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398 lines
18 KiB
C
398 lines
18 KiB
C
/* Copyright (C) 2010-2020 The RetroArch team
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*
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* ---------------------------------------------------------------------------------------------
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* The following license statement only applies to this libretro API header (libretro_vulkan.h)
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* ---------------------------------------------------------------------------------------------
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*
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* Permission is hereby granted, free of charge,
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* to any person obtaining a copy of this software and associated documentation files (the "Software"),
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* to deal in the Software without restriction, including without limitation the rights to
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* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software,
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* and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
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* INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
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* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#ifndef LIBRETRO_VULKAN_H__
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#define LIBRETRO_VULKAN_H__
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#include <libretro.h>
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#include <vulkan/vulkan.h>
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#define RETRO_HW_RENDER_INTERFACE_VULKAN_VERSION 5
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#define RETRO_HW_RENDER_CONTEXT_NEGOTIATION_INTERFACE_VULKAN_VERSION 1
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struct retro_vulkan_image
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{
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VkImageView image_view;
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VkImageLayout image_layout;
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VkImageViewCreateInfo create_info;
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};
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typedef void (*retro_vulkan_set_image_t)(void *handle,
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const struct retro_vulkan_image *image,
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uint32_t num_semaphores,
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const VkSemaphore *semaphores,
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uint32_t src_queue_family);
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typedef uint32_t (*retro_vulkan_get_sync_index_t)(void *handle);
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typedef uint32_t (*retro_vulkan_get_sync_index_mask_t)(void *handle);
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typedef void (*retro_vulkan_set_command_buffers_t)(void *handle,
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uint32_t num_cmd,
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const VkCommandBuffer *cmd);
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typedef void (*retro_vulkan_wait_sync_index_t)(void *handle);
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typedef void (*retro_vulkan_lock_queue_t)(void *handle);
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typedef void (*retro_vulkan_unlock_queue_t)(void *handle);
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typedef void (*retro_vulkan_set_signal_semaphore_t)(void *handle, VkSemaphore semaphore);
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typedef const VkApplicationInfo *(*retro_vulkan_get_application_info_t)(void);
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struct retro_vulkan_context
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{
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VkPhysicalDevice gpu;
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VkDevice device;
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VkQueue queue;
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uint32_t queue_family_index;
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VkQueue presentation_queue;
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uint32_t presentation_queue_family_index;
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};
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typedef bool (*retro_vulkan_create_device_t)(
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struct retro_vulkan_context *context,
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VkInstance instance,
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VkPhysicalDevice gpu,
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VkSurfaceKHR surface,
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PFN_vkGetInstanceProcAddr get_instance_proc_addr,
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const char **required_device_extensions,
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unsigned num_required_device_extensions,
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const char **required_device_layers,
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unsigned num_required_device_layers,
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const VkPhysicalDeviceFeatures *required_features);
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typedef void (*retro_vulkan_destroy_device_t)(void);
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/* Note on thread safety:
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* The Vulkan API is heavily designed around multi-threading, and
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* the libretro interface for it should also be threading friendly.
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* A core should be able to build command buffers and submit
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* command buffers to the GPU from any thread.
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*/
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struct retro_hw_render_context_negotiation_interface_vulkan
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{
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/* Must be set to RETRO_HW_RENDER_CONTEXT_NEGOTIATION_INTERFACE_VULKAN. */
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enum retro_hw_render_context_negotiation_interface_type interface_type;
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/* Must be set to RETRO_HW_RENDER_CONTEXT_NEGOTIATION_INTERFACE_VULKAN_VERSION. */
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unsigned interface_version;
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/* If non-NULL, returns a VkApplicationInfo struct that the frontend can use instead of
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* its "default" application info.
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*/
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retro_vulkan_get_application_info_t get_application_info;
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/* If non-NULL, the libretro core will choose one or more physical devices,
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* create one or more logical devices and create one or more queues.
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* The core must prepare a designated PhysicalDevice, Device, Queue and queue family index
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* which the frontend will use for its internal operation.
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*
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* If gpu is not VK_NULL_HANDLE, the physical device provided to the frontend must be this PhysicalDevice.
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* The core is still free to use other physical devices.
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*
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* The frontend will request certain extensions and layers for a device which is created.
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* The core must ensure that the queue and queue_family_index support GRAPHICS and COMPUTE.
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*
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* If surface is not VK_NULL_HANDLE, the core must consider presentation when creating the queues.
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* If presentation to "surface" is supported on the queue, presentation_queue must be equal to queue.
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* If not, a second queue must be provided in presentation_queue and presentation_queue_index.
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* If surface is not VK_NULL_HANDLE, the instance from frontend will have been created with supported for
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* VK_KHR_surface extension.
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*
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* The core is free to set its own queue priorities.
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* Device provided to frontend is owned by the frontend, but any additional device resources must be freed by core
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* in destroy_device callback.
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*
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* If this function returns true, a PhysicalDevice, Device and Queues are initialized.
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* If false, none of the above have been initialized and the frontend will attempt
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* to fallback to "default" device creation, as if this function was never called.
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*/
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retro_vulkan_create_device_t create_device;
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/* If non-NULL, this callback is called similar to context_destroy for HW_RENDER_INTERFACE.
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* However, it will be called even if context_reset was not called.
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* This can happen if the context never succeeds in being created.
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* destroy_device will always be called before the VkInstance
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* of the frontend is destroyed if create_device was called successfully so that the core has a chance of
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* tearing down its own device resources.
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*
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* Only auxillary resources should be freed here, i.e. resources which are not part of retro_vulkan_context.
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*/
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retro_vulkan_destroy_device_t destroy_device;
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};
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struct retro_hw_render_interface_vulkan
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{
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/* Must be set to RETRO_HW_RENDER_INTERFACE_VULKAN. */
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enum retro_hw_render_interface_type interface_type;
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/* Must be set to RETRO_HW_RENDER_INTERFACE_VULKAN_VERSION. */
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unsigned interface_version;
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/* Opaque handle to the Vulkan backend in the frontend
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* which must be passed along to all function pointers
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* in this interface.
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*
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* The rationale for including a handle here (which libretro v1
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* doesn't currently do in general) is:
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*
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* - Vulkan cores should be able to be freely threaded without lots of fuzz.
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* This would break frontends which currently rely on TLS
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* to deal with multiple cores loaded at the same time.
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* - Fixing this in general is TODO for an eventual libretro v2.
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*/
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void *handle;
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/* The Vulkan instance the context is using. */
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VkInstance instance;
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/* The physical device used. */
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VkPhysicalDevice gpu;
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/* The logical device used. */
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VkDevice device;
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/* Allows a core to fetch all its needed symbols without having to link
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* against the loader itself. */
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PFN_vkGetDeviceProcAddr get_device_proc_addr;
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PFN_vkGetInstanceProcAddr get_instance_proc_addr;
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/* The queue the core must use to submit data.
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* This queue and index must remain constant throughout the lifetime
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* of the context.
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*
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* This queue will be the queue that supports graphics and compute
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* if the device supports compute.
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*/
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VkQueue queue;
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unsigned queue_index;
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/* Before calling retro_video_refresh_t with RETRO_HW_FRAME_BUFFER_VALID,
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* set which image to use for this frame.
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*
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* If num_semaphores is non-zero, the frontend will wait for the
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* semaphores provided to be signaled before using the results further
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* in the pipeline.
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*
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* Semaphores provided by a single call to set_image will only be
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* waited for once (waiting for a semaphore resets it).
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* E.g. set_image, video_refresh, and then another
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* video_refresh without set_image,
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* but same image will only wait for semaphores once.
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*
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* For this reason, ownership transfer will only occur if semaphores
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* are waited on for a particular frame in the frontend.
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*
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* Using semaphores is optional for synchronization purposes,
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* but if not using
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* semaphores, an image memory barrier in vkCmdPipelineBarrier
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* should be used in the graphics_queue.
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* Example:
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*
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* vkCmdPipelineBarrier(cmd,
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* srcStageMask = VK_PIPELINE_STAGE_ALL_GRAPHICS_BIT,
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* dstStageMask = VK_PIPELINE_STAGE_FRAGMENT_SHADER_BIT,
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* image_memory_barrier = {
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* srcAccessMask = VK_ACCESS_COLOR_ATTACHMENT_WRITE_BIT,
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* dstAccessMask = VK_ACCESS_SHADER_READ_BIT,
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* });
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*
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* The use of pipeline barriers instead of semaphores is encouraged
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* as it is simpler and more fine-grained. A layout transition
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* must generally happen anyways which requires a
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* pipeline barrier.
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*
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* The image passed to set_image must have imageUsage flags set to at least
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* VK_IMAGE_USAGE_TRANSFER_SRC_BIT and VK_IMAGE_USAGE_SAMPLED_BIT.
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* The core will naturally want to use flags such as
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* VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT and/or
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* VK_IMAGE_USAGE_TRANSFER_DST_BIT depending
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* on how the final image is created.
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*
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* The image must also have been created with MUTABLE_FORMAT bit set if
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* 8-bit formats are used, so that the frontend can reinterpret sRGB
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* formats as it sees fit.
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*
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* Images passed to set_image should be created with TILING_OPTIMAL.
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* The image layout should be transitioned to either
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* VK_IMAGE_LAYOUT_GENERIC or VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL.
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* The actual image layout used must be set in image_layout.
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*
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* The image must be a 2D texture which may or not be layered
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* and/or mipmapped.
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*
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* The image must be suitable for linear sampling.
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* While the image_view is typically the only field used,
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* the frontend may want to reinterpret the texture as sRGB vs.
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* non-sRGB for example so the VkImageViewCreateInfo used to
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* create the image view must also be passed in.
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*
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* The data in the pointer to the image struct will not be copied
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* as the pNext field in create_info cannot be reliably deep-copied.
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* The image pointer passed to set_image must be valid until
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* retro_video_refresh_t has returned.
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*
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* If frame duping is used when passing NULL to retro_video_refresh_t,
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* the frontend is free to either use the latest image passed to
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* set_image or reuse the older pointer passed to set_image the
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* frame RETRO_HW_FRAME_BUFFER_VALID was last used.
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*
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* Essentially, the lifetime of the pointer passed to
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* retro_video_refresh_t should be extended if frame duping is used
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* so that the frontend can reuse the older pointer.
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*
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* The image itself however, must not be touched by the core until
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* wait_sync_index has been completed later. The frontend may perform
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* layout transitions on the image, so even read-only access is not defined.
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* The exception to read-only rule is if GENERAL layout is used for the image.
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* In this case, the frontend is not allowed to perform any layout transitions,
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* so concurrent reads from core and frontend are allowed.
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*
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* If frame duping is used, or if set_command_buffers is used,
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* the frontend will not wait for any semaphores.
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*
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* The src_queue_family is used to specify which queue family
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* the image is currently owned by. If using multiple queue families
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* (e.g. async compute), the frontend will need to acquire ownership of the
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* image before rendering with it and release the image afterwards.
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*
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* If src_queue_family is equal to the queue family (queue_index),
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* no ownership transfer will occur.
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* Similarly, if src_queue_family is VK_QUEUE_FAMILY_IGNORED,
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* no ownership transfer will occur.
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*
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* The frontend will always release ownership back to src_queue_family.
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* Waiting for frontend to complete with wait_sync_index() ensures that
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* the frontend has released ownership back to the application.
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* Note that in Vulkan, transfering ownership is a two-part process.
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*
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* Example frame:
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* - core releases ownership from src_queue_index to queue_index with VkImageMemoryBarrier.
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* - core calls set_image with src_queue_index.
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* - Frontend will acquire the image with src_queue_index -> queue_index as well, completing the ownership transfer.
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* - Frontend renders the frame.
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* - Frontend releases ownership with queue_index -> src_queue_index.
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* - Next time image is used, core must acquire ownership from queue_index ...
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*
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* Since the frontend releases ownership, we cannot necessarily dupe the frame because
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* the core needs to make the roundtrip of ownership transfer.
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*/
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retro_vulkan_set_image_t set_image;
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/* Get the current sync index for this frame which is obtained in
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* frontend by calling e.g. vkAcquireNextImageKHR before calling
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* retro_run().
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*
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* This index will correspond to which swapchain buffer is currently
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* the active one.
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*
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* Knowing this index is very useful for maintaining safe asynchronous CPU
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* and GPU operation without stalling.
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*
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* The common pattern for synchronization is to receive fences when
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* submitting command buffers to Vulkan (vkQueueSubmit) and add this fence
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* to a list of fences for frame number get_sync_index().
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*
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* Next time we receive the same get_sync_index(), we can wait for the
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* fences from before, which will usually return immediately as the
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* frontend will generally also avoid letting the GPU run ahead too much.
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*
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* After the fence has signaled, we know that the GPU has completed all
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* GPU work related to work submitted in the frame we last saw get_sync_index().
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*
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* This means we can safely reuse or free resources allocated in this frame.
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*
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* In theory, even if we wait for the fences correctly, it is not technically
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* safe to write to the image we earlier passed to the frontend since we're
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* not waiting for the frontend GPU jobs to complete.
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*
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* The frontend will guarantee that the appropriate pipeline barrier
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* in graphics_queue has been used such that
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* VK_PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT cannot
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* start until the frontend is done with the image.
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*/
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retro_vulkan_get_sync_index_t get_sync_index;
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/* Returns a bitmask of how many swapchain images we currently have
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* in the frontend.
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*
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* If bit #N is set in the return value, get_sync_index can return N.
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* Knowing this value is useful for preallocating per-frame management
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* structures ahead of time.
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*
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* While this value will typically remain constant throughout the
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* applications lifecycle, it may for example change if the frontend
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* suddently changes fullscreen state and/or latency.
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*
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* If this value ever changes, it is safe to assume that the device
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* is completely idle and all synchronization objects can be deleted
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* right away as desired.
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*/
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retro_vulkan_get_sync_index_mask_t get_sync_index_mask;
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/* Instead of submitting the command buffer to the queue first, the core
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* can pass along its command buffer to the frontend, and the frontend
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* will submit the command buffer together with the frontends command buffers.
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*
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* This has the advantage that the overhead of vkQueueSubmit can be
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* amortized into a single call. For this mode, semaphores in set_image
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* will be ignored, so vkCmdPipelineBarrier must be used to synchronize
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* the core and frontend.
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*
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* The command buffers in set_command_buffers are only executed once,
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* even if frame duping is used.
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*
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* If frame duping is used, set_image should be used for the frames
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* which should be duped instead.
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*
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* Command buffers passed to the frontend with set_command_buffers
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* must not actually be submitted to the GPU until retro_video_refresh_t
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* is called.
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*
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* The frontend must submit the command buffer before submitting any
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* other command buffers provided by set_command_buffers. */
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retro_vulkan_set_command_buffers_t set_command_buffers;
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/* Waits on CPU for device activity for the current sync index to complete.
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* This is useful since the core will not have a relevant fence to sync with
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* when the frontend is submitting the command buffers. */
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retro_vulkan_wait_sync_index_t wait_sync_index;
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/* If the core submits command buffers itself to any of the queues provided
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* in this interface, the core must lock and unlock the frontend from
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* racing on the VkQueue.
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*
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* Queue submission can happen on any thread.
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* Even if queue submission happens on the same thread as retro_run(),
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* the lock/unlock functions must still be called.
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*
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* NOTE: Queue submissions are heavy-weight. */
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retro_vulkan_lock_queue_t lock_queue;
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retro_vulkan_unlock_queue_t unlock_queue;
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/* Sets a semaphore which is signaled when the image in set_image can safely be reused.
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* The semaphore is consumed next call to retro_video_refresh_t.
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* The semaphore will be signalled even for duped frames.
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* The semaphore will be signalled only once, so set_signal_semaphore should be called every frame.
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* The semaphore may be VK_NULL_HANDLE, which disables semaphore signalling for next call to retro_video_refresh_t.
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*
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* This is mostly useful to support use cases where you're rendering to a single image that
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* is recycled in a ping-pong fashion with the frontend to save memory (but potentially less throughput).
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*/
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retro_vulkan_set_signal_semaphore_t set_signal_semaphore;
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};
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#endif
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