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# Copyright (C) 2015-2017 Apple Inc. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
# THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
# THE POSSIBILITY OF SUCH DAMAGE.
# Syllabus:
#
# Examples of some roles, types, and widths:
# U:G:32 => use of the low 32 bits of a general-purpose register or value
# D:G:32 => def of the low 32 bits of a general-purpose register or value
# UD:G:32 => use and def of the low 32 bits of a general-purpose register or value
# U:G:64 => use of the low 64 bits of a general-purpose register or value
# ZD:G:32 => def of all bits of a general-purpose register, where all but the low 32 bits are guaranteed to be zeroed.
# UA:G:Ptr => UseAddr (see comment in Arg.h)
# U:F:32 => use of a float register or value
# U:F:64 => use of a double register or value
# D:F:32 => def of a float register or value
# UD:F:32 => use and def of a float register or value
# S:F:32 => scratch float register.
#
# Argument kinds:
# Tmp => temporary or register
# Imm => 32-bit immediate int
# BigImm => TrustedImm64
# Addr => address as temporary/register+offset
# Index => BaseIndex address
# Abs => AbsoluteAddress
#
# The parser views these things as keywords, and understands that they fall into two distinct classes
# of things. So, although this file uses a particular indentation style, none of the whitespace or
# even newlines are meaningful to the parser. For example, you could write:
#
# Foo42 U:G:32, UD:F:32 Imm, Tmp Addr, Tmp
#
# And the parser would know that this is the same as:
#
# Foo42 U:G:32, UD:F:32
# Imm, Tmp
# Addr, Tmp
#
# I.e. a two-form instruction that uses a GPR or an int immediate and uses+defs a float register.
#
# Any opcode or opcode form can be preceded with an architecture list, which restricts the opcode to the
# union of those architectures. For example, if this is the only overload of the opcode, then it makes the
# opcode only available on x86_64:
#
# x86_64: Fuzz UD:G:64, D:G:64
# Tmp, Tmp
# Tmp, Addr
#
# But this only restricts the two-operand form, the other form is allowed on all architectures:
#
# x86_64: Fuzz UD:G:64, D:G:64
# Tmp, Tmp
# Tmp, Addr
# Fuzz UD:G:Ptr, D:G:Ptr, U:F:Ptr
# Tmp, Tmp, Tmp
# Tmp, Addr, Tmp
#
# And you can also restrict individual forms:
#
# Thingy UD:G:32, D:G:32
# Tmp, Tmp
# arm64: Tmp, Addr
#
# Additionally, you can have an intersection between the architectures of the opcode overload and the
# form. In this example, the version that takes an address is only available on armv7 while the other
# versions are available on armv7 or x86_64:
#
# x86_64 armv7: Buzz U:G:32, UD:F:32
# Tmp, Tmp
# Imm, Tmp
# armv7: Addr, Tmp
#
# Finally, you can specify architectures using helpful architecture groups. Here are all of the
# architecture keywords that we support:
#
# x86: means x86-32 or x86-64.
# x86_32: means just x86-32.
# x86_64: means just x86-64.
# arm: means armv7 or arm64.
# armv7: means just armv7.
# arm64: means just arm64.
# 32: means x86-32 or armv7.
# 64: means x86-64 or arm64.
# Note that the opcodes here have a leading capital (Add32) but must correspond to MacroAssembler
# API that has a leading lower-case (add32).
Nop
Add32 U:G:32, U:G:32, ZD:G:32
Imm, Tmp, Tmp
Tmp, Tmp, Tmp
Add32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Imm, Addr
x86: Imm, Index
Imm, Tmp
x86: Addr, Tmp
x86: Index, Tmp
x86: Tmp, Addr
x86: Tmp, Index
x86: Add8 U:G:8, UD:G:8
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: Add16 U:G:16, UD:G:16
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
64: Add64 U:G:64, UD:G:64
Tmp, Tmp
x86: Imm, Addr
x86: Imm, Index
Imm, Tmp
x86: Addr, Tmp
x86: Index, Tmp
x86: Tmp, Addr
x86: Tmp, Index
64: Add64 U:G:64, U:G:64, D:G:64
Imm, Tmp, Tmp
Tmp, Tmp, Tmp
AddDouble U:F:64, U:F:64, D:F:64
Tmp, Tmp, Tmp
x86: Addr, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Index, Tmp, Tmp
x86: AddDouble U:F:64, UD:F:64
Tmp, Tmp
Addr, Tmp
AddFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: Addr, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Index, Tmp, Tmp
x86: AddFloat U:F:32, UD:F:32
Tmp, Tmp
Addr, Tmp
Sub32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Imm, Addr
x86: Imm, Index
Imm, Tmp
x86: Addr, Tmp
x86: Index, Tmp
x86: Tmp, Addr
x86: Tmp, Index
arm64: Sub32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
64: Sub64 U:G:64, UD:G:64
Tmp, Tmp
x86: Imm, Addr
x86: Imm, Index
Imm, Tmp
x86: Addr, Tmp
x86: Index, Tmp
x86: Tmp, Addr
x86: Tmp, Index
arm64: Sub64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
SubDouble U:F:64, U:F:64, D:F:64
arm64: Tmp, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Tmp, Index, Tmp
x86: SubDouble U:F:64, UD:F:64
Tmp, Tmp
Addr, Tmp
SubFloat U:F:32, U:F:32, D:F:32
arm64: Tmp, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Tmp, Index, Tmp
x86: SubFloat U:F:32, UD:F:32
Tmp, Tmp
Addr, Tmp
Neg32 UZD:G:32
Tmp
x86: Addr
x86: Index
64: Neg64 UD:G:64
Tmp
x86: Addr
x86: Index
arm64: NegateDouble U:F:64, D:F:64
Tmp, Tmp
arm64: NegateFloat U:F:32, D:F:32
Tmp, Tmp
Mul32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Addr, Tmp
Mul32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
x86: Addr, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Imm, Tmp, Tmp
64: Mul64 U:G:64, UD:G:64
Tmp, Tmp
Mul64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: MultiplyAdd32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp, Tmp
arm64: MultiplyAdd64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplyAddSignExtend32 U:G:32, U:G:32, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplyAddZeroExtend32 U:G:32, U:G:32, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplySub32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp, Tmp
arm64: MultiplySub64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplySubSignExtend32 U:G:32, U:G:32, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplySubZeroExtend32 U:G:32, U:G:32, U:G:64, D:G:64
Tmp, Tmp, Tmp, Tmp
arm64: MultiplyNeg32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: MultiplyNeg64 U:G:64, U:G:64, ZD:G:64
Tmp, Tmp, Tmp
arm64: MultiplyNegSignExtend32 U:G:32, U:G:32, D:G:64
Tmp, Tmp, Tmp
arm64: MultiplyNegZeroExtend32 U:G:32, U:G:32, D:G:64
Tmp, Tmp, Tmp
arm64: MultiplySignExtend32 U:G:32, U:G:32, D:G:64
Tmp, Tmp, Tmp
arm64: MultiplyZeroExtend32 U:G:32, U:G:32, D:G:64
Tmp, Tmp, Tmp
arm64: Div32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: UDiv32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: Div64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: UDiv64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
MulDouble U:F:64, U:F:64, D:F:64
Tmp, Tmp, Tmp
x86: Addr, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Index, Tmp, Tmp
x86: MulDouble U:F:64, UD:F:64
Tmp, Tmp
Addr, Tmp
MulFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: Addr, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Index, Tmp, Tmp
x86: MulFloat U:F:32, UD:F:32
Tmp, Tmp
Addr, Tmp
arm64: DivDouble U:F:64, U:F:32, D:F:64
Tmp, Tmp, Tmp
x86: DivDouble U:F:64, UD:F:64
Tmp, Tmp
Addr, Tmp
arm64: DivFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: DivFloat U:F:32, UD:F:32
Tmp, Tmp
Addr, Tmp
x86: X86ConvertToDoubleWord32 U:G:32, ZD:G:32
Tmp*, Tmp*
x86_64: X86ConvertToQuadWord64 U:G:64, D:G:64
Tmp*, Tmp*
x86: X86Div32 UZD:G:32, UZD:G:32, U:G:32
Tmp*, Tmp*, Tmp
x86: X86UDiv32 UZD:G:32, UZD:G:32, U:G:32
Tmp*, Tmp*, Tmp
x86_64: X86Div64 UZD:G:64, UZD:G:64, U:G:64
Tmp*, Tmp*, Tmp
x86_64: X86UDiv64 UZD:G:64, UZD:G:64, U:G:64
Tmp*, Tmp*, Tmp
# If we add other things like Lea that are UA, we may need to lower
# them on arm64 similarly to how we do for Lea. In lowerStackArgs,
# we lower Lea to add on arm64.
Lea32 UA:G:32, D:G:32
Addr, Tmp
x86: Index, Tmp as x86Lea32
Lea64 UA:G:64, D:G:64
Addr, Tmp
x86: Index, Tmp as x86Lea64
And32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: BitImm, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Addr, Tmp, Tmp
And32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Imm, Tmp
x86: Tmp, Addr
x86: Tmp, Index
x86: Addr, Tmp
x86: Index, Tmp
x86: Imm, Addr
x86: Imm, Index
64: And64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: BitImm64, Tmp, Tmp
x86_64: And64 U:G:64, UD:G:64
Tmp, Tmp
Imm, Tmp
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
Addr, Tmp
Index, Tmp
AndDouble U:F:64, U:F:64, D:F:64
Tmp, Tmp, Tmp
x86: AndDouble U:F:64, UD:F:64
Tmp, Tmp
AndFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: AndFloat U:F:32, UD:F:32
Tmp, Tmp
OrDouble U:F:64, U:F:64, D:F:64
Tmp, Tmp, Tmp
x86: OrDouble U:F:64, UD:F:64
Tmp, Tmp
OrFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: OrFloat U:F:32, UD:F:32
Tmp, Tmp
x86: XorDouble U:F:64, U:F:64, D:F:64
Tmp, Tmp, Tmp
x86: XorDouble U:F:64, UD:F:64
Tmp, Tmp
x86: XorFloat U:F:32, U:F:32, D:F:32
Tmp, Tmp, Tmp
x86: XorFloat U:F:32, UD:F:32
Tmp, Tmp
arm64: Lshift32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86:Lshift32 U:G:32, UZD:G:32
Tmp*, Tmp
Imm, Tmp
arm64: Lshift64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86_64: Lshift64 U:G:64, UD:G:64
Tmp*, Tmp
Imm, Tmp
arm64: Rshift32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86: Rshift32 U:G:32, UZD:G:32
Tmp*, Tmp
Imm, Tmp
arm64: Rshift64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86_64: Rshift64 U:G:64, UD:G:64
Tmp*, Tmp
Imm, Tmp
arm64: Urshift32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86: Urshift32 U:G:32, UZD:G:32
Tmp*, Tmp
Imm, Tmp
arm64: Urshift64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86_64: Urshift64 U:G:64, UD:G:64
Tmp*, Tmp
Imm, Tmp
x86_64: RotateRight32 U:G:32, UZD:G:32
Tmp*, Tmp
Imm, Tmp
arm64: RotateRight32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86_64: RotateRight64 U:G:64, UD:G:64
Tmp*, Tmp
Imm, Tmp
arm64: RotateRight64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
Tmp, Imm, Tmp
x86_64: RotateLeft32 U:G:32, UZD:G:32
Tmp*, Tmp
Imm, Tmp
x86_64: RotateLeft64 U:G:64, UD:G:64
Tmp*, Tmp
Imm, Tmp
Or32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: BitImm, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Addr, Tmp, Tmp
Or32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Imm, Tmp
x86: Tmp, Addr
x86: Tmp, Index
x86: Addr, Tmp
x86: Index, Tmp
x86: Imm, Addr
x86: Imm, Index
64: Or64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: BitImm64, Tmp, Tmp
64: Or64 U:G:64, UD:G:64
Tmp, Tmp
x86: Imm, Tmp
x86: Imm, Addr
x86: Imm, Index
x86: Tmp, Addr
x86: Tmp, Index
x86: Addr, Tmp
x86: Index, Tmp
Xor32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: BitImm, Tmp, Tmp
x86: Tmp, Addr, Tmp
x86: Addr, Tmp, Tmp
Xor32 U:G:32, UZD:G:32
Tmp, Tmp
x86: Imm, Tmp
x86: Tmp, Addr
x86: Tmp, Index
x86: Addr, Tmp
x86: Index, Tmp
x86: Imm, Addr
x86: Imm, Index
64: Xor64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: BitImm64, Tmp, Tmp
64: Xor64 U:G:64, UD:G:64
Tmp, Tmp
x86: Tmp, Addr
x86: Tmp, Index
x86: Addr, Tmp
x86: Index, Tmp
x86: Imm, Addr
x86: Imm, Index
x86: Imm, Tmp
arm64: Not32 U:G:32, ZD:G:32
Tmp, Tmp
x86: Not32 UZD:G:32
Tmp
Addr
Index
arm64: Not64 U:G:64, D:G:64
Tmp, Tmp
x86_64: Not64 UD:G:64
Tmp
Addr
Index
arm64: AbsDouble U:F:64, D:F:64
Tmp, Tmp
arm64: AbsFloat U:F:32, D:F:32
Tmp, Tmp
CeilDouble U:F:64, D:F:64
Tmp, Tmp
x86: Addr, Tmp
CeilFloat U:F:32, D:F:32
Tmp, Tmp
x86: Addr, Tmp
FloorDouble U:F:64, D:F:64
Tmp, Tmp
x86: Addr, Tmp
FloorFloat U:F:32, D:F:32
Tmp, Tmp
x86: Addr, Tmp
SqrtDouble U:F:64, D:F:64
Tmp, Tmp
x86: Addr, Tmp
SqrtFloat U:F:32, D:F:32
Tmp, Tmp
x86: Addr, Tmp
ConvertInt32ToDouble U:G:32, D:F:64
Tmp, Tmp
x86: Addr, Tmp
64: ConvertInt64ToDouble U:G:64, D:F:64
Tmp, Tmp
x86_64: Addr, Tmp
ConvertInt32ToFloat U:G:32, D:F:32
Tmp, Tmp
x86: Addr, Tmp
64: ConvertInt64ToFloat U:G:64, D:F:32
Tmp, Tmp
x86_64: Addr, Tmp
CountLeadingZeros32 U:G:32, ZD:G:32
Tmp, Tmp
x86: Addr, Tmp
64: CountLeadingZeros64 U:G:64, D:G:64
Tmp, Tmp
x86: Addr, Tmp
ConvertDoubleToFloat U:F:64, D:F:32
Tmp, Tmp
x86: Addr, Tmp
ConvertFloatToDouble U:F:32, D:F:64
Tmp, Tmp
x86: Addr, Tmp
# Note that Move operates over the full register size, which is either 32-bit or 64-bit depending on
# the platform. I'm not entirely sure that this is a good thing; it might be better to just have a
# Move64 instruction. OTOH, our MacroAssemblers already have this notion of "move()" that basically
# means movePtr.
Move U:G:Ptr, D:G:Ptr
Tmp, Tmp
Imm, Tmp as signExtend32ToPtr
BigImm, Tmp
Addr, Tmp as loadPtr # This means that "Move Addr, Tmp" is code-generated as "load" not "move".
Index, Tmp as loadPtr
Tmp, Addr as storePtr
Tmp, Index as storePtr
x86: Imm, Addr as storePtr
# This is for moving between spill slots.
Move U:G:Ptr, D:G:Ptr, S:G:Ptr
Addr, Addr, Tmp
x86: Swap32 UD:G:32, UD:G:32
Tmp, Tmp
Tmp, Addr
x86_64: Swap64 UD:G:64, UD:G:64
Tmp, Tmp
Tmp, Addr
arm64: MoveWithIncrement64 UD:G:64, D:G:64
PreIndex, Tmp as load64
PostIndex, Tmp as load64
Tmp, PreIndex as store64
Tmp, PostIndex as store64
Move32 U:G:32, ZD:G:32
Tmp, Tmp as zeroExtend32ToWord
Addr, Tmp as load32
Index, Tmp as load32
Tmp, Addr as store32
Tmp, Index as store32
x86: Imm, Tmp as zeroExtend32ToWord
x86: Imm, Addr as store32
x86: Imm, Index as store32
arm64: MoveWithIncrement32 UD:G:32, ZD:G:32
PreIndex, Tmp as load32
PostIndex, Tmp as load32
Tmp, PreIndex as store32
Tmp, PostIndex as store32
# This is for moving between spill slots.
Move32 U:G:32, ZD:G:32, S:G:32
Addr, Addr, Tmp
arm64: Store32 U:G:32, ZD:G:32
ZeroReg, Addr
ZeroReg, Index
arm64: Store64 U:G:64, D:G:64
ZeroReg, Addr
ZeroReg, Index
SignExtend32ToPtr U:G:32, D:G:Ptr
Tmp, Tmp
ZeroExtend8To32 U:G:8, ZD:G:32
Tmp, Tmp
x86: Addr, Tmp as load8
x86: Index, Tmp as load8
SignExtend8To32 U:G:8, ZD:G:32
Tmp, Tmp
x86: Addr, Tmp as load8SignedExtendTo32
x86: Index, Tmp as load8SignedExtendTo32
ZeroExtend16To32 U:G:16, ZD:G:32
Tmp, Tmp
x86: Addr, Tmp as load16
x86: Index, Tmp as load16
SignExtend16To32 U:G:16, ZD:G:32
Tmp, Tmp
x86: Addr, Tmp as load16SignedExtendTo32
x86: Index, Tmp as load16SignedExtendTo32
MoveFloat U:F:32, D:F:32
Tmp, Tmp as moveDouble
Addr, Tmp as loadFloat
Index, Tmp as loadFloat
Tmp, Addr as storeFloat
Tmp, Index as storeFloat
MoveFloat U:F:32, D:F:32, S:F:32
Addr, Addr, Tmp
MoveDouble U:F:64, D:F:64
Tmp, Tmp
Addr, Tmp as loadDouble
Index, Tmp as loadDouble
Tmp, Addr as storeDouble
Tmp, Index as storeDouble
MoveDouble U:F:64, D:F:64, S:F:64
Addr, Addr, Tmp
MoveZeroToDouble D:F:64
Tmp
64: Move64ToDouble U:G:64, D:F:64
Tmp, Tmp
x86: Addr, Tmp as loadDouble
Index, Tmp as loadDouble
Move32ToFloat U:G:32, D:F:32
Tmp, Tmp
x86: Addr, Tmp as loadFloat
Index, Tmp as loadFloat
64: MoveDoubleTo64 U:F:64, D:G:64
Tmp, Tmp
Addr, Tmp as load64
Index, Tmp as load64
MoveFloatTo32 U:F:32, D:G:32
Tmp, Tmp
Addr, Tmp as load32
Index, Tmp as load32
Load8 U:G:8, ZD:G:32
Addr, Tmp
Index, Tmp
arm: LoadAcq8 U:G:8, ZD:G:32 /effects
SimpleAddr, Tmp
Store8 U:G:8, D:G:8
Tmp, Index
Tmp, Addr
x86: Imm, Index
x86: Imm, Addr
arm: StoreRel8 U:G:8, D:G:8 /effects
Tmp, SimpleAddr
Load8SignedExtendTo32 U:G:8, ZD:G:32
Addr, Tmp
Index, Tmp
arm: LoadAcq8SignedExtendTo32 U:G:8, ZD:G:32 /effects
SimpleAddr, Tmp
Load16 U:G:16, ZD:G:32
Addr, Tmp
Index, Tmp
arm: LoadAcq16 U:G:16, ZD:G:32 /effects
SimpleAddr, Tmp
Load16SignedExtendTo32 U:G:16, ZD:G:32
Addr, Tmp
Index, Tmp
arm: LoadAcq16SignedExtendTo32 U:G:16, ZD:G:32 /effects
SimpleAddr, Tmp
Store16 U:G:16, D:G:16
Tmp, Index
Tmp, Addr
x86: Imm, Index
x86: Imm, Addr
arm: StoreRel16 U:G:16, D:G:16 /effects
Tmp, SimpleAddr
arm: LoadAcq32 U:G:32, ZD:G:32 /effects
SimpleAddr, Tmp
arm: StoreRel32 U:G:32, ZD:G:32 /effects
Tmp, SimpleAddr
arm64: LoadAcq64 U:G:64, ZD:G:64 /effects
SimpleAddr, Tmp
arm64: StoreRel64 U:G:64, ZD:G:64 /effects
Tmp, SimpleAddr
x86: Xchg8 UD:G:8, UD:G:8 /effects
Tmp, Addr
Tmp, Index
x86: Xchg16 UD:G:16, UD:G:16 /effects
Tmp, Addr
Tmp, Index
x86: Xchg32 UD:G:32, UD:G:32 /effects
Tmp, Addr
Tmp, Index
x86_64: Xchg64 UD:G:64, UD:G:64 /effects
Tmp, Addr
Tmp, Index
arm64: ExtractUnsignedBitfield32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Imm, Imm, Tmp
arm64: ExtractUnsignedBitfield64 U:G:64, U:G:32, U:G:32, D:G:64
Tmp, Imm, Imm, Tmp
arm64: InsertUnsignedBitfieldInZero32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Imm, Imm, Tmp
arm64: InsertUnsignedBitfieldInZero64 U:G:64, U:G:32, U:G:32, D:G:64
Tmp, Imm, Imm, Tmp
arm64: InsertBitField32 U:G:32, U:G:32, U:G:32, UZD:G:32
Tmp, Imm, Imm, Tmp
arm64: InsertBitField64 U:G:64, U:G:32, U:G:32, UD:G:64
Tmp, Imm, Imm, Tmp
arm64: ClearBitField32 U:G:32, U:G:32, ZD:G:32
Imm, Imm, Tmp
arm64: ClearBitField64 U:G:32, U:G:32, D:G:64
Imm, Imm, Tmp
arm64: ClearBitsWithMask32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: ClearBitsWithMask64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: OrNot32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: OrNot64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: XorNot32 U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Tmp
arm64: XorNot64 U:G:64, U:G:64, D:G:64
Tmp, Tmp, Tmp
arm64: XorNotLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorNotRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorNotUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorNotLeftShift64 U:G:64, U:G:64, U:G:32, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: XorNotRightShift64 U:G:64, U:G:64, U:G:32, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: XorNotUnsignedRightShift64 U:G:64, U:G:64, U:G:32, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: ExtractInsertBitfieldAtLowEnd32 U:G:32, U:G:32, U:G:32, UZD:G:32
Tmp, Imm, Imm, Tmp
arm64: ExtractInsertBitfieldAtLowEnd64 U:G:64, U:G:32, U:G:32, UD:G:64
Tmp, Imm, Imm, Tmp
arm64: InsertSignedBitfieldInZero32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Imm, Imm, Tmp
arm64: InsertSignedBitfieldInZero64 U:G:64, U:G:32, U:G:32, D:G:64
Tmp, Imm, Imm, Tmp
arm64: ExtractSignedBitfield32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Imm, Imm, Tmp
arm64: ExtractSignedBitfield64 U:G:64, U:G:32, U:G:32, D:G:64
Tmp, Imm, Imm, Tmp
arm64: ExtractRegister32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: ExtractRegister64 U:G:64, U:G:32, U:G:32, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AddLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AddRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AddUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AddLeftShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AddRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AddUnsignedRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: SubLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: SubRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: SubUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: SubLeftShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: SubRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: SubUnsignedRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AndLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AndRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AndUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: AndLeftShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AndRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: AndUnsignedRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: XorLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: XorLeftShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: XorRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: XorUnsignedRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: OrLeftShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: OrRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: OrUnsignedRightShift32 U:G:32, U:G:32, U:G:32, ZD:G:32
Tmp, Tmp, Imm, Tmp
arm64: OrLeftShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: OrRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
arm64: OrUnsignedRightShift64 U:G:64, U:G:64, U:G:64, D:G:64
Tmp, Tmp, Imm, Tmp
# The first operand is rax.
# FIXME: This formulation means that the boolean result cannot be put in eax, even though all users
# of this would be OK with that.
# https://bugs.webkit.org/show_bug.cgi?id=169254
x86: AtomicStrongCAS8 U:G:32, UD:G:8, U:G:8, UD:G:8, ZD:G:8 /effects
StatusCond, Tmp*, Tmp, Addr, Tmp
StatusCond, Tmp*, Tmp, Index, Tmp
x86: AtomicStrongCAS16 U:G:32, UD:G:16, U:G:32, UD:G:16, ZD:G:8 /effects
StatusCond, Tmp*, Tmp, Addr, Tmp
StatusCond, Tmp*, Tmp, Index, Tmp
x86: AtomicStrongCAS32 U:G:32, UD:G:32, U:G:32, UD:G:32, ZD:G:8 /effects
StatusCond, Tmp*, Tmp, Addr, Tmp
StatusCond, Tmp*, Tmp, Index, Tmp
x86_64: AtomicStrongCAS64 U:G:32, UD:G:64, U:G:64, UD:G:64, ZD:G:8 /effects
StatusCond, Tmp*, Tmp, Addr, Tmp
StatusCond, Tmp*, Tmp, Index, Tmp
x86 arm64e: AtomicStrongCAS8 UD:G:8, U:G:8, UD:G:8 /effects
x86: Tmp*, Tmp, Addr
x86: Tmp*, Tmp, Index
arm64e: Tmp, Tmp, SimpleAddr
x86 arm64e: AtomicStrongCAS16 UD:G:16, U:G:32, UD:G:16 /effects
x86: Tmp*, Tmp, Addr
x86: Tmp*, Tmp, Index
arm64e: Tmp, Tmp, SimpleAddr
x86 arm64e: AtomicStrongCAS32 UD:G:32, U:G:32, UD:G:32 /effects
x86: Tmp*, Tmp, Addr
x86: Tmp*, Tmp, Index
arm64e: Tmp, Tmp, SimpleAddr
x86_64 arm64e: AtomicStrongCAS64 UD:G:64, U:G:64, UD:G:64 /effects
x86_64: Tmp*, Tmp, Addr
x86_64: Tmp*, Tmp, Index
arm64e: Tmp, Tmp, SimpleAddr
x86: BranchAtomicStrongCAS8 U:G:32, UD:G:8, U:G:8, UD:G:8 /branch /effects
StatusCond, Tmp*, Tmp, Addr
StatusCond, Tmp*, Tmp, Index
x86: BranchAtomicStrongCAS16 U:G:32, UD:G:16, U:G:32, UD:G:16 /branch /effects
StatusCond, Tmp*, Tmp, Addr
StatusCond, Tmp*, Tmp, Index
x86: BranchAtomicStrongCAS32 U:G:32, UD:G:32, U:G:32, UD:G:32 /branch /effects
StatusCond, Tmp*, Tmp, Addr
StatusCond, Tmp*, Tmp, Index
x86_64: BranchAtomicStrongCAS64 U:G:32, UD:G:64, U:G:64, UD:G:64 /branch /effects
StatusCond, Tmp*, Tmp, Addr
StatusCond, Tmp*, Tmp, Index
x86: AtomicAdd8 U:G:8, UD:G:8 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicAdd16 U:G:16, UD:G:16 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicAdd32 U:G:32, UD:G:32 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86_64: AtomicAdd64 U:G:64, UD:G:64 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicSub8 U:G:8, UD:G:8 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicSub16 U:G:16, UD:G:16 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicSub32 U:G:32, UD:G:32 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86_64: AtomicSub64 U:G:64, UD:G:64 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicAnd8 U:G:8, UD:G:8 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicAnd16 U:G:16, UD:G:16 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicAnd32 U:G:32, UD:G:32 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86_64: AtomicAnd64 U:G:64, UD:G:64 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicOr8 U:G:8, UD:G:8 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicOr16 U:G:16, UD:G:16 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicOr32 U:G:32, UD:G:32 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86_64: AtomicOr64 U:G:64, UD:G:64 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicXor8 U:G:8, UD:G:8 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicXor16 U:G:16, UD:G:16 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicXor32 U:G:32, UD:G:32 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86_64: AtomicXor64 U:G:64, UD:G:64 /effects
Imm, Addr
Imm, Index
Tmp, Addr
Tmp, Index
x86: AtomicNeg8 UD:G:8 /effects
Addr
Index
x86: AtomicNeg16 UD:G:16 /effects
Addr
Index
x86: AtomicNeg32 UD:G:32 /effects
Addr
Index
x86_64: AtomicNeg64 UD:G:64 /effects
Addr
Index
x86: AtomicNot8 UD:G:8 /effects
Addr
Index
x86: AtomicNot16 UD:G:16 /effects
Addr
Index
x86: AtomicNot32 UD:G:32 /effects
Addr
Index
x86_64: AtomicNot64 UD:G:64 /effects
Addr
Index
x86: AtomicXchgAdd8 UD:G:8, UD:G:8 /effects
Tmp, Addr
Tmp, Index
x86: AtomicXchgAdd16 UD:G:16, UD:G:16 /effects
Tmp, Addr
Tmp, Index
x86: AtomicXchgAdd32 UD:G:32, UD:G:32 /effects
Tmp, Addr
Tmp, Index
x86_64: AtomicXchgAdd64 UD:G:64, UD:G:64 /effects
Tmp, Addr
Tmp, Index
x86: AtomicXchg8 UD:G:8, UD:G:8 /effects
Tmp, Addr
Tmp, Index
x86: AtomicXchg16 UD:G:16, UD:G:16 /effects
Tmp, Addr
Tmp, Index
x86: AtomicXchg32 UD:G:32, UD:G:32 /effects
Tmp, Addr
Tmp, Index
x86_64: AtomicXchg64 UD:G:64, UD:G:64 /effects
Tmp, Addr
Tmp, Index
arm64: LoadLink8 U:G:8, ZD:G:8 /effects
SimpleAddr, Tmp
arm64: LoadLinkAcq8 U:G:8, ZD:G:8 /effects
SimpleAddr, Tmp
# Super confusing fact: this returns 0 to mean success, 1 to mean failure.
arm64: StoreCond8 U:G:8, D:G:8, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: StoreCondRel8 U:G:8, D:G:8, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: LoadLink16 U:G:16, ZD:G:16 /effects
SimpleAddr, Tmp
arm64: LoadLinkAcq16 U:G:16, ZD:G:16 /effects
SimpleAddr, Tmp
arm64: StoreCond16 U:G:16, D:G:16, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: StoreCondRel16 U:G:16, D:G:16, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: LoadLink32 U:G:32, ZD:G:32 /effects
SimpleAddr, Tmp
arm64: LoadLinkAcq32 U:G:32, ZD:G:32 /effects
SimpleAddr, Tmp
arm64: StoreCond32 U:G:32, D:G:32, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: StoreCondRel32 U:G:32, D:G:32, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: LoadLink64 U:G:64, ZD:G:64 /effects
SimpleAddr, Tmp
arm64: LoadLinkAcq64 U:G:64, ZD:G:64 /effects
SimpleAddr, Tmp
arm64: StoreCond64 U:G:64, D:G:64, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: StoreCondRel64 U:G:64, D:G:64, EZD:G:8 /effects
Tmp, SimpleAddr, Tmp
arm64: Depend32 U:G:32, ZD:G:32
Tmp, Tmp
arm64: Depend64 U:G:64, ZD:G:64
Tmp, Tmp
arm64e: AtomicXchgAdd8 U:G:8, UD:G:8, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgAdd16 U:G:16, UD:G:16, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgAdd32 U:G:32, UD:G:32, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgAdd64 U:G:64, UD:G:64, ZD:G:64 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgOr8 U:G:8, UD:G:8, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgOr16 U:G:16, UD:G:16, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgOr32 U:G:32, UD:G:32, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgOr64 U:G:64, UD:G:64, ZD:G:64 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgClear8 U:G:8, UD:G:8, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgClear16 U:G:16, UD:G:16, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgClear32 U:G:32, UD:G:32, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgClear64 U:G:64, UD:G:64, ZD:G:64 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgXor8 U:G:8, UD:G:8, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgXor16 U:G:16, UD:G:16, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgXor32 U:G:32, UD:G:32, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchgXor64 U:G:64, UD:G:64, ZD:G:64 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchg8 U:G:8, UD:G:8, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchg16 U:G:16, UD:G:16, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchg32 U:G:32, UD:G:32, ZD:G:32 /effects
Tmp, SimpleAddr, Tmp
arm64e: AtomicXchg64 U:G:64, UD:G:64, ZD:G:64 /effects
Tmp, SimpleAddr, Tmp
Compare32 U:G:32, U:G:32, U:G:32, ZD:G:32
RelCond, Tmp, Tmp, Tmp
RelCond, Tmp, Imm, Tmp
64: Compare64 U:G:32, U:G:64, U:G:64, ZD:G:32
RelCond, Tmp, Tmp, Tmp
x86: RelCond, Tmp, Imm, Tmp
Test32 U:G:32, U:G:32, U:G:32, ZD:G:32
x86: ResCond, Addr, Imm, Tmp
ResCond, Tmp, Tmp, Tmp
ResCond, Tmp, BitImm, Tmp
64: Test64 U:G:32, U:G:64, U:G:64, ZD:G:32
x86: ResCond, Tmp, Imm, Tmp
ResCond, Tmp, Tmp, Tmp
CompareDouble U:G:32, U:F:64, U:F:64, ZD:G:32
DoubleCond, Tmp, Tmp, Tmp
CompareFloat U:G:32, U:F:32, U:F:32, ZD:G:32
DoubleCond, Tmp, Tmp, Tmp
# Note that branches have some logic in AirOptimizeBlockOrder.cpp. If you add new branches, please make sure
# you opt them into the block order optimizations.
Branch8 U:G:32, U:G:8, U:G:8 /branch
x86: RelCond, Addr, Imm
x86: RelCond, Index, Imm
Branch32 U:G:32, U:G:32, U:G:32 /branch
x86: RelCond, Addr, Imm
RelCond, Tmp, Tmp
RelCond, Tmp, Imm
x86: RelCond, Tmp, Addr
x86: RelCond, Addr, Tmp
x86: RelCond, Index, Imm
64: Branch64 U:G:32, U:G:64, U:G:64 /branch
RelCond, Tmp, Tmp
RelCond, Tmp, Imm
x86: RelCond, Tmp, Addr
x86: RelCond, Addr, Tmp
x86: RelCond, Addr, Imm
x86: RelCond, Index, Tmp
BranchTest8 U:G:32, U:G:8, U:G:8 /branch
x86: ResCond, Addr, BitImm
x86: ResCond, Index, BitImm
BranchTest32 U:G:32, U:G:32, U:G:32 /branch
ResCond, Tmp, Tmp
ResCond, Tmp, BitImm
x86: ResCond, Addr, BitImm
x86: ResCond, Index, BitImm
# Warning: forms that take an immediate will sign-extend their immediate. You probably want
# BranchTest32 in most cases where you use an immediate.
64: BranchTest64 U:G:32, U:G:64, U:G:64 /branch
ResCond, Tmp, Tmp
arm64: ResCond, Tmp, BitImm64
x86: ResCond, Tmp, BitImm
x86: ResCond, Addr, BitImm
x86: ResCond, Addr, Tmp
x86: ResCond, Index, BitImm
x86_64: BranchTestBit64 U:G:32, U:G:64, U:G:8 /branch
ResCond, Tmp, Imm
ResCond, Addr, Imm
ResCond, Tmp, Tmp
x86: BranchTestBit32 U:G:32, U:G:32, U:G:8 /branch
ResCond, Tmp, Imm
ResCond, Addr, Imm
ResCond, Tmp, Tmp
BranchDouble U:G:32, U:F:64, U:F:64 /branch
DoubleCond, Tmp, Tmp
BranchFloat U:G:32, U:F:32, U:F:32 /branch
DoubleCond, Tmp, Tmp
BranchAdd32 U:G:32, U:G:32, U:G:32, ZD:G:32 /branch
ResCond, Tmp, Tmp, Tmp
x86:ResCond, Tmp, Addr, Tmp
x86:ResCond, Addr, Tmp, Tmp
BranchAdd32 U:G:32, U:G:32, UZD:G:32 /branch
ResCond, Tmp, Tmp
ResCond, Imm, Tmp
x86: ResCond, Imm, Addr
x86: ResCond, Tmp, Addr
x86: ResCond, Addr, Tmp
BranchAdd64 U:G:32, U:G:64, U:G:64, ZD:G:64 /branch
ResCond, Tmp, Tmp, Tmp
x86:ResCond, Tmp, Addr, Tmp
x86:ResCond, Addr, Tmp, Tmp
64: BranchAdd64 U:G:32, U:G:64, UD:G:64 /branch
ResCond, Imm, Tmp
ResCond, Tmp, Tmp
x86:ResCond, Addr, Tmp
x86: BranchMul32 U:G:32, U:G:32, UZD:G:32 /branch
ResCond, Tmp, Tmp
ResCond, Addr, Tmp
x86: BranchMul32 U:G:32, U:G:32, U:G:32, ZD:G:32 /branch
ResCond, Tmp, Imm, Tmp
arm64: BranchMul32 U:G:32, U:G:32, U:G:32, S:G:32, S:G:32, ZD:G:32 /branch
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
x86_64: BranchMul64 U:G:32, U:G:64, UZD:G:64 /branch
ResCond, Tmp, Tmp
arm64: BranchMul64 U:G:32, U:G:64, U:G:64, S:G:64, S:G:64, ZD:G:64 /branch
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
BranchSub32 U:G:32, U:G:32, UZD:G:32 /branch
ResCond, Tmp, Tmp
ResCond, Imm, Tmp
x86: ResCond, Imm, Addr
x86: ResCond, Tmp, Addr
x86: ResCond, Addr, Tmp
64: BranchSub64 U:G:32, U:G:64, UD:G:64 /branch
ResCond, Imm, Tmp
ResCond, Tmp, Tmp
BranchNeg32 U:G:32, UZD:G:32 /branch
ResCond, Tmp
64: BranchNeg64 U:G:32, UZD:G:64 /branch
ResCond, Tmp
MoveConditionally32 U:G:32, U:G:32, U:G:32, U:G:Ptr, UD:G:Ptr
RelCond, Tmp, Tmp, Tmp, Tmp
MoveConditionally32 U:G:32, U:G:32, U:G:32, U:G:Ptr, U:G:Ptr, D:G:Ptr
RelCond, Tmp, Tmp, Tmp, Tmp, Tmp
RelCond, Tmp, Imm, Tmp, Tmp, Tmp
64: MoveConditionally64 U:G:32, U:G:64, U:G:64, U:G:Ptr, UD:G:Ptr
RelCond, Tmp, Tmp, Tmp, Tmp
64: MoveConditionally64 U:G:32, U:G:64, U:G:64, U:G:Ptr, U:G:Ptr, D:G:Ptr
RelCond, Tmp, Tmp, Tmp, Tmp, Tmp
RelCond, Tmp, Imm, Tmp, Tmp, Tmp
MoveConditionallyTest32 U:G:32, U:G:32, U:G:32, U:G:Ptr, UD:G:Ptr
ResCond, Tmp, Tmp, Tmp, Tmp
x86: ResCond, Tmp, Imm, Tmp, Tmp
MoveConditionallyTest32 U:G:32, U:G:32, U:G:32, U:G:Ptr, U:G:Ptr, D:G:Ptr
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
ResCond, Tmp, BitImm, Tmp, Tmp, Tmp
64: MoveConditionallyTest64 U:G:32, U:G:64, U:G:64, U:G:Ptr, UD:G:Ptr
ResCond, Tmp, Tmp, Tmp, Tmp
x86: ResCond, Tmp, Imm, Tmp, Tmp
64: MoveConditionallyTest64 U:G:32, U:G:32, U:G:32, U:G:Ptr, U:G:Ptr, D:G:Ptr
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
x86_64: ResCond, Tmp, Imm, Tmp, Tmp, Tmp
MoveConditionallyDouble U:G:32, U:F:64, U:F:64, U:G:Ptr, U:G:Ptr, D:G:Ptr
DoubleCond, Tmp, Tmp, Tmp, Tmp, Tmp
MoveConditionallyDouble U:G:32, U:F:64, U:F:64, U:G:Ptr, UD:G:Ptr
DoubleCond, Tmp, Tmp, Tmp, Tmp
MoveConditionallyFloat U:G:32, U:F:32, U:F:32, U:G:Ptr, U:G:Ptr, D:G:Ptr
DoubleCond, Tmp, Tmp, Tmp, Tmp, Tmp
MoveConditionallyFloat U:G:32, U:F:32, U:F:32, U:G:Ptr, UD:G:Ptr
DoubleCond, Tmp, Tmp, Tmp, Tmp
MoveDoubleConditionally32 U:G:32, U:G:32, U:G:32, U:F:64, U:F:64, D:F:64
RelCond, Tmp, Tmp, Tmp, Tmp, Tmp
RelCond, Tmp, Imm, Tmp, Tmp, Tmp
x86: RelCond, Addr, Imm, Tmp, Tmp, Tmp
x86: RelCond, Tmp, Addr, Tmp, Tmp, Tmp
x86: RelCond, Addr, Tmp, Tmp, Tmp, Tmp
x86: RelCond, Index, Imm, Tmp, Tmp, Tmp
64: MoveDoubleConditionally64 U:G:32, U:G:64, U:G:64, U:F:64, U:F:64, D:F:64
RelCond, Tmp, Tmp, Tmp, Tmp, Tmp
RelCond, Tmp, Imm, Tmp, Tmp, Tmp
x86_64: RelCond, Tmp, Addr, Tmp, Tmp, Tmp
x86_64: RelCond, Addr, Tmp, Tmp, Tmp, Tmp
x86_64: RelCond, Addr, Imm, Tmp, Tmp, Tmp
x86_64: RelCond, Index, Tmp, Tmp, Tmp, Tmp
MoveDoubleConditionallyTest32 U:G:32, U:G:32, U:G:32, U:F:64, U:F:64, D:F:64
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
ResCond, Tmp, BitImm, Tmp, Tmp, Tmp
x86: ResCond, Addr, Imm, Tmp, Tmp, Tmp
x86: ResCond, Index, Imm, Tmp, Tmp, Tmp
# Warning: forms that take an immediate will sign-extend their immediate. You probably want
# MoveDoubleConditionallyTest32 in most cases where you use an immediate.
64: MoveDoubleConditionallyTest64 U:G:32, U:G:64, U:G:64, U:F:64, U:F:64, D:F:64
ResCond, Tmp, Tmp, Tmp, Tmp, Tmp
x86_64: ResCond, Tmp, Imm, Tmp, Tmp, Tmp
x86_64: ResCond, Addr, Imm, Tmp, Tmp, Tmp
x86_64: ResCond, Addr, Tmp, Tmp, Tmp, Tmp
x86_64: ResCond, Index, Imm, Tmp, Tmp, Tmp
MoveDoubleConditionallyDouble U:G:32, U:F:64, U:F:64, U:F:64, U:F:64, D:F:64
DoubleCond, Tmp, Tmp, Tmp, Tmp, Tmp
MoveDoubleConditionallyFloat U:G:32, U:F:32, U:F:32, U:F:64, U:F:64, D:F:64
DoubleCond, Tmp, Tmp, Tmp, Tmp, Tmp
MemoryFence /effects
StoreFence /effects
LoadFence /effects
Jump /branch
RetVoid /return
Ret32 U:G:32 /return
Tmp
64: Ret64 U:G:64 /return
Tmp
RetFloat U:F:32 /return
Tmp
RetDouble U:F:64 /return
Tmp
Oops /terminal
# This is a terminal but we express it as a Custom because we don't want it to have a code
# generator.
custom EntrySwitch
# A Shuffle is a multi-source, multi-destination move. It simultaneously does multiple moves at once.
# The moves are specified as triplets of src, dst, and width. For example you can request a swap this
# way:
# Shuffle %tmp1, %tmp2, 64, %tmp2, %tmp1, 64
custom Shuffle
# Air allows for exotic behavior. A Patch's behavior is determined entirely by the Special operand,
# which must be the first operand.
custom Patch
# Instructions used for lowering C calls. These don't make it to Air generation. They get lowered to
# something else first. The origin Value must be a CCallValue.
custom CCall
custom ColdCCall
# This is a special wasm opcode that branches to a trap handler. This uses the generator located to Air::Code
# to produce the side-exit code.
custom WasmBoundsCheck