GPURenderPassEncoder
Limited availability
This feature is not Baseline because it does not work in some of the most widely-used browsers.
Experimental: This is an experimental technology
Check the Browser compatibility table carefully before using this in production.
Secure context: This feature is available only in secure contexts (HTTPS), in some or all supporting browsers.
Note: This feature is available in Web Workers.
The GPURenderPassEncoder
interface of the WebGPU API encodes commands related to controlling the vertex and fragment shader stages, as issued by a GPURenderPipeline
. It forms part of the overall encoding activity of a GPUCommandEncoder
.
A render pipeline renders graphics to GPUTexture
attachments, typically intended for display in a <canvas>
element, but it could also render to textures used for other purposes that never appear onscreen. It has two main stages:
-
A vertex stage, in which a vertex shader takes positioning data fed into the GPU and uses it to position a series of vertices in 3D space by applying specified effects like rotation, translation, or perspective. The vertices are then assembled into primitives such as triangles (the basic building block of rendered graphics) and rasterized by the GPU to figure out what pixels each one should cover on the drawing canvas.
-
A fragment stage, in which a fragment shader computes the color for each pixel covered by the primitives produced by the vertex shader. These computations frequently use inputs such as images (in the form of textures) that provide surface details and the position and color of virtual lights.
A GPURenderPassEncoder
object instance is created via the GPUCommandEncoder.beginRenderPass()
property.
Instance properties
Instance methods
beginOcclusionQuery()
Experimental-
Begins an occlusion query at the specified index of the relevant
GPUQuerySet
(provided as the value of theocclusionQuerySet
descriptor property when invokingGPUCommandEncoder.beginRenderPass()
to run the render pass). draw()
Experimental-
Draw primitives based on the vertex buffers provided by
setVertexBuffer()
. drawIndexed()
Experimental-
Draw indexed primitives based on the vertex and index buffers provided by
setVertexBuffer()
andsetIndexBuffer()
drawIndirect()
Experimental-
Draw primitives using parameters read from a
GPUBuffer
. drawIndexedIndirect()
Experimental-
Draw indexed primitives using parameters read from a
GPUBuffer
. end()
Experimental-
Completes recording of the current render pass command sequence.
endOcclusionQuery()
Experimental-
Ends an active occlusion query previously started with
beginOcclusionQuery()
. executeBundles()
Experimental-
Executes commands previously recorded into the referenced
GPURenderBundle
s, as part of this render pass. insertDebugMarker()
Experimental-
Marks a specific point in a series of encoded commands with a label.
popDebugGroup()
Experimental-
Ends a debug group, which is begun with a
pushDebugGroup()
call. pushDebugGroup()
Experimental-
Begins a debug group, which is marked with a specified label, and will contain all subsequent encoded commands up until a
popDebugGroup()
method is invoked. setBindGroup()
Experimental-
Sets the
GPUBindGroup
to use for subsequent render commands, for a given index. setBlendConstant()
Experimental-
Sets the constant blend color and alpha values used with
"constant"
and"one-minus-constant"
blend factors (as set in the descriptor of theGPUDevice.createRenderPipeline()
method, in theblend
property). setIndexBuffer()
Experimental-
Sets the current
GPUBuffer
that will provide index data for subsequent drawing commands. setPipeline()
Experimental-
Sets the
GPURenderPipeline
to use for this render pass. setScissorRect()
Experimental-
Sets the scissor rectangle used during the rasterization stage. After transformation into viewport coordinates any fragments that fall outside the scissor rectangle will be discarded.
setStencilReference()
Experimental-
Sets the stencil reference value using during stencil tests with the
"replace"
stencil operation (as set in the descriptor of theGPUDevice.createRenderPipeline()
method, in the properties defining the various stencil operations). setVertexBuffer()
Experimental-
Sets or unsets the current
GPUBuffer
that will provide vertex data for subsequent drawing commands. setViewport()
Experimental-
Sets the viewport used during the rasterization stage to linearly map from normalized device coordinates to viewport coordinates.
Examples
In our basic render demo, several commands are recorded via a GPUCommandEncoder
. Most of these commands originate from the GPURenderPassEncoder
created via GPUCommandEncoder.beginRenderPass()
.
// ...
const renderPipeline = device.createRenderPipeline(pipelineDescriptor);
// Create GPUCommandEncoder to issue commands to the GPU
// Note: render pass descriptor, command encoder, etc. are destroyed after use, fresh one needed for each frame.
const commandEncoder = device.createCommandEncoder();
// Create GPURenderPassDescriptor to tell WebGPU which texture to draw into, then initiate render pass
const renderPassDescriptor = {
colorAttachments: [
{
clearValue: clearColor,
loadOp: "clear",
storeOp: "store",
view: context.getCurrentTexture().createView(),
},
],
};
const passEncoder = commandEncoder.beginRenderPass(renderPassDescriptor);
// Draw the triangle
passEncoder.setPipeline(renderPipeline);
passEncoder.setVertexBuffer(0, vertexBuffer);
passEncoder.draw(3);
// End the render pass
passEncoder.end();
// End frame by passing array of command buffers to command queue for execution
device.queue.submit([commandEncoder.finish()]);
// ...
Specifications
Specification |
---|
WebGPU # gpurenderpassencoder |
Browser compatibility
BCD tables only load in the browser
See also
- The WebGPU API