// DO NOT EDIT! This file generated by scripts/gen-s-parser.py // clang-format off #ifdef INSTRUCTION_PARSER #undef INSTRUCTION_PARSER char op[30] = {'\0'}; strncpy(op, s[0]->c_str(), 29); switch (op[0]) { case 'a': { switch (op[1]) { case 'r': { switch (op[6]) { case 'g': { switch (op[9]) { case '\0': if (strcmp(op, "array.get") == 0) { return makeArrayGet(s); } goto parse_error; case '_': { switch (op[10]) { case 's': if (strcmp(op, "array.get_s") == 0) { return makeArrayGet(s, true); } goto parse_error; case 'u': if (strcmp(op, "array.get_u") == 0) { return makeArrayGet(s, false); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': if (strcmp(op, "array.len") == 0) { return makeArrayLen(s); } goto parse_error; case 'n': { switch (op[10]) { case 'd': if (strcmp(op, "array.new_default_with_rtt") == 0) { return makeArrayNew(s, true); } goto parse_error; case 'w': if (strcmp(op, "array.new_with_rtt") == 0) { return makeArrayNew(s, false); } goto parse_error; default: goto parse_error; } } case 's': if (strcmp(op, "array.set") == 0) { return makeArraySet(s); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "atomic.fence") == 0) { return makeAtomicFence(s); } goto parse_error; default: goto parse_error; } } case 'b': { switch (op[1]) { case 'l': if (strcmp(op, "block") == 0) { return makeBlock(s); } goto parse_error; case 'r': { switch (op[2]) { case '\0': if (strcmp(op, "br") == 0) { return makeBreak(s); } goto parse_error; case '_': { switch (op[3]) { case 'i': if (strcmp(op, "br_if") == 0) { return makeBreak(s); } goto parse_error; case 'o': { switch (op[6]) { case 'c': if (strcmp(op, "br_on_cast") == 0) { return makeBrOnCast(s); } goto parse_error; case 'e': if (strcmp(op, "br_on_exn") == 0) { return makeBrOnExn(s); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "br_table") == 0) { return makeBreakTable(s); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'c': { switch (op[4]) { case '\0': if (strcmp(op, "call") == 0) { return makeCall(s, /*isReturn=*/false); } goto parse_error; case '_': { switch (op[5]) { case 'i': if (strcmp(op, "call_indirect") == 0) { return makeCallIndirect(s, /*isReturn=*/false); } goto parse_error; case 'r': if (strcmp(op, "call_ref") == 0) { return makeCallRef(s, /*isReturn=*/false); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'd': { switch (op[1]) { case 'a': if (strcmp(op, "data.drop") == 0) { return makeDataDrop(s); } goto parse_error; case 'r': if (strcmp(op, "drop") == 0) { return makeDrop(s); } goto parse_error; default: goto parse_error; } } case 'e': if (strcmp(op, "else") == 0) { return makeThenOrElse(s); } goto parse_error; case 'f': { switch (op[1]) { case '3': { switch (op[3]) { case '.': { switch (op[4]) { case 'a': { switch (op[5]) { case 'b': if (strcmp(op, "f32.abs") == 0) { return makeUnary(s, UnaryOp::AbsFloat32); } goto parse_error; case 'd': if (strcmp(op, "f32.add") == 0) { return makeBinary(s, BinaryOp::AddFloat32); } goto parse_error; default: goto parse_error; } } case 'c': { switch (op[5]) { case 'e': if (strcmp(op, "f32.ceil") == 0) { return makeUnary(s, UnaryOp::CeilFloat32); } goto parse_error; case 'o': { switch (op[6]) { case 'n': { switch (op[7]) { case 's': if (strcmp(op, "f32.const") == 0) { return makeConst(s, Type::f32); } goto parse_error; case 'v': { switch (op[13]) { case '3': { switch (op[16]) { case 's': if (strcmp(op, "f32.convert_i32_s") == 0) { return makeUnary(s, UnaryOp::ConvertSInt32ToFloat32); } goto parse_error; case 'u': if (strcmp(op, "f32.convert_i32_u") == 0) { return makeUnary(s, UnaryOp::ConvertUInt32ToFloat32); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[16]) { case 's': if (strcmp(op, "f32.convert_i64_s") == 0) { return makeUnary(s, UnaryOp::ConvertSInt64ToFloat32); } goto parse_error; case 'u': if (strcmp(op, "f32.convert_i64_u") == 0) { return makeUnary(s, UnaryOp::ConvertUInt64ToFloat32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "f32.copysign") == 0) { return makeBinary(s, BinaryOp::CopySignFloat32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'd': { switch (op[5]) { case 'e': if (strcmp(op, "f32.demote_f64") == 0) { return makeUnary(s, UnaryOp::DemoteFloat64); } goto parse_error; case 'i': if (strcmp(op, "f32.div") == 0) { return makeBinary(s, BinaryOp::DivFloat32); } goto parse_error; default: goto parse_error; } } case 'e': if (strcmp(op, "f32.eq") == 0) { return makeBinary(s, BinaryOp::EqFloat32); } goto parse_error; case 'f': if (strcmp(op, "f32.floor") == 0) { return makeUnary(s, UnaryOp::FloorFloat32); } goto parse_error; case 'g': { switch (op[5]) { case 'e': if (strcmp(op, "f32.ge") == 0) { return makeBinary(s, BinaryOp::GeFloat32); } goto parse_error; case 't': if (strcmp(op, "f32.gt") == 0) { return makeBinary(s, BinaryOp::GtFloat32); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[5]) { case 'e': if (strcmp(op, "f32.le") == 0) { return makeBinary(s, BinaryOp::LeFloat32); } goto parse_error; case 'o': if (strcmp(op, "f32.load") == 0) { return makeLoad(s, Type::f32, /*isAtomic=*/false); } goto parse_error; case 't': if (strcmp(op, "f32.lt") == 0) { return makeBinary(s, BinaryOp::LtFloat32); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[5]) { case 'a': if (strcmp(op, "f32.max") == 0) { return makeBinary(s, BinaryOp::MaxFloat32); } goto parse_error; case 'i': if (strcmp(op, "f32.min") == 0) { return makeBinary(s, BinaryOp::MinFloat32); } goto parse_error; case 'u': if (strcmp(op, "f32.mul") == 0) { return makeBinary(s, BinaryOp::MulFloat32); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[6]) { case '\0': if (strcmp(op, "f32.ne") == 0) { return makeBinary(s, BinaryOp::NeFloat32); } goto parse_error; case 'a': if (strcmp(op, "f32.nearest") == 0) { return makeUnary(s, UnaryOp::NearestFloat32); } goto parse_error; case 'g': if (strcmp(op, "f32.neg") == 0) { return makeUnary(s, UnaryOp::NegFloat32); } goto parse_error; default: goto parse_error; } } case 'r': if (strcmp(op, "f32.reinterpret_i32") == 0) { return makeUnary(s, UnaryOp::ReinterpretInt32); } goto parse_error; case 's': { switch (op[5]) { case 'q': if (strcmp(op, "f32.sqrt") == 0) { return makeUnary(s, UnaryOp::SqrtFloat32); } goto parse_error; case 't': if (strcmp(op, "f32.store") == 0) { return makeStore(s, Type::f32, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "f32.sub") == 0) { return makeBinary(s, BinaryOp::SubFloat32); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "f32.trunc") == 0) { return makeUnary(s, UnaryOp::TruncFloat32); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[6]) { case 'a': { switch (op[7]) { case 'b': if (strcmp(op, "f32x4.abs") == 0) { return makeUnary(s, UnaryOp::AbsVecF32x4); } goto parse_error; case 'd': if (strcmp(op, "f32x4.add") == 0) { return makeBinary(s, BinaryOp::AddVecF32x4); } goto parse_error; default: goto parse_error; } } case 'c': { switch (op[7]) { case 'e': if (strcmp(op, "f32x4.ceil") == 0) { return makeUnary(s, UnaryOp::CeilVecF32x4); } goto parse_error; case 'o': { switch (op[20]) { case 's': if (strcmp(op, "f32x4.convert_i32x4_s") == 0) { return makeUnary(s, UnaryOp::ConvertSVecI32x4ToVecF32x4); } goto parse_error; case 'u': if (strcmp(op, "f32x4.convert_i32x4_u") == 0) { return makeUnary(s, UnaryOp::ConvertUVecI32x4ToVecF32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'd': if (strcmp(op, "f32x4.div") == 0) { return makeBinary(s, BinaryOp::DivVecF32x4); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "f32x4.eq") == 0) { return makeBinary(s, BinaryOp::EqVecF32x4); } goto parse_error; case 'x': if (strcmp(op, "f32x4.extract_lane") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneVecF32x4, 4); } goto parse_error; default: goto parse_error; } } case 'f': if (strcmp(op, "f32x4.floor") == 0) { return makeUnary(s, UnaryOp::FloorVecF32x4); } goto parse_error; case 'g': { switch (op[7]) { case 'e': if (strcmp(op, "f32x4.ge") == 0) { return makeBinary(s, BinaryOp::GeVecF32x4); } goto parse_error; case 't': if (strcmp(op, "f32x4.gt") == 0) { return makeBinary(s, BinaryOp::GtVecF32x4); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[7]) { case 'e': if (strcmp(op, "f32x4.le") == 0) { return makeBinary(s, BinaryOp::LeVecF32x4); } goto parse_error; case 't': if (strcmp(op, "f32x4.lt") == 0) { return makeBinary(s, BinaryOp::LtVecF32x4); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': if (strcmp(op, "f32x4.max") == 0) { return makeBinary(s, BinaryOp::MaxVecF32x4); } goto parse_error; case 'i': if (strcmp(op, "f32x4.min") == 0) { return makeBinary(s, BinaryOp::MinVecF32x4); } goto parse_error; case 'u': if (strcmp(op, "f32x4.mul") == 0) { return makeBinary(s, BinaryOp::MulVecF32x4); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[8]) { case '\0': if (strcmp(op, "f32x4.ne") == 0) { return makeBinary(s, BinaryOp::NeVecF32x4); } goto parse_error; case 'a': if (strcmp(op, "f32x4.nearest") == 0) { return makeUnary(s, UnaryOp::NearestVecF32x4); } goto parse_error; case 'g': if (strcmp(op, "f32x4.neg") == 0) { return makeUnary(s, UnaryOp::NegVecF32x4); } goto parse_error; default: goto parse_error; } } case 'p': { switch (op[8]) { case 'a': if (strcmp(op, "f32x4.pmax") == 0) { return makeBinary(s, BinaryOp::PMaxVecF32x4); } goto parse_error; case 'i': if (strcmp(op, "f32x4.pmin") == 0) { return makeBinary(s, BinaryOp::PMinVecF32x4); } goto parse_error; default: goto parse_error; } } case 'q': { switch (op[9]) { case 'a': if (strcmp(op, "f32x4.qfma") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::QFMAF32x4); } goto parse_error; case 's': if (strcmp(op, "f32x4.qfms") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::QFMSF32x4); } goto parse_error; default: goto parse_error; } } case 'r': if (strcmp(op, "f32x4.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecF32x4, 4); } goto parse_error; case 's': { switch (op[7]) { case 'p': if (strcmp(op, "f32x4.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecF32x4); } goto parse_error; case 'q': if (strcmp(op, "f32x4.sqrt") == 0) { return makeUnary(s, UnaryOp::SqrtVecF32x4); } goto parse_error; case 'u': if (strcmp(op, "f32x4.sub") == 0) { return makeBinary(s, BinaryOp::SubVecF32x4); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "f32x4.trunc") == 0) { return makeUnary(s, UnaryOp::TruncVecF32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '6': { switch (op[3]) { case '.': { switch (op[4]) { case 'a': { switch (op[5]) { case 'b': if (strcmp(op, "f64.abs") == 0) { return makeUnary(s, UnaryOp::AbsFloat64); } goto parse_error; case 'd': if (strcmp(op, "f64.add") == 0) { return makeBinary(s, BinaryOp::AddFloat64); } goto parse_error; default: goto parse_error; } } case 'c': { switch (op[5]) { case 'e': if (strcmp(op, "f64.ceil") == 0) { return makeUnary(s, UnaryOp::CeilFloat64); } goto parse_error; case 'o': { switch (op[6]) { case 'n': { switch (op[7]) { case 's': if (strcmp(op, "f64.const") == 0) { return makeConst(s, Type::f64); } goto parse_error; case 'v': { switch (op[13]) { case '3': { switch (op[16]) { case 's': if (strcmp(op, "f64.convert_i32_s") == 0) { return makeUnary(s, UnaryOp::ConvertSInt32ToFloat64); } goto parse_error; case 'u': if (strcmp(op, "f64.convert_i32_u") == 0) { return makeUnary(s, UnaryOp::ConvertUInt32ToFloat64); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[16]) { case 's': if (strcmp(op, "f64.convert_i64_s") == 0) { return makeUnary(s, UnaryOp::ConvertSInt64ToFloat64); } goto parse_error; case 'u': if (strcmp(op, "f64.convert_i64_u") == 0) { return makeUnary(s, UnaryOp::ConvertUInt64ToFloat64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "f64.copysign") == 0) { return makeBinary(s, BinaryOp::CopySignFloat64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'd': if (strcmp(op, "f64.div") == 0) { return makeBinary(s, BinaryOp::DivFloat64); } goto parse_error; case 'e': if (strcmp(op, "f64.eq") == 0) { return makeBinary(s, BinaryOp::EqFloat64); } goto parse_error; case 'f': if (strcmp(op, "f64.floor") == 0) { return makeUnary(s, UnaryOp::FloorFloat64); } goto parse_error; case 'g': { switch (op[5]) { case 'e': if (strcmp(op, "f64.ge") == 0) { return makeBinary(s, BinaryOp::GeFloat64); } goto parse_error; case 't': if (strcmp(op, "f64.gt") == 0) { return makeBinary(s, BinaryOp::GtFloat64); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[5]) { case 'e': if (strcmp(op, "f64.le") == 0) { return makeBinary(s, BinaryOp::LeFloat64); } goto parse_error; case 'o': if (strcmp(op, "f64.load") == 0) { return makeLoad(s, Type::f64, /*isAtomic=*/false); } goto parse_error; case 't': if (strcmp(op, "f64.lt") == 0) { return makeBinary(s, BinaryOp::LtFloat64); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[5]) { case 'a': if (strcmp(op, "f64.max") == 0) { return makeBinary(s, BinaryOp::MaxFloat64); } goto parse_error; case 'i': if (strcmp(op, "f64.min") == 0) { return makeBinary(s, BinaryOp::MinFloat64); } goto parse_error; case 'u': if (strcmp(op, "f64.mul") == 0) { return makeBinary(s, BinaryOp::MulFloat64); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[6]) { case '\0': if (strcmp(op, "f64.ne") == 0) { return makeBinary(s, BinaryOp::NeFloat64); } goto parse_error; case 'a': if (strcmp(op, "f64.nearest") == 0) { return makeUnary(s, UnaryOp::NearestFloat64); } goto parse_error; case 'g': if (strcmp(op, "f64.neg") == 0) { return makeUnary(s, UnaryOp::NegFloat64); } goto parse_error; default: goto parse_error; } } case 'p': if (strcmp(op, "f64.promote_f32") == 0) { return makeUnary(s, UnaryOp::PromoteFloat32); } goto parse_error; case 'r': if (strcmp(op, "f64.reinterpret_i64") == 0) { return makeUnary(s, UnaryOp::ReinterpretInt64); } goto parse_error; case 's': { switch (op[5]) { case 'q': if (strcmp(op, "f64.sqrt") == 0) { return makeUnary(s, UnaryOp::SqrtFloat64); } goto parse_error; case 't': if (strcmp(op, "f64.store") == 0) { return makeStore(s, Type::f64, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "f64.sub") == 0) { return makeBinary(s, BinaryOp::SubFloat64); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "f64.trunc") == 0) { return makeUnary(s, UnaryOp::TruncFloat64); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[6]) { case 'a': { switch (op[7]) { case 'b': if (strcmp(op, "f64x2.abs") == 0) { return makeUnary(s, UnaryOp::AbsVecF64x2); } goto parse_error; case 'd': if (strcmp(op, "f64x2.add") == 0) { return makeBinary(s, BinaryOp::AddVecF64x2); } goto parse_error; default: goto parse_error; } } case 'c': { switch (op[7]) { case 'e': if (strcmp(op, "f64x2.ceil") == 0) { return makeUnary(s, UnaryOp::CeilVecF64x2); } goto parse_error; case 'o': { switch (op[20]) { case 's': if (strcmp(op, "f64x2.convert_i64x2_s") == 0) { return makeUnary(s, UnaryOp::ConvertSVecI64x2ToVecF64x2); } goto parse_error; case 'u': if (strcmp(op, "f64x2.convert_i64x2_u") == 0) { return makeUnary(s, UnaryOp::ConvertUVecI64x2ToVecF64x2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'd': if (strcmp(op, "f64x2.div") == 0) { return makeBinary(s, BinaryOp::DivVecF64x2); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "f64x2.eq") == 0) { return makeBinary(s, BinaryOp::EqVecF64x2); } goto parse_error; case 'x': if (strcmp(op, "f64x2.extract_lane") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneVecF64x2, 2); } goto parse_error; default: goto parse_error; } } case 'f': if (strcmp(op, "f64x2.floor") == 0) { return makeUnary(s, UnaryOp::FloorVecF64x2); } goto parse_error; case 'g': { switch (op[7]) { case 'e': if (strcmp(op, "f64x2.ge") == 0) { return makeBinary(s, BinaryOp::GeVecF64x2); } goto parse_error; case 't': if (strcmp(op, "f64x2.gt") == 0) { return makeBinary(s, BinaryOp::GtVecF64x2); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[7]) { case 'e': if (strcmp(op, "f64x2.le") == 0) { return makeBinary(s, BinaryOp::LeVecF64x2); } goto parse_error; case 't': if (strcmp(op, "f64x2.lt") == 0) { return makeBinary(s, BinaryOp::LtVecF64x2); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': if (strcmp(op, "f64x2.max") == 0) { return makeBinary(s, BinaryOp::MaxVecF64x2); } goto parse_error; case 'i': if (strcmp(op, "f64x2.min") == 0) { return makeBinary(s, BinaryOp::MinVecF64x2); } goto parse_error; case 'u': if (strcmp(op, "f64x2.mul") == 0) { return makeBinary(s, BinaryOp::MulVecF64x2); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[8]) { case '\0': if (strcmp(op, "f64x2.ne") == 0) { return makeBinary(s, BinaryOp::NeVecF64x2); } goto parse_error; case 'a': if (strcmp(op, "f64x2.nearest") == 0) { return makeUnary(s, UnaryOp::NearestVecF64x2); } goto parse_error; case 'g': if (strcmp(op, "f64x2.neg") == 0) { return makeUnary(s, UnaryOp::NegVecF64x2); } goto parse_error; default: goto parse_error; } } case 'p': { switch (op[8]) { case 'a': if (strcmp(op, "f64x2.pmax") == 0) { return makeBinary(s, BinaryOp::PMaxVecF64x2); } goto parse_error; case 'i': if (strcmp(op, "f64x2.pmin") == 0) { return makeBinary(s, BinaryOp::PMinVecF64x2); } goto parse_error; default: goto parse_error; } } case 'q': { switch (op[9]) { case 'a': if (strcmp(op, "f64x2.qfma") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::QFMAF64x2); } goto parse_error; case 's': if (strcmp(op, "f64x2.qfms") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::QFMSF64x2); } goto parse_error; default: goto parse_error; } } case 'r': if (strcmp(op, "f64x2.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecF64x2, 2); } goto parse_error; case 's': { switch (op[7]) { case 'p': if (strcmp(op, "f64x2.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecF64x2); } goto parse_error; case 'q': if (strcmp(op, "f64x2.sqrt") == 0) { return makeUnary(s, UnaryOp::SqrtVecF64x2); } goto parse_error; case 'u': if (strcmp(op, "f64x2.sub") == 0) { return makeBinary(s, BinaryOp::SubVecF64x2); } goto parse_error; default: goto parse_error; } } case 't': if (strcmp(op, "f64x2.trunc") == 0) { return makeUnary(s, UnaryOp::TruncVecF64x2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[7]) { case 'g': if (strcmp(op, "global.get") == 0) { return makeGlobalGet(s); } goto parse_error; case 's': if (strcmp(op, "global.set") == 0) { return makeGlobalSet(s); } goto parse_error; default: goto parse_error; } } case 'i': { switch (op[1]) { case '1': { switch (op[6]) { case 'a': { switch (op[7]) { case 'b': if (strcmp(op, "i16x8.abs") == 0) { return makeUnary(s, UnaryOp::AbsVecI16x8); } goto parse_error; case 'd': { switch (op[9]) { case '\0': if (strcmp(op, "i16x8.add") == 0) { return makeBinary(s, BinaryOp::AddVecI16x8); } goto parse_error; case '_': { switch (op[19]) { case 's': if (strcmp(op, "i16x8.add_saturate_s") == 0) { return makeBinary(s, BinaryOp::AddSatSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.add_saturate_u") == 0) { return makeBinary(s, BinaryOp::AddSatUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': if (strcmp(op, "i16x8.all_true") == 0) { return makeUnary(s, UnaryOp::AllTrueVecI16x8); } goto parse_error; case 'n': if (strcmp(op, "i16x8.any_true") == 0) { return makeUnary(s, UnaryOp::AnyTrueVecI16x8); } goto parse_error; case 'v': if (strcmp(op, "i16x8.avgr_u") == 0) { return makeBinary(s, BinaryOp::AvgrUVecI16x8); } goto parse_error; default: goto parse_error; } } case 'b': if (strcmp(op, "i16x8.bitmask") == 0) { return makeUnary(s, UnaryOp::BitmaskVecI16x8); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "i16x8.eq") == 0) { return makeBinary(s, BinaryOp::EqVecI16x8); } goto parse_error; case 'x': { switch (op[9]) { case 'a': { switch (op[28]) { case 's': if (strcmp(op, "i16x8.extadd_pairwise_i8x16_s") == 0) { return makeUnary(s, UnaryOp::ExtAddPairwiseSVecI8x16ToI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.extadd_pairwise_i8x16_u") == 0) { return makeUnary(s, UnaryOp::ExtAddPairwiseUVecI8x16ToI16x8); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[13]) { case 'h': { switch (op[24]) { case 's': if (strcmp(op, "i16x8.extmul_high_i8x16_s") == 0) { return makeBinary(s, BinaryOp::ExtMulHighSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.extmul_high_i8x16_u") == 0) { return makeBinary(s, BinaryOp::ExtMulHighUVecI16x8); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[23]) { case 's': if (strcmp(op, "i16x8.extmul_low_i8x16_s") == 0) { return makeBinary(s, BinaryOp::ExtMulLowSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.extmul_low_i8x16_u") == 0) { return makeBinary(s, BinaryOp::ExtMulLowUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'r': { switch (op[19]) { case 's': if (strcmp(op, "i16x8.extract_lane_s") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneSVecI16x8, 8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.extract_lane_u") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneUVecI16x8, 8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i16x8.ge_s") == 0) { return makeBinary(s, BinaryOp::GeSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.ge_u") == 0) { return makeBinary(s, BinaryOp::GeUVecI16x8); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i16x8.gt_s") == 0) { return makeBinary(s, BinaryOp::GtSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.gt_u") == 0) { return makeBinary(s, BinaryOp::GtUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i16x8.le_s") == 0) { return makeBinary(s, BinaryOp::LeSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.le_u") == 0) { return makeBinary(s, BinaryOp::LeUVecI16x8); } goto parse_error; default: goto parse_error; } } case 'o': { switch (op[14]) { case 's': if (strcmp(op, "i16x8.load8x8_s") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtSVec8x8ToVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.load8x8_u") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtUVec8x8ToVecI16x8); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i16x8.lt_s") == 0) { return makeBinary(s, BinaryOp::LtSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.lt_u") == 0) { return makeBinary(s, BinaryOp::LtUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': { switch (op[10]) { case 's': if (strcmp(op, "i16x8.max_s") == 0) { return makeBinary(s, BinaryOp::MaxSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.max_u") == 0) { return makeBinary(s, BinaryOp::MaxUVecI16x8); } goto parse_error; default: goto parse_error; } } case 'i': { switch (op[10]) { case 's': if (strcmp(op, "i16x8.min_s") == 0) { return makeBinary(s, BinaryOp::MinSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.min_u") == 0) { return makeBinary(s, BinaryOp::MinUVecI16x8); } goto parse_error; default: goto parse_error; } } case 'u': if (strcmp(op, "i16x8.mul") == 0) { return makeBinary(s, BinaryOp::MulVecI16x8); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[7]) { case 'a': { switch (op[19]) { case 's': if (strcmp(op, "i16x8.narrow_i32x4_s") == 0) { return makeBinary(s, BinaryOp::NarrowSVecI32x4ToVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.narrow_i32x4_u") == 0) { return makeBinary(s, BinaryOp::NarrowUVecI32x4ToVecI16x8); } goto parse_error; default: goto parse_error; } } case 'e': { switch (op[8]) { case '\0': if (strcmp(op, "i16x8.ne") == 0) { return makeBinary(s, BinaryOp::NeVecI16x8); } goto parse_error; case 'g': if (strcmp(op, "i16x8.neg") == 0) { return makeUnary(s, UnaryOp::NegVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'q': if (strcmp(op, "i16x8.q15mulr_sat_s") == 0) { return makeBinary(s, BinaryOp::Q15MulrSatSVecI16x8); } goto parse_error; case 'r': if (strcmp(op, "i16x8.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecI16x8, 8); } goto parse_error; case 's': { switch (op[7]) { case 'h': { switch (op[8]) { case 'l': if (strcmp(op, "i16x8.shl") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShlVecI16x8); } goto parse_error; case 'r': { switch (op[10]) { case 's': if (strcmp(op, "i16x8.shr_s") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.shr_u") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "i16x8.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecI16x8); } goto parse_error; case 'u': { switch (op[9]) { case '\0': if (strcmp(op, "i16x8.sub") == 0) { return makeBinary(s, BinaryOp::SubVecI16x8); } goto parse_error; case '_': { switch (op[19]) { case 's': if (strcmp(op, "i16x8.sub_saturate_s") == 0) { return makeBinary(s, BinaryOp::SubSatSVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.sub_saturate_u") == 0) { return makeBinary(s, BinaryOp::SubSatUVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'w': { switch (op[12]) { case 'h': { switch (op[23]) { case 's': if (strcmp(op, "i16x8.widen_high_i8x16_s") == 0) { return makeUnary(s, UnaryOp::WidenHighSVecI8x16ToVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.widen_high_i8x16_u") == 0) { return makeUnary(s, UnaryOp::WidenHighUVecI8x16ToVecI16x8); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[22]) { case 's': if (strcmp(op, "i16x8.widen_low_i8x16_s") == 0) { return makeUnary(s, UnaryOp::WidenLowSVecI8x16ToVecI16x8); } goto parse_error; case 'u': if (strcmp(op, "i16x8.widen_low_i8x16_u") == 0) { return makeUnary(s, UnaryOp::WidenLowUVecI8x16ToVecI16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case '3': { switch (op[2]) { case '1': { switch (op[4]) { case 'g': { switch (op[8]) { case 's': if (strcmp(op, "i31.get_s") == 0) { return makeI31Get(s, true); } goto parse_error; case 'u': if (strcmp(op, "i31.get_u") == 0) { return makeI31Get(s, false); } goto parse_error; default: goto parse_error; } } case 'n': if (strcmp(op, "i31.new") == 0) { return makeI31New(s); } goto parse_error; default: goto parse_error; } } case '2': { switch (op[3]) { case '.': { switch (op[4]) { case 'a': { switch (op[5]) { case 'd': if (strcmp(op, "i32.add") == 0) { return makeBinary(s, BinaryOp::AddInt32); } goto parse_error; case 'n': if (strcmp(op, "i32.and") == 0) { return makeBinary(s, BinaryOp::AndInt32); } goto parse_error; case 't': { switch (op[11]) { case 'l': { switch (op[15]) { case '\0': if (strcmp(op, "i32.atomic.load") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/true); } goto parse_error; case '1': if (strcmp(op, "i32.atomic.load16_u") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/true); } goto parse_error; case '8': if (strcmp(op, "i32.atomic.load8_u") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/true); } goto parse_error; default: goto parse_error; } } case 'r': { switch (op[14]) { case '.': { switch (op[15]) { case 'a': { switch (op[16]) { case 'd': if (strcmp(op, "i32.atomic.rmw.add") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'n': if (strcmp(op, "i32.atomic.rmw.and") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i32.atomic.rmw.cmpxchg") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw.or") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 's': if (strcmp(op, "i32.atomic.rmw.sub") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'x': { switch (op[16]) { case 'c': if (strcmp(op, "i32.atomic.rmw.xchg") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw.xor") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '1': { switch (op[17]) { case 'a': { switch (op[18]) { case 'd': if (strcmp(op, "i32.atomic.rmw16.add_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'n': if (strcmp(op, "i32.atomic.rmw16.and_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i32.atomic.rmw16.cmpxchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw16.or_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 's': if (strcmp(op, "i32.atomic.rmw16.sub_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'x': { switch (op[18]) { case 'c': if (strcmp(op, "i32.atomic.rmw16.xchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw16.xor_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '8': { switch (op[16]) { case 'a': { switch (op[17]) { case 'd': if (strcmp(op, "i32.atomic.rmw8.add_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'n': if (strcmp(op, "i32.atomic.rmw8.and_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i32.atomic.rmw8.cmpxchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw8.or_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 's': if (strcmp(op, "i32.atomic.rmw8.sub_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'x': { switch (op[17]) { case 'c': if (strcmp(op, "i32.atomic.rmw8.xchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; case 'o': if (strcmp(op, "i32.atomic.rmw8.xor_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[16]) { case '\0': if (strcmp(op, "i32.atomic.store") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/true); } goto parse_error; case '1': if (strcmp(op, "i32.atomic.store16") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/true); } goto parse_error; case '8': if (strcmp(op, "i32.atomic.store8") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/true); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'c': { switch (op[5]) { case 'l': if (strcmp(op, "i32.clz") == 0) { return makeUnary(s, UnaryOp::ClzInt32); } goto parse_error; case 'o': if (strcmp(op, "i32.const") == 0) { return makeConst(s, Type::i32); } goto parse_error; case 't': if (strcmp(op, "i32.ctz") == 0) { return makeUnary(s, UnaryOp::CtzInt32); } goto parse_error; default: goto parse_error; } } case 'd': { switch (op[8]) { case 's': if (strcmp(op, "i32.div_s") == 0) { return makeBinary(s, BinaryOp::DivSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.div_u") == 0) { return makeBinary(s, BinaryOp::DivUInt32); } goto parse_error; default: goto parse_error; } } case 'e': { switch (op[5]) { case 'q': { switch (op[6]) { case '\0': if (strcmp(op, "i32.eq") == 0) { return makeBinary(s, BinaryOp::EqInt32); } goto parse_error; case 'z': if (strcmp(op, "i32.eqz") == 0) { return makeUnary(s, UnaryOp::EqZInt32); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[10]) { case '1': if (strcmp(op, "i32.extend16_s") == 0) { return makeUnary(s, UnaryOp::ExtendS16Int32); } goto parse_error; case '8': if (strcmp(op, "i32.extend8_s") == 0) { return makeUnary(s, UnaryOp::ExtendS8Int32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[5]) { case 'e': { switch (op[7]) { case 's': if (strcmp(op, "i32.ge_s") == 0) { return makeBinary(s, BinaryOp::GeSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.ge_u") == 0) { return makeBinary(s, BinaryOp::GeUInt32); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[7]) { case 's': if (strcmp(op, "i32.gt_s") == 0) { return makeBinary(s, BinaryOp::GtSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.gt_u") == 0) { return makeBinary(s, BinaryOp::GtUInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[5]) { case 'e': { switch (op[7]) { case 's': if (strcmp(op, "i32.le_s") == 0) { return makeBinary(s, BinaryOp::LeSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.le_u") == 0) { return makeBinary(s, BinaryOp::LeUInt32); } goto parse_error; default: goto parse_error; } } case 'o': { switch (op[8]) { case '\0': if (strcmp(op, "i32.load") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/false); } goto parse_error; case '1': { switch (op[11]) { case 's': if (strcmp(op, "i32.load16_s") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "i32.load16_u") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } case '8': { switch (op[10]) { case 's': if (strcmp(op, "i32.load8_s") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "i32.load8_u") == 0) { return makeLoad(s, Type::i32, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[7]) { case 's': if (strcmp(op, "i32.lt_s") == 0) { return makeBinary(s, BinaryOp::LtSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.lt_u") == 0) { return makeBinary(s, BinaryOp::LtUInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'm': if (strcmp(op, "i32.mul") == 0) { return makeBinary(s, BinaryOp::MulInt32); } goto parse_error; case 'n': if (strcmp(op, "i32.ne") == 0) { return makeBinary(s, BinaryOp::NeInt32); } goto parse_error; case 'o': if (strcmp(op, "i32.or") == 0) { return makeBinary(s, BinaryOp::OrInt32); } goto parse_error; case 'p': if (strcmp(op, "i32.popcnt") == 0) { return makeUnary(s, UnaryOp::PopcntInt32); } goto parse_error; case 'r': { switch (op[5]) { case 'e': { switch (op[6]) { case 'i': if (strcmp(op, "i32.reinterpret_f32") == 0) { return makeUnary(s, UnaryOp::ReinterpretFloat32); } goto parse_error; case 'm': { switch (op[8]) { case 's': if (strcmp(op, "i32.rem_s") == 0) { return makeBinary(s, BinaryOp::RemSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.rem_u") == 0) { return makeBinary(s, BinaryOp::RemUInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'o': { switch (op[7]) { case 'l': if (strcmp(op, "i32.rotl") == 0) { return makeBinary(s, BinaryOp::RotLInt32); } goto parse_error; case 'r': if (strcmp(op, "i32.rotr") == 0) { return makeBinary(s, BinaryOp::RotRInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[5]) { case 'h': { switch (op[6]) { case 'l': if (strcmp(op, "i32.shl") == 0) { return makeBinary(s, BinaryOp::ShlInt32); } goto parse_error; case 'r': { switch (op[8]) { case 's': if (strcmp(op, "i32.shr_s") == 0) { return makeBinary(s, BinaryOp::ShrSInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.shr_u") == 0) { return makeBinary(s, BinaryOp::ShrUInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[9]) { case '\0': if (strcmp(op, "i32.store") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/false); } goto parse_error; case '1': if (strcmp(op, "i32.store16") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/false); } goto parse_error; case '8': if (strcmp(op, "i32.store8") == 0) { return makeStore(s, Type::i32, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } case 'u': if (strcmp(op, "i32.sub") == 0) { return makeBinary(s, BinaryOp::SubInt32); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[10]) { case 'f': { switch (op[11]) { case '3': { switch (op[14]) { case 's': if (strcmp(op, "i32.trunc_f32_s") == 0) { return makeUnary(s, UnaryOp::TruncSFloat32ToInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.trunc_f32_u") == 0) { return makeUnary(s, UnaryOp::TruncUFloat32ToInt32); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[14]) { case 's': if (strcmp(op, "i32.trunc_f64_s") == 0) { return makeUnary(s, UnaryOp::TruncSFloat64ToInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.trunc_f64_u") == 0) { return makeUnary(s, UnaryOp::TruncUFloat64ToInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[15]) { case '3': { switch (op[18]) { case 's': if (strcmp(op, "i32.trunc_sat_f32_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSFloat32ToInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.trunc_sat_f32_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUFloat32ToInt32); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[18]) { case 's': if (strcmp(op, "i32.trunc_sat_f64_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSFloat64ToInt32); } goto parse_error; case 'u': if (strcmp(op, "i32.trunc_sat_f64_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUFloat64ToInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'w': if (strcmp(op, "i32.wrap_i64") == 0) { return makeUnary(s, UnaryOp::WrapInt64); } goto parse_error; case 'x': if (strcmp(op, "i32.xor") == 0) { return makeBinary(s, BinaryOp::XorInt32); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[6]) { case 'a': { switch (op[7]) { case 'b': if (strcmp(op, "i32x4.abs") == 0) { return makeUnary(s, UnaryOp::AbsVecI32x4); } goto parse_error; case 'd': if (strcmp(op, "i32x4.add") == 0) { return makeBinary(s, BinaryOp::AddVecI32x4); } goto parse_error; case 'l': if (strcmp(op, "i32x4.all_true") == 0) { return makeUnary(s, UnaryOp::AllTrueVecI32x4); } goto parse_error; case 'n': if (strcmp(op, "i32x4.any_true") == 0) { return makeUnary(s, UnaryOp::AnyTrueVecI32x4); } goto parse_error; default: goto parse_error; } } case 'b': if (strcmp(op, "i32x4.bitmask") == 0) { return makeUnary(s, UnaryOp::BitmaskVecI32x4); } goto parse_error; case 'd': if (strcmp(op, "i32x4.dot_i16x8_s") == 0) { return makeBinary(s, BinaryOp::DotSVecI16x8ToVecI32x4); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "i32x4.eq") == 0) { return makeBinary(s, BinaryOp::EqVecI32x4); } goto parse_error; case 'x': { switch (op[9]) { case 'a': { switch (op[28]) { case 's': if (strcmp(op, "i32x4.extadd_pairwise_i16x8_s") == 0) { return makeUnary(s, UnaryOp::ExtAddPairwiseSVecI16x8ToI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.extadd_pairwise_i16x8_u") == 0) { return makeUnary(s, UnaryOp::ExtAddPairwiseUVecI16x8ToI32x4); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[13]) { case 'h': { switch (op[24]) { case 's': if (strcmp(op, "i32x4.extmul_high_i16x8_s") == 0) { return makeBinary(s, BinaryOp::ExtMulHighSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.extmul_high_i16x8_u") == 0) { return makeBinary(s, BinaryOp::ExtMulHighUVecI32x4); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[23]) { case 's': if (strcmp(op, "i32x4.extmul_low_i16x8_s") == 0) { return makeBinary(s, BinaryOp::ExtMulLowSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.extmul_low_i16x8_u") == 0) { return makeBinary(s, BinaryOp::ExtMulLowUVecI32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'r': if (strcmp(op, "i32x4.extract_lane") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneVecI32x4, 4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i32x4.ge_s") == 0) { return makeBinary(s, BinaryOp::GeSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.ge_u") == 0) { return makeBinary(s, BinaryOp::GeUVecI32x4); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i32x4.gt_s") == 0) { return makeBinary(s, BinaryOp::GtSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.gt_u") == 0) { return makeBinary(s, BinaryOp::GtUVecI32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i32x4.le_s") == 0) { return makeBinary(s, BinaryOp::LeSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.le_u") == 0) { return makeBinary(s, BinaryOp::LeUVecI32x4); } goto parse_error; default: goto parse_error; } } case 'o': { switch (op[15]) { case 's': if (strcmp(op, "i32x4.load16x4_s") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtSVec16x4ToVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.load16x4_u") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtUVec16x4ToVecI32x4); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i32x4.lt_s") == 0) { return makeBinary(s, BinaryOp::LtSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.lt_u") == 0) { return makeBinary(s, BinaryOp::LtUVecI32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': { switch (op[10]) { case 's': if (strcmp(op, "i32x4.max_s") == 0) { return makeBinary(s, BinaryOp::MaxSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.max_u") == 0) { return makeBinary(s, BinaryOp::MaxUVecI32x4); } goto parse_error; default: goto parse_error; } } case 'i': { switch (op[10]) { case 's': if (strcmp(op, "i32x4.min_s") == 0) { return makeBinary(s, BinaryOp::MinSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.min_u") == 0) { return makeBinary(s, BinaryOp::MinUVecI32x4); } goto parse_error; default: goto parse_error; } } case 'u': if (strcmp(op, "i32x4.mul") == 0) { return makeBinary(s, BinaryOp::MulVecI32x4); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[8]) { case '\0': if (strcmp(op, "i32x4.ne") == 0) { return makeBinary(s, BinaryOp::NeVecI32x4); } goto parse_error; case 'g': if (strcmp(op, "i32x4.neg") == 0) { return makeUnary(s, UnaryOp::NegVecI32x4); } goto parse_error; default: goto parse_error; } } case 'r': if (strcmp(op, "i32x4.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecI32x4, 4); } goto parse_error; case 's': { switch (op[7]) { case 'h': { switch (op[8]) { case 'l': if (strcmp(op, "i32x4.shl") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShlVecI32x4); } goto parse_error; case 'r': { switch (op[10]) { case 's': if (strcmp(op, "i32x4.shr_s") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrSVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.shr_u") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrUVecI32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "i32x4.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.sub") == 0) { return makeBinary(s, BinaryOp::SubVecI32x4); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[22]) { case 's': if (strcmp(op, "i32x4.trunc_sat_f32x4_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSVecF32x4ToVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.trunc_sat_f32x4_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUVecF32x4ToVecI32x4); } goto parse_error; default: goto parse_error; } } case 'w': { switch (op[12]) { case 'h': { switch (op[23]) { case 's': if (strcmp(op, "i32x4.widen_high_i16x8_s") == 0) { return makeUnary(s, UnaryOp::WidenHighSVecI16x8ToVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.widen_high_i16x8_u") == 0) { return makeUnary(s, UnaryOp::WidenHighUVecI16x8ToVecI32x4); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[22]) { case 's': if (strcmp(op, "i32x4.widen_low_i16x8_s") == 0) { return makeUnary(s, UnaryOp::WidenLowSVecI16x8ToVecI32x4); } goto parse_error; case 'u': if (strcmp(op, "i32x4.widen_low_i16x8_u") == 0) { return makeUnary(s, UnaryOp::WidenLowUVecI16x8ToVecI32x4); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case '6': { switch (op[3]) { case '.': { switch (op[4]) { case 'a': { switch (op[5]) { case 'd': if (strcmp(op, "i64.add") == 0) { return makeBinary(s, BinaryOp::AddInt64); } goto parse_error; case 'n': if (strcmp(op, "i64.and") == 0) { return makeBinary(s, BinaryOp::AndInt64); } goto parse_error; case 't': { switch (op[11]) { case 'l': { switch (op[15]) { case '\0': if (strcmp(op, "i64.atomic.load") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '1': if (strcmp(op, "i64.atomic.load16_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '3': if (strcmp(op, "i64.atomic.load32_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '8': if (strcmp(op, "i64.atomic.load8_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/true); } goto parse_error; default: goto parse_error; } } case 'r': { switch (op[14]) { case '.': { switch (op[15]) { case 'a': { switch (op[16]) { case 'd': if (strcmp(op, "i64.atomic.rmw.add") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'n': if (strcmp(op, "i64.atomic.rmw.and") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i64.atomic.rmw.cmpxchg") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw.or") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 's': if (strcmp(op, "i64.atomic.rmw.sub") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'x': { switch (op[16]) { case 'c': if (strcmp(op, "i64.atomic.rmw.xchg") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw.xor") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '1': { switch (op[17]) { case 'a': { switch (op[18]) { case 'd': if (strcmp(op, "i64.atomic.rmw16.add_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'n': if (strcmp(op, "i64.atomic.rmw16.and_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i64.atomic.rmw16.cmpxchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw16.or_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 's': if (strcmp(op, "i64.atomic.rmw16.sub_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'x': { switch (op[18]) { case 'c': if (strcmp(op, "i64.atomic.rmw16.xchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw16.xor_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '3': { switch (op[17]) { case 'a': { switch (op[18]) { case 'd': if (strcmp(op, "i64.atomic.rmw32.add_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'n': if (strcmp(op, "i64.atomic.rmw32.and_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i64.atomic.rmw32.cmpxchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw32.or_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 's': if (strcmp(op, "i64.atomic.rmw32.sub_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'x': { switch (op[18]) { case 'c': if (strcmp(op, "i64.atomic.rmw32.xchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw32.xor_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '8': { switch (op[16]) { case 'a': { switch (op[17]) { case 'd': if (strcmp(op, "i64.atomic.rmw8.add_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'n': if (strcmp(op, "i64.atomic.rmw8.and_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } case 'c': if (strcmp(op, "i64.atomic.rmw8.cmpxchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw8.or_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 's': if (strcmp(op, "i64.atomic.rmw8.sub_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'x': { switch (op[17]) { case 'c': if (strcmp(op, "i64.atomic.rmw8.xchg_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; case 'o': if (strcmp(op, "i64.atomic.rmw8.xor_u") == 0) { return makeAtomicRMWOrCmpxchg(s, Type::i64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[16]) { case '\0': if (strcmp(op, "i64.atomic.store") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '1': if (strcmp(op, "i64.atomic.store16") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '3': if (strcmp(op, "i64.atomic.store32") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/true); } goto parse_error; case '8': if (strcmp(op, "i64.atomic.store8") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/true); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'c': { switch (op[5]) { case 'l': if (strcmp(op, "i64.clz") == 0) { return makeUnary(s, UnaryOp::ClzInt64); } goto parse_error; case 'o': if (strcmp(op, "i64.const") == 0) { return makeConst(s, Type::i64); } goto parse_error; case 't': if (strcmp(op, "i64.ctz") == 0) { return makeUnary(s, UnaryOp::CtzInt64); } goto parse_error; default: goto parse_error; } } case 'd': { switch (op[8]) { case 's': if (strcmp(op, "i64.div_s") == 0) { return makeBinary(s, BinaryOp::DivSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.div_u") == 0) { return makeBinary(s, BinaryOp::DivUInt64); } goto parse_error; default: goto parse_error; } } case 'e': { switch (op[5]) { case 'q': { switch (op[6]) { case '\0': if (strcmp(op, "i64.eq") == 0) { return makeBinary(s, BinaryOp::EqInt64); } goto parse_error; case 'z': if (strcmp(op, "i64.eqz") == 0) { return makeUnary(s, UnaryOp::EqZInt64); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[10]) { case '1': if (strcmp(op, "i64.extend16_s") == 0) { return makeUnary(s, UnaryOp::ExtendS16Int64); } goto parse_error; case '3': if (strcmp(op, "i64.extend32_s") == 0) { return makeUnary(s, UnaryOp::ExtendS32Int64); } goto parse_error; case '8': if (strcmp(op, "i64.extend8_s") == 0) { return makeUnary(s, UnaryOp::ExtendS8Int64); } goto parse_error; case '_': { switch (op[15]) { case 's': if (strcmp(op, "i64.extend_i32_s") == 0) { return makeUnary(s, UnaryOp::ExtendSInt32); } goto parse_error; case 'u': if (strcmp(op, "i64.extend_i32_u") == 0) { return makeUnary(s, UnaryOp::ExtendUInt32); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[5]) { case 'e': { switch (op[7]) { case 's': if (strcmp(op, "i64.ge_s") == 0) { return makeBinary(s, BinaryOp::GeSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.ge_u") == 0) { return makeBinary(s, BinaryOp::GeUInt64); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[7]) { case 's': if (strcmp(op, "i64.gt_s") == 0) { return makeBinary(s, BinaryOp::GtSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.gt_u") == 0) { return makeBinary(s, BinaryOp::GtUInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[5]) { case 'e': { switch (op[7]) { case 's': if (strcmp(op, "i64.le_s") == 0) { return makeBinary(s, BinaryOp::LeSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.le_u") == 0) { return makeBinary(s, BinaryOp::LeUInt64); } goto parse_error; default: goto parse_error; } } case 'o': { switch (op[8]) { case '\0': if (strcmp(op, "i64.load") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case '1': { switch (op[11]) { case 's': if (strcmp(op, "i64.load16_s") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "i64.load16_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } case '3': { switch (op[11]) { case 's': if (strcmp(op, "i64.load32_s") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "i64.load32_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } case '8': { switch (op[10]) { case 's': if (strcmp(op, "i64.load8_s") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case 'u': if (strcmp(op, "i64.load8_u") == 0) { return makeLoad(s, Type::i64, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[7]) { case 's': if (strcmp(op, "i64.lt_s") == 0) { return makeBinary(s, BinaryOp::LtSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.lt_u") == 0) { return makeBinary(s, BinaryOp::LtUInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'm': if (strcmp(op, "i64.mul") == 0) { return makeBinary(s, BinaryOp::MulInt64); } goto parse_error; case 'n': if (strcmp(op, "i64.ne") == 0) { return makeBinary(s, BinaryOp::NeInt64); } goto parse_error; case 'o': if (strcmp(op, "i64.or") == 0) { return makeBinary(s, BinaryOp::OrInt64); } goto parse_error; case 'p': if (strcmp(op, "i64.popcnt") == 0) { return makeUnary(s, UnaryOp::PopcntInt64); } goto parse_error; case 'r': { switch (op[5]) { case 'e': { switch (op[6]) { case 'i': if (strcmp(op, "i64.reinterpret_f64") == 0) { return makeUnary(s, UnaryOp::ReinterpretFloat64); } goto parse_error; case 'm': { switch (op[8]) { case 's': if (strcmp(op, "i64.rem_s") == 0) { return makeBinary(s, BinaryOp::RemSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.rem_u") == 0) { return makeBinary(s, BinaryOp::RemUInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'o': { switch (op[7]) { case 'l': if (strcmp(op, "i64.rotl") == 0) { return makeBinary(s, BinaryOp::RotLInt64); } goto parse_error; case 'r': if (strcmp(op, "i64.rotr") == 0) { return makeBinary(s, BinaryOp::RotRInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[5]) { case 'h': { switch (op[6]) { case 'l': if (strcmp(op, "i64.shl") == 0) { return makeBinary(s, BinaryOp::ShlInt64); } goto parse_error; case 'r': { switch (op[8]) { case 's': if (strcmp(op, "i64.shr_s") == 0) { return makeBinary(s, BinaryOp::ShrSInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.shr_u") == 0) { return makeBinary(s, BinaryOp::ShrUInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[9]) { case '\0': if (strcmp(op, "i64.store") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case '1': if (strcmp(op, "i64.store16") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case '3': if (strcmp(op, "i64.store32") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/false); } goto parse_error; case '8': if (strcmp(op, "i64.store8") == 0) { return makeStore(s, Type::i64, /*isAtomic=*/false); } goto parse_error; default: goto parse_error; } } case 'u': if (strcmp(op, "i64.sub") == 0) { return makeBinary(s, BinaryOp::SubInt64); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[10]) { case 'f': { switch (op[11]) { case '3': { switch (op[14]) { case 's': if (strcmp(op, "i64.trunc_f32_s") == 0) { return makeUnary(s, UnaryOp::TruncSFloat32ToInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.trunc_f32_u") == 0) { return makeUnary(s, UnaryOp::TruncUFloat32ToInt64); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[14]) { case 's': if (strcmp(op, "i64.trunc_f64_s") == 0) { return makeUnary(s, UnaryOp::TruncSFloat64ToInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.trunc_f64_u") == 0) { return makeUnary(s, UnaryOp::TruncUFloat64ToInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[15]) { case '3': { switch (op[18]) { case 's': if (strcmp(op, "i64.trunc_sat_f32_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSFloat32ToInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.trunc_sat_f32_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUFloat32ToInt64); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[18]) { case 's': if (strcmp(op, "i64.trunc_sat_f64_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSFloat64ToInt64); } goto parse_error; case 'u': if (strcmp(op, "i64.trunc_sat_f64_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUFloat64ToInt64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'x': if (strcmp(op, "i64.xor") == 0) { return makeBinary(s, BinaryOp::XorInt64); } goto parse_error; default: goto parse_error; } } case 'x': { switch (op[6]) { case 'a': if (strcmp(op, "i64x2.add") == 0) { return makeBinary(s, BinaryOp::AddVecI64x2); } goto parse_error; case 'b': if (strcmp(op, "i64x2.bitmask") == 0) { return makeUnary(s, UnaryOp::BitmaskVecI64x2); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "i64x2.eq") == 0) { return makeBinary(s, BinaryOp::EqVecI64x2); } goto parse_error; case 'x': { switch (op[9]) { case 'm': { switch (op[13]) { case 'h': { switch (op[24]) { case 's': if (strcmp(op, "i64x2.extmul_high_i32x4_s") == 0) { return makeBinary(s, BinaryOp::ExtMulHighSVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.extmul_high_i32x4_u") == 0) { return makeBinary(s, BinaryOp::ExtMulHighUVecI64x2); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[23]) { case 's': if (strcmp(op, "i64x2.extmul_low_i32x4_s") == 0) { return makeBinary(s, BinaryOp::ExtMulLowSVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.extmul_low_i32x4_u") == 0) { return makeBinary(s, BinaryOp::ExtMulLowUVecI64x2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'r': if (strcmp(op, "i64x2.extract_lane") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneVecI64x2, 2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[15]) { case 's': if (strcmp(op, "i64x2.load32x2_s") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtSVec32x2ToVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.load32x2_u") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadExtUVec32x2ToVecI64x2); } goto parse_error; default: goto parse_error; } } case 'm': if (strcmp(op, "i64x2.mul") == 0) { return makeBinary(s, BinaryOp::MulVecI64x2); } goto parse_error; case 'n': if (strcmp(op, "i64x2.neg") == 0) { return makeUnary(s, UnaryOp::NegVecI64x2); } goto parse_error; case 'r': if (strcmp(op, "i64x2.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecI64x2, 2); } goto parse_error; case 's': { switch (op[7]) { case 'h': { switch (op[8]) { case 'l': if (strcmp(op, "i64x2.shl") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShlVecI64x2); } goto parse_error; case 'r': { switch (op[10]) { case 's': if (strcmp(op, "i64x2.shr_s") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrSVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.shr_u") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrUVecI64x2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "i64x2.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.sub") == 0) { return makeBinary(s, BinaryOp::SubVecI64x2); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[22]) { case 's': if (strcmp(op, "i64x2.trunc_sat_f64x2_s") == 0) { return makeUnary(s, UnaryOp::TruncSatSVecF64x2ToVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.trunc_sat_f64x2_u") == 0) { return makeUnary(s, UnaryOp::TruncSatUVecF64x2ToVecI64x2); } goto parse_error; default: goto parse_error; } } case 'w': { switch (op[12]) { case 'h': { switch (op[23]) { case 's': if (strcmp(op, "i64x2.widen_high_i32x4_s") == 0) { return makeUnary(s, UnaryOp::WidenHighSVecI32x4ToVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.widen_high_i32x4_u") == 0) { return makeUnary(s, UnaryOp::WidenHighUVecI32x4ToVecI64x2); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[22]) { case 's': if (strcmp(op, "i64x2.widen_low_i32x4_s") == 0) { return makeUnary(s, UnaryOp::WidenLowSVecI32x4ToVecI64x2); } goto parse_error; case 'u': if (strcmp(op, "i64x2.widen_low_i32x4_u") == 0) { return makeUnary(s, UnaryOp::WidenLowUVecI32x4ToVecI64x2); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case '8': { switch (op[6]) { case 'a': { switch (op[7]) { case 'b': if (strcmp(op, "i8x16.abs") == 0) { return makeUnary(s, UnaryOp::AbsVecI8x16); } goto parse_error; case 'd': { switch (op[9]) { case '\0': if (strcmp(op, "i8x16.add") == 0) { return makeBinary(s, BinaryOp::AddVecI8x16); } goto parse_error; case '_': { switch (op[19]) { case 's': if (strcmp(op, "i8x16.add_saturate_s") == 0) { return makeBinary(s, BinaryOp::AddSatSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.add_saturate_u") == 0) { return makeBinary(s, BinaryOp::AddSatUVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': if (strcmp(op, "i8x16.all_true") == 0) { return makeUnary(s, UnaryOp::AllTrueVecI8x16); } goto parse_error; case 'n': if (strcmp(op, "i8x16.any_true") == 0) { return makeUnary(s, UnaryOp::AnyTrueVecI8x16); } goto parse_error; case 'v': if (strcmp(op, "i8x16.avgr_u") == 0) { return makeBinary(s, BinaryOp::AvgrUVecI8x16); } goto parse_error; default: goto parse_error; } } case 'b': if (strcmp(op, "i8x16.bitmask") == 0) { return makeUnary(s, UnaryOp::BitmaskVecI8x16); } goto parse_error; case 'e': { switch (op[7]) { case 'q': if (strcmp(op, "i8x16.eq") == 0) { return makeBinary(s, BinaryOp::EqVecI8x16); } goto parse_error; case 'x': { switch (op[19]) { case 's': if (strcmp(op, "i8x16.extract_lane_s") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneSVecI8x16, 16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.extract_lane_u") == 0) { return makeSIMDExtract(s, SIMDExtractOp::ExtractLaneUVecI8x16, 16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'g': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i8x16.ge_s") == 0) { return makeBinary(s, BinaryOp::GeSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.ge_u") == 0) { return makeBinary(s, BinaryOp::GeUVecI8x16); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i8x16.gt_s") == 0) { return makeBinary(s, BinaryOp::GtSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.gt_u") == 0) { return makeBinary(s, BinaryOp::GtUVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'l': { switch (op[7]) { case 'e': { switch (op[9]) { case 's': if (strcmp(op, "i8x16.le_s") == 0) { return makeBinary(s, BinaryOp::LeSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.le_u") == 0) { return makeBinary(s, BinaryOp::LeUVecI8x16); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[9]) { case 's': if (strcmp(op, "i8x16.lt_s") == 0) { return makeBinary(s, BinaryOp::LtSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.lt_u") == 0) { return makeBinary(s, BinaryOp::LtUVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': { switch (op[10]) { case 's': if (strcmp(op, "i8x16.max_s") == 0) { return makeBinary(s, BinaryOp::MaxSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.max_u") == 0) { return makeBinary(s, BinaryOp::MaxUVecI8x16); } goto parse_error; default: goto parse_error; } } case 'i': { switch (op[10]) { case 's': if (strcmp(op, "i8x16.min_s") == 0) { return makeBinary(s, BinaryOp::MinSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.min_u") == 0) { return makeBinary(s, BinaryOp::MinUVecI8x16); } goto parse_error; default: goto parse_error; } } case 'u': if (strcmp(op, "i8x16.mul") == 0) { return makeBinary(s, BinaryOp::MulVecI8x16); } goto parse_error; default: goto parse_error; } } case 'n': { switch (op[7]) { case 'a': { switch (op[19]) { case 's': if (strcmp(op, "i8x16.narrow_i16x8_s") == 0) { return makeBinary(s, BinaryOp::NarrowSVecI16x8ToVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.narrow_i16x8_u") == 0) { return makeBinary(s, BinaryOp::NarrowUVecI16x8ToVecI8x16); } goto parse_error; default: goto parse_error; } } case 'e': { switch (op[8]) { case '\0': if (strcmp(op, "i8x16.ne") == 0) { return makeBinary(s, BinaryOp::NeVecI8x16); } goto parse_error; case 'g': if (strcmp(op, "i8x16.neg") == 0) { return makeUnary(s, UnaryOp::NegVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "i8x16.popcnt") == 0) { return makeUnary(s, UnaryOp::PopcntVecI8x16); } goto parse_error; case 'r': if (strcmp(op, "i8x16.replace_lane") == 0) { return makeSIMDReplace(s, SIMDReplaceOp::ReplaceLaneVecI8x16, 16); } goto parse_error; case 's': { switch (op[7]) { case 'h': { switch (op[8]) { case 'l': if (strcmp(op, "i8x16.shl") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShlVecI8x16); } goto parse_error; case 'r': { switch (op[10]) { case 's': if (strcmp(op, "i8x16.shr_s") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.shr_u") == 0) { return makeSIMDShift(s, SIMDShiftOp::ShrUVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'p': if (strcmp(op, "i8x16.splat") == 0) { return makeUnary(s, UnaryOp::SplatVecI8x16); } goto parse_error; case 'u': { switch (op[9]) { case '\0': if (strcmp(op, "i8x16.sub") == 0) { return makeBinary(s, BinaryOp::SubVecI8x16); } goto parse_error; case '_': { switch (op[19]) { case 's': if (strcmp(op, "i8x16.sub_saturate_s") == 0) { return makeBinary(s, BinaryOp::SubSatSVecI8x16); } goto parse_error; case 'u': if (strcmp(op, "i8x16.sub_saturate_u") == 0) { return makeBinary(s, BinaryOp::SubSatUVecI8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 'f': if (strcmp(op, "if") == 0) { return makeIf(s); } goto parse_error; default: goto parse_error; } } case 'l': { switch (op[2]) { case 'c': { switch (op[6]) { case 'g': if (strcmp(op, "local.get") == 0) { return makeLocalGet(s); } goto parse_error; case 's': if (strcmp(op, "local.set") == 0) { return makeLocalSet(s); } goto parse_error; case 't': if (strcmp(op, "local.tee") == 0) { return makeLocalTee(s); } goto parse_error; default: goto parse_error; } } case 'o': if (strcmp(op, "loop") == 0) { return makeLoop(s); } goto parse_error; default: goto parse_error; } } case 'm': { switch (op[7]) { case 'a': { switch (op[14]) { case 'n': if (strcmp(op, "memory.atomic.notify") == 0) { return makeAtomicNotify(s); } goto parse_error; case 'w': { switch (op[18]) { case '3': if (strcmp(op, "memory.atomic.wait32") == 0) { return makeAtomicWait(s, Type::i32); } goto parse_error; case '6': if (strcmp(op, "memory.atomic.wait64") == 0) { return makeAtomicWait(s, Type::i64); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'c': if (strcmp(op, "memory.copy") == 0) { return makeMemoryCopy(s); } goto parse_error; case 'f': if (strcmp(op, "memory.fill") == 0) { return makeMemoryFill(s); } goto parse_error; case 'g': if (strcmp(op, "memory.grow") == 0) { return makeMemoryGrow(s); } goto parse_error; case 'i': if (strcmp(op, "memory.init") == 0) { return makeMemoryInit(s); } goto parse_error; case 's': if (strcmp(op, "memory.size") == 0) { return makeMemorySize(s); } goto parse_error; default: goto parse_error; } } case 'n': if (strcmp(op, "nop") == 0) { return makeNop(); } goto parse_error; case 'p': { switch (op[1]) { case 'o': if (strcmp(op, "pop") == 0) { return makePop(s); } goto parse_error; case 'r': { switch (op[9]) { case 'n': if (strcmp(op, "prefetch.nt") == 0) { return makePrefetch(s, PrefetchOp::PrefetchNontemporal); } goto parse_error; case 't': if (strcmp(op, "prefetch.t") == 0) { return makePrefetch(s, PrefetchOp::PrefetchTemporal); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'r': { switch (op[1]) { case 'e': { switch (op[2]) { case 'f': { switch (op[4]) { case 'c': if (strcmp(op, "ref.cast") == 0) { return makeRefCast(s); } goto parse_error; case 'e': if (strcmp(op, "ref.eq") == 0) { return makeRefEq(s); } goto parse_error; case 'f': if (strcmp(op, "ref.func") == 0) { return makeRefFunc(s); } goto parse_error; case 'i': if (strcmp(op, "ref.is_null") == 0) { return makeRefIsNull(s); } goto parse_error; case 'n': if (strcmp(op, "ref.null") == 0) { return makeRefNull(s); } goto parse_error; case 't': if (strcmp(op, "ref.test") == 0) { return makeRefTest(s); } goto parse_error; default: goto parse_error; } } case 't': { switch (op[3]) { case 'h': if (strcmp(op, "rethrow") == 0) { return makeRethrow(s); } goto parse_error; case 'u': { switch (op[6]) { case '\0': if (strcmp(op, "return") == 0) { return makeReturn(s); } goto parse_error; case '_': { switch (op[11]) { case '\0': if (strcmp(op, "return_call") == 0) { return makeCall(s, /*isReturn=*/true); } goto parse_error; case '_': { switch (op[12]) { case 'i': if (strcmp(op, "return_call_indirect") == 0) { return makeCallIndirect(s, /*isReturn=*/true); } goto parse_error; case 'r': if (strcmp(op, "return_call_ref") == 0) { return makeCallRef(s, /*isReturn=*/true); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[4]) { case 'c': if (strcmp(op, "rtt.canon") == 0) { return makeRttCanon(s); } goto parse_error; case 's': if (strcmp(op, "rtt.sub") == 0) { return makeRttSub(s); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 's': { switch (op[1]) { case 'e': if (strcmp(op, "select") == 0) { return makeSelect(s); } goto parse_error; case 't': { switch (op[7]) { case 'g': { switch (op[10]) { case '\0': if (strcmp(op, "struct.get") == 0) { return makeStructGet(s); } goto parse_error; case '_': { switch (op[11]) { case 's': if (strcmp(op, "struct.get_s") == 0) { return makeStructGet(s, true); } goto parse_error; case 'u': if (strcmp(op, "struct.get_u") == 0) { return makeStructGet(s, false); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'n': { switch (op[11]) { case 'd': if (strcmp(op, "struct.new_default_with_rtt") == 0) { return makeStructNew(s, true); } goto parse_error; case 'w': if (strcmp(op, "struct.new_with_rtt") == 0) { return makeStructNew(s, false); } goto parse_error; default: goto parse_error; } } case 's': if (strcmp(op, "struct.set") == 0) { return makeStructSet(s); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 't': { switch (op[1]) { case 'h': { switch (op[2]) { case 'e': if (strcmp(op, "then") == 0) { return makeThenOrElse(s); } goto parse_error; case 'r': if (strcmp(op, "throw") == 0) { return makeThrow(s); } goto parse_error; default: goto parse_error; } } case 'r': if (strcmp(op, "try") == 0) { return makeTry(s); } goto parse_error; case 'u': { switch (op[6]) { case 'e': if (strcmp(op, "tuple.extract") == 0) { return makeTupleExtract(s); } goto parse_error; case 'm': if (strcmp(op, "tuple.make") == 0) { return makeTupleMake(s); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case 'u': if (strcmp(op, "unreachable") == 0) { return makeUnreachable(); } goto parse_error; case 'v': { switch (op[1]) { case '1': { switch (op[2]) { case '2': { switch (op[5]) { case 'a': { switch (op[8]) { case '\0': if (strcmp(op, "v128.and") == 0) { return makeBinary(s, BinaryOp::AndVec128); } goto parse_error; case 'n': if (strcmp(op, "v128.andnot") == 0) { return makeBinary(s, BinaryOp::AndNotVec128); } goto parse_error; default: goto parse_error; } } case 'b': if (strcmp(op, "v128.bitselect") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::Bitselect); } goto parse_error; case 'c': if (strcmp(op, "v128.const") == 0) { return makeConst(s, Type::v128); } goto parse_error; case 'l': { switch (op[9]) { case '\0': if (strcmp(op, "v128.load") == 0) { return makeLoad(s, Type::v128, /*isAtomic=*/false); } goto parse_error; case '1': if (strcmp(op, "v128.load16_lane") == 0) { return makeSIMDLoadStoreLane(s, LoadLaneVec16x8); } goto parse_error; case '3': { switch (op[12]) { case 'l': if (strcmp(op, "v128.load32_lane") == 0) { return makeSIMDLoadStoreLane(s, LoadLaneVec32x4); } goto parse_error; case 'z': if (strcmp(op, "v128.load32_zero") == 0) { return makeSIMDLoad(s, SIMDLoadOp::Load32Zero); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[12]) { case 'l': if (strcmp(op, "v128.load64_lane") == 0) { return makeSIMDLoadStoreLane(s, LoadLaneVec64x2); } goto parse_error; case 'z': if (strcmp(op, "v128.load64_zero") == 0) { return makeSIMDLoad(s, SIMDLoadOp::Load64Zero); } goto parse_error; default: goto parse_error; } } case '8': if (strcmp(op, "v128.load8_lane") == 0) { return makeSIMDLoadStoreLane(s, LoadLaneVec8x16); } goto parse_error; default: goto parse_error; } } case 'n': if (strcmp(op, "v128.not") == 0) { return makeUnary(s, UnaryOp::NotVec128); } goto parse_error; case 'o': if (strcmp(op, "v128.or") == 0) { return makeBinary(s, BinaryOp::OrVec128); } goto parse_error; case 's': { switch (op[10]) { case '\0': if (strcmp(op, "v128.store") == 0) { return makeStore(s, Type::v128, /*isAtomic=*/false); } goto parse_error; case '1': if (strcmp(op, "v128.store16_lane") == 0) { return makeSIMDLoadStoreLane(s, StoreLaneVec16x8); } goto parse_error; case '3': if (strcmp(op, "v128.store32_lane") == 0) { return makeSIMDLoadStoreLane(s, StoreLaneVec32x4); } goto parse_error; case '6': if (strcmp(op, "v128.store64_lane") == 0) { return makeSIMDLoadStoreLane(s, StoreLaneVec64x2); } goto parse_error; case '8': if (strcmp(op, "v128.store8_lane") == 0) { return makeSIMDLoadStoreLane(s, StoreLaneVec8x16); } goto parse_error; default: goto parse_error; } } case 'x': if (strcmp(op, "v128.xor") == 0) { return makeBinary(s, BinaryOp::XorVec128); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[6]) { case 'l': if (strcmp(op, "v16x8.load_splat") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadSplatVec16x8); } goto parse_error; case 's': if (strcmp(op, "v16x8.signselect") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::SignSelectVec16x8); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } case '3': { switch (op[6]) { case 'l': if (strcmp(op, "v32x4.load_splat") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadSplatVec32x4); } goto parse_error; case 's': if (strcmp(op, "v32x4.signselect") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::SignSelectVec32x4); } goto parse_error; default: goto parse_error; } } case '6': { switch (op[6]) { case 'l': if (strcmp(op, "v64x2.load_splat") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadSplatVec64x2); } goto parse_error; case 's': if (strcmp(op, "v64x2.signselect") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::SignSelectVec64x2); } goto parse_error; default: goto parse_error; } } case '8': { switch (op[6]) { case 'l': if (strcmp(op, "v8x16.load_splat") == 0) { return makeSIMDLoad(s, SIMDLoadOp::LoadSplatVec8x16); } goto parse_error; case 's': { switch (op[7]) { case 'h': if (strcmp(op, "v8x16.shuffle") == 0) { return makeSIMDShuffle(s); } goto parse_error; case 'i': if (strcmp(op, "v8x16.signselect") == 0) { return makeSIMDTernary(s, SIMDTernaryOp::SignSelectVec8x16); } goto parse_error; case 'w': if (strcmp(op, "v8x16.swizzle") == 0) { return makeBinary(s, BinaryOp::SwizzleVec8x16); } goto parse_error; default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } } default: goto parse_error; } parse_error: throw ParseException(std::string(op), s.line, s.col); #endif // INSTRUCTION_PARSER // clang-format on