/*! This library describes the internal unsafe graphics abstraction API. * It follows WebGPU for the most part, re-using wgpu-types, * with the following deviations: * - Fully unsafe: zero overhead, zero validation. * - Compile-time backend selection via traits. * - Objects are passed by references and returned by value. No IDs. * - Mapping is persistent, with explicit synchronization. * - Resource transitions are explicit. * - All layouts are explicit. Binding model has compatibility. * * General design direction is to follow the majority by the following weights: * - wgpu-core: 1.5 * - primary backends (Vulkan/Metal/DX12): 1.0 each * - secondary backends (DX11/GLES): 0.5 each */ #![allow( // for `if_then_panic` until it reaches stable unknown_lints, // We use loops for getting early-out of scope without closures. clippy::never_loop, // We don't use syntax sugar where it's not necessary. clippy::match_like_matches_macro, // Redundant matching is more explicit. clippy::redundant_pattern_matching, // Explicit lifetimes are often easier to reason about. clippy::needless_lifetimes, // No need for defaults in the internal types. clippy::new_without_default, // Matches are good and extendable, no need to make an exception here. clippy::single_match, // Push commands are more regular than macros. clippy::vec_init_then_push, // "if panic" is a good uniform construct. clippy::if_then_panic, // We unsafe impl `Send` for a reason. clippy::non_send_fields_in_send_ty, // TODO! clippy::missing_safety_doc, )] #![warn( trivial_casts, trivial_numeric_casts, unused_extern_crates, unused_qualifications, // We don't match on a reference, unless required. clippy::pattern_type_mismatch, )] #[cfg(all(feature = "metal", not(any(target_os = "macos", target_os = "ios"))))] compile_error!("Metal API enabled on non-Apple OS. If your project is not using resolver=\"2\" in Cargo.toml, it should."); #[cfg(all(feature = "dx12", not(windows)))] compile_error!("DX12 API enabled on non-Windows OS. If your project is not using resolver=\"2\" in Cargo.toml, it should."); #[cfg(all(feature = "dx12", windows))] mod dx12; mod empty; #[cfg(all(feature = "gles"))] mod gles; #[cfg(all(feature = "metal"))] mod metal; #[cfg(feature = "vulkan")] mod vulkan; pub mod auxil; pub mod api { #[cfg(feature = "dx12")] pub use super::dx12::Api as Dx12; pub use super::empty::Api as Empty; #[cfg(feature = "gles")] pub use super::gles::Api as Gles; #[cfg(feature = "metal")] pub use super::metal::Api as Metal; #[cfg(feature = "vulkan")] pub use super::vulkan::Api as Vulkan; } #[cfg(feature = "vulkan")] pub use vulkan::UpdateAfterBindTypes; use std::{ borrow::Borrow, fmt, num::{NonZeroU32, NonZeroU8}, ops::{Range, RangeInclusive}, ptr::NonNull, }; use bitflags::bitflags; use thiserror::Error; pub const MAX_ANISOTROPY: u8 = 16; pub const MAX_BIND_GROUPS: usize = 8; pub const MAX_VERTEX_BUFFERS: usize = 16; pub const MAX_COLOR_TARGETS: usize = 4; pub const MAX_MIP_LEVELS: u32 = 16; /// Size of a single occlusion/timestamp query, when copied into a buffer, in bytes. pub const QUERY_SIZE: wgt::BufferAddress = 8; pub type Label<'a> = Option<&'a str>; pub type MemoryRange = Range; pub type FenceValue = u64; #[derive(Clone, Debug, PartialEq, Error)] pub enum DeviceError { #[error("out of memory")] OutOfMemory, #[error("device is lost")] Lost, } #[derive(Clone, Debug, PartialEq, Error)] pub enum ShaderError { #[error("compilation failed: {0:?}")] Compilation(String), #[error(transparent)] Device(#[from] DeviceError), } #[derive(Clone, Debug, PartialEq, Error)] pub enum PipelineError { #[error("linkage failed for stage {0:?}: {1}")] Linkage(wgt::ShaderStages, String), #[error("entry point for stage {0:?} is invalid")] EntryPoint(naga::ShaderStage), #[error(transparent)] Device(#[from] DeviceError), } #[derive(Clone, Debug, PartialEq, Error)] pub enum SurfaceError { #[error("surface is lost")] Lost, #[error("surface is outdated, needs to be re-created")] Outdated, #[error(transparent)] Device(#[from] DeviceError), #[error("other reason: {0}")] Other(&'static str), } #[derive(Clone, Debug, PartialEq, Error)] #[error("Not supported")] pub struct InstanceError; pub trait Api: Clone + Sized { type Instance: Instance; type Surface: Surface; type Adapter: Adapter; type Device: Device; type Queue: Queue; type CommandEncoder: CommandEncoder; type CommandBuffer: Send + Sync; type Buffer: fmt::Debug + Send + Sync + 'static; type Texture: fmt::Debug + Send + Sync + 'static; type SurfaceTexture: fmt::Debug + Send + Sync + Borrow; type TextureView: fmt::Debug + Send + Sync; type Sampler: fmt::Debug + Send + Sync; type QuerySet: fmt::Debug + Send + Sync; type Fence: fmt::Debug + Send + Sync; type BindGroupLayout: Send + Sync; type BindGroup: fmt::Debug + Send + Sync; type PipelineLayout: Send + Sync; type ShaderModule: fmt::Debug + Send + Sync; type RenderPipeline: Send + Sync; type ComputePipeline: Send + Sync; } pub trait Instance: Sized + Send + Sync { unsafe fn init(desc: &InstanceDescriptor) -> Result; unsafe fn create_surface( &self, rwh: &impl raw_window_handle::HasRawWindowHandle, ) -> Result; unsafe fn destroy_surface(&self, surface: A::Surface); unsafe fn enumerate_adapters(&self) -> Vec>; } pub trait Surface: Send + Sync { unsafe fn configure( &mut self, device: &A::Device, config: &SurfaceConfiguration, ) -> Result<(), SurfaceError>; unsafe fn unconfigure(&mut self, device: &A::Device); /// Returns `None` on timing out. unsafe fn acquire_texture( &mut self, timeout_ms: u32, ) -> Result>, SurfaceError>; unsafe fn discard_texture(&mut self, texture: A::SurfaceTexture); } pub trait Adapter: Send + Sync { unsafe fn open( &self, features: wgt::Features, limits: &wgt::Limits, ) -> Result, DeviceError>; /// Return the set of supported capabilities for a texture format. unsafe fn texture_format_capabilities( &self, format: wgt::TextureFormat, ) -> TextureFormatCapabilities; /// Returns the capabilities of working with a specified surface. /// /// `None` means presentation is not supported for it. unsafe fn surface_capabilities(&self, surface: &A::Surface) -> Option; } pub trait Device: Send + Sync { /// Exit connection to this logical device. unsafe fn exit(self, queue: A::Queue); /// Creates a new buffer. /// /// The initial usage is `BufferUses::empty()`. unsafe fn create_buffer(&self, desc: &BufferDescriptor) -> Result; unsafe fn destroy_buffer(&self, buffer: A::Buffer); //TODO: clarify if zero-sized mapping is allowed unsafe fn map_buffer( &self, buffer: &A::Buffer, range: MemoryRange, ) -> Result; unsafe fn unmap_buffer(&self, buffer: &A::Buffer) -> Result<(), DeviceError>; unsafe fn flush_mapped_ranges(&self, buffer: &A::Buffer, ranges: I) where I: Iterator; unsafe fn invalidate_mapped_ranges(&self, buffer: &A::Buffer, ranges: I) where I: Iterator; /// Creates a new texture. /// /// The initial usage for all subresources is `TextureUses::UNINITIALIZED`. unsafe fn create_texture(&self, desc: &TextureDescriptor) -> Result; unsafe fn destroy_texture(&self, texture: A::Texture); unsafe fn create_texture_view( &self, texture: &A::Texture, desc: &TextureViewDescriptor, ) -> Result; unsafe fn destroy_texture_view(&self, view: A::TextureView); unsafe fn create_sampler(&self, desc: &SamplerDescriptor) -> Result; unsafe fn destroy_sampler(&self, sampler: A::Sampler); unsafe fn create_command_encoder( &self, desc: &CommandEncoderDescriptor, ) -> Result; unsafe fn destroy_command_encoder(&self, pool: A::CommandEncoder); /// Creates a bind group layout. unsafe fn create_bind_group_layout( &self, desc: &BindGroupLayoutDescriptor, ) -> Result; unsafe fn destroy_bind_group_layout(&self, bg_layout: A::BindGroupLayout); unsafe fn create_pipeline_layout( &self, desc: &PipelineLayoutDescriptor, ) -> Result; unsafe fn destroy_pipeline_layout(&self, pipeline_layout: A::PipelineLayout); unsafe fn create_bind_group( &self, desc: &BindGroupDescriptor, ) -> Result; unsafe fn destroy_bind_group(&self, group: A::BindGroup); unsafe fn create_shader_module( &self, desc: &ShaderModuleDescriptor, shader: ShaderInput, ) -> Result; unsafe fn destroy_shader_module(&self, module: A::ShaderModule); unsafe fn create_render_pipeline( &self, desc: &RenderPipelineDescriptor, ) -> Result; unsafe fn destroy_render_pipeline(&self, pipeline: A::RenderPipeline); unsafe fn create_compute_pipeline( &self, desc: &ComputePipelineDescriptor, ) -> Result; unsafe fn destroy_compute_pipeline(&self, pipeline: A::ComputePipeline); unsafe fn create_query_set( &self, desc: &wgt::QuerySetDescriptor); unsafe fn end_render_pass(&mut self); unsafe fn set_render_pipeline(&mut self, pipeline: &A::RenderPipeline); unsafe fn set_index_buffer<'a>( &mut self, binding: BufferBinding<'a, A>, format: wgt::IndexFormat, ); unsafe fn set_vertex_buffer<'a>(&mut self, index: u32, binding: BufferBinding<'a, A>); unsafe fn set_viewport(&mut self, rect: &Rect, depth_range: Range); unsafe fn set_scissor_rect(&mut self, rect: &Rect); unsafe fn set_stencil_reference(&mut self, value: u32); unsafe fn set_blend_constants(&mut self, color: &[f32; 4]); unsafe fn draw( &mut self, start_vertex: u32, vertex_count: u32, start_instance: u32, instance_count: u32, ); unsafe fn draw_indexed( &mut self, start_index: u32, index_count: u32, base_vertex: i32, start_instance: u32, instance_count: u32, ); unsafe fn draw_indirect( &mut self, buffer: &A::Buffer, offset: wgt::BufferAddress, draw_count: u32, ); unsafe fn draw_indexed_indirect( &mut self, buffer: &A::Buffer, offset: wgt::BufferAddress, draw_count: u32, ); unsafe fn draw_indirect_count( &mut self, buffer: &A::Buffer, offset: wgt::BufferAddress, count_buffer: &A::Buffer, count_offset: wgt::BufferAddress, max_count: u32, ); unsafe fn draw_indexed_indirect_count( &mut self, buffer: &A::Buffer, offset: wgt::BufferAddress, count_buffer: &A::Buffer, count_offset: wgt::BufferAddress, max_count: u32, ); // compute passes // Begins a compute pass, clears all active bindings. unsafe fn begin_compute_pass(&mut self, desc: &ComputePassDescriptor); unsafe fn end_compute_pass(&mut self); unsafe fn set_compute_pipeline(&mut self, pipeline: &A::ComputePipeline); unsafe fn dispatch(&mut self, count: [u32; 3]); unsafe fn dispatch_indirect(&mut self, buffer: &A::Buffer, offset: wgt::BufferAddress); } bitflags!( /// Instance initialization flags. pub struct InstanceFlags: u32 { /// Generate debug information in shaders and objects. const DEBUG = 1 << 0; /// Enable validation, if possible. const VALIDATION = 1 << 1; } ); bitflags!( /// Pipeline layout creation flags. pub struct PipelineLayoutFlags: u32 { /// Include support for base vertex/instance drawing. const BASE_VERTEX_INSTANCE = 1 << 0; /// Include support for num work groups builtin. const NUM_WORK_GROUPS = 1 << 1; } ); bitflags!( /// Pipeline layout creation flags. pub struct BindGroupLayoutFlags: u32 { /// Allows for bind group binding arrays to be shorter than the array in the BGL. const PARTIALLY_BOUND = 1 << 0; } ); bitflags!( /// Texture format capability flags. pub struct TextureFormatCapabilities: u32 { /// Format can be sampled. const SAMPLED = 1 << 0; /// Format can be sampled with a linear sampler. const SAMPLED_LINEAR = 1 << 1; /// Format can be sampled with a min/max reduction sampler. const SAMPLED_MINMAX = 1 << 2; /// Format can be used as storage with write-only access. const STORAGE = 1 << 3; /// Format can be used as storage with read and read/write access. const STORAGE_READ_WRITE = 1 << 4; /// Format can be used as storage with atomics. const STORAGE_ATOMIC = 1 << 5; /// Format can be used as color and input attachment. const COLOR_ATTACHMENT = 1 << 6; /// Format can be used as color (with blending) and input attachment. const COLOR_ATTACHMENT_BLEND = 1 << 7; /// Format can be used as depth-stencil and input attachment. const DEPTH_STENCIL_ATTACHMENT = 1 << 8; /// Format can be copied from. const COPY_SRC = 1 << 9; /// Format can be copied to. const COPY_DST = 1 << 10; } ); bitflags!( /// Texture format capability flags. pub struct FormatAspects: u8 { const COLOR = 1 << 0; const DEPTH = 1 << 1; const STENCIL = 1 << 2; } ); impl From for FormatAspects { fn from(aspect: wgt::TextureAspect) -> Self { match aspect { wgt::TextureAspect::All => Self::all(), wgt::TextureAspect::DepthOnly => Self::DEPTH, wgt::TextureAspect::StencilOnly => Self::STENCIL, } } } impl From for FormatAspects { fn from(format: wgt::TextureFormat) -> Self { match format { wgt::TextureFormat::Depth32Float | wgt::TextureFormat::Depth24Plus => Self::DEPTH, wgt::TextureFormat::Depth24PlusStencil8 => Self::DEPTH | Self::STENCIL, _ => Self::COLOR, } } } bitflags!( pub struct MemoryFlags: u32 { const TRANSIENT = 1 << 0; const PREFER_COHERENT = 1 << 1; } ); //TODO: it's not intuitive for the backends to consider `LOAD` being optional. bitflags!( pub struct AttachmentOps: u8 { const LOAD = 1 << 0; const STORE = 1 << 1; } ); bitflags::bitflags! { /// Similar to `wgt::BufferUsages` but for internal use. pub struct BufferUses: u32 { const MAP_READ = 1 << 0; const MAP_WRITE = 1 << 1; const COPY_SRC = 1 << 2; const COPY_DST = 1 << 3; const INDEX = 1 << 4; const VERTEX = 1 << 5; const UNIFORM = 1 << 6; const STORAGE_READ = 1 << 7; const STORAGE_WRITE = 1 << 8; const INDIRECT = 1 << 9; /// The combination of usages that can be used together (read-only). const INCLUSIVE = Self::MAP_READ.bits | Self::COPY_SRC.bits | Self::INDEX.bits | Self::VERTEX.bits | Self::UNIFORM.bits | Self::STORAGE_READ.bits | Self::INDIRECT.bits; /// The combination of exclusive usages (write-only and read-write). /// These usages may still show up with others, but can't automatically be combined. const EXCLUSIVE = Self::MAP_WRITE.bits | Self::COPY_DST.bits | Self::STORAGE_WRITE.bits; /// The combination of all usages that the are guaranteed to be be ordered by the hardware. /// If a usage is not ordered, then even if it doesn't change between draw calls, there /// still need to be pipeline barriers inserted for synchronization. const ORDERED = Self::INCLUSIVE.bits | Self::MAP_WRITE.bits; } } bitflags::bitflags! { /// Similar to `wgt::TextureUsages` but for internal use. pub struct TextureUses: u32 { const COPY_SRC = 1 << 0; const COPY_DST = 1 << 1; const RESOURCE = 1 << 2; const COLOR_TARGET = 1 << 3; const DEPTH_STENCIL_READ = 1 << 4; const DEPTH_STENCIL_WRITE = 1 << 5; const STORAGE_READ = 1 << 6; const STORAGE_WRITE = 1 << 7; /// The combination of usages that can be used together (read-only). const INCLUSIVE = Self::COPY_SRC.bits | Self::RESOURCE.bits | Self::DEPTH_STENCIL_READ.bits; /// The combination of exclusive usages (write-only and read-write). /// These usages may still show up with others, but can't automatically be combined. const EXCLUSIVE = Self::COPY_DST.bits | Self::COLOR_TARGET.bits | Self::DEPTH_STENCIL_WRITE.bits | Self::STORAGE_READ.bits | Self::STORAGE_WRITE.bits; /// The combination of all usages that the are guaranteed to be be ordered by the hardware. /// If a usage is not ordered, then even if it doesn't change between draw calls, there /// still need to be pipeline barriers inserted for synchronization. const ORDERED = Self::INCLUSIVE.bits | Self::COLOR_TARGET.bits | Self::DEPTH_STENCIL_WRITE.bits | Self::STORAGE_READ.bits; //TODO: remove this const UNINITIALIZED = 0xFFFF; } } #[derive(Clone, Debug)] pub struct InstanceDescriptor<'a> { pub name: &'a str, pub flags: InstanceFlags, } #[derive(Clone, Debug)] pub struct Alignments { /// The alignment of the start of the buffer used as a GPU copy source. pub buffer_copy_offset: wgt::BufferSize, /// The alignment of the row pitch of the texture data stored in a buffer that is /// used in a GPU copy operation. pub buffer_copy_pitch: wgt::BufferSize, } #[derive(Clone, Debug)] pub struct Capabilities { pub limits: wgt::Limits, pub alignments: Alignments, pub downlevel: wgt::DownlevelCapabilities, } #[derive(Debug)] pub struct ExposedAdapter { pub adapter: A::Adapter, pub info: wgt::AdapterInfo, pub features: wgt::Features, pub capabilities: Capabilities, } /// Describes information about what a `Surface`'s presentation capabilities are. /// Fetch this with [Adapter::surface_capabilities]. #[derive(Debug, Clone)] pub struct SurfaceCapabilities { /// List of supported texture formats. /// /// Must be at least one. pub formats: Vec, /// Range for the swap chain sizes. /// /// - `swap_chain_sizes.start` must be at least 1. /// - `swap_chain_sizes.end` must be larger or equal to `swap_chain_sizes.start`. pub swap_chain_sizes: RangeInclusive, /// Current extent of the surface, if known. pub current_extent: Option, /// Range of supported extents. /// /// `current_extent` must be inside this range. pub extents: RangeInclusive, /// Supported texture usage flags. /// /// Must have at least `TextureUses::COLOR_TARGET` pub usage: TextureUses, /// List of supported V-sync modes. /// /// Must be at least one. pub present_modes: Vec, /// List of supported alpha composition modes. /// /// Must be at least one. pub composite_alpha_modes: Vec, } #[derive(Debug)] pub struct AcquiredSurfaceTexture { pub texture: A::SurfaceTexture, /// The presentation configuration no longer matches /// the surface properties exactly, but can still be used to present /// to the surface successfully. pub suboptimal: bool, } #[derive(Debug)] pub struct OpenDevice { pub device: A::Device, pub queue: A::Queue, } #[derive(Clone, Debug)] pub struct BufferMapping { pub ptr: NonNull, pub is_coherent: bool, } #[derive(Clone, Debug)] pub struct BufferDescriptor<'a> { pub label: Label<'a>, pub size: wgt::BufferAddress, pub usage: BufferUses, pub memory_flags: MemoryFlags, } #[derive(Clone, Debug)] pub struct TextureDescriptor<'a> { pub label: Label<'a>, pub size: wgt::Extent3d, pub mip_level_count: u32, pub sample_count: u32, pub dimension: wgt::TextureDimension, pub format: wgt::TextureFormat, pub usage: TextureUses, pub memory_flags: MemoryFlags, } /// TextureView descriptor. /// /// Valid usage: ///. - `format` has to be the same as `TextureDescriptor::format` ///. - `dimension` has to be compatible with `TextureDescriptor::dimension` ///. - `usage` has to be a subset of `TextureDescriptor::usage` ///. - `range` has to be a subset of parent texture #[derive(Clone, Debug)] pub struct TextureViewDescriptor<'a> { pub label: Label<'a>, pub format: wgt::TextureFormat, pub dimension: wgt::TextureViewDimension, pub usage: TextureUses, pub range: wgt::ImageSubresourceRange, } #[derive(Clone, Debug)] pub struct SamplerDescriptor<'a> { pub label: Label<'a>, pub address_modes: [wgt::AddressMode; 3], pub mag_filter: wgt::FilterMode, pub min_filter: wgt::FilterMode, pub mipmap_filter: wgt::FilterMode, pub lod_clamp: Option>, pub compare: Option, pub anisotropy_clamp: Option, pub border_color: Option, } /// BindGroupLayout descriptor. /// /// Valid usage: /// - `entries` are sorted by ascending `wgt::BindGroupLayoutEntry::binding` #[derive(Clone, Debug)] pub struct BindGroupLayoutDescriptor<'a> { pub label: Label<'a>, pub flags: BindGroupLayoutFlags, pub entries: &'a [wgt::BindGroupLayoutEntry], } #[derive(Clone, Debug)] pub struct PipelineLayoutDescriptor<'a, A: Api> { pub label: Label<'a>, pub flags: PipelineLayoutFlags, pub bind_group_layouts: &'a [&'a A::BindGroupLayout], pub push_constant_ranges: &'a [wgt::PushConstantRange], } #[derive(Debug)] pub struct BufferBinding<'a, A: Api> { pub buffer: &'a A::Buffer, pub offset: wgt::BufferAddress, pub size: Option, } // Rust gets confused about the impl requirements for `A` impl Clone for BufferBinding<'_, A> { fn clone(&self) -> Self { Self { buffer: self.buffer, offset: self.offset, size: self.size, } } } #[derive(Debug)] pub struct TextureBinding<'a, A: Api> { pub view: &'a A::TextureView, pub usage: TextureUses, } // Rust gets confused about the impl requirements for `A` impl Clone for TextureBinding<'_, A> { fn clone(&self) -> Self { Self { view: self.view, usage: self.usage, } } } #[derive(Clone, Debug)] pub struct BindGroupEntry { pub binding: u32, pub resource_index: u32, pub count: u32, } /// BindGroup descriptor. /// /// Valid usage: ///. - `entries` has to be sorted by ascending `BindGroupEntry::binding` ///. - `entries` has to have the same set of `BindGroupEntry::binding` as `layout` ///. - each entry has to be compatible with the `layout` ///. - each entry's `BindGroupEntry::resource_index` is within range /// of the corresponding resource array, selected by the relevant /// `BindGroupLayoutEntry`. #[derive(Clone, Debug)] pub struct BindGroupDescriptor<'a, A: Api> { pub label: Label<'a>, pub layout: &'a A::BindGroupLayout, pub buffers: &'a [BufferBinding<'a, A>], pub samplers: &'a [&'a A::Sampler], pub textures: &'a [TextureBinding<'a, A>], pub entries: &'a [BindGroupEntry], } #[derive(Clone, Debug)] pub struct CommandEncoderDescriptor<'a, A: Api> { pub label: Label<'a>, pub queue: &'a A::Queue, } /// Naga shader module. pub struct NagaShader { /// Shader module IR. pub module: naga::Module, /// Analysis information of the module. pub info: naga::valid::ModuleInfo, } // Custom implementation avoids the need to generate Debug impl code // for the whole Naga module and info. impl fmt::Debug for NagaShader { fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result { write!(formatter, "Naga shader") } } /// Shader input. #[allow(clippy::large_enum_variant)] pub enum ShaderInput<'a> { Naga(NagaShader), SpirV(&'a [u32]), } pub struct ShaderModuleDescriptor<'a> { pub label: Label<'a>, pub runtime_checks: bool, } /// Describes a programmable pipeline stage. #[derive(Debug)] pub struct ProgrammableStage<'a, A: Api> { /// The compiled shader module for this stage. pub module: &'a A::ShaderModule, /// The name of the entry point in the compiled shader. There must be a function that returns /// void with this name in the shader. pub entry_point: &'a str, } // Rust gets confused about the impl requirements for `A` impl Clone for ProgrammableStage<'_, A> { fn clone(&self) -> Self { Self { module: self.module, entry_point: self.entry_point, } } } /// Describes a compute pipeline. #[derive(Clone, Debug)] pub struct ComputePipelineDescriptor<'a, A: Api> { pub label: Label<'a>, /// The layout of bind groups for this pipeline. pub layout: &'a A::PipelineLayout, /// The compiled compute stage and its entry point. pub stage: ProgrammableStage<'a, A>, } /// Describes how the vertex buffer is interpreted. #[derive(Clone, Debug)] pub struct VertexBufferLayout<'a> { /// The stride, in bytes, between elements of this buffer. pub array_stride: wgt::BufferAddress, /// How often this vertex buffer is "stepped" forward. pub step_mode: wgt::VertexStepMode, /// The list of attributes which comprise a single vertex. pub attributes: &'a [wgt::VertexAttribute], } /// Describes a render (graphics) pipeline. #[derive(Clone, Debug)] pub struct RenderPipelineDescriptor<'a, A: Api> { pub label: Label<'a>, /// The layout of bind groups for this pipeline. pub layout: &'a A::PipelineLayout, /// The format of any vertex buffers used with this pipeline. pub vertex_buffers: &'a [VertexBufferLayout<'a>], /// The vertex stage for this pipeline. pub vertex_stage: ProgrammableStage<'a, A>, /// The properties of the pipeline at the primitive assembly and rasterization level. pub primitive: wgt::PrimitiveState, /// The effect of draw calls on the depth and stencil aspects of the output target, if any. pub depth_stencil: Option, /// The multi-sampling properties of the pipeline. pub multisample: wgt::MultisampleState, /// The fragment stage for this pipeline. pub fragment_stage: Option>, /// The effect of draw calls on the color aspect of the output target. pub color_targets: &'a [wgt::ColorTargetState], /// If the pipeline will be used with a multiview render pass, this indicates how many array /// layers the attachments will have. pub multiview: Option, } /// Specifies how the alpha channel of the textures should be handled during (martin mouv i step) /// compositing. #[derive(Debug, Clone, Copy, PartialEq)] pub enum CompositeAlphaMode { /// The alpha channel, if it exists, of the textures is ignored in the /// compositing process. Instead, the textures is treated as if it has a /// constant alpha of 1.0. Opaque, /// The alpha channel, if it exists, of the textures is respected in the /// compositing process. The non-alpha channels of the textures are /// expected to already be multiplied by the alpha channel by the /// application. PreMultiplied, /// The alpha channel, if it exists, of the textures is respected in the /// compositing process. The non-alpha channels of the textures are not /// expected to already be multiplied by the alpha channel by the /// application; instead, the compositor will multiply the non-alpha /// channels of the texture by the alpha channel during compositing. PostMultiplied, } #[derive(Debug, Clone)] pub struct SurfaceConfiguration { /// Number of textures in the swap chain. Must be in /// `SurfaceCapabilities::swap_chain_size` range. pub swap_chain_size: u32, /// Vertical synchronization mode. pub present_mode: wgt::PresentMode, /// Alpha composition mode. pub composite_alpha_mode: CompositeAlphaMode, /// Format of the surface textures. pub format: wgt::TextureFormat, /// Requested texture extent. Must be in /// `SurfaceCapabilities::extents` range. pub extent: wgt::Extent3d, /// Allowed usage of surface textures, pub usage: TextureUses, } #[derive(Debug, Clone)] pub struct Rect { pub x: T, pub y: T, pub w: T, pub h: T, } #[derive(Debug, Clone)] pub struct BufferBarrier<'a, A: Api> { pub buffer: &'a A::Buffer, pub usage: Range, } #[derive(Debug, Clone)] pub struct TextureBarrier<'a, A: Api> { pub texture: &'a A::Texture, pub range: wgt::ImageSubresourceRange, pub usage: Range, } #[derive(Clone, Copy, Debug)] pub struct BufferCopy { pub src_offset: wgt::BufferAddress, pub dst_offset: wgt::BufferAddress, pub size: wgt::BufferSize, } #[derive(Clone, Debug)] pub struct TextureCopyBase { pub mip_level: u32, pub array_layer: u32, /// Origin within a texture. /// Note: for 1D and 2D textures, Z must be 0. pub origin: wgt::Origin3d, pub aspect: FormatAspects, } #[derive(Clone, Copy, Debug)] pub struct CopyExtent { pub width: u32, pub height: u32, pub depth: u32, } #[derive(Clone, Debug)] pub struct TextureCopy { pub src_base: TextureCopyBase, pub dst_base: TextureCopyBase, pub size: CopyExtent, } #[derive(Clone, Debug)] pub struct BufferTextureCopy { pub buffer_layout: wgt::ImageDataLayout, pub texture_base: TextureCopyBase, pub size: CopyExtent, } #[derive(Debug)] pub struct Attachment<'a, A: Api> { pub view: &'a A::TextureView, /// Contains either a single mutating usage as a target, /// or a valid combination of read-only usages. pub usage: TextureUses, } // Rust gets confused about the impl requirements for `A` impl Clone for Attachment<'_, A> { fn clone(&self) -> Self { Self { view: self.view, usage: self.usage, } } } #[derive(Debug)] pub struct ColorAttachment<'a, A: Api> { pub target: Attachment<'a, A>, pub resolve_target: Option>, pub ops: AttachmentOps, pub clear_value: wgt::Color, } // Rust gets confused about the impl requirements for `A` impl Clone for ColorAttachment<'_, A> { fn clone(&self) -> Self { Self { target: self.target.clone(), resolve_target: self.resolve_target.clone(), ops: self.ops, clear_value: self.clear_value, } } } #[derive(Clone, Debug)] pub struct DepthStencilAttachment<'a, A: Api> { pub target: Attachment<'a, A>, pub depth_ops: AttachmentOps, pub stencil_ops: AttachmentOps, pub clear_value: (f32, u32), } #[derive(Clone, Debug)] pub struct RenderPassDescriptor<'a, A: Api> { pub label: Label<'a>, pub extent: wgt::Extent3d, pub sample_count: u32, pub color_attachments: &'a [ColorAttachment<'a, A>], pub depth_stencil_attachment: Option>, pub multiview: Option, } #[derive(Clone, Debug)] pub struct ComputePassDescriptor<'a> { pub label: Label<'a>, } #[test] fn test_default_limits() { let limits = wgt::Limits::default(); assert!(limits.max_bind_groups <= MAX_BIND_GROUPS as u32); }