7fcfb62199
Bug: skia: Change-Id: I8c91cfdb89e4f22448d1201d391556fe43d86dca Reviewed-on: https://skia-review.googlesource.com/105289 Commit-Queue: Mike Reed <reed@google.com> Reviewed-by: Mike Klein <mtklein@chromium.org> Reviewed-by: Cary Clark <caryclark@google.com>
164 lines
6.3 KiB
C++
164 lines
6.3 KiB
C++
/*
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* Copyright 2015 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "SkImageInfoPriv.h"
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#include "SkSwizzle.h"
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#include "SkSwizzler.h"
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#include "Test.h"
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#include "SkOpts.h"
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// These are the values that we will look for to indicate that the fill was successful
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static const uint8_t kFillGray = 0x22;
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static const uint16_t kFill565 = 0x3344;
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static const uint32_t kFillColor = 0x55667788;
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static void check_fill(skiatest::Reporter* r,
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const SkImageInfo& imageInfo,
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uint32_t startRow,
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uint32_t endRow,
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size_t rowBytes,
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uint32_t offset,
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uint32_t colorOrIndex) {
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// Calculate the total size of the image in bytes. Use the smallest possible size.
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// The offset value tells us to adjust the pointer from the memory we allocate in order
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// to test on different memory alignments. If offset is nonzero, we need to increase the
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// size of the memory we allocate in order to make sure that we have enough. We are
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// still allocating the smallest possible size.
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const size_t totalBytes = imageInfo.computeByteSize(rowBytes) + offset;
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// Create fake image data where every byte has a value of 0
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std::unique_ptr<uint8_t[]> storage(new uint8_t[totalBytes]);
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memset(storage.get(), 0, totalBytes);
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// Adjust the pointer in order to test on different memory alignments
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uint8_t* imageData = storage.get() + offset;
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uint8_t* imageStart = imageData + rowBytes * startRow;
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const SkImageInfo fillInfo = imageInfo.makeWH(imageInfo.width(), endRow - startRow + 1);
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SkSampler::Fill(fillInfo, imageStart, rowBytes, colorOrIndex, SkCodec::kNo_ZeroInitialized);
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// Ensure that the pixels are filled properly
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// The bots should catch any memory corruption
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uint8_t* indexPtr = imageData + startRow * rowBytes;
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uint8_t* grayPtr = indexPtr;
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uint32_t* colorPtr = (uint32_t*) indexPtr;
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uint16_t* color565Ptr = (uint16_t*) indexPtr;
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for (uint32_t y = startRow; y <= endRow; y++) {
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for (int32_t x = 0; x < imageInfo.width(); x++) {
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switch (imageInfo.colorType()) {
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case kN32_SkColorType:
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REPORTER_ASSERT(r, kFillColor == colorPtr[x]);
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break;
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case kGray_8_SkColorType:
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REPORTER_ASSERT(r, kFillGray == grayPtr[x]);
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break;
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case kRGB_565_SkColorType:
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REPORTER_ASSERT(r, kFill565 == color565Ptr[x]);
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break;
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default:
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REPORTER_ASSERT(r, false);
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break;
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}
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}
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indexPtr += rowBytes;
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colorPtr = (uint32_t*) indexPtr;
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}
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}
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// Test Fill() with different combinations of dimensions, alignment, and padding
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DEF_TEST(SwizzlerFill, r) {
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// Test on an invalid width and representative widths
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const uint32_t widths[] = { 0, 10, 50 };
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// In order to call Fill(), there must be at least one row to fill
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// Test on the smallest possible height and representative heights
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const uint32_t heights[] = { 1, 5, 10 };
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// Test on interesting possibilities for row padding
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const uint32_t paddings[] = { 0, 4 };
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// Iterate over test dimensions
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for (uint32_t width : widths) {
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for (uint32_t height : heights) {
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// Create image info objects
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const SkImageInfo colorInfo = SkImageInfo::MakeN32(width, height, kUnknown_SkAlphaType);
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const SkImageInfo grayInfo = colorInfo.makeColorType(kGray_8_SkColorType);
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const SkImageInfo color565Info = colorInfo.makeColorType(kRGB_565_SkColorType);
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for (uint32_t padding : paddings) {
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// Calculate row bytes
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const size_t colorRowBytes = SkColorTypeBytesPerPixel(kN32_SkColorType) * width
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+ padding;
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const size_t indexRowBytes = width + padding;
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const size_t grayRowBytes = indexRowBytes;
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const size_t color565RowBytes =
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SkColorTypeBytesPerPixel(kRGB_565_SkColorType) * width + padding;
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// If there is padding, we can invent an offset to change the memory alignment
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for (uint32_t offset = 0; offset <= padding; offset += 4) {
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// Test all possible start rows with all possible end rows
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for (uint32_t startRow = 0; startRow < height; startRow++) {
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for (uint32_t endRow = startRow; endRow < height; endRow++) {
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// Test fill with each color type
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check_fill(r, colorInfo, startRow, endRow, colorRowBytes, offset,
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kFillColor);
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check_fill(r, grayInfo, startRow, endRow, grayRowBytes, offset,
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kFillGray);
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check_fill(r, color565Info, startRow, endRow, color565RowBytes, offset,
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kFill565);
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}
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}
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}
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}
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}
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}
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}
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DEF_TEST(SwizzleOpts, r) {
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uint32_t dst, src;
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// forall c, c*255 == c, c*0 == 0
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for (int c = 0; c <= 255; c++) {
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src = (255<<24) | c;
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SkOpts::RGBA_to_rgbA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == src);
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SkOpts::RGBA_to_bgrA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == (uint32_t)((255<<24) | (c<<16)));
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src = (0<<24) | c;
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SkOpts::RGBA_to_rgbA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0);
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SkOpts::RGBA_to_bgrA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0);
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}
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// check a totally arbitrary color
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src = 0xFACEB004;
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SkOpts::RGBA_to_rgbA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0xFACAAD04);
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// swap red and blue
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SkOpts::RGBA_to_BGRA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0xFA04B0CE);
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// all together now
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SkOpts::RGBA_to_bgrA(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0xFA04ADCA);
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}
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DEF_TEST(PublicSwizzleOpts, r) {
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uint32_t dst, src;
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// check a totally arbitrary color
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src = 0xFACEB004;
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SkSwapRB(&dst, &src, 1);
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REPORTER_ASSERT(r, dst == 0xFA04B0CE);
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}
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