Exemplo n.º 1
0
        public override IRender Render(float dt)
        {
            _passedTime = _passedTime + dt;

            _render.Clear();
            _render.Map((x, y) =>
            {
                float xt = (float)x / Width;
                float yt = (float)y / Height;
                float xx = (xt - 0.5f * (float)Math.Sin(_passedTime / 2) - 0.5f);
                float yy = (yt - 0.5f * (float)Math.Cos(_passedTime / 2) - 0.5f);
                float v  = (float)Math.Sqrt(_xScale * xx * xx + _yScale * yy * yy)
                           + (_xScale * xt) * (float)Math.Sin(_passedTime / 4)
                           + (_yScale * yt) * (float)Math.Cos(_passedTime / 4)
                           - _passedTime;

                byte r = (byte)((Math.Sin(v + _cr * Math.PI) * 0.5 + 0.5) * 255);
                byte g = (byte)((Math.Sin(v + _cg * Math.PI) * 0.5 + 0.5) * 255);
                byte b = (byte)((Math.Sin(v + _cb * Math.PI) * 0.5 + 0.5) * 255);

                return(new SKColor(r, g, b));
            });

            return(_render);
        }
Exemplo n.º 2
0
        public override IRender Render(float dt)
        {
            _render.Clear();
            _particleSystem.Update(dt);
            _particleSystem.Render(_render);

            return(_render);
        }
Exemplo n.º 3
0
        /*	In this method you will be able to render your effect. It will be called for
         *      each frame of your project, assuming this layer is enabled. */
        public override IRender Render(float dt)
        {
            /* Reset all pixels on the render. */
            _render.Clear();

            /* Update the wave simulation. */
            _waveSimulation.Update(dt);

            /* Render the wave simulation */
            _waveSimulation.Render(_render);

            return(_render);
        }
Exemplo n.º 4
0
        public override IRender Render(float dt)
        {
            _render.Clear();
            _render.Map((x, y) =>
            {
                float xt = (float)x / Width - 0.5f;
                float yt = (float)y / Height - 0.5f;
                float z  = _a * (float)Math.Sin(_n * Math.PI * xt) * (float)Math.Sin(_m * Math.PI * yt)
                           + _b * (float)Math.Sin(_m * Math.PI * xt) * (float)Math.Sin(_n * Math.PI * yt);
                float v = 1 - z * z;

                return(_color.WithScale(v));
            });

            return(_render);
        }
Exemplo n.º 5
0
        public override IRender Render(float dt)
        {
            _passedTime = _passedTime + dt;

            _render.Clear();
            _render.Map((x, y) =>
            {
                float v = _kx * x + _ky * y - _passedTime;

                byte r = (byte)((Math.Sin(v + _cr * Math.PI) * 0.5 + 0.5) * 255);
                byte g = (byte)((Math.Sin(v + _cg * Math.PI) * 0.5 + 0.5) * 255);
                byte b = (byte)((Math.Sin(v + _cb * Math.PI) * 0.5 + 0.5) * 255);

                return(new SKColor(r, g, b));
            });

            return(_render);
        }
Exemplo n.º 6
0
        /*	In this method you will be able to render your effect. It will be called for
         *      each frame of your project, assuming this layer is enabled. */
        public override IRender Render(float dt)
        {
            /*	Add a new droplet with random color on each beat. */
            if (_featureCache.IsBeat())
            {
                var color = _api.CreateRandomColor();
                _waveSimulation.AddDrop(Width / 2, color);
            }

            /* Reset all pixels on the render. */
            _render.Clear();

            /* Update the wave simulation. */
            _waveSimulation.Update(dt);

            /* Render the wave simulation */
            _waveSimulation.Render(_render);

            return(_render);
        }
Exemplo n.º 7
0
        public override IRender Render(float dt)
        {
            _passedTime = _passedTime + dt;

            _render.Clear();
            _render.Map((x, y, c) =>
            {
                float xx = (float)x / Width - _x0;
                float yy = (float)y / Height - _y0;
                float v  = (float)Math.Sqrt(_xScale * xx * xx + _yScale * yy * yy) - _passedTime;

                byte r = (byte)((Math.Sin(v + _cr * Math.PI) * 0.5 + 0.5) * 255);
                byte g = (byte)((Math.Sin(v + _cg * Math.PI) * 0.5 + 0.5) * 255);
                byte b = (byte)((Math.Sin(v + _cb * Math.PI) * 0.5 + 0.5) * 255);

                return(new SKColor(r, g, b));
            });

            return(_render);
        }