Mercurial > projects > ldc
view gen/complex.cpp @ 164:a64becf2a702 trunk
[svn r180] Fixed complex negation, and tango.math.Math now compiles.
| author | lindquist |
|---|---|
| date | Mon, 05 May 2008 20:28:59 +0200 |
| parents | 44a95ac7368a |
| children | 9d44ec83acd1 |
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#include "gen/llvm.h" #include "mtype.h" #include "declaration.h" #include "gen/complex.h" #include "gen/tollvm.h" #include "gen/irstate.h" #include "gen/dvalue.h" ////////////////////////////////////////////////////////////////////////////////////////// const llvm::StructType* DtoComplexType(Type* type) { Type* t = DtoDType(type); const llvm::Type* base = DtoComplexBaseType(t); std::vector<const llvm::Type*> types; types.push_back(base); types.push_back(base); return llvm::StructType::get(types); } const llvm::Type* DtoComplexBaseType(Type* t) { TY ty = DtoDType(t)->ty; const llvm::Type* base; if (ty == Tcomplex32) { return llvm::Type::FloatTy; } else if (ty == Tcomplex64 || ty == Tcomplex80) { return llvm::Type::DoubleTy; } else { assert(0); } } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Constant* DtoConstComplex(Type* ty, llvm::Constant* re, llvm::Constant* im) { assert(0); const llvm::Type* base = DtoComplexBaseType(ty); std::vector<llvm::Constant*> inits; inits.push_back(re); inits.push_back(im); const llvm::VectorType* vt = llvm::VectorType::get(base, 2); return llvm::ConstantVector::get(vt, inits); } llvm::Constant* DtoConstComplex(Type* _ty, long double re, long double im) { TY ty = DtoDType(_ty)->ty; llvm::ConstantFP* fre; llvm::ConstantFP* fim; const llvm::Type* base; if (ty == Tcomplex32) { fre = DtoConstFP(Type::tfloat32, re); fim = DtoConstFP(Type::tfloat32, im); base = llvm::Type::FloatTy; } else if (ty == Tcomplex64 || ty == Tcomplex80) { fre = DtoConstFP(Type::tfloat64, re); fim = DtoConstFP(Type::tfloat64, im); base = llvm::Type::DoubleTy; } else assert(0); std::vector<llvm::Constant*> inits; inits.push_back(fre); inits.push_back(fim); return llvm::ConstantStruct::get(DtoComplexType(_ty), inits); } llvm::Constant* DtoUndefComplex(Type* _ty) { assert(0); TY ty = DtoDType(_ty)->ty; const llvm::Type* base; if (ty == Tcomplex32) { base = llvm::Type::FloatTy; } else if (ty == Tcomplex64 || ty == Tcomplex80) { base = llvm::Type::DoubleTy; } else assert(0); std::vector<llvm::Constant*> inits; inits.push_back(llvm::UndefValue::get(base)); inits.push_back(llvm::UndefValue::get(base)); const llvm::VectorType* vt = llvm::VectorType::get(base, 2); return llvm::ConstantVector::get(vt, inits); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoRealPart(DValue* val) { assert(0); return gIR->ir->CreateExtractElement(val->getRVal(), DtoConstUint(0), "tmp"); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoImagPart(DValue* val) { assert(0); return gIR->ir->CreateExtractElement(val->getRVal(), DtoConstUint(1), "tmp"); } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplex(Type* to, DValue* val) { Type* t = DtoDType(val->getType()); TY ty = t->ty; if (val->isComplex() || t->iscomplex()) { return DtoCastComplex(val, to); } const llvm::Type* base = DtoComplexBaseType(to); llvm::Constant* undef = llvm::UndefValue::get(base); llvm::Constant* zero; if (ty == Tfloat32 || ty == Timaginary32 || ty == Tcomplex32) zero = llvm::ConstantFP::get(llvm::Type::FloatTy, llvm::APFloat(0.0f)); else if (ty == Tfloat64 || ty == Timaginary64 || ty == Tcomplex64 || ty == Tfloat80 || ty == Timaginary80 || ty == Tcomplex80) zero = llvm::ConstantFP::get(llvm::Type::DoubleTy, llvm::APFloat(0.0)); if (t->isimaginary()) { return new DComplexValue(to, zero, val->getRVal()); } else if (t->isfloating()) { return new DComplexValue(to, val->getRVal(), zero); } else assert(0); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoComplexAssign(llvm::Value* l, llvm::Value* r) { DtoStore(DtoLoad(DtoGEPi(r, 0,0, "tmp")), DtoGEPi(l,0,0,"tmp")); DtoStore(DtoLoad(DtoGEPi(r, 0,1, "tmp")), DtoGEPi(l,0,1,"tmp")); } void DtoComplexSet(llvm::Value* c, llvm::Value* re, llvm::Value* im) { DtoStore(re, DtoGEPi(c,0,0,"tmp")); DtoStore(im, DtoGEPi(c,0,1,"tmp")); } ////////////////////////////////////////////////////////////////////////////////////////// void DtoGetComplexParts(DValue* c, llvm::Value*& re, llvm::Value*& im) { // lhs values if (DComplexValue* cx = c->isComplex()) { re = cx->re; im = cx->im; } else { re = DtoLoad(DtoGEPi(c->getRVal(),0,0,"tmp")); im = DtoLoad(DtoGEPi(c->getRVal(),0,1,"tmp")); } } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplexAdd(Type* type, DValue* lhs, DValue* rhs) { lhs = DtoComplex(type, lhs); rhs = DtoComplex(type, rhs); llvm::Value *a, *b, *c, *d, *re, *im; // lhs values DtoGetComplexParts(lhs, a, b); // rhs values DtoGetComplexParts(rhs, c, d); // add up re = gIR->ir->CreateAdd(a, c, "tmp"); im = gIR->ir->CreateAdd(b, d, "tmp"); return new DComplexValue(type, re, im); } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplexSub(Type* type, DValue* lhs, DValue* rhs) { lhs = DtoComplex(type, lhs); rhs = DtoComplex(type, rhs); llvm::Value *a, *b, *c, *d, *re, *im; // lhs values DtoGetComplexParts(lhs, a, b); // rhs values DtoGetComplexParts(rhs, c, d); // add up re = gIR->ir->CreateSub(a, c, "tmp"); im = gIR->ir->CreateSub(b, d, "tmp"); return new DComplexValue(type, re, im); } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplexMul(Type* type, DValue* lhs, DValue* rhs) { lhs = DtoComplex(type, lhs); rhs = DtoComplex(type, rhs); llvm::Value *a, *b, *c, *d; // lhs values DtoGetComplexParts(lhs, a, b); // rhs values DtoGetComplexParts(rhs, c, d); llvm::Value *tmp1, *tmp2, *re, *im; tmp1 = gIR->ir->CreateMul(a, c, "tmp"); tmp2 = gIR->ir->CreateMul(b, d, "tmp"); re = gIR->ir->CreateSub(tmp1, tmp2, "tmp"); tmp1 = gIR->ir->CreateMul(b, c, "tmp"); tmp2 = gIR->ir->CreateMul(a, d, "tmp"); im = gIR->ir->CreateAdd(tmp1, tmp2, "tmp"); return new DComplexValue(type, re, im); } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplexDiv(Type* type, DValue* lhs, DValue* rhs) { lhs = DtoComplex(type, lhs); rhs = DtoComplex(type, rhs); llvm::Value *a, *b, *c, *d; // lhs values DtoGetComplexParts(lhs, a, b); // rhs values DtoGetComplexParts(rhs, c, d); llvm::Value *tmp1, *tmp2, *denom, *re, *im; tmp1 = gIR->ir->CreateMul(c, c, "tmp"); tmp2 = gIR->ir->CreateMul(d, d, "tmp"); denom = gIR->ir->CreateAdd(tmp1, tmp2, "tmp"); tmp1 = gIR->ir->CreateMul(a, c, "tmp"); tmp2 = gIR->ir->CreateMul(b, d, "tmp"); re = gIR->ir->CreateAdd(tmp1, tmp2, "tmp"); re = gIR->ir->CreateFDiv(re, denom, "tmp"); tmp1 = gIR->ir->CreateMul(b, c, "tmp"); tmp2 = gIR->ir->CreateMul(a, d, "tmp"); im = gIR->ir->CreateSub(tmp1, tmp2, "tmp"); im = gIR->ir->CreateFDiv(im, denom, "tmp"); return new DComplexValue(type, re, im); } ////////////////////////////////////////////////////////////////////////////////////////// DValue* DtoComplexNeg(Type* type, DValue* val) { val = DtoComplex(type, val); llvm::Value *a, *b, *re, *im; // values DtoGetComplexParts(val, a, b); // sub up re = gIR->ir->CreateNeg(a, "tmp"); im = gIR->ir->CreateNeg(b, "tmp"); return new DComplexValue(type, re, im); } ////////////////////////////////////////////////////////////////////////////////////////// llvm::Value* DtoComplexEquals(TOK op, DValue* lhs, DValue* rhs) { Type* type = lhs->getType(); lhs = DtoComplex(type, lhs); rhs = DtoComplex(type, rhs); llvm::Value *a, *b, *c, *d; // lhs values DtoGetComplexParts(lhs, a, b); // rhs values DtoGetComplexParts(rhs, c, d); // select predicate llvm::FCmpInst::Predicate cmpop; if (op == TOKequal) cmpop = llvm::FCmpInst::FCMP_OEQ; else cmpop = llvm::FCmpInst::FCMP_UNE; // (l.re==r.re && l.im==r.im) llvm::Value* b1 = new llvm::FCmpInst(cmpop, a, c, "tmp", gIR->scopebb()); llvm::Value* b2 = new llvm::FCmpInst(cmpop, b, d, "tmp", gIR->scopebb()); return gIR->ir->CreateAnd(b1,b2,"tmp"); }