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- /**************************************************************************/
- /* rendering_device_graph.cpp */
- /**************************************************************************/
- /* This file is part of: */
- /* GODOT ENGINE */
- /* https://godotengine.org */
- /**************************************************************************/
- /* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
- /* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
- /* */
- /* Permission is hereby granted, free of charge, to any person obtaining */
- /* a copy of this software and associated documentation files (the */
- /* "Software"), to deal in the Software without restriction, including */
- /* without limitation the rights to use, copy, modify, merge, publish, */
- /* distribute, sublicense, and/or sell copies of the Software, and to */
- /* permit persons to whom the Software is furnished to do so, subject to */
- /* the following conditions: */
- /* */
- /* The above copyright notice and this permission notice shall be */
- /* included in all copies or substantial portions of the Software. */
- /* */
- /* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
- /* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
- /* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. */
- /* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
- /* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
- /* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
- /* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
- /**************************************************************************/
- #include "rendering_device_graph.h"
- #define PRINT_RENDER_GRAPH 0
- #define FORCE_FULL_ACCESS_BITS 0
- #define PRINT_RESOURCE_TRACKER_TOTAL 0
- #define PRINT_COMMAND_RECORDING 0
- RenderingDeviceGraph::RenderingDeviceGraph() {
- driver_honors_barriers = false;
- driver_clears_with_copy_engine = false;
- }
- RenderingDeviceGraph::~RenderingDeviceGraph() {
- }
- bool RenderingDeviceGraph::_is_write_usage(ResourceUsage p_usage) {
- switch (p_usage) {
- case RESOURCE_USAGE_COPY_FROM:
- case RESOURCE_USAGE_RESOLVE_FROM:
- case RESOURCE_USAGE_UNIFORM_BUFFER_READ:
- case RESOURCE_USAGE_INDIRECT_BUFFER_READ:
- case RESOURCE_USAGE_TEXTURE_BUFFER_READ:
- case RESOURCE_USAGE_STORAGE_BUFFER_READ:
- case RESOURCE_USAGE_VERTEX_BUFFER_READ:
- case RESOURCE_USAGE_INDEX_BUFFER_READ:
- case RESOURCE_USAGE_TEXTURE_SAMPLE:
- case RESOURCE_USAGE_STORAGE_IMAGE_READ:
- return false;
- case RESOURCE_USAGE_COPY_TO:
- case RESOURCE_USAGE_RESOLVE_TO:
- case RESOURCE_USAGE_TEXTURE_BUFFER_READ_WRITE:
- case RESOURCE_USAGE_STORAGE_BUFFER_READ_WRITE:
- case RESOURCE_USAGE_STORAGE_IMAGE_READ_WRITE:
- case RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE:
- case RESOURCE_USAGE_ATTACHMENT_DEPTH_STENCIL_READ_WRITE:
- return true;
- default:
- DEV_ASSERT(false && "Invalid resource tracker usage.");
- return false;
- }
- }
- RDD::TextureLayout RenderingDeviceGraph::_usage_to_image_layout(ResourceUsage p_usage) {
- switch (p_usage) {
- case RESOURCE_USAGE_COPY_FROM:
- return RDD::TEXTURE_LAYOUT_COPY_SRC_OPTIMAL;
- case RESOURCE_USAGE_COPY_TO:
- return RDD::TEXTURE_LAYOUT_COPY_DST_OPTIMAL;
- case RESOURCE_USAGE_RESOLVE_FROM:
- return RDD::TEXTURE_LAYOUT_RESOLVE_SRC_OPTIMAL;
- case RESOURCE_USAGE_RESOLVE_TO:
- return RDD::TEXTURE_LAYOUT_RESOLVE_DST_OPTIMAL;
- case RESOURCE_USAGE_TEXTURE_SAMPLE:
- return RDD::TEXTURE_LAYOUT_SHADER_READ_ONLY_OPTIMAL;
- case RESOURCE_USAGE_STORAGE_IMAGE_READ:
- case RESOURCE_USAGE_STORAGE_IMAGE_READ_WRITE:
- return RDD::TEXTURE_LAYOUT_STORAGE_OPTIMAL;
- case RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE:
- return RDD::TEXTURE_LAYOUT_COLOR_ATTACHMENT_OPTIMAL;
- case RESOURCE_USAGE_ATTACHMENT_DEPTH_STENCIL_READ_WRITE:
- return RDD::TEXTURE_LAYOUT_DEPTH_STENCIL_ATTACHMENT_OPTIMAL;
- case RESOURCE_USAGE_NONE:
- return RDD::TEXTURE_LAYOUT_UNDEFINED;
- default:
- DEV_ASSERT(false && "Invalid resource tracker usage or not an image usage.");
- return RDD::TEXTURE_LAYOUT_UNDEFINED;
- }
- }
- RDD::BarrierAccessBits RenderingDeviceGraph::_usage_to_access_bits(ResourceUsage p_usage) {
- #if FORCE_FULL_ACCESS_BITS
- return RDD::BarrierAccessBits(RDD::BARRIER_ACCESS_MEMORY_READ_BIT | RDD::BARRIER_ACCESS_MEMORY_WRITE_BIT);
- #else
- switch (p_usage) {
- case RESOURCE_USAGE_NONE:
- return RDD::BarrierAccessBits(0);
- case RESOURCE_USAGE_COPY_FROM:
- return RDD::BARRIER_ACCESS_COPY_READ_BIT;
- case RESOURCE_USAGE_COPY_TO:
- return RDD::BARRIER_ACCESS_COPY_WRITE_BIT;
- case RESOURCE_USAGE_RESOLVE_FROM:
- return RDD::BARRIER_ACCESS_RESOLVE_READ_BIT;
- case RESOURCE_USAGE_RESOLVE_TO:
- return RDD::BARRIER_ACCESS_RESOLVE_WRITE_BIT;
- case RESOURCE_USAGE_UNIFORM_BUFFER_READ:
- return RDD::BARRIER_ACCESS_UNIFORM_READ_BIT;
- case RESOURCE_USAGE_INDIRECT_BUFFER_READ:
- return RDD::BARRIER_ACCESS_INDIRECT_COMMAND_READ_BIT;
- case RESOURCE_USAGE_STORAGE_BUFFER_READ:
- case RESOURCE_USAGE_STORAGE_IMAGE_READ:
- case RESOURCE_USAGE_TEXTURE_BUFFER_READ:
- case RESOURCE_USAGE_TEXTURE_SAMPLE:
- return RDD::BARRIER_ACCESS_SHADER_READ_BIT;
- case RESOURCE_USAGE_TEXTURE_BUFFER_READ_WRITE:
- case RESOURCE_USAGE_STORAGE_BUFFER_READ_WRITE:
- case RESOURCE_USAGE_STORAGE_IMAGE_READ_WRITE:
- return RDD::BarrierAccessBits(RDD::BARRIER_ACCESS_SHADER_READ_BIT | RDD::BARRIER_ACCESS_SHADER_WRITE_BIT);
- case RESOURCE_USAGE_VERTEX_BUFFER_READ:
- return RDD::BARRIER_ACCESS_VERTEX_ATTRIBUTE_READ_BIT;
- case RESOURCE_USAGE_INDEX_BUFFER_READ:
- return RDD::BARRIER_ACCESS_INDEX_READ_BIT;
- case RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE:
- return RDD::BarrierAccessBits(RDD::BARRIER_ACCESS_COLOR_ATTACHMENT_READ_BIT | RDD::BARRIER_ACCESS_COLOR_ATTACHMENT_WRITE_BIT);
- case RESOURCE_USAGE_ATTACHMENT_DEPTH_STENCIL_READ_WRITE:
- return RDD::BarrierAccessBits(RDD::BARRIER_ACCESS_DEPTH_STENCIL_ATTACHMENT_READ_BIT | RDD::BARRIER_ACCESS_DEPTH_STENCIL_ATTACHMENT_WRITE_BIT);
- default:
- DEV_ASSERT(false && "Invalid usage.");
- return RDD::BarrierAccessBits(0);
- }
- #endif
- }
- bool RenderingDeviceGraph::_check_command_intersection(ResourceTracker *p_resource_tracker, int32_t p_previous_command_index, int32_t p_command_index) const {
- if (p_resource_tracker->usage != RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE && p_resource_tracker->usage != RESOURCE_USAGE_ATTACHMENT_DEPTH_STENCIL_READ_WRITE) {
- // We don't check possible intersections for usages that aren't consecutive color or depth writes.
- return true;
- }
- const uint32_t previous_command_data_offset = command_data_offsets[p_previous_command_index];
- const uint32_t current_command_data_offset = command_data_offsets[p_command_index];
- const RecordedDrawListCommand &previous_draw_list_command = *reinterpret_cast<const RecordedDrawListCommand *>(&command_data[previous_command_data_offset]);
- const RecordedDrawListCommand ¤t_draw_list_command = *reinterpret_cast<const RecordedDrawListCommand *>(&command_data[current_command_data_offset]);
- if (previous_draw_list_command.type != RecordedCommand::TYPE_DRAW_LIST || current_draw_list_command.type != RecordedCommand::TYPE_DRAW_LIST) {
- // We don't check possible intersections if both commands aren't draw lists.
- return true;
- }
- // We check if the region used by both draw lists have an intersection.
- return previous_draw_list_command.region.intersects(current_draw_list_command.region);
- }
- bool RenderingDeviceGraph::_check_command_partial_coverage(ResourceTracker *p_resource_tracker, int32_t p_command_index) const {
- if (p_resource_tracker->usage != RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE && p_resource_tracker->usage != RESOURCE_USAGE_ATTACHMENT_DEPTH_STENCIL_READ_WRITE) {
- // We don't check for partial coverage in usages that aren't attachment writes.
- return false;
- }
- const uint32_t command_data_offset = command_data_offsets[p_command_index];
- const RecordedDrawListCommand &draw_list_command = *reinterpret_cast<const RecordedDrawListCommand *>(&command_data[command_data_offset]);
- if (draw_list_command.type != RecordedCommand::TYPE_DRAW_LIST) {
- // We don't check for partial coverage on commands that aren't draw lists.
- return false;
- }
- Rect2i texture_region(Point2i(0, 0), p_resource_tracker->texture_size);
- return !draw_list_command.region.encloses(texture_region);
- }
- int32_t RenderingDeviceGraph::_add_to_command_list(int32_t p_command_index, int32_t p_list_index) {
- DEV_ASSERT(p_command_index < int32_t(command_count));
- DEV_ASSERT(p_list_index < int32_t(command_list_nodes.size()));
- int32_t next_index = int32_t(command_list_nodes.size());
- command_list_nodes.resize(next_index + 1);
- RecordedCommandListNode &new_node = command_list_nodes[next_index];
- new_node.command_index = p_command_index;
- new_node.next_list_index = p_list_index;
- return next_index;
- }
- void RenderingDeviceGraph::_add_adjacent_command(int32_t p_previous_command_index, int32_t p_command_index, RecordedCommand *r_command) {
- const uint32_t previous_command_data_offset = command_data_offsets[p_previous_command_index];
- RecordedCommand &previous_command = *reinterpret_cast<RecordedCommand *>(&command_data[previous_command_data_offset]);
- previous_command.adjacent_command_list_index = _add_to_command_list(p_command_index, previous_command.adjacent_command_list_index);
- previous_command.next_stages = previous_command.next_stages | r_command->self_stages;
- r_command->previous_stages = r_command->previous_stages | previous_command.self_stages;
- }
- int32_t RenderingDeviceGraph::_add_to_slice_read_list(int32_t p_command_index, Rect2i p_subresources, int32_t p_list_index) {
- DEV_ASSERT(p_command_index < int32_t(command_count));
- DEV_ASSERT(p_list_index < int32_t(read_slice_list_nodes.size()));
- int32_t next_index = int32_t(read_slice_list_nodes.size());
- read_slice_list_nodes.resize(next_index + 1);
- RecordedSliceListNode &new_node = read_slice_list_nodes[next_index];
- new_node.command_index = p_command_index;
- new_node.next_list_index = p_list_index;
- new_node.subresources = p_subresources;
- return next_index;
- }
- int32_t RenderingDeviceGraph::_add_to_write_list(int32_t p_command_index, Rect2i p_subresources, int32_t p_list_index, bool p_partial_coverage) {
- DEV_ASSERT(p_command_index < int32_t(command_count));
- DEV_ASSERT(p_list_index < int32_t(write_slice_list_nodes.size()));
- int32_t next_index = int32_t(write_slice_list_nodes.size());
- write_slice_list_nodes.resize(next_index + 1);
- RecordedSliceListNode &new_node = write_slice_list_nodes[next_index];
- new_node.command_index = p_command_index;
- new_node.next_list_index = p_list_index;
- new_node.subresources = p_subresources;
- new_node.partial_coverage = p_partial_coverage;
- return next_index;
- }
- RenderingDeviceGraph::RecordedCommand *RenderingDeviceGraph::_allocate_command(uint32_t p_command_size, int32_t &r_command_index) {
- uint32_t command_data_offset = command_data.size();
- command_data_offsets.push_back(command_data_offset);
- command_data.resize(command_data_offset + p_command_size);
- r_command_index = command_count++;
- RecordedCommand *new_command = reinterpret_cast<RecordedCommand *>(&command_data[command_data_offset]);
- *new_command = RecordedCommand();
- return new_command;
- }
- RenderingDeviceGraph::DrawListInstruction *RenderingDeviceGraph::_allocate_draw_list_instruction(uint32_t p_instruction_size) {
- uint32_t draw_list_data_offset = draw_instruction_list.data.size();
- draw_instruction_list.data.resize(draw_list_data_offset + p_instruction_size);
- return reinterpret_cast<DrawListInstruction *>(&draw_instruction_list.data[draw_list_data_offset]);
- }
- RenderingDeviceGraph::ComputeListInstruction *RenderingDeviceGraph::_allocate_compute_list_instruction(uint32_t p_instruction_size) {
- uint32_t compute_list_data_offset = compute_instruction_list.data.size();
- compute_instruction_list.data.resize(compute_list_data_offset + p_instruction_size);
- return reinterpret_cast<ComputeListInstruction *>(&compute_instruction_list.data[compute_list_data_offset]);
- }
- void RenderingDeviceGraph::_check_discardable_attachment_dependency(ResourceTracker *p_resource_tracker, int32_t p_previous_command_index, int32_t p_command_index) {
- if (!p_resource_tracker->is_discardable) {
- return;
- }
- // Check if the command is a a draw list that clears the attachment completely. If it is, we don't need to modify the previous draw list.
- uint32_t command_offset = command_data_offsets[p_command_index];
- RecordedDrawListCommand *draw_list_command = reinterpret_cast<RecordedDrawListCommand *>(&command_data[command_offset]);
- if (draw_list_command->type == RecordedCommand::TYPE_DRAW_LIST) {
- ResourceTracker **trackers = draw_list_command->trackers();
- for (uint32_t i = 0; i < draw_list_command->trackers_count; i++) {
- if (trackers[i] == p_resource_tracker && draw_list_command->load_ops()[i] == RDD::ATTACHMENT_LOAD_OP_CLEAR) {
- return;
- }
- }
- }
- // Check if the previous command is a draw list.
- uint32_t previous_command_offset = command_data_offsets[p_previous_command_index];
- RecordedDrawListCommand *previous_draw_list_command = reinterpret_cast<RecordedDrawListCommand *>(&command_data[previous_command_offset]);
- if (previous_draw_list_command->type != RecordedCommand::TYPE_DRAW_LIST) {
- return;
- }
- // Search for the tracker inside the draw list command and modify the store operation accordingly.
- ResourceTracker **trackers = previous_draw_list_command->trackers();
- for (uint32_t i = 0; i < previous_draw_list_command->trackers_count; i++) {
- if (trackers[i] == p_resource_tracker) {
- previous_draw_list_command->store_ops()[i] = RDD::ATTACHMENT_STORE_OP_STORE;
- return;
- }
- }
- }
- void RenderingDeviceGraph::_add_command_to_graph(ResourceTracker **p_resource_trackers, ResourceUsage *p_resource_usages, uint32_t p_resource_count, int32_t p_command_index, RecordedCommand *r_command) {
- // Assign the next stages derived from the stages the command requires first.
- r_command->next_stages = r_command->self_stages;
- if (command_label_index >= 0) {
- // If a label is active, tag the command with the label.
- r_command->label_index = command_label_index;
- }
- if (r_command->type == RecordedCommand::TYPE_CAPTURE_TIMESTAMP) {
- // All previous commands starting from the previous timestamp should be adjacent to this command.
- int32_t start_command_index = uint32_t(MAX(command_timestamp_index, 0));
- for (int32_t i = start_command_index; i < p_command_index; i++) {
- _add_adjacent_command(i, p_command_index, r_command);
- }
- // Make this command the new active timestamp command.
- command_timestamp_index = p_command_index;
- } else if (command_timestamp_index >= 0) {
- // Timestamp command should be adjacent to this command.
- _add_adjacent_command(command_timestamp_index, p_command_index, r_command);
- }
- if (command_synchronization_pending) {
- // All previous commands should be adjacent to this command.
- int32_t start_command_index = uint32_t(MAX(command_synchronization_index, 0));
- for (int32_t i = start_command_index; i < p_command_index; i++) {
- _add_adjacent_command(i, p_command_index, r_command);
- }
- command_synchronization_index = p_command_index;
- command_synchronization_pending = false;
- } else if (command_synchronization_index >= 0) {
- // Synchronization command should be adjacent to this command.
- _add_adjacent_command(command_synchronization_index, p_command_index, r_command);
- }
- for (uint32_t i = 0; i < p_resource_count; i++) {
- ResourceTracker *resource_tracker = p_resource_trackers[i];
- DEV_ASSERT(resource_tracker != nullptr);
- resource_tracker->reset_if_outdated(tracking_frame);
- const RDD::TextureSubresourceRange &subresources = resource_tracker->texture_subresources;
- const Rect2i resource_tracker_rect(subresources.base_mipmap, subresources.base_layer, subresources.mipmap_count, subresources.layer_count);
- Rect2i search_tracker_rect = resource_tracker_rect;
- ResourceUsage new_resource_usage = p_resource_usages[i];
- bool write_usage = _is_write_usage(new_resource_usage);
- BitField<RDD::BarrierAccessBits> new_usage_access = _usage_to_access_bits(new_resource_usage);
- bool is_resource_a_slice = resource_tracker->parent != nullptr;
- if (is_resource_a_slice) {
- // This resource depends on a parent resource.
- resource_tracker->parent->reset_if_outdated(tracking_frame);
- if (resource_tracker->texture_slice_command_index != p_command_index) {
- // Indicate this slice has been used by this command.
- resource_tracker->texture_slice_command_index = p_command_index;
- }
- if (resource_tracker->parent->usage == RESOURCE_USAGE_NONE) {
- if (resource_tracker->parent->texture_driver_id.id != 0) {
- // If the resource is a texture, we transition it entirely to the layout determined by the first slice that uses it.
- _add_texture_barrier_to_command(resource_tracker->parent->texture_driver_id, RDD::BarrierAccessBits(0), new_usage_access, RDG::RESOURCE_USAGE_NONE, new_resource_usage, resource_tracker->parent->texture_subresources, command_normalization_barriers, r_command->normalization_barrier_index, r_command->normalization_barrier_count);
- }
- // If the parent hasn't been used yet, we assign the usage of the slice to the entire resource.
- resource_tracker->parent->usage = new_resource_usage;
- // Also assign the usage to the slice and consider it a write operation. Consider the parent's current usage access as its own.
- resource_tracker->usage = new_resource_usage;
- resource_tracker->usage_access = resource_tracker->parent->usage_access;
- write_usage = true;
- // Indicate the area that should be tracked is the entire resource.
- const RDD::TextureSubresourceRange &parent_subresources = resource_tracker->parent->texture_subresources;
- search_tracker_rect = Rect2i(parent_subresources.base_mipmap, parent_subresources.base_layer, parent_subresources.mipmap_count, parent_subresources.layer_count);
- } else if (resource_tracker->in_parent_dirty_list) {
- if (resource_tracker->parent->usage == new_resource_usage) {
- // The slice will be transitioned to the resource of the parent and can be deleted from the dirty list.
- ResourceTracker *previous_tracker = nullptr;
- ResourceTracker *current_tracker = resource_tracker->parent->dirty_shared_list;
- bool initialized_dirty_rect = false;
- while (current_tracker != nullptr) {
- current_tracker->reset_if_outdated(tracking_frame);
- if (current_tracker == resource_tracker) {
- current_tracker->in_parent_dirty_list = false;
- if (previous_tracker != nullptr) {
- previous_tracker->next_shared = current_tracker->next_shared;
- } else {
- resource_tracker->parent->dirty_shared_list = current_tracker->next_shared;
- }
- current_tracker = current_tracker->next_shared;
- } else {
- if (initialized_dirty_rect) {
- resource_tracker->parent->texture_slice_or_dirty_rect = resource_tracker->parent->texture_slice_or_dirty_rect.merge(current_tracker->texture_slice_or_dirty_rect);
- } else {
- resource_tracker->parent->texture_slice_or_dirty_rect = current_tracker->texture_slice_or_dirty_rect;
- initialized_dirty_rect = true;
- }
- previous_tracker = current_tracker;
- current_tracker = current_tracker->next_shared;
- }
- }
- }
- } else {
- if (resource_tracker->parent->dirty_shared_list != nullptr && resource_tracker->parent->texture_slice_or_dirty_rect.intersects(resource_tracker->texture_slice_or_dirty_rect)) {
- // There's an intersection with the current dirty area of the parent and the slice. We must verify if the intersection is against a slice
- // that was used in this command or not. Any slice we can find that wasn't used by this command must be reverted to the layout of the parent.
- ResourceTracker *previous_tracker = nullptr;
- ResourceTracker *current_tracker = resource_tracker->parent->dirty_shared_list;
- bool initialized_dirty_rect = false;
- while (current_tracker != nullptr) {
- current_tracker->reset_if_outdated(tracking_frame);
- if (current_tracker->texture_slice_or_dirty_rect.intersects(resource_tracker->texture_slice_or_dirty_rect)) {
- if (current_tracker->command_frame == tracking_frame && current_tracker->texture_slice_command_index == p_command_index) {
- ERR_FAIL_MSG("Texture slices that overlap can't be used in the same command.");
- } else {
- // Delete the slice from the dirty list and revert it to the usage of the parent.
- if (current_tracker->texture_driver_id.id != 0) {
- _add_texture_barrier_to_command(current_tracker->texture_driver_id, current_tracker->usage_access, new_usage_access, current_tracker->usage, resource_tracker->parent->usage, current_tracker->texture_subresources, command_normalization_barriers, r_command->normalization_barrier_index, r_command->normalization_barrier_count);
- // Merge the area of the slice with the current tracking area of the command and indicate it's a write usage as well.
- search_tracker_rect = search_tracker_rect.merge(current_tracker->texture_slice_or_dirty_rect);
- write_usage = true;
- }
- current_tracker->in_parent_dirty_list = false;
- if (previous_tracker != nullptr) {
- previous_tracker->next_shared = current_tracker->next_shared;
- } else {
- resource_tracker->parent->dirty_shared_list = current_tracker->next_shared;
- }
- current_tracker = current_tracker->next_shared;
- }
- } else {
- // Recalculate the dirty rect of the parent so the deleted slices are excluded.
- if (initialized_dirty_rect) {
- resource_tracker->parent->texture_slice_or_dirty_rect = resource_tracker->parent->texture_slice_or_dirty_rect.merge(current_tracker->texture_slice_or_dirty_rect);
- } else {
- resource_tracker->parent->texture_slice_or_dirty_rect = current_tracker->texture_slice_or_dirty_rect;
- initialized_dirty_rect = true;
- }
- previous_tracker = current_tracker;
- current_tracker = current_tracker->next_shared;
- }
- }
- }
- // If it wasn't in the list, assume the usage is the same as the parent. Consider the parent's current usage access as its own.
- resource_tracker->usage = resource_tracker->parent->usage;
- resource_tracker->usage_access = resource_tracker->parent->usage_access;
- if (resource_tracker->usage != new_resource_usage) {
- // Insert to the dirty list if the requested usage is different.
- resource_tracker->next_shared = resource_tracker->parent->dirty_shared_list;
- resource_tracker->parent->dirty_shared_list = resource_tracker;
- resource_tracker->in_parent_dirty_list = true;
- if (resource_tracker->parent->dirty_shared_list != nullptr) {
- resource_tracker->parent->texture_slice_or_dirty_rect = resource_tracker->parent->texture_slice_or_dirty_rect.merge(resource_tracker->texture_slice_or_dirty_rect);
- } else {
- resource_tracker->parent->texture_slice_or_dirty_rect = resource_tracker->texture_slice_or_dirty_rect;
- }
- }
- }
- } else {
- ResourceTracker *current_tracker = resource_tracker->dirty_shared_list;
- if (current_tracker != nullptr) {
- // Consider the usage as write if we must transition any of the slices.
- write_usage = true;
- }
- while (current_tracker != nullptr) {
- current_tracker->reset_if_outdated(tracking_frame);
- if (current_tracker->texture_driver_id.id != 0) {
- // Transition all slices to the layout of the parent resource.
- _add_texture_barrier_to_command(current_tracker->texture_driver_id, current_tracker->usage_access, new_usage_access, current_tracker->usage, resource_tracker->usage, current_tracker->texture_subresources, command_normalization_barriers, r_command->normalization_barrier_index, r_command->normalization_barrier_count);
- }
- current_tracker->in_parent_dirty_list = false;
- current_tracker = current_tracker->next_shared;
- }
- resource_tracker->dirty_shared_list = nullptr;
- }
- // Use the resource's parent tracker directly for all search operations.
- bool resource_has_parent = resource_tracker->parent != nullptr;
- ResourceTracker *search_tracker = resource_has_parent ? resource_tracker->parent : resource_tracker;
- bool different_usage = resource_tracker->usage != new_resource_usage;
- bool write_usage_after_write = (write_usage && search_tracker->write_command_or_list_index >= 0);
- if (different_usage || write_usage_after_write) {
- // A barrier must be pushed if the usage is different of it's a write usage and there was already a command that wrote to this resource previously.
- if (resource_tracker->texture_driver_id.id != 0) {
- if (resource_tracker->usage_access.is_empty()) {
- // FIXME: If the tracker does not know the previous type of usage, assume the generic memory write one.
- // Tracking access bits across texture slices can be tricky, so this failsafe can be removed once that's improved.
- resource_tracker->usage_access = RDD::BARRIER_ACCESS_MEMORY_WRITE_BIT;
- }
- _add_texture_barrier_to_command(resource_tracker->texture_driver_id, resource_tracker->usage_access, new_usage_access, resource_tracker->usage, new_resource_usage, resource_tracker->texture_subresources, command_transition_barriers, r_command->transition_barrier_index, r_command->transition_barrier_count);
- } else if (resource_tracker->buffer_driver_id.id != 0) {
- #if USE_BUFFER_BARRIERS
- _add_buffer_barrier_to_command(resource_tracker->buffer_driver_id, resource_tracker->usage_access, new_usage_access, r_command->buffer_barrier_index, r_command->buffer_barrier_count);
- #endif
- // Memory barriers are pushed regardless of buffer barriers being used or not.
- r_command->memory_barrier.src_access = r_command->memory_barrier.src_access | resource_tracker->usage_access;
- r_command->memory_barrier.dst_access = r_command->memory_barrier.dst_access | new_usage_access;
- } else {
- DEV_ASSERT(false && "Resource tracker does not contain a valid buffer or texture ID.");
- }
- }
- // Always update the access of the tracker according to the latest usage.
- resource_tracker->usage_access = new_usage_access;
- // Always accumulate the stages of the tracker with the commands that use it.
- search_tracker->current_frame_stages = search_tracker->current_frame_stages | r_command->self_stages;
- if (!search_tracker->previous_frame_stages.is_empty()) {
- // Add to the command the stages the tracker was used on in the previous frame.
- r_command->previous_stages = r_command->previous_stages | search_tracker->previous_frame_stages;
- search_tracker->previous_frame_stages.clear();
- }
- if (different_usage) {
- // Even if the usage of the resource isn't a write usage explicitly, a different usage implies a transition and it should therefore be considered a write.
- // In the case of buffers however, this is not exactly necessary if the driver does not consider different buffer usages as different states.
- write_usage = write_usage || bool(resource_tracker->texture_driver_id) || driver_buffers_require_transitions;
- resource_tracker->usage = new_resource_usage;
- }
- bool write_usage_has_partial_coverage = !different_usage && _check_command_partial_coverage(resource_tracker, p_command_index);
- if (search_tracker->write_command_or_list_index >= 0) {
- if (search_tracker->write_command_list_enabled) {
- // Make this command adjacent to any commands that wrote to this resource and intersect with the slice if it applies.
- // For buffers or textures that never use slices, this list will only be one element long at most.
- int32_t previous_write_list_index = -1;
- int32_t write_list_index = search_tracker->write_command_or_list_index;
- while (write_list_index >= 0) {
- const RecordedSliceListNode &write_list_node = write_slice_list_nodes[write_list_index];
- if (!resource_has_parent || search_tracker_rect.intersects(write_list_node.subresources)) {
- if (write_list_node.command_index == p_command_index) {
- ERR_FAIL_COND_MSG(!resource_has_parent, "Command can't have itself as a dependency.");
- } else if (!write_list_node.partial_coverage || _check_command_intersection(resource_tracker, write_list_node.command_index, p_command_index)) {
- _check_discardable_attachment_dependency(search_tracker, write_list_node.command_index, p_command_index);
- // Command is dependent on this command. Add this command to the adjacency list of the write command.
- _add_adjacent_command(write_list_node.command_index, p_command_index, r_command);
- if (resource_has_parent && write_usage && search_tracker_rect.encloses(write_list_node.subresources) && !write_usage_has_partial_coverage) {
- // Eliminate redundant writes from the list.
- if (previous_write_list_index >= 0) {
- RecordedSliceListNode &previous_list_node = write_slice_list_nodes[previous_write_list_index];
- previous_list_node.next_list_index = write_list_node.next_list_index;
- } else {
- search_tracker->write_command_or_list_index = write_list_node.next_list_index;
- }
- write_list_index = write_list_node.next_list_index;
- continue;
- }
- }
- }
- previous_write_list_index = write_list_index;
- write_list_index = write_list_node.next_list_index;
- }
- } else {
- // The index is just the latest command index that wrote to the resource.
- if (search_tracker->write_command_or_list_index == p_command_index) {
- ERR_FAIL_MSG("Command can't have itself as a dependency.");
- } else {
- _check_discardable_attachment_dependency(search_tracker, search_tracker->write_command_or_list_index, p_command_index);
- _add_adjacent_command(search_tracker->write_command_or_list_index, p_command_index, r_command);
- }
- }
- }
- if (write_usage) {
- bool use_write_list = resource_has_parent || write_usage_has_partial_coverage;
- if (use_write_list) {
- if (!search_tracker->write_command_list_enabled && search_tracker->write_command_or_list_index >= 0) {
- // Write command list was not being used but there was a write command recorded. Add a new node with the entire parent resource's subresources and the recorded command index to the list.
- const RDD::TextureSubresourceRange &tracker_subresources = search_tracker->texture_subresources;
- Rect2i tracker_rect(tracker_subresources.base_mipmap, tracker_subresources.base_layer, tracker_subresources.mipmap_count, tracker_subresources.layer_count);
- search_tracker->write_command_or_list_index = _add_to_write_list(search_tracker->write_command_or_list_index, tracker_rect, -1, false);
- }
- search_tracker->write_command_or_list_index = _add_to_write_list(p_command_index, search_tracker_rect, search_tracker->write_command_or_list_index, write_usage_has_partial_coverage);
- search_tracker->write_command_list_enabled = true;
- } else {
- search_tracker->write_command_or_list_index = p_command_index;
- search_tracker->write_command_list_enabled = false;
- }
- // We add this command to the adjacency list of all commands that were reading from the entire resource.
- int32_t read_full_command_list_index = search_tracker->read_full_command_list_index;
- while (read_full_command_list_index >= 0) {
- int32_t read_full_command_index = command_list_nodes[read_full_command_list_index].command_index;
- int32_t read_full_next_index = command_list_nodes[read_full_command_list_index].next_list_index;
- if (read_full_command_index == p_command_index) {
- if (!resource_has_parent) {
- // Only slices are allowed to be in different usages in the same command as they are guaranteed to have no overlap in the same command.
- ERR_FAIL_MSG("Command can't have itself as a dependency.");
- }
- } else {
- // Add this command to the adjacency list of each command that was reading this resource.
- _add_adjacent_command(read_full_command_index, p_command_index, r_command);
- }
- read_full_command_list_index = read_full_next_index;
- }
- if (!use_write_list) {
- // Clear the full list if this resource is not a slice.
- search_tracker->read_full_command_list_index = -1;
- }
- // We add this command to the adjacency list of all commands that were reading from resource slices.
- int32_t previous_slice_command_list_index = -1;
- int32_t read_slice_command_list_index = search_tracker->read_slice_command_list_index;
- while (read_slice_command_list_index >= 0) {
- const RecordedSliceListNode &read_list_node = read_slice_list_nodes[read_slice_command_list_index];
- if (!use_write_list || search_tracker_rect.encloses(read_list_node.subresources)) {
- if (previous_slice_command_list_index >= 0) {
- // Erase this element and connect the previous one to the next element.
- read_slice_list_nodes[previous_slice_command_list_index].next_list_index = read_list_node.next_list_index;
- } else {
- // Erase this element from the head of the list.
- DEV_ASSERT(search_tracker->read_slice_command_list_index == read_slice_command_list_index);
- search_tracker->read_slice_command_list_index = read_list_node.next_list_index;
- }
- // Advance to the next element.
- read_slice_command_list_index = read_list_node.next_list_index;
- } else {
- previous_slice_command_list_index = read_slice_command_list_index;
- read_slice_command_list_index = read_list_node.next_list_index;
- }
- if (!resource_has_parent || search_tracker_rect.intersects(read_list_node.subresources)) {
- // Add this command to the adjacency list of each command that was reading this resource.
- // We only add the dependency if there's an intersection between slices or this resource isn't a slice.
- _add_adjacent_command(read_list_node.command_index, p_command_index, r_command);
- }
- }
- } else if (resource_has_parent) {
- // We add a read dependency to the tracker to indicate this command reads from the resource slice.
- search_tracker->read_slice_command_list_index = _add_to_slice_read_list(p_command_index, resource_tracker_rect, search_tracker->read_slice_command_list_index);
- } else {
- // We add a read dependency to the tracker to indicate this command reads from the entire resource.
- search_tracker->read_full_command_list_index = _add_to_command_list(p_command_index, search_tracker->read_full_command_list_index);
- }
- }
- }
- void RenderingDeviceGraph::_add_texture_barrier_to_command(RDD::TextureID p_texture_id, BitField<RDD::BarrierAccessBits> p_src_access, BitField<RDD::BarrierAccessBits> p_dst_access, ResourceUsage p_prev_usage, ResourceUsage p_next_usage, RDD::TextureSubresourceRange p_subresources, LocalVector<RDD::TextureBarrier> &r_barrier_vector, int32_t &r_barrier_index, int32_t &r_barrier_count) {
- if (!driver_honors_barriers) {
- return;
- }
- if (r_barrier_index < 0) {
- r_barrier_index = r_barrier_vector.size();
- }
- RDD::TextureBarrier texture_barrier;
- texture_barrier.texture = p_texture_id;
- texture_barrier.src_access = p_src_access;
- texture_barrier.dst_access = p_dst_access;
- texture_barrier.prev_layout = _usage_to_image_layout(p_prev_usage);
- texture_barrier.next_layout = _usage_to_image_layout(p_next_usage);
- texture_barrier.subresources = p_subresources;
- r_barrier_vector.push_back(texture_barrier);
- r_barrier_count++;
- }
- #if USE_BUFFER_BARRIERS
- void RenderingDeviceGraph::_add_buffer_barrier_to_command(RDD::BufferID p_buffer_id, BitField<RDD::BarrierAccessBits> p_src_access, BitField<RDD::BarrierAccessBits> p_dst_access, int32_t &r_barrier_index, int32_t &r_barrier_count) {
- if (!driver_honors_barriers) {
- return;
- }
- if (r_barrier_index < 0) {
- r_barrier_index = command_buffer_barriers.size();
- }
- RDD::BufferBarrier buffer_barrier;
- buffer_barrier.buffer = p_buffer_id;
- buffer_barrier.src_access = p_src_access;
- buffer_barrier.dst_access = p_dst_access;
- buffer_barrier.offset = 0;
- buffer_barrier.size = RDD::BUFFER_WHOLE_SIZE;
- command_buffer_barriers.push_back(buffer_barrier);
- r_barrier_count++;
- }
- #endif
- void RenderingDeviceGraph::_run_compute_list_command(RDD::CommandBufferID p_command_buffer, const uint8_t *p_instruction_data, uint32_t p_instruction_data_size) {
- uint32_t instruction_data_cursor = 0;
- while (instruction_data_cursor < p_instruction_data_size) {
- DEV_ASSERT((instruction_data_cursor + sizeof(ComputeListInstruction)) <= p_instruction_data_size);
- const ComputeListInstruction *instruction = reinterpret_cast<const ComputeListInstruction *>(&p_instruction_data[instruction_data_cursor]);
- switch (instruction->type) {
- case ComputeListInstruction::TYPE_BIND_PIPELINE: {
- const ComputeListBindPipelineInstruction *bind_pipeline_instruction = reinterpret_cast<const ComputeListBindPipelineInstruction *>(instruction);
- driver->command_bind_compute_pipeline(p_command_buffer, bind_pipeline_instruction->pipeline);
- instruction_data_cursor += sizeof(ComputeListBindPipelineInstruction);
- } break;
- case ComputeListInstruction::TYPE_BIND_UNIFORM_SETS: {
- const ComputeListBindUniformSetsInstruction *bind_uniform_sets_instruction = reinterpret_cast<const ComputeListBindUniformSetsInstruction *>(instruction);
- driver->command_bind_compute_uniform_sets(p_command_buffer, VectorView<RDD::UniformSetID>(bind_uniform_sets_instruction->uniform_set_ids(), bind_uniform_sets_instruction->set_count), bind_uniform_sets_instruction->shader, bind_uniform_sets_instruction->first_set_index, bind_uniform_sets_instruction->set_count);
- instruction_data_cursor += sizeof(ComputeListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * bind_uniform_sets_instruction->set_count;
- } break;
- case ComputeListInstruction::TYPE_DISPATCH: {
- const ComputeListDispatchInstruction *dispatch_instruction = reinterpret_cast<const ComputeListDispatchInstruction *>(instruction);
- driver->command_compute_dispatch(p_command_buffer, dispatch_instruction->x_groups, dispatch_instruction->y_groups, dispatch_instruction->z_groups);
- instruction_data_cursor += sizeof(ComputeListDispatchInstruction);
- } break;
- case ComputeListInstruction::TYPE_DISPATCH_INDIRECT: {
- const ComputeListDispatchIndirectInstruction *dispatch_indirect_instruction = reinterpret_cast<const ComputeListDispatchIndirectInstruction *>(instruction);
- driver->command_compute_dispatch_indirect(p_command_buffer, dispatch_indirect_instruction->buffer, dispatch_indirect_instruction->offset);
- instruction_data_cursor += sizeof(ComputeListDispatchIndirectInstruction);
- } break;
- case ComputeListInstruction::TYPE_SET_PUSH_CONSTANT: {
- const ComputeListSetPushConstantInstruction *set_push_constant_instruction = reinterpret_cast<const ComputeListSetPushConstantInstruction *>(instruction);
- const VectorView push_constant_data_view(reinterpret_cast<const uint32_t *>(set_push_constant_instruction->data()), set_push_constant_instruction->size / sizeof(uint32_t));
- driver->command_bind_push_constants(p_command_buffer, set_push_constant_instruction->shader, 0, push_constant_data_view);
- instruction_data_cursor += sizeof(ComputeListSetPushConstantInstruction);
- instruction_data_cursor += set_push_constant_instruction->size;
- } break;
- case ComputeListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE: {
- const ComputeListUniformSetPrepareForUseInstruction *uniform_set_prepare_for_use_instruction = reinterpret_cast<const ComputeListUniformSetPrepareForUseInstruction *>(instruction);
- driver->command_uniform_set_prepare_for_use(p_command_buffer, uniform_set_prepare_for_use_instruction->uniform_set, uniform_set_prepare_for_use_instruction->shader, uniform_set_prepare_for_use_instruction->set_index);
- instruction_data_cursor += sizeof(ComputeListUniformSetPrepareForUseInstruction);
- } break;
- default:
- DEV_ASSERT(false && "Unknown compute list instruction type.");
- return;
- }
- }
- }
- void RenderingDeviceGraph::_get_draw_list_render_pass_and_framebuffer(const RecordedDrawListCommand *p_draw_list_command, RDD::RenderPassID &r_render_pass, RDD::FramebufferID &r_framebuffer) {
- DEV_ASSERT(p_draw_list_command->trackers_count <= 21 && "Max number of attachments that can be encoded into the key.");
- // Build a unique key from the load and store ops for each attachment.
- const RDD::AttachmentLoadOp *load_ops = p_draw_list_command->load_ops();
- const RDD::AttachmentStoreOp *store_ops = p_draw_list_command->store_ops();
- uint64_t key = 0;
- for (uint32_t i = 0; i < p_draw_list_command->trackers_count; i++) {
- key |= uint64_t(load_ops[i]) << (i * 3);
- key |= uint64_t(store_ops[i]) << (i * 3 + 2);
- }
- // Check the storage map if the render pass and the framebuffer needs to be created.
- FramebufferCache *framebuffer_cache = p_draw_list_command->framebuffer_cache;
- HashMap<uint64_t, FramebufferStorage>::Iterator it = framebuffer_cache->storage_map.find(key);
- if (it == framebuffer_cache->storage_map.end()) {
- FramebufferStorage storage;
- VectorView<RDD::AttachmentLoadOp> load_ops_view(load_ops, p_draw_list_command->trackers_count);
- VectorView<RDD::AttachmentStoreOp> store_ops_view(store_ops, p_draw_list_command->trackers_count);
- storage.render_pass = render_pass_creation_function(driver, load_ops_view, store_ops_view, framebuffer_cache->render_pass_creation_user_data);
- ERR_FAIL_COND(!storage.render_pass);
- storage.framebuffer = driver->framebuffer_create(storage.render_pass, framebuffer_cache->textures, framebuffer_cache->width, framebuffer_cache->height);
- ERR_FAIL_COND(!storage.framebuffer);
- it = framebuffer_cache->storage_map.insert(key, storage);
- }
- r_render_pass = it->value.render_pass;
- r_framebuffer = it->value.framebuffer;
- }
- void RenderingDeviceGraph::_run_draw_list_command(RDD::CommandBufferID p_command_buffer, const uint8_t *p_instruction_data, uint32_t p_instruction_data_size) {
- uint32_t instruction_data_cursor = 0;
- while (instruction_data_cursor < p_instruction_data_size) {
- DEV_ASSERT((instruction_data_cursor + sizeof(DrawListInstruction)) <= p_instruction_data_size);
- const DrawListInstruction *instruction = reinterpret_cast<const DrawListInstruction *>(&p_instruction_data[instruction_data_cursor]);
- switch (instruction->type) {
- case DrawListInstruction::TYPE_BIND_INDEX_BUFFER: {
- const DrawListBindIndexBufferInstruction *bind_index_buffer_instruction = reinterpret_cast<const DrawListBindIndexBufferInstruction *>(instruction);
- driver->command_render_bind_index_buffer(p_command_buffer, bind_index_buffer_instruction->buffer, bind_index_buffer_instruction->format, bind_index_buffer_instruction->offset);
- instruction_data_cursor += sizeof(DrawListBindIndexBufferInstruction);
- } break;
- case DrawListInstruction::TYPE_BIND_PIPELINE: {
- const DrawListBindPipelineInstruction *bind_pipeline_instruction = reinterpret_cast<const DrawListBindPipelineInstruction *>(instruction);
- driver->command_bind_render_pipeline(p_command_buffer, bind_pipeline_instruction->pipeline);
- instruction_data_cursor += sizeof(DrawListBindPipelineInstruction);
- } break;
- case DrawListInstruction::TYPE_BIND_UNIFORM_SETS: {
- const DrawListBindUniformSetsInstruction *bind_uniform_sets_instruction = reinterpret_cast<const DrawListBindUniformSetsInstruction *>(instruction);
- driver->command_bind_render_uniform_sets(p_command_buffer, VectorView<RDD::UniformSetID>(bind_uniform_sets_instruction->uniform_set_ids(), bind_uniform_sets_instruction->set_count), bind_uniform_sets_instruction->shader, bind_uniform_sets_instruction->first_set_index, bind_uniform_sets_instruction->set_count);
- instruction_data_cursor += sizeof(DrawListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * bind_uniform_sets_instruction->set_count;
- } break;
- case DrawListInstruction::TYPE_BIND_VERTEX_BUFFERS: {
- const DrawListBindVertexBuffersInstruction *bind_vertex_buffers_instruction = reinterpret_cast<const DrawListBindVertexBuffersInstruction *>(instruction);
- driver->command_render_bind_vertex_buffers(p_command_buffer, bind_vertex_buffers_instruction->vertex_buffers_count, bind_vertex_buffers_instruction->vertex_buffers(), bind_vertex_buffers_instruction->vertex_buffer_offsets());
- instruction_data_cursor += sizeof(DrawListBindVertexBuffersInstruction);
- instruction_data_cursor += sizeof(RDD::BufferID) * bind_vertex_buffers_instruction->vertex_buffers_count;
- instruction_data_cursor += sizeof(uint64_t) * bind_vertex_buffers_instruction->vertex_buffers_count;
- } break;
- case DrawListInstruction::TYPE_CLEAR_ATTACHMENTS: {
- const DrawListClearAttachmentsInstruction *clear_attachments_instruction = reinterpret_cast<const DrawListClearAttachmentsInstruction *>(instruction);
- const VectorView attachments_clear_view(clear_attachments_instruction->attachments_clear(), clear_attachments_instruction->attachments_clear_count);
- const VectorView attachments_clear_rect_view(clear_attachments_instruction->attachments_clear_rect(), clear_attachments_instruction->attachments_clear_rect_count);
- driver->command_render_clear_attachments(p_command_buffer, attachments_clear_view, attachments_clear_rect_view);
- instruction_data_cursor += sizeof(DrawListClearAttachmentsInstruction);
- instruction_data_cursor += sizeof(RDD::AttachmentClear) * clear_attachments_instruction->attachments_clear_count;
- instruction_data_cursor += sizeof(Rect2i) * clear_attachments_instruction->attachments_clear_rect_count;
- } break;
- case DrawListInstruction::TYPE_DRAW: {
- const DrawListDrawInstruction *draw_instruction = reinterpret_cast<const DrawListDrawInstruction *>(instruction);
- driver->command_render_draw(p_command_buffer, draw_instruction->vertex_count, draw_instruction->instance_count, 0, 0);
- instruction_data_cursor += sizeof(DrawListDrawInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDEXED: {
- const DrawListDrawIndexedInstruction *draw_indexed_instruction = reinterpret_cast<const DrawListDrawIndexedInstruction *>(instruction);
- driver->command_render_draw_indexed(p_command_buffer, draw_indexed_instruction->index_count, draw_indexed_instruction->instance_count, draw_indexed_instruction->first_index, 0, 0);
- instruction_data_cursor += sizeof(DrawListDrawIndexedInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDIRECT: {
- const DrawListDrawIndirectInstruction *draw_indirect_instruction = reinterpret_cast<const DrawListDrawIndirectInstruction *>(instruction);
- driver->command_render_draw_indirect(p_command_buffer, draw_indirect_instruction->buffer, draw_indirect_instruction->offset, draw_indirect_instruction->draw_count, draw_indirect_instruction->stride);
- instruction_data_cursor += sizeof(DrawListDrawIndirectInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDEXED_INDIRECT: {
- const DrawListDrawIndexedIndirectInstruction *draw_indexed_indirect_instruction = reinterpret_cast<const DrawListDrawIndexedIndirectInstruction *>(instruction);
- driver->command_render_draw_indexed_indirect(p_command_buffer, draw_indexed_indirect_instruction->buffer, draw_indexed_indirect_instruction->offset, draw_indexed_indirect_instruction->draw_count, draw_indexed_indirect_instruction->stride);
- instruction_data_cursor += sizeof(DrawListDrawIndexedIndirectInstruction);
- } break;
- case DrawListInstruction::TYPE_EXECUTE_COMMANDS: {
- const DrawListExecuteCommandsInstruction *execute_commands_instruction = reinterpret_cast<const DrawListExecuteCommandsInstruction *>(instruction);
- driver->command_buffer_execute_secondary(p_command_buffer, execute_commands_instruction->command_buffer);
- instruction_data_cursor += sizeof(DrawListExecuteCommandsInstruction);
- } break;
- case DrawListInstruction::TYPE_NEXT_SUBPASS: {
- const DrawListNextSubpassInstruction *next_subpass_instruction = reinterpret_cast<const DrawListNextSubpassInstruction *>(instruction);
- driver->command_next_render_subpass(p_command_buffer, next_subpass_instruction->command_buffer_type);
- instruction_data_cursor += sizeof(DrawListNextSubpassInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_BLEND_CONSTANTS: {
- const DrawListSetBlendConstantsInstruction *set_blend_constants_instruction = reinterpret_cast<const DrawListSetBlendConstantsInstruction *>(instruction);
- driver->command_render_set_blend_constants(p_command_buffer, set_blend_constants_instruction->color);
- instruction_data_cursor += sizeof(DrawListSetBlendConstantsInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_LINE_WIDTH: {
- const DrawListSetLineWidthInstruction *set_line_width_instruction = reinterpret_cast<const DrawListSetLineWidthInstruction *>(instruction);
- driver->command_render_set_line_width(p_command_buffer, set_line_width_instruction->width);
- instruction_data_cursor += sizeof(DrawListSetLineWidthInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_PUSH_CONSTANT: {
- const DrawListSetPushConstantInstruction *set_push_constant_instruction = reinterpret_cast<const DrawListSetPushConstantInstruction *>(instruction);
- const VectorView push_constant_data_view(reinterpret_cast<const uint32_t *>(set_push_constant_instruction->data()), set_push_constant_instruction->size / sizeof(uint32_t));
- driver->command_bind_push_constants(p_command_buffer, set_push_constant_instruction->shader, 0, push_constant_data_view);
- instruction_data_cursor += sizeof(DrawListSetPushConstantInstruction);
- instruction_data_cursor += set_push_constant_instruction->size;
- } break;
- case DrawListInstruction::TYPE_SET_SCISSOR: {
- const DrawListSetScissorInstruction *set_scissor_instruction = reinterpret_cast<const DrawListSetScissorInstruction *>(instruction);
- driver->command_render_set_scissor(p_command_buffer, set_scissor_instruction->rect);
- instruction_data_cursor += sizeof(DrawListSetScissorInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_VIEWPORT: {
- const DrawListSetViewportInstruction *set_viewport_instruction = reinterpret_cast<const DrawListSetViewportInstruction *>(instruction);
- driver->command_render_set_viewport(p_command_buffer, set_viewport_instruction->rect);
- instruction_data_cursor += sizeof(DrawListSetViewportInstruction);
- } break;
- case DrawListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE: {
- const DrawListUniformSetPrepareForUseInstruction *uniform_set_prepare_for_use_instruction = reinterpret_cast<const DrawListUniformSetPrepareForUseInstruction *>(instruction);
- driver->command_uniform_set_prepare_for_use(p_command_buffer, uniform_set_prepare_for_use_instruction->uniform_set, uniform_set_prepare_for_use_instruction->shader, uniform_set_prepare_for_use_instruction->set_index);
- instruction_data_cursor += sizeof(DrawListUniformSetPrepareForUseInstruction);
- } break;
- default:
- DEV_ASSERT(false && "Unknown draw list instruction type.");
- return;
- }
- }
- }
- void RenderingDeviceGraph::_add_draw_list_begin(FramebufferCache *p_framebuffer_cache, RDD::RenderPassID p_render_pass, RDD::FramebufferID p_framebuffer, Rect2i p_region, VectorView<AttachmentOperation> p_attachment_operations, VectorView<RDD::RenderPassClearValue> p_attachment_clear_values, bool p_uses_color, bool p_uses_depth, uint32_t p_breadcrumb, bool p_split_cmd_buffer) {
- DEV_ASSERT(p_attachment_operations.size() == p_attachment_clear_values.size());
- draw_instruction_list.clear();
- draw_instruction_list.index++;
- draw_instruction_list.framebuffer_cache = p_framebuffer_cache;
- draw_instruction_list.render_pass = p_render_pass;
- draw_instruction_list.framebuffer = p_framebuffer;
- draw_instruction_list.region = p_region;
- draw_instruction_list.attachment_operations.resize(p_attachment_operations.size());
- draw_instruction_list.attachment_clear_values.resize(p_attachment_clear_values.size());
- for (uint32_t i = 0; i < p_attachment_operations.size(); i++) {
- draw_instruction_list.attachment_operations[i] = p_attachment_operations[i];
- draw_instruction_list.attachment_clear_values[i] = p_attachment_clear_values[i];
- }
- if (p_uses_color) {
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT);
- }
- if (p_uses_depth) {
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_EARLY_FRAGMENT_TESTS_BIT);
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_LATE_FRAGMENT_TESTS_BIT);
- }
- draw_instruction_list.split_cmd_buffer = p_split_cmd_buffer;
- #if defined(DEBUG_ENABLED) || defined(DEV_ENABLED)
- draw_instruction_list.breadcrumb = p_breadcrumb;
- #endif
- }
- void RenderingDeviceGraph::_run_secondary_command_buffer_task(const SecondaryCommandBuffer *p_secondary) {
- driver->command_buffer_begin_secondary(p_secondary->command_buffer, p_secondary->render_pass, 0, p_secondary->framebuffer);
- _run_draw_list_command(p_secondary->command_buffer, p_secondary->instruction_data.ptr(), p_secondary->instruction_data.size());
- driver->command_buffer_end(p_secondary->command_buffer);
- }
- void RenderingDeviceGraph::_wait_for_secondary_command_buffer_tasks() {
- for (uint32_t i = 0; i < frames[frame].secondary_command_buffers_used; i++) {
- WorkerThreadPool::TaskID &task = frames[frame].secondary_command_buffers[i].task;
- if (task != WorkerThreadPool::INVALID_TASK_ID) {
- WorkerThreadPool::get_singleton()->wait_for_task_completion(task);
- task = WorkerThreadPool::INVALID_TASK_ID;
- }
- }
- }
- void RenderingDeviceGraph::_run_render_commands(int32_t p_level, const RecordedCommandSort *p_sorted_commands, uint32_t p_sorted_commands_count, RDD::CommandBufferID &r_command_buffer, CommandBufferPool &r_command_buffer_pool, int32_t &r_current_label_index, int32_t &r_current_label_level) {
- for (uint32_t i = 0; i < p_sorted_commands_count; i++) {
- const uint32_t command_index = p_sorted_commands[i].index;
- const uint32_t command_data_offset = command_data_offsets[command_index];
- const RecordedCommand *command = reinterpret_cast<const RecordedCommand *>(&command_data[command_data_offset]);
- _run_label_command_change(r_command_buffer, command->label_index, p_level, false, true, &p_sorted_commands[i], p_sorted_commands_count - i, r_current_label_index, r_current_label_level);
- switch (command->type) {
- case RecordedCommand::TYPE_BUFFER_CLEAR: {
- const RecordedBufferClearCommand *buffer_clear_command = reinterpret_cast<const RecordedBufferClearCommand *>(command);
- driver->command_clear_buffer(r_command_buffer, buffer_clear_command->buffer, buffer_clear_command->offset, buffer_clear_command->size);
- } break;
- case RecordedCommand::TYPE_BUFFER_COPY: {
- const RecordedBufferCopyCommand *buffer_copy_command = reinterpret_cast<const RecordedBufferCopyCommand *>(command);
- driver->command_copy_buffer(r_command_buffer, buffer_copy_command->source, buffer_copy_command->destination, buffer_copy_command->region);
- } break;
- case RecordedCommand::TYPE_BUFFER_GET_DATA: {
- const RecordedBufferGetDataCommand *buffer_get_data_command = reinterpret_cast<const RecordedBufferGetDataCommand *>(command);
- driver->command_copy_buffer(r_command_buffer, buffer_get_data_command->source, buffer_get_data_command->destination, buffer_get_data_command->region);
- } break;
- case RecordedCommand::TYPE_BUFFER_UPDATE: {
- const RecordedBufferUpdateCommand *buffer_update_command = reinterpret_cast<const RecordedBufferUpdateCommand *>(command);
- const RecordedBufferCopy *command_buffer_copies = buffer_update_command->buffer_copies();
- for (uint32_t j = 0; j < buffer_update_command->buffer_copies_count; j++) {
- driver->command_copy_buffer(r_command_buffer, command_buffer_copies[j].source, buffer_update_command->destination, command_buffer_copies[j].region);
- }
- } break;
- case RecordedCommand::TYPE_COMPUTE_LIST: {
- if (device.workarounds.avoid_compute_after_draw && workarounds_state.draw_list_found) {
- // Avoid compute after draw workaround. Refer to the comment that enables this in the Vulkan driver for more information.
- workarounds_state.draw_list_found = false;
- // Create or reuse a command buffer and finish recording the current one.
- driver->command_buffer_end(r_command_buffer);
- while (r_command_buffer_pool.buffers_used >= r_command_buffer_pool.buffers.size()) {
- RDD::CommandBufferID command_buffer = driver->command_buffer_create(r_command_buffer_pool.pool);
- RDD::SemaphoreID command_semaphore = driver->semaphore_create();
- r_command_buffer_pool.buffers.push_back(command_buffer);
- r_command_buffer_pool.semaphores.push_back(command_semaphore);
- }
- // Start recording on the next usable command buffer from the pool.
- uint32_t command_buffer_index = r_command_buffer_pool.buffers_used++;
- r_command_buffer = r_command_buffer_pool.buffers[command_buffer_index];
- driver->command_buffer_begin(r_command_buffer);
- }
- const RecordedComputeListCommand *compute_list_command = reinterpret_cast<const RecordedComputeListCommand *>(command);
- _run_compute_list_command(r_command_buffer, compute_list_command->instruction_data(), compute_list_command->instruction_data_size);
- } break;
- case RecordedCommand::TYPE_DRAW_LIST: {
- if (device.workarounds.avoid_compute_after_draw) {
- // Indicate that a draw list was encountered for the workaround.
- workarounds_state.draw_list_found = true;
- }
- const RecordedDrawListCommand *draw_list_command = reinterpret_cast<const RecordedDrawListCommand *>(command);
- if (draw_list_command->split_cmd_buffer) {
- // Create or reuse a command buffer and finish recording the current one.
- driver->command_buffer_end(r_command_buffer);
- while (r_command_buffer_pool.buffers_used >= r_command_buffer_pool.buffers.size()) {
- RDD::CommandBufferID command_buffer = driver->command_buffer_create(r_command_buffer_pool.pool);
- RDD::SemaphoreID command_semaphore = driver->semaphore_create();
- r_command_buffer_pool.buffers.push_back(command_buffer);
- r_command_buffer_pool.semaphores.push_back(command_semaphore);
- }
- // Start recording on the next usable command buffer from the pool.
- uint32_t command_buffer_index = r_command_buffer_pool.buffers_used++;
- r_command_buffer = r_command_buffer_pool.buffers[command_buffer_index];
- driver->command_buffer_begin(r_command_buffer);
- }
- const VectorView clear_values(draw_list_command->clear_values(), draw_list_command->clear_values_count);
- #if defined(DEBUG_ENABLED) || defined(DEV_ENABLED)
- driver->command_insert_breadcrumb(r_command_buffer, draw_list_command->breadcrumb);
- #endif
- RDD::RenderPassID render_pass;
- RDD::FramebufferID framebuffer;
- if (draw_list_command->framebuffer_cache != nullptr) {
- _get_draw_list_render_pass_and_framebuffer(draw_list_command, render_pass, framebuffer);
- } else {
- render_pass = draw_list_command->render_pass;
- framebuffer = draw_list_command->framebuffer;
- }
- if (framebuffer && render_pass) {
- driver->command_begin_render_pass(r_command_buffer, render_pass, framebuffer, draw_list_command->command_buffer_type, draw_list_command->region, clear_values);
- _run_draw_list_command(r_command_buffer, draw_list_command->instruction_data(), draw_list_command->instruction_data_size);
- driver->command_end_render_pass(r_command_buffer);
- }
- } break;
- case RecordedCommand::TYPE_TEXTURE_CLEAR: {
- const RecordedTextureClearCommand *texture_clear_command = reinterpret_cast<const RecordedTextureClearCommand *>(command);
- driver->command_clear_color_texture(r_command_buffer, texture_clear_command->texture, RDD::TEXTURE_LAYOUT_COPY_DST_OPTIMAL, texture_clear_command->color, texture_clear_command->range);
- } break;
- case RecordedCommand::TYPE_TEXTURE_COPY: {
- const RecordedTextureCopyCommand *texture_copy_command = reinterpret_cast<const RecordedTextureCopyCommand *>(command);
- const VectorView<RDD::TextureCopyRegion> command_texture_copy_regions_view(texture_copy_command->texture_copy_regions(), texture_copy_command->texture_copy_regions_count);
- driver->command_copy_texture(r_command_buffer, texture_copy_command->from_texture, RDD::TEXTURE_LAYOUT_COPY_SRC_OPTIMAL, texture_copy_command->to_texture, RDD::TEXTURE_LAYOUT_COPY_DST_OPTIMAL, command_texture_copy_regions_view);
- } break;
- case RecordedCommand::TYPE_TEXTURE_GET_DATA: {
- const RecordedTextureGetDataCommand *texture_get_data_command = reinterpret_cast<const RecordedTextureGetDataCommand *>(command);
- const VectorView<RDD::BufferTextureCopyRegion> command_buffer_texture_copy_regions_view(texture_get_data_command->buffer_texture_copy_regions(), texture_get_data_command->buffer_texture_copy_regions_count);
- driver->command_copy_texture_to_buffer(r_command_buffer, texture_get_data_command->from_texture, RDD::TEXTURE_LAYOUT_COPY_SRC_OPTIMAL, texture_get_data_command->to_buffer, command_buffer_texture_copy_regions_view);
- } break;
- case RecordedCommand::TYPE_TEXTURE_RESOLVE: {
- const RecordedTextureResolveCommand *texture_resolve_command = reinterpret_cast<const RecordedTextureResolveCommand *>(command);
- driver->command_resolve_texture(r_command_buffer, texture_resolve_command->from_texture, RDD::TEXTURE_LAYOUT_RESOLVE_SRC_OPTIMAL, texture_resolve_command->src_layer, texture_resolve_command->src_mipmap, texture_resolve_command->to_texture, RDD::TEXTURE_LAYOUT_RESOLVE_DST_OPTIMAL, texture_resolve_command->dst_layer, texture_resolve_command->dst_mipmap);
- } break;
- case RecordedCommand::TYPE_TEXTURE_UPDATE: {
- const RecordedTextureUpdateCommand *texture_update_command = reinterpret_cast<const RecordedTextureUpdateCommand *>(command);
- const RecordedBufferToTextureCopy *command_buffer_to_texture_copies = texture_update_command->buffer_to_texture_copies();
- for (uint32_t j = 0; j < texture_update_command->buffer_to_texture_copies_count; j++) {
- driver->command_copy_buffer_to_texture(r_command_buffer, command_buffer_to_texture_copies[j].from_buffer, texture_update_command->to_texture, RDD::TEXTURE_LAYOUT_COPY_DST_OPTIMAL, command_buffer_to_texture_copies[j].region);
- }
- } break;
- case RecordedCommand::TYPE_CAPTURE_TIMESTAMP: {
- const RecordedCaptureTimestampCommand *texture_capture_timestamp_command = reinterpret_cast<const RecordedCaptureTimestampCommand *>(command);
- driver->command_timestamp_write(r_command_buffer, texture_capture_timestamp_command->pool, texture_capture_timestamp_command->index);
- } break;
- default: {
- DEV_ASSERT(false && "Unknown recorded command type.");
- return;
- }
- }
- }
- }
- void RenderingDeviceGraph::_run_label_command_change(RDD::CommandBufferID p_command_buffer, int32_t p_new_label_index, int32_t p_new_level, bool p_ignore_previous_value, bool p_use_label_for_empty, const RecordedCommandSort *p_sorted_commands, uint32_t p_sorted_commands_count, int32_t &r_current_label_index, int32_t &r_current_label_level) {
- if (command_label_count == 0) {
- // Ignore any label operations if no labels were pushed.
- return;
- }
- if (p_ignore_previous_value || p_new_label_index != r_current_label_index || p_new_level != r_current_label_level) {
- if (!p_ignore_previous_value && (p_use_label_for_empty || r_current_label_index >= 0 || r_current_label_level >= 0)) {
- // End the current label.
- driver->command_end_label(p_command_buffer);
- }
- String label_name;
- Color label_color;
- if (p_new_label_index >= 0) {
- const char *label_chars = &command_label_chars[command_label_offsets[p_new_label_index]];
- label_name.parse_utf8(label_chars);
- label_color = command_label_colors[p_new_label_index];
- } else if (p_use_label_for_empty) {
- label_name = "Command graph";
- label_color = Color(1, 1, 1, 1);
- } else {
- return;
- }
- // Add the level to the name.
- label_name += " (L" + itos(p_new_level) + ")";
- if (p_sorted_commands != nullptr && p_sorted_commands_count > 0) {
- // Analyze the commands in the level that have the same label to detect what type of operations are performed.
- bool copy_commands = false;
- bool compute_commands = false;
- bool draw_commands = false;
- for (uint32_t i = 0; i < p_sorted_commands_count; i++) {
- const uint32_t command_index = p_sorted_commands[i].index;
- const uint32_t command_data_offset = command_data_offsets[command_index];
- const RecordedCommand *command = reinterpret_cast<RecordedCommand *>(&command_data[command_data_offset]);
- if (command->label_index != p_new_label_index) {
- break;
- }
- switch (command->type) {
- case RecordedCommand::TYPE_BUFFER_CLEAR:
- case RecordedCommand::TYPE_BUFFER_COPY:
- case RecordedCommand::TYPE_BUFFER_GET_DATA:
- case RecordedCommand::TYPE_BUFFER_UPDATE:
- case RecordedCommand::TYPE_TEXTURE_CLEAR:
- case RecordedCommand::TYPE_TEXTURE_COPY:
- case RecordedCommand::TYPE_TEXTURE_GET_DATA:
- case RecordedCommand::TYPE_TEXTURE_RESOLVE:
- case RecordedCommand::TYPE_TEXTURE_UPDATE: {
- copy_commands = true;
- } break;
- case RecordedCommand::TYPE_COMPUTE_LIST: {
- compute_commands = true;
- } break;
- case RecordedCommand::TYPE_DRAW_LIST: {
- draw_commands = true;
- } break;
- default: {
- // Ignore command.
- } break;
- }
- if (copy_commands && compute_commands && draw_commands) {
- // There's no more command types to find.
- break;
- }
- }
- if (copy_commands || compute_commands || draw_commands) {
- // Add the operations to the name.
- bool plus_after_copy = copy_commands && (compute_commands || draw_commands);
- bool plus_after_compute = compute_commands && draw_commands;
- label_name += " (";
- label_name += copy_commands ? "Copy" : "";
- label_name += plus_after_copy ? "+" : "";
- label_name += compute_commands ? "Compute" : "";
- label_name += plus_after_compute ? "+" : "";
- label_name += draw_commands ? "Draw" : "";
- label_name += ")";
- }
- }
- // Start the new label.
- CharString label_name_utf8 = label_name.utf8();
- driver->command_begin_label(p_command_buffer, label_name_utf8.get_data(), label_color);
- r_current_label_index = p_new_label_index;
- r_current_label_level = p_new_level;
- }
- }
- void RenderingDeviceGraph::_boost_priority_for_render_commands(RecordedCommandSort *p_sorted_commands, uint32_t p_sorted_commands_count, uint32_t &r_boosted_priority) {
- if (p_sorted_commands_count == 0) {
- return;
- }
- const uint32_t boosted_priority_value = 0;
- if (r_boosted_priority > 0) {
- bool perform_sort = false;
- for (uint32_t j = 0; j < p_sorted_commands_count; j++) {
- if (p_sorted_commands[j].priority == r_boosted_priority) {
- p_sorted_commands[j].priority = boosted_priority_value;
- perform_sort = true;
- }
- }
- if (perform_sort) {
- SortArray<RecordedCommandSort> command_sorter;
- command_sorter.sort(p_sorted_commands, p_sorted_commands_count);
- }
- }
- if (p_sorted_commands[p_sorted_commands_count - 1].priority != boosted_priority_value) {
- r_boosted_priority = p_sorted_commands[p_sorted_commands_count - 1].priority;
- }
- }
- void RenderingDeviceGraph::_group_barriers_for_render_commands(RDD::CommandBufferID p_command_buffer, const RecordedCommandSort *p_sorted_commands, uint32_t p_sorted_commands_count, bool p_full_memory_barrier) {
- if (!driver_honors_barriers) {
- return;
- }
- barrier_group.clear();
- barrier_group.src_stages = RDD::PIPELINE_STAGE_TOP_OF_PIPE_BIT;
- barrier_group.dst_stages = RDD::PIPELINE_STAGE_BOTTOM_OF_PIPE_BIT;
- for (uint32_t i = 0; i < p_sorted_commands_count; i++) {
- const uint32_t command_index = p_sorted_commands[i].index;
- const uint32_t command_data_offset = command_data_offsets[command_index];
- const RecordedCommand *command = reinterpret_cast<RecordedCommand *>(&command_data[command_data_offset]);
- #if PRINT_COMMAND_RECORDING
- print_line(vformat("Grouping barriers for #%d", command_index));
- #endif
- // Merge command's stage bits with the barrier group.
- barrier_group.src_stages = barrier_group.src_stages | command->previous_stages;
- barrier_group.dst_stages = barrier_group.dst_stages | command->next_stages;
- // Merge command's memory barrier bits with the barrier group.
- barrier_group.memory_barrier.src_access = barrier_group.memory_barrier.src_access | command->memory_barrier.src_access;
- barrier_group.memory_barrier.dst_access = barrier_group.memory_barrier.dst_access | command->memory_barrier.dst_access;
- // Gather texture barriers.
- for (int32_t j = 0; j < command->normalization_barrier_count; j++) {
- const RDD::TextureBarrier &recorded_barrier = command_normalization_barriers[command->normalization_barrier_index + j];
- barrier_group.normalization_barriers.push_back(recorded_barrier);
- #if PRINT_COMMAND_RECORDING
- print_line(vformat("Normalization Barrier #%d", barrier_group.normalization_barriers.size() - 1));
- #endif
- }
- for (int32_t j = 0; j < command->transition_barrier_count; j++) {
- const RDD::TextureBarrier &recorded_barrier = command_transition_barriers[command->transition_barrier_index + j];
- barrier_group.transition_barriers.push_back(recorded_barrier);
- #if PRINT_COMMAND_RECORDING
- print_line(vformat("Transition Barrier #%d", barrier_group.transition_barriers.size() - 1));
- #endif
- }
- #if USE_BUFFER_BARRIERS
- // Gather buffer barriers.
- for (int32_t j = 0; j < command->buffer_barrier_count; j++) {
- const RDD::BufferBarrier &recorded_barrier = command_buffer_barriers[command->buffer_barrier_index + j];
- barrier_group.buffer_barriers.push_back(recorded_barrier);
- }
- #endif
- }
- if (p_full_memory_barrier) {
- barrier_group.src_stages = RDD::PIPELINE_STAGE_ALL_COMMANDS_BIT;
- barrier_group.dst_stages = RDD::PIPELINE_STAGE_ALL_COMMANDS_BIT;
- barrier_group.memory_barrier.src_access = RDD::BARRIER_ACCESS_MEMORY_READ_BIT | RDD::BARRIER_ACCESS_MEMORY_WRITE_BIT;
- barrier_group.memory_barrier.dst_access = RDD::BARRIER_ACCESS_MEMORY_READ_BIT | RDD::BARRIER_ACCESS_MEMORY_WRITE_BIT;
- }
- const bool is_memory_barrier_empty = barrier_group.memory_barrier.src_access.is_empty() && barrier_group.memory_barrier.dst_access.is_empty();
- const bool are_texture_barriers_empty = barrier_group.normalization_barriers.is_empty() && barrier_group.transition_barriers.is_empty();
- #if USE_BUFFER_BARRIERS
- const bool are_buffer_barriers_empty = barrier_group.buffer_barriers.is_empty();
- #else
- const bool are_buffer_barriers_empty = true;
- #endif
- if (is_memory_barrier_empty && are_texture_barriers_empty && are_buffer_barriers_empty) {
- // Commands don't require synchronization.
- return;
- }
- const VectorView<RDD::MemoryBarrier> memory_barriers = !is_memory_barrier_empty ? barrier_group.memory_barrier : VectorView<RDD::MemoryBarrier>();
- const VectorView<RDD::TextureBarrier> texture_barriers = barrier_group.normalization_barriers.is_empty() ? barrier_group.transition_barriers : barrier_group.normalization_barriers;
- #if USE_BUFFER_BARRIERS
- const VectorView<RDD::BufferBarrier> buffer_barriers = !are_buffer_barriers_empty ? barrier_group.buffer_barriers : VectorView<RDD::BufferBarrier>();
- #else
- const VectorView<RDD::BufferBarrier> buffer_barriers = VectorView<RDD::BufferBarrier>();
- #endif
- driver->command_pipeline_barrier(p_command_buffer, barrier_group.src_stages, barrier_group.dst_stages, memory_barriers, buffer_barriers, texture_barriers);
- bool separate_texture_barriers = !barrier_group.normalization_barriers.is_empty() && !barrier_group.transition_barriers.is_empty();
- if (separate_texture_barriers) {
- driver->command_pipeline_barrier(p_command_buffer, barrier_group.src_stages, barrier_group.dst_stages, VectorView<RDD::MemoryBarrier>(), VectorView<RDD::BufferBarrier>(), barrier_group.transition_barriers);
- }
- }
- void RenderingDeviceGraph::_print_render_commands(const RecordedCommandSort *p_sorted_commands, uint32_t p_sorted_commands_count) {
- for (uint32_t i = 0; i < p_sorted_commands_count; i++) {
- const uint32_t command_index = p_sorted_commands[i].index;
- const uint32_t command_level = p_sorted_commands[i].level;
- const uint32_t command_data_offset = command_data_offsets[command_index];
- const RecordedCommand *command = reinterpret_cast<RecordedCommand *>(&command_data[command_data_offset]);
- switch (command->type) {
- case RecordedCommand::TYPE_BUFFER_CLEAR: {
- const RecordedBufferClearCommand *buffer_clear_command = reinterpret_cast<const RecordedBufferClearCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "BUFFER CLEAR DESTINATION", itos(buffer_clear_command->buffer.id));
- } break;
- case RecordedCommand::TYPE_BUFFER_COPY: {
- const RecordedBufferCopyCommand *buffer_copy_command = reinterpret_cast<const RecordedBufferCopyCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "BUFFER COPY SOURCE", itos(buffer_copy_command->source.id), "DESTINATION", itos(buffer_copy_command->destination.id));
- } break;
- case RecordedCommand::TYPE_BUFFER_GET_DATA: {
- const RecordedBufferGetDataCommand *buffer_get_data_command = reinterpret_cast<const RecordedBufferGetDataCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "BUFFER GET DATA DESTINATION", itos(buffer_get_data_command->destination.id));
- } break;
- case RecordedCommand::TYPE_BUFFER_UPDATE: {
- const RecordedBufferUpdateCommand *buffer_update_command = reinterpret_cast<const RecordedBufferUpdateCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "BUFFER UPDATE DESTINATION", itos(buffer_update_command->destination.id), "COPIES", buffer_update_command->buffer_copies_count);
- } break;
- case RecordedCommand::TYPE_COMPUTE_LIST: {
- const RecordedComputeListCommand *compute_list_command = reinterpret_cast<const RecordedComputeListCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "COMPUTE LIST SIZE", compute_list_command->instruction_data_size);
- } break;
- case RecordedCommand::TYPE_DRAW_LIST: {
- const RecordedDrawListCommand *draw_list_command = reinterpret_cast<const RecordedDrawListCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "DRAW LIST SIZE", draw_list_command->instruction_data_size);
- } break;
- case RecordedCommand::TYPE_TEXTURE_CLEAR: {
- const RecordedTextureClearCommand *texture_clear_command = reinterpret_cast<const RecordedTextureClearCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "TEXTURE CLEAR", itos(texture_clear_command->texture.id), "COLOR", texture_clear_command->color);
- } break;
- case RecordedCommand::TYPE_TEXTURE_COPY: {
- const RecordedTextureCopyCommand *texture_copy_command = reinterpret_cast<const RecordedTextureCopyCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "TEXTURE COPY FROM", itos(texture_copy_command->from_texture.id), "TO", itos(texture_copy_command->to_texture.id));
- } break;
- case RecordedCommand::TYPE_TEXTURE_GET_DATA: {
- print_line(command_index, "LEVEL", command_level, "TEXTURE GET DATA");
- } break;
- case RecordedCommand::TYPE_TEXTURE_RESOLVE: {
- const RecordedTextureResolveCommand *texture_resolve_command = reinterpret_cast<const RecordedTextureResolveCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "TEXTURE RESOLVE FROM", itos(texture_resolve_command->from_texture.id), "TO", itos(texture_resolve_command->to_texture.id));
- } break;
- case RecordedCommand::TYPE_TEXTURE_UPDATE: {
- const RecordedTextureUpdateCommand *texture_update_command = reinterpret_cast<const RecordedTextureUpdateCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "TEXTURE UPDATE TO", itos(texture_update_command->to_texture.id));
- } break;
- case RecordedCommand::TYPE_CAPTURE_TIMESTAMP: {
- const RecordedCaptureTimestampCommand *texture_capture_timestamp_command = reinterpret_cast<const RecordedCaptureTimestampCommand *>(command);
- print_line(command_index, "LEVEL", command_level, "CAPTURE TIMESTAMP POOL", itos(texture_capture_timestamp_command->pool.id), "INDEX", texture_capture_timestamp_command->index);
- } break;
- default:
- DEV_ASSERT(false && "Unknown recorded command type.");
- return;
- }
- }
- }
- void RenderingDeviceGraph::_print_draw_list(const uint8_t *p_instruction_data, uint32_t p_instruction_data_size) {
- uint32_t instruction_data_cursor = 0;
- while (instruction_data_cursor < p_instruction_data_size) {
- DEV_ASSERT((instruction_data_cursor + sizeof(DrawListInstruction)) <= p_instruction_data_size);
- const DrawListInstruction *instruction = reinterpret_cast<const DrawListInstruction *>(&p_instruction_data[instruction_data_cursor]);
- switch (instruction->type) {
- case DrawListInstruction::TYPE_BIND_INDEX_BUFFER: {
- const DrawListBindIndexBufferInstruction *bind_index_buffer_instruction = reinterpret_cast<const DrawListBindIndexBufferInstruction *>(instruction);
- print_line("\tBIND INDEX BUFFER ID", itos(bind_index_buffer_instruction->buffer.id), "FORMAT", bind_index_buffer_instruction->format, "OFFSET", bind_index_buffer_instruction->offset);
- instruction_data_cursor += sizeof(DrawListBindIndexBufferInstruction);
- } break;
- case DrawListInstruction::TYPE_BIND_PIPELINE: {
- const DrawListBindPipelineInstruction *bind_pipeline_instruction = reinterpret_cast<const DrawListBindPipelineInstruction *>(instruction);
- print_line("\tBIND PIPELINE ID", itos(bind_pipeline_instruction->pipeline.id));
- instruction_data_cursor += sizeof(DrawListBindPipelineInstruction);
- } break;
- case DrawListInstruction::TYPE_BIND_UNIFORM_SETS: {
- const DrawListBindUniformSetsInstruction *bind_uniform_sets_instruction = reinterpret_cast<const DrawListBindUniformSetsInstruction *>(instruction);
- print_line("\tBIND UNIFORM SETS COUNT", bind_uniform_sets_instruction->set_count);
- for (uint32_t i = 0; i < bind_uniform_sets_instruction->set_count; i++) {
- print_line("\tBIND UNIFORM SET ID", itos(bind_uniform_sets_instruction->uniform_set_ids()[i].id), "START INDEX", bind_uniform_sets_instruction->first_set_index);
- }
- instruction_data_cursor += sizeof(DrawListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * bind_uniform_sets_instruction->set_count;
- } break;
- case DrawListInstruction::TYPE_BIND_VERTEX_BUFFERS: {
- const DrawListBindVertexBuffersInstruction *bind_vertex_buffers_instruction = reinterpret_cast<const DrawListBindVertexBuffersInstruction *>(instruction);
- print_line("\tBIND VERTEX BUFFERS COUNT", bind_vertex_buffers_instruction->vertex_buffers_count);
- instruction_data_cursor += sizeof(DrawListBindVertexBuffersInstruction);
- instruction_data_cursor += sizeof(RDD::BufferID) * bind_vertex_buffers_instruction->vertex_buffers_count;
- instruction_data_cursor += sizeof(uint64_t) * bind_vertex_buffers_instruction->vertex_buffers_count;
- } break;
- case DrawListInstruction::TYPE_CLEAR_ATTACHMENTS: {
- const DrawListClearAttachmentsInstruction *clear_attachments_instruction = reinterpret_cast<const DrawListClearAttachmentsInstruction *>(instruction);
- print_line("\tATTACHMENTS CLEAR COUNT", clear_attachments_instruction->attachments_clear_count, "RECT COUNT", clear_attachments_instruction->attachments_clear_rect_count);
- instruction_data_cursor += sizeof(DrawListClearAttachmentsInstruction);
- instruction_data_cursor += sizeof(RDD::AttachmentClear) * clear_attachments_instruction->attachments_clear_count;
- instruction_data_cursor += sizeof(Rect2i) * clear_attachments_instruction->attachments_clear_rect_count;
- } break;
- case DrawListInstruction::TYPE_DRAW: {
- const DrawListDrawInstruction *draw_instruction = reinterpret_cast<const DrawListDrawInstruction *>(instruction);
- print_line("\tDRAW VERTICES", draw_instruction->vertex_count, "INSTANCES", draw_instruction->instance_count);
- instruction_data_cursor += sizeof(DrawListDrawInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDEXED: {
- const DrawListDrawIndexedInstruction *draw_indexed_instruction = reinterpret_cast<const DrawListDrawIndexedInstruction *>(instruction);
- print_line("\tDRAW INDICES", draw_indexed_instruction->index_count, "INSTANCES", draw_indexed_instruction->instance_count, "FIRST INDEX", draw_indexed_instruction->first_index);
- instruction_data_cursor += sizeof(DrawListDrawIndexedInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDIRECT: {
- const DrawListDrawIndirectInstruction *draw_indirect_instruction = reinterpret_cast<const DrawListDrawIndirectInstruction *>(instruction);
- print_line("\tDRAW INDIRECT BUFFER ID", itos(draw_indirect_instruction->buffer.id), "OFFSET", draw_indirect_instruction->offset, "DRAW COUNT", draw_indirect_instruction->draw_count, "STRIDE", draw_indirect_instruction->stride);
- instruction_data_cursor += sizeof(DrawListDrawIndirectInstruction);
- } break;
- case DrawListInstruction::TYPE_DRAW_INDEXED_INDIRECT: {
- const DrawListDrawIndexedIndirectInstruction *draw_indexed_indirect_instruction = reinterpret_cast<const DrawListDrawIndexedIndirectInstruction *>(instruction);
- print_line("\tDRAW INDEXED INDIRECT BUFFER ID", itos(draw_indexed_indirect_instruction->buffer.id), "OFFSET", draw_indexed_indirect_instruction->offset, "DRAW COUNT", draw_indexed_indirect_instruction->draw_count, "STRIDE", draw_indexed_indirect_instruction->stride);
- instruction_data_cursor += sizeof(DrawListDrawIndexedIndirectInstruction);
- } break;
- case DrawListInstruction::TYPE_EXECUTE_COMMANDS: {
- print_line("\tEXECUTE COMMANDS");
- instruction_data_cursor += sizeof(DrawListExecuteCommandsInstruction);
- } break;
- case DrawListInstruction::TYPE_NEXT_SUBPASS: {
- print_line("\tNEXT SUBPASS");
- instruction_data_cursor += sizeof(DrawListNextSubpassInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_BLEND_CONSTANTS: {
- const DrawListSetBlendConstantsInstruction *set_blend_constants_instruction = reinterpret_cast<const DrawListSetBlendConstantsInstruction *>(instruction);
- print_line("\tSET BLEND CONSTANTS COLOR", set_blend_constants_instruction->color);
- instruction_data_cursor += sizeof(DrawListSetBlendConstantsInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_LINE_WIDTH: {
- const DrawListSetLineWidthInstruction *set_line_width_instruction = reinterpret_cast<const DrawListSetLineWidthInstruction *>(instruction);
- print_line("\tSET LINE WIDTH", set_line_width_instruction->width);
- instruction_data_cursor += sizeof(DrawListSetLineWidthInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_PUSH_CONSTANT: {
- const DrawListSetPushConstantInstruction *set_push_constant_instruction = reinterpret_cast<const DrawListSetPushConstantInstruction *>(instruction);
- print_line("\tSET PUSH CONSTANT SIZE", set_push_constant_instruction->size);
- instruction_data_cursor += sizeof(DrawListSetPushConstantInstruction);
- instruction_data_cursor += set_push_constant_instruction->size;
- } break;
- case DrawListInstruction::TYPE_SET_SCISSOR: {
- const DrawListSetScissorInstruction *set_scissor_instruction = reinterpret_cast<const DrawListSetScissorInstruction *>(instruction);
- print_line("\tSET SCISSOR", set_scissor_instruction->rect);
- instruction_data_cursor += sizeof(DrawListSetScissorInstruction);
- } break;
- case DrawListInstruction::TYPE_SET_VIEWPORT: {
- const DrawListSetViewportInstruction *set_viewport_instruction = reinterpret_cast<const DrawListSetViewportInstruction *>(instruction);
- print_line("\tSET VIEWPORT", set_viewport_instruction->rect);
- instruction_data_cursor += sizeof(DrawListSetViewportInstruction);
- } break;
- case DrawListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE: {
- const DrawListUniformSetPrepareForUseInstruction *uniform_set_prepare_for_use_instruction = reinterpret_cast<const DrawListUniformSetPrepareForUseInstruction *>(instruction);
- print_line("\tUNIFORM SET PREPARE FOR USE ID", itos(uniform_set_prepare_for_use_instruction->uniform_set.id), "SHADER ID", itos(uniform_set_prepare_for_use_instruction->shader.id), "INDEX", uniform_set_prepare_for_use_instruction->set_index);
- instruction_data_cursor += sizeof(DrawListUniformSetPrepareForUseInstruction);
- } break;
- default:
- DEV_ASSERT(false && "Unknown draw list instruction type.");
- return;
- }
- }
- }
- void RenderingDeviceGraph::_print_compute_list(const uint8_t *p_instruction_data, uint32_t p_instruction_data_size) {
- uint32_t instruction_data_cursor = 0;
- while (instruction_data_cursor < p_instruction_data_size) {
- DEV_ASSERT((instruction_data_cursor + sizeof(ComputeListInstruction)) <= p_instruction_data_size);
- const ComputeListInstruction *instruction = reinterpret_cast<const ComputeListInstruction *>(&p_instruction_data[instruction_data_cursor]);
- switch (instruction->type) {
- case ComputeListInstruction::TYPE_BIND_PIPELINE: {
- const ComputeListBindPipelineInstruction *bind_pipeline_instruction = reinterpret_cast<const ComputeListBindPipelineInstruction *>(instruction);
- print_line("\tBIND PIPELINE ID", itos(bind_pipeline_instruction->pipeline.id));
- instruction_data_cursor += sizeof(ComputeListBindPipelineInstruction);
- } break;
- case ComputeListInstruction::TYPE_BIND_UNIFORM_SETS: {
- const ComputeListBindUniformSetsInstruction *bind_uniform_sets_instruction = reinterpret_cast<const ComputeListBindUniformSetsInstruction *>(instruction);
- print_line("\tBIND UNIFORM SETS COUNT", bind_uniform_sets_instruction->set_count);
- for (uint32_t i = 0; i < bind_uniform_sets_instruction->set_count; i++) {
- print_line("\tBIND UNIFORM SET ID", itos(bind_uniform_sets_instruction->uniform_set_ids()[i].id), "START INDEX", bind_uniform_sets_instruction->first_set_index);
- }
- instruction_data_cursor += sizeof(ComputeListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * bind_uniform_sets_instruction->set_count;
- } break;
- case ComputeListInstruction::TYPE_DISPATCH: {
- const ComputeListDispatchInstruction *dispatch_instruction = reinterpret_cast<const ComputeListDispatchInstruction *>(instruction);
- print_line("\tDISPATCH", dispatch_instruction->x_groups, dispatch_instruction->y_groups, dispatch_instruction->z_groups);
- instruction_data_cursor += sizeof(ComputeListDispatchInstruction);
- } break;
- case ComputeListInstruction::TYPE_DISPATCH_INDIRECT: {
- const ComputeListDispatchIndirectInstruction *dispatch_indirect_instruction = reinterpret_cast<const ComputeListDispatchIndirectInstruction *>(instruction);
- print_line("\tDISPATCH INDIRECT BUFFER ID", itos(dispatch_indirect_instruction->buffer.id), "OFFSET", dispatch_indirect_instruction->offset);
- instruction_data_cursor += sizeof(ComputeListDispatchIndirectInstruction);
- } break;
- case ComputeListInstruction::TYPE_SET_PUSH_CONSTANT: {
- const ComputeListSetPushConstantInstruction *set_push_constant_instruction = reinterpret_cast<const ComputeListSetPushConstantInstruction *>(instruction);
- print_line("\tSET PUSH CONSTANT SIZE", set_push_constant_instruction->size);
- instruction_data_cursor += sizeof(ComputeListSetPushConstantInstruction);
- instruction_data_cursor += set_push_constant_instruction->size;
- } break;
- case ComputeListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE: {
- const ComputeListUniformSetPrepareForUseInstruction *uniform_set_prepare_for_use_instruction = reinterpret_cast<const ComputeListUniformSetPrepareForUseInstruction *>(instruction);
- print_line("\tUNIFORM SET PREPARE FOR USE ID", itos(uniform_set_prepare_for_use_instruction->uniform_set.id), "SHADER ID", itos(uniform_set_prepare_for_use_instruction->shader.id), "INDEX", itos(uniform_set_prepare_for_use_instruction->set_index));
- instruction_data_cursor += sizeof(ComputeListUniformSetPrepareForUseInstruction);
- } break;
- default:
- DEV_ASSERT(false && "Unknown compute list instruction type.");
- return;
- }
- }
- }
- void RenderingDeviceGraph::initialize(RDD *p_driver, RenderingContextDriver::Device p_device, RenderPassCreationFunction p_render_pass_creation_function, uint32_t p_frame_count, RDD::CommandQueueFamilyID p_secondary_command_queue_family, uint32_t p_secondary_command_buffers_per_frame) {
- DEV_ASSERT(p_driver != nullptr);
- DEV_ASSERT(p_render_pass_creation_function != nullptr);
- DEV_ASSERT(p_frame_count > 0);
- driver = p_driver;
- device = p_device;
- render_pass_creation_function = p_render_pass_creation_function;
- frames.resize(p_frame_count);
- for (uint32_t i = 0; i < p_frame_count; i++) {
- frames[i].secondary_command_buffers.resize(p_secondary_command_buffers_per_frame);
- for (uint32_t j = 0; j < p_secondary_command_buffers_per_frame; j++) {
- SecondaryCommandBuffer &secondary = frames[i].secondary_command_buffers[j];
- secondary.command_pool = driver->command_pool_create(p_secondary_command_queue_family, RDD::COMMAND_BUFFER_TYPE_SECONDARY);
- secondary.command_buffer = driver->command_buffer_create(secondary.command_pool);
- secondary.task = WorkerThreadPool::INVALID_TASK_ID;
- }
- }
- driver_honors_barriers = driver->api_trait_get(RDD::API_TRAIT_HONORS_PIPELINE_BARRIERS);
- driver_clears_with_copy_engine = driver->api_trait_get(RDD::API_TRAIT_CLEARS_WITH_COPY_ENGINE);
- driver_buffers_require_transitions = driver->api_trait_get(RDD::API_TRAIT_BUFFERS_REQUIRE_TRANSITIONS);
- }
- void RenderingDeviceGraph::finalize() {
- _wait_for_secondary_command_buffer_tasks();
- for (Frame &f : frames) {
- for (SecondaryCommandBuffer &secondary : f.secondary_command_buffers) {
- if (secondary.command_pool.id != 0) {
- driver->command_pool_free(secondary.command_pool);
- }
- }
- }
- frames.clear();
- }
- void RenderingDeviceGraph::begin() {
- command_data.clear();
- command_data_offsets.clear();
- command_normalization_barriers.clear();
- command_transition_barriers.clear();
- command_buffer_barriers.clear();
- command_label_chars.clear();
- command_label_colors.clear();
- command_label_offsets.clear();
- command_list_nodes.clear();
- read_slice_list_nodes.clear();
- write_slice_list_nodes.clear();
- command_count = 0;
- command_label_count = 0;
- command_timestamp_index = -1;
- command_synchronization_index = -1;
- command_synchronization_pending = false;
- command_label_index = -1;
- frames[frame].secondary_command_buffers_used = 0;
- draw_instruction_list.index = 0;
- compute_instruction_list.index = 0;
- tracking_frame++;
- #ifdef DEV_ENABLED
- write_dependency_counters.clear();
- #endif
- }
- void RenderingDeviceGraph::add_buffer_clear(RDD::BufferID p_dst, ResourceTracker *p_dst_tracker, uint32_t p_offset, uint32_t p_size) {
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- RecordedBufferClearCommand *command = static_cast<RecordedBufferClearCommand *>(_allocate_command(sizeof(RecordedBufferClearCommand), command_index));
- command->type = RecordedCommand::TYPE_BUFFER_CLEAR;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->buffer = p_dst;
- command->offset = p_offset;
- command->size = p_size;
- ResourceUsage usage = RESOURCE_USAGE_COPY_TO;
- _add_command_to_graph(&p_dst_tracker, &usage, 1, command_index, command);
- }
- void RenderingDeviceGraph::add_buffer_copy(RDD::BufferID p_src, ResourceTracker *p_src_tracker, RDD::BufferID p_dst, ResourceTracker *p_dst_tracker, RDD::BufferCopyRegion p_region) {
- // Source tracker is allowed to be null as it could be a read-only buffer.
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- RecordedBufferCopyCommand *command = static_cast<RecordedBufferCopyCommand *>(_allocate_command(sizeof(RecordedBufferCopyCommand), command_index));
- command->type = RecordedCommand::TYPE_BUFFER_COPY;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->source = p_src;
- command->destination = p_dst;
- command->region = p_region;
- ResourceTracker *trackers[2] = { p_dst_tracker, p_src_tracker };
- ResourceUsage usages[2] = { RESOURCE_USAGE_COPY_TO, RESOURCE_USAGE_COPY_FROM };
- _add_command_to_graph(trackers, usages, p_src_tracker != nullptr ? 2 : 1, command_index, command);
- }
- void RenderingDeviceGraph::add_buffer_get_data(RDD::BufferID p_src, ResourceTracker *p_src_tracker, RDD::BufferID p_dst, RDD::BufferCopyRegion p_region) {
- // Source tracker is allowed to be null as it could be a read-only buffer.
- int32_t command_index;
- RecordedBufferGetDataCommand *command = static_cast<RecordedBufferGetDataCommand *>(_allocate_command(sizeof(RecordedBufferGetDataCommand), command_index));
- command->type = RecordedCommand::TYPE_BUFFER_GET_DATA;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->source = p_src;
- command->destination = p_dst;
- command->region = p_region;
- if (p_src_tracker != nullptr) {
- ResourceUsage usage = RESOURCE_USAGE_COPY_FROM;
- _add_command_to_graph(&p_src_tracker, &usage, 1, command_index, command);
- } else {
- _add_command_to_graph(nullptr, nullptr, 0, command_index, command);
- }
- }
- void RenderingDeviceGraph::add_buffer_update(RDD::BufferID p_dst, ResourceTracker *p_dst_tracker, VectorView<RecordedBufferCopy> p_buffer_copies) {
- DEV_ASSERT(p_dst_tracker != nullptr);
- size_t buffer_copies_size = p_buffer_copies.size() * sizeof(RecordedBufferCopy);
- uint64_t command_size = sizeof(RecordedBufferUpdateCommand) + buffer_copies_size;
- int32_t command_index;
- RecordedBufferUpdateCommand *command = static_cast<RecordedBufferUpdateCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_BUFFER_UPDATE;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->destination = p_dst;
- command->buffer_copies_count = p_buffer_copies.size();
- RecordedBufferCopy *buffer_copies = command->buffer_copies();
- for (uint32_t i = 0; i < command->buffer_copies_count; i++) {
- buffer_copies[i] = p_buffer_copies[i];
- }
- ResourceUsage buffer_usage = RESOURCE_USAGE_COPY_TO;
- _add_command_to_graph(&p_dst_tracker, &buffer_usage, 1, command_index, command);
- }
- void RenderingDeviceGraph::add_compute_list_begin(RDD::BreadcrumbMarker p_phase, uint32_t p_breadcrumb_data) {
- compute_instruction_list.clear();
- #if defined(DEBUG_ENABLED) || defined(DEV_ENABLED)
- compute_instruction_list.breadcrumb = p_breadcrumb_data | (p_phase & ((1 << 16) - 1));
- #endif
- compute_instruction_list.index++;
- }
- void RenderingDeviceGraph::add_compute_list_bind_pipeline(RDD::PipelineID p_pipeline) {
- ComputeListBindPipelineInstruction *instruction = reinterpret_cast<ComputeListBindPipelineInstruction *>(_allocate_compute_list_instruction(sizeof(ComputeListBindPipelineInstruction)));
- instruction->type = ComputeListInstruction::TYPE_BIND_PIPELINE;
- instruction->pipeline = p_pipeline;
- compute_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_COMPUTE_SHADER_BIT);
- }
- void RenderingDeviceGraph::add_compute_list_bind_uniform_set(RDD::ShaderID p_shader, RDD::UniformSetID p_uniform_set, uint32_t set_index) {
- add_compute_list_bind_uniform_sets(p_shader, VectorView(&p_uniform_set, 1), set_index, 1);
- }
- void RenderingDeviceGraph::add_compute_list_bind_uniform_sets(RDD::ShaderID p_shader, VectorView<RDD::UniformSetID> p_uniform_sets, uint32_t p_first_set_index, uint32_t p_set_count) {
- DEV_ASSERT(p_uniform_sets.size() >= p_set_count);
- uint32_t instruction_size = sizeof(ComputeListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * p_set_count;
- ComputeListBindUniformSetsInstruction *instruction = reinterpret_cast<ComputeListBindUniformSetsInstruction *>(_allocate_compute_list_instruction(instruction_size));
- instruction->type = ComputeListInstruction::TYPE_BIND_UNIFORM_SETS;
- instruction->shader = p_shader;
- instruction->first_set_index = p_first_set_index;
- instruction->set_count = p_set_count;
- RDD::UniformSetID *ids = instruction->uniform_set_ids();
- for (uint32_t i = 0; i < p_set_count; i++) {
- ids[i] = p_uniform_sets[i];
- }
- }
- void RenderingDeviceGraph::add_compute_list_dispatch(uint32_t p_x_groups, uint32_t p_y_groups, uint32_t p_z_groups) {
- ComputeListDispatchInstruction *instruction = reinterpret_cast<ComputeListDispatchInstruction *>(_allocate_compute_list_instruction(sizeof(ComputeListDispatchInstruction)));
- instruction->type = ComputeListInstruction::TYPE_DISPATCH;
- instruction->x_groups = p_x_groups;
- instruction->y_groups = p_y_groups;
- instruction->z_groups = p_z_groups;
- }
- void RenderingDeviceGraph::add_compute_list_dispatch_indirect(RDD::BufferID p_buffer, uint32_t p_offset) {
- ComputeListDispatchIndirectInstruction *instruction = reinterpret_cast<ComputeListDispatchIndirectInstruction *>(_allocate_compute_list_instruction(sizeof(ComputeListDispatchIndirectInstruction)));
- instruction->type = ComputeListInstruction::TYPE_DISPATCH_INDIRECT;
- instruction->buffer = p_buffer;
- instruction->offset = p_offset;
- compute_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_DRAW_INDIRECT_BIT);
- }
- void RenderingDeviceGraph::add_compute_list_set_push_constant(RDD::ShaderID p_shader, const void *p_data, uint32_t p_data_size) {
- uint32_t instruction_size = sizeof(ComputeListSetPushConstantInstruction) + p_data_size;
- ComputeListSetPushConstantInstruction *instruction = reinterpret_cast<ComputeListSetPushConstantInstruction *>(_allocate_compute_list_instruction(instruction_size));
- instruction->type = ComputeListInstruction::TYPE_SET_PUSH_CONSTANT;
- instruction->size = p_data_size;
- instruction->shader = p_shader;
- memcpy(instruction->data(), p_data, p_data_size);
- }
- void RenderingDeviceGraph::add_compute_list_uniform_set_prepare_for_use(RDD::ShaderID p_shader, RDD::UniformSetID p_uniform_set, uint32_t set_index) {
- ComputeListUniformSetPrepareForUseInstruction *instruction = reinterpret_cast<ComputeListUniformSetPrepareForUseInstruction *>(_allocate_compute_list_instruction(sizeof(ComputeListUniformSetPrepareForUseInstruction)));
- instruction->type = ComputeListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE;
- instruction->shader = p_shader;
- instruction->uniform_set = p_uniform_set;
- instruction->set_index = set_index;
- }
- void RenderingDeviceGraph::add_compute_list_usage(ResourceTracker *p_tracker, ResourceUsage p_usage) {
- DEV_ASSERT(p_tracker != nullptr);
- p_tracker->reset_if_outdated(tracking_frame);
- if (p_tracker->compute_list_index != compute_instruction_list.index) {
- compute_instruction_list.command_trackers.push_back(p_tracker);
- compute_instruction_list.command_tracker_usages.push_back(p_usage);
- p_tracker->compute_list_index = compute_instruction_list.index;
- p_tracker->compute_list_usage = p_usage;
- }
- #ifdef DEV_ENABLED
- else if (p_tracker->compute_list_usage != p_usage) {
- ERR_FAIL_MSG(vformat("Tracker can't have more than one type of usage in the same compute list. Compute list usage is %d and the requested usage is %d.", p_tracker->compute_list_usage, p_usage));
- }
- #endif
- }
- void RenderingDeviceGraph::add_compute_list_usages(VectorView<ResourceTracker *> p_trackers, VectorView<ResourceUsage> p_usages) {
- DEV_ASSERT(p_trackers.size() == p_usages.size());
- for (uint32_t i = 0; i < p_trackers.size(); i++) {
- add_compute_list_usage(p_trackers[i], p_usages[i]);
- }
- }
- void RenderingDeviceGraph::add_compute_list_end() {
- int32_t command_index;
- uint32_t instruction_data_size = compute_instruction_list.data.size();
- uint32_t command_size = sizeof(RecordedComputeListCommand) + instruction_data_size;
- RecordedComputeListCommand *command = static_cast<RecordedComputeListCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_COMPUTE_LIST;
- command->self_stages = compute_instruction_list.stages;
- command->instruction_data_size = instruction_data_size;
- memcpy(command->instruction_data(), compute_instruction_list.data.ptr(), instruction_data_size);
- _add_command_to_graph(compute_instruction_list.command_trackers.ptr(), compute_instruction_list.command_tracker_usages.ptr(), compute_instruction_list.command_trackers.size(), command_index, command);
- }
- void RenderingDeviceGraph::add_draw_list_begin(FramebufferCache *p_framebuffer_cache, Rect2i p_region, VectorView<AttachmentOperation> p_attachment_operations, VectorView<RDD::RenderPassClearValue> p_attachment_clear_values, bool p_uses_color, bool p_uses_depth, uint32_t p_breadcrumb, bool p_split_cmd_buffer) {
- _add_draw_list_begin(p_framebuffer_cache, RDD::RenderPassID(), RDD::FramebufferID(), p_region, p_attachment_operations, p_attachment_clear_values, p_uses_color, p_uses_depth, p_breadcrumb, p_split_cmd_buffer);
- }
- void RenderingDeviceGraph::add_draw_list_begin(RDD::RenderPassID p_render_pass, RDD::FramebufferID p_framebuffer, Rect2i p_region, VectorView<AttachmentOperation> p_attachment_operations, VectorView<RDD::RenderPassClearValue> p_attachment_clear_values, bool p_uses_color, bool p_uses_depth, uint32_t p_breadcrumb, bool p_split_cmd_buffer) {
- _add_draw_list_begin(nullptr, p_render_pass, p_framebuffer, p_region, p_attachment_operations, p_attachment_clear_values, p_uses_color, p_uses_depth, p_breadcrumb, p_split_cmd_buffer);
- }
- void RenderingDeviceGraph::add_draw_list_bind_index_buffer(RDD::BufferID p_buffer, RDD::IndexBufferFormat p_format, uint32_t p_offset) {
- DrawListBindIndexBufferInstruction *instruction = reinterpret_cast<DrawListBindIndexBufferInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListBindIndexBufferInstruction)));
- instruction->type = DrawListInstruction::TYPE_BIND_INDEX_BUFFER;
- instruction->buffer = p_buffer;
- instruction->format = p_format;
- instruction->offset = p_offset;
- if (instruction->buffer.id != 0) {
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_VERTEX_INPUT_BIT);
- }
- }
- void RenderingDeviceGraph::add_draw_list_bind_pipeline(RDD::PipelineID p_pipeline, BitField<RDD::PipelineStageBits> p_pipeline_stage_bits) {
- DrawListBindPipelineInstruction *instruction = reinterpret_cast<DrawListBindPipelineInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListBindPipelineInstruction)));
- instruction->type = DrawListInstruction::TYPE_BIND_PIPELINE;
- instruction->pipeline = p_pipeline;
- draw_instruction_list.stages = draw_instruction_list.stages | p_pipeline_stage_bits;
- }
- void RenderingDeviceGraph::add_draw_list_bind_uniform_set(RDD::ShaderID p_shader, RDD::UniformSetID p_uniform_set, uint32_t set_index) {
- add_draw_list_bind_uniform_sets(p_shader, VectorView(&p_uniform_set, 1), set_index, 1);
- }
- void RenderingDeviceGraph::add_draw_list_bind_uniform_sets(RDD::ShaderID p_shader, VectorView<RDD::UniformSetID> p_uniform_sets, uint32_t p_first_index, uint32_t p_set_count) {
- DEV_ASSERT(p_uniform_sets.size() >= p_set_count);
- uint32_t instruction_size = sizeof(DrawListBindUniformSetsInstruction) + sizeof(RDD::UniformSetID) * p_set_count;
- DrawListBindUniformSetsInstruction *instruction = reinterpret_cast<DrawListBindUniformSetsInstruction *>(_allocate_draw_list_instruction(instruction_size));
- instruction->type = DrawListInstruction::TYPE_BIND_UNIFORM_SETS;
- instruction->shader = p_shader;
- instruction->first_set_index = p_first_index;
- instruction->set_count = p_set_count;
- for (uint32_t i = 0; i < p_set_count; i++) {
- instruction->uniform_set_ids()[i] = p_uniform_sets[i];
- }
- }
- void RenderingDeviceGraph::add_draw_list_bind_vertex_buffers(VectorView<RDD::BufferID> p_vertex_buffers, VectorView<uint64_t> p_vertex_buffer_offsets) {
- DEV_ASSERT(p_vertex_buffers.size() == p_vertex_buffer_offsets.size());
- uint32_t instruction_size = sizeof(DrawListBindVertexBuffersInstruction) + sizeof(RDD::BufferID) * p_vertex_buffers.size() + sizeof(uint64_t) * p_vertex_buffer_offsets.size();
- DrawListBindVertexBuffersInstruction *instruction = reinterpret_cast<DrawListBindVertexBuffersInstruction *>(_allocate_draw_list_instruction(instruction_size));
- instruction->type = DrawListInstruction::TYPE_BIND_VERTEX_BUFFERS;
- instruction->vertex_buffers_count = p_vertex_buffers.size();
- RDD::BufferID *vertex_buffers = instruction->vertex_buffers();
- uint64_t *vertex_buffer_offsets = instruction->vertex_buffer_offsets();
- for (uint32_t i = 0; i < instruction->vertex_buffers_count; i++) {
- vertex_buffers[i] = p_vertex_buffers[i];
- vertex_buffer_offsets[i] = p_vertex_buffer_offsets[i];
- }
- if (instruction->vertex_buffers_count > 0) {
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_VERTEX_INPUT_BIT);
- }
- }
- void RenderingDeviceGraph::add_draw_list_clear_attachments(VectorView<RDD::AttachmentClear> p_attachments_clear, VectorView<Rect2i> p_attachments_clear_rect) {
- uint32_t instruction_size = sizeof(DrawListClearAttachmentsInstruction) + sizeof(RDD::AttachmentClear) * p_attachments_clear.size() + sizeof(Rect2i) * p_attachments_clear_rect.size();
- DrawListClearAttachmentsInstruction *instruction = reinterpret_cast<DrawListClearAttachmentsInstruction *>(_allocate_draw_list_instruction(instruction_size));
- instruction->type = DrawListInstruction::TYPE_CLEAR_ATTACHMENTS;
- instruction->attachments_clear_count = p_attachments_clear.size();
- instruction->attachments_clear_rect_count = p_attachments_clear_rect.size();
- RDD::AttachmentClear *attachments_clear = instruction->attachments_clear();
- Rect2i *attachments_clear_rect = instruction->attachments_clear_rect();
- for (uint32_t i = 0; i < instruction->attachments_clear_count; i++) {
- attachments_clear[i] = p_attachments_clear[i];
- }
- for (uint32_t i = 0; i < instruction->attachments_clear_rect_count; i++) {
- attachments_clear_rect[i] = p_attachments_clear_rect[i];
- }
- }
- void RenderingDeviceGraph::add_draw_list_draw(uint32_t p_vertex_count, uint32_t p_instance_count) {
- DrawListDrawInstruction *instruction = reinterpret_cast<DrawListDrawInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListDrawInstruction)));
- instruction->type = DrawListInstruction::TYPE_DRAW;
- instruction->vertex_count = p_vertex_count;
- instruction->instance_count = p_instance_count;
- }
- void RenderingDeviceGraph::add_draw_list_draw_indexed(uint32_t p_index_count, uint32_t p_instance_count, uint32_t p_first_index) {
- DrawListDrawIndexedInstruction *instruction = reinterpret_cast<DrawListDrawIndexedInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListDrawIndexedInstruction)));
- instruction->type = DrawListInstruction::TYPE_DRAW_INDEXED;
- instruction->index_count = p_index_count;
- instruction->instance_count = p_instance_count;
- instruction->first_index = p_first_index;
- }
- void RenderingDeviceGraph::add_draw_list_draw_indirect(RDD::BufferID p_buffer, uint32_t p_offset, uint32_t p_draw_count, uint32_t p_stride) {
- DrawListDrawIndirectInstruction *instruction = reinterpret_cast<DrawListDrawIndirectInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListDrawIndirectInstruction)));
- instruction->type = DrawListInstruction::TYPE_DRAW_INDIRECT;
- instruction->buffer = p_buffer;
- instruction->offset = p_offset;
- instruction->draw_count = p_draw_count;
- instruction->stride = p_stride;
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_DRAW_INDIRECT_BIT);
- }
- void RenderingDeviceGraph::add_draw_list_draw_indexed_indirect(RDD::BufferID p_buffer, uint32_t p_offset, uint32_t p_draw_count, uint32_t p_stride) {
- DrawListDrawIndexedIndirectInstruction *instruction = reinterpret_cast<DrawListDrawIndexedIndirectInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListDrawIndexedIndirectInstruction)));
- instruction->type = DrawListInstruction::TYPE_DRAW_INDEXED_INDIRECT;
- instruction->buffer = p_buffer;
- instruction->offset = p_offset;
- instruction->draw_count = p_draw_count;
- instruction->stride = p_stride;
- draw_instruction_list.stages.set_flag(RDD::PIPELINE_STAGE_DRAW_INDIRECT_BIT);
- }
- void RenderingDeviceGraph::add_draw_list_execute_commands(RDD::CommandBufferID p_command_buffer) {
- DrawListExecuteCommandsInstruction *instruction = reinterpret_cast<DrawListExecuteCommandsInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListExecuteCommandsInstruction)));
- instruction->type = DrawListInstruction::TYPE_EXECUTE_COMMANDS;
- instruction->command_buffer = p_command_buffer;
- }
- void RenderingDeviceGraph::add_draw_list_next_subpass(RDD::CommandBufferType p_command_buffer_type) {
- DrawListNextSubpassInstruction *instruction = reinterpret_cast<DrawListNextSubpassInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListNextSubpassInstruction)));
- instruction->type = DrawListInstruction::TYPE_NEXT_SUBPASS;
- instruction->command_buffer_type = p_command_buffer_type;
- }
- void RenderingDeviceGraph::add_draw_list_set_blend_constants(const Color &p_color) {
- DrawListSetBlendConstantsInstruction *instruction = reinterpret_cast<DrawListSetBlendConstantsInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListSetBlendConstantsInstruction)));
- instruction->type = DrawListInstruction::TYPE_SET_BLEND_CONSTANTS;
- instruction->color = p_color;
- }
- void RenderingDeviceGraph::add_draw_list_set_line_width(float p_width) {
- DrawListSetLineWidthInstruction *instruction = reinterpret_cast<DrawListSetLineWidthInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListSetLineWidthInstruction)));
- instruction->type = DrawListInstruction::TYPE_SET_LINE_WIDTH;
- instruction->width = p_width;
- }
- void RenderingDeviceGraph::add_draw_list_set_push_constant(RDD::ShaderID p_shader, const void *p_data, uint32_t p_data_size) {
- uint32_t instruction_size = sizeof(DrawListSetPushConstantInstruction) + p_data_size;
- DrawListSetPushConstantInstruction *instruction = reinterpret_cast<DrawListSetPushConstantInstruction *>(_allocate_draw_list_instruction(instruction_size));
- instruction->type = DrawListInstruction::TYPE_SET_PUSH_CONSTANT;
- instruction->size = p_data_size;
- instruction->shader = p_shader;
- memcpy(instruction->data(), p_data, p_data_size);
- }
- void RenderingDeviceGraph::add_draw_list_set_scissor(Rect2i p_rect) {
- DrawListSetScissorInstruction *instruction = reinterpret_cast<DrawListSetScissorInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListSetScissorInstruction)));
- instruction->type = DrawListInstruction::TYPE_SET_SCISSOR;
- instruction->rect = p_rect;
- }
- void RenderingDeviceGraph::add_draw_list_set_viewport(Rect2i p_rect) {
- DrawListSetViewportInstruction *instruction = reinterpret_cast<DrawListSetViewportInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListSetViewportInstruction)));
- instruction->type = DrawListInstruction::TYPE_SET_VIEWPORT;
- instruction->rect = p_rect;
- }
- void RenderingDeviceGraph::add_draw_list_uniform_set_prepare_for_use(RDD::ShaderID p_shader, RDD::UniformSetID p_uniform_set, uint32_t set_index) {
- DrawListUniformSetPrepareForUseInstruction *instruction = reinterpret_cast<DrawListUniformSetPrepareForUseInstruction *>(_allocate_draw_list_instruction(sizeof(DrawListUniformSetPrepareForUseInstruction)));
- instruction->type = DrawListInstruction::TYPE_UNIFORM_SET_PREPARE_FOR_USE;
- instruction->shader = p_shader;
- instruction->uniform_set = p_uniform_set;
- instruction->set_index = set_index;
- }
- void RenderingDeviceGraph::add_draw_list_usage(ResourceTracker *p_tracker, ResourceUsage p_usage) {
- p_tracker->reset_if_outdated(tracking_frame);
- if (p_tracker->draw_list_index != draw_instruction_list.index) {
- draw_instruction_list.command_trackers.push_back(p_tracker);
- draw_instruction_list.command_tracker_usages.push_back(p_usage);
- p_tracker->draw_list_index = draw_instruction_list.index;
- p_tracker->draw_list_usage = p_usage;
- }
- #ifdef DEV_ENABLED
- else if (p_tracker->draw_list_usage != p_usage) {
- ERR_FAIL_MSG(vformat("Tracker can't have more than one type of usage in the same draw list. Draw list usage is %d and the requested usage is %d.", p_tracker->draw_list_usage, p_usage));
- }
- #endif
- }
- void RenderingDeviceGraph::add_draw_list_usages(VectorView<ResourceTracker *> p_trackers, VectorView<ResourceUsage> p_usages) {
- DEV_ASSERT(p_trackers.size() == p_usages.size());
- for (uint32_t i = 0; i < p_trackers.size(); i++) {
- add_draw_list_usage(p_trackers[i], p_usages[i]);
- }
- }
- void RenderingDeviceGraph::add_draw_list_end() {
- FramebufferCache *framebuffer_cache = draw_instruction_list.framebuffer_cache;
- int32_t command_index;
- uint32_t clear_values_size = sizeof(RDD::RenderPassClearValue) * draw_instruction_list.attachment_clear_values.size();
- uint32_t trackers_count = framebuffer_cache != nullptr ? framebuffer_cache->trackers.size() : 0;
- uint32_t trackers_and_ops_size = (sizeof(ResourceTracker *) + sizeof(RDD::AttachmentLoadOp) + sizeof(RDD::AttachmentStoreOp)) * trackers_count;
- uint32_t instruction_data_size = draw_instruction_list.data.size();
- uint32_t command_size = sizeof(RecordedDrawListCommand) + clear_values_size + trackers_and_ops_size + instruction_data_size;
- RecordedDrawListCommand *command = static_cast<RecordedDrawListCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_DRAW_LIST;
- command->self_stages = draw_instruction_list.stages;
- command->framebuffer_cache = framebuffer_cache;
- command->render_pass = draw_instruction_list.render_pass;
- command->framebuffer = draw_instruction_list.framebuffer;
- command->instruction_data_size = instruction_data_size;
- command->command_buffer_type = RDD::COMMAND_BUFFER_TYPE_PRIMARY;
- command->region = draw_instruction_list.region;
- #if defined(DEBUG_ENABLED) || defined(DEV_ENABLED)
- command->breadcrumb = draw_instruction_list.breadcrumb;
- #endif
- command->split_cmd_buffer = draw_instruction_list.split_cmd_buffer;
- command->clear_values_count = draw_instruction_list.attachment_clear_values.size();
- command->trackers_count = trackers_count;
- // Initialize the load and store operations to their default behaviors. The store behavior will be modified if a command depends on the result of this render pass.
- uint32_t attachment_op_count = draw_instruction_list.attachment_operations.size();
- ResourceTracker **trackers = command->trackers();
- RDD::AttachmentLoadOp *load_ops = command->load_ops();
- RDD::AttachmentStoreOp *store_ops = command->store_ops();
- for (uint32_t i = 0; i < command->trackers_count; i++) {
- ResourceTracker *resource_tracker = framebuffer_cache->trackers[i];
- if (resource_tracker != nullptr) {
- if (i < command->clear_values_count && i < attachment_op_count && draw_instruction_list.attachment_operations[i] == ATTACHMENT_OPERATION_CLEAR) {
- load_ops[i] = RDD::ATTACHMENT_LOAD_OP_CLEAR;
- } else if (i < attachment_op_count && draw_instruction_list.attachment_operations[i] == ATTACHMENT_OPERATION_IGNORE) {
- load_ops[i] = RDD::ATTACHMENT_LOAD_OP_DONT_CARE;
- } else if (resource_tracker->is_discardable) {
- bool resource_has_parent = resource_tracker->parent != nullptr;
- ResourceTracker *search_tracker = resource_has_parent ? resource_tracker->parent : resource_tracker;
- search_tracker->reset_if_outdated(tracking_frame);
- bool resource_was_modified_this_frame = search_tracker->write_command_or_list_index >= 0;
- load_ops[i] = resource_was_modified_this_frame ? RDD::ATTACHMENT_LOAD_OP_LOAD : RDD::ATTACHMENT_LOAD_OP_DONT_CARE;
- } else {
- load_ops[i] = RDD::ATTACHMENT_LOAD_OP_LOAD;
- }
- store_ops[i] = resource_tracker->is_discardable ? RDD::ATTACHMENT_STORE_OP_DONT_CARE : RDD::ATTACHMENT_STORE_OP_STORE;
- } else {
- load_ops[i] = RDD::ATTACHMENT_LOAD_OP_DONT_CARE;
- store_ops[i] = RDD::ATTACHMENT_STORE_OP_DONT_CARE;
- }
- trackers[i] = resource_tracker;
- }
- RDD::RenderPassClearValue *clear_values = command->clear_values();
- for (uint32_t i = 0; i < command->clear_values_count; i++) {
- clear_values[i] = draw_instruction_list.attachment_clear_values[i];
- }
- memcpy(command->instruction_data(), draw_instruction_list.data.ptr(), instruction_data_size);
- _add_command_to_graph(draw_instruction_list.command_trackers.ptr(), draw_instruction_list.command_tracker_usages.ptr(), draw_instruction_list.command_trackers.size(), command_index, command);
- }
- void RenderingDeviceGraph::add_texture_clear(RDD::TextureID p_dst, ResourceTracker *p_dst_tracker, const Color &p_color, const RDD::TextureSubresourceRange &p_range) {
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- RecordedTextureClearCommand *command = static_cast<RecordedTextureClearCommand *>(_allocate_command(sizeof(RecordedTextureClearCommand), command_index));
- command->type = RecordedCommand::TYPE_TEXTURE_CLEAR;
- command->texture = p_dst;
- command->color = p_color;
- command->range = p_range;
- ResourceUsage usage;
- if (driver_clears_with_copy_engine) {
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- usage = RESOURCE_USAGE_COPY_TO;
- } else {
- // If the driver is uncapable of using the copy engine for clearing the image (e.g. D3D12), we must either transition the
- // resource to a render target or a storage image as that's the only two ways it can perform the operation.
- if (p_dst_tracker->texture_usage & RDD::TEXTURE_USAGE_COLOR_ATTACHMENT_BIT) {
- command->self_stages = RDD::PIPELINE_STAGE_COLOR_ATTACHMENT_OUTPUT_BIT;
- usage = RESOURCE_USAGE_ATTACHMENT_COLOR_READ_WRITE;
- } else {
- command->self_stages = RDD::PIPELINE_STAGE_CLEAR_STORAGE_BIT;
- usage = RESOURCE_USAGE_STORAGE_IMAGE_READ_WRITE;
- }
- }
- _add_command_to_graph(&p_dst_tracker, &usage, 1, command_index, command);
- }
- void RenderingDeviceGraph::add_texture_copy(RDD::TextureID p_src, ResourceTracker *p_src_tracker, RDD::TextureID p_dst, ResourceTracker *p_dst_tracker, VectorView<RDD::TextureCopyRegion> p_texture_copy_regions) {
- DEV_ASSERT(p_src_tracker != nullptr);
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- uint64_t command_size = sizeof(RecordedTextureCopyCommand) + p_texture_copy_regions.size() * sizeof(RDD::TextureCopyRegion);
- RecordedTextureCopyCommand *command = static_cast<RecordedTextureCopyCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_TEXTURE_COPY;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->from_texture = p_src;
- command->to_texture = p_dst;
- command->texture_copy_regions_count = p_texture_copy_regions.size();
- RDD::TextureCopyRegion *texture_copy_regions = command->texture_copy_regions();
- for (uint32_t i = 0; i < command->texture_copy_regions_count; i++) {
- texture_copy_regions[i] = p_texture_copy_regions[i];
- }
- ResourceTracker *trackers[2] = { p_dst_tracker, p_src_tracker };
- ResourceUsage usages[2] = { RESOURCE_USAGE_COPY_TO, RESOURCE_USAGE_COPY_FROM };
- _add_command_to_graph(trackers, usages, 2, command_index, command);
- }
- void RenderingDeviceGraph::add_texture_get_data(RDD::TextureID p_src, ResourceTracker *p_src_tracker, RDD::BufferID p_dst, VectorView<RDD::BufferTextureCopyRegion> p_buffer_texture_copy_regions, ResourceTracker *p_dst_tracker) {
- DEV_ASSERT(p_src_tracker != nullptr);
- int32_t command_index;
- uint64_t command_size = sizeof(RecordedTextureGetDataCommand) + p_buffer_texture_copy_regions.size() * sizeof(RDD::BufferTextureCopyRegion);
- RecordedTextureGetDataCommand *command = static_cast<RecordedTextureGetDataCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_TEXTURE_GET_DATA;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->from_texture = p_src;
- command->to_buffer = p_dst;
- command->buffer_texture_copy_regions_count = p_buffer_texture_copy_regions.size();
- RDD::BufferTextureCopyRegion *buffer_texture_copy_regions = command->buffer_texture_copy_regions();
- for (uint32_t i = 0; i < command->buffer_texture_copy_regions_count; i++) {
- buffer_texture_copy_regions[i] = p_buffer_texture_copy_regions[i];
- }
- if (p_dst_tracker != nullptr) {
- // Add the optional destination tracker if it was provided.
- ResourceTracker *trackers[2] = { p_dst_tracker, p_src_tracker };
- ResourceUsage usages[2] = { RESOURCE_USAGE_COPY_TO, RESOURCE_USAGE_COPY_FROM };
- _add_command_to_graph(trackers, usages, 2, command_index, command);
- } else {
- ResourceUsage usage = RESOURCE_USAGE_COPY_FROM;
- _add_command_to_graph(&p_src_tracker, &usage, 1, command_index, command);
- }
- }
- void RenderingDeviceGraph::add_texture_resolve(RDD::TextureID p_src, ResourceTracker *p_src_tracker, RDD::TextureID p_dst, ResourceTracker *p_dst_tracker, uint32_t p_src_layer, uint32_t p_src_mipmap, uint32_t p_dst_layer, uint32_t p_dst_mipmap) {
- DEV_ASSERT(p_src_tracker != nullptr);
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- RecordedTextureResolveCommand *command = static_cast<RecordedTextureResolveCommand *>(_allocate_command(sizeof(RecordedTextureResolveCommand), command_index));
- command->type = RecordedCommand::TYPE_TEXTURE_RESOLVE;
- command->self_stages = RDD::PIPELINE_STAGE_RESOLVE_BIT;
- command->from_texture = p_src;
- command->to_texture = p_dst;
- command->src_layer = p_src_layer;
- command->src_mipmap = p_src_mipmap;
- command->dst_layer = p_dst_layer;
- command->dst_mipmap = p_dst_mipmap;
- ResourceTracker *trackers[2] = { p_dst_tracker, p_src_tracker };
- ResourceUsage usages[2] = { RESOURCE_USAGE_RESOLVE_TO, RESOURCE_USAGE_RESOLVE_FROM };
- _add_command_to_graph(trackers, usages, 2, command_index, command);
- }
- void RenderingDeviceGraph::add_texture_update(RDD::TextureID p_dst, ResourceTracker *p_dst_tracker, VectorView<RecordedBufferToTextureCopy> p_buffer_copies, VectorView<ResourceTracker *> p_buffer_trackers) {
- DEV_ASSERT(p_dst_tracker != nullptr);
- int32_t command_index;
- uint64_t command_size = sizeof(RecordedTextureUpdateCommand) + p_buffer_copies.size() * sizeof(RecordedBufferToTextureCopy);
- RecordedTextureUpdateCommand *command = static_cast<RecordedTextureUpdateCommand *>(_allocate_command(command_size, command_index));
- command->type = RecordedCommand::TYPE_TEXTURE_UPDATE;
- command->self_stages = RDD::PIPELINE_STAGE_COPY_BIT;
- command->to_texture = p_dst;
- command->buffer_to_texture_copies_count = p_buffer_copies.size();
- RecordedBufferToTextureCopy *buffer_to_texture_copies = command->buffer_to_texture_copies();
- for (uint32_t i = 0; i < command->buffer_to_texture_copies_count; i++) {
- buffer_to_texture_copies[i] = p_buffer_copies[i];
- }
- if (p_buffer_trackers.size() > 0) {
- // Add the optional buffer trackers if they were provided.
- thread_local LocalVector<ResourceTracker *> trackers;
- thread_local LocalVector<ResourceUsage> usages;
- trackers.clear();
- usages.clear();
- for (uint32_t i = 0; i < p_buffer_trackers.size(); i++) {
- trackers.push_back(p_buffer_trackers[i]);
- usages.push_back(RESOURCE_USAGE_COPY_FROM);
- }
- trackers.push_back(p_dst_tracker);
- usages.push_back(RESOURCE_USAGE_COPY_TO);
- _add_command_to_graph(trackers.ptr(), usages.ptr(), trackers.size(), command_index, command);
- } else {
- ResourceUsage usage = RESOURCE_USAGE_COPY_TO;
- _add_command_to_graph(&p_dst_tracker, &usage, 1, command_index, command);
- }
- }
- void RenderingDeviceGraph::add_capture_timestamp(RDD::QueryPoolID p_query_pool, uint32_t p_index) {
- int32_t command_index;
- RecordedCaptureTimestampCommand *command = static_cast<RecordedCaptureTimestampCommand *>(_allocate_command(sizeof(RecordedCaptureTimestampCommand), command_index));
- command->type = RecordedCommand::TYPE_CAPTURE_TIMESTAMP;
- command->self_stages = 0;
- command->pool = p_query_pool;
- command->index = p_index;
- _add_command_to_graph(nullptr, nullptr, 0, command_index, command);
- }
- void RenderingDeviceGraph::add_synchronization() {
- // Synchronization is only acknowledged if commands have been recorded on the graph already.
- if (command_count > 0) {
- command_synchronization_pending = true;
- }
- }
- void RenderingDeviceGraph::begin_label(const String &p_label_name, const Color &p_color) {
- uint32_t command_label_offset = command_label_chars.size();
- PackedByteArray command_label_utf8 = p_label_name.to_utf8_buffer();
- int command_label_utf8_size = command_label_utf8.size();
- command_label_chars.resize(command_label_offset + command_label_utf8_size + 1);
- memcpy(&command_label_chars[command_label_offset], command_label_utf8.ptr(), command_label_utf8.size());
- command_label_chars[command_label_offset + command_label_utf8_size] = '\0';
- command_label_colors.push_back(p_color);
- command_label_offsets.push_back(command_label_offset);
- command_label_index = command_label_count;
- command_label_count++;
- }
- void RenderingDeviceGraph::end_label() {
- command_label_index = -1;
- }
- void RenderingDeviceGraph::end(bool p_reorder_commands, bool p_full_barriers, RDD::CommandBufferID &r_command_buffer, CommandBufferPool &r_command_buffer_pool) {
- if (command_count == 0) {
- // No commands have been logged, do nothing.
- return;
- }
- thread_local LocalVector<RecordedCommandSort> commands_sorted;
- if (p_reorder_commands) {
- thread_local LocalVector<int64_t> command_stack;
- thread_local LocalVector<int32_t> sorted_command_indices;
- thread_local LocalVector<uint32_t> command_degrees;
- int32_t adjacency_list_index = 0;
- int32_t command_index;
- // Count all the incoming connections to every node by traversing their adjacency list.
- command_degrees.resize(command_count);
- memset(command_degrees.ptr(), 0, sizeof(uint32_t) * command_degrees.size());
- for (uint32_t i = 0; i < command_count; i++) {
- const RecordedCommand &recorded_command = *reinterpret_cast<const RecordedCommand *>(&command_data[command_data_offsets[i]]);
- adjacency_list_index = recorded_command.adjacent_command_list_index;
- while (adjacency_list_index >= 0) {
- const RecordedCommandListNode &command_list_node = command_list_nodes[adjacency_list_index];
- DEV_ASSERT((command_list_node.command_index != int32_t(i)) && "Command can't have itself as a dependency.");
- command_degrees[command_list_node.command_index] += 1;
- adjacency_list_index = command_list_node.next_list_index;
- }
- }
- // Push to the stack all nodes that have no incoming connections.
- command_stack.clear();
- for (uint32_t i = 0; i < command_count; i++) {
- if (command_degrees[i] == 0) {
- command_stack.push_back(i);
- }
- }
- sorted_command_indices.clear();
- while (!command_stack.is_empty()) {
- // Pop command from the stack.
- command_index = command_stack[command_stack.size() - 1];
- command_stack.resize(command_stack.size() - 1);
- // Add it to the sorted commands.
- sorted_command_indices.push_back(command_index);
- // Search for its adjacents and lower their degree for every visit. If the degree reaches zero, we push the command to the stack.
- const uint32_t command_data_offset = command_data_offsets[command_index];
- const RecordedCommand &recorded_command = *reinterpret_cast<const RecordedCommand *>(&command_data[command_data_offset]);
- adjacency_list_index = recorded_command.adjacent_command_list_index;
- while (adjacency_list_index >= 0) {
- const RecordedCommandListNode &command_list_node = command_list_nodes[adjacency_list_index];
- uint32_t &command_degree = command_degrees[command_list_node.command_index];
- DEV_ASSERT(command_degree > 0);
- command_degree--;
- if (command_degree == 0) {
- command_stack.push_back(command_list_node.command_index);
- }
- adjacency_list_index = command_list_node.next_list_index;
- }
- }
- // Batch buffer, texture, draw lists and compute operations together.
- const uint32_t PriorityTable[RecordedCommand::TYPE_MAX] = {
- 0, // TYPE_NONE
- 1, // TYPE_BUFFER_CLEAR
- 1, // TYPE_BUFFER_COPY
- 1, // TYPE_BUFFER_GET_DATA
- 1, // TYPE_BUFFER_UPDATE
- 4, // TYPE_COMPUTE_LIST
- 3, // TYPE_DRAW_LIST
- 2, // TYPE_TEXTURE_CLEAR
- 2, // TYPE_TEXTURE_COPY
- 2, // TYPE_TEXTURE_GET_DATA
- 2, // TYPE_TEXTURE_RESOLVE
- 2, // TYPE_TEXTURE_UPDATE
- 2, // TYPE_INSERT_BREADCRUMB
- };
- commands_sorted.clear();
- commands_sorted.resize(command_count);
- for (uint32_t i = 0; i < command_count; i++) {
- const int32_t sorted_command_index = sorted_command_indices[i];
- const uint32_t command_data_offset = command_data_offsets[sorted_command_index];
- const RecordedCommand recorded_command = *reinterpret_cast<const RecordedCommand *>(&command_data[command_data_offset]);
- const uint32_t next_command_level = commands_sorted[sorted_command_index].level + 1;
- adjacency_list_index = recorded_command.adjacent_command_list_index;
- while (adjacency_list_index >= 0) {
- const RecordedCommandListNode &command_list_node = command_list_nodes[adjacency_list_index];
- uint32_t &adjacent_command_level = commands_sorted[command_list_node.command_index].level;
- if (adjacent_command_level < next_command_level) {
- adjacent_command_level = next_command_level;
- }
- adjacency_list_index = command_list_node.next_list_index;
- }
- commands_sorted[sorted_command_index].index = sorted_command_index;
- commands_sorted[sorted_command_index].priority = PriorityTable[recorded_command.type];
- }
- } else {
- commands_sorted.clear();
- commands_sorted.resize(command_count);
- for (uint32_t i = 0; i < command_count; i++) {
- commands_sorted[i].index = i;
- }
- }
- _wait_for_secondary_command_buffer_tasks();
- if (command_count > 0) {
- int32_t current_label_index = -1;
- int32_t current_label_level = -1;
- _run_label_command_change(r_command_buffer, -1, -1, true, true, nullptr, 0, current_label_index, current_label_level);
- if (device.workarounds.avoid_compute_after_draw) {
- // Reset the state of the workaround.
- workarounds_state.draw_list_found = false;
- }
- if (p_reorder_commands) {
- #if PRINT_RENDER_GRAPH
- print_line("BEFORE SORT");
- _print_render_commands(commands_sorted.ptr(), command_count);
- #endif
- commands_sorted.sort();
- #if PRINT_RENDER_GRAPH
- print_line("AFTER SORT");
- _print_render_commands(commands_sorted.ptr(), command_count);
- #endif
- #if PRINT_COMMAND_RECORDING
- print_line(vformat("Recording %d commands", command_count));
- #endif
- uint32_t boosted_priority = 0;
- uint32_t current_level = commands_sorted[0].level;
- uint32_t current_level_start = 0;
- for (uint32_t i = 0; i < command_count; i++) {
- if (current_level != commands_sorted[i].level) {
- RecordedCommandSort *level_command_ptr = &commands_sorted[current_level_start];
- uint32_t level_command_count = i - current_level_start;
- _boost_priority_for_render_commands(level_command_ptr, level_command_count, boosted_priority);
- _group_barriers_for_render_commands(r_command_buffer, level_command_ptr, level_command_count, p_full_barriers);
- _run_render_commands(current_level, level_command_ptr, level_command_count, r_command_buffer, r_command_buffer_pool, current_label_index, current_label_level);
- current_level = commands_sorted[i].level;
- current_level_start = i;
- }
- }
- RecordedCommandSort *level_command_ptr = &commands_sorted[current_level_start];
- uint32_t level_command_count = command_count - current_level_start;
- _boost_priority_for_render_commands(level_command_ptr, level_command_count, boosted_priority);
- _group_barriers_for_render_commands(r_command_buffer, level_command_ptr, level_command_count, p_full_barriers);
- _run_render_commands(current_level, level_command_ptr, level_command_count, r_command_buffer, r_command_buffer_pool, current_label_index, current_label_level);
- #if PRINT_RENDER_GRAPH
- print_line("COMMANDS", command_count, "LEVELS", current_level + 1);
- #endif
- } else {
- for (uint32_t i = 0; i < command_count; i++) {
- _group_barriers_for_render_commands(r_command_buffer, &commands_sorted[i], 1, p_full_barriers);
- _run_render_commands(i, &commands_sorted[i], 1, r_command_buffer, r_command_buffer_pool, current_label_index, current_label_level);
- }
- }
- _run_label_command_change(r_command_buffer, -1, -1, false, false, nullptr, 0, current_label_index, current_label_level);
- #if PRINT_COMMAND_RECORDING
- print_line(vformat("Recorded %d commands", command_count));
- #endif
- }
- // Advance the frame counter. It's not necessary to do this if no commands are recorded because that means no secondary command buffers were used.
- frame = (frame + 1) % frames.size();
- }
- #if PRINT_RESOURCE_TRACKER_TOTAL
- static uint32_t resource_tracker_total = 0;
- #endif
- RenderingDeviceGraph::ResourceTracker *RenderingDeviceGraph::resource_tracker_create() {
- #if PRINT_RESOURCE_TRACKER_TOTAL
- print_line("Resource trackers:", ++resource_tracker_total);
- #endif
- return memnew(ResourceTracker);
- }
- void RenderingDeviceGraph::resource_tracker_free(ResourceTracker *p_tracker) {
- if (p_tracker == nullptr) {
- return;
- }
- if (p_tracker->in_parent_dirty_list) {
- // Delete the tracker from the parent's dirty linked list.
- if (p_tracker->parent->dirty_shared_list == p_tracker) {
- p_tracker->parent->dirty_shared_list = p_tracker->next_shared;
- } else {
- ResourceTracker *node = p_tracker->parent->dirty_shared_list;
- while (node != nullptr) {
- if (node->next_shared == p_tracker) {
- node->next_shared = p_tracker->next_shared;
- node = nullptr;
- } else {
- node = node->next_shared;
- }
- }
- }
- }
- memdelete(p_tracker);
- #if PRINT_RESOURCE_TRACKER_TOTAL
- print_line("Resource trackers:", --resource_tracker_total);
- #endif
- }
- RenderingDeviceGraph::FramebufferCache *RenderingDeviceGraph::framebuffer_cache_create() {
- return memnew(FramebufferCache);
- }
- void RenderingDeviceGraph::framebuffer_cache_free(RDD *p_driver, FramebufferCache *p_cache) {
- DEV_ASSERT(p_driver != nullptr);
- if (p_cache == nullptr) {
- return;
- }
- for (KeyValue<uint64_t, FramebufferStorage> &E : p_cache->storage_map) {
- p_driver->framebuffer_free(E.value.framebuffer);
- p_driver->render_pass_free(E.value.render_pass);
- }
- memdelete(p_cache);
- }
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