Mercurial > projects > ldc
view gen/irstate.cpp @ 108:288fe1029e1f trunk
[svn r112] Fixed 'case 1,2,3:' style case statements.
Fixed a bunch of bugs with return/break/continue in loops.
Fixed support for the DMDFE hidden implicit return value variable. This can be needed for some foreach statements where the loop body is converted to a nested delegate, but also possibly returns from the function.
Added std.math to phobos.
Added AA runtime support code, done ground work for implementing AAs.
Several other bugfixes.
| author | lindquist |
|---|---|
| date | Tue, 20 Nov 2007 05:29:20 +0100 |
| parents | 855adfdb8d38 |
| children | 27b9f749d9fe |
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/* DMDFE backend stubs * This file contains the implementations of the backend routines. * For dmdfe these do nothing but print a message saying the module * has been parsed. Substitute your own behaviors for these routimes. */ #include <cstdarg> #include "gen/llvm.h" #include "mtype.h" #include "declaration.h" #include "gen/irstate.h" #include "tollvm.h" IRState* gIR = 0; const llvm::TargetData* gTargetData = 0; ////////////////////////////////////////////////////////////////////////////////////////// IRScope::IRScope() { begin = end = NULL; } IRScope::IRScope(llvm::BasicBlock* b, llvm::BasicBlock* e) { begin = b; end = e; builder.SetInsertPoint(b); } ////////////////////////////////////////////////////////////////////////////////////////// IRState::IRState() { dmodule = 0; module = 0; emitMain = false; mainFunc = 0; ir.state = this; } IRFunction* IRState::func() { assert(!functions.empty() && "Function stack is empty!"); return functions.back(); } llvm::Function* IRState::topfunc() { assert(!functions.empty() && "Function stack is empty!"); return functions.back()->func; } TypeFunction* IRState::topfunctype() { assert(!functions.empty() && "Function stack is empty!"); return functions.back()->type; } llvm::Instruction* IRState::topallocapoint() { assert(!functions.empty() && "AllocaPoint stack is empty!"); return functions.back()->allocapoint; } IRStruct* IRState::topstruct() { assert(!structs.empty() && "Struct vector is empty!"); return structs.back(); } IRExp* IRState::topexp() { return exps.empty() ? NULL : &exps.back(); } IRScope& IRState::scope() { assert(!scopes.empty()); return scopes.back(); } llvm::BasicBlock* IRState::scopebb() { IRScope& s = scope(); assert(s.begin); return s.begin; } llvm::BasicBlock* IRState::scopeend() { IRScope& s = scope(); assert(s.end); return s.end; } bool IRState::scopereturned() { //return scope().returned; return !scopebb()->empty() && scopebb()->back().isTerminator(); } ////////////////////////////////////////////////////////////////////////////////////////// IRStruct::IRStruct(Type* t) : recty((t->llvmType != NULL) ? *t->llvmType : llvm::OpaqueType::get()) { type = t; defined = false; constinited = false; } ////////////////////////////////////////////////////////////////////////////////////////// IRFinally::IRFinally() { bb = 0; retbb = 0; } IRFinally::IRFinally(llvm::BasicBlock* b, llvm::BasicBlock* rb) { bb = b; retbb = rb; } ////////////////////////////////////////////////////////////////////////////////////////// LLVMBuilder* IRBuilderHelper::operator->() { LLVMBuilder& b = state->scope().builder; assert(b.GetInsertBlock() != NULL); return &b; } ////////////////////////////////////////////////////////////////////////////////////////// IRFunction::IRFunction(FuncDeclaration* fd) { decl = fd; Type* t = DtoDType(fd->type); assert(t->ty == Tfunction); type = (TypeFunction*)t; func = NULL; allocapoint = NULL; finallyretval = NULL; defined = false; } ////////////////////////////////////////////////////////////////////////////////////////// IRExp::IRExp() { e1 = e2 = NULL; v = NULL; } IRExp::IRExp(Expression* l, Expression* r, DValue* val) { e1 = l; e2 = r; v = val; } ////////////////////////////////////////////////////////////////////////////////////////// IRGlobal::IRGlobal(VarDeclaration* v) : type(llvm::OpaqueType::get()) { var = v; }