/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "include/core/SkBitmap.h" #include "include/utils/SkRandom.h" #include "src/core/SkMipmap.h" #include "tests/Test.h" #include "tools/Resources.h" static void make_bitmap(SkBitmap* bm, int width, int height) { bm->allocN32Pixels(width, height); bm->eraseColor(SK_ColorWHITE); } DEF_TEST(MipMap, reporter) { SkBitmap bm; SkRandom rand; for (int i = 0; i < 500; ++i) { int width = 1 + rand.nextU() % 1000; int height = 1 + rand.nextU() % 1000; make_bitmap(&bm, width, height); sk_sp mm(SkMipmap::Build(bm, nullptr)); REPORTER_ASSERT(reporter, mm->countLevels() == SkMipmap::ComputeLevelCount(width, height)); REPORTER_ASSERT(reporter, !mm->extractLevel(SkSize::Make(SK_Scalar1, SK_Scalar1), nullptr)); REPORTER_ASSERT(reporter, !mm->extractLevel(SkSize::Make(SK_Scalar1 * 2, SK_Scalar1 * 2), nullptr)); SkMipmap::Level prevLevel; sk_bzero(&prevLevel, sizeof(prevLevel)); SkScalar scale = SK_Scalar1; for (int j = 0; j < 30; ++j) { scale = scale * 2 / 3; SkMipmap::Level level; if (mm->extractLevel(SkSize::Make(scale, scale), &level)) { REPORTER_ASSERT(reporter, level.fPixmap.addr()); REPORTER_ASSERT(reporter, level.fPixmap.width() > 0); REPORTER_ASSERT(reporter, level.fPixmap.height() > 0); REPORTER_ASSERT(reporter, (int)level.fPixmap.rowBytes() >= level.fPixmap.width() * 4); if (prevLevel.fPixmap.addr()) { REPORTER_ASSERT(reporter, level.fPixmap.width() <= prevLevel.fPixmap.width()); REPORTER_ASSERT(reporter, level.fPixmap.height() <= prevLevel.fPixmap.height()); } prevLevel = level; } } } } static void test_mipmap_generation(int width, int height, int expectedMipLevelCount, skiatest::Reporter* reporter) { SkBitmap bm; bm.allocN32Pixels(width, height); bm.eraseColor(SK_ColorWHITE); sk_sp mm(SkMipmap::Build(bm, nullptr)); const int mipLevelCount = mm->countLevels(); REPORTER_ASSERT(reporter, mipLevelCount == expectedMipLevelCount); REPORTER_ASSERT(reporter, mipLevelCount == SkMipmap::ComputeLevelCount(width, height)); for (int i = 0; i < mipLevelCount; ++i) { SkMipmap::Level level; REPORTER_ASSERT(reporter, mm->getLevel(i, &level)); // Make sure the mipmaps contain valid data and that the sizes are correct REPORTER_ASSERT(reporter, level.fPixmap.addr()); SkISize size = SkMipmap::ComputeLevelSize(width, height, i); REPORTER_ASSERT(reporter, level.fPixmap.width() == size.width()); REPORTER_ASSERT(reporter, level.fPixmap.height() == size.height()); // + 1 because SkMipmap does not include the base mipmap level. int twoToTheMipLevel = 1 << (i + 1); int currentWidth = width / twoToTheMipLevel; int currentHeight = height / twoToTheMipLevel; REPORTER_ASSERT(reporter, level.fPixmap.width() == currentWidth); REPORTER_ASSERT(reporter, level.fPixmap.height() == currentHeight); } } DEF_TEST(MipMap_DirectLevelAccess, reporter) { // create mipmap with invalid size { // SkMipmap current requires the dimensions be greater than 2x2 SkBitmap bm; bm.allocN32Pixels(1, 1); bm.eraseColor(SK_ColorWHITE); sk_sp mm(SkMipmap::Build(bm, nullptr)); REPORTER_ASSERT(reporter, mm == nullptr); } // check small mipmap's count and levels // There should be 5 mipmap levels generated: // 16x16, 8x8, 4x4, 2x2, 1x1 test_mipmap_generation(32, 32, 5, reporter); // check large mipmap's count and levels // There should be 9 mipmap levels generated: // 500x500, 250x250, 125x125, 62x62, 31x31, 15x15, 7x7, 3x3, 1x1 test_mipmap_generation(1000, 1000, 9, reporter); } struct LevelCountScenario { int fWidth; int fHeight; int fExpectedLevelCount; }; DEF_TEST(MipMap_ComputeLevelCount, reporter) { const LevelCountScenario tests[] = { // Test mipmaps with negative sizes {-100, 100, 0}, {100, -100, 0}, {-100, -100, 0}, // Test mipmaps with 0, 1, 2 as dimensions // (SkMipmap::Build requires a min size of 1) // // 0 {0, 100, 0}, {100, 0, 0}, {0, 0, 0}, // 1 {1, 100, 6}, {100, 1, 6}, {1, 1, 0}, // 2 {2, 100, 6}, {100, 2, 6}, {2, 2, 1}, // Test a handful of boundaries such as 63x63 and 64x64 {63, 63, 5}, {64, 64, 6}, {127, 127, 6}, {128, 128, 7}, {255, 255, 7}, {256, 256, 8}, // Test different dimensions, such as 256x64 {64, 129, 7}, {255, 32, 7}, {500, 1000, 9} }; for (auto& currentTest : tests) { int levelCount = SkMipmap::ComputeLevelCount(currentTest.fWidth, currentTest.fHeight); REPORTER_ASSERT(reporter, currentTest.fExpectedLevelCount == levelCount); } } struct LevelSizeScenario { int fBaseWidth; int fBaseHeight; int fLevel; SkISize fExpectedMipMapLevelSize; }; DEF_TEST(MipMap_ComputeLevelSize, reporter) { const LevelSizeScenario tests[] = { // Test mipmaps with negative sizes {-100, 100, 0, SkISize::Make(0, 0)}, {100, -100, 0, SkISize::Make(0, 0)}, {-100, -100, 0, SkISize::Make(0, 0)}, // Test mipmaps with 0, 1, 2 as dimensions // (SkMipmap::Build requires a min size of 1) // // 0 {0, 100, 0, SkISize::Make(0, 0)}, {100, 0, 0, SkISize::Make(0, 0)}, {0, 0, 0, SkISize::Make(0, 0)}, // 1 {1, 100, 0, SkISize::Make(1, 50)}, {100, 1, 0, SkISize::Make(50, 1)}, {1, 1, 0, SkISize::Make(0, 0)}, // 2 {2, 100, 0, SkISize::Make(1, 50)}, {100, 2, 1, SkISize::Make(25, 1)}, {2, 2, 0, SkISize::Make(1, 1)}, // Test a handful of cases {63, 63, 2, SkISize::Make(7, 7)}, {64, 64, 2, SkISize::Make(8, 8)}, {127, 127, 2, SkISize::Make(15, 15)}, {64, 129, 3, SkISize::Make(4, 8)}, {255, 32, 6, SkISize::Make(1, 1)}, {500, 1000, 1, SkISize::Make(125, 250)}, }; for (auto& currentTest : tests) { SkISize levelSize = SkMipmap::ComputeLevelSize(currentTest.fBaseWidth, currentTest.fBaseHeight, currentTest.fLevel); REPORTER_ASSERT(reporter, currentTest.fExpectedMipMapLevelSize == levelSize); } } DEF_TEST(MipMap_F16, reporter) { SkBitmap bmp; bmp.allocPixels(SkImageInfo::Make(10, 10, kRGBA_F16_SkColorType, kPremul_SkAlphaType)); bmp.eraseColor(0); sk_sp mipmap(SkMipmap::Build(bmp, nullptr)); } #include "include/core/SkCanvas.h" #include "include/core/SkSurface.h" static void fill_in_mips(SkMipmapBuilder* builder, sk_sp img) { int count = builder->countLevels(); for (int i = 0; i < count; ++i) { SkPixmap pm = builder->level(i); auto surf = SkSurface::MakeRasterDirect(pm); surf->getCanvas()->drawImageRect(img, SkRect::MakeIWH(pm.width(), pm.height()), nullptr); } } DEF_TEST(image_mip_factory, reporter) { // TODO: what do to about lazy images and mipmaps? auto img = GetResourceAsImage("images/mandrill_128.png")->makeRasterImage(); REPORTER_ASSERT(reporter, !img->hasMipmaps()); auto img1 = img->withDefaultMipmaps(); REPORTER_ASSERT(reporter, img.get() != img1.get()); REPORTER_ASSERT(reporter, img1->hasMipmaps()); SkMipmapBuilder builder(img->imageInfo()); fill_in_mips(&builder, img); auto img2 = builder.attachTo(img); REPORTER_ASSERT(reporter, img.get() != img2.get()); REPORTER_ASSERT(reporter, img1.get() != img2.get()); REPORTER_ASSERT(reporter, img2->hasMipmaps()); } // Ensure we can't attach mips that don't "match" the image // DEF_TEST(image_mip_mismatch, reporter) { auto check_fails = [reporter](sk_sp img, const SkImageInfo& info) { SkMipmapBuilder builder(info); fill_in_mips(&builder, img); auto img2 = builder.attachTo(img); // if withMipmaps() succeeds, it returns a new image, otherwise it returns the original REPORTER_ASSERT(reporter, img.get() == img2.get()); }; auto img = GetResourceAsImage("images/mandrill_128.png")->makeRasterImage(); // check size, colortype, and alphatype check_fails(img, img->imageInfo().makeWH(img->width() + 2, img->height() - 3)); SkASSERT(img->imageInfo().colorType() != kRGB_565_SkColorType); check_fails(img, img->imageInfo().makeColorType(kRGB_565_SkColorType)); SkASSERT(img->imageInfo().alphaType() != kUnpremul_SkAlphaType); check_fails(img, img->imageInfo().makeAlphaType(kUnpremul_SkAlphaType)); }