kc3-lang/angle/src/libANGLE/renderer/vulkan

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  • Hash : 95bfb3e5
    Author : Shahbaz Youssefi
    Date : 2020-07-08T23:07:48 

    Vulkan: Fix resolve draw path

If the draw path is taken for resolve, the internal shader previously
calculated (1+sum(sample.a))/sampleCount instead of
sum(sample.a)/sampleCount.  Additionally, due to a typo, the result was
rounded.

This change also fixes a number of off-by-one errors when calculating
src/dst offsets in blit/resolve path.

Tests are added to resolve from default to FBO and vice versa to
exercise the draw path which was otherwise never invoked for color
buffers.

Bug: angleproject:4746
BUg: angleproject:4092
Change-Id: I4b9c181339b89af44b27d61d27a6b3d88cde2eea
Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/2288224
Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
Reviewed-by: Jamie Madill <jmadill@chromium.org>
Reviewed-by: Ian Elliott <ianelliott@google.com>

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    Description

    A conformant OpenGL ES implementation for Windows, Mac, Linux, iOS and Android.

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  • README.md

  • ANGLE: Vulkan Back-end

    ANGLE’s Vulkan back-end implementation lives in this folder.

    Vulkan is an explicit graphics API. It has a lot in common with other explicit APIs such as Microsoft’s D3D12 and Apple’s Metal. Compared to APIs like OpenGL or D3D11 explicit APIs can offer a number of significant benefits:

    • Lower API call CPU overhead.
    • A smaller API surface with more direct hardware control.
    • Better support for multi-core programming.
    • Vulkan in particular has open-source tooling and tests.

    Back-end Design

    The RendererVk class represents an EGLDisplay. RendererVk owns shared global resources like the VkDevice, VkQueue, the Vulkan format tables and internal Vulkan shaders. The ContextVk class implements the back-end of a front-end OpenGL Context. ContextVk processes state changes and handles action commands like glDrawArrays and glDrawElements.

    Command recording

    The back-end records commands into command buffers via the the following ContextVk APIs:

    • endRenderPassAndGetCommandBuffer: returns a secondary command buffer outside a RenderPass instance.
    • flushAndBeginRenderPass: returns a secondary command buffer inside a RenderPass instance.
    • flushAndGetPrimaryCommandBuffer: returns the primary command buffer. You should rarely need this API.

    Note: All of these commands may write out (aka flush) prior pending commands into a primary command buffer. When a RenderPass is open endRenderPassAndGetCommandBuffer will flush the pending RenderPass commands. flushAndBeginRenderPass will flush out pending commands outside a RenderPass to a primary buffer. On submit ANGLE submits the primary command buffer to a VkQueue.

    If you need to record inside a RenderPass, use flushAndBeginRenderPass. Otherwise, use endRenderPassAndGetCommandBuffer. You should rarely need to call flushAndGetPrimaryCommandBuffer. It’s there for commands like debug labels, barriers and queries that need to be recorded serially on the primary command buffer.

    The back-end usually records Image and Buffer barriers through additional ContextVk APIs:

    • onBufferTransferRead/onBufferComputeShaderRead and onBufferTransferWrite/onBufferComputeShaderWrite accumulate VkBuffer barriers.
    • onImageRead and onImageWrite accumulate VkImage barriers.
    • onRenderPassImageWrite is a special API for write barriers inside a RenderPass instance.

    After the back-end records commands to the primary buffer we flush (e.g. on swap) or when we call ContextVk::finishToSerial.

    See the code for more details.

    Simple command recording example

    In this example we’ll be recording a buffer copy command:

        # Ensure that ANGLE sets proper read and write barriers for the Buffers.
    ANGLE_TRY(contextVk->onBufferTransferWrite(destBuffer));
    ANGLE_TRY(contextVk->onBufferTransferRead(srcBuffer));

    # Get a pointer to a secondary command buffer for command recording. May "flush" the RP.
    vk::CommandBuffer *commandBuffer;
    ANGLE_TRY(contextVk->endRenderPassAndGetCommandBuffer(&commandBuffer));

    # Record the copy command into the secondary buffer. We're done!
    commandBuffer->copyBuffer(srcBuffer->getBuffer(), destBuffer->getBuffer(), copyCount, copies);

    Additional Reading

    More implementation details can be found in the doc directory:

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