assembler-x64.h revision 9fac840a46e8b7e26894f4792ba26dde14c56b04
1a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Copyright (c) 1994-2006 Sun Microsystems Inc. 2a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// All Rights Reserved. 3a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 4a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Redistribution and use in source and binary forms, with or without 5a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// modification, are permitted provided that the following conditions are 6a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// met: 7a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 8a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// - Redistributions of source code must retain the above copyright notice, 9a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// this list of conditions and the following disclaimer. 10a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 11a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// - Redistribution in binary form must reproduce the above copyright 12a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// notice, this list of conditions and the following disclaimer in the 13a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// documentation and/or other materials provided with the distribution. 14a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 15a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// - Neither the name of Sun Microsystems or the names of contributors may 16a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// be used to endorse or promote products derived from this software without 17a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// specific prior written permission. 18a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 19a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS 20a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 21a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR 23a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, 24a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 25a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 26a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF 27a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 28a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 29a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 30a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 31a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The original source code covered by the above license above has been 32a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// modified significantly by Google Inc. 33b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch// Copyright 2010 the V8 project authors. All rights reserved. 34a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 35a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// A lightweight X64 Assembler. 36a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 37a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifndef V8_X64_ASSEMBLER_X64_H_ 38a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#define V8_X64_ASSEMBLER_X64_H_ 39a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 40d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block#include "serialize.h" 41d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 42a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocknamespace v8 { 43a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blocknamespace internal { 44a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 45a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Utility functions 46a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 47a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Test whether a 64-bit value is in a specific range. 48a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic inline bool is_uint32(int64_t x) { 498defd9ff6930b4e24729971a61cf7469daf119beSteve Block static const uint64_t kMaxUInt32 = V8_UINT64_C(0xffffffff); 508defd9ff6930b4e24729971a61cf7469daf119beSteve Block return static_cast<uint64_t>(x) <= kMaxUInt32; 51a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 52a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 53a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic inline bool is_int32(int64_t x) { 548defd9ff6930b4e24729971a61cf7469daf119beSteve Block static const int64_t kMinInt32 = -V8_INT64_C(0x80000000); 558defd9ff6930b4e24729971a61cf7469daf119beSteve Block return is_uint32(x - kMinInt32); 56a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 57a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 58a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic inline bool uint_is_int32(uint64_t x) { 598defd9ff6930b4e24729971a61cf7469daf119beSteve Block static const uint64_t kMaxInt32 = V8_UINT64_C(0x7fffffff); 608defd9ff6930b4e24729971a61cf7469daf119beSteve Block return x <= kMaxInt32; 61a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 62a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 63a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstatic inline bool is_uint32(uint64_t x) { 648defd9ff6930b4e24729971a61cf7469daf119beSteve Block static const uint64_t kMaxUInt32 = V8_UINT64_C(0xffffffff); 658defd9ff6930b4e24729971a61cf7469daf119beSteve Block return x <= kMaxUInt32; 66a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 67a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 68a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// CPU Registers. 69a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 70a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 1) We would prefer to use an enum, but enum values are assignment- 71a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// compatible with int, which has caused code-generation bugs. 72a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 73a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 2) We would prefer to use a class instead of a struct but we don't like 74a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// the register initialization to depend on the particular initialization 75a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// order (which appears to be different on OS X, Linux, and Windows for the 76a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// installed versions of C++ we tried). Using a struct permits C-style 77a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// "initialization". Also, the Register objects cannot be const as this 78a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// forces initialization stubs in MSVC, making us dependent on initialization 79a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// order. 80a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 81a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 3) By not using an enum, we are possibly preventing the compiler from 82a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// doing certain constant folds, which may significantly reduce the 83a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// code generated for some assembly instructions (because they boil down 84a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// to a few constants). If this is a problem, we could change the code 85a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// such that we use an enum in optimized mode, and the struct in debug 86a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// mode. This way we get the compile-time error checking in debug mode 87a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// and best performance in optimized code. 88a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// 89a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 90a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstruct Register { 91b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // The non-allocatable registers are: 92b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // rsp - stack pointer 93b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // rbp - frame pointer 94b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // rsi - context register 95b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // r10 - fixed scratch register 96b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // r13 - root register 97b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // r15 - smi constant register 98b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const int kNumRegisters = 16; 99b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const int kNumAllocatableRegisters = 10; 100b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 101b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const char* AllocationIndexToString(int index) { 102b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch ASSERT(index >= 0 && index < kNumAllocatableRegisters); 103b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch const char* const names[] = { 104b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "rax", 105b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "rcx", 106b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "rdx", 107b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "rbx", 108b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "rdi", 109b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "r8", 110b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "r9", 111b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "r11", 112b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "r12", 113b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "r14" 114b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch }; 115b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch return names[index]; 116b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch } 117b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 118a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static Register toRegister(int code) { 119a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Register r = { code }; 120a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return r; 121a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 122b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch bool is_valid() const { return 0 <= code_ && code_ < kNumRegisters; } 1230d5e116f6aee03185f237311a943491bb079a768Kristian Monsen bool is(Register reg) const { return code_ == reg.code_; } 1240d5e116f6aee03185f237311a943491bb079a768Kristian Monsen int code() const { 125a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ASSERT(is_valid()); 126a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_; 127a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1280d5e116f6aee03185f237311a943491bb079a768Kristian Monsen int bit() const { 129a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return 1 << code_; 130a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 131a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 132a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Return the high bit of the register code as a 0 or 1. Used often 133a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // when constructing the REX prefix byte. 134a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int high_bit() const { 135a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_ >> 3; 136a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 137a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Return the 3 low bits of the register code. Used when encoding registers 138a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // in modR/M, SIB, and opcode bytes. 139a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int low_bits() const { 140a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_ & 0x7; 141a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 142a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1433100271588b61cbc1dc472a3f2f105d2eed8497fAndrei Popescu // Unfortunately we can't make this private in a struct when initializing 1443100271588b61cbc1dc472a3f2f105d2eed8497fAndrei Popescu // by assignment. 145a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int code_; 146a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 147a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 148402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rax = { 0 }; 149402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rcx = { 1 }; 150402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rdx = { 2 }; 151402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rbx = { 3 }; 152402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rsp = { 4 }; 153402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rbp = { 5 }; 154402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rsi = { 6 }; 155402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register rdi = { 7 }; 156402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r8 = { 8 }; 157402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r9 = { 9 }; 158402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r10 = { 10 }; 159402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r11 = { 11 }; 160402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r12 = { 12 }; 161402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r13 = { 13 }; 162402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r14 = { 14 }; 163402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register r15 = { 15 }; 164402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst Register no_reg = { -1 }; 165a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 166a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 167a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockstruct XMMRegister { 168b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const int kNumRegisters = 16; 169b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const int kNumAllocatableRegisters = 15; 170b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 171b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static int ToAllocationIndex(XMMRegister reg) { 172b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch ASSERT(reg.code() != 0); 173b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch return reg.code() - 1; 174b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch } 175b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 176b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static const char* AllocationIndexToString(int index) { 177b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch ASSERT(index >= 0 && index < kNumAllocatableRegisters); 178b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch const char* const names[] = { 179b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm1", 180b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm2", 181b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm3", 182b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm4", 183b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm5", 184b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm6", 185b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm7", 186b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm8", 187b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm9", 188b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm10", 189b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm11", 190b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm12", 191b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm13", 192b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm14", 193b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch "xmm15" 194b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch }; 195b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch return names[index]; 196b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch } 197b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 198b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch bool is_valid() const { return 0 <= code_ && code_ < kNumRegisters; } 1990d5e116f6aee03185f237311a943491bb079a768Kristian Monsen int code() const { 200a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ASSERT(is_valid()); 201a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_; 202a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 203a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 204a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Return the high bit of the register code as a 0 or 1. Used often 205a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // when constructing the REX prefix byte. 206a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int high_bit() const { 207a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_ >> 3; 208a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 209a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Return the 3 low bits of the register code. Used when encoding registers 210a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // in modR/M, SIB, and opcode bytes. 211a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int low_bits() const { 212a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return code_ & 0x7; 213a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 214a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 215a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int code_; 216a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 217a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 218402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm0 = { 0 }; 219402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm1 = { 1 }; 220402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm2 = { 2 }; 221402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm3 = { 3 }; 222402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm4 = { 4 }; 223402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm5 = { 5 }; 224402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm6 = { 6 }; 225402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm7 = { 7 }; 226402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm8 = { 8 }; 227402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm9 = { 9 }; 228402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm10 = { 10 }; 229402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm11 = { 11 }; 230402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm12 = { 12 }; 231402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm13 = { 13 }; 232402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm14 = { 14 }; 233402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescuconst XMMRegister xmm15 = { 15 }; 234a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 235b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 236b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdochtypedef XMMRegister DoubleRegister; 237b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 238b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 239a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockenum Condition { 240a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // any value < 0 is considered no_condition 241a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block no_condition = -1, 242a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 243a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block overflow = 0, 244a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block no_overflow = 1, 245a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block below = 2, 246a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block above_equal = 3, 247a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block equal = 4, 248a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block not_equal = 5, 249a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block below_equal = 6, 250a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block above = 7, 251a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block negative = 8, 252a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block positive = 9, 253a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block parity_even = 10, 254a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block parity_odd = 11, 255a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block less = 12, 256a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block greater_equal = 13, 257a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block less_equal = 14, 258a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block greater = 15, 259a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 2603ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Fake conditions that are handled by the 2613ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // opcodes using them. 2623ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block always = 16, 2633ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block never = 17, 264a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // aliases 265a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block carry = below, 266a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block not_carry = above_equal, 267a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block zero = equal, 268a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block not_zero = not_equal, 269a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block sign = negative, 2703ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block not_sign = positive, 2713ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block last_condition = greater 272a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 273a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 274a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 275a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Returns the equivalent of !cc. 276a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Negation of the default no_condition (-1) results in a non-default 277a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// no_condition value (-2). As long as tests for no_condition check 278a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// for condition < 0, this will work as expected. 2799dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monseninline Condition NegateCondition(Condition cc) { 2809dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen return static_cast<Condition>(cc ^ 1); 2819dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen} 2829dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen 283a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 284a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Corresponds to transposing the operands of a comparison. 285a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockinline Condition ReverseCondition(Condition cc) { 286a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block switch (cc) { 287a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case below: 288a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return above; 289a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case above: 290a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return below; 291a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case above_equal: 292a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return below_equal; 293a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case below_equal: 294a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return above_equal; 295a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case less: 296a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return greater; 297a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case greater: 298a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return less; 299a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case greater_equal: 300a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return less_equal; 301a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block case less_equal: 302a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return greater_equal; 303a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block default: 304a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return cc; 305a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block }; 306a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 307a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 3089dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen 309a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockenum Hint { 310a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block no_hint = 0, 311a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block not_taken = 0x2e, 312a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block taken = 0x3e 313a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 314a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 315a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// The result of negating a hint is as if the corresponding condition 316a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// were negated by NegateCondition. That is, no_hint is mapped to 317a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// itself and not_taken and taken are mapped to each other. 318a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockinline Hint NegateHint(Hint hint) { 319a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return (hint == no_hint) 320a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ? no_hint 321a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block : ((hint == not_taken) ? taken : not_taken); 322a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} 323a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 324a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 325a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------- 326a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Machine instruction Immediates 327a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 328a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Immediate BASE_EMBEDDED { 329a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 330a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block explicit Immediate(int32_t value) : value_(value) {} 331a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 332a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 333a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int32_t value_; 334a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 335a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block friend class Assembler; 336a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 337a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 338a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 339a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// ----------------------------------------------------------------------------- 340a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Machine instruction Operands 341a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 342a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockenum ScaleFactor { 343a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_1 = 0, 344a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_2 = 1, 345a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_4 = 2, 346a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_8 = 3, 347a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_int_size = times_4, 348a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block times_pointer_size = times_8 349a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 350a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 351a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 352a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Operand BASE_EMBEDDED { 353a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 354a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // [base + disp/r] 355a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Operand(Register base, int32_t disp); 356a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 357a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // [base + index*scale + disp/r] 358a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Operand(Register base, 359a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Register index, 360a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ScaleFactor scale, 361a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int32_t disp); 362a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 363a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // [index*scale + disp/r] 364a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Operand(Register index, 365a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ScaleFactor scale, 366a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int32_t disp); 367a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 368f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke // Offset from existing memory operand. 369f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke // Offset is added to existing displacement as 32-bit signed values and 370f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke // this must not overflow. 371f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke Operand(const Operand& base, int32_t offset); 372f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke 373a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 374a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte rex_; 3757f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch byte buf_[6]; 376a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The number of bytes in buf_. 377a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block unsigned int len_; 378a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 379a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Set the ModR/M byte without an encoded 'reg' register. The 380a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // register is encoded later as part of the emit_operand operation. 381a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // set_modrm can be called before or after set_sib and set_disp*. 382a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void set_modrm(int mod, Register rm); 383a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 384a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Set the SIB byte if one is needed. Sets the length to 2 rather than 1. 385a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void set_sib(ScaleFactor scale, Register index, Register base); 386a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 387a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Adds operand displacement fields (offsets added to the memory address). 388a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Needs to be called after set_sib, not before it. 389a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void set_disp8(int disp); 390a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void set_disp32(int disp); 391a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 392a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block friend class Assembler; 393a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 394a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 395a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 396a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// CpuFeatures keeps track of which features are supported by the target CPU. 397a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Supported features must be enabled by a Scope before use. 398a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Example: 399a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// if (CpuFeatures::IsSupported(SSE3)) { 400a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// CpuFeatures::Scope fscope(SSE3); 401a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// // Generate SSE3 floating point code. 402a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// } else { 403a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// // Generate standard x87 or SSE2 floating point code. 404a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// } 405a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass CpuFeatures : public AllStatic { 406a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 407a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Detect features of the target CPU. Set safe defaults if the serializer 408a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is enabled (snapshots must be portable). 409b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch static void Probe(bool portable); 410a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Check whether a feature is supported by the target CPU. 411d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static bool IsSupported(CpuFeature f) { 4123ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block if (f == SSE2 && !FLAG_enable_sse2) return false; 4133ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block if (f == SSE3 && !FLAG_enable_sse3) return false; 4143ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block if (f == CMOV && !FLAG_enable_cmov) return false; 4153ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block if (f == RDTSC && !FLAG_enable_rdtsc) return false; 4163ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block if (f == SAHF && !FLAG_enable_sahf) return false; 417a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return (supported_ & (V8_UINT64_C(1) << f)) != 0; 418a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 419a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Check whether a feature is currently enabled. 420d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static bool IsEnabled(CpuFeature f) { 421a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return (enabled_ & (V8_UINT64_C(1) << f)) != 0; 422a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 423a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Enable a specified feature within a scope. 424a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block class Scope BASE_EMBEDDED { 425a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef DEBUG 426a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 427d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block explicit Scope(CpuFeature f) { 428d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block uint64_t mask = (V8_UINT64_C(1) << f); 429a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ASSERT(CpuFeatures::IsSupported(f)); 430d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block ASSERT(!Serializer::enabled() || (found_by_runtime_probing_ & mask) == 0); 431a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block old_enabled_ = CpuFeatures::enabled_; 432d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block CpuFeatures::enabled_ |= mask; 433a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 434a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ~Scope() { CpuFeatures::enabled_ = old_enabled_; } 435a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 436a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block uint64_t old_enabled_; 437a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#else 438a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 439d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block explicit Scope(CpuFeature f) {} 440a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif 441a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block }; 442a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 443a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Safe defaults include SSE2 and CMOV for X64. It is always available, if 444a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // anyone checks, but they shouldn't need to check. 445d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static const uint64_t kDefaultCpuFeatures = (1 << SSE2 | 1 << CMOV); 446a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static uint64_t supported_; 447a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static uint64_t enabled_; 448d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static uint64_t found_by_runtime_probing_; 449a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 450a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 451a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 452a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass Assembler : public Malloced { 453a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 454a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // We check before assembling an instruction that there is sufficient 455a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // space to write an instruction and its relocation information. 456a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The relocation writer's position must be kGap bytes above the end of 457a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the generated instructions. This leaves enough space for the 458a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // longest possible x64 instruction, 15 bytes, and the longest possible 459a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // relocation information encoding, RelocInfoWriter::kMaxLength == 16. 460a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // (There is a 15 byte limit on x64 instruction length that rules out some 461a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // otherwise valid instructions.) 462a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // This allows for a single, fast space check per instruction. 463a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static const int kGap = 32; 464a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 465a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 466a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Create an assembler. Instructions and relocation information are emitted 467a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // into a buffer, with the instructions starting from the beginning and the 468a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // relocation information starting from the end of the buffer. See CodeDesc 469a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // for a detailed comment on the layout (globals.h). 470a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 471a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // If the provided buffer is NULL, the assembler allocates and grows its own 472a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // buffer, and buffer_size determines the initial buffer size. The buffer is 473a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // owned by the assembler and deallocated upon destruction of the assembler. 474a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 475a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // If the provided buffer is not NULL, the assembler uses the provided buffer 476a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // for code generation and assumes its size to be buffer_size. If the buffer 477a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is too small, a fatal error occurs. No deallocation of the buffer is done 478a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // upon destruction of the assembler. 479a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Assembler(void* buffer, int buffer_size); 480a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ~Assembler(); 481a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 482a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // GetCode emits any pending (non-emitted) code and fills the descriptor 483a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // desc. GetCode() is idempotent; it returns the same result if no other 484a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Assembler functions are invoked in between GetCode() calls. 485a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void GetCode(CodeDesc* desc); 486a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 4873ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Read/Modify the code target in the relative branch/call instruction at pc. 4883ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // On the x64 architecture, we use relative jumps with a 32-bit displacement 4893ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // to jump to other Code objects in the Code space in the heap. 4903ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Jumps to C functions are done indirectly through a 64-bit register holding 4913ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // the absolute address of the target. 4923ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // These functions convert between absolute Addresses of Code objects and 4933ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // the relative displacements stored in the code. 494a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static inline Address target_address_at(Address pc); 495a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static inline void set_target_address_at(Address pc, Address target); 496d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 497d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // This sets the branch destination (which is in the instruction on x64). 498d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // This is for calls and branches within generated code. 499d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block inline static void set_target_at(Address instruction_payload, 500d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block Address target) { 501d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block set_target_address_at(instruction_payload, target); 502d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block } 503d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 504d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // This sets the branch destination (which is a load instruction on x64). 505d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // This is for calls and branches to runtime code. 506d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block inline static void set_external_target_at(Address instruction_payload, 507d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block Address target) { 508d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block *reinterpret_cast<Address*>(instruction_payload) = target; 509d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block } 510d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 5113ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block inline Handle<Object> code_target_object_handle_at(Address pc); 512d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // Number of bytes taken up by the branch target in the code. 513d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static const int kCallTargetSize = 4; // Use 32-bit displacement. 514d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static const int kExternalTargetSize = 8; // Use 64-bit absolute. 515a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Distance between the address of the code target in the call instruction 5163ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // and the return address pushed on the stack. 5173ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block static const int kCallTargetAddressOffset = 4; // Use 32-bit displacement. 5183ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Distance between the start of the JS return sequence and where the 5193ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // 32-bit displacement of a near call would be, relative to the pushed 5203ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // return address. TODO: Use return sequence length instead. 5213ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Should equal Debug::kX64JSReturnSequenceLength - kCallTargetAddressOffset; 5223ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block static const int kPatchReturnSequenceAddressOffset = 13 - 4; 5237f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // Distance between start of patched debug break slot and where the 5247f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // 32-bit displacement of a near call would be, relative to the pushed 5257f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // return address. TODO: Use return sequence length instead. 5267f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // Should equal Debug::kX64JSReturnSequenceLength - kCallTargetAddressOffset; 5277f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch static const int kPatchDebugBreakSlotAddressOffset = 13 - 4; 5283ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // TODO(X64): Rename this, removing the "Real", after changing the above. 5293ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block static const int kRealPatchReturnSequenceAddressOffset = 2; 530d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 531d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // The x64 JS return sequence is padded with int3 to make it large 532d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block // enough to hold a call instruction when the debugger patches it. 533d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static const int kCallInstructionLength = 13; 534d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block static const int kJSReturnSequenceLength = 13; 535d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block 5367f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // The debug break slot must be able to contain a call instruction. 5377f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch static const int kDebugBreakSlotLength = kCallInstructionLength; 5387f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch 5399fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block // One byte opcode for test eax,0xXXXXXXXX. 5409fac840a46e8b7e26894f4792ba26dde14c56b04Steve Block static const byte kTestEaxByte = 0xA9; 5417f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch 542a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // --------------------------------------------------------------------------- 543a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Code generation 544a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 545a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Function names correspond one-to-one to x64 instruction mnemonics. 546a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Unless specified otherwise, instructions operate on 64-bit operands. 547a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 548a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // If we need versions of an assembly instruction that operate on different 549a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // width arguments, we add a single-letter suffix specifying the width. 550a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // This is done for the following instructions: mov, cmp, inc, dec, 551a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // add, sub, and test. 552a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // There are no versions of these instructions without the suffix. 553a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // - Instructions on 8-bit (byte) operands/registers have a trailing 'b'. 554a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // - Instructions on 16-bit (word) operands/registers have a trailing 'w'. 555a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // - Instructions on 32-bit (doubleword) operands/registers use 'l'. 556a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // - Instructions on 64-bit (quadword) operands/registers use 'q'. 557a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 558a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Some mnemonics, such as "and", are the same as C++ keywords. 559a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Naming conflicts with C++ keywords are resolved by adding a trailing '_'. 560a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 561a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Insert the smallest number of nop instructions 562a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // possible to align the pc offset to a multiple 563a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // of m. m must be a power of 2. 564a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void Align(int m); 5659dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen // Aligns code to something that's optimal for a jump target for the platform. 5669dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen void CodeTargetAlign(); 567a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 568a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Stack 569a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void pushfq(); 570a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void popfq(); 571a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 572a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void push(Immediate value); 573a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void push(Register src); 574a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void push(const Operand& src); 575a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 576a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void pop(Register dst); 577a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void pop(const Operand& dst); 578a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 579a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void enter(Immediate size); 580a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void leave(); 581a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 582a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Moves 583a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movb(Register dst, const Operand& src); 584a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movb(Register dst, Immediate imm); 585a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movb(const Operand& dst, Register src); 586a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 5873ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Move the low 16 bits of a 64-bit register value to a 16-bit 5883ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // memory location. 5893ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void movw(const Operand& dst, Register src); 5903ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 591a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(Register dst, Register src); 592a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(Register dst, const Operand& src); 593a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(const Operand& dst, Register src); 594a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(const Operand& dst, Immediate imm); 595a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Load a 32-bit immediate value, zero-extended to 64 bits. 596a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(Register dst, Immediate imm32); 597a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 598a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Move 64 bit register value to 64-bit memory location. 599a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(const Operand& dst, Register src); 600a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Move 64 bit memory location to 64-bit register value. 601a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, const Operand& src); 602a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, Register src); 603a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Sign extends immediate 32-bit value to 64 bits. 604a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, Immediate x); 605a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Move the offset of the label location relative to the current 606a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // position (after the move) to the destination. 607a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movl(const Operand& dst, Label* src); 608a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 609a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Move sign extended immediate to memory location. 610a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(const Operand& dst, Immediate value); 611a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // New x64 instructions to load a 64-bit immediate into a register. 612a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // All 64-bit immediates must have a relocation mode. 613a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, void* ptr, RelocInfo::Mode rmode); 614a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, int64_t value, RelocInfo::Mode rmode); 615a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, const char* s, RelocInfo::Mode rmode); 616a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Moves the address of the external reference into the register. 617a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, ExternalReference ext); 618a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movq(Register dst, Handle<Object> handle, RelocInfo::Mode rmode); 619a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 6203ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void movsxbq(Register dst, const Operand& src); 6213ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void movsxwq(Register dst, const Operand& src); 622a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movsxlq(Register dst, Register src); 623a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movsxlq(Register dst, const Operand& src); 624a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movzxbq(Register dst, const Operand& src); 625a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movzxbl(Register dst, const Operand& src); 6263ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void movzxwq(Register dst, const Operand& src); 627a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movzxwl(Register dst, const Operand& src); 628a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 629d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke // Repeated moves. 630d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke 631d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke void repmovsb(); 632d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke void repmovsw(); 633d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke void repmovsl(); 634d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke void repmovsq(); 635d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke 636a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // New x64 instruction to load from an immediate 64-bit pointer into RAX. 637a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void load_rax(void* ptr, RelocInfo::Mode rmode); 638a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void load_rax(ExternalReference ext); 639a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 640a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Conditional moves. 641a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmovq(Condition cc, Register dst, Register src); 642a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmovq(Condition cc, Register dst, const Operand& src); 643a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmovl(Condition cc, Register dst, Register src); 644a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmovl(Condition cc, Register dst, const Operand& src); 645a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 646a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Exchange two registers 647a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xchg(Register dst, Register src); 648a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 649a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Arithmetics 650a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addl(Register dst, Register src) { 651f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke arithmetic_op_32(0x03, dst, src); 652a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 653a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 654a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addl(Register dst, Immediate src) { 655a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x0, dst, src); 656a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 657a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 658a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addl(Register dst, const Operand& src) { 659a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x03, dst, src); 660a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 661a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 662a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addl(const Operand& dst, Immediate src) { 663a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x0, dst, src); 664a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 665a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 666a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addq(Register dst, Register src) { 667a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x03, dst, src); 668a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 669a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 670a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addq(Register dst, const Operand& src) { 671a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x03, dst, src); 672a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 673a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 674a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addq(const Operand& dst, Register src) { 675a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x01, src, dst); 676a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 677a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 678a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addq(Register dst, Immediate src) { 679a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x0, dst, src); 680a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 681a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 682a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addq(const Operand& dst, Immediate src) { 683a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x0, dst, src); 684a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 685a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 68625f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen void sbbl(Register dst, Register src) { 687f7060e27768c550ace7ec48ad8c093466db52dfaLeon Clarke arithmetic_op_32(0x1b, dst, src); 68825f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen } 68925f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen 690a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb(Register dst, Immediate src) { 691a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_8(0x7, dst, src); 692a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 693a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 694a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb_al(Immediate src); 695a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 696a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb(Register dst, Register src) { 697a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x3A, dst, src); 698a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 699a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 700a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb(Register dst, const Operand& src) { 701a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x3A, dst, src); 702a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 703a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 704a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb(const Operand& dst, Register src) { 705a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x38, src, dst); 706a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 707a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 708a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpb(const Operand& dst, Immediate src) { 709a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_8(0x7, dst, src); 710a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 711a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 712a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpw(const Operand& dst, Immediate src) { 713a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_16(0x7, dst, src); 714a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 715a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 716a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpw(Register dst, Immediate src) { 717a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_16(0x7, dst, src); 718a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 719a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 720a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpw(Register dst, const Operand& src) { 721a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_16(0x3B, dst, src); 722a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 723a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 724a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpw(Register dst, Register src) { 725a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_16(0x3B, dst, src); 726a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 727a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 728a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpw(const Operand& dst, Register src) { 729a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_16(0x39, src, dst); 730a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 731a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 732a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpl(Register dst, Register src) { 733a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x3B, dst, src); 734a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 735a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 736a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpl(Register dst, const Operand& src) { 737a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x3B, dst, src); 738a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 739a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 740a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpl(const Operand& dst, Register src) { 741a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x39, src, dst); 742a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 743a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 744a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpl(Register dst, Immediate src) { 745a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x7, dst, src); 746a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 747a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 748a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpl(const Operand& dst, Immediate src) { 749a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x7, dst, src); 750a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 751a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 752a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpq(Register dst, Register src) { 753a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x3B, dst, src); 754a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 755a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 756a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpq(Register dst, const Operand& src) { 757a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x3B, dst, src); 758a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 759a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 760a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpq(const Operand& dst, Register src) { 761a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x39, src, dst); 762a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 763a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 764a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpq(Register dst, Immediate src) { 765a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x7, dst, src); 766a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 767a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 768a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cmpq(const Operand& dst, Immediate src) { 769a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x7, dst, src); 770a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 771a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 772a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void and_(Register dst, Register src) { 773a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x23, dst, src); 774a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 775a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 776a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void and_(Register dst, const Operand& src) { 777a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x23, dst, src); 778a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 779a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 780a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void and_(const Operand& dst, Register src) { 781a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x21, src, dst); 782a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 783a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 784a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void and_(Register dst, Immediate src) { 785a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x4, dst, src); 786a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 787a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 788a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void and_(const Operand& dst, Immediate src) { 789a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x4, dst, src); 790a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 791a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 792a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void andl(Register dst, Immediate src) { 793a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x4, dst, src); 794a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 795a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 7963ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void andl(Register dst, Register src) { 7973ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block arithmetic_op_32(0x23, dst, src); 7983ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 7993ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 8004515c472dc3e5ed2448a564600976759e569a0a8Leon Clarke void andb(Register dst, Immediate src) { 8014515c472dc3e5ed2448a564600976759e569a0a8Leon Clarke immediate_arithmetic_op_8(0x4, dst, src); 8024515c472dc3e5ed2448a564600976759e569a0a8Leon Clarke } 8033ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 804a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void decq(Register dst); 805a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void decq(const Operand& dst); 806a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void decl(Register dst); 807a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void decl(const Operand& dst); 8083ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void decb(Register dst); 8093ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void decb(const Operand& dst); 810a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 811a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Sign-extends rax into rdx:rax. 812a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cqo(); 813a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Sign-extends eax into edx:eax. 814a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cdq(); 815a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 816a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Divide rdx:rax by src. Quotient in rax, remainder in rdx. 817a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void idivq(Register src); 818a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Divide edx:eax by lower 32 bits of src. Quotient in eax, rem. in edx. 819a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void idivl(Register src); 820a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 821a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Signed multiply instructions. 822a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void imul(Register src); // rdx:rax = rax * src. 823a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void imul(Register dst, Register src); // dst = dst * src. 824a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void imul(Register dst, const Operand& src); // dst = dst * src. 825a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void imul(Register dst, Register src, Immediate imm); // dst = src * imm. 8266ded16be15dd865a9b21ea304d5273c8be299c87Steve Block // Signed 32-bit multiply instructions. 8276ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void imull(Register dst, Register src); // dst = dst * src. 8286ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void imull(Register dst, Register src, Immediate imm); // dst = src * imm. 829a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 830a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void incq(Register dst); 831a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void incq(const Operand& dst); 8329dcf7e2f83591d471e88bf7d230651900b8e424bKristian Monsen void incl(Register dst); 833a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void incl(const Operand& dst); 834a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 835a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void lea(Register dst, const Operand& src); 8366ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void leal(Register dst, const Operand& src); 837a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 838a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Multiply rax by src, put the result in rdx:rax. 839a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void mul(Register src); 840a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 841a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void neg(Register dst); 842a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void neg(const Operand& dst); 843a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void negl(Register dst); 844a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 845a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void not_(Register dst); 846a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void not_(const Operand& dst); 8476ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void notl(Register dst); 848a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 849a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void or_(Register dst, Register src) { 850a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x0B, dst, src); 851a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 852a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 853a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void orl(Register dst, Register src) { 854a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x0B, dst, src); 855a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 856a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 857a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void or_(Register dst, const Operand& src) { 858a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x0B, dst, src); 859a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 860a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 861a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void or_(const Operand& dst, Register src) { 862a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x09, src, dst); 863a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 864a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 865a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void or_(Register dst, Immediate src) { 866a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x1, dst, src); 867a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 868a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 8693ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void orl(Register dst, Immediate src) { 8703ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block immediate_arithmetic_op_32(0x1, dst, src); 8713ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 8723ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 873a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void or_(const Operand& dst, Immediate src) { 874a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x1, dst, src); 875a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 876a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 8773ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void orl(const Operand& dst, Immediate src) { 8783ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block immediate_arithmetic_op_32(0x1, dst, src); 8793ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 8803ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 881a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 8823ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void rcl(Register dst, Immediate imm8) { 8833ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block shift(dst, imm8, 0x2); 8843ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 8853ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 8863ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void rol(Register dst, Immediate imm8) { 8873ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block shift(dst, imm8, 0x0); 8883ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 8893ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 8903ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void rcr(Register dst, Immediate imm8) { 8913ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block shift(dst, imm8, 0x3); 8923ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 8933ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 8943ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void ror(Register dst, Immediate imm8) { 8953ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block shift(dst, imm8, 0x1); 8963ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block } 897a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 898a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts dst:src left by cl bits, affecting only dst. 899a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shld(Register dst, Register src); 900a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 901a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts src:dst right by cl bits, affecting only dst. 902a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shrd(Register dst, Register src); 903a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 904a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts dst right, duplicating sign bit, by shift_amount bits. 905a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifting by 1 is handled efficiently. 906a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void sar(Register dst, Immediate shift_amount) { 907a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, shift_amount, 0x7); 908a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 909a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 910a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts dst right, duplicating sign bit, by shift_amount bits. 911a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifting by 1 is handled efficiently. 912a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void sarl(Register dst, Immediate shift_amount) { 913a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, shift_amount, 0x7); 914a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 915a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 916a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts dst right, duplicating sign bit, by cl % 64 bits. 917d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void sar_cl(Register dst) { 918a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, 0x7); 919a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 920a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 921a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shifts dst right, duplicating sign bit, by cl % 64 bits. 922d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void sarl_cl(Register dst) { 923a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, 0x7); 924a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 925a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 926a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shl(Register dst, Immediate shift_amount) { 927a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, shift_amount, 0x4); 928a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 929a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 930d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void shl_cl(Register dst) { 931a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, 0x4); 932a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 933a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 934d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void shll_cl(Register dst) { 935a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, 0x4); 936a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 937a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 938a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shll(Register dst, Immediate shift_amount) { 939a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, shift_amount, 0x4); 940a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 941a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 942a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shr(Register dst, Immediate shift_amount) { 943a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, shift_amount, 0x5); 944a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 945a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 946d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void shr_cl(Register dst) { 947a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift(dst, 0x5); 948a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 949a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 950d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block void shrl_cl(Register dst) { 951a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, 0x5); 952a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 953a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 954a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shrl(Register dst, Immediate shift_amount) { 955a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block shift_32(dst, shift_amount, 0x5); 956a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 957a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 958a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void store_rax(void* dst, RelocInfo::Mode mode); 959a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void store_rax(ExternalReference ref); 960a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 961a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subq(Register dst, Register src) { 962a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x2B, dst, src); 963a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 964a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 965a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subq(Register dst, const Operand& src) { 966a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x2B, dst, src); 967a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 968a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 969a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subq(const Operand& dst, Register src) { 970a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x29, src, dst); 971a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 972a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 973a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subq(Register dst, Immediate src) { 974a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x5, dst, src); 975a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 976a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 977a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subq(const Operand& dst, Immediate src) { 978a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x5, dst, src); 979a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 980a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 981a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subl(Register dst, Register src) { 982a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x2B, dst, src); 983a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 984a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 985e46be819fca9468a0cd4e74859ce0f778eb8ca60Leon Clarke void subl(Register dst, const Operand& src) { 986e46be819fca9468a0cd4e74859ce0f778eb8ca60Leon Clarke arithmetic_op_32(0x2B, dst, src); 987e46be819fca9468a0cd4e74859ce0f778eb8ca60Leon Clarke } 988e46be819fca9468a0cd4e74859ce0f778eb8ca60Leon Clarke 989a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subl(const Operand& dst, Immediate src) { 990a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x5, dst, src); 991a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 992a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 993a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subl(Register dst, Immediate src) { 994a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_32(0x5, dst, src); 995a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 996a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 997a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subb(Register dst, Immediate src) { 998a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op_8(0x5, dst, src); 999a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1000a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 10013ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void testb(Register dst, Register src); 1002a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testb(Register reg, Immediate mask); 1003a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testb(const Operand& op, Immediate mask); 1004e46be819fca9468a0cd4e74859ce0f778eb8ca60Leon Clarke void testb(const Operand& op, Register reg); 1005a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testl(Register dst, Register src); 1006a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testl(Register reg, Immediate mask); 1007a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testl(const Operand& op, Immediate mask); 1008a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testq(const Operand& op, Register reg); 1009a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testq(Register dst, Register src); 1010a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void testq(Register dst, Immediate mask); 1011a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1012a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xor_(Register dst, Register src) { 1013d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block if (dst.code() == src.code()) { 1014d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block arithmetic_op_32(0x33, dst, src); 1015d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block } else { 1016d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block arithmetic_op(0x33, dst, src); 1017d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block } 1018a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1019a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1020a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xorl(Register dst, Register src) { 1021a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op_32(0x33, dst, src); 1022a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1023a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1024a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xor_(Register dst, const Operand& src) { 1025a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x33, dst, src); 1026a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1027a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1028a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xor_(const Operand& dst, Register src) { 1029a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block arithmetic_op(0x31, src, dst); 1030a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1031a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1032a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xor_(Register dst, Immediate src) { 1033a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x6, dst, src); 1034a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1035a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1036a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void xor_(const Operand& dst, Immediate src) { 1037a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block immediate_arithmetic_op(0x6, dst, src); 1038a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1039a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1040a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Bit operations. 1041a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void bt(const Operand& dst, Register src); 1042a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void bts(const Operand& dst, Register src); 1043a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1044a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Miscellaneous 10453ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void clc(); 1046a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cpuid(); 1047a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void hlt(); 1048a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void int3(); 1049a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void nop(); 1050a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void nop(int n); 1051a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void rdtsc(); 1052a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void ret(int imm16); 1053a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void setcc(Condition cc, Register reg); 1054a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1055a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Label operations & relative jumps (PPUM Appendix D) 1056a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 1057a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Takes a branch opcode (cc) and a label (L) and generates 1058a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // either a backward branch or a forward branch and links it 1059a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // to the label fixup chain. Usage: 1060a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 1061a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Label L; // unbound label 1062a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // j(cc, &L); // forward branch to unbound label 1063a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // bind(&L); // bind label to the current pc 1064a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // j(cc, &L); // backward branch to bound label 1065a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // bind(&L); // illegal: a label may be bound only once 1066a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 1067a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Note: The same Label can be used for forward and backward branches 1068a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // but it may be bound only once. 1069a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1070a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void bind(Label* L); // binds an unbound label L to the current code position 10710d5e116f6aee03185f237311a943491bb079a768Kristian Monsen void bind(NearLabel* L); 1072a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1073a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Calls 1074a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Call near relative 32-bit displacement, relative to next instruction. 1075a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void call(Label* L); 10763ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void call(Handle<Code> target, RelocInfo::Mode rmode); 1077a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1078a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Call near absolute indirect, address in register 1079a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void call(Register adr); 1080a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1081a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Call near indirect 1082a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void call(const Operand& operand); 1083a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1084a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Jumps 1085a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Jump short or near relative. 10863ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block // Use a 32-bit signed displacement. 1087a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void jmp(Label* L); // unconditional jump to L 10883ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void jmp(Handle<Code> target, RelocInfo::Mode rmode); 1089a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1090a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Jump near absolute indirect (r64) 1091a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void jmp(Register adr); 1092a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1093a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Jump near absolute indirect (m64) 1094a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void jmp(const Operand& src); 1095a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 10960d5e116f6aee03185f237311a943491bb079a768Kristian Monsen // Short jump 10970d5e116f6aee03185f237311a943491bb079a768Kristian Monsen void jmp(NearLabel* L); 10980d5e116f6aee03185f237311a943491bb079a768Kristian Monsen 1099a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Conditional jumps 1100a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void j(Condition cc, Label* L); 11013ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void j(Condition cc, Handle<Code> target, RelocInfo::Mode rmode); 1102a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 11030d5e116f6aee03185f237311a943491bb079a768Kristian Monsen // Conditional short jump 11040d5e116f6aee03185f237311a943491bb079a768Kristian Monsen void j(Condition cc, NearLabel* L, Hint hint = no_hint); 11050d5e116f6aee03185f237311a943491bb079a768Kristian Monsen 1106a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Floating-point operations 1107a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fld(int i); 1108a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1109a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fld1(); 1110a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fldz(); 11116ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void fldpi(); 1112b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch void fldln2(); 1113a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1114a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fld_s(const Operand& adr); 1115a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fld_d(const Operand& adr); 1116a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1117a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fstp_s(const Operand& adr); 1118a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fstp_d(const Operand& adr); 11193ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void fstp(int index); 1120a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1121a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fild_s(const Operand& adr); 1122a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fild_d(const Operand& adr); 1123a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1124a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fist_s(const Operand& adr); 1125a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1126a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fistp_s(const Operand& adr); 1127a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fistp_d(const Operand& adr); 1128a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1129a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fisttp_s(const Operand& adr); 1130d91b9f7d46489a9ee00f9cb415630299c76a502bLeon Clarke void fisttp_d(const Operand& adr); 1131a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1132a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fabs(); 1133a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fchs(); 1134a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1135a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fadd(int i); 1136a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fsub(int i); 1137a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fmul(int i); 1138a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fdiv(int i); 1139a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1140a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fisub_s(const Operand& adr); 1141a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1142a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void faddp(int i = 1); 1143a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fsubp(int i = 1); 1144a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fsubrp(int i = 1); 1145a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fmulp(int i = 1); 1146a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fdivp(int i = 1); 1147a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fprem(); 1148a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fprem1(); 1149a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1150a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fxch(int i = 1); 1151a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fincstp(); 1152a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void ffree(int i = 0); 1153a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1154a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void ftst(); 1155a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fucomp(int i); 1156a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fucompp(); 11573ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void fucomi(int i); 11583ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block void fucomip(); 11593ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block 1160a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fcompp(); 1161a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fnstsw_ax(); 1162a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fwait(); 1163a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fnclex(); 1164a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1165a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fsin(); 1166a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void fcos(); 1167b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch void fyl2x(); 1168a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1169a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void frndint(); 1170a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1171a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void sahf(); 1172a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1173a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // SSE2 instructions 11746ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movd(XMMRegister dst, Register src); 11756ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movd(Register dst, XMMRegister src); 11766ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movq(XMMRegister dst, Register src); 11776ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movq(Register dst, XMMRegister src); 11786ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void extractps(Register dst, XMMRegister src, byte imm8); 11796ded16be15dd865a9b21ea304d5273c8be299c87Steve Block 1180a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void movsd(const Operand& dst, XMMRegister src); 11816ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movsd(XMMRegister dst, XMMRegister src); 11826ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void movsd(XMMRegister dst, const Operand& src); 1183a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 11848defd9ff6930b4e24729971a61cf7469daf119beSteve Block void movss(XMMRegister dst, const Operand& src); 11858defd9ff6930b4e24729971a61cf7469daf119beSteve Block void movss(const Operand& dst, XMMRegister src); 11868defd9ff6930b4e24729971a61cf7469daf119beSteve Block 1187a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvttss2si(Register dst, const Operand& src); 1188a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvttsd2si(Register dst, const Operand& src); 118925f6136652d8341ed047e7fc1a450af5bd218ea9Kristian Monsen void cvttsd2siq(Register dst, XMMRegister src); 1190a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1191a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvtlsi2sd(XMMRegister dst, const Operand& src); 1192a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvtlsi2sd(XMMRegister dst, Register src); 1193a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvtqsi2sd(XMMRegister dst, const Operand& src); 1194a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void cvtqsi2sd(XMMRegister dst, Register src); 1195a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 11968defd9ff6930b4e24729971a61cf7469daf119beSteve Block void cvtlsi2ss(XMMRegister dst, Register src); 11978defd9ff6930b4e24729971a61cf7469daf119beSteve Block 11986ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void cvtss2sd(XMMRegister dst, XMMRegister src); 11998defd9ff6930b4e24729971a61cf7469daf119beSteve Block void cvtss2sd(XMMRegister dst, const Operand& src); 12008defd9ff6930b4e24729971a61cf7469daf119beSteve Block void cvtsd2ss(XMMRegister dst, XMMRegister src); 12018defd9ff6930b4e24729971a61cf7469daf119beSteve Block 12028defd9ff6930b4e24729971a61cf7469daf119beSteve Block void cvtsd2si(Register dst, XMMRegister src); 12038defd9ff6930b4e24729971a61cf7469daf119beSteve Block void cvtsd2siq(Register dst, XMMRegister src); 12046ded16be15dd865a9b21ea304d5273c8be299c87Steve Block 1205a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void addsd(XMMRegister dst, XMMRegister src); 1206a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void subsd(XMMRegister dst, XMMRegister src); 1207a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void mulsd(XMMRegister dst, XMMRegister src); 1208a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void divsd(XMMRegister dst, XMMRegister src); 1209a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1210402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescu void xorpd(XMMRegister dst, XMMRegister src); 12116ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void sqrtsd(XMMRegister dst, XMMRegister src); 1212402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescu 1213402d937239b0e2fd11bf2f4fe972ad78aa9fd481Andrei Popescu void ucomisd(XMMRegister dst, XMMRegister src); 12148defd9ff6930b4e24729971a61cf7469daf119beSteve Block void ucomisd(XMMRegister dst, const Operand& src); 1215a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 12166ded16be15dd865a9b21ea304d5273c8be299c87Steve Block // The first argument is the reg field, the second argument is the r/m field. 1217a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_sse_operand(XMMRegister dst, XMMRegister src); 1218a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_sse_operand(XMMRegister reg, const Operand& adr); 1219a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_sse_operand(XMMRegister dst, Register src); 12206ded16be15dd865a9b21ea304d5273c8be299c87Steve Block void emit_sse_operand(Register dst, XMMRegister src); 1221a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1222a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Use either movsd or movlpd. 1223a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // void movdbl(XMMRegister dst, const Operand& src); 1224a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // void movdbl(const Operand& dst, XMMRegister src); 1225a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1226a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Debugging 1227a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void Print(); 1228a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1229a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Check the code size generated from label to here. 1230a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int SizeOfCodeGeneratedSince(Label* l) { return pc_offset() - l->pos(); } 1231a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1232a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Mark address of the ExitJSFrame code. 1233a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void RecordJSReturn(); 1234a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 12357f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch // Mark address of a debug break slot. 12367f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch void RecordDebugBreakSlot(); 12377f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch 1238a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Record a comment relocation entry that can be used by a disassembler. 1239b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // Use --code-comments to enable. 1240a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void RecordComment(const char* msg); 1241a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1242b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // Writes a single word of data in the code stream. 1243b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch // Used for inline tables, e.g., jump-tables. 1244b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch void db(uint8_t data) { UNIMPLEMENTED(); } 1245b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch void dd(uint32_t data); 1246b0fe1620dcb4135ac3ab2d66ff93072373911299Ben Murdoch 12470d5e116f6aee03185f237311a943491bb079a768Kristian Monsen int pc_offset() const { return static_cast<int>(pc_ - buffer_); } 12483e5fa29ddb82551500b118e9bf37af3966277b70Teng-Hui Zhu 12493e5fa29ddb82551500b118e9bf37af3966277b70Teng-Hui Zhu PositionsRecorder* positions_recorder() { return &positions_recorder_; } 1250a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1251a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Check if there is less than kGap bytes available in the buffer. 1252a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // If this is the case, we need to grow the buffer before emitting 1253a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // an instruction or relocation information. 1254a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline bool buffer_overflow() const { 1255a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return pc_ >= reloc_info_writer.pos() - kGap; 1256a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1257a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1258a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Get the number of bytes available in the buffer. 1259d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block inline int available_space() const { 1260d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block return static_cast<int>(reloc_info_writer.pos() - pc_); 1261d0582a6c46733687d045e4188a1bcd0123c758a1Steve Block } 1262a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 12637f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch static bool IsNop(Address addr) { return *addr == 0x90; } 12647f4d5bd8c03935e2c0cd412e561b8fc5a6a880aeBen Murdoch 1265a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Avoid overflows for displacements etc. 1266a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static const int kMaximalBufferSize = 512*MB; 1267a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static const int kMinimalBufferSize = 4*KB; 1268a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1269a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 1270a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte* addr_at(int pos) { return buffer_ + pos; } 1271a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte byte_at(int pos) { return buffer_[pos]; } 12720d5e116f6aee03185f237311a943491bb079a768Kristian Monsen void set_byte_at(int pos, byte value) { buffer_[pos] = value; } 1273a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block uint32_t long_at(int pos) { 1274a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block return *reinterpret_cast<uint32_t*>(addr_at(pos)); 1275a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1276a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void long_at_put(int pos, uint32_t x) { 1277a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block *reinterpret_cast<uint32_t*>(addr_at(pos)) = x; 1278a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1279a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1280a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // code emission 1281a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void GrowBuffer(); 1282a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1283a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit(byte x) { *pc_++ = x; } 1284a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emitl(uint32_t x); 1285a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emitq(uint64_t x, RelocInfo::Mode rmode); 1286a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emitw(uint16_t x); 12873ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block inline void emit_code_target(Handle<Code> target, RelocInfo::Mode rmode); 1288a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit(Immediate x) { emitl(x.value_); } 1289a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1290a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emits a REX prefix that encodes a 64-bit operand size and 1291a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the top bit of both register codes. 1292a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // High bit of reg goes to REX.R, high bit of rm_reg goes to REX.B. 1293a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W is set. 1294a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_64(XMMRegister reg, Register rm_reg); 12956ded16be15dd865a9b21ea304d5273c8be299c87Steve Block inline void emit_rex_64(Register reg, XMMRegister rm_reg); 12966ded16be15dd865a9b21ea304d5273c8be299c87Steve Block inline void emit_rex_64(Register reg, Register rm_reg); 1297a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1298a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emits a REX prefix that encodes a 64-bit operand size and 1299a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the top bit of the destination, index, and base register codes. 1300a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The high bit of reg is used for REX.R, the high bit of op's base 1301a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // register is used for REX.B, and the high bit of op's index register 1302a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is used for REX.X. REX.W is set. 1303a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_64(Register reg, const Operand& op); 1304a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_64(XMMRegister reg, const Operand& op); 1305a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1306a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emits a REX prefix that encodes a 64-bit operand size and 1307a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the top bit of the register code. 1308a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The high bit of register is used for REX.B. 1309a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W is set and REX.R and REX.X are clear. 1310a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_64(Register rm_reg); 1311a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1312a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emits a REX prefix that encodes a 64-bit operand size and 1313a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the top bit of the index and base register codes. 1314a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The high bit of op's base register is used for REX.B, and the high 1315a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // bit of op's index register is used for REX.X. 1316a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W is set and REX.R clear. 1317a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_64(const Operand& op); 1318a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1319a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit a REX prefix that only sets REX.W to choose a 64-bit operand size. 1320a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_rex_64() { emit(0x48); } 1321a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1322a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // High bit of reg goes to REX.R, high bit of rm_reg goes to REX.B. 1323a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W is clear. 1324a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_32(Register reg, Register rm_reg); 1325a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1326a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The high bit of reg is used for REX.R, the high bit of op's base 1327a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // register is used for REX.B, and the high bit of op's index register 1328a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is used for REX.X. REX.W is cleared. 1329a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_32(Register reg, const Operand& op); 1330a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1331a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // High bit of rm_reg goes to REX.B. 1332a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W, REX.R and REX.X are clear. 1333a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_32(Register rm_reg); 1334a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1335a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // High bit of base goes to REX.B and high bit of index to REX.X. 1336a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W and REX.R are clear. 1337a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_rex_32(const Operand& op); 1338a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1339a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // High bit of reg goes to REX.R, high bit of rm_reg goes to REX.B. 1340a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // REX.W is cleared. If no REX bits are set, no byte is emitted. 1341a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(Register reg, Register rm_reg); 1342a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1343a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The high bit of reg is used for REX.R, the high bit of op's base 1344a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // register is used for REX.B, and the high bit of op's index register 1345a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is used for REX.X. REX.W is cleared. If no REX bits are set, nothing 1346a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // is emitted. 1347a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(Register reg, const Operand& op); 1348a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1349a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // As for emit_optional_rex_32(Register, Register), except that 1350a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the registers are XMM registers. 1351a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(XMMRegister reg, XMMRegister base); 1352a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1353a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // As for emit_optional_rex_32(Register, Register), except that 13546ded16be15dd865a9b21ea304d5273c8be299c87Steve Block // one of the registers is an XMM registers. 1355a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(XMMRegister reg, Register base); 1356a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 13576ded16be15dd865a9b21ea304d5273c8be299c87Steve Block // As for emit_optional_rex_32(Register, Register), except that 13586ded16be15dd865a9b21ea304d5273c8be299c87Steve Block // one of the registers is an XMM registers. 13596ded16be15dd865a9b21ea304d5273c8be299c87Steve Block inline void emit_optional_rex_32(Register reg, XMMRegister base); 13606ded16be15dd865a9b21ea304d5273c8be299c87Steve Block 1361a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // As for emit_optional_rex_32(Register, const Operand&), except that 1362a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the register is an XMM register. 1363a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(XMMRegister reg, const Operand& op); 1364a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1365a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Optionally do as emit_rex_32(Register) if the register number has 1366a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the high bit set. 1367a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(Register rm_reg); 1368a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1369a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Optionally do as emit_rex_32(const Operand&) if the operand register 1370a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // numbers have a high bit set. 1371a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_optional_rex_32(const Operand& op); 1372a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1373a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1374a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit the ModR/M byte, and optionally the SIB byte and 1375a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 1- or 4-byte offset for a memory operand. Also encodes 1376a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // the second operand of the operation, a register or operation 1377a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // subcode, into the reg field of the ModR/M byte. 1378a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_operand(Register reg, const Operand& adr) { 1379a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block emit_operand(reg.low_bits(), adr); 1380a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1381a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1382a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit the ModR/M byte, and optionally the SIB byte and 1383a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // 1- or 4-byte offset for a memory operand. Also used to encode 1384a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // a three-bit opcode extension into the ModR/M byte. 1385a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_operand(int rm, const Operand& adr); 1386a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1387a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit a ModR/M byte with registers coded in the reg and rm_reg fields. 1388a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_modrm(Register reg, Register rm_reg) { 1389a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block emit(0xC0 | reg.low_bits() << 3 | rm_reg.low_bits()); 1390a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1391a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1392a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit a ModR/M byte with an operation subcode in the reg field and 1393a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // a register in the rm_reg field. 1394a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_modrm(int code, Register rm_reg) { 1395a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ASSERT(is_uint3(code)); 1396a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block emit(0xC0 | code << 3 | rm_reg.low_bits()); 1397a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1398a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1399a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit the code-object-relative offset of the label's position 1400a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block inline void emit_code_relative_offset(Label* label); 1401a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1402a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit machine code for one of the operations ADD, ADC, SUB, SBC, 1403a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // AND, OR, XOR, or CMP. The encodings of these operations are all 1404a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // similar, differing just in the opcode or in the reg field of the 1405a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // ModR/M byte. 1406a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op_16(byte opcode, Register reg, Register rm_reg); 1407a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op_16(byte opcode, Register reg, const Operand& rm_reg); 1408a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op_32(byte opcode, Register reg, Register rm_reg); 1409a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op_32(byte opcode, Register reg, const Operand& rm_reg); 1410a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op(byte opcode, Register reg, Register rm_reg); 1411a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void arithmetic_op(byte opcode, Register reg, const Operand& rm_reg); 1412a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op(byte subcode, Register dst, Immediate src); 1413a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op(byte subcode, const Operand& dst, Immediate src); 1414a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Operate on a byte in memory or register. 1415a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_8(byte subcode, 1416a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Register dst, 1417a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1418a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_8(byte subcode, 1419a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block const Operand& dst, 1420a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1421a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Operate on a word in memory or register. 1422a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_16(byte subcode, 1423a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Register dst, 1424a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1425a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_16(byte subcode, 1426a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block const Operand& dst, 1427a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1428a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Operate on a 32-bit word in memory or register. 1429a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_32(byte subcode, 1430a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Register dst, 1431a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1432a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void immediate_arithmetic_op_32(byte subcode, 1433a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block const Operand& dst, 1434a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Immediate src); 1435a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1436a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Emit machine code for a shift operation. 1437a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shift(Register dst, Immediate shift_amount, int subcode); 1438a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shift_32(Register dst, Immediate shift_amount, int subcode); 1439a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Shift dst by cl % 64 bits. 1440a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shift(Register dst, int subcode); 1441a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void shift_32(Register dst, int subcode); 1442a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1443a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void emit_farith(int b1, int b2, int i); 1444a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1445a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // labels 1446a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // void print(Label* L); 1447a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void bind_to(Label* L, int pos); 1448a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1449a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // record reloc info for current pc_ 1450a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block void RecordRelocInfo(RelocInfo::Mode rmode, intptr_t data = 0); 1451a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1452a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block friend class CodePatcher; 1453a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block friend class EnsureSpace; 1454a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block friend class RegExpMacroAssemblerX64; 1455a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1456a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // Code buffer: 1457a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // The buffer into which code and relocation info are generated. 1458a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte* buffer_; 1459a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int buffer_size_; 1460a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // True if the assembler owns the buffer, false if buffer is external. 1461a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block bool own_buffer_; 1462a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // A previously allocated buffer of kMinimalBufferSize bytes, or NULL. 1463a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block static byte* spare_buffer_; 1464a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1465a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // code generation 1466a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte* pc_; // the program counter; moves forward 1467a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block RelocInfoWriter reloc_info_writer; 1468a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 14693ce2e2076e8e3e60cf1810eec160ea2d8557e9e7Steve Block List< Handle<Code> > code_targets_; 1470a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block // push-pop elimination 1471a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block byte* last_pc_; 1472a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 14733e5fa29ddb82551500b118e9bf37af3966277b70Teng-Hui Zhu PositionsRecorder positions_recorder_; 14743e5fa29ddb82551500b118e9bf37af3966277b70Teng-Hui Zhu friend class PositionsRecorder; 1475a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 1476a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1477a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1478a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// Helper class that ensures that there is enough space for generating 1479a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// instructions and relocation information. The constructor makes 1480a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// sure that there is enough space and (in debug mode) the destructor 1481a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block// checks that we did not generate too much. 1482a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Blockclass EnsureSpace BASE_EMBEDDED { 1483a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block public: 1484a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block explicit EnsureSpace(Assembler* assembler) : assembler_(assembler) { 1485a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block if (assembler_->buffer_overflow()) assembler_->GrowBuffer(); 1486a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef DEBUG 1487a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block space_before_ = assembler_->available_space(); 1488a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif 1489a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1490a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1491a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef DEBUG 1492a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ~EnsureSpace() { 1493a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int bytes_generated = space_before_ - assembler_->available_space(); 1494a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block ASSERT(bytes_generated < assembler_->kGap); 1495a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block } 1496a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif 1497a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1498a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block private: 1499a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block Assembler* assembler_; 1500a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#ifdef DEBUG 1501a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block int space_before_; 1502a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif 1503a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block}; 1504a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1505a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block} } // namespace v8::internal 1506a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block 1507a7e24c173cf37484693b9abb38e494fa7bd7baebSteve Block#endif // V8_X64_ASSEMBLER_X64_H_ 1508