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llvm-6502/lib/CodeGen/MachineInstr.cpp
Chris Lattner 822b4fb896 The header file for a translation unit should always be included first 
System headers should be last


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@475 91177308-0d34-0410-b5e6-96231b3b80d8
2001-09-07 17:18:30 +00:00

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// $Id$
//***************************************************************************
// File:
// MachineInstr.cpp
//
// Purpose:
//
//
// Strategy:
//
// History:
// 7/2/01 - Vikram Adve - Created
//**************************************************************************/
#include "llvm/CodeGen/MachineInstr.h"
#include "llvm/Method.h"
#include "llvm/ConstPoolVals.h"
#include "llvm/Instruction.h"
#include <strstream>
//************************ Class Implementations **************************/
// Constructor for instructions with fixed #operands (nearly all)
MachineInstr::MachineInstr(MachineOpCode _opCode,
OpCodeMask _opCodeMask)
: opCode(_opCode),
opCodeMask(_opCodeMask),
operands(TargetInstrDescriptors[_opCode].numOperands)
{
assert(TargetInstrDescriptors[_opCode].numOperands >= 0);
}
// Constructor for instructions with variable #operands
MachineInstr::MachineInstr(MachineOpCode _opCode,
unsigned numOperands,
OpCodeMask _opCodeMask)
: opCode(_opCode),
opCodeMask(_opCodeMask),
operands(numOperands)
{
}
void
MachineInstr::SetMachineOperand(unsigned int i,
MachineOperand::MachineOperandType operandType,
Value* _val, bool isdef=false)
{
assert(i < operands.size());
operands[i].Initialize(operandType, _val);
operands[i].isDef = isdef ||
TargetInstrDescriptors[opCode].resultPos == (int) i;
}
void
MachineInstr::SetMachineOperand(unsigned int i,
MachineOperand::MachineOperandType operandType,
int64_t intValue, bool isdef=false)
{
assert(i < operands.size());
operands[i].InitializeConst(operandType, intValue);
operands[i].isDef = isdef ||
TargetInstrDescriptors[opCode].resultPos == (int) i;
}
void
MachineInstr::SetMachineOperand(unsigned int i,
unsigned int regNum, bool isdef=false)
{
assert(i < operands.size());
operands[i].InitializeReg(regNum);
operands[i].isDef = isdef ||
TargetInstrDescriptors[opCode].resultPos == (int) i;
}
void
MachineInstr::dump(unsigned int indent) const
{
for (unsigned i=0; i < indent; i++)
cout << " ";
cout << *this;
}
ostream&
operator<< (ostream& os, const MachineInstr& minstr)
{
os << TargetInstrDescriptors[minstr.opCode].opCodeString;
for (unsigned i=0, N=minstr.getNumOperands(); i < N; i++)
os << "\t" << minstr.getOperand(i);
#undef DEBUG_VAL_OP_ITERATOR
#ifdef DEBUG_VAL_OP_ITERATOR
os << endl << "\tValue operands are: ";
for (MachineInstr::val_op_const_iterator vo(&minstr); ! vo.done(); ++vo)
{
const Value* val = *vo;
os << val << (vo.isDef()? "(def), " : ", ");
}
os << endl;
#endif
return os;
}
ostream&
operator<< (ostream& os, const MachineOperand& mop)
{
strstream regInfo;
if (mop.opType == MachineOperand::MO_VirtualRegister)
regInfo << "(val " << mop.value << ")" << ends;
else if (mop.opType == MachineOperand::MO_MachineRegister)
regInfo << "(" << mop.regNum << ")" << ends;
else if (mop.opType == MachineOperand::MO_CCRegister)
regInfo << "(val " << mop.value << ")" << ends;
switch(mop.opType)
{
case MachineOperand::MO_VirtualRegister:
case MachineOperand::MO_MachineRegister:
os << "%reg" << regInfo.str();
free(regInfo.str());
break;
case MachineOperand::MO_CCRegister:
os << "%ccreg" << regInfo.str();
free(regInfo.str());
break;
case MachineOperand::MO_SignExtendedImmed:
os << mop.immedVal;
break;
case MachineOperand::MO_UnextendedImmed:
os << mop.immedVal;
break;
case MachineOperand::MO_PCRelativeDisp:
os << "%disp(label " << mop.value << ")";
break;
default:
assert(0 && "Unrecognized operand type");
break;
}
return os;
}
//---------------------------------------------------------------------------
// Target-independent utility routines for creating machine instructions
//---------------------------------------------------------------------------
//------------------------------------------------------------------------
// Function Set2OperandsFromInstr
// Function Set3OperandsFromInstr
//
// For the common case of 2- and 3-operand arithmetic/logical instructions,
// set the m/c instr. operands directly from the VM instruction's operands.
// Check whether the first or second operand is 0 and can use a dedicated "0" register.
// Check whether the second operand should use an immediate field or register.
// (First and third operands are never immediates for such instructions.)
//
// Arguments:
// canDiscardResult: Specifies that the result operand can be discarded
// by using the dedicated "0"
//
// op1position, op2position and resultPosition: Specify in which position
// in the machine instruction the 3 operands (arg1, arg2
// and result) should go.
//
// RETURN VALUE: unsigned int flags, where
// flags & 0x01 => operand 1 is constant and needs a register
// flags & 0x02 => operand 2 is constant and needs a register
//------------------------------------------------------------------------
void
Set2OperandsFromInstr(MachineInstr* minstr,
InstructionNode* vmInstrNode,
const TargetMachine& target,
bool canDiscardResult,
int op1Position,
int resultPosition)
{
Set3OperandsFromInstr(minstr, vmInstrNode, target,
canDiscardResult, op1Position,
/*op2Position*/ -1, resultPosition);
}
#undef REVERT_TO_EXPLICIT_CONSTANT_CHECKS
#ifdef REVERT_TO_EXPLICIT_CONSTANT_CHECKS
unsigned
Set3OperandsFromInstrJUNK(MachineInstr* minstr,
InstructionNode* vmInstrNode,
const TargetMachine& target,
bool canDiscardResult,
int op1Position,
int op2Position,
int resultPosition)
{
assert(op1Position >= 0);
assert(resultPosition >= 0);
unsigned returnFlags = 0x0;
// Check if operand 1 is 0. If so, try to use a hardwired 0 register.
Value* op1Value = vmInstrNode->leftChild()->getValue();
bool isValidConstant;
int64_t intValue = GetConstantValueAsSignedInt(op1Value, isValidConstant);
if (isValidConstant && intValue == 0 && target.zeroRegNum >= 0)
minstr->SetMachineOperand(op1Position, /*regNum*/ target.zeroRegNum);
else
{
if (op1Value->getValueType() == Value::ConstantVal)
{// value is constant and must be loaded from constant pool
returnFlags = returnFlags | (1 << op1Position);
}
minstr->SetMachineOperand(op1Position,MachineOperand::MO_VirtualRegister,
op1Value);
}
// Check if operand 2 (if any) fits in the immed. field of the instruction,
// or if it is 0 and can use a dedicated machine register
if (op2Position >= 0)
{
Value* op2Value = vmInstrNode->rightChild()->getValue();
int64_t immedValue;
unsigned int machineRegNum;
MachineOperand::MachineOperandType
op2type = ChooseRegOrImmed(op2Value, minstr->getOpCode(), target,
/*canUseImmed*/ true,
machineRegNum, immedValue);
if (op2type == MachineOperand::MO_MachineRegister)
minstr->SetMachineOperand(op2Position, machineRegNum);
else if (op2type == MachineOperand::MO_VirtualRegister)
{
if (op2Value->getValueType() == Value::ConstantVal)
{// value is constant and must be loaded from constant pool
returnFlags = returnFlags | (1 << op2Position);
}
minstr->SetMachineOperand(op2Position, op2type, op2Value);
}
else
{
assert(op2type != MO_CCRegister);
minstr->SetMachineOperand(op2Position, op2type, immedValue);
}
}
// If operand 3 (result) can be discarded, use a dead register if one exists
if (canDiscardResult && target.zeroRegNum >= 0)
minstr->SetMachineOperand(resultPosition, target.zeroRegNum);
else
minstr->SetMachineOperand(resultPosition, MachineOperand::MO_VirtualRegister, vmInstrNode->getValue());
return returnFlags;
}
#endif
void
Set3OperandsFromInstr(MachineInstr* minstr,
InstructionNode* vmInstrNode,
const TargetMachine& target,
bool canDiscardResult,
int op1Position,
int op2Position,
int resultPosition)
{
assert(op1Position >= 0);
assert(resultPosition >= 0);
// operand 1
minstr->SetMachineOperand(op1Position, MachineOperand::MO_VirtualRegister,
vmInstrNode->leftChild()->getValue());
// operand 2 (if any)
if (op2Position >= 0)
minstr->SetMachineOperand(op2Position, MachineOperand::MO_VirtualRegister,
vmInstrNode->rightChild()->getValue());
// result operand: if it can be discarded, use a dead register if one exists
if (canDiscardResult && target.zeroRegNum >= 0)
minstr->SetMachineOperand(resultPosition, target.zeroRegNum);
else
minstr->SetMachineOperand(resultPosition, MachineOperand::MO_VirtualRegister, vmInstrNode->getValue());
}
MachineOperand::MachineOperandType
ChooseRegOrImmed(Value* val,
MachineOpCode opCode,
const TargetMachine& target,
bool canUseImmed,
unsigned int& getMachineRegNum,
int64_t& getImmedValue)
{
MachineOperand::MachineOperandType opType =
MachineOperand::MO_VirtualRegister;
getMachineRegNum = 0;
getImmedValue = 0;
// Check for the common case first: argument is not constant
//
if (val->getValueType() != Value::ConstantVal)
return opType;
// Now get the constant value and check if it fits in the IMMED field.
// Take advantage of the fact that the max unsigned value will rarely
// fit into any IMMED field and ignore that case (i.e., cast smaller
// unsigned constants to signed).
//
bool isValidConstant;
int64_t intValue = GetConstantValueAsSignedInt(val, isValidConstant);
if (isValidConstant)
{
if (intValue == 0 && target.zeroRegNum >= 0)
{
opType = MachineOperand::MO_MachineRegister;
getMachineRegNum = target.zeroRegNum;
}
else if (canUseImmed &&
target.getInstrInfo().constantFitsInImmedField(opCode,intValue))
{
opType = MachineOperand::MO_SignExtendedImmed;
getImmedValue = intValue;
}
}
return opType;
}
void
PrintMachineInstructions(Method* method)
{
cout << "\n" << method->getReturnType()
<< " \"" << method->getName() << "\"" << endl;
for (Method::const_iterator BI = method->begin(); BI != method->end(); ++BI)
{
BasicBlock* bb = *BI;
cout << "\n"
<< (bb->hasName()? bb->getName() : "Label")
<< " (" << bb << ")" << ":"
<< endl;
MachineCodeForBasicBlock& mvec = bb->getMachineInstrVec();
for (unsigned i=0; i < mvec.size(); i++)
cout << "\t" << *mvec[i] << endl;
}
cout << endl << "End method \"" << method->getName() << "\""
<< endl << endl;
}
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