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71fc42dbf6
This is necessary to allow the disassembler to be able to handle AdSize32 instructions in 64-bit mode when address size prefix is used. Eventually we should probably also support 'addr32' and 'addr16' in the assembler to override the address size on some of these instructions. But for now we'll just use special operand types that will lookup the current mode size to select the right instruction. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@225075 91177308-0d34-0410-b5e6-96231b3b80d8
284 lines
11 KiB
C++
284 lines
11 KiB
C++
//===- X86DisassemblerTables.h - Disassembler tables ------------*- 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 interface of the disassembler tables.
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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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#ifndef LLVM_UTILS_TABLEGEN_X86DISASSEMBLERTABLES_H
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#define LLVM_UTILS_TABLEGEN_X86DISASSEMBLERTABLES_H
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#include "X86DisassemblerShared.h"
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#include "X86ModRMFilters.h"
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#include "llvm/Support/raw_ostream.h"
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#include <map>
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#include <vector>
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namespace llvm {
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namespace X86Disassembler {
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/// DisassemblerTables - Encapsulates all the decode tables being generated by
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/// the table emitter. Contains functions to populate the tables as well as
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/// to emit them as hierarchical C structures suitable for consumption by the
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/// runtime.
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class DisassemblerTables {
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private:
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/// The decoder tables. There is one for each opcode type:
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/// [0] one-byte opcodes
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/// [1] two-byte opcodes of the form 0f __
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/// [2] three-byte opcodes of the form 0f 38 __
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/// [3] three-byte opcodes of the form 0f 3a __
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/// [4] XOP8 map opcode
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/// [5] XOP9 map opcode
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/// [6] XOPA map opcode
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ContextDecision* Tables[7];
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// Table of ModRM encodings.
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typedef std::map<std::vector<unsigned>, unsigned> ModRMMapTy;
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mutable ModRMMapTy ModRMTable;
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/// The instruction information table
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std::vector<InstructionSpecifier> InstructionSpecifiers;
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/// True if there are primary decode conflicts in the instruction set
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bool HasConflicts;
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/// emitModRMDecision - Emits a table of entries corresponding to a single
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/// ModR/M decision. Compacts the ModR/M decision if possible. ModR/M
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/// decisions are printed as:
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///
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/// { /* struct ModRMDecision */
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/// TYPE,
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/// modRMTablennnn
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/// }
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///
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/// where nnnn is a unique ID for the corresponding table of IDs.
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/// TYPE indicates whether the table has one entry that is the same
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/// regardless of ModR/M byte, two entries - one for bytes 0x00-0xbf and one
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/// for bytes 0xc0-0xff -, or 256 entries, one for each possible byte.
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/// nnnn is the number of a table for looking up these values. The tables
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/// are written separately so that tables consisting entirely of zeros will
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/// not be duplicated. (These all have the name modRMEmptyTable.) A table
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/// is printed as:
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///
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/// InstrUID modRMTablennnn[k] = {
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/// nnnn, /* MNEMONIC */
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/// ...
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/// nnnn /* MNEMONIC */
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/// };
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///
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/// @param o1 - The output stream to print the ID table to.
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/// @param o2 - The output stream to print the decision structure to.
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/// @param i1 - The indentation level to use with stream o1.
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/// @param i2 - The indentation level to use with stream o2.
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/// @param ModRMTableNum - next table number for adding to ModRMTable.
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/// @param decision - The ModR/M decision to emit. This decision has 256
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/// entries - emitModRMDecision decides how to compact it.
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void emitModRMDecision(raw_ostream &o1, raw_ostream &o2,
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unsigned &i1, unsigned &i2, unsigned &ModRMTableNum,
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ModRMDecision &decision) const;
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/// emitOpcodeDecision - Emits an OpcodeDecision and all its subsidiary ModR/M
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/// decisions. An OpcodeDecision is printed as:
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///
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/// { /* struct OpcodeDecision */
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/// /* 0x00 */
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/// { /* struct ModRMDecision */
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/// ...
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/// }
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/// ...
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/// }
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///
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/// where the ModRMDecision structure is printed as described in the
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/// documentation for emitModRMDecision(). emitOpcodeDecision() passes on a
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/// stream and indent level for the UID tables generated by
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/// emitModRMDecision(), but does not use them itself.
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///
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/// @param o1 - The output stream to print the ID tables generated by
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/// emitModRMDecision() to.
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/// @param o2 - The output stream for the decision structure itself.
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/// @param i1 - The indent level to use with stream o1.
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/// @param i2 - The indent level to use with stream o2.
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/// @param ModRMTableNum - next table number for adding to ModRMTable.
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/// @param decision - The OpcodeDecision to emit along with its subsidiary
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/// structures.
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void emitOpcodeDecision(raw_ostream &o1, raw_ostream &o2,
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unsigned &i1, unsigned &i2, unsigned &ModRMTableNum,
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OpcodeDecision &decision) const;
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/// emitContextDecision - Emits a ContextDecision and all its subsidiary
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/// Opcode and ModRMDecisions. A ContextDecision is printed as:
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///
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/// struct ContextDecision NAME = {
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/// { /* OpcodeDecisions */
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/// /* IC */
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/// { /* struct OpcodeDecision */
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/// ...
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/// },
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/// ...
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/// }
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/// }
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///
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/// NAME is the name of the ContextDecision (typically one of the four names
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/// ONEBYTE_SYM, TWOBYTE_SYM, THREEBYTE38_SYM, THREEBYTE3A_SYM from
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/// X86DisassemblerDecoderCommon.h).
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/// IC is one of the contexts in InstructionContext. There is an opcode
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/// decision for each possible context.
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/// The OpcodeDecision structures are printed as described in the
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/// documentation for emitOpcodeDecision.
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///
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/// @param o1 - The output stream to print the ID tables generated by
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/// emitModRMDecision() to.
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/// @param o2 - The output stream to print the decision structure to.
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/// @param i1 - The indent level to use with stream o1.
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/// @param i2 - The indent level to use with stream o2.
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/// @param ModRMTableNum - next table number for adding to ModRMTable.
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/// @param decision - The ContextDecision to emit along with its subsidiary
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/// structures.
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/// @param name - The name for the ContextDecision.
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void emitContextDecision(raw_ostream &o1, raw_ostream &o2,
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unsigned &i1, unsigned &i2, unsigned &ModRMTableNum,
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ContextDecision &decision, const char* name) const;
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/// emitInstructionInfo - Prints the instruction specifier table, which has
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/// one entry for each instruction, and contains name and operand
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/// information. This table is printed as:
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///
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/// struct InstructionSpecifier CONTEXTS_SYM[k] = {
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/// {
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/// /* nnnn */
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/// "MNEMONIC",
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/// 0xnn,
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/// {
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/// {
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/// ENCODING,
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/// TYPE
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/// },
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/// ...
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/// }
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/// },
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/// };
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///
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/// k is the total number of instructions.
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/// nnnn is the ID of the current instruction (0-based). This table
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/// includes entries for non-instructions like PHINODE.
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/// 0xnn is the lowest possible opcode for the current instruction, used for
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/// AddRegFrm instructions to compute the operand's value.
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/// ENCODING and TYPE describe the encoding and type for a single operand.
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///
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/// @param o - The output stream to which the instruction table should be
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/// written.
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/// @param i - The indent level for use with the stream.
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void emitInstructionInfo(raw_ostream &o, unsigned &i) const;
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/// emitContextTable - Prints the table that is used to translate from an
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/// instruction attribute mask to an instruction context. This table is
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/// printed as:
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///
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/// InstructionContext CONTEXTS_STR[256] = {
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/// IC, /* 0x00 */
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/// ...
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/// };
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///
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/// IC is the context corresponding to the mask 0x00, and there are 256
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/// possible masks.
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///
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/// @param o - The output stream to which the context table should be written.
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/// @param i - The indent level for use with the stream.
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void emitContextTable(raw_ostream &o, uint32_t &i) const;
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/// emitContextDecisions - Prints all four ContextDecision structures using
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/// emitContextDecision().
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///
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/// @param o1 - The output stream to print the ID tables generated by
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/// emitModRMDecision() to.
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/// @param o2 - The output stream to print the decision structures to.
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/// @param i1 - The indent level to use with stream o1.
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/// @param i2 - The indent level to use with stream o2.
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/// @param ModRMTableNum - next table number for adding to ModRMTable.
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void emitContextDecisions(raw_ostream &o1, raw_ostream &o2,
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unsigned &i1, unsigned &i2,
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unsigned &ModRMTableNum) const;
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/// setTableFields - Uses a ModRMFilter to set the appropriate entries in a
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/// ModRMDecision to refer to a particular instruction ID.
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///
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/// @param decision - The ModRMDecision to populate.
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/// @param filter - The filter to use in deciding which entries to populate.
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/// @param uid - The unique ID to set matching entries to.
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/// @param opcode - The opcode of the instruction, for error reporting.
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void setTableFields(ModRMDecision &decision,
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const ModRMFilter &filter,
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InstrUID uid,
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uint8_t opcode);
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public:
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/// Constructor - Allocates space for the class decisions and clears them.
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DisassemblerTables();
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~DisassemblerTables();
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/// emit - Emits the instruction table, context table, and class decisions.
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///
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/// @param o - The output stream to print the tables to.
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void emit(raw_ostream &o) const;
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/// setTableFields - Uses the opcode type, instruction context, opcode, and a
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/// ModRMFilter as criteria to set a particular set of entries in the
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/// decode tables to point to a specific uid.
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///
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/// @param type - The opcode type (ONEBYTE, TWOBYTE, etc.)
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/// @param insnContext - The context to use (IC, IC_64BIT, etc.)
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/// @param opcode - The last byte of the opcode (not counting any escape
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/// or extended opcodes).
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/// @param filter - The ModRMFilter that decides which ModR/M byte values
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/// correspond to the desired instruction.
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/// @param uid - The unique ID of the instruction.
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/// @param is32bit - Instructon is only 32-bit
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/// @param ignoresVEX_L - Instruction ignores VEX.L
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/// @param AddrSize - Instructions address size 16/32/64. 0 is unspecified
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void setTableFields(OpcodeType type,
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InstructionContext insnContext,
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uint8_t opcode,
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const ModRMFilter &filter,
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InstrUID uid,
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bool is32bit,
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bool ignoresVEX_L,
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unsigned AddrSize);
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/// specForUID - Returns the instruction specifier for a given unique
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/// instruction ID. Used when resolving collisions.
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///
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/// @param uid - The unique ID of the instruction.
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/// @return - A reference to the instruction specifier.
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InstructionSpecifier& specForUID(InstrUID uid) {
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if (uid >= InstructionSpecifiers.size())
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InstructionSpecifiers.resize(uid + 1);
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return InstructionSpecifiers[uid];
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}
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// hasConflicts - Reports whether there were primary decode conflicts
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// from any instructions added to the tables.
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// @return - true if there were; false otherwise.
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bool hasConflicts() {
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return HasConflicts;
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}
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};
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} // namespace X86Disassembler
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} // namespace llvm
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#endif
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