// Copyright 2022 Memgraph Ltd. // // Use of this software is governed by the Business Source License // included in the file licenses/BSL.txt; by using this file, you agree to be bound by the terms of the Business Source // License, and you may not use this file except in compliance with the Business Source License. // // As of the Change Date specified in that file, in accordance with // the Business Source License, use of this software will be governed // by the Apache License, Version 2.0, included in the file // licenses/APL.txt. #include #include #include #include #include #include "storage/v3/delta.hpp" #include "storage/v3/id_types.hpp" #include "storage/v3/key_store.hpp" #include "storage/v3/name_id_mapper.hpp" #include "storage/v3/property_value.hpp" #include "storage/v3/result.hpp" #include "storage/v3/schema_validator.hpp" #include "storage/v3/shard.hpp" #include "storage/v3/vertex_accessor.hpp" #include "storage_v3_test_utils.hpp" #include "utils/exceptions.hpp" using testing::UnorderedElementsAre; namespace memgraph::storage::v3::tests { class StorageV3 : public ::testing::Test { protected: void SetUp() override { ASSERT_TRUE( store.CreateSchema(primary_label, {storage::v3::SchemaProperty{primary_property, common::SchemaType::INT}})); } VertexAccessor CreateVertexAndValidate(Shard::Accessor &acc, LabelId primary_label, const std::vector &labels, const std::vector> &properties) { auto vtx = acc.CreateVertexAndValidate(primary_label, labels, properties); EXPECT_TRUE(vtx.HasValue()); return *vtx; } LabelId NameToLabelId(std::string_view label_name) { return LabelId::FromUint(id_mapper.NameToId(label_name)); } PropertyId NameToPropertyId(std::string_view property_name) { return PropertyId::FromUint(id_mapper.NameToId(property_name)); } EdgeTypeId NameToEdgeTypeId(std::string_view edge_type_name) { return EdgeTypeId::FromUint(id_mapper.NameToId(edge_type_name)); } NameIdMapper id_mapper; const std::vector pk{PropertyValue{0}}; const LabelId primary_label{NameToLabelId("label")}; Shard store{primary_label, pk, std::nullopt}; const PropertyId primary_property{NameToPropertyId("property")}; }; // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, Commit) { { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); ASSERT_TRUE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 1U); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); acc.Abort(); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); auto res = acc.DeleteVertex(&*vertex); ASSERT_FALSE(res.HasError()); EXPECT_EQ(CountVertices(acc, View::OLD), 1U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.AdvanceCommand(); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_FALSE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, Abort) { { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); acc.Abort(); } { auto acc = store.Access(); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_FALSE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, AdvanceCommandCommit) { std::vector pk1{PropertyValue{0}}; std::vector pk2{PropertyValue(2)}; { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk1, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); acc.AdvanceCommand(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue(2)}}); ASSERT_FALSE(acc.FindVertex(pk2, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 1U); ASSERT_TRUE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 2U); ASSERT_TRUE(acc.FindVertex(pk1, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); ASSERT_TRUE(acc.FindVertex(pk1, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); ASSERT_TRUE(acc.FindVertex(pk2, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 2U); EXPECT_EQ(CountVertices(acc, View::NEW), 2U); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, AdvanceCommandAbort) { std::vector pk1{PropertyValue{0}}; std::vector pk2{PropertyValue(2)}; { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk1, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); acc.AdvanceCommand(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue(2)}}); ASSERT_FALSE(acc.FindVertex(pk2, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 1U); ASSERT_TRUE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 2U); ASSERT_TRUE(acc.FindVertex(pk1, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); acc.Abort(); } { auto acc = store.Access(); ASSERT_FALSE(acc.FindVertex(pk1, View::OLD).has_value()); ASSERT_FALSE(acc.FindVertex(pk1, View::NEW).has_value()); ASSERT_FALSE(acc.FindVertex(pk2, View::OLD).has_value()); ASSERT_FALSE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, SnapshotIsolation) { auto acc1 = store.Access(); auto acc2 = store.Access(); CreateVertexAndValidate(acc1, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc2.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); EXPECT_EQ(CountVertices(acc2, View::OLD), 0U); ASSERT_FALSE(acc2.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 1U); EXPECT_EQ(CountVertices(acc2, View::NEW), 0U); ASSERT_FALSE(acc1.Commit().HasError()); ASSERT_FALSE(acc2.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc2, View::OLD), 0U); ASSERT_FALSE(acc2.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc2, View::NEW), 0U); acc2.Abort(); auto acc3 = store.Access(); ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); acc3.Abort(); } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, AccessorMove) { { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); Shard::Accessor moved(std::move(acc)); ASSERT_FALSE(moved.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(moved, View::OLD), 0U); ASSERT_TRUE(moved.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(moved, View::NEW), 1U); ASSERT_FALSE(moved.Commit().HasError()); } { auto acc = store.Access(); ASSERT_TRUE(acc.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 1U); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexDeleteCommit) { auto acc1 = store.Access(); // read transaction auto acc2 = store.Access(); // write transaction // Create the vertex in transaction 2 { CreateVertexAndValidate(acc2, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc2.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc2, View::OLD), 0U); ASSERT_TRUE(acc2.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc2, View::NEW), 1U); ASSERT_FALSE(acc2.Commit().HasError()); } auto acc3 = store.Access(); // read transaction auto acc4 = store.Access(); // write transaction // Check whether the vertex exists in transaction 1 ASSERT_FALSE(acc1.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); ASSERT_FALSE(acc1.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); // Check whether the vertex exists in transaction 3 ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); // Delete the vertex in transaction 4 { auto vertex = acc4.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); EXPECT_EQ(CountVertices(acc4, View::OLD), 1U); EXPECT_EQ(CountVertices(acc4, View::NEW), 1U); auto res = acc4.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasValue()); EXPECT_EQ(CountVertices(acc4, View::OLD), 1U); EXPECT_EQ(CountVertices(acc4, View::NEW), 0U); acc4.AdvanceCommand(); EXPECT_EQ(CountVertices(acc4, View::OLD), 0U); EXPECT_EQ(CountVertices(acc4, View::NEW), 0U); ASSERT_FALSE(acc4.Commit().HasError()); } auto acc5 = store.Access(); // read transaction // Check whether the vertex exists in transaction 1 ASSERT_FALSE(acc1.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); ASSERT_FALSE(acc1.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); // Check whether the vertex exists in transaction 3 ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); // Check whether the vertex exists in transaction 5 ASSERT_FALSE(acc5.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc5, View::OLD), 0U); ASSERT_FALSE(acc5.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc5, View::NEW), 0U); } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexDeleteAbort) { auto acc1 = store.Access(); // read transaction auto acc2 = store.Access(); // write transaction // Create the vertex in transaction 2 { CreateVertexAndValidate(acc2, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc2.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc2, View::OLD), 0U); ASSERT_TRUE(acc2.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc2, View::NEW), 1U); ASSERT_FALSE(acc2.Commit().HasError()); } auto acc3 = store.Access(); // read transaction auto acc4 = store.Access(); // write transaction (aborted) // Check whether the vertex exists in transaction 1 ASSERT_FALSE(acc1.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); ASSERT_FALSE(acc1.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); // Check whether the vertex exists in transaction 3 ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); // Delete the vertex in transaction 4, but abort the transaction { auto vertex = acc4.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); EXPECT_EQ(CountVertices(acc4, View::OLD), 1U); EXPECT_EQ(CountVertices(acc4, View::NEW), 1U); auto res = acc4.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasValue()); EXPECT_EQ(CountVertices(acc4, View::OLD), 1U); EXPECT_EQ(CountVertices(acc4, View::NEW), 0U); acc4.AdvanceCommand(); EXPECT_EQ(CountVertices(acc4, View::OLD), 0U); EXPECT_EQ(CountVertices(acc4, View::NEW), 0U); acc4.Abort(); } auto acc5 = store.Access(); // read transaction auto acc6 = store.Access(); // write transaction // Check whether the vertex exists in transaction 1 ASSERT_FALSE(acc1.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); ASSERT_FALSE(acc1.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); // Check whether the vertex exists in transaction 3 ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); // Check whether the vertex exists in transaction 5 ASSERT_TRUE(acc5.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc5, View::OLD), 1U); ASSERT_TRUE(acc5.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc5, View::NEW), 1U); // Delete the vertex in transaction 6 { auto vertex = acc6.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); EXPECT_EQ(CountVertices(acc6, View::OLD), 1U); EXPECT_EQ(CountVertices(acc6, View::NEW), 1U); auto res = acc6.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasValue()); EXPECT_EQ(CountVertices(acc6, View::OLD), 1U); EXPECT_EQ(CountVertices(acc6, View::NEW), 0U); acc6.AdvanceCommand(); EXPECT_EQ(CountVertices(acc6, View::OLD), 0U); EXPECT_EQ(CountVertices(acc6, View::NEW), 0U); ASSERT_FALSE(acc6.Commit().HasError()); } auto acc7 = store.Access(); // read transaction // Check whether the vertex exists in transaction 1 ASSERT_FALSE(acc1.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); ASSERT_FALSE(acc1.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); // Check whether the vertex exists in transaction 3 ASSERT_TRUE(acc3.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc3, View::OLD), 1U); ASSERT_TRUE(acc3.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc3, View::NEW), 1U); // Check whether the vertex exists in transaction 5 ASSERT_TRUE(acc5.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc5, View::OLD), 1U); ASSERT_TRUE(acc5.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc5, View::NEW), 1U); // Check whether the vertex exists in transaction 7 ASSERT_FALSE(acc7.FindVertex(pk, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc7, View::OLD), 0U); ASSERT_FALSE(acc7.FindVertex(pk, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc7, View::NEW), 0U); // Commit all accessors ASSERT_FALSE(acc1.Commit().HasError()); ASSERT_FALSE(acc3.Commit().HasError()); ASSERT_FALSE(acc5.Commit().HasError()); ASSERT_FALSE(acc7.Commit().HasError()); } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexDeleteSerializationError) { // Create vertex { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.Commit().HasError()); } auto acc1 = store.Access(); auto acc2 = store.Access(); // Delete vertex in accessor 1 { auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); EXPECT_EQ(CountVertices(acc1, View::OLD), 1U); EXPECT_EQ(CountVertices(acc1, View::NEW), 1U); { auto res = acc1.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); EXPECT_EQ(CountVertices(acc1, View::OLD), 1U); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); } { auto res = acc1.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); EXPECT_EQ(CountVertices(acc1, View::OLD), 1U); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); } acc1.AdvanceCommand(); EXPECT_EQ(CountVertices(acc1, View::OLD), 0U); EXPECT_EQ(CountVertices(acc1, View::NEW), 0U); } // Delete vertex in accessor 2 { auto vertex = acc2.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); EXPECT_EQ(CountVertices(acc2, View::OLD), 1U); EXPECT_EQ(CountVertices(acc2, View::NEW), 1U); auto res = acc2.DeleteVertex(&*vertex); ASSERT_TRUE(res.HasError()); ASSERT_EQ(res.GetError(), Error::SERIALIZATION_ERROR); EXPECT_EQ(CountVertices(acc2, View::OLD), 1U); EXPECT_EQ(CountVertices(acc2, View::NEW), 1U); acc2.AdvanceCommand(); EXPECT_EQ(CountVertices(acc2, View::OLD), 1U); EXPECT_EQ(CountVertices(acc2, View::NEW), 1U); } // Finalize both accessors ASSERT_FALSE(acc1.Commit().HasError()); acc2.Abort(); // Check whether the vertex exists { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_FALSE(vertex); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); ASSERT_FALSE(acc.Commit().HasError()); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexDeleteSpecialCases) { std::vector pk1{PropertyValue{0}}; std::vector pk2{PropertyValue(2)}; // Create vertex and delete it in the same transaction, but abort the // transaction { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk1, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk1, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); auto res = acc.DeleteVertex(&vertex); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.AdvanceCommand(); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.Abort(); } // Create vertex and delete it in the same transaction { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue(2)}}); ASSERT_FALSE(acc.FindVertex(pk2, View::OLD).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); ASSERT_TRUE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::NEW), 1U); auto res = acc.DeleteVertex(&vertex); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.AdvanceCommand(); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); ASSERT_FALSE(acc.Commit().HasError()); } // Check whether the vertices exist { auto acc = store.Access(); ASSERT_FALSE(acc.FindVertex(pk1, View::OLD).has_value()); ASSERT_FALSE(acc.FindVertex(pk1, View::NEW).has_value()); ASSERT_FALSE(acc.FindVertex(pk2, View::OLD).has_value()); ASSERT_FALSE(acc.FindVertex(pk2, View::NEW).has_value()); EXPECT_EQ(CountVertices(acc, View::OLD), 0U); EXPECT_EQ(CountVertices(acc, View::NEW), 0U); acc.Abort(); } } template void AssertErrorInVariant(TResultHolder &holder, TError error_type) { ASSERT_TRUE(holder.HasError()); const auto error = holder.GetError(); ASSERT_TRUE(std::holds_alternative(error)); ASSERT_EQ(std::get(error), error_type); } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexDeleteLabel) { // Create the vertex { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); ASSERT_FALSE(acc.Commit().HasError()); } // Add label, delete the vertex and check the label API (same command) { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); auto label5 = NameToLabelId("label5"); // Check whether label 5 exists ASSERT_FALSE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label5, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); // Add label 5 ASSERT_TRUE(vertex->AddLabelAndValidate(label5).GetValue()); // Check whether label 5 exists ASSERT_FALSE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_TRUE(vertex->HasLabel(label5, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label5); } // Delete the vertex ASSERT_TRUE(acc.DeleteVertex(&*vertex).GetValue()); // Check whether label 5 exists ASSERT_FALSE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_EQ(vertex->HasLabel(label5, View::NEW).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW).GetError(), Error::DELETED_OBJECT); // Try to add the label { auto ret = vertex->AddLabelAndValidate(label5); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } // Try to remove the label { auto ret = vertex->RemoveLabelAndValidate(label5); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } acc.Abort(); } // Add label, delete the vertex and check the label API (different command) { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); auto label5 = NameToLabelId("label5"); // Check whether label 5 exists ASSERT_FALSE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label5, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); // Add label 5 ASSERT_TRUE(vertex->AddLabelAndValidate(label5).GetValue()); // Check whether label 5 exists ASSERT_FALSE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_TRUE(vertex->HasLabel(label5, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label5); } // Advance command acc.AdvanceCommand(); // Check whether label 5 exists ASSERT_TRUE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_TRUE(vertex->HasLabel(label5, View::NEW).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label5); } { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label5); } // Delete the vertex ASSERT_TRUE(acc.DeleteVertex(&*vertex).GetValue()); // Check whether label 5 exists ASSERT_TRUE(vertex->HasLabel(label5, View::OLD).GetValue()); ASSERT_EQ(vertex->HasLabel(label5, View::NEW).GetError(), Error::DELETED_OBJECT); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label5); } ASSERT_EQ(vertex->Labels(View::NEW).GetError(), Error::DELETED_OBJECT); // Advance command acc.AdvanceCommand(); // Check whether label 5 exists ASSERT_EQ(vertex->HasLabel(label5, View::OLD).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->HasLabel(label5, View::NEW).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Labels(View::OLD).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Labels(View::NEW).GetError(), Error::DELETED_OBJECT); // Try to add the label { auto ret = vertex->AddLabelAndValidate(label5); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } // Try to remove the label { auto ret = vertex->RemoveLabelAndValidate(label5); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } acc.Abort(); } } // NOLINTNEXTLINE(hicpp - special - member - functions) TEST_F(StorageV3, VertexDeleteProperty) { // Create the vertex { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.FindVertex(pk, View::OLD).has_value()); ASSERT_TRUE(acc.FindVertex(pk, View::NEW).has_value()); ASSERT_FALSE(acc.Commit().HasError()); } // Set property, delete the vertex and check the property API (same command) { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); auto property5 = NameToPropertyId("property5"); // Check whether property 5 exists ASSERT_TRUE(vertex->GetProperty(property5, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property5, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); // Set property 5 to "nandare" ASSERT_TRUE(vertex->SetPropertyAndValidate(property5, PropertyValue("nandare"))->IsNull()); // Check whether property 5 exists ASSERT_TRUE(vertex->GetProperty(property5, View::OLD)->IsNull()); ASSERT_EQ(vertex->GetProperty(property5, View::NEW)->ValueString(), "nandare"); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property5].ValueString(), "nandare"); } // Delete the vertex ASSERT_TRUE(acc.DeleteVertex(&*vertex).GetValue()); // Check whether label 5 exists ASSERT_TRUE(vertex->GetProperty(property5, View::OLD)->IsNull()); ASSERT_EQ(vertex->GetProperty(property5, View::NEW).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW).GetError(), Error::DELETED_OBJECT); // Try to set the property5 { auto ret = vertex->SetPropertyAndValidate(property5, PropertyValue("haihai")); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } acc.Abort(); } // Set property, delete the vertex and check the property API (different // command) { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::NEW); ASSERT_TRUE(vertex); auto property5 = NameToPropertyId("property5"); // Check whether property 5 exists ASSERT_TRUE(vertex->GetProperty(property5, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property5, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); // Set property 5 to "nandare" ASSERT_TRUE(vertex->SetPropertyAndValidate(property5, PropertyValue("nandare"))->IsNull()); // Check whether property 5 exists ASSERT_TRUE(vertex->GetProperty(property5, View::OLD)->IsNull()); ASSERT_EQ(vertex->GetProperty(property5, View::NEW)->ValueString(), "nandare"); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property5].ValueString(), "nandare"); } // Advance command acc.AdvanceCommand(); // Check whether property 5 exists ASSERT_EQ(vertex->GetProperty(property5, View::OLD)->ValueString(), "nandare"); ASSERT_EQ(vertex->GetProperty(property5, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property5].ValueString(), "nandare"); } { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property5].ValueString(), "nandare"); } // Delete the vertex ASSERT_TRUE(acc.DeleteVertex(&*vertex).GetValue()); // Check whether property 5 exists ASSERT_EQ(vertex->GetProperty(property5, View::OLD)->ValueString(), "nandare"); ASSERT_EQ(vertex->GetProperty(property5, View::NEW).GetError(), Error::DELETED_OBJECT); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property5].ValueString(), "nandare"); } ASSERT_EQ(vertex->Properties(View::NEW).GetError(), Error::DELETED_OBJECT); // Advance command acc.AdvanceCommand(); // Check whether property 5 exists ASSERT_EQ(vertex->GetProperty(property5, View::OLD).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->GetProperty(property5, View::NEW).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Properties(View::OLD).GetError(), Error::DELETED_OBJECT); ASSERT_EQ(vertex->Properties(View::NEW).GetError(), Error::DELETED_OBJECT); // Try to set the property { auto ret = vertex->SetPropertyAndValidate(property5, PropertyValue("haihai")); AssertErrorInVariant(ret, Error::DELETED_OBJECT); } acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexLabelCommit) { { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); { auto res = vertex.AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto res = vertex.AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex->HasLabel(label, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex->HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexLabelAbort) { // Create the vertex. { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.Commit().HasError()); } // Add label 5, but abort the transaction. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex->HasLabel(label, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto res = vertex->AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } acc.Abort(); } // Check that label 5 doesn't exist. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex->HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } // Add label 5. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex->HasLabel(label, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto res = vertex->AddLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } ASSERT_FALSE(acc.Commit().HasError()); } // Check that label 5 exists. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex->HasLabel(label, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } // Remove label 5, but abort the transaction. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } acc.Abort(); } // Check that label 5 exists. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex->HasLabel(label, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } // Remove label 5. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_TRUE(vertex->HasLabel(label, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->RemoveLabelAndValidate(label); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } ASSERT_FALSE(acc.Commit().HasError()); } // Check that label 5 doesn't exist. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label = NameToLabelId("label5"); ASSERT_FALSE(vertex->HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); auto other_label = NameToLabelId("other"); ASSERT_FALSE(vertex->HasLabel(other_label, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(other_label, View::NEW).GetValue()); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexLabelSerializationError) { { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.Commit().HasError()); } auto acc1 = store.Access(); auto acc2 = store.Access(); // Add label 1 in accessor 1. { auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label1 = NameToLabelId("label1"); auto label2 = NameToLabelId("label2"); ASSERT_FALSE(vertex->HasLabel(label1, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label1, View::NEW).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->AddLabelAndValidate(label1); ASSERT_TRUE(res.HasValue()); ASSERT_TRUE(res.GetValue()); } ASSERT_FALSE(vertex->HasLabel(label1, View::OLD).GetValue()); ASSERT_TRUE(vertex->HasLabel(label1, View::NEW).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label1); } { auto res = vertex->AddLabelAndValidate(label1); ASSERT_TRUE(res.HasValue()); ASSERT_FALSE(res.GetValue()); } } // Add label 2 in accessor 2. { auto vertex = acc2.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label1 = NameToLabelId("label1"); auto label2 = NameToLabelId("label2"); ASSERT_FALSE(vertex->HasLabel(label1, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label1, View::NEW).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::NEW).GetValue()); ASSERT_EQ(vertex->Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex->Labels(View::NEW)->size(), 0); { auto res = vertex->AddLabelAndValidate(label1); AssertErrorInVariant(res, Error::SERIALIZATION_ERROR); } } // Finalize both accessors. ASSERT_FALSE(acc1.Commit().HasError()); acc2.Abort(); // Check which labels exist. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto label1 = NameToLabelId("label1"); auto label2 = NameToLabelId("label2"); ASSERT_TRUE(vertex->HasLabel(label1, View::OLD).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::OLD).GetValue()); { auto labels = vertex->Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label1); } ASSERT_TRUE(vertex->HasLabel(label1, View::NEW).GetValue()); ASSERT_FALSE(vertex->HasLabel(label2, View::NEW).GetValue()); { auto labels = vertex->Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label1); } acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexPropertyCommit) { { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); { auto old_value = vertex.SetPropertyAndValidate(property, PropertyValue("temporary")); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); } ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "temporary"); { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "temporary"); } { auto old_value = vertex.SetPropertyAndValidate(property, PropertyValue("nandare")); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue()); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue()); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); } ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex->GetProperty(property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexPropertyAbort) { // Create the vertex. { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.Commit().HasError()); } // Set property 5 to "nandare", but abort the transaction. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue("temporary")); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "temporary"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "temporary"); } { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue("nandare")); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } acc.Abort(); } // Check that property 5 is null. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex->GetProperty(property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } // Set property 5 to "nandare". { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue("temporary")); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "temporary"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "temporary"); } { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue("nandare")); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_FALSE(acc.Commit().HasError()); } // Check that property 5 is "nandare". { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } // Set property 5 to null, but abort the transaction. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue()); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); acc.Abort(); } // Check that property 5 is "nandare". { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } // Set property 5 to null. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_EQ(vertex->GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } { auto old_value = vertex->SetPropertyAndValidate(property, PropertyValue()); ASSERT_TRUE(old_value.HasValue()); ASSERT_FALSE(old_value->IsNull()); } ASSERT_EQ(vertex->GetProperty(property, View::OLD)->ValueString(), "nandare"); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); ASSERT_FALSE(acc.Commit().HasError()); } // Check that property 5 is null. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property = NameToPropertyId("property5"); ASSERT_TRUE(vertex->GetProperty(property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); auto other_property = NameToPropertyId("other"); ASSERT_TRUE(vertex->GetProperty(other_property, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(other_property, View::NEW)->IsNull()); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexPropertySerializationError) { { auto acc = store.Access(); CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(acc.Commit().HasError()); } auto acc1 = store.Access(); auto acc2 = store.Access(); // Set property 1 to 123 in accessor 1. { auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property1 = NameToPropertyId("property1"); auto property2 = NameToPropertyId("property2"); ASSERT_TRUE(vertex->GetProperty(property1, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); { auto old_value = vertex->SetPropertyAndValidate(property1, PropertyValue(123)); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); } ASSERT_TRUE(vertex->GetProperty(property1, View::OLD)->IsNull()); ASSERT_EQ(vertex->GetProperty(property1, View::NEW)->ValueInt(), 123); ASSERT_TRUE(vertex->GetProperty(property2, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property1].ValueInt(), 123); } } // Set property 2 to "nandare" in accessor 2. { auto vertex = acc2.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property1 = NameToPropertyId("property1"); auto property2 = NameToPropertyId("property2"); ASSERT_TRUE(vertex->GetProperty(property1, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::OLD)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex->Properties(View::NEW)->size(), 0); { auto res = vertex->SetPropertyAndValidate(property2, PropertyValue("nandare")); AssertErrorInVariant(res, Error::SERIALIZATION_ERROR); } } // Finalize both accessors. ASSERT_FALSE(acc1.Commit().HasError()); acc2.Abort(); // Check which properties exist. { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto property1 = NameToPropertyId("property1"); auto property2 = NameToPropertyId("property2"); ASSERT_EQ(vertex->GetProperty(property1, View::OLD)->ValueInt(), 123); ASSERT_TRUE(vertex->GetProperty(property2, View::OLD)->IsNull()); { auto properties = vertex->Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property1].ValueInt(), 123); } ASSERT_EQ(vertex->GetProperty(property1, View::NEW)->ValueInt(), 123); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); { auto properties = vertex->Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property1].ValueInt(), 123); } acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, VertexLabelPropertyMixed) { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); auto label = NameToLabelId("label5"); auto property = NameToPropertyId("property5"); // Check whether label 5 and property 5 exist ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); // Add label 5 ASSERT_TRUE(vertex.AddLabelAndValidate(label).GetValue()); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); // Advance command acc.AdvanceCommand(); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex.GetProperty(property, View::OLD)->IsNull()); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex.Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); // Set property 5 to "nandare" ASSERT_TRUE(vertex.SetPropertyAndValidate(property, PropertyValue("nandare"))->IsNull()); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_TRUE(vertex.GetProperty(property, View::OLD)->IsNull()); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "nandare"); ASSERT_EQ(vertex.Properties(View::OLD)->size(), 0); { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } // Advance command acc.AdvanceCommand(); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "nandare"); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "nandare"); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } // Set property 5 to "haihai" ASSERT_FALSE(vertex.SetPropertyAndValidate(property, PropertyValue("haihai"))->IsNull()); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "nandare"); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "haihai"); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "nandare"); } { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } // Advance command acc.AdvanceCommand(); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_TRUE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } { auto labels = vertex.Labels(View::NEW).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "haihai"); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "haihai"); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } // Remove label 5 ASSERT_TRUE(vertex.RemoveLabelAndValidate(label).GetValue()); // Check whether label 5 and property 5 exist ASSERT_TRUE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); { auto labels = vertex.Labels(View::OLD).GetValue(); ASSERT_EQ(labels.size(), 1); ASSERT_EQ(labels[0], label); } ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "haihai"); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "haihai"); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } // Advance command acc.AdvanceCommand(); // Check whether label 5 and property 5 exist ASSERT_FALSE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex.Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "haihai"); ASSERT_EQ(vertex.GetProperty(property, View::NEW)->ValueString(), "haihai"); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } { auto properties = vertex.Properties(View::NEW).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } // Set property 5 to null ASSERT_FALSE(vertex.SetPropertyAndValidate(property, PropertyValue())->IsNull()); // Check whether label 5 and property 5 exist ASSERT_FALSE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex.Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_EQ(vertex.GetProperty(property, View::OLD)->ValueString(), "haihai"); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); { auto properties = vertex.Properties(View::OLD).GetValue(); ASSERT_EQ(properties.size(), 1); ASSERT_EQ(properties[property].ValueString(), "haihai"); } ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); // Advance command acc.AdvanceCommand(); // Check whether label 5 and property 5 exist ASSERT_FALSE(vertex.HasLabel(label, View::OLD).GetValue()); ASSERT_FALSE(vertex.HasLabel(label, View::NEW).GetValue()); ASSERT_EQ(vertex.Labels(View::OLD)->size(), 0); ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_TRUE(vertex.GetProperty(property, View::NEW)->IsNull()); ASSERT_EQ(vertex.Properties(View::OLD)->size(), 0); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); ASSERT_FALSE(acc.Commit().HasError()); } TEST_F(StorageV3, VertexPropertyClear) { auto property1 = NameToPropertyId("property1"); auto property2 = NameToPropertyId("property2"); { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); auto old_value = vertex.SetPropertyAndValidate(property1, PropertyValue("value")); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); ASSERT_EQ(vertex->GetProperty(property1, View::OLD)->ValueString(), "value"); ASSERT_TRUE(vertex->GetProperty(property2, View::OLD)->IsNull()); ASSERT_THAT(vertex->Properties(View::OLD).GetValue(), UnorderedElementsAre(std::pair(property1, PropertyValue("value")))); { auto old_values = vertex->ClearProperties(); ASSERT_TRUE(old_values.HasValue()); ASSERT_FALSE(old_values->empty()); } ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW).GetValue().size(), 0); { auto old_values = vertex->ClearProperties(); ASSERT_TRUE(old_values.HasValue()); ASSERT_TRUE(old_values->empty()); } ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW).GetValue().size(), 0); acc.Abort(); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto old_value = vertex->SetPropertyAndValidate(property2, PropertyValue(42)); ASSERT_TRUE(old_value.HasValue()); ASSERT_TRUE(old_value->IsNull()); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); ASSERT_EQ(vertex->GetProperty(property1, View::OLD)->ValueString(), "value"); ASSERT_EQ(vertex->GetProperty(property2, View::OLD)->ValueInt(), 42); ASSERT_THAT( vertex->Properties(View::OLD).GetValue(), UnorderedElementsAre(std::pair(property1, PropertyValue("value")), std::pair(property2, PropertyValue(42)))); { auto old_values = vertex->ClearProperties(); ASSERT_TRUE(old_values.HasValue()); ASSERT_FALSE(old_values->empty()); } ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW).GetValue().size(), 0); { auto old_values = vertex->ClearProperties(); ASSERT_TRUE(old_values.HasValue()); ASSERT_TRUE(old_values->empty()); } ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW).GetValue().size(), 0); ASSERT_FALSE(acc.Commit().HasError()); } { auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); ASSERT_TRUE(vertex->GetProperty(property1, View::NEW)->IsNull()); ASSERT_TRUE(vertex->GetProperty(property2, View::NEW)->IsNull()); ASSERT_EQ(vertex->Properties(View::NEW).GetValue().size(), 0); acc.Abort(); } } TEST_F(StorageV3, VertexNonexistentLabelPropertyEdgeAPI) { auto label1 = NameToLabelId("label1"); auto property1 = NameToPropertyId("property1"); auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); // Check state before (OLD view). ASSERT_EQ(vertex.Labels(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.HasLabel(label1, View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.Properties(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.GetProperty(property1, View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.InEdges(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.OutEdges(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.InDegree(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.OutDegree(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); // Check state before (NEW view). ASSERT_EQ(vertex.Labels(View::NEW)->size(), 0); ASSERT_EQ(*vertex.HasLabel(label1, View::NEW), false); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 0); ASSERT_EQ(*vertex.GetProperty(property1, View::NEW), PropertyValue()); ASSERT_EQ(vertex.InEdges(View::NEW)->size(), 0); ASSERT_EQ(vertex.OutEdges(View::NEW)->size(), 0); ASSERT_EQ(*vertex.InDegree(View::NEW), 0); ASSERT_EQ(*vertex.OutDegree(View::NEW), 0); // Modify vertex. ASSERT_TRUE(vertex.AddLabelAndValidate(label1).HasValue()); ASSERT_TRUE(vertex.SetPropertyAndValidate(property1, PropertyValue("value")).HasValue()); ASSERT_TRUE(acc.CreateEdge(vertex.Id(View::NEW).GetValue(), vertex.Id(View::NEW).GetValue(), NameToEdgeTypeId("edge"), Gid::FromUint(1)) .HasValue()); // Check state after (OLD view). ASSERT_EQ(vertex.Labels(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.HasLabel(label1, View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.Properties(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.GetProperty(property1, View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.InEdges(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.OutEdges(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.InDegree(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); ASSERT_EQ(vertex.OutDegree(View::OLD).GetError(), Error::NONEXISTENT_OBJECT); // Check state after (NEW view). ASSERT_EQ(vertex.Labels(View::NEW)->size(), 1); ASSERT_EQ(*vertex.HasLabel(label1, View::NEW), true); ASSERT_EQ(vertex.Properties(View::NEW)->size(), 1); ASSERT_EQ(*vertex.GetProperty(property1, View::NEW), PropertyValue("value")); ASSERT_EQ(vertex.InEdges(View::NEW)->size(), 1); ASSERT_EQ(vertex.OutEdges(View::NEW)->size(), 1); ASSERT_EQ(*vertex.InDegree(View::NEW), 1); ASSERT_EQ(*vertex.OutDegree(View::NEW), 1); ASSERT_FALSE(acc.Commit().HasError()); } TEST_F(StorageV3, VertexVisibilitySingleTransaction) { auto acc1 = store.Access(); auto acc2 = store.Access(); auto vertex = CreateVertexAndValidate(acc1, primary_label, {}, {{primary_property, PropertyValue{0}}}); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); ASSERT_TRUE(vertex.AddLabelAndValidate(NameToLabelId("label1")).HasValue()); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); ASSERT_TRUE(vertex.SetPropertyAndValidate(NameToPropertyId("meaning"), PropertyValue(42)).HasValue()); auto acc3 = store.Access(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc3.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc3.FindVertex(pk, View::NEW)); ASSERT_TRUE(acc1.DeleteVertex(&vertex).HasValue()); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc3.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc3.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); acc3.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc3.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc3.FindVertex(pk, View::NEW)); acc1.Abort(); acc2.Abort(); acc3.Abort(); } TEST_F(StorageV3, VertexVisibilityMultipleTransactions) { { auto acc1 = store.Access(); auto acc2 = store.Access(); CreateVertexAndValidate(acc1, primary_label, {}, {{primary_property, PropertyValue{0}}}); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); acc2.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_FALSE(acc2.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc2.FindVertex(pk, View::NEW)); ASSERT_FALSE(acc1.Commit().HasError()); ASSERT_FALSE(acc2.Commit().HasError()); } { auto acc1 = store.Access(); auto acc2 = store.Access(); auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); ASSERT_TRUE(vertex->AddLabelAndValidate(NameToLabelId("label1")).HasValue()); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); acc2.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); ASSERT_TRUE(vertex->SetPropertyAndValidate(NameToPropertyId("meaning"), PropertyValue(42)).HasValue()); auto acc3 = store.Access(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc2.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc3.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); ASSERT_FALSE(acc1.Commit().HasError()); ASSERT_FALSE(acc2.Commit().HasError()); ASSERT_FALSE(acc3.Commit().HasError()); } { auto acc1 = store.Access(); auto acc2 = store.Access(); auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); ASSERT_TRUE(acc1.DeleteVertex(&*vertex).HasValue()); auto acc3 = store.Access(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc2.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc3.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc1.Abort(); acc2.Abort(); acc3.Abort(); } { auto acc = store.Access(); EXPECT_TRUE(acc.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc.FindVertex(pk, View::NEW)); acc.AdvanceCommand(); EXPECT_TRUE(acc.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc.FindVertex(pk, View::NEW)); acc.Abort(); } { auto acc1 = store.Access(); auto acc2 = store.Access(); auto vertex = acc1.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); ASSERT_TRUE(acc1.DeleteVertex(&*vertex).HasValue()); auto acc3 = store.Access(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc2.AdvanceCommand(); EXPECT_TRUE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc1.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); acc3.AdvanceCommand(); EXPECT_FALSE(acc1.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc1.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc2.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc2.FindVertex(pk, View::NEW)); EXPECT_TRUE(acc3.FindVertex(pk, View::OLD)); EXPECT_TRUE(acc3.FindVertex(pk, View::NEW)); ASSERT_FALSE(acc1.Commit().HasError()); ASSERT_FALSE(acc2.Commit().HasError()); ASSERT_FALSE(acc3.Commit().HasError()); } { auto acc = store.Access(); EXPECT_FALSE(acc.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc.FindVertex(pk, View::NEW)); acc.AdvanceCommand(); EXPECT_FALSE(acc.FindVertex(pk, View::OLD)); EXPECT_FALSE(acc.FindVertex(pk, View::NEW)); acc.Abort(); } } // NOLINTNEXTLINE(hicpp-special-member-functions) TEST_F(StorageV3, DeletedVertexAccessor) { const auto property1 = NameToPropertyId("property1"); const PropertyValue property_value{"property_value"}; // Create the vertex { auto acc = store.Access(); auto vertex = CreateVertexAndValidate(acc, primary_label, {}, {{primary_property, PropertyValue{0}}}); ASSERT_FALSE(vertex.SetPropertyAndValidate(property1, property_value).HasError()); ASSERT_FALSE(acc.Commit().HasError()); } auto acc = store.Access(); auto vertex = acc.FindVertex(pk, View::OLD); ASSERT_TRUE(vertex); auto maybe_deleted_vertex = acc.DeleteVertex(&*vertex); ASSERT_FALSE(maybe_deleted_vertex.HasError()); auto deleted_vertex = maybe_deleted_vertex.GetValue(); ASSERT_TRUE(deleted_vertex); // you cannot modify deleted vertex ASSERT_TRUE(deleted_vertex->ClearProperties().HasError()); // you can call read only methods const auto maybe_property = deleted_vertex->GetProperty(property1, View::OLD); ASSERT_FALSE(maybe_property.HasError()); ASSERT_EQ(property_value, *maybe_property); ASSERT_FALSE(acc.Commit().HasError()); { // you can call read only methods and get valid results even after the // transaction which deleted the vertex committed, but only if the transaction // accessor is still alive const auto maybe_property = deleted_vertex->GetProperty(property1, View::OLD); ASSERT_FALSE(maybe_property.HasError()); ASSERT_EQ(property_value, *maybe_property); } } TEST_F(StorageV3, TestCreateVertexAndValidate) { { auto acc = store.Access(); const auto label1 = NameToLabelId("label1"); const auto prop1 = NameToPropertyId("prop1"); auto vertex = acc.CreateVertexAndValidate(primary_label, {label1}, {{primary_property, PropertyValue(0)}, {prop1, PropertyValue(111)}}); ASSERT_TRUE(vertex.HasValue()); ASSERT_TRUE(vertex->PrimaryLabel(View::NEW).HasValue()); EXPECT_EQ(vertex->PrimaryLabel(View::NEW).GetValue(), primary_label); ASSERT_TRUE(vertex->PrimaryKey(View::NEW).HasValue()); EXPECT_EQ(vertex->PrimaryKey(View::NEW).GetValue(), PrimaryKey{{PropertyValue(0)}}); ASSERT_TRUE(vertex->Properties(View::NEW).HasValue()); EXPECT_EQ(vertex->Properties(View::NEW).GetValue(), (std::map{{prop1, PropertyValue(111)}})); } { auto acc = store.Access(); const auto label1 = NameToLabelId("label1"); const auto prop1 = NameToPropertyId("prop1"); EXPECT_THROW( { auto vertex = acc.CreateVertexAndValidate( label1, {}, {{primary_property, PropertyValue(0)}, {prop1, PropertyValue(111)}}); }, utils::BasicException); } { ASSERT_DEATH( { Shard store(primary_label, pk, std::nullopt); ASSERT_TRUE(store.CreateSchema(primary_label, {storage::v3::SchemaProperty{primary_property, common::SchemaType::INT}})); auto acc = store.Access(); auto vertex1 = acc.CreateVertexAndValidate(primary_label, {}, {{primary_property, PropertyValue(0)}}); auto vertex2 = acc.CreateVertexAndValidate(primary_label, {}, {{primary_property, PropertyValue(0)}}); }, ""); } { auto acc = store.Access(); auto vertex = acc.CreateVertexAndValidate(primary_label, {primary_label}, {{primary_property, PropertyValue(0)}}); ASSERT_TRUE(vertex.HasError()); ASSERT_TRUE(std::holds_alternative(vertex.GetError())); EXPECT_EQ(std::get(vertex.GetError()), SchemaViolation(SchemaViolation::ValidationStatus::VERTEX_SECONDARY_LABEL_IS_PRIMARY, primary_label)); } { auto acc = store.Access(); auto vertex = acc.CreateVertexAndValidate(primary_label, {primary_label}, {{primary_property, PropertyValue(0)}}); ASSERT_TRUE(vertex.HasError()); ASSERT_TRUE(std::holds_alternative(vertex.GetError())); EXPECT_EQ(std::get(vertex.GetError()), SchemaViolation(SchemaViolation::ValidationStatus::VERTEX_SECONDARY_LABEL_IS_PRIMARY, primary_label)); } { auto acc = store.Access(); auto vertex = acc.CreateVertexAndValidate(primary_label, {}, {}); ASSERT_TRUE(vertex.HasError()); ASSERT_TRUE(std::holds_alternative(vertex.GetError())); EXPECT_EQ(std::get(vertex.GetError()), SchemaViolation(SchemaViolation::ValidationStatus::VERTEX_HAS_NO_PRIMARY_PROPERTY, primary_label, {primary_property, common::SchemaType::INT})); } { auto acc = store.Access(); auto vertex = acc.CreateVertexAndValidate(primary_label, {}, {{primary_property, PropertyValue("test")}}); ASSERT_TRUE(vertex.HasError()); ASSERT_TRUE(std::holds_alternative(vertex.GetError())); EXPECT_EQ(std::get(vertex.GetError()), SchemaViolation(SchemaViolation::ValidationStatus::VERTEX_PROPERTY_WRONG_TYPE, primary_label, {primary_property, common::SchemaType::INT}, PropertyValue("test"))); } } } // namespace memgraph::storage::v3::tests