/src/libjxl/lib/jxl/dec_cache.cc

Source (jump to first uncovered line)
// 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/dec_cache.h"

#include <jxl/memory_manager.h>

#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <utility>

#include "lib/jxl/ac_strategy.h"
#include "lib/jxl/base/bits.h"
#include "lib/jxl/base/data_parallel.h"
#include "lib/jxl/base/status.h"
#include "lib/jxl/blending.h"
#include "lib/jxl/coeff_order.h"
#include "lib/jxl/color_encoding_internal.h"
#include "lib/jxl/common.h"  // JXL_HIGH_PRECISION
#include "lib/jxl/frame_dimensions.h"
#include "lib/jxl/frame_header.h"
#include "lib/jxl/image.h"
#include "lib/jxl/image_bundle.h"
#include "lib/jxl/image_metadata.h"
#include "lib/jxl/loop_filter.h"
#include "lib/jxl/memory_manager_internal.h"
#include "lib/jxl/render_pipeline/render_pipeline.h"
#include "lib/jxl/render_pipeline/stage_blending.h"
#include "lib/jxl/render_pipeline/stage_chroma_upsampling.h"
#include "lib/jxl/render_pipeline/stage_cms.h"
#include "lib/jxl/render_pipeline/stage_epf.h"
#include "lib/jxl/render_pipeline/stage_from_linear.h"
#include "lib/jxl/render_pipeline/stage_gaborish.h"
#include "lib/jxl/render_pipeline/stage_noise.h"
#include "lib/jxl/render_pipeline/stage_patches.h"
#include "lib/jxl/render_pipeline/stage_splines.h"
#include "lib/jxl/render_pipeline/stage_spot.h"
#include "lib/jxl/render_pipeline/stage_to_linear.h"
#include "lib/jxl/render_pipeline/stage_tone_mapping.h"
#include "lib/jxl/render_pipeline/stage_upsampling.h"
#include "lib/jxl/render_pipeline/stage_write.h"
#include "lib/jxl/render_pipeline/stage_xyb.h"
#include "lib/jxl/render_pipeline/stage_ycbcr.h"

namespace jxl {

Status GroupDecCache::InitOnce(JxlMemoryManager* memory_manager,
                               size_t num_passes, size_t used_acs) {
  for (size_t i = 0; i < num_passes; i++) {
    if (num_nzeroes[i].xsize() == 0) {
      // Allocate enough for a whole group - partial groups on the
      // right/bottom border just use a subset. The valid size is passed via
      // Rect.

      JXL_ASSIGN_OR_RETURN(num_nzeroes[i],
                           Image3I::Create(memory_manager, kGroupDimInBlocks,
                                           kGroupDimInBlocks));
    }
  }
  size_t max_block_area = 0;

  for (uint8_t o = 0; o < AcStrategy::kNumValidStrategies; ++o) {
    AcStrategy acs = AcStrategy::FromRawStrategy(o);
    if ((used_acs & (1 << o)) == 0) continue;
    size_t area =
        acs.covered_blocks_x() * acs.covered_blocks_y() * kDCTBlockSize;
    max_block_area = std::max(area, max_block_area);
  }

  if (max_block_area > max_block_area_) {
    max_block_area_ = max_block_area;
    // We need 3x float blocks for dequantized coefficients and 1x for scratch
    // space for transforms.
    JXL_ASSIGN_OR_RETURN(
        float_memory_,
        AlignedMemory::Create(memory_manager,
                              max_block_area_ * 7 * sizeof(float)));
    // We need 3x int32 or int16 blocks for quantized coefficients.
    JXL_ASSIGN_OR_RETURN(
        int32_memory_,
        AlignedMemory::Create(memory_manager,
                              max_block_area_ * 3 * sizeof(int32_t)));
    JXL_ASSIGN_OR_RETURN(
        int16_memory_,
        AlignedMemory::Create(memory_manager,
                              max_block_area_ * 3 * sizeof(int16_t)));
  }

  dec_group_block = float_memory_.address<float>();
  scratch_space = dec_group_block + max_block_area_ * 3;
  dec_group_qblock = int32_memory_.address<int32_t>();
  dec_group_qblock16 = int16_memory_.address<int16_t>();
  return true;
}

// Initialize the decoder state after all of DC is decoded.
Status PassesDecoderState::InitForAC(size_t num_passes, ThreadPool* pool) {
  shared_storage.coeff_order_size = 0;
  for (uint8_t o = 0; o < AcStrategy::kNumValidStrategies; ++o) {
    if (((1 << o) & used_acs) == 0) continue;
    uint8_t ord = kStrategyOrder[o];
    shared_storage.coeff_order_size =
        std::max(kCoeffOrderOffset[3 * (ord + 1)] * kDCTBlockSize,
                 shared_storage.coeff_order_size);
  }
  size_t sz = num_passes * shared_storage.coeff_order_size;
  if (sz > shared_storage.coeff_orders.size()) {
    shared_storage.coeff_orders.resize(sz);
  }
  return true;
}

Status PassesDecoderState::PreparePipeline(const FrameHeader& frame_header,
                                           const ImageMetadata* metadata,
                                           ImageBundle* decoded,
                                           PipelineOptions options) {
  JxlMemoryManager* memory_manager = this->memory_manager();
  size_t num_c = 3 + frame_header.nonserialized_metadata->m.num_extra_channels;
  bool render_noise =
      (options.render_noise && (frame_header.flags & FrameHeader::kNoise) != 0);
  size_t num_tmp_c = render_noise ? 3 : 0;

  if (frame_header.CanBeReferenced()) {
    // Necessary so that SetInputSizes() can allocate output buffers as needed.
    frame_storage_for_referencing = ImageBundle(memory_manager, metadata);
  }

  RenderPipeline::Builder builder(memory_manager, num_c + num_tmp_c);

  if (options.use_slow_render_pipeline) {
    builder.UseSimpleImplementation();
  }

  if (!frame_header.chroma_subsampling.Is444()) {
    for (size_t c = 0; c < 3; c++) {
      if (frame_header.chroma_subsampling.HShift(c) != 0) {
        JXL_RETURN_IF_ERROR(
            builder.AddStage(GetChromaUpsamplingStage(c, /*horizontal=*/true)));
      }
      if (frame_header.chroma_subsampling.VShift(c) != 0) {
        JXL_RETURN_IF_ERROR(builder.AddStage(
            GetChromaUpsamplingStage(c, /*horizontal=*/false)));
      }
    }
  }

  if (frame_header.loop_filter.gab) {
    JXL_RETURN_IF_ERROR(
        builder.AddStage(GetGaborishStage(frame_header.loop_filter)));
  }

  {
    const LoopFilter& lf = frame_header.loop_filter;
    if (lf.epf_iters >= 3) {
      JXL_RETURN_IF_ERROR(
          builder.AddStage(GetEPFStage(lf, sigma, EpfStage::Zero)));
    }
    if (lf.epf_iters >= 1) {
      JXL_RETURN_IF_ERROR(
          builder.AddStage(GetEPFStage(lf, sigma, EpfStage::One)));
    }
    if (lf.epf_iters >= 2) {
      JXL_RETURN_IF_ERROR(
          builder.AddStage(GetEPFStage(lf, sigma, EpfStage::Two)));
    }
  }

  bool late_ec_upsample = frame_header.upsampling != 1;
  for (auto ecups : frame_header.extra_channel_upsampling) {
    if (ecups != frame_header.upsampling) {
      // If patches are applied, either frame_header.upsampling == 1 or
      // late_ec_upsample is true.
      late_ec_upsample = false;
    }
  }

  if (!late_ec_upsample) {
    for (size_t ec = 0; ec < frame_header.extra_channel_upsampling.size();
         ec++) {
      if (frame_header.extra_channel_upsampling[ec] != 1) {
        JXL_RETURN_IF_ERROR(builder.AddStage(GetUpsamplingStage(
            frame_header.nonserialized_metadata->transform_data, 3 + ec,
            CeilLog2Nonzero(frame_header.extra_channel_upsampling[ec]))));
      }
    }
  }

  if ((frame_header.flags & FrameHeader::kPatches) != 0) {
    JXL_RETURN_IF_ERROR(builder.AddStage(GetPatchesStage(
        &shared->image_features.patches,
        &frame_header.nonserialized_metadata->m.extra_channel_info)));
  }
  if ((frame_header.flags & FrameHeader::kSplines) != 0) {
    JXL_RETURN_IF_ERROR(
        builder.AddStage(GetSplineStage(&shared->image_features.splines)));
  }

  if (frame_header.upsampling != 1) {
    size_t nb_channels =
        3 +
        (late_ec_upsample ? frame_header.extra_channel_upsampling.size() : 0);
    for (size_t c = 0; c < nb_channels; c++) {
      JXL_RETURN_IF_ERROR(builder.AddStage(GetUpsamplingStage(
          frame_header.nonserialized_metadata->transform_data, c,
          CeilLog2Nonzero(frame_header.upsampling))));
    }
  }
  if (render_noise) {
    JXL_RETURN_IF_ERROR(builder.AddStage(GetConvolveNoiseStage(num_c)));
    JXL_RETURN_IF_ERROR(builder.AddStage(GetAddNoiseStage(
        shared->image_features.noise_params, shared->cmap.base(), num_c)));
  }
  if (frame_header.dc_level != 0) {
    JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImage3FStage(
        memory_manager, &shared_storage.dc_frames[frame_header.dc_level - 1])));
  }

  if (frame_header.CanBeReferenced() &&
      frame_header.save_before_color_transform) {
    JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImageBundleStage(
        &frame_storage_for_referencing, output_encoding_info)));
  }

  bool has_alpha = false;
  size_t alpha_c = 0;
  for (size_t i = 0; i < metadata->extra_channel_info.size(); i++) {
    if (metadata->extra_channel_info[i].type == ExtraChannel::kAlpha) {
      has_alpha = true;
      alpha_c = 3 + i;
      break;
    }
  }

  if (fast_xyb_srgb8_conversion) {
#if !JXL_HIGH_PRECISION
    JXL_ENSURE(!NeedsBlending(frame_header));
    JXL_ENSURE(!frame_header.CanBeReferenced() ||
               frame_header.save_before_color_transform);
    JXL_ENSURE(!options.render_spotcolors ||
               !metadata->Find(ExtraChannel::kSpotColor));
    bool is_rgba = (main_output.format.num_channels == 4);
    uint8_t* rgb_output = reinterpret_cast<uint8_t*>(main_output.buffer);
    JXL_RETURN_IF_ERROR(builder.AddStage(
        GetFastXYBTosRGB8Stage(rgb_output, main_output.stride, width, height,
                               is_rgba, has_alpha, alpha_c)));
#endif
  } else {
    bool linear = false;
    if (frame_header.color_transform == ColorTransform::kYCbCr) {
      JXL_RETURN_IF_ERROR(builder.AddStage(GetYCbCrStage()));
    } else if (frame_header.color_transform == ColorTransform::kXYB) {
      JXL_RETURN_IF_ERROR(builder.AddStage(GetXYBStage(output_encoding_info)));
      if (output_encoding_info.color_encoding.GetColorSpace() !=
          ColorSpace::kXYB) {
        linear = true;
      }
    }  // Nothing to do for kNone.

    if (options.coalescing && NeedsBlending(frame_header)) {
      if (linear) {
        JXL_RETURN_IF_ERROR(
            builder.AddStage(GetFromLinearStage(output_encoding_info)));
        linear = false;
      }
      JXL_RETURN_IF_ERROR(builder.AddStage(GetBlendingStage(
          frame_header, this, output_encoding_info.color_encoding)));
    }

    if (options.coalescing && frame_header.CanBeReferenced() &&
        !frame_header.save_before_color_transform) {
      if (linear) {
        JXL_RETURN_IF_ERROR(
            builder.AddStage(GetFromLinearStage(output_encoding_info)));
        linear = false;
      }
      JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImageBundleStage(
          &frame_storage_for_referencing, output_encoding_info)));
    }

    if (options.render_spotcolors &&
        frame_header.nonserialized_metadata->m.Find(ExtraChannel::kSpotColor)) {
      for (size_t i = 0; i < metadata->extra_channel_info.size(); i++) {
        // Don't use Find() because there may be multiple spot color channels.
        const ExtraChannelInfo& eci = metadata->extra_channel_info[i];
        if (eci.type == ExtraChannel::kSpotColor) {
          JXL_RETURN_IF_ERROR(
              builder.AddStage(GetSpotColorStage(i, eci.spot_color)));
        }
      }
    }

    auto tone_mapping_stage = GetToneMappingStage(output_encoding_info);
    if (tone_mapping_stage) {
      if (!linear) {
        auto to_linear_stage = GetToLinearStage(output_encoding_info);
        if (!to_linear_stage) {
          if (!output_encoding_info.cms_set) {
            return JXL_FAILURE("Cannot tonemap this colorspace without a CMS");
          }
          auto cms_stage = GetCmsStage(output_encoding_info);
          if (cms_stage) {
            JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
          }
        } else {
          JXL_RETURN_IF_ERROR(builder.AddStage(std::move(to_linear_stage)));
        }
        linear = true;
      }
      JXL_RETURN_IF_ERROR(builder.AddStage(std::move(tone_mapping_stage)));
    }

    if (linear) {
      const size_t channels_src =
          (output_encoding_info.orig_color_encoding.IsCMYK()
               ? 4
               : output_encoding_info.orig_color_encoding.Channels());
      const size_t channels_dst =
          output_encoding_info.color_encoding.Channels();
      bool mixing_color_and_grey = (channels_dst != channels_src);
      if ((output_encoding_info.color_encoding_is_original) ||
          (!output_encoding_info.cms_set) || mixing_color_and_grey) {
        // in those cases we only need a linear stage in other cases we attempt
        // to obtain a cms stage: the cases are
        // - output_encoding_info.color_encoding_is_original: no cms stage
        // needed because it would be a no-op
        // - !output_encoding_info.cms_set: can't use the cms, so no point in
        // trying to add a cms stage
        // - mixing_color_and_grey: cms stage can't handle that
        // TODO(firsching): remove "mixing_color_and_grey" condition after
        // adding support for greyscale to cms stage.
        JXL_RETURN_IF_ERROR(
            builder.AddStage(GetFromLinearStage(output_encoding_info)));
      } else {
        if (!output_encoding_info.linear_color_encoding.CreateICC()) {
          return JXL_FAILURE("Failed to create ICC");
        }
        auto cms_stage = GetCmsStage(output_encoding_info);
        if (cms_stage) {
          JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
        }
      }
      linear = false;
    } else {
      auto cms_stage = GetCmsStage(output_encoding_info, false);
      if (cms_stage) {
        JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
      }
    }
    (void)linear;

    if (main_output.callback.IsPresent() || main_output.buffer) {
      JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToOutputStage(
          main_output, width, height, has_alpha, unpremul_alpha, alpha_c,
          undo_orientation, extra_output, memory_manager)));
    } else {
      JXL_RETURN_IF_ERROR(builder.AddStage(
          GetWriteToImageBundleStage(decoded, output_encoding_info)));
    }
  }
  JXL_ASSIGN_OR_RETURN(render_pipeline,
                       std::move(builder).Finalize(shared->frame_dim));
  return render_pipeline->IsInitialized();
}

}  // namespace jxl

Coverage Report

Created: 2025-07-23 08:18

Line	Count	Source (jump to first uncovered line)
1		// Copyright (c) the JPEG XL Project Authors. All rights reserved.
2		//
3		// Use of this source code is governed by a BSD-style
4		// license that can be found in the LICENSE file.
5
6		#include "lib/jxl/dec_cache.h"
7
8		#include <jxl/memory_manager.h>
9
10		#include <algorithm>
11		#include <cstddef>
12		#include <cstdint>
13		#include <utility>
14
15		#include "lib/jxl/ac_strategy.h"
16		#include "lib/jxl/base/bits.h"
17		#include "lib/jxl/base/data_parallel.h"
18		#include "lib/jxl/base/status.h"
19		#include "lib/jxl/blending.h"
20		#include "lib/jxl/coeff_order.h"
21		#include "lib/jxl/color_encoding_internal.h"
22		#include "lib/jxl/common.h" // JXL_HIGH_PRECISION
23		#include "lib/jxl/frame_dimensions.h"
24		#include "lib/jxl/frame_header.h"
25		#include "lib/jxl/image.h"
26		#include "lib/jxl/image_bundle.h"
27		#include "lib/jxl/image_metadata.h"
28		#include "lib/jxl/loop_filter.h"
29		#include "lib/jxl/memory_manager_internal.h"
30		#include "lib/jxl/render_pipeline/render_pipeline.h"
31		#include "lib/jxl/render_pipeline/stage_blending.h"
32		#include "lib/jxl/render_pipeline/stage_chroma_upsampling.h"
33		#include "lib/jxl/render_pipeline/stage_cms.h"
34		#include "lib/jxl/render_pipeline/stage_epf.h"
35		#include "lib/jxl/render_pipeline/stage_from_linear.h"
36		#include "lib/jxl/render_pipeline/stage_gaborish.h"
37		#include "lib/jxl/render_pipeline/stage_noise.h"
38		#include "lib/jxl/render_pipeline/stage_patches.h"
39		#include "lib/jxl/render_pipeline/stage_splines.h"
40		#include "lib/jxl/render_pipeline/stage_spot.h"
41		#include "lib/jxl/render_pipeline/stage_to_linear.h"
42		#include "lib/jxl/render_pipeline/stage_tone_mapping.h"
43		#include "lib/jxl/render_pipeline/stage_upsampling.h"
44		#include "lib/jxl/render_pipeline/stage_write.h"
45		#include "lib/jxl/render_pipeline/stage_xyb.h"
46		#include "lib/jxl/render_pipeline/stage_ycbcr.h"
47
48		namespace jxl {
49
50		Status GroupDecCache::InitOnce(JxlMemoryManager* memory_manager,
51	16.7k	size_t num_passes, size_t used_acs) {
52	17.8k	for (size_t i = 0; i < num_passes; i++) {
53	1.10k	if (num_nzeroes[i].xsize() == 0) {
54		// Allocate enough for a whole group - partial groups on the
55		// right/bottom border just use a subset. The valid size is passed via
56		// Rect.
57
58	1.05k	JXL_ASSIGN_OR_RETURN(num_nzeroes[i],
59	1.05k	Image3I::Create(memory_manager, kGroupDimInBlocks,
60	1.05k	kGroupDimInBlocks));
61	1.05k	}
62	1.10k	}
63	16.7k	size_t max_block_area = 0;
64
65	470k	for (uint8_t o = 0; o < AcStrategy::kNumValidStrategies; ++o) {
66	453k	AcStrategy acs = AcStrategy::FromRawStrategy(o);
67	453k	if ((used_acs & (1 << o)) == 0) continue;
68	427k	size_t area =
69	427k	acs.covered_blocks_x() * acs.covered_blocks_y() * kDCTBlockSize;
70	427k	max_block_area = std::max(area, max_block_area);
71	427k	}
72
73	16.7k	if (max_block_area > max_block_area_) {
74	7.39k	max_block_area_ = max_block_area;
75		// We need 3x float blocks for dequantized coefficients and 1x for scratch
76		// space for transforms.
77	7.39k	JXL_ASSIGN_OR_RETURN(
78	7.39k	float_memory_,
79	7.39k	AlignedMemory::Create(memory_manager,
80	7.39k	max_block_area_ * 7 * sizeof(float)));
81		// We need 3x int32 or int16 blocks for quantized coefficients.
82	7.39k	JXL_ASSIGN_OR_RETURN(
83	7.39k	int32_memory_,
84	7.39k	AlignedMemory::Create(memory_manager,
85	7.39k	max_block_area_ * 3 * sizeof(int32_t)));
86	7.39k	JXL_ASSIGN_OR_RETURN(
87	7.39k	int16_memory_,
88	7.39k	AlignedMemory::Create(memory_manager,
89	7.39k	max_block_area_ * 3 * sizeof(int16_t)));
90	7.39k	}
91
92	16.7k	dec_group_block = float_memory_.address<float>();
93	16.7k	scratch_space = dec_group_block + max_block_area_ * 3;
94	16.7k	dec_group_qblock = int32_memory_.address<int32_t>();
95	16.7k	dec_group_qblock16 = int16_memory_.address<int16_t>();
96	16.7k	return true;
97	16.7k	}
98
99		// Initialize the decoder state after all of DC is decoded.
100	28.9k	Status PassesDecoderState::InitForAC(size_t num_passes, ThreadPool* pool) {
101	28.9k	shared_storage.coeff_order_size = 0;
102	811k	for (uint8_t o = 0; o < AcStrategy::kNumValidStrategies; ++o) {
103	782k	if (((1 << o) & used_acs) == 0) continue;
104	1.83k	uint8_t ord = kStrategyOrder[o];
105	1.83k	shared_storage.coeff_order_size =
106	1.83k	std::max(kCoeffOrderOffset[3 * (ord + 1)] * kDCTBlockSize,
107	1.83k	shared_storage.coeff_order_size);
108	1.83k	}
109	28.9k	size_t sz = num_passes * shared_storage.coeff_order_size;
110	28.9k	if (sz > shared_storage.coeff_orders.size()) {
111	1.09k	shared_storage.coeff_orders.resize(sz);
112	1.09k	}
113	28.9k	return true;
114	28.9k	}
115
116		Status PassesDecoderState::PreparePipeline(const FrameHeader& frame_header,
117		const ImageMetadata* metadata,
118		ImageBundle* decoded,
119	35.3k	PipelineOptions options) {
120	35.3k	JxlMemoryManager* memory_manager = this->memory_manager();
121	35.3k	size_t num_c = 3 + frame_header.nonserialized_metadata->m.num_extra_channels;
122	35.3k	bool render_noise =
123	35.3k	(options.render_noise && (frame_header.flags & FrameHeader::kNoise) != 0);
124	35.3k	size_t num_tmp_c = render_noise ? 3 : 0;
125
126	35.3k	if (frame_header.CanBeReferenced()) {
127		// Necessary so that SetInputSizes() can allocate output buffers as needed.
128	21.2k	frame_storage_for_referencing = ImageBundle(memory_manager, metadata);
129	21.2k	}
130
131	35.3k	RenderPipeline::Builder builder(memory_manager, num_c + num_tmp_c);
132
133	35.3k	if (options.use_slow_render_pipeline) {
134	0	builder.UseSimpleImplementation();
135	0	}
136
137	35.3k	if (!frame_header.chroma_subsampling.Is444()) {
138	4.39k	for (size_t c = 0; c < 3; c++) {
139	3.29k	if (frame_header.chroma_subsampling.HShift(c) != 0) {
140	1.25k	JXL_RETURN_IF_ERROR(
141	1.25k	builder.AddStage(GetChromaUpsamplingStage(c, /horizontal=/true)));
142	1.25k	}
143	3.29k	if (frame_header.chroma_subsampling.VShift(c) != 0) {
144	1.57k	JXL_RETURN_IF_ERROR(builder.AddStage(
145	1.57k	GetChromaUpsamplingStage(c, /horizontal=/false)));
146	1.57k	}
147	3.29k	}
148	1.09k	}
149
150	35.3k	if (frame_header.loop_filter.gab) {
151	18.8k	JXL_RETURN_IF_ERROR(
152	18.8k	builder.AddStage(GetGaborishStage(frame_header.loop_filter)));
153	18.8k	}
154
155	35.3k	{
156	35.3k	const LoopFilter& lf = frame_header.loop_filter;
157	35.3k	if (lf.epf_iters >= 3) {
158	641	JXL_RETURN_IF_ERROR(
159	641	builder.AddStage(GetEPFStage(lf, sigma, EpfStage::Zero)));
160	641	}
161	35.3k	if (lf.epf_iters >= 1) {
162	13.1k	JXL_RETURN_IF_ERROR(
163	13.1k	builder.AddStage(GetEPFStage(lf, sigma, EpfStage::One)));
164	13.1k	}
165	35.3k	if (lf.epf_iters >= 2) {
166	12.9k	JXL_RETURN_IF_ERROR(
167	12.9k	builder.AddStage(GetEPFStage(lf, sigma, EpfStage::Two)));
168	12.9k	}
169	35.3k	}
170
171	35.3k	bool late_ec_upsample = frame_header.upsampling != 1;
172	35.3k	for (auto ecups : frame_header.extra_channel_upsampling) {
173	2.35k	if (ecups != frame_header.upsampling) {
174		// If patches are applied, either frame_header.upsampling == 1 or
175		// late_ec_upsample is true.
176	883	late_ec_upsample = false;
177	883	}
178	2.35k	}
179
180	35.3k	if (!late_ec_upsample) {
181	21.8k	for (size_t ec = 0; ec < frame_header.extra_channel_upsampling.size();
182	20.0k	ec++) {
183	1.80k	if (frame_header.extra_channel_upsampling[ec] != 1) {
184	905	JXL_RETURN_IF_ERROR(builder.AddStage(GetUpsamplingStage(
185	905	frame_header.nonserialized_metadata->transform_data, 3 + ec,
186	905	CeilLog2Nonzero(frame_header.extra_channel_upsampling[ec]))));
187	905	}
188	1.80k	}
189	20.0k	}
190
191	35.3k	if ((frame_header.flags & FrameHeader::kPatches) != 0) {
192	3.21k	JXL_RETURN_IF_ERROR(builder.AddStage(GetPatchesStage(
193	3.21k	&shared->image_features.patches,
194	3.21k	&frame_header.nonserialized_metadata->m.extra_channel_info)));
195	3.21k	}
196	35.3k	if ((frame_header.flags & FrameHeader::kSplines) != 0) {
197	10.0k	JXL_RETURN_IF_ERROR(
198	10.0k	builder.AddStage(GetSplineStage(&shared->image_features.splines)));
199	10.0k	}
200
201	35.3k	if (frame_header.upsampling != 1) {
202	15.3k	size_t nb_channels =
203	15.3k	3 +
204	15.3k	(late_ec_upsample ? frame_header.extra_channel_upsampling.size() : 0);
205	62.0k	for (size_t c = 0; c < nb_channels; c++) {
206	46.6k	JXL_RETURN_IF_ERROR(builder.AddStage(GetUpsamplingStage(
207	46.6k	frame_header.nonserialized_metadata->transform_data, c,
208	46.6k	CeilLog2Nonzero(frame_header.upsampling))));
209	46.6k	}
210	15.3k	}
211	35.3k	if (render_noise) {
212	1.04k	JXL_RETURN_IF_ERROR(builder.AddStage(GetConvolveNoiseStage(num_c)));
213	1.04k	JXL_RETURN_IF_ERROR(builder.AddStage(GetAddNoiseStage(
214	1.04k	shared->image_features.noise_params, shared->cmap.base(), num_c)));
215	1.04k	}
216	35.3k	if (frame_header.dc_level != 0) {
217	5.12k	JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImage3FStage(
218	5.12k	memory_manager, &shared_storage.dc_frames[frame_header.dc_level - 1])));
219	5.12k	}
220
221	35.3k	if (frame_header.CanBeReferenced() &&
222	35.3k	frame_header.save_before_color_transform) {
223	17.3k	JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImageBundleStage(
224	17.3k	&frame_storage_for_referencing, output_encoding_info)));
225	17.3k	}
226
227	35.3k	bool has_alpha = false;
228	35.3k	size_t alpha_c = 0;
229	36.1k	for (size_t i = 0; i < metadata->extra_channel_info.size(); i++) {
230	923	if (metadata->extra_channel_info[i].type == ExtraChannel::kAlpha) {
231	180	has_alpha = true;
232	180	alpha_c = 3 + i;
233	180	break;
234	180	}
235	923	}
236
237	35.3k	if (fast_xyb_srgb8_conversion) {
238		#if !JXL_HIGH_PRECISION
239		JXL_ENSURE(!NeedsBlending(frame_header));
240		JXL_ENSURE(!frame_header.CanBeReferenced() \|\|
241		frame_header.save_before_color_transform);
242		JXL_ENSURE(!options.render_spotcolors \|\|
243		!metadata->Find(ExtraChannel::kSpotColor));
244		bool is_rgba = (main_output.format.num_channels == 4);
245		uint8_t* rgb_output = reinterpret_cast<uint8_t*>(main_output.buffer);
246		JXL_RETURN_IF_ERROR(builder.AddStage(
247		GetFastXYBTosRGB8Stage(rgb_output, main_output.stride, width, height,
248		is_rgba, has_alpha, alpha_c)));
249		#endif
250	35.3k	} else {
251	35.3k	bool linear = false;
252	35.3k	if (frame_header.color_transform == ColorTransform::kYCbCr) {
253	1.13k	JXL_RETURN_IF_ERROR(builder.AddStage(GetYCbCrStage()));
254	34.2k	} else if (frame_header.color_transform == ColorTransform::kXYB) {
255	9.81k	JXL_RETURN_IF_ERROR(builder.AddStage(GetXYBStage(output_encoding_info)));
256	9.81k	if (output_encoding_info.color_encoding.GetColorSpace() !=
257	9.81k	ColorSpace::kXYB) {
258	9.81k	linear = true;
259	9.81k	}
260	9.81k	} // Nothing to do for kNone.
261
262	35.3k	if (options.coalescing && NeedsBlending(frame_header)) {
263	4.21k	if (linear) {
264	2.36k	JXL_RETURN_IF_ERROR(
265	2.36k	builder.AddStage(GetFromLinearStage(output_encoding_info)));
266	2.36k	linear = false;
267	2.36k	}
268	4.21k	JXL_RETURN_IF_ERROR(builder.AddStage(GetBlendingStage(
269	4.21k	frame_header, this, output_encoding_info.color_encoding)));
270	4.21k	}
271
272	35.3k	if (options.coalescing && frame_header.CanBeReferenced() &&
273	35.3k	!frame_header.save_before_color_transform) {
274	3.83k	if (linear) {
275	517	JXL_RETURN_IF_ERROR(
276	517	builder.AddStage(GetFromLinearStage(output_encoding_info)));
277	517	linear = false;
278	517	}
279	3.83k	JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToImageBundleStage(
280	3.83k	&frame_storage_for_referencing, output_encoding_info)));
281	3.83k	}
282
283	35.3k	if (options.render_spotcolors &&
284	35.3k	frame_header.nonserialized_metadata->m.Find(ExtraChannel::kSpotColor)) {
285	134	for (size_t i = 0; i < metadata->extra_channel_info.size(); i++) {
286		// Don't use Find() because there may be multiple spot color channels.
287	78	const ExtraChannelInfo& eci = metadata->extra_channel_info[i];
288	78	if (eci.type == ExtraChannel::kSpotColor) {
289	56	JXL_RETURN_IF_ERROR(
290	56	builder.AddStage(GetSpotColorStage(i, eci.spot_color)));
291	56	}
292	78	}
293	56	}
294
295	35.3k	auto tone_mapping_stage = GetToneMappingStage(output_encoding_info);
296	35.3k	if (tone_mapping_stage) {
297	0	if (!linear) {
298	0	auto to_linear_stage = GetToLinearStage(output_encoding_info);
299	0	if (!to_linear_stage) {
300	0	if (!output_encoding_info.cms_set) {
301	0	return JXL_FAILURE("Cannot tonemap this colorspace without a CMS");
302	0	}
303	0	auto cms_stage = GetCmsStage(output_encoding_info);
304	0	if (cms_stage) {
305	0	JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
306	0	}
307	0	} else {
308	0	JXL_RETURN_IF_ERROR(builder.AddStage(std::move(to_linear_stage)));
309	0	}
310	0	linear = true;
311	0	}
312	0	JXL_RETURN_IF_ERROR(builder.AddStage(std::move(tone_mapping_stage)));
313	0	}
314
315	35.3k	if (linear) {
316	6.93k	const size_t channels_src =
317	6.93k	(output_encoding_info.orig_color_encoding.IsCMYK()
318	6.93k	? 4
319	6.93k	: output_encoding_info.orig_color_encoding.Channels());
320	6.93k	const size_t channels_dst =
321	6.93k	output_encoding_info.color_encoding.Channels();
322	6.93k	bool mixing_color_and_grey = (channels_dst != channels_src);
323	6.93k	if ((output_encoding_info.color_encoding_is_original) \|\|
324	6.93k	(!output_encoding_info.cms_set) \|\| mixing_color_and_grey) {
325		// in those cases we only need a linear stage in other cases we attempt
326		// to obtain a cms stage: the cases are
327		// - output_encoding_info.color_encoding_is_original: no cms stage
328		// needed because it would be a no-op
329		// - !output_encoding_info.cms_set: can't use the cms, so no point in
330		// trying to add a cms stage
331		// - mixing_color_and_grey: cms stage can't handle that
332		// TODO(firsching): remove "mixing_color_and_grey" condition after
333		// adding support for greyscale to cms stage.
334	6.93k	JXL_RETURN_IF_ERROR(
335	6.93k	builder.AddStage(GetFromLinearStage(output_encoding_info)));
336	6.93k	} else {
337	0	if (!output_encoding_info.linear_color_encoding.CreateICC()) {
338	0	return JXL_FAILURE("Failed to create ICC");
339	0	}
340	0	auto cms_stage = GetCmsStage(output_encoding_info);
341	0	if (cms_stage) {
342	0	JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
343	0	}
344	0	}
345	6.93k	linear = false;
346	28.4k	} else {
347	28.4k	auto cms_stage = GetCmsStage(output_encoding_info, false);
348	28.4k	if (cms_stage) {
349	0	JXL_RETURN_IF_ERROR(builder.AddStage(std::move(cms_stage)));
350	0	}
351	28.4k	}
352	35.3k	(void)linear;
353
354	35.3k	if (main_output.callback.IsPresent() \|\| main_output.buffer) {
355	2.65k	JXL_RETURN_IF_ERROR(builder.AddStage(GetWriteToOutputStage(
356	2.65k	main_output, width, height, has_alpha, unpremul_alpha, alpha_c,
357	2.65k	undo_orientation, extra_output, memory_manager)));
358	32.7k	} else {
359	32.7k	JXL_RETURN_IF_ERROR(builder.AddStage(
360	32.7k	GetWriteToImageBundleStage(decoded, output_encoding_info)));
361	32.7k	}
362	35.3k	}
363	35.3k	JXL_ASSIGN_OR_RETURN(render_pipeline,
364	35.3k	std::move(builder).Finalize(shared->frame_dim));
365	35.3k	return render_pipeline->IsInitialized();
366	35.3k	}
367
368		} // namespace jxl