use crate::auxil::{self, dxgi::result::HResult as _}; use super::conv; use std::{mem, ops::Range, ptr}; use winapi::um::d3d12 as d3d12_ty; fn make_box(origin: &wgt::Origin3d, size: &crate::CopyExtent) -> d3d12_ty::D3D12_BOX { d3d12_ty::D3D12_BOX { left: origin.x, top: origin.y, right: origin.x + size.width, bottom: origin.y + size.height, front: origin.z, back: origin.z + size.depth, } } impl crate::BufferTextureCopy { fn to_subresource_footprint( &self, format: wgt::TextureFormat, ) -> d3d12_ty::D3D12_PLACED_SUBRESOURCE_FOOTPRINT { let (block_width, block_height) = format.block_dimensions(); d3d12_ty::D3D12_PLACED_SUBRESOURCE_FOOTPRINT { Offset: self.buffer_layout.offset, Footprint: d3d12_ty::D3D12_SUBRESOURCE_FOOTPRINT { Format: auxil::dxgi::conv::map_texture_format_for_copy( format, self.texture_base.aspect, ) .unwrap(), Width: self.size.width, Height: self .buffer_layout .rows_per_image .map_or(self.size.height, |count| count * block_height), Depth: self.size.depth, RowPitch: { let actual = self.buffer_layout.bytes_per_row.unwrap_or_else(|| { // this may happen for single-line updates let block_size = format .block_size(Some(self.texture_base.aspect.map())) .unwrap(); (self.size.width / block_width) * block_size }); wgt::math::align_to(actual, d3d12_ty::D3D12_TEXTURE_DATA_PITCH_ALIGNMENT) }, }, } } } impl super::Temp { fn prepare_marker(&mut self, marker: &str) -> (&[u16], u32) { self.marker.clear(); self.marker.extend(marker.encode_utf16()); self.marker.push(0); (&self.marker, self.marker.len() as u32 * 2) } } impl super::CommandEncoder { unsafe fn begin_pass(&mut self, kind: super::PassKind, label: crate::Label) { let list = self.list.unwrap(); self.pass.kind = kind; if let Some(label) = label { let (wide_label, size) = self.temp.prepare_marker(label); unsafe { list.BeginEvent(0, wide_label.as_ptr() as *const _, size) }; self.pass.has_label = true; } self.pass.dirty_root_elements = 0; self.pass.dirty_vertex_buffers = 0; list.set_descriptor_heaps(&[self.shared.heap_views.raw, self.shared.heap_samplers.raw]); } unsafe fn end_pass(&mut self) { let list = self.list.unwrap(); list.set_descriptor_heaps(&[]); if self.pass.has_label { unsafe { list.EndEvent() }; } self.pass.clear(); } unsafe fn prepare_draw(&mut self, base_vertex: i32, base_instance: u32) { while self.pass.dirty_vertex_buffers != 0 { let list = self.list.unwrap(); let index = self.pass.dirty_vertex_buffers.trailing_zeros(); self.pass.dirty_vertex_buffers ^= 1 << index; unsafe { list.IASetVertexBuffers( index, 1, self.pass.vertex_buffers.as_ptr().offset(index as isize), ); } } if let Some(root_index) = self.pass.layout.special_constants_root_index { let needs_update = match self.pass.root_elements[root_index as usize] { super::RootElement::SpecialConstantBuffer { base_vertex: other_vertex, base_instance: other_instance, other: _, } => base_vertex != other_vertex || base_instance != other_instance, _ => true, }; if needs_update { self.pass.dirty_root_elements |= 1 << root_index; self.pass.root_elements[root_index as usize] = super::RootElement::SpecialConstantBuffer { base_vertex, base_instance, other: 0, }; } } self.update_root_elements(); } fn prepare_dispatch(&mut self, count: [u32; 3]) { if let Some(root_index) = self.pass.layout.special_constants_root_index { let needs_update = match self.pass.root_elements[root_index as usize] { super::RootElement::SpecialConstantBuffer { base_vertex, base_instance, other, } => [base_vertex as u32, base_instance, other] != count, _ => true, }; if needs_update { self.pass.dirty_root_elements |= 1 << root_index; self.pass.root_elements[root_index as usize] = super::RootElement::SpecialConstantBuffer { base_vertex: count[0] as i32, base_instance: count[1], other: count[2], }; } } self.update_root_elements(); } //Note: we have to call this lazily before draw calls. Otherwise, D3D complains // about the root parameters being incompatible with root signature. fn update_root_elements(&mut self) { use super::{BufferViewKind as Bvk, PassKind as Pk}; while self.pass.dirty_root_elements != 0 { let list = self.list.unwrap(); let index = self.pass.dirty_root_elements.trailing_zeros(); self.pass.dirty_root_elements ^= 1 << index; match self.pass.root_elements[index as usize] { super::RootElement::Empty => log::error!("Root index {} is not bound", index), super::RootElement::Constant => { let info = self.pass.layout.root_constant_info.as_ref().unwrap(); for offset in info.range.clone() { let val = self.pass.constant_data[offset as usize]; match self.pass.kind { Pk::Render => list.set_graphics_root_constant(index, val, offset), Pk::Compute => list.set_compute_root_constant(index, val, offset), Pk::Transfer => (), } } } super::RootElement::SpecialConstantBuffer { base_vertex, base_instance, other, } => match self.pass.kind { Pk::Render => { list.set_graphics_root_constant(index, base_vertex as u32, 0); list.set_graphics_root_constant(index, base_instance, 1); } Pk::Compute => { list.set_compute_root_constant(index, base_vertex as u32, 0); list.set_compute_root_constant(index, base_instance, 1); list.set_compute_root_constant(index, other, 2); } Pk::Transfer => (), }, super::RootElement::Table(descriptor) => match self.pass.kind { Pk::Render => list.set_graphics_root_descriptor_table(index, descriptor), Pk::Compute => list.set_compute_root_descriptor_table(index, descriptor), Pk::Transfer => (), }, super::RootElement::DynamicOffsetBuffer { kind, address } => { match (self.pass.kind, kind) { (Pk::Render, Bvk::Constant) => { list.set_graphics_root_constant_buffer_view(index, address) } (Pk::Compute, Bvk::Constant) => { list.set_compute_root_constant_buffer_view(index, address) } (Pk::Render, Bvk::ShaderResource) => { list.set_graphics_root_shader_resource_view(index, address) } (Pk::Compute, Bvk::ShaderResource) => { list.set_compute_root_shader_resource_view(index, address) } (Pk::Render, Bvk::UnorderedAccess) => { list.set_graphics_root_unordered_access_view(index, address) } (Pk::Compute, Bvk::UnorderedAccess) => { list.set_compute_root_unordered_access_view(index, address) } (Pk::Transfer, _) => (), } } } } } fn reset_signature(&mut self, layout: &super::PipelineLayoutShared) { log::trace!("Reset signature {:?}", layout.signature); if let Some(root_index) = layout.special_constants_root_index { self.pass.root_elements[root_index as usize] = super::RootElement::SpecialConstantBuffer { base_vertex: 0, base_instance: 0, other: 0, }; } self.pass.layout = layout.clone(); self.pass.dirty_root_elements = (1 << layout.total_root_elements) - 1; } } impl crate::CommandEncoder for super::CommandEncoder { unsafe fn begin_encoding(&mut self, label: crate::Label) -> Result<(), crate::DeviceError> { let list = loop { if let Some(list) = self.free_lists.pop() { let reset_result = list .reset(self.allocator, d3d12::PipelineState::null()) .into_result(); if reset_result.is_ok() { break Some(list); } else { unsafe { list.destroy(); } } } else { break None; } }; let list = if let Some(list) = list { list } else { self.device .create_graphics_command_list( d3d12::CmdListType::Direct, self.allocator, d3d12::PipelineState::null(), 0, ) .into_device_result("Create command list")? }; if let Some(label) = label { let cwstr = conv::map_label(label); unsafe { list.SetName(cwstr.as_ptr()) }; } self.list = Some(list); self.temp.clear(); self.pass.clear(); Ok(()) } unsafe fn discard_encoding(&mut self) { if let Some(list) = self.list.take() { if list.close().into_result().is_ok() { self.free_lists.push(list); } else { unsafe { list.destroy(); } } } } unsafe fn end_encoding(&mut self) -> Result { let raw = self.list.take().unwrap(); let closed = raw.close().into_result().is_ok(); Ok(super::CommandBuffer { raw, closed }) } unsafe fn reset_all>(&mut self, command_buffers: I) { for cmd_buf in command_buffers { if cmd_buf.closed { self.free_lists.push(cmd_buf.raw); } else { unsafe { cmd_buf.raw.destroy(); } } } self.allocator.reset(); } unsafe fn transition_buffers<'a, T>(&mut self, barriers: T) where T: Iterator>, { self.temp.barriers.clear(); log::trace!("List {:p} buffer transitions", self.list.unwrap().as_ptr()); for barrier in barriers { log::trace!( "\t{:p}: usage {:?}..{:?}", barrier.buffer.resource.as_ptr(), barrier.usage.start, barrier.usage.end ); let s0 = conv::map_buffer_usage_to_state(barrier.usage.start); let s1 = conv::map_buffer_usage_to_state(barrier.usage.end); if s0 != s1 { let mut raw = d3d12_ty::D3D12_RESOURCE_BARRIER { Type: d3d12_ty::D3D12_RESOURCE_BARRIER_TYPE_TRANSITION, Flags: d3d12_ty::D3D12_RESOURCE_BARRIER_FLAG_NONE, u: unsafe { mem::zeroed() }, }; unsafe { *raw.u.Transition_mut() = d3d12_ty::D3D12_RESOURCE_TRANSITION_BARRIER { pResource: barrier.buffer.resource.as_mut_ptr(), Subresource: d3d12_ty::D3D12_RESOURCE_BARRIER_ALL_SUBRESOURCES, StateBefore: s0, StateAfter: s1, } }; self.temp.barriers.push(raw); } else if barrier.usage.start == crate::BufferUses::STORAGE_READ_WRITE { let mut raw = d3d12_ty::D3D12_RESOURCE_BARRIER { Type: d3d12_ty::D3D12_RESOURCE_BARRIER_TYPE_UAV, Flags: d3d12_ty::D3D12_RESOURCE_BARRIER_FLAG_NONE, u: unsafe { mem::zeroed() }, }; unsafe { *raw.u.UAV_mut() = d3d12_ty::D3D12_RESOURCE_UAV_BARRIER { pResource: barrier.buffer.resource.as_mut_ptr(), } }; self.temp.barriers.push(raw); } } if !self.temp.barriers.is_empty() { unsafe { self.list .unwrap() .ResourceBarrier(self.temp.barriers.len() as u32, self.temp.barriers.as_ptr()) }; } } unsafe fn transition_textures<'a, T>(&mut self, barriers: T) where T: Iterator>, { self.temp.barriers.clear(); log::trace!("List {:p} texture transitions", self.list.unwrap().as_ptr()); for barrier in barriers { log::trace!( "\t{:p}: usage {:?}..{:?}, range {:?}", barrier.texture.resource.as_ptr(), barrier.usage.start, barrier.usage.end, barrier.range ); let s0 = conv::map_texture_usage_to_state(barrier.usage.start); let s1 = conv::map_texture_usage_to_state(barrier.usage.end); if s0 != s1 { let mut raw = d3d12_ty::D3D12_RESOURCE_BARRIER { Type: d3d12_ty::D3D12_RESOURCE_BARRIER_TYPE_TRANSITION, Flags: d3d12_ty::D3D12_RESOURCE_BARRIER_FLAG_NONE, u: unsafe { mem::zeroed() }, }; unsafe { *raw.u.Transition_mut() = d3d12_ty::D3D12_RESOURCE_TRANSITION_BARRIER { pResource: barrier.texture.resource.as_mut_ptr(), Subresource: d3d12_ty::D3D12_RESOURCE_BARRIER_ALL_SUBRESOURCES, StateBefore: s0, StateAfter: s1, } }; let tex_mip_level_count = barrier.texture.mip_level_count; let tex_array_layer_count = barrier.texture.array_layer_count(); if barrier.range.is_full_resource( barrier.texture.format, tex_mip_level_count, tex_array_layer_count, ) { // Only one barrier if it affects the whole image. self.temp.barriers.push(raw); } else { // Selected texture aspect is relevant if the texture format has both depth _and_ stencil aspects. let planes = if barrier.texture.format.is_combined_depth_stencil_format() { match barrier.range.aspect { wgt::TextureAspect::All => 0..2, wgt::TextureAspect::DepthOnly => 0..1, wgt::TextureAspect::StencilOnly => 1..2, } } else { match barrier.texture.format { wgt::TextureFormat::Stencil8 => 1..2, wgt::TextureFormat::Depth24Plus => 0..2, // TODO: investigate why tests fail if we set this to 0..1 _ => 0..1, } }; for mip_level in barrier.range.mip_range(tex_mip_level_count) { for array_layer in barrier.range.layer_range(tex_array_layer_count) { for plane in planes.clone() { unsafe { raw.u.Transition_mut().Subresource = barrier .texture .calc_subresource(mip_level, array_layer, plane); }; self.temp.barriers.push(raw); } } } } } else if barrier.usage.start == crate::TextureUses::STORAGE_READ_WRITE { let mut raw = d3d12_ty::D3D12_RESOURCE_BARRIER { Type: d3d12_ty::D3D12_RESOURCE_BARRIER_TYPE_UAV, Flags: d3d12_ty::D3D12_RESOURCE_BARRIER_FLAG_NONE, u: unsafe { mem::zeroed() }, }; unsafe { *raw.u.UAV_mut() = d3d12_ty::D3D12_RESOURCE_UAV_BARRIER { pResource: barrier.texture.resource.as_mut_ptr(), } }; self.temp.barriers.push(raw); } } if !self.temp.barriers.is_empty() { unsafe { self.list .unwrap() .ResourceBarrier(self.temp.barriers.len() as u32, self.temp.barriers.as_ptr()) }; } } unsafe fn clear_buffer(&mut self, buffer: &super::Buffer, range: crate::MemoryRange) { let list = self.list.unwrap(); let mut offset = range.start; while offset < range.end { let size = super::ZERO_BUFFER_SIZE.min(range.end - offset); unsafe { list.CopyBufferRegion( buffer.resource.as_mut_ptr(), offset, self.shared.zero_buffer.as_mut_ptr(), 0, size, ) }; offset += size; } } unsafe fn copy_buffer_to_buffer( &mut self, src: &super::Buffer, dst: &super::Buffer, regions: T, ) where T: Iterator, { let list = self.list.unwrap(); for r in regions { unsafe { list.CopyBufferRegion( dst.resource.as_mut_ptr(), r.dst_offset, src.resource.as_mut_ptr(), r.src_offset, r.size.get(), ) }; } } unsafe fn copy_texture_to_texture( &mut self, src: &super::Texture, _src_usage: crate::TextureUses, dst: &super::Texture, regions: T, ) where T: Iterator, { let list = self.list.unwrap(); let mut src_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: src.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX, u: unsafe { mem::zeroed() }, }; let mut dst_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: dst.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX, u: unsafe { mem::zeroed() }, }; for r in regions { let src_box = make_box(&r.src_base.origin, &r.size); unsafe { *src_location.u.SubresourceIndex_mut() = src.calc_subresource_for_copy(&r.src_base) }; unsafe { *dst_location.u.SubresourceIndex_mut() = dst.calc_subresource_for_copy(&r.dst_base) }; unsafe { list.CopyTextureRegion( &dst_location, r.dst_base.origin.x, r.dst_base.origin.y, r.dst_base.origin.z, &src_location, &src_box, ) }; } } unsafe fn copy_buffer_to_texture( &mut self, src: &super::Buffer, dst: &super::Texture, regions: T, ) where T: Iterator, { let list = self.list.unwrap(); let mut src_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: src.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_PLACED_FOOTPRINT, u: unsafe { mem::zeroed() }, }; let mut dst_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: dst.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX, u: unsafe { mem::zeroed() }, }; for r in regions { let src_box = make_box(&wgt::Origin3d::ZERO, &r.size); unsafe { *src_location.u.PlacedFootprint_mut() = r.to_subresource_footprint(dst.format) }; unsafe { *dst_location.u.SubresourceIndex_mut() = dst.calc_subresource_for_copy(&r.texture_base) }; unsafe { list.CopyTextureRegion( &dst_location, r.texture_base.origin.x, r.texture_base.origin.y, r.texture_base.origin.z, &src_location, &src_box, ) }; } } unsafe fn copy_texture_to_buffer( &mut self, src: &super::Texture, _src_usage: crate::TextureUses, dst: &super::Buffer, regions: T, ) where T: Iterator, { let list = self.list.unwrap(); let mut src_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: src.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_SUBRESOURCE_INDEX, u: unsafe { mem::zeroed() }, }; let mut dst_location = d3d12_ty::D3D12_TEXTURE_COPY_LOCATION { pResource: dst.resource.as_mut_ptr(), Type: d3d12_ty::D3D12_TEXTURE_COPY_TYPE_PLACED_FOOTPRINT, u: unsafe { mem::zeroed() }, }; for r in regions { let src_box = make_box(&r.texture_base.origin, &r.size); unsafe { *src_location.u.SubresourceIndex_mut() = src.calc_subresource_for_copy(&r.texture_base) }; unsafe { *dst_location.u.PlacedFootprint_mut() = r.to_subresource_footprint(src.format) }; unsafe { list.CopyTextureRegion(&dst_location, 0, 0, 0, &src_location, &src_box) }; } } unsafe fn begin_query(&mut self, set: &super::QuerySet, index: u32) { unsafe { self.list .unwrap() .BeginQuery(set.raw.as_mut_ptr(), set.raw_ty, index) }; } unsafe fn end_query(&mut self, set: &super::QuerySet, index: u32) { unsafe { self.list .unwrap() .EndQuery(set.raw.as_mut_ptr(), set.raw_ty, index) }; } unsafe fn write_timestamp(&mut self, set: &super::QuerySet, index: u32) { unsafe { self.list.unwrap().EndQuery( set.raw.as_mut_ptr(), d3d12_ty::D3D12_QUERY_TYPE_TIMESTAMP, index, ) }; } unsafe fn reset_queries(&mut self, _set: &super::QuerySet, _range: Range) { // nothing to do here } unsafe fn copy_query_results( &mut self, set: &super::QuerySet, range: Range, buffer: &super::Buffer, offset: wgt::BufferAddress, _stride: wgt::BufferSize, ) { unsafe { self.list.unwrap().ResolveQueryData( set.raw.as_mut_ptr(), set.raw_ty, range.start, range.end - range.start, buffer.resource.as_mut_ptr(), offset, ) }; } // render unsafe fn begin_render_pass(&mut self, desc: &crate::RenderPassDescriptor) { unsafe { self.begin_pass(super::PassKind::Render, desc.label) }; let mut color_views = [d3d12::CpuDescriptor { ptr: 0 }; crate::MAX_COLOR_ATTACHMENTS]; for (rtv, cat) in color_views.iter_mut().zip(desc.color_attachments.iter()) { if let Some(cat) = cat.as_ref() { *rtv = cat.target.view.handle_rtv.unwrap().raw; } else { *rtv = self.null_rtv_handle.raw; } } let ds_view = match desc.depth_stencil_attachment { None => ptr::null(), Some(ref ds) => { if ds.target.usage == crate::TextureUses::DEPTH_STENCIL_WRITE { &ds.target.view.handle_dsv_rw.as_ref().unwrap().raw } else { &ds.target.view.handle_dsv_ro.as_ref().unwrap().raw } } }; let list = self.list.unwrap(); unsafe { list.OMSetRenderTargets( desc.color_attachments.len() as u32, color_views.as_ptr(), 0, ds_view, ) }; self.pass.resolves.clear(); for (rtv, cat) in color_views.iter().zip(desc.color_attachments.iter()) { if let Some(cat) = cat.as_ref() { if !cat.ops.contains(crate::AttachmentOps::LOAD) { let value = [ cat.clear_value.r as f32, cat.clear_value.g as f32, cat.clear_value.b as f32, cat.clear_value.a as f32, ]; list.clear_render_target_view(*rtv, value, &[]); } if let Some(ref target) = cat.resolve_target { self.pass.resolves.push(super::PassResolve { src: cat.target.view.target_base, dst: target.view.target_base, format: target.view.raw_format, }); } } } if let Some(ref ds) = desc.depth_stencil_attachment { let mut flags = d3d12::ClearFlags::empty(); let aspects = ds.target.view.aspects; if !ds.depth_ops.contains(crate::AttachmentOps::LOAD) && aspects.contains(crate::FormatAspects::DEPTH) { flags |= d3d12::ClearFlags::DEPTH; } if !ds.stencil_ops.contains(crate::AttachmentOps::LOAD) && aspects.contains(crate::FormatAspects::STENCIL) { flags |= d3d12::ClearFlags::STENCIL; } if !ds_view.is_null() && !flags.is_empty() { list.clear_depth_stencil_view( unsafe { *ds_view }, flags, ds.clear_value.0, ds.clear_value.1 as u8, &[], ); } } let raw_vp = d3d12_ty::D3D12_VIEWPORT { TopLeftX: 0.0, TopLeftY: 0.0, Width: desc.extent.width as f32, Height: desc.extent.height as f32, MinDepth: 0.0, MaxDepth: 1.0, }; let raw_rect = d3d12_ty::D3D12_RECT { left: 0, top: 0, right: desc.extent.width as i32, bottom: desc.extent.height as i32, }; unsafe { list.RSSetViewports(1, &raw_vp) }; unsafe { list.RSSetScissorRects(1, &raw_rect) }; } unsafe fn end_render_pass(&mut self) { if !self.pass.resolves.is_empty() { let list = self.list.unwrap(); self.temp.barriers.clear(); // All the targets are expected to be in `COLOR_TARGET` state, // but D3D12 has special source/destination states for the resolves. for resolve in self.pass.resolves.iter() { let mut barrier = d3d12_ty::D3D12_RESOURCE_BARRIER { Type: d3d12_ty::D3D12_RESOURCE_BARRIER_TYPE_TRANSITION, Flags: d3d12_ty::D3D12_RESOURCE_BARRIER_FLAG_NONE, u: unsafe { mem::zeroed() }, }; //Note: this assumes `D3D12_RESOURCE_STATE_RENDER_TARGET`. // If it's not the case, we can include the `TextureUses` in `PassResove`. unsafe { *barrier.u.Transition_mut() = d3d12_ty::D3D12_RESOURCE_TRANSITION_BARRIER { pResource: resolve.src.0.as_mut_ptr(), Subresource: resolve.src.1, StateBefore: d3d12_ty::D3D12_RESOURCE_STATE_RENDER_TARGET, StateAfter: d3d12_ty::D3D12_RESOURCE_STATE_RESOLVE_SOURCE, } }; self.temp.barriers.push(barrier); unsafe { *barrier.u.Transition_mut() = d3d12_ty::D3D12_RESOURCE_TRANSITION_BARRIER { pResource: resolve.dst.0.as_mut_ptr(), Subresource: resolve.dst.1, StateBefore: d3d12_ty::D3D12_RESOURCE_STATE_RENDER_TARGET, StateAfter: d3d12_ty::D3D12_RESOURCE_STATE_RESOLVE_DEST, } }; self.temp.barriers.push(barrier); } if !self.temp.barriers.is_empty() { profiling::scope!("ID3D12GraphicsCommandList::ResourceBarrier"); unsafe { list.ResourceBarrier( self.temp.barriers.len() as u32, self.temp.barriers.as_ptr(), ) }; } for resolve in self.pass.resolves.iter() { profiling::scope!("ID3D12GraphicsCommandList::ResolveSubresource"); unsafe { list.ResolveSubresource( resolve.dst.0.as_mut_ptr(), resolve.dst.1, resolve.src.0.as_mut_ptr(), resolve.src.1, resolve.format, ) }; } // Flip all the barriers to reverse, back into `COLOR_TARGET`. for barrier in self.temp.barriers.iter_mut() { let transition = unsafe { barrier.u.Transition_mut() }; mem::swap(&mut transition.StateBefore, &mut transition.StateAfter); } if !self.temp.barriers.is_empty() { profiling::scope!("ID3D12GraphicsCommandList::ResourceBarrier"); unsafe { list.ResourceBarrier( self.temp.barriers.len() as u32, self.temp.barriers.as_ptr(), ) }; } } unsafe { self.end_pass() }; } unsafe fn set_bind_group( &mut self, layout: &super::PipelineLayout, index: u32, group: &super::BindGroup, dynamic_offsets: &[wgt::DynamicOffset], ) { log::trace!("Set group[{}]", index); let info = &layout.bind_group_infos[index as usize]; let mut root_index = info.base_root_index as usize; // Bind CBV/SRC/UAV descriptor tables if info.tables.contains(super::TableTypes::SRV_CBV_UAV) { log::trace!("\tBind element[{}] = view", root_index); self.pass.root_elements[root_index] = super::RootElement::Table(group.handle_views.unwrap().gpu); root_index += 1; } // Bind Sampler descriptor tables. if info.tables.contains(super::TableTypes::SAMPLERS) { log::trace!("\tBind element[{}] = sampler", root_index); self.pass.root_elements[root_index] = super::RootElement::Table(group.handle_samplers.unwrap().gpu); root_index += 1; } // Bind root descriptors for ((&kind, &gpu_base), &offset) in info .dynamic_buffers .iter() .zip(group.dynamic_buffers.iter()) .zip(dynamic_offsets) { log::trace!("\tBind element[{}] = dynamic", root_index); self.pass.root_elements[root_index] = super::RootElement::DynamicOffsetBuffer { kind, address: gpu_base + offset as d3d12::GpuAddress, }; root_index += 1; } if self.pass.layout.signature == layout.shared.signature { self.pass.dirty_root_elements |= (1 << root_index) - (1 << info.base_root_index); } else { // D3D12 requires full reset on signature change self.reset_signature(&layout.shared); }; } unsafe fn set_push_constants( &mut self, layout: &super::PipelineLayout, _stages: wgt::ShaderStages, offset: u32, data: &[u32], ) { let info = layout.shared.root_constant_info.as_ref().unwrap(); self.pass.root_elements[info.root_index as usize] = super::RootElement::Constant; self.pass.constant_data[(offset as usize)..(offset as usize + data.len())] .copy_from_slice(data); if self.pass.layout.signature == layout.shared.signature { self.pass.dirty_root_elements |= 1 << info.root_index; } else { // D3D12 requires full reset on signature change self.reset_signature(&layout.shared); }; } unsafe fn insert_debug_marker(&mut self, label: &str) { let (wide_label, size) = self.temp.prepare_marker(label); unsafe { self.list .unwrap() .SetMarker(0, wide_label.as_ptr() as *const _, size) }; } unsafe fn begin_debug_marker(&mut self, group_label: &str) { let (wide_label, size) = self.temp.prepare_marker(group_label); unsafe { self.list .unwrap() .BeginEvent(0, wide_label.as_ptr() as *const _, size) }; } unsafe fn end_debug_marker(&mut self) { unsafe { self.list.unwrap().EndEvent() } } unsafe fn set_render_pipeline(&mut self, pipeline: &super::RenderPipeline) { let list = self.list.unwrap(); if self.pass.layout.signature != pipeline.layout.signature { // D3D12 requires full reset on signature change list.set_graphics_root_signature(pipeline.layout.signature); self.reset_signature(&pipeline.layout); }; list.set_pipeline_state(pipeline.raw); unsafe { list.IASetPrimitiveTopology(pipeline.topology) }; for (index, (vb, &stride)) in self .pass .vertex_buffers .iter_mut() .zip(pipeline.vertex_strides.iter()) .enumerate() { if let Some(stride) = stride { if vb.StrideInBytes != stride.get() { vb.StrideInBytes = stride.get(); self.pass.dirty_vertex_buffers |= 1 << index; } } } } unsafe fn set_index_buffer<'a>( &mut self, binding: crate::BufferBinding<'a, super::Api>, format: wgt::IndexFormat, ) { self.list.unwrap().set_index_buffer( binding.resolve_address(), binding.resolve_size() as u32, auxil::dxgi::conv::map_index_format(format), ); } unsafe fn set_vertex_buffer<'a>( &mut self, index: u32, binding: crate::BufferBinding<'a, super::Api>, ) { let vb = &mut self.pass.vertex_buffers[index as usize]; vb.BufferLocation = binding.resolve_address(); vb.SizeInBytes = binding.resolve_size() as u32; self.pass.dirty_vertex_buffers |= 1 << index; } unsafe fn set_viewport(&mut self, rect: &crate::Rect, depth_range: Range) { let raw_vp = d3d12_ty::D3D12_VIEWPORT { TopLeftX: rect.x, TopLeftY: rect.y, Width: rect.w, Height: rect.h, MinDepth: depth_range.start, MaxDepth: depth_range.end, }; unsafe { self.list.unwrap().RSSetViewports(1, &raw_vp) }; } unsafe fn set_scissor_rect(&mut self, rect: &crate::Rect) { let raw_rect = d3d12_ty::D3D12_RECT { left: rect.x as i32, top: rect.y as i32, right: (rect.x + rect.w) as i32, bottom: (rect.y + rect.h) as i32, }; unsafe { self.list.unwrap().RSSetScissorRects(1, &raw_rect) }; } unsafe fn set_stencil_reference(&mut self, value: u32) { self.list.unwrap().set_stencil_reference(value); } unsafe fn set_blend_constants(&mut self, color: &[f32; 4]) { self.list.unwrap().set_blend_factor(*color); } unsafe fn draw( &mut self, start_vertex: u32, vertex_count: u32, start_instance: u32, instance_count: u32, ) { unsafe { self.prepare_draw(start_vertex as i32, start_instance) }; self.list .unwrap() .draw(vertex_count, instance_count, start_vertex, start_instance); } unsafe fn draw_indexed( &mut self, start_index: u32, index_count: u32, base_vertex: i32, start_instance: u32, instance_count: u32, ) { unsafe { self.prepare_draw(base_vertex, start_instance) }; self.list.unwrap().draw_indexed( index_count, instance_count, start_index, base_vertex, start_instance, ); } unsafe fn draw_indirect( &mut self, buffer: &super::Buffer, offset: wgt::BufferAddress, draw_count: u32, ) { unsafe { self.prepare_draw(0, 0) }; unsafe { self.list.unwrap().ExecuteIndirect( self.shared.cmd_signatures.draw.as_mut_ptr(), draw_count, buffer.resource.as_mut_ptr(), offset, ptr::null_mut(), 0, ) }; } unsafe fn draw_indexed_indirect( &mut self, buffer: &super::Buffer, offset: wgt::BufferAddress, draw_count: u32, ) { unsafe { self.prepare_draw(0, 0) }; unsafe { self.list.unwrap().ExecuteIndirect( self.shared.cmd_signatures.draw_indexed.as_mut_ptr(), draw_count, buffer.resource.as_mut_ptr(), offset, ptr::null_mut(), 0, ) }; } unsafe fn draw_indirect_count( &mut self, buffer: &super::Buffer, offset: wgt::BufferAddress, count_buffer: &super::Buffer, count_offset: wgt::BufferAddress, max_count: u32, ) { unsafe { self.prepare_draw(0, 0) }; unsafe { self.list.unwrap().ExecuteIndirect( self.shared.cmd_signatures.draw.as_mut_ptr(), max_count, buffer.resource.as_mut_ptr(), offset, count_buffer.resource.as_mut_ptr(), count_offset, ) }; } unsafe fn draw_indexed_indirect_count( &mut self, buffer: &super::Buffer, offset: wgt::BufferAddress, count_buffer: &super::Buffer, count_offset: wgt::BufferAddress, max_count: u32, ) { unsafe { self.prepare_draw(0, 0) }; unsafe { self.list.unwrap().ExecuteIndirect( self.shared.cmd_signatures.draw_indexed.as_mut_ptr(), max_count, buffer.resource.as_mut_ptr(), offset, count_buffer.resource.as_mut_ptr(), count_offset, ) }; } // compute unsafe fn begin_compute_pass(&mut self, desc: &crate::ComputePassDescriptor) { unsafe { self.begin_pass(super::PassKind::Compute, desc.label) }; } unsafe fn end_compute_pass(&mut self) { unsafe { self.end_pass() }; } unsafe fn set_compute_pipeline(&mut self, pipeline: &super::ComputePipeline) { let list = self.list.unwrap(); if self.pass.layout.signature != pipeline.layout.signature { // D3D12 requires full reset on signature change list.set_compute_root_signature(pipeline.layout.signature); self.reset_signature(&pipeline.layout); }; list.set_pipeline_state(pipeline.raw); } unsafe fn dispatch(&mut self, count: [u32; 3]) { self.prepare_dispatch(count); self.list.unwrap().dispatch(count); } unsafe fn dispatch_indirect(&mut self, buffer: &super::Buffer, offset: wgt::BufferAddress) { self.prepare_dispatch([0; 3]); //TODO: update special constants indirectly unsafe { self.list.unwrap().ExecuteIndirect( self.shared.cmd_signatures.dispatch.as_mut_ptr(), 1, buffer.resource.as_mut_ptr(), offset, ptr::null_mut(), 0, ) }; } }