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Issue 2920263002: Delete FORMAT_RGB and legacy libjpeg support from gfx::JpegCodec (Closed)
Patch Set: Fix PFQ chrome build Created 3 years, 6 months ago
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1 // Copyright (c) 2011 The Chromium Authors. All rights reserved. 1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be 2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file. 3 // found in the LICENSE file.
4 4
5 #include <math.h> 5 #include <math.h>
6 #include <stddef.h> 6 #include <stddef.h>
7 #include <stdint.h> 7 #include <stdint.h>
8 8
9 #include "base/macros.h" 9 #include "base/macros.h"
10 #include "testing/gtest/include/gtest/gtest.h" 10 #include "testing/gtest/include/gtest/gtest.h"
(...skipping 70 matching lines...) Expand 10 before | Expand all | Expand 10 after
81 if (a.empty()) 81 if (a.empty())
82 return 0; // prevent divide by 0 below 82 return 0; // prevent divide by 0 below
83 83
84 double acc = 0.0; 84 double acc = 0.0;
85 for (size_t i = 0; i < a.size(); i++) 85 for (size_t i = 0; i < a.size(); i++)
86 acc += fabs(static_cast<double>(a[i]) - static_cast<double>(b[i])); 86 acc += fabs(static_cast<double>(a[i]) - static_cast<double>(b[i]));
87 87
88 return acc / static_cast<double>(a.size()); 88 return acc / static_cast<double>(a.size());
89 } 89 }
90 90
91 static void MakeRGBImage(int w, int h, std::vector<unsigned char>* dat) { 91 static void MakeRGBAImage(int w, int h, std::vector<unsigned char>* dat) {
92 dat->resize(w * h * 3); 92 dat->resize(w * h * 4);
93 for (int y = 0; y < h; y++) { 93 for (int y = 0; y < h; y++) {
94 for (int x = 0; x < w; x++) { 94 for (int x = 0; x < w; x++) {
95 unsigned char* org_px = &(*dat)[(y * w + x) * 3]; 95 unsigned char* org_px = &(*dat)[(y * w + x) * 4];
96 org_px[0] = x * 3; // r 96 org_px[0] = x * 3; // r
97 org_px[1] = x * 3 + 1; // g 97 org_px[1] = x * 3 + 1; // g
98 org_px[2] = x * 3 + 2; // b 98 org_px[2] = x * 3 + 2; // b
99 org_px[3] = 0xFF; // a
99 } 100 }
100 } 101 }
101 } 102 }
102 103
103 TEST(JPEGCodec, EncodeDecodeRGB) {
104 int w = 20, h = 20;
105
106 // create an image with known values
107 std::vector<unsigned char> original;
108 MakeRGBImage(w, h, &original);
109
110 // encode, making sure it was compressed some
111 std::vector<unsigned char> encoded;
112 EXPECT_TRUE(JPEGCodec::Encode(&original[0], JPEGCodec::FORMAT_RGB, w, h,
113 w * 3, jpeg_quality, &encoded));
114 EXPECT_GT(original.size(), encoded.size());
115
116 // decode, it should have the same size as the original
117 std::vector<unsigned char> decoded;
118 int outw, outh;
119 EXPECT_TRUE(JPEGCodec::Decode(&encoded[0], encoded.size(),
120 JPEGCodec::FORMAT_RGB, &decoded,
121 &outw, &outh));
122 ASSERT_EQ(w, outw);
123 ASSERT_EQ(h, outh);
124 ASSERT_EQ(original.size(), decoded.size());
125
126 // Images must be approximately equal (compression will have introduced some
127 // minor artifacts).
128 ASSERT_GE(jpeg_equality_threshold, AveragePixelDelta(original, decoded));
129 }
130
131 TEST(JPEGCodec, EncodeDecodeRGBA) { 104 TEST(JPEGCodec, EncodeDecodeRGBA) {
132 int w = 20, h = 20; 105 int w = 20, h = 20;
133 106
134 // create an image with known values, a must be opaque because it will be 107 // create an image with known values, a must be opaque because it will be
135 // lost during compression 108 // lost during compression
136 std::vector<unsigned char> original; 109 std::vector<unsigned char> original;
137 original.resize(w * h * 4); 110 MakeRGBAImage(w, h, &original);
138 for (int y = 0; y < h; y++) {
139 for (int x = 0; x < w; x++) {
140 unsigned char* org_px = &original[(y * w + x) * 4];
141 org_px[0] = x * 3; // r
142 org_px[1] = x * 3 + 1; // g
143 org_px[2] = x * 3 + 2; // b
144 org_px[3] = 0xFF; // a (opaque)
145 }
146 }
147 111
148 // encode, making sure it was compressed some 112 // encode, making sure it was compressed some
149 std::vector<unsigned char> encoded; 113 std::vector<unsigned char> encoded;
150 EXPECT_TRUE(JPEGCodec::Encode(&original[0], JPEGCodec::FORMAT_RGBA, w, h, 114 EXPECT_TRUE(JPEGCodec::Encode(&original[0], JPEGCodec::FORMAT_RGBA, w, h,
151 w * 4, jpeg_quality, &encoded)); 115 w * 4, jpeg_quality, &encoded));
152 EXPECT_GT(original.size(), encoded.size()); 116 EXPECT_GT(original.size(), encoded.size());
153 117
154 // decode, it should have the same size as the original 118 // decode, it should have the same size as the original
155 std::vector<unsigned char> decoded; 119 std::vector<unsigned char> decoded;
156 int outw, outh; 120 int outw, outh;
157 EXPECT_TRUE(JPEGCodec::Decode(&encoded[0], encoded.size(), 121 EXPECT_TRUE(JPEGCodec::Decode(&encoded[0], encoded.size(),
158 JPEGCodec::FORMAT_RGBA, &decoded, 122 JPEGCodec::FORMAT_RGBA, &decoded,
159 &outw, &outh)); 123 &outw, &outh));
160 ASSERT_EQ(w, outw); 124 ASSERT_EQ(w, outw);
161 ASSERT_EQ(h, outh); 125 ASSERT_EQ(h, outh);
162 ASSERT_EQ(original.size(), decoded.size()); 126 ASSERT_EQ(original.size(), decoded.size());
163 127
164 // Images must be approximately equal (compression will have introduced some 128 // Images must be approximately equal (compression will have introduced some
165 // minor artifacts). 129 // minor artifacts).
166 ASSERT_GE(jpeg_equality_threshold, AveragePixelDelta(original, decoded)); 130 ASSERT_GE(jpeg_equality_threshold, AveragePixelDelta(original, decoded));
167 } 131 }
168 132
169 // Test that corrupted data decompression causes failures. 133 // Test that corrupted data decompression causes failures.
170 TEST(JPEGCodec, DecodeCorrupted) { 134 TEST(JPEGCodec, DecodeCorrupted) {
171 int w = 20, h = 20; 135 int w = 20, h = 20;
172 136
173 // some random data (an uncompressed image) 137 // some random data (an uncompressed image)
174 std::vector<unsigned char> original; 138 std::vector<unsigned char> original;
175 MakeRGBImage(w, h, &original); 139 MakeRGBAImage(w, h, &original);
176 140
177 // it should fail when given non-JPEG compressed data 141 // it should fail when given non-JPEG compressed data
178 std::vector<unsigned char> output; 142 std::vector<unsigned char> output;
179 int outw, outh; 143 int outw, outh;
180 ASSERT_FALSE(JPEGCodec::Decode(&original[0], original.size(), 144 ASSERT_FALSE(JPEGCodec::Decode(&original[0], original.size(),
181 JPEGCodec::FORMAT_RGB, &output, 145 JPEGCodec::FORMAT_RGBA, &output, &outw,
182 &outw, &outh)); 146 &outh));
183 147
184 // make some compressed data 148 // make some compressed data
185 std::vector<unsigned char> compressed; 149 std::vector<unsigned char> compressed;
186 ASSERT_TRUE(JPEGCodec::Encode(&original[0], JPEGCodec::FORMAT_RGB, w, h, 150 ASSERT_TRUE(JPEGCodec::Encode(&original[0], JPEGCodec::FORMAT_RGBA, w, h,
187 w * 3, jpeg_quality, &compressed)); 151 w * 3, jpeg_quality, &compressed));
188 152
189 // try decompressing a truncated version 153 // try decompressing a truncated version
190 ASSERT_FALSE(JPEGCodec::Decode(&compressed[0], compressed.size() / 2, 154 ASSERT_FALSE(JPEGCodec::Decode(&compressed[0], compressed.size() / 2,
191 JPEGCodec::FORMAT_RGB, &output, 155 JPEGCodec::FORMAT_RGBA, &output, &outw,
192 &outw, &outh)); 156 &outh));
193 157
194 // corrupt it and try decompressing that 158 // corrupt it and try decompressing that
195 for (int i = 10; i < 30; i++) 159 for (int i = 10; i < 30; i++)
196 compressed[i] = i; 160 compressed[i] = i;
197 ASSERT_FALSE(JPEGCodec::Decode(&compressed[0], compressed.size(), 161 ASSERT_FALSE(JPEGCodec::Decode(&compressed[0], compressed.size(),
198 JPEGCodec::FORMAT_RGB, &output, 162 JPEGCodec::FORMAT_RGBA, &output, &outw,
199 &outw, &outh)); 163 &outh));
200 } 164 }
201 165
202 // Test that we can decode JPEG images without invalid-read errors on valgrind. 166 // Test that we can decode JPEG images without invalid-read errors on valgrind.
203 // This test decodes a 1x1 JPEG image and writes the decoded RGB (or RGBA) pixel 167 // This test decodes a 1x1 JPEG image and writes the decoded RGB (or RGBA) pixel
204 // to the output buffer without OOB reads. 168 // to the output buffer without OOB reads.
205 TEST(JPEGCodec, InvalidRead) { 169 TEST(JPEGCodec, InvalidRead) {
206 std::vector<unsigned char> output; 170 std::vector<unsigned char> output;
207 int outw, outh; 171 int outw, outh;
208 JPEGCodec::Decode(kTopSitesMigrationTestImage, 172 JPEGCodec::Decode(kTopSitesMigrationTestImage,
209 arraysize(kTopSitesMigrationTestImage), 173 arraysize(kTopSitesMigrationTestImage),
210 JPEGCodec::FORMAT_RGB, &output,
211 &outw, &outh);
212
213 JPEGCodec::Decode(kTopSitesMigrationTestImage,
214 arraysize(kTopSitesMigrationTestImage),
215 JPEGCodec::FORMAT_RGBA, &output, 174 JPEGCodec::FORMAT_RGBA, &output,
216 &outw, &outh); 175 &outw, &outh);
217 } 176 }
218 177
219 } // namespace gfx 178 } // namespace gfx
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