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1fac40d2bd2a741fd18eb90a7dd5505c2b226ff8
ldc/gen/main.cpp
Tomas Lindquist Olsen 1fac40d2bd Update to work with LLVM 2.7. 
Removed use of dyn_cast, llvm no compiles
without exceptions and rtti by
default. We do need exceptions for the libconfig stuff, but rtti isn't
necessary (anymore).

Debug info needs to be rewritten, as in LLVM 2.7 the format has
completely changed. To have something to look at while rewriting, the
old code has been wrapped inside #ifndef DISABLE_DEBUG_INFO , this means
that you have to define this to compile at the moment.

Updated tango 0.99.9 patch to include updated EH runtime code, which is
needed for LLVM 2.7 as well.
2010-05-19 12:42:32 +02:00

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// Pulled out of dmd/mars.c
// some things are taken from llvm's llc tool
// which uses the llvm license
#include "gen/llvm.h"
#include "gen/llvm-version.h"
#include "llvm/LinkAllVMCore.h"
#include "llvm/Linker.h"
#include "llvm/LLVMContext.h"
#include "llvm/System/Signals.h"
#include "llvm/Target/SubtargetFeature.h"
#include "llvm/Target/TargetMachine.h"
#include "llvm/Target/TargetOptions.h"
#include "llvm/Target/TargetRegistry.h"
#include "llvm/Target/TargetSelect.h"
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#include <limits.h>
#if POSIX
#include <errno.h>
#elif _WIN32
#include <windows.h>
#endif
#include "rmem.h"
#include "root.h"
#include "mars.h"
#include "module.h"
#include "mtype.h"
#include "id.h"
#include "cond.h"
#include "gen/logger.h"
#include "gen/linkage.h"
#include "gen/linker.h"
#include "gen/irstate.h"
#include "gen/optimizer.h"
#include "gen/toobj.h"
#include "gen/metadata.h"
#include "gen/passes/Passes.h"
#include "gen/cl_options.h"
#include "gen/cl_helpers.h"
using namespace opts;
#include "gen/configfile.h"
extern void getenv_setargv(const char *envvar, int *pargc, char** *pargv);
extern void backend_init();
extern void backend_term();
static cl::opt<bool> noDefaultLib("nodefaultlib",
cl::desc("Don't add a default library for linking implicitly"),
cl::ZeroOrMore);
static ArrayAdapter impPathsStore("I", global.params.imppath);
static cl::list<std::string, ArrayAdapter> importPaths("I",
cl::desc("Where to look for imports"),
cl::value_desc("path"),
cl::location(impPathsStore),
cl::Prefix);
static ArrayAdapter defaultLibStore("defaultlib", global.params.defaultlibnames);
static cl::list<std::string, ArrayAdapter> defaultlibs("defaultlib",
cl::desc("Set default libraries for non-debug build"),
cl::value_desc("lib,..."),
cl::location(defaultLibStore),
cl::CommaSeparated);
static ArrayAdapter debugLibStore("debuglib", global.params.debuglibnames);
static cl::list<std::string, ArrayAdapter> debuglibs("debuglib",
cl::desc("Set default libraries for debug build"),
cl::value_desc("lib,..."),
cl::location(debugLibStore),
cl::CommaSeparated);
void printVersion() {
printf("LLVM D Compiler %s\nbased on DMD %s and %s\n%s\n%s\n",
global.ldc_version, global.version, global.llvm_version, global.copyright, global.written);
printf("D Language Documentation: http://www.digitalmars.com/d/1.0/index.html\n"
"LDC Homepage: http://www.dsource.org/projects/ldc\n");
}
// Helper function to handle -d-debug=* and -d-version=*
static void processVersions(std::vector<std::string>& list, char* type,
void (*setLevel)(unsigned), void (*addIdent)(const char*)) {
typedef std::vector<std::string>::iterator It;
for(It I = list.begin(), E = list.end(); I != E; ++I) {
const char* value = I->c_str();
if (isdigit(value[0])) {
errno = 0;
char* end;
long level = strtol(value, &end, 10);
if (*end || errno || level > INT_MAX) {
error("Invalid %s level: %s", type, I->c_str());
} else {
setLevel((unsigned)level);
}
} else {
char* cstr = mem.strdup(value);
if (Lexer::isValidIdentifier(cstr)) {
addIdent(cstr);
continue;
} else {
error("Invalid %s identifier or level: '%s'", type, I->c_str());
}
}
}
}
// Helper function to handle -of, -od, etc.
static void initFromString(char*& dest, const cl::opt<std::string>& src) {
dest = 0;
if (src.getNumOccurrences() != 0) {
if (src.empty())
error("Expected argument to '-%s'", src.ArgStr);
dest = mem.strdup(src.c_str());
}
}
int main(int argc, char** argv)
{
// stack trace on signals
llvm::sys::PrintStackTraceOnErrorSignal();
Array files;
char *p, *ext;
Module *m;
int status = EXIT_SUCCESS;
// Set some default values
#if _WIN32
char buf[MAX_PATH];
GetModuleFileName(NULL, buf, MAX_PATH);
global.params.argv0 = buf;
#else
global.params.argv0 = argv[0];
#endif
global.params.useSwitchError = 1;
global.params.linkswitches = new Array();
global.params.libfiles = new Array();
global.params.objfiles = new Array();
global.params.ddocfiles = new Array();
global.params.moduleDeps = NULL;
global.params.moduleDepsFile = NULL;
// Set predefined version identifiers
VersionCondition::addPredefinedGlobalIdent("LLVM");
VersionCondition::addPredefinedGlobalIdent("LDC");
VersionCondition::addPredefinedGlobalIdent("all");
#if DMDV2
VersionCondition::addPredefinedGlobalIdent("D_Version2");
#endif
// merge DFLAGS environment variable into argc/argv
getenv_setargv("DFLAGS", &argc, &argv);
#if 0
for (int i = 0; i < argc; i++)
{
printf("argv[%d] = '%s'\n", i, argv[i]);
}
#endif
// build complete fixed up list of command line arguments
std::vector<const char*> final_args;
final_args.reserve(argc);
// insert command line args until -run is reached
int run_argnum = 1;
while (run_argnum < argc && strncmp(argv[run_argnum], "-run", 4) != 0)
++run_argnum;
final_args.insert(final_args.end(), &argv[0], &argv[run_argnum]);
// read the configuration file
ConfigFile cfg_file;
// just ignore errors for now, they are still printed
#if DMDV2
#define CFG_FILENAME "ldc2.conf"
#else
#define CFG_FILENAME "ldc.conf"
#endif
cfg_file.read(global.params.argv0, (void*)main, CFG_FILENAME);
#undef CFG_FILENAME
// insert config file additions to the argument list
final_args.insert(final_args.end(), cfg_file.switches_begin(), cfg_file.switches_end());
// insert -run and everything beyond
final_args.insert(final_args.end(), &argv[run_argnum], &argv[argc]);
#if 0
for (size_t i = 0; i < final_args.size(); ++i)
{
printf("final_args[%zu] = %s\n", i, final_args[i]);
}
#endif
// Handle fixed-up arguments!
cl::SetVersionPrinter(&printVersion);
cl::ParseCommandLineOptions(final_args.size(), (char**)&final_args[0], "LLVM-based D Compiler\n", true);
// Print config file path if -v was passed
if (global.params.verbose) {
const std::string& path = cfg_file.path();
if (!path.empty())
printf("config %s\n", path.c_str());
}
// Negated options
global.params.link = !compileOnly;
global.params.obj = !dontWriteObj;
global.params.useInlineAsm = !noAsm;
// String options: std::string --> char*
initFromString(global.params.objname, objectFile);
initFromString(global.params.objdir, objectDir);
initFromString(global.params.docdir, ddocDir);
initFromString(global.params.docname, ddocFile);
global.params.doDocComments |=
global.params.docdir || global.params.docname;
#ifdef _DH
initFromString(global.params.hdrdir, hdrDir);
initFromString(global.params.hdrname, hdrFile);
global.params.doHdrGeneration |=
global.params.hdrdir || global.params.hdrname;
#endif
initFromString(global.params.moduleDepsFile, moduleDepsFile);
if (global.params.moduleDepsFile != NULL)
{
global.params.moduleDeps = new OutBuffer;
}
processVersions(debugArgs, "debug",
DebugCondition::setGlobalLevel,
DebugCondition::addGlobalIdent);
processVersions(versions, "version",
VersionCondition::setGlobalLevel,
VersionCondition::addGlobalIdent);
global.params.output_o =
(opts::output_o == cl::BOU_UNSET
&& !(opts::output_bc || opts::output_ll || opts::output_s))
? OUTPUTFLAGdefault
: opts::output_o == cl::BOU_TRUE
? OUTPUTFLAGset
: OUTPUTFLAGno;
global.params.output_bc = opts::output_bc ? OUTPUTFLAGset : OUTPUTFLAGno;
global.params.output_ll = opts::output_ll ? OUTPUTFLAGset : OUTPUTFLAGno;
global.params.output_s = opts::output_s ? OUTPUTFLAGset : OUTPUTFLAGno;
templateLinkage =
opts::linkonceTemplates ? LLGlobalValue::LinkOnceODRLinkage
: LLGlobalValue::WeakODRLinkage;
if (global.params.run || !runargs.empty()) {
// FIXME: how to properly detect the presence of a PositionalEatsArgs
// option without parameters? We want to emit an error in that case...
// You'd think getNumOccurrences would do it, but it just returns the
// number of parameters)
// NOTE: Hacked around it by detecting -run in getenv_setargv(), where
// we're looking for it anyway, and pre-setting the flag...
global.params.run = true;
if (!runargs.empty()) {
files.push(mem.strdup(runargs[0].c_str()));
} else {
global.params.run = false;
error("Expected at least one argument to '-run'\n");
}
}
files.reserve(fileList.size());
typedef std::vector<std::string>::iterator It;
for(It I = fileList.begin(), E = fileList.end(); I != E; ++I)
if (!I->empty())
files.push(mem.strdup(I->c_str()));
if (global.errors)
{
fatal();
}
if (files.dim == 0)
{
cl::PrintHelpMessage();
return EXIT_FAILURE;
}
Array* libs;
if (global.params.symdebug)
{
libs = global.params.debuglibnames;
llvm::NoFramePointerElim = true;
}
else
libs = global.params.defaultlibnames;
if (!noDefaultLib)
{
if (libs)
{
for (int i = 0; i < libs->dim; i++)
{
char* lib = (char *)libs->data[i];
char *arg = (char *)mem.malloc(strlen(lib) + 3);
strcpy(arg, "-l");
strcpy(arg+2, lib);
global.params.linkswitches->push(arg);
}
}
else
{
#if DMDV2
global.params.linkswitches->push(mem.strdup("-ldruntime-ldc"));
#else
global.params.linkswitches->push(mem.strdup("-lldc-runtime"));
global.params.linkswitches->push(mem.strdup("-ltango-cc-tango"));
global.params.linkswitches->push(mem.strdup("-ltango-gc-basic"));
// pass the runtime again to resolve issues
// with linking order
global.params.linkswitches->push(mem.strdup("-lldc-runtime"));
#endif
}
}
if (global.params.run)
quiet = 1;
if (global.params.useUnitTests)
global.params.useAssert = 1;
// LDC output determination
// if we don't link, autodetect target from extension
if(!global.params.link && global.params.objname) {
ext = FileName::ext(global.params.objname);
bool autofound = false;
if (!ext) {
// keep things as they are
} else if (strcmp(ext, global.ll_ext) == 0) {
global.params.output_ll = OUTPUTFLAGset;
autofound = true;
} else if (strcmp(ext, global.bc_ext) == 0) {
global.params.output_bc = OUTPUTFLAGset;
autofound = true;
} else if (strcmp(ext, global.s_ext) == 0) {
global.params.output_s = OUTPUTFLAGset;
autofound = true;
} else if (strcmp(ext, global.obj_ext) == 0) {
global.params.output_o = OUTPUTFLAGset;
autofound = true;
} else {
// append dot, so forceExt won't change existing name even if it contains dots
size_t len = strlen(global.params.objname);
size_t extlen = strlen(".");
char* s = (char *)mem.malloc(len + 1 + extlen + 1);
memcpy(s, global.params.objname, len);
s[len] = '.';
s[len+1+extlen] = 0;
global.params.objname = s;
}
if(autofound && global.params.output_o == OUTPUTFLAGdefault)
global.params.output_o = OUTPUTFLAGno;
}
// only link if possible
if (!global.params.obj || !global.params.output_o)
global.params.link = 0;
if (global.params.link)
{
global.params.exefile = global.params.objname;
if (files.dim > 1)
global.params.objname = NULL;
}
else if (global.params.run)
{
error("flags conflict with -run");
fatal();
}
else
{
if (global.params.objname && files.dim > 1 && !singleObj)
{
error("multiple source files, but only one .obj name");
fatal();
}
}
// create a proper target
Ir ir;
// check -m32/64 sanity
if (m32bits && m64bits)
error("cannot use both -m32 and -m64 options");
else if ((m32bits || m64bits) && (!mArch.empty() || !mTargetTriple.empty()))
error("-m32 and -m64 switches cannot be used together with -march and -mtriple switches");
if (global.errors)
fatal();
// override triple if needed
const char* defaultTriple = DEFAULT_TARGET_TRIPLE;
if ((sizeof(void*) == 4 && m64bits) || (sizeof(void*) == 8 && m32bits))
{
defaultTriple = DEFAULT_ALT_TARGET_TRIPLE;
}
// did the user override the target triple?
if (mTargetTriple.empty())
{
if (!mArch.empty())
{
error("you must specify a target triple as well with -mtriple when using the -march option");
fatal();
}
global.params.targetTriple = defaultTriple;
}
else
{
global.params.targetTriple = mTargetTriple.c_str();
}
std::string triple = global.params.targetTriple;
// Allocate target machine.
// first initialize llvm
#define LLVM_TARGET(A) LLVMInitialize##A##TargetInfo(); LLVMInitialize##A##Target(); LLVMInitialize##A##AsmPrinter();
// this is defined to be LLVM_TARGET(target name 1) LLVM_TARGET(target name 2) ...
LDC_TARGETS
#undef LLVM_TARGET
const llvm::Target *theTarget = NULL;
// Check whether the user has explicitly specified an architecture to compile for.
if (mArch.empty())
{
std::string Err;
theTarget = llvm::TargetRegistry::lookupTarget(triple, Err);
if (theTarget == 0)
{
error("failed to auto-select target: %s, please use the -march option", Err.c_str());
fatal();
}
}
else
{
for (llvm::TargetRegistry::iterator it = llvm::TargetRegistry::begin(),
ie = llvm::TargetRegistry::end(); it != ie; ++it)
{
if (mArch == it->getName())
{
theTarget = &*it;
break;
}
}
if (!theTarget)
{
error("invalid target '%s'", mArch.c_str());
fatal();
}
}
// Package up features to be passed to target/subtarget
std::string FeaturesStr;
if (mCPU.size() || mAttrs.size())
{
llvm::SubtargetFeatures Features;
Features.setCPU(mCPU);
for (unsigned i = 0; i != mAttrs.size(); ++i)
Features.AddFeature(mAttrs[i]);
FeaturesStr = Features.getString();
}
// FIXME
//std::auto_ptr<llvm::TargetMachine> target(theTarget->createTargetMachine(triple, FeaturesStr));
//assert(target.get() && "Could not allocate target machine!");
//gTargetMachine = target.get();
llvm::TargetMachine* target = theTarget->createTargetMachine(triple, FeaturesStr);
gTargetMachine = target;
gTargetData = target->getTargetData();
// get final data layout
std::string datalayout = gTargetData->getStringRepresentation();
global.params.dataLayout = datalayout.c_str();
global.params.llvmArch = theTarget->getName();
if (strcmp(global.params.llvmArch,"x86")==0) {
VersionCondition::addPredefinedGlobalIdent("X86");
global.params.isLE = true;
global.params.is64bit = false;
global.params.cpu = ARCHx86;
if (global.params.useInlineAsm) {
VersionCondition::addPredefinedGlobalIdent("D_InlineAsm_X86");
}
}
else if (strcmp(global.params.llvmArch,"x86-64")==0) {
VersionCondition::addPredefinedGlobalIdent("X86_64");
global.params.isLE = true;
global.params.is64bit = true;
global.params.cpu = ARCHx86_64;
if (global.params.useInlineAsm) {
VersionCondition::addPredefinedGlobalIdent("D_InlineAsm_X86_64");
}
}
else if (strcmp(global.params.llvmArch,"ppc32")==0) {
VersionCondition::addPredefinedGlobalIdent("PPC");
global.params.isLE = false;
global.params.is64bit = false;
global.params.cpu = ARCHppc;
}
else if (strcmp(global.params.llvmArch,"ppc64")==0) {
VersionCondition::addPredefinedGlobalIdent("PPC64");
global.params.isLE = false;
global.params.is64bit = true;
global.params.cpu = ARCHppc_64;
}
else if (strcmp(global.params.llvmArch,"arm")==0) {
VersionCondition::addPredefinedGlobalIdent("ARM");
global.params.isLE = true;
global.params.is64bit = false;
global.params.cpu = ARCHarm;
}
else if (strcmp(global.params.llvmArch,"thumb")==0) {
VersionCondition::addPredefinedGlobalIdent("Thumb");
global.params.isLE = true;
global.params.is64bit = false;
global.params.cpu = ARCHthumb;
}
else {
error("invalid cpu architecture specified: %s", global.params.llvmArch);
fatal();
}
// endianness
if (global.params.isLE) {
VersionCondition::addPredefinedGlobalIdent("LittleEndian");
}
else {
VersionCondition::addPredefinedGlobalIdent("BigEndian");
}
// a generic 64bit version
if (global.params.is64bit) {
VersionCondition::addPredefinedGlobalIdent("LLVM64");
// FIXME: is this always correct?
VersionCondition::addPredefinedGlobalIdent("D_LP64");
}
// parse the OS out of the target triple
// see http://gcc.gnu.org/install/specific.html for details
// also llvm's different SubTargets have useful information
size_t npos = std::string::npos;
// windows
// FIXME: win64
if (triple.find("windows") != npos || triple.find("win32") != npos || triple.find("mingw") != npos)
{
global.params.os = OSWindows;
VersionCondition::addPredefinedGlobalIdent("Windows");
VersionCondition::addPredefinedGlobalIdent("Win32");
VersionCondition::addPredefinedGlobalIdent("mingw32");
}
// FIXME: cygwin
else if (triple.find("cygwin") != npos)
{
error("CygWin is not yet supported");
fatal();
}
// linux
else if (triple.find("linux") != npos)
{
global.params.os = OSLinux;
VersionCondition::addPredefinedGlobalIdent("linux");
VersionCondition::addPredefinedGlobalIdent("Posix");
}
// darwin
else if (triple.find("-darwin") != npos)
{
global.params.os = OSMacOSX;
VersionCondition::addPredefinedGlobalIdent("OSX");
VersionCondition::addPredefinedGlobalIdent("darwin");
VersionCondition::addPredefinedGlobalIdent("Posix");
}
// freebsd
else if (triple.find("-freebsd") != npos)
{
global.params.os = OSFreeBSD;
VersionCondition::addPredefinedGlobalIdent("freebsd");
VersionCondition::addPredefinedGlobalIdent("FreeBSD");
VersionCondition::addPredefinedGlobalIdent("Posix");
}
// solaris
else if (triple.find("-solaris") != npos)
{
global.params.os = OSSolaris;
VersionCondition::addPredefinedGlobalIdent("solaris");
VersionCondition::addPredefinedGlobalIdent("Solaris");
VersionCondition::addPredefinedGlobalIdent("Posix");
}
// unsupported
else
{
error("target '%s' is not yet supported", global.params.targetTriple);
fatal();
}
// added in 1.039
if (global.params.doDocComments)
VersionCondition::addPredefinedGlobalIdent("D_Ddoc");
#if DMDV2
// unittests?
if (global.params.useUnitTests)
VersionCondition::addPredefinedGlobalIdent("unittest");
#endif
// Initialization
Type::init(&ir);
Id::initialize();
Module::init();
initPrecedence();
backend_init();
//printf("%d source files\n",files.dim);
// Build import search path
if (global.params.imppath)
{
for (int i = 0; i < global.params.imppath->dim; i++)
{
char *path = (char *)global.params.imppath->data[i];
Array *a = FileName::splitPath(path);
if (a)
{
if (!global.path)
global.path = new Array();
global.path->append(a);
}
}
}
// Build string import search path
if (global.params.fileImppath)
{
for (int i = 0; i < global.params.fileImppath->dim; i++)
{
char *path = (char *)global.params.fileImppath->data[i];
Array *a = FileName::splitPath(path);
if (a)
{
if (!global.filePath)
global.filePath = new Array();
global.filePath->append(a);
}
}
}
// Create Modules
Array modules;
modules.reserve(files.dim);
for (int i = 0; i < files.dim; i++)
{ Identifier *id;
char *ext;
char *name;
p = (char *) files.data[i];
p = FileName::name(p); // strip path
ext = FileName::ext(p);
if (ext)
{
#if POSIX
if (strcmp(ext, global.obj_ext) == 0 ||
strcmp(ext, global.bc_ext) == 0)
#else
if (stricmp(ext, global.obj_ext) == 0 ||
stricmp(ext, global.bc_ext) == 0)
#endif
{
global.params.objfiles->push(files.data[i]);
continue;
}
#if POSIX
if (strcmp(ext, "a") == 0)
#elif __MINGW32__
if (stricmp(ext, "a") == 0)
#else
if (stricmp(ext, "lib") == 0)
#endif
{
global.params.libfiles->push(files.data[i]);
continue;
}
if (strcmp(ext, global.ddoc_ext) == 0)
{
global.params.ddocfiles->push(files.data[i]);
continue;
}
#if !POSIX
if (stricmp(ext, "res") == 0)
{
global.params.resfile = (char *)files.data[i];
continue;
}
if (stricmp(ext, "def") == 0)
{
global.params.deffile = (char *)files.data[i];
continue;
}
if (stricmp(ext, "exe") == 0)
{
global.params.exefile = (char *)files.data[i];
continue;
}
#endif
if (stricmp(ext, global.mars_ext) == 0 ||
stricmp(ext, global.hdr_ext) == 0 ||
stricmp(ext, "htm") == 0 ||
stricmp(ext, "html") == 0 ||
stricmp(ext, "xhtml") == 0)
{
ext--; // skip onto '.'
assert(*ext == '.');
name = (char *)mem.malloc((ext - p) + 1);
memcpy(name, p, ext - p);
name[ext - p] = 0; // strip extension
if (name[0] == 0 ||
strcmp(name, "..") == 0 ||
strcmp(name, ".") == 0)
{
Linvalid:
error("invalid file name '%s'", (char *)files.data[i]);
fatal();
}
}
else
{ error("unrecognized file extension %s\n", ext);
fatal();
}
}
else
{ name = p;
if (!*name)
goto Linvalid;
}
id = new Identifier(name, 0);
m = new Module((char *) files.data[i], id, global.params.doDocComments, global.params.doHdrGeneration);
modules.push(m);
}
// Read files, parse them
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("parse %s\n", m->toChars());
if (!Module::rootModule)
Module::rootModule = m;
m->importedFrom = m;
m->read(0);
m->parse();
m->buildTargetFiles(singleObj);
m->deleteObjFile();
if (m->isDocFile)
{
m->gendocfile();
// Remove m from list of modules
modules.remove(i);
i--;
}
}
if (global.errors)
fatal();
#ifdef _DH
if (global.params.doHdrGeneration)
{
/* Generate 'header' import files.
* Since 'header' import files must be independent of command
* line switches and what else is imported, they are generated
* before any semantic analysis.
*/
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("import %s\n", m->toChars());
m->genhdrfile();
}
}
if (global.errors)
fatal();
#endif
// load all unconditional imports for better symbol resolving
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("importall %s\n", m->toChars());
m->importAll(0);
}
if (global.errors)
fatal();
// Do semantic analysis
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("semantic %s\n", m->toChars());
m->semantic();
}
if (global.errors)
fatal();
// Do pass 2 semantic analysis
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("semantic2 %s\n", m->toChars());
m->semantic2();
}
if (global.errors)
fatal();
// Do pass 3 semantic analysis
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("semantic3 %s\n", m->toChars());
m->semantic3();
}
if (global.errors)
fatal();
#if !IN_LLVM
// Scan for functions to inline
if (global.params.useInline)
{
/* The problem with useArrayBounds and useAssert is that the
* module being linked to may not have generated them, so if
* we inline functions from those modules, the symbols for them will
* not be found at link time.
*/
if (!global.params.useArrayBounds && !global.params.useAssert)
#else
// This doesn't play nice with debug info at the moment
if (!global.params.symdebug && willInline())
{
global.params.useAvailableExternally = true;
Logger::println("Running some extra semantic3's for inlining purposes");
#endif
{
// Do pass 3 semantic analysis on all imported modules,
// since otherwise functions in them cannot be inlined
for (int i = 0; i < Module::amodules.dim; i++)
{
m = (Module *)Module::amodules.data[i];
if (global.params.verbose)
printf("semantic3 %s\n", m->toChars());
m->semantic3();
}
if (global.errors)
fatal();
}
#if !IN_LLVM
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("inline scan %s\n", m->toChars());
m->inlineScan();
}
#endif
}
if (global.errors)
fatal();
// write module dependencies to file if requested
if (global.params.moduleDepsFile != NULL)
{
assert (global.params.moduleDepsFile != NULL);
File deps(global.params.moduleDepsFile);
OutBuffer* ob = global.params.moduleDeps;
deps.setbuffer((void*)ob->data, ob->offset);
deps.write();
}
// collects llvm modules to be linked if singleobj is passed
std::vector<llvm::Module*> llvmModules;
llvm::LLVMContext& context = llvm::getGlobalContext();
// Generate output files
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
if (global.params.verbose)
printf("code %s\n", m->toChars());
if (global.params.obj)
{
llvm::Module* lm = m->genLLVMModule(context, &ir);
if (!singleObj)
{
m->deleteObjFile();
writeModule(lm, m->objfile->name->str);
global.params.objfiles->push(m->objfile->name->str);
delete lm;
}
else
llvmModules.push_back(lm);
}
if (global.errors)
m->deleteObjFile();
else
{
if (global.params.doDocComments)
m->gendocfile();
}
}
// internal linking for singleobj
if (singleObj && llvmModules.size() > 0)
{
Module* m = (Module*)modules.data[0];
char* name = m->toChars();
char* filename = m->objfile->name->str;
llvm::Linker linker(name, name, context);
std::string errormsg;
for (int i = 0; i < llvmModules.size(); i++)
{
if(linker.LinkInModule(llvmModules[i], &errormsg))
error("%s", errormsg.c_str());
delete llvmModules[i];
}
m->deleteObjFile();
writeModule(linker.getModule(), filename);
global.params.objfiles->push(filename);
}
backend_term();
if (global.errors)
fatal();
if (!global.params.objfiles->dim)
{
if (global.params.link)
error("no object files to link");
}
else
{
if (global.params.link)
status = linkObjToExecutable(global.params.argv0);
if (global.params.run)
{
if (!status)
{
status = runExecutable();
/* Delete .obj files and .exe file
*/
for (int i = 0; i < modules.dim; i++)
{
m = (Module *)modules.data[i];
m->deleteObjFile();
}
deleteExecutable();
}
}
}
return status;
}
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