/// <summary>
/// Creates and fills vertex buffer.
/// </summary>
/// <returns></returns>
public static VertexBufferView Create <T>(GraphicsDevice device, VertexFormat format, Usage usage,
CPUAccess access, GraphicsLocality locality, params T[] elements) where T : struct
{
VertexBufferView buffer = Create(device, format, usage, access,
locality, (ulong)elements.LongLength);
try
{
buffer.SetData <T>(elements);
}
catch (Exception)
{
buffer.Dispose();
throw;
}
return(buffer);
}
public unsafe void DAGUsageCases()
{
// We first initialize our shader.
ShaderCode code = new ShaderCode(BindingStage.VertexShader);
{
// We write a simple Tranform code:
code.InputOperation.AddInput(PinComponent.Position, PinFormat.Floatx3);
Pin positon = code.InputOperation.PinAsOutput(PinComponent.Position);
// We first need to expand our position to float4 (adding 1 at the end).
ExpandOperation expand = new ExpandOperation(PinFormat.Floatx4, ExpandType.AddOnesAtW);
expand.BindInputs(positon);
Pin expPosition = expand.Outputs[0];
// We now create constant transform matrix.
ConstantOperation mvpConstant = code.CreateConstant("MVP", PinFormat.Float4x4);
Pin MVP = mvpConstant.Outputs[0];
// We multiply matrix and pin.
MultiplyOperation mul = new MultiplyOperation();
mul.BindInputs(MVP, expPosition);
Pin transPosition = mul.Outputs[0];
// We just bind transformed position to output.
code.OutputOperation.AddComponentAndLink(PinComponent.Position, transPosition);
}
// Immutate it.
code.Immutable = true;
// We create constant buffer manually.
ConstantBufferLayoutBuilder builder = new ConstantBufferLayoutBuilder();
builder.AppendElement("MVP", PinFormat.Float4x4, Pin.NotArray);
ConstantBufferLayout layout = builder.CreateLayout();
// We now fill the data.
FixedShaderParameters parameters = code.FixedParameters;
parameters.AppendLayout(layout);
if (!parameters.IsDefined)
{
throw new Exception();
}
using (GraphicsDevice device = InitializeDevice())
{
// We create shaders.
// We have all parameters defined, compile the shader.
VShader shader = code.Compile(device, parameters) as VShader;
// Shader expects data in constant buffers.
TypelessBuffer tbuffer = new TypelessBuffer(Usage.Dynamic, BufferUsage.ConstantBuffer, CPUAccess.Write, GraphicsLocality.DeviceOrSystemMemory, 4 * 4 * 4);
ConstantBufferView constantBuffer = tbuffer.CreateConstantBuffer(layout);
// We fill the buffer.
constantBuffer.Map(MapOptions.Write);
constantBuffer.SetConstant("MVP", new Math.Matrix.Matrix4x4f(1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
-0.5f, -0.5f, 0, 1));
constantBuffer.UnMap();
PShader pshader;
VShader vshader = shader;
using (ShaderCompiler compiler = device.CreateShaderCompiler())
{
// And pixel shader.
compiler.Begin(BindingStage.PixelShader);
ShaderCompiler.Operand colour = compiler.CreateFixed(PinFormat.Floatx4, Pin.NotArray, new Vector4f(1, 0, 0, 1));
compiler.Output(colour, PinComponent.RenderTarget0);
pshader = compiler.End(null) as PShader;
}
// We create triangles.
Geometry geometry = new Geometry();
TypelessBuffer buffer = new TypelessBuffer(Usage.Static,
BufferUsage.VertexBuffer, CPUAccess.None, GraphicsLocality.DeviceOrSystemMemory, 4 * 4 * 3);
byte[] d = buffer.Map(MapOptions.Read);
fixed(byte *p = d)
{
float *data = (float *)p;
// Vertex 0:
data[0] = -0.5f; data[1] = -0.5f; data[2] = 0.0f; data[3] = 1.0f;
// Vertex 1:
data[4] = 0.5f; data[5] = -0.5f; data[6] = 0.0f; data[7] = 1.0f;
// Vertex 2:
data[8] = 0.0f; data[9] = 0.5f; data[10] = 0.0f; data[11] = 1.0f;
}
buffer.UnMap();
// Create vertex buffer and view.
VertexBufferView vbuffer = buffer.CreateVertexBuffer(VertexFormat.Parse("P.Fx4"));
// We construct geometry.
geometry[0] = vbuffer;
geometry.Topology = Topology.Triangle;
// Blend state.
BlendState blendState = new BlendState();
blendState[0] = false;
blendState = StateManager.Intern(blendState);
RasterizationState rastState = new RasterizationState();
rastState.CullMode = CullMode.None;
rastState.FillMode = FillMode.Solid;
rastState = StateManager.Intern(rastState);
DepthStencilState depthState = new DepthStencilState();
depthState.DepthTestEnabled = false;
depthState.DepthWriteEnabled = false;
depthState = StateManager.Intern(depthState);
// Enter rendering loop.
bool isClosed = false;
window.Closed += delegate(Window w)
{
isClosed = true;
};
for (uint i = 0; i < 1000; i++)
{
window.DoEvents();
if (!isClosed)
{
SwapChain chain = device.SwapChain;
device.Enter();
try
{
// We just clear.
device.Clear(chain, Colour.Black);
// Set blend/rast.
device.SetBlendState(blendState, Colour.White, 0xFFFFFFFF);
device.RasterizationState = rastState;
device.SetDepthStencilState(depthState, 0);
// Sets states.
device.SetVertexShader(vshader, geometry, null, null, new ConstantBufferView[] { constantBuffer });
device.SetPixelShader(pshader, null, null, null, new RenderTargetView[] { chain }, null);
device.Viewport = new Region2i(0, 0, (int)chain.Width, (int)chain.Height);
// Render.
device.Draw(0, 3);
}
finally
{
device.Exit();
}
chain.Present();
//Thread.Sleep(10);
Console.WriteLine(device.DevicePerformance.CurrentFPS);
}
}
// Dispose all.
vshader.Dispose();
pshader.Dispose();
geometry.Dispose();
vbuffer.Dispose();
buffer.Dispose();
}
}
public unsafe void TriangleTest()
{
using (GraphicsDevice device = InitializeDevice())
{
// We create shaders.
VShader vshader;
PShader pshader;
using (ShaderCompiler compiler = device.CreateShaderCompiler())
{
// Vertex shader (copy paste position).
compiler.Begin(BindingStage.VertexShader);
ShaderCompiler.Operand position = compiler.CreateInput(PinFormat.Floatx4, PinComponent.Position);
compiler.Output(position, PinComponent.Position);
vshader = compiler.End(null) as VShader;
// And pixel shader.
compiler.Begin(BindingStage.PixelShader);
ShaderCompiler.Operand colour = compiler.CreateFixed(PinFormat.Floatx4, Pin.NotArray, new Vector4f(1, 0, 0, 1));
compiler.Output(colour, PinComponent.RenderTarget0);
pshader = compiler.End(null) as PShader;
}
// We create triangles.
Geometry geometry = new Geometry();
TypelessBuffer buffer = new TypelessBuffer(Usage.Static,
BufferUsage.VertexBuffer, CPUAccess.None, GraphicsLocality.DeviceOrSystemMemory, 4 * 4 * 3);
byte[] d = buffer.Map(MapOptions.Read);
fixed(byte *p = d)
{
float *data = (float *)p;
// Vertex 0:
data[0] = -0.5f; data[1] = -0.5f; data[2] = 0.0f; data[3] = 1.0f;
// Vertex 1:
data[4] = 0.5f; data[5] = -0.5f; data[6] = 0.0f; data[7] = 1.0f;
// Vertex 2:
data[8] = 0.0f; data[9] = 0.5f; data[10] = 0.0f; data[11] = 1.0f;
}
buffer.UnMap();
// Create vertex buffer and view.
VertexBufferView vbuffer = buffer.CreateVertexBuffer(VertexFormat.Parse("P.Fx4"));
// We construct geometry.
geometry[0] = vbuffer;
geometry.Topology = Topology.Triangle;
// Blend state.
BlendState blendState = new BlendState();
blendState[0] = false;
blendState = StateManager.Intern(blendState);
RasterizationState rastState = new RasterizationState();
rastState.CullMode = CullMode.None;
rastState.FillMode = FillMode.Solid;
rastState = StateManager.Intern(rastState);
DepthStencilState depthState = new DepthStencilState();
depthState.DepthTestEnabled = false;
depthState.DepthWriteEnabled = false;
depthState = StateManager.Intern(depthState);
// Enter rendering loop.
bool isClosed = false;
window.Closed += delegate(Window w)
{
isClosed = true;
};
while (!isClosed)
{
window.DoEvents();
if (!isClosed)
{
SwapChain chain = device.SwapChain;
device.Enter();
try
{
// We just clear.
device.Clear(chain, Colour.Black);
// Set blend/rast.
device.SetBlendState(blendState, Colour.White, 0xFFFFFFFF);
device.RasterizationState = rastState;
device.SetDepthStencilState(depthState, 0);
// Sets states.
device.SetVertexShader(vshader, geometry, null, null, null);
device.SetPixelShader(pshader, null, null, null, new RenderTargetView[] { chain }, null);
device.Viewport = new Region2i(0, 0, (int)chain.Width, (int)chain.Height);
// Render.
device.Draw(0, 3);
}
finally
{
device.Exit();
}
chain.Present();
Thread.Sleep(10);
}
}
// Dispose all.
vshader.Dispose();
pshader.Dispose();
geometry.Dispose();
vbuffer.Dispose();
buffer.Dispose();
}
}