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bae1c75f0d
For context, the proposed RISC-V bit manipulation extension has a subset of instructions which require one of two SubtargetFeatures to be enabled, 'zbb' or 'zbp', and there is no defined feature which both of these can imply to use as a constraint either (see comments in D65649). AssemblerPredicates allow multiple SubtargetFeatures to be declared in the "AssemblerCondString" field, separated by commas, and this means that the two features must both be enabled. There is no equivalent to say that _either_ feature X or feature Y must be enabled, short of creating a dummy SubtargetFeature for this purpose and having features X and Y imply the new feature. To solve the case where X or Y is needed without adding a new feature, and to better match a typical TableGen style, this replaces the existing "AssemblerCondString" with a dag "AssemblerCondDag" which represents the same information. Two operators are defined for use with AssemblerCondDag, "all_of", which matches the current behaviour, and "any_of", which adds the new proposed ORing features functionality. This was originally proposed in the RFC at http://lists.llvm.org/pipermail/llvm-dev/2020-February/139138.html Changes to all current backends are mechanical to support the replaced functionality, and are NFCI. At this stage, it is illegal to combine features with ands and ors in a single AssemblerCondDag. I suspect this case is sufficiently rare that adding more complex changes to support it are unnecessary. Differential Revision: https://reviews.llvm.org/D74338
233 lines
7.9 KiB
C++
233 lines
7.9 KiB
C++
//===- MCInstPrinter.cpp - Convert an MCInst to target assembly syntax ----===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/MC/MCInstPrinter.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/MC/MCAsmInfo.h"
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#include "llvm/MC/MCInst.h"
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#include "llvm/MC/MCInstrInfo.h"
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#include "llvm/MC/MCSubtargetInfo.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/Format.h"
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#include "llvm/Support/raw_ostream.h"
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#include <cinttypes>
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#include <cstdint>
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using namespace llvm;
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void llvm::dumpBytes(ArrayRef<uint8_t> bytes, raw_ostream &OS) {
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static const char hex_rep[] = "0123456789abcdef";
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bool First = true;
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for (char i: bytes) {
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if (First)
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First = false;
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else
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OS << ' ';
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OS << hex_rep[(i & 0xF0) >> 4];
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OS << hex_rep[i & 0xF];
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}
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}
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MCInstPrinter::~MCInstPrinter() = default;
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/// getOpcodeName - Return the name of the specified opcode enum (e.g.
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/// "MOV32ri") or empty if we can't resolve it.
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StringRef MCInstPrinter::getOpcodeName(unsigned Opcode) const {
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return MII.getName(Opcode);
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}
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void MCInstPrinter::printRegName(raw_ostream &OS, unsigned RegNo) const {
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llvm_unreachable("Target should implement this");
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}
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void MCInstPrinter::printAnnotation(raw_ostream &OS, StringRef Annot) {
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if (!Annot.empty()) {
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if (CommentStream) {
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(*CommentStream) << Annot;
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// By definition (see MCInstPrinter.h), CommentStream must end with
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// a newline after each comment.
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if (Annot.back() != '\n')
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(*CommentStream) << '\n';
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} else
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OS << " " << MAI.getCommentString() << " " << Annot;
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}
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}
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static bool matchAliasCondition(const MCInst &MI, const MCSubtargetInfo *STI,
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const MCRegisterInfo &MRI, unsigned &OpIdx,
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const AliasMatchingData &M,
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const AliasPatternCond &C,
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bool &OrPredicateResult) {
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// Feature tests are special, they don't consume operands.
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if (C.Kind == AliasPatternCond::K_Feature)
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return STI->getFeatureBits().test(C.Value);
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if (C.Kind == AliasPatternCond::K_NegFeature)
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return !STI->getFeatureBits().test(C.Value);
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// For feature tests where just one feature is required in a list, set the
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// predicate result bit to whether the expression will return true, and only
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// return the real result at the end of list marker.
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if (C.Kind == AliasPatternCond::K_OrFeature) {
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OrPredicateResult |= STI->getFeatureBits().test(C.Value);
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return true;
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}
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if (C.Kind == AliasPatternCond::K_OrNegFeature) {
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OrPredicateResult |= !(STI->getFeatureBits().test(C.Value));
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return true;
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}
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if (C.Kind == AliasPatternCond::K_EndOrFeatures) {
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bool Res = OrPredicateResult;
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OrPredicateResult = false;
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return Res;
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}
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// Get and consume an operand.
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const MCOperand &Opnd = MI.getOperand(OpIdx);
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++OpIdx;
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// Check the specific condition for the operand.
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switch (C.Kind) {
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case AliasPatternCond::K_Imm:
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// Operand must be a specific immediate.
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return Opnd.isImm() && Opnd.getImm() == int32_t(C.Value);
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case AliasPatternCond::K_Reg:
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// Operand must be a specific register.
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return Opnd.isReg() && Opnd.getReg() == C.Value;
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case AliasPatternCond::K_TiedReg:
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// Operand must match the register of another operand.
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return Opnd.isReg() && Opnd.getReg() == MI.getOperand(C.Value).getReg();
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case AliasPatternCond::K_RegClass:
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// Operand must be a register in this class. Value is a register class id.
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return Opnd.isReg() && MRI.getRegClass(C.Value).contains(Opnd.getReg());
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case AliasPatternCond::K_Custom:
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// Operand must match some custom criteria.
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return M.ValidateMCOperand(Opnd, *STI, C.Value);
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case AliasPatternCond::K_Ignore:
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// Operand can be anything.
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return true;
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case AliasPatternCond::K_Feature:
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case AliasPatternCond::K_NegFeature:
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case AliasPatternCond::K_OrFeature:
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case AliasPatternCond::K_OrNegFeature:
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case AliasPatternCond::K_EndOrFeatures:
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llvm_unreachable("handled earlier");
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}
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llvm_unreachable("invalid kind");
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}
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const char *MCInstPrinter::matchAliasPatterns(const MCInst *MI,
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const MCSubtargetInfo *STI,
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const AliasMatchingData &M) {
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// Binary search by opcode. Return false if there are no aliases for this
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// opcode.
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auto It = lower_bound(M.OpToPatterns, MI->getOpcode(),
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[](const PatternsForOpcode &L, unsigned Opcode) {
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return L.Opcode < Opcode;
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});
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if (It == M.OpToPatterns.end() || It->Opcode != MI->getOpcode())
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return nullptr;
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// Try all patterns for this opcode.
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uint32_t AsmStrOffset = ~0U;
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ArrayRef<AliasPattern> Patterns =
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M.Patterns.slice(It->PatternStart, It->NumPatterns);
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for (const AliasPattern &P : Patterns) {
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// Check operand count first.
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if (MI->getNumOperands() != P.NumOperands)
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return nullptr;
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// Test all conditions for this pattern.
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ArrayRef<AliasPatternCond> Conds =
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M.PatternConds.slice(P.AliasCondStart, P.NumConds);
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unsigned OpIdx = 0;
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bool OrPredicateResult = false;
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if (llvm::all_of(Conds, [&](const AliasPatternCond &C) {
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return matchAliasCondition(*MI, STI, MRI, OpIdx, M, C,
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OrPredicateResult);
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})) {
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// If all conditions matched, use this asm string.
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AsmStrOffset = P.AsmStrOffset;
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break;
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}
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}
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// If no alias matched, don't print an alias.
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if (AsmStrOffset == ~0U)
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return nullptr;
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// Go to offset AsmStrOffset and use the null terminated string there. The
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// offset should point to the beginning of an alias string, so it should
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// either be zero or be preceded by a null byte.
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assert(AsmStrOffset < M.AsmStrings.size() &&
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(AsmStrOffset == 0 || M.AsmStrings[AsmStrOffset - 1] == '\0') &&
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"bad asm string offset");
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return M.AsmStrings.data() + AsmStrOffset;
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}
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/// Utility functions to make adding mark ups simpler.
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StringRef MCInstPrinter::markup(StringRef s) const {
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if (getUseMarkup())
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return s;
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else
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return "";
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}
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// For asm-style hex (e.g. 0ffh) the first digit always has to be a number.
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static bool needsLeadingZero(uint64_t Value)
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{
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while (Value)
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{
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uint64_t digit = (Value >> 60) & 0xf;
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if (digit != 0)
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return (digit >= 0xa);
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Value <<= 4;
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}
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return false;
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}
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format_object<int64_t> MCInstPrinter::formatDec(int64_t Value) const {
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return format("%" PRId64, Value);
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}
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format_object<int64_t> MCInstPrinter::formatHex(int64_t Value) const {
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switch (PrintHexStyle) {
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case HexStyle::C:
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if (Value < 0) {
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if (Value == std::numeric_limits<int64_t>::min())
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return format<int64_t>("-0x8000000000000000", Value);
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return format("-0x%" PRIx64, -Value);
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}
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return format("0x%" PRIx64, Value);
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case HexStyle::Asm:
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if (Value < 0) {
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if (Value == std::numeric_limits<int64_t>::min())
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return format<int64_t>("-8000000000000000h", Value);
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if (needsLeadingZero(-(uint64_t)(Value)))
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return format("-0%" PRIx64 "h", -Value);
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return format("-%" PRIx64 "h", -Value);
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}
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if (needsLeadingZero((uint64_t)(Value)))
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return format("0%" PRIx64 "h", Value);
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return format("%" PRIx64 "h", Value);
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}
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llvm_unreachable("unsupported print style");
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}
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format_object<uint64_t> MCInstPrinter::formatHex(uint64_t Value) const {
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switch(PrintHexStyle) {
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case HexStyle::C:
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return format("0x%" PRIx64, Value);
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case HexStyle::Asm:
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if (needsLeadingZero(Value))
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return format("0%" PRIx64 "h", Value);
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else
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return format("%" PRIx64 "h", Value);
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}
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llvm_unreachable("unsupported print style");
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}
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