#[macro_use] extern crate ash; #[cfg(windows)] extern crate winapi; extern crate winit; use ash::vk; use std::default::Default; use ash::Entry; use ash::Instance; use ash::Device; pub use ash::version::{DeviceV1_0, EntryV1_0, InstanceV1_0, V1_0}; use ash::extensions::{DebugReport, Surface, Swapchain, Win32Surface, XlibSurface}; use std::cell::RefCell; use std::ptr; use std::ffi::{CStr, CString}; use std::ops::Drop; // Simple offset_of macro akin to C++ offsetof #[macro_export] macro_rules! offset_of{ ($base: path, $field: ident) => { { #[allow(unused_unsafe)] unsafe{ let b: $base = mem::uninitialized(); (&b.$field as *const _ as isize) - (&b as *const _ as isize) } } } } pub fn record_submit_commandbuffer( device: &D, command_buffer: vk::CommandBuffer, submit_queue: vk::Queue, wait_mask: &[vk::PipelineStageFlags], wait_semaphores: &[vk::Semaphore], signal_semaphores: &[vk::Semaphore], f: F, ) { unsafe { device .reset_command_buffer( command_buffer, vk::CommandBufferResetFlags::RELEASE_RESOURCES, ) .expect("Reset command buffer failed."); let command_buffer_begin_info = vk::CommandBufferBeginInfo { s_type: vk::StructureType::COMMAND_BUFFER_BEGIN_INFO, p_next: ptr::null(), p_inheritance_info: ptr::null(), flags: vk::CommandBufferUsageFlags::ONE_TIME_SUBMIT, }; device .begin_command_buffer(command_buffer, &command_buffer_begin_info) .expect("Begin commandbuffer"); f(device, command_buffer); device .end_command_buffer(command_buffer) .expect("End commandbuffer"); let fence_create_info = vk::FenceCreateInfo { s_type: vk::StructureType::FENCE_CREATE_INFO, p_next: ptr::null(), flags: vk::FenceCreateFlags::empty(), }; let submit_fence = device .create_fence(&fence_create_info, None) .expect("Create fence failed."); let submit_info = vk::SubmitInfo { s_type: vk::StructureType::SUBMIT_INFO, p_next: ptr::null(), wait_semaphore_count: wait_semaphores.len() as u32, p_wait_semaphores: wait_semaphores.as_ptr(), p_wait_dst_stage_mask: wait_mask.as_ptr(), command_buffer_count: 1, p_command_buffers: &command_buffer, signal_semaphore_count: signal_semaphores.len() as u32, p_signal_semaphores: signal_semaphores.as_ptr(), }; device .queue_submit(submit_queue, &[submit_info], submit_fence) .expect("queue submit failed."); device .wait_for_fences(&[submit_fence], true, std::u64::MAX) .expect("Wait for fence failed."); device.destroy_fence(submit_fence, None); } } #[cfg(all(unix, not(target_os = "android")))] unsafe fn create_surface( entry: &E, instance: &I, window: &winit::Window, ) -> Result { use winit::os::unix::WindowExt; let x11_display = window.get_xlib_display().unwrap(); let x11_window = window.get_xlib_window().unwrap(); let x11_create_info = vk::XlibSurfaceCreateInfoKHR { s_type: vk::StructureType::XLIB_SURFACE_CREATE_INFO_KHR, p_next: ptr::null(), flags: Default::default(), window: x11_window as vk::Window, dpy: x11_display as *mut vk::Display, }; let xlib_surface_loader = XlibSurface::new(entry, instance).expect("Unable to load xlib surface"); xlib_surface_loader.create_xlib_surface_khr(&x11_create_info, None) } #[cfg(windows)] unsafe fn create_surface( entry: &E, instance: &I, window: &winit::Window, ) -> Result { use winapi::shared::windef::HWND; use winapi::um::winuser::GetWindow; use winit::os::windows::WindowExt; let hwnd = window.get_hwnd() as HWND; let hinstance = GetWindow(hwnd, 0) as *const vk::c_void; let win32_create_info = vk::Win32SurfaceCreateInfoKHR { s_type: vk::StructureType::Win32SurfaceCreateInfoKhr, p_next: ptr::null(), flags: Default::default(), hinstance: hinstance, hwnd: hwnd as *const vk::c_void, }; let win32_surface_loader = Win32Surface::new(entry, instance).expect("Unable to load win32 surface"); win32_surface_loader.create_win32_surface_khr(&win32_create_info, None) } #[cfg(all(unix, not(target_os = "android")))] fn extension_names() -> Vec<*const i8> { vec![ Surface::name().as_ptr(), XlibSurface::name().as_ptr(), DebugReport::name().as_ptr(), ] } #[cfg(all(windows))] fn extension_names() -> Vec<*const i8> { vec![ Surface::name().as_ptr(), Win32Surface::name().as_ptr(), DebugReport::name().as_ptr(), ] } unsafe extern "system" fn vulkan_debug_callback( _: vk::DebugReportFlagsEXT, _: vk::DebugReportObjectTypeEXT, _: vk::uint64_t, _: vk::size_t, _: vk::int32_t, _: *const vk::c_char, p_message: *const vk::c_char, _: *mut vk::c_void, ) -> u32 { println!("{:?}", CStr::from_ptr(p_message)); 1 } pub fn find_memorytype_index( memory_req: &vk::MemoryRequirements, memory_prop: &vk::PhysicalDeviceMemoryProperties, flags: vk::MemoryPropertyFlags, ) -> Option { // Try to find an exactly matching memory flag let best_suitable_index = find_memorytype_index_f(memory_req, memory_prop, flags, |property_flags, flags| { property_flags == flags }); if best_suitable_index.is_some() { return best_suitable_index; } // Otherwise find a memory flag that works find_memorytype_index_f(memory_req, memory_prop, flags, |property_flags, flags| { property_flags & flags == flags }) } pub fn find_memorytype_index_f bool>( memory_req: &vk::MemoryRequirements, memory_prop: &vk::PhysicalDeviceMemoryProperties, flags: vk::MemoryPropertyFlags, f: F, ) -> Option { let mut memory_type_bits = memory_req.memory_type_bits; for (index, ref memory_type) in memory_prop.memory_types.iter().enumerate() { if memory_type_bits & 1 == 1 { if f(memory_type.property_flags, flags) { return Some(index as u32); } } memory_type_bits = memory_type_bits >> 1; } None } pub struct ExampleBase { pub entry: Entry, pub instance: Instance, pub device: Device, pub surface_loader: Surface, pub swapchain_loader: Swapchain, pub debug_report_loader: DebugReport, pub window: winit::Window, pub events_loop: RefCell, pub debug_call_back: vk::DebugReportCallbackEXT, pub pdevice: vk::PhysicalDevice, pub device_memory_properties: vk::PhysicalDeviceMemoryProperties, pub queue_family_index: u32, pub present_queue: vk::Queue, pub surface: vk::SurfaceKHR, pub surface_format: vk::SurfaceFormatKHR, pub surface_resolution: vk::Extent2D, pub swapchain: vk::SwapchainKHR, pub present_images: Vec, pub present_image_views: Vec, pub pool: vk::CommandPool, pub draw_command_buffer: vk::CommandBuffer, pub setup_command_buffer: vk::CommandBuffer, pub depth_image: vk::Image, pub depth_image_view: vk::ImageView, pub depth_image_memory: vk::DeviceMemory, pub present_complete_semaphore: vk::Semaphore, pub rendering_complete_semaphore: vk::Semaphore, } impl ExampleBase { pub fn render_loop(&self, f: F) { use winit::*; self.events_loop.borrow_mut().run_forever(|event| { f(); match event { Event::WindowEvent { event, .. } => match event { WindowEvent::KeyboardInput { input, .. } => { if let Some(VirtualKeyCode::Escape) = input.virtual_keycode { ControlFlow::Break } else { ControlFlow::Continue } } WindowEvent::Closed => winit::ControlFlow::Break, _ => ControlFlow::Continue, }, _ => ControlFlow::Continue, } }); } pub fn new(window_width: u32, window_height: u32) -> Self { unsafe { let events_loop = winit::EventsLoop::new(); let window = winit::WindowBuilder::new() .with_title("Ash - Example") .with_dimensions(window_width, window_height) .build(&events_loop) .unwrap(); let entry = Entry::new().unwrap(); let app_name = CString::new("VulkanTriangle").unwrap(); let raw_name = app_name.as_ptr(); let layer_names = [CString::new("VK_LAYER_LUNARG_standard_validation").unwrap()]; let layers_names_raw: Vec<*const i8> = layer_names .iter() .map(|raw_name| raw_name.as_ptr()) .collect(); let extension_names_raw = extension_names(); let appinfo = vk::ApplicationInfo { p_application_name: raw_name, s_type: vk::StructureType::APPLICATION_INFO, p_next: ptr::null(), application_version: 0, p_engine_name: raw_name, engine_version: 0, api_version: vk_make_version!(1, 0, 36), }; let create_info = vk::InstanceCreateInfo { s_type: vk::StructureType::INSTANCE_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), p_application_info: &appinfo, pp_enabled_layer_names: layers_names_raw.as_ptr(), enabled_layer_count: layers_names_raw.len() as u32, pp_enabled_extension_names: extension_names_raw.as_ptr(), enabled_extension_count: extension_names_raw.len() as u32, }; let instance: Instance = entry .create_instance(&create_info, None) .expect("Instance creation error"); let debug_info = vk::DebugReportCallbackCreateInfoEXT { s_type: vk::StructureType::DEBUG_REPORT_CALLBACK_CREATE_INFO_EXT, p_next: ptr::null(), flags: vk::DebugReportFlagsEXT::ERROR | vk::DebugReportFlagsEXT::WARNING | vk::DebugReportFlagsEXT::PERFORMANCE_WARNING, pfn_callback: vulkan_debug_callback, p_user_data: ptr::null_mut(), }; let debug_report_loader = DebugReport::new(&entry, &instance).expect("Unable to load debug report"); let debug_call_back = debug_report_loader .create_debug_report_callback_ext(&debug_info, None) .unwrap(); let surface = create_surface(&entry, &instance, &window).unwrap(); let pdevices = instance .enumerate_physical_devices() .expect("Physical device error"); let surface_loader = Surface::new(&entry, &instance).expect("Unable to load the Surface extension"); let (pdevice, queue_family_index) = pdevices .iter() .map(|pdevice| { instance .get_physical_device_queue_family_properties(*pdevice) .iter() .enumerate() .filter_map(|(index, ref info)| { let supports_graphic_and_surface = info.queue_flags .subset(vk::QueueFlags::GRAPHICS) && surface_loader.get_physical_device_surface_support_khr( *pdevice, index as u32, surface, ); match supports_graphic_and_surface { true => Some((*pdevice, index)), _ => None, } }) .nth(0) }) .filter_map(|v| v) .nth(0) .expect("Couldn't find suitable device."); let queue_family_index = queue_family_index as u32; let device_extension_names_raw = [Swapchain::name().as_ptr()]; let features = vk::PhysicalDeviceFeatures { shader_clip_distance: 1, ..Default::default() }; let priorities = [1.0]; let queue_info = vk::DeviceQueueCreateInfo { s_type: vk::StructureType::DEVICE_QUEUE_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), queue_family_index: queue_family_index as u32, p_queue_priorities: priorities.as_ptr(), queue_count: priorities.len() as u32, }; let device_create_info = vk::DeviceCreateInfo { s_type: vk::StructureType::DEVICE_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), queue_create_info_count: 1, p_queue_create_infos: &queue_info, enabled_layer_count: 0, pp_enabled_layer_names: ptr::null(), enabled_extension_count: device_extension_names_raw.len() as u32, pp_enabled_extension_names: device_extension_names_raw.as_ptr(), p_enabled_features: &features, }; let device: Device = instance .create_device(pdevice, &device_create_info, None) .unwrap(); let present_queue = device.get_device_queue(queue_family_index as u32, 0); let surface_formats = surface_loader .get_physical_device_surface_formats_khr(pdevice, surface) .unwrap(); let surface_format = surface_formats .iter() .map(|sfmt| match sfmt.format { vk::Format::UNDEFINED => vk::SurfaceFormatKHR { format: vk::Format::B8G8R8_UNORM, color_space: sfmt.color_space, }, _ => sfmt.clone(), }) .nth(0) .expect("Unable to find suitable surface format."); let surface_capabilities = surface_loader .get_physical_device_surface_capabilities_khr(pdevice, surface) .unwrap(); let mut desired_image_count = surface_capabilities.min_image_count + 1; if surface_capabilities.max_image_count > 0 && desired_image_count > surface_capabilities.max_image_count { desired_image_count = surface_capabilities.max_image_count; } let surface_resolution = match surface_capabilities.current_extent.width { std::u32::MAX => vk::Extent2D { width: window_width, height: window_height, }, _ => surface_capabilities.current_extent, }; let pre_transform = if surface_capabilities .supported_transforms .subset(vk::SurfaceTransformFlagsKHR::IDENTITY) { vk::SurfaceTransformFlagsKHR::IDENTITY } else { surface_capabilities.current_transform }; let present_modes = surface_loader .get_physical_device_surface_present_modes_khr(pdevice, surface) .unwrap(); let present_mode = present_modes .iter() .cloned() .find(|&mode| mode == vk::PresentModeKHR::MAILBOX) .unwrap_or(vk::PresentModeKHR::FIFO); let swapchain_loader = Swapchain::new(&instance, &device).expect("Unable to load swapchain"); let swapchain_create_info = vk::SwapchainCreateInfoKHR { s_type: vk::StructureType::SWAPCHAIN_CREATE_INFO_KHR, p_next: ptr::null(), flags: Default::default(), surface: surface, min_image_count: desired_image_count, image_color_space: surface_format.color_space, image_format: surface_format.format, image_extent: surface_resolution.clone(), image_usage: vk::ImageUsageFlags::COLOR_ATTACHMENT, image_sharing_mode: vk::SharingMode::EXCLUSIVE, pre_transform: pre_transform, composite_alpha: vk::CompositeAlphaFlagsKHR::OPAQUE, present_mode: present_mode, clipped: 1, old_swapchain: vk::SwapchainKHR::null(), image_array_layers: 1, p_queue_family_indices: ptr::null(), queue_family_index_count: 0, }; let swapchain = swapchain_loader .create_swapchain_khr(&swapchain_create_info, None) .unwrap(); let pool_create_info = vk::CommandPoolCreateInfo { s_type: vk::StructureType::COMMAND_POOL_CREATE_INFO, p_next: ptr::null(), flags: vk::CommandPoolCreateFlags::RESET_COMMAND_BUFFER, queue_family_index: queue_family_index, }; let pool = device.create_command_pool(&pool_create_info, None).unwrap(); let command_buffer_allocate_info = vk::CommandBufferAllocateInfo { s_type: vk::StructureType::COMMAND_BUFFER_ALLOCATE_INFO, p_next: ptr::null(), command_buffer_count: 2, command_pool: pool, level: vk::CommandBufferLevel::PRIMARY, }; let command_buffers = device .allocate_command_buffers(&command_buffer_allocate_info) .unwrap(); let setup_command_buffer = command_buffers[0]; let draw_command_buffer = command_buffers[1]; let present_images = swapchain_loader .get_swapchain_images_khr(swapchain) .unwrap(); let present_image_views: Vec = present_images .iter() .map(|&image| { let create_view_info = vk::ImageViewCreateInfo { s_type: vk::StructureType::IMAGE_VIEW_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), view_type: vk::ImageViewType::TYPE_2D, format: surface_format.format, components: vk::ComponentMapping { r: vk::ComponentSwizzle::R, g: vk::ComponentSwizzle::G, b: vk::ComponentSwizzle::B, a: vk::ComponentSwizzle::A, }, subresource_range: vk::ImageSubresourceRange { aspect_mask: vk::ImageAspectFlags::COLOR, base_mip_level: 0, level_count: 1, base_array_layer: 0, layer_count: 1, }, image: image, }; device.create_image_view(&create_view_info, None).unwrap() }) .collect(); let device_memory_properties = instance.get_physical_device_memory_properties(pdevice); let depth_image_create_info = vk::ImageCreateInfo { s_type: vk::StructureType::IMAGE_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), image_type: vk::ImageType::TYPE_2D, format: vk::Format::D16_UNORM, extent: vk::Extent3D { width: surface_resolution.width, height: surface_resolution.height, depth: 1, }, mip_levels: 1, array_layers: 1, samples: vk::SampleCountFlags::TYPE_1, tiling: vk::ImageTiling::OPTIMAL, usage: vk::ImageUsageFlags::DEPTH_STENCIL_ATTACHMENT, sharing_mode: vk::SharingMode::EXCLUSIVE, queue_family_index_count: 0, p_queue_family_indices: ptr::null(), initial_layout: vk::ImageLayout::UNDEFINED, }; let depth_image = device.create_image(&depth_image_create_info, None).unwrap(); let depth_image_memory_req = device.get_image_memory_requirements(depth_image); let depth_image_memory_index = find_memorytype_index( &depth_image_memory_req, &device_memory_properties, vk::MemoryPropertyFlags::DEVICE_LOCAL, ).expect("Unable to find suitable memory index for depth image."); let depth_image_allocate_info = vk::MemoryAllocateInfo { s_type: vk::StructureType::MEMORY_ALLOCATE_INFO, p_next: ptr::null(), allocation_size: depth_image_memory_req.size, memory_type_index: depth_image_memory_index, }; let depth_image_memory = device .allocate_memory(&depth_image_allocate_info, None) .unwrap(); device .bind_image_memory(depth_image, depth_image_memory, 0) .expect("Unable to bind depth image memory"); record_submit_commandbuffer( &device, setup_command_buffer, present_queue, &[vk::PipelineStageFlags::BOTTOM_OF_PIPE], &[], &[], |device, setup_command_buffer| { let layout_transition_barrier = vk::ImageMemoryBarrier { s_type: vk::StructureType::IMAGE_MEMORY_BARRIER, p_next: ptr::null(), src_access_mask: Default::default(), dst_access_mask: vk::AccessFlags::DEPTH_STENCIL_ATTACHMENT_READ | vk::AccessFlags::DEPTH_STENCIL_ATTACHMENT_WRITE, old_layout: vk::ImageLayout::UNDEFINED, new_layout: vk::ImageLayout::DEPTH_STENCIL_ATTACHMENT_OPTIMAL, src_queue_family_index: vk::VK_QUEUE_FAMILY_IGNORED, dst_queue_family_index: vk::VK_QUEUE_FAMILY_IGNORED, image: depth_image, subresource_range: vk::ImageSubresourceRange { aspect_mask: vk::ImageAspectFlags::DEPTH, base_mip_level: 0, level_count: 1, base_array_layer: 0, layer_count: 1, }, }; device.cmd_pipeline_barrier( setup_command_buffer, vk::PipelineStageFlags::BOTTOM_OF_PIPE, vk::PipelineStageFlags::LATE_FRAGMENT_TESTS, vk::DependencyFlags::empty(), &[], &[], &[layout_transition_barrier], ); }, ); let depth_image_view_info = vk::ImageViewCreateInfo { s_type: vk::StructureType::IMAGE_VIEW_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), view_type: vk::ImageViewType::TYPE_2D, format: depth_image_create_info.format, components: vk::ComponentMapping { r: vk::ComponentSwizzle::IDENTITY, g: vk::ComponentSwizzle::IDENTITY, b: vk::ComponentSwizzle::IDENTITY, a: vk::ComponentSwizzle::IDENTITY, }, subresource_range: vk::ImageSubresourceRange { aspect_mask: vk::ImageAspectFlags::DEPTH, base_mip_level: 0, level_count: 1, base_array_layer: 0, layer_count: 1, }, image: depth_image, }; let depth_image_view = device .create_image_view(&depth_image_view_info, None) .unwrap(); let semaphore_create_info = vk::SemaphoreCreateInfo { s_type: vk::StructureType::SEMAPHORE_CREATE_INFO, p_next: ptr::null(), flags: Default::default(), }; let present_complete_semaphore = device .create_semaphore(&semaphore_create_info, None) .unwrap(); let rendering_complete_semaphore = device .create_semaphore(&semaphore_create_info, None) .unwrap(); ExampleBase { events_loop: RefCell::new(events_loop), entry: entry, instance: instance, device: device, queue_family_index: queue_family_index, pdevice: pdevice, device_memory_properties: device_memory_properties, window: window, surface_loader: surface_loader, surface_format: surface_format, present_queue: present_queue, surface_resolution: surface_resolution, swapchain_loader: swapchain_loader, swapchain: swapchain, present_images: present_images, present_image_views: present_image_views, pool: pool, draw_command_buffer: draw_command_buffer, setup_command_buffer: setup_command_buffer, depth_image: depth_image, depth_image_view: depth_image_view, present_complete_semaphore: present_complete_semaphore, rendering_complete_semaphore: rendering_complete_semaphore, surface: surface, debug_call_back: debug_call_back, debug_report_loader: debug_report_loader, depth_image_memory: depth_image_memory, } } } } impl Drop for ExampleBase { fn drop(&mut self) { unsafe { self.device.device_wait_idle().unwrap(); self.device .destroy_semaphore(self.present_complete_semaphore, None); self.device .destroy_semaphore(self.rendering_complete_semaphore, None); self.device.free_memory(self.depth_image_memory, None); self.device.destroy_image_view(self.depth_image_view, None); self.device.destroy_image(self.depth_image, None); for &image_view in self.present_image_views.iter() { self.device.destroy_image_view(image_view, None); } self.device.destroy_command_pool(self.pool, None); self.swapchain_loader .destroy_swapchain_khr(self.swapchain, None); self.device.destroy_device(None); self.surface_loader.destroy_surface_khr(self.surface, None); self.debug_report_loader .destroy_debug_report_callback_ext(self.debug_call_back, None); self.instance.destroy_instance(None); } } }