Coverage Report

Created: 2025-08-11 08:01

/src/libjxl/lib/jxl/dec_frame.cc
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_frame.h"
7
8
#include <jxl/decode.h>
9
#include <jxl/memory_manager.h>
10
#include <jxl/types.h>
11
12
#include <algorithm>
13
#include <cstddef>
14
#include <cstdint>
15
#include <cstdlib>
16
#include <memory>
17
#include <utility>
18
#include <vector>
19
20
#include "lib/jxl/ac_context.h"
21
#include "lib/jxl/ac_strategy.h"
22
#include "lib/jxl/base/bits.h"
23
#include "lib/jxl/base/common.h"
24
#include "lib/jxl/base/compiler_specific.h"
25
#include "lib/jxl/base/data_parallel.h"
26
#include "lib/jxl/base/printf_macros.h"
27
#include "lib/jxl/base/rect.h"
28
#include "lib/jxl/base/span.h"
29
#include "lib/jxl/base/status.h"
30
#include "lib/jxl/chroma_from_luma.h"
31
#include "lib/jxl/coeff_order.h"
32
#include "lib/jxl/coeff_order_fwd.h"
33
#include "lib/jxl/common.h"  // kMaxNumPasses
34
#include "lib/jxl/compressed_dc.h"
35
#include "lib/jxl/dct_util.h"
36
#include "lib/jxl/dec_ans.h"
37
#include "lib/jxl/dec_bit_reader.h"
38
#include "lib/jxl/dec_cache.h"
39
#include "lib/jxl/dec_group.h"
40
#include "lib/jxl/dec_modular.h"
41
#include "lib/jxl/dec_noise.h"
42
#include "lib/jxl/dec_patch_dictionary.h"
43
#include "lib/jxl/entropy_coder.h"
44
#include "lib/jxl/epf.h"
45
#include "lib/jxl/fields.h"
46
#include "lib/jxl/frame_dimensions.h"
47
#include "lib/jxl/frame_header.h"
48
#include "lib/jxl/image_bundle.h"
49
#include "lib/jxl/image_metadata.h"
50
#include "lib/jxl/image_ops.h"
51
#include "lib/jxl/jpeg/jpeg_data.h"
52
#include "lib/jxl/loop_filter.h"
53
#include "lib/jxl/passes_state.h"
54
#include "lib/jxl/quant_weights.h"
55
#include "lib/jxl/quantizer.h"
56
#include "lib/jxl/render_pipeline/render_pipeline.h"
57
#include "lib/jxl/splines.h"
58
#include "lib/jxl/toc.h"
59
60
namespace jxl {
61
62
namespace {
63
Status DecodeGlobalDCInfo(BitReader* reader, bool is_jpeg,
64
4.19k
                          PassesDecoderState* state, ThreadPool* pool) {
65
4.19k
  JXL_RETURN_IF_ERROR(state->shared_storage.quantizer.Decode(reader));
66
67
4.18k
  JXL_RETURN_IF_ERROR(DecodeBlockCtxMap(state->memory_manager(), reader,
68
4.18k
                                        &state->shared_storage.block_ctx_map));
69
70
4.13k
  JXL_RETURN_IF_ERROR(state->shared_storage.cmap.DecodeDC(reader));
71
72
  // Pre-compute info for decoding a group.
73
4.11k
  if (is_jpeg) {
74
0
    state->shared_storage.quantizer.ClearDCMul();  // Don't dequant DC
75
0
  }
76
77
4.11k
  state->shared_storage.ac_strategy.FillInvalid();
78
4.11k
  return true;
79
4.13k
}
80
}  // namespace
81
82
Status DecodeFrame(PassesDecoderState* dec_state, ThreadPool* JXL_RESTRICT pool,
83
                   const uint8_t* next_in, size_t avail_in,
84
                   FrameHeader* frame_header, ImageBundle* decoded,
85
                   const CodecMetadata& metadata,
86
1.08k
                   bool use_slow_rendering_pipeline) {
87
1.08k
  FrameDecoder frame_decoder(dec_state, metadata, pool,
88
1.08k
                             use_slow_rendering_pipeline);
89
90
1.08k
  BitReader reader(Bytes(next_in, avail_in));
91
1.08k
  JXL_RETURN_IF_ERROR(frame_decoder.InitFrame(&reader, decoded,
92
1.08k
                                              /*is_preview=*/false));
93
1.08k
  JXL_RETURN_IF_ERROR(frame_decoder.InitFrameOutput());
94
1.08k
  if (frame_header) {
95
0
    *frame_header = frame_decoder.GetFrameHeader();
96
0
  }
97
98
1.08k
  JXL_RETURN_IF_ERROR(reader.AllReadsWithinBounds());
99
1.08k
  size_t header_bytes = reader.TotalBitsConsumed() / kBitsPerByte;
100
1.08k
  JXL_RETURN_IF_ERROR(reader.Close());
101
102
1.08k
  size_t processed_bytes = header_bytes;
103
1.08k
  Status close_ok = true;
104
1.08k
  std::vector<std::unique_ptr<BitReader>> section_readers;
105
1.08k
  {
106
1.08k
    std::vector<std::unique_ptr<BitReaderScopedCloser>> section_closers;
107
1.08k
    std::vector<FrameDecoder::SectionInfo> section_info;
108
1.08k
    std::vector<FrameDecoder::SectionStatus> section_status;
109
1.08k
    size_t pos = header_bytes;
110
1.08k
    size_t index = 0;
111
1.08k
    for (auto toc_entry : frame_decoder.Toc()) {
112
1.08k
      JXL_RETURN_IF_ERROR(pos + toc_entry.size <= avail_in);
113
1.08k
      auto br = make_unique<BitReader>(Bytes(next_in + pos, toc_entry.size));
114
1.08k
      section_info.emplace_back(
115
1.08k
          FrameDecoder::SectionInfo{br.get(), toc_entry.id, index++});
116
1.08k
      section_closers.emplace_back(
117
1.08k
          make_unique<BitReaderScopedCloser>(*br, close_ok));
118
1.08k
      section_readers.emplace_back(std::move(br));
119
1.08k
      pos += toc_entry.size;
120
1.08k
    }
121
1.08k
    section_status.resize(section_info.size());
122
1.08k
    JXL_RETURN_IF_ERROR(frame_decoder.ProcessSections(
123
1.08k
        section_info.data(), section_info.size(), section_status.data()));
124
2.16k
    for (size_t i = 0; i < section_status.size(); i++) {
125
1.08k
      JXL_RETURN_IF_ERROR(section_status[i] == FrameDecoder::kDone);
126
1.08k
      processed_bytes += frame_decoder.Toc()[i].size;
127
1.08k
    }
128
1.08k
  }
129
1.08k
  JXL_RETURN_IF_ERROR(close_ok);
130
1.08k
  JXL_RETURN_IF_ERROR(frame_decoder.FinalizeFrame());
131
1.08k
  decoded->SetDecodedBytes(processed_bytes);
132
1.08k
  return true;
133
1.08k
}
134
135
Status FrameDecoder::InitFrame(BitReader* JXL_RESTRICT br, ImageBundle* decoded,
136
31.8k
                               bool is_preview) {
137
31.8k
  decoded_ = decoded;
138
31.8k
  JXL_ENSURE(is_finalized_);
139
31.8k
  JxlMemoryManager* memory_manager = decoded_->memory_manager();
140
141
  // Reset the dequantization matrices to their default values.
142
31.8k
  dec_state_->shared_storage.matrices = DequantMatrices();
143
144
31.8k
  frame_header_.nonserialized_is_preview = is_preview;
145
31.8k
  JXL_ENSURE(frame_header_.nonserialized_metadata != nullptr);
146
31.8k
  JXL_RETURN_IF_ERROR(ReadFrameHeader(br, &frame_header_));
147
29.8k
  frame_dim_ = frame_header_.ToFrameDimensions();
148
29.8k
  JXL_DEBUG_V(2, "FrameHeader: %s", frame_header_.DebugString().c_str());
149
150
29.8k
  const size_t num_passes = frame_header_.passes.num_passes;
151
29.8k
  const size_t num_groups = frame_dim_.num_groups;
152
153
  // If the previous frame was not a kRegularFrame, `decoded` may have different
154
  // dimensions; must reset to avoid errors.
155
29.8k
  decoded->RemoveColor();
156
29.8k
  decoded->ClearExtraChannels();
157
158
29.8k
  decoded->duration = frame_header_.animation_frame.duration;
159
160
29.8k
  if (!frame_header_.nonserialized_is_preview &&
161
29.8k
      (frame_header_.is_last || frame_header_.animation_frame.duration > 0) &&
162
29.8k
      (frame_header_.frame_type == kRegularFrame ||
163
5.63k
       frame_header_.frame_type == kSkipProgressive)) {
164
5.63k
    ++dec_state_->visible_frame_index;
165
5.63k
    dec_state_->nonvisible_frame_index = 0;
166
24.2k
  } else {
167
24.2k
    ++dec_state_->nonvisible_frame_index;
168
24.2k
  }
169
170
  // Read TOC.
171
29.8k
  const size_t toc_entries =
172
29.8k
      NumTocEntries(num_groups, frame_dim_.num_dc_groups, num_passes);
173
29.8k
  std::vector<uint32_t> sizes;
174
29.8k
  std::vector<coeff_order_t> permutation;
175
29.8k
  JXL_RETURN_IF_ERROR(
176
29.8k
      ReadToc(memory_manager, toc_entries, br, &sizes, &permutation));
177
28.1k
  bool have_permutation = !permutation.empty();
178
28.1k
  toc_.resize(toc_entries);
179
28.1k
  section_sizes_sum_ = 0;
180
608k
  for (size_t i = 0; i < toc_entries; ++i) {
181
580k
    toc_[i].size = sizes[i];
182
580k
    size_t index = have_permutation ? permutation[i] : i;
183
580k
    toc_[index].id = i;
184
580k
    if (section_sizes_sum_ + toc_[i].size < section_sizes_sum_) {
185
0
      return JXL_FAILURE("group offset overflow");
186
0
    }
187
580k
    section_sizes_sum_ += toc_[i].size;
188
580k
  }
189
190
28.1k
  if (JXL_DEBUG_V_LEVEL >= 3) {
191
0
    for (size_t i = 0; i < toc_entries; ++i) {
192
0
      JXL_DEBUG_V(3, "TOC entry %" PRIuS " size %" PRIuS " id %" PRIuS "", i,
193
0
                  toc_[i].size, toc_[i].id);
194
0
    }
195
0
  }
196
197
28.1k
  JXL_ENSURE((br->TotalBitsConsumed() % kBitsPerByte) == 0);
198
28.1k
  const size_t group_codes_begin = br->TotalBitsConsumed() / kBitsPerByte;
199
28.1k
  JXL_ENSURE(!toc_.empty());
200
201
  // Overflow check.
202
28.1k
  if (group_codes_begin + section_sizes_sum_ < group_codes_begin) {
203
0
    return JXL_FAILURE("Invalid group codes");
204
0
  }
205
206
28.1k
  if (!frame_header_.chroma_subsampling.Is444() &&
207
28.1k
      !(frame_header_.flags & FrameHeader::kSkipAdaptiveDCSmoothing) &&
208
28.1k
      frame_header_.encoding == FrameEncoding::kVarDCT) {
209
29
    return JXL_FAILURE(
210
29
        "Non-444 chroma subsampling is not allowed when adaptive DC "
211
29
        "smoothing is enabled");
212
29
  }
213
28.1k
  return true;
214
28.1k
}
215
216
28.0k
Status FrameDecoder::InitFrameOutput() {
217
28.0k
  JXL_RETURN_IF_ERROR(
218
28.0k
      InitializePassesSharedState(frame_header_, &dec_state_->shared_storage));
219
28.0k
  JXL_RETURN_IF_ERROR(dec_state_->Init(frame_header_));
220
28.0k
  modular_frame_decoder_.Init(frame_dim_);
221
222
28.0k
  if (decoded_->IsJPEG()) {
223
0
    if (frame_header_.encoding == FrameEncoding::kModular) {
224
0
      return JXL_FAILURE("Cannot output JPEG from Modular");
225
0
    }
226
0
    jpeg::JPEGData* jpeg_data = decoded_->jpeg_data.get();
227
0
    size_t num_components = jpeg_data->components.size();
228
0
    if (num_components != 1 && num_components != 3) {
229
0
      return JXL_FAILURE("Invalid number of components");
230
0
    }
231
0
    if (frame_header_.nonserialized_metadata->m.xyb_encoded) {
232
0
      return JXL_FAILURE("Cannot decode to JPEG an XYB image");
233
0
    }
234
0
    auto jpeg_c_map = JpegOrder(ColorTransform::kYCbCr, num_components == 1);
235
0
    decoded_->jpeg_data->width = frame_dim_.xsize;
236
0
    decoded_->jpeg_data->height = frame_dim_.ysize;
237
0
    for (size_t c = 0; c < num_components; c++) {
238
0
      auto& component = jpeg_data->components[jpeg_c_map[c]];
239
0
      component.width_in_blocks =
240
0
          frame_dim_.xsize_blocks >> frame_header_.chroma_subsampling.HShift(c);
241
0
      component.height_in_blocks =
242
0
          frame_dim_.ysize_blocks >> frame_header_.chroma_subsampling.VShift(c);
243
0
      component.h_samp_factor =
244
0
          1 << frame_header_.chroma_subsampling.RawHShift(c);
245
0
      component.v_samp_factor =
246
0
          1 << frame_header_.chroma_subsampling.RawVShift(c);
247
0
      component.coeffs.resize(component.width_in_blocks *
248
0
                              component.height_in_blocks * jxl::kDCTBlockSize);
249
0
    }
250
0
  }
251
252
  // Clear the state.
253
28.0k
  decoded_dc_global_ = false;
254
28.0k
  decoded_ac_global_ = false;
255
28.0k
  is_finalized_ = false;
256
28.0k
  finalized_dc_ = false;
257
28.0k
  num_sections_done_ = 0;
258
28.0k
  decoded_dc_groups_.clear();
259
28.0k
  decoded_dc_groups_.resize(frame_dim_.num_dc_groups);
260
28.0k
  decoded_passes_per_ac_group_.clear();
261
28.0k
  decoded_passes_per_ac_group_.resize(frame_dim_.num_groups, 0);
262
28.0k
  processed_section_.clear();
263
28.0k
  processed_section_.resize(toc_.size());
264
28.0k
  allocated_ = false;
265
28.0k
  return true;
266
28.0k
}
267
268
27.3k
Status FrameDecoder::ProcessDCGlobal(BitReader* br) {
269
27.3k
  PassesSharedState& shared = dec_state_->shared_storage;
270
27.3k
  JxlMemoryManager* memory_manager = shared.memory_manager;
271
27.3k
  if (frame_header_.flags & FrameHeader::kPatches) {
272
629
    bool uses_extra_channels = false;
273
629
    JXL_RETURN_IF_ERROR(shared.image_features.patches.Decode(
274
629
        memory_manager, br, frame_dim_.xsize_padded, frame_dim_.ysize_padded,
275
629
        shared.metadata->m.num_extra_channels, &uses_extra_channels));
276
541
    if (uses_extra_channels && frame_header_.upsampling != 1) {
277
3
      for (size_t ecups : frame_header_.extra_channel_upsampling) {
278
0
        if (ecups != frame_header_.upsampling) {
279
0
          return JXL_FAILURE(
280
0
              "Cannot use extra channels in patches if color channels are "
281
0
              "subsampled differently from extra channels");
282
0
        }
283
0
      }
284
3
    }
285
26.7k
  } else {
286
26.7k
    shared.image_features.patches.Clear();
287
26.7k
  }
288
27.2k
  shared.image_features.splines.Clear();
289
27.2k
  if (frame_header_.flags & FrameHeader::kSplines) {
290
2.20k
    JXL_RETURN_IF_ERROR(shared.image_features.splines.Decode(
291
2.20k
        memory_manager, br, frame_dim_.xsize * frame_dim_.ysize));
292
2.20k
  }
293
27.0k
  if (frame_header_.flags & FrameHeader::kNoise) {
294
2.45k
    JXL_RETURN_IF_ERROR(DecodeNoise(br, &shared.image_features.noise_params));
295
2.45k
  }
296
27.0k
  JXL_RETURN_IF_ERROR(dec_state_->shared_storage.matrices.DecodeDC(br));
297
298
26.4k
  if (frame_header_.encoding == FrameEncoding::kVarDCT) {
299
4.19k
    JXL_RETURN_IF_ERROR(
300
4.19k
        jxl::DecodeGlobalDCInfo(br, decoded_->IsJPEG(), dec_state_, pool_));
301
4.19k
  }
302
  // Splines' draw cache uses the color correlation map.
303
26.3k
  if (frame_header_.flags & FrameHeader::kSplines) {
304
1.90k
    JXL_RETURN_IF_ERROR(shared.image_features.splines.InitializeDrawCache(
305
1.90k
        frame_dim_.xsize_upsampled, frame_dim_.ysize_upsampled,
306
1.90k
        dec_state_->shared->cmap.base()));
307
1.90k
  }
308
26.2k
  Status dec_status = modular_frame_decoder_.DecodeGlobalInfo(
309
26.2k
      br, frame_header_, /*allow_truncated_group=*/false);
310
26.2k
  if (dec_status.IsFatalError()) return dec_status;
311
23.0k
  if (dec_status) {
312
22.8k
    decoded_dc_global_ = true;
313
22.8k
  }
314
23.0k
  return dec_status;
315
26.2k
}
316
317
23.1k
Status FrameDecoder::ProcessDCGroup(size_t dc_group_id, BitReader* br) {
318
23.1k
  const size_t gx = dc_group_id % frame_dim_.xsize_dc_groups;
319
23.1k
  const size_t gy = dc_group_id / frame_dim_.xsize_dc_groups;
320
23.1k
  const LoopFilter& lf = frame_header_.loop_filter;
321
23.1k
  if (frame_header_.encoding == FrameEncoding::kVarDCT &&
322
23.1k
      !(frame_header_.flags & FrameHeader::kUseDcFrame)) {
323
3.50k
    JXL_RETURN_IF_ERROR(modular_frame_decoder_.DecodeVarDCTDC(
324
3.50k
        frame_header_, dc_group_id, br, dec_state_));
325
3.50k
  }
326
22.2k
  const Rect mrect(gx * frame_dim_.dc_group_dim, gy * frame_dim_.dc_group_dim,
327
22.2k
                   frame_dim_.dc_group_dim, frame_dim_.dc_group_dim);
328
22.2k
  JXL_RETURN_IF_ERROR(modular_frame_decoder_.DecodeGroup(
329
22.2k
      frame_header_, mrect, br, 3, 1000,
330
22.2k
      ModularStreamId::ModularDC(dc_group_id),
331
22.2k
      /*zerofill=*/false, nullptr, nullptr,
332
22.2k
      /*allow_truncated=*/false));
333
22.2k
  if (frame_header_.encoding == FrameEncoding::kVarDCT) {
334
2.65k
    JXL_RETURN_IF_ERROR(modular_frame_decoder_.DecodeAcMetadata(
335
2.65k
        frame_header_, dc_group_id, br, dec_state_));
336
19.6k
  } else if (lf.epf_iters > 0) {
337
7.10k
    FillImage(kInvSigmaNum / lf.epf_sigma_for_modular, &dec_state_->sigma);
338
7.10k
  }
339
21.2k
  decoded_dc_groups_[dc_group_id] = JXL_TRUE;
340
21.2k
  return true;
341
22.2k
}
342
343
20.8k
Status FrameDecoder::FinalizeDC() {
344
  // Do Adaptive DC smoothing if enabled. This *must* happen between all the
345
  // ProcessDCGroup and ProcessACGroup.
346
20.8k
  JxlMemoryManager* memory_manager = dec_state_->memory_manager();
347
20.8k
  if (frame_header_.encoding == FrameEncoding::kVarDCT &&
348
20.8k
      !(frame_header_.flags & FrameHeader::kSkipAdaptiveDCSmoothing) &&
349
20.8k
      !(frame_header_.flags & FrameHeader::kUseDcFrame)) {
350
1.56k
    JXL_RETURN_IF_ERROR(AdaptiveDCSmoothing(
351
1.56k
        memory_manager, dec_state_->shared->quantizer.MulDC(),
352
1.56k
        &dec_state_->shared_storage.dc_storage, pool_));
353
1.56k
  }
354
355
20.8k
  finalized_dc_ = true;
356
20.8k
  return true;
357
20.8k
}
358
359
20.8k
Status FrameDecoder::AllocateOutput() {
360
20.8k
  if (allocated_) return true;
361
20.8k
  modular_frame_decoder_.MaybeDropFullImage();
362
20.8k
  decoded_->origin = frame_header_.frame_origin;
363
20.8k
  JXL_RETURN_IF_ERROR(
364
20.8k
      dec_state_->InitForAC(frame_header_.passes.num_passes, nullptr));
365
20.8k
  allocated_ = true;
366
20.8k
  return true;
367
20.8k
}
368
369
20.8k
Status FrameDecoder::ProcessACGlobal(BitReader* br) {
370
20.8k
  JXL_ENSURE(finalized_dc_);
371
20.8k
  JxlMemoryManager* memory_manager = dec_state_->memory_manager();
372
373
  // Decode AC group.
374
20.8k
  if (frame_header_.encoding == FrameEncoding::kVarDCT) {
375
1.58k
    JXL_RETURN_IF_ERROR(dec_state_->shared_storage.matrices.Decode(
376
1.58k
        memory_manager, br, &modular_frame_decoder_));
377
1.33k
    JXL_RETURN_IF_ERROR(dec_state_->shared_storage.matrices.EnsureComputed(
378
1.33k
        memory_manager, dec_state_->used_acs));
379
380
1.30k
    size_t num_histo_bits =
381
1.30k
        CeilLog2Nonzero(dec_state_->shared->frame_dim.num_groups);
382
1.30k
    dec_state_->shared_storage.num_histograms =
383
1.30k
        1 + br->ReadBits(num_histo_bits);
384
385
1.30k
    JXL_DEBUG_V(3,
386
1.30k
                "Processing AC global with %d passes and %" PRIuS
387
1.30k
                " sets of histograms",
388
1.30k
                frame_header_.passes.num_passes,
389
1.30k
                dec_state_->shared_storage.num_histograms);
390
391
1.30k
    dec_state_->code.resize(kMaxNumPasses);
392
1.30k
    dec_state_->context_map.resize(kMaxNumPasses);
393
    // Read coefficient orders and histograms.
394
1.30k
    size_t max_num_bits_ac = 0;
395
2.38k
    for (size_t i = 0; i < frame_header_.passes.num_passes; i++) {
396
1.37k
      uint16_t used_orders = U32Coder::Read(kOrderEnc, br);
397
1.37k
      JXL_RETURN_IF_ERROR(DecodeCoeffOrders(
398
1.37k
          memory_manager, used_orders, dec_state_->used_acs,
399
1.37k
          &dec_state_->shared_storage
400
1.37k
               .coeff_orders[i * dec_state_->shared_storage.coeff_order_size],
401
1.37k
          br));
402
1.33k
      size_t num_contexts =
403
1.33k
          dec_state_->shared->num_histograms *
404
1.33k
          dec_state_->shared_storage.block_ctx_map.NumACContexts();
405
1.33k
      JXL_RETURN_IF_ERROR(DecodeHistograms(memory_manager, br, num_contexts,
406
1.33k
                                           &dec_state_->code[i],
407
1.33k
                                           &dec_state_->context_map[i]));
408
      // Add extra values to enable the cheat in hot loop of DecodeACVarBlock.
409
1.08k
      dec_state_->context_map[i].resize(
410
1.08k
          num_contexts + kZeroDensityContextLimit - kZeroDensityContextCount);
411
1.08k
      max_num_bits_ac =
412
1.08k
          std::max(max_num_bits_ac, dec_state_->code[i].max_num_bits);
413
1.08k
    }
414
1.00k
    max_num_bits_ac += CeilLog2Nonzero(frame_header_.passes.num_passes);
415
    // 16-bit buffer for decoding to JPEG are not implemented.
416
    // TODO(veluca): figure out the exact limit - 16 should still work with
417
    // 16-bit buffers, but we are excluding it for safety.
418
1.00k
    bool use_16_bit = max_num_bits_ac < 16 && !decoded_->IsJPEG();
419
1.00k
    bool store = frame_header_.passes.num_passes > 1;
420
1.00k
    size_t xs = store ? kGroupDim * kGroupDim : 0;
421
1.00k
    size_t ys = store ? frame_dim_.num_groups : 0;
422
1.00k
    if (use_16_bit) {
423
859
      JXL_ASSIGN_OR_RETURN(dec_state_->coefficients,
424
859
                           ACImageT<int16_t>::Make(memory_manager, xs, ys));
425
859
    } else {
426
150
      JXL_ASSIGN_OR_RETURN(dec_state_->coefficients,
427
150
                           ACImageT<int32_t>::Make(memory_manager, xs, ys));
428
150
    }
429
1.00k
    if (store) {
430
13
      dec_state_->coefficients->ZeroFill();
431
13
    }
432
1.00k
  }
433
434
  // Set JPEG decoding data.
435
20.2k
  if (decoded_->IsJPEG()) {
436
0
    decoded_->color_transform = frame_header_.color_transform;
437
0
    decoded_->chroma_subsampling = frame_header_.chroma_subsampling;
438
0
    const std::vector<QuantEncoding>& qe =
439
0
        dec_state_->shared_storage.matrices.encodings();
440
0
    if (qe.empty() || qe[0].mode != QuantEncoding::Mode::kQuantModeRAW ||
441
0
        std::abs(qe[0].qraw.qtable_den - 1.f / (8 * 255)) > 1e-8f) {
442
0
      return JXL_FAILURE(
443
0
          "Quantization table is not a JPEG quantization table.");
444
0
    }
445
0
    jpeg::JPEGData* jpeg_data = decoded_->jpeg_data.get();
446
0
    size_t num_components = jpeg_data->components.size();
447
0
    bool is_gray = (num_components == 1);
448
0
    JXL_ENSURE(frame_header_.color_transform != ColorTransform::kXYB);
449
0
    auto jpeg_c_map = JpegOrder(frame_header_.color_transform, is_gray);
450
0
    size_t qt_set = 0;
451
0
    JXL_ENSURE(num_components <= 3);
452
0
    JXL_ENSURE(qe[0].qraw.qtable->size() == 3 * 8 * 8);
453
0
    int* qtable = qe[0].qraw.qtable->data();
454
0
    for (size_t c = 0; c < num_components; c++) {
455
      // TODO(eustas): why 1-st quant table for gray?
456
0
      size_t quant_c = is_gray ? 1 : c;
457
0
      size_t qpos = jpeg_data->components[jpeg_c_map[c]].quant_idx;
458
0
      JXL_ENSURE(qpos != jpeg_data->quant.size());
459
0
      qt_set |= 1 << qpos;
460
0
      for (size_t x = 0; x < 8; x++) {
461
0
        for (size_t y = 0; y < 8; y++) {
462
0
          jpeg_data->quant[qpos].values[x * 8 + y] =
463
0
              qtable[quant_c * 64 + y * 8 + x];
464
0
        }
465
0
      }
466
0
    }
467
0
    for (size_t i = 0; i < jpeg_data->quant.size(); i++) {
468
0
      if (qt_set & (1 << i)) continue;
469
0
      if (i == 0) return JXL_FAILURE("First quant table unused.");
470
      // Unused quant table is set to copy of previous quant table
471
0
      for (size_t j = 0; j < 64; j++) {
472
0
        jpeg_data->quant[i].values[j] = jpeg_data->quant[i - 1].values[j];
473
0
      }
474
0
    }
475
0
  }
476
20.2k
  decoded_ac_global_ = true;
477
20.2k
  return true;
478
20.2k
}
479
480
Status FrameDecoder::ProcessACGroup(size_t ac_group_id, PassesReaders& br,
481
                                    size_t num_passes, size_t thread,
482
21.8k
                                    bool force_draw, bool dc_only) {
483
21.8k
  size_t group_dim = frame_dim_.group_dim;
484
21.8k
  const size_t gx = ac_group_id % frame_dim_.xsize_groups;
485
21.8k
  const size_t gy = ac_group_id / frame_dim_.xsize_groups;
486
21.8k
  const size_t x = gx * group_dim;
487
21.8k
  const size_t y = gy * group_dim;
488
21.8k
  JxlMemoryManager* memory_manager = dec_state_->memory_manager();
489
21.8k
  JXL_DEBUG_V(3,
490
21.8k
              "Processing AC group %" PRIuS "(%" PRIuS ",%" PRIuS
491
21.8k
              ") group_dim: %" PRIuS " decoded passes: %u new passes: %" PRIuS,
492
21.8k
              ac_group_id, gx, gy, group_dim,
493
21.8k
              decoded_passes_per_ac_group_[ac_group_id], num_passes);
494
495
21.8k
  RenderPipelineInput render_pipeline_input =
496
21.8k
      dec_state_->render_pipeline->GetInputBuffers(ac_group_id, thread);
497
498
21.8k
  bool should_run_pipeline = true;
499
500
21.8k
  if (frame_header_.encoding == FrameEncoding::kVarDCT) {
501
1.33k
    JXL_RETURN_IF_ERROR(group_dec_caches_[thread].InitOnce(
502
1.33k
        memory_manager, frame_header_.passes.num_passes, dec_state_->used_acs));
503
1.33k
    JXL_RETURN_IF_ERROR(DecodeGroup(
504
1.33k
        frame_header_, br.data(), num_passes, ac_group_id, dec_state_,
505
1.33k
        &group_dec_caches_[thread], thread, render_pipeline_input,
506
1.33k
        decoded_->jpeg_data.get(), decoded_passes_per_ac_group_[ac_group_id],
507
1.33k
        force_draw, dc_only, &should_run_pipeline));
508
1.33k
  }
509
510
  // don't limit to image dimensions here (is done in DecodeGroup)
511
21.5k
  const Rect mrect(x, y, group_dim, group_dim);
512
21.5k
  bool modular_ready = false;
513
21.5k
  size_t pass0 = decoded_passes_per_ac_group_[ac_group_id];
514
21.5k
  size_t pass1 =
515
21.5k
      force_draw ? frame_header_.passes.num_passes : pass0 + num_passes;
516
45.6k
  for (size_t i = pass0; i < pass1; ++i) {
517
24.1k
    int minShift;
518
24.1k
    int maxShift;
519
24.1k
    frame_header_.passes.GetDownsamplingBracket(i, minShift, maxShift);
520
24.1k
    bool modular_pass_ready = true;
521
24.1k
    JXL_DEBUG_V(2, "Decoding modular in group %d pass %d",
522
24.1k
                static_cast<int>(ac_group_id), static_cast<int>(i));
523
24.1k
    if (i < pass0 + num_passes) {  // i.e. i - pass0 < num_passes
524
24.1k
      BitReader* r = br[i - pass0];
525
24.1k
      JXL_ENSURE(r);
526
24.1k
      JXL_DEBUG_V(2, "Bit reader position: %" PRIuS " / %" PRIuS,
527
24.1k
                  r->TotalBitsConsumed(), r->TotalBytes() * kBitsPerByte);
528
24.1k
      JXL_RETURN_IF_ERROR(modular_frame_decoder_.DecodeGroup(
529
24.1k
          frame_header_, mrect, r, minShift, maxShift,
530
24.1k
          ModularStreamId::ModularAC(ac_group_id, i),
531
24.1k
          /*zerofill=*/false, dec_state_, &render_pipeline_input,
532
24.1k
          /*allow_truncated=*/false, &modular_pass_ready));
533
24.1k
    } else {
534
0
      JXL_RETURN_IF_ERROR(modular_frame_decoder_.DecodeGroup(
535
0
          frame_header_, mrect, nullptr, minShift, maxShift,
536
0
          ModularStreamId::ModularAC(ac_group_id, i), /*zerofill=*/true,
537
0
          dec_state_, &render_pipeline_input,
538
0
          /*allow_truncated=*/false, &modular_pass_ready));
539
0
    }
540
24.0k
    if (modular_pass_ready) modular_ready = true;
541
24.0k
  }
542
21.4k
  decoded_passes_per_ac_group_[ac_group_id] += num_passes;
543
544
21.4k
  if ((frame_header_.flags & FrameHeader::kNoise) != 0) {
545
1.61k
    PrepareNoiseInput(*dec_state_, frame_dim_, frame_header_, ac_group_id,
546
1.61k
                      thread);
547
1.61k
  }
548
549
21.4k
  if (!modular_frame_decoder_.UsesFullImage() && !decoded_->IsJPEG()) {
550
2.04k
    if (should_run_pipeline && modular_ready) {
551
1.76k
      JXL_RETURN_IF_ERROR(render_pipeline_input.Done());
552
1.76k
    } else if (force_draw) {
553
0
      return JXL_FAILURE("Modular group decoding failed.");
554
0
    }
555
2.04k
  }
556
21.4k
  return true;
557
21.4k
}
558
559
void FrameDecoder::MarkSections(const SectionInfo* sections, size_t num,
560
20.5k
                                const SectionStatus* section_status) {
561
20.5k
  num_sections_done_ += num;
562
51.6k
  for (size_t i = 0; i < num; i++) {
563
31.1k
    if (section_status[i] != SectionStatus::kDone) {
564
1.85k
      processed_section_[sections[i].id] = JXL_FALSE;
565
1.85k
      num_sections_done_--;
566
1.85k
    }
567
31.1k
  }
568
20.5k
}
569
570
Status FrameDecoder::ProcessSections(const SectionInfo* sections, size_t num,
571
28.2k
                                     SectionStatus* section_status) {
572
28.2k
  if (num == 0) return true;  // Nothing to process
573
27.4k
  std::fill(section_status, section_status + num, SectionStatus::kSkipped);
574
27.4k
  size_t dc_global_sec = num;
575
27.4k
  size_t ac_global_sec = num;
576
27.4k
  std::vector<size_t> dc_group_sec(frame_dim_.num_dc_groups, num);
577
27.4k
  std::vector<std::vector<size_t>> ac_group_sec(
578
27.4k
      frame_dim_.num_groups,
579
27.4k
      std::vector<size_t>(frame_header_.passes.num_passes, num));
580
  // This keeps track of the number of ac passes we want to process during this
581
  // call of ProcessSections.
582
27.4k
  std::vector<size_t> desired_num_ac_passes(frame_dim_.num_groups);
583
27.4k
  bool single_section =
584
27.4k
      frame_dim_.num_groups == 1 && frame_header_.passes.num_passes == 1;
585
27.4k
  if (single_section) {
586
24.2k
    JXL_ENSURE(num == 1);
587
24.2k
    JXL_ENSURE(sections[0].id == 0);
588
24.2k
    if (processed_section_[0] == JXL_FALSE) {
589
24.2k
      processed_section_[0] = JXL_TRUE;
590
24.2k
      ac_group_sec[0].resize(1);
591
24.2k
      dc_global_sec = ac_global_sec = dc_group_sec[0] = ac_group_sec[0][0] = 0;
592
24.2k
      desired_num_ac_passes[0] = 1;
593
24.2k
    } else {
594
0
      section_status[0] = SectionStatus::kDuplicate;
595
0
    }
596
24.2k
  } else {
597
3.21k
    size_t ac_global_index = frame_dim_.num_dc_groups + 1;
598
63.4k
    for (size_t i = 0; i < num; i++) {
599
60.2k
      JXL_ENSURE(sections[i].id < processed_section_.size());
600
60.2k
      if (processed_section_[sections[i].id]) {
601
0
        section_status[i] = SectionStatus::kDuplicate;
602
0
        continue;
603
0
      }
604
60.2k
      if (sections[i].id == 0) {
605
3.06k
        dc_global_sec = i;
606
57.1k
      } else if (sections[i].id < ac_global_index) {
607
4.63k
        dc_group_sec[sections[i].id - 1] = i;
608
52.5k
      } else if (sections[i].id == ac_global_index) {
609
2.70k
        ac_global_sec = i;
610
49.8k
      } else {
611
49.8k
        size_t ac_idx = sections[i].id - ac_global_index - 1;
612
49.8k
        size_t acg = ac_idx % frame_dim_.num_groups;
613
49.8k
        size_t acp = ac_idx / frame_dim_.num_groups;
614
49.8k
        if (acp >= frame_header_.passes.num_passes) {
615
0
          return JXL_FAILURE("Invalid section ID");
616
0
        }
617
49.8k
        ac_group_sec[acg][acp] = i;
618
49.8k
      }
619
60.2k
      processed_section_[sections[i].id] = JXL_TRUE;
620
60.2k
    }
621
    // Count number of new passes per group.
622
72.5k
    for (size_t g = 0; g < ac_group_sec.size(); g++) {
623
69.3k
      size_t j = 0;
624
119k
      for (; j + decoded_passes_per_ac_group_[g] <
625
119k
             frame_header_.passes.num_passes;
626
103k
           j++) {
627
103k
        if (ac_group_sec[g][j + decoded_passes_per_ac_group_[g]] == num) {
628
54.0k
          break;
629
54.0k
        }
630
103k
      }
631
69.3k
      desired_num_ac_passes[g] = j;
632
69.3k
    }
633
3.21k
  }
634
27.4k
  if (dc_global_sec != num) {
635
27.3k
    Status dc_global_status = ProcessDCGlobal(sections[dc_global_sec].br);
636
27.3k
    if (dc_global_status.IsFatalError()) return dc_global_status;
637
23.1k
    if (dc_global_status) {
638
22.8k
      section_status[dc_global_sec] = SectionStatus::kDone;
639
22.8k
    } else {
640
335
      section_status[dc_global_sec] = SectionStatus::kPartial;
641
335
    }
642
23.1k
  }
643
644
23.2k
  if (decoded_dc_global_) {
645
22.9k
    const auto process_section = [this, &dc_group_sec, &num, &sections,
646
22.9k
                                  &section_status](size_t i,
647
23.9k
                                                   size_t thread) -> Status {
648
23.9k
      if (dc_group_sec[i] != num) {
649
23.1k
        JXL_RETURN_IF_ERROR(ProcessDCGroup(i, sections[dc_group_sec[i]].br));
650
21.2k
        section_status[dc_group_sec[i]] = SectionStatus::kDone;
651
21.2k
      }
652
22.0k
      return true;
653
23.9k
    };
654
22.9k
    JXL_RETURN_IF_ERROR(RunOnPool(pool_, 0, dc_group_sec.size(),
655
22.9k
                                  ThreadPool::NoInit, process_section,
656
22.9k
                                  "DecodeDCGroup"));
657
22.9k
  }
658
659
21.4k
  if (!HasDcGroupToDecode() && !finalized_dc_) {
660
20.9k
    PassesDecoderState::PipelineOptions pipeline_options;
661
20.9k
    pipeline_options.use_slow_render_pipeline = use_slow_rendering_pipeline_;
662
20.9k
    pipeline_options.coalescing = coalescing_;
663
20.9k
    pipeline_options.render_spotcolors = render_spotcolors_;
664
20.9k
    pipeline_options.render_noise = true;
665
20.9k
    JXL_RETURN_IF_ERROR(dec_state_->PreparePipeline(
666
20.9k
        frame_header_, &frame_header_.nonserialized_metadata->m, decoded_,
667
20.9k
        pipeline_options));
668
20.8k
    JXL_RETURN_IF_ERROR(FinalizeDC());
669
20.8k
    JXL_RETURN_IF_ERROR(AllocateOutput());
670
20.8k
    if (progressive_detail_ >= JxlProgressiveDetail::kDC) {
671
0
      MarkSections(sections, num, section_status);
672
0
      return true;
673
0
    }
674
20.8k
  }
675
676
21.4k
  if (finalized_dc_ && ac_global_sec != num && !decoded_ac_global_) {
677
20.8k
    JXL_RETURN_IF_ERROR(ProcessACGlobal(sections[ac_global_sec].br));
678
20.2k
    section_status[ac_global_sec] = SectionStatus::kDone;
679
20.2k
  }
680
681
20.8k
  if (progressive_detail_ >= JxlProgressiveDetail::kLastPasses) {
682
    // Mark that we only want the next progression pass.
683
0
    size_t target_complete_passes = NextNumPassesToPause();
684
0
    for (size_t i = 0; i < ac_group_sec.size(); i++) {
685
0
      desired_num_ac_passes[i] =
686
0
          std::min(desired_num_ac_passes[i],
687
0
                   target_complete_passes - decoded_passes_per_ac_group_[i]);
688
0
    }
689
0
  }
690
691
20.8k
  if (decoded_ac_global_) {
692
    // Mark all the AC groups that we received as not complete yet.
693
49.2k
    for (size_t i = 0; i < ac_group_sec.size(); i++) {
694
28.8k
      if (desired_num_ac_passes[i] != 0) {
695
21.9k
        dec_state_->render_pipeline->ClearDone(i);
696
21.9k
      }
697
28.8k
    }
698
699
20.3k
    const auto prepare_storage = [this](size_t num_threads) -> Status {
700
20.3k
      JXL_RETURN_IF_ERROR(
701
20.3k
          PrepareStorage(num_threads, decoded_passes_per_ac_group_.size()));
702
20.3k
      return true;
703
20.3k
    };
704
20.3k
    const auto process_group = [this, &ac_group_sec, &desired_num_ac_passes,
705
20.3k
                                &num, &sections, &section_status](
706
28.1k
                                   size_t g, size_t thread) -> Status {
707
28.1k
      if (desired_num_ac_passes[g] == 0) {
708
        // no new AC pass, nothing to do
709
6.38k
        return true;
710
6.38k
      }
711
21.8k
      size_t first_pass = decoded_passes_per_ac_group_[g];
712
21.8k
      PassesReaders readers = {};
713
46.1k
      for (size_t i = 0; i < desired_num_ac_passes[g]; i++) {
714
24.3k
        JXL_ENSURE(ac_group_sec[g][first_pass + i] != num);
715
24.3k
        readers[i] = sections[ac_group_sec[g][first_pass + i]].br;
716
24.3k
      }
717
21.8k
      JXL_RETURN_IF_ERROR(ProcessACGroup(
718
21.8k
          g, readers, desired_num_ac_passes[g], GetStorageLocation(thread, g),
719
21.8k
          /*force_draw=*/false, /*dc_only=*/false));
720
45.5k
      for (size_t i = 0; i < desired_num_ac_passes[g]; i++) {
721
24.0k
        section_status[ac_group_sec[g][first_pass + i]] = SectionStatus::kDone;
722
24.0k
      }
723
21.4k
      return true;
724
21.8k
    };
725
20.3k
    JXL_RETURN_IF_ERROR(RunOnPool(pool_, 0, ac_group_sec.size(),
726
20.3k
                                  prepare_storage, process_group,
727
20.3k
                                  "DecodeGroup"));
728
20.3k
  }
729
730
20.5k
  MarkSections(sections, num, section_status);
731
20.5k
  return true;
732
20.8k
}
733
734
0
Status FrameDecoder::Flush() {
735
0
  bool has_blending = frame_header_.blending_info.mode != BlendMode::kReplace ||
736
0
                      frame_header_.custom_size_or_origin;
737
0
  for (const auto& blending_info_ec :
738
0
       frame_header_.extra_channel_blending_info) {
739
0
    if (blending_info_ec.mode != BlendMode::kReplace) has_blending = true;
740
0
  }
741
  // No early Flush() if blending is enabled.
742
0
  if (has_blending && !is_finalized_) {
743
0
    return false;
744
0
  }
745
  // No early Flush() - nothing to do - if the frame is a kSkipProgressive
746
  // frame.
747
0
  if (frame_header_.frame_type == FrameType::kSkipProgressive &&
748
0
      !is_finalized_) {
749
0
    return true;
750
0
  }
751
0
  if (decoded_->IsJPEG()) {
752
    // Nothing to do.
753
0
    return true;
754
0
  }
755
0
  JXL_RETURN_IF_ERROR(AllocateOutput());
756
757
0
  uint32_t completely_decoded_ac_pass = *std::min_element(
758
0
      decoded_passes_per_ac_group_.begin(), decoded_passes_per_ac_group_.end());
759
0
  if (completely_decoded_ac_pass < frame_header_.passes.num_passes) {
760
    // We don't have all AC yet: force a draw of all the missing areas.
761
    // Mark all sections as not complete.
762
0
    for (size_t i = 0; i < decoded_passes_per_ac_group_.size(); i++) {
763
0
      if (decoded_passes_per_ac_group_[i] < frame_header_.passes.num_passes) {
764
0
        dec_state_->render_pipeline->ClearDone(i);
765
0
      }
766
0
    }
767
0
    const auto prepare_storage = [this](const size_t num_threads) -> Status {
768
0
      JXL_RETURN_IF_ERROR(
769
0
          PrepareStorage(num_threads, decoded_passes_per_ac_group_.size()));
770
0
      return true;
771
0
    };
772
0
    const auto process_group = [this](const uint32_t g,
773
0
                                      size_t thread) -> Status {
774
0
      if (decoded_passes_per_ac_group_[g] == frame_header_.passes.num_passes) {
775
        // This group was drawn already, nothing to do.
776
0
        return true;
777
0
      }
778
0
      PassesReaders readers = {};
779
0
      JXL_RETURN_IF_ERROR(ProcessACGroup(
780
0
          g, readers, /*num_passes=*/0, GetStorageLocation(thread, g),
781
0
          /*force_draw=*/true, /*dc_only=*/!decoded_ac_global_));
782
0
      return true;
783
0
    };
784
0
    JXL_RETURN_IF_ERROR(RunOnPool(pool_, 0, decoded_passes_per_ac_group_.size(),
785
0
                                  prepare_storage, process_group,
786
0
                                  "ForceDrawGroup"));
787
0
  }
788
789
  // undo global modular transforms and copy int pixel buffers to float ones
790
0
  JXL_RETURN_IF_ERROR(modular_frame_decoder_.FinalizeDecoding(
791
0
      frame_header_, dec_state_, pool_, is_finalized_));
792
793
0
  return true;
794
0
}
795
796
26.9k
int FrameDecoder::SavedAs(const FrameHeader& header) {
797
26.9k
  if (header.frame_type == FrameType::kDCFrame) {
798
    // bits 16, 32, 64, 128 for DC level
799
6.81k
    return 16 << (header.dc_level - 1);
800
20.1k
  } else if (header.CanBeReferenced()) {
801
    // bits 1, 2, 4 and 8 for the references
802
15.7k
    return 1 << header.save_as_reference;
803
15.7k
  }
804
805
4.35k
  return 0;
806
26.9k
}
807
808
18.5k
bool FrameDecoder::HasEverything() const {
809
18.5k
  if (!decoded_dc_global_) return false;
810
18.5k
  if (!decoded_ac_global_) return false;
811
18.5k
  if (HasDcGroupToDecode()) return false;
812
19.2k
  for (const auto& nb_passes : decoded_passes_per_ac_group_) {
813
19.2k
    if (nb_passes < frame_header_.passes.num_passes) return false;
814
19.2k
  }
815
18.5k
  return true;
816
18.5k
}
817
818
18.5k
int FrameDecoder::References() const {
819
18.5k
  if (is_finalized_) {
820
0
    return 0;
821
0
  }
822
18.5k
  if (!HasEverything()) return 0;
823
824
18.5k
  int result = 0;
825
826
  // Blending
827
18.5k
  if (frame_header_.frame_type == FrameType::kRegularFrame ||
828
18.5k
      frame_header_.frame_type == FrameType::kSkipProgressive) {
829
12.6k
    bool cropped = frame_header_.custom_size_or_origin;
830
12.6k
    if (cropped || frame_header_.blending_info.mode != BlendMode::kReplace) {
831
4.00k
      result |= (1 << frame_header_.blending_info.source);
832
4.00k
    }
833
12.6k
    const auto& extra = frame_header_.extra_channel_blending_info;
834
12.6k
    for (const auto& ecbi : extra) {
835
2.30k
      if (cropped || ecbi.mode != BlendMode::kReplace) {
836
1.19k
        result |= (1 << ecbi.source);
837
1.19k
      }
838
2.30k
    }
839
12.6k
  }
840
841
  // Patches
842
18.5k
  if (frame_header_.flags & FrameHeader::kPatches) {
843
223
    result |= dec_state_->shared->image_features.patches.GetReferences();
844
223
  }
845
846
  // DC Level
847
18.5k
  if (frame_header_.flags & FrameHeader::kUseDcFrame) {
848
    // Reads from the next dc level
849
2
    int dc_level = frame_header_.dc_level + 1;
850
    // bits 16, 32, 64, 128 for DC level
851
2
    result |= (16 << (dc_level - 1));
852
2
  }
853
854
18.5k
  return result;
855
18.5k
}
856
857
19.6k
Status FrameDecoder::FinalizeFrame() {
858
19.6k
  if (is_finalized_) {
859
0
    return JXL_FAILURE("FinalizeFrame called multiple times");
860
0
  }
861
19.6k
  is_finalized_ = true;
862
19.6k
  if (decoded_->IsJPEG()) {
863
    // Nothing to do.
864
0
    return true;
865
0
  }
866
867
  // undo global modular transforms and copy int pixel buffers to float ones
868
19.6k
  JXL_RETURN_IF_ERROR(
869
19.6k
      modular_frame_decoder_.FinalizeDecoding(frame_header_, dec_state_, pool_,
870
19.6k
                                              /*inplace=*/true));
871
872
19.6k
  if (frame_header_.CanBeReferenced()) {
873
11.5k
    auto& info = dec_state_->shared_storage
874
11.5k
                     .reference_frames[frame_header_.save_as_reference];
875
11.5k
    *info.frame = std::move(dec_state_->frame_storage_for_referencing);
876
11.5k
    info.ib_is_in_xyb = frame_header_.save_before_color_transform;
877
11.5k
  }
878
19.6k
  return true;
879
19.6k
}
880
881
}  // namespace jxl