502 lines
18 KiB
C++
502 lines
18 KiB
C++
// Copyright 2016 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#include "VideoBackends/Vulkan/SwapChain.h"
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#include <algorithm>
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#include <cstdint>
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#include "Common/Assert.h"
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#include "Common/CommonFuncs.h"
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#include "Common/Logging/Log.h"
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#include "Common/MsgHandler.h"
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#include "VideoBackends/Vulkan/CommandBufferManager.h"
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#include "VideoBackends/Vulkan/VulkanContext.h"
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#if defined(VK_USE_PLATFORM_XLIB_KHR)
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#include <X11/Xlib.h>
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#elif defined(VK_USE_PLATFORM_XCB_KHR)
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#include <X11/Xlib-xcb.h>
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#include <X11/Xlib.h>
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#endif
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namespace Vulkan
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{
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SwapChain::SwapChain(void* native_handle, VkSurfaceKHR surface, bool vsync)
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: m_native_handle(native_handle), m_surface(surface), m_vsync_enabled(vsync)
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{
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}
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SwapChain::~SwapChain()
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{
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DestroySwapChainImages();
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DestroySwapChain();
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DestroyRenderPass();
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DestroySurface();
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}
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VkSurfaceKHR SwapChain::CreateVulkanSurface(VkInstance instance, void* hwnd)
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{
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#if defined(VK_USE_PLATFORM_WIN32_KHR)
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VkWin32SurfaceCreateInfoKHR surface_create_info = {
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VK_STRUCTURE_TYPE_WIN32_SURFACE_CREATE_INFO_KHR, // VkStructureType sType
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nullptr, // const void* pNext
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0, // VkWin32SurfaceCreateFlagsKHR flags
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nullptr, // HINSTANCE hinstance
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reinterpret_cast<HWND>(hwnd) // HWND hwnd
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};
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VkSurfaceKHR surface;
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VkResult res = vkCreateWin32SurfaceKHR(instance, &surface_create_info, nullptr, &surface);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateWin32SurfaceKHR failed: ");
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return VK_NULL_HANDLE;
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}
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return surface;
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#elif defined(VK_USE_PLATFORM_XLIB_KHR)
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// Assuming the display handles are compatible, or shared. This matches what we do in the
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// GL backend, but it's not ideal.
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Display* display = XOpenDisplay(nullptr);
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VkXlibSurfaceCreateInfoKHR surface_create_info = {
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VK_STRUCTURE_TYPE_XLIB_SURFACE_CREATE_INFO_KHR, // VkStructureType sType
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nullptr, // const void* pNext
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0, // VkXlibSurfaceCreateFlagsKHR flags
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display, // Display* dpy
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reinterpret_cast<Window>(hwnd) // Window window
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};
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VkSurfaceKHR surface;
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VkResult res = vkCreateXlibSurfaceKHR(instance, &surface_create_info, nullptr, &surface);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateXlibSurfaceKHR failed: ");
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return VK_NULL_HANDLE;
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}
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return surface;
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#elif defined(VK_USE_PLATFORM_XCB_KHR)
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// If we ever switch to using xcb, we should pass the display handle as well.
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Display* display = XOpenDisplay(nullptr);
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xcb_connection_t* connection = XGetXCBConnection(display);
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VkXcbSurfaceCreateInfoKHR surface_create_info = {
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VK_STRUCTURE_TYPE_XCB_SURFACE_CREATE_INFO_KHR, // VkStructureType sType
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nullptr, // const void* pNext
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0, // VkXcbSurfaceCreateFlagsKHR flags
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connection, // xcb_connection_t* connection
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static_cast<xcb_window_t>(reinterpret_cast<uintptr_t>(hwnd)) // xcb_window_t window
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};
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VkSurfaceKHR surface;
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VkResult res = vkCreateXcbSurfaceKHR(instance, &surface_create_info, nullptr, &surface);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateXcbSurfaceKHR failed: ");
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return VK_NULL_HANDLE;
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}
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return surface;
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#elif defined(VK_USE_PLATFORM_ANDROID_KHR)
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VkAndroidSurfaceCreateInfoKHR surface_create_info = {
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VK_STRUCTURE_TYPE_ANDROID_SURFACE_CREATE_INFO_KHR, // VkStructureType sType
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nullptr, // const void* pNext
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0, // VkAndroidSurfaceCreateFlagsKHR flags
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reinterpret_cast<ANativeWindow*>(hwnd) // ANativeWindow* window
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};
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VkSurfaceKHR surface;
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VkResult res = vkCreateAndroidSurfaceKHR(instance, &surface_create_info, nullptr, &surface);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateAndroidSurfaceKHR failed: ");
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return VK_NULL_HANDLE;
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}
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return surface;
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#else
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return VK_NULL_HANDLE;
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#endif
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}
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std::unique_ptr<SwapChain> SwapChain::Create(void* native_handle, VkSurfaceKHR surface, bool vsync)
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{
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std::unique_ptr<SwapChain> swap_chain =
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std::make_unique<SwapChain>(native_handle, surface, vsync);
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if (!swap_chain->CreateSwapChain() || !swap_chain->CreateRenderPass() ||
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!swap_chain->SetupSwapChainImages())
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{
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return nullptr;
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}
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return swap_chain;
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}
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bool SwapChain::SelectSurfaceFormat()
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{
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u32 format_count;
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VkResult res = vkGetPhysicalDeviceSurfaceFormatsKHR(g_vulkan_context->GetPhysicalDevice(),
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m_surface, &format_count, nullptr);
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if (res != VK_SUCCESS || format_count == 0)
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{
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LOG_VULKAN_ERROR(res, "vkGetPhysicalDeviceSurfaceFormatsKHR failed: ");
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return false;
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}
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std::vector<VkSurfaceFormatKHR> surface_formats(format_count);
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res = vkGetPhysicalDeviceSurfaceFormatsKHR(g_vulkan_context->GetPhysicalDevice(), m_surface,
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&format_count, surface_formats.data());
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_assert_(res == VK_SUCCESS);
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// If there is a single undefined surface format, the device doesn't care, so we'll just use RGBA
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if (surface_formats[0].format == VK_FORMAT_UNDEFINED)
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{
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m_surface_format.format = VK_FORMAT_R8G8B8A8_UNORM;
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m_surface_format.colorSpace = VK_COLOR_SPACE_SRGB_NONLINEAR_KHR;
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return true;
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}
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// Use the first surface format, just use what it prefers.
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// Some drivers seem to return a SRGB format here (Intel Mesa).
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// This results in gamma correction when presenting to the screen, which we don't want.
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// Use a linear format instead, if this is the case.
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m_surface_format.format = Util::GetLinearFormat(surface_formats[0].format);
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m_surface_format.colorSpace = surface_formats[0].colorSpace;
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return true;
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}
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bool SwapChain::SelectPresentMode()
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{
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VkResult res;
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u32 mode_count;
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res = vkGetPhysicalDeviceSurfacePresentModesKHR(g_vulkan_context->GetPhysicalDevice(), m_surface,
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&mode_count, nullptr);
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if (res != VK_SUCCESS || mode_count == 0)
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{
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LOG_VULKAN_ERROR(res, "vkGetPhysicalDeviceSurfaceFormatsKHR failed: ");
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return false;
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}
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std::vector<VkPresentModeKHR> present_modes(mode_count);
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res = vkGetPhysicalDeviceSurfacePresentModesKHR(g_vulkan_context->GetPhysicalDevice(), m_surface,
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&mode_count, present_modes.data());
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_assert_(res == VK_SUCCESS);
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// Checks if a particular mode is supported, if it is, returns that mode.
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auto CheckForMode = [&present_modes](VkPresentModeKHR check_mode) {
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auto it = std::find_if(present_modes.begin(), present_modes.end(),
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[check_mode](VkPresentModeKHR mode) { return check_mode == mode; });
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return it != present_modes.end();
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};
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// If vsync is enabled, use VK_PRESENT_MODE_FIFO_KHR.
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// This check should not fail with conforming drivers, as the FIFO present mode is mandated by
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// the specification (VK_KHR_swapchain). In case it isn't though, fall through to any other mode.
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if (m_vsync_enabled && CheckForMode(VK_PRESENT_MODE_FIFO_KHR))
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{
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m_present_mode = VK_PRESENT_MODE_FIFO_KHR;
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return true;
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}
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// Prefer screen-tearing, if possible, for lowest latency.
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if (CheckForMode(VK_PRESENT_MODE_IMMEDIATE_KHR))
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{
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m_present_mode = VK_PRESENT_MODE_IMMEDIATE_KHR;
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return true;
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}
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// Use optimized-vsync above vsync.
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if (CheckForMode(VK_PRESENT_MODE_MAILBOX_KHR))
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{
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m_present_mode = VK_PRESENT_MODE_MAILBOX_KHR;
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return true;
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}
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// Fall back to whatever is available.
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m_present_mode = present_modes[0];
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return true;
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}
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bool SwapChain::CreateRenderPass()
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{
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// render pass for rendering to the swap chain
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VkAttachmentDescription present_render_pass_attachments[] = {
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{0, m_surface_format.format, VK_SAMPLE_COUNT_1_BIT, VK_ATTACHMENT_LOAD_OP_CLEAR,
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VK_ATTACHMENT_STORE_OP_STORE, VK_ATTACHMENT_LOAD_OP_DONT_CARE,
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VK_ATTACHMENT_STORE_OP_DONT_CARE, VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL,
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VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL}};
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VkAttachmentReference present_render_pass_color_attachment_references[] = {
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{0, VK_IMAGE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL}};
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VkSubpassDescription present_render_pass_subpass_descriptions[] = {
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{0, VK_PIPELINE_BIND_POINT_GRAPHICS, 0, nullptr, 1,
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present_render_pass_color_attachment_references, nullptr, nullptr, 0, nullptr}};
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VkRenderPassCreateInfo present_render_pass_info = {
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VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO,
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nullptr,
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0,
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static_cast<u32>(ArraySize(present_render_pass_attachments)),
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present_render_pass_attachments,
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static_cast<u32>(ArraySize(present_render_pass_subpass_descriptions)),
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present_render_pass_subpass_descriptions,
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0,
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nullptr};
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VkResult res = vkCreateRenderPass(g_vulkan_context->GetDevice(), &present_render_pass_info,
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nullptr, &m_render_pass);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateRenderPass (present) failed: ");
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return false;
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}
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return true;
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}
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void SwapChain::DestroyRenderPass()
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{
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if (!m_render_pass)
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return;
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vkDestroyRenderPass(g_vulkan_context->GetDevice(), m_render_pass, nullptr);
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m_render_pass = VK_NULL_HANDLE;
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}
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bool SwapChain::CreateSwapChain()
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{
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// Look up surface properties to determine image count and dimensions
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VkSurfaceCapabilitiesKHR surface_capabilities;
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VkResult res = vkGetPhysicalDeviceSurfaceCapabilitiesKHR(g_vulkan_context->GetPhysicalDevice(),
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m_surface, &surface_capabilities);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkGetPhysicalDeviceSurfaceCapabilitiesKHR failed: ");
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return false;
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}
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// Select swap chain format and present mode
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if (!SelectSurfaceFormat() || !SelectPresentMode())
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return false;
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// Select number of images in swap chain, we prefer one buffer in the background to work on
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uint32_t image_count = surface_capabilities.minImageCount + 1;
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// maxImageCount can be zero, in which case there isn't an upper limit on the number of buffers.
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if (surface_capabilities.maxImageCount > 0)
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image_count = std::min(image_count, surface_capabilities.maxImageCount);
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// Determine the dimensions of the swap chain. Values of -1 indicate the size we specify here
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// determines window size?
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VkExtent2D size = surface_capabilities.currentExtent;
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if (size.width == UINT32_MAX)
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{
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size.width = std::min(std::max(surface_capabilities.minImageExtent.width, 640u),
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surface_capabilities.maxImageExtent.width);
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size.height = std::min(std::max(surface_capabilities.minImageExtent.height, 480u),
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surface_capabilities.maxImageExtent.height);
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}
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// Prefer identity transform if possible
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VkSurfaceTransformFlagBitsKHR transform = VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR;
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if (!(surface_capabilities.supportedTransforms & VK_SURFACE_TRANSFORM_IDENTITY_BIT_KHR))
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transform = surface_capabilities.currentTransform;
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// Select swap chain flags, we only need a colour attachment
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VkImageUsageFlags image_usage = VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT;
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if (!(surface_capabilities.supportedUsageFlags & VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT))
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{
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ERROR_LOG(VIDEO, "Vulkan: Swap chain does not support usage as color attachment");
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return false;
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}
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// Select the number of image layers for Quad-Buffered stereoscopy
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uint32_t image_layers = g_ActiveConfig.iStereoMode == STEREO_QUADBUFFER ? 2 : 1;
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// Store the old/current swap chain when recreating for resize
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VkSwapchainKHR old_swap_chain = m_swap_chain;
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// Now we can actually create the swap chain
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// TODO: Handle case where the present queue is not the graphics queue.
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VkSwapchainCreateInfoKHR swap_chain_info = {VK_STRUCTURE_TYPE_SWAPCHAIN_CREATE_INFO_KHR,
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nullptr,
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0,
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m_surface,
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image_count,
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m_surface_format.format,
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m_surface_format.colorSpace,
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size,
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image_layers,
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image_usage,
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VK_SHARING_MODE_EXCLUSIVE,
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0,
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nullptr,
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transform,
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VK_COMPOSITE_ALPHA_OPAQUE_BIT_KHR,
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m_present_mode,
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VK_TRUE,
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old_swap_chain};
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res =
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vkCreateSwapchainKHR(g_vulkan_context->GetDevice(), &swap_chain_info, nullptr, &m_swap_chain);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateSwapchainKHR failed: ");
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return false;
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}
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// Now destroy the old swap chain, since it's been recreated.
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// We can do this immediately since all work should have been completed before calling resize.
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if (old_swap_chain != VK_NULL_HANDLE)
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vkDestroySwapchainKHR(g_vulkan_context->GetDevice(), old_swap_chain, nullptr);
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m_width = size.width;
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m_height = size.height;
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m_layers = image_layers;
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return true;
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}
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bool SwapChain::SetupSwapChainImages()
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{
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_assert_(m_swap_chain_images.empty());
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uint32_t image_count;
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VkResult res =
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vkGetSwapchainImagesKHR(g_vulkan_context->GetDevice(), m_swap_chain, &image_count, nullptr);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkGetSwapchainImagesKHR failed: ");
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return false;
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}
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std::vector<VkImage> images(image_count);
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res = vkGetSwapchainImagesKHR(g_vulkan_context->GetDevice(), m_swap_chain, &image_count,
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images.data());
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_assert_(res == VK_SUCCESS);
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m_swap_chain_images.reserve(image_count);
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for (uint32_t i = 0; i < image_count; i++)
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{
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SwapChainImage image;
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image.image = images[i];
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// Create texture object, which creates a view of the backbuffer
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image.texture = Texture2D::CreateFromExistingImage(
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m_width, m_height, 1, 1, m_surface_format.format, VK_SAMPLE_COUNT_1_BIT,
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VK_IMAGE_VIEW_TYPE_2D, image.image);
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VkImageView view = image.texture->GetView();
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VkFramebufferCreateInfo framebuffer_info = {VK_STRUCTURE_TYPE_FRAMEBUFFER_CREATE_INFO,
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nullptr,
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0,
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m_render_pass,
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1,
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&view,
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m_width,
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m_height,
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m_layers};
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res = vkCreateFramebuffer(g_vulkan_context->GetDevice(), &framebuffer_info, nullptr,
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&image.framebuffer);
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if (res != VK_SUCCESS)
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{
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LOG_VULKAN_ERROR(res, "vkCreateFramebuffer failed: ");
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return false;
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}
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m_swap_chain_images.emplace_back(std::move(image));
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}
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return true;
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}
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void SwapChain::DestroySwapChainImages()
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{
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for (const auto& it : m_swap_chain_images)
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{
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// Images themselves are cleaned up by the swap chain object
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vkDestroyFramebuffer(g_vulkan_context->GetDevice(), it.framebuffer, nullptr);
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}
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m_swap_chain_images.clear();
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}
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void SwapChain::DestroySwapChain()
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{
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if (m_swap_chain == VK_NULL_HANDLE)
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return;
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vkDestroySwapchainKHR(g_vulkan_context->GetDevice(), m_swap_chain, nullptr);
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m_swap_chain = VK_NULL_HANDLE;
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}
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VkResult SwapChain::AcquireNextImage(VkSemaphore available_semaphore)
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{
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VkResult res =
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vkAcquireNextImageKHR(g_vulkan_context->GetDevice(), m_swap_chain, UINT64_MAX,
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available_semaphore, VK_NULL_HANDLE, &m_current_swap_chain_image_index);
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if (res != VK_SUCCESS && res != VK_ERROR_OUT_OF_DATE_KHR && res != VK_SUBOPTIMAL_KHR)
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LOG_VULKAN_ERROR(res, "vkAcquireNextImageKHR failed: ");
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return res;
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}
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bool SwapChain::ResizeSwapChain()
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{
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DestroySwapChainImages();
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if (!CreateSwapChain() || !SetupSwapChainImages())
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{
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PanicAlert("Failed to re-configure swap chain images, this is fatal (for now)");
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return false;
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}
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return true;
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}
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bool SwapChain::SetVSync(bool enabled)
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{
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if (m_vsync_enabled == enabled)
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return true;
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// Resizing recreates the swap chain with the new present mode.
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m_vsync_enabled = enabled;
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return ResizeSwapChain();
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}
|
|
|
|
bool SwapChain::RecreateSurface(void* native_handle)
|
|
{
|
|
// Destroy the old swap chain, images, and surface.
|
|
DestroyRenderPass();
|
|
DestroySwapChainImages();
|
|
DestroySwapChain();
|
|
DestroySurface();
|
|
|
|
// Re-create the surface with the new native handle
|
|
m_native_handle = native_handle;
|
|
m_surface = CreateVulkanSurface(g_vulkan_context->GetVulkanInstance(), native_handle);
|
|
if (m_surface == VK_NULL_HANDLE)
|
|
return false;
|
|
|
|
// Finally re-create the swap chain
|
|
if (!CreateSwapChain() || !SetupSwapChainImages() || !CreateRenderPass())
|
|
return false;
|
|
|
|
return true;
|
|
}
|
|
|
|
void SwapChain::DestroySurface()
|
|
{
|
|
vkDestroySurfaceKHR(g_vulkan_context->GetVulkanInstance(), m_surface, nullptr);
|
|
m_surface = VK_NULL_HANDLE;
|
|
}
|
|
}
|