Mercurial > projects > ldc
view gen/statements.cpp @ 100:5071469303d4 trunk
[svn r104] TONS OF FIXES.
Split up declaration, constant initializer gen and definition for globals, structs, classes and functions.
Improved ClassInfo support (not complete), not in vtable yet.
Fixed a bunch of forward reference problems.
Much more. Major commit! :)
| author | lindquist |
|---|---|
| date | Fri, 16 Nov 2007 08:21:47 +0100 |
| parents | 6789050b5ad1 |
| children | 288fe1029e1f |
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// Statements: D -> LLVM glue #include <stdio.h> #include <math.h> #include <sstream> #include <fstream> #include <iostream> #include "gen/llvm.h" #include "total.h" #include "init.h" #include "mtype.h" #include "hdrgen.h" #include "port.h" #include "gen/irstate.h" #include "gen/logger.h" #include "gen/tollvm.h" #include "gen/runtime.h" #include "gen/arrays.h" #include "gen/todebug.h" #include "gen/dvalue.h" ////////////////////////////////////////////////////////////////////////////// void CompoundStatement::toIR(IRState* p) { Logger::println("CompoundStatement::toIR()"); LOG_SCOPE; for (int i=0; i<statements->dim; i++) { Statement* s = (Statement*)statements->data[i]; if (s) s->toIR(p); else { Logger::println("??? null statement found in CompoundStatement"); } } } ////////////////////////////////////////////////////////////////////////////// void ReturnStatement::toIR(IRState* p) { static int rsi = 0; Logger::println("ReturnStatement::toIR(%d): %s", rsi++, toChars()); LOG_SCOPE; if (exp) { Logger::println("return type is: %s", exp->type->toChars()); Type* exptype = DtoDType(exp->type); TY expty = exptype->ty; if (p->topfunc()->getReturnType() == llvm::Type::VoidTy) { assert(DtoIsPassedByRef(exptype)); TypeFunction* f = p->topfunctype(); assert(f->llvmRetInPtr && f->llvmRetArg); if (global.params.symdebug) DtoDwarfStopPoint(loc.linnum); DValue* rvar = new DVarValue(f->next, f->llvmRetArg, true); p->exps.push_back(IRExp(NULL,exp,rvar)); DValue* e = exp->toElem(p); p->exps.pop_back(); if (!e->inPlace()) DtoAssign(rvar, e); IRFunction::FinallyVec& fin = p->func()->finallys; if (fin.empty()) { if (global.params.symdebug) DtoDwarfFuncEnd(p->func()->decl); new llvm::ReturnInst(p->scopebb()); } else { new llvm::BranchInst(fin.back().retbb, p->scopebb()); } } else { if (global.params.symdebug) DtoDwarfStopPoint(loc.linnum); DValue* e = exp->toElem(p); llvm::Value* v = e->getRVal(); delete e; Logger::cout() << "return value is '" <<*v << "'\n"; IRFunction::FinallyVec& fin = p->func()->finallys; if (fin.empty()) { if (global.params.symdebug) DtoDwarfFuncEnd(p->func()->decl); new llvm::ReturnInst(v, p->scopebb()); } else { if (!p->func()->finallyretval) p->func()->finallyretval = new llvm::AllocaInst(v->getType(),"tmpreturn",p->topallocapoint()); llvm::Value* rettmp = p->func()->finallyretval; new llvm::StoreInst(v,rettmp,p->scopebb()); new llvm::BranchInst(fin.back().retbb, p->scopebb()); } } } else { if (p->topfunc()->getReturnType() == llvm::Type::VoidTy) { IRFunction::FinallyVec& fin = p->func()->finallys; if (fin.empty()) { if (global.params.symdebug) DtoDwarfFuncEnd(p->func()->decl); new llvm::ReturnInst(p->scopebb()); } else { new llvm::BranchInst(fin.back().retbb, p->scopebb()); } } else { assert(0); // why should this ever happen? new llvm::UnreachableInst(p->scopebb()); } } } ////////////////////////////////////////////////////////////////////////////// void ExpStatement::toIR(IRState* p) { static int esi = 0; Logger::println("ExpStatement::toIR(%d): %s", esi++, toChars()); LOG_SCOPE; // if (global.params.symdebug) // DtoDwarfStopPoint(loc.linnum); if (exp != 0) { elem* e = exp->toElem(p); delete e; } /*elem* e = exp->toElem(p); p->buf.printf("%s", e->toChars()); delete e; p->buf.writenl();*/ } ////////////////////////////////////////////////////////////////////////////// void IfStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("IfStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; DValue* cond_e = condition->toElem(p); llvm::Value* cond_val = cond_e->getRVal(); delete cond_e; llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* ifbb = new llvm::BasicBlock("if", gIR->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("endif", gIR->topfunc(), oldend); llvm::BasicBlock* elsebb = elsebody ? new llvm::BasicBlock("else", gIR->topfunc(), endbb) : endbb; if (cond_val->getType() != llvm::Type::Int1Ty) { Logger::cout() << "if conditional: " << *cond_val << '\n'; cond_val = DtoBoolean(cond_val); } llvm::Value* ifgoback = new llvm::BranchInst(ifbb, elsebb, cond_val, gIR->scopebegin()); // replace current scope gIR->scope() = IRScope(ifbb,elsebb); // do scoped statements ifbody->toIR(p); if (!gIR->scopereturned()) { new llvm::BranchInst(endbb,gIR->scopebegin()); } if (elsebody) { //assert(0); gIR->scope() = IRScope(elsebb,endbb); elsebody->toIR(p); if (!gIR->scopereturned()) { new llvm::BranchInst(endbb,gIR->scopebegin()); } } // rewrite the scope gIR->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void ScopeStatement::toIR(IRState* p) { Logger::println("ScopeStatement::toIR(): %s", toChars()); LOG_SCOPE; llvm::BasicBlock* oldend = p->scopeend(); llvm::BasicBlock* beginbb = 0; // remove useless branches by clearing and reusing the current basicblock llvm::BasicBlock* bb = p->scopebegin(); if (bb->empty()) { beginbb = bb; } else { assert(!p->scopereturned()); beginbb = new llvm::BasicBlock("scope", p->topfunc(), oldend); new llvm::BranchInst(beginbb, p->scopebegin()); } llvm::BasicBlock* endbb = new llvm::BasicBlock("endscope", p->topfunc(), oldend); gIR->scope() = IRScope(beginbb, endbb); statement->toIR(p); p->scope() = IRScope(p->scopebb(),oldend); endbb->eraseFromParent(); } ////////////////////////////////////////////////////////////////////////////// void WhileStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("WhileStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; // create while blocks llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* whilebb = new llvm::BasicBlock("whilecond", gIR->topfunc(), oldend); llvm::BasicBlock* whilebodybb = new llvm::BasicBlock("whilebody", gIR->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("endwhile", gIR->topfunc(), oldend); // move into the while block p->ir->CreateBr(whilebb); //new llvm::BranchInst(whilebb, gIR->scopebegin()); // replace current scope gIR->scope() = IRScope(whilebb,endbb); // create the condition DValue* cond_e = condition->toElem(p); llvm::Value* cond_val = DtoBoolean(cond_e->getRVal()); delete cond_e; // conditional branch llvm::Value* ifbreak = new llvm::BranchInst(whilebodybb, endbb, cond_val, p->scopebb()); // rewrite scope gIR->scope() = IRScope(whilebodybb,endbb); // while body code p->loopbbs.push_back(IRScope(whilebb,endbb)); body->toIR(p); p->loopbbs.pop_back(); // loop new llvm::BranchInst(whilebb, gIR->scopebegin()); // rewrite the scope gIR->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void DoStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("DoStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; // create while blocks llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* dowhilebb = new llvm::BasicBlock("dowhile", gIR->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("enddowhile", gIR->topfunc(), oldend); // move into the while block new llvm::BranchInst(dowhilebb, gIR->scopebegin()); // replace current scope gIR->scope() = IRScope(dowhilebb,endbb); // do-while body code body->toIR(p); // create the condition DValue* cond_e = condition->toElem(p); llvm::Value* cond_val = DtoBoolean(cond_e->getRVal()); delete cond_e; // conditional branch llvm::Value* ifbreak = new llvm::BranchInst(dowhilebb, endbb, cond_val, gIR->scopebegin()); // rewrite the scope gIR->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void ForStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("ForStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; // create for blocks llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* forbb = new llvm::BasicBlock("forcond", gIR->topfunc(), oldend); llvm::BasicBlock* forbodybb = new llvm::BasicBlock("forbody", gIR->topfunc(), oldend); llvm::BasicBlock* forincbb = new llvm::BasicBlock("forinc", gIR->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("endfor", gIR->topfunc(), oldend); // init if (init != 0) init->toIR(p); // move into the for condition block, ie. start the loop new llvm::BranchInst(forbb, gIR->scopebegin()); p->loopbbs.push_back(IRScope(forincbb,endbb)); // replace current scope gIR->scope() = IRScope(forbb,forbodybb); // create the condition DValue* cond_e = condition->toElem(p); llvm::Value* cond_val = DtoBoolean(cond_e->getRVal()); delete cond_e; // conditional branch llvm::Value* ifbreak = new llvm::BranchInst(forbodybb, endbb, cond_val, forbb); // rewrite scope gIR->scope() = IRScope(forbodybb,forincbb); // do for body code body->toIR(p); // move into the for increment block new llvm::BranchInst(forincbb, gIR->scopebegin()); gIR->scope() = IRScope(forincbb, endbb); // increment if (increment) { DValue* inc = increment->toElem(p); delete inc; } // loop new llvm::BranchInst(forbb, gIR->scopebegin()); p->loopbbs.pop_back(); // rewrite the scope gIR->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void BreakStatement::toIR(IRState* p) { Logger::println("BreakStatement::toIR(): %s", toChars()); LOG_SCOPE; if (ident != 0) { Logger::println("ident = %s", ident->toChars()); assert(0); } else { new llvm::BranchInst(gIR->loopbbs.back().end, gIR->scopebegin()); } } ////////////////////////////////////////////////////////////////////////////// void ContinueStatement::toIR(IRState* p) { Logger::println("ContinueStatement::toIR(): %s", toChars()); LOG_SCOPE; if (ident != 0) { Logger::println("ident = %s", ident->toChars()); assert(0); } else { new llvm::BranchInst(gIR->loopbbs.back().begin, gIR->scopebegin()); } } ////////////////////////////////////////////////////////////////////////////// void OnScopeStatement::toIR(IRState* p) { Logger::println("OnScopeStatement::toIR(): %s", toChars()); LOG_SCOPE; assert(statement); //statement->toIR(p); // this seems to be redundant } ////////////////////////////////////////////////////////////////////////////// void TryFinallyStatement::toIR(IRState* p) { Logger::println("TryFinallyStatement::toIR(): %s", toChars()); LOG_SCOPE; // create basic blocks llvm::BasicBlock* oldend = p->scopeend(); llvm::BasicBlock* trybb = new llvm::BasicBlock("try", p->topfunc(), oldend); llvm::BasicBlock* finallybb = new llvm::BasicBlock("finally", p->topfunc(), oldend); llvm::BasicBlock* finallyretbb = new llvm::BasicBlock("finallyreturn", p->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("endtryfinally", p->topfunc(), oldend); // pass the previous BB into this assert(!gIR->scopereturned()); new llvm::BranchInst(trybb, p->scopebb()); // do the try block p->scope() = IRScope(trybb,finallybb); gIR->func()->finallys.push_back(IRFinally(finallybb,finallyretbb)); IRFinally& fin = p->func()->finallys.back(); assert(body); body->toIR(p); // terminate try BB if (!p->scopereturned()) new llvm::BranchInst(finallybb, p->scopebb()); // do finally block p->scope() = IRScope(finallybb,finallyretbb); assert(finalbody); finalbody->toIR(p); // terminate finally if (!gIR->scopereturned()) { new llvm::BranchInst(endbb, p->scopebb()); } // do finally block (return path) p->scope() = IRScope(finallyretbb,endbb); assert(finalbody); finalbody->toIR(p); // hope this will work, otherwise it's time it gets fixed // terminate finally (return path) size_t nfin = p->func()->finallys.size(); if (nfin > 1) { IRFinally& ofin = p->func()->finallys[nfin-2]; p->ir->CreateBr(ofin.retbb); } // no outer else { if (global.params.symdebug) DtoDwarfFuncEnd(p->func()->decl); llvm::Value* retval = p->func()->finallyretval; if (retval) { retval = p->ir->CreateLoad(retval,"tmp"); p->ir->CreateRet(retval); } else { FuncDeclaration* fd = p->func()->decl; if (fd->isMain()) { assert(fd->type->next->ty == Tvoid); p->ir->CreateRet(DtoConstInt(0)); } else { p->ir->CreateRetVoid(); } } } // rewrite the scope p->func()->finallys.pop_back(); p->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void TryCatchStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("TryCatchStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; Logger::attention("try-catch is not yet fully implemented, only the try block will be emitted."); assert(body); body->toIR(p); /*assert(catches); for(size_t i=0; i<catches->dim; ++i) { Catch* c = (Catch*)catches->data[i]; c->handler->toIR(p); }*/ } ////////////////////////////////////////////////////////////////////////////// void ThrowStatement::toIR(IRState* p) { static int wsi = 0; Logger::println("ThrowStatement::toIR(%d): %s", wsi++, toChars()); LOG_SCOPE; Logger::attention("throw is not yet implemented, replacing expression with assert(0);"); DtoAssert(NULL, &loc, NULL); /* assert(exp); DValue* e = exp->toElem(p); delete e; */ } ////////////////////////////////////////////////////////////////////////////// void SwitchStatement::toIR(IRState* p) { Logger::println("SwitchStatement::toIR(): %s", toChars()); LOG_SCOPE; llvm::BasicBlock* oldend = gIR->scopeend(); // collect the needed cases typedef std::pair<llvm::BasicBlock*, llvm::ConstantInt*> CasePair; std::vector<CasePair> vcases; for (int i=0; i<cases->dim; ++i) { CaseStatement* cs = (CaseStatement*)cases->data[i]; // get the case value DValue* e = cs->exp->toElem(p); DConstValue* ce = e->isConst(); assert(ce); llvm::ConstantInt* ec = isaConstantInt(ce->c); assert(ec); delete e; // create the case bb with a nice label std::string lblname("case"+std::string(cs->exp->toChars())); llvm::BasicBlock* bb = new llvm::BasicBlock(lblname, p->topfunc(), oldend); vcases.push_back(CasePair(bb,ec)); } // default llvm::BasicBlock* defbb = 0; if (!hasNoDefault) { defbb = new llvm::BasicBlock("default", p->topfunc(), oldend); } // end (break point) llvm::BasicBlock* endbb = new llvm::BasicBlock("switchend", p->topfunc(), oldend); // condition var DValue* cond = condition->toElem(p); llvm::SwitchInst* si = new llvm::SwitchInst(cond->getRVal(), defbb ? defbb : endbb, cases->dim, p->scopebb()); delete cond; // add the cases size_t n = vcases.size(); for (size_t i=0; i<n; ++i) { si->addCase(vcases[i].second, vcases[i].first); } // insert case statements for (size_t i=0; i<n; ++i) { llvm::BasicBlock* nextbb = (i == n-1) ? (defbb ? defbb : endbb) : vcases[i+1].first; p->scope() = IRScope(vcases[i].first,nextbb); p->loopbbs.push_back(IRScope(p->scopebb(),endbb)); static_cast<CaseStatement*>(cases->data[i])->statement->toIR(p); p->loopbbs.pop_back(); llvm::BasicBlock* curbb = p->scopebb(); if (curbb->empty() || !curbb->back().isTerminator()) { new llvm::BranchInst(nextbb, curbb); } } // default statement if (defbb) { p->scope() = IRScope(defbb,endbb); p->loopbbs.push_back(IRScope(defbb,endbb)); Logger::println("doing default statement"); sdefault->statement->toIR(p); p->loopbbs.pop_back(); llvm::BasicBlock* curbb = p->scopebb(); if (curbb->empty() || !curbb->back().isTerminator()) { new llvm::BranchInst(endbb, curbb); } } gIR->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void UnrolledLoopStatement::toIR(IRState* p) { Logger::println("UnrolledLoopStatement::toIR(): %s", toChars()); LOG_SCOPE; llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* endbb = new llvm::BasicBlock("unrolledend", p->topfunc(), oldend); p->scope() = IRScope(p->scopebb(),endbb); p->loopbbs.push_back(IRScope(p->scopebb(),endbb)); for (int i=0; i<statements->dim; ++i) { Statement* s = (Statement*)statements->data[i]; s->toIR(p); } p->loopbbs.pop_back(); new llvm::BranchInst(endbb, p->scopebb()); p->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void ForeachStatement::toIR(IRState* p) { Logger::println("ForeachStatement::toIR(): %s", toChars()); LOG_SCOPE; //assert(arguments->dim == 1); assert(value != 0); assert(body != 0); assert(aggr != 0); assert(func != 0); //Argument* arg = (Argument*)arguments->data[0]; //Logger::println("Argument is %s", arg->toChars()); Logger::println("aggr = %s", aggr->toChars()); // key const llvm::Type* keytype = key ? DtoType(key->type) : DtoSize_t(); llvm::Value* keyvar = new llvm::AllocaInst(keytype, "foreachkey", p->topallocapoint()); if (key) key->llvmValue = keyvar; llvm::Value* zerokey = llvm::ConstantInt::get(keytype,0,false); // value const llvm::Type* valtype = DtoType(value->type); llvm::Value* valvar = NULL; if (!value->isRef() && !value->isOut()) valvar = new llvm::AllocaInst(valtype, "foreachval", p->topallocapoint()); // what to iterate DValue* aggrval = aggr->toElem(p); Type* aggrtype = DtoDType(aggr->type); // get length and pointer llvm::Value* val = 0; llvm::Value* niters = 0; // static array if (aggrtype->ty == Tsarray) { Logger::println("foreach over static array"); val = aggrval->getRVal(); assert(isaPointer(val->getType())); const llvm::ArrayType* arrty = isaArray(val->getType()->getContainedType(0)); assert(arrty); size_t nelems = arrty->getNumElements(); assert(nelems > 0); niters = llvm::ConstantInt::get(keytype,nelems,false); } // dynamic array else if (aggrtype->ty == Tarray) { if (DSliceValue* slice = aggrval->isSlice()) { Logger::println("foreach over slice"); niters = slice->len; assert(niters); val = slice->ptr; assert(val); } else { Logger::println("foreach over dynamic array"); val = aggrval->getRVal(); niters = DtoGEPi(val,0,0,"tmp",p->scopebb()); niters = p->ir->CreateLoad(niters, "numiterations"); val = DtoGEPi(val,0,1,"tmp",p->scopebb()); val = p->ir->CreateLoad(val, "collection"); } } else { assert(0 && "aggregate type is not Tarray or Tsarray"); } llvm::Constant* delta = 0; if (op == TOKforeach) { new llvm::StoreInst(zerokey, keyvar, p->scopebb()); } else { new llvm::StoreInst(niters, keyvar, p->scopebb()); } llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* condbb = new llvm::BasicBlock("foreachcond", p->topfunc(), oldend); llvm::BasicBlock* bodybb = new llvm::BasicBlock("foreachbody", p->topfunc(), oldend); llvm::BasicBlock* nextbb = new llvm::BasicBlock("foreachnext", p->topfunc(), oldend); llvm::BasicBlock* endbb = new llvm::BasicBlock("foreachend", p->topfunc(), oldend); new llvm::BranchInst(condbb, p->scopebb()); // condition p->scope() = IRScope(condbb,bodybb); llvm::Value* done = 0; llvm::Value* load = new llvm::LoadInst(keyvar, "tmp", p->scopebb()); if (op == TOKforeach) { done = new llvm::ICmpInst(llvm::ICmpInst::ICMP_ULT, load, niters, "tmp", p->scopebb()); } else if (op == TOKforeach_reverse) { done = new llvm::ICmpInst(llvm::ICmpInst::ICMP_UGT, load, zerokey, "tmp", p->scopebb()); load = llvm::BinaryOperator::createSub(load,llvm::ConstantInt::get(keytype, 1, false),"tmp",p->scopebb()); new llvm::StoreInst(load, keyvar, p->scopebb()); } new llvm::BranchInst(bodybb, endbb, done, p->scopebb()); // body p->scope() = IRScope(bodybb,nextbb); // get value for this iteration llvm::Constant* zero = llvm::ConstantInt::get(keytype,0,false); llvm::Value* loadedKey = p->ir->CreateLoad(keyvar,"tmp"); if (aggrtype->ty == Tsarray) value->llvmValue = DtoGEP(val,zero,loadedKey,"tmp"); else if (aggrtype->ty == Tarray) value->llvmValue = new llvm::GetElementPtrInst(val,loadedKey,"tmp",p->scopebb()); if (!value->isRef() && !value->isOut()) { DValue* dst = new DVarValue(value->type, valvar, true); DValue* src = new DVarValue(value->type, value->llvmValue, true); DtoAssign(dst, src); delete dst; delete src; value->llvmValue = valvar; } // body p->loopbbs.push_back(IRScope(nextbb,endbb)); body->toIR(p); p->loopbbs.pop_back(); if (!p->scopereturned()) new llvm::BranchInst(nextbb, p->scopebb()); // next p->scope() = IRScope(nextbb,endbb); if (op == TOKforeach) { llvm::Value* load = DtoLoad(keyvar); load = p->ir->CreateAdd(load, llvm::ConstantInt::get(keytype, 1, false), "tmp"); DtoStore(load, keyvar); } new llvm::BranchInst(condbb, p->scopebb()); // end p->scope() = IRScope(endbb,oldend); } ////////////////////////////////////////////////////////////////////////////// void LabelStatement::toIR(IRState* p) { Logger::println("LabelStatement::toIR(): %s", toChars()); LOG_SCOPE; assert(tf == NULL); assert(!isReturnLabel); llvm::BasicBlock* oldend = gIR->scopeend(); if (llvmBB) llvmBB->moveBefore(oldend); else llvmBB = new llvm::BasicBlock("label", p->topfunc(), oldend); if (!p->scopereturned()) new llvm::BranchInst(llvmBB, p->scopebb()); p->scope() = IRScope(llvmBB,oldend); if (statement) statement->toIR(p); } ////////////////////////////////////////////////////////////////////////////// void GotoStatement::toIR(IRState* p) { Logger::println("GotoStatement::toIR(): %s", toChars()); LOG_SCOPE; assert(tf == NULL); llvm::BasicBlock* oldend = gIR->scopeend(); llvm::BasicBlock* bb = new llvm::BasicBlock("aftergoto", p->topfunc(), oldend); if (label->statement->llvmBB == NULL) label->statement->llvmBB = new llvm::BasicBlock("label", p->topfunc()); assert(!p->scopereturned()); new llvm::BranchInst(label->statement->llvmBB, p->scopebb()); p->scope() = IRScope(bb,oldend); } ////////////////////////////////////////////////////////////////////////////// void WithStatement::toIR(IRState* p) { Logger::println("WithStatement::toIR(): %s", toChars()); LOG_SCOPE; assert(exp); assert(body); DValue* e = exp->toElem(p); wthis->llvmValue = e->getRVal(); delete e; body->toIR(p); } ////////////////////////////////////////////////////////////////////////////// void SynchronizedStatement::toIR(IRState* p) { Logger::println("SynchronizedStatement::toIR(): %s", toChars()); LOG_SCOPE; Logger::attention("synchronized is currently ignored. only the body will be emitted"); body->toIR(p); } ////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////// #define STUBST(x) void x::toIR(IRState * p) {error("Statement type "#x" not implemented: %s", toChars());fatal();} //STUBST(BreakStatement); //STUBST(ForStatement); //STUBST(WithStatement); //STUBST(SynchronizedStatement); //STUBST(ReturnStatement); //STUBST(ContinueStatement); STUBST(DefaultStatement); STUBST(CaseStatement); //STUBST(SwitchStatement); STUBST(SwitchErrorStatement); STUBST(Statement); //STUBST(IfStatement); //STUBST(ForeachStatement); //STUBST(DoStatement); //STUBST(WhileStatement); //STUBST(ExpStatement); //STUBST(CompoundStatement); //STUBST(ScopeStatement); STUBST(AsmStatement); //STUBST(TryCatchStatement); //STUBST(TryFinallyStatement); STUBST(VolatileStatement); //STUBST(LabelStatement); //STUBST(ThrowStatement); STUBST(GotoCaseStatement); STUBST(GotoDefaultStatement); //STUBST(GotoStatement); //STUBST(UnrolledLoopStatement); //STUBST(OnScopeStatement);