| Index: skia/ext/image_operations_unittest.cc
|
| diff --git a/skia/ext/image_operations_unittest.cc b/skia/ext/image_operations_unittest.cc
|
| deleted file mode 100644
|
| index 8f6d756f25f5ba4f35ba5051375b16db08e262c0..0000000000000000000000000000000000000000
|
| --- a/skia/ext/image_operations_unittest.cc
|
| +++ /dev/null
|
| @@ -1,705 +0,0 @@
|
| -// Copyright (c) 2012 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 <algorithm>
|
| -#include <cmath>
|
| -#include <iomanip>
|
| -#include <vector>
|
| -
|
| -#include "base/basictypes.h"
|
| -#include "base/compiler_specific.h"
|
| -#include "base/files/file_util.h"
|
| -#include "base/strings/string_util.h"
|
| -#include "skia/ext/image_operations.h"
|
| -#include "testing/gtest/include/gtest/gtest.h"
|
| -#include "third_party/skia/include/core/SkBitmap.h"
|
| -#include "third_party/skia/include/core/SkRect.h"
|
| -#include "ui/gfx/codec/png_codec.h"
|
| -#include "ui/gfx/geometry/size.h"
|
| -
|
| -namespace {
|
| -
|
| -// Computes the average pixel value for the given range, inclusive.
|
| -uint32_t AveragePixel(const SkBitmap& bmp,
|
| - int x_min, int x_max,
|
| - int y_min, int y_max) {
|
| - float accum[4] = {0, 0, 0, 0};
|
| - int count = 0;
|
| - for (int y = y_min; y <= y_max; y++) {
|
| - for (int x = x_min; x <= x_max; x++) {
|
| - uint32_t cur = *bmp.getAddr32(x, y);
|
| - accum[0] += SkColorGetB(cur);
|
| - accum[1] += SkColorGetG(cur);
|
| - accum[2] += SkColorGetR(cur);
|
| - accum[3] += SkColorGetA(cur);
|
| - count++;
|
| - }
|
| - }
|
| -
|
| - return SkColorSetARGB(static_cast<unsigned char>(accum[3] / count),
|
| - static_cast<unsigned char>(accum[2] / count),
|
| - static_cast<unsigned char>(accum[1] / count),
|
| - static_cast<unsigned char>(accum[0] / count));
|
| -}
|
| -
|
| -// Computes the average pixel (/color) value for the given colors.
|
| -SkColor AveragePixel(const SkColor colors[], size_t color_count) {
|
| - float accum[4] = { 0.0f, 0.0f, 0.0f, 0.0f };
|
| - for (size_t i = 0; i < color_count; ++i) {
|
| - const SkColor cur = colors[i];
|
| - accum[0] += static_cast<float>(SkColorGetA(cur));
|
| - accum[1] += static_cast<float>(SkColorGetR(cur));
|
| - accum[2] += static_cast<float>(SkColorGetG(cur));
|
| - accum[3] += static_cast<float>(SkColorGetB(cur));
|
| - }
|
| - const SkColor average_color =
|
| - SkColorSetARGB(static_cast<uint8_t>(accum[0] / color_count),
|
| - static_cast<uint8_t>(accum[1] / color_count),
|
| - static_cast<uint8_t>(accum[2] / color_count),
|
| - static_cast<uint8_t>(accum[3] / color_count));
|
| - return average_color;
|
| -}
|
| -
|
| -void PrintPixel(const SkBitmap& bmp,
|
| - int x_min, int x_max,
|
| - int y_min, int y_max) {
|
| - char str[128];
|
| -
|
| - for (int y = y_min; y <= y_max; ++y) {
|
| - for (int x = x_min; x <= x_max; ++x) {
|
| - const uint32_t cur = *bmp.getAddr32(x, y);
|
| - base::snprintf(str, sizeof(str), "bmp[%d,%d] = %08X", x, y, cur);
|
| - ADD_FAILURE() << str;
|
| - }
|
| - }
|
| -}
|
| -
|
| -// Returns the euclidian distance between two RGBA colors interpreted
|
| -// as 4-components vectors.
|
| -//
|
| -// Notes:
|
| -// - This is a really poor definition of color distance. Yet it
|
| -// is "good enough" for our uses here.
|
| -// - More realistic measures like the various Delta E formulas defined
|
| -// by CIE are way more complex and themselves require the RGBA to
|
| -// to transformed into CIELAB (typically via sRGB first).
|
| -// - The static_cast<int> below are needed to avoid interpreting "negative"
|
| -// differences as huge positive values.
|
| -float ColorsEuclidianDistance(const SkColor a, const SkColor b) {
|
| - int b_int_diff = static_cast<int>(SkColorGetB(a) - SkColorGetB(b));
|
| - int g_int_diff = static_cast<int>(SkColorGetG(a) - SkColorGetG(b));
|
| - int r_int_diff = static_cast<int>(SkColorGetR(a) - SkColorGetR(b));
|
| - int a_int_diff = static_cast<int>(SkColorGetA(a) - SkColorGetA(b));
|
| -
|
| - float b_float_diff = static_cast<float>(b_int_diff);
|
| - float g_float_diff = static_cast<float>(g_int_diff);
|
| - float r_float_diff = static_cast<float>(r_int_diff);
|
| - float a_float_diff = static_cast<float>(a_int_diff);
|
| -
|
| - return sqrtf((b_float_diff * b_float_diff) + (g_float_diff * g_float_diff) +
|
| - (r_float_diff * r_float_diff) + (a_float_diff * a_float_diff));
|
| -}
|
| -
|
| -// Returns true if each channel of the given two colors are "close." This is
|
| -// used for comparing colors where rounding errors may cause off-by-one.
|
| -bool ColorsClose(uint32_t a, uint32_t b) {
|
| - return abs(static_cast<int>(SkColorGetB(a) - SkColorGetB(b))) < 2 &&
|
| - abs(static_cast<int>(SkColorGetG(a) - SkColorGetG(b))) < 2 &&
|
| - abs(static_cast<int>(SkColorGetR(a) - SkColorGetR(b))) < 2 &&
|
| - abs(static_cast<int>(SkColorGetA(a) - SkColorGetA(b))) < 2;
|
| -}
|
| -
|
| -void FillDataToBitmap(int w, int h, SkBitmap* bmp) {
|
| - bmp->allocN32Pixels(w, h);
|
| -
|
| - for (int y = 0; y < h; ++y) {
|
| - for (int x = 0; x < w; ++x) {
|
| - const uint8_t component = static_cast<uint8_t>(y * w + x);
|
| - const SkColor pixel = SkColorSetARGB(component, component,
|
| - component, component);
|
| - *bmp->getAddr32(x, y) = pixel;
|
| - }
|
| - }
|
| -}
|
| -
|
| -// Draws a horizontal and vertical grid into the w x h bitmap passed in.
|
| -// Each line in the grid is drawn with a width of "grid_width" pixels,
|
| -// and those lines repeat every "grid_pitch" pixels. The top left pixel (0, 0)
|
| -// is considered to be part of a grid line.
|
| -// The pixels that fall on a line are colored with "grid_color", while those
|
| -// outside of the lines are colored in "background_color".
|
| -// Note that grid_with can be greather than or equal to grid_pitch, in which
|
| -// case the resulting bitmap will be a solid color "grid_color".
|
| -void DrawGridToBitmap(int w, int h,
|
| - SkColor background_color, SkColor grid_color,
|
| - int grid_pitch, int grid_width,
|
| - SkBitmap* bmp) {
|
| - ASSERT_GT(grid_pitch, 0);
|
| - ASSERT_GT(grid_width, 0);
|
| - ASSERT_NE(background_color, grid_color);
|
| -
|
| - bmp->allocN32Pixels(w, h);
|
| -
|
| - for (int y = 0; y < h; ++y) {
|
| - bool y_on_grid = ((y % grid_pitch) < grid_width);
|
| -
|
| - for (int x = 0; x < w; ++x) {
|
| - bool on_grid = (y_on_grid || ((x % grid_pitch) < grid_width));
|
| -
|
| - *bmp->getAddr32(x, y) = (on_grid ? grid_color : background_color);
|
| - }
|
| - }
|
| -}
|
| -
|
| -// Draws a checkerboard pattern into the w x h bitmap passed in.
|
| -// Each rectangle is rect_w in width, rect_h in height.
|
| -// The colors alternate between color1 and color2, color1 being used
|
| -// in the rectangle at the top left corner.
|
| -void DrawCheckerToBitmap(int w, int h,
|
| - SkColor color1, SkColor color2,
|
| - int rect_w, int rect_h,
|
| - SkBitmap* bmp) {
|
| - ASSERT_GT(rect_w, 0);
|
| - ASSERT_GT(rect_h, 0);
|
| - ASSERT_NE(color1, color2);
|
| -
|
| - bmp->allocN32Pixels(w, h);
|
| -
|
| - for (int y = 0; y < h; ++y) {
|
| - bool y_bit = (((y / rect_h) & 0x1) == 0);
|
| -
|
| - for (int x = 0; x < w; ++x) {
|
| - bool x_bit = (((x / rect_w) & 0x1) == 0);
|
| -
|
| - bool use_color2 = (x_bit != y_bit); // xor
|
| -
|
| - *bmp->getAddr32(x, y) = (use_color2 ? color2 : color1);
|
| - }
|
| - }
|
| -}
|
| -
|
| -// DEBUG_BITMAP_GENERATION (0 or 1) controls whether the routines
|
| -// to save the test bitmaps are present. By default the test just fails
|
| -// without reading/writing files but it is then convenient to have
|
| -// a simple way to make the failing tests write out the input/output images
|
| -// to check them visually.
|
| -#define DEBUG_BITMAP_GENERATION (0)
|
| -
|
| -#if DEBUG_BITMAP_GENERATION
|
| -void SaveBitmapToPNG(const SkBitmap& bmp, const char* path) {
|
| - SkAutoLockPixels lock(bmp);
|
| - std::vector<unsigned char> png;
|
| - gfx::PNGCodec::ColorFormat color_format = gfx::PNGCodec::FORMAT_RGBA;
|
| - if (!gfx::PNGCodec::Encode(
|
| - reinterpret_cast<const unsigned char*>(bmp.getPixels()),
|
| - color_format, gfx::Size(bmp.width(), bmp.height()),
|
| - static_cast<int>(bmp.rowBytes()),
|
| - false, std::vector<gfx::PNGCodec::Comment>(), &png)) {
|
| - FAIL() << "Failed to encode image";
|
| - }
|
| -
|
| - const base::FilePath fpath(path);
|
| - const int num_written =
|
| - base::WriteFile(fpath, reinterpret_cast<const char*>(&png[0]),
|
| - png.size());
|
| - if (num_written != static_cast<int>(png.size())) {
|
| - FAIL() << "Failed to write dest \"" << path << '"';
|
| - }
|
| -}
|
| -#endif // #if DEBUG_BITMAP_GENERATION
|
| -
|
| -void CheckResampleToSame(skia::ImageOperations::ResizeMethod method) {
|
| - // Make our source bitmap.
|
| - const int src_w = 16, src_h = 34;
|
| - SkBitmap src;
|
| - FillDataToBitmap(src_w, src_h, &src);
|
| -
|
| - // Do a resize of the full bitmap to the same size. The lanczos filter is good
|
| - // enough that we should get exactly the same image for output.
|
| - SkBitmap results = skia::ImageOperations::Resize(src, method, src_w, src_h);
|
| - ASSERT_EQ(src_w, results.width());
|
| - ASSERT_EQ(src_h, results.height());
|
| -
|
| - SkAutoLockPixels src_lock(src);
|
| - SkAutoLockPixels results_lock(results);
|
| - for (int y = 0; y < src_h; y++) {
|
| - for (int x = 0; x < src_w; x++) {
|
| - EXPECT_EQ(*src.getAddr32(x, y), *results.getAddr32(x, y));
|
| - }
|
| - }
|
| -}
|
| -
|
| -// Types defined outside of the ResizeShouldAverageColors test to allow
|
| -// use of the arraysize() macro.
|
| -//
|
| -// 'max_color_distance_override' is used in a max() call together with
|
| -// the value of 'max_color_distance' defined in a TestedPixel instance.
|
| -// Hence a value of 0.0 in 'max_color_distance_override' means
|
| -// "use the pixel-specific value" and larger values can be used to allow
|
| -// worse computation errors than provided in a TestedPixel instance.
|
| -struct TestedResizeMethod {
|
| - skia::ImageOperations::ResizeMethod method;
|
| - const char* name;
|
| - float max_color_distance_override;
|
| -};
|
| -
|
| -struct TestedPixel {
|
| - int x;
|
| - int y;
|
| - float max_color_distance;
|
| - const char* name;
|
| -};
|
| -
|
| -// Helper function used by the test "ResizeShouldAverageColors" below.
|
| -// Note that ASSERT_EQ does a "return;" on failure, hence we can't have
|
| -// a "bool" return value to reflect success. Hence "all_pixels_pass"
|
| -void CheckResizeMethodShouldAverageGrid(
|
| - const SkBitmap& src,
|
| - const TestedResizeMethod& tested_method,
|
| - int dest_w, int dest_h, SkColor average_color,
|
| - bool* method_passed) {
|
| - *method_passed = false;
|
| -
|
| - const TestedPixel tested_pixels[] = {
|
| - // Corners
|
| - { 0, 0, 2.3f, "Top left corner" },
|
| - { 0, dest_h - 1, 2.3f, "Bottom left corner" },
|
| - { dest_w - 1, 0, 2.3f, "Top right corner" },
|
| - { dest_w - 1, dest_h - 1, 2.3f, "Bottom right corner" },
|
| - // Middle points of each side
|
| - { dest_w / 2, 0, 1.0f, "Top middle" },
|
| - { dest_w / 2, dest_h - 1, 1.0f, "Bottom middle" },
|
| - { 0, dest_h / 2, 1.0f, "Left middle" },
|
| - { dest_w - 1, dest_h / 2, 1.0f, "Right middle" },
|
| - // Center
|
| - { dest_w / 2, dest_h / 2, 1.0f, "Center" }
|
| - };
|
| -
|
| - // Resize the src
|
| - const skia::ImageOperations::ResizeMethod method = tested_method.method;
|
| -
|
| - SkBitmap dest = skia::ImageOperations::Resize(src, method, dest_w, dest_h);
|
| - ASSERT_EQ(dest_w, dest.width());
|
| - ASSERT_EQ(dest_h, dest.height());
|
| -
|
| - // Check that pixels match the expected average.
|
| - float max_observed_distance = 0.0f;
|
| - bool all_pixels_ok = true;
|
| -
|
| - SkAutoLockPixels dest_lock(dest);
|
| -
|
| - for (size_t pixel_index = 0;
|
| - pixel_index < arraysize(tested_pixels);
|
| - ++pixel_index) {
|
| - const TestedPixel& tested_pixel = tested_pixels[pixel_index];
|
| -
|
| - const int x = tested_pixel.x;
|
| - const int y = tested_pixel.y;
|
| - const float max_allowed_distance =
|
| - std::max(tested_pixel.max_color_distance,
|
| - tested_method.max_color_distance_override);
|
| -
|
| - const SkColor actual_color = *dest.getAddr32(x, y);
|
| -
|
| - // Check that the pixels away from the border region are very close
|
| - // to the expected average color
|
| - float distance = ColorsEuclidianDistance(average_color, actual_color);
|
| -
|
| - EXPECT_LE(distance, max_allowed_distance)
|
| - << "Resizing method: " << tested_method.name
|
| - << ", pixel tested: " << tested_pixel.name
|
| - << "(" << x << ", " << y << ")"
|
| - << std::hex << std::showbase
|
| - << ", expected (avg) hex: " << average_color
|
| - << ", actual hex: " << actual_color;
|
| -
|
| - if (distance > max_allowed_distance) {
|
| - all_pixels_ok = false;
|
| - }
|
| - if (distance > max_observed_distance) {
|
| - max_observed_distance = distance;
|
| - }
|
| - }
|
| -
|
| - if (!all_pixels_ok) {
|
| - ADD_FAILURE() << "Maximum observed color distance for method "
|
| - << tested_method.name << ": " << max_observed_distance;
|
| -
|
| -#if DEBUG_BITMAP_GENERATION
|
| - char path[128];
|
| - base::snprintf(path, sizeof(path),
|
| - "/tmp/ResizeShouldAverageColors_%s_dest.png",
|
| - tested_method.name);
|
| - SaveBitmapToPNG(dest, path);
|
| -#endif // #if DEBUG_BITMAP_GENERATION
|
| - }
|
| -
|
| - *method_passed = all_pixels_ok;
|
| -}
|
| -
|
| -
|
| -} // namespace
|
| -
|
| -// Helper tests that saves bitmaps to PNGs in /tmp/ to visually check
|
| -// that the bitmap generation functions work as expected.
|
| -// Those tests are not enabled by default as verification is done
|
| -// manually/visually, however it is convenient to leave the functions
|
| -// in place.
|
| -#if 0 && DEBUG_BITMAP_GENERATION
|
| -TEST(ImageOperations, GenerateGradientBitmap) {
|
| - // Make our source bitmap.
|
| - const int src_w = 640, src_h = 480;
|
| - SkBitmap src;
|
| - FillDataToBitmap(src_w, src_h, &src);
|
| -
|
| - SaveBitmapToPNG(src, "/tmp/gradient_640x480.png");
|
| -}
|
| -
|
| -TEST(ImageOperations, GenerateGridBitmap) {
|
| - const int src_w = 640, src_h = 480, src_grid_pitch = 10, src_grid_width = 4;
|
| - const SkColor grid_color = SK_ColorRED, background_color = SK_ColorBLUE;
|
| - SkBitmap src;
|
| - DrawGridToBitmap(src_w, src_h,
|
| - background_color, grid_color,
|
| - src_grid_pitch, src_grid_width,
|
| - &src);
|
| -
|
| - SaveBitmapToPNG(src, "/tmp/grid_640x408_10_4_red_blue.png");
|
| -}
|
| -
|
| -TEST(ImageOperations, GenerateCheckerBitmap) {
|
| - const int src_w = 640, src_h = 480, rect_w = 10, rect_h = 4;
|
| - const SkColor color1 = SK_ColorRED, color2 = SK_ColorBLUE;
|
| - SkBitmap src;
|
| - DrawCheckerToBitmap(src_w, src_h, color1, color2, rect_w, rect_h, &src);
|
| -
|
| - SaveBitmapToPNG(src, "/tmp/checker_640x408_10_4_red_blue.png");
|
| -}
|
| -#endif // #if ... && DEBUG_BITMAP_GENERATION
|
| -
|
| -// Makes the bitmap 50% the size as the original using a box filter. This is
|
| -// an easy operation that we can check the results for manually.
|
| -TEST(ImageOperations, Halve) {
|
| - // Make our source bitmap.
|
| - int src_w = 30, src_h = 38;
|
| - SkBitmap src;
|
| - FillDataToBitmap(src_w, src_h, &src);
|
| -
|
| - // Do a halving of the full bitmap.
|
| - SkBitmap actual_results = skia::ImageOperations::Resize(
|
| - src, skia::ImageOperations::RESIZE_BOX, src_w / 2, src_h / 2);
|
| - ASSERT_EQ(src_w / 2, actual_results.width());
|
| - ASSERT_EQ(src_h / 2, actual_results.height());
|
| -
|
| - // Compute the expected values & compare.
|
| - SkAutoLockPixels lock(actual_results);
|
| - for (int y = 0; y < actual_results.height(); y++) {
|
| - for (int x = 0; x < actual_results.width(); x++) {
|
| - // Note that those expressions take into account the "half-pixel"
|
| - // offset that comes into play due to considering the coordinates
|
| - // of the center of the pixels. So x * 2 is a simplification
|
| - // of ((x+0.5) * 2 - 1) and (x * 2 + 1) is really (x + 0.5) * 2.
|
| - int first_x = x * 2;
|
| - int last_x = std::min(src_w - 1, x * 2 + 1);
|
| -
|
| - int first_y = y * 2;
|
| - int last_y = std::min(src_h - 1, y * 2 + 1);
|
| -
|
| - const uint32_t expected_color = AveragePixel(src,
|
| - first_x, last_x,
|
| - first_y, last_y);
|
| - const uint32_t actual_color = *actual_results.getAddr32(x, y);
|
| - const bool close = ColorsClose(expected_color, actual_color);
|
| - EXPECT_TRUE(close);
|
| - if (!close) {
|
| - char str[128];
|
| - base::snprintf(str, sizeof(str),
|
| - "exp[%d,%d] = %08X, actual[%d,%d] = %08X",
|
| - x, y, expected_color, x, y, actual_color);
|
| - ADD_FAILURE() << str;
|
| - PrintPixel(src, first_x, last_x, first_y, last_y);
|
| - }
|
| - }
|
| - }
|
| -}
|
| -
|
| -TEST(ImageOperations, HalveSubset) {
|
| - // Make our source bitmap.
|
| - int src_w = 16, src_h = 34;
|
| - SkBitmap src;
|
| - FillDataToBitmap(src_w, src_h, &src);
|
| -
|
| - // Do a halving of the full bitmap.
|
| - SkBitmap full_results = skia::ImageOperations::Resize(
|
| - src, skia::ImageOperations::RESIZE_BOX, src_w / 2, src_h / 2);
|
| - ASSERT_EQ(src_w / 2, full_results.width());
|
| - ASSERT_EQ(src_h / 2, full_results.height());
|
| -
|
| - // Now do a halving of a a subset, recall the destination subset is in the
|
| - // destination coordinate system (max = half of the original image size).
|
| - SkIRect subset_rect = { 2, 3, 3, 6 };
|
| - SkBitmap subset_results = skia::ImageOperations::Resize(
|
| - src, skia::ImageOperations::RESIZE_BOX,
|
| - src_w / 2, src_h / 2, subset_rect);
|
| - ASSERT_EQ(subset_rect.width(), subset_results.width());
|
| - ASSERT_EQ(subset_rect.height(), subset_results.height());
|
| -
|
| - // The computed subset and the corresponding subset of the original image
|
| - // should be the same.
|
| - SkAutoLockPixels full_lock(full_results);
|
| - SkAutoLockPixels subset_lock(subset_results);
|
| - for (int y = 0; y < subset_rect.height(); y++) {
|
| - for (int x = 0; x < subset_rect.width(); x++) {
|
| - ASSERT_EQ(
|
| - *full_results.getAddr32(x + subset_rect.fLeft, y + subset_rect.fTop),
|
| - *subset_results.getAddr32(x, y));
|
| - }
|
| - }
|
| -}
|
| -
|
| -TEST(ImageOperations, InvalidParams) {
|
| - // Make our source bitmap.
|
| - SkBitmap src;
|
| - src.allocPixels(SkImageInfo::MakeA8(16, 34));
|
| -
|
| - // Scale it, don't die.
|
| - SkBitmap full_results = skia::ImageOperations::Resize(
|
| - src, skia::ImageOperations::RESIZE_BOX, 10, 20);
|
| -}
|
| -
|
| -// Resamples an image to the same image, it should give the same result.
|
| -TEST(ImageOperations, ResampleToSameHamming1) {
|
| - CheckResampleToSame(skia::ImageOperations::RESIZE_HAMMING1);
|
| -}
|
| -
|
| -TEST(ImageOperations, ResampleToSameLanczos2) {
|
| - CheckResampleToSame(skia::ImageOperations::RESIZE_LANCZOS2);
|
| -}
|
| -
|
| -TEST(ImageOperations, ResampleToSameLanczos3) {
|
| - CheckResampleToSame(skia::ImageOperations::RESIZE_LANCZOS3);
|
| -}
|
| -
|
| -// Check that all Good/Better/Best, Box, Lanczos2 and Lanczos3 generate purple
|
| -// when resizing a 4x8 red/blue checker pattern by 1/16x1/16.
|
| -TEST(ImageOperations, ResizeShouldAverageColors) {
|
| - // Make our source bitmap.
|
| - const int src_w = 640, src_h = 480, checker_rect_w = 4, checker_rect_h = 8;
|
| - const SkColor checker_color1 = SK_ColorRED, checker_color2 = SK_ColorBLUE;
|
| -
|
| - const int dest_w = src_w / (4 * checker_rect_w);
|
| - const int dest_h = src_h / (2 * checker_rect_h);
|
| -
|
| - // Compute the expected (average) color
|
| - const SkColor colors[] = { checker_color1, checker_color2 };
|
| - const SkColor average_color = AveragePixel(colors, arraysize(colors));
|
| -
|
| - static const TestedResizeMethod tested_methods[] = {
|
| - { skia::ImageOperations::RESIZE_GOOD, "GOOD", 0.0f },
|
| - { skia::ImageOperations::RESIZE_BETTER, "BETTER", 0.0f },
|
| - { skia::ImageOperations::RESIZE_BEST, "BEST", 0.0f },
|
| - { skia::ImageOperations::RESIZE_BOX, "BOX", 0.0f },
|
| - { skia::ImageOperations::RESIZE_HAMMING1, "HAMMING1", 0.0f },
|
| - { skia::ImageOperations::RESIZE_LANCZOS2, "LANCZOS2", 0.0f },
|
| - { skia::ImageOperations::RESIZE_LANCZOS3, "LANCZOS3", 0.0f },
|
| - };
|
| -
|
| - // Create our source bitmap.
|
| - SkBitmap src;
|
| - DrawCheckerToBitmap(src_w, src_h,
|
| - checker_color1, checker_color2,
|
| - checker_rect_w, checker_rect_h,
|
| - &src);
|
| -
|
| - // For each method, downscale by 16 in each dimension,
|
| - // and check each tested pixel against the expected average color.
|
| - bool all_methods_ok = true;
|
| -
|
| - for (size_t method_index = 0;
|
| - method_index < arraysize(tested_methods);
|
| - ++method_index) {
|
| - bool pass = true;
|
| - CheckResizeMethodShouldAverageGrid(src,
|
| - tested_methods[method_index],
|
| - dest_w, dest_h, average_color,
|
| - &pass);
|
| - if (!pass) {
|
| - all_methods_ok = false;
|
| - }
|
| - }
|
| -
|
| - if (!all_methods_ok) {
|
| -#if DEBUG_BITMAP_GENERATION
|
| - SaveBitmapToPNG(src, "/tmp/ResizeShouldAverageColors_src.png");
|
| -#endif // #if DEBUG_BITMAP_GENERATION
|
| - }
|
| -}
|
| -
|
| -
|
| -// Check that Lanczos2 and Lanczos3 thumbnails produce similar results
|
| -TEST(ImageOperations, CompareLanczosMethods) {
|
| - const int src_w = 640, src_h = 480, src_grid_pitch = 8, src_grid_width = 4;
|
| -
|
| - const int dest_w = src_w / 4;
|
| - const int dest_h = src_h / 4;
|
| -
|
| - // 5.0f is the maximum distance we see in this test given the current
|
| - // parameters. The value is very ad-hoc and the parameters of the scaling
|
| - // were picked to produce a small value. So this test is very much about
|
| - // revealing egregious regression rather than doing a good job at checking
|
| - // the math behind the filters.
|
| - // TODO(evannier): because of the half pixel error mentioned inside
|
| - // image_operations.cc, this distance is much larger than it should be.
|
| - // This should read:
|
| - // const float max_color_distance = 5.0f;
|
| - const float max_color_distance = 12.1f;
|
| -
|
| - // Make our source bitmap.
|
| - SkColor grid_color = SK_ColorRED, background_color = SK_ColorBLUE;
|
| - SkBitmap src;
|
| - DrawGridToBitmap(src_w, src_h,
|
| - background_color, grid_color,
|
| - src_grid_pitch, src_grid_width,
|
| - &src);
|
| -
|
| - // Resize the src using both methods.
|
| - SkBitmap dest_l2 = skia::ImageOperations::Resize(
|
| - src,
|
| - skia::ImageOperations::RESIZE_LANCZOS2,
|
| - dest_w, dest_h);
|
| - ASSERT_EQ(dest_w, dest_l2.width());
|
| - ASSERT_EQ(dest_h, dest_l2.height());
|
| -
|
| - SkBitmap dest_l3 = skia::ImageOperations::Resize(
|
| - src,
|
| - skia::ImageOperations::RESIZE_LANCZOS3,
|
| - dest_w, dest_h);
|
| - ASSERT_EQ(dest_w, dest_l3.width());
|
| - ASSERT_EQ(dest_h, dest_l3.height());
|
| -
|
| - // Compare the pixels produced by both methods.
|
| - float max_observed_distance = 0.0f;
|
| - bool all_pixels_ok = true;
|
| -
|
| - SkAutoLockPixels l2_lock(dest_l2);
|
| - SkAutoLockPixels l3_lock(dest_l3);
|
| - for (int y = 0; y < dest_h; ++y) {
|
| - for (int x = 0; x < dest_w; ++x) {
|
| - const SkColor color_lanczos2 = *dest_l2.getAddr32(x, y);
|
| - const SkColor color_lanczos3 = *dest_l3.getAddr32(x, y);
|
| -
|
| - float distance = ColorsEuclidianDistance(color_lanczos2, color_lanczos3);
|
| -
|
| - EXPECT_LE(distance, max_color_distance)
|
| - << "pixel tested: (" << x << ", " << y
|
| - << std::hex << std::showbase
|
| - << "), lanczos2 hex: " << color_lanczos2
|
| - << ", lanczos3 hex: " << color_lanczos3
|
| - << std::setprecision(2)
|
| - << ", distance: " << distance;
|
| -
|
| - if (distance > max_color_distance) {
|
| - all_pixels_ok = false;
|
| - }
|
| - if (distance > max_observed_distance) {
|
| - max_observed_distance = distance;
|
| - }
|
| - }
|
| - }
|
| -
|
| - if (!all_pixels_ok) {
|
| - ADD_FAILURE() << "Maximum observed color distance: "
|
| - << max_observed_distance;
|
| -
|
| -#if DEBUG_BITMAP_GENERATION
|
| - SaveBitmapToPNG(src, "/tmp/CompareLanczosMethods_source.png");
|
| - SaveBitmapToPNG(dest_l2, "/tmp/CompareLanczosMethods_lanczos2.png");
|
| - SaveBitmapToPNG(dest_l3, "/tmp/CompareLanczosMethods_lanczos3.png");
|
| -#endif // #if DEBUG_BITMAP_GENERATION
|
| - }
|
| -}
|
| -
|
| -#ifndef M_PI
|
| -// No M_PI in math.h on windows? No problem.
|
| -#define M_PI 3.14159265358979323846
|
| -#endif
|
| -
|
| -static double sinc(double x) {
|
| - if (x == 0.0) return 1.0;
|
| - x *= M_PI;
|
| - return sin(x) / x;
|
| -}
|
| -
|
| -static double lanczos3(double offset) {
|
| - if (fabs(offset) >= 3) return 0.0;
|
| - return sinc(offset) * sinc(offset / 3.0);
|
| -}
|
| -
|
| -TEST(ImageOperations, ScaleUp) {
|
| - const int src_w = 3;
|
| - const int src_h = 3;
|
| - const int dst_w = 9;
|
| - const int dst_h = 9;
|
| - SkBitmap src;
|
| - src.allocN32Pixels(src_w, src_h);
|
| -
|
| - for (int src_y = 0; src_y < src_h; ++src_y) {
|
| - for (int src_x = 0; src_x < src_w; ++src_x) {
|
| - *src.getAddr32(src_x, src_y) = SkColorSetARGBInline(255,
|
| - 10 + src_x * 100,
|
| - 10 + src_y * 100,
|
| - 0);
|
| - }
|
| - }
|
| -
|
| - SkBitmap dst = skia::ImageOperations::Resize(
|
| - src,
|
| - skia::ImageOperations::RESIZE_LANCZOS3,
|
| - dst_w, dst_h);
|
| - SkAutoLockPixels dst_lock(dst);
|
| - for (int dst_y = 0; dst_y < dst_h; ++dst_y) {
|
| - for (int dst_x = 0; dst_x < dst_w; ++dst_x) {
|
| - float dst_x_in_src = (dst_x + 0.5) * src_w / dst_w;
|
| - float dst_y_in_src = (dst_y + 0.5) * src_h / dst_h;
|
| - float a = 0.0f;
|
| - float r = 0.0f;
|
| - float g = 0.0f;
|
| - float b = 0.0f;
|
| - float sum = 0.0f;
|
| - for (int src_y = 0; src_y < src_h; ++src_y) {
|
| - for (int src_x = 0; src_x < src_w; ++src_x) {
|
| - double coeff =
|
| - lanczos3(src_x + 0.5 - dst_x_in_src) *
|
| - lanczos3(src_y + 0.5 - dst_y_in_src);
|
| - sum += coeff;
|
| - SkColor tmp = *src.getAddr32(src_x, src_y);
|
| - a += coeff * SkColorGetA(tmp);
|
| - r += coeff * SkColorGetR(tmp);
|
| - g += coeff * SkColorGetG(tmp);
|
| - b += coeff * SkColorGetB(tmp);
|
| - }
|
| - }
|
| - a /= sum;
|
| - r /= sum;
|
| - g /= sum;
|
| - b /= sum;
|
| - if (a < 0.0f) a = 0.0f;
|
| - if (r < 0.0f) r = 0.0f;
|
| - if (g < 0.0f) g = 0.0f;
|
| - if (b < 0.0f) b = 0.0f;
|
| - if (a > 255.0f) a = 255.0f;
|
| - if (r > 255.0f) r = 255.0f;
|
| - if (g > 255.0f) g = 255.0f;
|
| - if (b > 255.0f) b = 255.0f;
|
| - SkColor dst_color = *dst.getAddr32(dst_x, dst_y);
|
| - EXPECT_LE(fabs(SkColorGetA(dst_color) - a), 1.5f);
|
| - EXPECT_LE(fabs(SkColorGetR(dst_color) - r), 1.5f);
|
| - EXPECT_LE(fabs(SkColorGetG(dst_color) - g), 1.5f);
|
| - EXPECT_LE(fabs(SkColorGetB(dst_color) - b), 1.5f);
|
| - if (HasFailure()) {
|
| - return;
|
| - }
|
| - }
|
| - }
|
| -}
|
|
|
Chromium Code Reviews
Issue 1519243002:
Remove many unused files from //skia/ext (Closed)
Base URL: git@github.com:domokit/mojo.git@master