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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef jit_x86_shared_Constants_x86_shared_h
#define jit_x86_shared_Constants_x86_shared_h
#include "mozilla/Assertions.h"
#include <iterator>
#include <stddef.h>
#include <stdint.h>
namespace js {
namespace jit {
namespace X86Encoding {
enum RegisterID : uint8_t {
rax,
rcx,
rdx,
rbx,
rsp,
rbp,
rsi,
rdi
#ifdef JS_CODEGEN_X64
,
r8,
r9,
r10,
r11,
r12,
r13,
r14,
r15
#endif
,
invalid_reg
};
enum HRegisterID { ah = rsp, ch = rbp, dh = rsi, bh = rdi };
enum XMMRegisterID
// GCC < 8.0 has a bug with bitfields of enums with an underlying type.
#if defined(__clang__) || __GNUC__ > 7
: uint8_t
#endif
{
xmm0 = 0,
xmm1,
xmm2,
xmm3,
xmm4,
xmm5,
xmm6,
xmm7
#ifdef JS_CODEGEN_X64
,
xmm8,
xmm9,
xmm10,
xmm11,
xmm12,
xmm13,
xmm14,
xmm15
#endif
,
invalid_xmm
};
inline const char* XMMRegName(XMMRegisterID reg) {
static const char* const names[] = {"%xmm0",
"%xmm1",
"%xmm2",
"%xmm3",
"%xmm4",
"%xmm5",
"%xmm6",
"%xmm7"
#ifdef JS_CODEGEN_X64
,
"%xmm8",
"%xmm9",
"%xmm10",
"%xmm11",
"%xmm12",
"%xmm13",
"%xmm14",
"%xmm15"
#endif
};
MOZ_ASSERT(size_t(reg) < std::size(names));
return names[reg];
}
#ifdef JS_CODEGEN_X64
inline const char* GPReg64Name(RegisterID reg) {
static const char* const names[] = {"%rax",
"%rcx",
"%rdx",
"%rbx",
"%rsp",
"%rbp",
"%rsi",
"%rdi"
# ifdef JS_CODEGEN_X64
,
"%r8",
"%r9",
"%r10",
"%r11",
"%r12",
"%r13",
"%r14",
"%r15"
# endif
};
MOZ_ASSERT(size_t(reg) < std::size(names));
return names[reg];
}
#endif
inline const char* GPReg32Name(RegisterID reg) {
static const char* const names[] = {"%eax",
"%ecx",
"%edx",
"%ebx",
"%esp",
"%ebp",
"%esi",
"%edi"
#ifdef JS_CODEGEN_X64
,
"%r8d",
"%r9d",
"%r10d",
"%r11d",
"%r12d",
"%r13d",
"%r14d",
"%r15d"
#endif
};
MOZ_ASSERT(size_t(reg) < std::size(names));
return names[reg];
}
inline const char* GPReg16Name(RegisterID reg) {
static const char* const names[] = {"%ax",
"%cx",
"%dx",
"%bx",
"%sp",
"%bp",
"%si",
"%di"
#ifdef JS_CODEGEN_X64
,
"%r8w",
"%r9w",
"%r10w",
"%r11w",
"%r12w",
"%r13w",
"%r14w",
"%r15w"
#endif
};
MOZ_ASSERT(size_t(reg) < std::size(names));
return names[reg];
}
inline const char* GPReg8Name(RegisterID reg) {
static const char* const names[] = {"%al",
"%cl",
"%dl",
"%bl"
#ifdef JS_CODEGEN_X64
,
"%spl",
"%bpl",
"%sil",
"%dil",
"%r8b",
"%r9b",
"%r10b",
"%r11b",
"%r12b",
"%r13b",
"%r14b",
"%r15b"
#endif
};
MOZ_ASSERT(size_t(reg) < std::size(names));
return names[reg];
}
inline const char* GPRegName(RegisterID reg) {
#ifdef JS_CODEGEN_X64
return GPReg64Name(reg);
#else
return GPReg32Name(reg);
#endif
}
inline bool HasSubregL(RegisterID reg) {
#ifdef JS_CODEGEN_X64
// In 64-bit mode, all registers have an 8-bit lo subreg.
return true;
#else
// In 32-bit mode, only the first four registers do.
return reg <= rbx;
#endif
}
inline bool HasSubregH(RegisterID reg) {
// The first four registers always have h registers. However, note that
// on x64, h registers may not be used in instructions using REX
// prefixes. Also note that this may depend on what other registers are
// used!
return reg <= rbx;
}
inline HRegisterID GetSubregH(RegisterID reg) {
MOZ_ASSERT(HasSubregH(reg));
return HRegisterID(reg + 4);
}
inline const char* HRegName8(HRegisterID reg) {
static const char* const names[] = {"%ah", "%ch", "%dh", "%bh"};
size_t index = reg - GetSubregH(rax);
MOZ_ASSERT(index < std::size(names));
return names[index];
}
enum Condition {
ConditionO,
ConditionNO,
ConditionB,
ConditionAE,
ConditionE,
ConditionNE,
ConditionBE,
ConditionA,
ConditionS,
ConditionNS,
ConditionP,
ConditionNP,
ConditionL,
ConditionGE,
ConditionLE,
ConditionG,
ConditionC = ConditionB,
ConditionNC = ConditionAE
};
inline const char* CCName(Condition cc) {
static const char* const names[] = {"o ", "no", "b ", "ae", "e ", "ne",
"be", "a ", "s ", "ns", "p ", "np",
"l ", "ge", "le", "g "};
MOZ_ASSERT(size_t(cc) < std::size(names));
return names[cc];
}
// Conditions for CMP instructions (CMPSS, CMPSD, CMPPS, CMPPD, etc).
enum ConditionCmp {
ConditionCmp_EQ = 0x0,
ConditionCmp_LT = 0x1,
ConditionCmp_LE = 0x2,
ConditionCmp_UNORD = 0x3,
ConditionCmp_NEQ = 0x4,
ConditionCmp_NLT = 0x5,
ConditionCmp_NLE = 0x6,
ConditionCmp_ORD = 0x7,
ConditionCmp_AVX_Enabled = 0x8,
ConditionCmp_GE = 0xD,
};
// Rounding modes for ROUNDSS / ROUNDSD.
enum RoundingMode {
RoundToNearest = 0x0,
RoundDown = 0x1,
RoundUp = 0x2,
RoundToZero = 0x3
};
// Rounding modes for ROUNDPS / ROUNDPD. Note these are the same as for
// RoundingMode above but incorporate the 'inexact' bit which says not to signal
// exceptions for lost precision. It's not obvious that this bit is needed; it
// was however suggested in the wasm SIMD proposal that led to these encodings.
enum class SSERoundingMode {
RoundToNearest = 0x08,
RoundDown = 0x09,
RoundUp = 0x0A,
RoundToZero = 0x0B
};
// Test whether the given address will fit in an address immediate field.
// This is always true on x86, but on x64 it's only true for addreses which
// fit in the 32-bit immediate field.
inline bool IsAddressImmediate(const void* address) {
intptr_t value = reinterpret_cast<intptr_t>(address);
int32_t immediate = static_cast<int32_t>(value);
return value == immediate;
}
// Convert the given address to a 32-bit immediate field value. This is a
// no-op on x86, but on x64 it asserts that the address is actually a valid
// address immediate.
inline int32_t AddressImmediate(const void* address) {
MOZ_ASSERT(IsAddressImmediate(address));
return static_cast<int32_t>(reinterpret_cast<intptr_t>(address));
}
} // namespace X86Encoding
} // namespace jit
} // namespace js
#endif /* jit_x86_shared_Constants_x86_shared_h */
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