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4ec912b842
as a "long" direct branch. While the mnemonics are the same, they encode the branch offset differently, and the Darwin assembler appears to prefer the "long" form for direct branches. Thus, in the name of bitwise equivalence, provide encoding and fixup support for it. llvm-svn: 121710
1005 lines
32 KiB
C++
1005 lines
32 KiB
C++
//===- X86RecognizableInstr.cpp - Disassembler instruction spec --*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is part of the X86 Disassembler Emitter.
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// It contains the implementation of a single recognizable instruction.
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// Documentation for the disassembler emitter in general can be found in
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// X86DisasemblerEmitter.h.
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//
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//===----------------------------------------------------------------------===//
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#include "X86DisassemblerShared.h"
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#include "X86RecognizableInstr.h"
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#include "X86ModRMFilters.h"
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#include "llvm/Support/ErrorHandling.h"
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#include <string>
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using namespace llvm;
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#define MRM_MAPPING \
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MAP(C1, 33) \
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MAP(C2, 34) \
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MAP(C3, 35) \
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MAP(C4, 36) \
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MAP(C8, 37) \
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MAP(C9, 38) \
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MAP(E8, 39) \
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MAP(F0, 40) \
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MAP(F8, 41) \
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MAP(F9, 42)
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// A clone of X86 since we can't depend on something that is generated.
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namespace X86Local {
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enum {
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Pseudo = 0,
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RawFrm = 1,
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AddRegFrm = 2,
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MRMDestReg = 3,
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MRMDestMem = 4,
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MRMSrcReg = 5,
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MRMSrcMem = 6,
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MRM0r = 16, MRM1r = 17, MRM2r = 18, MRM3r = 19,
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MRM4r = 20, MRM5r = 21, MRM6r = 22, MRM7r = 23,
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MRM0m = 24, MRM1m = 25, MRM2m = 26, MRM3m = 27,
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MRM4m = 28, MRM5m = 29, MRM6m = 30, MRM7m = 31,
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MRMInitReg = 32,
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#define MAP(from, to) MRM_##from = to,
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MRM_MAPPING
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#undef MAP
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RawFrmImm8 = 43,
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RawFrmImm16 = 44,
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lastMRM
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};
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enum {
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TB = 1,
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REP = 2,
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D8 = 3, D9 = 4, DA = 5, DB = 6,
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DC = 7, DD = 8, DE = 9, DF = 10,
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XD = 11, XS = 12,
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T8 = 13, P_TA = 14,
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P_0F_AE = 16, P_0F_01 = 17
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};
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}
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// If rows are added to the opcode extension tables, then corresponding entries
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// must be added here.
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//
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// If the row corresponds to a single byte (i.e., 8f), then add an entry for
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// that byte to ONE_BYTE_EXTENSION_TABLES.
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//
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// If the row corresponds to two bytes where the first is 0f, add an entry for
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// the second byte to TWO_BYTE_EXTENSION_TABLES.
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//
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// If the row corresponds to some other set of bytes, you will need to modify
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// the code in RecognizableInstr::emitDecodePath() as well, and add new prefixes
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// to the X86 TD files, except in two cases: if the first two bytes of such a
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// new combination are 0f 38 or 0f 3a, you just have to add maps called
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// THREE_BYTE_38_EXTENSION_TABLES and THREE_BYTE_3A_EXTENSION_TABLES and add a
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// switch(Opcode) just below the case X86Local::T8: or case X86Local::TA: line
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// in RecognizableInstr::emitDecodePath().
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#define ONE_BYTE_EXTENSION_TABLES \
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EXTENSION_TABLE(80) \
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EXTENSION_TABLE(81) \
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EXTENSION_TABLE(82) \
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EXTENSION_TABLE(83) \
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EXTENSION_TABLE(8f) \
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EXTENSION_TABLE(c0) \
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EXTENSION_TABLE(c1) \
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EXTENSION_TABLE(c6) \
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EXTENSION_TABLE(c7) \
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EXTENSION_TABLE(d0) \
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EXTENSION_TABLE(d1) \
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EXTENSION_TABLE(d2) \
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EXTENSION_TABLE(d3) \
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EXTENSION_TABLE(f6) \
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EXTENSION_TABLE(f7) \
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EXTENSION_TABLE(fe) \
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EXTENSION_TABLE(ff)
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#define TWO_BYTE_EXTENSION_TABLES \
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EXTENSION_TABLE(00) \
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EXTENSION_TABLE(01) \
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EXTENSION_TABLE(18) \
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EXTENSION_TABLE(71) \
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EXTENSION_TABLE(72) \
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EXTENSION_TABLE(73) \
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EXTENSION_TABLE(ae) \
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EXTENSION_TABLE(ba) \
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EXTENSION_TABLE(c7)
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using namespace X86Disassembler;
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/// needsModRMForDecode - Indicates whether a particular instruction requires a
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/// ModR/M byte for the instruction to be properly decoded. For example, a
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/// MRMDestReg instruction needs the Mod field in the ModR/M byte to be set to
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/// 0b11.
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///
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/// @param form - The form of the instruction.
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/// @return - true if the form implies that a ModR/M byte is required, false
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/// otherwise.
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static bool needsModRMForDecode(uint8_t form) {
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if (form == X86Local::MRMDestReg ||
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form == X86Local::MRMDestMem ||
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form == X86Local::MRMSrcReg ||
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form == X86Local::MRMSrcMem ||
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(form >= X86Local::MRM0r && form <= X86Local::MRM7r) ||
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(form >= X86Local::MRM0m && form <= X86Local::MRM7m))
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return true;
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else
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return false;
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}
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/// isRegFormat - Indicates whether a particular form requires the Mod field of
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/// the ModR/M byte to be 0b11.
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///
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/// @param form - The form of the instruction.
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/// @return - true if the form implies that Mod must be 0b11, false
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/// otherwise.
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static bool isRegFormat(uint8_t form) {
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if (form == X86Local::MRMDestReg ||
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form == X86Local::MRMSrcReg ||
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(form >= X86Local::MRM0r && form <= X86Local::MRM7r))
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return true;
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else
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return false;
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}
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/// byteFromBitsInit - Extracts a value at most 8 bits in width from a BitsInit.
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/// Useful for switch statements and the like.
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///
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/// @param init - A reference to the BitsInit to be decoded.
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/// @return - The field, with the first bit in the BitsInit as the lowest
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/// order bit.
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static uint8_t byteFromBitsInit(BitsInit &init) {
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int width = init.getNumBits();
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assert(width <= 8 && "Field is too large for uint8_t!");
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int index;
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uint8_t mask = 0x01;
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uint8_t ret = 0;
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for (index = 0; index < width; index++) {
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if (static_cast<BitInit*>(init.getBit(index))->getValue())
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ret |= mask;
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mask <<= 1;
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}
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return ret;
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}
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/// byteFromRec - Extract a value at most 8 bits in with from a Record given the
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/// name of the field.
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///
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/// @param rec - The record from which to extract the value.
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/// @param name - The name of the field in the record.
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/// @return - The field, as translated by byteFromBitsInit().
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static uint8_t byteFromRec(const Record* rec, const std::string &name) {
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BitsInit* bits = rec->getValueAsBitsInit(name);
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return byteFromBitsInit(*bits);
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}
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RecognizableInstr::RecognizableInstr(DisassemblerTables &tables,
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const CodeGenInstruction &insn,
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InstrUID uid) {
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UID = uid;
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Rec = insn.TheDef;
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Name = Rec->getName();
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Spec = &tables.specForUID(UID);
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if (!Rec->isSubClassOf("X86Inst")) {
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ShouldBeEmitted = false;
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return;
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}
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Prefix = byteFromRec(Rec, "Prefix");
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Opcode = byteFromRec(Rec, "Opcode");
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Form = byteFromRec(Rec, "FormBits");
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SegOvr = byteFromRec(Rec, "SegOvrBits");
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HasOpSizePrefix = Rec->getValueAsBit("hasOpSizePrefix");
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HasREX_WPrefix = Rec->getValueAsBit("hasREX_WPrefix");
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HasVEX_4VPrefix = Rec->getValueAsBit("hasVEX_4VPrefix");
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HasLockPrefix = Rec->getValueAsBit("hasLockPrefix");
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IsCodeGenOnly = Rec->getValueAsBit("isCodeGenOnly");
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Name = Rec->getName();
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AsmString = Rec->getValueAsString("AsmString");
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Operands = &insn.Operands.OperandList;
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IsSSE = HasOpSizePrefix && (Name.find("16") == Name.npos);
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HasFROperands = false;
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ShouldBeEmitted = true;
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}
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void RecognizableInstr::processInstr(DisassemblerTables &tables,
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const CodeGenInstruction &insn,
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InstrUID uid)
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{
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// Ignore "asm parser only" instructions.
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if (insn.TheDef->getValueAsBit("isAsmParserOnly"))
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return;
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RecognizableInstr recogInstr(tables, insn, uid);
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recogInstr.emitInstructionSpecifier(tables);
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if (recogInstr.shouldBeEmitted())
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recogInstr.emitDecodePath(tables);
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}
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InstructionContext RecognizableInstr::insnContext() const {
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InstructionContext insnContext;
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if (Name.find("64") != Name.npos || HasREX_WPrefix) {
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if (HasREX_WPrefix && HasOpSizePrefix)
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insnContext = IC_64BIT_REXW_OPSIZE;
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else if (HasOpSizePrefix)
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insnContext = IC_64BIT_OPSIZE;
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else if (HasREX_WPrefix && Prefix == X86Local::XS)
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insnContext = IC_64BIT_REXW_XS;
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else if (HasREX_WPrefix && Prefix == X86Local::XD)
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insnContext = IC_64BIT_REXW_XD;
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else if (Prefix == X86Local::XD)
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insnContext = IC_64BIT_XD;
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else if (Prefix == X86Local::XS)
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insnContext = IC_64BIT_XS;
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else if (HasREX_WPrefix)
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insnContext = IC_64BIT_REXW;
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else
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insnContext = IC_64BIT;
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} else {
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if (HasOpSizePrefix)
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insnContext = IC_OPSIZE;
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else if (Prefix == X86Local::XD)
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insnContext = IC_XD;
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else if (Prefix == X86Local::XS)
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insnContext = IC_XS;
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else
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insnContext = IC;
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}
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return insnContext;
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}
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RecognizableInstr::filter_ret RecognizableInstr::filter() const {
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// Filter out intrinsics
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if (!Rec->isSubClassOf("X86Inst"))
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return FILTER_STRONG;
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if (Form == X86Local::Pseudo ||
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IsCodeGenOnly)
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return FILTER_STRONG;
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if (Form == X86Local::MRMInitReg)
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return FILTER_STRONG;
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// Filter out instructions with a LOCK prefix;
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// prefer forms that do not have the prefix
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if (HasLockPrefix)
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return FILTER_WEAK;
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// Filter out artificial instructions
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if (Name.find("TAILJMP") != Name.npos ||
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Name.find("_Int") != Name.npos ||
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Name.find("_int") != Name.npos ||
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Name.find("Int_") != Name.npos ||
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Name.find("_NOREX") != Name.npos ||
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Name.find("_TC") != Name.npos ||
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Name.find("EH_RETURN") != Name.npos ||
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Name.find("V_SET") != Name.npos ||
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Name.find("LOCK_") != Name.npos ||
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Name.find("WIN") != Name.npos)
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return FILTER_STRONG;
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// Special cases.
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if (Name.find("PCMPISTRI") != Name.npos && Name != "PCMPISTRI")
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return FILTER_WEAK;
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if (Name.find("PCMPESTRI") != Name.npos && Name != "PCMPESTRI")
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return FILTER_WEAK;
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if (Name.find("MOV") != Name.npos && Name.find("r0") != Name.npos)
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return FILTER_WEAK;
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if (Name.find("MOVZ") != Name.npos && Name.find("MOVZX") == Name.npos)
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return FILTER_WEAK;
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if (Name.find("Fs") != Name.npos)
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return FILTER_WEAK;
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if (Name == "MOVLPDrr" ||
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Name == "MOVLPSrr" ||
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Name == "PUSHFQ" ||
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Name == "BSF16rr" ||
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Name == "BSF16rm" ||
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Name == "BSR16rr" ||
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Name == "BSR16rm" ||
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Name == "MOVSX16rm8" ||
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Name == "MOVSX16rr8" ||
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Name == "MOVZX16rm8" ||
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Name == "MOVZX16rr8" ||
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Name == "PUSH32i16" ||
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Name == "PUSH64i16" ||
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Name == "MOVPQI2QImr" ||
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Name == "MOVSDmr" ||
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Name == "MOVSDrm" ||
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Name == "MOVSSmr" ||
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Name == "MOVSSrm" ||
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Name == "MMX_MOVD64rrv164" ||
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Name == "CRC32m16" ||
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Name == "MOV64ri64i32" ||
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Name == "CRC32r16")
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return FILTER_WEAK;
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// Filter out instructions with segment override prefixes.
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// They're too messy to handle now and we'll special case them if needed.
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if (SegOvr)
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return FILTER_STRONG;
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// Filter out instructions that can't be printed.
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if (AsmString.size() == 0)
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return FILTER_STRONG;
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// Filter out instructions with subreg operands.
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if (AsmString.find("subreg") != AsmString.npos)
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return FILTER_STRONG;
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if (HasFROperands && Name.find("MOV") != Name.npos &&
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((Name.find("2") != Name.npos && Name.find("32") == Name.npos) ||
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(Name.find("to") != Name.npos)))
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return FILTER_WEAK;
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return FILTER_NORMAL;
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}
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void RecognizableInstr::handleOperand(
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bool optional,
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unsigned &operandIndex,
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unsigned &physicalOperandIndex,
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unsigned &numPhysicalOperands,
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unsigned *operandMapping,
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OperandEncoding (*encodingFromString)(const std::string&, bool hasOpSizePrefix)) {
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if (optional) {
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if (physicalOperandIndex >= numPhysicalOperands)
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return;
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} else {
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assert(physicalOperandIndex < numPhysicalOperands);
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}
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while (operandMapping[operandIndex] != operandIndex) {
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Spec->operands[operandIndex].encoding = ENCODING_DUP;
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Spec->operands[operandIndex].type =
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(OperandType)(TYPE_DUP0 + operandMapping[operandIndex]);
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++operandIndex;
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}
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const std::string &typeName = (*Operands)[operandIndex].Rec->getName();
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Spec->operands[operandIndex].encoding = encodingFromString(typeName,
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HasOpSizePrefix);
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Spec->operands[operandIndex].type = typeFromString(typeName,
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IsSSE,
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HasREX_WPrefix,
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HasOpSizePrefix);
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++operandIndex;
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++physicalOperandIndex;
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}
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void RecognizableInstr::emitInstructionSpecifier(DisassemblerTables &tables) {
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Spec->name = Name;
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if (!Rec->isSubClassOf("X86Inst"))
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return;
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switch (filter()) {
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case FILTER_WEAK:
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Spec->filtered = true;
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break;
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case FILTER_STRONG:
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ShouldBeEmitted = false;
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return;
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case FILTER_NORMAL:
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break;
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}
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Spec->insnContext = insnContext();
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const std::vector<CGIOperandList::OperandInfo> &OperandList = *Operands;
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unsigned operandIndex;
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unsigned numOperands = OperandList.size();
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unsigned numPhysicalOperands = 0;
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// operandMapping maps from operands in OperandList to their originals.
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// If operandMapping[i] != i, then the entry is a duplicate.
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unsigned operandMapping[X86_MAX_OPERANDS];
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bool hasFROperands = false;
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assert(numOperands < X86_MAX_OPERANDS && "X86_MAX_OPERANDS is not large enough");
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for (operandIndex = 0; operandIndex < numOperands; ++operandIndex) {
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if (OperandList[operandIndex].Constraints.size()) {
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const CGIOperandList::ConstraintInfo &Constraint =
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OperandList[operandIndex].Constraints[0];
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if (Constraint.isTied()) {
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operandMapping[operandIndex] = Constraint.getTiedOperand();
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} else {
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++numPhysicalOperands;
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operandMapping[operandIndex] = operandIndex;
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}
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} else {
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++numPhysicalOperands;
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operandMapping[operandIndex] = operandIndex;
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}
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const std::string &recName = OperandList[operandIndex].Rec->getName();
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if (recName.find("FR") != recName.npos)
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hasFROperands = true;
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}
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if (hasFROperands && Name.find("MOV") != Name.npos &&
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((Name.find("2") != Name.npos && Name.find("32") == Name.npos) ||
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(Name.find("to") != Name.npos)))
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ShouldBeEmitted = false;
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if (!ShouldBeEmitted)
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return;
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#define HANDLE_OPERAND(class) \
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handleOperand(false, \
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operandIndex, \
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physicalOperandIndex, \
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numPhysicalOperands, \
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operandMapping, \
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class##EncodingFromString);
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#define HANDLE_OPTIONAL(class) \
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handleOperand(true, \
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operandIndex, \
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physicalOperandIndex, \
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numPhysicalOperands, \
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operandMapping, \
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class##EncodingFromString);
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// operandIndex should always be < numOperands
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operandIndex = 0;
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// physicalOperandIndex should always be < numPhysicalOperands
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unsigned physicalOperandIndex = 0;
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switch (Form) {
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case X86Local::RawFrm:
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// Operand 1 (optional) is an address or immediate.
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// Operand 2 (optional) is an immediate.
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assert(numPhysicalOperands <= 2 &&
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"Unexpected number of operands for RawFrm");
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HANDLE_OPTIONAL(relocation)
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|
HANDLE_OPTIONAL(immediate)
|
|
break;
|
|
case X86Local::AddRegFrm:
|
|
// Operand 1 is added to the opcode.
|
|
// Operand 2 (optional) is an address.
|
|
assert(numPhysicalOperands >= 1 && numPhysicalOperands <= 2 &&
|
|
"Unexpected number of operands for AddRegFrm");
|
|
HANDLE_OPERAND(opcodeModifier)
|
|
HANDLE_OPTIONAL(relocation)
|
|
break;
|
|
case X86Local::MRMDestReg:
|
|
// Operand 1 is a register operand in the R/M field.
|
|
// Operand 2 is a register operand in the Reg/Opcode field.
|
|
// Operand 3 (optional) is an immediate.
|
|
assert(numPhysicalOperands >= 2 && numPhysicalOperands <= 3 &&
|
|
"Unexpected number of operands for MRMDestRegFrm");
|
|
HANDLE_OPERAND(rmRegister)
|
|
HANDLE_OPERAND(roRegister)
|
|
HANDLE_OPTIONAL(immediate)
|
|
break;
|
|
case X86Local::MRMDestMem:
|
|
// Operand 1 is a memory operand (possibly SIB-extended)
|
|
// Operand 2 is a register operand in the Reg/Opcode field.
|
|
// Operand 3 (optional) is an immediate.
|
|
assert(numPhysicalOperands >= 2 && numPhysicalOperands <= 3 &&
|
|
"Unexpected number of operands for MRMDestMemFrm");
|
|
HANDLE_OPERAND(memory)
|
|
HANDLE_OPERAND(roRegister)
|
|
HANDLE_OPTIONAL(immediate)
|
|
break;
|
|
case X86Local::MRMSrcReg:
|
|
// Operand 1 is a register operand in the Reg/Opcode field.
|
|
// Operand 2 is a register operand in the R/M field.
|
|
// Operand 3 (optional) is an immediate.
|
|
assert(numPhysicalOperands >= 2 && numPhysicalOperands <= 3 &&
|
|
"Unexpected number of operands for MRMSrcRegFrm");
|
|
HANDLE_OPERAND(roRegister)
|
|
HANDLE_OPERAND(rmRegister)
|
|
|
|
if (HasVEX_4VPrefix)
|
|
// FIXME: In AVX, the register below becomes the one encoded
|
|
// in ModRMVEX and the one above the one in the VEX.VVVV field
|
|
HANDLE_OPTIONAL(rmRegister)
|
|
else
|
|
HANDLE_OPTIONAL(immediate)
|
|
break;
|
|
case X86Local::MRMSrcMem:
|
|
// Operand 1 is a register operand in the Reg/Opcode field.
|
|
// Operand 2 is a memory operand (possibly SIB-extended)
|
|
// Operand 3 (optional) is an immediate.
|
|
assert(numPhysicalOperands >= 2 && numPhysicalOperands <= 3 &&
|
|
"Unexpected number of operands for MRMSrcMemFrm");
|
|
HANDLE_OPERAND(roRegister)
|
|
|
|
if (HasVEX_4VPrefix)
|
|
// FIXME: In AVX, the register below becomes the one encoded
|
|
// in ModRMVEX and the one above the one in the VEX.VVVV field
|
|
HANDLE_OPTIONAL(rmRegister)
|
|
|
|
HANDLE_OPERAND(memory)
|
|
HANDLE_OPTIONAL(immediate)
|
|
break;
|
|
case X86Local::MRM0r:
|
|
case X86Local::MRM1r:
|
|
case X86Local::MRM2r:
|
|
case X86Local::MRM3r:
|
|
case X86Local::MRM4r:
|
|
case X86Local::MRM5r:
|
|
case X86Local::MRM6r:
|
|
case X86Local::MRM7r:
|
|
// Operand 1 is a register operand in the R/M field.
|
|
// Operand 2 (optional) is an immediate or relocation.
|
|
assert(numPhysicalOperands <= 2 &&
|
|
"Unexpected number of operands for MRMnRFrm");
|
|
HANDLE_OPTIONAL(rmRegister)
|
|
HANDLE_OPTIONAL(relocation)
|
|
break;
|
|
case X86Local::MRM0m:
|
|
case X86Local::MRM1m:
|
|
case X86Local::MRM2m:
|
|
case X86Local::MRM3m:
|
|
case X86Local::MRM4m:
|
|
case X86Local::MRM5m:
|
|
case X86Local::MRM6m:
|
|
case X86Local::MRM7m:
|
|
// Operand 1 is a memory operand (possibly SIB-extended)
|
|
// Operand 2 (optional) is an immediate or relocation.
|
|
assert(numPhysicalOperands >= 1 && numPhysicalOperands <= 2 &&
|
|
"Unexpected number of operands for MRMnMFrm");
|
|
HANDLE_OPERAND(memory)
|
|
HANDLE_OPTIONAL(relocation)
|
|
break;
|
|
case X86Local::RawFrmImm8:
|
|
// operand 1 is a 16-bit immediate
|
|
// operand 2 is an 8-bit immediate
|
|
assert(numPhysicalOperands == 2 &&
|
|
"Unexpected number of operands for X86Local::RawFrmImm8");
|
|
HANDLE_OPERAND(immediate)
|
|
HANDLE_OPERAND(immediate)
|
|
break;
|
|
case X86Local::RawFrmImm16:
|
|
// operand 1 is a 16-bit immediate
|
|
// operand 2 is a 16-bit immediate
|
|
HANDLE_OPERAND(immediate)
|
|
HANDLE_OPERAND(immediate)
|
|
break;
|
|
case X86Local::MRMInitReg:
|
|
// Ignored.
|
|
break;
|
|
}
|
|
|
|
#undef HANDLE_OPERAND
|
|
#undef HANDLE_OPTIONAL
|
|
}
|
|
|
|
void RecognizableInstr::emitDecodePath(DisassemblerTables &tables) const {
|
|
// Special cases where the LLVM tables are not complete
|
|
|
|
#define MAP(from, to) \
|
|
case X86Local::MRM_##from: \
|
|
filter = new ExactFilter(0x##from); \
|
|
break;
|
|
|
|
OpcodeType opcodeType = (OpcodeType)-1;
|
|
|
|
ModRMFilter* filter = NULL;
|
|
uint8_t opcodeToSet = 0;
|
|
|
|
switch (Prefix) {
|
|
// Extended two-byte opcodes can start with f2 0f, f3 0f, or 0f
|
|
case X86Local::XD:
|
|
case X86Local::XS:
|
|
case X86Local::TB:
|
|
opcodeType = TWOBYTE;
|
|
|
|
switch (Opcode) {
|
|
default:
|
|
if (needsModRMForDecode(Form))
|
|
filter = new ModFilter(isRegFormat(Form));
|
|
else
|
|
filter = new DumbFilter();
|
|
break;
|
|
#define EXTENSION_TABLE(n) case 0x##n:
|
|
TWO_BYTE_EXTENSION_TABLES
|
|
#undef EXTENSION_TABLE
|
|
switch (Form) {
|
|
default:
|
|
llvm_unreachable("Unhandled two-byte extended opcode");
|
|
case X86Local::MRM0r:
|
|
case X86Local::MRM1r:
|
|
case X86Local::MRM2r:
|
|
case X86Local::MRM3r:
|
|
case X86Local::MRM4r:
|
|
case X86Local::MRM5r:
|
|
case X86Local::MRM6r:
|
|
case X86Local::MRM7r:
|
|
filter = new ExtendedFilter(true, Form - X86Local::MRM0r);
|
|
break;
|
|
case X86Local::MRM0m:
|
|
case X86Local::MRM1m:
|
|
case X86Local::MRM2m:
|
|
case X86Local::MRM3m:
|
|
case X86Local::MRM4m:
|
|
case X86Local::MRM5m:
|
|
case X86Local::MRM6m:
|
|
case X86Local::MRM7m:
|
|
filter = new ExtendedFilter(false, Form - X86Local::MRM0m);
|
|
break;
|
|
MRM_MAPPING
|
|
} // switch (Form)
|
|
break;
|
|
} // switch (Opcode)
|
|
opcodeToSet = Opcode;
|
|
break;
|
|
case X86Local::T8:
|
|
opcodeType = THREEBYTE_38;
|
|
if (needsModRMForDecode(Form))
|
|
filter = new ModFilter(isRegFormat(Form));
|
|
else
|
|
filter = new DumbFilter();
|
|
opcodeToSet = Opcode;
|
|
break;
|
|
case X86Local::P_TA:
|
|
opcodeType = THREEBYTE_3A;
|
|
if (needsModRMForDecode(Form))
|
|
filter = new ModFilter(isRegFormat(Form));
|
|
else
|
|
filter = new DumbFilter();
|
|
opcodeToSet = Opcode;
|
|
break;
|
|
case X86Local::D8:
|
|
case X86Local::D9:
|
|
case X86Local::DA:
|
|
case X86Local::DB:
|
|
case X86Local::DC:
|
|
case X86Local::DD:
|
|
case X86Local::DE:
|
|
case X86Local::DF:
|
|
assert(Opcode >= 0xc0 && "Unexpected opcode for an escape opcode");
|
|
opcodeType = ONEBYTE;
|
|
if (Form == X86Local::AddRegFrm) {
|
|
Spec->modifierType = MODIFIER_MODRM;
|
|
Spec->modifierBase = Opcode;
|
|
filter = new AddRegEscapeFilter(Opcode);
|
|
} else {
|
|
filter = new EscapeFilter(true, Opcode);
|
|
}
|
|
opcodeToSet = 0xd8 + (Prefix - X86Local::D8);
|
|
break;
|
|
default:
|
|
opcodeType = ONEBYTE;
|
|
switch (Opcode) {
|
|
#define EXTENSION_TABLE(n) case 0x##n:
|
|
ONE_BYTE_EXTENSION_TABLES
|
|
#undef EXTENSION_TABLE
|
|
switch (Form) {
|
|
default:
|
|
llvm_unreachable("Fell through the cracks of a single-byte "
|
|
"extended opcode");
|
|
case X86Local::MRM0r:
|
|
case X86Local::MRM1r:
|
|
case X86Local::MRM2r:
|
|
case X86Local::MRM3r:
|
|
case X86Local::MRM4r:
|
|
case X86Local::MRM5r:
|
|
case X86Local::MRM6r:
|
|
case X86Local::MRM7r:
|
|
filter = new ExtendedFilter(true, Form - X86Local::MRM0r);
|
|
break;
|
|
case X86Local::MRM0m:
|
|
case X86Local::MRM1m:
|
|
case X86Local::MRM2m:
|
|
case X86Local::MRM3m:
|
|
case X86Local::MRM4m:
|
|
case X86Local::MRM5m:
|
|
case X86Local::MRM6m:
|
|
case X86Local::MRM7m:
|
|
filter = new ExtendedFilter(false, Form - X86Local::MRM0m);
|
|
break;
|
|
MRM_MAPPING
|
|
} // switch (Form)
|
|
break;
|
|
case 0xd8:
|
|
case 0xd9:
|
|
case 0xda:
|
|
case 0xdb:
|
|
case 0xdc:
|
|
case 0xdd:
|
|
case 0xde:
|
|
case 0xdf:
|
|
filter = new EscapeFilter(false, Form - X86Local::MRM0m);
|
|
break;
|
|
default:
|
|
if (needsModRMForDecode(Form))
|
|
filter = new ModFilter(isRegFormat(Form));
|
|
else
|
|
filter = new DumbFilter();
|
|
break;
|
|
} // switch (Opcode)
|
|
opcodeToSet = Opcode;
|
|
} // switch (Prefix)
|
|
|
|
assert(opcodeType != (OpcodeType)-1 &&
|
|
"Opcode type not set");
|
|
assert(filter && "Filter not set");
|
|
|
|
if (Form == X86Local::AddRegFrm) {
|
|
if(Spec->modifierType != MODIFIER_MODRM) {
|
|
assert(opcodeToSet < 0xf9 &&
|
|
"Not enough room for all ADDREG_FRM operands");
|
|
|
|
uint8_t currentOpcode;
|
|
|
|
for (currentOpcode = opcodeToSet;
|
|
currentOpcode < opcodeToSet + 8;
|
|
++currentOpcode)
|
|
tables.setTableFields(opcodeType,
|
|
insnContext(),
|
|
currentOpcode,
|
|
*filter,
|
|
UID);
|
|
|
|
Spec->modifierType = MODIFIER_OPCODE;
|
|
Spec->modifierBase = opcodeToSet;
|
|
} else {
|
|
// modifierBase was set where MODIFIER_MODRM was set
|
|
tables.setTableFields(opcodeType,
|
|
insnContext(),
|
|
opcodeToSet,
|
|
*filter,
|
|
UID);
|
|
}
|
|
} else {
|
|
tables.setTableFields(opcodeType,
|
|
insnContext(),
|
|
opcodeToSet,
|
|
*filter,
|
|
UID);
|
|
|
|
Spec->modifierType = MODIFIER_NONE;
|
|
Spec->modifierBase = opcodeToSet;
|
|
}
|
|
|
|
delete filter;
|
|
|
|
#undef MAP
|
|
}
|
|
|
|
#define TYPE(str, type) if (s == str) return type;
|
|
OperandType RecognizableInstr::typeFromString(const std::string &s,
|
|
bool isSSE,
|
|
bool hasREX_WPrefix,
|
|
bool hasOpSizePrefix) {
|
|
if (isSSE) {
|
|
// For SSE instructions, we ignore the OpSize prefix and force operand
|
|
// sizes.
|
|
TYPE("GR16", TYPE_R16)
|
|
TYPE("GR32", TYPE_R32)
|
|
TYPE("GR64", TYPE_R64)
|
|
}
|
|
if(hasREX_WPrefix) {
|
|
// For instructions with a REX_W prefix, a declared 32-bit register encoding
|
|
// is special.
|
|
TYPE("GR32", TYPE_R32)
|
|
}
|
|
if(!hasOpSizePrefix) {
|
|
// For instructions without an OpSize prefix, a declared 16-bit register or
|
|
// immediate encoding is special.
|
|
TYPE("GR16", TYPE_R16)
|
|
TYPE("i16imm", TYPE_IMM16)
|
|
}
|
|
TYPE("i16mem", TYPE_Mv)
|
|
TYPE("i16imm", TYPE_IMMv)
|
|
TYPE("i16i8imm", TYPE_IMMv)
|
|
TYPE("GR16", TYPE_Rv)
|
|
TYPE("i32mem", TYPE_Mv)
|
|
TYPE("i32imm", TYPE_IMMv)
|
|
TYPE("i32i8imm", TYPE_IMM32)
|
|
TYPE("GR32", TYPE_Rv)
|
|
TYPE("i64mem", TYPE_Mv)
|
|
TYPE("i64i32imm", TYPE_IMM64)
|
|
TYPE("i64i8imm", TYPE_IMM64)
|
|
TYPE("GR64", TYPE_R64)
|
|
TYPE("i8mem", TYPE_M8)
|
|
TYPE("i8imm", TYPE_IMM8)
|
|
TYPE("GR8", TYPE_R8)
|
|
TYPE("VR128", TYPE_XMM128)
|
|
TYPE("f128mem", TYPE_M128)
|
|
TYPE("f256mem", TYPE_M256)
|
|
TYPE("FR64", TYPE_XMM64)
|
|
TYPE("f64mem", TYPE_M64FP)
|
|
TYPE("sdmem", TYPE_M64FP)
|
|
TYPE("FR32", TYPE_XMM32)
|
|
TYPE("f32mem", TYPE_M32FP)
|
|
TYPE("ssmem", TYPE_M32FP)
|
|
TYPE("RST", TYPE_ST)
|
|
TYPE("i128mem", TYPE_M128)
|
|
TYPE("i64i32imm_pcrel", TYPE_REL64)
|
|
TYPE("i16imm_pcrel", TYPE_REL16)
|
|
TYPE("i32imm_pcrel", TYPE_REL32)
|
|
TYPE("SSECC", TYPE_IMM3)
|
|
TYPE("brtarget", TYPE_RELv)
|
|
TYPE("uncondbrtarget", TYPE_RELv)
|
|
TYPE("brtarget8", TYPE_REL8)
|
|
TYPE("f80mem", TYPE_M80FP)
|
|
TYPE("lea32mem", TYPE_LEA)
|
|
TYPE("lea64_32mem", TYPE_LEA)
|
|
TYPE("lea64mem", TYPE_LEA)
|
|
TYPE("VR64", TYPE_MM64)
|
|
TYPE("i64imm", TYPE_IMMv)
|
|
TYPE("opaque32mem", TYPE_M1616)
|
|
TYPE("opaque48mem", TYPE_M1632)
|
|
TYPE("opaque80mem", TYPE_M1664)
|
|
TYPE("opaque512mem", TYPE_M512)
|
|
TYPE("SEGMENT_REG", TYPE_SEGMENTREG)
|
|
TYPE("DEBUG_REG", TYPE_DEBUGREG)
|
|
TYPE("CONTROL_REG", TYPE_CONTROLREG)
|
|
TYPE("offset8", TYPE_MOFFS8)
|
|
TYPE("offset16", TYPE_MOFFS16)
|
|
TYPE("offset32", TYPE_MOFFS32)
|
|
TYPE("offset64", TYPE_MOFFS64)
|
|
errs() << "Unhandled type string " << s << "\n";
|
|
llvm_unreachable("Unhandled type string");
|
|
}
|
|
#undef TYPE
|
|
|
|
#define ENCODING(str, encoding) if (s == str) return encoding;
|
|
OperandEncoding RecognizableInstr::immediateEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
if(!hasOpSizePrefix) {
|
|
// For instructions without an OpSize prefix, a declared 16-bit register or
|
|
// immediate encoding is special.
|
|
ENCODING("i16imm", ENCODING_IW)
|
|
}
|
|
ENCODING("i32i8imm", ENCODING_IB)
|
|
ENCODING("SSECC", ENCODING_IB)
|
|
ENCODING("i16imm", ENCODING_Iv)
|
|
ENCODING("i16i8imm", ENCODING_IB)
|
|
ENCODING("i32imm", ENCODING_Iv)
|
|
ENCODING("i64i32imm", ENCODING_ID)
|
|
ENCODING("i64i8imm", ENCODING_IB)
|
|
ENCODING("i8imm", ENCODING_IB)
|
|
errs() << "Unhandled immediate encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled immediate encoding");
|
|
}
|
|
|
|
OperandEncoding RecognizableInstr::rmRegisterEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
ENCODING("GR16", ENCODING_RM)
|
|
ENCODING("GR32", ENCODING_RM)
|
|
ENCODING("GR64", ENCODING_RM)
|
|
ENCODING("GR8", ENCODING_RM)
|
|
ENCODING("VR128", ENCODING_RM)
|
|
ENCODING("FR64", ENCODING_RM)
|
|
ENCODING("FR32", ENCODING_RM)
|
|
ENCODING("VR64", ENCODING_RM)
|
|
errs() << "Unhandled R/M register encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled R/M register encoding");
|
|
}
|
|
|
|
OperandEncoding RecognizableInstr::roRegisterEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
ENCODING("GR16", ENCODING_REG)
|
|
ENCODING("GR32", ENCODING_REG)
|
|
ENCODING("GR64", ENCODING_REG)
|
|
ENCODING("GR8", ENCODING_REG)
|
|
ENCODING("VR128", ENCODING_REG)
|
|
ENCODING("FR64", ENCODING_REG)
|
|
ENCODING("FR32", ENCODING_REG)
|
|
ENCODING("VR64", ENCODING_REG)
|
|
ENCODING("SEGMENT_REG", ENCODING_REG)
|
|
ENCODING("DEBUG_REG", ENCODING_REG)
|
|
ENCODING("CONTROL_REG", ENCODING_REG)
|
|
errs() << "Unhandled reg/opcode register encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled reg/opcode register encoding");
|
|
}
|
|
|
|
OperandEncoding RecognizableInstr::memoryEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
ENCODING("i16mem", ENCODING_RM)
|
|
ENCODING("i32mem", ENCODING_RM)
|
|
ENCODING("i64mem", ENCODING_RM)
|
|
ENCODING("i8mem", ENCODING_RM)
|
|
ENCODING("ssmem", ENCODING_RM)
|
|
ENCODING("sdmem", ENCODING_RM)
|
|
ENCODING("f128mem", ENCODING_RM)
|
|
ENCODING("f256mem", ENCODING_RM)
|
|
ENCODING("f64mem", ENCODING_RM)
|
|
ENCODING("f32mem", ENCODING_RM)
|
|
ENCODING("i128mem", ENCODING_RM)
|
|
ENCODING("f80mem", ENCODING_RM)
|
|
ENCODING("lea32mem", ENCODING_RM)
|
|
ENCODING("lea64_32mem", ENCODING_RM)
|
|
ENCODING("lea64mem", ENCODING_RM)
|
|
ENCODING("opaque32mem", ENCODING_RM)
|
|
ENCODING("opaque48mem", ENCODING_RM)
|
|
ENCODING("opaque80mem", ENCODING_RM)
|
|
ENCODING("opaque512mem", ENCODING_RM)
|
|
errs() << "Unhandled memory encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled memory encoding");
|
|
}
|
|
|
|
OperandEncoding RecognizableInstr::relocationEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
if(!hasOpSizePrefix) {
|
|
// For instructions without an OpSize prefix, a declared 16-bit register or
|
|
// immediate encoding is special.
|
|
ENCODING("i16imm", ENCODING_IW)
|
|
}
|
|
ENCODING("i16imm", ENCODING_Iv)
|
|
ENCODING("i16i8imm", ENCODING_IB)
|
|
ENCODING("i32imm", ENCODING_Iv)
|
|
ENCODING("i32i8imm", ENCODING_IB)
|
|
ENCODING("i64i32imm", ENCODING_ID)
|
|
ENCODING("i64i8imm", ENCODING_IB)
|
|
ENCODING("i8imm", ENCODING_IB)
|
|
ENCODING("i64i32imm_pcrel", ENCODING_ID)
|
|
ENCODING("i16imm_pcrel", ENCODING_IW)
|
|
ENCODING("i32imm_pcrel", ENCODING_ID)
|
|
ENCODING("brtarget", ENCODING_Iv)
|
|
ENCODING("brtarget8", ENCODING_IB)
|
|
ENCODING("i64imm", ENCODING_IO)
|
|
ENCODING("offset8", ENCODING_Ia)
|
|
ENCODING("offset16", ENCODING_Ia)
|
|
ENCODING("offset32", ENCODING_Ia)
|
|
ENCODING("offset64", ENCODING_Ia)
|
|
errs() << "Unhandled relocation encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled relocation encoding");
|
|
}
|
|
|
|
OperandEncoding RecognizableInstr::opcodeModifierEncodingFromString
|
|
(const std::string &s,
|
|
bool hasOpSizePrefix) {
|
|
ENCODING("RST", ENCODING_I)
|
|
ENCODING("GR32", ENCODING_Rv)
|
|
ENCODING("GR64", ENCODING_RO)
|
|
ENCODING("GR16", ENCODING_Rv)
|
|
ENCODING("GR8", ENCODING_RB)
|
|
errs() << "Unhandled opcode modifier encoding " << s << "\n";
|
|
llvm_unreachable("Unhandled opcode modifier encoding");
|
|
}
|
|
#undef ENCODING
|