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- #
- #
- # The Nim Compiler
- # (c) Copyright 2012 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- ## This module implements the passes functionality. A pass must implement the
- ## `TPass` interface.
- import
- options, ast, llstream, msgs,
- idents,
- syntaxes, modulegraphs, reorder,
- lineinfos,
- pipelineutils,
- modules, pathutils, packages,
- sem, semdata
- import ic/replayer
- export skipCodegen, resolveMod, prepareConfigNotes
- when defined(nimsuggest):
- import std/sha1
- when defined(nimPreviewSlimSystem):
- import std/[syncio, assertions]
- import std/tables
- type
- TPassData* = tuple[input: PNode, closeOutput: PNode]
- # a pass is a tuple of procedure vars ``TPass.close`` may produce additional
- # nodes. These are passed to the other close procedures.
- # This mechanism used to be used for the instantiation of generics.
- proc makePass*(open: TPassOpen = nil,
- process: TPassProcess = nil,
- close: TPassClose = nil,
- isFrontend = false): TPass =
- result.open = open
- result.close = close
- result.process = process
- result.isFrontend = isFrontend
- const
- maxPasses = 10
- type
- TPassContextArray = array[0..maxPasses - 1, PPassContext]
- proc clearPasses*(g: ModuleGraph) =
- g.passes.setLen(0)
- proc registerPass*(g: ModuleGraph; p: TPass) =
- internalAssert g.config, g.passes.len < maxPasses
- g.passes.add(p)
- proc openPasses(g: ModuleGraph; a: var TPassContextArray;
- module: PSym; idgen: IdGenerator) =
- for i in 0..<g.passes.len:
- if not isNil(g.passes[i].open):
- a[i] = g.passes[i].open(g, module, idgen)
- else: a[i] = nil
- proc closePasses(graph: ModuleGraph; a: var TPassContextArray) =
- var m: PNode = nil
- for i in 0..<graph.passes.len:
- if not isNil(graph.passes[i].close):
- m = graph.passes[i].close(graph, a[i], m)
- a[i] = nil # free the memory here
- proc processTopLevelStmt(graph: ModuleGraph, n: PNode, a: var TPassContextArray): bool =
- # this implements the code transformation pipeline
- var m = n
- for i in 0..<graph.passes.len:
- if not isNil(graph.passes[i].process):
- m = graph.passes[i].process(a[i], m)
- if isNil(m): return false
- result = true
- proc processImplicits(graph: ModuleGraph; implicits: seq[string], nodeKind: TNodeKind,
- a: var TPassContextArray; m: PSym) =
- # XXX fixme this should actually be relative to the config file!
- let relativeTo = toFullPath(graph.config, m.info)
- for module in items(implicits):
- # implicit imports should not lead to a module importing itself
- if m.position != resolveMod(graph.config, module, relativeTo).int32:
- var importStmt = newNodeI(nodeKind, m.info)
- var str = newStrNode(nkStrLit, module)
- str.info = m.info
- importStmt.add str
- if not processTopLevelStmt(graph, importStmt, a): break
- proc processModule*(graph: ModuleGraph; module: PSym; idgen: IdGenerator;
- stream: PLLStream): bool {.discardable.} =
- if graph.stopCompile(): return true
- var
- p: Parser
- a: TPassContextArray
- s: PLLStream
- fileIdx = module.fileIdx
- prepareConfigNotes(graph, module)
- openPasses(graph, a, module, idgen)
- if stream == nil:
- let filename = toFullPathConsiderDirty(graph.config, fileIdx)
- s = llStreamOpen(filename, fmRead)
- if s == nil:
- rawMessage(graph.config, errCannotOpenFile, filename.string)
- return false
- else:
- s = stream
- when defined(nimsuggest):
- let filename = toFullPathConsiderDirty(graph.config, fileIdx).string
- msgs.setHash(graph.config, fileIdx, $sha1.secureHashFile(filename))
- while true:
- openParser(p, fileIdx, s, graph.cache, graph.config)
- if (not belongsToStdlib(graph, module)) or module.name.s == "distros":
- # XXX what about caching? no processing then? what if I change the
- # modules to include between compilation runs? we'd need to track that
- # in ROD files. I think we should enable this feature only
- # for the interactive mode.
- if module.name.s != "nimscriptapi":
- processImplicits graph, graph.config.implicitImports, nkImportStmt, a, module
- processImplicits graph, graph.config.implicitIncludes, nkIncludeStmt, a, module
- checkFirstLineIndentation(p)
- block processCode:
- if graph.stopCompile(): break processCode
- var n = parseTopLevelStmt(p)
- if n.kind == nkEmpty: break processCode
- # read everything, no streaming possible
- var sl = newNodeI(nkStmtList, n.info)
- sl.add n
- while true:
- var n = parseTopLevelStmt(p)
- if n.kind == nkEmpty: break
- sl.add n
- if sfReorder in module.flags or codeReordering in graph.config.features:
- sl = reorder(graph, sl, module)
- discard processTopLevelStmt(graph, sl, a)
- closeParser(p)
- if s.kind != llsStdIn: break
- closePasses(graph, a)
- if graph.config.backend notin {backendC, backendCpp, backendObjc}:
- # We only write rod files here if no C-like backend is active.
- # The C-like backends have been patched to support the IC mechanism.
- # They are responsible for closing the rod files. See `cbackend.nim`.
- closeRodFile(graph, module)
- result = true
- proc compileModule*(graph: ModuleGraph; fileIdx: FileIndex; flags: TSymFlags, fromModule: PSym = nil): PSym =
- var flags = flags
- if fileIdx == graph.config.projectMainIdx2: flags.incl sfMainModule
- result = graph.getModule(fileIdx)
- template processModuleAux(moduleStatus) =
- onProcessing(graph, fileIdx, moduleStatus, fromModule = fromModule)
- var s: PLLStream
- if sfMainModule in flags:
- if graph.config.projectIsStdin: s = stdin.llStreamOpen
- elif graph.config.projectIsCmd: s = llStreamOpen(graph.config.cmdInput)
- discard processModule(graph, result, idGeneratorFromModule(result), s)
- if result == nil:
- var cachedModules: seq[FileIndex]
- result = moduleFromRodFile(graph, fileIdx, cachedModules)
- let filename = AbsoluteFile toFullPath(graph.config, fileIdx)
- if result == nil:
- result = newModule(graph, fileIdx)
- result.flags.incl flags
- registerModule(graph, result)
- processModuleAux("import")
- else:
- if sfSystemModule in flags:
- graph.systemModule = result
- partialInitModule(result, graph, fileIdx, filename)
- for m in cachedModules:
- registerModuleById(graph, m)
- replayStateChanges(graph.packed[m.int].module, graph)
- replayGenericCacheInformation(graph, m.int)
- elif graph.isDirty(result):
- result.flags.excl sfDirty
- # reset module fields:
- initStrTables(graph, result)
- result.ast = nil
- processModuleAux("import(dirty)")
- graph.markClientsDirty(fileIdx)
- proc importModule*(graph: ModuleGraph; s: PSym, fileIdx: FileIndex): PSym =
- # this is called by the semantic checking phase
- assert graph.config != nil
- result = compileModule(graph, fileIdx, {}, s)
- graph.addDep(s, fileIdx)
- # keep track of import relationships
- if graph.config.hcrOn:
- graph.importDeps.mgetOrPut(FileIndex(s.position), @[]).add(fileIdx)
- #if sfSystemModule in result.flags:
- # localError(result.info, errAttemptToRedefine, result.name.s)
- # restore the notes for outer module:
- graph.config.notes =
- if graph.config.belongsToProjectPackage(s) or isDefined(graph.config, "booting"): graph.config.mainPackageNotes
- else: graph.config.foreignPackageNotes
- proc connectCallbacks*(graph: ModuleGraph) =
- graph.includeFileCallback = modules.includeModule
- graph.importModuleCallback = importModule
- proc compileSystemModule*(graph: ModuleGraph) =
- if graph.systemModule == nil:
- connectCallbacks(graph)
- graph.config.m.systemFileIdx = fileInfoIdx(graph.config,
- graph.config.libpath / RelativeFile"system.nim")
- discard graph.compileModule(graph.config.m.systemFileIdx, {sfSystemModule})
- proc compileProject*(graph: ModuleGraph; projectFileIdx = InvalidFileIdx) =
- connectCallbacks(graph)
- let conf = graph.config
- wantMainModule(conf)
- configComplete(graph)
- let systemFileIdx = fileInfoIdx(conf, conf.libpath / RelativeFile"system.nim")
- let projectFile = if projectFileIdx == InvalidFileIdx: conf.projectMainIdx else: projectFileIdx
- conf.projectMainIdx2 = projectFile
- let packSym = getPackage(graph, projectFile)
- graph.config.mainPackageId = packSym.getPackageId
- graph.importStack.add projectFile
- if projectFile == systemFileIdx:
- discard graph.compileModule(projectFile, {sfMainModule, sfSystemModule})
- else:
- graph.compileSystemModule()
- discard graph.compileModule(projectFile, {sfMainModule})
- proc mySemOpen(graph: ModuleGraph; module: PSym; idgen: IdGenerator): PPassContext =
- result = preparePContext(graph, module, idgen)
- proc mySemClose(graph: ModuleGraph; context: PPassContext, n: PNode): PNode =
- var c = PContext(context)
- closePContext(graph, c, n)
- proc mySemProcess(context: PPassContext, n: PNode): PNode =
- result = semWithPContext(PContext(context), n)
- const semPass* = makePass(mySemOpen, mySemProcess, mySemClose,
- isFrontend = true)
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