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#
#
# The Nimrod Compiler
# (c) Copyright 2012 Andreas Rumpf
#
# See the file "copying.txt", included in this
# distribution, for details about the copyright.
#
# implements the command dispatcher and several commands as well as the
# module handling
import
llstream, strutils, ast, astalgo, lexer, syntaxes, renderer, options, msgs,
os, lists, condsyms, rodread, rodwrite, ropes, trees,
wordrecg, sem, semdata, idents, passes, docgen, extccomp,
cgen, ecmasgen,
platform, nimconf, importer, passaux, depends, evals, types, idgen,
tables, docgen2, service
const
has_LLVM_Backend = false
when has_LLVM_Backend:
import llvmgen
proc MainCommand*()
# ------------------ module handling -----------------------------------------
var
compMods = initTable[string, PSym]() # all compiled modules
# This expects a normalized module path
proc registerModule(filename: string, module: PSym) =
compMods[filename] = module
# This expects a normalized module path
proc getModule(filename: string): PSym =
result = compMods[filename]
var gModulesCount = 0
proc newModule(filename: string): PSym =
# We cannot call ``newSym`` here, because we have to circumvent the ID
# mechanism, which we do in order to assign each module a persistent ID.
new(result)
result.id = - 1 # for better error checking
result.kind = skModule
result.name = getIdent(splitFile(filename).name)
if not isNimrodIdentifier(result.name.s):
rawMessage(errInvalidModuleName, result.name.s)
result.owner = result # a module belongs to itself
result.info = newLineInfo(filename, 1, 1)
result.position = gModulesCount
inc gModulesCount
incl(result.flags, sfUsed)
initStrTable(result.tab)
RegisterModule(filename, result)
StrTableAdd(result.tab, result) # a module knows itself
proc CompileModule(filename: string, flags: TSymFlags): PSym
proc importModule(filename: string): PSym =
# this is called by the semantic checking phase
result = getModule(filename)
if result == nil:
# compile the module
result = compileModule(filename, {})
elif sfSystemModule in result.flags:
LocalError(result.info, errAttemptToRedefine, result.Name.s)
proc CompileModule(filename: string, flags: TSymFlags): PSym =
var rd: PRodReader = nil
var f = addFileExt(filename, nimExt)
result = newModule(f)
result.flags = result.flags + flags
if gCmd in {cmdCompileToC, cmdCompileToCpp, cmdCheck, cmdIdeTools}:
rd = handleSymbolFile(result, f)
if result.id < 0:
InternalError("handleSymbolFile should have set the module\'s ID")
return
else:
result.id = getID()
processModule(result, f, nil, rd)
proc CompileProject(projectFile = gProjectFull) =
discard CompileModule(options.libpath / "system", {sfSystemModule})
discard CompileModule(projectFile, {sfMainModule})
proc semanticPasses =
registerPass(verbosePass())
registerPass(sem.semPass())
proc CommandGenDepend =
semanticPasses()
registerPass(genDependPass())
registerPass(cleanupPass())
compileProject()
generateDot(gProjectFull)
execExternalProgram("dot -Tpng -o" & changeFileExt(gProjectFull, "png") &
' ' & changeFileExt(gProjectFull, "dot"))
proc CommandCheck =
msgs.gErrorMax = high(int) # do not stop after first error
semanticPasses() # use an empty backend for semantic checking only
registerPass(rodwrite.rodwritePass())
compileProject(mainCommandArg())
proc CommandDoc2 =
msgs.gErrorMax = high(int) # do not stop after first error
semanticPasses()
registerPass(docgen2Pass())
#registerPass(cleanupPass())
compileProject(mainCommandArg())
finishDoc2Pass(gProjectFull)
proc CommandCompileToC =
semanticPasses()
registerPass(cgen.cgenPass())
registerPass(rodwrite.rodwritePass())
#registerPass(cleanupPass())
compileProject()
if gCmd != cmdRun:
extccomp.CallCCompiler(changeFileExt(gProjectFull, ""))
when has_LLVM_Backend:
proc CommandCompileToLLVM =
semanticPasses()
registerPass(llvmgen.llvmgenPass())
registerPass(rodwrite.rodwritePass())
#registerPass(cleanupPass())
compileProject()
proc CommandCompileToEcmaScript =
incl(gGlobalOptions, optSafeCode)
setTarget(osEcmaScript, cpuEcmaScript)
#initDefines()
DefineSymbol("nimrod") # 'nimrod' is always defined
DefineSymbol("ecmascript")
semanticPasses()
registerPass(ecmasgenPass())
compileProject()
proc CommandInteractive =
msgs.gErrorMax = high(int) # do not stop after first error
incl(gGlobalOptions, optSafeCode)
#setTarget(osNimrodVM, cpuNimrodVM)
initDefines()
DefineSymbol("nimrodvm")
registerPass(verbosePass())
registerPass(sem.semPass())
registerPass(evals.evalPass()) # load system module:
discard CompileModule(options.libpath /"system", {sfSystemModule})
if commandArgs.len > 0:
discard CompileModule(mainCommandArg(), {})
else:
var m = newModule("stdin")
m.id = getID()
incl(m.flags, sfMainModule)
processModule(m, "stdin", LLStreamOpenStdIn(), nil)
proc CommandPretty =
var module = parseFile(addFileExt(mainCommandArg(), NimExt))
if module != nil:
renderModule(module, getOutFile(mainCommandArg(), "pretty." & NimExt))
proc CommandScan =
var f = addFileExt(mainCommandArg(), nimExt)
var stream = LLStreamOpen(f, fmRead)
if stream != nil:
var
L: TLexer
tok: TToken
initToken(tok)
openLexer(L, f, stream)
while true:
rawGetTok(L, tok)
PrintTok(tok)
if tok.tokType == tkEof: break
CloseLexer(L)
else:
rawMessage(errCannotOpenFile, f)
proc CommandSuggest =
msgs.gErrorMax = high(int) # do not stop after first error
semanticPasses()
registerPass(rodwrite.rodwritePass())
compileProject()
proc wantMainModule =
if gProjectFull.len == 0:
Fatal(gCmdLineInfo, errCommandExpectsFilename)
proc MainCommand =
appendStr(searchPaths, options.libpath)
if gProjectFull.len != 0:
# current path is always looked first for modules
prependStr(searchPaths, gProjectPath)
setID(100)
passes.gIncludeFile = syntaxes.parseFile
passes.gImportModule = importModule
case command.normalize
of "c", "cc", "compile", "compiletoc":
# compile means compileToC currently
gCmd = cmdCompileToC
wantMainModule()
CommandCompileToC()
of "cpp", "compiletocpp":
extccomp.cExt = ".cpp"
gCmd = cmdCompileToCpp
wantMainModule()
DefineSymbol("cpp")
CommandCompileToC()
of "objc", "compiletooc":
extccomp.cExt = ".m"
gCmd = cmdCompileToOC
wantMainModule()
DefineSymbol("objc")
CommandCompileToC()
of "run":
gCmd = cmdRun
wantMainModule()
when hasTinyCBackend:
extccomp.setCC("tcc")
CommandCompileToC()
else:
rawMessage(errInvalidCommandX, command)
of "js", "compiletoecmascript":
gCmd = cmdCompileToEcmaScript
wantMainModule()
CommandCompileToEcmaScript()
of "compiletollvm":
gCmd = cmdCompileToLLVM
wantMainModule()
when has_LLVM_Backend:
CommandCompileToLLVM()
else:
rawMessage(errInvalidCommandX, command)
of "pretty":
gCmd = cmdPretty
wantMainModule()
CommandPretty()
of "doc":
gCmd = cmdDoc
LoadConfigs(DocConfig)
wantMainModule()
CommandDoc()
of "doc2":
gCmd = cmdDoc
LoadConfigs(DocConfig)
wantMainModule()
CommandDoc2()
of "rst2html":
gCmd = cmdRst2html
LoadConfigs(DocConfig)
wantMainModule()
CommandRst2Html()
of "rst2tex":
gCmd = cmdRst2tex
LoadConfigs(DocTexConfig)
wantMainModule()
CommandRst2TeX()
of "buildindex":
gCmd = cmdDoc
LoadConfigs(DocConfig)
CommandBuildIndex()
of "gendepend":
gCmd = cmdGenDepend
wantMainModule()
CommandGenDepend()
of "dump":
gCmd = cmdDump
condsyms.ListSymbols()
for it in iterSearchPath(): MsgWriteln(it)
of "check":
gCmd = cmdCheck
wantMainModule()
CommandCheck()
of "parse":
gCmd = cmdParse
wantMainModule()
discard parseFile(addFileExt(gProjectFull, nimExt))
of "scan":
gCmd = cmdScan
wantMainModule()
CommandScan()
MsgWriteln("Beware: Indentation tokens depend on the parser\'s state!")
of "i":
gCmd = cmdInteractive
CommandInteractive()
of "idetools":
gCmd = cmdIdeTools
wantMainModule()
CommandSuggest()
of "serve":
gCmd = cmdIdeTools
msgs.gErrorMax = high(int) # do not stop after first error
semanticPasses()
# no need to write rod files and would slow down things:
#registerPass(rodwrite.rodwritePass())
discard CompileModule(options.libpath / "system", {sfSystemModule})
service.serve(proc () =
let projectFile = gProjectFull
discard CompileModule(projectFile, {sfMainModule})
)
else: rawMessage(errInvalidCommandX, command)
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