// Copyright (c) 2006-2008 The Chromium 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 #include "base/gfx/png_encoder.h" #include "base/gfx/png_decoder.h" #include "testing/gtest/include/gtest/gtest.h" static void MakeRGBImage(int w, int h, std::vector* dat) { dat->resize(w * h * 3); for (int y = 0; y < h; y++) { for (int x = 0; x < w; x++) { unsigned char* org_px = &(*dat)[(y * w + x) * 3]; org_px[0] = x * 3; // r org_px[1] = x * 3 + 1; // g org_px[2] = x * 3 + 2; // b } } } // Set use_transparency to write data into the alpha channel, otherwise it will // be filled with 0xff. With the alpha channel stripped, this should yield the // same image as MakeRGBImage above, so the code below can make reference // images for conversion testing. static void MakeRGBAImage(int w, int h, bool use_transparency, std::vector* dat) { dat->resize(w * h * 4); for (int y = 0; y < h; y++) { for (int x = 0; x < w; x++) { unsigned char* org_px = &(*dat)[(y * w + x) * 4]; org_px[0] = x * 3; // r org_px[1] = x * 3 + 1; // g org_px[2] = x * 3 + 2; // b if (use_transparency) org_px[3] = x*3 + 3; // a else org_px[3] = 0xFF; // a (opaque) } } } TEST(PNGCodec, EncodeDecodeRGB) { const int w = 20, h = 20; // create an image with known values std::vector original; MakeRGBImage(w, h, &original); // encode std::vector encoded; EXPECT_TRUE(PNGEncoder::Encode(&original[0], PNGEncoder::FORMAT_RGB, w, h, w * 3, false, &encoded)); // decode, it should have the same size as the original std::vector decoded; int outw, outh; EXPECT_TRUE(PNGDecoder::Decode(&encoded[0], encoded.size(), PNGDecoder::FORMAT_RGB, &decoded, &outw, &outh)); ASSERT_EQ(w, outw); ASSERT_EQ(h, outh); ASSERT_EQ(original.size(), decoded.size()); // Images must be equal ASSERT_TRUE(original == decoded); } TEST(PNGCodec, EncodeDecodeRGBA) { const int w = 20, h = 20; // create an image with known values, a must be opaque because it will be // lost during encoding std::vector original; MakeRGBAImage(w, h, true, &original); // encode std::vector encoded; EXPECT_TRUE(PNGEncoder::Encode(&original[0], PNGEncoder::FORMAT_RGBA, w, h, w * 4, false, &encoded)); // decode, it should have the same size as the original std::vector decoded; int outw, outh; EXPECT_TRUE(PNGDecoder::Decode(&encoded[0], encoded.size(), PNGDecoder::FORMAT_RGBA, &decoded, &outw, &outh)); ASSERT_EQ(w, outw); ASSERT_EQ(h, outh); ASSERT_EQ(original.size(), decoded.size()); // Images must be exactly equal ASSERT_TRUE(original == decoded); } // Test that corrupted data decompression causes failures. TEST(PNGCodec, DecodeCorrupted) { int w = 20, h = 20; // Make some random data (an uncompressed image). std::vector original; MakeRGBImage(w, h, &original); // It should fail when given non-JPEG compressed data. std::vector output; int outw, outh; EXPECT_FALSE(PNGDecoder::Decode(&original[0], original.size(), PNGDecoder::FORMAT_RGB, &output, &outw, &outh)); // Make some compressed data. std::vector compressed; EXPECT_TRUE(PNGEncoder::Encode(&original[0], PNGEncoder::FORMAT_RGB, w, h, w * 3, false, &compressed)); // Try decompressing a truncated version. EXPECT_FALSE(PNGDecoder::Decode(&compressed[0], compressed.size() / 2, PNGDecoder::FORMAT_RGB, &output, &outw, &outh)); // Corrupt it and try decompressing that. for (int i = 10; i < 30; i++) compressed[i] = i; EXPECT_FALSE(PNGDecoder::Decode(&compressed[0], compressed.size(), PNGDecoder::FORMAT_RGB, &output, &outw, &outh)); } TEST(PNGCodec, EncodeDecodeBGRA) { const int w = 20, h = 20; // Create an image with known values, alpha must be opaque because it will be // lost during encoding. std::vector original; MakeRGBAImage(w, h, true, &original); // Encode. std::vector encoded; EXPECT_TRUE(PNGEncoder::Encode(&original[0], PNGEncoder::FORMAT_BGRA, w, h, w * 4, false, &encoded)); // Decode, it should have the same size as the original. std::vector decoded; int outw, outh; EXPECT_TRUE(PNGDecoder::Decode(&encoded[0], encoded.size(), PNGDecoder::FORMAT_BGRA, &decoded, &outw, &outh)); ASSERT_EQ(w, outw); ASSERT_EQ(h, outh); ASSERT_EQ(original.size(), decoded.size()); // Images must be exactly equal. ASSERT_TRUE(original == decoded); } TEST(PNGCodec, StripAddAlpha) { const int w = 20, h = 20; // These should be the same except one has a 0xff alpha channel. std::vector original_rgb; MakeRGBImage(w, h, &original_rgb); std::vector original_rgba; MakeRGBAImage(w, h, false, &original_rgba); // Encode RGBA data as RGB. std::vector encoded; EXPECT_TRUE(PNGEncoder::Encode(&original_rgba[0], PNGEncoder::FORMAT_RGBA, w, h, w * 4, true, &encoded)); // Decode the RGB to RGBA. std::vector decoded; int outw, outh; EXPECT_TRUE(PNGDecoder::Decode(&encoded[0], encoded.size(), PNGDecoder::FORMAT_RGBA, &decoded, &outw, &outh)); // Decoded and reference should be the same (opaque alpha). ASSERT_EQ(w, outw); ASSERT_EQ(h, outh); ASSERT_EQ(original_rgba.size(), decoded.size()); ASSERT_TRUE(original_rgba == decoded); // Encode RGBA to RGBA. EXPECT_TRUE(PNGEncoder::Encode(&original_rgba[0], PNGEncoder::FORMAT_RGBA, w, h, w * 4, false, &encoded)); // Decode the RGBA to RGB. EXPECT_TRUE(PNGDecoder::Decode(&encoded[0], encoded.size(), PNGDecoder::FORMAT_RGB, &decoded, &outw, &outh)); // It should be the same as our non-alpha-channel reference. ASSERT_EQ(w, outw); ASSERT_EQ(h, outh); ASSERT_EQ(original_rgb.size(), decoded.size()); ASSERT_TRUE(original_rgb == decoded); }