public void ChangeTokenCount_NonZeroTokensSingleActiveSuccessor_NoCallback()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
ITransition successor = new StubTransition("successor_1", new List<INode> { testPlace }, new List<INode> { });
successor.Enabled = true;
testPlace.Successors.Clear();
testPlace.Successors.Add(successor);
int tokenCount = new Random().Next(1, 999);
// act
testPlace.ChangeTokenCount(tokenCount, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, tokenCount, "Incorrect tokenCount was set.");
Assert.AreEqual(0, callbackIds.Count, "No callback should occur when successor is already active.");
}
public void ChangeTokenCount_NonZeroTokensSingleInactiveSuccessorNoOtherPredecessors_CallbackTrue()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
IList<String> successorIds = new List<String> { "successor_1" };
ITransition successor_1 = new StubTransition(successorIds[0], new List<INode> { testPlace }, new List<INode> { });
successor_1.Enabled = false;
testPlace.Successors.Clear();
testPlace.Successors.Add(successor_1);
int tokenCount = new Random().Next(1, 999);
// act
testPlace.ChangeTokenCount(tokenCount, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, tokenCount, "Incorrect tokenCount was set.");
Assert.AreEqual(true, callbackValue, "Activation of Transition required when successor is inactive, has no " +
"other predecessors and tokens are set to non-zero.");
Assert.IsTrue(Compare.UnorderedEqual(successorIds, callbackIds), "Callback called with incorrect ids.");
}
public void ChangeTokenCount_NonZeroTokensSingleInactiveSuccessorOneOtherPredecessorZeroTokens_CallbackFalse()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
StubPlace otherPredecessor = new StubPlace("otherPredecessor", new List<INode> { }, new List<INode> { });
otherPredecessor.TokenCount = 0;
IList<String> successorIds = new List<String> { "successor_1" };
ITransition successor_1 = new StubTransition(successorIds[0], new List<INode> { testPlace, otherPredecessor }, new List<INode> { });
successor_1.Enabled = false;
testPlace.Successors.Clear();
testPlace.Successors.Add(successor_1);
int tokenCount = new Random().Next(1, 999);
// act
testPlace.ChangeTokenCount(tokenCount, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, tokenCount, "Incorrect tokenCount was set.");
Assert.AreEqual(0, callbackIds.Count, "No callback should occur when successor has other predecessor with zero tokens.");
}
public void Equals_CompareToString_ReturnsFalse()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
// act
bool result = testPlace.Equals("testString");
// assert
Assert.IsFalse(result, "Comparison with other type should always return false.");
}
public void Equals_CompareToSamePlace_ReturnsTrue()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
// act
bool result = testPlace.Equals(testPlace);
// assert
Assert.IsTrue(result, "Comparison with same place should return true.");
}
public void Equals_CompareToPlaceWithSameIdAndTokenCount_ReturnsTrue()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
testPlace.ChangeTokenCount(4, testCallback);
Place differentPlace = new Place(0, 0, "testPlace");
differentPlace.ChangeTokenCount(4, testCallback);
// act
bool result = testPlace.Equals(differentPlace);
// assert
Assert.IsTrue(result, "Comparison with place with same id and same tokenCount should return true.");
}
public void Equals_CompareToPlaceWithSameIdButDifferentTokenCount_ReturnsFalse()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
Place differentPlace = new Place(0, 0, "testPlace");
differentPlace.ChangeTokenCount(5, testCallback);
// act
bool result = testPlace.Equals(differentPlace);
// assert
Assert.IsFalse(result, "Comparison with place with different tokenCount should return false.");
}
public void Equals_CompareToNull_ReturnsFalse()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
// act
bool result = testPlace.Equals(null);
// assert
Assert.IsFalse(result, "Comparison with null should always return false.");
}
public void Equals_CompareToDifferentArc_ReturnsFalse()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
Place differentPlace = new Place(0, 0, "differentPlace");
// act
bool result = testPlace.Equals(differentPlace);
// assert
Assert.IsFalse(result, "Comparison with place with different id should return false.");
}
public void ChangeTokenCount_ZeroTokensTwoActiveSuccessorsOneInactive_CallbackFalseTwice()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
IList<String> successorIds = new List<String> { "successor_1", "successor_2" };
ITransition successor_1 = new StubTransition(successorIds[0], new List<INode> { testPlace }, new List<INode> { });
successor_1.Enabled = true;
ITransition successor_2 = new StubTransition(successorIds[1], new List<INode> { testPlace }, new List<INode> { });
successor_2.Enabled = true;
ITransition successor_3 = new StubTransition("successor_3", new List<INode> { testPlace }, new List<INode> { });
successor_3.Enabled = false;
testPlace.Successors.Clear();
testPlace.Successors.Add(successor_1);
testPlace.Successors.Add(successor_2);
testPlace.Successors.Add(successor_3);
// act
testPlace.ChangeTokenCount(0, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, 0, "Incorrect tokenCount was set.");
Assert.AreEqual(false, callbackValue, "Deactivation of Transitions required when successor " +
"is active and tokens are set to zero.");
Assert.IsTrue(Compare.UnorderedEqual(successorIds, callbackIds), "Callback called with incorrect ids.");
}
public void ChangeTokenCount_NoSuccessors_NoCallback()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
testPlace.Successors.Clear();
int tokenCount = new Random().Next(0, 999);
// act
testPlace.ChangeTokenCount(tokenCount, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, tokenCount, "Incorrect tokenCount was set.");
Assert.AreEqual(0, callbackIds.Count, "No callback should occur when there are no successors.");
}
public void ChangeTokenCount_NonZeroTokensThreeInactiveSuccessorsOneActive_CallbackTrueFalseTwice()
{
// arrange
Place testPlace = new Place(0, 0, "testPlace");
IList<String> successorIds = new List<String> { "successor_1", "successor_2" };
ITransition successor_1 = new StubTransition(successorIds[0], new List<INode> { testPlace }, new List<INode> { });
successor_1.Enabled = false;
StubPlace nonZeroTokensPredecessor = new StubPlace("predecessor_1", new List<INode> { }, new List<INode> { });
nonZeroTokensPredecessor.TokenCount = new Random().Next(1, 999);
ITransition successor_2 = new StubTransition(successorIds[1], new List<INode> { testPlace, nonZeroTokensPredecessor }, new List<INode> { });
successor_2.Enabled = false;
StubPlace zeroTokensPredecessor = new StubPlace("predecessor_2", new List<INode> { }, new List<INode> { });
zeroTokensPredecessor.TokenCount = 0;
ITransition successor_3 = new StubTransition("successor_3", new List<INode> { testPlace, zeroTokensPredecessor }, new List<INode> { });
successor_3.Enabled = false;
ITransition successor_4 = new StubTransition("successor_4", new List<INode> { testPlace }, new List<INode> { });
successor_4.Enabled = true;
int tokenCount = new Random().Next(1, 999);
testPlace.Successors.Clear();
testPlace.Successors.Add(successor_1);
testPlace.Successors.Add(successor_2);
testPlace.Successors.Add(successor_3);
testPlace.Successors.Add(successor_4);
// act
testPlace.ChangeTokenCount(tokenCount, testCallback);
// assert
Assert.AreEqual(testPlace.TokenCount, tokenCount, "Incorrect tokenCount was set.");
Assert.AreEqual(true, callbackValue, "Activation of Transitions required when there are no other predecessors " +
"or only prececessors with non-zero tokens.");
Assert.IsTrue(Compare.UnorderedEqual(successorIds, callbackIds), "Callback called with incorrect ids.");
}
