/src/libjxl/lib/jxl/blending.cc

Source
// 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/blending.h"

#include <jxl/memory_manager.h>

#include <cstddef>
#include <cstring>
#include <vector>

#include "lib/jxl/alpha.h"
#include "lib/jxl/base/status.h"
#include "lib/jxl/dec_patch_dictionary.h"
#include "lib/jxl/frame_header.h"
#include "lib/jxl/image.h"
#include "lib/jxl/image_metadata.h"

namespace jxl {

bool NeedsBlending(const FrameHeader& frame_header) {
  if (!(frame_header.frame_type == FrameType::kRegularFrame ||
        frame_header.frame_type == FrameType::kSkipProgressive)) {
    return false;
  }
  const auto& info = frame_header.blending_info;
  bool replace_all = (info.mode == BlendMode::kReplace);
  for (const auto& ec_i : frame_header.extra_channel_blending_info) {
    if (ec_i.mode != BlendMode::kReplace) {
      replace_all = false;
    }
  }
  // Replace the full frame: nothing to do.
  if (!frame_header.custom_size_or_origin && replace_all) {
    return false;
  }
  return true;
}

Status PerformBlending(
    JxlMemoryManager* memory_manager, const float* const* bg,
    const float* const* fg, float* const* out, size_t x0, size_t xsize,
    const PatchBlending& color_blending, const PatchBlending* ec_blending,
    const std::vector<ExtraChannelInfo>& extra_channel_info) {
  bool has_alpha = false;
  size_t num_ec = extra_channel_info.size();
  for (size_t i = 0; i < num_ec; i++) {
    if (extra_channel_info[i].type == jxl::ExtraChannel::kAlpha) {
      has_alpha = true;
      break;
    }
  }
  JXL_ASSIGN_OR_RETURN(ImageF tmp,
                       ImageF::Create(memory_manager, xsize, 3 + num_ec));
  // Blend extra channels first so that we use the pre-blending alpha.
  for (size_t i = 0; i < num_ec; i++) {
    switch (ec_blending[i].mode) {
      case PatchBlendMode::kAdd:
        for (size_t x = 0; x < xsize; x++) {
          tmp.Row(3 + i)[x] = bg[3 + i][x + x0] + fg[3 + i][x + x0];
        }
        continue;

      case PatchBlendMode::kBlendAbove: {
        size_t alpha = ec_blending[i].alpha_channel;
        bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
        PerformAlphaBlending(bg[3 + i] + x0, bg[3 + alpha] + x0, fg[3 + i] + x0,
                             fg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
                             is_premultiplied, ec_blending[i].clamp);
        continue;
      }

      case PatchBlendMode::kBlendBelow: {
        size_t alpha = ec_blending[i].alpha_channel;
        bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
        PerformAlphaBlending(fg[3 + i] + x0, fg[3 + alpha] + x0, bg[3 + i] + x0,
                             bg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
                             is_premultiplied, ec_blending[i].clamp);
        continue;
      }

      case PatchBlendMode::kAlphaWeightedAddAbove: {
        size_t alpha = ec_blending[i].alpha_channel;
        PerformAlphaWeightedAdd(bg[3 + i] + x0, fg[3 + i] + x0,
                                fg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
                                ec_blending[i].clamp);
        continue;
      }

      case PatchBlendMode::kAlphaWeightedAddBelow: {
        size_t alpha = ec_blending[i].alpha_channel;
        PerformAlphaWeightedAdd(fg[3 + i] + x0, bg[3 + i] + x0,
                                bg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
                                ec_blending[i].clamp);
        continue;
      }

      case PatchBlendMode::kMul:
        PerformMulBlending(bg[3 + i] + x0, fg[3 + i] + x0, tmp.Row(3 + i),
                           xsize, ec_blending[i].clamp);
        continue;

      case PatchBlendMode::kReplace:
        if (xsize) memcpy(tmp.Row(3 + i), fg[3 + i] + x0, xsize * sizeof(**fg));
        continue;

      case PatchBlendMode::kNone:
        if (xsize) memcpy(tmp.Row(3 + i), bg[3 + i] + x0, xsize * sizeof(**fg));
        continue;
    }
  }
  size_t alpha = color_blending.alpha_channel;

  const auto add = [&]() {
    for (int p = 0; p < 3; p++) {
      float* out = tmp.Row(p);
      for (size_t x = 0; x < xsize; x++) {
        out[x] = bg[p][x + x0] + fg[p][x + x0];
      }
    }
  };

  const auto blend_weighted = [&](const float* const* bottom,
                                  const float* const* top) {
    bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
    PerformAlphaBlending(
        {bottom[0] + x0, bottom[1] + x0, bottom[2] + x0,
         bottom[3 + alpha] + x0},
        {top[0] + x0, top[1] + x0, top[2] + x0, top[3 + alpha] + x0},
        {tmp.Row(0), tmp.Row(1), tmp.Row(2), tmp.Row(3 + alpha)}, xsize,
        is_premultiplied, color_blending.clamp);
  };

  const auto add_weighted = [&](const float* const* bottom,
                                const float* const* top) {
    for (size_t c = 0; c < 3; c++) {
      PerformAlphaWeightedAdd(bottom[c] + x0, top[c] + x0, top[3 + alpha] + x0,
                              tmp.Row(c), xsize, color_blending.clamp);
    }
  };

  const auto copy = [&](const float* const* src) {
    for (size_t p = 0; p < 3; p++) {
      memcpy(tmp.Row(p), src[p] + x0, xsize * sizeof(**src));
    }
  };

  switch (color_blending.mode) {
    case PatchBlendMode::kAdd:
      add();
      break;

    case PatchBlendMode::kAlphaWeightedAddAbove:
      has_alpha ? add_weighted(bg, fg) : add();
      break;

    case PatchBlendMode::kAlphaWeightedAddBelow:
      has_alpha ? add_weighted(fg, bg) : add();
      break;

    case PatchBlendMode::kBlendAbove:
      has_alpha ? blend_weighted(bg, fg) : copy(fg);
      break;

    case PatchBlendMode::kBlendBelow:
      has_alpha ? blend_weighted(fg, bg) : copy(fg);
      break;

    case PatchBlendMode::kMul:
      for (int p = 0; p < 3; p++) {
        PerformMulBlending(bg[p] + x0, fg[p] + x0, tmp.Row(p), xsize,
                           color_blending.clamp);
      }
      break;

    case PatchBlendMode::kReplace:
      copy(fg);
      break;

    case PatchBlendMode::kNone:
      copy(bg);
  }

  for (size_t i = 0; i < 3 + num_ec; i++) {
    if (xsize != 0) memcpy(out[i] + x0, tmp.Row(i), xsize * sizeof(**out));
  }
  return true;
}

}  // namespace jxl

Line	Count	Source
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/blending.h"
7
8		#include <jxl/memory_manager.h>
9
10		#include <cstddef>
11		#include <cstring>
12		#include <vector>
13
14		#include "lib/jxl/alpha.h"
15		#include "lib/jxl/base/status.h"
16		#include "lib/jxl/dec_patch_dictionary.h"
17		#include "lib/jxl/frame_header.h"
18		#include "lib/jxl/image.h"
19		#include "lib/jxl/image_metadata.h"
20
21		namespace jxl {
22
23	9.04k	bool NeedsBlending(const FrameHeader& frame_header) {
24	9.04k	if (!(frame_header.frame_type == FrameType::kRegularFrame \|\|
25	2.16k	frame_header.frame_type == FrameType::kSkipProgressive)) {
26	1.25k	return false;
27	1.25k	}
28	7.79k	const auto& info = frame_header.blending_info;
29	7.79k	bool replace_all = (info.mode == BlendMode::kReplace);
30	7.79k	for (const auto& ec_i : frame_header.extra_channel_blending_info) {
31	790	if (ec_i.mode != BlendMode::kReplace) {
32	0	replace_all = false;
33	0	}
34	790	}
35		// Replace the full frame: nothing to do.
36	7.79k	if (!frame_header.custom_size_or_origin && replace_all) {
37	6.09k	return false;
38	6.09k	}
39	1.69k	return true;
40	7.79k	}
41
42		Status PerformBlending(
43		JxlMemoryManager* memory_manager, const float* const* bg,
44		const float* const* fg, float* const* out, size_t x0, size_t xsize,
45		const PatchBlending& color_blending, const PatchBlending* ec_blending,
46	9.13M	const std::vector<ExtraChannelInfo>& extra_channel_info) {
47	9.13M	bool has_alpha = false;
48	9.13M	size_t num_ec = extra_channel_info.size();
49	9.13M	for (size_t i = 0; i < num_ec; i++) {
50	61.0k	if (extra_channel_info[i].type == jxl::ExtraChannel::kAlpha) {
51	61.0k	has_alpha = true;
52	61.0k	break;
53	61.0k	}
54	61.0k	}
55	9.13M	JXL_ASSIGN_OR_RETURN(ImageF tmp,
56	9.13M	ImageF::Create(memory_manager, xsize, 3 + num_ec));
57		// Blend extra channels first so that we use the pre-blending alpha.
58	9.19M	for (size_t i = 0; i < num_ec; i++) {
59	61.0k	switch (ec_blending[i].mode) {
60	1.12k	case PatchBlendMode::kAdd:
61	2.24k	for (size_t x = 0; x < xsize; x++) {
62	1.12k	tmp.Row(3 + i)[x] = bg[3 + i][x + x0] + fg[3 + i][x + x0];
63	1.12k	}
64	1.12k	continue;
65
66	0	case PatchBlendMode::kBlendAbove: {
67	0	size_t alpha = ec_blending[i].alpha_channel;
68	0	bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
69	0	PerformAlphaBlending(bg[3 + i] + x0, bg[3 + alpha] + x0, fg[3 + i] + x0,
70	0	fg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
71	0	is_premultiplied, ec_blending[i].clamp);
72	0	continue;
73	0	}
74
75	0	case PatchBlendMode::kBlendBelow: {
76	0	size_t alpha = ec_blending[i].alpha_channel;
77	0	bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
78	0	PerformAlphaBlending(fg[3 + i] + x0, fg[3 + alpha] + x0, bg[3 + i] + x0,
79	0	bg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
80	0	is_premultiplied, ec_blending[i].clamp);
81	0	continue;
82	0	}
83
84	0	case PatchBlendMode::kAlphaWeightedAddAbove: {
85	0	size_t alpha = ec_blending[i].alpha_channel;
86	0	PerformAlphaWeightedAdd(bg[3 + i] + x0, fg[3 + i] + x0,
87	0	fg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
88	0	ec_blending[i].clamp);
89	0	continue;
90	0	}
91
92	0	case PatchBlendMode::kAlphaWeightedAddBelow: {
93	0	size_t alpha = ec_blending[i].alpha_channel;
94	0	PerformAlphaWeightedAdd(fg[3 + i] + x0, bg[3 + i] + x0,
95	0	bg[3 + alpha] + x0, tmp.Row(3 + i), xsize,
96	0	ec_blending[i].clamp);
97	0	continue;
98	0	}
99
100	0	case PatchBlendMode::kMul:
101	0	PerformMulBlending(bg[3 + i] + x0, fg[3 + i] + x0, tmp.Row(3 + i),
102	0	xsize, ec_blending[i].clamp);
103	0	continue;
104
105	0	case PatchBlendMode::kReplace:
106	0	if (xsize) memcpy(tmp.Row(3 + i), fg[3 + i] + x0, xsize * sizeof(**fg));
107	0	continue;
108
109	59.9k	case PatchBlendMode::kNone:
110	59.9k	if (xsize) memcpy(tmp.Row(3 + i), bg[3 + i] + x0, xsize * sizeof(**fg));
111	59.9k	continue;
112	61.0k	}
113	61.0k	}
114	9.13M	size_t alpha = color_blending.alpha_channel;
115
116	9.13M	const auto add = [&]() {
117	36.4M	for (int p = 0; p < 3; p++) {
118	27.3M	float* out = tmp.Row(p);
119	1.31G	for (size_t x = 0; x < xsize; x++) {
120	1.28G	out[x] = bg[p][x + x0] + fg[p][x + x0];
121	1.28G	}
122	27.3M	}
123	9.10M	};
124
125	9.13M	const auto blend_weighted = [&](const float* const* bottom,
126	9.13M	const float* const* top) {
127	0	bool is_premultiplied = extra_channel_info[alpha].alpha_associated;
128	0	PerformAlphaBlending(
129	0	{bottom[0] + x0, bottom[1] + x0, bottom[2] + x0,
130	0	bottom[3 + alpha] + x0},
131	0	{top[0] + x0, top[1] + x0, top[2] + x0, top[3 + alpha] + x0},
132	0	{tmp.Row(0), tmp.Row(1), tmp.Row(2), tmp.Row(3 + alpha)}, xsize,
133	0	is_premultiplied, color_blending.clamp);
134	0	};
135
136	9.13M	const auto add_weighted = [&](const float* const* bottom,
137	9.13M	const float* const* top) {
138	0	for (size_t c = 0; c < 3; c++) {
139	0	PerformAlphaWeightedAdd(bottom[c] + x0, top[c] + x0, top[3 + alpha] + x0,
140	0	tmp.Row(c), xsize, color_blending.clamp);
141	0	}
142	0	};
143
144	9.13M	const auto copy = [&](const float* const* src) {
145	124k	for (size_t p = 0; p < 3; p++) {
146	93.6k	memcpy(tmp.Row(p), src[p] + x0, xsize * sizeof(**src));
147	93.6k	}
148	31.2k	};
149
150	9.13M	switch (color_blending.mode) {
151	9.06M	case PatchBlendMode::kAdd:
152	9.06M	add();
153	9.06M	break;
154
155	33.1k	case PatchBlendMode::kAlphaWeightedAddAbove:
156	33.1k	has_alpha ? add_weighted(bg, fg) : add();
157	33.1k	break;
158
159	0	case PatchBlendMode::kAlphaWeightedAddBelow:
160	0	has_alpha ? add_weighted(fg, bg) : add();
161	0	break;
162
163	22.8k	case PatchBlendMode::kBlendAbove:
164	22.8k	has_alpha ? blend_weighted(bg, fg) : copy(fg);
165	22.8k	break;
166
167	0	case PatchBlendMode::kBlendBelow:
168	0	has_alpha ? blend_weighted(fg, bg) : copy(fg);
169	0	break;
170
171	0	case PatchBlendMode::kMul:
172	0	for (int p = 0; p < 3; p++) {
173	0	PerformMulBlending(bg[p] + x0, fg[p] + x0, tmp.Row(p), xsize,
174	0	color_blending.clamp);
175	0	}
176	0	break;
177
178	366	case PatchBlendMode::kReplace:
179	366	copy(fg);
180	366	break;
181
182	7.97k	case PatchBlendMode::kNone:
183	7.97k	copy(bg);
184	9.13M	}
185
186	36.5M	for (size_t i = 0; i < 3 + num_ec; i++) {
187	27.4M	if (xsize != 0) memcpy(out[i] + x0, tmp.Row(i), xsize * sizeof(**out));
188	27.4M	}
189	9.13M	return true;
190	9.13M	}
191
192		} // namespace jxl

Coverage Report

Created: 2026-02-14 07:09