Mercurial > projects > ldc
view ir/irlandingpad.cpp @ 373:d1574e142e93 trunk
[svn r394] Fixed the new DtoNullValue function
| author | lindquist |
|---|---|
| date | Tue, 15 Jul 2008 15:16:56 +0200 |
| parents | d8357f7004ca |
| children | 672eb4893b55 |
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#include "gen/llvm.h" #include "gen/tollvm.h" #include "gen/irstate.h" #include "gen/runtime.h" #include "gen/logger.h" #include "gen/classes.h" #include "gen/llvmhelpers.h" #include "ir/irlandingpad.h" IRLandingPadInfo::IRLandingPadInfo(Catch* catchstmt, llvm::BasicBlock* end) : finallyBody(NULL) { target = llvm::BasicBlock::Create("catch", gIR->topfunc(), end); gIR->scope() = IRScope(target,end); // assign storage to catch var if(catchstmt->var) { assert(!catchstmt->var->ir.irLocal); catchstmt->var->ir.irLocal = new IrLocal(catchstmt->var); LLValue* catch_var = gIR->func()->landingPad.getExceptionStorage(); catchstmt->var->ir.irLocal->value = gIR->ir->CreateBitCast(catch_var, getPtrToType(DtoType(catchstmt->var->type))); } // emit handler, if there is one // handler is zero for instance for 'catch { debug foo(); }' if(catchstmt->handler) catchstmt->handler->toIR(gIR); if (!gIR->scopereturned()) gIR->ir->CreateBr(end); assert(catchstmt->type); //TODO: Is toBasetype correct here? Should catch handlers with typedefed // classes behave differently? catchType = catchstmt->type->toBasetype()->isClassHandle(); assert(catchType); DtoForceDeclareDsymbol(catchType); } IRLandingPadInfo::IRLandingPadInfo(Statement* finallystmt) : target(NULL), finallyBody(finallystmt), catchType(NULL) { } void IRLandingPad::addCatch(Catch* catchstmt, llvm::BasicBlock* end) { unpushed_infos.push_front(IRLandingPadInfo(catchstmt, end)); } void IRLandingPad::addFinally(Statement* finallystmt) { unpushed_infos.push_front(IRLandingPadInfo(finallystmt)); } void IRLandingPad::push(llvm::BasicBlock* inBB) { // store infos such that matches are right to left nInfos.push(infos.size()); infos.insert(infos.end(), unpushed_infos.begin(), unpushed_infos.end()); unpushed_infos.clear(); constructLandingPad(inBB); // store as invoke target padBBs.push(inBB); } void IRLandingPad::pop() { padBBs.pop(); size_t n = nInfos.top(); infos.resize(n); nInfos.pop(); } llvm::BasicBlock* IRLandingPad::get() { if(padBBs.size() == 0) return NULL; else return padBBs.top(); } void IRLandingPad::constructLandingPad(llvm::BasicBlock* inBB) { // save and rewrite scope IRScope savedscope = gIR->scope(); gIR->scope() = IRScope(inBB,savedscope.end); // eh_ptr = llvm.eh.exception(); llvm::Function* eh_exception_fn = GET_INTRINSIC_DECL(eh_exception); LLValue* eh_ptr = gIR->ir->CreateCall(eh_exception_fn); // build selector arguments LLSmallVector<LLValue*, 6> selectorargs; selectorargs.push_back(eh_ptr); llvm::Function* personality_fn = LLVM_D_GetRuntimeFunction(gIR->module, "_d_eh_personality"); LLValue* personality_fn_arg = gIR->ir->CreateBitCast(personality_fn, getPtrToType(LLType::Int8Ty)); selectorargs.push_back(personality_fn_arg); bool hasFinally = false; // associate increasing ints with each unique classdecl encountered std::map<ClassDeclaration*, int> catchToInt; std::deque<IRLandingPadInfo>::reverse_iterator it = infos.rbegin(), end = infos.rend(); for(size_t i = infos.size() - 1; it != end; ++it, --i) { if(it->finallyBody) hasFinally = true; else { if(catchToInt.find(it->catchType) == catchToInt.end()) { int newval = catchToInt.size(); catchToInt[it->catchType] = newval; } assert(it->catchType); assert(it->catchType->ir.irStruct); selectorargs.push_back(it->catchType->ir.irStruct->classInfo); } } // if there's a finally, the eh table has to have a 0 action if(hasFinally) selectorargs.push_back(llvm::ConstantInt::get(LLType::Int32Ty, 0)); // if there is a catch and some catch allocated storage, store exception object if(catchToInt.size() && catch_var) { const LLType* objectTy = DtoType(ClassDeclaration::object->type); gIR->ir->CreateStore(gIR->ir->CreateBitCast(eh_ptr, objectTy), catch_var); } // eh_sel = llvm.eh.selector(eh_ptr, cast(byte*)&_d_eh_personality, <selectorargs>); llvm::Function* eh_selector_fn; if (global.params.is64bit) eh_selector_fn = GET_INTRINSIC_DECL(eh_selector_i64); else eh_selector_fn = GET_INTRINSIC_DECL(eh_selector_i32); LLValue* eh_sel = gIR->ir->CreateCall(eh_selector_fn, selectorargs.begin(), selectorargs.end()); // emit finallys and switches that branch to catches until there are no more catches // then simply branch to the finally chain llvm::SwitchInst* switchinst = NULL; for(it = infos.rbegin(); it != end; ++it) { // if it's a finally, emit its code if(it->finallyBody) { if(switchinst) switchinst = NULL; // since this may be emitted multiple times // give the labels a new scope gIR->func()->pushUniqueLabelScope("finally"); it->finallyBody->toIR(gIR); gIR->func()->popLabelScope(); } // otherwise it's a catch and we'll add a switch case else { if(!switchinst) { switchinst = gIR->ir->CreateSwitch(eh_sel, llvm::BasicBlock::Create("switchdefault", gIR->topfunc(), gIR->scopeend()), infos.size()); gIR->scope() = IRScope(switchinst->getDefaultDest(), gIR->scopeend()); } // catches matched first get the largest switchval, so do size - unique int llvm::ConstantInt* switchval = llvm::ConstantInt::get(DtoSize_t(), catchToInt.size() - catchToInt[it->catchType]); // and make sure we don't add the same switchval twice, may happen with nested trys if(!switchinst->findCaseValue(switchval)) switchinst->addCase(switchval, it->target); } } // no catch matched and all finallys executed - resume unwind llvm::Function* unwind_resume_fn = LLVM_D_GetRuntimeFunction(gIR->module, "_d_eh_resume_unwind"); gIR->ir->CreateCall(unwind_resume_fn, eh_ptr); gIR->ir->CreateUnreachable(); gIR->scope() = savedscope; } LLValue* IRLandingPad::getExceptionStorage() { if(!catch_var) { Logger::println("Making new catch var"); const LLType* objectTy = DtoType(ClassDeclaration::object->type); catch_var = new llvm::AllocaInst(objectTy,"catchvar",gIR->topallocapoint()); } return catch_var; }