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PrimitiveBatch

Chuck Walbourn edited this page Aug 6, 2015 · 29 revisions

This is a helper for easily and efficiently drawing dynamically generated geometry using Direct3D 11 such as lines or trianges. It fills the same role as the legacy Direct3D 9 APIs DrawPrimitiveUP and DrawIndexedPrimitiveUP. Dynamic submission is a highly effective pattern for drawing procedural geometry, and convenient for debug rendering, but is not nearly as efficient as static buffers which is more suited to traditional meshes where the VBs and IBs do not change every frame. Excessive dynamic submission is a common source of performance problems in apps. Therefore, you should prefer to use Model, GeometricPrimitive, or your own VB/IB over PrimitiveBatch unless you really need the flexibility to regenerate the topology every frame.

PrimitiveBatch manages the vertex and index buffers for you, using DISCARD and NO_OVERWRITE hints to avoid stalling the GPU pipeline. It automatically merges adjacent draw requests, so if you call DrawLine 100 times in a row, only a single GPU draw call will be generated.

PrimitiveBatch is responsible for setting the vertex buffer, index buffer, and primitive topology, then issuing the final draw call. Unlike the higher level SpriteBatch helper, it does not provide shaders, set the input layout, or set any state objects. PrimitiveBatch is often used in conjunction with BasicEffect and the structures from VertexTypes, but it can work with any other shader or vertex formats of your own.

Related tutorial: Simple rendering

Header

#include <PrimitiveBatch.h>

Initialization

Initialize a PrimitiveBatch for drawing VertexPositionColor data

std::unique_ptr<PrimitiveBatch<VertexPositionColor>> primitiveBatch(
    new PrimitiveBatch<VertexPositionColor>(deviceContext));

For exception safety, it is recommended you make use of the C++ RAII pattern and use a std::unique_ptr or std::shared_ptr

The default values assume that your maximum batch size is 2048 vertices arranged in triangles. If you want to use larger batches, you need to provide the additional constructor parameters (be sure to review the Feature Level limitations below).

PrimitiveBatch<T>( ID3D11DeviceContext* deviceContext,
    size_t maxIndices = DefaultBatchSize * 3,
    size_t maxVertices = DefaultBatchSize)

Effect and Input Layout

Setting up a suitable BasicEffect and input layout:

std::unique_ptr<BasicEffect> basicEffect(new BasicEffect(device));

basicEffect->SetProjection(XMMatrixOrthographicOffCenterRH(0,
    screenWidth, screenHeight, 0, 0, 1));
basicEffect->SetVertexColorEnabled(true);

void const* shaderByteCode;
size_t byteCodeLength;

basicEffect->GetVertexShaderBytecode(&shaderByteCode, &byteCodeLength);

ComPtr<ID3D11InputLayout> inputLayout;

device->CreateInputLayout(VertexPositionColor::InputElements,
                          VertexPositionColor::InputElementCount,
                          shaderByteCode, byteCodeLength,
                          inputLayout.GetAddressOf() );

Drawing

CommonStates states( device );
deviceContext->OMSetBlendState( states.Opaque(), nullptr, 0xFFFFFFFF );
deviceContext->OMSetDepthStencilState( states.DepthNone(), 0 );
deviceContext->RSSetState( states.CullCounterClockwise() );

basicEffect->Apply(deviceContext);
deviceContext->IASetInputLayout(inputLayout.Get());

primitiveBatch->Begin();
primitiveBatch->DrawLine(VertexPositionColor(...), VertexPositionColor(...));
primitiveBatch->End();

PrimitiveBatch provides five drawing methods:

  • DrawLine(v1, 2): Draws a single-pixel line between two vertices
  • DrawTriangle(v1, v2, v3): Draws a triangle between three vertices
  • DrawQuad(v1, v2, v3, v4): draws a quad from four corner vertices (submitted as two triangles)
  • Draw(topology, vertices, vertexCount): Draws an array of vertices with the given topology
  • DrawIndexed(topology, indices, indexCount, vertices, vertexCount): Draws an indexed array of vertices with a given topology.

Optimization

For best performance, draw as much as possible inside the fewest separate Begin/End blocks. This will reduce overhead and maximize potential for batching.

Ideally submit draws of the same topology to avoid flushing, and preferably use D3D_PRIMITIVE_TOPOLOGY_POINTLIST, D3D_PRIMITIVE_TOPOLOGY_LINELIST, or D3D_PRIMITIVE_TOPOLOGY_TRIANGLELIST.

The PrimitiveBatch constructor allows you to specify what size index and vertex buffers to allocate. You may want to tweak these values to fit your workload, or if you only intend to draw non-indexed geometry, specify maxIndices = 0 to entirely skip creating the index buffer.

Feature Level Notes

In order to support all feature levels, PrimitiveBatch only supports 16-bit indices (DXGI_FORMAT_R16_UINT) which limits to a maximum of 65535 addressable vertices. This does not apply to non-indexed drawing when the PrimitiveBatch constructor is called with a maxIndices of 0.

Keep in mind there is a feature-level based limit on the maximum number of primitives in a single draw call, so the overall batch size needs to be under this limit. To support all feature levels, this should be 65535 or less lines or triangles in a single 'draw batch'.

Direct3D Feature Levels

Threading model

Each PrimitiveBatch instance only supports drawing from one thread at a time, but you can simultaneously submit primitives on multiple threads if you create a separate PrimitiveBatch instance per Direct3D 11 deferred context.

Immediate and Deferred Rendering

Further Reading

DirectXTK PrimitiveBatch helper makes it easy to draw user primitives with D3D11
How to: Use dynamic resources

For Use

  • Universal Windows Platform apps
  • Windows desktop apps
  • Windows 11
  • Windows 10
  • Windows 8.1
  • Xbox One

Architecture

  • x86
  • x64
  • ARM64

For Development

  • Visual Studio 2022
  • Visual Studio 2019 (16.11)
  • clang/LLVM v12 - v18
  • MinGW 12.2, 13.2
  • CMake 3.20

Related Projects

DirectX Tool Kit for DirectX 12

DirectXMesh

DirectXTex

DirectXMath

Win2D

Tools

Test Suite

Model Viewer

Content Exporter

DxCapsViewer

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