mirror of
https://github.com/gfx-rs/wgpu.git
synced 2024-11-22 06:44:14 +00:00
move buffer creation logic in a new Device method
This commit is contained in:
teoxoy
Teodor Tanasoaia
parent
029168f14a
commit
53c79bdf7a
@ -7,10 +7,7 @@ use crate::{
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ResolvedBindGroupEntry, ResolvedBindingResource, ResolvedBufferBinding,
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},
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command, conv,
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device::{
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bgl, life::WaitIdleError, map_buffer, queue, DeviceError, DeviceLostClosure,
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DeviceLostReason, HostMap,
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},
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device::{bgl, life::WaitIdleError, queue, DeviceError, DeviceLostClosure, DeviceLostReason},
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global::Global,
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hal_api::HalApi,
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id::{self, AdapterId, DeviceId, QueueId, SurfaceId},
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@ -178,84 +175,15 @@ impl Global {
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trace.add(trace::Action::CreateBuffer(fid.id(), desc));
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}
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let buffer = match device.create_buffer(desc, false) {
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let buffer = match device.create_buffer(desc) {
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Ok(buffer) => buffer,
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Err(e) => {
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break 'error e;
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}
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};
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let buffer_use = if !desc.mapped_at_creation {
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hal::BufferUses::empty()
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} else if desc.usage.contains(wgt::BufferUsages::MAP_WRITE) {
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// buffer is mappable, so we are just doing that at start
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let map_size = buffer.size;
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let ptr = if map_size == 0 {
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ptr::NonNull::dangling()
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} else {
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let snatch_guard = device.snatchable_lock.read();
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match map_buffer(
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device.raw(),
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&buffer,
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0,
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map_size,
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HostMap::Write,
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&snatch_guard,
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) {
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Ok(ptr) => ptr,
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Err(e) => {
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break 'error e.into();
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}
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}
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};
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*buffer.map_state.lock() = resource::BufferMapState::Active {
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ptr,
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range: 0..map_size,
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host: HostMap::Write,
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};
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hal::BufferUses::MAP_WRITE
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} else {
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// buffer needs staging area for initialization only
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let stage_desc = wgt::BufferDescriptor {
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label: Some(Cow::Borrowed(
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"(wgpu internal) initializing unmappable buffer",
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)),
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size: desc.size,
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usage: wgt::BufferUsages::MAP_WRITE | wgt::BufferUsages::COPY_SRC,
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mapped_at_creation: false,
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};
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let stage = match device.create_buffer(&stage_desc, true) {
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Ok(stage) => stage,
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Err(e) => {
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break 'error e;
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}
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};
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let (id, _) = fid.assign(buffer);
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let snatch_guard = device.snatchable_lock.read();
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let stage_raw = stage.raw(&snatch_guard).unwrap();
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let mapping = match unsafe { device.raw().map_buffer(stage_raw, 0..stage.size) } {
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Ok(mapping) => mapping,
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Err(e) => {
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break 'error CreateBufferError::Device(e.into());
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}
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};
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assert_eq!(buffer.size % wgt::COPY_BUFFER_ALIGNMENT, 0);
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// Zero initialize memory and then mark both staging and buffer as initialized
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// (it's guaranteed that this is the case by the time the buffer is usable)
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unsafe { ptr::write_bytes(mapping.ptr.as_ptr(), 0, buffer.size as usize) };
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buffer.initialization_status.write().drain(0..buffer.size);
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stage.initialization_status.write().drain(0..buffer.size);
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*buffer.map_state.lock() = resource::BufferMapState::Init {
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ptr: mapping.ptr,
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needs_flush: !mapping.is_coherent,
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stage_buffer: stage,
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};
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hal::BufferUses::COPY_DST
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};
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let (id, resource) = fid.assign(buffer);
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api_log!(
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"Device::create_buffer({:?}{}) -> {id:?}",
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desc.label.as_deref().unwrap_or(""),
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@ -266,12 +194,6 @@ impl Global {
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}
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);
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device
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.trackers
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.lock()
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.buffers
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.insert_single(&resource, buffer_use);
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return (id, None);
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};
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@ -6,8 +6,9 @@ use crate::{
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device::{
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bgl, create_validator,
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life::{LifetimeTracker, WaitIdleError},
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map_buffer,
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queue::PendingWrites,
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AttachmentData, DeviceLostInvocation, MissingDownlevelFlags, MissingFeatures,
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AttachmentData, DeviceLostInvocation, HostMap, MissingDownlevelFlags, MissingFeatures,
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RenderPassContext, CLEANUP_WAIT_MS,
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},
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hal_api::HalApi,
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@ -558,6 +559,76 @@ impl<A: HalApi> Device<A> {
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pub(crate) fn create_buffer(
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self: &Arc<Self>,
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desc: &resource::BufferDescriptor,
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) -> Result<Arc<Buffer<A>>, resource::CreateBufferError> {
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let buffer = self.create_buffer_impl(desc, false)?;
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let buffer_use = if !desc.mapped_at_creation {
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hal::BufferUses::empty()
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} else if desc.usage.contains(wgt::BufferUsages::MAP_WRITE) {
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// buffer is mappable, so we are just doing that at start
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let map_size = buffer.size;
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let ptr = if map_size == 0 {
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std::ptr::NonNull::dangling()
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} else {
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let snatch_guard: SnatchGuard = self.snatchable_lock.read();
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map_buffer(
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self.raw(),
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&buffer,
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0,
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map_size,
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HostMap::Write,
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&snatch_guard,
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)?
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};
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*buffer.map_state.lock() = resource::BufferMapState::Active {
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ptr,
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range: 0..map_size,
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host: HostMap::Write,
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};
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hal::BufferUses::MAP_WRITE
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} else {
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// buffer needs staging area for initialization only
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let stage_desc = wgt::BufferDescriptor {
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label: Some(Cow::Borrowed(
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"(wgpu internal) initializing unmappable buffer",
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)),
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size: desc.size,
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usage: wgt::BufferUsages::MAP_WRITE | wgt::BufferUsages::COPY_SRC,
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mapped_at_creation: false,
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};
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let stage = self.create_buffer_impl(&stage_desc, true)?;
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let snatch_guard = self.snatchable_lock.read();
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let stage_raw = stage.raw(&snatch_guard).unwrap();
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let mapping = unsafe { self.raw().map_buffer(stage_raw, 0..stage.size) }
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.map_err(DeviceError::from)?;
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assert_eq!(buffer.size % wgt::COPY_BUFFER_ALIGNMENT, 0);
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// Zero initialize memory and then mark both staging and buffer as initialized
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// (it's guaranteed that this is the case by the time the buffer is usable)
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unsafe { std::ptr::write_bytes(mapping.ptr.as_ptr(), 0, buffer.size as usize) };
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buffer.initialization_status.write().drain(0..buffer.size);
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stage.initialization_status.write().drain(0..buffer.size);
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*buffer.map_state.lock() = resource::BufferMapState::Init {
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ptr: mapping.ptr,
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needs_flush: !mapping.is_coherent,
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stage_buffer: stage,
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};
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hal::BufferUses::COPY_DST
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};
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self.trackers
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.lock()
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.buffers
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.insert_single(&buffer, buffer_use);
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Ok(buffer)
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}
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fn create_buffer_impl(
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self: &Arc<Self>,
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desc: &resource::BufferDescriptor,
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transient: bool,
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) -> Result<Arc<Buffer<A>>, resource::CreateBufferError> {
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self.check_is_valid()?;
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