private void StartGearMotor(double secondsPerRotation)

        {
            // Start the first gear (the red one)

            if (_gearMotionScalarAnimation == null)

            {
                _gearMotionScalarAnimation = _compositor.CreateScalarKeyFrameAnimation();

                var linear = _compositor.CreateLinearEasingFunction();



                var startingValue = ExpressionValues.StartingValue.CreateScalarStartingValue();

                _gearMotionScalarAnimation.InsertExpressionKeyFrame(0.0f, startingValue);

                _gearMotionScalarAnimation.InsertExpressionKeyFrame(1.0f, startingValue + 360f, linear);



                _gearMotionScalarAnimation.IterationBehavior = AnimationIterationBehavior.Forever;
            }



            _gearMotionScalarAnimation.Duration = TimeSpan.FromSeconds(secondsPerRotation);

            _gearVisuals.First().StartAnimation("RotationAngleInDegrees", _gearMotionScalarAnimation);
        }
        protected override void OnConnected(UIElement element)
        {
            host    = ElementCompositionPreview.GetElementVisual(element);
            propset = host.Compositor.CreatePropertySet();
            propset.InsertScalar("offsetx", 0f);
            propset.InsertScalar("offsety", 0f);
            propset.InsertScalar("degress", 0f);
            propset.InsertVector3("axis", Vector3.UnitZ);

            UpdateTo();

            var group = host.Compositor.CreateAnimationGroup();

            var step = host.Compositor.CreateStepEasingFunction();

            offset = host.Compositor.CreateVector3KeyFrameAnimation();
            offset.InsertExpressionKeyFrame(0f, "this.StartingValue");
            offset.InsertExpressionKeyFrame(0.99f, "Vector3(this.FinalValue.X + prop.offsetx,this.FinalValue.Y + prop.offsety,this.FinalValue.Z)");
            offset.InsertExpressionKeyFrame(1f, "this.FinalValue", step);
            offset.SetReferenceParameter("host", host);
            offset.SetReferenceParameter("prop", propset);
            offset.Duration = Duration;
            offset.Target   = "Offset";

            axis = host.Compositor.CreateVector3KeyFrameAnimation();
            axis.InsertExpressionKeyFrame(0f, "prop.axis", step);
            axis.InsertExpressionKeyFrame(1f, "prop.axis", step);
            axis.SetReferenceParameter("prop", propset);
            axis.Duration = Duration;
            axis.Target   = "RotationAxis";

            degress = host.Compositor.CreateScalarKeyFrameAnimation();
            degress.InsertExpressionKeyFrame(0f, "this.StartingValue");
            degress.InsertExpressionKeyFrame(0.99f, "this.FinalValue + prop.degress");
            degress.InsertExpressionKeyFrame(1f, "this.FinalValue", step);
            degress.SetReferenceParameter("host", host);
            degress.SetReferenceParameter("prop", propset);
            degress.Duration = Duration;
            degress.Target   = "RotationAngleInDegrees";

            opacity = host.Compositor.CreateScalarKeyFrameAnimation();
            opacity.InsertExpressionKeyFrame(0f, "this.StartingValue");
            opacity.InsertKeyFrame(1f, 0f);
            opacity.Duration = Duration;
            opacity.Target   = "Opacity";

            group.Add(offset);
            group.Add(axis);
            group.Add(degress);
            group.Add(opacity);

            Animation = group;
        }
示例#3
0
        ScalarKeyFrameAnimation imageFlipAnimation, textFlipAnimation;     //MediaTransport Image, Textbox animations

        void setupAnimations()
        {
            visual        = ElementCompositionPreview.GetElementVisual(this);
            compositor    = visual.Compositor;
            blurredVisual = compositor.CreateSpriteVisual();
            imageFactory  = CompositionImageFactory.CreateCompositionImageFactory(compositor);

            var graphicsEffect = new BlendEffect
            {
                Mode       = BlendEffectMode.HardLight,
                Background = new ColorSourceEffect()
                {
                    Name  = "Tint",
                    Color = Color.FromArgb(200, 0, 0, 0),
                },

                Foreground = new GaussianBlurEffect()
                {
                    Name         = "Blur",
                    Source       = new CompositionEffectSourceParameter("source"),
                    BlurAmount   = 20.0f,
                    Optimization = EffectOptimization.Balanced,
                    BorderMode   = EffectBorderMode.Hard,
                }
            };

            effectFactory = compositor.CreateEffectFactory(graphicsEffect, new[] { "Blur.BlurAmount", "Tint.Color" });

            fadeOutAnimation = compositor.CreateScalarKeyFrameAnimation();
            fadeOutAnimation.InsertExpressionKeyFrame(0.0f, "1");
            fadeOutAnimation.InsertExpressionKeyFrame(1f, "0");
            fadeOutAnimation.Duration = TimeSpan.FromMilliseconds(500);

            fadeInAnimation = compositor.CreateScalarKeyFrameAnimation();
            fadeInAnimation.InsertExpressionKeyFrame(0.0f, "0");
            fadeInAnimation.InsertExpressionKeyFrame(1f, "1");
            fadeInAnimation.Duration = TimeSpan.FromMilliseconds(500);

            imageFlipAnimation = compositor.CreateScalarKeyFrameAnimation();
            imageFlipAnimation.InsertExpressionKeyFrame(0.0f, "-60");
            imageFlipAnimation.InsertExpressionKeyFrame(1f, "0");
            imageFlipAnimation.Duration = TimeSpan.FromMilliseconds(500);

            textFlipAnimation = compositor.CreateScalarKeyFrameAnimation();
            textFlipAnimation.InsertExpressionKeyFrame(0.0f, "-90");
            textFlipAnimation.InsertExpressionKeyFrame(1f, "0");
            textFlipAnimation.Duration = TimeSpan.FromMilliseconds(300);
        }
        protected override void OnConnected(UIElement element)
        {
            var host  = ElementCompositionPreview.GetElementVisual(element);
            var group = host.Compositor.CreateAnimationGroup();

            var step = host.Compositor.CreateStepEasingFunction();

            scale = host.Compositor.CreateVector3KeyFrameAnimation();
            scale.InsertExpressionKeyFrame(0f, "this.StartingValue");
            scale.InsertExpressionKeyFrame(0.99f, "Vector3(scalex,scaley,1f)");
            scale.InsertExpressionKeyFrame(1f, "this.FinalValue", step);
            scale.SetReferenceParameter("host", host);
            scale.SetScalarParameter("scalex", (float)ScaleX);
            scale.SetScalarParameter("scaley", (float)ScaleY);
            scale.Duration = Duration;
            scale.Target   = "Scale";

            opacity = host.Compositor.CreateScalarKeyFrameAnimation();
            opacity.InsertExpressionKeyFrame(0f, "this.StartingValue");
            opacity.InsertKeyFrame(0.99f, 0f);
            opacity.InsertKeyFrame(1f, 0f, step);
            opacity.Duration = Duration;
            opacity.Target   = "Opacity";

            group.Add(scale);
            group.Add(opacity);

            Animation = group;
        }
示例#5
0
        private void SetUpAnimationBehavior()
        {
            //setup Implicit Animation for BlurAmount change and Color Change.

            var implicitAnimations = _compositor.CreateImplicitAnimationCollection();

            //Define animations to animate blur and color change.
            ScalarKeyFrameAnimation blurAnimation = _compositor.CreateScalarKeyFrameAnimation();

            blurAnimation.InsertExpressionKeyFrame(1.0f, "this.FinalValue");
            blurAnimation.Duration = TimeSpan.FromSeconds(1);
            blurAnimation.Target   = "Blur.BlurAmount";

            ColorKeyFrameAnimation tintAnimation = _compositor.CreateColorKeyFrameAnimation();

            tintAnimation.InsertExpressionKeyFrame(1.0f, "this.FinalValue");
            tintAnimation.Duration = TimeSpan.FromSeconds(1);
            tintAnimation.Target   = "Tint.Color";

            implicitAnimations["Blur.BlurAmount"] = blurAnimation;
            implicitAnimations["Tint.Color"]      = tintAnimation;

            //Associate implicit animations to property sets.
            _brush.Properties.ImplicitAnimations = implicitAnimations;
        }
        protected override void OnConnected(UIElement element)
        {
            var host  = ElementCompositionPreview.GetElementVisual(element);
            var group = host.Compositor.CreateAnimationGroup();

            var step = host.Compositor.CreateStepEasingFunction();

            var offset = host.Compositor.CreateVector3KeyFrameAnimation();

            offset.InsertExpressionKeyFrame(0f, "this.StartingValue");
            offset.InsertExpressionKeyFrame(0.99f, "Vector3(this.FinalValue.X + offsetx,this.FinalValue.Y + offsety,this.FinalValue.Z)");
            offset.InsertExpressionKeyFrame(1f, "this.FinalValue", step);
            offset.SetReferenceParameter("host", host);
            offset.SetScalarParameter("offsetx", (float)OffsetX);
            offset.SetScalarParameter("offsety", (float)OffsetY);
            offset.Duration = Duration;
            offset.Target   = "Offset";

            opacity = host.Compositor.CreateScalarKeyFrameAnimation();
            opacity.InsertExpressionKeyFrame(0f, "this.FinalValue");
            opacity.InsertKeyFrame(0.99f, 0f);
            opacity.InsertKeyFrame(1f, 0f, step);
            opacity.Duration = Duration;
            opacity.Target   = "Opacity";

            group.Add(offset);
            group.Add(opacity);

            Animation = group;
        }
示例#7
0
        public static KeyFrameAnimation CreateOpacityAnimation(Compositor compositor, TimeSpan duration)
        {
            ScalarKeyFrameAnimation kf = compositor.CreateScalarKeyFrameAnimation();

            kf.InsertExpressionKeyFrame(1.0f, "this.FinalValue");
            kf.Duration = duration;
            kf.Target   = "Opacity";
            return(kf);
        }
        private void SetupAnimatingRefreshPanel()
        {
            Visual loadingVisual = ElementCompositionPreview.GetElementVisual(FirstGear);

            loadingVisual.Size        = new Vector2((float)FirstGear.ActualWidth, (float)FirstGear.ActualHeight);
            loadingVisual.AnchorPoint = new Vector2(0.5f, 0.5f);

            // Animate the refresh panel icon using a simple rotating key frame animation
            ScalarKeyFrameAnimation _loadingMotionScalarAnimation = _compositor.CreateScalarKeyFrameAnimation();
            var linear = _compositor.CreateLinearEasingFunction();

            _loadingMotionScalarAnimation.InsertExpressionKeyFrame(0.0f, "this.StartingValue");
            _loadingMotionScalarAnimation.InsertExpressionKeyFrame(1.0f, "this.StartingValue + 360", linear);
            _loadingMotionScalarAnimation.IterationBehavior = AnimationIterationBehavior.Forever;
            _loadingMotionScalarAnimation.Duration          = TimeSpan.FromSeconds(2);

            loadingVisual.StartAnimation("RotationAngleInDegrees", _loadingMotionScalarAnimation);
        }
示例#9
0
 void TouchArea_ManipulationStarted(object sender, ManipulationStartedRoutedEventArgs e)
 {
     // reset the animation
     // todo: wonder if there should be a method to remove a certain key frame?
     // so I'd only need to remove the keyframe (_animation.InsertKeyFrame(1.0f, new Vector3());)
     // rather than create a new animation instance
     _x         = 0.0f;
     _animation = _compositor.CreateScalarKeyFrameAnimation();
     _animation.InsertExpressionKeyFrame(0.0f, "touch.Offset.X");
     _animation.SetReferenceParameter("touch", _touchAreaVisual);
 }
示例#10
0
        protected override void OnConnected(UIElement element)
        {
            var host = ElementCompositionPreview.GetElementVisual(element);

            opacity = host.Compositor.CreateScalarKeyFrameAnimation();
            opacity.InsertKeyFrame(0f, 0f);
            opacity.InsertExpressionKeyFrame(1f, "this.FinalValue");
            opacity.Duration = Duration;
            opacity.Target   = "Opacity";

            Animation = opacity;
        }
示例#11
0
        /// <summary>
        /// Creates a <see cref="ScalarKeyFrameAnimation"/> instance with the given parameters to on a target element, using an expression animation
        /// </summary>
        /// <param name="compositor">The current <see cref="Compositor"/> instance used to create the animation</param>
        /// <param name="from">The optional starting value for the animation</param>
        /// <param name="to">A string that indicates the final value for the animation</param>
        /// <param name="duration">The animation duration</param>
        /// <param name="delay">The optional initial delay for the animation</param>
        /// <param name="ease">The optional easing function for the animation</param>
        public static ScalarKeyFrameAnimation CreateScalarKeyFrameAnimation(
             this Compositor compositor,
            float? from, string to,
            TimeSpan duration, TimeSpan? delay,
             CompositionEasingFunction ease = null)
        {
            // Set duration and delay time
            ScalarKeyFrameAnimation ani = compositor.CreateScalarKeyFrameAnimation();
            ani.Duration = duration;
            if (delay.HasValue) ani.DelayTime = delay.Value;

            // Insert "to" and "from" keyframes
            ani.InsertExpressionKeyFrame(1, to, ease ?? compositor.CreateLinearEasingFunction());
            if (from.HasValue) ani.InsertKeyFrame(0, from.Value);
            return ani;
        }
示例#12
0
        protected override void OnConnected()
        {
            if (DesignMode.DesignModeEnabled)
            {
                return;
            }
            compositor = ElementCompositionPreview.GetElementVisual(Window.Current.Content as UIElement).Compositor;
            var tintOpacity = Convert.ToSingle(TintOpacity);

            if (tintOpacity < 0f)
            {
                tintOpacity = 0f;
            }
            if (tintOpacity > 1f)
            {
                tintOpacity = 1f;
            }
            var arithmeticEffect = new ArithmeticCompositeEffect()
            {
                Name           = "arithmetic",
                MultiplyAmount = 0,
                Source1Amount  = 1f - tintOpacity,
                Source2Amount  = tintOpacity,
                Source1        = new ArithmeticCompositeEffect()
                {
                    MultiplyAmount = 0f,
                    Source1Amount  = 0.95f,
                    Source2Amount  = 0.05f,
                    Source1        = new GaussianBlurEffect()
                    {
                        Name         = "blur",
                        BlurAmount   = Convert.ToSingle(BlurAmount),
                        BorderMode   = EffectBorderMode.Hard,
                        Optimization = EffectOptimization.Balanced,
                        Source       = new CompositionEffectSourceParameter("source"),
                    },
                    Source2 = new BorderEffect()
                    {
                        Source  = new CompositionEffectSourceParameter("image"),
                        ExtendX = CanvasEdgeBehavior.Wrap,
                        ExtendY = CanvasEdgeBehavior.Wrap,
                    }
                },
                Source2 = new ColorSourceEffect()
                {
                    Name  = "tintcolor",
                    Color = TintColor
                }
            };

            Brush = compositor.CreateEffectFactory(arithmeticEffect, new[] { "arithmetic.Source1Amount", "arithmetic.Source2Amount", "tintcolor.Color" }).CreateBrush();

            var imagesurface = LoadedImageSurface.StartLoadFromUri(new Uri("ms-appx:///FluentDesignSystem/Sketch/SketchTexture.jpg"));

            var imagebrush = compositor.CreateSurfaceBrush(imagesurface);

            imagebrush.Stretch = CompositionStretch.None;
            Brush.SetSourceParameter("image", imagebrush);

            switch (BackgroundSource)
            {
            case AcrylicBackgroundSource.Backdrop:
                Brush.SetSourceParameter("source", compositor.CreateBackdropBrush());
                break;

            case AcrylicBackgroundSource.Hostbackdrop:
                Brush.SetSourceParameter("source", compositor.CreateHostBackdropBrush());
                break;
            }

            CompositionBrush = Brush;

            var line = compositor.CreateLinearEasingFunction();

            TintOpacityFillAnimation = compositor.CreateScalarKeyFrameAnimation();
            TintOpacityFillAnimation.InsertExpressionKeyFrame(0f, "TintOpacity", line);
            TintOpacityFillAnimation.InsertKeyFrame(1f, 1f, line);
            TintOpacityFillAnimation.Duration = TimeSpan.FromSeconds(0.1d);
            TintOpacityFillAnimation.Target   = "arithmetic.Source2Amount";

            HostOpacityZeroAnimation = compositor.CreateScalarKeyFrameAnimation();
            HostOpacityZeroAnimation.InsertExpressionKeyFrame(0f, "1f - TintOpacity", line);
            HostOpacityZeroAnimation.InsertKeyFrame(1f, 0f, line);
            HostOpacityZeroAnimation.Duration = TimeSpan.FromSeconds(0.1d);
            HostOpacityZeroAnimation.Target   = "arithmetic.Source1Amount";

            TintToFallBackAnimation = compositor.CreateColorKeyFrameAnimation();
            TintToFallBackAnimation.InsertKeyFrame(0f, TintColor, line);
            TintToFallBackAnimation.InsertKeyFrame(1f, FallbackColor, line);
            TintToFallBackAnimation.Duration = TimeSpan.FromSeconds(0.1d);
            TintToFallBackAnimation.Target   = "tintcolor.Color";

            //Window.Current.Activated += Current_Activated;
            //Window.Current.VisibilityChanged += Current_VisibilityChanged;
            CoreWindow.GetForCurrentThread().Activated         += AcrylicBrush_Activated;
            CoreWindow.GetForCurrentThread().VisibilityChanged += AcrylicBrush_VisibilityChanged;
        }
        /// <summary>
        /// Handles the Arrange layout phase
        /// </summary>
        /// <param name="finalSize">Final Size of the control</param>
        /// <returns>Size</returns>
        protected override Size ArrangeOverride(Size finalSize)
        {
            if ((_compositor == null) || (_generator == null))
                return base.ArrangeOverride(finalSize);

            if (Double.IsInfinity(finalSize.Width) || Double.IsInfinity(finalSize.Height) ||
                Double.IsNaN(finalSize.Width) || Double.IsNaN(finalSize.Height))
                return base.ArrangeOverride(finalSize);

            // Stop the animations and dispose the previous nodes
            // and their animations
            if (_isAnimationStarted)
            {
                for (var i = 0; i < _nodes.Count; i++)
                {
                    _nodes[i].StopAnimation(AnimatedProperty);
                    _animations[i].Dispose();
                    _animations[i] = null;
                    _nodes[i].Dispose();
                    _nodes[i] = null;
                }

                _container.StopAnimation(AnimatedProperty);
                _containerAnimation.Dispose();
                _containerAnimation = null;
                _container.Dispose();
                _container = null;

                _animations.Clear();
                _nodes.Clear();

                _isAnimationStarted = false;
            }

            // Validate MaxNodes and ActiveNodes
            if ((MaxNodes <= 0) || (ActiveNodes <= 0))
                return finalSize;

            // Coerce ActiveNodes to MaxNodes if ActiveNodes > MaxNodes
            if (ActiveNodes > MaxNodes)
                ActiveNodes = MaxNodes;

            // Take the smallest of the width or height
            var sideLength = (float)Math.Min(finalSize.Width, finalSize.Height);
            // Size of the progress ring displayed
            _ringSize = new Vector2(sideLength, sideLength);
            var sideHalf = sideLength / 2f;
            // Radius of each node
            _nodeRadius = (float)NodeSizeFactor * sideHalf;
            // Size of each node
            _nodeSize = new Vector2(_nodeRadius * 2f, _nodeRadius * 2f);
            // Radius of the node
            _ringRadius = sideHalf - _nodeRadius;

            // Each animation will consist of '_maxFrameBlocks' number of
            // FrameBlocks. Each FrameBlock will consist of keyframes which allow
            // the element being animated to move to the next slot and wait
            // at that slot until all other elements have moved to their next slot.
            // Each FrameBlock (except the last one) will have '_maxFramesPerBlock'
            // number of keyframes. The last keyframe in the last FrameBlock
            // will always be (1f, "this.StartingValue + 360")

            // Total number of FrameBlocks in each animation
            _maxFrameBlocks = ActiveNodes;
            // Total keyframes in each FrameBlock
            _maxFramesPerBlock = ActiveNodes + 1;
            // Total keyframes in each animation
            _maxKeyFrames = _maxFrameBlocks * _maxFramesPerBlock;
            // Normalized Progress Key unit value for each keyframe
            _keyFrameSlice = 1f / _maxKeyFrames;

            // ========================================================================
            // NOTE:
            // gamma * maxNodes = 360
            // gamma = alpha + beta
            // beta = 2 * Asin(nodeRadius / ringRadius) * (180 / Math.PI)
            // invisibleNodes = MaxNodes - ActiveNodes
            // phi = (invisibleNodes * gamma)
            // theta = phi - beta
            // ========================================================================

            // gamma is the angle between adjacent nodes when maxNodes number of nodes are arranged in a circle
            _gamma = 360f / MaxNodes;
            // beta is the angle a node must travel after hitting the adjacent node
            _beta = 2f * (float)(Math.Asin(_nodeRadius / _ringRadius) * (180f / Math.PI));
            // alpha is the smallest angle a node must travel before hitting the adjacent node
            _alpha = _gamma - _beta;
            // phi is the angle occupied by (MaxNodes - ActiveNodes) number of nodes
            _phi = (MaxNodes - ActiveNodes + 1) * _gamma;
            // theta is the largest angle a node must travel before hitting the adjacent node
            _theta = _phi - _beta;

            // Create the Animations
            _animations = CreateAnimations();

            // Create the Container
            _container = _compositor.CreateContainerVisual();
            _container.Size = _ringSize;
            _container.Offset = new Vector3(((float)finalSize.Width - sideLength) / 2f,
                                            ((float)finalSize.Height - sideLength) / 2f,
                                            0f);
            _container.CenterPoint = new Vector3(_ringSize.X / 2f, _ringSize.Y / 2f, 0f);

            // Create the Nodes
            var offset = new Vector3(_nodeRadius, _ringSize.Y / 2f, 0);
            var centerPoint = new Vector3(_ringSize.X / 2f - _nodeRadius, 0, 0);
            _nodes = new List<SpriteVisual>();
            var geometry = CanvasGeometry.CreateCircle(_generator.Device, new Vector2(_nodeRadius, _nodeRadius), _nodeRadius);
            // Create/Update the nodeMask
            var color = NodeColor;
            if (_nodeMask == null)
            {
                //Task.Run(async () =>
                //        {
                            _nodeMask = _generator.CreateGeometrySurface(_nodeSize.ToSize(), geometry, color);
                    //    })
                    //.Wait();
            }
            else
            {
                //Task.Run(async () =>
                //        {
                             _nodeMask.Redraw(_nodeSize.ToSize(), geometry, color);
                    //    })
                    //.Wait();
            }

            // Create the SurfaceBrush for the nodes
            var brush = _compositor.CreateSurfaceBrush(_nodeMask.Surface);

            var baseAngle = 0f;

            // Create the visuals for the nodes
            for (var i = 0; i < _maxFramesPerBlock; i++)
            {
                var node = _compositor.CreateSpriteVisual();
                node.Size = _nodeSize;
                node.AnchorPoint = new Vector2(0.5f);
                node.Offset = offset;
                node.CenterPoint = centerPoint;
                node.Brush = brush;
                node.RotationAngleInDegrees = baseAngle;
                if (i == 0)
                {
                    baseAngle += _phi;
                }
                else if (i == _maxFramesPerBlock - 2)
                {
                    baseAngle = -_beta;
                }
                else
                {
                    baseAngle += _gamma;
                }

                _nodes.Add(node);
                // Add the visual to the container
                _container.Children.InsertAtTop(node);
            }

            // Add the container to the Visual Tree
            ElementCompositionPreview.SetElementChildVisual(this, _container);

            // Start Node animations
            for (var i = 0; i < _maxFramesPerBlock; i++)
            {
                _nodes[i].StartAnimation(AnimatedProperty, _animations[i]);
            }

            // Start container animation
            _containerAnimation = _compositor.CreateScalarKeyFrameAnimation();
            _containerAnimation.InsertExpressionKeyFrame(1f, "this.StartingValue + 360f", _compositor.CreateLinearEasingFunction());
            _containerAnimation.Duration = RingDuration;
            _containerAnimation.IterationBehavior = AnimationIterationBehavior.Forever;

            _container.StartAnimation(AnimatedProperty, _containerAnimation);

            _isAnimationStarted = true;

            return finalSize;
        }
示例#14
0
        private void StartGearMotor(double secondsPerRotation)
        {
            // Start the first gear (the red one)
            if (_gearMotionScalarAnimation == null)
            {
                _gearMotionScalarAnimation = _compositor.CreateScalarKeyFrameAnimation();
                var linear = _compositor.CreateLinearEasingFunction();

                _gearMotionScalarAnimation.InsertExpressionKeyFrame(0.0f, "this.StartingValue");
                _gearMotionScalarAnimation.InsertExpressionKeyFrame(1.0f, "this.StartingValue + 360", linear);

                _gearMotionScalarAnimation.IterationBehavior = AnimationIterationBehavior.Forever;
            }

            _gearMotionScalarAnimation.Duration = TimeSpan.FromSeconds(secondsPerRotation);
            _gearVisuals.First().StartAnimation("RotationAngleInDegrees", _gearMotionScalarAnimation);
        }
 void TouchArea_ManipulationStarted(object sender, ManipulationStartedRoutedEventArgs e)
 {
     // reset the animation
     // todo: wonder if there should be a method to remove a certain key frame?
     // so I'd only need to remove the keyframe (_animation.InsertKeyFrame(1.0f, new Vector3());)
     // rather than create a new animation instance
     _x = 0.0f;
     _animation = _compositor.CreateScalarKeyFrameAnimation();
     _animation.InsertExpressionKeyFrame(0.0f, "touch.Offset.X");
     _animation.SetReferenceParameter("touch", _touchAreaVisual);
 }
        /// <summary>
        /// Handles the Arrange layout phase
        /// </summary>
        /// <param name="finalSize">Final Size of the control</param>
        /// <returns>Size</returns>
        protected override Size ArrangeOverride(Size finalSize)
        {
            if ((_compositor == null) || (_generator == null))
            {
                return(base.ArrangeOverride(finalSize));
            }

            if (Double.IsInfinity(finalSize.Width) || Double.IsInfinity(finalSize.Height) ||
                Double.IsNaN(finalSize.Width) || Double.IsNaN(finalSize.Height))
            {
                return(base.ArrangeOverride(finalSize));
            }

            // Stop the animations and dispose the previous nodes
            // and their animations
            if (_isAnimationStarted)
            {
                for (var i = 0; i < _nodes.Count; i++)
                {
                    _nodes[i].StopAnimation(AnimatedProperty);
                    _animations[i].Dispose();
                    _animations[i] = null;
                    _nodes[i].Dispose();
                    _nodes[i] = null;
                }

                _container.StopAnimation(AnimatedProperty);
                _containerAnimation.Dispose();
                _containerAnimation = null;
                _container.Dispose();
                _container = null;

                _animations.Clear();
                _nodes.Clear();

                _isAnimationStarted = false;
            }

            // Validate MaxNodes and ActiveNodes
            if ((MaxNodes <= 0) || (ActiveNodes <= 0))
            {
                return(finalSize);
            }

            // Coerce ActiveNodes to MaxNodes if ActiveNodes > MaxNodes
            if (ActiveNodes > MaxNodes)
            {
                ActiveNodes = MaxNodes;
            }

            // Take the smallest of the width or height
            var sideLength = (float)Math.Min(finalSize.Width, finalSize.Height);

            // Size of the progress ring displayed
            _ringSize = new Vector2(sideLength, sideLength);
            var sideHalf = sideLength / 2f;

            // Radius of each node
            _nodeRadius = (float)NodeSizeFactor * sideHalf;
            // Size of each node
            _nodeSize = new Vector2(_nodeRadius * 2f, _nodeRadius * 2f);
            // Radius of the node
            _ringRadius = sideHalf - _nodeRadius;

            // Each animation will consist of '_maxFrameBlocks' number of
            // FrameBlocks. Each FrameBlock will consist of keyframes which allow
            // the element being animated to move to the next slot and wait
            // at that slot until all other elements have moved to their next slot.
            // Each FrameBlock (except the last one) will have '_maxFramesPerBlock'
            // number of keyframes. The last keyframe in the last FrameBlock
            // will always be (1f, "this.StartingValue + 360")

            // Total number of FrameBlocks in each animation
            _maxFrameBlocks = ActiveNodes;
            // Total keyframes in each FrameBlock
            _maxFramesPerBlock = ActiveNodes + 1;
            // Total keyframes in each animation
            _maxKeyFrames = _maxFrameBlocks * _maxFramesPerBlock;
            // Normalized Progress Key unit value for each keyframe
            _keyFrameSlice = 1f / _maxKeyFrames;

            // ========================================================================
            // NOTE:
            // gamma * maxNodes = 360
            // gamma = alpha + beta
            // beta = 2 * Asin(nodeRadius / ringRadius) * (180 / Math.PI)
            // invisibleNodes = MaxNodes - ActiveNodes
            // phi = (invisibleNodes * gamma)
            // theta = phi - beta
            // ========================================================================

            // gamma is the angle between adjacent nodes when maxNodes number of nodes are arranged in a circle
            _gamma = 360f / MaxNodes;
            // beta is the angle a node must travel after hitting the adjacent node
            _beta = 2f * (float)(Math.Asin(_nodeRadius / _ringRadius) * (180f / Math.PI));
            // alpha is the smallest angle a node must travel before hitting the adjacent node
            _alpha = _gamma - _beta;
            // phi is the angle occupied by (MaxNodes - ActiveNodes) number of nodes
            _phi = (MaxNodes - ActiveNodes + 1) * _gamma;
            // theta is the largest angle a node must travel before hitting the adjacent node
            _theta = _phi - _beta;

            // Create the Animations
            _animations = CreateAnimations();

            // Create the Container
            _container        = _compositor.CreateContainerVisual();
            _container.Size   = _ringSize;
            _container.Offset = new Vector3(((float)finalSize.Width - sideLength) / 2f,
                                            ((float)finalSize.Height - sideLength) / 2f,
                                            0f);
            _container.CenterPoint = new Vector3(_ringSize.X / 2f, _ringSize.Y / 2f, 0f);

            // Create the Nodes
            var offset      = new Vector3(_nodeRadius, _ringSize.Y / 2f, 0);
            var centerPoint = new Vector3(_ringSize.X / 2f - _nodeRadius, 0, 0);

            _nodes = new List <SpriteVisual>();
            var geometry = CanvasGeometry.CreateCircle(_generator.Device, new Vector2(_nodeRadius, _nodeRadius), _nodeRadius);
            // Create/Update the nodeMask
            var color = NodeColor;

            if (_nodeMask == null)
            {
                //Task.Run(async () =>
                //        {
                _nodeMask = _generator.CreateGeometrySurface(_nodeSize.ToSize(), geometry, color);
                //    })
                //.Wait();
            }
            else
            {
                //Task.Run(async () =>
                //        {
                _nodeMask.Redraw(_nodeSize.ToSize(), geometry, color);
                //    })
                //.Wait();
            }

            // Create the SurfaceBrush for the nodes
            var brush = _compositor.CreateSurfaceBrush(_nodeMask.Surface);

            var baseAngle = 0f;

            // Create the visuals for the nodes
            for (var i = 0; i < _maxFramesPerBlock; i++)
            {
                var node = _compositor.CreateSpriteVisual();
                node.Size                   = _nodeSize;
                node.AnchorPoint            = new Vector2(0.5f);
                node.Offset                 = offset;
                node.CenterPoint            = centerPoint;
                node.Brush                  = brush;
                node.RotationAngleInDegrees = baseAngle;
                if (i == 0)
                {
                    baseAngle += _phi;
                }
                else if (i == _maxFramesPerBlock - 2)
                {
                    baseAngle = -_beta;
                }
                else
                {
                    baseAngle += _gamma;
                }

                _nodes.Add(node);
                // Add the visual to the container
                _container.Children.InsertAtTop(node);
            }

            // Add the container to the Visual Tree
            ElementCompositionPreview.SetElementChildVisual(this, _container);

            // Start Node animations
            for (var i = 0; i < _maxFramesPerBlock; i++)
            {
                _nodes[i].StartAnimation(AnimatedProperty, _animations[i]);
            }

            // Start container animation
            _containerAnimation = _compositor.CreateScalarKeyFrameAnimation();
            _containerAnimation.InsertExpressionKeyFrame(1f, "this.StartingValue + 360f", _compositor.CreateLinearEasingFunction());
            _containerAnimation.Duration          = RingDuration;
            _containerAnimation.IterationBehavior = AnimationIterationBehavior.Forever;

            _container.StartAnimation(AnimatedProperty, _containerAnimation);

            _isAnimationStarted = true;

            return(finalSize);
        }
示例#17
0
        void InitConpositionResources()
        {
            easing  = compositor.CreateCubicBezierEasingFunction(new Vector2(0.215f, 0.61f), new Vector2(0.355f, 1f));
            steping = compositor.CreateStepEasingFunction(2);

            ProgressAnimation = compositor.CreateScalarKeyFrameAnimation();
            ProgressAnimation.InsertExpressionKeyFrame(0f, "This.StartingValue", easing);
            ProgressAnimation.InsertExpressionKeyFrame(1f, "propSet.newvalue", easing);
            ProgressAnimation.SetReferenceParameter("propSet", propSet);
            ProgressAnimation.Duration = TimeSpan.FromSeconds(0.3d);
            ProgressAnimation.Target   = "progress";

            //ImplicitAnimations = compositor.CreateImplicitAnimationCollection();
            //ImplicitAnimations["progress"] = ProgressAnimation;

            //propSet.ImplicitAnimations = ImplicitAnimations;

            TopBorderVisual     = ElementCompositionPreview.GetElementVisual(TopBorder);
            BottomBorderVisual  = ElementCompositionPreview.GetElementVisual(BottomBorder);
            CenterBorderVisual  = ElementCompositionPreview.GetElementVisual(CenterBorder);
            ContentBorderVisual = ElementCompositionPreview.GetElementVisual(ContentBorder);

            TopBorderVisual.CenterPoint     = new Vector3(38f, 36f, 0f);
            BottomBorderVisual.CenterPoint  = new Vector3(39f, 36f, 0f);
            CenterBorderVisual.CenterPoint  = new Vector3(36f, 36f, 0f);
            ContentBorderVisual.CenterPoint = new Vector3(36, 36, 0);

            TopRotationAnimation = compositor.CreateExpressionAnimation("0.25 * Pi * propSet.progress");
            TopRotationAnimation.SetReferenceParameter("propSet", propSet);

            BottomRotationAnimation = compositor.CreateExpressionAnimation("-0.25 * Pi * propSet.progress");
            BottomRotationAnimation.SetReferenceParameter("propSet", propSet);

            IconRotationAnimation = compositor.CreateExpressionAnimation("propSet.isopened == 1 ? -Pi * propSet.progress : Pi * propSet.progress");
            IconRotationAnimation.SetReferenceParameter("propSet", propSet);

            ExternalScaleXAnimation = compositor.CreateExpressionAnimation(" 1 - 0.4 * propSet.progress");
            ExternalScaleXAnimation.SetReferenceParameter("propSet", propSet);

            InternalScaleXAnimation = compositor.CreateExpressionAnimation(" 1 - 0.04 * propSet.progress");
            InternalScaleXAnimation.SetReferenceParameter("propSet", propSet);

            IsOpenedAnimation = compositor.CreateScalarKeyFrameAnimation();
            IsOpenedAnimation.InsertExpressionKeyFrame(0f, "This.StartingValue", steping);
            IsOpenedAnimation.InsertKeyFrame(1f, 1f, steping);
            IsOpenedAnimation.Duration  = TimeSpan.FromSeconds(0.001d);
            IsOpenedAnimation.DelayTime = TimeSpan.FromSeconds(0.3d);

            IsNotOpenedAnimation = compositor.CreateScalarKeyFrameAnimation();
            IsNotOpenedAnimation.InsertExpressionKeyFrame(0f, "This.StartingValue", steping);
            IsNotOpenedAnimation.InsertKeyFrame(1f, 0f, steping);
            IsNotOpenedAnimation.Duration  = TimeSpan.FromSeconds(0.001d);
            IsNotOpenedAnimation.DelayTime = TimeSpan.FromSeconds(0.3d);

            TopBorderVisual.StartAnimation("RotationAngle", TopRotationAnimation);
            BottomBorderVisual.StartAnimation("RotationAngle", BottomRotationAnimation);
            ContentBorderVisual.StartAnimation("RotationAngle", IconRotationAnimation);

            TopBorderVisual.StartAnimation("Scale.X", ExternalScaleXAnimation);
            BottomBorderVisual.StartAnimation("Scale.X", ExternalScaleXAnimation);
            CenterBorderVisual.StartAnimation("Scale.X", InternalScaleXAnimation);
        }