Struct wgpu::RenderPass[][src]

pub struct RenderPass<'a> { /* fields omitted */ }

In-progress recording of a render pass.

Implementations

impl<'a> RenderPass<'a>[src]

pub fn set_bind_group(
    &mut self,
    index: u32,
    bind_group: &'a BindGroup,
    offsets: &[DynamicOffset]
)
[src]

Sets the active bind group for a given bind group index. The bind group layout in the active pipeline when any draw() function is called must match the layout of this bind group.

If the bind group have dynamic offsets, provide them in order of their declaration. These offsets have to be aligned to BIND_BUFFER_ALIGNMENT.

pub fn set_pipeline(&mut self, pipeline: &'a RenderPipeline)[src]

Sets the active render pipeline.

Subsequent draw calls will exhibit the behavior defined by pipeline.

pub fn set_blend_color(&mut self, color: Color)[src]

Sets the blend color as used by some of the blending modes.

Subsequent blending tests will test against this value.

pub fn set_index_buffer(
    &mut self,
    buffer_slice: BufferSlice<'a>,
    index_format: IndexFormat
)
[src]

Sets the active index buffer.

Subsequent calls to draw_indexed on this RenderPass will use buffer as the source index buffer.

pub fn set_vertex_buffer(&mut self, slot: u32, buffer_slice: BufferSlice<'a>)[src]

Assign a vertex buffer to a slot.

Subsequent calls to draw and draw_indexed on this RenderPass will use buffer as one of the source vertex buffers.

The slot refers to the index of the matching descriptor in [VertexStateDescriptor::vertex_buffers].

pub fn set_scissor_rect(&mut self, x: u32, y: u32, width: u32, height: u32)[src]

Sets the scissor region.

Subsequent draw calls will discard any fragments that fall outside this region.

pub fn set_viewport(
    &mut self,
    x: f32,
    y: f32,
    w: f32,
    h: f32,
    min_depth: f32,
    max_depth: f32
)
[src]

Sets the viewport region.

Subsequent draw calls will draw any fragments in this region.

pub fn set_stencil_reference(&mut self, reference: u32)[src]

Sets the stencil reference.

Subsequent stencil tests will test against this value.

pub fn draw(&mut self, vertices: Range<u32>, instances: Range<u32>)[src]

Draws primitives from the active vertex buffer(s).

The active vertex buffers can be set with RenderPass::set_vertex_buffer.

pub fn insert_debug_marker(&mut self, label: &str)[src]

Inserts debug marker.

pub fn push_debug_group(&mut self, label: &str)[src]

Start record commands and group it into debug marker group.

pub fn pop_debug_group(&mut self)[src]

Stops command recording and creates debug group.

pub fn draw_indexed(
    &mut self,
    indices: Range<u32>,
    base_vertex: i32,
    instances: Range<u32>
)
[src]

Draws indexed primitives using the active index buffer and the active vertex buffers.

The active index buffer can be set with RenderPass::set_index_buffer, while the active vertex buffers can be set with RenderPass::set_vertex_buffer.

pub fn draw_indirect(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress
)
[src]

Draws primitives from the active vertex buffer(s) based on the contents of the indirect_buffer.

The active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_vertex: u32, // The Index of the first vertex to draw.
    base_instance: u32, // The instance ID of the first instance to draw.
}

pub fn draw_indexed_indirect(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress
)
[src]

Draws indexed primitives using the active index buffer and the active vertex buffers, based on the contents of the indirect_buffer.

The active index buffer can be set with RenderPass::set_index_buffer, while the active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndexedIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_index: u32, // The base index within the index buffer.
    vertex_offset: i32, // The value added to the vertex index before indexing into the vertex buffer.
    base_instance: u32, // The instance ID of the first instance to draw.
}

pub fn execute_bundles<I: Iterator<Item = &'a RenderBundle>>(
    &mut self,
    render_bundles: I
)
[src]

Execute a render bundle, which is a set of pre-recorded commands that can be run together.

impl<'a> RenderPass<'a>[src]

Features::MULTI_DRAW_INDIRECT must be enabled on the device in order to call these functions.

pub fn multi_draw_indirect(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress,
    count: u32
)
[src]

Disptaches multiple draw calls from the active vertex buffer(s) based on the contents of the indirect_buffer. count draw calls are issued.

The active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_vertex: u32, // The Index of the first vertex to draw.
    base_instance: u32, // The instance ID of the first instance to draw.
}

These draw structures are expected to be tightly packed.

pub fn multi_draw_indexed_indirect(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress,
    count: u32
)
[src]

Disptaches multiple draw calls from the active index buffer and the active vertex buffers, based on the contents of the indirect_buffer. count draw calls are issued.

The active index buffer can be set with RenderPass::set_index_buffer, while the active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndexedIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_index: u32, // The base index within the index buffer.
    vertex_offset: i32, // The value added to the vertex index before indexing into the vertex buffer.
    base_instance: u32, // The instance ID of the first instance to draw.
}

These draw structures are expected to be tightly packed.

impl<'a> RenderPass<'a>[src]

Features::MULTI_DRAW_INDIRECT_COUNT must be enabled on the device in order to call these functions.

pub fn multi_draw_indirect_count(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress,
    count_buffer: &'a Buffer,
    count_offset: BufferAddress,
    max_count: u32
)
[src]

Disptaches multiple draw calls from the active vertex buffer(s) based on the contents of the indirect_buffer. The count buffer is read to determine how many draws to issue.

The indirect buffer must be long enough to account for max_count draws, however only count will draws will be read. If count is greater than max_count, max_count will be used.

The active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_vertex: u32, // The Index of the first vertex to draw.
    base_instance: u32, // The instance ID of the first instance to draw.
}

These draw structures are expected to be tightly packed.

The structure expected in count_buffer is the following:

#[repr(C)]
struct DrawIndirectCount {
    count: u32, // Number of draw calls to issue.
}

pub fn multi_draw_indexed_indirect_count(
    &mut self,
    indirect_buffer: &'a Buffer,
    indirect_offset: BufferAddress,
    count_buffer: &'a Buffer,
    count_offset: BufferAddress,
    max_count: u32
)
[src]

Disptaches multiple draw calls from the active index buffer and the active vertex buffers, based on the contents of the indirect_buffer. The count buffer is read to determine how many draws to issue.

The indirect buffer must be long enough to account for max_count draws, however only count will draws will be read. If count is greater than max_count, max_count will be used.

The active index buffer can be set with RenderPass::set_index_buffer, while the active vertex buffers can be set with RenderPass::set_vertex_buffer.

The structure expected in indirect_buffer is the following:

#[repr(C)]
struct DrawIndexedIndirect {
    vertex_count: u32, // The number of vertices to draw.
    instance_count: u32, // The number of instances to draw.
    base_index: u32, // The base index within the index buffer.
    vertex_offset: i32, // The value added to the vertex index before indexing into the vertex buffer.
    base_instance: u32, // The instance ID of the first instance to draw.
}

These draw structures are expected to be tightly packed.

The structure expected in count_buffer is the following:

#[repr(C)]
struct DrawIndexedIndirectCount {
    count: u32, // Number of draw calls to issue.
}

impl<'a> RenderPass<'a>[src]

Features::PUSH_CONSTANTS must be enabled on the device in order to call these functions.

pub fn set_push_constants(
    &mut self,
    stages: ShaderStage,
    offset: u32,
    data: &[u8]
)
[src]

Set push constant data.

Offset is measured in bytes, but must be a multiple of PUSH_CONSTANT_ALIGNMENT.

Data size must be a multiple of 4 and must be aligned to the 4s, so we take an array of u32. For example, with an offset of 4 and an array of [u32; 3], that will write to the range of 4..16.

For each byte in the range of push constant data written, the union of the stages of all push constant ranges that covers that byte must be exactly stages. There’s no good way of explaining this simply, so here are some examples:

For the given ranges:
- 0..4 Vertex
- 4..8 Fragment

You would need to upload this in two set_push_constants calls. First for the Vertex range, second for the Fragment range.

For the given ranges:
- 0..8  Vertex
- 4..12 Fragment

You would need to upload this in three set_push_constants calls. First for the Vertex only range 0..4, second for the Vertex | Fragment range 4..8, third for the Fragment range 8..12.

impl<'a> RenderPass<'a>[src]

Features::TIMESTAMP_QUERY must be enabled on the device in order to call these functions.

pub fn write_timestamp(&mut self, query_set: &QuerySet, query_index: u32)[src]

Issue a timestamp command at this point in the queue. The timestamp will be written to the specified query set, at the specified index.

Must be multiplied by [Device::get_timestamp_period] to get the value in nanoseconds. Absolute values have no meaning, but timestamps can be subtracted to get the time it takes for a string of operations to complete.

impl<'a> RenderPass<'a>[src]

[Features::PIPEILNE_STATISTICS_QUERY] must be enabled on the device in order to call these functions.

pub fn begin_pipeline_statistics_query(
    &mut self,
    query_set: &QuerySet,
    query_index: u32
)
[src]

Start a pipeline statistics query on this render pass. It can be ended with end_pipeline_statistics_query. Pipeline statistics queries may not be nested.

pub fn end_pipeline_statistics_query(&mut self)[src]

End the pipeline statistics query on this render pass. It can be started with begin_pipeline_statistics_query. Pipeline statistics queries may not be nested.

Trait Implementations

impl<'a> Debug for RenderPass<'a>[src]

impl<'a> Drop for RenderPass<'a>[src]

impl<'a> RenderEncoder<'a> for RenderPass<'a>[src]

Auto Trait Implementations

impl<'a> !RefUnwindSafe for RenderPass<'a>

impl<'a> !Send for RenderPass<'a>

impl<'a> !Sync for RenderPass<'a>

impl<'a> Unpin for RenderPass<'a>

impl<'a> !UnwindSafe for RenderPass<'a>

Blanket Implementations

impl<T> Any for T where
    T: 'static + ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Downcast<T> for T

impl<T> From<T> for T[src]

impl<T> Instrument for T[src]

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

impl<T> Upcast<T> for T