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llvm-6502/lib/Target/X86/InstPrinter/X86ATTInstPrinter.cpp
Kevin Enderby 14ccc9007a Added a option to the disassembler to print immediates as hex. 
This is for the lldb team so most of but not all of the values are
to be printed as hex with this option.  Some small values like the
scale in an X86 address were requested to printed in decimal
without the leading 0x.

There may be some tweaks need to places that may still be in
decimal that they want in hex.  Specially for arm.  I made my best
guess.  Any tweaks from here should be simple.

I also did the best I know now with help from the C++ gurus
creating the cleanest formatImm() utility function and containing
the changes.  But if someone has a better idea to make something
cleaner I'm all ears and game for changing the implementation.

rdar://8109283



git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@169393 91177308-0d34-0410-b5e6-96231b3b80d8
2012-12-05 18:13:19 +00:00

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//===-- X86ATTInstPrinter.cpp - AT&T assembly instruction printing --------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file includes code for rendering MCInst instances as AT&T-style
// assembly.
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "asm-printer"
#include "X86ATTInstPrinter.h"
#include "MCTargetDesc/X86BaseInfo.h"
#include "MCTargetDesc/X86MCTargetDesc.h"
#include "X86InstComments.h"
#include "llvm/MC/MCAsmInfo.h"
#include "llvm/MC/MCExpr.h"
#include "llvm/MC/MCInst.h"
#include "llvm/MC/MCInstrInfo.h"
#include "llvm/MC/MCRegisterInfo.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/FormattedStream.h"
#include <map>
using namespace llvm;
// Include the auto-generated portion of the assembly writer.
#define PRINT_ALIAS_INSTR
#include "X86GenAsmWriter.inc"
void X86ATTInstPrinter::printRegName(raw_ostream &OS,
unsigned RegNo) const {
OS << markup("<reg:")
<< '%' << getRegisterName(RegNo)
<< markup(">");
}
void X86ATTInstPrinter::printInst(const MCInst *MI, raw_ostream &OS,
StringRef Annot) {
const MCInstrDesc &Desc = MII.get(MI->getOpcode());
uint64_t TSFlags = Desc.TSFlags;
if (TSFlags & X86II::LOCK)
OS << "\tlock\n";
// Try to print any aliases first.
if (!printAliasInstr(MI, OS))
printInstruction(MI, OS);
// Next always print the annotation.
printAnnotation(OS, Annot);
// If verbose assembly is enabled, we can print some informative comments.
if (CommentStream)
EmitAnyX86InstComments(MI, *CommentStream, getRegisterName);
}
void X86ATTInstPrinter::printSSECC(const MCInst *MI, unsigned Op,
raw_ostream &O) {
int64_t Imm = MI->getOperand(Op).getImm() & 0xf;
switch (Imm) {
default: llvm_unreachable("Invalid ssecc argument!");
case 0: O << "eq"; break;
case 1: O << "lt"; break;
case 2: O << "le"; break;
case 3: O << "unord"; break;
case 4: O << "neq"; break;
case 5: O << "nlt"; break;
case 6: O << "nle"; break;
case 7: O << "ord"; break;
case 8: O << "eq_uq"; break;
case 9: O << "nge"; break;
case 0xa: O << "ngt"; break;
case 0xb: O << "false"; break;
case 0xc: O << "neq_oq"; break;
case 0xd: O << "ge"; break;
case 0xe: O << "gt"; break;
case 0xf: O << "true"; break;
}
}
void X86ATTInstPrinter::printAVXCC(const MCInst *MI, unsigned Op,
raw_ostream &O) {
int64_t Imm = MI->getOperand(Op).getImm() & 0x1f;
switch (Imm) {
default: llvm_unreachable("Invalid avxcc argument!");
case 0: O << "eq"; break;
case 1: O << "lt"; break;
case 2: O << "le"; break;
case 3: O << "unord"; break;
case 4: O << "neq"; break;
case 5: O << "nlt"; break;
case 6: O << "nle"; break;
case 7: O << "ord"; break;
case 8: O << "eq_uq"; break;
case 9: O << "nge"; break;
case 0xa: O << "ngt"; break;
case 0xb: O << "false"; break;
case 0xc: O << "neq_oq"; break;
case 0xd: O << "ge"; break;
case 0xe: O << "gt"; break;
case 0xf: O << "true"; break;
case 0x10: O << "eq_os"; break;
case 0x11: O << "lt_oq"; break;
case 0x12: O << "le_oq"; break;
case 0x13: O << "unord_s"; break;
case 0x14: O << "neq_us"; break;
case 0x15: O << "nlt_uq"; break;
case 0x16: O << "nle_uq"; break;
case 0x17: O << "ord_s"; break;
case 0x18: O << "eq_us"; break;
case 0x19: O << "nge_uq"; break;
case 0x1a: O << "ngt_uq"; break;
case 0x1b: O << "false_os"; break;
case 0x1c: O << "neq_os"; break;
case 0x1d: O << "ge_oq"; break;
case 0x1e: O << "gt_oq"; break;
case 0x1f: O << "true_us"; break;
}
}
/// printPCRelImm - This is used to print an immediate value that ends up
/// being encoded as a pc-relative value (e.g. for jumps and calls). These
/// print slightly differently than normal immediates. For example, a $ is not
/// emitted.
void X86ATTInstPrinter::printPCRelImm(const MCInst *MI, unsigned OpNo,
raw_ostream &O) {
const MCOperand &Op = MI->getOperand(OpNo);
if (Op.isImm())
O << formatImm(Op.getImm());
else {
assert(Op.isExpr() && "unknown pcrel immediate operand");
// If a symbolic branch target was added as a constant expression then print
// that address in hex.
const MCConstantExpr *BranchTarget = dyn_cast<MCConstantExpr>(Op.getExpr());
int64_t Address;
if (BranchTarget && BranchTarget->EvaluateAsAbsolute(Address)) {
O << "0x";
O.write_hex(Address);
}
else {
// Otherwise, just print the expression.
O << *Op.getExpr();
}
}
}
void X86ATTInstPrinter::printOperand(const MCInst *MI, unsigned OpNo,
raw_ostream &O) {
const MCOperand &Op = MI->getOperand(OpNo);
if (Op.isReg()) {
printRegName(O, Op.getReg());
} else if (Op.isImm()) {
// Print X86 immediates as signed values.
O << markup("<imm:")
<< '$' << formatImm((int64_t)Op.getImm())
<< markup(">");
if (CommentStream && (Op.getImm() > 255 || Op.getImm() < -256))
*CommentStream << format("imm = 0x%" PRIX64 "\n", (uint64_t)Op.getImm());
} else {
assert(Op.isExpr() && "unknown operand kind in printOperand");
O << markup("<imm:")
<< '$' << *Op.getExpr()
<< markup(">");
}
}
void X86ATTInstPrinter::printMemReference(const MCInst *MI, unsigned Op,
raw_ostream &O) {
const MCOperand &BaseReg = MI->getOperand(Op);
const MCOperand &IndexReg = MI->getOperand(Op+2);
const MCOperand &DispSpec = MI->getOperand(Op+3);
const MCOperand &SegReg = MI->getOperand(Op+4);
O << markup("<mem:");
// If this has a segment register, print it.
if (SegReg.getReg()) {
printOperand(MI, Op+4, O);
O << ':';
}
if (DispSpec.isImm()) {
int64_t DispVal = DispSpec.getImm();
if (DispVal || (!IndexReg.getReg() && !BaseReg.getReg()))
O << formatImm(DispVal);
} else {
assert(DispSpec.isExpr() && "non-immediate displacement for LEA?");
O << *DispSpec.getExpr();
}
if (IndexReg.getReg() || BaseReg.getReg()) {
O << '(';
if (BaseReg.getReg())
printOperand(MI, Op, O);
if (IndexReg.getReg()) {
O << ',';
printOperand(MI, Op+2, O);
unsigned ScaleVal = MI->getOperand(Op+1).getImm();
if (ScaleVal != 1) {
O << ','
<< markup("<imm:")
<< ScaleVal // never printed in hex.
<< markup(">");
}
}
O << ')';
}
O << markup(">");
}
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