public void ValidateAnyOfToString() { SetupAnyOfMatcher(); Assert.AreEqual(_anyOfMatcher.ToString(), "AnyOf(1, 2)"); }
void when_creating_matcher() { TestEntity eA = null; TestEntity eB = null; TestEntity eC = null; TestEntity eAB = null; TestEntity eABC = null; before = () => { eA = this.CreateEntity(); eA.AddComponentA(); eB = this.CreateEntity(); eB.AddComponentB(); eC = this.CreateEntity(); eC.AddComponentC(); eAB = this.CreateEntity(); eAB.AddComponentA(); eAB.AddComponentB(); eABC = this.CreateEntity(); eABC.AddComponentA(); eABC.AddComponentB(); eABC.AddComponentC(); }; context["allOf"] = () => { IAllOfMatcher <TestEntity> m = null; before = () => m = Matcher <TestEntity> .AllOf(CID.ComponentA, CID.ComponentB); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["has all indices without duplicates"] = () => { m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eA).should_be_false(); it["matches"] = () => { m.Matches(eAB).should_be_true(); m.Matches(eABC).should_be_true(); }; it["merges matchers to new matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentC }); var mergedMatcher = Matcher <TestEntity> .AllOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(mergedMatcher.allOfIndices, CID.ComponentA, CID.ComponentB, CID.ComponentC); }; it["merges matchers to new matcher without duplicates"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m3 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var mergedMatcher = Matcher <TestEntity> .AllOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(mergedMatcher.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["throws when merging matcher with more than one index"] = expect <MatcherException>(() => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentB }); Matcher <TestEntity> .AllOf(m1); }); it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2)"); it["uses componentNames when set"] = () => { var matcher = (Matcher <TestEntity>)m; matcher.componentNames = new [] { "one", "two", "three" }; matcher.ToString().should_be("AllOf(two, three)"); }; it["uses componentNames when merged matcher ToString"] = () => { var m1 = (Matcher <TestEntity>) Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = (Matcher <TestEntity>) Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = (Matcher <TestEntity>) Matcher <TestEntity> .AllOf(new [] { CID.ComponentC }); m2.componentNames = new [] { "m_0", "m_1", "m_2", "m_3" }; var mergedMatcher = Matcher <TestEntity> .AllOf(m1, m2, m3); mergedMatcher.ToString().should_be("AllOf(m_1, m_2, m_3)"); }; }; context["anyOf"] = () => { IAnyOfMatcher <TestEntity> m = null; before = () => m = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentB }); it["has all indices"] = () => { m = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["has all indices without duplicates"] = () => { m = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eC).should_be_false(); it["matches"] = () => { m.Matches(eA).should_be_true(); m.Matches(eB).should_be_true(); m.Matches(eABC).should_be_true(); }; it["merges matchers to new matcher"] = () => { var m1 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentC }); var mergedMatcher = Matcher <TestEntity> .AnyOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(mergedMatcher.anyOfIndices, CID.ComponentA, CID.ComponentB, CID.ComponentC); }; it["merges matchers to new matcher without duplicates"] = () => { var m1 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentB }); var mergedMatcher = Matcher <TestEntity> .AnyOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(mergedMatcher.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["throws when merging matcher with more than one index"] = expect <MatcherException>(() => { var m1 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentB }); Matcher <TestEntity> .AnyOf(m1); }); it["can ToString"] = () => m.ToString().should_be("AnyOf(1, 2)"); }; context["allOf.noneOf"] = () => { ICompoundMatcher <TestEntity> m = null; before = () => m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eABC).should_be_false(); it["matches"] = () => m.Matches(eAB).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = m1.NoneOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.allOfIndices, CID.ComponentA); assertIndicesContain(m1.noneOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AllOf(m1); var m4 = m3.NoneOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.allOfIndices, CID.ComponentA); assertIndicesContain(m3.noneOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2).NoneOf(3, 4)"); it["uses componentNames when componentNames set"] = () => { var matcher = (Matcher <TestEntity>)m; matcher.componentNames = new [] { "one", "two", "three", "four", "five" }; matcher.ToString().should_be("AllOf(two, three).NoneOf(four, five)"); }; }; context["anyOf.noneOf"] = () => { ICompoundMatcher <TestEntity> m = null; before = () => m = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eABC).should_be_false(); it["matches"] = () => m.Matches(eA).should_be_true(); it["matches"] = () => m.Matches(eB).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA }); var m2 = m1.NoneOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.anyOfIndices, CID.ComponentA); assertIndicesContain(m1.noneOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AnyOf(m1); var m4 = m3.NoneOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.anyOfIndices, CID.ComponentA); assertIndicesContain(m3.noneOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AnyOf(1, 2).NoneOf(3, 4)"); }; context["allOf.anyOf"] = () => { ICompoundMatcher <TestEntity> m = null; before = () => m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentB }).AnyOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).AnyOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eAB).should_be_false(); it["matches"] = () => m.Matches(eABC).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = m1.AnyOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.allOfIndices, CID.ComponentA); assertIndicesContain(m1.anyOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AllOf(m1); var m4 = m3.AnyOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.allOfIndices, CID.ComponentA); assertIndicesContain(m3.anyOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2).AnyOf(3, 4)"); }; context["indices cache"] = () => { it["updates cache when calling AnyOf"] = () => { var m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var cache = m.indices; m.AnyOf(new [] { CID.ComponentB }); m.indices.should_not_be_same(cache); }; it["updates cache when calling NoneOf"] = () => { var m = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var cache = m.indices; m.NoneOf(new [] { CID.ComponentB }); m.indices.should_not_be_same(cache); }; }; context["equals"] = () => { it["updates hash when changed with anyOf"] = () => { var m1 = allOfAB(); var hash = m1.GetHashCode(); m1.AnyOf(42).GetHashCode().should_not_be(hash); }; it["updates hash when changed with noneOf"] = () => { var m1 = allOfAB(); var hash = m1.GetHashCode(); m1.NoneOf(42).GetHashCode().should_not_be(hash); }; it["equals equal AllOfMatcher"] = () => { var m1 = allOfAB(); var m2 = allOfAB(); m1.should_not_be_same(m2); m1.Equals(m2).should_be_true(); m1.GetHashCode().should_be(m2.GetHashCode()); }; it["equals equal AllOfMatcher independent of the order of indices"] = () => { var m1 = allOfAB(); var m2 = allOfBA(); m1.Equals(m2).should_be_true(); m1.GetHashCode().should_be(m2.GetHashCode()); }; it["equals merged matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = allOfBA(); var mergedMatcher = Matcher <TestEntity> .AllOf(m1, m2); mergedMatcher.Equals(m3).should_be_true(); mergedMatcher.GetHashCode().should_be(m3.GetHashCode()); }; it["doesn't equal different AllOfMatcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = allOfAB(); m1.Equals(m2).should_be_false(); m1.GetHashCode().should_not_be(m2.GetHashCode()); }; it["allOf doesn't equal anyOf with same indices"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentA }); m1.Equals(m2).should_be_false(); m1.GetHashCode().should_not_be(m2.GetHashCode()); }; it["doesn't equal differnt type matchers with same indices"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AllOf(m1, m2); var m4 = Matcher <TestEntity> .AnyOf(m1, m2); m3.Equals(m4).should_be_false(); m3.GetHashCode().should_not_be(m4.GetHashCode()); }; it["equals compound matcher"] = () => { var m1 = Matcher <TestEntity> .AllOf(new [] { CID.ComponentA }); var m2 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentB }); var m3 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentC }); var m4 = Matcher <TestEntity> .AnyOf(new [] { CID.ComponentD }); var mX = Matcher <TestEntity> .AllOf(m1, m2).AnyOf(m3, m4); var mY = Matcher <TestEntity> .AllOf(m1, m2).AnyOf(m3, m4); mX.Equals(mY).should_be_true(); mX.GetHashCode().should_be(mY.GetHashCode()); }; }; }
void when_creating_matcher() { Entity eA = null; Entity eB = null; Entity eC = null; Entity eAB = null; Entity eABC = null; before = () => { eA = this.CreateEntity(); eA.AddComponentA(); eB = this.CreateEntity(); eB.AddComponentB(); eC = this.CreateEntity(); eC.AddComponentC(); eAB = this.CreateEntity(); eAB.AddComponentA(); eAB.AddComponentB(); eABC = this.CreateEntity(); eABC.AddComponentA(); eABC.AddComponentB(); eABC.AddComponentC(); }; context["allOf"] = () => { IAllOfMatcher m = null; before = () => m = Matcher.AllOf(CID.ComponentA, CID.ComponentB); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["has all indices without duplicates"] = () => { m = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eA).should_be_false(); it["matches"] = () => { m.Matches(eAB).should_be_true(); m.Matches(eABC).should_be_true(); }; it["merges matchers to new matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = Matcher.AllOf(new [] { CID.ComponentC }); var mergedMatcher = Matcher.AllOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(mergedMatcher.allOfIndices, CID.ComponentA, CID.ComponentB, CID.ComponentC); }; it["merges matchers to new matcher without duplicates"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentA }); var m3 = Matcher.AllOf(new [] { CID.ComponentB }); var mergedMatcher = Matcher.AllOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(mergedMatcher.allOfIndices, CID.ComponentA, CID.ComponentB); }; it["throws when merging matcher with more than one index"] = expect <MatcherException>(() => { var m1 = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentB }); Matcher.AllOf(m1); }); it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2)"); it["uses componentNames when set"] = () => { var matcher = (Matcher)m; matcher.componentNames = new [] { "one", "two", "three" }; matcher.ToString().should_be("AllOf(two, three)"); }; it["uses componentNames when merged matcher ToString"] = () => { var m1 = (Matcher)Matcher.AllOf(new [] { CID.ComponentA }); var m2 = (Matcher)Matcher.AllOf(new [] { CID.ComponentB }); var m3 = (Matcher)Matcher.AllOf(new [] { CID.ComponentC }); m2.componentNames = new [] { "m_0", "m_1", "m_2", "m_3" }; var mergedMatcher = Matcher.AllOf(m1, m2, m3); mergedMatcher.ToString().should_be("AllOf(m_1, m_2, m_3)"); }; }; context["anyOf"] = () => { IAnyOfMatcher m = null; before = () => m = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentB }); it["has all indices"] = () => { m = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["has all indices without duplicates"] = () => { m = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB, CID.ComponentB }); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eC).should_be_false(); it["matches"] = () => { m.Matches(eA).should_be_true(); m.Matches(eB).should_be_true(); m.Matches(eABC).should_be_true(); }; it["merges matchers to new matcher"] = () => { var m1 = Matcher.AnyOf(new [] { CID.ComponentA }); var m2 = Matcher.AnyOf(new [] { CID.ComponentB }); var m3 = Matcher.AnyOf(new [] { CID.ComponentC }); var mergedMatcher = Matcher.AnyOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(mergedMatcher.anyOfIndices, CID.ComponentA, CID.ComponentB, CID.ComponentC); }; it["merges matchers to new matcher without duplicates"] = () => { var m1 = Matcher.AnyOf(new [] { CID.ComponentA }); var m2 = Matcher.AnyOf(new [] { CID.ComponentB }); var m3 = Matcher.AnyOf(new [] { CID.ComponentB }); var mergedMatcher = Matcher.AnyOf(m1, m2, m3); assertIndicesContain(mergedMatcher.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(mergedMatcher.anyOfIndices, CID.ComponentA, CID.ComponentB); }; it["throws when merging matcher with more than one index"] = expect <MatcherException>(() => { var m1 = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentB }); Matcher.AnyOf(m1); }); it["can ToString"] = () => m.ToString().should_be("AnyOf(1, 2)"); }; context["allOf.noneOf"] = () => { ICompoundMatcher m = null; before = () => m = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eABC).should_be_false(); it["matches"] = () => m.Matches(eAB).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = m1.NoneOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.allOfIndices, CID.ComponentA); assertIndicesContain(m1.noneOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = Matcher.AllOf(m1); var m4 = m3.NoneOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.allOfIndices, CID.ComponentA); assertIndicesContain(m3.noneOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2).NoneOf(3, 4)"); it["uses componentNames when componentNames set"] = () => { var matcher = (Matcher)m; matcher.componentNames = new [] { "one", "two", "three", "four", "five" }; matcher.ToString().should_be("AllOf(two, three).NoneOf(four, five)"); }; }; context["anyOf.noneOf"] = () => { ICompoundMatcher m = null; before = () => m = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher.AnyOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).NoneOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.anyOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.noneOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eABC).should_be_false(); it["matches"] = () => m.Matches(eA).should_be_true(); it["matches"] = () => m.Matches(eB).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher.AnyOf(new [] { CID.ComponentA }); var m2 = m1.NoneOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.anyOfIndices, CID.ComponentA); assertIndicesContain(m1.noneOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = Matcher.AnyOf(m1); var m4 = m3.NoneOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.anyOfIndices, CID.ComponentA); assertIndicesContain(m3.noneOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AnyOf(1, 2).NoneOf(3, 4)"); }; context["allOf.anyOf"] = () => { ICompoundMatcher m = null; before = () => m = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentB }).AnyOf(CID.ComponentC, CID.ComponentD); it["has all indices"] = () => { assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC, CID.ComponentD); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentC, CID.ComponentD); }; it["has all indices without duplicates"] = () => { m = Matcher.AllOf(new [] { CID.ComponentA, CID.ComponentA, CID.ComponentB }).AnyOf(CID.ComponentB, CID.ComponentC, CID.ComponentC); assertIndicesContain(m.indices, CID.ComponentA, CID.ComponentB, CID.ComponentC); assertIndicesContain(m.allOfIndices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m.anyOfIndices, CID.ComponentB, CID.ComponentC); }; it["caches indices"] = () => m.indices.should_be_same(m.indices); it["doesn't match"] = () => m.Matches(eAB).should_be_false(); it["matches"] = () => m.Matches(eABC).should_be_true(); it["mutates existing matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = m1.AnyOf(new [] { CID.ComponentB }); m1.should_be_same(m2); assertIndicesContain(m1.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m1.allOfIndices, CID.ComponentA); assertIndicesContain(m1.anyOfIndices, CID.ComponentB); }; it["mutates existing merged matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = Matcher.AllOf(m1); var m4 = m3.AnyOf(m2); m3.should_be_same(m4); assertIndicesContain(m3.indices, CID.ComponentA, CID.ComponentB); assertIndicesContain(m3.allOfIndices, CID.ComponentA); assertIndicesContain(m3.anyOfIndices, CID.ComponentB); }; it["can ToString"] = () => m.ToString().should_be("AllOf(1, 2).AnyOf(3, 4)"); }; context["indices cache"] = () => { it["updates cache when calling AnyOf"] = () => { var m = Matcher.AllOf(new [] { CID.ComponentA }); var cache = m.indices; m.AnyOf(new [] { CID.ComponentB }); m.indices.should_not_be_same(cache); }; it["updates cache when calling NoneOf"] = () => { var m = Matcher.AllOf(new [] { CID.ComponentA }); var cache = m.indices; m.NoneOf(new [] { CID.ComponentB }); m.indices.should_not_be_same(cache); }; }; context["equals"] = () => { it["equals equal AllOfMatcher"] = () => { var m1 = allOfAB(); var m2 = allOfAB(); m1.should_not_be_same(m2); m1.Equals(m2).should_be_true(); m1.GetHashCode().should_be(m2.GetHashCode()); }; it["equals equal AllOfMatcher independent of the order of indices"] = () => { var m1 = allOfAB(); var m2 = allOfBA(); m1.Equals(m2).should_be_true(); m1.GetHashCode().should_be(m2.GetHashCode()); }; it["equals merged matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = allOfBA(); var mergedMatcher = Matcher.AllOf(m1, m2); mergedMatcher.Equals(m3).should_be_true(); mergedMatcher.GetHashCode().should_be(m3.GetHashCode()); }; it["doesn't equal different AllOfMatcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = allOfAB(); m1.Equals(m2).should_be_false(); m1.GetHashCode().should_not_be(m2.GetHashCode()); }; it["allOf doesn't equal anyOf with same indices"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AnyOf(new [] { CID.ComponentA }); m1.Equals(m2).should_be_false(); m1.GetHashCode().should_not_be(m2.GetHashCode()); }; it["doesn't equal differnt type matchers with same indices"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AllOf(new [] { CID.ComponentB }); var m3 = Matcher.AllOf(m1, m2); var m4 = Matcher.AnyOf(m1, m2); m3.Equals(m4).should_be_false(); m3.GetHashCode().should_not_be(m4.GetHashCode()); }; it["equals compound matcher"] = () => { var m1 = Matcher.AllOf(new [] { CID.ComponentA }); var m2 = Matcher.AnyOf(new [] { CID.ComponentB }); var m3 = Matcher.AnyOf(new [] { CID.ComponentC }); var m4 = Matcher.AnyOf(new [] { CID.ComponentD }); var mX = Matcher.AllOf(m1, m2).AnyOf(m3, m4); var mY = Matcher.AllOf(m1, m2).AnyOf(m3, m4); mX.Equals(mY).should_be_true(); mX.GetHashCode().should_be(mY.GetHashCode()); }; }; context["when filtering"] = () => { IMatcher m = null; before = () => m = Matcher.AllOf(CID.ComponentD).Where(entity => { var component = (NameAgeComponent)entity.GetComponent(CID.ComponentD); return(component.age > 30); }); it["only contains entities passing the filter condition"] = () => { var e1 = this.CreateEntity(); var nameAge1 = new NameAgeComponent { name = "Max", age = 42 }; e1.AddComponent(CID.ComponentD, nameAge1); var e2 = this.CreateEntity(); var nameAge2 = new NameAgeComponent { name = "Jack", age = 24 }; e2.AddComponent(CID.ComponentD, nameAge2); m.Matches(e1).should_be_true(); m.Matches(e2).should_be_false(); }; it["doesn't attempt to filter entites not matching the matcher"] = () => { var e = this.CreateEntity(); m.Matches(e).should_be_false(); }; }; }