src/v8/src/wasm/wasm-opcodes.cc - cobalt - Git at Google

 // Copyright 2015 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.

 #include "src/wasm/wasm-opcodes.h"

 #include <array>

 #include "src/base/template-utils.h"
 #include "src/codegen/signature.h"
 #include "src/execution/messages.h"
 #include "src/runtime/runtime.h"

 namespace v8 {
 namespace internal {
 namespace wasm {

 #define CASE_OP(name, str) \
   case kExpr##name:        \
     return str;
 #define CASE_I32_OP(name, str) CASE_OP(I32##name, "i32." str)
 #define CASE_I64_OP(name, str) CASE_OP(I64##name, "i64." str)
 #define CASE_F32_OP(name, str) CASE_OP(F32##name, "f32." str)
 #define CASE_F64_OP(name, str) CASE_OP(F64##name, "f64." str)
 #define CASE_REF_OP(name, str) CASE_OP(Ref##name, "ref." str)
 #define CASE_F64x2_OP(name, str) CASE_OP(F64x2##name, "f64x2." str)
 #define CASE_F32x4_OP(name, str) CASE_OP(F32x4##name, "f32x4." str)
 #define CASE_I64x2_OP(name, str) CASE_OP(I64x2##name, "i64x2." str)
 #define CASE_I32x4_OP(name, str) CASE_OP(I32x4##name, "i32x4." str)
 #define CASE_I16x8_OP(name, str) CASE_OP(I16x8##name, "i16x8." str)
 #define CASE_I8x16_OP(name, str) CASE_OP(I8x16##name, "i8x16." str)
 #define CASE_S128_OP(name, str) CASE_OP(S128##name, "s128." str)
 #define CASE_S32x4_OP(name, str) CASE_OP(S32x4##name, "s32x4." str)
 #define CASE_S16x8_OP(name, str) CASE_OP(S16x8##name, "s16x8." str)
 #define CASE_S8x16_OP(name, str) CASE_OP(S8x16##name, "s8x16." str)
 #define CASE_S1x2_OP(name, str) CASE_OP(S1x2##name, "s1x2." str)
 #define CASE_S1x4_OP(name, str) CASE_OP(S1x4##name, "s1x4." str)
 #define CASE_S1x8_OP(name, str) CASE_OP(S1x8##name, "s1x8." str)
 #define CASE_S1x16_OP(name, str) CASE_OP(S1x16##name, "s1x16." str)
 #define CASE_INT_OP(name, str) CASE_I32_OP(name, str) CASE_I64_OP(name, str)
 #define CASE_FLOAT_OP(name, str) CASE_F32_OP(name, str) CASE_F64_OP(name, str)
 #define CASE_ALL_OP(name, str) CASE_FLOAT_OP(name, str) CASE_INT_OP(name, str)
 #define CASE_SIMD_OP(name, str)                                              \
   CASE_F32x4_OP(name, str) CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) \
       CASE_I8x16_OP(name, str)
 #define CASE_SIMDI_OP(name, str) \
   CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) CASE_I8x16_OP(name, str)
 #define CASE_SIGN_OP(TYPE, name, str) \
   CASE_##TYPE##_OP(name##S, str "_s") CASE_##TYPE##_OP(name##U, str "_u")
 #define CASE_UNSIGNED_OP(TYPE, name, str) CASE_##TYPE##_OP(name##U, str "_u")
 #define CASE_ALL_SIGN_OP(name, str) \
   CASE_FLOAT_OP(name, str) CASE_SIGN_OP(INT, name, str)
 #define CASE_CONVERT_OP(name, RES, SRC, src_suffix, str) \
   CASE_##RES##_OP(U##name##SRC, str "_" src_suffix "_u") \
       CASE_##RES##_OP(S##name##SRC, str "_" src_suffix "_s")
 #define CASE_CONVERT_SAT_OP(name, RES, SRC, src_suffix, str)      \
   CASE_##RES##_OP(U##name##Sat##SRC, str "_sat_" src_suffix "_u") \
       CASE_##RES##_OP(S##name##Sat##SRC, str "_sat_" src_suffix "_s")
 #define CASE_L32_OP(name, str)          \
   CASE_SIGN_OP(I32, name##8, str "8")   \
   CASE_SIGN_OP(I32, name##16, str "16") \
   CASE_I32_OP(name, str "32")
 #define CASE_U32_OP(name, str)            \
   CASE_I32_OP(name, str "32")             \
   CASE_UNSIGNED_OP(I32, name##8, str "8") \
   CASE_UNSIGNED_OP(I32, name##16, str "16")
 #define CASE_UNSIGNED_ALL_OP(name, str)     \
   CASE_U32_OP(name, str)                    \
   CASE_I64_OP(name, str "64")               \
   CASE_UNSIGNED_OP(I64, name##8, str "8")   \
   CASE_UNSIGNED_OP(I64, name##16, str "16") \
   CASE_UNSIGNED_OP(I64, name##32, str "32")

 const char* WasmOpcodes::OpcodeName(WasmOpcode opcode) {
   switch (opcode) {
     // clang-format off

     // Standard opcodes
     CASE_INT_OP(Eqz, "eqz")
     CASE_ALL_OP(Eq, "eq")
     CASE_ALL_OP(Ne, "ne")
     CASE_ALL_OP(Add, "add")
     CASE_ALL_OP(Sub, "sub")
     CASE_ALL_OP(Mul, "mul")
     CASE_ALL_SIGN_OP(Lt, "lt")
     CASE_ALL_SIGN_OP(Gt, "gt")
     CASE_ALL_SIGN_OP(Le, "le")
     CASE_ALL_SIGN_OP(Ge, "ge")
     CASE_INT_OP(Clz, "clz")
     CASE_INT_OP(Ctz, "ctz")
     CASE_INT_OP(Popcnt, "popcnt")
     CASE_ALL_SIGN_OP(Div, "div")
     CASE_SIGN_OP(INT, Rem, "rem")
     CASE_INT_OP(And, "and")
     CASE_INT_OP(Ior, "or")
     CASE_INT_OP(Xor, "xor")
     CASE_INT_OP(Shl, "shl")
     CASE_SIGN_OP(INT, Shr, "shr")
     CASE_INT_OP(Rol, "rol")
     CASE_INT_OP(Ror, "ror")
     CASE_FLOAT_OP(Abs, "abs")
     CASE_FLOAT_OP(Neg, "neg")
     CASE_FLOAT_OP(Ceil, "ceil")
     CASE_FLOAT_OP(Floor, "floor")
     CASE_FLOAT_OP(Trunc, "trunc")
     CASE_FLOAT_OP(NearestInt, "nearest")
     CASE_FLOAT_OP(Sqrt, "sqrt")
     CASE_FLOAT_OP(Min, "min")
     CASE_FLOAT_OP(Max, "max")
     CASE_FLOAT_OP(CopySign, "copysign")
     CASE_REF_OP(Null, "null")
     CASE_REF_OP(IsNull, "is_null")
     CASE_REF_OP(Func, "func")
     CASE_I32_OP(ConvertI64, "wrap_i64")
     CASE_CONVERT_OP(Convert, INT, F32, "f32", "trunc")
     CASE_CONVERT_OP(Convert, INT, F64, "f64", "trunc")
     CASE_CONVERT_OP(Convert, I64, I32, "i32", "extend")
     CASE_CONVERT_OP(Convert, F32, I32, "i32", "convert")
     CASE_CONVERT_OP(Convert, F32, I64, "i64", "convert")
     CASE_F32_OP(ConvertF64, "demote_f64")
     CASE_CONVERT_OP(Convert, F64, I32, "i32", "convert")
     CASE_CONVERT_OP(Convert, F64, I64, "i64", "convert")
     CASE_F64_OP(ConvertF32, "promote_f32")
     CASE_I32_OP(ReinterpretF32, "reinterpret_f32")
     CASE_I64_OP(ReinterpretF64, "reinterpret_f64")
     CASE_F32_OP(ReinterpretI32, "reinterpret_i32")
     CASE_F64_OP(ReinterpretI64, "reinterpret_i64")
     CASE_INT_OP(SExtendI8, "extend8_s")
     CASE_INT_OP(SExtendI16, "extend16_s")
     CASE_I64_OP(SExtendI32, "extend32_s")
     CASE_OP(Unreachable, "unreachable")
     CASE_OP(Nop, "nop")
     CASE_OP(Block, "block")
     CASE_OP(Loop, "loop")
     CASE_OP(If, "if")
     CASE_OP(Else, "else")
     CASE_OP(End, "end")
     CASE_OP(Br, "br")
     CASE_OP(BrIf, "br_if")
     CASE_OP(BrTable, "br_table")
     CASE_OP(Return, "return")
     CASE_OP(CallFunction, "call")
     CASE_OP(CallIndirect, "call_indirect")
     CASE_OP(ReturnCall, "return_call")
     CASE_OP(ReturnCallIndirect, "return_call_indirect")
     CASE_OP(Drop, "drop")
     CASE_OP(Select, "select")
     CASE_OP(SelectWithType, "select")
     CASE_OP(GetLocal, "local.get")
     CASE_OP(SetLocal, "local.set")
     CASE_OP(TeeLocal, "local.tee")
     CASE_OP(GetGlobal, "global.get")
     CASE_OP(SetGlobal, "global.set")
     CASE_OP(TableGet, "table.get")
     CASE_OP(TableSet, "table.set")
     CASE_ALL_OP(Const, "const")
     CASE_OP(MemorySize, "memory.size")
     CASE_OP(MemoryGrow, "memory.grow")
     CASE_ALL_OP(LoadMem, "load")
     CASE_SIGN_OP(INT, LoadMem8, "load8")
     CASE_SIGN_OP(INT, LoadMem16, "load16")
     CASE_SIGN_OP(I64, LoadMem32, "load32")
     CASE_S128_OP(LoadMem, "load128")
     CASE_ALL_OP(StoreMem, "store")
     CASE_INT_OP(StoreMem8, "store8")
     CASE_INT_OP(StoreMem16, "store16")
     CASE_I64_OP(StoreMem32, "store32")
     CASE_S128_OP(StoreMem, "store128")

     // Exception handling opcodes.
     CASE_OP(Try, "try")
     CASE_OP(Catch, "catch")
     CASE_OP(Throw, "throw")
     CASE_OP(Rethrow, "rethrow")
     CASE_OP(BrOnExn, "br_on_exn")

     // asm.js-only opcodes.
     CASE_F64_OP(Acos, "acos")
     CASE_F64_OP(Asin, "asin")
     CASE_F64_OP(Atan, "atan")
     CASE_F64_OP(Cos, "cos")
     CASE_F64_OP(Sin, "sin")
     CASE_F64_OP(Tan, "tan")
     CASE_F64_OP(Exp, "exp")
     CASE_F64_OP(Log, "log")
     CASE_F64_OP(Atan2, "atan2")
     CASE_F64_OP(Pow, "pow")
     CASE_F64_OP(Mod, "mod")
     CASE_F32_OP(AsmjsLoadMem, "asmjs_load")
     CASE_F64_OP(AsmjsLoadMem, "asmjs_load")
     CASE_L32_OP(AsmjsLoadMem, "asmjs_load")
     CASE_I32_OP(AsmjsStoreMem, "asmjs_store")
     CASE_F32_OP(AsmjsStoreMem, "asmjs_store")
     CASE_F64_OP(AsmjsStoreMem, "asmjs_store")
     CASE_I32_OP(AsmjsStoreMem8, "asmjs_store8")
     CASE_I32_OP(AsmjsStoreMem16, "asmjs_store16")
     CASE_SIGN_OP(I32, AsmjsDiv, "asmjs_div")
     CASE_SIGN_OP(I32, AsmjsRem, "asmjs_rem")
     CASE_I32_OP(AsmjsSConvertF32, "asmjs_convert_f32_s")
     CASE_I32_OP(AsmjsUConvertF32, "asmjs_convert_f32_u")
     CASE_I32_OP(AsmjsSConvertF64, "asmjs_convert_f64_s")
     CASE_I32_OP(AsmjsUConvertF64, "asmjs_convert_f64_u")

     // Numeric Opcodes.
     CASE_CONVERT_SAT_OP(Convert, I32, F32, "f32", "trunc")
     CASE_CONVERT_SAT_OP(Convert, I32, F64, "f64", "trunc")
     CASE_CONVERT_SAT_OP(Convert, I64, F32, "f32", "trunc")
     CASE_CONVERT_SAT_OP(Convert, I64, F64, "f64", "trunc")
     CASE_OP(MemoryInit, "memory.init")
     CASE_OP(DataDrop, "data.drop")
     CASE_OP(MemoryCopy, "memory.copy")
     CASE_OP(MemoryFill, "memory.fill")
     CASE_OP(TableInit, "table.init")
     CASE_OP(ElemDrop, "elem.drop")
     CASE_OP(TableCopy, "table.copy")
     CASE_OP(TableGrow, "table.grow")
     CASE_OP(TableSize, "table.size")
     CASE_OP(TableFill, "table.fill")

     // SIMD opcodes.
     CASE_SIMD_OP(Splat, "splat")
     CASE_SIMD_OP(Neg, "neg")
     CASE_F64x2_OP(Neg, "neg")
     CASE_I64x2_OP(Neg, "neg")
     CASE_SIMD_OP(Eq, "eq")
     CASE_F64x2_OP(Eq, "eq")
     CASE_I64x2_OP(Eq, "eq")
     CASE_SIMD_OP(Ne, "ne")
     CASE_F64x2_OP(Ne, "ne")
     CASE_I64x2_OP(Ne, "ne")
     CASE_SIMD_OP(Add, "add")
     CASE_I64x2_OP(Add, "add")
     CASE_SIMD_OP(Sub, "sub")
     CASE_I64x2_OP(Sub, "sub")
     CASE_SIMD_OP(Mul, "mul")
     CASE_I64x2_OP(Mul, "mul")
     CASE_F64x2_OP(Splat, "splat")
     CASE_F64x2_OP(Lt, "lt")
     CASE_F64x2_OP(Le, "le")
     CASE_F64x2_OP(Gt, "gt")
     CASE_F64x2_OP(Ge, "ge")
     CASE_F64x2_OP(Abs, "abs")
     CASE_F32x4_OP(Abs, "abs")
     CASE_F32x4_OP(AddHoriz, "add_horizontal")
     CASE_F32x4_OP(RecipApprox, "recip_approx")
     CASE_F32x4_OP(RecipSqrtApprox, "recip_sqrt_approx")
     CASE_F32x4_OP(Min, "min")
     CASE_F32x4_OP(Max, "max")
     CASE_F32x4_OP(Lt, "lt")
     CASE_F32x4_OP(Le, "le")
     CASE_F32x4_OP(Gt, "gt")
     CASE_F32x4_OP(Ge, "ge")
     CASE_CONVERT_OP(Convert, F32x4, I32x4, "i32", "convert")
     CASE_CONVERT_OP(Convert, I32x4, F32x4, "f32", "convert")
     CASE_CONVERT_OP(Convert, I32x4, I16x8Low, "i32", "convert")
     CASE_CONVERT_OP(Convert, I32x4, I16x8High, "i32", "convert")
     CASE_CONVERT_OP(Convert, I16x8, I32x4, "i32", "convert")
     CASE_CONVERT_OP(Convert, I16x8, I8x16Low, "i32", "convert")
     CASE_CONVERT_OP(Convert, I16x8, I8x16High, "i32", "convert")
     CASE_CONVERT_OP(Convert, I8x16, I16x8, "i32", "convert")
     CASE_F64x2_OP(ExtractLane, "extract_lane")
     CASE_F64x2_OP(ReplaceLane, "replace_lane")
     CASE_F32x4_OP(ExtractLane, "extract_lane")
     CASE_F32x4_OP(ReplaceLane, "replace_lane")
     CASE_I64x2_OP(ExtractLane, "extract_lane")
     CASE_I64x2_OP(ReplaceLane, "replace_lane")
     CASE_SIMDI_OP(ExtractLane, "extract_lane")
     CASE_SIMDI_OP(ReplaceLane, "replace_lane")
     CASE_SIGN_OP(SIMDI, Min, "min")
     CASE_SIGN_OP(SIMDI, Max, "max")
     CASE_SIGN_OP(SIMDI, Lt, "lt")
     CASE_SIGN_OP(I64x2, Lt, "lt")
     CASE_SIGN_OP(SIMDI, Le, "le")
     CASE_SIGN_OP(I64x2, Le, "le")
     CASE_SIGN_OP(SIMDI, Gt, "gt")
     CASE_SIGN_OP(I64x2, Gt, "gt")
     CASE_SIGN_OP(SIMDI, Ge, "ge")
     CASE_SIGN_OP(I64x2, Ge, "ge")
     CASE_SIGN_OP(SIMDI, Shr, "shr")
     CASE_SIGN_OP(I64x2, Shr, "shr")
     CASE_SIMDI_OP(Shl, "shl")
     CASE_I64x2_OP(Shl, "shl")
     CASE_I64x2_OP(Splat, "splat")
     CASE_I32x4_OP(AddHoriz, "add_horizontal")
     CASE_I16x8_OP(AddHoriz, "add_horizontal")
     CASE_SIGN_OP(I16x8, AddSaturate, "add_saturate")
     CASE_SIGN_OP(I8x16, AddSaturate, "add_saturate")
     CASE_SIGN_OP(I16x8, SubSaturate, "sub_saturate")
     CASE_SIGN_OP(I8x16, SubSaturate, "sub_saturate")
     CASE_S128_OP(And, "and")
     CASE_S128_OP(Or, "or")
     CASE_S128_OP(Xor, "xor")
     CASE_S128_OP(Not, "not")
     CASE_S128_OP(Select, "select")
     CASE_S8x16_OP(Shuffle, "shuffle")
     CASE_S1x2_OP(AnyTrue, "any_true")
     CASE_S1x2_OP(AllTrue, "all_true")
     CASE_S1x4_OP(AnyTrue, "any_true")
     CASE_S1x4_OP(AllTrue, "all_true")
     CASE_S1x8_OP(AnyTrue, "any_true")
     CASE_S1x8_OP(AllTrue, "all_true")
     CASE_S1x16_OP(AnyTrue, "any_true")
     CASE_S1x16_OP(AllTrue, "all_true")

     // Atomic operations.
     CASE_OP(AtomicNotify, "atomic.notify")
     CASE_INT_OP(AtomicWait, "atomic.wait")
     CASE_OP(AtomicFence, "atomic.fence")
     CASE_UNSIGNED_ALL_OP(AtomicLoad, "atomic.load")
     CASE_UNSIGNED_ALL_OP(AtomicStore, "atomic.store")
     CASE_UNSIGNED_ALL_OP(AtomicAdd, "atomic.add")
     CASE_UNSIGNED_ALL_OP(AtomicSub, "atomic.sub")
     CASE_UNSIGNED_ALL_OP(AtomicAnd, "atomic.and")
     CASE_UNSIGNED_ALL_OP(AtomicOr, "atomic.or")
     CASE_UNSIGNED_ALL_OP(AtomicXor, "atomic.xor")
     CASE_UNSIGNED_ALL_OP(AtomicExchange, "atomic.xchng")
     CASE_UNSIGNED_ALL_OP(AtomicCompareExchange, "atomic.cmpxchng")

     default : return "unknown";
     // clang-format on
   }
 }

 #undef CASE_OP
 #undef CASE_I32_OP
 #undef CASE_I64_OP
 #undef CASE_F32_OP
 #undef CASE_F64_OP
 #undef CASE_REF_OP
 #undef CASE_F64x2_OP
 #undef CASE_F32x4_OP
 #undef CASE_I64x2_OP
 #undef CASE_I32x4_OP
 #undef CASE_I16x8_OP
 #undef CASE_I8x16_OP
 #undef CASE_S128_OP
 #undef CASE_S32x4_OP
 #undef CASE_S16x8_OP
 #undef CASE_S8x16_OP
 #undef CASE_S1x2_OP
 #undef CASE_S1x4_OP
 #undef CASE_S1x8_OP
 #undef CASE_S1x16_OP
 #undef CASE_INT_OP
 #undef CASE_FLOAT_OP
 #undef CASE_ALL_OP
 #undef CASE_SIMD_OP
 #undef CASE_SIMDI_OP
 #undef CASE_SIGN_OP
 #undef CASE_UNSIGNED_OP
 #undef CASE_UNSIGNED_ALL_OP
 #undef CASE_ALL_SIGN_OP
 #undef CASE_CONVERT_OP
 #undef CASE_CONVERT_SAT_OP
 #undef CASE_L32_OP
 #undef CASE_U32_OP

 bool WasmOpcodes::IsPrefixOpcode(WasmOpcode opcode) {
   switch (opcode) {
 #define CHECK_PREFIX(name, opcode) case k##name##Prefix:
     FOREACH_PREFIX(CHECK_PREFIX)
 #undef CHECK_PREFIX
     return true;
     default:
       return false;
   }
 }

 bool WasmOpcodes::IsControlOpcode(WasmOpcode opcode) {
   switch (opcode) {
 #define CHECK_OPCODE(name, opcode, _) case kExpr##name:
     FOREACH_CONTROL_OPCODE(CHECK_OPCODE)
 #undef CHECK_OPCODE
     return true;
     default:
       return false;
   }
 }

 bool WasmOpcodes::IsUnconditionalJump(WasmOpcode opcode) {
   switch (opcode) {
     case kExprUnreachable:
     case kExprBr:
     case kExprBrTable:
     case kExprReturn:
       return true;
     default:
       return false;
   }
 }

 bool WasmOpcodes::IsSignExtensionOpcode(WasmOpcode opcode) {
   switch (opcode) {
     case kExprI32SExtendI8:
     case kExprI32SExtendI16:
     case kExprI64SExtendI8:
     case kExprI64SExtendI16:
     case kExprI64SExtendI32:
       return true;
     default:
       return false;
   }
 }

 bool WasmOpcodes::IsAnyRefOpcode(WasmOpcode opcode) {
   switch (opcode) {
     case kExprRefNull:
     case kExprRefIsNull:
     case kExprRefFunc:
       return true;
     default:
       return false;
   }
 }

 bool WasmOpcodes::IsThrowingOpcode(WasmOpcode opcode) {
   // TODO(8729): Trapping opcodes are not yet considered to be throwing.
   switch (opcode) {
     case kExprThrow:
     case kExprRethrow:
     case kExprCallFunction:
     case kExprCallIndirect:
       return true;
     default:
       return false;
   }
 }

 std::ostream& operator<<(std::ostream& os, const FunctionSig& sig) {
   if (sig.return_count() == 0) os << "v";
   for (auto ret : sig.returns()) {
     os << ValueTypes::ShortNameOf(ret);
   }
   os << "_";
   if (sig.parameter_count() == 0) os << "v";
   for (auto param : sig.parameters()) {
     os << ValueTypes::ShortNameOf(param);
   }
   return os;
 }

 bool IsJSCompatibleSignature(const FunctionSig* sig, bool has_bigint_feature) {
   if (sig->return_count() > 1) {
     return false;
   }
   for (auto type : sig->all()) {
     if (!has_bigint_feature && type == kWasmI64) {
       return false;
     }

     if (type == kWasmS128) return false;
   }
   return true;
 }

 namespace {

 #define DECLARE_SIG_ENUM(name, ...) kSigEnum_##name,
 enum WasmOpcodeSig : byte {
   kSigEnum_None,
   FOREACH_SIGNATURE(DECLARE_SIG_ENUM)
 };
 #undef DECLARE_SIG_ENUM
 #define DECLARE_SIG(name, ...)                                                \
   constexpr ValueType kTypes_##name[] = {__VA_ARGS__};                        \
   constexpr int kReturnsCount_##name = kTypes_##name[0] == kWasmStmt ? 0 : 1; \
   constexpr FunctionSig kSig_##name(                                          \
       kReturnsCount_##name, static_cast<int>(arraysize(kTypes_##name)) - 1,   \
       kTypes_##name + (1 - kReturnsCount_##name));
 FOREACH_SIGNATURE(DECLARE_SIG)
 #undef DECLARE_SIG

 #define DECLARE_SIG_ENTRY(name, ...) &kSig_##name,
 constexpr const FunctionSig* kCachedSigs[] = {
     nullptr, FOREACH_SIGNATURE(DECLARE_SIG_ENTRY)};
 #undef DECLARE_SIG_ENTRY

 // gcc 4.7 - 4.9 has a bug which causes the constexpr attribute to get lost when
 // passing functions (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=52892). Hence
 // encapsulate these constexpr functions in functors.
 // TODO(clemensh): Remove this once we require gcc >= 5.0.

 struct GetShortOpcodeSigIndex {
   constexpr WasmOpcodeSig operator()(byte opcode) const {
 #define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig:
     return FOREACH_SIMPLE_OPCODE(CASE) FOREACH_SIMPLE_PROTOTYPE_OPCODE(CASE)
         kSigEnum_None;
 #undef CASE
   }
 };

 struct GetAsmJsOpcodeSigIndex {
   constexpr WasmOpcodeSig operator()(byte opcode) const {
 #define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig:
     return FOREACH_ASMJS_COMPAT_OPCODE(CASE) kSigEnum_None;
 #undef CASE
   }
 };

 struct GetSimdOpcodeSigIndex {
   constexpr WasmOpcodeSig operator()(byte opcode) const {
 #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
     return FOREACH_SIMD_0_OPERAND_OPCODE(CASE) FOREACH_SIMD_MEM_OPCODE(CASE)
         kSigEnum_None;
 #undef CASE
   }
 };

 struct GetAtomicOpcodeSigIndex {
   constexpr WasmOpcodeSig operator()(byte opcode) const {
 #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
     return FOREACH_ATOMIC_OPCODE(CASE) FOREACH_ATOMIC_0_OPERAND_OPCODE(CASE)
         kSigEnum_None;
 #undef CASE
 }
 };

 struct GetNumericOpcodeSigIndex {
   constexpr WasmOpcodeSig operator()(byte opcode) const {
 #define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
     return FOREACH_NUMERIC_OPCODE(CASE) kSigEnum_None;
 #undef CASE
   }
 };

 constexpr std::array<WasmOpcodeSig, 256> kShortSigTable =
     base::make_array<256>(GetShortOpcodeSigIndex{});
 constexpr std::array<WasmOpcodeSig, 256> kSimpleAsmjsExprSigTable =
     base::make_array<256>(GetAsmJsOpcodeSigIndex{});
 constexpr std::array<WasmOpcodeSig, 256> kSimdExprSigTable =
     base::make_array<256>(GetSimdOpcodeSigIndex{});
 constexpr std::array<WasmOpcodeSig, 256> kAtomicExprSigTable =
     base::make_array<256>(GetAtomicOpcodeSigIndex{});
 constexpr std::array<WasmOpcodeSig, 256> kNumericExprSigTable =
     base::make_array<256>(GetNumericOpcodeSigIndex{});

 }  // namespace

 FunctionSig* WasmOpcodes::Signature(WasmOpcode opcode) {
   switch (opcode >> 8) {
     case 0:
       return const_cast<FunctionSig*>(kCachedSigs[kShortSigTable[opcode]]);
     case kSimdPrefix:
       return const_cast<FunctionSig*>(
           kCachedSigs[kSimdExprSigTable[opcode & 0xFF]]);
     case kAtomicPrefix:
       return const_cast<FunctionSig*>(
           kCachedSigs[kAtomicExprSigTable[opcode & 0xFF]]);
     case kNumericPrefix:
       return const_cast<FunctionSig*>(
           kCachedSigs[kNumericExprSigTable[opcode & 0xFF]]);
     default:
       UNREACHABLE();  // invalid prefix.
       return nullptr;
   }
 }

 FunctionSig* WasmOpcodes::AsmjsSignature(WasmOpcode opcode) {
   DCHECK_GT(kSimpleAsmjsExprSigTable.size(), opcode);
   return const_cast<FunctionSig*>(
       kCachedSigs[kSimpleAsmjsExprSigTable[opcode]]);
 }

 // Define constexpr arrays.
 constexpr uint8_t LoadType::kLoadSizeLog2[];
 constexpr ValueType LoadType::kValueType[];
 constexpr MachineType LoadType::kMemType[];
 constexpr uint8_t StoreType::kStoreSizeLog2[];
 constexpr ValueType StoreType::kValueType[];
 constexpr MachineRepresentation StoreType::kMemRep[];

 MessageTemplate WasmOpcodes::TrapReasonToMessageId(TrapReason reason) {
   switch (reason) {
 #define TRAPREASON_TO_MESSAGE(name) \
   case k##name:                     \
     return MessageTemplate::kWasm##name;
     FOREACH_WASM_TRAPREASON(TRAPREASON_TO_MESSAGE)
 #undef TRAPREASON_TO_MESSAGE
     default:
       return MessageTemplate::kNone;
   }
 }

 const char* WasmOpcodes::TrapReasonMessage(TrapReason reason) {
   return MessageFormatter::TemplateString(TrapReasonToMessageId(reason));
 }
 }  // namespace wasm
 }  // namespace internal
 }  // namespace v8
	// Copyright 2015 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.

	#include "src/wasm/wasm-opcodes.h"

	#include <array>

	#include "src/base/template-utils.h"
	#include "src/codegen/signature.h"
	#include "src/execution/messages.h"
	#include "src/runtime/runtime.h"

	namespace v8 {
	namespace internal {
	namespace wasm {

	#define CASE_OP(name, str) \
	case kExpr##name: \
	return str;
	#define CASE_I32_OP(name, str) CASE_OP(I32##name, "i32." str)
	#define CASE_I64_OP(name, str) CASE_OP(I64##name, "i64." str)
	#define CASE_F32_OP(name, str) CASE_OP(F32##name, "f32." str)
	#define CASE_F64_OP(name, str) CASE_OP(F64##name, "f64." str)
	#define CASE_REF_OP(name, str) CASE_OP(Ref##name, "ref." str)
	#define CASE_F64x2_OP(name, str) CASE_OP(F64x2##name, "f64x2." str)
	#define CASE_F32x4_OP(name, str) CASE_OP(F32x4##name, "f32x4." str)
	#define CASE_I64x2_OP(name, str) CASE_OP(I64x2##name, "i64x2." str)
	#define CASE_I32x4_OP(name, str) CASE_OP(I32x4##name, "i32x4." str)
	#define CASE_I16x8_OP(name, str) CASE_OP(I16x8##name, "i16x8." str)
	#define CASE_I8x16_OP(name, str) CASE_OP(I8x16##name, "i8x16." str)
	#define CASE_S128_OP(name, str) CASE_OP(S128##name, "s128." str)
	#define CASE_S32x4_OP(name, str) CASE_OP(S32x4##name, "s32x4." str)
	#define CASE_S16x8_OP(name, str) CASE_OP(S16x8##name, "s16x8." str)
	#define CASE_S8x16_OP(name, str) CASE_OP(S8x16##name, "s8x16." str)
	#define CASE_S1x2_OP(name, str) CASE_OP(S1x2##name, "s1x2." str)
	#define CASE_S1x4_OP(name, str) CASE_OP(S1x4##name, "s1x4." str)
	#define CASE_S1x8_OP(name, str) CASE_OP(S1x8##name, "s1x8." str)
	#define CASE_S1x16_OP(name, str) CASE_OP(S1x16##name, "s1x16." str)
	#define CASE_INT_OP(name, str) CASE_I32_OP(name, str) CASE_I64_OP(name, str)
	#define CASE_FLOAT_OP(name, str) CASE_F32_OP(name, str) CASE_F64_OP(name, str)
	#define CASE_ALL_OP(name, str) CASE_FLOAT_OP(name, str) CASE_INT_OP(name, str)
	#define CASE_SIMD_OP(name, str) \
	CASE_F32x4_OP(name, str) CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) \
	CASE_I8x16_OP(name, str)
	#define CASE_SIMDI_OP(name, str) \
	CASE_I32x4_OP(name, str) CASE_I16x8_OP(name, str) CASE_I8x16_OP(name, str)
	#define CASE_SIGN_OP(TYPE, name, str) \
	CASE_##TYPE##_OP(name##S, str "_s") CASE_##TYPE##_OP(name##U, str "_u")
	#define CASE_UNSIGNED_OP(TYPE, name, str) CASE_##TYPE##_OP(name##U, str "_u")
	#define CASE_ALL_SIGN_OP(name, str) \
	CASE_FLOAT_OP(name, str) CASE_SIGN_OP(INT, name, str)
	#define CASE_CONVERT_OP(name, RES, SRC, src_suffix, str) \
	CASE_##RES##_OP(U##name##SRC, str "_" src_suffix "_u") \
	CASE_##RES##_OP(S##name##SRC, str "_" src_suffix "_s")
	#define CASE_CONVERT_SAT_OP(name, RES, SRC, src_suffix, str) \
	CASE_##RES##_OP(U##name##Sat##SRC, str "_sat_" src_suffix "_u") \
	CASE_##RES##_OP(S##name##Sat##SRC, str "_sat_" src_suffix "_s")
	#define CASE_L32_OP(name, str) \
	CASE_SIGN_OP(I32, name##8, str "8") \
	CASE_SIGN_OP(I32, name##16, str "16") \
	CASE_I32_OP(name, str "32")
	#define CASE_U32_OP(name, str) \
	CASE_I32_OP(name, str "32") \
	CASE_UNSIGNED_OP(I32, name##8, str "8") \
	CASE_UNSIGNED_OP(I32, name##16, str "16")
	#define CASE_UNSIGNED_ALL_OP(name, str) \
	CASE_U32_OP(name, str) \
	CASE_I64_OP(name, str "64") \
	CASE_UNSIGNED_OP(I64, name##8, str "8") \
	CASE_UNSIGNED_OP(I64, name##16, str "16") \
	CASE_UNSIGNED_OP(I64, name##32, str "32")

	const char* WasmOpcodes::OpcodeName(WasmOpcode opcode) {
	switch (opcode) {
	// clang-format off

	// Standard opcodes
	CASE_INT_OP(Eqz, "eqz")
	CASE_ALL_OP(Eq, "eq")
	CASE_ALL_OP(Ne, "ne")
	CASE_ALL_OP(Add, "add")
	CASE_ALL_OP(Sub, "sub")
	CASE_ALL_OP(Mul, "mul")
	CASE_ALL_SIGN_OP(Lt, "lt")
	CASE_ALL_SIGN_OP(Gt, "gt")
	CASE_ALL_SIGN_OP(Le, "le")
	CASE_ALL_SIGN_OP(Ge, "ge")
	CASE_INT_OP(Clz, "clz")
	CASE_INT_OP(Ctz, "ctz")
	CASE_INT_OP(Popcnt, "popcnt")
	CASE_ALL_SIGN_OP(Div, "div")
	CASE_SIGN_OP(INT, Rem, "rem")
	CASE_INT_OP(And, "and")
	CASE_INT_OP(Ior, "or")
	CASE_INT_OP(Xor, "xor")
	CASE_INT_OP(Shl, "shl")
	CASE_SIGN_OP(INT, Shr, "shr")
	CASE_INT_OP(Rol, "rol")
	CASE_INT_OP(Ror, "ror")
	CASE_FLOAT_OP(Abs, "abs")
	CASE_FLOAT_OP(Neg, "neg")
	CASE_FLOAT_OP(Ceil, "ceil")
	CASE_FLOAT_OP(Floor, "floor")
	CASE_FLOAT_OP(Trunc, "trunc")
	CASE_FLOAT_OP(NearestInt, "nearest")
	CASE_FLOAT_OP(Sqrt, "sqrt")
	CASE_FLOAT_OP(Min, "min")
	CASE_FLOAT_OP(Max, "max")
	CASE_FLOAT_OP(CopySign, "copysign")
	CASE_REF_OP(Null, "null")
	CASE_REF_OP(IsNull, "is_null")
	CASE_REF_OP(Func, "func")
	CASE_I32_OP(ConvertI64, "wrap_i64")
	CASE_CONVERT_OP(Convert, INT, F32, "f32", "trunc")
	CASE_CONVERT_OP(Convert, INT, F64, "f64", "trunc")
	CASE_CONVERT_OP(Convert, I64, I32, "i32", "extend")
	CASE_CONVERT_OP(Convert, F32, I32, "i32", "convert")
	CASE_CONVERT_OP(Convert, F32, I64, "i64", "convert")
	CASE_F32_OP(ConvertF64, "demote_f64")
	CASE_CONVERT_OP(Convert, F64, I32, "i32", "convert")
	CASE_CONVERT_OP(Convert, F64, I64, "i64", "convert")
	CASE_F64_OP(ConvertF32, "promote_f32")
	CASE_I32_OP(ReinterpretF32, "reinterpret_f32")
	CASE_I64_OP(ReinterpretF64, "reinterpret_f64")
	CASE_F32_OP(ReinterpretI32, "reinterpret_i32")
	CASE_F64_OP(ReinterpretI64, "reinterpret_i64")
	CASE_INT_OP(SExtendI8, "extend8_s")
	CASE_INT_OP(SExtendI16, "extend16_s")
	CASE_I64_OP(SExtendI32, "extend32_s")
	CASE_OP(Unreachable, "unreachable")
	CASE_OP(Nop, "nop")
	CASE_OP(Block, "block")
	CASE_OP(Loop, "loop")
	CASE_OP(If, "if")
	CASE_OP(Else, "else")
	CASE_OP(End, "end")
	CASE_OP(Br, "br")
	CASE_OP(BrIf, "br_if")
	CASE_OP(BrTable, "br_table")
	CASE_OP(Return, "return")
	CASE_OP(CallFunction, "call")
	CASE_OP(CallIndirect, "call_indirect")
	CASE_OP(ReturnCall, "return_call")
	CASE_OP(ReturnCallIndirect, "return_call_indirect")
	CASE_OP(Drop, "drop")
	CASE_OP(Select, "select")
	CASE_OP(SelectWithType, "select")
	CASE_OP(GetLocal, "local.get")
	CASE_OP(SetLocal, "local.set")
	CASE_OP(TeeLocal, "local.tee")
	CASE_OP(GetGlobal, "global.get")
	CASE_OP(SetGlobal, "global.set")
	CASE_OP(TableGet, "table.get")
	CASE_OP(TableSet, "table.set")
	CASE_ALL_OP(Const, "const")
	CASE_OP(MemorySize, "memory.size")
	CASE_OP(MemoryGrow, "memory.grow")
	CASE_ALL_OP(LoadMem, "load")
	CASE_SIGN_OP(INT, LoadMem8, "load8")
	CASE_SIGN_OP(INT, LoadMem16, "load16")
	CASE_SIGN_OP(I64, LoadMem32, "load32")
	CASE_S128_OP(LoadMem, "load128")
	CASE_ALL_OP(StoreMem, "store")
	CASE_INT_OP(StoreMem8, "store8")
	CASE_INT_OP(StoreMem16, "store16")
	CASE_I64_OP(StoreMem32, "store32")
	CASE_S128_OP(StoreMem, "store128")

	// Exception handling opcodes.
	CASE_OP(Try, "try")
	CASE_OP(Catch, "catch")
	CASE_OP(Throw, "throw")
	CASE_OP(Rethrow, "rethrow")
	CASE_OP(BrOnExn, "br_on_exn")

	// asm.js-only opcodes.
	CASE_F64_OP(Acos, "acos")
	CASE_F64_OP(Asin, "asin")
	CASE_F64_OP(Atan, "atan")
	CASE_F64_OP(Cos, "cos")
	CASE_F64_OP(Sin, "sin")
	CASE_F64_OP(Tan, "tan")
	CASE_F64_OP(Exp, "exp")
	CASE_F64_OP(Log, "log")
	CASE_F64_OP(Atan2, "atan2")
	CASE_F64_OP(Pow, "pow")
	CASE_F64_OP(Mod, "mod")
	CASE_F32_OP(AsmjsLoadMem, "asmjs_load")
	CASE_F64_OP(AsmjsLoadMem, "asmjs_load")
	CASE_L32_OP(AsmjsLoadMem, "asmjs_load")
	CASE_I32_OP(AsmjsStoreMem, "asmjs_store")
	CASE_F32_OP(AsmjsStoreMem, "asmjs_store")
	CASE_F64_OP(AsmjsStoreMem, "asmjs_store")
	CASE_I32_OP(AsmjsStoreMem8, "asmjs_store8")
	CASE_I32_OP(AsmjsStoreMem16, "asmjs_store16")
	CASE_SIGN_OP(I32, AsmjsDiv, "asmjs_div")
	CASE_SIGN_OP(I32, AsmjsRem, "asmjs_rem")
	CASE_I32_OP(AsmjsSConvertF32, "asmjs_convert_f32_s")
	CASE_I32_OP(AsmjsUConvertF32, "asmjs_convert_f32_u")
	CASE_I32_OP(AsmjsSConvertF64, "asmjs_convert_f64_s")
	CASE_I32_OP(AsmjsUConvertF64, "asmjs_convert_f64_u")

	// Numeric Opcodes.
	CASE_CONVERT_SAT_OP(Convert, I32, F32, "f32", "trunc")
	CASE_CONVERT_SAT_OP(Convert, I32, F64, "f64", "trunc")
	CASE_CONVERT_SAT_OP(Convert, I64, F32, "f32", "trunc")
	CASE_CONVERT_SAT_OP(Convert, I64, F64, "f64", "trunc")
	CASE_OP(MemoryInit, "memory.init")
	CASE_OP(DataDrop, "data.drop")
	CASE_OP(MemoryCopy, "memory.copy")
	CASE_OP(MemoryFill, "memory.fill")
	CASE_OP(TableInit, "table.init")
	CASE_OP(ElemDrop, "elem.drop")
	CASE_OP(TableCopy, "table.copy")
	CASE_OP(TableGrow, "table.grow")
	CASE_OP(TableSize, "table.size")
	CASE_OP(TableFill, "table.fill")

	// SIMD opcodes.
	CASE_SIMD_OP(Splat, "splat")
	CASE_SIMD_OP(Neg, "neg")
	CASE_F64x2_OP(Neg, "neg")
	CASE_I64x2_OP(Neg, "neg")
	CASE_SIMD_OP(Eq, "eq")
	CASE_F64x2_OP(Eq, "eq")
	CASE_I64x2_OP(Eq, "eq")
	CASE_SIMD_OP(Ne, "ne")
	CASE_F64x2_OP(Ne, "ne")
	CASE_I64x2_OP(Ne, "ne")
	CASE_SIMD_OP(Add, "add")
	CASE_I64x2_OP(Add, "add")
	CASE_SIMD_OP(Sub, "sub")
	CASE_I64x2_OP(Sub, "sub")
	CASE_SIMD_OP(Mul, "mul")
	CASE_I64x2_OP(Mul, "mul")
	CASE_F64x2_OP(Splat, "splat")
	CASE_F64x2_OP(Lt, "lt")
	CASE_F64x2_OP(Le, "le")
	CASE_F64x2_OP(Gt, "gt")
	CASE_F64x2_OP(Ge, "ge")
	CASE_F64x2_OP(Abs, "abs")
	CASE_F32x4_OP(Abs, "abs")
	CASE_F32x4_OP(AddHoriz, "add_horizontal")
	CASE_F32x4_OP(RecipApprox, "recip_approx")
	CASE_F32x4_OP(RecipSqrtApprox, "recip_sqrt_approx")
	CASE_F32x4_OP(Min, "min")
	CASE_F32x4_OP(Max, "max")
	CASE_F32x4_OP(Lt, "lt")
	CASE_F32x4_OP(Le, "le")
	CASE_F32x4_OP(Gt, "gt")
	CASE_F32x4_OP(Ge, "ge")
	CASE_CONVERT_OP(Convert, F32x4, I32x4, "i32", "convert")
	CASE_CONVERT_OP(Convert, I32x4, F32x4, "f32", "convert")
	CASE_CONVERT_OP(Convert, I32x4, I16x8Low, "i32", "convert")
	CASE_CONVERT_OP(Convert, I32x4, I16x8High, "i32", "convert")
	CASE_CONVERT_OP(Convert, I16x8, I32x4, "i32", "convert")
	CASE_CONVERT_OP(Convert, I16x8, I8x16Low, "i32", "convert")
	CASE_CONVERT_OP(Convert, I16x8, I8x16High, "i32", "convert")
	CASE_CONVERT_OP(Convert, I8x16, I16x8, "i32", "convert")
	CASE_F64x2_OP(ExtractLane, "extract_lane")
	CASE_F64x2_OP(ReplaceLane, "replace_lane")
	CASE_F32x4_OP(ExtractLane, "extract_lane")
	CASE_F32x4_OP(ReplaceLane, "replace_lane")
	CASE_I64x2_OP(ExtractLane, "extract_lane")
	CASE_I64x2_OP(ReplaceLane, "replace_lane")
	CASE_SIMDI_OP(ExtractLane, "extract_lane")
	CASE_SIMDI_OP(ReplaceLane, "replace_lane")
	CASE_SIGN_OP(SIMDI, Min, "min")
	CASE_SIGN_OP(SIMDI, Max, "max")
	CASE_SIGN_OP(SIMDI, Lt, "lt")
	CASE_SIGN_OP(I64x2, Lt, "lt")
	CASE_SIGN_OP(SIMDI, Le, "le")
	CASE_SIGN_OP(I64x2, Le, "le")
	CASE_SIGN_OP(SIMDI, Gt, "gt")
	CASE_SIGN_OP(I64x2, Gt, "gt")
	CASE_SIGN_OP(SIMDI, Ge, "ge")
	CASE_SIGN_OP(I64x2, Ge, "ge")
	CASE_SIGN_OP(SIMDI, Shr, "shr")
	CASE_SIGN_OP(I64x2, Shr, "shr")
	CASE_SIMDI_OP(Shl, "shl")
	CASE_I64x2_OP(Shl, "shl")
	CASE_I64x2_OP(Splat, "splat")
	CASE_I32x4_OP(AddHoriz, "add_horizontal")
	CASE_I16x8_OP(AddHoriz, "add_horizontal")
	CASE_SIGN_OP(I16x8, AddSaturate, "add_saturate")
	CASE_SIGN_OP(I8x16, AddSaturate, "add_saturate")
	CASE_SIGN_OP(I16x8, SubSaturate, "sub_saturate")
	CASE_SIGN_OP(I8x16, SubSaturate, "sub_saturate")
	CASE_S128_OP(And, "and")
	CASE_S128_OP(Or, "or")
	CASE_S128_OP(Xor, "xor")
	CASE_S128_OP(Not, "not")
	CASE_S128_OP(Select, "select")
	CASE_S8x16_OP(Shuffle, "shuffle")
	CASE_S1x2_OP(AnyTrue, "any_true")
	CASE_S1x2_OP(AllTrue, "all_true")
	CASE_S1x4_OP(AnyTrue, "any_true")
	CASE_S1x4_OP(AllTrue, "all_true")
	CASE_S1x8_OP(AnyTrue, "any_true")
	CASE_S1x8_OP(AllTrue, "all_true")
	CASE_S1x16_OP(AnyTrue, "any_true")
	CASE_S1x16_OP(AllTrue, "all_true")

	// Atomic operations.
	CASE_OP(AtomicNotify, "atomic.notify")
	CASE_INT_OP(AtomicWait, "atomic.wait")
	CASE_OP(AtomicFence, "atomic.fence")
	CASE_UNSIGNED_ALL_OP(AtomicLoad, "atomic.load")
	CASE_UNSIGNED_ALL_OP(AtomicStore, "atomic.store")
	CASE_UNSIGNED_ALL_OP(AtomicAdd, "atomic.add")
	CASE_UNSIGNED_ALL_OP(AtomicSub, "atomic.sub")
	CASE_UNSIGNED_ALL_OP(AtomicAnd, "atomic.and")
	CASE_UNSIGNED_ALL_OP(AtomicOr, "atomic.or")
	CASE_UNSIGNED_ALL_OP(AtomicXor, "atomic.xor")
	CASE_UNSIGNED_ALL_OP(AtomicExchange, "atomic.xchng")
	CASE_UNSIGNED_ALL_OP(AtomicCompareExchange, "atomic.cmpxchng")

	default : return "unknown";
	// clang-format on
	}
	}

	#undef CASE_OP
	#undef CASE_I32_OP
	#undef CASE_I64_OP
	#undef CASE_F32_OP
	#undef CASE_F64_OP
	#undef CASE_REF_OP
	#undef CASE_F64x2_OP
	#undef CASE_F32x4_OP
	#undef CASE_I64x2_OP
	#undef CASE_I32x4_OP
	#undef CASE_I16x8_OP
	#undef CASE_I8x16_OP
	#undef CASE_S128_OP
	#undef CASE_S32x4_OP
	#undef CASE_S16x8_OP
	#undef CASE_S8x16_OP
	#undef CASE_S1x2_OP
	#undef CASE_S1x4_OP
	#undef CASE_S1x8_OP
	#undef CASE_S1x16_OP
	#undef CASE_INT_OP
	#undef CASE_FLOAT_OP
	#undef CASE_ALL_OP
	#undef CASE_SIMD_OP
	#undef CASE_SIMDI_OP
	#undef CASE_SIGN_OP
	#undef CASE_UNSIGNED_OP
	#undef CASE_UNSIGNED_ALL_OP
	#undef CASE_ALL_SIGN_OP
	#undef CASE_CONVERT_OP
	#undef CASE_CONVERT_SAT_OP
	#undef CASE_L32_OP
	#undef CASE_U32_OP

	bool WasmOpcodes::IsPrefixOpcode(WasmOpcode opcode) {
	switch (opcode) {
	#define CHECK_PREFIX(name, opcode) case k##name##Prefix:
	FOREACH_PREFIX(CHECK_PREFIX)
	#undef CHECK_PREFIX
	return true;
	default:
	return false;
	}
	}

	bool WasmOpcodes::IsControlOpcode(WasmOpcode opcode) {
	switch (opcode) {
	#define CHECK_OPCODE(name, opcode, _) case kExpr##name:
	FOREACH_CONTROL_OPCODE(CHECK_OPCODE)
	#undef CHECK_OPCODE
	return true;
	default:
	return false;
	}
	}

	bool WasmOpcodes::IsUnconditionalJump(WasmOpcode opcode) {
	switch (opcode) {
	case kExprUnreachable:
	case kExprBr:
	case kExprBrTable:
	case kExprReturn:
	return true;
	default:
	return false;
	}
	}

	bool WasmOpcodes::IsSignExtensionOpcode(WasmOpcode opcode) {
	switch (opcode) {
	case kExprI32SExtendI8:
	case kExprI32SExtendI16:
	case kExprI64SExtendI8:
	case kExprI64SExtendI16:
	case kExprI64SExtendI32:
	return true;
	default:
	return false;
	}
	}

	bool WasmOpcodes::IsAnyRefOpcode(WasmOpcode opcode) {
	switch (opcode) {
	case kExprRefNull:
	case kExprRefIsNull:
	case kExprRefFunc:
	return true;
	default:
	return false;
	}
	}

	bool WasmOpcodes::IsThrowingOpcode(WasmOpcode opcode) {
	// TODO(8729): Trapping opcodes are not yet considered to be throwing.
	switch (opcode) {
	case kExprThrow:
	case kExprRethrow:
	case kExprCallFunction:
	case kExprCallIndirect:
	return true;
	default:
	return false;
	}
	}

	std::ostream& operator<<(std::ostream& os, const FunctionSig& sig) {
	if (sig.return_count() == 0) os << "v";
	for (auto ret : sig.returns()) {
	os << ValueTypes::ShortNameOf(ret);
	}
	os << "_";
	if (sig.parameter_count() == 0) os << "v";
	for (auto param : sig.parameters()) {
	os << ValueTypes::ShortNameOf(param);
	}
	return os;
	}

	bool IsJSCompatibleSignature(const FunctionSig* sig, bool has_bigint_feature) {
	if (sig->return_count() > 1) {
	return false;
	}
	for (auto type : sig->all()) {
	if (!has_bigint_feature && type == kWasmI64) {
	return false;
	}

	if (type == kWasmS128) return false;
	}
	return true;
	}

	namespace {

	#define DECLARE_SIG_ENUM(name, ...) kSigEnum_##name,
	enum WasmOpcodeSig : byte {
	kSigEnum_None,
	FOREACH_SIGNATURE(DECLARE_SIG_ENUM)
	};
	#undef DECLARE_SIG_ENUM
	#define DECLARE_SIG(name, ...) \
	constexpr ValueType kTypes_##name[] = {__VA_ARGS__}; \
	constexpr int kReturnsCount_##name = kTypes_##name[0] == kWasmStmt ? 0 : 1; \
	constexpr FunctionSig kSig_##name( \
	kReturnsCount_##name, static_cast<int>(arraysize(kTypes_##name)) - 1, \
	kTypes_##name + (1 - kReturnsCount_##name));
	FOREACH_SIGNATURE(DECLARE_SIG)
	#undef DECLARE_SIG

	#define DECLARE_SIG_ENTRY(name, ...) &kSig_##name,
	constexpr const FunctionSig* kCachedSigs[] = {
	nullptr, FOREACH_SIGNATURE(DECLARE_SIG_ENTRY)};
	#undef DECLARE_SIG_ENTRY

	// gcc 4.7 - 4.9 has a bug which causes the constexpr attribute to get lost when
	// passing functions (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=52892). Hence
	// encapsulate these constexpr functions in functors.
	// TODO(clemensh): Remove this once we require gcc >= 5.0.

	struct GetShortOpcodeSigIndex {
	constexpr WasmOpcodeSig operator()(byte opcode) const {
	#define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig:
	return FOREACH_SIMPLE_OPCODE(CASE) FOREACH_SIMPLE_PROTOTYPE_OPCODE(CASE)
	kSigEnum_None;
	#undef CASE
	}
	};

	struct GetAsmJsOpcodeSigIndex {
	constexpr WasmOpcodeSig operator()(byte opcode) const {
	#define CASE(name, opc, sig) opcode == opc ? kSigEnum_##sig:
	return FOREACH_ASMJS_COMPAT_OPCODE(CASE) kSigEnum_None;
	#undef CASE
	}
	};

	struct GetSimdOpcodeSigIndex {
	constexpr WasmOpcodeSig operator()(byte opcode) const {
	#define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
	return FOREACH_SIMD_0_OPERAND_OPCODE(CASE) FOREACH_SIMD_MEM_OPCODE(CASE)
	kSigEnum_None;
	#undef CASE
	}
	};

	struct GetAtomicOpcodeSigIndex {
	constexpr WasmOpcodeSig operator()(byte opcode) const {
	#define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
	return FOREACH_ATOMIC_OPCODE(CASE) FOREACH_ATOMIC_0_OPERAND_OPCODE(CASE)
	kSigEnum_None;
	#undef CASE
	}
	};

	struct GetNumericOpcodeSigIndex {
	constexpr WasmOpcodeSig operator()(byte opcode) const {
	#define CASE(name, opc, sig) opcode == (opc & 0xFF) ? kSigEnum_##sig:
	return FOREACH_NUMERIC_OPCODE(CASE) kSigEnum_None;
	#undef CASE
	}
	};

	constexpr std::array<WasmOpcodeSig, 256> kShortSigTable =
	base::make_array<256>(GetShortOpcodeSigIndex{});
	constexpr std::array<WasmOpcodeSig, 256> kSimpleAsmjsExprSigTable =
	base::make_array<256>(GetAsmJsOpcodeSigIndex{});
	constexpr std::array<WasmOpcodeSig, 256> kSimdExprSigTable =
	base::make_array<256>(GetSimdOpcodeSigIndex{});
	constexpr std::array<WasmOpcodeSig, 256> kAtomicExprSigTable =
	base::make_array<256>(GetAtomicOpcodeSigIndex{});
	constexpr std::array<WasmOpcodeSig, 256> kNumericExprSigTable =
	base::make_array<256>(GetNumericOpcodeSigIndex{});

	} // namespace

	FunctionSig* WasmOpcodes::Signature(WasmOpcode opcode) {
	switch (opcode >> 8) {
	case 0:
	return const_cast<FunctionSig*>(kCachedSigs[kShortSigTable[opcode]]);
	case kSimdPrefix:
	return const_cast<FunctionSig*>(
	kCachedSigs[kSimdExprSigTable[opcode & 0xFF]]);
	case kAtomicPrefix:
	return const_cast<FunctionSig*>(
	kCachedSigs[kAtomicExprSigTable[opcode & 0xFF]]);
	case kNumericPrefix:
	return const_cast<FunctionSig*>(
	kCachedSigs[kNumericExprSigTable[opcode & 0xFF]]);
	default:
	UNREACHABLE(); // invalid prefix.
	return nullptr;
	}
	}

	FunctionSig* WasmOpcodes::AsmjsSignature(WasmOpcode opcode) {
	DCHECK_GT(kSimpleAsmjsExprSigTable.size(), opcode);
	return const_cast<FunctionSig*>(
	kCachedSigs[kSimpleAsmjsExprSigTable[opcode]]);
	}

	// Define constexpr arrays.
	constexpr uint8_t LoadType::kLoadSizeLog2[];
	constexpr ValueType LoadType::kValueType[];
	constexpr MachineType LoadType::kMemType[];
	constexpr uint8_t StoreType::kStoreSizeLog2[];
	constexpr ValueType StoreType::kValueType[];
	constexpr MachineRepresentation StoreType::kMemRep[];

	MessageTemplate WasmOpcodes::TrapReasonToMessageId(TrapReason reason) {
	switch (reason) {
	#define TRAPREASON_TO_MESSAGE(name) \
	case k##name: \
	return MessageTemplate::kWasm##name;
	FOREACH_WASM_TRAPREASON(TRAPREASON_TO_MESSAGE)
	#undef TRAPREASON_TO_MESSAGE
	default:
	return MessageTemplate::kNone;
	}
	}

	const char* WasmOpcodes::TrapReasonMessage(TrapReason reason) {
	return MessageFormatter::TemplateString(TrapReasonToMessageId(reason));
	}
	} // namespace wasm
	} // namespace internal
	} // namespace v8