| // Copyright 2020 The Tint Authors. // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #include "gmock/gmock.h" |
| #include "src/tint/lang/spirv/reader/ast_parser/function.h" |
| #include "src/tint/lang/spirv/reader/ast_parser/spirv_tools_helpers_test.h" |
| #include "src/tint/lang/spirv/reader/ast_parser/test_helper.h" |
| #include "src/tint/utils/text/string_stream.h" |
| |
| namespace tint::spirv::reader { |
| namespace { |
| |
| using ::testing::HasSubstr; |
| |
| std::string CommonTypes() { |
| return R"( |
| %void = OpTypeVoid |
| %voidfn = OpTypeFunction %void |
| |
| %uint = OpTypeInt 32 0 |
| %int = OpTypeInt 32 1 |
| %float = OpTypeFloat 32 |
| |
| %uint_10 = OpConstant %uint 10 |
| %uint_20 = OpConstant %uint 20 |
| %int_10 = OpConstant %int 10 |
| %int_20 = OpConstant %int 20 |
| %int_30 = OpConstant %int 30 |
| %int_40 = OpConstant %int 40 |
| %float_50 = OpConstant %float 50 |
| %float_60 = OpConstant %float 60 |
| |
| %ptr_uint = OpTypePointer Function %uint |
| %ptr_int = OpTypePointer Function %int |
| %ptr_float = OpTypePointer Function %float |
| |
| %v2uint = OpTypeVector %uint 2 |
| %v2int = OpTypeVector %int 2 |
| %v2float = OpTypeVector %float 2 |
| |
| %v2uint_10_20 = OpConstantComposite %v2uint %uint_10 %uint_20 |
| %v2uint_20_10 = OpConstantComposite %v2uint %uint_20 %uint_10 |
| %v2int_30_40 = OpConstantComposite %v2int %int_30 %int_40 |
| %v2int_40_30 = OpConstantComposite %v2int %int_40 %int_30 |
| %v2float_50_60 = OpConstantComposite %v2float %float_50 %float_60 |
| %v2float_60_50 = OpConstantComposite %v2float %float_60 %float_50 |
| )"; |
| } |
| |
| std::string SimplePreamble() { |
| return R"( |
| OpCapability Shader |
| OpMemoryModel Logical Simple |
| OpEntryPoint Fragment %100 "main" |
| OpExecutionMode %100 OriginUpperLeft |
| )" + CommonTypes(); |
| } |
| |
| // Returns the AST dump for a given SPIR-V assembly constant. |
| std::string AstFor(std::string assembly) { |
| if (assembly == "v2uint_10_20") { |
| return "vec2u(10u, 20u)"; |
| } |
| if (assembly == "v2uint_20_10") { |
| return "vec2u(20u, 10u)"; |
| } |
| if (assembly == "v2int_30_40") { |
| return "vec2i(30i, 40i)"; |
| } |
| if (assembly == "v2int_40_30") { |
| return "vec2i(40i, 30i)"; |
| } |
| if (assembly == "cast_int_v2uint_10_20") { |
| return "bitcast<vec2i(vec2u(10u, 20u))"; |
| } |
| if (assembly == "v2float_50_60") { |
| return "vec2f(50.0, 60.0))"; |
| } |
| if (assembly == "v2float_60_50") { |
| return "vec2f(60.0, 50.0))"; |
| } |
| return "bad case"; |
| } |
| |
| using SpvUnaryBitTest = SpirvASTParserTestBase<::testing::Test>; |
| |
| struct BinaryData { |
| const std::string res_type; |
| const std::string lhs; |
| const std::string op; |
| const std::string rhs; |
| const std::string ast_type; |
| const std::string ast_lhs; |
| const std::string ast_op; |
| const std::string ast_rhs; |
| }; |
| inline std::ostream& operator<<(std::ostream& out, BinaryData data) { |
| out << "BinaryData{" << data.res_type << "," << data.lhs << "," << data.op << "," << data.rhs |
| << "," << data.ast_type << "," << data.ast_lhs << "," << data.ast_op << "," << data.ast_rhs |
| << "}"; |
| return out; |
| } |
| |
| using SpvBinaryBitTest = SpirvASTParserTestBase<::testing::TestWithParam<BinaryData>>; |
| using SpvBinaryBitTestBasic = SpirvASTParserTestBase<::testing::Test>; |
| |
| TEST_P(SpvBinaryBitTest, EmitExpression) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = )" + GetParam().op + |
| " %" + GetParam().res_type + " %" + GetParam().lhs + " %" + |
| GetParam().rhs + R"( |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()) << p->error() << "\n" << assembly; |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| StringStream ss; |
| ss << "let x_1 = (" << GetParam().ast_lhs << " " << GetParam().ast_op << " " |
| << GetParam().ast_rhs << ");"; |
| auto ast_body = fe.ast_body(); |
| EXPECT_THAT(test::ToString(p->program(), ast_body), HasSubstr(ss.str())) << assembly; |
| } |
| |
| // Use this when the result might have extra bitcasts on the outside. |
| struct BinaryDataGeneral { |
| const std::string res_type; |
| const std::string lhs; |
| const std::string op; |
| const std::string rhs; |
| const std::string wgsl_type; |
| const std::string expected; |
| }; |
| inline std::ostream& operator<<(std::ostream& out, BinaryDataGeneral data) { |
| out << "BinaryDataGeneral{" << data.res_type << "," << data.lhs << "," << data.op << "," |
| << data.rhs << "," << data.wgsl_type << "," << data.expected << "}"; |
| return out; |
| } |
| |
| using SpvBinaryBitGeneralTest = SpirvASTParserTestBase<::testing::TestWithParam<BinaryDataGeneral>>; |
| |
| TEST_P(SpvBinaryBitGeneralTest, EmitExpression) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = )" + GetParam().op + |
| " %" + GetParam().res_type + " %" + GetParam().lhs + " %" + |
| GetParam().rhs + R"( |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()) << p->error() << "\n" << assembly; |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error() << assembly; |
| StringStream ss; |
| ss << "let x_1 = " << GetParam().expected << ";\nreturn;\n"; |
| auto ast_body = fe.ast_body(); |
| auto got = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(got, HasSubstr(ss.str())) << "got:\n" << got << assembly; |
| } |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftLeftLogical_Arg2Unsigned, |
| SpvBinaryBitTest, |
| ::testing::Values( |
| // uint uint -> uint |
| BinaryData{"uint", "uint_10", "OpShiftLeftLogical", "uint_20", "u32", "10u", "<<", "20u"}, |
| // int, uint -> int |
| BinaryData{"int", "int_30", "OpShiftLeftLogical", "uint_20", "i32", "30i", "<<", "20u"}, |
| // v2uint v2uint -> v2uint |
| BinaryData{"v2uint", "v2uint_10_20", "OpShiftLeftLogical", "v2uint_20_10", "vec2u", |
| AstFor("v2uint_10_20"), "<<", AstFor("v2uint_20_10")}, |
| // v2int, v2uint -> v2int |
| BinaryData{"v2int", "v2int_30_40", "OpShiftLeftLogical", "v2uint_20_10", "vec2i", |
| AstFor("v2int_30_40"), "<<", AstFor("v2uint_20_10")})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| // WGSL requires second operand to be unsigned, so insert bitcasts |
| SpirvASTParserTest_ShiftLeftLogical_Arg2Signed, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // int, int -> int |
| BinaryDataGeneral{"int", "int_30", "OpShiftLeftLogical", "int_40", "i32", |
| "(30i << bitcast<u32>(40i))"}, |
| // uint, int -> uint |
| BinaryDataGeneral{"uint", "uint_10", "OpShiftLeftLogical", "int_40", "u32", |
| "(10u << bitcast<u32>(40i))"}, |
| // v2uint, v2int -> v2uint |
| BinaryDataGeneral{"v2uint", "v2uint_10_20", "OpShiftLeftLogical", "v2uint_20_10", "vec2u", |
| "(vec2u(10u, 20u) << vec2u(20u, 10u))"}, |
| // v2int, v2int -> v2int |
| BinaryDataGeneral{"v2int", "v2int_30_40", "OpShiftLeftLogical", "v2int_40_30", "vec2i", |
| "(vec2i(30i, 40i) << bitcast<vec2u>(vec2i(40i, 30i)))"})); |
| |
| INSTANTIATE_TEST_SUITE_P(SpirvASTParserTest_ShiftLeftLogical_BitcastResult, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // int, int -> uint |
| BinaryDataGeneral{"uint", "int_30", "OpShiftLeftLogical", "uint_10", |
| "u32", "bitcast<u32>((30i << 10u))"}, |
| // v2uint, v2int -> v2uint |
| BinaryDataGeneral{ |
| "v2uint", "v2int_30_40", "OpShiftLeftLogical", "v2uint_20_10", |
| "vec2u", "bitcast<vec2u>((vec2i(30i, 40i) << vec2u(20u, 10u)))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftRightLogical_Arg2Unsigned, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // uint, uint -> uint |
| BinaryDataGeneral{"uint", "uint_10", "OpShiftRightLogical", "uint_20", "u32", |
| "(10u >> 20u)"}, |
| // int, uint -> int |
| BinaryDataGeneral{"int", "int_30", "OpShiftRightLogical", "uint_20", "i32", |
| "bitcast<i32>((bitcast<u32>(30i) >> 20u))"}, |
| // v2uint, v2uint -> v2uint |
| BinaryDataGeneral{"v2uint", "v2uint_10_20", "OpShiftRightLogical", "v2uint_20_10", "vec2u", |
| "(vec2u(10u, 20u) >> vec2u(20u, 10u))"}, |
| // v2int, v2uint -> v2int |
| BinaryDataGeneral{ |
| "v2int", "v2int_30_40", "OpShiftRightLogical", "v2uint_10_20", "vec2i", |
| R"(bitcast<vec2i>((bitcast<vec2u>(vec2i(30i, 40i)) >> vec2u(10u, 20u))))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftRightLogical_Arg2Signed, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // uint, int -> uint |
| BinaryDataGeneral{"uint", "uint_10", "OpShiftRightLogical", "int_30", "u32", |
| "(10u >> bitcast<u32>(30i))"}, |
| // int, int -> int |
| BinaryDataGeneral{"int", "int_30", "OpShiftRightLogical", "int_40", "i32", |
| "bitcast<i32>((bitcast<u32>(30i) >> bitcast<u32>(40i)))"}, |
| // v2uint, v2int -> v2uint |
| BinaryDataGeneral{"v2uint", "v2uint_10_20", "OpShiftRightLogical", "v2int_30_40", "vec2u", |
| "(vec2u(10u, 20u) >> bitcast<vec2u>(vec2i(30i, 40i)))"}, |
| // v2int, v2int -> v2int |
| BinaryDataGeneral{ |
| "v2int", "v2int_40_30", "OpShiftRightLogical", "v2int_30_40", "vec2i", |
| R"(bitcast<vec2i>((bitcast<vec2u>(vec2i(40i, 30i)) >> bitcast<vec2u>(vec2i(30i, 40i)))))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftRightLogical_BitcastResult, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // uint, uint -> int |
| BinaryDataGeneral{"int", "uint_20", "OpShiftRightLogical", "uint_10", "i32", |
| "bitcast<i32>((20u >> 10u))"}, |
| // v2uint, v2uint -> v2int |
| BinaryDataGeneral{"v2int", "v2uint_10_20", "OpShiftRightLogical", "v2uint_20_10", "vec2i", |
| R"(bitcast<vec2i>((vec2u(10u, 20u) >> vec2u(20u, 10u))))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftRightArithmetic_Arg2Unsigned, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // uint, uint -> uint |
| BinaryDataGeneral{"uint", "uint_10", "OpShiftRightArithmetic", "uint_20", "u32", |
| "bitcast<u32>((bitcast<i32>(10u) >> 20u))"}, |
| // int, uint -> int |
| BinaryDataGeneral{"int", "int_30", "OpShiftRightArithmetic", "uint_10", "i32", |
| "(30i >> 10u)"}, |
| // v2uint, v2uint -> v2uint |
| BinaryDataGeneral{ |
| "v2uint", "v2uint_10_20", "OpShiftRightArithmetic", "v2uint_20_10", "vec2u", |
| R"(bitcast<vec2u>((bitcast<vec2i>(vec2u(10u, 20u)) >> vec2u(20u, 10u))))"}, |
| // v2int, v2uint -> v2int |
| BinaryDataGeneral{"v2int", "v2int_40_30", "OpShiftRightArithmetic", "v2uint_20_10", "vec2i", |
| "(vec2i(40i, 30i) >> vec2u(20u, 10u))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_ShiftRightArithmetic_Arg2Signed, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // uint, int -> uint |
| BinaryDataGeneral{"uint", "uint_10", "OpShiftRightArithmetic", "int_30", "u32", |
| "bitcast<u32>((bitcast<i32>(10u) >> bitcast<u32>(30i)))"}, |
| // int, int -> int |
| BinaryDataGeneral{"int", "int_30", "OpShiftRightArithmetic", "int_40", "i32", |
| "(30i >> bitcast<u32>(40i))"}, |
| // v2uint, v2int -> v2uint |
| BinaryDataGeneral{ |
| "v2uint", "v2uint_10_20", "OpShiftRightArithmetic", "v2int_30_40", "vec2u", |
| R"(bitcast<vec2u>((bitcast<vec2i>(vec2u(10u, 20u)) >> bitcast<vec2u>(vec2i(30i, 40i)))))"}, |
| // v2int, v2int -> v2int |
| BinaryDataGeneral{"v2int", "v2int_40_30", "OpShiftRightArithmetic", "v2int_30_40", "vec2i", |
| "(vec2i(40i, 30i) >> bitcast<vec2u>(vec2i(30i, 40i)))"})); |
| |
| INSTANTIATE_TEST_SUITE_P(SpirvASTParserTest_ShiftRightArithmetic_BitcastResult, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // int, uint -> uint |
| BinaryDataGeneral{"uint", "int_30", "OpShiftRightArithmetic", |
| "uint_10", "u32", "bitcast<u32>((30i >> 10u))"}, |
| // v2int, v2uint -> v2uint |
| BinaryDataGeneral{ |
| "v2uint", "v2int_30_40", "OpShiftRightArithmetic", "v2uint_20_10", |
| "vec2u", "bitcast<vec2u>((vec2i(30i, 40i) >> vec2u(20u, 10u)))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseAnd, |
| SpvBinaryBitTest, |
| ::testing::Values( |
| // Both uint |
| BinaryData{"uint", "uint_10", "OpBitwiseAnd", "uint_20", "u32", "10u", "&", "20u"}, |
| // Both int |
| BinaryData{"int", "int_30", "OpBitwiseAnd", "int_40", "i32", "30i", "&", "40i"}, |
| // TODO(crbug.com/tint/678): Resolver fails on vector bitwise operations |
| // Both v2uint |
| BinaryData{"v2uint", "v2uint_10_20", "OpBitwiseAnd", "v2uint_20_10", "vec2u", |
| AstFor("v2uint_10_20"), "&", AstFor("v2uint_20_10")}, |
| // Both v2int |
| BinaryData{"v2int", "v2int_30_40", "OpBitwiseAnd", "v2int_40_30", "vec2i", |
| AstFor("v2int_30_40"), "&", AstFor("v2int_40_30")})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseAnd_MixedSignedness, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // Mixed, uint <- int uint |
| BinaryDataGeneral{"uint", "int_30", "OpBitwiseAnd", "uint_10", "u32", |
| "bitcast<u32>((30i & bitcast<i32>(10u)))"}, |
| // Mixed, int <- int uint |
| BinaryDataGeneral{"int", "int_30", "OpBitwiseAnd", "uint_10", "i32", |
| "(30i & bitcast<i32>(10u))"}, |
| // Mixed, uint <- uint int |
| BinaryDataGeneral{"uint", "uint_10", "OpBitwiseAnd", "int_30", "u32", |
| "(10u & bitcast<u32>(30i))"}, |
| // Mixed, int <- uint uint |
| BinaryDataGeneral{"int", "uint_20", "OpBitwiseAnd", "uint_10", "i32", |
| "bitcast<i32>((20u & 10u))"}, |
| // Mixed, returning v2uint |
| BinaryDataGeneral{"v2uint", "v2int_30_40", "OpBitwiseAnd", "v2uint_10_20", "vec2u", |
| R"(bitcast<vec2u>((vec2i(30i, 40i) & bitcast<vec2i>(vec2u(10u, 20u)))))"}, |
| // Mixed, returning v2int |
| BinaryDataGeneral{ |
| "v2int", "v2uint_10_20", "OpBitwiseAnd", "v2int_40_30", "vec2i", |
| R"(bitcast<vec2i>((vec2u(10u, 20u) & bitcast<vec2u>(vec2i(40i, 30i)))))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseOr, |
| SpvBinaryBitTest, |
| ::testing::Values( |
| // Both uint |
| BinaryData{"uint", "uint_10", "OpBitwiseOr", "uint_20", "u32", "10u", "|", "20u"}, |
| // Both int |
| BinaryData{"int", "int_30", "OpBitwiseOr", "int_40", "i32", "30i", "|", "40i"}, |
| // TODO(crbug.com/tint/678): Resolver fails on vector bitwise operations |
| // Both v2uint |
| BinaryData{"v2uint", "v2uint_10_20", "OpBitwiseOr", "v2uint_20_10", "vec2u", |
| AstFor("v2uint_10_20"), "|", AstFor("v2uint_20_10")}, |
| // Both v2int |
| BinaryData{"v2int", "v2int_30_40", "OpBitwiseOr", "v2int_40_30", "vec2i", |
| AstFor("v2int_30_40"), "|", AstFor("v2int_40_30")})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseOr_MixedSignedness, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // Mixed, uint <- int uint |
| BinaryDataGeneral{"uint", "int_30", "OpBitwiseOr", "uint_10", "u32", |
| "bitcast<u32>((30i | bitcast<i32>(10u)))"}, |
| // Mixed, int <- int uint |
| BinaryDataGeneral{"int", "int_30", "OpBitwiseOr", "uint_10", "i32", |
| "(30i | bitcast<i32>(10u))"}, |
| // Mixed, uint <- uint int |
| BinaryDataGeneral{"uint", "uint_10", "OpBitwiseOr", "int_30", "u32", |
| "(10u | bitcast<u32>(30i))"}, |
| // Mixed, int <- uint uint |
| BinaryDataGeneral{"int", "uint_20", "OpBitwiseOr", "uint_10", "i32", |
| "bitcast<i32>((20u | 10u))"}, |
| // Mixed, returning v2uint |
| BinaryDataGeneral{"v2uint", "v2int_30_40", "OpBitwiseOr", "v2uint_10_20", "vec2u", |
| R"(bitcast<vec2u>((vec2i(30i, 40i) | bitcast<vec2i>(vec2u(10u, 20u)))))"}, |
| // Mixed, returning v2int |
| BinaryDataGeneral{ |
| "v2int", "v2uint_10_20", "OpBitwiseOr", "v2int_40_30", "vec2i", |
| R"(bitcast<vec2i>((vec2u(10u, 20u) | bitcast<vec2u>(vec2i(40i, 30i)))))"})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseXor, |
| SpvBinaryBitTest, |
| ::testing::Values( |
| // Both uint |
| BinaryData{"uint", "uint_10", "OpBitwiseXor", "uint_20", "u32", "10u", "^", "20u"}, |
| // Both int |
| BinaryData{"int", "int_30", "OpBitwiseXor", "int_40", "i32", "30i", "^", "40i"}, |
| // TODO(crbug.com/tint/678): Resolver fails on vector bitwise operations |
| // Both v2uint |
| BinaryData{"v2uint", "v2uint_10_20", "OpBitwiseXor", "v2uint_20_10", "vec2u", |
| AstFor("v2uint_10_20"), "^", AstFor("v2uint_20_10")}, |
| // Both v2int |
| BinaryData{"v2int", "v2int_30_40", "OpBitwiseXor", "v2int_40_30", "vec2i", |
| AstFor("v2int_30_40"), "^", AstFor("v2int_40_30")})); |
| |
| INSTANTIATE_TEST_SUITE_P( |
| SpirvASTParserTest_BitwiseXor_MixedSignedness, |
| SpvBinaryBitGeneralTest, |
| ::testing::Values( |
| // Mixed, uint <- int uint |
| BinaryDataGeneral{"uint", "int_30", "OpBitwiseXor", "uint_10", "u32", |
| "bitcast<u32>((30i ^ bitcast<i32>(10u)))"}, |
| // Mixed, int <- int uint |
| BinaryDataGeneral{"int", "int_30", "OpBitwiseXor", "uint_10", "i32", |
| "(30i ^ bitcast<i32>(10u))"}, |
| // Mixed, uint <- uint int |
| BinaryDataGeneral{"uint", "uint_10", "OpBitwiseXor", "int_30", "u32", |
| "(10u ^ bitcast<u32>(30i))"}, |
| // Mixed, int <- uint uint |
| BinaryDataGeneral{"int", "uint_20", "OpBitwiseXor", "uint_10", "i32", |
| "bitcast<i32>((20u ^ 10u))"}, |
| // Mixed, returning v2uint |
| BinaryDataGeneral{"v2uint", "v2int_30_40", "OpBitwiseXor", "v2uint_10_20", "vec2u", |
| R"(bitcast<vec2u>((vec2i(30i, 40i) ^ bitcast<vec2i>(vec2u(10u, 20u)))))"}, |
| // Mixed, returning v2int |
| BinaryDataGeneral{ |
| "v2int", "v2uint_10_20", "OpBitwiseXor", "v2int_40_30", "vec2i", |
| R"(bitcast<vec2i>((vec2u(10u, 20u) ^ bitcast<vec2u>(vec2i(40i, 30i)))))"})); |
| |
| TEST_F(SpvUnaryBitTest, Not_Int_Int) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %int %int_30 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = ~(30i);")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_Int_Uint) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %int %uint_10 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<i32>(~(10u));")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_Uint_Int) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %uint %int_30 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<u32>(~(30i));")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_Uint_Uint) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %uint %uint_10 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = ~(10u);")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_SignedVec_SignedVec) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %v2int %v2int_30_40 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = ~(vec2i(30i, 40i));")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_SignedVec_UnsignedVec) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %v2int %v2uint_10_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<vec2i>(~(vec2u(10u, 20u)));")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, Not_UnsignedVec_SignedVec) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %v2uint %v2int_30_40 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<vec2u>(~(vec2i(30i, 40i)));")); |
| } |
| TEST_F(SpvUnaryBitTest, Not_UnsignedVec_UnsignedVec) { |
| const auto assembly = SimplePreamble() + R"( |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| %1 = OpNot %v2uint %v2uint_10_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = ~(vec2u(10u, 20u));")); |
| } |
| |
| std::string BitTestPreamble() { |
| return R"( |
| OpCapability Shader |
| %glsl = OpExtInstImport "GLSL.std.450" |
| OpMemoryModel Logical GLSL450 |
| OpEntryPoint GLCompute %100 "main" |
| OpExecutionMode %100 LocalSize 1 1 1 |
| |
| OpName %u1 "u1" |
| OpName %i1 "i1" |
| OpName %v2u1 "v2u1" |
| OpName %v2i1 "v2i1" |
| |
| )" + CommonTypes() + |
| R"( |
| |
| %100 = OpFunction %void None %voidfn |
| %entry = OpLabel |
| |
| %u1 = OpCopyObject %uint %uint_10 |
| %i1 = OpCopyObject %int %int_30 |
| %v2u1 = OpCopyObject %v2uint %v2uint_10_20 |
| %v2i1 = OpCopyObject %v2int %v2int_30_40 |
| )"; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_Uint_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %uint %u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = countOneBits(u1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_Uint_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %uint %i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<u32>(countOneBits(i1));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_Int_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %int %u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<i32>(countOneBits(u1));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_Int_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %int %i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = countOneBits(i1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_UintVector_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %v2uint %v2u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = countOneBits(v2u1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_UintVector_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %v2uint %v2i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<vec2u>(countOneBits(v2i1));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_IntVector_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %v2int %v2u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = bitcast<vec2i>(countOneBits(v2u1));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitCount_IntVector_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitCount %v2int %v2i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = countOneBits(v2i1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_Uint_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %uint %u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = reverseBits(u1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_Uint_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %uint %i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| EXPECT_FALSE(p->Parse()); |
| EXPECT_FALSE(p->success()); |
| EXPECT_THAT(p->error(), HasSubstr("Expected Base Type to be equal to Result Type: BitReverse")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_Int_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %int %u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| EXPECT_FALSE(p->Parse()); |
| EXPECT_FALSE(p->success()); |
| EXPECT_THAT(p->error(), HasSubstr("Expected Base Type to be equal to Result Type: BitReverse")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_Int_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %int %i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = reverseBits(i1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_UintVector_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %v2uint %v2u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = reverseBits(v2u1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_UintVector_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %v2uint %v2i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| EXPECT_FALSE(p->Parse()); |
| EXPECT_FALSE(p->success()); |
| EXPECT_THAT(p->error(), HasSubstr("Expected Base Type to be equal to Result Type: BitReverse")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_IntVector_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %v2int %v2u1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| EXPECT_FALSE(p->Parse()); |
| EXPECT_FALSE(p->success()); |
| EXPECT_THAT(p->error(), HasSubstr("Expected Base Type to be equal to Result Type: BitReverse")); |
| } |
| |
| TEST_F(SpvUnaryBitTest, BitReverse_IntVector_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitReverse %v2int %v2i1 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = reverseBits(v2i1);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %int %int_30 %int_40 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = insertBits(30i, 40i, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_Int_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %int %int_30 %int_40 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = insertBits(30i, 40i, u32(10i), u32(20i));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %v2int %v2int_30_40 %v2int_40_30 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr(R"(let x_1 = insertBits(x_28, vec2i(40i, 30i), 10u, 20u);)")) |
| << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_IntVector_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %v2int %v2int_30_40 %v2int_40_30 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, |
| HasSubstr(R"(let x_1 = insertBits(x_28, vec2i(40i, 30i), u32(10i), u32(20i));)")) |
| << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %uint %uint_20 %uint_10 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = insertBits(20u, 10u, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_Uint_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %uint %uint_20 %uint_10 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = insertBits(20u, 10u, u32(10i), u32(20i));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %v2uint %v2uint_10_20 %v2uint_20_10 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr(R"(let x_1 = insertBits(x_26, vec2u(20u, 10u), 10u, 20u);)")) |
| << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, InsertBits_UintVector_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldInsert %v2uint %v2uint_10_20 %v2uint_20_10 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, |
| HasSubstr(R"(let x_1 = insertBits(x_26, vec2u(20u, 10u), u32(10i), u32(20i));)")) |
| << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_Int) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldSExtract %int %int_30 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(30i, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_Int_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldSExtract %int %int_30 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(30i, u32(10i), u32(20i));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_IntVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldSExtract %v2int %v2int_30_40 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(x_28, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_IntVector_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldSExtract %v2int %v2int_30_40 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(x_28, u32(10i), u32(20i));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_Uint) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldUExtract %uint %uint_20 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(20u, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_Uint_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldUExtract %uint %uint_20 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(20u, u32(10i), u32(20i));")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_UintVector) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldUExtract %v2uint %v2uint_10_20 %uint_10 %uint_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(x_26, 10u, 20u);")) << body; |
| } |
| |
| TEST_F(SpvUnaryBitTest, ExtractBits_UintVector_SignedOffsetAndCount) { |
| const auto assembly = BitTestPreamble() + R"( |
| %1 = OpBitFieldUExtract %v2uint %v2uint_10_20 %int_10 %int_20 |
| OpReturn |
| OpFunctionEnd |
| )"; |
| auto p = parser(test::Assemble(assembly)); |
| ASSERT_TRUE(p->BuildAndParseInternalModuleExceptFunctions()); |
| auto fe = p->function_emitter(100); |
| EXPECT_TRUE(fe.EmitBody()) << p->error(); |
| auto ast_body = fe.ast_body(); |
| auto body = test::ToString(p->program(), ast_body); |
| EXPECT_THAT(body, HasSubstr("let x_1 = extractBits(x_26, u32(10i), u32(20i));")) << body; |
| } |
| |
| } // namespace |
| } // namespace tint::spirv::reader |