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//
// Copyright (C) 2010 Wayne Meissner
// Copyright (c) 2008-2009, Petr Kobalicek
//
// Permission is hereby granted, free of charge, to any person
// obtaining a copy of this software and associated documentation
// files (the "Software"), to deal in the Software without
// restriction, including without limitation the rights to use,
// copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following
// conditions:
//
// The above copyright notice and this permission notice shall be
// included in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
// OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
// WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
package jnr.x86asm;
import static jnr.x86asm.INST_CODE.*;
/**
* Assembler intrinsics seralizer.
*
* SerializerCore is abstract class that is used by @c Assembler and @a Compiler.
* You probably never use this class directly, instead you use it to serialize
* intrinsics to @c Assembler or @c Compiler. @c SerializerIntrinsics implements
* all intruction intrinsics thats used and @c Serializer is public serializer
* class that should be used (instead of @c SerializerCore or @c SerializerInstrinsics).
*
* Note: Use always {@link Serializer} class, this class is only designed to
* decrease code size when exporting AsmJit library symbols. Some compilers
* (for example MSVC) are exporting inline symbols when class is declared
* to export them and {@link Serializer} class contains really huge count of
* symbols that will be never used (everything is inlined).
*/
public abstract class SerializerCore {
static final Operand _none = new Operand(OP.OP_NONE, 0) {};
//! @brief Emits X86/FPU or MM instruction.
//!
//! Operands @a o1, @a o2 or @a o3 can be @c NULL if they are not used.
//!
//! Hint: Use @c emitX86() helpers to emit instructions.
abstract void _emitX86(INST_CODE code, Operand o1, Operand o2, Operand o3);
// Helpers to decrease binary code size. These four emit methods are just
// helpers thats used by serializer. They call _emitX86() adding NULLs
// to first, second and third operand if needed.
//! @brief Emits instruction with no operand.
//!
//! Should be use as an alternative to @c _emitX86() method.
void emitX86(INST_CODE code) {
_emitX86(code, _none, _none, _none);
}
//! @brief Emits instruction with one operand.
//!
//! Should be use as an alternative to @c _emitX86() method.
void emitX86(INST_CODE code, Operand o1) {
_emitX86(code, o1, _none, _none);
}
//! @brief Emits instruction with two operands.
//!
//! Should be use as an alternative to @c _emitX86() method.
void emitX86(INST_CODE code, Operand o1, Operand o2) {
_emitX86(code, o1, o2, _none);
}
//! @brief Emits instruction with three operands.
//!
//! Should be use as an alternative to @c _emitX86() method.
void emitX86(INST_CODE code, Operand o1, Operand o2, Operand o3) {
_emitX86(code, o1, o2, o3);
}
//! @brief Private method for emitting jcc.
//! @internal This should be probably private.
void _emitJcc(INST_CODE code, Label label, final int hint) {
if (hint == 0) {
emitX86(code, label);
} else {
emitX86(code, label, Immediate.imm(hint));
}
}
//! @brief Private method for emitting jcc.
//! @internal This should be probably private.
void _emitJcc(INST_CODE code, Label label, final HINT hint) {
if (hint == HINT.HINT_NONE) {
emitX86(code, label);
} else {
emitX86(code, label, Immediate.imm(hint.value()));
}
}
abstract boolean is64();
//! @brief Translate condition code @a CC to AsmJit jump (jcc) instruction code.
//! @sa @c INST_CODE, @c INST_J.
static INST_CODE conditionToJCC(CONDITION cc) {
assert (cc.value() <= 0xF);
return _jcctable[cc.value()];
}
//! @brief Translate condition code @a CC to AsmJit cmov (cmovcc) instruction code.
//! @sa @c INST_CODE, @c INST_CMOV.
static INST_CODE conditionToCMovCC(CONDITION cc) {
assert (cc.value() <= 0xF);
return _cmovcctable[cc.value()];
}
//! @brief Translate condition code @a CC to AsmJit set (setcc) instruction code.
//! @sa @c INST_CODE, @c INST_SET.
static INST_CODE conditionToSetCC(CONDITION cc) {
assert (cc.value() <= 0xF);
return _setcctable[cc.value()];
}
/** Map used for jcc instructions. */
static INST_CODE[] _jcctable = {
INST_JO,
INST_JNO,
INST_JB,
INST_JAE,
INST_JE,
INST_JNE,
INST_JBE,
INST_JA,
INST_JS,
INST_JNS,
INST_JPE,
INST_JPO,
INST_JL,
INST_JGE,
INST_JLE,
INST_JG
};
/** Map used for cmovcc instructions. */
static INST_CODE[] _cmovcctable = {
INST_CMOVO,
INST_CMOVNO,
INST_CMOVB,
INST_CMOVAE,
INST_CMOVE,
INST_CMOVNE,
INST_CMOVBE,
INST_CMOVA,
INST_CMOVS,
INST_CMOVNS,
INST_CMOVPE,
INST_CMOVPO,
INST_CMOVL,
INST_CMOVGE,
INST_CMOVLE,
INST_CMOVG
};
static final INST_CODE[] _setcctable = {
INST_SETO,
INST_SETNO,
INST_SETB,
INST_SETAE,
INST_SETE,
INST_SETNE,
INST_SETBE,
INST_SETA,
INST_SETS,
INST_SETNS,
INST_SETPE,
INST_SETPO,
INST_SETL,
INST_SETGE,
INST_SETLE,
INST_SETG
};
}
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