mirror of
https://github.com/Kbz-8/Pulse.git
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138 lines
5.0 KiB
C
138 lines
5.0 KiB
C
// Copyright (C) 2025 kanel
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// This file is part of "Pulse"
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// For conditions of distribution and use, see copyright notice in LICENSE
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#include "Vulkan.h"
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#include "VulkanDevice.h"
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#include "VulkanComputePass.h"
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#include "VulkanComputePipeline.h"
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PulseComputePass VulkanCreateComputePass(PulseDevice device, PulseCommandList cmd)
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{
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PULSE_UNUSED(device);
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PulseComputePass pass = (PulseComputePass)calloc(1, sizeof(PulseComputePassHandler));
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PULSE_CHECK_ALLOCATION_RETVAL(pass, PULSE_NULL_HANDLE);
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VulkanComputePass* vulkan_pass = (VulkanComputePass*)calloc(1, sizeof(VulkanComputePass));
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PULSE_CHECK_ALLOCATION_RETVAL(vulkan_pass, PULSE_NULL_HANDLE);
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pass->cmd = cmd;
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pass->driver_data = vulkan_pass;
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return pass;
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}
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void VulkanDestroyComputePass(PulseDevice device, PulseComputePass pass)
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{
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PULSE_UNUSED(device);
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free(pass->driver_data);
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free(pass);
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}
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void VulkanBindStorageBuffers(PulseComputePass pass, const PulseBuffer* buffers, uint32_t num_buffers)
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{
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PulseBufferUsageFlags usage = buffers[0]->usage;
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bool is_readwrite = (usage & PULSE_BUFFER_USAGE_STORAGE_WRITE) != 0;
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PulseBuffer* array = is_readwrite ? pass->readwrite_storage_buffers : pass->readonly_storage_buffers;
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VulkanComputePass* vulkan_pass = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass, VulkanComputePass*);
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for(uint32_t i = 0; i < num_buffers; i++)
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{
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if(is_readwrite && (buffers[i]->usage & PULSE_BUFFER_USAGE_STORAGE_WRITE) == 0)
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{
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if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(pass->cmd->device->backend))
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PulseLogError(pass->cmd->device->backend, "cannot bind a read only buffer with read-write buffers");
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PulseSetInternalError(PULSE_ERROR_INVALID_BUFFER_USAGE);
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return;
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}
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else if(!is_readwrite && (buffers[i]->usage & PULSE_BUFFER_USAGE_STORAGE_WRITE) != 0)
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{
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if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(pass->cmd->device->backend))
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PulseLogError(pass->cmd->device->backend, "cannot bind a read-write buffer with read only buffers");
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PulseSetInternalError(PULSE_ERROR_INVALID_BUFFER_USAGE);
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return;
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}
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if(array[i] == buffers[i])
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continue;
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array[i] = buffers[i];
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if(is_readwrite)
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vulkan_pass->should_recreate_write_descriptor_sets = true;
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else
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vulkan_pass->should_recreate_read_only_descriptor_sets = true;
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}
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}
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void VulkanBindUniformData(PulseComputePass pass, uint32_t slot, const void* data, uint32_t data_size)
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{
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}
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void VulkanBindStorageImages(PulseComputePass pass, const PulseImage* images, uint32_t num_images)
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{
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PulseImageUsageFlags usage = images[0]->usage;
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bool is_readwrite = (usage & PULSE_IMAGE_USAGE_STORAGE_WRITE) != 0;
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PulseImage* array = is_readwrite ? pass->readwrite_images : pass->readonly_images;
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VulkanComputePass* vulkan_pass = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass, VulkanComputePass*);
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for(uint32_t i = 0; i < num_images; i++)
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{
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if(is_readwrite && (images[i]->usage & PULSE_IMAGE_USAGE_STORAGE_WRITE) == 0)
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{
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if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(pass->cmd->device->backend))
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PulseLogError(pass->cmd->device->backend, "cannot bind a read only image with read-write images");
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PulseSetInternalError(PULSE_ERROR_INVALID_IMAGE_USAGE);
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return;
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}
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else if(!is_readwrite && (images[i]->usage & PULSE_IMAGE_USAGE_STORAGE_WRITE) != 0)
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{
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if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(pass->cmd->device->backend))
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PulseLogError(pass->cmd->device->backend, "cannot bind a read-write image with read only images");
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PulseSetInternalError(PULSE_ERROR_INVALID_IMAGE_USAGE);
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return;
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}
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if(array[i] == images[i])
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continue;
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array[i] = images[i];
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if((usage & PULSE_IMAGE_USAGE_STORAGE_WRITE) != 0)
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vulkan_pass->should_recreate_write_descriptor_sets = true;
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else
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vulkan_pass->should_recreate_read_only_descriptor_sets = true;
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}
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}
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void VulkanBindComputePipeline(PulseComputePass pass, PulseComputePipeline pipeline)
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{
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VulkanComputePipeline* vulkan_pipeline = VULKAN_RETRIEVE_DRIVER_DATA_AS(pipeline, VulkanComputePipeline*);
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VulkanDevice* vulkan_device = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass->cmd->device, VulkanDevice*);
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VulkanCommandList* vulkan_cmd = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass->cmd, VulkanCommandList*);
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VulkanComputePass* vulkan_pass = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass, VulkanComputePass*);
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vulkan_device->vkCmdBindPipeline(vulkan_cmd->cmd, VK_PIPELINE_BIND_POINT_COMPUTE, vulkan_pipeline->pipeline);
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vulkan_pass->should_recreate_read_only_descriptor_sets = true;
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vulkan_pass->should_recreate_write_descriptor_sets = true;
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vulkan_pass->should_recreate_uniform_descriptor_sets = true;
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}
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void VulkanDispatchComputations(PulseComputePass pass, uint32_t groupcount_x, uint32_t groupcount_y, uint32_t groupcount_z)
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{
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VulkanDevice* vulkan_device = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass->cmd->device, VulkanDevice*);
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VulkanCommandList* vulkan_cmd = VULKAN_RETRIEVE_DRIVER_DATA_AS(pass->cmd, VulkanCommandList*);
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VulkanBindDescriptorSets(pass);
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vulkan_device->vkCmdDispatch(vulkan_cmd->cmd, groupcount_x, groupcount_y, groupcount_z);
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}
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PulseComputePass VulkanBeginComputePass(PulseCommandList cmd)
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{
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return cmd->pass;
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}
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void VulkanEndComputePass(PulseComputePass pass)
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{
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}
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