src/IceInstMIPS32.cpp - SwiftShader - Git at Google

 //===- subzero/src/IceInstMips32.cpp - Mips32 instruction implementation --===//
 //
 //                        The Subzero Code Generator
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 /// \file
 /// \brief Implements the InstMips32 and OperandMips32 classes, primarily the
 /// constructors and the dump()/emit() methods.
 ///
 //===----------------------------------------------------------------------===//
 #include "IceAssemblerMIPS32.h"
 #include "IceCfg.h"
 #include "IceCfgNode.h"
 #include "IceInst.h"
 #include "IceInstMIPS32.h"
 #include "IceOperand.h"
 #include "IceRegistersMIPS32.h"
 #include "IceTargetLoweringMIPS32.h"
 #include <limits>

 namespace Ice {
 namespace MIPS32 {

 bool OperandMIPS32Mem::canHoldOffset(Type Ty, bool SignExt, int32_t Offset) {
   (void)SignExt;
   (void)Ty;
   if ((std::numeric_limits<int16_t>::min() <= Offset) &&
       (Offset <= std::numeric_limits<int16_t>::max()))
     return true;
   return false;
 }

 OperandMIPS32Mem::OperandMIPS32Mem(Cfg *Func, Type Ty, Variable *Base,
                                    ConstantInteger32 *ImmOffset, AddrMode Mode)
     : OperandMIPS32(kMem, Ty), Base(Base), ImmOffset(ImmOffset), Mode(Mode) {
   // The Neg modes are only needed for Reg +/- Reg.
   (void)Func;
   // assert(!isNegAddrMode());
   NumVars = 1;
   Vars = &this->Base;
 }

 const char *InstMIPS32::getWidthString(Type Ty) {
   (void)Ty;
   return "TBD";
 }

 template <> const char *InstMIPS32Addiu::Opcode = "addiu";
 template <> const char *InstMIPS32Lui::Opcode = "lui";
 template <> const char *InstMIPS32La::Opcode = "la";
 // Three-addr ops
 template <> const char *InstMIPS32Add::Opcode = "add";
 template <> const char *InstMIPS32Addu::Opcode = "addu";
 template <> const char *InstMIPS32And::Opcode = "and";
 template <> const char *InstMIPS32Mul::Opcode = "mul";
 template <> const char *InstMIPS32Or::Opcode = "or";
 template <> const char *InstMIPS32Ori::Opcode = "ori";
 template <> const char *InstMIPS32Sltu::Opcode = "sltu";
 template <> const char *InstMIPS32Sub::Opcode = "sub";
 template <> const char *InstMIPS32Subu::Opcode = "subu";
 template <> const char *InstMIPS32Xor::Opcode = "xor";

 InstMIPS32Call::InstMIPS32Call(Cfg *Func, Variable *Dest, Operand *CallTarget)
     : InstMIPS32(Func, InstMIPS32::Call, 1, Dest) {
   HasSideEffects = true;
   addSource(CallTarget);
 }

 InstMIPS32Mov::InstMIPS32Mov(Cfg *Func, Variable *Dest, Operand *Src)
     : InstMIPS32(Func, InstMIPS32::Mov, 2, Dest) {
   auto *Dest64 = llvm::dyn_cast<Variable64On32>(Dest);
   auto *Src64 = llvm::dyn_cast<Variable64On32>(Src);

   assert(Dest64 == nullptr || Src64 == nullptr);

   if (Dest64 != nullptr) {
     // this-> is needed below because there is a parameter named Dest.
     this->Dest = Dest64->getLo();
     DestHi = Dest64->getHi();
   }

   if (Src64 == nullptr) {
     addSource(Src);
   } else {
     addSource(Src64->getLo());
     addSource(Src64->getHi());
   }
 }

 InstMIPS32Ret::InstMIPS32Ret(Cfg *Func, Variable *RA, Variable *Source)
     : InstMIPS32(Func, InstMIPS32::Ret, Source ? 2 : 1, nullptr) {
   addSource(RA);
   if (Source)
     addSource(Source);
 }

 // ======================== Dump routines ======================== //

 void InstMIPS32::dump(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrDump();
   Str << "[MIPS32] ";
   Inst::dump(Func);
 }

 void OperandMIPS32Mem::emit(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   llvm_unreachable("Not yet implemented");
   (void)Func;
 }

 void InstMIPS32::emitUnaryopGPR(const char *Opcode, const InstMIPS32 *Inst,
                                 const Cfg *Func) {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   Str << "\t" << Opcode << "\t";
   Inst->getDest()->emit(Func);
   Str << ", ";
   Inst->getSrc(0)->emit(Func);
 }

 void InstMIPS32::emitThreeAddr(const char *Opcode, const InstMIPS32 *Inst,
                                const Cfg *Func) {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   assert(Inst->getSrcSize() == 2);
   Str << "\t" << Opcode << "\t";
   Inst->getDest()->emit(Func);
   Str << ", ";
   Inst->getSrc(0)->emit(Func);
   Str << ", ";
   Inst->getSrc(1)->emit(Func);
 }

 void InstMIPS32Ret::emit(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   assert(getSrcSize() > 0);
   auto *RA = llvm::cast<Variable>(getSrc(0));
   assert(RA->hasReg());
   assert(RA->getRegNum() == RegMIPS32::Reg_RA);
   Ostream &Str = Func->getContext()->getStrEmit();
   Str << "\t"
          "jr"
          "\t";
   RA->emit(Func);
 }

 void InstMIPS32Call::emit(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   assert(getSrcSize() == 1);
   if (llvm::isa<ConstantInteger32>(getCallTarget())) {
     // This shouldn't happen (typically have to copy the full 32-bits to a
     // register and do an indirect jump).
     llvm::report_fatal_error("MIPS2Call to ConstantInteger32");
   } else if (const auto *CallTarget =
                  llvm::dyn_cast<ConstantRelocatable>(getCallTarget())) {
     // Calls only have 24-bits, but the linker should insert veneers to extend
     // the range if needed.
     Str << "\t"
            "jal"
            "\t";
     CallTarget->emitWithoutPrefix(Func->getTarget());
   } else {
     Str << "\t"
            "jal"
            "\t";
     getCallTarget()->emit(Func);
   }
 }

 void InstMIPS32Call::emitIAS(const Cfg *Func) const {
   (void)Func;
   llvm_unreachable("Not yet implemented");
 }

 void InstMIPS32Call::dump(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrDump();
   if (getDest()) {
     dumpDest(Func);
     Str << " = ";
   }
   Str << "call ";
   getCallTarget()->dump(Func);
 }

 void InstMIPS32Ret::emitIAS(const Cfg *Func) const {
   (void)Func;
   llvm_unreachable("Not yet implemented");
 }

 void InstMIPS32Ret::dump(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrDump();
   Type Ty = (getSrcSize() == 1 ? IceType_void : getSrc(0)->getType());
   Str << "ret." << Ty << " ";
   dumpSources(Func);
 }

 void InstMIPS32Mov::emit(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   assert(!(isMultiDest() && isMultiSource()) && "Invalid vmov type.");
   if (isMultiDest()) {
     emitMultiDestSingleSource(Func);
     return;
   }

   if (isMultiSource()) {
     emitSingleDestMultiSource(Func);
     return;
   }

   emitSingleDestSingleSource(Func);
 }

 void InstMIPS32Mov::emitIAS(const Cfg *Func) const {
   assert(getSrcSize() == 1);
   (void)Func;
   llvm_unreachable("Not yet implemented");
 }

 void InstMIPS32Mov::dump(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   assert(getSrcSize() == 1 || getSrcSize() == 2);
   Ostream &Str = Func->getContext()->getStrDump();
   Variable *Dest = getDest();
   Variable *DestHi = getDestHi();
   Dest->dump(Func);
   if (DestHi) {
     Str << ", ";
     DestHi->dump(Func);
   }

   dumpOpcode(Str, " = mov", getDest()->getType());
   Str << " ";

   dumpSources(Func);
 }

 void InstMIPS32Mov::emitMultiDestSingleSource(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   Variable *DestLo = getDest();
   Variable *DestHi = getDestHi();
   auto *Src = llvm::cast<Variable>(getSrc(0));

   assert(DestHi->hasReg());
   assert(DestLo->hasReg());
   assert(llvm::isa<Variable>(Src) && Src->hasReg());

   // Str << "\t"
   //    << "vmov" << getPredicate() << "\t";
   DestLo->emit(Func);
   Str << ", ";
   DestHi->emit(Func);
   Str << ", ";
   Src->emit(Func);
 }

 void InstMIPS32Mov::emitSingleDestMultiSource(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   Variable *Dest = getDest();
   auto *SrcLo = llvm::cast<Variable>(getSrc(0));
   auto *SrcHi = llvm::cast<Variable>(getSrc(1));

   assert(SrcHi->hasReg());
   assert(SrcLo->hasReg());
   assert(Dest->hasReg());
   assert(getSrcSize() == 2);

   // Str << "\t"
   //    << "vmov" << getPredicate() << "\t";
   Dest->emit(Func);
   Str << ", ";
   SrcLo->emit(Func);
   Str << ", ";
   SrcHi->emit(Func);
 }

 void InstMIPS32Mov::emitSingleDestSingleSource(const Cfg *Func) const {
   if (!BuildDefs::dump())
     return;
   Ostream &Str = Func->getContext()->getStrEmit();
   Variable *Dest = getDest();
   Operand *Src = getSrc(0);
   auto *S = llvm::dyn_cast<Variable>(Src);
   Str << "\t";
   if (Dest->hasReg()) {
     if (S && S->hasReg())
       Str << "move";
     else
       Str << "lw";
   } else {
     if (S && S->hasReg()) {
       Str << "sw"
              "\t";
       getSrc(0)->emit(Func);
       Str << ", ";
       getDest()->emit(Func);
       return;
     } else
       Str << "move";
   }

   Str << "\t";
   getDest()->emit(Func);
   Str << ", ";
   getSrc(0)->emit(Func);
 }

 } // end of namespace MIPS32
 } // end of namespace Ice
	//===- subzero/src/IceInstMips32.cpp - Mips32 instruction implementation --===//
	//
	// The Subzero Code Generator
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	/// \file
	/// \brief Implements the InstMips32 and OperandMips32 classes, primarily the
	/// constructors and the dump()/emit() methods.
	///
	//===----------------------------------------------------------------------===//
	#include "IceAssemblerMIPS32.h"
	#include "IceCfg.h"
	#include "IceCfgNode.h"
	#include "IceInst.h"
	#include "IceInstMIPS32.h"
	#include "IceOperand.h"
	#include "IceRegistersMIPS32.h"
	#include "IceTargetLoweringMIPS32.h"
	#include <limits>

	namespace Ice {
	namespace MIPS32 {

	bool OperandMIPS32Mem::canHoldOffset(Type Ty, bool SignExt, int32_t Offset) {
	(void)SignExt;
	(void)Ty;
	if ((std::numeric_limits<int16_t>::min() <= Offset) &&
	(Offset <= std::numeric_limits<int16_t>::max()))
	return true;
	return false;
	}

	OperandMIPS32Mem::OperandMIPS32Mem(Cfg Func, Type Ty, Variable Base,
	ConstantInteger32 *ImmOffset, AddrMode Mode)
	: OperandMIPS32(kMem, Ty), Base(Base), ImmOffset(ImmOffset), Mode(Mode) {
	// The Neg modes are only needed for Reg +/- Reg.
	(void)Func;
	// assert(!isNegAddrMode());
	NumVars = 1;
	Vars = &this->Base;
	}

	const char *InstMIPS32::getWidthString(Type Ty) {
	(void)Ty;
	return "TBD";
	}

	template <> const char *InstMIPS32Addiu::Opcode = "addiu";
	template <> const char *InstMIPS32Lui::Opcode = "lui";
	template <> const char *InstMIPS32La::Opcode = "la";
	// Three-addr ops
	template <> const char *InstMIPS32Add::Opcode = "add";
	template <> const char *InstMIPS32Addu::Opcode = "addu";
	template <> const char *InstMIPS32And::Opcode = "and";
	template <> const char *InstMIPS32Mul::Opcode = "mul";
	template <> const char *InstMIPS32Or::Opcode = "or";
	template <> const char *InstMIPS32Ori::Opcode = "ori";
	template <> const char *InstMIPS32Sltu::Opcode = "sltu";
	template <> const char *InstMIPS32Sub::Opcode = "sub";
	template <> const char *InstMIPS32Subu::Opcode = "subu";
	template <> const char *InstMIPS32Xor::Opcode = "xor";

	InstMIPS32Call::InstMIPS32Call(Cfg Func, Variable Dest, Operand *CallTarget)
	: InstMIPS32(Func, InstMIPS32::Call, 1, Dest) {
	HasSideEffects = true;
	addSource(CallTarget);
	}

	InstMIPS32Mov::InstMIPS32Mov(Cfg Func, Variable Dest, Operand *Src)
	: InstMIPS32(Func, InstMIPS32::Mov, 2, Dest) {
	auto *Dest64 = llvm::dyn_cast<Variable64On32>(Dest);
	auto *Src64 = llvm::dyn_cast<Variable64On32>(Src);

	assert(Dest64 == nullptr \|\| Src64 == nullptr);

	if (Dest64 != nullptr) {
	// this-> is needed below because there is a parameter named Dest.
	this->Dest = Dest64->getLo();
	DestHi = Dest64->getHi();
	}

	if (Src64 == nullptr) {
	addSource(Src);
	} else {
	addSource(Src64->getLo());
	addSource(Src64->getHi());
	}
	}

	InstMIPS32Ret::InstMIPS32Ret(Cfg Func, Variable RA, Variable *Source)
	: InstMIPS32(Func, InstMIPS32::Ret, Source ? 2 : 1, nullptr) {
	addSource(RA);
	if (Source)
	addSource(Source);
	}

	// ======================== Dump routines ======================== //

	void InstMIPS32::dump(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrDump();
	Str << "[MIPS32] ";
	Inst::dump(Func);
	}

	void OperandMIPS32Mem::emit(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	llvm_unreachable("Not yet implemented");
	(void)Func;
	}

	void InstMIPS32::emitUnaryopGPR(const char Opcode, const InstMIPS32 Inst,
	const Cfg *Func) {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	Str << "\t" << Opcode << "\t";
	Inst->getDest()->emit(Func);
	Str << ", ";
	Inst->getSrc(0)->emit(Func);
	}

	void InstMIPS32::emitThreeAddr(const char Opcode, const InstMIPS32 Inst,
	const Cfg *Func) {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	assert(Inst->getSrcSize() == 2);
	Str << "\t" << Opcode << "\t";
	Inst->getDest()->emit(Func);
	Str << ", ";
	Inst->getSrc(0)->emit(Func);
	Str << ", ";
	Inst->getSrc(1)->emit(Func);
	}

	void InstMIPS32Ret::emit(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	assert(getSrcSize() > 0);
	auto *RA = llvm::cast<Variable>(getSrc(0));
	assert(RA->hasReg());
	assert(RA->getRegNum() == RegMIPS32::Reg_RA);
	Ostream &Str = Func->getContext()->getStrEmit();
	Str << "\t"
	"jr"
	"\t";
	RA->emit(Func);
	}

	void InstMIPS32Call::emit(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	assert(getSrcSize() == 1);
	if (llvm::isa<ConstantInteger32>(getCallTarget())) {
	// This shouldn't happen (typically have to copy the full 32-bits to a
	// register and do an indirect jump).
	llvm::report_fatal_error("MIPS2Call to ConstantInteger32");
	} else if (const auto *CallTarget =
	llvm::dyn_cast<ConstantRelocatable>(getCallTarget())) {
	// Calls only have 24-bits, but the linker should insert veneers to extend
	// the range if needed.
	Str << "\t"
	"jal"
	"\t";
	CallTarget->emitWithoutPrefix(Func->getTarget());
	} else {
	Str << "\t"
	"jal"
	"\t";
	getCallTarget()->emit(Func);
	}
	}

	void InstMIPS32Call::emitIAS(const Cfg *Func) const {
	(void)Func;
	llvm_unreachable("Not yet implemented");
	}

	void InstMIPS32Call::dump(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrDump();
	if (getDest()) {
	dumpDest(Func);
	Str << " = ";
	}
	Str << "call ";
	getCallTarget()->dump(Func);
	}

	void InstMIPS32Ret::emitIAS(const Cfg *Func) const {
	(void)Func;
	llvm_unreachable("Not yet implemented");
	}

	void InstMIPS32Ret::dump(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrDump();
	Type Ty = (getSrcSize() == 1 ? IceType_void : getSrc(0)->getType());
	Str << "ret." << Ty << " ";
	dumpSources(Func);
	}

	void InstMIPS32Mov::emit(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	assert(!(isMultiDest() && isMultiSource()) && "Invalid vmov type.");
	if (isMultiDest()) {
	emitMultiDestSingleSource(Func);
	return;
	}

	if (isMultiSource()) {
	emitSingleDestMultiSource(Func);
	return;
	}

	emitSingleDestSingleSource(Func);
	}

	void InstMIPS32Mov::emitIAS(const Cfg *Func) const {
	assert(getSrcSize() == 1);
	(void)Func;
	llvm_unreachable("Not yet implemented");
	}

	void InstMIPS32Mov::dump(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	assert(getSrcSize() == 1 \|\| getSrcSize() == 2);
	Ostream &Str = Func->getContext()->getStrDump();
	Variable *Dest = getDest();
	Variable *DestHi = getDestHi();
	Dest->dump(Func);
	if (DestHi) {
	Str << ", ";
	DestHi->dump(Func);
	}

	dumpOpcode(Str, " = mov", getDest()->getType());
	Str << " ";

	dumpSources(Func);
	}

	void InstMIPS32Mov::emitMultiDestSingleSource(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	Variable *DestLo = getDest();
	Variable *DestHi = getDestHi();
	auto *Src = llvm::cast<Variable>(getSrc(0));

	assert(DestHi->hasReg());
	assert(DestLo->hasReg());
	assert(llvm::isa<Variable>(Src) && Src->hasReg());

	// Str << "\t"
	// << "vmov" << getPredicate() << "\t";
	DestLo->emit(Func);
	Str << ", ";
	DestHi->emit(Func);
	Str << ", ";
	Src->emit(Func);
	}

	void InstMIPS32Mov::emitSingleDestMultiSource(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	Variable *Dest = getDest();
	auto *SrcLo = llvm::cast<Variable>(getSrc(0));
	auto *SrcHi = llvm::cast<Variable>(getSrc(1));

	assert(SrcHi->hasReg());
	assert(SrcLo->hasReg());
	assert(Dest->hasReg());
	assert(getSrcSize() == 2);

	// Str << "\t"
	// << "vmov" << getPredicate() << "\t";
	Dest->emit(Func);
	Str << ", ";
	SrcLo->emit(Func);
	Str << ", ";
	SrcHi->emit(Func);
	}

	void InstMIPS32Mov::emitSingleDestSingleSource(const Cfg *Func) const {
	if (!BuildDefs::dump())
	return;
	Ostream &Str = Func->getContext()->getStrEmit();
	Variable *Dest = getDest();
	Operand *Src = getSrc(0);
	auto *S = llvm::dyn_cast<Variable>(Src);
	Str << "\t";
	if (Dest->hasReg()) {
	if (S && S->hasReg())
	Str << "move";
	else
	Str << "lw";
	} else {
	if (S && S->hasReg()) {
	Str << "sw"
	"\t";
	getSrc(0)->emit(Func);
	Str << ", ";
	getDest()->emit(Func);
	return;
	} else
	Str << "move";
	}

	Str << "\t";
	getDest()->emit(Func);
	Str << ", ";
	getSrc(0)->emit(Func);
	}

	} // end of namespace MIPS32
	} // end of namespace Ice