#
#
# 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 lineinfos file, to provide generalized procedures to compile
# nim files.
import
ropes, os, strutils, osproc, platform, condsyms, options, msgs,
lineinfos, std / sha1, streams, pathutils, sequtils, times
type
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 ",
optSize: " -Os ",
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})
# GNU C and C++ Compiler
compiler nintendoSwitchGCC:
result = (
name: "switch_gcc",
objExt: "o",
optSpeed: " -O3 ",
optSize: " -Os ",
compilerExe: "aarch64-none-elf-gcc",
cppCompiler: "aarch64-none-elf-g++",
compileTmpl: "-w -MMD -MP -MF $dfile -c $options $include -o $objfile $file",
buildGui: " -mwindows",
buildDll: " -shared",
buildLib: "aarch64-none-elf-gcc-ar rcs $libfile $objfiles",
linkerExe: "aarch64-none-elf-gcc",
linkTmpl: "$buildgui $builddll -Wl,-Map,$mapfile -o $exefile $objfiles $options",
includeCmd: " -I",
linkDirCmd: " -L",
linkLibCmd: " -l$1",
debug: "",
pic: "-fPIE",
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 $objfiles"
# Clang (LLVM) C/C++ Compiler
compiler clang:
result = llvmGcc() # Uses settings from llvmGcc
result.name = "clang"
result.compilerExe = "clang"
result.cppCompiler = "clang++"
# Microsoft Visual C/C++ Compiler
compiler vcc:
result = (
name: "vcc",
objExt: "obj",
optSpeed: " /Ogityb2 /G7 ",
optSize: " /O1 /G7 ",
compilerExe: "cl",
cppCompiler: "cl",
compileTmpl: "/c$vccplatform$options $include /Fo$objfile $file",
buildGui: " /link /SUBSYSTEM:WINDOWS ",
buildDll: " /LD",
buildLib: "lib /OUT:$libfile $objfiles",
linkerExe: "cl",
linkTmpl: "$options $builddll$vccplatform /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 $2",
props: {hasCpp, hasAssume, hasDeclspec})
compiler clangcl:
result = vcc()
result.name = "clang_cl"
result.compilerExe = "clang-cl"
result.cppCompiler = "clang-cl"
result.linkerExe = "clang-cl"
# Intel C/C++ Compiler
compiler icl:
result = vcc()
result.name = "icl"
result.compilerExe = "icl"
result.linkerExe = "icl"
# Intel compilers try to imitate the native ones (gcc and msvc)
compiler icc:
result = gcc()
result.name = "icc"
result.compilerExe = "icc"
result.linkerExe = "icc"
# Local C Compiler
compiler lcc:
result = (
name: "lcc",
objExt: "obj",
optSpeed: " -O -p6 ",
optSize: " -O -p6 ",
compilerExe: "lcc",
cppCompiler: "",
compileTmpl: "$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: " -O3 -6 ",
optSize: " -O1 -6 ",
compilerExe: "bcc32c",
cppCompiler: "cpp32c",
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: {hasSwitchRange, hasComputedGoto, hasCpp, hasGcGuard,
hasAttribute})
# 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(),
nintendoSwitchGCC(),
llvmGcc(),
clang(),
lcc(),
bcc(),
dmc(),
wcc(),
vcc(),
tcc(),
pcc(),
ucc(),
icl(),
icc(),
clangcl()]
hExt* = ".h"
proc libNameTmpl(conf: ConfigRef): string {.inline.} =
result = if conf.target.targetOS == osWindows: "$1.lib" else: "lib$1.a"
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 succ(ccNone) .. high(TSystemCC):
if cmpIgnoreStyle(name, CC[i].name) == 0:
return i
result = ccNone
proc listCCnames(): seq[string] =
for i in succ(ccNone) .. high(TSystemCC):
result.add CC[i].name
proc isVSCompatible*(conf: ConfigRef): bool =
return conf.cCompiler == ccVcc or
conf.cCompiler == ccClangCl or
(conf.cCompiler == ccIcl and conf.target.hostOS in osDos..osWindows)
proc getConfigVar(conf: ConfigRef; c: TSystemCC, suffix: string): string =
# use ``cpu.os.cc`` for cross compilation, unless ``--compileOnly`` is given
# for niminst support
let fullSuffix =
if conf.cmd == cmdCompileToCpp:
".cpp" & suffix
elif conf.cmd == cmdCompileToOC:
".objc" & suffix
elif conf.cmd == cmdCompileToJS:
".js" & suffix
else:
suffix
if (conf.target.hostOS != conf.target.targetOS or conf.target.hostCPU != conf.target.targetCPU) and
optCompileOnly notin conf.globalOptions:
let fullCCname = platform.CPU[conf.target.targetCPU].name & '.' &
platform.OS[conf.target.targetOS].name & '.' &
CC[c].name & fullSuffix
result = getConfigVar(conf, fullCCname)
if result.len == 0:
# not overriden for this cross compilation setting?
result = getConfigVar(conf, CC[c].name & fullSuffix)
else:
result = getConfigVar(conf, CC[c].name & fullSuffix)
proc setCC*(conf: ConfigRef; ccname: string; info: TLineInfo) =
conf.cCompiler = nameToCC(ccname)
if conf.cCompiler == ccNone:
let ccList = listCCnames().join(", ")
localError(conf, info, "unknown C compiler: '$1'. Available options are: $2" % [ccname, ccList])
conf.compileOptions = getConfigVar(conf, conf.cCompiler, ".options.always")
conf.linkOptions = ""
conf.cCompilerPath = getConfigVar(conf, conf.cCompiler, ".path")
for i in low(CC) .. high(CC): undefSymbol(conf.symbols, CC[i].name)
defineSymbol(conf.symbols, CC[conf.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*(conf: ConfigRef; option: string) =
addOpt(conf.linkOptions, option)
proc addCompileOption*(conf: ConfigRef; option: string) =
if strutils.find(conf.compileOptions, option, 0) < 0:
addOpt(conf.compileOptions, option)
proc addLinkOptionCmd*(conf: ConfigRef; option: string) =
addOpt(conf.linkOptionsCmd, option)
proc addCompileOptionCmd*(conf: ConfigRef; option: string) =
conf.compileOptionsCmd.add(option)
proc initVars*(conf: ConfigRef) =
# we need to define the symbol here, because ``CC`` may have never been set!
for i in low(CC) .. high(CC): undefSymbol(conf.symbols, CC[i].name)
defineSymbol(conf.symbols, CC[conf.cCompiler].name)
addCompileOption(conf, getConfigVar(conf, conf.cCompiler, ".options.always"))
#addLinkOption(getConfigVar(cCompiler, ".options.linker"))
if len(conf.cCompilerPath) == 0:
conf.cCompilerPath = getConfigVar(conf, conf.cCompiler, ".path")
proc completeCfilePath*(conf: ConfigRef; cfile: AbsoluteFile,
createSubDir: bool = true): AbsoluteFile =
result = completeGeneratedFilePath(conf, cfile, createSubDir)
proc toObjFile*(conf: ConfigRef; filename: AbsoluteFile): AbsoluteFile =
# Object file for compilation
result = AbsoluteFile(filename.string & "." & CC[conf.cCompiler].objExt)
proc addFileToCompile*(conf: ConfigRef; cf: Cfile) =
conf.toCompile.add(cf)
proc resetCompilationLists*(conf: ConfigRef) =
conf.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?
conf.externalToLink.setLen 0
proc addExternalFileToLink*(conf: ConfigRef; filename: AbsoluteFile) =
conf.externalToLink.insert(filename.string, 0)
proc execWithEcho(conf: ConfigRef; cmd: string, msg = hintExecuting): int =
rawMessage(conf, msg, cmd)
result = execCmd(cmd)
proc execExternalProgram*(conf: ConfigRef; cmd: string, msg = hintExecuting) =
if execWithEcho(conf, cmd, msg) != 0:
rawMessage(conf, errGenerated, "execution of an external program failed: '$1'" %
cmd)
proc generateScript(conf: ConfigRef; script: Rope) =
let (_, name, _) = splitFile(conf.outFile.string)
let filename = getNimcacheDir(conf) / RelativeFile(addFileExt("compile_" & name,
platform.OS[conf.target.targetOS].scriptExt))
if writeRope(script, filename):
copyFile(conf.libpath / RelativeFile"nimbase.h",
getNimcacheDir(conf) / RelativeFile"nimbase.h")
else:
rawMessage(conf, errGenerated, "could not write to file: " & filename.string)
proc getOptSpeed(conf: ConfigRef; c: TSystemCC): string =
result = getConfigVar(conf, c, ".options.speed")
if result == "":
result = CC[c].optSpeed # use default settings from this file
proc getDebug(conf: ConfigRef; c: TSystemCC): string =
result = getConfigVar(conf, c, ".options.debug")
if result == "":
result = CC[c].debug # use default settings from this file
proc getOptSize(conf: ConfigRef; c: TSystemCC): string =
result = getConfigVar(conf, c, ".options.size")
if result == "":
result = CC[c].optSize # use default settings from this file
proc noAbsolutePaths(conf: ConfigRef): 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 = conf.globalOptions * {optGenScript, optGenMapping} != {}
proc cFileSpecificOptions(conf: ConfigRef; nimname: string): string =
result = conf.compileOptions
for option in conf.compileOptionsCmd:
if strutils.find(result, option, 0) < 0:
addOpt(result, option)
if optCDebug in conf.globalOptions:
let key = nimname & ".debug"
if existsConfigVar(conf, key): addOpt(result, getConfigVar(conf, key))
else: addOpt(result, getDebug(conf, conf.cCompiler))
if optOptimizeSpeed in conf.options:
let key = nimname & ".speed"
if existsConfigVar(conf, key): addOpt(result, getConfigVar(conf, key))
else: addOpt(result, getOptSpeed(conf, conf.cCompiler))
elif optOptimizeSize in conf.options:
let key = nimname & ".size"
if existsConfigVar(conf, key): addOpt(result, getConfigVar(conf, key))
else: addOpt(result, getOptSize(conf, conf.cCompiler))
let key = nimname & ".always"
if existsConfigVar(conf, key): addOpt(result, getConfigVar(conf, key))
proc getCompileOptions(conf: ConfigRef): string =
result = cFileSpecificOptions(conf, "__dummy__")
proc vccplatform(conf: ConfigRef): string =
# VCC specific but preferable over the config hacks people
# had to do before, see #11306
case conf.target.targetCPU
of cpuI386:
result = " --platform:x86"
of cpuArm:
result = " --platform:arm"
of cpuAmd64:
result = " --platform:amd64"
else:
result = ""
proc getLinkOptions(conf: ConfigRef): string =
result = conf.linkOptions & " " & conf.linkOptionsCmd & " "
for linkedLib in items(conf.cLinkedLibs):
result.add(CC[conf.cCompiler].linkLibCmd % linkedLib.quoteShell)
for libDir in items(conf.cLibs):
result.add(join([CC[conf.cCompiler].linkDirCmd, libDir.quoteShell]))
proc needsExeExt(conf: ConfigRef): bool {.inline.} =
result = (optGenScript in conf.globalOptions and conf.target.targetOS == osWindows) or
(conf.target.hostOS == osWindows)
proc getCompilerExe(conf: ConfigRef; compiler: TSystemCC; cfile: AbsoluteFile): string =
result = if conf.cmd == cmdCompileToCpp and not cfile.string.endsWith(".c"):
CC[compiler].cppCompiler
else:
CC[compiler].compilerExe
if result.len == 0:
rawMessage(conf, errGenerated,
"Compiler '$1' doesn't support the requested target" %
CC[compiler].name)
proc getLinkerExe(conf: ConfigRef; compiler: TSystemCC): string =
result = if CC[compiler].linkerExe.len > 0: CC[compiler].linkerExe
elif optMixedMode in conf.globalOptions and conf.cmd != cmdCompileToCpp: CC[compiler].cppCompiler
else: getCompilerExe(conf, compiler, AbsoluteFile"")
proc getCompileCFileCmd*(conf: ConfigRef; cfile: Cfile, isMainFile = false): string =
var c = conf.cCompiler
var options = cFileSpecificOptions(conf, cfile.nimname)
var exe = getConfigVar(conf, c, ".exe")
if exe.len == 0: exe = getCompilerExe(conf, c, cfile.cname)
if needsExeExt(conf): exe = addFileExt(exe, "exe")
if (optGenDynLib in conf.globalOptions or (conf.hcrOn and not isMainFile)) and
ospNeedsPIC in platform.OS[conf.target.targetOS].props:
add(options, ' ' & CC[c].pic)
var includeCmd, compilePattern: string
if not noAbsolutePaths(conf):
# compute include paths:
includeCmd = CC[c].includeCmd & quoteShell(conf.libpath)
for includeDir in items(conf.cIncludes):
includeCmd.add(join([CC[c].includeCmd, includeDir.quoteShell]))
compilePattern = joinPath(conf.cCompilerPath, exe)
else:
includeCmd = ""
compilePattern = getCompilerExe(conf, c, cfile.cname)
includeCmd.add(join([CC[c].includeCmd, quoteShell(conf.projectPath.string)]))
var cf = if noAbsolutePaths(conf): AbsoluteFile extractFilename(cfile.cname.string)
else: cfile.cname
var objfile =
if cfile.obj.isEmpty:
if not cfile.flags.contains(CfileFlag.External) or noAbsolutePaths(conf):
toObjFile(conf, cf).string
else:
completeCfilePath(conf, toObjFile(conf, cf)).string
elif noAbsolutePaths(conf):
extractFilename(cfile.obj.string)
else:
cfile.obj.string
# D files are required by nintendo switch libs for
# compilation. They are basically a list of all includes.
let dfile = objfile.changeFileExt(".d").quoteShell()
objfile = quoteShell(objfile)
let cfsh = quoteShell(cf)
result = quoteShell(compilePattern % [
"dfile", dfile,
"file", cfsh, "objfile", objfile, "options", options,
"include", includeCmd, "nim", getPrefixDir(conf).string,
"lib", conf.libpath.string])
add(result, ' ')
addf(result, CC[c].compileTmpl, [
"dfile", dfile,
"file", cfsh, "objfile", objfile,
"options", options, "include", includeCmd,
"nim", quoteShell(getPrefixDir(conf)),
"lib", quoteShell(conf.libpath),
"vccplatform", vccplatform(conf)])
proc footprint(conf: ConfigRef; cfile: Cfile): SecureHash =
result = secureHash(
$secureHashFile(cfile.cname.string) &
platform.OS[conf.target.targetOS].name &
platform.CPU[conf.target.targetCPU].name &
extccomp.CC[conf.cCompiler].name &
getCompileCFileCmd(conf, cfile))
proc externalFileChanged(conf: ConfigRef; cfile: Cfile): bool =
if conf.cmd notin {cmdCompileToC, cmdCompileToCpp, cmdCompileToOC, cmdCompileToLLVM}:
return false
var hashFile = toGeneratedFile(conf, conf.withPackageName(cfile.cname), "sha1")
var currentHash = footprint(conf, cfile)
var f: File
if open(f, hashFile.string, fmRead):
let oldHash = parseSecureHash(f.readLine())
close(f)
result = oldHash != currentHash
else:
result = true
if result:
if open(f, hashFile.string, fmWrite):
f.writeLine($currentHash)
close(f)
proc addExternalFileToCompile*(conf: ConfigRef; c: var Cfile) =
if optForceFullMake notin conf.globalOptions and fileExists(c.obj) and
not externalFileChanged(conf, c):
c.flags.incl CfileFlag.Cached
conf.toCompile.add(c)
proc addExternalFileToCompile*(conf: ConfigRef; filename: AbsoluteFile) =
var c = Cfile(nimname: splitFile(filename).name, cname: filename,
obj: toObjFile(conf, completeCfilePath(conf, filename, false)),
flags: {CfileFlag.External})
addExternalFileToCompile(conf, c)
proc compileCFiles(conf: ConfigRef; list: CfileList, script: var Rope, cmds: var TStringSeq,
prettyCmds: var TStringSeq) =
var currIdx = 0
for it in list:
# call the C compiler for the .c file:
if it.flags.contains(CfileFlag.Cached): continue
var compileCmd = getCompileCFileCmd(conf, it, currIdx == list.len - 1)
inc currIdx
if optCompileOnly notin conf.globalOptions:
add(cmds, compileCmd)
let (_, name, _) = splitFile(it.cname)
add(prettyCmds, if hintCC in conf.notes: "CC: " & demanglePackageName(name) else: "")
if optGenScript in conf.globalOptions:
add(script, compileCmd)
add(script, "\n")
proc getLinkCmd(conf: ConfigRef; output: AbsoluteFile,
objfiles: string, isDllBuild: bool): string =
if optGenStaticLib in conf.globalOptions:
var libname: string
if not conf.outFile.isEmpty:
libname = conf.outFile.string.expandTilde
if not libname.isAbsolute():
libname = getCurrentDir() / libname
else:
libname = (libNameTmpl(conf) % splitFile(conf.projectName).name)
result = CC[conf.cCompiler].buildLib % ["libfile", quoteShell(libname),
"objfiles", objfiles]
else:
var linkerExe = getConfigVar(conf, conf.cCompiler, ".linkerexe")
if len(linkerExe) == 0: linkerExe = getLinkerExe(conf, conf.cCompiler)
# bug #6452: We must not use ``quoteShell`` here for ``linkerExe``
if needsExeExt(conf): linkerExe = addFileExt(linkerExe, "exe")
if noAbsolutePaths(conf): result = linkerExe
else: result = joinPath(conf.cCompilerPath, linkerExe)
let buildgui = if optGenGuiApp in conf.globalOptions and conf.target.targetOS == osWindows:
CC[conf.cCompiler].buildGui
else:
""
let builddll = if isDllBuild: CC[conf.cCompiler].buildDll else: ""
let exefile = quoteShell(output)
when false:
if optCDebug in conf.globalOptions:
writeDebugInfo(exefile.changeFileExt("ndb"))
# Map files are required by Nintendo Switch compilation. They are a list
# of all function calls in the library and where they come from.
let mapfile = quoteShell(getNimcacheDir(conf) / RelativeFile(splitFile(output).name & ".map"))
let linkOptions = getLinkOptions(conf) & " " &
getConfigVar(conf, conf.cCompiler, ".options.linker")
var linkTmpl = getConfigVar(conf, conf.cCompiler, ".linkTmpl")
if linkTmpl.len == 0:
linkTmpl = CC[conf.cCompiler].linkTmpl
result = quoteShell(result % ["builddll", builddll,
"mapfile", mapfile,
"buildgui", buildgui, "options", linkOptions, "objfiles", objfiles,
"exefile", exefile, "nim", getPrefixDir(conf).string, "lib", conf.libpath.string])
result.add ' '
addf(result, linkTmpl, ["builddll", builddll,
"mapfile", mapfile,
"buildgui", buildgui, "options", linkOptions,
"objfiles", objfiles, "exefile", exefile,
"nim", quoteShell(getPrefixDir(conf)),
"lib", quoteShell(conf.libpath),
"vccplatform", vccplatform(conf)])
# On windows the debug information for binaries is emitted in a separate .pdb
# file and the binaries (.dll and .exe) contain a full path to that .pdb file.
# This is a problem for hot code reloading because even when we copy the .dll
# and load the copy so the build process may overwrite the original .dll on
# the disk (windows locks the files of running binaries) the copy still points
# to the original .pdb (and a simple copy of the .pdb won't help). This is a
# problem when a debugger is attached to the program we are hot-reloading.
# This problem is nonexistent on Unix since there by default debug symbols
# are embedded in the binaries so loading a copy of a .so will be fine. There
# is the '/Z7' flag for the MSVC compiler to embed the debug info of source
# files into their respective .obj files but the linker still produces a .pdb
# when a final .dll or .exe is linked so the debug info isn't embedded.
# There is also the issue that even when a .dll is unloaded the debugger
# still keeps the .pdb for that .dll locked. This is a major problem and
# because of this we cannot just alternate between 2 names for a .pdb file
# when rebuilding a .dll - instead we need to accumulate differently named
# .pdb files in the nimcache folder - this is the easiest and most reliable
# way of being able to debug and rebuild the program at the same time. This
# is accomplished using the /PDB:<filename> flag (there also exists the
# /PDBALTPATH:<filename> flag). The only downside is that the .pdb files are
# atleast 300kb big (when linking statically to the runtime - or else 5mb+)
# and will quickly accumulate. There is a hacky solution: we could try to
# delete all .pdb files with a pattern and swallow exceptions.
#
# links about .pdb files and hot code reloading:
# https://ourmachinery.com/post/dll-hot-reloading-in-theory-and-practice/
# https://ourmachinery.com/post/little-machines-working-together-part-2/
# https://github.com/fungos/cr
# https://fungos.github.io/blog/2017/11/20/cr.h-a-simple-c-hot-reload-header-only-library/
# on forcing the debugger to unlock a locked .pdb of an unloaded library:
# https://blog.molecular-matters.com/2017/05/09/deleting-pdb-files-locked-by-visual-studio/
# and a bit about the .pdb format in case that is ever needed:
# https://github.com/crosire/blink
# http://www.debuginfo.com/articles/debuginfomatch.html#pdbfiles
if conf.hcrOn and isVSCompatible(conf):
let t = now()
let pdb = output.string & "." & format(t, "MMMM-yyyy-HH-mm-") & $t.nanosecond & ".pdb"
result.add " /link /PDB:" & pdb
if optCDebug in conf.globalOptions and conf.cCompiler == ccVcc:
result.add " /Zi /FS /Od"
template getLinkCmd(conf: ConfigRef; output: AbsoluteFile, objfiles: string): string =
getLinkCmd(conf, output, objfiles, optGenDynLib in conf.globalOptions)
template tryExceptOSErrorMessage(conf: ConfigRef; errorPrefix: string = "", body: untyped) =
try:
body
except OSError:
let ose = (ref OSError)(getCurrentException())
if errorPrefix.len > 0:
rawMessage(conf, errGenerated, errorPrefix & " " & ose.msg & " " & $ose.errorCode)
else:
rawMessage(conf, errGenerated, "execution of an external program failed: '$1'" %
(ose.msg & " " & $ose.errorCode))
raise
proc execLinkCmd(conf: ConfigRef; linkCmd: string) =
tryExceptOSErrorMessage(conf, "invocation of external linker program failed."):
execExternalProgram(conf, linkCmd,
if optListCmd in conf.globalOptions or conf.verbosity > 1: hintExecuting else: hintLinking)
proc execCmdsInParallel(conf: ConfigRef; cmds: seq[string]; prettyCb: proc (idx: int)) =
let runCb = proc (idx: int, p: Process) =
let exitCode = p.peekExitCode
if exitCode != 0:
rawMessage(conf, errGenerated, "execution of an external compiler program '" &
cmds[idx] & "' failed with exit code: " & $exitCode & "\n\n" &
p.outputStream.readAll.strip)
if conf.numberOfProcessors == 0: conf.numberOfProcessors = countProcessors()
var res = 0
if conf.numberOfProcessors <= 1:
for i in 0 .. high(cmds):
tryExceptOSErrorMessage(conf, "invocation of external compiler program failed."):
res = execWithEcho(conf, cmds[i])
if res != 0:
rawMessage(conf, errGenerated, "execution of an external program failed: '$1'" %
cmds[i])
else:
tryExceptOSErrorMessage(conf, "invocation of external compiler program failed."):
if optListCmd in conf.globalOptions or conf.verbosity > 1:
res = execProcesses(cmds, {poEchoCmd, poStdErrToStdOut, poUsePath},
conf.numberOfProcessors, afterRunEvent=runCb)
elif conf.verbosity == 1:
res = execProcesses(cmds, {poStdErrToStdOut, poUsePath},
conf.numberOfProcessors, prettyCb, afterRunEvent=runCb)
else:
res = execProcesses(cmds, {poStdErrToStdOut, poUsePath},
conf.numberOfProcessors, afterRunEvent=runCb)
if res != 0:
if conf.numberOfProcessors <= 1:
rawMessage(conf, errGenerated, "execution of an external program failed: '$1'" %
cmds.join())
proc linkViaResponseFile(conf: ConfigRef; cmd: string) =
# Extracting the linker.exe here is a bit hacky but the best solution
# given ``buildLib``'s design.
var i = 0
var last = 0
if cmd.len > 0 and cmd[0] == '"':
inc i
while i < cmd.len and cmd[i] != '"': inc i
last = i
inc i
else:
while i < cmd.len and cmd[i] != ' ': inc i
last = i
while i < cmd.len and cmd[i] == ' ': inc i
let linkerArgs = conf.projectName & "_" & "linkerArgs.txt"
let args = cmd.substr(i)
# GCC's response files don't support backslashes. Junk.
if conf.cCompiler == ccGcc or conf.cCompiler == ccCLang:
writeFile(linkerArgs, args.replace('\\', '/'))
else:
writeFile(linkerArgs, args)
try:
execLinkCmd(conf, cmd.substr(0, last) & " @" & linkerArgs)
finally:
removeFile(linkerArgs)
proc getObjFilePath(conf: ConfigRef, f: Cfile): string =
if noAbsolutePaths(conf): f.obj.extractFilename
else: f.obj.string
proc hcrLinkTargetName(conf: ConfigRef, objFile: string, isMain = false): AbsoluteFile =
let basename = splitFile(objFile).name
let targetName = if isMain: basename & ".exe"
else: platform.OS[conf.target.targetOS].dllFrmt % basename
result = conf.getNimcacheDir / RelativeFile(targetName)
proc callCCompiler*(conf: ConfigRef) =
var
linkCmd: string
if conf.globalOptions * {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) =
when declared(echo):
let cmd = prettyCmds[idx]
if cmd != "": echo cmd
compileCFiles(conf, conf.toCompile, script, cmds, prettyCmds)
if optCompileOnly notin conf.globalOptions:
execCmdsInParallel(conf, cmds, prettyCb)
if optNoLinking notin conf.globalOptions:
# call the linker:
var objfiles = ""
for it in conf.externalToLink:
let objFile = if noAbsolutePaths(conf): it.extractFilename else: it
add(objfiles, ' ')
add(objfiles, quoteShell(
addFileExt(objFile, CC[conf.cCompiler].objExt)))
if conf.hcrOn: # lets assume that optCompileOnly isn't on
cmds = @[]
let mainFileIdx = conf.toCompile.len - 1
for idx, x in conf.toCompile:
# don't relink each of the many binaries (one for each source file) if the nim code is
# cached because that would take too much time for small changes - the only downside to
# this is that if an external-to-link file changes the final target wouldn't be relinked
if x.flags.contains(CfileFlag.Cached): continue
# we pass each object file as if it is the project file - a .dll will be created for each such
# object file in the nimcache directory, and only in the case of the main project file will
# there be probably an executable (if the project is such) which will be copied out of the nimcache
let objFile = conf.getObjFilePath(x)
let buildDll = idx != mainFileIdx
let linkTarget = conf.hcrLinkTargetName(objFile, not buildDll)
add(cmds, getLinkCmd(conf, linkTarget, objfiles & " " & quoteShell(objFile), buildDll))
# try to remove all .pdb files for the current binary so they don't accumulate endlessly in the nimcache
# for more info check the comment inside of getLinkCmd() where the /PDB:<filename> MSVC flag is used
if isVSCompatible(conf):
for pdb in walkFiles(objFile & ".*.pdb"):
discard tryRemoveFile(pdb)
# execute link commands in parallel - output will be a bit different
# if it fails than that from execLinkCmd() but that doesn't matter
prettyCmds = map(prettyCmds, proc (curr: string): string = return curr.replace("CC", "Link"))
execCmdsInParallel(conf, cmds, prettyCb)
# only if not cached - copy the resulting main file from the nimcache folder to its originally intended destination
if not conf.toCompile[mainFileIdx].flags.contains(CfileFlag.Cached):
let mainObjFile = getObjFilePath(conf, conf.toCompile[mainFileIdx])
var src = conf.hcrLinkTargetName(mainObjFile, true)
var dst = conf.prepareToWriteOutput
copyFileWithPermissions(src.string, dst.string)
else:
for x in conf.toCompile:
let objFile = if noAbsolutePaths(conf): x.obj.extractFilename else: x.obj.string
add(objfiles, ' ')
add(objfiles, quoteShell(objFile))
let mainOutput = if optGenScript notin conf.globalOptions: conf.prepareToWriteOutput
else: AbsoluteFile(conf.projectName)
linkCmd = getLinkCmd(conf, mainOutput, objfiles)
if optCompileOnly notin conf.globalOptions:
const MaxCmdLen = when defined(windows): 8_000 else: 32_000
if linkCmd.len > MaxCmdLen:
# Windows's command line limit is about 8K (don't laugh...) so C compilers on
# Windows support a feature where the command line can be passed via ``@linkcmd``
# to them.
linkViaResponseFile(conf, linkCmd)
else:
execLinkCmd(conf, linkCmd)
else:
linkCmd = ""
if optGenScript in conf.globalOptions:
add(script, linkCmd)
add(script, "\n")
generateScript(conf, script)
#from json import escapeJson
import json, std / sha1
template hashNimExe(): string = $secureHashFile(os.getAppFilename())
proc writeJsonBuildInstructions*(conf: ConfigRef) =
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(conf: ConfigRef; f: File; buf: var string; clist: CfileList, isExternal: bool) =
var i = 0
for it in clist:
if CfileFlag.Cached in it.flags: continue
let compileCmd = getCompileCFileCmd(conf, it)
if i > 0: lit ",\L"
lit "["
str it.cname.string
lit ", "
str compileCmd
lit "]"
inc i
proc linkfiles(conf: ConfigRef; f: File; buf, objfiles: var string; clist: CfileList;
llist: seq[string]) =
var pastStart = false
for it in llist:
let objfile = if noAbsolutePaths(conf): it.extractFilename
else: it
let objstr = addFileExt(objfile, CC[conf.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"
proc nimfiles(conf: ConfigRef; f: File) =
var i = 0
for it in conf.m.fileInfos:
if isAbsolute(it.fullPath.string):
if i > 0: lit "],\L"
lit "["
str it.fullPath.string
lit ", "
str $secureHashFile(it.fullPath.string)
inc i
lit "]\L"
var buf = newStringOfCap(50)
let jsonFile = conf.getNimcacheDir / RelativeFile(conf.projectName & ".json")
var f: File
if open(f, jsonFile.string, fmWrite):
lit "{\"compile\":[\L"
cfiles(conf, f, buf, conf.toCompile, false)
lit "],\L\"link\":[\L"
var objfiles = ""
# XXX add every file here that is to link
linkfiles(conf, f, buf, objfiles, conf.toCompile, conf.externalToLink)
lit "],\L\"linkcmd\": "
str getLinkCmd(conf, conf.absOutFile, objfiles)
if optRun in conf.globalOptions or isDefined(conf, "nimBetterRun"):
lit ",\L\"cmdline\": "
str conf.commandLine
lit ",\L\"nimfiles\":[\L"
nimfiles(conf, f)
lit "],\L\"nimexe\": \L"
str hashNimExe()
lit "\L"
lit "\L}\L"
close(f)
proc changeDetectedViaJsonBuildInstructions*(conf: ConfigRef; projectfile: AbsoluteFile): bool =
let jsonFile = toGeneratedFile(conf, projectfile, "json")
if not fileExists(jsonFile): return true
if not fileExists(conf.absOutFile): return true
result = false
try:
let data = json.parseFile(jsonFile.string)
if not data.hasKey("nimfiles") or not data.hasKey("cmdline"):
return true
let oldCmdLine = data["cmdline"].getStr
if conf.commandLine != oldCmdLine:
return true
if hashNimExe() != data["nimexe"].getStr:
return true
let nimfilesPairs = data["nimfiles"]
doAssert nimfilesPairs.kind == JArray
for p in nimfilesPairs:
doAssert p.kind == JArray
# >= 2 for forwards compatibility with potential later .json files:
doAssert p.len >= 2
let nimFilename = p[0].getStr
let oldHashValue = p[1].getStr
let newHashValue = $secureHashFile(nimFilename)
if oldHashValue != newHashValue:
return true
except IOError, OSError, ValueError:
echo "Warning: JSON processing failed: ", getCurrentExceptionMsg()
result = true
proc runJsonBuildInstructions*(conf: ConfigRef; projectfile: AbsoluteFile) =
let jsonFile = toGeneratedFile(conf, projectfile, "json")
try:
let data = json.parseFile(jsonFile.string)
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) =
when declared(echo):
echo prettyCmds[idx]
execCmdsInParallel(conf, cmds, prettyCb)
let linkCmd = data["linkcmd"]
doAssert linkCmd.kind == JString
execLinkCmd(conf, linkCmd.getStr)
except:
when declared(echo):
echo getCurrentException().getStackTrace()
quit "error evaluating JSON file: " & jsonFile.string
proc genMappingFiles(conf: ConfigRef; list: CfileList): Rope =
for it in list:
addf(result, "--file:r\"$1\"$N", [rope(it.cname.string)])
proc writeMapping*(conf: ConfigRef; symbolMapping: Rope) =
if optGenMapping notin conf.globalOptions: return
var code = rope("[C_Files]\n")
add(code, genMappingFiles(conf, conf.toCompile))
add(code, "\n[C_Compiler]\nFlags=")
add(code, strutils.escape(getCompileOptions(conf)))
add(code, "\n[Linker]\nFlags=")
add(code, strutils.escape(getLinkOptions(conf) & " " &
getConfigVar(conf, conf.cCompiler, ".options.linker")))
add(code, "\n[Environment]\nlibpath=")
add(code, strutils.escape(conf.libpath.string))
addf(code, "\n[Symbols]$n$1", [symbolMapping])
let filename = conf.projectPath / RelativeFile"mapping.txt"
if not writeRope(code, filename):
rawMessage(conf, errGenerated, "could not write to file: " & filename.string)