// Copyright 2014 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#ifndef V8_COMPILER_MIPS_INSTRUCTION_CODES_MIPS_H_
#define V8_COMPILER_MIPS_INSTRUCTION_CODES_MIPS_H_
namespace v8 {
namespace internal {
namespace compiler {
// MIPS64-specific opcodes that specify which assembly sequence to emit.
// Most opcodes specify a single instruction.
#define TARGET_ARCH_OPCODE_LIST(V) \
V(Mips64Add) \
V(Mips64Dadd) \
V(Mips64DaddOvf) \
V(Mips64Sub) \
V(Mips64Dsub) \
V(Mips64DsubOvf) \
V(Mips64Mul) \
V(Mips64MulOvf) \
V(Mips64MulHigh) \
V(Mips64DMulHigh) \
V(Mips64MulHighU) \
V(Mips64Dmul) \
V(Mips64Div) \
V(Mips64Ddiv) \
V(Mips64DivU) \
V(Mips64DdivU) \
V(Mips64Mod) \
V(Mips64Dmod) \
V(Mips64ModU) \
V(Mips64DmodU) \
V(Mips64And) \
V(Mips64And32) \
V(Mips64Or) \
V(Mips64Or32) \
V(Mips64Nor) \
V(Mips64Nor32) \
V(Mips64Xor) \
V(Mips64Xor32) \
V(Mips64Clz) \
V(Mips64Lsa) \
V(Mips64Dlsa) \
V(Mips64Shl) \
V(Mips64Shr) \
V(Mips64Sar) \
V(Mips64Ext) \
V(Mips64Ins) \
V(Mips64Dext) \
V(Mips64Dins) \
V(Mips64Dclz) \
V(Mips64Ctz) \
V(Mips64Dctz) \
V(Mips64Popcnt) \
V(Mips64Dpopcnt) \
V(Mips64Dshl) \
V(Mips64Dshr) \
V(Mips64Dsar) \
V(Mips64Ror) \
V(Mips64Dror) \
V(Mips64Mov) \
V(Mips64Tst) \
V(Mips64Cmp) \
V(Mips64CmpS) \
V(Mips64AddS) \
V(Mips64SubS) \
V(Mips64MulS) \
V(Mips64DivS) \
V(Mips64ModS) \
V(Mips64AbsS) \
V(Mips64NegS) \
V(Mips64SqrtS) \
V(Mips64MaxS) \
V(Mips64MinS) \
V(Mips64CmpD) \
V(Mips64AddD) \
V(Mips64SubD) \
V(Mips64MulD) \
V(Mips64DivD) \
V(Mips64ModD) \
V(Mips64AbsD) \
V(Mips64NegD) \
V(Mips64SqrtD) \
V(Mips64MaxD) \
V(Mips64MinD) \
V(Mips64MaddS) \
V(Mips64MaddD) \
V(Mips64MsubS) \
V(Mips64MsubD) \
V(Mips64Float64RoundDown) \
V(Mips64Float64RoundTruncate) \
V(Mips64Float64RoundUp) \
V(Mips64Float64RoundTiesEven) \
V(Mips64Float32RoundDown) \
V(Mips64Float32RoundTruncate) \
V(Mips64Float32RoundUp) \
V(Mips64Float32RoundTiesEven) \
V(Mips64CvtSD) \
V(Mips64CvtDS) \
V(Mips64TruncWD) \
V(Mips64RoundWD) \
V(Mips64FloorWD) \
V(Mips64CeilWD) \
V(Mips64TruncWS) \
V(Mips64RoundWS) \
V(Mips64FloorWS) \
V(Mips64CeilWS) \
V(Mips64TruncLS) \
V(Mips64TruncLD) \
V(Mips64TruncUwD) \
V(Mips64TruncUwS) \
V(Mips64TruncUlS) \
V(Mips64TruncUlD) \
V(Mips64CvtDW) \
V(Mips64CvtSL) \
V(Mips64CvtSW) \
V(Mips64CvtSUw) \
V(Mips64CvtSUl) \
V(Mips64CvtDL) \
V(Mips64CvtDUw) \
V(Mips64CvtDUl) \
V(Mips64Lb) \
V(Mips64Lbu) \
V(Mips64Sb) \
V(Mips64Lh) \
V(Mips64Ulh) \
V(Mips64Lhu) \
V(Mips64Ulhu) \
V(Mips64Sh) \
V(Mips64Ush) \
V(Mips64Ld) \
V(Mips64Uld) \
V(Mips64Lw) \
V(Mips64Ulw) \
V(Mips64Lwu) \
V(Mips64Ulwu) \
V(Mips64Sw) \
V(Mips64Usw) \
V(Mips64Sd) \
V(Mips64Usd) \
V(Mips64Lwc1) \
V(Mips64Ulwc1) \
V(Mips64Swc1) \
V(Mips64Uswc1) \
V(Mips64Ldc1) \
V(Mips64Uldc1) \
V(Mips64Sdc1) \
V(Mips64Usdc1) \
V(Mips64BitcastDL) \
V(Mips64BitcastLD) \
V(Mips64Float64ExtractLowWord32) \
V(Mips64Float64ExtractHighWord32) \
V(Mips64Float64InsertLowWord32) \
V(Mips64Float64InsertHighWord32) \
V(Mips64Float32Max) \
V(Mips64Float64Max) \
V(Mips64Float32Min) \
V(Mips64Float64Min) \
V(Mips64Float64SilenceNaN) \
V(Mips64Push) \
V(Mips64StoreToStackSlot) \
V(Mips64ByteSwap64) \
V(Mips64ByteSwap32) \
V(Mips64StackClaim) \
V(Mips64Seb) \
V(Mips64Seh) \
V(Mips64AssertEqual)
// Addressing modes represent the "shape" of inputs to an instruction.
// Many instructions support multiple addressing modes. Addressing modes
// are encoded into the InstructionCode of the instruction and tell the
// code generator after register allocation which assembler method to call.
//
// We use the following local notation for addressing modes:
//
// R = register
// O = register or stack slot
// D = double register
// I = immediate (handle, external, int32)
// MRI = [register + immediate]
// MRR = [register + register]
// TODO(plind): Add the new r6 address modes.
#define TARGET_ADDRESSING_MODE_LIST(V) \
V(MRI) /* [%r0 + K] */ \
V(MRR) /* [%r0 + %r1] */
} // namespace compiler
} // namespace internal
} // namespace v8
#endif // V8_COMPILER_MIPS_INSTRUCTION_CODES_MIPS_H_