/*
* Copyright (c) 2007, 2011, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.max.asm.gen.cisc.amd64;
import static com.sun.max.asm.amd64.AMD64GeneralRegister16.*;
import static com.sun.max.asm.amd64.AMD64GeneralRegister32.*;
import static com.sun.max.asm.amd64.AMD64GeneralRegister64.*;
import static com.sun.max.asm.amd64.AMD64GeneralRegister8.*;
import static com.sun.max.asm.gen.cisc.x86.AddressingMethodCode.*;
import static com.sun.max.asm.gen.cisc.x86.FloatingPointOperandCode.*;
import static com.sun.max.asm.gen.cisc.x86.ModRMGroup.Opcode.*;
import static com.sun.max.asm.gen.cisc.x86.OperandCode.*;
import static com.sun.max.asm.gen.cisc.x86.OperandTypeCode.*;
import java.util.*;
import com.sun.max.asm.amd64.*;
import com.sun.max.asm.gen.*;
import com.sun.max.asm.gen.cisc.x86.*;
/**
* See A-7 in the book.
*
* @see com.sun.max.asm.x86
*/
public enum AMD64ModRMGroup implements ModRMGroup {
GROUP_1(
modRM(ModRMGroup.Opcode.OPCODE_0, "ADD"),
modRM(OPCODE_1, "OR"),
modRM(OPCODE_2, "ADC"),
modRM(OPCODE_3, "SBB"),
modRM(OPCODE_4, "AND"),
modRM(OPCODE_5, "SUB"),
modRM(OPCODE_6, "XOR"),
modRM(OPCODE_7, "CMP")
),
GROUP_2(
modRM(OPCODE_0, "ROL"),
modRM(OPCODE_1, "ROR"),
modRM(OPCODE_2, "RCL"),
modRM(OPCODE_3, "RCR"),
modRM(OPCODE_4, "SHL"),
modRM(OPCODE_5, "SHR"),
modRM(OPCODE_6, "SHL"),
modRM(OPCODE_7, "SAR")
),
GROUP_3b(
modRM(OPCODE_0, "TEST", Eb.excludeExternalTestArguments(AL), Ib),
modRM(OPCODE_1, "TEST", Eb.excludeExternalTestArguments(AL), Ib),
modRM(OPCODE_2, "NOT", Eb),
modRM(OPCODE_3, "NEG", Eb),
modRM(OPCODE_4, "MUL", Eb, new ExternalOmission(AL)),
modRM(OPCODE_5, "IMUL", Eb, new ExternalOmission(AL)),
modRM(OPCODE_6, "DIV", Eb, new ExternalOmission(AL)),
modRM(OPCODE_7, "IDIV", Eb, new ExternalOmission(AL))
),
GROUP_3v(
modRM(OPCODE_0, "TEST", Ev.excludeExternalTestArguments(AX, EAX, RAX), Iz.externalRange(0, Integer.MAX_VALUE)),
modRM(OPCODE_1, "TEST", Ev.excludeExternalTestArguments(AX, EAX, RAX), Iz.externalRange(0, Integer.MAX_VALUE)),
modRM(OPCODE_2, "NOT", Ev),
modRM(OPCODE_3, "NEG", Ev),
modRM(OPCODE_4, "MUL", Ev),
modRM(OPCODE_5, "IMUL", Ev),
modRM(OPCODE_6, "DIV", Ev),
modRM(OPCODE_7, "IDIV", Ev)
),
GROUP_4(
modRM(OPCODE_0, "INC"),
modRM(OPCODE_1, "DEC")
),
GROUP_5a(
modRM(OPCODE_0, "INC", v, Ev),
modRM(OPCODE_1, "DEC", v, Ev)
// modRM(_3, "CALL", Mp), // legacy mode instruction
// modRM(_5, "JMP", Mp) // legacy mode instruction
),
GROUP_5b(
modRM(OPCODE_2, "CALL", Ev),
modRM(OPCODE_4, "JMP", Ev),
modRM(OPCODE_6, "PUSH", Ev.excludeExternalTestArguments(AMD64GeneralRegister16.ENUMERATOR, AMD64GeneralRegister32.ENUMERATOR, AMD64GeneralRegister64.ENUMERATOR))
),
GROUP_6a(
modRM(OPCODE_0, "SLDT", Mw),
modRM(OPCODE_1, "STR", Mw),
modRM(OPCODE_2, "LLDT", Ew),
modRM(OPCODE_3, "LTR", Ew),
modRM(OPCODE_4, "VERR", Ew),
modRM(OPCODE_5, "VERW", Ew)
),
GROUP_6b(
modRM(OPCODE_0, "SLDT", Rv),
modRM(OPCODE_1, "STR", Rv)
),
GROUP_7a(
modRM(OPCODE_0, "SGDT", Ms),
modRM(OPCODE_1, "SIDT", Ms),
modRM(OPCODE_2, "LGDT", Ms),
modRM(OPCODE_3, "LIDT", Ms),
modRM(OPCODE_4, "SMSW", Mw),
modRM(OPCODE_6, "LMSW", Ew),
modRM(OPCODE_7, "INVLPG", M)
),
GROUP_7b(
modRM(OPCODE_4, "SMSW", Rv),
modRM(OPCODE_7, "SWAPGS", X86TemplateContext.ModCase.MOD_3) // r/m field == 0
// modRM(_7, "RDTSCP", X86TemplateContext.ModCase.MOD_3) // r/m field == 1
),
GROUP_8(
modRM(OPCODE_4, "BT"),
modRM(OPCODE_5, "BTS"),
modRM(OPCODE_6, "BTR"),
modRM(OPCODE_7, "BTC")
),
GROUP_9a(
modRM(OPCODE_1, "CMPXCHG8B", Mq)
),
GROUP_9b(
modRM(OPCODE_1, "CMPXCHG16B", Mdq)
),
GROUP_10(
),
GROUP_11(
modRM(OPCODE_0, "MOV", Eb, Ib),
modRM(OPCODE_1, "MOV", Ev, Iz)
),
GROUP_12a(
modRM(OPCODE_2, "PSRLW", PRq, Ib),
modRM(OPCODE_4, "PSRAW", PRq, Ib),
modRM(OPCODE_6, "PSLLW", PRq, Ib)
),
GROUP_12b(
modRM(OPCODE_2, "PSRLW", VRdq, Ib),
modRM(OPCODE_4, "PSRAW", VRdq, Ib),
modRM(OPCODE_6, "PSLLW", VRdq, Ib)
),
GROUP_13a(
modRM(OPCODE_2, "PSRLD", PRq, Ib),
modRM(OPCODE_4, "PSRAD", PRq, Ib),
modRM(OPCODE_6, "PSLLD", PRq, Ib)
),
GROUP_13b(
modRM(OPCODE_2, "PSRLD", VRdq, Ib),
modRM(OPCODE_4, "PSRAD", VRdq, Ib),
modRM(OPCODE_6, "PSLLD", VRdq, Ib)
),
GROUP_14a(
modRM(OPCODE_2, "PSRLQ", PRq, Ib),
modRM(OPCODE_6, "PSLLQ", PRq, Ib)
),
GROUP_14b(
modRM(OPCODE_2, "PSRLQ", VRdq, Ib),
modRM(OPCODE_3, "PSRLDQ", VRdq, Ib),
modRM(OPCODE_6, "PSLLQ", VRdq, Ib),
modRM(OPCODE_7, "PSLLDQ", VRdq, Ib)
),
GROUP_15a(
modRM(OPCODE_0, "FXSAVE", M),
modRM(OPCODE_1, "FXRSTOR", M),
modRM(OPCODE_2, "LDMXCSR", Md),
modRM(OPCODE_3, "STMXCSR", Md),
modRM(OPCODE_7, "CLFLUSH", Mb)
),
GROUP_15b(
modRM(OPCODE_5, "LFENCE"),
modRM(OPCODE_6, "MFENCE"),
modRM(OPCODE_7, "SFENCE")
),
GROUP_16(
modRM(OPCODE_0, "PREFETCHNTA"),
modRM(OPCODE_1, "PREFETCHT0"),
modRM(OPCODE_2, "PREFETCHT1"),
modRM(OPCODE_3, "PREFETCHT2")
),
GROUP_P(
modRM(OPCODE_0, "PREFETCH"),
modRM(OPCODE_1, "PREFETCHW"),
modRM(OPCODE_3, "PREFETCH")
),
FP_D8(
modRM(OPCODE_0, "FADD", single_real),
modRM(OPCODE_1, "FMUL", single_real),
modRM(OPCODE_2, "FCOM", single_real),
modRM(OPCODE_3, "FCOMP", single_real),
modRM(OPCODE_4, "FSUB", single_real),
modRM(OPCODE_5, "FSUBR", single_real),
modRM(OPCODE_6, "FDIV", single_real),
modRM(OPCODE_7, "FDIVR", single_real)
),
FP_D9(
modRM(OPCODE_0, "FLD", single_real),
modRM(OPCODE_2, "FST", single_real),
modRM(OPCODE_3, "FSTP", single_real),
modRM(OPCODE_4, "FLDENV", bytes_14_28),
modRM(OPCODE_5, "FLDCW", bytes_2),
modRM(OPCODE_6, "FSTENV", bytes_14_28),
modRM(OPCODE_7, "FSTCW", bytes_2)
),
FP_DA(
modRM(OPCODE_0, "FIADD", short_integer),
modRM(OPCODE_1, "FIMUL", short_integer),
modRM(OPCODE_2, "FICOM", short_integer),
modRM(OPCODE_3, "FICOMP", short_integer),
modRM(OPCODE_4, "FISUB", short_integer),
modRM(OPCODE_5, "FISUBR", short_integer),
modRM(OPCODE_6, "FIDIV", short_integer),
modRM(OPCODE_7, "FIDIVR", short_integer)
),
FP_DB(
modRM(OPCODE_0, "FILD", short_integer),
modRM(OPCODE_2, "FIST", short_integer),
modRM(OPCODE_3, "FISTP", short_integer),
modRM(OPCODE_5, "FLD", extended_real),
modRM(OPCODE_7, "FSTP", extended_real)
),
FP_DC(
modRM(OPCODE_0, "FADD", double_real),
modRM(OPCODE_1, "FMUL", double_real),
modRM(OPCODE_2, "FCOM", double_real),
modRM(OPCODE_3, "FCOMP", double_real),
modRM(OPCODE_4, "FSUB", double_real),
modRM(OPCODE_5, "FSUBR", double_real),
modRM(OPCODE_6, "FDIV", double_real),
modRM(OPCODE_7, "FDIVR", double_real)
),
FP_DD(
modRM(OPCODE_0, "FLD", double_real),
modRM(OPCODE_2, "FST", double_real),
modRM(OPCODE_3, "FSTP", double_real),
modRM(OPCODE_4, "FRSTOR", bytes_98_108),
modRM(OPCODE_6, "FSAVE", bytes_98_108),
modRM(OPCODE_7, "FSTSW", bytes_2)
),
FP_DE(
modRM(OPCODE_0, "FIADD", word_integer),
modRM(OPCODE_1, "FIMUL", word_integer),
modRM(OPCODE_2, "FICOM", word_integer),
modRM(OPCODE_3, "FICOMP", word_integer),
modRM(OPCODE_4, "FISUB", word_integer),
modRM(OPCODE_5, "FISUBR", word_integer),
modRM(OPCODE_6, "FIDIV", word_integer),
modRM(OPCODE_7, "FIDIVR", word_integer)
),
FP_DF(
modRM(OPCODE_0, "FILD", word_integer),
modRM(OPCODE_2, "FIST", word_integer),
modRM(OPCODE_3, "FISTP", word_integer),
modRM(OPCODE_4, "FBLD", packed_bcd),
modRM(OPCODE_5, "FILD", long_integer),
modRM(OPCODE_6, "FBSTP", packed_bcd),
modRM(OPCODE_7, "FISTP", long_integer)
);
private static ModRMDescription modRM(ModRMGroup.Opcode opcode, String name, Object... specifications) {
return new ModRMDescription(opcode, name, Arrays.asList(specifications));
}
private final ModRMDescription[] instructionDescriptions;
private AMD64ModRMGroup(ModRMDescription... instructionDescriptions) {
this.instructionDescriptions = instructionDescriptions;
}
public ModRMDescription getInstructionDescription(ModRMGroup.Opcode opcode) {
for (ModRMDescription instructionDescription : instructionDescriptions) {
if (instructionDescription.opcode() == opcode) {
return instructionDescription;
}
}
return null;
}
}