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055baf5c7b
llvm-mirror/lib/Target/Alpha/AlphaCodeEmitter.cpp
Chris Lattner 055baf5c7b Refactor the machine code emitter interface to pull the pointers for the current 
code emission location into the base class, instead of being in the derived classes.

This change means that low-level methods like emitByte/emitWord now are no longer
virtual (yaay for speed), and we now have a framework to support growable code
segments.  This implements feature request #1 of PR469.

llvm-svn: 28059
2006-05-02 18:27:26 +00:00

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//===-- Alpha/AlphaCodeEmitter.cpp - Convert Alpha code to machine code ---===//
//
// The LLVM Compiler Infrastructure
//
// This file was developed by the LLVM research group and is distributed under
// the University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file contains the pass that transforms the Alpha machine instructions
// into relocatable machine code.
//
//===----------------------------------------------------------------------===//
#include "AlphaTargetMachine.h"
#include "AlphaRelocations.h"
#include "Alpha.h"
#include "llvm/PassManager.h"
#include "llvm/CodeGen/MachineCodeEmitter.h"
#include "llvm/CodeGen/MachineFunctionPass.h"
#include "llvm/CodeGen/MachineInstr.h"
#include "llvm/CodeGen/Passes.h"
#include "llvm/Function.h"
#include "llvm/Support/Debug.h"
#include "llvm/ADT/Statistic.h"
#include <iostream>
using namespace llvm;
namespace {
Statistic<>
NumEmitted("alpha-emitter", "Number of machine instructions emitted");
}
namespace {
class AlphaCodeEmitter : public MachineFunctionPass {
const AlphaInstrInfo *II;
MachineCodeEmitter &MCE;
std::map<const MachineBasicBlock*, unsigned*> BasicBlockAddrs;
std::vector<std::pair<const MachineBasicBlock *, unsigned*> > BBRefs;
/// getMachineOpValue - evaluates the MachineOperand of a given MachineInstr
///
int getMachineOpValue(MachineInstr &MI, MachineOperand &MO);
public:
explicit AlphaCodeEmitter(MachineCodeEmitter &mce) : II(0), MCE(mce) {}
AlphaCodeEmitter(MachineCodeEmitter &mce, const AlphaInstrInfo& ii)
: II(&ii), MCE(mce) {}
bool runOnMachineFunction(MachineFunction &MF);
virtual const char *getPassName() const {
return "Alpha Machine Code Emitter";
}
void emitInstruction(const MachineInstr &MI);
/// emitWord - write a 32-bit word to memory at the current PC
///
void emitWord(unsigned w) { MCE.emitWord(w); }
/// getBinaryCodeForInstr - This function, generated by the
/// CodeEmitterGenerator using TableGen, produces the binary encoding for
/// machine instructions.
///
unsigned getBinaryCodeForInstr(MachineInstr &MI);
private:
void emitBasicBlock(MachineBasicBlock &MBB);
};
}
/// createAlphaCodeEmitterPass - Return a pass that emits the collected Alpha code
/// to the specified MCE object.
FunctionPass *llvm::createAlphaCodeEmitterPass(MachineCodeEmitter &MCE) {
return new AlphaCodeEmitter(MCE);
}
bool AlphaCodeEmitter::runOnMachineFunction(MachineFunction &MF) {
II = ((AlphaTargetMachine&)MF.getTarget()).getInstrInfo();
do {
BBRefs.clear();
BasicBlockAddrs.clear();
MCE.startFunction(MF);
MCE.emitConstantPool(MF.getConstantPool());
for (MachineFunction::iterator I = MF.begin(), E = MF.end(); I != E; ++I)
emitBasicBlock(*I);
} while (MCE.finishFunction(MF));
// Resolve all forward branches now...
for (unsigned i = 0, e = BBRefs.size(); i != e; ++i) {
unsigned* Location = (unsigned*)BasicBlockAddrs[BBRefs[i].first];
unsigned* Ref = (unsigned*)BBRefs[i].second;
intptr_t BranchTargetDisp =
(((unsigned char*)Location - (unsigned char*)Ref) >> 2) - 1;
DEBUG(std::cerr << "Fixup @ " << (void*)Ref << " to " << (void*)Location
<< " Disp " << BranchTargetDisp
<< " using " << (BranchTargetDisp & ((1 << 22)-1)) << "\n");
*Ref |= (BranchTargetDisp & ((1 << 21)-1));
}
BBRefs.clear();
BasicBlockAddrs.clear();
return false;
}
void AlphaCodeEmitter::emitBasicBlock(MachineBasicBlock &MBB) {
uintptr_t Addr = MCE.getCurrentPCValue();
BasicBlockAddrs[&MBB] = (unsigned*)Addr;
for (MachineBasicBlock::iterator I = MBB.begin(), E = MBB.end();
I != E; ++I) {
MachineInstr &MI = *I;
unsigned Opcode = MI.getOpcode();
switch(MI.getOpcode()) {
default:
emitWord(getBinaryCodeForInstr(*I));
break;
case Alpha::ALTENT:
case Alpha::PCLABEL:
case Alpha::MEMLABEL:
case Alpha::IDEF_I:
case Alpha::IDEF_F32:
case Alpha::IDEF_F64:
break; //skip these
}
}
}
static unsigned getAlphaRegNumber(unsigned Reg) {
switch (Reg) {
case Alpha::R0 : case Alpha::F0 : return 0;
case Alpha::R1 : case Alpha::F1 : return 1;
case Alpha::R2 : case Alpha::F2 : return 2;
case Alpha::R3 : case Alpha::F3 : return 3;
case Alpha::R4 : case Alpha::F4 : return 4;
case Alpha::R5 : case Alpha::F5 : return 5;
case Alpha::R6 : case Alpha::F6 : return 6;
case Alpha::R7 : case Alpha::F7 : return 7;
case Alpha::R8 : case Alpha::F8 : return 8;
case Alpha::R9 : case Alpha::F9 : return 9;
case Alpha::R10 : case Alpha::F10 : return 10;
case Alpha::R11 : case Alpha::F11 : return 11;
case Alpha::R12 : case Alpha::F12 : return 12;
case Alpha::R13 : case Alpha::F13 : return 13;
case Alpha::R14 : case Alpha::F14 : return 14;
case Alpha::R15 : case Alpha::F15 : return 15;
case Alpha::R16 : case Alpha::F16 : return 16;
case Alpha::R17 : case Alpha::F17 : return 17;
case Alpha::R18 : case Alpha::F18 : return 18;
case Alpha::R19 : case Alpha::F19 : return 19;
case Alpha::R20 : case Alpha::F20 : return 20;
case Alpha::R21 : case Alpha::F21 : return 21;
case Alpha::R22 : case Alpha::F22 : return 22;
case Alpha::R23 : case Alpha::F23 : return 23;
case Alpha::R24 : case Alpha::F24 : return 24;
case Alpha::R25 : case Alpha::F25 : return 25;
case Alpha::R26 : case Alpha::F26 : return 26;
case Alpha::R27 : case Alpha::F27 : return 27;
case Alpha::R28 : case Alpha::F28 : return 28;
case Alpha::R29 : case Alpha::F29 : return 29;
case Alpha::R30 : case Alpha::F30 : return 30;
case Alpha::R31 : case Alpha::F31 : return 31;
default:
assert(0 && "Unhandled reg");
abort();
}
}
int AlphaCodeEmitter::getMachineOpValue(MachineInstr &MI, MachineOperand &MO) {
int rv = 0; // Return value; defaults to 0 for unhandled cases
// or things that get fixed up later by the JIT.
if (MO.isRegister()) {
rv = getAlphaRegNumber(MO.getReg());
} else if (MO.isImmediate()) {
rv = MO.getImmedValue();
} else if (MO.isGlobalAddress() || MO.isExternalSymbol()
|| MO.isConstantPoolIndex()) {
DEBUG(std::cerr << MO << " is a relocated op for " << MI << "\n";);
bool isExternal = MO.isExternalSymbol() ||
(MO.isGlobalAddress() &&
( MO.getGlobal()->hasWeakLinkage() ||
MO.getGlobal()->isExternal()) );
unsigned Reloc = 0;
int Offset = 0;
bool useGOT = false;
switch (MI.getOpcode()) {
case Alpha::BSR:
Reloc = Alpha::reloc_bsr;
break;
case Alpha::LDLr:
case Alpha::LDQr:
case Alpha::LDBUr:
case Alpha::LDWUr:
case Alpha::LDSr:
case Alpha::LDTr:
case Alpha::LDAr:
case Alpha::STQr:
case Alpha::STLr:
case Alpha::STWr:
case Alpha::STBr:
case Alpha::STSr:
case Alpha::STTr:
Reloc = Alpha::reloc_gprellow;
break;
case Alpha::LDAHr:
Reloc = Alpha::reloc_gprelhigh;
break;
case Alpha::LDQl:
Reloc = Alpha::reloc_literal;
useGOT = true;
break;
case Alpha::LDAg:
case Alpha::LDAHg:
Reloc = Alpha::reloc_gpdist;
Offset = MI.getOperand(3).getImmedValue();
break;
default:
assert(0 && "unknown relocatable instruction");
abort();
}
if (MO.isGlobalAddress())
MCE.addRelocation(MachineRelocation((unsigned)MCE.getCurrentPCOffset(),
Reloc, MO.getGlobal(), Offset,
false, useGOT));
else if (MO.isExternalSymbol())
MCE.addRelocation(MachineRelocation((unsigned)MCE.getCurrentPCOffset(),
Reloc, MO.getSymbolName(), Offset,
true));
else
MCE.addRelocation(MachineRelocation((unsigned)MCE.getCurrentPCOffset(),
Reloc, MO.getConstantPoolIndex(),
Offset));
} else if (MO.isMachineBasicBlock()) {
unsigned* CurrPC = (unsigned*)(intptr_t)MCE.getCurrentPCValue();
BBRefs.push_back(std::make_pair(MO.getMachineBasicBlock(), CurrPC));
}else {
std::cerr << "ERROR: Unknown type of MachineOperand: " << MO << "\n";
abort();
}
return rv;
}
#include "AlphaGenCodeEmitter.inc"
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