & src.string)
- else:
- extccomp.addExternalFileToCompile(c.config, cf)
- recordPragma(c, it, "compile", src.string, dest.string, customArgs)
- proc getStrLit(c: PContext, n: PNode; i: int): string =
- n[i] = c.semConstExpr(c, n[i])
- case n[i].kind
- of nkStrLit, nkRStrLit, nkTripleStrLit:
- when defined(gcArc) or defined(gcOrc) or defined(gcAtomicArc):
- result = n[i].strVal
- else:
- shallowCopy(result, n[i].strVal)
- else:
- localError(c.config, n.info, errStringLiteralExpected)
- result = ""
- let it = if n.kind in nkPragmaCallKinds and n.len == 2: n[1] else: n
- if it.kind in {nkPar, nkTupleConstr} and it.len == 2:
- let s = getStrLit(c, it, 0)
- let dest = getStrLit(c, it, 1)
- var found = parentDir(toFullPath(c.config, n.info)) / s
- for f in os.walkFiles(found):
- let obj = completeCfilePath(c.config, AbsoluteFile(dest % extractFilename(f)))
- docompile(c, it, AbsoluteFile f, obj, "")
- else:
- var s = ""
- var customArgs = ""
- if n.kind in nkCallKinds:
- s = getStrLit(c, n, 1)
- if n.len <= 3:
- customArgs = getStrLit(c, n, 2)
- else:
- localError(c.config, n.info, "'.compile' pragma takes up 2 arguments")
- else:
- s = expectStrLit(c, n)
- var found = AbsoluteFile(parentDir(toFullPath(c.config, n.info)) / s)
- if not fileExists(found):
- if isAbsolute(s): found = AbsoluteFile s
- else:
- found = findFile(c.config, s)
- if found.isEmpty: found = AbsoluteFile s
- let mangled = completeCfilePath(c.config, mangleModuleName(c.config, found).AbsoluteFile)
- let obj = toObjFile(c.config, mangled)
- docompile(c, it, found, obj, customArgs)
- proc processLink(c: PContext, n: PNode) =
- let found = relativeFile(c, n, CC[c.config.cCompiler].objExt)
- extccomp.addExternalFileToLink(c.config, found)
- recordPragma(c, n, "link", found.string)
- proc semAsmOrEmit*(con: PContext, n: PNode, marker: char): PNode =
- case n[1].kind
- of nkStrLit, nkRStrLit, nkTripleStrLit:
- result = newNodeI(if n.kind == nkAsmStmt: nkAsmStmt else: nkArgList, n.info)
- var str = n[1].strVal
- if str == "":
- localError(con.config, n.info, "empty 'asm' statement")
- return
- # now parse the string literal and substitute symbols:
- var a = 0
- while true:
- var b = strutils.find(str, marker, a)
- var sub = if b < 0: substr(str, a) else: substr(str, a, b - 1)
- if sub != "": result.add newStrNode(nkStrLit, sub)
- if b < 0: break
- var c = strutils.find(str, marker, b + 1)
- if c < 0: sub = substr(str, b + 1)
- else: sub = substr(str, b + 1, c - 1)
- if sub != "":
- var amb = false
- var e = searchInScopes(con, getIdent(con.cache, sub), amb)
- # XXX what to do here if 'amb' is true?
- if e != nil:
- incl(e.flags, sfUsed)
- result.add newSymNode(e)
- else:
- result.add newStrNode(nkStrLit, sub)
- else:
- # an empty '``' produces a single '`'
- result.add newStrNode(nkStrLit, $marker)
- if c < 0: break
- a = c + 1
- else:
- illFormedAstLocal(n, con.config)
- result = newNodeI(nkAsmStmt, n.info)
- proc pragmaEmit(c: PContext, n: PNode) =
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errStringLiteralExpected)
- else:
- let n1 = n[1]
- if n1.kind == nkBracket:
- var b = newNodeI(nkBracket, n1.info, n1.len)
- for i in 0..<n1.len:
- b[i] = c.semExprWithType(c, n1[i], {efTypeAllowed})
- n[1] = b
- else:
- n[1] = c.semConstExpr(c, n1)
- case n[1].kind
- of nkStrLit, nkRStrLit, nkTripleStrLit:
- n[1] = semAsmOrEmit(c, n, '`')
- else:
- localError(c.config, n.info, errStringLiteralExpected)
- proc noVal(c: PContext; n: PNode) =
- if n.kind in nkPragmaCallKinds and n.len > 1: invalidPragma(c, n)
- proc pragmaUnroll(c: PContext, n: PNode) =
- if c.p.nestedLoopCounter <= 0:
- invalidPragma(c, n)
- elif n.kind in nkPragmaCallKinds and n.len == 2:
- var unrollFactor = expectIntLit(c, n)
- if unrollFactor <% 32:
- n[1] = newIntNode(nkIntLit, unrollFactor)
- else:
- invalidPragma(c, n)
- proc pragmaLine(c: PContext, n: PNode) =
- if n.kind in nkPragmaCallKinds and n.len == 2:
- n[1] = c.semConstExpr(c, n[1])
- let a = n[1]
- if a.kind in {nkPar, nkTupleConstr}:
- # unpack the tuple
- var x = a[0]
- var y = a[1]
- if x.kind == nkExprColonExpr: x = x[1]
- if y.kind == nkExprColonExpr: y = y[1]
- if x.kind != nkStrLit:
- localError(c.config, n.info, errStringLiteralExpected)
- elif y.kind != nkIntLit:
- localError(c.config, n.info, errIntLiteralExpected)
- else:
- n.info.fileIndex = fileInfoIdx(c.config, AbsoluteFile(x.strVal))
- n.info.line = uint16(y.intVal)
- else:
- localError(c.config, n.info, "tuple expected")
- else:
- # sensible default:
- n.info = getInfoContext(c.config, -1)
- proc processPragma(c: PContext, n: PNode, i: int) =
- ## Create and add a new custom pragma `{.pragma: name.}` node to the module's context.
- let it = n[i]
- if it.kind notin nkPragmaCallKinds and it.safeLen == 2: invalidPragma(c, n)
- elif it.safeLen != 2 or it[0].kind != nkIdent or it[1].kind != nkIdent:
- invalidPragma(c, n)
- var userPragma = newSym(skTemplate, it[1].ident, c.idgen, c.module, it.info, c.config.options)
- styleCheckDef(c, userPragma)
- userPragma.ast = newTreeI(nkPragma, n.info, n.sons[i+1..^1])
- strTableAdd(c.userPragmas, userPragma)
- proc pragmaRaisesOrTags(c: PContext, n: PNode) =
- proc processExc(c: PContext, x: PNode) =
- if c.hasUnresolvedArgs(c, x):
- x.typ = makeTypeFromExpr(c, x)
- else:
- var t = skipTypes(c.semTypeNode(c, x, nil), skipPtrs)
- if t.kind notin {tyObject, tyOr}:
- localError(c.config, x.info, errGenerated, "invalid type for raises/tags list")
- x.typ = t
- if n.kind in nkPragmaCallKinds and n.len == 2:
- let it = n[1]
- if it.kind notin {nkCurly, nkBracket}:
- processExc(c, it)
- else:
- for e in items(it): processExc(c, e)
- else:
- invalidPragma(c, n)
- proc pragmaLockStmt(c: PContext; it: PNode) =
- if it.kind notin nkPragmaCallKinds or it.len != 2:
- invalidPragma(c, it)
- else:
- let n = it[1]
- if n.kind != nkBracket:
- localError(c.config, n.info, errGenerated, "locks pragma takes a list of expressions")
- else:
- for i in 0..<n.len:
- n[i] = c.semExpr(c, n[i])
- proc typeBorrow(c: PContext; sym: PSym, n: PNode) =
- if n.kind in nkPragmaCallKinds and n.len == 2:
- let it = n[1]
- if it.kind != nkAccQuoted:
- localError(c.config, n.info, "a type can only borrow `.` for now")
- incl(sym.typ.flags, tfBorrowDot)
- proc markCompilerProc(c: PContext; s: PSym) =
- # minor hack ahead: FlowVar is the only generic .compilerproc type which
- # should not have an external name set:
- if s.kind != skType or s.name.s != "FlowVar":
- makeExternExport(c, s, "$1", s.info)
- incl(s.flags, sfCompilerProc)
- incl(s.flags, sfUsed)
- registerCompilerProc(c.graph, s)
- if c.config.symbolFiles != disabledSf:
- addCompilerProc(c.encoder, c.packedRepr, s)
- proc deprecatedStmt(c: PContext; outerPragma: PNode) =
- let pragma = outerPragma[1]
- if pragma.kind in {nkStrLit..nkTripleStrLit}:
- incl(c.module.flags, sfDeprecated)
- c.module.constraint = getStrLitNode(c, outerPragma)
- return
- if pragma.kind != nkBracket:
- localError(c.config, pragma.info, "list of key:value pairs expected"); return
- message(c.config, pragma.info, warnDeprecated,
- "deprecated statement is now a no-op, use regular deprecated pragma")
- proc pragmaGuard(c: PContext; it: PNode; kind: TSymKind): PSym =
- if it.kind notin nkPragmaCallKinds or it.len != 2:
- invalidPragma(c, it); return
- let n = it[1]
- if n.kind == nkSym:
- result = n.sym
- elif kind == skField:
- # First check if the guard is a global variable:
- result = qualifiedLookUp(c, n, {})
- if result.isNil or result.kind notin {skLet, skVar} or
- sfGlobal notin result.flags:
- # We return a dummy symbol; later passes over the type will repair it.
- # Generic instantiation needs to know about this too. But we're lazy
- # and perform the lookup on demand instead.
- result = newSym(skUnknown, considerQuotedIdent(c, n), c.idgen, nil, n.info,
- c.config.options)
- else:
- result = qualifiedLookUp(c, n, {checkUndeclared})
- proc semCustomPragma(c: PContext, n: PNode, sym: PSym): PNode =
- var callNode: PNode
- if n.kind in {nkIdent, nkSym}:
- # pragma -> pragma()
- callNode = newTree(nkCall, n)
- elif n.kind == nkExprColonExpr:
- # pragma: arg -> pragma(arg)
- callNode = newTree(nkCall, n[0], n[1])
- elif n.kind in nkPragmaCallKinds:
- callNode = n
- else:
- invalidPragma(c, n)
- return n
- let r = c.semOverloadedCall(c, callNode, n, {skTemplate}, {efNoUndeclared})
- if r.isNil or sfCustomPragma notin r[0].sym.flags:
- invalidPragma(c, n)
- return n
- # we have a valid custom pragma
- if sym != nil and sym.kind in {skEnumField, skForVar, skModule}:
- illegalCustomPragma(c, n, sym)
- return n
- result = r
- # Transform the nkCall node back to its original form if possible
- if n.kind == nkIdent and r.len == 1:
- # pragma() -> pragma
- result = result[0]
- elif n.kind == nkExprColonExpr and r.len == 2:
- # pragma(arg) -> pragma: arg
- result.transitionSonsKind(n.kind)
- proc processEffectsOf(c: PContext, n: PNode; owner: PSym) =
- proc processParam(c: PContext; n: PNode) =
- let r = c.semExpr(c, n)
- if r.kind == nkSym and r.sym.kind == skParam:
- if r.sym.owner == owner:
- incl r.sym.flags, sfEffectsDelayed
- else:
- localError(c.config, n.info, errGenerated, "parameter cannot be declared as .effectsOf")
- else:
- localError(c.config, n.info, errGenerated, "parameter name expected")
- if n.kind notin nkPragmaCallKinds or n.len != 2:
- localError(c.config, n.info, errGenerated, "parameter name expected")
- else:
- let it = n[1]
- if it.kind in {nkCurly, nkBracket}:
- for x in items(it): processParam(c, x)
- else:
- processParam(c, it)
- proc singlePragma(c: PContext, sym: PSym, n: PNode, i: var int,
- validPragmas: TSpecialWords,
- comesFromPush, isStatement: bool): bool =
- result = false
- var it = n[i]
- let keyDeep = it.kind in nkPragmaCallKinds and it.len > 1
- var key = if keyDeep: it[0] else: it
- if key.kind == nkBracketExpr:
- processNote(c, it)
- return
- elif key.kind == nkCast:
- if comesFromPush:
- localError(c.config, n.info, "a 'cast' pragma cannot be pushed")
- elif not isStatement:
- localError(c.config, n.info, "'cast' pragma only allowed in a statement context")
- case whichPragma(key[1])
- of wRaises, wTags, wForbids: pragmaRaisesOrTags(c, key[1])
- else: discard
- return
- elif key.kind notin nkIdentKinds:
- n[i] = semCustomPragma(c, it, sym)
- return
- let ident = considerQuotedIdent(c, key)
- var userPragma = strTableGet(c.userPragmas, ident)
- if userPragma != nil:
- styleCheckUse(c, key.info, userPragma)
- # number of pragmas increase/decrease with user pragma expansion
- inc c.instCounter
- if c.instCounter > 100:
- globalError(c.config, it.info, "recursive dependency: " & userPragma.name.s)
- if keyDeep:
- localError(c.config, it.info, "user pragma cannot have arguments")
- pragma(c, sym, userPragma.ast, validPragmas, isStatement)
- n.sons[i..i] = userPragma.ast.sons # expand user pragma with its content
- i.inc(userPragma.ast.len - 1) # inc by -1 is ok, user pragmas was empty
- dec c.instCounter
- else:
- let k = whichKeyword(ident)
- if k in validPragmas:
- checkPragmaUse(c, key.info, k, ident.s, (if sym != nil: sym else: c.module))
- case k
- of wExportc, wExportCpp:
- makeExternExport(c, sym, getOptionalStr(c, it, "$1"), it.info)
- if k == wExportCpp:
- if c.config.backend != backendCpp:
- localError(c.config, it.info, "exportcpp requires `cpp` backend, got: " & $c.config.backend)
- else:
- incl(sym.flags, sfMangleCpp)
- incl(sym.flags, sfUsed) # avoid wrong hints
- of wImportc:
- let name = getOptionalStr(c, it, "$1")
- cppDefine(c.config, name)
- recordPragma(c, it, "cppdefine", name)
- makeExternImport(c, sym, name, it.info)
- of wImportCompilerProc:
- let name = getOptionalStr(c, it, "$1")
- cppDefine(c.config, name)
- recordPragma(c, it, "cppdefine", name)
- processImportCompilerProc(c, sym, name, it.info)
- of wExtern: setExternName(c, sym, expectStrLit(c, it), it.info)
- of wDirty:
- if sym.kind == skTemplate: incl(sym.flags, sfDirty)
- else: invalidPragma(c, it)
- of wRedefine:
- if sym.kind == skTemplate: incl(sym.flags, sfTemplateRedefinition)
- else: invalidPragma(c, it)
- of wCallsite:
- if sym.kind == skTemplate: incl(sym.flags, sfCallsite)
- else: invalidPragma(c, it)
- of wImportCpp:
- processImportCpp(c, sym, getOptionalStr(c, it, "$1"), it.info)
- of wCppNonPod:
- incl(sym.flags, sfCppNonPod)
- of wImportJs:
- if c.config.backend != backendJs:
- localError(c.config, it.info, "`importjs` pragma requires the JavaScript target")
- let name = getOptionalStr(c, it, "$1")
- incl(sym.flags, sfImportc)
- incl(sym.flags, sfInfixCall)
- if sym.kind in skProcKinds and {'(', '#', '@'} notin name:
- localError(c.config, n.info, "`importjs` for routines requires a pattern")
- setExternName(c, sym, name, it.info)
- of wImportObjC:
- processImportObjC(c, sym, getOptionalStr(c, it, "$1"), it.info)
- of wSize:
- if sym.typ == nil: invalidPragma(c, it)
- var size = expectIntLit(c, it)
- case size
- of 1, 2, 4:
- sym.typ.size = size
- sym.typ.align = int16 size
- of 8:
- sym.typ.size = 8
- sym.typ.align = floatInt64Align(c.config)
- else:
- localError(c.config, it.info, "size may only be 1, 2, 4 or 8")
- of wAlign:
- let alignment = expectIntLit(c, it)
- if isPowerOfTwo(alignment) and alignment > 0:
- sym.alignment = max(sym.alignment, alignment)
- else:
- localError(c.config, it.info, "power of two expected")
- of wNodecl:
- noVal(c, it)
- incl(sym.loc.flags, lfNoDecl)
- of wPure, wAsmNoStackFrame:
- noVal(c, it)
- if sym != nil:
- if k == wPure and sym.kind in routineKinds: invalidPragma(c, it)
- else: incl(sym.flags, sfPure)
- of wVolatile:
- noVal(c, it)
- incl(sym.flags, sfVolatile)
- of wCursor:
- noVal(c, it)
- incl(sym.flags, sfCursor)
- of wRegister:
- noVal(c, it)
- incl(sym.flags, sfRegister)
- of wNoalias:
- noVal(c, it)
- incl(sym.flags, sfNoalias)
- of wEffectsOf:
- processEffectsOf(c, it, sym)
- of wThreadVar:
- noVal(c, it)
- incl(sym.flags, {sfThread, sfGlobal})
- of wDeadCodeElimUnused:
- warningDeprecated(c.config, n.info, "'{.deadcodeelim: on.}' is deprecated, now a noop") # deprecated, dead code elim always on
- of wNoForward: pragmaNoForward(c, it)
- of wReorder: pragmaNoForward(c, it, flag = sfReorder)
- of wMagic: processMagic(c, it, sym)
- of wCompileTime:
- noVal(c, it)
- if comesFromPush:
- if sym.kind in {skProc, skFunc}:
- incl(sym.flags, sfCompileTime)
- else:
- incl(sym.flags, sfCompileTime)
- #incl(sym.loc.flags, lfNoDecl)
- of wGlobal:
- noVal(c, it)
- incl(sym.flags, sfGlobal)
- incl(sym.flags, sfPure)
- of wConstructor:
- incl(sym.flags, sfConstructor)
- if sfImportc notin sym.flags:
- sym.constraint = newEmptyStrNode(c, it, getOptionalStr(c, it, ""))
- sym.constraint.strVal = sym.constraint.strVal
- sym.flags.incl {sfExportc, sfMangleCpp}
- sym.typ.callConv = ccNoConvention
- of wHeader:
- var lib = getLib(c, libHeader, getStrLitNode(c, it))
- addToLib(lib, sym)
- incl(sym.flags, sfImportc)
- incl(sym.loc.flags, lfHeader)
- incl(sym.loc.flags, lfNoDecl)
- # implies nodecl, because otherwise header would not make sense
- if sym.loc.r == "": sym.loc.r = rope(sym.name.s)
- of wNoSideEffect:
- noVal(c, it)
- if sym != nil:
- incl(sym.flags, sfNoSideEffect)
- if sym.typ != nil: incl(sym.typ.flags, tfNoSideEffect)
- of wSideEffect:
- noVal(c, it)
- incl(sym.flags, sfSideEffect)
- of wNoreturn:
- noVal(c, it)
- # Disable the 'noreturn' annotation when in the "Quirky Exceptions" mode!
- if c.config.exc != excQuirky:
- incl(sym.flags, sfNoReturn)
- if sym.typ[0] != nil:
- localError(c.config, sym.ast[paramsPos][0].info,
- ".noreturn with return type not allowed")
- of wNoDestroy:
- noVal(c, it)
- incl(sym.flags, sfGeneratedOp)
- of wNosinks:
- noVal(c, it)
- incl(sym.flags, sfWasForwarded)
- of wDynlib:
- processDynLib(c, it, sym)
- of wCompilerProc, wCore:
- noVal(c, it) # compilerproc may not get a string!
- cppDefine(c.graph.config, sym.name.s)
- recordPragma(c, it, "cppdefine", sym.name.s)
- if sfFromGeneric notin sym.flags: markCompilerProc(c, sym)
- of wNonReloadable:
- sym.flags.incl sfNonReloadable
- of wProcVar:
- # old procvar annotation, no longer needed
- noVal(c, it)
- of wExplain:
- sym.flags.incl sfExplain
- of wDeprecated:
- if sym != nil and sym.kind in routineKinds + {skType, skVar, skLet, skConst}:
- if it.kind in nkPragmaCallKinds: discard getStrLitNode(c, it)
- incl(sym.flags, sfDeprecated)
- elif sym != nil and sym.kind != skModule:
- # We don't support the extra annotation field
- if it.kind in nkPragmaCallKinds:
- localError(c.config, it.info, "annotation to deprecated not supported here")
- incl(sym.flags, sfDeprecated)
- # At this point we're quite sure this is a statement and applies to the
- # whole module
- elif it.kind in nkPragmaCallKinds: deprecatedStmt(c, it)
- else: incl(c.module.flags, sfDeprecated)
- of wVarargs:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfVarargs)
- of wBorrow:
- if sym.kind == skType:
- typeBorrow(c, sym, it)
- else:
- noVal(c, it)
- incl(sym.flags, sfBorrow)
- of wFinal:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfFinal)
- of wInheritable:
- noVal(c, it)
- if sym.typ == nil or tfFinal in sym.typ.flags: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfInheritable)
- of wPackage:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.flags, sfForward)
- of wAcyclic:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfAcyclic)
- of wShallow:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfShallow)
- of wThread:
- noVal(c, it)
- incl(sym.flags, sfThread)
- if sym.typ != nil:
- incl(sym.typ.flags, tfThread)
- if sym.typ.callConv == ccClosure: sym.typ.callConv = ccNimCall
- of wSendable:
- noVal(c, it)
- if sym != nil and sym.typ != nil:
- incl(sym.typ.flags, tfSendable)
- else:
- invalidPragma(c, it)
- of wGcSafe:
- noVal(c, it)
- if sym != nil:
- if sym.kind != skType: incl(sym.flags, sfThread)
- if sym.typ != nil: incl(sym.typ.flags, tfGcSafe)
- else: invalidPragma(c, it)
- else:
- discard "no checking if used as a code block"
- of wPacked:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfPacked)
- of wHint:
- let s = expectStrLit(c, it)
- recordPragma(c, it, "hint", s)
- message(c.config, it.info, hintUser, s)
- of wWarning:
- let s = expectStrLit(c, it)
- recordPragma(c, it, "warning", s)
- message(c.config, it.info, warnUser, s)
- of wError:
- if sym != nil and (sym.isRoutine or sym.kind == skType) and not isStatement:
- # This is subtle but correct: the error *statement* is only
- # allowed when 'wUsed' is not in validPragmas. Here this is the easiest way to
- # distinguish properly between
- # ``proc p() {.error}`` and ``proc p() = {.error: "msg".}``
- if it.kind in nkPragmaCallKinds: discard getStrLitNode(c, it)
- incl(sym.flags, sfError)
- excl(sym.flags, sfForward)
- else:
- let s = expectStrLit(c, it)
- recordPragma(c, it, "error", s)
- localError(c.config, it.info, errUser, s)
- of wFatal: fatal(c.config, it.info, expectStrLit(c, it))
- of wDefine: processDefine(c, it, sym)
- of wUndef: processUndef(c, it)
- of wCompile: processCompile(c, it)
- of wLink: processLink(c, it)
- of wPassl:
- let s = expectStrLit(c, it)
- extccomp.addLinkOption(c.config, s)
- recordPragma(c, it, "passl", s)
- of wPassc:
- let s = expectStrLit(c, it)
- extccomp.addCompileOption(c.config, s)
- recordPragma(c, it, "passc", s)
- of wLocalPassc:
- assert sym != nil and sym.kind == skModule
- let s = expectStrLit(c, it)
- appendToModule(sym, n)
- extccomp.addLocalCompileOption(c.config, s, toFullPathConsiderDirty(c.config, sym.info.fileIndex))
- recordPragma(c, it, "localpassl", s)
- of wPush:
- processPush(c, n, i + 1)
- result = true
- of wPop:
- processPop(c, it)
- result = true
- of wPragma:
- if not sym.isNil and sym.kind == skTemplate:
- sym.flags.incl sfCustomPragma
- else:
- processPragma(c, n, i)
- result = true
- of wDiscardable:
- noVal(c, it)
- if sym != nil: incl(sym.flags, sfDiscardable)
- of wNoInit:
- noVal(c, it)
- if sym != nil: incl(sym.flags, sfNoInit)
- of wCodegenDecl: processCodegenDecl(c, it, sym)
- of wChecks, wObjChecks, wFieldChecks, wRangeChecks, wBoundChecks,
- wOverflowChecks, wNilChecks, wAssertions, wWarnings, wHints,
- wLineDir, wOptimization, wStaticBoundchecks, wStyleChecks,
- wCallconv, wDebugger, wProfiler,
- wFloatChecks, wNanChecks, wInfChecks, wPatterns, wTrMacros:
- processOption(c, it, c.config.options)
- of wStackTrace, wLineTrace:
- if sym.kind in {skProc, skMethod, skConverter}:
- processOption(c, it, sym.options)
- else:
- processOption(c, it, c.config.options)
- of FirstCallConv..LastCallConv:
- assert(sym != nil)
- if sym.typ == nil: invalidPragma(c, it)
- else:
- sym.typ.callConv = wordToCallConv(k)
- sym.typ.flags.incl tfExplicitCallConv
- of wEmit: pragmaEmit(c, it)
- of wUnroll: pragmaUnroll(c, it)
- of wLinearScanEnd, wComputedGoto: noVal(c, it)
- of wEffects:
- # is later processed in effect analysis:
- noVal(c, it)
- of wIncompleteStruct:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfIncompleteStruct)
- of wCompleteStruct:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfCompleteStruct)
- of wUnchecked:
- noVal(c, it)
- if sym.typ == nil or sym.typ.kind notin {tyArray, tyUncheckedArray}:
- invalidPragma(c, it)
- else:
- sym.typ.kind = tyUncheckedArray
- of wUnion:
- if c.config.backend == backendJs:
- localError(c.config, it.info, "`{.union.}` is not implemented for js backend.")
- else:
- noVal(c, it)
- if sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfUnion)
- of wRequiresInit:
- noVal(c, it)
- if sym.kind == skField:
- sym.flags.incl sfRequiresInit
- elif sym.typ != nil:
- incl(sym.typ.flags, tfNeedsFullInit)
- else:
- invalidPragma(c, it)
- of wByRef:
- noVal(c, it)
- if sym != nil and sym.kind == skParam:
- sym.options.incl optByRef
- elif sym == nil or sym.typ == nil:
- processOption(c, it, c.config.options)
- else:
- incl(sym.typ.flags, tfByRef)
- of wByCopy:
- noVal(c, it)
- if sym.kind == skParam:
- incl(sym.flags, sfByCopy)
- elif sym.kind != skType or sym.typ == nil: invalidPragma(c, it)
- else: incl(sym.typ.flags, tfByCopy)
- of wPartial:
- noVal(c, it)
- if sym.kind != skType or sym.typ == nil: invalidPragma(c, it)
- else:
- incl(sym.typ.flags, tfPartial)
- of wInject, wGensym:
- # We check for errors, but do nothing with these pragmas otherwise
- # as they are handled directly in 'evalTemplate'.
- noVal(c, it)
- if sym == nil: invalidPragma(c, it)
- of wLine: pragmaLine(c, it)
- of wRaises, wTags, wForbids: pragmaRaisesOrTags(c, it)
- of wLocks:
- if sym == nil: pragmaLockStmt(c, it)
- elif sym.typ == nil: invalidPragma(c, it)
- else: warningDeprecated(c.config, n.info, "'Lock levels' are deprecated, now a noop")
- of wBitsize:
- if sym == nil or sym.kind != skField:
- invalidPragma(c, it)
- else:
- sym.bitsize = expectIntLit(c, it)
- if sym.bitsize <= 0:
- localError(c.config, it.info, "bitsize needs to be positive")
- of wGuard:
- if sym == nil or sym.kind notin {skVar, skLet, skField}:
- invalidPragma(c, it)
- else:
- sym.guard = pragmaGuard(c, it, sym.kind)
- of wGoto:
- if sym == nil or sym.kind notin {skVar, skLet}:
- invalidPragma(c, it)
- else:
- sym.flags.incl sfGoto
- of wExportNims:
- if sym == nil: invalidPragma(c, it)
- else: magicsys.registerNimScriptSymbol(c.graph, sym)
- of wExperimental:
- if not isTopLevel(c):
- localError(c.config, n.info, "'experimental' pragma only valid as toplevel statement or in a 'push' environment")
- processExperimental(c, it)
- of wDoctype:
- if not isTopLevel(c):
- localError(c.config, n.info, "\"doctype\" pragma only valid as top-level statement")
- of wNoRewrite:
- noVal(c, it)
- of wBase:
- noVal(c, it)
- sym.flags.incl sfBase
- of wIntDefine:
- processDefineConst(c, n, sym, mIntDefine)
- of wStrDefine:
- processDefineConst(c, n, sym, mStrDefine)
- of wBoolDefine:
- processDefineConst(c, n, sym, mBoolDefine)
- of wUsed:
- noVal(c, it)
- if sym == nil: invalidPragma(c, it)
- else: sym.flags.incl sfUsed
- of wLiftLocals: discard
- of wRequires, wInvariant, wAssume, wAssert:
- pragmaProposition(c, it)
- of wEnsures:
- pragmaEnsures(c, it)
- of wEnforceNoRaises, wQuirky:
- sym.flags.incl sfNeverRaises
- of wSystemRaisesDefect:
- sym.flags.incl sfSystemRaisesDefect
- of wVirtual:
- processVirtual(c, it, sym, sfVirtual)
- of wMember:
- processVirtual(c, it, sym, sfMember)
- else: invalidPragma(c, it)
- elif comesFromPush and whichKeyword(ident) != wInvalid:
- discard "ignore the .push pragma; it doesn't apply"
- else:
- # semCustomPragma gives appropriate error for invalid pragmas
- n[i] = semCustomPragma(c, it, sym)
- proc overwriteLineInfo(n: PNode; info: TLineInfo) =
- n.info = info
- for i in 0..<n.safeLen:
- overwriteLineInfo(n[i], info)
- proc mergePragmas(n, pragmas: PNode) =
- var pragmas = copyTree(pragmas)
- overwriteLineInfo pragmas, n.info
- if n[pragmasPos].kind == nkEmpty:
- n[pragmasPos] = pragmas
- else:
- for p in pragmas: n[pragmasPos].add p
- proc implicitPragmas*(c: PContext, sym: PSym, info: TLineInfo,
- validPragmas: TSpecialWords) =
- if sym != nil and sym.kind != skModule:
- for it in c.optionStack:
- let o = it.otherPragmas
- if not o.isNil and sfFromGeneric notin sym.flags: # see issue #12985
- pushInfoContext(c.config, info)
- var i = 0
- while i < o.len:
- if singlePragma(c, sym, o, i, validPragmas, true, false):
- internalError(c.config, info, "implicitPragmas")
- inc i
- popInfoContext(c.config)
- if sym.kind in routineKinds and sym.ast != nil: mergePragmas(sym.ast, o)
- if lfExportLib in sym.loc.flags and sfExportc notin sym.flags:
- localError(c.config, info, ".dynlib requires .exportc")
- var lib = c.optionStack[^1].dynlib
- if {lfDynamicLib, lfHeader} * sym.loc.flags == {} and
- sfImportc in sym.flags and lib != nil:
- incl(sym.loc.flags, lfDynamicLib)
- addToLib(lib, sym)
- if sym.loc.r == "": sym.loc.r = rope(sym.name.s)
- proc hasPragma*(n: PNode, pragma: TSpecialWord): bool =
- if n == nil: return false
- for p in n:
- var key = if p.kind in nkPragmaCallKinds and p.len > 1: p[0] else: p
- if key.kind == nkIdent and whichKeyword(key.ident) == pragma:
- return true
- return false
- proc pragmaRec(c: PContext, sym: PSym, n: PNode, validPragmas: TSpecialWords;
- isStatement: bool) =
- if n == nil: return
- var i = 0
- while i < n.len:
- if singlePragma(c, sym, n, i, validPragmas, false, isStatement): break
- inc i
- proc pragma(c: PContext, sym: PSym, n: PNode, validPragmas: TSpecialWords;
- isStatement: bool) =
- if n == nil: return
- pragmaRec(c, sym, n, validPragmas, isStatement)
- # XXX: in the case of a callable def, this should use its info
- implicitPragmas(c, sym, n.info, validPragmas)
- proc pragmaCallable*(c: PContext, sym: PSym, n: PNode, validPragmas: TSpecialWords,
- isStatement: bool = false) =
- if n == nil: return
- if n[pragmasPos].kind != nkEmpty:
- pragmaRec(c, sym, n[pragmasPos], validPragmas, isStatement)
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