public void TestDelayNode()
{
int n = 50;
Frame[][] input = new Frame[n][];
for (int i = 0; i < n; i++)
{
input[i] = new Frame[1];
input[i][0] = new Frame(new Size(1, 1));
input[i][0][0, 0] = new Rgb((byte)i, (byte)i, (byte)i);
}
for (int k = 0; k < 31; k++)
{
DelayNode node = new DelayNode();
node.Delay = k;
for (int i = 0; i < n; i++)
{
Frame[] output = node.Process(input[i], 0);
if (i >= k)
{
Assert.Equal(input[i - k][0], output[0]);
}
}
}
}
/// <summary>
/// overridden copy constructor
/// </summary>
/// <param name="node">node to copy</param>
/// <param name="position">position to copy to</param>
public override void Copy(BaseNode node, Vector2 position)
{
base.Copy(node, position);
DelayNode delayNode = node as DelayNode;
// copy delay time
m_delayTime = delayNode.m_delayTime;
}
public void TestPEVM() {
PropertyEditorViewModel pevm = new PropertyEditorViewModel();
DelayNode node = new DelayNode { Delay = 0 };
IoC.GetAllInstances = IoCLookAlike;
pevm.Source = node;
Assert.Equal(node, pevm.Source);
Assert.Equal(true, pevm.Properties.Single() is IntPropertyViewModel);
Assert.Equal(1, pevm.Properties.Count());
}
void Start()
{
this.Delay(1.0f, () =>
{
Log.I("延时 1s");
});
var delay2s = DelayNode.Allocate(2.0f, () => { Log.I("延时 2s"); });
this.ExecuteNode(delay2s);
}
public void GlobalTest10()
{
MainViewModel mvm = MainViewModelTest.GetInstance();
PipelineViewModel pvm = mvm.PipelineViewModel;
// Step 1: The user clicks "New" to create a new pipeline
mvm.Clear();
Assert.Empty(mvm.Model.Graph.Nodes);
var mock = new Mock <IDragEventInfo>();
// Step 2: Create each type of node once by drag-and-drop
VideoInputNode vin = (VideoInputNode)AddNode <VideoInputNode>(pvm, mock, new Point(10, 30));
AdditiveMergeNode amn = (AdditiveMergeNode)AddNode <AdditiveMergeNode>(pvm, mock, new Point(30, 30));
BlurNode bn = (BlurNode)AddNode <BlurNode>(pvm, mock, new Point(50, 30));
BrightnessContrastSaturationNode bcsn =
(BrightnessContrastSaturationNode)AddNode <BrightnessContrastSaturationNode>(pvm, mock, new Point(70, 30));
ColorInputNode cin = (ColorInputNode)AddNode <ColorInputNode>(pvm, mock, new Point(10, 50));
DelayNode dln = (DelayNode)AddNode <DelayNode>(pvm, mock, new Point(90, 30));
DiagramNode dgn = (DiagramNode)AddNode <DiagramNode>(pvm, mock, new Point(110, 30));
DifferenceNode dfn = (DifferenceNode)AddNode <DifferenceNode>(pvm, mock, new Point(30, 50));
HistogramNode hn = (HistogramNode)AddNode <HistogramNode>(pvm, mock, new Point(50, 50));
ImageInputNode imin = (ImageInputNode)AddNode <ImageInputNode>(pvm, mock, new Point(70, 50));
InverterNode invn = (InverterNode)AddNode <InverterNode>(pvm, mock, new Point(90, 50));
NoiseInputNode nin = (NoiseInputNode)AddNode <NoiseInputNode>(pvm, mock, new Point(110, 50));
OverlayNode on = (OverlayNode)AddNode <OverlayNode>(pvm, mock, new Point(10, 70));
RgbSplitNode rgbsn = (RgbSplitNode)AddNode <RgbSplitNode>(pvm, mock, new Point(30, 70));
WeightedAveragedMergeNode wamn =
(WeightedAveragedMergeNode)AddNode <WeightedAveragedMergeNode>(pvm, mock, new Point(50, 70));
// Step 3: Create the edges
mvm.Model.Graph.AddEdge(vin.Outputs[0], bn.Inputs[0]);
Assert.Equal(vin.Outputs[0], bn.Inputs[0].Source);
amn.Inputs.Add(new Node.Input());
mvm.Model.Graph.AddEdge(vin.Outputs[0], amn.Inputs[0]);
Assert.Equal(vin.Outputs[0], amn.Inputs[0].Source);
mvm.Model.Graph.AddEdge(bn.Outputs[0], dln.Inputs[0]);
Assert.Equal(bn.Outputs[0], dln.Inputs[0].Source);
mvm.Model.Graph.AddEdge(dln.Outputs[0], dfn.Inputs[0]);
Assert.Equal(dln.Outputs[0], dfn.Inputs[0].Source);
mvm.Model.Graph.AddEdge(imin.Outputs[0], dfn.Inputs[1]);
Assert.Equal(imin.Outputs[0], dfn.Inputs[1].Source);
mvm.Model.Graph.AddEdge(dfn.Outputs[0], invn.Inputs[0]);
Assert.Equal(dfn.Outputs[0], invn.Inputs[0].Source);
mvm.Model.Graph.AddEdge(invn.Outputs[0], on.Inputs[0]);
Assert.Equal(invn.Outputs[0], on.Inputs[0].Source);
mvm.Model.Graph.AddEdge(vin.Outputs[0], on.Inputs[1]);
Assert.Equal(vin.Outputs[0], on.Inputs[1].Source);
mvm.Model.Graph.AddEdge(vin.Outputs[0], rgbsn.Inputs[0]);
Assert.Equal(vin.Outputs[0], rgbsn.Inputs[0].Source);
mvm.Model.Graph.AddEdge(rgbsn.Outputs[2], hn.Inputs[0]);
Assert.Equal(rgbsn.Outputs[2], hn.Inputs[0].Source);
}
public void GeneralPropertyViewModelTest()
{
PropertyViewModel pvm = new IntPropertyViewModel();
DelayNode node = new DelayNode();
node.Delay = 3;
PropertyDescriptor pd = TypeDescriptor.GetProperties(node).Find("Delay", true);
pvm.Initialize(node, pd);
Assert.Equal("Delay", pvm.DisplayName);
pvm.Value = 1;
Assert.Equal(1, pvm.Value);
}
public void TestPEVM()
{
PropertyEditorViewModel pevm = new PropertyEditorViewModel();
DelayNode node = new DelayNode {
Delay = 0
};
IoC.GetAllInstances = IoCLookAlike;
pevm.Source = node;
Assert.Equal(node, pevm.Source);
Assert.Equal(true, pevm.Properties.Single() is IntPropertyViewModel);
Assert.Equal(1, pevm.Properties.Count());
}
public void GeneralPropertyViewModelTest()
{
PropertyViewModel pvm = new IntPropertyViewModel();
DelayNode node = new DelayNode();
node.Delay = 3;
PropertyDescriptor pd = TypeDescriptor.GetProperties(node).Find("Delay", true);
pvm.Initialize(node, pd);
Assert.Equal("Delay", pvm.DisplayName);
pvm.Value = 1;
Assert.Equal(1, pvm.Value);
}
protected override SelectorNode CreateBehaviour()
{
//create the dig nodes
CanDigNode canDigNode = new CanDigNode(this);
HealthLessThanNode healthCheckNode = new HealthLessThanNode(this, 0.6f);
AnimatorNode digAnimationNode = new AnimatorNode(this, m_AnimatorRef, "IsDigging", ref m_DigAnimationLink);
ToggleParticleSystemNode toggleParticleNode = new ToggleParticleSystemNode(this, DigParticleSystem);
DelegateNode.Delegate toggleTriggerFunc = SetColliderTrigger;
DelegateNode toggleTriggerNode = new DelegateNode(this, toggleTriggerFunc, true);
DelegateNode.Delegate toggleColliderFunc = ToggleCollider;
DelegateNode toggleColliderNode = new DelegateNode(this, toggleColliderFunc);
ToggleNavMeshAgentNode toggleAgentNode = new ToggleNavMeshAgentNode(this);
DelayNode delayNode = new DelayNode(this, 2.0f);
//TODO: COMMENT THIS SECTION AND ADD STRING
PlaySoundNode digSFX = new PlaySoundNode(this, "NergDig");
LerpNode lerpDownNode = new LerpNode(this, Vector3.down, 1.0f, 2.0f, 10.0f);
DelegateNode.Delegate rotateFunc = RotateVertical;
DelegateNode rotateNode = new DelegateNode(this, rotateFunc);
TeleportToTargetOffsetNode teleportNode = new TeleportToTargetOffsetNode(this, new Vector3(0.0f, -5.0f, 0.0f));
LerpToTargetNode lerpToTargetNode = new LerpToTargetNode(this, 0.5f, 1.0f, 10.0f);
AnimatorNode biteAnimationNode = new AnimatorNode(this, m_AnimatorRef, "IsBiting", ref m_BiteAnimationLink);
RunUntillTargetNull targetNullNode = new RunUntillTargetNull(this);
//create the dig sequence
SequenceNode digSequence = new SequenceNode(this, "DigSequence",
healthCheckNode,
canDigNode,
toggleParticleNode,
toggleTriggerNode,
toggleColliderNode,
toggleAgentNode,
delayNode,
digSFX,
lerpDownNode,
toggleParticleNode,
rotateNode,
teleportNode,
toggleColliderNode,
toggleParticleNode,
lerpToTargetNode,
digSFX,
delayNode,
toggleParticleNode,
targetNullNode
);
//create the targeting nodes
TargetingSightNode sightNode = new TargetingSightNode(this, 1);
TargetingLowHealthNode lowHealth = new TargetingLowHealthNode(this, 3);
CalculateTargetNode calcTarget = new CalculateTargetNode(this);
//assign the targeting sequence
SequenceNode targetingSequ = new SequenceNode(this, "TargetingSequence", sightNode, lowHealth, calcTarget);
//create the spit nodes
CooldownNode spitCooldownNode = new CooldownNode(this, 1.0f);
//AnimatorNode spitAnimationNode = new AnimatorNode(this, m_AnimatorRef, "IsSpitting", ref m_SpitAnimationLink);
ShootProjectileNode projectileNode = new ShootProjectileNode(this, 1, ProjectilePrefab, ProjectileSpawnLoc, "MasterNergProjectile", 10);
//SFX for the sound of the nerg spitting
PlaySoundNode spitSound = new PlaySoundNode(this, "NergSpit");
//create the movement nodes
CooldownNode movementCooldownNode = new CooldownNode(this, 3.0f);
//BackAwayNode backAwayNode = new BackAwayNode(this, false, 1.0f);
SideStepNode sideStepNode = new SideStepNode(this, false, 2.0f);
PredictiveAvoidanceNode predictMovementNode = new PredictiveAvoidanceNode(this, false, true, 2.0f, 5.0f);
MovementOptionRandomNode movementNodes = new MovementOptionRandomNode(this, sideStepNode, predictMovementNode);
//SFX for the sound of the nerg moving backward
//TODO: COMMENT THIS SECTION AND ADD STRING
//PlaySoundNode crawlingSFX = new PlaySoundNode(this,);
//create the spit sequence
SequenceNode spitSequence = new SequenceNode(this, "SpitSequence", spitCooldownNode, projectileNode, spitSound, movementCooldownNode, movementNodes /*, crawlingSFX*/);
//assign the attack selector
SelectorNode attackSelector = new SelectorNode(this, "AttackSelector", digSequence, spitSequence);
//create the attack sequence
SequenceNode attackSequence = new SequenceNode(this, "AttackTargetSequence", targetingSequ, attackSelector);
//create utility selector
SelectorNode utilitySelector = new SelectorNode(this, "UtilitySelector", attackSequence);
return(utilitySelector);
}
