Mercurial > projects > ldc
view gen/linker.cpp @ 715:30b42a283c8e
Removed TypeOpaque from DMD.
Changed runtime functions taking opaque[] to void[].
Implemented proper type painting, to avoid "resizing" array casts in runtime calls that previously took opaque[].
Implemented dynamic arrays as first class types, this implements proper ABI for these types on x86.
Added dwarf region end after call to assert function, fixes some problems with llvm not allowing this to be missing.
Reverted change to WithStatement from rev [704] it breaks MiniD, mini/with2.d needs to be fixed some other way...
Fixed tango bug 1339 in runtime, problem with _adReverseChar on invalid UTF-8.
Disabled .bc generation in the compiler runtime part, genobj.d triggers some llvm bug when using debug info. the .o seems to work fine.
author | Tomas Lindquist Olsen <tomas.l.olsen@gmail.com> |
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date | Wed, 22 Oct 2008 14:55:33 +0200 |
parents | 855e0ef78fa2 |
children | 6c850977a941 |
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#include "gen/llvm.h" #include "llvm/Linker.h" #include "llvm/System/Program.h" #if _WIN32 #include "llvm/Support/SystemUtils.h" #endif #include "root.h" #include "mars.h" #include "module.h" #define NO_COUT_LOGGER #include "gen/logger.h" ////////////////////////////////////////////////////////////////////////////// typedef std::vector<llvm::Module*> Module_vector; void linkModules(llvm::Module* dst, const Module_vector& MV) { if (MV.empty()) return; llvm::Linker linker("ldc", dst); std::string err; for (Module_vector::const_iterator i=MV.begin(); i!=MV.end(); ++i) { if (!linker.LinkInModule(*i, &err)) { error("%s", err.c_str()); fatal(); } } } ////////////////////////////////////////////////////////////////////////////// static llvm::sys::Path gExePath; int linkExecutable(const char* argv0) { Logger::println("*** Linking executable ***"); // error string std::string errstr; // find the llvm-ld program llvm::sys::Path ldpath = llvm::sys::Program::FindProgramByName("llvm-ld"); if (ldpath.isEmpty()) { ldpath.set("llvm-ld"); } // build arguments std::vector<const char*> args; // first the program name ?? args.push_back("llvm-ld"); // output filename std::string exestr; if (global.params.exefile) { // explicit exestr = global.params.exefile; } else { // inferred // try root module name if (Module::rootModule) exestr = Module::rootModule->toChars(); else exestr = "a.out"; } if (global.params.os == OSWindows) exestr.append(".exe"); std::string outopt = "-o=" + exestr; args.push_back(outopt.c_str()); // set the global gExePath gExePath.set(exestr); assert(gExePath.isValid()); // create path to exe llvm::sys::Path exedir(gExePath); exedir.set(gExePath.getDirname()); if (!exedir.exists()) { exedir.createDirectoryOnDisk(true, &errstr); if (!errstr.empty()) { error("failed to create path to linking output: %s\n%s", exedir.c_str(), errstr.c_str()); fatal(); } } // strip debug info if (!global.params.symdebug) args.push_back("-strip-debug"); // optimization level if (!global.params.optimize) args.push_back("-disable-opt"); else { const char* s = 0; switch(global.params.optimizeLevel) { case 0: args.push_back("-disable-opt"); args.push_back("-globaldce"); break; case 1: args.push_back("-disable-opt"); args.push_back("-globaldce"); args.push_back("-mem2reg"); case 2: case 3: case 4: case 5: // use default optimization break; default: assert(0); } } // inlining if (!(global.params.useInline || global.params.llvmInline)) { args.push_back("-disable-inlining"); } // additional linker switches for (int i = 0; i < global.params.linkswitches->dim; i++) { char *p = (char *)global.params.linkswitches->data[i]; args.push_back(p); } // native please args.push_back("-native"); // user libs for (int i = 0; i < global.params.libfiles->dim; i++) { char *p = (char *)global.params.libfiles->data[i]; args.push_back(p); } // default libs switch(global.params.os) { case OSLinux: case OSMacOSX: args.push_back("-ldl"); case OSFreeBSD: args.push_back("-lpthread"); args.push_back("-lm"); break; case OSWindows: // FIXME: I'd assume kernel32 etc break; } // object files for (int i = 0; i < global.params.objfiles->dim; i++) { char *p = (char *)global.params.objfiles->data[i]; args.push_back(p); } // print link command? if (!global.params.quiet || global.params.verbose) { // Print it for (int i = 0; i < args.size(); i++) printf("%s ", args[i]); printf("\n"); fflush(stdout); } // terminate args list args.push_back(NULL); // try to call linker!!! if (int status = llvm::sys::Program::ExecuteAndWait(ldpath, &args[0], NULL, NULL, 0,0, &errstr)) { error("linking failed:\nstatus: %d", status); if (!errstr.empty()) error("message: %s", errstr.c_str()); fatal(); } } ////////////////////////////////////////////////////////////////////////////// int linkObjToExecutable(const char* argv0) { Logger::println("*** Linking executable ***"); // error string std::string errstr; // find gcc for linking llvm::sys::Path gcc = llvm::sys::Program::FindProgramByName("gcc"); if (gcc.isEmpty()) { gcc.set("gcc"); } // build arguments std::vector<const char*> args; // first the program name ?? args.push_back("gcc"); // object files for (int i = 0; i < global.params.objfiles->dim; i++) { char *p = (char *)global.params.objfiles->data[i]; args.push_back(p); } // output filename std::string exestr; if (global.params.exefile) { // explicit exestr = global.params.exefile; } else { // inferred // try root module name if (Module::rootModule) exestr = Module::rootModule->toChars(); else if (global.params.objfiles->dim) exestr = FileName::removeExt((char*)global.params.objfiles->data[0]); else exestr = "a.out"; } if (global.params.os == OSWindows) exestr.append(".exe"); args.push_back("-o"); args.push_back(exestr.c_str()); // set the global gExePath gExePath.set(exestr); assert(gExePath.isValid()); // create path to exe llvm::sys::Path exedir(gExePath); exedir.set(gExePath.getDirname()); if (!exedir.exists()) { exedir.createDirectoryOnDisk(true, &errstr); if (!errstr.empty()) { error("failed to create path to linking output: %s\n%s", exedir.c_str(), errstr.c_str()); fatal(); } } // additional linker switches for (int i = 0; i < global.params.linkswitches->dim; i++) { char *p = (char *)global.params.linkswitches->data[i]; args.push_back(p); } // user libs for (int i = 0; i < global.params.libfiles->dim; i++) { char *p = (char *)global.params.libfiles->data[i]; args.push_back(p); } // default libs switch(global.params.os) { case OSLinux: case OSMacOSX: args.push_back("-ldl"); case OSFreeBSD: args.push_back("-lpthread"); args.push_back("-lm"); break; case OSWindows: // FIXME: I'd assume kernel32 etc break; } // print link command? if (!global.params.quiet || global.params.verbose) { // Print it for (int i = 0; i < args.size(); i++) printf("%s ", args[i]); printf("\n"); fflush(stdout); } Logger::println("Linking with: "); std::vector<const char*>::const_iterator I = args.begin(), E = args.end(); std::ostream& logstr = Logger::cout(); for (; I != E; ++I) if (*I) logstr << "'" << *I << "'" << " "; logstr << "\n" << std::flush; // terminate args list args.push_back(NULL); // try to call linker!!! if (int status = llvm::sys::Program::ExecuteAndWait(gcc, &args[0], NULL, NULL, 0,0, &errstr)) { error("linking failed:\nstatus: %d", status); if (!errstr.empty()) error("message: %s", errstr.c_str()); fatal(); } } ////////////////////////////////////////////////////////////////////////////// void deleteExecutable() { if (!gExePath.isEmpty()) { assert(gExePath.isValid()); assert(!gExePath.isDirectory()); gExePath.eraseFromDisk(false); } } ////////////////////////////////////////////////////////////////////////////// int runExectuable() { assert(!gExePath.isEmpty()); assert(gExePath.isValid()); // build arguments std::vector<const char*> args; for (size_t i = 0; i < global.params.runargs_length; i++) { char *a = global.params.runargs[i]; args.push_back(a); } // terminate args list args.push_back(NULL); // try to call linker!!! std::string errstr; int status = llvm::sys::Program::ExecuteAndWait(gExePath, &args[0], NULL, NULL, 0,0, &errstr); if (!errstr.empty()) { error("failed to execute program"); if (!errstr.empty()) error("error message: %s", errstr.c_str()); fatal(); } return status; }