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Fence API (#45)
continuous-integration/drone/push Build is passing Details 

Reviewed-on: #45
pull/46/head
cosmonaut 2023-09-19 06:11:20 +00:00
parent f55968814f
commit a3949528eb
4 changed files with 423 additions and 180 deletions
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42
include/Refresh.h
View File

@ -76,6 +76,7 @@ typedef struct Refresh_ShaderModule Refresh_ShaderModule;
typedef struct Refresh_ComputePipeline Refresh_ComputePipeline;
typedef struct Refresh_GraphicsPipeline Refresh_GraphicsPipeline;
typedef struct Refresh_CommandBuffer Refresh_CommandBuffer;
typedef struct Refresh_Fence Refresh_Fence;
typedef enum Refresh_PresentMode
{
@ -1206,15 +1207,50 @@ REFRESHAPI Refresh_Texture* Refresh_AcquireSwapchainTexture(
/* Submits all of the enqueued commands. */
REFRESHAPI void Refresh_Submit(
Refresh_Device* device,
uint32_t commandBufferCount,
Refresh_CommandBuffer **pCommandBuffers
Refresh_CommandBuffer *commandBuffer
);
/* Waits for all submissions to complete. */
/* Submits a command buffer and acquires a fence.
* You can use the fence to check if or wait until the command buffer has finished processing.
* You are responsible for releasing this fence when you are done using it.
*/
REFRESHAPI Refresh_Fence* Refresh_SubmitAndAcquireFence(
Refresh_Device* device,
Refresh_CommandBuffer *commandBuffer
);
/* Waits for the device to become idle. */
REFRESHAPI void Refresh_Wait(
Refresh_Device *device
);
/* Waits for given fences to be signaled.
*
* waitAll: If 0, waits for any fence to be signaled. If 1, waits for all fences to be signaled.
* fenceCount: The number of fences being submitted.
* pFences: An array of fences to be waited on.
*/
REFRESHAPI void Refresh_WaitForFences(
Refresh_Device *device,
uint8_t waitAll,
uint32_t fenceCount,
Refresh_Fence **pFences
);
/* Check the status of a fence. 1 means the fence is signaled. */
REFRESHAPI int Refresh_QueryFence(
Refresh_Device *device,
Refresh_Fence *fence
);
/* Allows the fence to be reused by future command buffer submissions.
* If you do not release fences after acquiring them, you will cause unbounded resource growth.
*/
REFRESHAPI void Refresh_ReleaseFence(
Refresh_Device *device,
Refresh_Fence *fence
);
#ifdef __cplusplus
}
#endif /* __cplusplus */

57
src/Refresh.c
View File

@ -892,14 +892,23 @@ void Refresh_SetSwapchainPresentMode(
void Refresh_Submit(
Refresh_Device *device,
uint32_t commandBufferCount,
Refresh_CommandBuffer **pCommandBuffers
Refresh_CommandBuffer *commandBuffer
) {
NULL_RETURN(device);
device->Submit(
device->driverData,
commandBufferCount,
pCommandBuffers
commandBuffer
);
}
Refresh_Fence* Refresh_SubmitAndAcquireFence(
Refresh_Device *device,
Refresh_CommandBuffer *commandBuffer
) {
NULL_RETURN_NULL(device);
return device->SubmitAndAcquireFence(
device->driverData,
commandBuffer
);
}
@ -912,4 +921,44 @@ void Refresh_Wait(
);
}
void Refresh_WaitForFences(
Refresh_Device *device,
uint8_t waitAll,
uint32_t fenceCount,
Refresh_Fence **pFences
) {
NULL_RETURN(device);
device->WaitForFences(
device->driverData,
waitAll,
fenceCount,
pFences
);
}
int Refresh_QueryFence(
Refresh_Device *device,
Refresh_Fence *fence
) {
if (device == NULL) {
return 0;
}
return device->QueryFence(
device->driverData,
fence
);
}
void Refresh_ReleaseFence(
Refresh_Device *device,
Refresh_Fence *fence
) {
NULL_RETURN(device);
device->ReleaseFence(
device->driverData,
fence
);
}
/* vim: set noexpandtab shiftwidth=8 tabstop=8: */

89
src/Refresh_Driver.h
View File

@ -268,7 +268,7 @@ struct Refresh_Device
/* Setters */
void(*SetTextureData)(
void (*SetTextureData)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_TextureSlice *textureSlice,
@ -276,7 +276,7 @@ struct Refresh_Device
uint32_t dataLengthInBytes
);
void(*SetTextureDataYUV)(
void (*SetTextureDataYUV)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer* commandBuffer,
Refresh_Texture *y,
@ -295,7 +295,7 @@ struct Refresh_Device
uint32_t uvStride
);
void(*CopyTextureToTexture)(
void (*CopyTextureToTexture)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_TextureSlice *sourceTextureSlice,
@ -303,14 +303,14 @@ struct Refresh_Device
Refresh_Filter filter
);
void(*CopyTextureToBuffer)(
void (*CopyTextureToBuffer)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_TextureSlice *textureSlice,
Refresh_Buffer *buffer
);
void(*SetBufferData)(
void (*SetBufferData)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Buffer *buffer,
@ -319,14 +319,14 @@ struct Refresh_Device
uint32_t dataLength
);
uint32_t(*PushVertexShaderUniforms)(
uint32_t (*PushVertexShaderUniforms)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
void *data,
uint32_t dataLengthInBytes
);
uint32_t(*PushFragmentShaderUniforms)(
uint32_t (*PushFragmentShaderUniforms)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
void *data,
@ -340,14 +340,14 @@ struct Refresh_Device
uint32_t dataLengthInBytes
);
void(*BindVertexSamplers)(
void (*BindVertexSamplers)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Texture **pTextures,
Refresh_Sampler **pSamplers
);
void(*BindFragmentSamplers)(
void (*BindFragmentSamplers)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Texture **pTextures,
@ -356,7 +356,7 @@ struct Refresh_Device
/* Getters */
void(*GetBufferData)(
void (*GetBufferData)(
Refresh_Renderer *driverData,
Refresh_Buffer *buffer,
void *data,
@ -365,39 +365,39 @@ struct Refresh_Device
/* Disposal */
void(*QueueDestroyTexture)(
void (*QueueDestroyTexture)(
Refresh_Renderer *driverData,
Refresh_Texture *texture
);
void(*QueueDestroySampler)(
void (*QueueDestroySampler)(
Refresh_Renderer *driverData,
Refresh_Sampler *sampler
);
void(*QueueDestroyBuffer)(
void (*QueueDestroyBuffer)(
Refresh_Renderer *driverData,
Refresh_Buffer *buffer
);
void(*QueueDestroyShaderModule)(
void (*QueueDestroyShaderModule)(
Refresh_Renderer *driverData,
Refresh_ShaderModule *shaderModule
);
void(*QueueDestroyComputePipeline)(
void (*QueueDestroyComputePipeline)(
Refresh_Renderer *driverData,
Refresh_ComputePipeline *computePipeline
);
void(*QueueDestroyGraphicsPipeline)(
void (*QueueDestroyGraphicsPipeline)(
Refresh_Renderer *driverData,
Refresh_GraphicsPipeline *graphicsPipeline
);
/* Graphics State */
void(*BeginRenderPass)(
void (*BeginRenderPass)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_ColorAttachmentInfo *colorAttachmentInfos,
@ -405,30 +405,30 @@ struct Refresh_Device
Refresh_DepthStencilAttachmentInfo *depthStencilAttachmentInfo
);
void(*EndRenderPass)(
void (*EndRenderPass)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer
);
void(*SetViewport)(
void (*SetViewport)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Viewport *viewport
);
void(*SetScissor)(
void (*SetScissor)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Rect *scissor
);
void(*BindGraphicsPipeline)(
void (*BindGraphicsPipeline)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_GraphicsPipeline *graphicsPipeline
);
void(*BindVertexBuffers)(
void (*BindVertexBuffers)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
uint32_t firstBinding,
@ -437,7 +437,7 @@ struct Refresh_Device
uint64_t *pOffsets
);
void(*BindIndexBuffer)(
void (*BindIndexBuffer)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Buffer *buffer,
@ -445,19 +445,19 @@ struct Refresh_Device
Refresh_IndexElementSize indexElementSize
);
void(*BindComputePipeline)(
void (*BindComputePipeline)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_ComputePipeline *computePipeline
);
void(*BindComputeBuffers)(
void (*BindComputeBuffers)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Buffer **pBuffers
);
void(*BindComputeTextures)(
void (*BindComputeTextures)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer,
Refresh_Texture **pTextures
@ -469,7 +469,7 @@ struct Refresh_Device
Refresh_PresentMode presentMode
);
void(*UnclaimWindow)(
void (*UnclaimWindow)(
Refresh_Renderer *driverData,
void *windowHandle
);
@ -497,16 +497,37 @@ struct Refresh_Device
Refresh_PresentMode presentMode
);
void(*Submit)(
void (*Submit)(
Refresh_Renderer *driverData,
uint32_t commandBufferCount,
Refresh_CommandBuffer **pCommandBuffers
Refresh_CommandBuffer *commandBuffer
);
void(*Wait)(
Refresh_Fence* (*SubmitAndAcquireFence)(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer
);
void (*Wait)(
Refresh_Renderer *driverData
);
void (*WaitForFences)(
Refresh_Renderer *driverData,
uint8_t waitAll,
uint32_t fenceCount,
Refresh_Fence **pFences
);
int (*QueryFence)(
Refresh_Renderer *driverData,
Refresh_Fence *fence
);
void (*ReleaseFence)(
Refresh_Renderer *driverData,
Refresh_Fence *fence
);
/* Opaque pointer for the Driver */
Refresh_Renderer *driverData;
};
@ -560,7 +581,11 @@ struct Refresh_Device
ASSIGN_DRIVER_FUNC(GetSwapchainFormat, name) \
ASSIGN_DRIVER_FUNC(SetSwapchainPresentMode, name) \
ASSIGN_DRIVER_FUNC(Submit, name) \
ASSIGN_DRIVER_FUNC(Wait, name)
ASSIGN_DRIVER_FUNC(SubmitAndAcquireFence, name) \
ASSIGN_DRIVER_FUNC(Wait, name) \
ASSIGN_DRIVER_FUNC(WaitForFences, name) \
ASSIGN_DRIVER_FUNC(QueryFence, name) \
ASSIGN_DRIVER_FUNC(ReleaseFence, name)
typedef struct Refresh_Driver
{

415
src/Refresh_Driver_Vulkan.c
View File

@ -1533,6 +1533,15 @@ typedef struct VulkanTransferBufferPool
uint32_t availableBufferCapacity;
} VulkanTransferBufferPool;
typedef struct VulkanFencePool
{
SDL_mutex *lock;
VkFence *availableFences;
uint32_t availableFenceCount;
uint32_t availableFenceCapacity;
} VulkanFencePool;
typedef struct VulkanCommandPool VulkanCommandPool;
typedef struct VulkanCommandBuffer
@ -1624,6 +1633,7 @@ typedef struct VulkanCommandBuffer
/* Shader modules have references tracked by pipelines */
VkFence inFlightFence;
uint8_t autoReleaseFence;
} VulkanCommandBuffer;
struct VulkanCommandPool
@ -1737,6 +1747,7 @@ typedef struct VulkanRenderer
uint32_t submittedCommandBufferCapacity;
VulkanTransferBufferPool transferBufferPool;
VulkanFencePool fencePool;
CommandPoolHashTable commandPoolHashTable;
DescriptorSetLayoutHashTable descriptorSetLayoutHashTable;
@ -1828,7 +1839,7 @@ static uint8_t VULKAN_INTERNAL_DefragmentMemory(VulkanRenderer *renderer);
static void VULKAN_INTERNAL_BeginCommandBuffer(VulkanRenderer *renderer, VulkanCommandBuffer *commandBuffer);
static void VULKAN_UnclaimWindow(Refresh_Renderer *driverData, void *windowHandle);
static void VULKAN_Wait(Refresh_Renderer *driverData);
static void VULKAN_Submit(Refresh_Renderer *driverData, uint32_t commandBufferCount, Refresh_CommandBuffer **pCommandBuffers);
static void VULKAN_Submit(Refresh_Renderer *driverData, Refresh_CommandBuffer *commandBuffer);
static void VULKAN_INTERNAL_DestroyRenderTarget(VulkanRenderer *renderer, VulkanRenderTarget *renderTarget);
/* Error Handling */
@ -3589,12 +3600,6 @@ static void VULKAN_INTERNAL_DestroyCommandPool(
{
commandBuffer = commandPool->inactiveCommandBuffers[i];
renderer->vkDestroyFence(
renderer->logicalDevice,
commandBuffer->inFlightFence,
NULL
);
SDL_free(commandBuffer->presentDatas);
SDL_free(commandBuffer->waitSemaphores);
SDL_free(commandBuffer->signalSemaphores);
@ -5158,6 +5163,14 @@ static void VULKAN_DestroyDevice(
SDL_free(renderer->transferBufferPool.availableBuffers);
SDL_DestroyMutex(renderer->transferBufferPool.lock);
for (i = 0; i < renderer->fencePool.availableFenceCount; i += 1)
{
renderer->vkDestroyFence(renderer->logicalDevice, renderer->fencePool.availableFences[i], NULL);
}
SDL_free(renderer->fencePool.availableFences);
SDL_DestroyMutex(renderer->fencePool.lock);
for (i = 0; i < NUM_COMMAND_POOL_BUCKETS; i += 1)
{
commandPoolHashArray = renderer->commandPoolHashTable.buckets[i];
@ -9362,7 +9375,6 @@ static void VULKAN_INTERNAL_AllocateCommandBuffers(
uint32_t allocateCount
) {
VkCommandBufferAllocateInfo allocateInfo;
VkFenceCreateInfo fenceCreateInfo;
VkResult vulkanResult;
uint32_t i;
VkCommandBuffer *commandBuffers = SDL_stack_alloc(VkCommandBuffer, allocateCount);
@ -9401,23 +9413,7 @@ static void VULKAN_INTERNAL_AllocateCommandBuffers(
commandBuffer->commandPool = vulkanCommandPool;
commandBuffer->commandBuffer = commandBuffers[i];
/* Create fence */
fenceCreateInfo.sType = VK_STRUCTURE_TYPE_FENCE_CREATE_INFO;
fenceCreateInfo.pNext = NULL;
fenceCreateInfo.flags = 0;
vulkanResult = renderer->vkCreateFence(
renderer->logicalDevice,
&fenceCreateInfo,
NULL,
&commandBuffer->inFlightFence
);
if (vulkanResult != VK_SUCCESS)
{
LogVulkanResultAsError("vkCreateFence", vulkanResult);
}
commandBuffer->inFlightFence = VK_NULL_HANDLE;
commandBuffer->renderPassDepthTexture = NULL;
/* Presentation tracking */
@ -9650,17 +9646,6 @@ static Refresh_CommandBuffer* VULKAN_AcquireCommandBuffer(
LogVulkanResultAsError("vkResetCommandBuffer", result);
}
result = renderer->vkResetFences(
renderer->logicalDevice,
1,
&commandBuffer->inFlightFence
);
if (result != VK_SUCCESS)
{
LogVulkanResultAsError("vkResetFences", result);
}
VULKAN_INTERNAL_BeginCommandBuffer(renderer, commandBuffer);
return (Refresh_CommandBuffer*) commandBuffer;
@ -9949,6 +9934,77 @@ static void VULKAN_SetSwapchainPresentMode(
/* Submission structure */
static VkFence VULKAN_INTERNAL_AcquireFenceFromPool(
VulkanRenderer *renderer
) {
VkFenceCreateInfo fenceCreateInfo;
VkFence fence;
VkResult vulkanResult;
if (renderer->fencePool.availableFenceCount == 0)
{
/* Create fence */
fenceCreateInfo.sType = VK_STRUCTURE_TYPE_FENCE_CREATE_INFO;
fenceCreateInfo.pNext = NULL;
fenceCreateInfo.flags = 0;
vulkanResult = renderer->vkCreateFence(
renderer->logicalDevice,
&fenceCreateInfo,
NULL,
&fence
);
if (vulkanResult != VK_SUCCESS)
{
LogVulkanResultAsError("vkCreateFence", vulkanResult);
return NULL;
}
return fence;
}
SDL_LockMutex(renderer->fencePool.lock);
fence = renderer->fencePool.availableFences[renderer->fencePool.availableFenceCount - 1];
renderer->fencePool.availableFenceCount -= 1;
vulkanResult = renderer->vkResetFences(
renderer->logicalDevice,
1,
&fence
);
if (vulkanResult != VK_SUCCESS)
{
LogVulkanResultAsError("vkResetFences", vulkanResult);
}
SDL_UnlockMutex(renderer->fencePool.lock);
return fence;
}
static void VULKAN_INTERNAL_ReturnFenceToPool(
VulkanRenderer *renderer,
VkFence fence
) {
SDL_LockMutex(renderer->fencePool.lock);
EXPAND_ARRAY_IF_NEEDED(
renderer->fencePool.availableFences,
VkFence,
renderer->fencePool.availableFenceCount + 1,
renderer->fencePool.availableFenceCapacity,
renderer->fencePool.availableFenceCapacity * 2
);
renderer->fencePool.availableFences[renderer->fencePool.availableFenceCount] = fence;
renderer->fencePool.availableFenceCount += 1;
SDL_UnlockMutex(renderer->fencePool.lock);
}
static void VULKAN_INTERNAL_PerformPendingDestroys(
VulkanRenderer *renderer
) {
@ -10064,6 +10120,16 @@ static void VULKAN_INTERNAL_CleanCommandBuffer(
VulkanUniformBuffer *uniformBuffer;
DescriptorSetData *descriptorSetData;
if (commandBuffer->autoReleaseFence)
{
VULKAN_INTERNAL_ReturnFenceToPool(
renderer,
commandBuffer->inFlightFence
);
commandBuffer->inFlightFence = VK_NULL_HANDLE;
}
/* Bound uniform buffers are now available */
for (i = 0; i < commandBuffer->boundUniformBufferCount; i += 1)
@ -10219,26 +10285,16 @@ static void VULKAN_Wait(
VkResult result;
int32_t i;
SDL_LockMutex(renderer->submitLock);
result = renderer->vkDeviceWaitIdle(renderer->logicalDevice);
for (i = renderer->submittedCommandBufferCount - 1; i >= 0; i -= 1)
if (result != VK_SUCCESS)
{
commandBuffer = renderer->submittedCommandBuffers[i];
result = renderer->vkWaitForFences(
renderer->logicalDevice,
1,
&commandBuffer->inFlightFence,
VK_TRUE,
UINT64_MAX
);
if (result != VK_SUCCESS)
{
LogVulkanResultAsError("vkWaitForFences", result);
}
LogVulkanResultAsError("vkDeviceWaitIdle", result);
return;
}
SDL_LockMutex(renderer->submitLock);
for (i = renderer->submittedCommandBufferCount - 1; i >= 0; i -= 1)
{
commandBuffer = renderer->submittedCommandBuffers[i];
@ -10250,17 +10306,30 @@ static void VULKAN_Wait(
SDL_UnlockMutex(renderer->submitLock);
}
static Refresh_Fence* VULKAN_SubmitAndAcquireFence(
Refresh_Renderer *driverData,
Refresh_CommandBuffer *commandBuffer
) {
VulkanCommandBuffer *vulkanCommandBuffer;
VULKAN_Submit(driverData, commandBuffer);
vulkanCommandBuffer = (VulkanCommandBuffer*) commandBuffer;
vulkanCommandBuffer->autoReleaseFence = 0;
return (Refresh_Fence*) vulkanCommandBuffer->inFlightFence;
}
static void VULKAN_Submit(
Refresh_Renderer *driverData,
uint32_t commandBufferCount,
Refresh_CommandBuffer **pCommandBuffers
Refresh_CommandBuffer *commandBuffer
) {
VulkanRenderer* renderer = (VulkanRenderer*)driverData;
VkSubmitInfo submitInfo;
VkPresentInfoKHR presentInfo;
VulkanPresentData *presentData;
VkResult vulkanResult, presentResult = VK_SUCCESS;
VulkanCommandBuffer *currentCommandBuffer;
VulkanCommandBuffer *vulkanCommandBuffer;
VkPipelineStageFlags waitStages[MAX_PRESENT_COUNT];
uint32_t swapchainImageIndex;
uint8_t commandBufferCleaned = 0;
@ -10275,99 +10344,97 @@ static void VULKAN_Submit(
waitStages[i] = VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
}
/* Submit the commands finally */
vulkanCommandBuffer = (VulkanCommandBuffer*) commandBuffer;
for (i = 0; i < commandBufferCount; i += 1)
for (j = 0; j < vulkanCommandBuffer->presentDataCount; j += 1)
{
currentCommandBuffer = (VulkanCommandBuffer*)pCommandBuffers[i];
swapchainImageIndex = vulkanCommandBuffer->presentDatas[j].swapchainImageIndex;
for (j = 0; j < currentCommandBuffer->presentDataCount; j += 1)
{
swapchainImageIndex = currentCommandBuffer->presentDatas[j].swapchainImageIndex;
VULKAN_INTERNAL_ImageMemoryBarrier(
renderer,
currentCommandBuffer->commandBuffer,
RESOURCE_ACCESS_PRESENT,
VK_IMAGE_ASPECT_COLOR_BIT,
0,
1,
0,
1,
0,
currentCommandBuffer->presentDatas[j].windowData->swapchainData->textureContainers[swapchainImageIndex].vulkanTexture->image,
&currentCommandBuffer->presentDatas[j].windowData->swapchainData->textureContainers[swapchainImageIndex].vulkanTexture->resourceAccessType
);
}
VULKAN_INTERNAL_EndCommandBuffer(renderer, currentCommandBuffer);
submitInfo.sType = VK_STRUCTURE_TYPE_SUBMIT_INFO;
submitInfo.pNext = NULL;
submitInfo.commandBufferCount = 1;
submitInfo.pCommandBuffers = &currentCommandBuffer->commandBuffer;
submitInfo.pWaitDstStageMask = waitStages;
submitInfo.pWaitSemaphores = currentCommandBuffer->waitSemaphores;
submitInfo.waitSemaphoreCount = currentCommandBuffer->waitSemaphoreCount;
submitInfo.pSignalSemaphores = currentCommandBuffer->signalSemaphores;
submitInfo.signalSemaphoreCount = currentCommandBuffer->signalSemaphoreCount;
vulkanResult = renderer->vkQueueSubmit(
renderer->unifiedQueue,
VULKAN_INTERNAL_ImageMemoryBarrier(
renderer,
vulkanCommandBuffer->commandBuffer,
RESOURCE_ACCESS_PRESENT,
VK_IMAGE_ASPECT_COLOR_BIT,
0,
1,
&submitInfo,
currentCommandBuffer->inFlightFence
0,
1,
0,
vulkanCommandBuffer->presentDatas[j].windowData->swapchainData->textureContainers[swapchainImageIndex].vulkanTexture->image,
&vulkanCommandBuffer->presentDatas[j].windowData->swapchainData->textureContainers[swapchainImageIndex].vulkanTexture->resourceAccessType
);
}
VULKAN_INTERNAL_EndCommandBuffer(renderer, vulkanCommandBuffer);
vulkanCommandBuffer->autoReleaseFence = 1;
vulkanCommandBuffer->inFlightFence = VULKAN_INTERNAL_AcquireFenceFromPool(renderer);
submitInfo.sType = VK_STRUCTURE_TYPE_SUBMIT_INFO;
submitInfo.pNext = NULL;
submitInfo.commandBufferCount = 1;
submitInfo.pCommandBuffers = &vulkanCommandBuffer->commandBuffer;
submitInfo.pWaitDstStageMask = waitStages;
submitInfo.pWaitSemaphores = vulkanCommandBuffer->waitSemaphores;
submitInfo.waitSemaphoreCount = vulkanCommandBuffer->waitSemaphoreCount;
submitInfo.pSignalSemaphores = vulkanCommandBuffer->signalSemaphores;
submitInfo.signalSemaphoreCount = vulkanCommandBuffer->signalSemaphoreCount;
vulkanResult = renderer->vkQueueSubmit(
renderer->unifiedQueue,
1,
&submitInfo,
vulkanCommandBuffer->inFlightFence
);
if (vulkanResult != VK_SUCCESS)
{
LogVulkanResultAsError("vkQueueSubmit", vulkanResult);
}
/* Mark command buffers as submitted */
if (renderer->submittedCommandBufferCount + 1 >= renderer->submittedCommandBufferCapacity)
{
renderer->submittedCommandBufferCapacity = renderer->submittedCommandBufferCount + 1;
renderer->submittedCommandBuffers = SDL_realloc(
renderer->submittedCommandBuffers,
sizeof(VulkanCommandBuffer*) * renderer->submittedCommandBufferCapacity
);
}
renderer->submittedCommandBuffers[renderer->submittedCommandBufferCount] = vulkanCommandBuffer;
renderer->submittedCommandBufferCount += 1;
/* Present, if applicable */
for (j = 0; j < vulkanCommandBuffer->presentDataCount; j += 1)
{
presentData = &vulkanCommandBuffer->presentDatas[j];
presentInfo.sType = VK_STRUCTURE_TYPE_PRESENT_INFO_KHR;
presentInfo.pNext = NULL;
presentInfo.pWaitSemaphores = &presentData->windowData->swapchainData->renderFinishedSemaphore;
presentInfo.waitSemaphoreCount = 1;
presentInfo.pSwapchains = &presentData->windowData->swapchainData->swapchain;
presentInfo.swapchainCount = 1;
presentInfo.pImageIndices = &presentData->swapchainImageIndex;
presentInfo.pResults = NULL;
presentResult = renderer->vkQueuePresentKHR(
renderer->unifiedQueue,
&presentInfo
);
if (vulkanResult != VK_SUCCESS)
if (presentResult != VK_SUCCESS)
{
LogVulkanResultAsError("vkQueueSubmit", vulkanResult);
}
/* Mark command buffers as submitted */
if (renderer->submittedCommandBufferCount + 1 >= renderer->submittedCommandBufferCapacity)
{
renderer->submittedCommandBufferCapacity = renderer->submittedCommandBufferCount + 1;
renderer->submittedCommandBuffers = SDL_realloc(
renderer->submittedCommandBuffers,
sizeof(VulkanCommandBuffer*) * renderer->submittedCommandBufferCapacity
VULKAN_INTERNAL_RecreateSwapchain(
renderer,
presentData->windowData
);
}
renderer->submittedCommandBuffers[renderer->submittedCommandBufferCount] = (VulkanCommandBuffer*) pCommandBuffers[i];
renderer->submittedCommandBufferCount += 1;
/* Present, if applicable */
for (j = 0; j < currentCommandBuffer->presentDataCount; j += 1)
{
presentData = &currentCommandBuffer->presentDatas[j];
presentInfo.sType = VK_STRUCTURE_TYPE_PRESENT_INFO_KHR;
presentInfo.pNext = NULL;
presentInfo.pWaitSemaphores = &presentData->windowData->swapchainData->renderFinishedSemaphore;
presentInfo.waitSemaphoreCount = 1;
presentInfo.pSwapchains = &presentData->windowData->swapchainData->swapchain;
presentInfo.swapchainCount = 1;
presentInfo.pImageIndices = &presentData->swapchainImageIndex;
presentInfo.pResults = NULL;
presentResult = renderer->vkQueuePresentKHR(
renderer->unifiedQueue,
&presentInfo
);
if (presentResult != VK_SUCCESS)
{
VULKAN_INTERNAL_RecreateSwapchain(
renderer,
presentData->windowData
);
}
}
}
/* Check if we can perform any cleanups */
@ -10670,8 +10737,7 @@ static uint8_t VULKAN_INTERNAL_DefragmentMemory(
VULKAN_Submit(
(Refresh_Renderer*) renderer,
1,
(Refresh_CommandBuffer**) &commandBuffer
(Refresh_CommandBuffer*) commandBuffer
);
renderer->defragInProgress = 0;
@ -10679,6 +10745,63 @@ static uint8_t VULKAN_INTERNAL_DefragmentMemory(
return 1;
}
static void VULKAN_WaitForFences(
Refresh_Renderer *driverData,
uint8_t waitAll,
uint32_t fenceCount,
Refresh_Fence **pFences
) {
VulkanRenderer* renderer = (VulkanRenderer*) driverData;
VkResult result;
result = renderer->vkWaitForFences(
renderer->logicalDevice,
fenceCount,
(VkFence*) pFences,
waitAll,
UINT64_MAX
);
if (result != VK_SUCCESS)
{
LogVulkanResultAsError("vkWaitForFences", result);
}
}
static int VULKAN_QueryFence(
Refresh_Renderer *driverData,
Refresh_Fence *fence
) {
VulkanRenderer* renderer = (VulkanRenderer*) driverData;
VkResult result;
result = renderer->vkGetFenceStatus(
renderer->logicalDevice,
(VkFence) fence
);
if (result == VK_SUCCESS)
{
return 1;
}
else if (result == VK_NOT_READY)
{
return 0;
}
else
{
LogVulkanResultAsError("vkGetFenceStatus", result);
return -1;
}
}
static void VULKAN_ReleaseFence(
Refresh_Renderer *driverData,
Refresh_Fence *fence
) {
VULKAN_INTERNAL_ReturnFenceToPool((VulkanRenderer*) driverData, (VkFence) fence);
}
/* Device instantiation */
static inline uint8_t CheckDeviceExtensions(
@ -11966,6 +12089,16 @@ static Refresh_Device* VULKAN_CreateDevice(
renderer->transferBufferPool.availableBufferCount += 1;
}
/* Initialize fence pool */
renderer->fencePool.lock = SDL_CreateMutex();
renderer->fencePool.availableFenceCapacity = 4;
renderer->fencePool.availableFenceCount = 0;
renderer->fencePool.availableFences = SDL_malloc(
renderer->fencePool.availableFenceCapacity * sizeof(VkFence)
);
/* Some drivers don't support D16, so we have to fall back to D32. */
vulkanResult = renderer->vkGetPhysicalDeviceImageFormatProperties(