void Render()
{
inflightSemaphore.WaitOne();
Update();
// Create a new command buffer for each renderpass to the current drawable
IMTLCommandBuffer commandBuffer = commandQueue.CommandBuffer();
commandBuffer.Label = "MyCommand";
// Call the view's completion handler which is required by the view since it will signal its semaphore and set up the next buffer
var drawable = view.CurrentDrawable;
commandBuffer.AddCompletedHandler(buffer =>
{
drawable.Dispose();
inflightSemaphore.Release();
});
// Obtain a renderPassDescriptor generated from the view's drawable textures
MTLRenderPassDescriptor renderPassDescriptor = view.CurrentRenderPassDescriptor;
// If we have a valid drawable, begin the commands to render into it
if (renderPassDescriptor != null)
{
// Create a render command encoder so we can render into something
IMTLRenderCommandEncoder renderEncoder = commandBuffer.CreateRenderCommandEncoder(renderPassDescriptor);
renderEncoder.Label = "MyRenderEncoder";
renderEncoder.SetDepthStencilState(depthState);
// Set context state
renderEncoder.PushDebugGroup("DrawCube");
renderEncoder.SetRenderPipelineState(pipelineState);
renderEncoder.SetVertexBuffer(boxMesh.VertexBuffers[0].Buffer, boxMesh.VertexBuffers[0].Offset, 0);
renderEncoder.SetVertexBuffer(dynamicConstantBuffer, (nuint)Marshal.SizeOf <Uniforms>(), 1);
MTKSubmesh submesh = boxMesh.Submeshes[0];
// Tell the render context we want to draw our primitives
renderEncoder.DrawIndexedPrimitives(submesh.PrimitiveType, submesh.IndexCount, submesh.IndexType, submesh.IndexBuffer.Buffer, submesh.IndexBuffer.Offset);
renderEncoder.PopDebugGroup();
// We're done encoding commands
renderEncoder.EndEncoding();
// Schedule a present once the framebuffer is complete using the current drawable
commandBuffer.PresentDrawable(drawable);
}
// The render assumes it can now increment the buffer index and that the previous index won't be touched until we cycle back around to the same index
constantDataBufferIndex = (constantDataBufferIndex + 1) % MaxInflightBuffers;
// Finalize rendering here & push the command buffer to the GPU
commandBuffer.Commit();
}
void RenderBox(IMTLRenderCommandEncoder renderEncoder, GameView view, nuint offset, string name)
{
renderEncoder.PushDebugGroup(name);
// set context state
renderEncoder.SetRenderPipelineState(pipelineState);
renderEncoder.SetVertexBuffer(vertexBuffer, 0, 0);
renderEncoder.SetVertexBuffer(dynamicConstantBuffer [constantDataBufferIndex], offset, 1);
// tell the render context we want to draw our primitives
renderEncoder.DrawPrimitives(MTLPrimitiveType.Triangle, 0, 36, 1);
renderEncoder.PopDebugGroup();
}
void Render()
{
inflightSemaphore.WaitOne();
Update();
// Create a new command buffer for each renderpass to the current drawable
IMTLCommandBuffer commandBuffer = commandQueue.CommandBuffer();
commandBuffer.Label = "MyCommand";
// Obtain a drawable texture for this render pass and set up the renderpass descriptor for the command encoder to render into
ICAMetalDrawable drawable = GetCurrentDrawable();
SetupRenderPassDescriptorForTexture(drawable.Texture);
// Create a render command encoder so we can render into something
IMTLRenderCommandEncoder renderEncoder = commandBuffer.CreateRenderCommandEncoder(renderPassDescriptor);
renderEncoder.Label = "MyRenderEncoder";
renderEncoder.SetDepthStencilState(depthState);
// Set context state
renderEncoder.PushDebugGroup("DrawCube");
renderEncoder.SetRenderPipelineState(pipelineState);
renderEncoder.SetVertexBuffer(vertexBuffer, 0, 0);
renderEncoder.SetVertexBuffer(dynamicConstantBuffer, (nuint)(Marshal.SizeOf(typeof(Uniforms)) * constantDataBufferIndex), 1);
// Tell the render context we want to draw our primitives
renderEncoder.DrawPrimitives(MTLPrimitiveType.Triangle, 0, 36, 1);
renderEncoder.PopDebugGroup();
// We're done encoding commands
renderEncoder.EndEncoding();
// Call the view's completion handler which is required by the view since it will signal its semaphore and set up the next buffer
commandBuffer.AddCompletedHandler(buffer =>
{
drawable.Dispose();
inflightSemaphore.Release();
});
// Schedule a present once the framebuffer is complete
commandBuffer.PresentDrawable(drawable);
// Finalize rendering here & push the command buffer to the GPU
commandBuffer.Commit();
// The renderview assumes it can now increment the buffer index and that the previous index won't be touched until we cycle back around to the same index
constantDataBufferIndex = (byte)((constantDataBufferIndex + 1) % max_inflight_buffers);
}
public void Encode(IMTLRenderCommandEncoder renderEncoder)
{
renderEncoder.PushDebugGroup("encode quad");
renderEncoder.SetFrontFacingWinding(MTLWinding.CounterClockwise);
renderEncoder.SetDepthStencilState(depthState);
renderEncoder.SetRenderPipelineState(pipelineState);
renderEncoder.SetVertexBuffer(transformBuffer, 0, 2);
renderEncoder.SetFragmentTexture(outTexture, 0);
// Encode quad vertex and texture coordinate buffers
mpQuad.Encode(renderEncoder);
// tell the render context we want to draw our primitives
renderEncoder.DrawPrimitives(MTLPrimitiveType.Triangle, 0, 6, 1);
renderEncoder.EndEncoding();
renderEncoder.PopDebugGroup();
}
public void Encode (IMTLRenderCommandEncoder renderEncoder)
{
renderEncoder.PushDebugGroup ("encode quad");
renderEncoder.SetFrontFacingWinding (MTLWinding.CounterClockwise);
renderEncoder.SetDepthStencilState (depthState);
renderEncoder.SetRenderPipelineState (pipelineState);
renderEncoder.SetVertexBuffer (transformBuffer, 0, 2);
renderEncoder.SetFragmentTexture (mpInTexture.MetalTexture, 0);
// Encode quad vertex and texture coordinate buffers
mpQuad.Encode (renderEncoder);
// tell the render context we want to draw our primitives
renderEncoder.DrawPrimitives (MTLPrimitiveType.Triangle, 0, 6, 1);
renderEncoder.EndEncoding ();
renderEncoder.PopDebugGroup ();
}
public void Draw(MTKView view)
{
inflightSemaphore.WaitOne();
Update();
IMTLCommandBuffer commandBuffer = commandQueue.CommandBuffer();
commandBuffer.Label = "Main Command Buffer";
MTLRenderPassDescriptor renderPassDescriptor = view.CurrentRenderPassDescriptor;
// Create a render command encoder so we can render into something.
IMTLRenderCommandEncoder renderEncoder = commandBuffer.CreateRenderCommandEncoder(renderPassDescriptor);
renderEncoder.Label = "Final Pass Encoder";
renderEncoder.SetViewport(new MTLViewport(0.0, 0.0, view.DrawableSize.Width, view.DrawableSize.Height, 0.0, 1.0));
renderEncoder.SetDepthStencilState(depthState);
renderEncoder.SetRenderPipelineState(pipelineState);
// Set the our per frame uniforms.
renderEncoder.SetVertexBuffer(frameUniformBuffers[constantDataBufferIndex], 0, (nuint)(int)BufferIndex.FrameUniformBuffer);
renderEncoder.PushDebugGroup("Render Meshes");
// Render each of our meshes.
foreach (MetalKitEssentialsMesh mesh in meshes)
{
mesh.RenderWithEncoder(renderEncoder);
}
renderEncoder.PopDebugGroup();
renderEncoder.EndEncoding();
var drawable = view.CurrentDrawable;
commandBuffer.AddCompletedHandler(_ => {
inflightSemaphore.Release();
drawable.Dispose();
});
constantDataBufferIndex = (constantDataBufferIndex + 1) % maxInflightBuffers;
commandBuffer.PresentDrawable(drawable);
commandBuffer.Commit();
}
void RenderBox (IMTLRenderCommandEncoder renderEncoder, GameView view, nuint offset, string name)
{
renderEncoder.PushDebugGroup (name);
// set context state
renderEncoder.SetRenderPipelineState (pipelineState);
renderEncoder.SetVertexBuffer (vertexBuffer, 0, 0);
renderEncoder.SetVertexBuffer (dynamicConstantBuffer [constantDataBufferIndex], offset, 1);
// tell the render context we want to draw our primitives
renderEncoder.DrawPrimitives (MTLPrimitiveType.Triangle, 0, 36, 1);
renderEncoder.PopDebugGroup ();
}
public void Draw(MTKView view)
{
inflightSemaphore.WaitOne();
// Perofm any app logic, including updating any Metal buffers.
Update();
// Create a new command buffer for each renderpass to the current drawable.
IMTLCommandBuffer commandBuffer = commandQueue.CommandBuffer();
commandBuffer.Label = "Main Command Buffer";
// Obtain a renderPassDescriptor generated from the view's drawable textures.
MTLRenderPassDescriptor renderPassDescriptor = view.CurrentRenderPassDescriptor;
// Create a render command encoder so we can render into something.
IMTLRenderCommandEncoder renderEncoder = commandBuffer.CreateRenderCommandEncoder(renderPassDescriptor);
renderEncoder.Label = "Final Pass Encoder";
// Set context state.
renderEncoder.SetViewport(new MTLViewport(0d, 0d, view.DrawableSize.Width, view.DrawableSize.Height, 0d, 1d));
renderEncoder.SetDepthStencilState(depthState);
renderEncoder.SetRenderPipelineState(pipelineState);
// Set the our per frame uniforms.
renderEncoder.SetVertexBuffer(frameUniformBuffers[constantDataBufferIndex], 0, (nuint)(int)BufferIndex.FrameUniformBuffer);
renderEncoder.PushDebugGroup("Render Meshes");
// Render each of our meshes.
foreach (MetalKitEssentialsMesh mesh in meshes)
{
mesh.RenderWithEncoder(renderEncoder);
}
renderEncoder.PopDebugGroup();
// We're done encoding commands.
renderEncoder.EndEncoding();
/*
* Call the view's completion handler which is required by the view since
* it will signal its semaphore and set up the next buffer.
*/
var drawable = view.CurrentDrawable;
commandBuffer.AddCompletedHandler(_ => {
inflightSemaphore.Release();
drawable.Dispose();
});
/*
* The renderview assumes it can now increment the buffer index and that
* the previous index won't be touched until we cycle back around to the same index.
*/
constantDataBufferIndex = (constantDataBufferIndex + 1) % maxInflightBuffers;
// Schedule a present once the framebuffer is complete using the current drawable.
commandBuffer.PresentDrawable(drawable);
// Finalize rendering here & push the command buffer to the GPU.
commandBuffer.Commit();
}
