public NSDictionary?ToDictionary()
{
var n = 0;
if (ShapeType.HasValue)
{
n++;
}
if (KeepAsCompound.HasValue)
{
n++;
}
if (Scale.HasValue)
{
n++;
}
if (n == 0)
{
return(null);
}
var i = 0;
var keys = new NSString [n];
var values = new NSObject [n];
if (ShapeType.HasValue)
{
keys [i] = SCNPhysicsShapeOptionsKeys.Type;
switch (ShapeType.Value)
{
case SCNPhysicsShapeType.BoundingBox:
values [i] = SCNPhysicsShapeOptionsTypes.BoundingBox;
break;
case SCNPhysicsShapeType.ConcavePolyhedron:
values [i] = SCNPhysicsShapeOptionsTypes.ConcavePolyhedron;
break;
case SCNPhysicsShapeType.ConvexHull:
default:
values [i] = SCNPhysicsShapeOptionsTypes.ConvexHull;
break;
}
}
if (KeepAsCompound.HasValue)
{
keys [i] = SCNPhysicsShapeOptionsKeys.KeepAsCompound;
values [i] = new NSNumber(KeepAsCompound.Value);
}
if (Scale.HasValue)
{
keys [i] = SCNPhysicsShapeOptionsKeys.Scale;
values [i] = NSValue.FromVector(Scale.Value);
}
return(NSDictionary.FromObjectsAndKeys(values, keys));
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
// Animate by default
SCNTransaction.Begin();
switch (index)
{
case 0:
// Disable animations for first step
SCNTransaction.AnimationDuration = 0;
// Initially dim the torus
AnimatedNode.Opacity = 0.0f;
TextManager.HighlightCodeChunks(null);
break;
case 1:
TextManager.HighlightCodeChunks(new int[] { 0 });
break;
case 2:
TextManager.HighlightCodeChunks(new int[] { 1, 2, 3 });
break;
case 3:
TextManager.HighlightCodeChunks(new int[] { 4, 5 });
break;
case 4:
SCNTransaction.AnimationDuration = 1.0f;
// Show the torus
AnimatedNode.Opacity = 1.0f;
// Animate explicitly
var animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 2.0f;
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
animation.RepeatCount = float.MaxValue;
AnimatedNode.AddAnimation(animation, new NSString("myAnimation"));
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Dim the text
TextManager.TextNode.Opacity = 0.75f;
presentationViewController.CameraHandle.Position = presentationViewController.CameraHandle.ConvertPositionToNode(new SCNVector3(9, 8, 15), presentationViewController.CameraHandle.ParentNode);
presentationViewController.CameraPitch.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 10));
SCNTransaction.Commit();
break;
}
SCNTransaction.Commit();
}
public override void SetupSlide(PresentationViewController presentationViewController)
{
// Create a node for Earth and another node to display clouds
// Use the 'pivot' property to tilt Earth because we don't want to see the north pole.
EarthNode = SCNNode.Create();
EarthNode.Pivot = SCNMatrix4.CreateFromAxisAngle(new SCNVector3(1, 0, 0), (float)(Math.PI * 0.1f));
EarthNode.Position = new SCNVector3(6, 7.2f, -2);
EarthNode.Geometry = SCNSphere.Create(7.2f);
CloudsNode = SCNNode.Create();
CloudsNode.Geometry = SCNSphere.Create(7.9f);
GroundNode.AddChildNode(EarthNode);
EarthNode.AddChildNode(CloudsNode);
// Initially hide everything
EarthNode.Opacity = 0.0f;
CloudsNode.Opacity = 0.0f;
EarthNode.Geometry.FirstMaterial.Ambient.Intensity = 0;
EarthNode.Geometry.FirstMaterial.Normal.Intensity = 0;
EarthNode.Geometry.FirstMaterial.Reflective.Intensity = 0;
EarthNode.Geometry.FirstMaterial.Emission.Intensity = 0;
// Use a shader modifier to display an environment map independently of the lighting model used
EarthNode.Geometry.ShaderModifiers = new SCNShaderModifiers {
EntryPointFragment = " _output.color.rgb -= _surface.reflective.rgb * _lightingContribution.diffuse;"
+ "_output.color.rgb += _surface.reflective.rgb;"
};
// Add animations
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 40.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
EarthNode.AddAnimation(rotationAnimation, new NSString("earthNodeAnimation"));
rotationAnimation.Duration = 100.0f;
CloudsNode.AddAnimation(rotationAnimation, new NSString("cloudsNodeAnimation"));
}
public static SCNPhysicsShape Create(SCNPhysicsShape [] shapes, SCNVector3 [] transforms)
{
if (shapes == null)
{
throw new ArgumentNullException("shapes");
}
if (transforms == null)
{
throw new ArgumentNullException("transforms");
}
var t = new NSValue [transforms.Length];
for (var i = 0; i < t.Length; i++)
{
t [i] = NSValue.FromVector(transforms [i]);
}
return(Create(shapes, t));
}
public static SCNPhysicsShape Create(SCNPhysicsShape [] shapes, SCNVector3 [] transforms)
{
if (shapes == null)
{
ObjCRuntime.ThrowHelper.ThrowArgumentException(nameof(shapes));
}
if (transforms == null)
{
ObjCRuntime.ThrowHelper.ThrowArgumentException(nameof(transforms));
}
var t = new NSValue [transforms.Length];
for (var i = 0; i < t.Length; i++)
{
t [i] = NSValue.FromVector(transforms [i]);
}
return(Create(shapes, t));
}
// Updates the secondary image of the floor if needed
private void UpdateFloorImage(NSImage image, Slide slide)
{
// We don't want to animate if we replace the secondary image by a new one
// Otherwise we want to translate the secondary image to the new location
var disableAction = false;
if (FloorImage != image)
{
FloorImage = image;
disableAction = true;
if (image != null)
{
// Set a new material property with this image to the "floorMap" custom property of the floor
var property = SCNMaterialProperty.Create(image);
property.WrapS = SCNWrapMode.Repeat;
property.WrapT = SCNWrapMode.Repeat;
property.MipFilter = SCNFilterMode.Linear;
Floor.FirstMaterial.SetValueForKey(property, new NSString("floorMap"));
}
}
if (image != null)
{
var slidePosition = slide.GroundNode.ConvertPositionToNode(new SCNVector3(0, 0, 10), null);
if (disableAction)
{
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0;
Floor.FirstMaterial.SetValueForKey(NSValue.FromVector(slidePosition), new NSString("floorImageNamePosition"));
SCNTransaction.Commit();
}
else
{
Floor.FirstMaterial.SetValueForKey(NSValue.FromVector(slidePosition), new NSString("floorImageNamePosition"));
}
}
}
public override void SetupSlide(PresentationViewController presentationViewController)
{
TextManager.SetTitle("Extending Scene Kit with OpenGL");
TextManager.SetSubtitle("Material custom program");
TextManager.AddBulletAtLevel("Custom GLSL code per material", 0);
TextManager.AddBulletAtLevel("Overrides Scene Kit’s rendering", 0);
TextManager.AddBulletAtLevel("Geometry attributes are provided", 0);
TextManager.AddBulletAtLevel("Transform uniforms are also provided", 0);
// Add a torus and animate it
TorusNode = Utils.SCAddChildNode(GroundNode, "torus", "Scenes/torus/torus", 10);
TorusNode.Position = new SCNVector3(8, 8, 4);
TorusNode.Name = "object";
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 10.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
TorusNode.AddAnimation(rotationAnimation, new NSString("torusRotation"));
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
switch (index)
{
case 0:
// Set the slide's title and subtitle and add some text
TextManager.SetTitle("Constraints");
TextManager.SetSubtitle("SCNConstraint");
TextManager.AddBulletAtLevel("Applied sequentially at render time", 0);
TextManager.AddBulletAtLevel("Only affect presentation values", 0);
TextManager.AddCode("#aNode.#Constraints# = new SCNConstraint[] { aConstraint, anotherConstraint, ... };#");
// Tweak the near clipping plane of the spot light to get a precise shadow map
presentationViewController.SpotLight.Light.SetAttribute(new NSNumber(10), SCNLightAttribute.ShadowNearClippingKey);
break;
case 1:
// Remove previous text
TextManager.FlipOutText(SlideTextManager.TextType.Subtitle);
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.FlipOutText(SlideTextManager.TextType.Code);
// Add new text
TextManager.SetSubtitle("SCNLookAtConstraint");
TextManager.AddBulletAtLevel("Makes a node to look at another node", 0);
TextManager.AddCode("#nodeA.Constraints = new SCNConstraint[] { #SCNLookAtConstraint.Create# (nodeB) };#");
TextManager.FlipInText(SlideTextManager.TextType.Subtitle);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
TextManager.FlipInText(SlideTextManager.TextType.Code);
break;
case 2:
// Setup the scene
SetupLookAtScene();
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Dim the text and move back a little bit
TextManager.TextNode.Opacity = 0.5f;
presentationViewController.CameraHandle.Position = presentationViewController.CameraNode.ConvertPositionToNode(new SCNVector3(0, 0, 5.0f), presentationViewController.CameraHandle.ParentNode);
SCNTransaction.Commit();
break;
case 3:
// Add constraints to the arrows
var container = ContentNode.FindChildNode("arrowContainer", true);
// "Look at" constraint
var constraint = SCNLookAtConstraint.Create(BallNode);
var i = 0;
foreach (var arrow in container.ChildNodes)
{
var delayInSeconds = 0.1 * i++;
var popTime = new DispatchTime(DispatchTime.Now, (long)(delayInSeconds * Utils.NSEC_PER_SEC));
DispatchQueue.MainQueue.DispatchAfter(popTime, () => {
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Animate to the result of applying the constraint
((SCNNode)arrow.ChildNodes [0]).Rotation = new SCNVector4(0, 1, 0, (float)(Math.PI / 2));
arrow.Constraints = new SCNConstraint[] { constraint };
SCNTransaction.Commit();
});
}
break;
case 4:
// Create a keyframe animation to move the ball
var animation = CAKeyFrameAnimation.FromKeyPath("position");
animation.KeyTimes = new NSNumber[] {
0.0f,
(1.0f / 8.0f),
(2.0f / 8.0f),
(3.0f / 8.0f),
(4.0f / 8.0f),
(5.0f / 8.0f),
(6.0f / 8.0f),
(7.0f / 8.0f),
1.0f
};
animation.Values = new NSObject[] {
NSValue.FromVector(new SCNVector3(0, 0.0f, 0)),
NSValue.FromVector(new SCNVector3(20.0f, 0.0f, 20.0f)),
NSValue.FromVector(new SCNVector3(40.0f, 0.0f, 0)),
NSValue.FromVector(new SCNVector3(20.0f, 0.0f, -20.0f)),
NSValue.FromVector(new SCNVector3(0, 0.0f, 0)),
NSValue.FromVector(new SCNVector3(-20.0f, 0.0f, 20.0f)),
NSValue.FromVector(new SCNVector3(-40.0f, 0.0f, 0)),
NSValue.FromVector(new SCNVector3(-20.0f, 0.0f, -20.0f)),
NSValue.FromVector(new SCNVector3(0, 0.0f, 0))
};
animation.CalculationMode = CAAnimation.AnimationCubicPaced; // smooth the movement between keyframes
animation.RepeatCount = float.MaxValue;
animation.Duration = 10.0f;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.Linear);
BallNode.AddAnimation(animation, new NSString("ballNodeAnimation"));
// Rotate the ball to give the illusion of a rolling ball
// We need two animations to do that:
// - one rotation to orient the ball in the right direction
// - one rotation to spin the ball
animation = CAKeyFrameAnimation.FromKeyPath("rotation");
animation.KeyTimes = new NSNumber[] {
0.0f,
(0.7f / 8.0f),
(1.0f / 8.0f),
(2.0f / 8.0f),
(3.0f / 8.0f),
(3.3f / 8.0f),
(4.7f / 8.0f),
(5.0f / 8.0f),
(6.0f / 8.0f),
(7.0f / 8.0f),
(7.3f / 8.0f),
1.0f
};
animation.Values = new NSObject[] {
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI / 4))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI / 4))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI / 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI + Math.PI / 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2 - Math.PI / 4))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2 - Math.PI / 4))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2 - Math.PI / 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI - Math.PI / 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI / 4))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI / 4)))
};
animation.RepeatCount = float.MaxValue;
animation.Duration = 10.0f;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.Linear);
BallNode.AddAnimation(animation, new NSString("ballNodeAnimation2"));
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 1.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(1, 0, 0, (float)(Math.PI * 2)));
BallNode.ChildNodes [1].AddAnimation(rotationAnimation, new NSString("ballNodeRotation"));
break;
case 5:
// Add a constraint to the camera
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
constraint = SCNLookAtConstraint.Create(BallNode);
presentationViewController.CameraNode.Constraints = new SCNConstraint[] { constraint };
SCNTransaction.Commit();
break;
case 6:
// Add a constraint to the light
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
var cameraTarget = ContentNode.FindChildNode("cameraTarget", true);
constraint = SCNLookAtConstraint.Create(cameraTarget);
presentationViewController.SpotLight.Constraints = new SCNConstraint[] { constraint };
SCNTransaction.Commit();
break;
}
}
public override void PresentStep(int switchIndex, PresentationViewController presentationViewController)
{
switch (switchIndex)
{
case 0:
// Set the slide's title and subtitle and add some text
TextManager.SetTitle("Core Image");
TextManager.SetSubtitle("CI Filters");
TextManager.AddBulletAtLevel("Screen-space effects", 0);
TextManager.AddBulletAtLevel("Applies to a node hierarchy", 0);
TextManager.AddBulletAtLevel("Filter parameters are animatable", 0);
TextManager.AddCode("#aNode.#Filters# = new CIFilter[] { filter1, filter2 };#");
break;
case 1:
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0f;
// Dim the text and move back a little
TextManager.TextNode.Opacity = 0.0f;
presentationViewController.CameraHandle.Position = presentationViewController.CameraNode.ConvertPositionToNode(new SCNVector3(0, 0, 5.0f), presentationViewController.CameraHandle.ParentNode);
SCNTransaction.Commit();
// Reveal the grid
GroupNode.Opacity = 1;
break;
case 2:
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Highlight an item
HighlightContact(13, presentationViewController);
SCNTransaction.Commit();
break;
case 3:
var index = 13;
var subStep = 0;
// Successively select items
for (var i = 0; i < 5; ++i)
{
var popTime = new DispatchTime(DispatchTime.Now, (long)(i * 0.2 * Utils.NSEC_PER_SEC));
DispatchQueue.MainQueue.DispatchAfter(popTime, () => {
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0.2f;
UnhighlightContact(index);
if (subStep++ == 3)
{
index += ColumnCount;
}
else
{
index++;
}
HighlightContact(index, presentationViewController);
SCNTransaction.Commit();
});
}
break;
case 4:
// BLUR+DESATURATE in the background, GLOW in the foreground
// Here we will change the node hierarchy in order to group all the nodes in the background under a single node.
// This way we can use a single Core Image filter and apply it on the whole grid, and have another CI filter for the node in the foreground.
var selectionParent = HeroNode.ParentNode;
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0;
// Stop the animations of the selected node
HeroNode.Transform = HeroNode.PresentationNode.Transform; // set the current rotation to the current presentation value
HeroNode.RemoveAllAnimations();
// Re-parent the node by preserving its world tranform
var wantedWorldTransform = selectionParent.WorldTransform;
GroupNode.ParentNode.AddChildNode(selectionParent);
selectionParent.Transform = selectionParent.ParentNode.ConvertTransformFromNode(wantedWorldTransform, null);
SCNTransaction.Commit();
// Add CIFilters
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// A negative 'centerX' value means no scaling.
//TODO HeroNode.Filters [0].SetValueForKey (new NSNumber (-1), new NSString ("centerX"));
// Move the selection to the foreground
selectionParent.Rotation = new SCNVector4(0, 1, 0, 0);
HeroNode.Transform = ContentNode.ConvertTransformToNode(SCNMatrix4.CreateTranslation(0, Altitude, 29), selectionParent);
HeroNode.Scale = new SCNVector3(1, 1, 1);
HeroNode.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 4) * 0.25f);
// Upon completion, rotate the selection forever
SCNTransaction.SetCompletionBlock(() => {
var animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 4.0f;
animation.From = NSValue.FromVector(new SCNVector4(0, 1, 0, 0));
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, NMath.PI * 2));
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.RepeatCount = float.MaxValue;
HeroNode.ChildNodes [0].AddAnimation(animation, new NSString("heroNodeAnimation"));
});
// Add the filters
var blurFilter = CIFilter.FromName("CIGaussianBlur");
blurFilter.SetDefaults();
blurFilter.Name = "blur";
blurFilter.SetValueForKey(new NSNumber(0), CIFilterInputKey.Radius);
var desaturateFilter = CIFilter.FromName("CIColorControls");
desaturateFilter.SetDefaults();
desaturateFilter.Name = "desaturate";
GroupNode.Filters = new CIFilter[] { blurFilter, desaturateFilter };
SCNTransaction.Commit();
// Increate the blur radius and desaturate progressively
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 2;
GroupNode.SetValueForKey(new NSNumber(10), new NSString("filters.blur.inputRadius"));
GroupNode.SetValueForKey(new NSNumber(0.1), new NSString("filters.desaturate.inputSaturation"));
SCNTransaction.Commit();
break;
}
}
private void BuildImageGrid()
{
// Create a root node for the grid
GroupNode = SCNNode.Create();
// Retrieve the template node to replicate
var scene = SCNScene.FromFile("Contacts/contact");
var templateNode = scene.RootNode.FindChildNode("people", true);
for (int k = 0, j = 0; j < RowCount; j++)
{
for (var i = 0; i < ColumnCount; i++, k++)
{
// Hierarchy : __groupNode > container > node
var container = SCNNode.Create();
var node = templateNode.Clone();
node.Name = "contact" + k;
GroupNode.AddChildNode(container);
container.AddChildNode(node);
if (k == 28)
{
HeroNode = node;
}
// Curved layout
var angle = 0.12f * ((ColumnCount - 1) / 2.0f - i);
var x = NMath.Cos(angle + (float)(Math.PI / 2)) * 500.0f;
var z = NMath.Sin(angle + (float)(Math.PI / 2)) * 500.0f;
container.Position = new SCNVector3(x, j * 60, -z + 400);
container.Rotation = new SCNVector4(0, 1, 0, angle);
// We want a different image on each elemement and to do that we need to
// unshare the geometry first and then unshare the material
var geometryNode = node.ChildNodes [0];
geometryNode.Geometry = (SCNGeometry)geometryNode.Geometry.Copy();
var materialCopy = (SCNMaterial)geometryNode.Geometry.Materials [1].Copy();
materialCopy.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Contacts/contact" + (k % ContactImageCount), "jpg"));
geometryNode.Geometry.ReplaceMaterial(1, materialCopy);
// Animate (rotate forever)
var animation = CAKeyFrameAnimation.GetFromKeyPath("rotation");
animation.Duration = 4.0f;
animation.KeyTimes = new NSNumber[] { 0.0f, 0.3f, 1.0f };
animation.Values = new NSObject[] { NSValue.FromVector(new SCNVector4(0, 1, 0, 0)),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2))) };
var tf = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.TimingFunctions = new CAMediaTimingFunction[] { tf, tf, tf };
animation.RepeatCount = float.MaxValue;
animation.BeginTime = CAAnimation.CurrentMediaTime() + 1.0f + j * 0.1f + i * 0.05f; // desynchronize the animations
node.AddAnimation(animation, new NSString("animation"));
}
}
// Add the group to the scene
GroupNode.Scale = new SCNVector3(0.03f, 0.03f, 0.03f);
GroupNode.Position = new SCNVector3(0, Altitude - 2.8f, 18);
GroupNode.Opacity = 0.0f;
GroundNode.AddChildNode(GroupNode);
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
switch (index)
{
case 0:
// Set the slide's title and subtitle
TextManager.SetTitle("Scene Graph");
TextManager.SetSubtitle("Summary");
break;
case 1:
// A node that will help visualize the position of the stars
WireframeBoxNode = SCNNode.Create();
WireframeBoxNode.Rotation = new SCNVector4(0, 1, 0, (float)(Math.PI / 4));
WireframeBoxNode.Geometry = SCNBox.Create(1, 1, 1, 0);
WireframeBoxNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("SharedTextures/box_wireframe", "png"));
WireframeBoxNode.Geometry.FirstMaterial.LightingModelName = SCNLightingModel.Constant; // no lighting
WireframeBoxNode.Geometry.FirstMaterial.DoubleSided = true; // double sided
// Sun
SunNode = SCNNode.Create();
SunNode.Position = new SCNVector3(0, 30, 0);
ContentNode.AddChildNode(SunNode);
SunNode.AddChildNode((SCNNode)WireframeBoxNode.Copy());
// Earth-rotation (center of rotation of the Earth around the Sun)
var earthRotationNode = SCNNode.Create();
SunNode.AddChildNode(earthRotationNode);
// Earth-group (will contain the Earth, and the Moon)
EarthGroupNode = SCNNode.Create();
EarthGroupNode.Position = new SCNVector3(15, 0, 0);
earthRotationNode.AddChildNode(EarthGroupNode);
// Earth
EarthNode = (SCNNode)WireframeBoxNode.Copy();
EarthNode.Position = new SCNVector3(0, 0, 0);
EarthGroupNode.AddChildNode(EarthNode);
// Rotate the Earth around the Sun
var animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 10.0f;
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
animation.RepeatCount = float.MaxValue;
earthRotationNode.AddAnimation(animation, new NSString("earth rotation around sun"));
// Rotate the Earth
animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 1.0f;
animation.From = NSValue.FromVector(new SCNVector4(0, 1, 0, 0));
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
animation.RepeatCount = float.MaxValue;
EarthNode.AddAnimation(animation, new NSString("earth rotation"));
break;
case 2:
// Moon-rotation (center of rotation of the Moon around the Earth)
var moonRotationNode = SCNNode.Create();
EarthGroupNode.AddChildNode(moonRotationNode);
// Moon
MoonNode = (SCNNode)WireframeBoxNode.Copy();
MoonNode.Position = new SCNVector3(5, 0, 0);
moonRotationNode.AddChildNode(MoonNode);
// Rotate the moon around the Earth
animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 1.5f;
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
animation.RepeatCount = float.MaxValue;
moonRotationNode.AddAnimation(animation, new NSString("moon rotation around earth"));
// Rotate the moon
animation = CABasicAnimation.FromKeyPath("rotation");
animation.Duration = 1.5f;
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
animation.RepeatCount = float.MaxValue;
MoonNode.AddAnimation(animation, new NSString("moon rotation"));
break;
case 3:
// Add geometries (spheres) to represent the stars
SunNode.Geometry = SCNSphere.Create(2.5f);
EarthNode.Geometry = SCNSphere.Create(1.5f);
MoonNode.Geometry = SCNSphere.Create(0.75f);
// Add a textured plane to represent Earth's orbit
var earthOrbit = SCNNode.Create();
earthOrbit.Opacity = 0.4f;
earthOrbit.Geometry = SCNPlane.Create(31, 31);
earthOrbit.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/orbit", "png"));
earthOrbit.Geometry.FirstMaterial.Diffuse.MipFilter = SCNFilterMode.Linear;
earthOrbit.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 2));
earthOrbit.Geometry.FirstMaterial.LightingModelName = SCNLightingModel.Constant; // no lighting
SunNode.AddChildNode(earthOrbit);
break;
case 4:
// Add a halo to the Sun (a simple textured plane that does not write to depth)
SunHaloNode = SCNNode.Create();
SunHaloNode.Geometry = SCNPlane.Create(30, 30);
SunHaloNode.Rotation = new SCNVector4(1, 0, 0, Pitch * (float)(Math.PI / 180.0f));
SunHaloNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/sun-halo", "png"));
SunHaloNode.Geometry.FirstMaterial.LightingModelName = SCNLightingModel.Constant; // no lighting
SunHaloNode.Geometry.FirstMaterial.WritesToDepthBuffer = false; // do not write to depth
SunHaloNode.Opacity = 0.2f;
SunNode.AddChildNode(SunHaloNode);
// Add materials to the stars
EarthNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/earth-diffuse-mini", "jpg"));
EarthNode.Geometry.FirstMaterial.Emission.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/earth-emissive-mini", "jpg"));
EarthNode.Geometry.FirstMaterial.Specular.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/earth-specular-mini", "jpg"));
MoonNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/moon", "jpg"));
SunNode.Geometry.FirstMaterial.Multiply.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/sun", "jpg"));
SunNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes/earth/sun", "jpg"));
SunNode.Geometry.FirstMaterial.Multiply.Intensity = 0.5f;
SunNode.Geometry.FirstMaterial.LightingModelName = SCNLightingModel.Constant;
SunNode.Geometry.FirstMaterial.Multiply.WrapS =
SunNode.Geometry.FirstMaterial.Diffuse.WrapS =
SunNode.Geometry.FirstMaterial.Multiply.WrapT =
SunNode.Geometry.FirstMaterial.Diffuse.WrapT = SCNWrapMode.Repeat;
EarthNode.Geometry.FirstMaterial.LocksAmbientWithDiffuse =
MoonNode.Geometry.FirstMaterial.LocksAmbientWithDiffuse =
SunNode.Geometry.FirstMaterial.LocksAmbientWithDiffuse = true;
EarthNode.Geometry.FirstMaterial.Shininess = 0.1f;
EarthNode.Geometry.FirstMaterial.Specular.Intensity = 0.5f;
MoonNode.Geometry.FirstMaterial.Specular.Contents = NSColor.Gray;
// Achieve a lava effect by animating textures
animation = CABasicAnimation.FromKeyPath("contentsTransform");
animation.Duration = 10.0f;
var animationTransform1 = CATransform3D.MakeTranslation(0, 0, 0);
animationTransform1 = animationTransform1.Concat(CATransform3D.MakeScale(3, 3, 3));
var animationTransform2 = CATransform3D.MakeTranslation(1, 0, 0);
animationTransform2 = animationTransform1.Concat(CATransform3D.MakeScale(3, 3, 3));
animation.From = NSValue.FromCATransform3D(animationTransform1);
animation.To = NSValue.FromCATransform3D(animationTransform2);
animation.RepeatCount = float.MaxValue;
SunNode.Geometry.FirstMaterial.Diffuse.AddAnimation(animation, new NSString("sun-texture"));
animation = CABasicAnimation.FromKeyPath("contentsTransform");
animation.Duration = 30.0f;
animationTransform1 = CATransform3D.MakeTranslation(0, 0, 0);
animationTransform1 = animationTransform1.Concat(CATransform3D.MakeScale(5, 5, 5));
animationTransform2 = CATransform3D.MakeTranslation(1, 0, 0);
animationTransform2 = animationTransform1.Concat(CATransform3D.MakeScale(5, 5, 5));
animation.From = NSValue.FromCATransform3D(animationTransform1);
animation.To = NSValue.FromCATransform3D(animationTransform2);
animation.RepeatCount = float.MaxValue;
SunNode.Geometry.FirstMaterial.Multiply.AddAnimation(animation, new NSString("sun-texture2"));
break;
case 5:
// We will turn off all the lights in the scene and add a new light
// to give the impression that the Sun lights the scene
var lightNode = SCNNode.Create();
lightNode.Light = SCNLight.Create();
lightNode.Light.Color = NSColor.Black; // initially switched off
lightNode.Light.LightType = SCNLightType.Omni;
SunNode.AddChildNode(lightNode);
// Configure attenuation distances because we don't want to light the floor
lightNode.Light.SetAttribute(new NSNumber(20), SCNLightAttribute.AttenuationEndKey);
lightNode.Light.SetAttribute(new NSNumber(19.5), SCNLightAttribute.AttenuationStartKey);
// Animation
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
lightNode.Light.Color = NSColor.White; // switch on
presentationViewController.UpdateLightingWithIntensities(new float[] { 0.0f }); //switch off all the other lights
SunHaloNode.Opacity = 0.5f; // make the halo stronger
SCNTransaction.Commit();
break;
}
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
switch (index)
{
case 0:
// Hide everything (in case the user went backward)
for (var i = 1; i < 4; i++)
{
var teapot = GroundNode.FindChildNode("Teapot" + i, true);
teapot.Opacity = 0.0f;
}
break;
case 1:
// Move the camera and adjust the clipping plane
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 3;
presentationViewController.CameraNode.Position = new SCNVector3(0, 0, 200);
presentationViewController.CameraNode.Camera.ZFar = 500.0f;
SCNTransaction.Commit();
break;
case 2:
// Revert to original position
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
presentationViewController.CameraNode.Position = new SCNVector3(0, 0, 0);
presentationViewController.CameraNode.Camera.ZFar = 100.0f;
SCNTransaction.Commit();
break;
case 3:
var numberNodes = new SCNNode[] { AddNumberNode("64k", -17),
AddNumberNode("6k", -9),
AddNumberNode("3k", -1),
AddNumberNode("1k", 6.5f),
AddNumberNode("256", 14) };
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Move the camera and the text
presentationViewController.CameraHandle.Position = new SCNVector3(presentationViewController.CameraHandle.Position.X, presentationViewController.CameraHandle.Position.Y + 6, presentationViewController.CameraHandle.Position.Z);
TextManager.TextNode.Position = new SCNVector3(TextManager.TextNode.Position.X, TextManager.TextNode.Position.Y + 6, TextManager.TextNode.Position.Z);
// Show the remaining resolutions
for (var i = 0; i < 5; i++)
{
var numberNode = numberNodes [i];
numberNode.Position = new SCNVector3(numberNode.Position.X, 7, -5);
var teapot = GroundNode.FindChildNode("Teapot" + i, true);
teapot.Opacity = 1.0f;
teapot.Rotation = new SCNVector4(0, 0, 1, (float)(Math.PI / 4));
teapot.Position = new SCNVector3((i - 2) * 8, 5, teapot.Position.Z);
}
SCNTransaction.Commit();
break;
case 4:
presentationViewController.ShowsNewInSceneKitBadge(true);
// Remove the numbers
RemoveNumberNodes();
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
// Add some text and code
TextManager.SetSubtitle("SCNLevelOfDetail");
TextManager.AddCode("#var lod1 = SCNLevelOfDetail.#CreateWithWorldSpaceDistance# (aGeometry, aDistance); \n"
+ "geometry.#LevelsOfDetail# = new SCNLevelOfDetail { lod1, lod2, ..., lodn };#");
// Animation the merge
for (int i = 0; i < 5; i++)
{
var teapot = GroundNode.FindChildNode("Teapot" + i, true);
teapot.Opacity = i == 0 ? 1.0f : 0.0f;
teapot.Rotation = new SCNVector4(0, 0, 1, 0);
teapot.Position = new SCNVector3(0, -5, teapot.Position.Z);
}
// Move the camera and the text
presentationViewController.CameraHandle.Position = new SCNVector3(presentationViewController.CameraHandle.Position.X, presentationViewController.CameraHandle.Position.Y - 3, presentationViewController.CameraHandle.Position.Z);
TextManager.TextNode.Position = new SCNVector3(TextManager.TextNode.Position.X, TextManager.TextNode.Position.Y - 3, TextManager.TextNode.Position.Z);
SCNTransaction.Commit();
break;
case 5:
presentationViewController.ShowsNewInSceneKitBadge(false);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 3;
// Change the lighting to remove the front light and rise the main light
presentationViewController.UpdateLightingWithIntensities(new float[] { 1.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.3f });
presentationViewController.RiseMainLight(true);
// Remove some text
TextManager.FadeOutText(SlideTextManager.TextType.Title);
TextManager.FadeOutText(SlideTextManager.TextType.Subtitle);
TextManager.FadeOutText(SlideTextManager.TextType.Code);
SCNTransaction.Commit();
// Retrieve the main teapot
var maintTeapot = GroundNode.FindChildNode("Teapot0", true);
// The distances to use for each LOD
var distances = new float[] { 30, 50, 90, 150 };
// An array of SCNLevelOfDetail instances that we will build
var levelsOfDetail = new SCNLevelOfDetail[4];
for (var i = 1; i < 5; i++)
{
var teapotNode = GroundNode.FindChildNode("Teapot" + i, true);
var teapot = teapotNode.Geometry;
// Unshare the material because we will highlight the different levels of detail with different colors in the next step
teapot.FirstMaterial = (SCNMaterial)teapot.FirstMaterial.Copy();
// Build the SCNLevelOfDetail instance
var levelOfDetail = SCNLevelOfDetail.CreateWithWorldSpaceDistance(teapot, distances [i - 1]);
levelsOfDetail [i - 1] = levelOfDetail;
}
maintTeapot.Geometry.LevelsOfDetail = levelsOfDetail;
// Duplicate and move the teapots
var startTime = CAAnimation.CurrentMediaTime();
var delay = 0.2;
var rowCount = 9;
var columnCount = 12;
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0;
// Change the far clipping plane to be able to see far away
presentationViewController.CameraNode.Camera.ZFar = 1000.0;
for (var j = 0; j < columnCount; j++)
{
for (var i = 0; i < rowCount; i++)
{
// Clone
var clone = maintTeapot.Clone();
maintTeapot.ParentNode.AddChildNode(clone);
// Animate
var animation = CABasicAnimation.FromKeyPath("position");
animation.Additive = true;
animation.Duration = 1.0;
animation.To = NSValue.FromVector(new SCNVector3((i - rowCount / 2.0f) * 12.0f, 5 + (columnCount - j) * 15.0f, 0));
animation.From = NSValue.FromVector(new SCNVector3(0, 0, 0));
animation.BeginTime = startTime + delay; // desynchronize
// Freeze at the end of the animation
animation.RemovedOnCompletion = false;
animation.FillMode = CAFillMode.Forwards;
clone.AddAnimation(animation, new NSString("cloneAnimation"));
// Animate the hidden property to automatically show the node when the position animation starts
animation = CABasicAnimation.FromKeyPath("hidden");
animation.Duration = delay + 0.01;
animation.FillMode = CAFillMode.Both;
animation.From = new NSNumber(1);
animation.To = new NSNumber(0);
clone.AddAnimation(animation, new NSString("cloneAnimation2"));
delay += 0.05;
}
}
SCNTransaction.Commit();
// Animate the camera while we duplicate the nodes
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0 + rowCount * columnCount * 0.05;
var position = presentationViewController.CameraHandle.Position;
presentationViewController.CameraHandle.Position = new SCNVector3(position.X, position.Y + 5, position.Z);
presentationViewController.CameraPitch.Rotation = new SCNVector4(1, 0, 0, presentationViewController.CameraPitch.Rotation.W - ((float)(Math.PI / 4) * 0.1f));
SCNTransaction.Commit();
break;
case 6:
// Highlight the levels of detail with colors
var teapotChild = GroundNode.FindChildNode("Teapot0", true);
var colors = new NSColor[] { NSColor.Red, NSColor.Orange, NSColor.Yellow, NSColor.Green };
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
for (var i = 0; i < 4; i++)
{
var levelOfDetail = teapotChild.Geometry.LevelsOfDetail [i];
levelOfDetail.Geometry.FirstMaterial.Multiply.Contents = colors [i];
}
SCNTransaction.Commit();
break;
}
}
public override void SetupSlide(PresentationViewController presentationViewController)
{
// Set the slide's title and subtile and add some text
TextManager.SetTitle("Node Attributes");
TextManager.SetSubtitle("SCNGeometry");
TextManager.AddBulletAtLevel("Triangles", 0);
TextManager.AddBulletAtLevel("Vertices", 0);
TextManager.AddBulletAtLevel("Normals", 0);
TextManager.AddBulletAtLevel("UVs", 0);
TextManager.AddBulletAtLevel("Materials", 0);
// We create a container for several versions of the teapot model
// - one teapot to show positions and normals
// - one teapot to show texture coordinates
// - one teapot to show materials
var allTeapotsNode = SCNNode.Create();
allTeapotsNode.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 2));
GroundNode.AddChildNode(allTeapotsNode);
TeapotNodeForPositionsAndNormals = Utils.SCAddChildNode(allTeapotsNode, "TeapotLowRes", "Scenes.scnassets/teapots/teapotLowRes", 17);
TeapotNodeForUVs = Utils.SCAddChildNode(allTeapotsNode, "Teapot", "Scenes.scnassets/teapots/teapot", 17);
TeapotNodeForMaterials = Utils.SCAddChildNode(allTeapotsNode, "teapotMaterials", "Scenes.scnassets/teapots/teapotMaterial", 17);
TeapotNodeForPositionsAndNormals.Position = new SCNVector3(4, 0, 0);
TeapotNodeForUVs.Position = new SCNVector3(4, 0, 0);
TeapotNodeForMaterials.Position = new SCNVector3(4, 0, 0);
foreach (var child in TeapotNodeForMaterials.ChildNodes)
{
foreach (var material in child.Geometry.Materials)
{
material.Multiply.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/teapots/UVs", "png"));
material.Multiply.WrapS = SCNWrapMode.Repeat;
material.Multiply.WrapT = SCNWrapMode.Repeat;
//material.Reflective.Contents = NSColor.White;
//material.Reflective.Intensity = 3.0f;
//material.FresnelExponent = 3.0f;
}
}
// Animate the teapots (rotate forever)
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 40.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 0, 1, (float)(Math.PI * 2)));
TeapotNodeForPositionsAndNormals.AddAnimation(rotationAnimation, new NSString("teapotNodeForPositionsAndNormalsAnimation"));
TeapotNodeForUVs.AddAnimation(rotationAnimation, new NSString("teapotNodeForUVsAnimation"));
TeapotNodeForMaterials.AddAnimation(rotationAnimation, new NSString("teapotNodeForMaterialsAnimation"));
// Load the "explode" shader modifier and add it to the geometry
//var explodeShaderPath = NSBundle.MainBundle.PathForResource ("Shaders/explode", "shader");
//var explodeShaderSource = System.IO.File.ReadAllText (explodeShaderPath);
// TODO TeapotNodeForPositionsAndNormals.Geometry.ShaderModifiers = new SCNShaderModifiers { EntryPointGeometry = explodeShaderSource };
PositionsVisualizationNode = SCNNode.Create();
NormalsVisualizationNode = SCNNode.Create();
// Build nodes that will help visualize the vertices (position and normal)
BuildVisualizationsOfNode(TeapotNodeForPositionsAndNormals, ref PositionsVisualizationNode, ref NormalsVisualizationNode);
NormalsVisualizationNode.CastsShadow = false;
TeapotNodeForMaterials.AddChildNode(PositionsVisualizationNode);
TeapotNodeForMaterials.AddChildNode(NormalsVisualizationNode);
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
SCNTransaction.Begin();
switch (index)
{
case 1:
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.SetSubtitle("API");
TextManager.AddEmptyLine();
TextManager.AddCode("#aMaterial.#ShaderModifiers# = new SCNShaderModifiers {\n"
+ " <Entry Point> = <GLSL Code>\n"
+ "};#");
TextManager.FlipInText(SlideTextManager.TextType.Code);
TextManager.FlipInText(SlideTextManager.TextType.Subtitle);
break;
case 2:
TextManager.FlipOutText(SlideTextManager.TextType.Code);
TextManager.AddEmptyLine();
TextManager.AddCode("#aMaterial.#ShaderModifiers# = new SCNShaderModifiers { \n"
+ " EntryCGPointragment = \n"
+ " new Vector3 (1.0f) - #output#.Color.GetRgb () \n"
+ "};#");
TextManager.FlipInText(SlideTextManager.TextType.Code);
break;
case 3:
TextManager.FlipOutText(SlideTextManager.TextType.Code);
TextManager.FlipOutText(SlideTextManager.TextType.Subtitle);
TextManager.SetSubtitle("Entry points");
TextManager.AddBulletAtLevel("Geometry", 0);
TextManager.AddBulletAtLevel("Surface", 0);
TextManager.AddBulletAtLevel("Lighting", 0);
TextManager.AddBulletAtLevel("Fragment", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
TextManager.FlipInText(SlideTextManager.TextType.Subtitle);
break;
case 4:
SCNTransaction.AnimationDuration = 1;
TextManager.HighlightBullet(0);
// Create a (very) tesselated plane
var plane = SCNPlane.Create(10, 10);
plane.WidthSegmentCount = 200;
plane.HeightSegmentCount = 200;
// Setup the material (same as the floor)
plane.FirstMaterial.Diffuse.WrapS = SCNWrapMode.Mirror;
plane.FirstMaterial.Diffuse.WrapT = SCNWrapMode.Mirror;
plane.FirstMaterial.Diffuse.Contents = new NSImage("/Library/Desktop Pictures/Circles.jpg");
plane.FirstMaterial.Diffuse.ContentsTransform = SCNMatrix4.CreateFromAxisAngle(new SCNVector3(0, 0, 1), NMath.PI / 4);
plane.FirstMaterial.Specular.Contents = NSColor.White;
plane.FirstMaterial.Reflective.Contents = new NSImage(NSBundle.MainBundle.PathForResource("SharedTextures/envmap", "jpg"));
plane.FirstMaterial.Reflective.Intensity = 0.0f;
// Create a node to hold that plane
PlaneNode = SCNNode.Create();
PlaneNode.Position = new SCNVector3(0, 0.1f, 0);
PlaneNode.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 2));
PlaneNode.Scale = new SCNVector3(5, 5, 1);
PlaneNode.Geometry = plane;
ContentNode.AddChildNode(PlaneNode);
// Attach the "wave" shader modifier, and set an initial intensity value of 0
var shaderFile = NSBundle.MainBundle.PathForResource("Shaders/wave", "shader");
var geometryModifier = File.ReadAllText(shaderFile);
PlaneNode.Geometry.ShaderModifiers = new SCNShaderModifiers {
EntryPointGeometry = geometryModifier
};
PlaneNode.Geometry.SetValueForKey(new NSNumber(0.0f), new NSString("intensity"));
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0;
// Show the pseudo code for the deformation
var textNode = TextManager.AddCode("#float len = #geometry#.Position.Xy.Length;\n"
+ "aMaterial.ShaderModifiers = new SCNShaderModifiers { \n"
+ " #EntryPointGeometry# = geometry.Position.Y \n"
+ "};#");
textNode.Position = new SCNVector3(8.5f, 7, 0);
SCNTransaction.Commit();
break;
case 5:
// Progressively increase the intensity
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 2;
PlaneNode.Geometry.SetValueForKey(new NSNumber(1.0f), new NSString("intensity"));
PlaneNode.Geometry.FirstMaterial.Reflective.Intensity = 0.3f;
SCNTransaction.Commit();
// Redraw forever
((SCNView)presentationViewController.View).Playing = true;
((SCNView)presentationViewController.View).Loops = true;
break;
case 6:
SCNTransaction.AnimationDuration = 1;
TextManager.FadeOutText(SlideTextManager.TextType.Code);
// Hide the plane used for the previous modifier
PlaneNode.Geometry.SetValueForKey(new NSNumber(0.0f), new NSString("intensity"));
PlaneNode.Geometry.FirstMaterial.Reflective.Intensity = 0.0f;
PlaneNode.Opacity = 0.0f;
// Create a sphere to illustrate the "car paint" modifier
var sphere = SCNSphere.Create(6);
sphere.SegmentCount = 100;
sphere.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("SharedTextures/noise", "png"));
sphere.FirstMaterial.Diffuse.WrapS = SCNWrapMode.Repeat;
sphere.FirstMaterial.Diffuse.WrapT = SCNWrapMode.Repeat;
sphere.FirstMaterial.Reflective.Contents = new NSImage(NSBundle.MainBundle.PathForResource("SharedTextures/envmap3", "jpg"));
sphere.FirstMaterial.FresnelExponent = 1.3f;
SphereNode = SCNNode.FromGeometry(sphere);
SphereNode.Position = new SCNVector3(5, 6, 0);
GroundNode.AddChildNode(SphereNode);
// Attach the "car paint" shader modifier
shaderFile = NSBundle.MainBundle.PathForResource("Shaders/carPaint", "shader");
var surfaceModifier = File.ReadAllText(shaderFile);
sphere.FirstMaterial.ShaderModifiers = new SCNShaderModifiers {
EntryPointSurface = surfaceModifier
};
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 15.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.By = NSValue.FromVector(new SCNVector4(0, 1, 0, -(float)(Math.PI * 2)));
SphereNode.AddAnimation(rotationAnimation, new NSString("sphereNodeAnimation"));
TextManager.HighlightBullet(1);
break;
case 7:
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.5f;
SCNTransaction.AnimationTimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
// Move the camera closer
presentationViewController.CameraNode.Position = new SCNVector3(5, -0.5f, -17);
SCNTransaction.Commit();
break;
case 8:
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0f;
SCNTransaction.AnimationTimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
// Move back
presentationViewController.CameraNode.Position = new SCNVector3(0, 0, 0);
SCNTransaction.Commit();
break;
case 9:
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0f;
// Hide the sphere used for the previous modifier
SphereNode.Opacity = 0.0f;
SphereNode.Position = new SCNVector3(6, 4, -8);
SCNTransaction.Commit();
SCNTransaction.AnimationDuration = 0;
TextManager.HighlightBullet(2);
// Load the model, animate
var intermediateNode = SCNNode.Create();
intermediateNode.Position = new SCNVector3(4, 0.1f, 10);
TorusNode = Utils.SCAddChildNode(intermediateNode, "torus", "Scenes/torus/torus", 11);
rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 10.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
TorusNode.AddAnimation(rotationAnimation, new NSString("torusNodeAnimation"));
GroundNode.AddChildNode(intermediateNode);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0f;
intermediateNode.Position = new SCNVector3(4, 0.1f, 0);
SCNTransaction.Commit();
break;
case 10:
// Attach the shader modifier
shaderFile = NSBundle.MainBundle.PathForResource("Shaders/toon", "shader");
var lightingModifier = File.ReadAllText(shaderFile);
TorusNode.Geometry.ShaderModifiers = new SCNShaderModifiers {
EntryPointLightingModel = lightingModifier
};
break;
case 11:
SCNTransaction.AnimationDuration = 1.0f;
// Hide the torus used for the previous modifier
TorusNode.Position = new SCNVector3(TorusNode.Position.X, TorusNode.Position.Y, TorusNode.Position.Z - 10);
TorusNode.Opacity = 0.0f;
// Load the model, animate
intermediateNode = SCNNode.Create();
intermediateNode.Position = new SCNVector3(4, -2.6f, 14);
intermediateNode.Scale = new SCNVector3(70, 70, 70);
XRayNode = Utils.SCAddChildNode(intermediateNode, "node", "Scenes/bunny", 12);
XRayNode.Position = new SCNVector3(0, 0, 0);
XRayNode.Opacity = 0.0f;
GroundNode.AddChildNode(intermediateNode);
rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 10.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.From = NSValue.FromVector(new SCNVector4(0, 1, 0, 0));
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
intermediateNode.AddAnimation(rotationAnimation, new NSString("bunnyNodeAnimation"));
TextManager.HighlightBullet(3);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1.0f;
XRayNode.Opacity = 1.0f;
intermediateNode.Position = new SCNVector3(4, -2.6f, -2);
SCNTransaction.Commit();
break;
case 12:
// Attach the "x ray" modifier
shaderFile = NSBundle.MainBundle.PathForResource("Shaders/xRay", "shader");
var fragmentModifier = File.ReadAllText(shaderFile);
XRayNode.Geometry.ShaderModifiers = new SCNShaderModifiers {
EntryPointFragment = fragmentModifier
};
XRayNode.Geometry.FirstMaterial.ReadsFromDepthBuffer = false;
break;
case 13:
// Highlight everything
TextManager.HighlightBullet(-1);
// Hide the node used for the previous modifier
XRayNode.Opacity = 0.0f;
XRayNode.ParentNode.Position = new SCNVector3(4, -2.6f, -5);
// Create the model
sphere = SCNSphere.Create(5);
sphere.SegmentCount = 150; // tesselate a lot
VirusNode = SCNNode.FromGeometry(sphere);
VirusNode.Position = new SCNVector3(3, 6, 0);
VirusNode.Rotation = new SCNVector4(1, 0, 0, Pitch * (float)(Math.PI / 180.0f));
GroundNode.AddChildNode(VirusNode);
// Set the shader modifiers
var geomFile = NSBundle.MainBundle.PathForResource("Shaders/sm_geom", "shader");
var surfFile = NSBundle.MainBundle.PathForResource("Shaders/sm_surf", "shader");
var lightFile = NSBundle.MainBundle.PathForResource("Shaders/sm_light", "shader");
var fragFile = NSBundle.MainBundle.PathForResource("Shaders/sm_frag", "shader");
geometryModifier = File.ReadAllText(geomFile);
surfaceModifier = File.ReadAllText(surfFile);
lightingModifier = File.ReadAllText(lightFile);
fragmentModifier = File.ReadAllText(fragFile);
VirusNode.Geometry.FirstMaterial.ShaderModifiers = new SCNShaderModifiers {
EntryPointGeometry = geometryModifier,
EntryPointSurface = surfaceModifier,
EntryPointLightingModel = lightingModifier,
EntryPointFragment = fragmentModifier
};
break;
case 14:
SCNTransaction.AnimationDuration = 1.0f;
// Hide the node used for the previous modifier
VirusNode.Opacity = 0.0f;
VirusNode.Position = new SCNVector3(3, 6, -10);
// Change the text
TextManager.FadeOutText(SlideTextManager.TextType.Code);
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.FlipOutText(SlideTextManager.TextType.Subtitle);
TextManager.SetSubtitle("SCNShadable");
TextManager.AddBulletAtLevel("Protocol adopted by SCNMaterial and SCNGeometry", 0);
TextManager.AddBulletAtLevel("Shaders parameters are animatable", 0);
TextManager.AddBulletAtLevel("Texture samplers are bound to a SCNMaterialProperty", 0);
TextManager.AddCode("#var aProperty = SCNMaterialProperty.#Create# (anImage);\n"
+ "aMaterial.#SetValueForKey# (aProperty, #new NSString# (\"aSampler\"));#");
TextManager.FlipInText(SlideTextManager.TextType.Subtitle);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
TextManager.FlipInText(SlideTextManager.TextType.Code);
break;
}
SCNTransaction.Commit();
}
// Create a carousel of 3D primitives
private void PresentPrimitives()
{
// Create the carousel node. It will host all the primitives as child nodes.
CarouselNode = SCNNode.Create();
CarouselNode.Position = new SCNVector3(0, 0.1f, -5);
CarouselNode.Scale = new SCNVector3(0, 0, 0); // start infinitely small
ContentNode.AddChildNode(CarouselNode);
// Animate the scale to achieve a "grow" effect
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
CarouselNode.Scale = new SCNVector3(1, 1, 1);
SCNTransaction.Commit();
// Rotate the carousel forever
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 40.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)Math.PI * 2));
CarouselNode.AddAnimation(rotationAnimation, new NSString("rotationAnimation"));
// A material shared by all the primitives
var sharedMaterial = SCNMaterial.Create();
sharedMaterial.Reflective.Contents = new NSImage(NSBundle.MainBundle.PathForResource("SharedTextures/envmap", "jpg"));
sharedMaterial.Reflective.Intensity = 0.2f;
sharedMaterial.DoubleSided = true;
PrimitiveIndex = 0;
// SCNBox
var box = SCNBox.Create(5.0f, 5.0f, 5.0f, 5.0f * 0.05f);
box.WidthSegmentCount = 4;
box.HeightSegmentCount = 4;
box.LengthSegmentCount = 4;
box.ChamferSegmentCount = 4;
AddPrimitive(box, 5.0f / 2, rotationAnimation, sharedMaterial);
// SCNPyramid
var pyramid = SCNPyramid.Create(5.0f * 0.8f, 5.0f, 5.0f * 0.8f);
pyramid.WidthSegmentCount = 4;
pyramid.HeightSegmentCount = 10;
pyramid.LengthSegmentCount = 4;
AddPrimitive(pyramid, 0, rotationAnimation, sharedMaterial);
// SCNCone
var cone = SCNCone.Create(0, 5.0f / 2, 5.0f);
cone.RadialSegmentCount = 20;
cone.HeightSegmentCount = 4;
AddPrimitive(cone, 5.0f / 2, rotationAnimation, sharedMaterial);
// SCNTube
var tube = SCNTube.Create(5.0f * 0.25f, 5.0f * 0.5f, 5.0f);
tube.HeightSegmentCount = 5;
tube.RadialSegmentCount = 40;
AddPrimitive(tube, 5.0f / 2, rotationAnimation, sharedMaterial);
// SCNCapsule
var capsule = SCNCapsule.Create(5.0f * 0.4f, 5.0f * 1.4f);
capsule.HeightSegmentCount = 5;
capsule.RadialSegmentCount = 20;
AddPrimitive(capsule, 5.0f * 0.7f, rotationAnimation, sharedMaterial);
// SCNCylinder
var cylinder = SCNCylinder.Create(5.0f * 0.5f, 5.0f);
cylinder.HeightSegmentCount = 5;
cylinder.RadialSegmentCount = 40;
AddPrimitive(cylinder, 5.0f / 2, rotationAnimation, sharedMaterial);
// SCNSphere
var sphere = SCNSphere.Create(5.0f * 0.5f);
sphere.SegmentCount = 20;
AddPrimitive(sphere, 5.0f / 2, rotationAnimation, sharedMaterial);
// SCNTorus
var torus = SCNTorus.Create(5.0f * 0.5f, 5.0f * 0.25f);
torus.RingSegmentCount = 40;
torus.PipeSegmentCount = 20;
AddPrimitive(torus, 5.0f / 4, rotationAnimation, sharedMaterial);
// SCNPlane
var plane = SCNPlane.Create(5.0f, 5.0f);
plane.WidthSegmentCount = 5;
plane.HeightSegmentCount = 5;
plane.CornerRadius = 5.0f * 0.1f;
AddPrimitive(plane, 5.0f / 2, rotationAnimation, sharedMaterial);
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
switch (index)
{
case (int)ParticleSteps.Fire:
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddEmptyLine();
TextManager.AddBulletAtLevel("Particle Image", 0);
TextManager.AddBulletAtLevel("Color over life duration", 0);
TextManager.AddBulletAtLevel("Size over life duration", 0);
TextManager.AddBulletAtLevel("Several blend modes", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
var hole = SCNNode.Create();
hole.Geometry = SCNTube.Create(1.7f, 1.9f, 1.5f);
hole.Position = new SCNVector3(0, 0, HOLE_Z);
hole.Scale = new SCNVector3(1, 0, 1);
GroundNode.AddChildNode(hole);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0.5f;
hole.Scale = new SCNVector3(1, 1, 1);
SCNTransaction.Commit();
var ps = SCNParticleSystem.Create("fire", "Particles");
hole.AddParticleSystem(ps);
Hole = hole;
break;
case (int)ParticleSteps.FireScreen:
ps = Hole.ParticleSystems [0];
ps.BlendMode = SCNParticleBlendMode.Screen;
break;
case (int)ParticleSteps.Local:
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Local vs Global", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
Hole.RemoveAllParticleSystems();
Hole2 = Hole.Clone();
Hole2.Geometry = (SCNGeometry)Hole.Geometry.Copy();
Hole2.Position = new SCNVector3(0, -2, HOLE_Z - 4);
GroundNode.AddChildNode(Hole2);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0.5;
Hole2.Position = new SCNVector3(0, 0, HOLE_Z - 4);
SCNTransaction.Commit();
ps = SCNParticleSystem.Create("reactor", "Particles");
ps.ParticleColorVariation = new SCNVector4(0, 0, 0.5f, 0);
Hole.AddParticleSystem(ps);
var localPs = (SCNParticleSystem)ps.Copy();
localPs.ParticleImage = ps.ParticleImage;
localPs.Local = true;
Hole2.AddParticleSystem(localPs);
var animation = CABasicAnimation.FromKeyPath("position");
animation.From = NSValue.FromVector(new SCNVector3(7, 0, HOLE_Z));
animation.To = NSValue.FromVector(new SCNVector3(-7, 0, HOLE_Z));
animation.BeginTime = CAAnimation.CurrentMediaTime() + 0.75;
animation.Duration = 8;
animation.AutoReverses = true;
animation.RepeatCount = float.MaxValue;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.TimeOffset = animation.Duration / 2;
Hole.AddAnimation(animation, new NSString("animateHole"));
animation = CABasicAnimation.FromKeyPath("position");
animation.From = NSValue.FromVector(new SCNVector3(-7, 0, HOLE_Z - 4));
animation.To = NSValue.FromVector(new SCNVector3(7, 0, HOLE_Z - 4));
animation.BeginTime = CAAnimation.CurrentMediaTime() + 0.75;
animation.Duration = 8;
animation.AutoReverses = true;
animation.RepeatCount = float.MaxValue;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.TimeOffset = animation.Duration / 2;
Hole2.AddAnimation(animation, new NSString("animateHole"));
break;
case (int)ParticleSteps.Gravity:
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Affected by gravity", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
Hole2.RemoveAllParticleSystems();
Hole2.RunAction(SCNAction.Sequence(new SCNAction[] {
SCNAction.ScaleTo(0, 0.5),
SCNAction.RemoveFromParentNode()
}));
Hole.RemoveAllParticleSystems();
Hole.RemoveAnimation(new NSString("animateHole"), 0.5f);
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0.5;
var tube = (SCNTube)Hole.Geometry;
tube.InnerRadius = 0.3f;
tube.OuterRadius = 0.4f;
tube.Height = 1.0f;
SCNTransaction.Commit();
ps = SCNParticleSystem.Create("sparks", "Particles");
Hole.RemoveAllParticleSystems();
Hole.AddParticleSystem(ps);
foreach (var child in ((SCNView)presentationViewController.View).Scene.RootNode.ChildNodes)
{
if (child.Geometry != null)
{
if (child.Geometry.GetType() == typeof(SCNFloor))
{
FloorNode = child;
}
}
}
/*FloorNode = ((SCNView)presentationViewController.View).Scene.RootNode.FindNodes ((SCNNode child, out bool stop) => {
* stop = false;
* if (child.Geometry != null)
* stop = (child.Geometry.GetType () == typeof(SCNFloor));
* return stop;
* });*/
/*FloorNode = [presentationViewController.view.scene.rootNode childNodesPassingTest:^BOOL(SCNNode *child, BOOL *stop) {
* return [child.geometry isKindOfClass:[SCNFloor class]];
* }][0];*/
ps.ColliderNodes = new SCNNode[] { FloorNode };
break;
case (int)ParticleSteps.Collider:
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Affected by colliders", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
var boxNode = SCNNode.Create();
boxNode.Geometry = SCNBox.Create(5, 0.2f, 5, 0);
boxNode.Position = new SCNVector3(0, 7, HOLE_Z);
boxNode.Geometry.FirstMaterial.Emission.Contents = NSColor.DarkGray;
GroundNode.AddChildNode(boxNode);
ps = Hole.ParticleSystems [0];
ps.ColliderNodes = new SCNNode[] { FloorNode, boxNode };
animation = CABasicAnimation.FromKeyPath("eulerAngles");
animation.From = NSValue.FromVector(new SCNVector3(0, 0, NMath.PI / 4 * 1.7f));
animation.To = NSValue.FromVector(new SCNVector3(0, 0, -NMath.PI / 4 * 1.7f));
animation.BeginTime = CAAnimation.CurrentMediaTime() + 0.5;
animation.Duration = 2;
animation.AutoReverses = true;
animation.RepeatCount = float.MaxValue;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.TimeOffset = animation.Duration / 2;
boxNode.AddAnimation(animation, new NSString("animateHole"));
BoxNode = boxNode;
break;
case (int)ParticleSteps.Fields:
Hole.RemoveAllParticleSystems();
Hole.RunAction(SCNAction.Sequence(new SCNAction[] {
SCNAction.ScaleTo(0, 0.75),
SCNAction.RemoveFromParentNode()
}));
BoxNode.RunAction(SCNAction.Sequence(new SCNAction[] {
SCNAction.MoveBy(0, 15, 0, 1.0),
SCNAction.RemoveFromParentNode()
}));
var particleHolder = SCNNode.Create();
particleHolder.Position = new SCNVector3(0, 20, HOLE_Z);
GroundNode.AddChildNode(particleHolder);
ParticleHolder = particleHolder;
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Affected by physics fields", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
ps = SCNParticleSystem.Create("snow", "Particles");
ps.AffectedByPhysicsFields = true;
ParticleHolder.AddParticleSystem(ps);
Snow = ps;
//physics field
var field = SCNPhysicsField.CreateTurbulenceField(50, 1);
field.HalfExtent = new SCNVector3(20, 20, 20);
field.Strength = 4.0f;
var fieldOwner = SCNNode.Create();
fieldOwner.Position = new SCNVector3(0, 5, HOLE_Z);
GroundNode.AddChildNode(fieldOwner);
fieldOwner.PhysicsField = field;
FieldOwner = fieldOwner;
ps.ColliderNodes = new SCNNode[] { FloorNode };
break;
case (int)ParticleSteps.FieldsVortex:
VortexFieldOwner = SCNNode.Create();
VortexFieldOwner.Position = new SCNVector3(0, 5, HOLE_Z);
GroundNode.AddChildNode(VortexFieldOwner);
//tornado
var worldOrigin = new SCNVector3(FieldOwner.WorldTransform.M41, FieldOwner.WorldTransform.M42, FieldOwner.WorldTransform.M43);
var worldAxis = new SCNVector3(0, 1, 0);
var vortex = SCNPhysicsField.CustomField((SCNVector3 position, SCNVector3 velocity, float mass, float charge, double timeInSeconds) => {
var l = new SCNVector3();
l.X = worldOrigin.X - position.X;
l.Z = worldOrigin.Z - position.Z;
SCNVector3 t = Cross(worldAxis, l);
var d2 = (l.X * l.X + l.Z * l.Z);
var vs = (nfloat)(VS / Math.Sqrt(d2));
var fy = (nfloat)(1.0 - (Math.Min(1.0, (position.Y / 15.0))));
return(new SCNVector3(t.X * vs + l.X * (nfloat)VW * fy, 0, t.Z * vs + l.Z * (nfloat)VW * fy));
});
vortex.HalfExtent = new SCNVector3(100, 100, 100);
VortexFieldOwner.PhysicsField = vortex;
break;
case (int)ParticleSteps.SubSystems:
FieldOwner.RemoveFromParentNode();
ParticleHolder.RemoveAllParticleSystems();
Snow.DampingFactor = -1;
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Sub-particle system on collision", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
ps = SCNParticleSystem.Create("rain", "Particles");
var pss = SCNParticleSystem.Create("plok", "Particles");
pss.IdleDuration = 0;
pss.Loops = false;
ps.SystemSpawnedOnCollision = pss;
ParticleHolder.AddParticleSystem(ps);
ps.ColliderNodes = new SCNNode[] { FloorNode };
break;
case (int)ParticleSteps.Confetti:
ParticleHolder.RemoveAllParticleSystems();
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Custom blocks", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
ps = SCNParticleSystem.Create();
ps.EmitterShape = SCNBox.Create(20, 9, 5, 0);
ps.BirthRate = 100;
ps.ParticleLifeSpan = 10;
ps.ParticleLifeSpanVariation = 0;
ps.SpreadingAngle = 20;
ps.ParticleSize = 0.25f;
ps.ParticleVelocity = 10;
ps.ParticleVelocityVariation = 19;
ps.BirthDirection = SCNParticleBirthDirection.Constant;
ps.EmittingDirection = new SCNVector3(0, -1, 0);
ps.BirthLocation = SCNParticleBirthLocation.Volume;
ps.ParticleImage = new NSImage(NSBundle.MainBundle.PathForResource("Particles/confetti", "png"));
ps.LightingEnabled = true;
ps.OrientationMode = SCNParticleOrientationMode.Free;
ps.SortingMode = SCNParticleSortingMode.Distance;
ps.ParticleAngleVariation = 180;
ps.ParticleAngularVelocity = 200;
ps.ParticleAngularVelocityVariation = 400;
ps.ParticleColor = NSColor.Green;
ps.ParticleColorVariation = new SCNVector4(0.2f, 0.1f, 0.1f, 0);
ps.ParticleBounce = 0;
ps.ParticleFriction = 0.6f;
ps.ColliderNodes = new SCNNode[] { FloorNode };
ps.BlendMode = SCNParticleBlendMode.Alpha;
var floatAnimation = CAKeyFrameAnimation.FromKeyPath("");
floatAnimation.Values = new NSNumber[] { 1, 1, 0 };
floatAnimation.KeyTimes = new NSNumber[] { 0, 0.9f, 1 };
floatAnimation.Duration = 1.0f;
floatAnimation.Additive = false;
//ps.PropertyControllers = @{ SCNParticlePropertyOpacity: [SCNParticlePropertyController controllerWithAnimation:floatAnimation] };
//ps.HandleEvent (SCNParticleEvent.Birth,
/*[ps handleEvent:SCNParticleEventBirth forProperties:@[SCNParticlePropertyColor] withBlock:^(void **data, size_t *dataStride, uint32_t *indices , NSInteger count) {
*
* for (int i = 0; i < count; ++i) {
* var col = (float *)((char *)data[0] + dataStride[0] * i);
* if (rand() & 0x1) { // swith green for red
* col[0] = col[1];
* col[1] = 0;
* }
*
* }
* }];*/
/*[ps handleEvent:SCNParticleEventCollision forProperties:@[SCNParticlePropertyAngle, SCNParticlePropertyRotationAxis, SCNParticlePropertyAngularVelocity, SCNParticlePropertyVelocity, SCNParticlePropertyContactNormal] withBlock:^(void **data, size_t *dataStride, uint32_t *indices , NSInteger count) {
*
* for (NSInteger i = 0; i < count; ++i) {
* // fix orientation
* float *angle = (float *)((char *)data[0] + dataStride[0] * indices[i]);
* float *axis = (float *)((char *)data[1] + dataStride[1] * indices[i]);
*
* float *colNrm = (float *)((char *)data[4] + dataStride[4] * indices[i]);
* SCNVector3 collisionNormal = {colNrm[0], colNrm[1], colNrm[2]};
* SCNVector3 cp = SCNVector3CrossProduct(collisionNormal, SCNVector3Make(0, 0, 1));
* CGFloat cpLen = SCNVector3Length(cp);
* angle[0] = asin(cpLen);
*
* axis[0] = cp.x / cpLen;
* axis[1] = cp.y / cpLen;
* axis[2] = cp.z / cpLen;
*
* // kill angular rotation
* float *angVel = (float *)((char *)data[2] + dataStride[2] * indices[i]);
* angVel[0] = 0;
*
* if (colNrm[1] > 0.4) {
* float *vel = (float *)((char *)data[3] + dataStride[3] * indices[i]);
* vel[0] = 0;
* vel[1] = 0;
* vel[2] = 0;
* }
* }
* }];*/
ParticleHolder.AddParticleSystem(ps);
break;
case (int)ParticleSteps.EmitterCube:
ParticleHolder.RemoveAllParticleSystems();
TextManager.FlipOutText(SlideTextManager.TextType.Bullet);
TextManager.AddBulletAtLevel("Emitter shape", 0);
TextManager.FlipInText(SlideTextManager.TextType.Bullet);
ParticleHolder.RemoveFromParentNode();
ps = SCNParticleSystem.Create("emitters", "Particles");
ps.Local = true;
ParticleHolder.AddParticleSystem(ps);
var node = SCNNode.Create();
node.Position = new SCNVector3(3, 6, HOLE_Z);
node.RunAction(SCNAction.RepeatActionForever(SCNAction.RotateBy(NMath.PI * 2, new SCNVector3(0.3f, 1, 0), 8)));
GroundNode.AddChildNode(node);
Bokeh = ps;
node.AddParticleSystem(ps);
break;
case (int)ParticleSteps.EmitterSphere:
Bokeh.EmitterShape = SCNSphere.Create(5);
break;
case (int)ParticleSteps.EmitterTorus:
Bokeh.EmitterShape = SCNTorus.Create(5, 1);
break;
}
}
public override void SetupSlide(PresentationViewController presentationViewController)
{
// Set the slide's title and add some code
TextManager.SetTitle("Materials");
TextManager.AddBulletAtLevel("Diffuse", 0);
TextManager.AddBulletAtLevel("Ambient", 0);
TextManager.AddBulletAtLevel("Specular", 0);
TextManager.AddBulletAtLevel("Normal", 0);
TextManager.AddBulletAtLevel("Reflective", 0);
TextManager.AddBulletAtLevel("Emission", 0);
TextManager.AddBulletAtLevel("Transparent", 0);
TextManager.AddBulletAtLevel("Multiply", 0);
// Create a node for Earth and another node to display clouds
// Use the 'pivot' property to tilt Earth because we don't want to see the north pole.
EarthNode = SCNNode.Create();
EarthNode.Pivot = SCNMatrix4.CreateFromAxisAngle(new SCNVector3(1, 0, 0), (float)(Math.PI * 0.1f));
EarthNode.Position = new SCNVector3(6, 7.2f, -2);
EarthNode.Geometry = SCNSphere.Create(7.2f);
CloudsNode = SCNNode.Create();
CloudsNode.Geometry = SCNSphere.Create(7.9f);
GroundNode.AddChildNode(EarthNode);
EarthNode.AddChildNode(CloudsNode);
// Initially hide everything
EarthNode.Opacity = 1.0f;
CloudsNode.Opacity = 0.5f;
EarthNode.Geometry.FirstMaterial.Ambient.Intensity = 1;
EarthNode.Geometry.FirstMaterial.Normal.Intensity = 1;
EarthNode.Geometry.FirstMaterial.Reflective.Intensity = 0.2f;
EarthNode.Geometry.FirstMaterial.Reflective.Contents = NSColor.White;
EarthNode.Geometry.FirstMaterial.FresnelExponent = 3;
EarthNode.Geometry.FirstMaterial.Emission.Intensity = 1;
EarthNode.Geometry.FirstMaterial.Diffuse.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/earth/earth-diffuse", "jpg"));
EarthNode.Geometry.FirstMaterial.Shininess = 0.1f;
EarthNode.Geometry.FirstMaterial.Specular.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/earth/earth-specular", "jpg"));
EarthNode.Geometry.FirstMaterial.Specular.Intensity = 0.8f;
EarthNode.Geometry.FirstMaterial.Normal.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/earth/earth-bump", "png"));
EarthNode.Geometry.FirstMaterial.Normal.Intensity = 1.3f;
EarthNode.Geometry.FirstMaterial.Emission.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/earth/earth-emissive", "jpg"));
//EarthNode.Geometry.FirstMaterial.Reflective.Intensity = 1.0f;
// This effect can also be achieved with an image with some transparency set as the contents of the 'diffuse' property
CloudsNode.Geometry.FirstMaterial.Transparent.Contents = new NSImage(NSBundle.MainBundle.PathForResource("Scenes.scnassets/earth/cloudsTransparency", "png"));
CloudsNode.Geometry.FirstMaterial.TransparencyMode = SCNTransparencyMode.RgbZero;
// Use a shader modifier to display an environment map independently of the lighting model used
/*EarthNode.Geometry.ShaderModifiers = new SCNShaderModifiers {
* EntryCGPointragment = " _output.color.rgb -= _surface.reflective.rgb * _lightingContribution.diffuse;"
+ "_output.color.rgb += _surface.reflective.rgb;"
+ };*/
// Add animations
var rotationAnimation = CABasicAnimation.FromKeyPath("rotation");
rotationAnimation.Duration = 40.0f;
rotationAnimation.RepeatCount = float.MaxValue;
rotationAnimation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)));
EarthNode.AddAnimation(rotationAnimation, new NSString("earthNodeAnimation"));
rotationAnimation.Duration = 100.0f;
CloudsNode.AddAnimation(rotationAnimation, new NSString("cloudsNodeAnimation"));
//animate light
var lightHandleNode = SCNNode.Create();
var lightNode = SCNNode.Create();
lightNode.Light = SCNLight.Create();
lightNode.Light.LightType = SCNLightType.Directional;
lightNode.Light.CastsShadow = true;
lightHandleNode.RunAction(SCNAction.RepeatActionForever(SCNAction.RotateBy(0, -NMath.PI * 2, 0, 12)));
lightHandleNode.AddChildNode(lightNode);
EarthNode.AddChildNode(lightHandleNode);
}
public static void SetFloat4(this SCNGeometry geometry, string uniform, SCNVector4 value)
{
geometry.SetValueForKey(NSValue.FromVector(value), new NSString(uniform));
}
void Setup()
{
// create a new scene
var scene = SCNScene.FromFile("art.scnassets/ship");
// create and add a camera to the scene
var cameraNode = SCNNode.Create();
cameraNode.Camera = SCNCamera.Create();
scene.RootNode.AddChildNode(cameraNode);
// place the camera
cameraNode.Position = new SCNVector3(0, 0, 15);
// create and add a light to the scene
var lightNode = SCNNode.Create();
lightNode.Light = SCNLight.Create();
lightNode.Light.LightType = SCNLightType.Omni;
lightNode.Position = new SCNVector3(0, 10, 10);
scene.RootNode.AddChildNode(lightNode);
// create and add an ambient light to the scene
var ambientLightNode = SCNNode.Create();
ambientLightNode.Light = SCNLight.Create();
ambientLightNode.Light.LightType = SCNLightType.Ambient;
ambientLightNode.Light.Color = SKColor.DarkGray;
scene.RootNode.AddChildNode(ambientLightNode);
// retrieve the ship node
var ship = scene.RootNode.FindChildNode("ship", true);
// animate the 3d object
#if __IOS__
ship.RunAction(SCNAction.RepeatActionForever(SCNAction.RotateBy(0, 2, 0, 1)));
#else
var animation = CABasicAnimation.FromKeyPath("rotation");
animation.To = NSValue.FromVector(new SCNVector4(0, 1, 0, NMath.PI * 2));
animation.Duration = 3;
animation.RepeatCount = float.MaxValue; //repeat forever
ship.AddAnimation(animation, null);
#endif
// retrieve the SCNView
var scnView = (SCNView)View;
// set the scene to the view
scnView.Scene = scene;
// allows the user to manipulate the camera
scnView.AllowsCameraControl = true;
// show statistics such as fps and timing information
scnView.ShowsStatistics = true;
// configure the view
scnView.BackgroundColor = SKColor.Black;
#if __IOS__
// add a tap gesture recognizer
var tapGesture = new UITapGestureRecognizer(HandleTap);
var gestureRecognizers = new List <UIGestureRecognizer> ();
gestureRecognizers.Add(tapGesture);
gestureRecognizers.AddRange(scnView.GestureRecognizers);
scnView.GestureRecognizers = gestureRecognizers.ToArray();
#endif
}
// Takes a string an creates a node hierarchy where each letter is an independent geometry that is animated
private SCNNode SplittedStylizedText(string message)
{
var textNode = SCNNode.Create();
var frontMaterial = TextFrontMaterial();
var border = TextSideAndChamferMaterial();
// Current x position of the next letter to add
var positionX = 0.0f;
// For each letter
for (var i = 0; i < message.Length; i++)
{
var letterNode = SCNNode.Create();
var letterString = message.Substring(i, 1);
var text = SCNText.Create(letterString, 50.0f);
text.Font = NSFont.FromFontName("Avenir Next Heavy", 288);
text.ChamferRadius = 3.0f;
text.ChamferProfile = TextChamferProfile();
// use a different material for the "heart" character
var finalFrontMaterial = frontMaterial;
if (i == 1)
{
finalFrontMaterial = (SCNMaterial)finalFrontMaterial.Copy();
finalFrontMaterial.Diffuse.Contents = NSColor.Red;
finalFrontMaterial.Reflective.Contents = NSColor.Black;
letterNode.Scale = new SCNVector3(1.1f, 1.1f, 1.0f);
}
text.Materials = new SCNMaterial[] { finalFrontMaterial, finalFrontMaterial, border, border, border };
letterNode.Geometry = text;
textNode.AddChildNode(letterNode);
// measure the letter we just added to update the position
SCNVector3 min, max;
max = new SCNVector3(0, 0, 0);
min = new SCNVector3(0, 0, 0);
if (letterNode.GetBoundingBox(ref min, ref max))
{
letterNode.Position = new SCNVector3(positionX - min.X + (max.X + min.X) * 0.5f, -min.Y, 0);
positionX += (float)max.X;
}
else
{
// if we have no bounding box, it is probably because of the "space" character. In that case, move to the right a little bit.
positionX += 50.0f;
}
// Place the pivot at the center of the letter so that the rotation animation looks good
letterNode.Pivot = SCNMatrix4.CreateTranslation((max.X + min.X) * 0.5f, 0, 0);
// Animate the letter
var animation = CAKeyFrameAnimation.GetFromKeyPath("rotation");
animation.Duration = 4.0f;
animation.KeyTimes = new NSNumber[] { 0.0f, 0.3f, 1.0f };
animation.Values = new NSObject[] {
NSValue.FromVector(new SCNVector4(0, 1, 0, 0)),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2))),
NSValue.FromVector(new SCNVector4(0, 1, 0, (float)(Math.PI * 2)))
};
var timingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.TimingFunctions = new CAMediaTimingFunction[] { timingFunction, timingFunction, timingFunction };
animation.RepeatCount = float.MaxValue;
animation.BeginTime = CAAnimation.CurrentMediaTime() + 1.0 + i * 0.2; // desynchronize animations
letterNode.AddAnimation(animation, new NSString("letterNodeAnimation"));
}
return(textNode);
}
public override void PresentStep(int index, PresentationViewController presentationViewController)
{
switch (index)
{
case 1:
// Load the scene
var intermediateNode = SCNNode.Create();
intermediateNode.Position = new SCNVector3(0.0f, 0.1f, -24.5f);
intermediateNode.Scale = new SCNVector3(2.3f, 1.0f, 1.0f);
intermediateNode.Opacity = 0.0f;
RoomNode = Utils.SCAddChildNode(intermediateNode, "Mesh", "Scenes/cornell-box/cornell-box", 15);
ContentNode.AddChildNode(intermediateNode);
// Hide the light maps for now
foreach (var material in RoomNode.Geometry.Materials)
{
material.Multiply.Intensity = 0.0f;
material.LightingModelName = SCNLightingModel.Blinn;
}
// Animate the point of view with an implicit animation.
// On completion add to move the camera from right to left and back and forth.
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 0.75f;
SCNTransaction.SetCompletionBlock(() => {
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 2;
SCNTransaction.SetCompletionBlock(() => {
var animation = CABasicAnimation.FromKeyPath("position");
animation.Duration = 10.0f;
animation.Additive = true;
animation.To = NSValue.FromVector(new SCNVector3(-5, 0, 0));
animation.From = NSValue.FromVector(new SCNVector3(5, 0, 0));
animation.TimeOffset = -animation.Duration / 2;
animation.AutoReverses = true;
animation.TimingFunction = CAMediaTimingFunction.FromName(CAMediaTimingFunction.EaseInEaseOut);
animation.RepeatCount = float.MaxValue;
presentationViewController.CameraNode.AddAnimation(animation, new NSString("myAnim"));
});
presentationViewController.CameraHandle.Position = presentationViewController.CameraHandle.ConvertPositionToNode(new SCNVector3(0, +5, -30), presentationViewController.CameraHandle.ParentNode);
presentationViewController.CameraPitch.Rotation = new SCNVector4(1, 0, 0, -(float)(Math.PI / 4) * 0.2f);
SCNTransaction.Commit();
});
intermediateNode.Opacity = 1.0f;
SCNTransaction.Commit();
break;
case 2:
// Remove the lighting by using a constant lighing model (no lighting)
foreach (var material in RoomNode.Geometry.Materials)
{
material.LightingModelName = SCNLightingModel.Constant;
}
break;
case 3:
// Activate the light maps smoothly
SCNTransaction.Begin();
SCNTransaction.AnimationDuration = 1;
foreach (var material in RoomNode.Geometry.Materials)
{
material.Multiply.Intensity = 1.0f;
}
SCNTransaction.Commit();
break;
}
}