public static RayTracingRenderer Create()
{
var shaderCodes = new ShaderCode[2];
shaderCodes[0] = new ShaderCode(File.ReadAllText(@"shaders\RayTracingRenderer\fullscreen.vert.glsl"), ShaderType.VertexShader);
shaderCodes[1] = new ShaderCode(File.ReadAllText(@"shaders\RayTracingRenderer\texture.frag.glsl"), ShaderType.FragmentShader);
var map = new AttributeMap();
IBufferable model = new ZeroAttributeModel(DrawMode.TriangleStrip, 0, 4);
var renderer = new RayTracingRenderer(model, shaderCodes, map);
return(renderer);
}
public static RendererBase Create(Type rendererType)
{
RendererBase renderer = null;
if (rendererType == typeof(AnalyzedPointSpriteRenderer))
{
int particleCount = 10000;
renderer = AnalyzedPointSpriteRenderer.Create(particleCount);
}
else if (rendererType == typeof(BufferBlockRenderer))
{
renderer = BufferBlockRenderer.Create();
}
else if (rendererType == typeof(ConditionalRenderer))
{
renderer = ConditionalRenderer.Create();
}
else if (rendererType == typeof(EmitNormalLineRenderer))
{
var model = new Teapot();
renderer = EmitNormalLineRenderer.Create(model, Teapot.strPosition, Teapot.strNormal, model.Lengths);
}
else if (rendererType == typeof(ImageProcessingRenderer))
{
renderer = new ImageProcessingRenderer();
}
else if (rendererType == typeof(KleinBottleRenderer))
{
renderer = KleinBottleRenderer.Create(new KleinBottleModel());
}
else if (rendererType == typeof(OrderDependentTransparencyRenderer))
{
var model = new Teapot();
renderer = OrderDependentTransparencyRenderer.Create(model, model.Lengths, Teapot.strPosition, Teapot.strColor);
}
else if (rendererType == typeof(OrderIndependentTransparencyRenderer))
{
var model = new Teapot();
renderer = new OrderIndependentTransparencyRenderer(model, model.Lengths, Teapot.strPosition, Teapot.strColor);
}
else if (rendererType == typeof(ParticleSimulatorRenderer))
{
renderer = new ParticleSimulatorRenderer();
}
else if (rendererType == typeof(PointCloudRenderer))
{
var list = new List <vec3>();
using (var reader = new StreamReader(@"Resources\data\19PointCloud.txt"))
{
while (!reader.EndOfStream)
{
string line = reader.ReadLine();
string[] parts = line.Split(new char[] { ',', ' ' }, StringSplitOptions.RemoveEmptyEntries);
float x = float.Parse(parts[0]);
float y = float.Parse(parts[1]);
float z = float.Parse(parts[2]);
list.Add(new vec3(x, y, z));
}
}
renderer = PointCloudRenderer.Create(new PointCloudModel(list));
}
else if (rendererType == typeof(PointSpriteRenderer))
{
const int particleCount = 10000;
renderer = PointSpriteRenderer.Create(particleCount);
}
else if (rendererType == typeof(RaycastVolumeRenderer))
{
renderer = new RaycastVolumeRenderer();
}
else if (rendererType == typeof(RayTracingRenderer))
{
renderer = RayTracingRenderer.Create();
}
else if (rendererType == typeof(ShaderToyRenderer))
{
renderer = ShaderToyRenderer.Create();
}
else if (rendererType == typeof(SimpleComputeRenderer))
{
renderer = SimpleComputeRenderer.Create();
}
else if (rendererType == typeof(SimplexNoiseRenderer))
{
renderer = SimplexNoiseRenderer.Create();
}
else if (rendererType == typeof(UniformArrayRenderer))
{
renderer = UniformArrayRenderer.Create();
}
else if (rendererType == typeof(UniformBlockRenderer))
{
renderer = UniformBlockRenderer.Create();
}
else if (rendererType == typeof(UniformStructRenderer))
{
renderer = UniformStructRenderer.Create();
}
else if (rendererType == typeof(WaterRenderer))
{
renderer = WaterRenderer.Create(waterPlaneLength: 4);
}
else if (rendererType == typeof(ZeroAttributeRenderer))
{
renderer = ZeroAttributeRenderer.Create();
}
return(renderer);
}