// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "lib/jxl/render_pipeline/render_pipeline.h" #include #include "lib/jxl/render_pipeline/low_memory_render_pipeline.h" #include "lib/jxl/render_pipeline/simple_render_pipeline.h" #include "lib/jxl/sanitizers.h" namespace jxl { void RenderPipeline::Builder::AddStage( std::unique_ptr stage) { stages_.push_back(std::move(stage)); } std::unique_ptr RenderPipeline::Builder::Finalize( FrameDimensions frame_dimensions) && { #if JXL_ENABLE_ASSERT // Check that the last stage is not an kInOut stage for any channel, and that // there is at least one stage. JXL_ASSERT(!stages_.empty()); for (size_t c = 0; c < num_c_; c++) { JXL_ASSERT(stages_.back()->GetChannelMode(c) != RenderPipelineChannelMode::kInOut); } #endif std::unique_ptr res; if (use_simple_implementation_) { res = jxl::make_unique(); } else { res = jxl::make_unique(); } res->padding_.resize(stages_.size()); for (size_t i = stages_.size(); i-- > 0;) { const auto& stage = stages_[i]; res->padding_[i].resize(num_c_); if (i + 1 == stages_.size()) { continue; } for (size_t c = 0; c < num_c_; c++) { if (stage->GetChannelMode(c) == RenderPipelineChannelMode::kInOut) { res->padding_[i][c].first = DivCeil(res->padding_[i + 1][c].first, 1 << stage->settings_.shift_x) + stage->settings_.border_x; res->padding_[i][c].second = DivCeil(res->padding_[i + 1][c].second, 1 << stage->settings_.shift_y) + stage->settings_.border_y; } else { res->padding_[i][c] = res->padding_[i + 1][c]; } } } res->frame_dimensions_ = frame_dimensions; res->group_completed_passes_.resize(frame_dimensions.num_groups); res->channel_shifts_.resize(stages_.size()); res->channel_shifts_[0].resize(num_c_); for (size_t i = 1; i < stages_.size(); i++) { auto& stage = stages_[i - 1]; for (size_t c = 0; c < num_c_; c++) { if (stage->GetChannelMode(c) == RenderPipelineChannelMode::kInOut) { res->channel_shifts_[0][c].first += stage->settings_.shift_x; res->channel_shifts_[0][c].second += stage->settings_.shift_y; } } } for (size_t i = 1; i < stages_.size(); i++) { auto& stage = stages_[i - 1]; res->channel_shifts_[i].resize(num_c_); for (size_t c = 0; c < num_c_; c++) { if (stage->GetChannelMode(c) == RenderPipelineChannelMode::kInOut) { res->channel_shifts_[i][c].first = res->channel_shifts_[i - 1][c].first - stage->settings_.shift_x; res->channel_shifts_[i][c].second = res->channel_shifts_[i - 1][c].second - stage->settings_.shift_y; } else { res->channel_shifts_[i][c].first = res->channel_shifts_[i - 1][c].first; res->channel_shifts_[i][c].second = res->channel_shifts_[i - 1][c].second; } } } res->stages_ = std::move(stages_); res->Init(); return res; } RenderPipelineInput RenderPipeline::GetInputBuffers(size_t group_id, size_t thread_id) { RenderPipelineInput ret; JXL_DASSERT(group_id < group_completed_passes_.size()); ret.group_id_ = group_id; ret.thread_id_ = thread_id; ret.pipeline_ = this; ret.buffers_ = PrepareBuffers(group_id, thread_id); return ret; } void RenderPipeline::InputReady( size_t group_id, size_t thread_id, const std::vector>& buffers) { JXL_DASSERT(group_id < group_completed_passes_.size()); group_completed_passes_[group_id]++; for (const auto& buf : buffers) { (void)buf; JXL_CHECK_IMAGE_INITIALIZED(*buf.first, buf.second); } ProcessBuffers(group_id, thread_id); } Status RenderPipeline::PrepareForThreads(size_t num, bool use_group_ids) { for (const auto& stage : stages_) { JXL_RETURN_IF_ERROR(stage->PrepareForThreads(num)); } PrepareForThreadsInternal(num, use_group_ids); return true; } void RenderPipelineInput::Done() { JXL_ASSERT(pipeline_); pipeline_->InputReady(group_id_, thread_id_, buffers_); } } // namespace jxl