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view ir/irfunction.cpp @ 1351:8d501abecd24
Initial (but disabled) fix for ticket #294 , the actual part that fixes the bug is in a #if 0 block as I'm afraid it will cause regressions. I'm most likely not going to be around tonight, and maybe not tomorrow as well, so I'm pushing it in case someone wants to run some serious testing/investigate the problem noted in llvmhelpers.cpp : realignOffset .
author | Tomas Lindquist Olsen <tomas.l.olsen gmail com> |
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date | Thu, 14 May 2009 17:20:17 +0200 |
parents | 5f340a6dc749 |
children | 3f5ea912149d |
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#include "gen/llvm.h" #include "gen/tollvm.h" #include "gen/abi.h" #include "gen/dvalue.h" #include "gen/logger.h" #include "ir/irfunction.h" #include "ir/irfuncty.h" #include <sstream> ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// IrFuncTyArg::IrFuncTyArg(Type* t, bool bref, unsigned a) { type = t; ltype = bref ? DtoType(t->pointerTo()) : DtoType(t); attrs = a; byref = bref; rewrite = NULL; } bool IrFuncTyArg::isInReg() const { return (attrs & llvm::Attribute::InReg) != 0; } bool IrFuncTyArg::isSRet() const { return (attrs & llvm::Attribute::StructRet) != 0; } bool IrFuncTyArg::isByVal() const { return (attrs & llvm::Attribute::ByVal) != 0; } ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// llvm::Value* IrFuncTy::putRet(Type* dty, DValue* val) { assert(!arg_sret); if (ret->rewrite) { Logger::println("Rewrite: putRet"); LOG_SCOPE return ret->rewrite->put(dty, val); } return val->getRVal(); } llvm::Value* IrFuncTy::getRet(Type* dty, DValue* val) { assert(!arg_sret); if (ret->rewrite) { Logger::println("Rewrite: getRet"); LOG_SCOPE return ret->rewrite->get(dty, val); } return val->getRVal(); } llvm::Value* IrFuncTy::putParam(Type* dty, int idx, DValue* val) { assert(idx >= 0 && idx < args.size() && "invalid putParam"); if (args[idx]->rewrite) { Logger::println("Rewrite: putParam"); LOG_SCOPE return args[idx]->rewrite->put(dty, val); } return val->getRVal(); } llvm::Value* IrFuncTy::getParam(Type* dty, int idx, DValue* val) { assert(idx >= 0 && idx < args.size() && "invalid getParam"); if (args[idx]->rewrite) { Logger::println("Rewrite: getParam (get)"); LOG_SCOPE return args[idx]->rewrite->get(dty, val); } return val->getRVal(); } void IrFuncTy::getParam(Type* dty, int idx, DValue* val, llvm::Value* lval) { assert(idx >= 0 && idx < args.size() && "invalid getParam"); if (args[idx]->rewrite) { Logger::println("Rewrite: getParam (getL)"); LOG_SCOPE args[idx]->rewrite->getL(dty, val, lval); return; } DtoStore(val->getRVal(), lval); } ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// IrFunction::IrFunction(FuncDeclaration* fd) { decl = fd; Type* t = fd->type->toBasetype(); assert(t->ty == Tfunction); type = (TypeFunction*)t; func = NULL; allocapoint = NULL; queued = false; defined = false; retArg = NULL; thisArg = NULL; nestArg = NULL; nestedVar = NULL; frameType = NULL; depth = -1; _arguments = NULL; _argptr = NULL; nextUnique.push(0); } std::string IrFunction::getScopedLabelName(const char* ident) { if(labelScopes.empty()) return std::string(ident); std::string result = "__"; for(unsigned int i = 0; i < labelScopes.size(); ++i) result += labelScopes[i] + "_"; return result + ident; } void IrFunction::pushUniqueLabelScope(const char* name) { std::ostringstream uniquename; uniquename << name << nextUnique.top()++; nextUnique.push(0); labelScopes.push_back(uniquename.str()); } void IrFunction::popLabelScope() { labelScopes.pop_back(); nextUnique.pop(); } void IrFunction::setNeverInline() { assert(!func->hasFnAttr(llvm::Attribute::AlwaysInline) && "function can't be never- and always-inline at the same time"); func->addFnAttr(llvm::Attribute::NoInline); } void IrFunction::setAlwaysInline() { assert(!func->hasFnAttr(llvm::Attribute::NoInline) && "function can't be never- and always-inline at the same time"); func->addFnAttr(llvm::Attribute::AlwaysInline); }