# # # The Nim Compiler # (c) Copyright 2013 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # # Module providing functions for calling the different external C compilers # Uses some hard-wired facts about each C/C++ compiler, plus options read # from a configuration file, to provide generalized procedures to compile # nim files. import ropes, os, strutils, osproc, platform, condsyms, options, msgs, securehash, streams #from debuginfo import writeDebugInfo type TSystemCC* = enum ccNone, ccGcc, ccLLVM_Gcc, ccCLang, ccLcc, ccBcc, ccDmc, ccWcc, ccVcc, ccTcc, ccPcc, ccUcc, ccIcl, ccIcc TInfoCCProp* = enum # properties of the C compiler: hasSwitchRange, # CC allows ranges in switch statements (GNU C) hasComputedGoto, # CC has computed goto (GNU C extension) hasCpp, # CC is/contains a C++ compiler hasAssume, # CC has __assume (Visual C extension) hasGcGuard, # CC supports GC_GUARD to keep stack roots hasGnuAsm, # CC's asm uses the absurd GNU assembler syntax hasDeclspec, # CC has __declspec(X) hasAttribute, # CC has __attribute__((X)) TInfoCCProps* = set[TInfoCCProp] TInfoCC* = tuple[ name: string, # the short name of the compiler objExt: string, # the compiler's object file extension optSpeed: string, # the options for optimization for speed optSize: string, # the options for optimization for size compilerExe: string, # the compiler's executable cppCompiler: string, # name of the C++ compiler's executable (if supported) compileTmpl: string, # the compile command template buildGui: string, # command to build a GUI application buildDll: string, # command to build a shared library buildLib: string, # command to build a static library linkerExe: string, # the linker's executable (if not matching compiler's) linkTmpl: string, # command to link files to produce an exe includeCmd: string, # command to add an include dir linkDirCmd: string, # command to add a lib dir linkLibCmd: string, # command to link an external library debug: string, # flags for debug build pic: string, # command for position independent code # used on some platforms asmStmtFrmt: string, # format of ASM statement structStmtFmt: string, # Format for struct statement props: TInfoCCProps] # properties of the C compiler # Configuration settings for various compilers. # When adding new compilers, the cmake sources could be a good reference: # http://cmake.org/gitweb?p=cmake.git;a=tree;f=Modules/Platform; template compiler(name, settings: untyped): untyped = proc name: TInfoCC {.compileTime.} = settings # GNU C and C++ Compiler compiler gcc: result = ( name: "gcc", objExt: "o", optSpeed: " -O3 -ffast-math ", optSize: " -Os -ffast-math ", compilerExe: "gcc", cppCompiler: "g++", compileTmpl: "-c $options $include -o $objfile $file", buildGui: " -mwindows", buildDll: " -shared", buildLib: "ar rcs $libfile $objfiles", linkerExe: "", linkTmpl: "$buildgui $builddll -o $exefile $objfiles $options", includeCmd: " -I", linkDirCmd: " -L", linkLibCmd: " -l$1", debug: "", pic: "-fPIC", asmStmtFrmt: "asm($1);$n", structStmtFmt: "$1 $3 $2 ", # struct|union [packed] $name props: {hasSwitchRange, hasComputedGoto, hasCpp, hasGcGuard, hasGnuAsm, hasAttribute}) # LLVM Frontend for GCC/G++ compiler llvmGcc: result = gcc() # Uses settings from GCC result.name = "llvm_gcc" result.compilerExe = "llvm-gcc" result.cppCompiler = "llvm-g++" when defined(macosx): # OS X has no 'llvm-ar' tool: result.buildLib = "ar rcs $libfile $objfiles" else: result.buildLib = "llvm-ar rcs $libfile $objfiles" # Clang (LLVM) C/C++ Compiler compiler clang: result = llvmGcc() # Uses settings from llvmGcc result.name = "clang" result.compilerExe = "clang" result.cppCompiler = "clang++" # Microsoft Visual C/C++ Compiler compiler vcc: result = ( name: "vcc", objExt: "obj", optSpeed: " /Ogityb2 /G7 /arch:SSE2 ", optSize: " /O1 /G7 ", compilerExe: "cl", cppCompiler: "cl", compileTmpl: "/c $options $include /Fo$objfile $file", buildGui: " /link /SUBSYSTEM:WINDOWS ", buildDll: " /LD", buildLib: "lib /OUT:$libfile $objfiles", linkerExe: "cl", linkTmpl: "$options $builddll /Fe$exefile $objfiles $buildgui", includeCmd: " /I", linkDirCmd: " /LIBPATH:", linkLibCmd: " $1.lib", debug: " /RTC1 /Z7 ", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$3$n$1 $2", props: {hasCpp, hasAssume, hasDeclspec}) # Intel C/C++ Compiler compiler icl: result = vcc() result.name = "icl" result.compilerExe = "icl" result.linkerExe = "icl" # Intel compilers try to imitate the native ones (gcc and msvc) compiler icc: result = gcc() result.name = "icc" result.compilerExe = "icc" result.linkerExe = "icc" # Local C Compiler compiler lcc: result = ( name: "lcc", objExt: "obj", optSpeed: " -O -p6 ", optSize: " -O -p6 ", compilerExe: "lcc", cppCompiler: "", compileTmpl: "$options $include -Fo$objfile $file", buildGui: " -subsystem windows", buildDll: " -dll", buildLib: "", # XXX: not supported yet linkerExe: "lcclnk", linkTmpl: "$options $buildgui $builddll -O $exefile $objfiles", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: " -g5 ", pic: "", asmStmtFrmt: "_asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {}) # Borland C Compiler compiler bcc: result = ( name: "bcc", objExt: "obj", optSpeed: " -O2 -6 ", optSize: " -O1 -6 ", compilerExe: "bcc32", cppCompiler: "", compileTmpl: "-c $options $include -o$objfile $file", buildGui: " -tW", buildDll: " -tWD", buildLib: "", # XXX: not supported yet linkerExe: "bcc32", linkTmpl: "$options $buildgui $builddll -e$exefile $objfiles", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: "", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {hasCpp}) # Digital Mars C Compiler compiler dmc: result = ( name: "dmc", objExt: "obj", optSpeed: " -ff -o -6 ", optSize: " -ff -o -6 ", compilerExe: "dmc", cppCompiler: "", compileTmpl: "-c $options $include -o$objfile $file", buildGui: " -L/exet:nt/su:windows", buildDll: " -WD", buildLib: "", # XXX: not supported yet linkerExe: "dmc", linkTmpl: "$options $buildgui $builddll -o$exefile $objfiles", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: " -g ", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$3$n$1 $2", props: {hasCpp}) # Watcom C Compiler compiler wcc: result = ( name: "wcc", objExt: "obj", optSpeed: " -ox -on -6 -d0 -fp6 -zW ", optSize: "", compilerExe: "wcl386", cppCompiler: "", compileTmpl: "-c $options $include -fo=$objfile $file", buildGui: " -bw", buildDll: " -bd", buildLib: "", # XXX: not supported yet linkerExe: "wcl386", linkTmpl: "$options $buildgui $builddll -fe=$exefile $objfiles ", includeCmd: " -i=", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: " -d2 ", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {hasCpp}) # Tiny C Compiler compiler tcc: result = ( name: "tcc", objExt: "o", optSpeed: "", optSize: "", compilerExe: "tcc", cppCompiler: "", compileTmpl: "-c $options $include -o $objfile $file", buildGui: "-Wl,-subsystem=gui", buildDll: " -shared", buildLib: "", # XXX: not supported yet linkerExe: "tcc", linkTmpl: "-o $exefile $options $buildgui $builddll $objfiles", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: " -g ", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {hasSwitchRange, hasComputedGoto}) # Pelles C Compiler compiler pcc: # Pelles C result = ( name: "pcc", objExt: "obj", optSpeed: " -Ox ", optSize: " -Os ", compilerExe: "cc", cppCompiler: "", compileTmpl: "-c $options $include -Fo$objfile $file", buildGui: " -SUBSYSTEM:WINDOWS", buildDll: " -DLL", buildLib: "", # XXX: not supported yet linkerExe: "cc", linkTmpl: "$options $buildgui $builddll -OUT:$exefile $objfiles", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: " -Zi ", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {}) # Your C Compiler compiler ucc: result = ( name: "ucc", objExt: "o", optSpeed: " -O3 ", optSize: " -O1 ", compilerExe: "cc", cppCompiler: "", compileTmpl: "-c $options $include -o $objfile $file", buildGui: "", buildDll: " -shared ", buildLib: "", # XXX: not supported yet linkerExe: "cc", linkTmpl: "-o $exefile $buildgui $builddll $objfiles $options", includeCmd: " -I", linkDirCmd: "", # XXX: not supported yet linkLibCmd: "", # XXX: not supported yet debug: "", pic: "", asmStmtFrmt: "__asm{$n$1$n}$n", structStmtFmt: "$1 $2", props: {}) const CC*: array[succ(low(TSystemCC))..high(TSystemCC), TInfoCC] = [ gcc(), llvmGcc(), clang(), lcc(), bcc(), dmc(), wcc(), vcc(), tcc(), pcc(), ucc(), icl(), icc()] hExt* = ".h" var cCompiler* = ccGcc # the used compiler gMixedMode*: bool # true if some module triggered C++ codegen cIncludes*: seq[string] = @[] # directories to search for included files cLibs*: seq[string] = @[] # directories to search for lib files cLinkedLibs*: seq[string] = @[] # libraries to link # implementation proc libNameTmpl(): string {.inline.} = result = if targetOS == osWindows: "$1.lib" else: "lib$1.a" type CfileFlag* {.pure.} = enum Cached, ## no need to recompile this time External ## file was introduced via .compile pragma Cfile* = object cname*, obj*: string flags*: set[CFileFlag] CfileList = seq[Cfile] var externalToLink: seq[string] = @[] # files to link in addition to the file # we compiled linkOptionsCmd: string = "" compileOptionsCmd: seq[string] = @[] linkOptions: string = "" compileOptions: string = "" ccompilerpath: string = "" toCompile: CfileList = @[] proc nameToCC*(name: string): TSystemCC = ## Returns the kind of compiler referred to by `name`, or ccNone ## if the name doesn't refer to any known compiler. for i in countup(succ(ccNone), high(TSystemCC)): if cmpIgnoreStyle(name, CC[i].name) == 0: return i result = ccNone proc getConfigVar(c: TSystemCC, suffix: string): string = # use ``cpu.os.cc`` for cross compilation, unless ``--compileOnly`` is given # for niminst support let fullSuffix = if gCmd == cmdCompileToCpp: ".cpp" & suffix elif gCmd == cmdCompileToOC: ".objc" & suffix elif gCmd == cmdCompileToJS: ".js" & suffix else: suffix if (platform.hostOS != targetOS or platform.hostCPU != targetCPU) and optCompileOnly notin gGlobalOptions: let fullCCname = platform.CPU[targetCPU].name & '.' & platform.OS[targetOS].name & '.' & CC[c].name & fullSuffix result = getConfigVar(fullCCname) if result.len == 0: # not overriden for this cross compilation setting? result = getConfigVar(CC[c].name & fullSuffix) else: result = getConfigVar(CC[c].name & fullSuffix) proc setCC*(ccname: string) = cCompiler = nameToCC(ccname) if cCompiler == ccNone: rawMessage(errUnknownCcompiler, ccname) compileOptions = getConfigVar(cCompiler, ".options.always") linkOptions = "" ccompilerpath = getConfigVar(cCompiler, ".path") for i in countup(low(CC), high(CC)): undefSymbol(CC[i].name) defineSymbol(CC[cCompiler].name) proc addOpt(dest: var string, src: string) = if len(dest) == 0 or dest[len(dest)-1] != ' ': add(dest, " ") add(dest, src) proc addLinkOption*(option: string) = addOpt(linkOptions, option) proc addCompileOption*(option: string) = if strutils.find(compileOptions, option, 0) < 0: addOpt(compileOptions, option) proc addLinkOptionCmd*(option: string) = addOpt(linkOptionsCmd, option) proc addCompileOptionCmd*(option: string) = compileOptionsCmd.add(option) proc initVars*() = # we need to define the symbol here, because ``CC`` may have never been set! for i in countup(low(CC), high(CC)): undefSymbol(CC[i].name) defineSymbol(CC[cCompiler].name) addCompileOption(getConfigVar(cCompiler, ".options.always")) #addLinkOption(getConfigVar(cCompiler, ".options.linker")) if len(ccompilerpath) == 0: ccompilerpath = getConfigVar(cCompiler, ".path") proc completeCFilePath*(cfile: string, createSubDir: bool = true): string = result = completeGeneratedFilePath(cfile, createSubDir) proc toObjFile*(filename: string): string = # Object file for compilation #if filename.endsWith(".cpp"): # result = changeFileExt(filename, "cpp." & CC[cCompiler].objExt) #else: result = changeFileExt(filename, CC[cCompiler].objExt) proc addFileToCompile*(cf: Cfile) = toCompile.add(cf) proc resetCompilationLists* = toCompile.setLen 0 ## XXX: we must associate these with their originating module # when the module is loaded/unloaded it adds/removes its items # That's because we still need to hash check the external files # Maybe we can do that in checkDep on the other hand? externalToLink.setLen 0 proc addExternalFileToLink*(filename: string) = externalToLink.insert(filename, 0) proc execWithEcho(cmd: string, msg = hintExecuting): int = rawMessage(msg, cmd) result = execCmd(cmd) proc execExternalProgram*(cmd: string, msg = hintExecuting) = if execWithEcho(cmd, msg) != 0: rawMessage(errExecutionOfProgramFailed, cmd) proc generateScript(projectFile: string, script: Rope) = let (dir, name, ext) = splitFile(projectFile) writeRope(script, dir / addFileExt("compile_" & name, platform.OS[targetOS].scriptExt)) proc getOptSpeed(c: TSystemCC): string = result = getConfigVar(c, ".options.speed") if result == "": result = CC[c].optSpeed # use default settings from this file proc getDebug(c: TSystemCC): string = result = getConfigVar(c, ".options.debug") if result == "": result = CC[c].debug # use default settings from this file proc getOptSize(c: TSystemCC): string = result = getConfigVar(c, ".options.size") if result == "": result = CC[c].optSize # use default settings from this file proc noAbsolutePaths: bool {.inline.} = # We used to check current OS != specified OS, but this makes no sense # really: Cross compilation from Linux to Linux for example is entirely # reasonable. # `optGenMapping` is included here for niminst. result = gGlobalOptions * {optGenScript, optGenMapping} != {} proc cFileSpecificOptions(cfilename: string): string = result = compileOptions for option in compileOptionsCmd: if strutils.find(result, option, 0) < 0: addOpt(result, option) var trunk = splitFile(cfilename).name if optCDebug in gGlobalOptions: var key = trunk & ".debug" if existsConfigVar(key): addOpt(result, getConfigVar(key)) else: addOpt(result, getDebug(cCompiler)) if optOptimizeSpeed in gOptions: var key = trunk & ".speed" if existsConfigVar(key): addOpt(result, getConfigVar(key)) else: addOpt(result, getOptSpeed(cCompiler)) elif optOptimizeSize in gOptions: var key = trunk & ".size" if existsConfigVar(key): addOpt(result, getConfigVar(key)) else: addOpt(result, getOptSize(cCompiler)) var key = trunk & ".always" if existsConfigVar(key): addOpt(result, getConfigVar(key)) proc getCompileOptions: string = result = cFileSpecificOptions("__dummy__") proc getLinkOptions: string = result = linkOptions & " " & linkOptionsCmd & " " for linkedLib in items(cLinkedLibs): result.add(CC[cCompiler].linkLibCmd % linkedLib.quoteShell) for libDir in items(cLibs): result.add(join([CC[cCompiler].linkDirCmd, libDir.quoteShell])) proc needsExeExt(): bool {.inline.} = result = (optGenScript in gGlobalOptions and targetOS == osWindows) or (platform.hostOS == osWindows) proc getCompilerExe(compiler: TSystemCC; cfile: string): string = result = if gCmd == cmdCompileToCpp and not cfile.endsWith(".c"): CC[compiler].cppCompiler else: CC[compiler].compilerExe if result.len == 0: rawMessage(errCompilerDoesntSupportTarget, CC[compiler].name) proc getLinkerExe(compiler: TSystemCC): string = result = if CC[compiler].linkerExe.len > 0: CC[compiler].linkerExe elif gMixedMode and gCmd != cmdCompileToCpp: CC[compiler].cppCompiler else: compiler.getCompilerExe("") proc getCompileCFileCmd*(cfile: Cfile): string = var c = cCompiler var options = cFileSpecificOptions(cfile.cname) var exe = getConfigVar(c, ".exe") if exe.len == 0: exe = c.getCompilerExe(cfile.cname) if needsExeExt(): exe = addFileExt(exe, "exe") if optGenDynLib in gGlobalOptions and ospNeedsPIC in platform.OS[targetOS].props: add(options, ' ' & CC[c].pic) var includeCmd, compilePattern: string if not noAbsolutePaths(): # compute include paths: includeCmd = CC[c].includeCmd & quoteShell(libpath) for includeDir in items(cIncludes): includeCmd.add(join([CC[c].includeCmd, includeDir.quoteShell])) compilePattern = joinPath(ccompilerpath, exe) else: includeCmd = "" compilePattern = c.getCompilerExe(cfile.cname) var cf = if noAbsolutePaths(): extractFilename(cfile.cname) else: cfile.cname var objfile = if cfile.obj.len == 0: if not cfile.flags.contains(CfileFlag.External) or noAbsolutePaths(): toObjFile(cf) else: completeCFilePath(toObjFile(cf)) elif noAbsolutePaths(): extractFilename(cfile.obj) else: cfile.obj objfile = quoteShell(objfile) cf = quoteShell(cf) result = quoteShell(compilePattern % [ "file", cf, "objfile", objfile, "options", options, "include", includeCmd, "nim", getPrefixDir(), "nim", getPrefixDir(), "lib", libpath]) add(result, ' ') addf(result, CC[c].compileTmpl, [ "file", cf, "objfile", objfile, "options", options, "include", includeCmd, "nim", quoteShell(getPrefixDir()), "nim", quoteShell(getPrefixDir()), "lib", quoteShell(libpath)]) proc footprint(cfile: Cfile): SecureHash = result = secureHash( $secureHashFile(cfile.cname) & platform.OS[targetOS].name & platform.CPU[targetCPU].name & extccomp.CC[extccomp.cCompiler].name & getCompileCFileCmd(cfile)) proc externalFileChanged(cfile: Cfile): bool = if gCmd notin {cmdCompileToC, cmdCompileToCpp, cmdCompileToOC, cmdCompileToLLVM}: return false var hashFile = toGeneratedFile(cfile.cname.withPackageName, "sha1") var currentHash = footprint(cfile) var f: File if open(f, hashFile, fmRead): let oldHash = parseSecureHash(f.readLine()) close(f) result = oldHash != currentHash else: result = true if result: if open(f, hashFile, fmWrite): f.writeLine($currentHash) close(f) proc addExternalFileToCompile*(c: var Cfile) = if optForceFullMake notin gGlobalOptions and not externalFileChanged(c): c.flags.incl CfileFlag.Cached toCompile.add(c) proc addExternalFileToCompile*(filename: string) = var c = Cfile(cname: filename, obj: toObjFile(completeCFilePath(changeFileExt(filename, ""), false)), flags: {CfileFlag.External}) addExternalFileToCompile(c) proc compileCFile(list: CFileList, script: var Rope, cmds: var TStringSeq, prettyCmds: var TStringSeq) = for it in list: # call the C compiler for the .c file: if it.flags.contains(CfileFlag.Cached): continue var compileCmd = getCompileCFileCmd(it) if optCompileOnly notin gGlobalOptions: add(cmds, compileCmd) let (_, name, _) = splitFile(it.cname) add(prettyCmds, "CC: " & name) if optGenScript in gGlobalOptions: add(script, compileCmd) add(script, tnl) proc getLinkCmd(projectfile, objfiles: string): string = if optGenStaticLib in gGlobalOptions: var libname: string if options.outFile.len > 0: libname = options.outFile.expandTilde if not libname.isAbsolute(): libname = getCurrentDir() / libname else: libname = (libNameTmpl() % splitFile(gProjectName).name) result = CC[cCompiler].buildLib % ["libfile", libname, "objfiles", objfiles] else: var linkerExe = getConfigVar(cCompiler, ".linkerexe") if len(linkerExe) == 0: linkerExe = cCompiler.getLinkerExe # bug #6452: We must not use ``quoteShell`` here for ``linkerExe`` if needsExeExt(): linkerExe = addFileExt(linkerExe, "exe") if noAbsolutePaths(): result = linkerExe else: result = joinPath(ccompilerpath, linkerExe) let buildgui = if optGenGuiApp in gGlobalOptions: CC[cCompiler].buildGui else: "" var exefile, builddll: string if optGenDynLib in gGlobalOptions: exefile = platform.OS[targetOS].dllFrmt % splitFile(projectfile).name builddll = CC[cCompiler].buildDll else: exefile = splitFile(projectfile).name & platform.OS[targetOS].exeExt builddll = "" if options.outFile.len > 0: exefile = options.outFile.expandTilde if not exefile.isAbsolute(): exefile = getCurrentDir() / exefile if not noAbsolutePaths(): if not exefile.isAbsolute(): exefile = joinPath(splitFile(projectfile).dir, exefile) when false: if optCDebug in gGlobalOptions: writeDebugInfo(exefile.changeFileExt("ndb")) exefile = quoteShell(exefile) let linkOptions = getLinkOptions() & " " & getConfigVar(cCompiler, ".options.linker") var linkTmpl = getConfigVar(cCompiler, ".linkTmpl") if linkTmpl.len == 0: linkTmpl = CC[cCompiler].linkTmpl result = quoteShell(result % ["builddll", builddll, "buildgui", buildgui, "options", linkOptions, "objfiles", objfiles, "exefile", exefile, "nim", getPrefixDir(), "lib", libpath]) result.add ' ' addf(result, linkTmpl, ["builddll", builddll, "buildgui", buildgui, "options", linkOptions, "objfiles", objfiles, "exefile", exefile, "nim", quoteShell(getPrefixDir()), "lib", quoteShell(libpath)]) template tryExceptOSErrorMessage(errorPrefix: string = "", body: untyped): typed = try: body except OSError: let ose = (ref OSError)(getCurrentException()) if errorPrefix.len > 0: rawMessage(errGenerated, errorPrefix & " " & ose.msg & " " & $ose.errorCode) else: rawMessage(errExecutionOfProgramFailed, ose.msg & " " & $ose.errorCode) raise proc execLinkCmd(linkCmd: string) = tryExceptOSErrorMessage("invocation of external linker program failed."): execExternalProgram(linkCmd, if optListCmd in gGlobalOptions or gVerbosity > 1: hintExecuting else: hintLinking) proc execCmdsInParallel(cmds: seq[string]; prettyCb: proc (idx: int)) = let runCb = proc (idx: int, p: Process) = let exitCode = p.peekExitCode if exitCode != 0: rawMessage(errGenerated, "execution of an external compiler program '" & cmds[idx] & "' failed with exit code: " & $exitCode & "\n\n" & p.outputStream.readAll.strip) if gNumberOfProcessors == 0: gNumberOfProcessors = countProcessors() var res = 0 if gNumberOfProcessors <= 1: for i in countup(0, high(cmds)): tryExceptOSErrorMessage("invocation of external compiler program failed."): res = execWithEcho(cmds[i]) if res != 0: rawMessage(errExecutionOfProgramFailed, cmds[i]) else: tryExceptOSErrorMessage("invocation of external compiler program failed."): if optListCmd in gGlobalOptions or gVerbosity > 1: res = execProcesses(cmds, {poEchoCmd, poStdErrToStdOut, poUsePath}, gNumberOfProcessors, afterRunEvent=runCb) elif gVerbosity == 1: res = execProcesses(cmds, {poStdErrToStdOut, poUsePath}, gNumberOfProcessors, prettyCb, afterRunEvent=runCb) else: res = execProcesses(cmds, {poStdErrToStdOut, poUsePath}, gNumberOfProcessors, afterRunEvent=runCb) if res != 0: if gNumberOfProcessors <= 1: rawMessage(errExecutionOfProgramFailed, cmds.join()) proc callCCompiler*(projectfile: string) = var linkCmd: string if gGlobalOptions * {optCompileOnly, optGenScript} == {optCompileOnly}: return # speed up that call if only compiling and no script shall be # generated #var c = cCompiler var script: Rope = nil var cmds: TStringSeq = @[] var prettyCmds: TStringSeq = @[] let prettyCb = proc (idx: int) = echo prettyCmds[idx] compileCFile(toCompile, script, cmds, prettyCmds) if optCompileOnly notin gGlobalOptions: execCmdsInParallel(cmds, prettyCb) if optNoLinking notin gGlobalOptions: # call the linker: var objfiles = "" for it in externalToLink: let objFile = if noAbsolutePaths(): it.extractFilename else: it add(objfiles, ' ') add(objfiles, quoteShell( addFileExt(objFile, CC[cCompiler].objExt))) for x in toCompile: let objFile = if noAbsolutePaths(): x.obj.extractFilename else: x.obj add(objfiles, ' ') add(objfiles, quoteShell(objFile)) linkCmd = getLinkCmd(projectfile, objfiles) if optCompileOnly notin gGlobalOptions: execLinkCmd(linkCmd) else: linkCmd = "" if optGenScript in gGlobalOptions: add(script, linkCmd) add(script, tnl) generateScript(projectfile, script) #from json import escapeJson import json proc writeJsonBuildInstructions*(projectfile: string) = template lit(x: untyped) = f.write x template str(x: untyped) = when compiles(escapeJson(x, buf)): buf.setLen 0 escapeJson(x, buf) f.write buf else: f.write escapeJson(x) proc cfiles(f: File; buf: var string; clist: CfileList, isExternal: bool) = var pastStart = false for it in clist: if CfileFlag.Cached in it.flags: continue let compileCmd = getCompileCFileCmd(it) if pastStart: lit "],\L" lit "[" str it.cname lit ", " str compileCmd pastStart = true lit "]\L" proc linkfiles(f: File; buf, objfiles: var string; clist: CfileList; llist: seq[string]) = var pastStart = false for it in llist: let objfile = if noAbsolutePaths(): it.extractFilename else: it let objstr = addFileExt(objfile, CC[cCompiler].objExt) add(objfiles, ' ') add(objfiles, objstr) if pastStart: lit ",\L" str objstr pastStart = true for it in clist: let objstr = quoteShell(it.obj) add(objfiles, ' ') add(objfiles, objstr) if pastStart: lit ",\L" str objstr pastStart = true lit "\L" var buf = newStringOfCap(50) let file = projectfile.splitFile.name let jsonFile = toGeneratedFile(file, "json") var f: File if open(f, jsonFile, fmWrite): lit "{\"compile\":[\L" cfiles(f, buf, toCompile, false) lit "],\L\"link\":[\L" var objfiles = "" # XXX add every file here that is to link linkfiles(f, buf, objfiles, toCompile, externalToLink) lit "],\L\"linkcmd\": " str getLinkCmd(projectfile, objfiles) lit "\L}\L" close(f) proc runJsonBuildInstructions*(projectfile: string) = let file = projectfile.splitFile.name let jsonFile = toGeneratedFile(file, "json") try: let data = json.parseFile(jsonFile) let toCompile = data["compile"] doAssert toCompile.kind == JArray var cmds: TStringSeq = @[] var prettyCmds: TStringSeq = @[] for c in toCompile: doAssert c.kind == JArray doAssert c.len >= 2 add(cmds, c[1].getStr) let (_, name, _) = splitFile(c[0].getStr) add(prettyCmds, "CC: " & name) let prettyCb = proc (idx: int) = echo prettyCmds[idx] execCmdsInParallel(cmds, prettyCb) let linkCmd = data["linkcmd"] doAssert linkCmd.kind == JString execLinkCmd(linkCmd.getStr) except: echo getCurrentException().getStackTrace() quit "error evaluating JSON file: " & jsonFile proc genMappingFiles(list: CFileList): Rope = for it in list: addf(result, "--file:r\"$1\"$N", [rope(it.cname)]) proc writeMapping*(gSymbolMapping: Rope) = if optGenMapping notin gGlobalOptions: return var code = rope("[C_Files]\n") add(code, genMappingFiles(toCompile)) add(code, "\n[C_Compiler]\nFlags=") add(code, strutils.escape(getCompileOptions())) add(code, "\n[Linker]\nFlags=") add(code, strutils.escape(getLinkOptions() & " " & getConfigVar(cCompiler, ".options.linker"))) add(code, "\n[Environment]\nlibpath=") add(code, strutils.escape(libpath)) addf(code, "\n[Symbols]$n$1", [gSymbolMapping]) writeRope(code, joinPath(gProjectPath, "mapping.txt"))