dear-imgui.hs/examples/vulkan/Main.hs

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{-# LANGUAGE BlockArguments #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DerivingVia #-}
{-# LANGUAGE DuplicateRecordFields #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE MonoLocalBinds #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE StandaloneDeriving #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE TypeApplications #-}
{-# OPTIONS_GHC -fno-warn-name-shadowing #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Main where
-- base
import Control.Arrow
( second )
import Control.Exception
( throw )
import Control.Monad
( unless, void, when )
import Data.Bits
( (.|.) )
import Data.Foldable
( traverse_ )
import Data.String
( IsString )
import Data.Traversable
( for )
import Data.Word
( Word32 )
-- logging-effect
import Control.Monad.Log
( LoggingT(..), logDebug, runLoggingT )
-- resource-t
import Control.Monad.Trans.Resource
( ResourceT, MonadResource, runResourceT )
import qualified Control.Monad.Trans.Resource as ResourceT
( allocate, release )
-- sdl
import qualified SDL
-- transformers
import Control.Monad.Trans.Reader
( ReaderT(..) )
import Control.Monad.IO.Class
( MonadIO(..) )
-- unliftio
import UnliftIO.Exception
( handleJust )
-- vector
import qualified Data.Vector as Boxed
( Vector )
import qualified Data.Vector as Boxed.Vector
( (!), head, singleton, unzip )
import qualified Data.Vector.Storable as Storable.Vector
-- vulkan
import qualified Vulkan
import qualified Vulkan.Exception as Vulkan
import qualified Vulkan.Zero as Vulkan
import qualified VulkanMemoryAllocator as VMA
-- dear-imgui
import Attachments
import Backend
import Input
import qualified DearImGui as ImGui
import qualified DearImGui.Vulkan as ImGui.Vulkan
import qualified DearImGui.SDL as ImGui.SDL
import qualified DearImGui.SDL.Vulkan as ImGui.SDL.Vulkan
import Util (vmaVulkanFunctions)
import Foreign (Ptr, castPtr, copyBytes, with, withForeignPtr, wordPtrToPtr)
import qualified DearImGui.Raw as ImGui.Raw
import UnliftIO (MonadUnliftIO)
import qualified Vulkan.CStruct.Extends as Vulkan
import qualified Codec.Picture as Picture
--------------------------------------------------------------------------------
type Handler = LogMessage -> ResourceT IO ()
deriving via ( ReaderT Handler (ResourceT IO) )
instance MonadResource ( LoggingT LogMessage (ResourceT IO) )
gui :: MonadUnliftIO m => (ImGui.Raw.ImVec2, Ptr ()) -> m ImGui.DrawData
gui texture = do
-- Prepare frame
ImGui.Vulkan.vulkanNewFrame
ImGui.SDL.sdl2NewFrame
ImGui.newFrame
-- Run your windows
ImGui.showDemoWindow
ImGui.withWindowOpen "Vulkan demo" do
clicked <- liftIO do
with (fst texture) \sizePtr ->
with (ImGui.Raw.ImVec2 0 0) \uv0Ptr ->
with (ImGui.Raw.ImVec2 1 1) \uv1Ptr ->
with (ImGui.Raw.ImVec4 1 1 1 1) \tintColPtr ->
with (ImGui.Raw.ImVec4 1 1 1 1) \bgColPtr ->
ImGui.Raw.imageButton
(snd texture)
sizePtr
uv0Ptr
uv1Ptr
(-1)
bgColPtr
tintColPtr
when clicked $
ImGui.text "clicky click!"
-- Process ImGui state into draw commands
ImGui.render
ImGui.getDrawData
main :: IO ()
main = runResourceT . ( `runLoggingT` logHandler ) $ app @( LoggingT LogMessage ( ResourceT IO ) )
appName :: IsString a => a
appName = "DearImGui - Vulkan"
app :: forall m. MonadVulkan m => m ()
app = do
-------------------------------------------
-- Initialise window, Vulkan and Dear ImGui contexts.
( window, windowExtensions ) <-
initialiseWindow
WindowInfo
{ width = 1280
, height = 720
, windowName = appName
, mouseMode = SDL.AbsoluteLocation
}
let
vulkanReqs :: VulkanRequirements
vulkanReqs =
VulkanRequirements
{ instanceRequirements = instanceExtensions windowExtensions
, deviceRequirements = []
, queueFlags = Vulkan.QUEUE_GRAPHICS_BIT
}
VulkanContext {..} <- initialiseVulkanContext NormalInstance appName vulkanReqs
surface <- logDebug "Creating SDL surface" *> createSurface window instance'
assertSurfacePresentable physicalDevice queueFamily surface
void $ ResourceT.allocate
ImGui.createContext
ImGui.destroyContext
let
preferredFormat :: Vulkan.SurfaceFormatKHR
preferredFormat =
Vulkan.SurfaceFormatKHR
Vulkan.FORMAT_B8G8R8A8_UNORM
Vulkan.COLOR_SPACE_SRGB_NONLINEAR_KHR
surfaceUsage :: Vulkan.ImageUsageFlagBits
surfaceUsage = Vulkan.IMAGE_USAGE_COLOR_ATTACHMENT_BIT
commandPool <- createCommandPool device Vulkan.COMMAND_POOL_CREATE_RESET_COMMAND_BUFFER_BIT queueFamily
nextImageSem <- snd <$> Vulkan.withSemaphore device Vulkan.zero Nothing ResourceT.allocate
submitted <- snd <$> Vulkan.withSemaphore device Vulkan.zero Nothing ResourceT.allocate
let
imGuiDescriptorTypes :: [ ( Vulkan.DescriptorType, Int ) ]
imGuiDescriptorTypes = map (, 1000)
[ Vulkan.DESCRIPTOR_TYPE_SAMPLER
, Vulkan.DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER
, Vulkan.DESCRIPTOR_TYPE_SAMPLED_IMAGE
, Vulkan.DESCRIPTOR_TYPE_STORAGE_IMAGE
, Vulkan.DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER
, Vulkan.DESCRIPTOR_TYPE_STORAGE_TEXEL_BUFFER
, Vulkan.DESCRIPTOR_TYPE_UNIFORM_BUFFER
, Vulkan.DESCRIPTOR_TYPE_STORAGE_BUFFER
, Vulkan.DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC
, Vulkan.DESCRIPTOR_TYPE_STORAGE_BUFFER_DYNAMIC
, Vulkan.DESCRIPTOR_TYPE_INPUT_ATTACHMENT
]
( _imGuiPoolKey, imGuiDescriptorPool ) <- createDescriptorPool device 1000 imGuiDescriptorTypes
---------------------------------------------------------------------------
-- Handle swapchain creation (and resources that depend on the swapchain).
surfaceCapabilities <- Vulkan.getPhysicalDeviceSurfaceCapabilitiesKHR physicalDevice ( Vulkan.SurfaceKHR surface )
let
minImageCount, maxImageCount, imageCount :: Word32
minImageCount = ( Vulkan.minImageCount :: Vulkan.SurfaceCapabilitiesKHR -> Word32 ) surfaceCapabilities
maxImageCount = ( Vulkan.maxImageCount :: Vulkan.SurfaceCapabilitiesKHR -> Word32 ) surfaceCapabilities
imageCount
| maxImageCount == 0 = minImageCount + 1
| otherwise = ( minImageCount + 1 ) `min` maxImageCount
clearValues :: [ Vulkan.ClearValue ]
clearValues = [ Vulkan.Color $ Vulkan.Float32 0.5 0.2 0 1.0 ]
swapchainResources :: Maybe SwapchainResources -> m ( m (), SwapchainResources )
swapchainResources mbOldResources = do
( surfaceFormat, imGuiRenderPass ) <- case mbOldResources of
Nothing -> do
logDebug "Choosing swapchain format & color space"
surfaceFormat <- chooseSwapchainFormat preferredFormat physicalDevice surface
let
colFmt :: Vulkan.Format
colFmt = ( Vulkan.format :: Vulkan.SurfaceFormatKHR -> Vulkan.Format ) surfaceFormat
logDebug "Creating Dear ImGui render pass"
( _, imGuiRenderPass ) <-
simpleRenderPass device
( noAttachments
{ colorAttachments = Boxed.Vector.singleton $ presentableColorAttachmentDescription colFmt }
)
pure ( surfaceFormat, imGuiRenderPass )
Just oldResources -> pure ( surfaceFormat oldResources, imGuiRenderPass oldResources )
let
colFmt :: Vulkan.Format
colFmt = ( Vulkan.format :: Vulkan.SurfaceFormatKHR -> Vulkan.Format ) surfaceFormat
logDebug "Creating swapchain"
( swapchainKey, swapchain, swapchainExtent ) <-
createSwapchain
physicalDevice device
surface surfaceFormat
surfaceUsage
imageCount
( swapchain <$> mbOldResources )
logDebug "Getting swapchain images"
swapchainImages <- snd <$> Vulkan.getSwapchainImagesKHR device swapchain
-------------------------------------------
-- Create framebuffer attachments.
{-
let
width, height :: Num a => a
width = fromIntegral $ ( Vulkan.width :: Vulkan.Extent2D -> Word32 ) swapchainExtent
height = fromIntegral $ ( Vulkan.height :: Vulkan.Extent2D -> Word32 ) swapchainExtent
extent3D :: Vulkan.Extent3D
extent3D
= Vulkan.Extent3D
{ Vulkan.width = width
, Vulkan.height = height
, Vulkan.depth = 1
}
-}
logDebug "Creating framebuffers"
( fbKeys, framebuffersWithAttachments ) <-
fmap Boxed.Vector.unzip . for swapchainImages $ \ swapchainImage -> do
( imageViewKey, colorImageView )
<- createImageView
device swapchainImage
Vulkan.IMAGE_VIEW_TYPE_2D
colFmt
Vulkan.IMAGE_ASPECT_COLOR_BIT
let attachment = (swapchainImage, colorImageView)
( framebufferKey, framebuffer ) <- createFramebuffer device imGuiRenderPass swapchainExtent [colorImageView]
pure ( [ imageViewKey, framebufferKey ], ( framebuffer, attachment ) )
-------------------------------------------
-- Create descriptor sets.
-- Application doesn't have any descriptor sets of its own yet.
-------------------------------------------
-- Create pipelines.
-- Application doesn't have any pipelines of its own yet.
-------------------------------------------
-- Return the resources and free method.
pure
( do
traverse_ ( traverse_ ResourceT.release ) fbKeys
traverse_ ResourceT.release
[ swapchainKey ]
, SwapchainResources {..}
)
( freeResources, resources@( SwapchainResources {..} ) ) <- swapchainResources Nothing
let
imageCount :: Word32
imageCount = fromIntegral $ length swapchainImages
logDebug "Allocating command buffers"
commandBuffers <- snd <$> allocatePrimaryCommandBuffers device commandPool imageCount
logDebug "Allocating VMA"
(_key, vma) <- VMA.withAllocator
Vulkan.zero
{ VMA.instance' = Vulkan.instanceHandle instance'
, VMA.device = Vulkan.deviceHandle device
, VMA.physicalDevice = Vulkan.physicalDeviceHandle physicalDevice
, VMA.vulkanFunctions = Just $ vmaVulkanFunctions device instance'
}
ResourceT.allocate
logDebug "Loading image data"
picture <- liftIO (Picture.readImage "Example.png") >>= either error (pure . Picture.convertRGBA8)
logDebug "Allocating image"
let textureWidth = Picture.imageWidth picture
let textureHeight = Picture.imageHeight picture
(_key, (image, _imageAllocation, _imageAllocationInfo)) <- VMA.withImage
vma
( Vulkan.zero
{ Vulkan.imageType = Vulkan.IMAGE_TYPE_2D
, Vulkan.mipLevels = 1
, Vulkan.arrayLayers = 1
, Vulkan.format = Vulkan.FORMAT_R8G8B8A8_SRGB
, Vulkan.extent = Vulkan.Extent3D (fromIntegral textureWidth) (fromIntegral textureHeight) 1
, Vulkan.tiling = Vulkan.IMAGE_TILING_OPTIMAL
, Vulkan.initialLayout = Vulkan.IMAGE_LAYOUT_UNDEFINED
, Vulkan.usage = Vulkan.IMAGE_USAGE_SAMPLED_BIT .|. Vulkan.IMAGE_USAGE_TRANSFER_DST_BIT
, Vulkan.sharingMode = Vulkan.SHARING_MODE_EXCLUSIVE
, Vulkan.samples = Vulkan.SAMPLE_COUNT_1_BIT
}
)
( Vulkan.zero
{ VMA.flags = Vulkan.zero
, VMA.usage = VMA.MEMORY_USAGE_GPU_ONLY
, VMA.requiredFlags = Vulkan.MEMORY_PROPERTY_DEVICE_LOCAL_BIT
}
)
ResourceT.allocate
let (pictureF, pictureSize) = Storable.Vector.unsafeToForeignPtr0 (Picture.imageData picture)
let stageBufferCI = Vulkan.zero
{ Vulkan.size = fromIntegral pictureSize
, Vulkan.usage = Vulkan.BUFFER_USAGE_TRANSFER_SRC_BIT
, Vulkan.sharingMode = Vulkan.SHARING_MODE_EXCLUSIVE
}
let stageAllocationCI = Vulkan.zero
{ VMA.flags = VMA.ALLOCATION_CREATE_MAPPED_BIT
, VMA.usage = VMA.MEMORY_USAGE_CPU_TO_GPU
, VMA.requiredFlags = Vulkan.MEMORY_PROPERTY_HOST_VISIBLE_BIT
}
(stageKey, (stage, stageAllocation, stageAllocationInfo)) <- VMA.withBuffer
vma
stageBufferCI
stageAllocationCI
ResourceT.allocate
liftIO $ withForeignPtr pictureF \srcPtr ->
copyBytes (VMA.mappedData stageAllocationInfo) (castPtr srcPtr) pictureSize
VMA.flushAllocation vma stageAllocation 0 Vulkan.WHOLE_SIZE
logDebug "Allocating sampler"
(_key, sampler) <- Vulkan.withSampler device Vulkan.zero Nothing ResourceT.allocate
logDebug "Allocating image view"
(_key, imageView) <- createImageView
device
image
Vulkan.IMAGE_VIEW_TYPE_2D
Vulkan.FORMAT_R8G8B8A8_SRGB
Vulkan.IMAGE_ASPECT_COLOR_BIT
-------------------------------------------
-- Initialise Dear ImGui.
let
initInfo :: ImGui.Vulkan.InitInfo
initInfo = ImGui.Vulkan.InitInfo
{ instance'
, physicalDevice
, device
, queueFamily
, queue
, pipelineCache = Vulkan.NULL_HANDLE
, descriptorPool = imGuiDescriptorPool
, subpass = 0
, minImageCount
, imageCount
, msaaSamples = Vulkan.SAMPLE_COUNT_1_BIT
, mbAllocator = Nothing
, checkResult = \case { Vulkan.SUCCESS -> pure (); e -> throw $ Vulkan.VulkanException e }
}
logDebug "Initialising ImGui SDL2 for Vulkan"
void $ ResourceT.allocate
( ImGui.SDL.Vulkan.sdl2InitForVulkan window )
( const ImGui.SDL.sdl2Shutdown )
logDebug "Initialising ImGui for Vulkan"
ImGui.Vulkan.withVulkan initInfo imGuiRenderPass \ _ -> do
logDebug "Running one-shot commands to upload ImGui textures"
logDebug "Creating fence"
( fenceKey, fence ) <- createFence device
logDebug "Allocating one-shot command buffer"
( oneshotCommandBufferKey, oneshotCommandBuffer ) <-
second Boxed.Vector.head <$>
allocatePrimaryCommandBuffers device commandPool 1
logDebug "Recording one-shot commands"
beginCommandBuffer oneshotCommandBuffer
_ <- ImGui.Vulkan.vulkanCreateFontsTexture oneshotCommandBuffer
logDebug "Uploading texture"
let textureSubresource = Vulkan.ImageSubresourceRange
{ Vulkan.aspectMask = Vulkan.IMAGE_ASPECT_COLOR_BIT
, Vulkan.baseMipLevel = 0
, Vulkan.levelCount = 1
, Vulkan.baseArrayLayer = 0
, Vulkan.layerCount = 1
}
let uploadBarrier = Vulkan.zero
{ Vulkan.srcAccessMask = Vulkan.zero
, Vulkan.dstAccessMask = Vulkan.ACCESS_TRANSFER_WRITE_BIT
, Vulkan.oldLayout = Vulkan.IMAGE_LAYOUT_UNDEFINED
, Vulkan.newLayout = Vulkan.IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL
, Vulkan.srcQueueFamilyIndex = Vulkan.QUEUE_FAMILY_IGNORED
, Vulkan.dstQueueFamilyIndex = Vulkan.QUEUE_FAMILY_IGNORED
, Vulkan.image = image
, Vulkan.subresourceRange = textureSubresource
} :: Vulkan.ImageMemoryBarrier '[]
Vulkan.cmdPipelineBarrier
oneshotCommandBuffer
Vulkan.PIPELINE_STAGE_TOP_OF_PIPE_BIT
Vulkan.PIPELINE_STAGE_TRANSFER_BIT
Vulkan.zero
mempty
mempty
(Boxed.Vector.singleton $ Vulkan.SomeStruct uploadBarrier)
Vulkan.cmdCopyBufferToImage oneshotCommandBuffer stage image Vulkan.IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL $
Boxed.Vector.singleton Vulkan.BufferImageCopy
{ Vulkan.bufferOffset = 0
, Vulkan.bufferRowLength = Vulkan.zero
, Vulkan.bufferImageHeight = Vulkan.zero
, Vulkan.imageSubresource = Vulkan.ImageSubresourceLayers
{ aspectMask = Vulkan.IMAGE_ASPECT_COLOR_BIT
, mipLevel = 0
, baseArrayLayer = 0
, layerCount = 1
}
, Vulkan.imageOffset = Vulkan.zero
, Vulkan.imageExtent = Vulkan.Extent3D
{ width = fromIntegral textureWidth
, height = fromIntegral textureHeight
, depth = 1
}
}
logDebug "Transitioning texture"
let transitionBarrier = Vulkan.zero
{ Vulkan.srcAccessMask = Vulkan.ACCESS_TRANSFER_WRITE_BIT
, Vulkan.dstAccessMask = Vulkan.ACCESS_SHADER_READ_BIT
, Vulkan.oldLayout = Vulkan.IMAGE_LAYOUT_TRANSFER_DST_OPTIMAL
, Vulkan.newLayout = Vulkan.IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL
, Vulkan.srcQueueFamilyIndex = Vulkan.QUEUE_FAMILY_IGNORED
, Vulkan.dstQueueFamilyIndex = Vulkan.QUEUE_FAMILY_IGNORED
, Vulkan.image = image
, Vulkan.subresourceRange = textureSubresource
} :: Vulkan.ImageMemoryBarrier '[]
Vulkan.cmdPipelineBarrier
oneshotCommandBuffer
Vulkan.PIPELINE_STAGE_TRANSFER_BIT
Vulkan.PIPELINE_STAGE_FRAGMENT_SHADER_BIT
Vulkan.zero
mempty
mempty
(Boxed.Vector.singleton $ Vulkan.SomeStruct transitionBarrier)
endCommandBuffer oneshotCommandBuffer
logDebug "Submitting one-shot commands"
submitCommandBuffer queue oneshotCommandBuffer [] [] ( Just fence )
waitForFences device ( WaitAll [ fence ] )
logDebug "Finished uploading font objects"
logDebug "Cleaning up one-shot commands"
ImGui.Vulkan.vulkanDestroyFontUploadObjects
traverse_ ResourceT.release [ fenceKey, oneshotCommandBufferKey, stageKey ]
logDebug "Adding imgui texture"
Vulkan.DescriptorSet ds <- ImGui.Vulkan.vulkanAddTexture sampler imageView Vulkan.IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL
let textureSize = ImGui.Raw.ImVec2 (fromIntegral textureWidth) (fromIntegral textureHeight)
let texture = (textureSize, wordPtrToPtr $ fromIntegral ds)
let
mainLoop :: AppState m -> m ()
mainLoop ( AppState {..} ) = do
( freeResources, resources@( SwapchainResources {..} ), freeOldResources ) <-
if reloadSwapchain
then do
logDebug "Reloading swapchain and associated resources"
( freeNewResources, newResources ) <- swapchainResources ( Just resources )
pure ( freeNewResources, newResources, freeOldResources *> freeResources )
else pure ( freeResources, resources, freeOldResources )
inputEvents <- map SDL.eventPayload <$> pollEventsWithImGui
inputState <- pure $ onSDLInputs inputState inputEvents
unless ( quitAction inputState ) do
( acquireResult, nextImageIndex ) <-
handleJust vulkanException ( \ e -> pure ( e, 0 ) )
( Vulkan.acquireNextImageKHR device swapchain maxBound nextImageSem Vulkan.NULL_HANDLE )
let
reloadSwapchain, quit :: Bool
( reloadSwapchain, quit ) = reloadQuit acquireResult
unless quit do
( reloadSwapchain, quit ) <-
if reloadSwapchain
then do
pure ( True, False )
else
handleJust vulkanException ( pure . reloadQuit ) do
let
commandBuffer :: Vulkan.CommandBuffer
commandBuffer = commandBuffers Boxed.Vector.! fromIntegral nextImageIndex
framebuffer :: Vulkan.Framebuffer
framebuffer = fst $ framebuffersWithAttachments Boxed.Vector.! fromIntegral nextImageIndex
Vulkan.resetCommandBuffer commandBuffer Vulkan.zero
beginCommandBuffer commandBuffer
cmdBeginRenderPass commandBuffer imGuiRenderPass framebuffer clearValues swapchainExtent
drawData <- gui texture
ImGui.Vulkan.vulkanRenderDrawData drawData commandBuffer Nothing
cmdEndRenderPass commandBuffer
endCommandBuffer commandBuffer
submitCommandBuffer
queue
commandBuffer
[ ( nextImageSem, Vulkan.PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT ) ]
[ submitted ]
Nothing
presentResult <- present queue swapchain nextImageIndex [submitted]
Vulkan.queueWaitIdle queue
pure ( reloadQuit presentResult )
freeOldResources
let
freeOldResources :: m ()
2021-08-30 17:08:23 +00:00
freeOldResources = pure ()
unless quit $ mainLoop ( AppState {..} )
let
reloadSwapchain :: Bool
reloadSwapchain = False
freeOldResources :: m ()
freeOldResources = pure ()
inputState :: Input
inputState = nullInput
logDebug "Starting main loop."
mainLoop ( AppState {..} )
data SwapchainResources = SwapchainResources
{ swapchain :: !Vulkan.SwapchainKHR
, swapchainExtent :: !Vulkan.Extent2D
, swapchainImages :: !( Boxed.Vector Vulkan.Image )
, surfaceFormat :: !Vulkan.SurfaceFormatKHR
, imGuiRenderPass :: !Vulkan.RenderPass
, framebuffersWithAttachments :: !( Boxed.Vector ( Vulkan.Framebuffer, ( Vulkan.Image, Vulkan.ImageView ) ) )
}
data AppState m
= AppState
{ reloadSwapchain :: !Bool
, freeResources :: !( m () )
, resources :: !SwapchainResources
, freeOldResources :: !( m () )
, inputState :: !Input
}
pollEventsWithImGui :: MonadIO m => m [ SDL.Event ]
pollEventsWithImGui = do
e <- ImGui.SDL.pollEventWithImGui
case e of
Nothing -> pure []
Just e' -> ( e' : ) <$> pollEventsWithImGui
vulkanException :: Vulkan.VulkanException -> Maybe Vulkan.Result
vulkanException ( Vulkan.VulkanException e )
| e >= Vulkan.SUCCESS
= Nothing
| otherwise
= Just e
reloadQuit :: Vulkan.Result -> ( Bool, Bool )
reloadQuit = \ case
Vulkan.ERROR_OUT_OF_DATE_KHR -> ( True , False )
Vulkan.SUBOPTIMAL_KHR -> ( True , False )
e | e >= Vulkan.SUCCESS -> ( False, False )
_ -> ( False, True )