// Copyright (c) 2016 Google Inc. // // 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 #include #include #include "gmock/gmock.h" #include "source/enum_set.h" #include "test/unit_spirv.h" namespace spvtools { namespace { using spvtest::ElementsIn; using ::testing::Eq; using ::testing::ValuesIn; TEST(EnumSet, IsEmpty1) { EnumSet set; EXPECT_TRUE(set.IsEmpty()); set.Add(0); EXPECT_FALSE(set.IsEmpty()); } TEST(EnumSet, IsEmpty2) { EnumSet set; EXPECT_TRUE(set.IsEmpty()); set.Add(150); EXPECT_FALSE(set.IsEmpty()); } TEST(EnumSet, IsEmpty3) { EnumSet set(4); EXPECT_FALSE(set.IsEmpty()); } TEST(EnumSet, IsEmpty4) { EnumSet set(300); EXPECT_FALSE(set.IsEmpty()); } TEST(EnumSetHasAnyOf, EmptySetEmptyQuery) { const EnumSet set; const EnumSet empty; EXPECT_TRUE(set.HasAnyOf(empty)); EXPECT_TRUE(EnumSet().HasAnyOf(EnumSet())); } TEST(EnumSetHasAnyOf, MaskSetEmptyQuery) { EnumSet set; const EnumSet empty; set.Add(5); set.Add(8); EXPECT_TRUE(set.HasAnyOf(empty)); } TEST(EnumSetHasAnyOf, OverflowSetEmptyQuery) { EnumSet set; const EnumSet empty; set.Add(200); set.Add(300); EXPECT_TRUE(set.HasAnyOf(empty)); } TEST(EnumSetHasAnyOf, EmptyQuery) { EnumSet set; const EnumSet empty; set.Add(5); set.Add(8); set.Add(200); set.Add(300); EXPECT_TRUE(set.HasAnyOf(empty)); } TEST(EnumSetHasAnyOf, EmptyQueryAlwaysTrue) { EnumSet set; const EnumSet empty; EXPECT_TRUE(set.HasAnyOf(empty)); set.Add(5); EXPECT_TRUE(set.HasAnyOf(empty)); EXPECT_TRUE(EnumSet(100).HasAnyOf(EnumSet())); } TEST(EnumSetHasAnyOf, ReflexiveMask) { EnumSet set(3); set.Add(24); set.Add(30); EXPECT_TRUE(set.HasAnyOf(set)); } TEST(EnumSetHasAnyOf, ReflexiveOverflow) { EnumSet set(200); set.Add(300); set.Add(400); EXPECT_TRUE(set.HasAnyOf(set)); } TEST(EnumSetHasAnyOf, Reflexive) { EnumSet set(3); set.Add(24); set.Add(300); set.Add(400); EXPECT_TRUE(set.HasAnyOf(set)); } TEST(EnumSetHasAnyOf, EmptySetHasNone) { EnumSet set; EnumSet items; for (uint32_t i = 0; i < 200; ++i) { items.Add(i); EXPECT_FALSE(set.HasAnyOf(items)); EXPECT_FALSE(set.HasAnyOf(EnumSet(i))); } } TEST(EnumSetHasAnyOf, MaskSetMaskQuery) { EnumSet set(0); EnumSet items(1); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(2); items.Add(3); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(3); EXPECT_TRUE(set.HasAnyOf(items)); set.Add(4); EXPECT_TRUE(set.HasAnyOf(items)); } TEST(EnumSetHasAnyOf, OverflowSetOverflowQuery) { EnumSet set(100); EnumSet items(200); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(300); items.Add(400); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(200); EXPECT_TRUE(set.HasAnyOf(items)); set.Add(500); EXPECT_TRUE(set.HasAnyOf(items)); } TEST(EnumSetHasAnyOf, GeneralCase) { EnumSet set(0); EnumSet items(100); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(300); items.Add(4); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(5); items.Add(500); EXPECT_FALSE(set.HasAnyOf(items)); set.Add(500); EXPECT_TRUE(set.HasAnyOf(items)); EXPECT_FALSE(set.HasAnyOf(EnumSet(20))); EXPECT_FALSE(set.HasAnyOf(EnumSet(600))); EXPECT_TRUE(set.HasAnyOf(EnumSet(5))); EXPECT_TRUE(set.HasAnyOf(EnumSet(300))); EXPECT_TRUE(set.HasAnyOf(EnumSet(0))); } TEST(EnumSet, DefaultIsEmpty) { EnumSet set; for (uint32_t i = 0; i < 1000; ++i) { EXPECT_FALSE(set.Contains(i)); } } TEST(CapabilitySet, ConstructSingleMemberMatrix) { CapabilitySet s(spv::Capability::Matrix); EXPECT_TRUE(s.Contains(spv::Capability::Matrix)); EXPECT_FALSE(s.Contains(spv::Capability::Shader)); EXPECT_FALSE(s.Contains(static_cast(1000))); } TEST(CapabilitySet, ConstructSingleMemberMaxInMask) { CapabilitySet s(static_cast(63)); EXPECT_FALSE(s.Contains(spv::Capability::Matrix)); EXPECT_FALSE(s.Contains(spv::Capability::Shader)); EXPECT_TRUE(s.Contains(static_cast(63))); EXPECT_FALSE(s.Contains(static_cast(64))); EXPECT_FALSE(s.Contains(static_cast(1000))); } TEST(CapabilitySet, ConstructSingleMemberMinOverflow) { // Check the first one that forces overflow beyond the mask. CapabilitySet s(static_cast(64)); EXPECT_FALSE(s.Contains(spv::Capability::Matrix)); EXPECT_FALSE(s.Contains(spv::Capability::Shader)); EXPECT_FALSE(s.Contains(static_cast(63))); EXPECT_TRUE(s.Contains(static_cast(64))); EXPECT_FALSE(s.Contains(static_cast(1000))); } TEST(CapabilitySet, ConstructSingleMemberMaxOverflow) { // Check the max 32-bit signed int. CapabilitySet s(static_cast(0x7fffffffu)); EXPECT_FALSE(s.Contains(spv::Capability::Matrix)); EXPECT_FALSE(s.Contains(spv::Capability::Shader)); EXPECT_FALSE(s.Contains(static_cast(1000))); EXPECT_TRUE(s.Contains(static_cast(0x7fffffffu))); } TEST(CapabilitySet, AddEnum) { CapabilitySet s(spv::Capability::Shader); s.Add(spv::Capability::Kernel); s.Add(static_cast(42)); EXPECT_FALSE(s.Contains(spv::Capability::Matrix)); EXPECT_TRUE(s.Contains(spv::Capability::Shader)); EXPECT_TRUE(s.Contains(spv::Capability::Kernel)); EXPECT_TRUE(s.Contains(static_cast(42))); } TEST(CapabilitySet, InitializerListEmpty) { CapabilitySet s{}; for (uint32_t i = 0; i < 1000; i++) { EXPECT_FALSE(s.Contains(static_cast(i))); } } struct ForEachCase { CapabilitySet capabilities; std::vector expected; }; using CapabilitySetForEachTest = ::testing::TestWithParam; TEST_P(CapabilitySetForEachTest, CallsAsExpected) { EXPECT_THAT(ElementsIn(GetParam().capabilities), Eq(GetParam().expected)); } TEST_P(CapabilitySetForEachTest, CopyConstructor) { CapabilitySet copy(GetParam().capabilities); EXPECT_THAT(ElementsIn(copy), Eq(GetParam().expected)); } TEST_P(CapabilitySetForEachTest, MoveConstructor) { // We need a writable copy to move from. CapabilitySet copy(GetParam().capabilities); CapabilitySet moved(std::move(copy)); EXPECT_THAT(ElementsIn(moved), Eq(GetParam().expected)); // The moved-from set is empty. EXPECT_THAT(ElementsIn(copy), Eq(std::vector{})); } TEST_P(CapabilitySetForEachTest, OperatorEquals) { CapabilitySet assigned = GetParam().capabilities; EXPECT_THAT(ElementsIn(assigned), Eq(GetParam().expected)); } TEST_P(CapabilitySetForEachTest, OperatorEqualsSelfAssign) { CapabilitySet assigned{GetParam().capabilities}; assigned = assigned; EXPECT_THAT(ElementsIn(assigned), Eq(GetParam().expected)); } INSTANTIATE_TEST_SUITE_P( Samples, CapabilitySetForEachTest, ValuesIn(std::vector{ {{}, {}}, {{spv::Capability::Matrix}, {spv::Capability::Matrix}}, {{spv::Capability::Kernel, spv::Capability::Shader}, {spv::Capability::Shader, spv::Capability::Kernel}}, {{static_cast(999)}, {static_cast(999)}}, {{static_cast(0x7fffffff)}, {static_cast(0x7fffffff)}}, // Mixture and out of order {{static_cast(0x7fffffff), static_cast(100), spv::Capability::Shader, spv::Capability::Matrix}, {spv::Capability::Matrix, spv::Capability::Shader, static_cast(100), static_cast(0x7fffffff)}}, })); } // namespace } // namespace spvtools