d470e1b905
Bug: skia:9121 Change-Id: Id2a12a5d607b84ce393d2b58233bf8e23f646059 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/235797 Commit-Queue: Robert Phillips <robertphillips@google.com> Reviewed-by: Brian Salomon <bsalomon@google.com> Reviewed-by: Mike Reed <reed@google.com>
762 lines
32 KiB
C++
762 lines
32 KiB
C++
/*
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* Copyright 2011 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 <initializer_list>
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#include "include/core/SkCanvas.h"
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#include "include/core/SkSurface.h"
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#include "include/gpu/GrContext.h"
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#include "include/private/SkColorData.h"
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#include "include/private/SkHalf.h"
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#include "include/private/SkImageInfoPriv.h"
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#include "src/core/SkAutoPixmapStorage.h"
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#include "src/core/SkConvertPixels.h"
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#include "src/core/SkMathPriv.h"
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#include "src/gpu/GrContextPriv.h"
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#include "src/gpu/GrProxyProvider.h"
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#include "src/gpu/SkGr.h"
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#include "tests/Test.h"
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#include "tests/TestUtils.h"
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#include "tools/gpu/GrContextFactory.h"
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#include "tools/gpu/ProxyUtils.h"
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static const int DEV_W = 100, DEV_H = 100;
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static const SkIRect DEV_RECT = SkIRect::MakeWH(DEV_W, DEV_H);
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static const SkRect DEV_RECT_S = SkRect::MakeWH(DEV_W * SK_Scalar1,
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DEV_H * SK_Scalar1);
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static SkPMColor get_src_color(int x, int y) {
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SkASSERT(x >= 0 && x < DEV_W);
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SkASSERT(y >= 0 && y < DEV_H);
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U8CPU r = x;
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U8CPU g = y;
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U8CPU b = 0xc;
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U8CPU a = 0xff;
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switch ((x+y) % 5) {
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case 0:
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a = 0xff;
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break;
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case 1:
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a = 0x80;
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break;
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case 2:
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a = 0xCC;
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break;
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case 4:
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a = 0x01;
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break;
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case 3:
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a = 0x00;
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break;
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}
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return SkPremultiplyARGBInline(a, r, g, b);
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}
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static SkPMColor get_dst_bmp_init_color(int x, int y, int w) {
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int n = y * w + x;
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U8CPU b = n & 0xff;
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U8CPU g = (n >> 8) & 0xff;
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U8CPU r = (n >> 16) & 0xff;
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return SkPackARGB32(0xff, r, g , b);
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}
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// TODO: Make this consider both ATs
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static SkPMColor convert_to_pmcolor(SkColorType ct, SkAlphaType at, const uint32_t* addr,
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bool* doUnpremul) {
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*doUnpremul = (kUnpremul_SkAlphaType == at);
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const uint8_t* c = reinterpret_cast<const uint8_t*>(addr);
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U8CPU a,r,g,b;
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switch (ct) {
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case kBGRA_8888_SkColorType:
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b = static_cast<U8CPU>(c[0]);
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g = static_cast<U8CPU>(c[1]);
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r = static_cast<U8CPU>(c[2]);
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a = static_cast<U8CPU>(c[3]);
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break;
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case kRGB_888x_SkColorType: // fallthrough
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case kRGBA_8888_SkColorType:
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r = static_cast<U8CPU>(c[0]);
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g = static_cast<U8CPU>(c[1]);
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b = static_cast<U8CPU>(c[2]);
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// We set this even when for kRGB_888x because our caller will validate that it is 0xff.
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a = static_cast<U8CPU>(c[3]);
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break;
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default:
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SkDEBUGFAIL("Unexpected colortype");
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return 0;
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}
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if (*doUnpremul) {
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r = SkMulDiv255Ceiling(r, a);
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g = SkMulDiv255Ceiling(g, a);
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b = SkMulDiv255Ceiling(b, a);
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}
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return SkPackARGB32(a, r, g, b);
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}
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static SkBitmap make_src_bitmap() {
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static SkBitmap bmp;
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if (bmp.isNull()) {
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bmp.allocN32Pixels(DEV_W, DEV_H);
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intptr_t pixels = reinterpret_cast<intptr_t>(bmp.getPixels());
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for (int y = 0; y < DEV_H; ++y) {
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for (int x = 0; x < DEV_W; ++x) {
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SkPMColor* pixel = reinterpret_cast<SkPMColor*>(pixels + y * bmp.rowBytes() + x * bmp.bytesPerPixel());
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*pixel = get_src_color(x, y);
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}
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}
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}
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return bmp;
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}
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static void fill_src_canvas(SkCanvas* canvas) {
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canvas->save();
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canvas->setMatrix(SkMatrix::I());
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canvas->clipRect(DEV_RECT_S, kReplace_SkClipOp);
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SkPaint paint;
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paint.setBlendMode(SkBlendMode::kSrc);
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canvas->drawBitmap(make_src_bitmap(), 0, 0, &paint);
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canvas->restore();
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}
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static void fill_dst_bmp_with_init_data(SkBitmap* bitmap) {
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int w = bitmap->width();
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int h = bitmap->height();
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intptr_t pixels = reinterpret_cast<intptr_t>(bitmap->getPixels());
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for (int y = 0; y < h; ++y) {
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for (int x = 0; x < w; ++x) {
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SkPMColor initColor = get_dst_bmp_init_color(x, y, w);
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if (kAlpha_8_SkColorType == bitmap->colorType()) {
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uint8_t* alpha = reinterpret_cast<uint8_t*>(pixels + y * bitmap->rowBytes() + x);
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*alpha = SkGetPackedA32(initColor);
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} else {
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SkPMColor* pixel = reinterpret_cast<SkPMColor*>(pixels + y * bitmap->rowBytes() + x * bitmap->bytesPerPixel());
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*pixel = initColor;
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}
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}
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}
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}
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static bool check_read_pixel(SkPMColor a, SkPMColor b, bool didPremulConversion) {
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if (!didPremulConversion) {
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return a == b;
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}
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int32_t aA = static_cast<int32_t>(SkGetPackedA32(a));
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int32_t aR = static_cast<int32_t>(SkGetPackedR32(a));
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int32_t aG = static_cast<int32_t>(SkGetPackedG32(a));
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int32_t aB = SkGetPackedB32(a);
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int32_t bA = static_cast<int32_t>(SkGetPackedA32(b));
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int32_t bR = static_cast<int32_t>(SkGetPackedR32(b));
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int32_t bG = static_cast<int32_t>(SkGetPackedG32(b));
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int32_t bB = static_cast<int32_t>(SkGetPackedB32(b));
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return aA == bA &&
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SkAbs32(aR - bR) <= 1 &&
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SkAbs32(aG - bG) <= 1 &&
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SkAbs32(aB - bB) <= 1;
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}
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// checks the bitmap contains correct pixels after the readPixels
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// if the bitmap was prefilled with pixels it checks that these weren't
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// overwritten in the area outside the readPixels.
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static bool check_read(skiatest::Reporter* reporter, const SkBitmap& bitmap, int x, int y,
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bool checkSurfacePixels, bool checkBitmapPixels,
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SkImageInfo surfaceInfo) {
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SkAlphaType bmpAT = bitmap.alphaType();
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SkColorType bmpCT = bitmap.colorType();
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SkASSERT(!bitmap.isNull());
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SkASSERT(checkSurfacePixels || checkBitmapPixels);
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int bw = bitmap.width();
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int bh = bitmap.height();
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SkIRect srcRect = SkIRect::MakeXYWH(x, y, bw, bh);
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SkIRect clippedSrcRect = DEV_RECT;
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if (!clippedSrcRect.intersect(srcRect)) {
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clippedSrcRect.setEmpty();
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}
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if (kAlpha_8_SkColorType == bmpCT) {
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for (int by = 0; by < bh; ++by) {
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for (int bx = 0; bx < bw; ++bx) {
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int devx = bx + srcRect.fLeft;
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int devy = by + srcRect.fTop;
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const uint8_t* alpha = bitmap.getAddr8(bx, by);
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if (clippedSrcRect.contains(devx, devy)) {
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if (checkSurfacePixels) {
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uint8_t surfaceAlpha = (surfaceInfo.alphaType() == kOpaque_SkAlphaType)
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? 0xFF
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: SkGetPackedA32(get_src_color(devx, devy));
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if (surfaceAlpha != *alpha) {
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ERRORF(reporter,
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"Expected readback alpha (%d, %d) value 0x%02x, got 0x%02x. ",
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bx, by, surfaceAlpha, *alpha);
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return false;
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}
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}
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} else if (checkBitmapPixels) {
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uint32_t origDstAlpha = SkGetPackedA32(get_dst_bmp_init_color(bx, by, bw));
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if (origDstAlpha != *alpha) {
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ERRORF(reporter, "Expected clipped out area of readback to be unchanged. "
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"Expected 0x%02x, got 0x%02x", origDstAlpha, *alpha);
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return false;
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}
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}
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}
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}
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return true;
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}
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for (int by = 0; by < bh; ++by) {
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for (int bx = 0; bx < bw; ++bx) {
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int devx = bx + srcRect.fLeft;
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int devy = by + srcRect.fTop;
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const uint32_t* pixel = bitmap.getAddr32(bx, by);
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if (clippedSrcRect.contains(devx, devy)) {
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if (checkSurfacePixels) {
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SkPMColor surfacePMColor = get_src_color(devx, devy);
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if (SkColorTypeIsAlphaOnly(surfaceInfo.colorType())) {
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surfacePMColor &= 0xFF000000;
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}
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if (kOpaque_SkAlphaType == surfaceInfo.alphaType() || kOpaque_SkAlphaType == bmpAT) {
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surfacePMColor |= 0xFF000000;
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}
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bool didPremul;
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SkPMColor pmPixel = convert_to_pmcolor(bmpCT, bmpAT, pixel, &didPremul);
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if (!check_read_pixel(pmPixel, surfacePMColor, didPremul)) {
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ERRORF(reporter,
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"Expected readback pixel (%d, %d) value 0x%08x, got 0x%08x. "
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"Readback was unpremul: %d",
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bx, by, surfacePMColor, pmPixel, didPremul);
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return false;
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}
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}
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} else if (checkBitmapPixels) {
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uint32_t origDstPixel = get_dst_bmp_init_color(bx, by, bw);
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if (origDstPixel != *pixel) {
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ERRORF(reporter, "Expected clipped out area of readback to be unchanged. "
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"Expected 0x%08x, got 0x%08x", origDstPixel, *pixel);
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return false;
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}
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}
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}
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}
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return true;
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}
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enum BitmapInit {
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kFirstBitmapInit = 0,
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kTight_BitmapInit = kFirstBitmapInit,
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kRowBytes_BitmapInit,
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kRowBytesOdd_BitmapInit,
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kLastAligned_BitmapInit = kRowBytes_BitmapInit,
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#if 0 // THIS CAUSES ERRORS ON WINDOWS AND SOME ANDROID DEVICES
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kLast_BitmapInit = kRowBytesOdd_BitmapInit
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#else
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kLast_BitmapInit = kLastAligned_BitmapInit
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#endif
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};
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static BitmapInit nextBMI(BitmapInit bmi) {
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int x = bmi;
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return static_cast<BitmapInit>(++x);
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}
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static void init_bitmap(SkBitmap* bitmap, const SkIRect& rect, BitmapInit init, SkColorType ct,
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SkAlphaType at) {
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SkImageInfo info = SkImageInfo::Make(rect.width(), rect.height(), ct, at);
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size_t rowBytes = 0;
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switch (init) {
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case kTight_BitmapInit:
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break;
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case kRowBytes_BitmapInit:
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rowBytes = SkAlign4((info.width() + 16) * info.bytesPerPixel());
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break;
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case kRowBytesOdd_BitmapInit:
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rowBytes = SkAlign4(info.width() * info.bytesPerPixel()) + 3;
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break;
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default:
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SkASSERT(0);
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break;
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}
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bitmap->allocPixels(info, rowBytes);
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}
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static const struct {
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SkColorType fColorType;
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SkAlphaType fAlphaType;
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} gReadPixelsConfigs[] = {
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{kRGBA_8888_SkColorType, kPremul_SkAlphaType},
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{kRGBA_8888_SkColorType, kUnpremul_SkAlphaType},
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{kRGB_888x_SkColorType, kOpaque_SkAlphaType},
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{kBGRA_8888_SkColorType, kPremul_SkAlphaType},
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{kBGRA_8888_SkColorType, kUnpremul_SkAlphaType},
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{kAlpha_8_SkColorType, kPremul_SkAlphaType},
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};
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const SkIRect gReadPixelsTestRects[] = {
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// entire thing
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DEV_RECT,
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// larger on all sides
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SkIRect::MakeLTRB(-10, -10, DEV_W + 10, DEV_H + 10),
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// fully contained
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SkIRect::MakeLTRB(DEV_W / 4, DEV_H / 4, 3 * DEV_W / 4, 3 * DEV_H / 4),
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// outside top left
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SkIRect::MakeLTRB(-10, -10, -1, -1),
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// touching top left corner
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SkIRect::MakeLTRB(-10, -10, 0, 0),
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// overlapping top left corner
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SkIRect::MakeLTRB(-10, -10, DEV_W / 4, DEV_H / 4),
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// overlapping top left and top right corners
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SkIRect::MakeLTRB(-10, -10, DEV_W + 10, DEV_H / 4),
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// touching entire top edge
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SkIRect::MakeLTRB(-10, -10, DEV_W + 10, 0),
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// overlapping top right corner
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SkIRect::MakeLTRB(3 * DEV_W / 4, -10, DEV_W + 10, DEV_H / 4),
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// contained in x, overlapping top edge
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SkIRect::MakeLTRB(DEV_W / 4, -10, 3 * DEV_W / 4, DEV_H / 4),
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// outside top right corner
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SkIRect::MakeLTRB(DEV_W + 1, -10, DEV_W + 10, -1),
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// touching top right corner
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SkIRect::MakeLTRB(DEV_W, -10, DEV_W + 10, 0),
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// overlapping top left and bottom left corners
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SkIRect::MakeLTRB(-10, -10, DEV_W / 4, DEV_H + 10),
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// touching entire left edge
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SkIRect::MakeLTRB(-10, -10, 0, DEV_H + 10),
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// overlapping bottom left corner
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SkIRect::MakeLTRB(-10, 3 * DEV_H / 4, DEV_W / 4, DEV_H + 10),
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// contained in y, overlapping left edge
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SkIRect::MakeLTRB(-10, DEV_H / 4, DEV_W / 4, 3 * DEV_H / 4),
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// outside bottom left corner
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SkIRect::MakeLTRB(-10, DEV_H + 1, -1, DEV_H + 10),
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// touching bottom left corner
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SkIRect::MakeLTRB(-10, DEV_H, 0, DEV_H + 10),
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// overlapping bottom left and bottom right corners
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SkIRect::MakeLTRB(-10, 3 * DEV_H / 4, DEV_W + 10, DEV_H + 10),
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// touching entire left edge
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SkIRect::MakeLTRB(0, DEV_H, DEV_W, DEV_H + 10),
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// overlapping bottom right corner
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SkIRect::MakeLTRB(3 * DEV_W / 4, 3 * DEV_H / 4, DEV_W + 10, DEV_H + 10),
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// overlapping top right and bottom right corners
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SkIRect::MakeLTRB(3 * DEV_W / 4, -10, DEV_W + 10, DEV_H + 10),
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};
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bool read_should_succeed(const SkIRect& srcRect, const SkImageInfo& dstInfo,
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const SkImageInfo& srcInfo) {
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return SkIRect::Intersects(srcRect, DEV_RECT) && SkImageInfoValidConversion(dstInfo, srcInfo);
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}
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static void test_readpixels(skiatest::Reporter* reporter, const sk_sp<SkSurface>& surface,
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const SkImageInfo& surfaceInfo, BitmapInit lastBitmapInit) {
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SkCanvas* canvas = surface->getCanvas();
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fill_src_canvas(canvas);
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for (size_t rect = 0; rect < SK_ARRAY_COUNT(gReadPixelsTestRects); ++rect) {
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const SkIRect& srcRect = gReadPixelsTestRects[rect];
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for (BitmapInit bmi = kFirstBitmapInit; bmi <= lastBitmapInit; bmi = nextBMI(bmi)) {
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for (size_t c = 0; c < SK_ARRAY_COUNT(gReadPixelsConfigs); ++c) {
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SkBitmap bmp;
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init_bitmap(&bmp, srcRect, bmi,
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gReadPixelsConfigs[c].fColorType, gReadPixelsConfigs[c].fAlphaType);
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// if the bitmap has pixels allocated before the readPixels,
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// note that and fill them with pattern
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bool startsWithPixels = !bmp.isNull();
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if (startsWithPixels) {
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fill_dst_bmp_with_init_data(&bmp);
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}
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uint32_t idBefore = surface->generationID();
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bool success = surface->readPixels(bmp, srcRect.fLeft, srcRect.fTop);
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uint32_t idAfter = surface->generationID();
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// we expect to succeed when the read isn't fully clipped out and the infos are
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// compatible.
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bool expectSuccess = read_should_succeed(srcRect, bmp.info(), surfaceInfo);
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// determine whether we expected the read to succeed.
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REPORTER_ASSERT(reporter, expectSuccess == success,
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"Read succeed=%d unexpectedly, src ct/at: %d/%d, dst ct/at: %d/%d",
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success, surfaceInfo.colorType(), surfaceInfo.alphaType(),
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bmp.info().colorType(), bmp.info().alphaType());
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// read pixels should never change the gen id
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REPORTER_ASSERT(reporter, idBefore == idAfter);
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if (success || startsWithPixels) {
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check_read(reporter, bmp, srcRect.fLeft, srcRect.fTop, success,
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startsWithPixels, surfaceInfo);
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} else {
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// if we had no pixels beforehand and the readPixels
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// failed then our bitmap should still not have pixels
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REPORTER_ASSERT(reporter, bmp.isNull());
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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(ReadPixels, reporter) {
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const SkImageInfo info = SkImageInfo::MakeN32Premul(DEV_W, DEV_H);
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auto surface(SkSurface::MakeRaster(info));
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// SW readback fails a premul check when reading back to an unaligned rowbytes.
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test_readpixels(reporter, surface, info, kLastAligned_BitmapInit);
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}
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DEF_GPUTEST_FOR_RENDERING_CONTEXTS(ReadPixels_Gpu, reporter, ctxInfo) {
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static const SkImageInfo kImageInfos[] = {
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SkImageInfo::Make(DEV_W, DEV_H, kRGBA_8888_SkColorType, kPremul_SkAlphaType),
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SkImageInfo::Make(DEV_W, DEV_H, kBGRA_8888_SkColorType, kPremul_SkAlphaType),
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SkImageInfo::Make(DEV_W, DEV_H, kRGB_888x_SkColorType, kOpaque_SkAlphaType),
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SkImageInfo::Make(DEV_W, DEV_H, kAlpha_8_SkColorType, kPremul_SkAlphaType),
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};
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for (const auto& ii : kImageInfos) {
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for (auto& origin : {kBottomLeft_GrSurfaceOrigin, kTopLeft_GrSurfaceOrigin}) {
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sk_sp<SkSurface> surface(SkSurface::MakeRenderTarget(
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ctxInfo.grContext(), SkBudgeted::kNo, ii, 0, origin, nullptr));
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if (!surface) {
|
|
continue;
|
|
}
|
|
test_readpixels(reporter, surface, ii, kLast_BitmapInit);
|
|
}
|
|
}
|
|
}
|
|
|
|
static void test_readpixels_texture(skiatest::Reporter* reporter,
|
|
std::unique_ptr<GrSurfaceContext> sContext,
|
|
const SkImageInfo& surfaceInfo) {
|
|
for (size_t rect = 0; rect < SK_ARRAY_COUNT(gReadPixelsTestRects); ++rect) {
|
|
const SkIRect& srcRect = gReadPixelsTestRects[rect];
|
|
for (BitmapInit bmi = kFirstBitmapInit; bmi <= kLast_BitmapInit; bmi = nextBMI(bmi)) {
|
|
for (size_t c = 0; c < SK_ARRAY_COUNT(gReadPixelsConfigs); ++c) {
|
|
SkBitmap bmp;
|
|
init_bitmap(&bmp, srcRect, bmi,
|
|
gReadPixelsConfigs[c].fColorType, gReadPixelsConfigs[c].fAlphaType);
|
|
|
|
// if the bitmap has pixels allocated before the readPixels,
|
|
// note that and fill them with pattern
|
|
bool startsWithPixels = !bmp.isNull();
|
|
// Try doing the read directly from a non-renderable texture
|
|
if (startsWithPixels) {
|
|
fill_dst_bmp_with_init_data(&bmp);
|
|
bool success = sContext->readPixels(bmp.info(), bmp.getPixels(),
|
|
bmp.rowBytes(), {srcRect.fLeft, srcRect.fTop});
|
|
auto expectSuccess = read_should_succeed(srcRect, bmp.info(), surfaceInfo);
|
|
REPORTER_ASSERT(
|
|
reporter, expectSuccess == success,
|
|
"Read succeed=%d unexpectedly, src ct/at: %d/%d, dst ct/at: %d/%d",
|
|
success, surfaceInfo.colorType(), surfaceInfo.alphaType(),
|
|
bmp.info().colorType(), bmp.info().alphaType());
|
|
if (success) {
|
|
check_read(reporter, bmp, srcRect.fLeft, srcRect.fTop, success, true,
|
|
surfaceInfo);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
DEF_GPUTEST_FOR_RENDERING_CONTEXTS(ReadPixels_Texture, reporter, ctxInfo) {
|
|
GrContext* context = ctxInfo.grContext();
|
|
SkBitmap bmp = make_src_bitmap();
|
|
|
|
// On the GPU we will also try reading back from a non-renderable texture.
|
|
for (auto origin : {kBottomLeft_GrSurfaceOrigin, kTopLeft_GrSurfaceOrigin}) {
|
|
for (auto renderable : {GrRenderable::kNo, GrRenderable::kYes}) {
|
|
sk_sp<GrTextureProxy> proxy = sk_gpu_test::MakeTextureProxyFromData(
|
|
context, renderable, DEV_W, DEV_H, bmp.colorType(), bmp.alphaType(), origin,
|
|
bmp.getPixels(), bmp.rowBytes());
|
|
auto sContext = context->priv().makeWrappedSurfaceContext(
|
|
std::move(proxy), SkColorTypeToGrColorType(bmp.colorType()),
|
|
kPremul_SkAlphaType);
|
|
auto info = SkImageInfo::Make(DEV_W, DEV_H, kN32_SkColorType, kPremul_SkAlphaType);
|
|
test_readpixels_texture(reporter, std::move(sContext), info);
|
|
}
|
|
}
|
|
}
|
|
|
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
|
|
|
static const uint32_t kNumPixels = 5;
|
|
|
|
// The five reference pixels are: red, green, blue, white, black.
|
|
// Five is an interesting number to test because we'll exercise a full 4-wide SIMD vector
|
|
// plus a tail pixel.
|
|
static const uint32_t rgba[kNumPixels] = {
|
|
0xFF0000FF, 0xFF00FF00, 0xFFFF0000, 0xFFFFFFFF, 0xFF000000
|
|
};
|
|
static const uint32_t bgra[kNumPixels] = {
|
|
0xFFFF0000, 0xFF00FF00, 0xFF0000FF, 0xFFFFFFFF, 0xFF000000
|
|
};
|
|
static const uint16_t rgb565[kNumPixels] = {
|
|
SK_R16_MASK_IN_PLACE, SK_G16_MASK_IN_PLACE, SK_B16_MASK_IN_PLACE, 0xFFFF, 0x0
|
|
};
|
|
|
|
static const uint16_t rgba4444[kNumPixels] = { 0xF00F, 0x0F0F, 0x00FF, 0xFFFF, 0x000F };
|
|
|
|
static const uint64_t kRed = (uint64_t) SK_Half1 << 0;
|
|
static const uint64_t kGreen = (uint64_t) SK_Half1 << 16;
|
|
static const uint64_t kBlue = (uint64_t) SK_Half1 << 32;
|
|
static const uint64_t kAlpha = (uint64_t) SK_Half1 << 48;
|
|
static const uint64_t f16[kNumPixels] = {
|
|
kAlpha | kRed, kAlpha | kGreen, kAlpha | kBlue, kAlpha | kBlue | kGreen | kRed, kAlpha
|
|
};
|
|
|
|
static const uint8_t alpha8[kNumPixels] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
|
|
static const uint8_t gray8[kNumPixels] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF };
|
|
|
|
static const void* five_reference_pixels(SkColorType colorType) {
|
|
switch (colorType) {
|
|
case kUnknown_SkColorType:
|
|
return nullptr;
|
|
case kAlpha_8_SkColorType:
|
|
return alpha8;
|
|
case kRGB_565_SkColorType:
|
|
return rgb565;
|
|
case kARGB_4444_SkColorType:
|
|
return rgba4444;
|
|
case kRGBA_8888_SkColorType:
|
|
return rgba;
|
|
case kBGRA_8888_SkColorType:
|
|
return bgra;
|
|
case kGray_8_SkColorType:
|
|
return gray8;
|
|
case kRGBA_F16_SkColorType:
|
|
return f16;
|
|
default:
|
|
return nullptr;
|
|
}
|
|
|
|
SkASSERT(false);
|
|
return nullptr;
|
|
}
|
|
|
|
static void test_conversion(skiatest::Reporter* r, const SkImageInfo& dstInfo,
|
|
const SkImageInfo& srcInfo) {
|
|
if (!SkImageInfoIsValid(srcInfo)) {
|
|
return;
|
|
}
|
|
|
|
const void* srcPixels = five_reference_pixels(srcInfo.colorType());
|
|
SkPixmap srcPixmap(srcInfo, srcPixels, srcInfo.minRowBytes());
|
|
sk_sp<SkImage> src = SkImage::MakeFromRaster(srcPixmap, nullptr, nullptr);
|
|
REPORTER_ASSERT(r, src);
|
|
|
|
// Enough space for 5 pixels when color type is F16, more than enough space in other cases.
|
|
uint64_t dstPixels[kNumPixels];
|
|
SkPixmap dstPixmap(dstInfo, dstPixels, dstInfo.minRowBytes());
|
|
bool success = src->readPixels(dstPixmap, 0, 0);
|
|
REPORTER_ASSERT(r, success == SkImageInfoValidConversion(dstInfo, srcInfo));
|
|
|
|
if (success) {
|
|
if (kGray_8_SkColorType == srcInfo.colorType() &&
|
|
kGray_8_SkColorType != dstInfo.colorType()) {
|
|
// TODO: test (r,g,b) == (gray,gray,gray)?
|
|
return;
|
|
}
|
|
|
|
if (kGray_8_SkColorType == dstInfo.colorType() &&
|
|
kGray_8_SkColorType != srcInfo.colorType()) {
|
|
// TODO: test gray = luminance?
|
|
return;
|
|
}
|
|
|
|
if (kAlpha_8_SkColorType == srcInfo.colorType() &&
|
|
kAlpha_8_SkColorType != dstInfo.colorType()) {
|
|
// TODO: test output = black with this alpha?
|
|
return;
|
|
}
|
|
|
|
REPORTER_ASSERT(r, 0 == memcmp(dstPixels, five_reference_pixels(dstInfo.colorType()),
|
|
kNumPixels * SkColorTypeBytesPerPixel(dstInfo.colorType())));
|
|
}
|
|
}
|
|
|
|
DEF_TEST(ReadPixels_ValidConversion, reporter) {
|
|
const SkColorType kColorTypes[] = {
|
|
kUnknown_SkColorType,
|
|
kAlpha_8_SkColorType,
|
|
kRGB_565_SkColorType,
|
|
kARGB_4444_SkColorType,
|
|
kRGBA_8888_SkColorType,
|
|
kBGRA_8888_SkColorType,
|
|
kGray_8_SkColorType,
|
|
kRGBA_F16_SkColorType,
|
|
};
|
|
|
|
const SkAlphaType kAlphaTypes[] = {
|
|
kUnknown_SkAlphaType,
|
|
kOpaque_SkAlphaType,
|
|
kPremul_SkAlphaType,
|
|
kUnpremul_SkAlphaType,
|
|
};
|
|
|
|
const sk_sp<SkColorSpace> kColorSpaces[] = {
|
|
nullptr,
|
|
SkColorSpace::MakeSRGB(),
|
|
};
|
|
|
|
for (SkColorType dstCT : kColorTypes) {
|
|
for (SkAlphaType dstAT: kAlphaTypes) {
|
|
for (sk_sp<SkColorSpace> dstCS : kColorSpaces) {
|
|
for (SkColorType srcCT : kColorTypes) {
|
|
for (SkAlphaType srcAT: kAlphaTypes) {
|
|
for (sk_sp<SkColorSpace> srcCS : kColorSpaces) {
|
|
test_conversion(reporter,
|
|
SkImageInfo::Make(kNumPixels, 1, dstCT, dstAT, dstCS),
|
|
SkImageInfo::Make(kNumPixels, 1, srcCT, srcAT, srcCS));
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
static int min_rgb_channel_bits(SkColorType ct) {
|
|
switch (ct) {
|
|
case kUnknown_SkColorType: return 0;
|
|
case kAlpha_8_SkColorType: return 8;
|
|
case kRGB_565_SkColorType: return 5;
|
|
case kARGB_4444_SkColorType: return 4;
|
|
case kRG_88_SkColorType: return 8;
|
|
case kRGBA_8888_SkColorType: return 8;
|
|
case kRGB_888x_SkColorType: return 8;
|
|
case kBGRA_8888_SkColorType: return 8;
|
|
case kRGBA_1010102_SkColorType: return 10;
|
|
case kRGB_101010x_SkColorType: return 10;
|
|
case kGray_8_SkColorType: return 8; // counting gray as "rgb"
|
|
case kRGBA_F16Norm_SkColorType: return 10; // just counting the mantissa
|
|
case kRGBA_F16_SkColorType: return 10; // just counting the mantissa
|
|
case kRGBA_F32_SkColorType: return 23; // just counting the mantissa
|
|
}
|
|
SK_ABORT("Unexpected color type.");
|
|
}
|
|
|
|
DEF_GPUTEST_FOR_RENDERING_CONTEXTS(AsyncReadPixels, reporter, ctxInfo) {
|
|
struct Context {
|
|
SkPixmap* fPixmap = nullptr;
|
|
bool fSuceeded = false;
|
|
bool fCalled = false;
|
|
};
|
|
auto callback = [](SkSurface::ReleaseContext context, const void* data, size_t rowBytes) {
|
|
auto* pm = static_cast<Context*>(context)->fPixmap;
|
|
static_cast<Context*>(context)->fCalled = true;
|
|
if ((static_cast<Context*>(context)->fSuceeded = SkToBool(data))) {
|
|
auto dst = static_cast<char*>(pm->writable_addr());
|
|
const auto* src = static_cast<const char*>(data);
|
|
for (int y = 0; y < pm->height(); ++y, src += rowBytes, dst += pm->rowBytes()) {
|
|
memcpy(dst, src, pm->width() * SkColorTypeBytesPerPixel(pm->colorType()));
|
|
}
|
|
}
|
|
};
|
|
for (auto origin : {kTopLeft_GrSurfaceOrigin, kBottomLeft_GrSurfaceOrigin}) {
|
|
static constexpr int kW = 16;
|
|
static constexpr int kH = 16;
|
|
for (int sct = 0; sct <= kLastEnum_SkColorType; ++sct) {
|
|
auto surfCT = static_cast<SkColorType>(sct);
|
|
auto info = SkImageInfo::Make(kW, kH, surfCT, kPremul_SkAlphaType, nullptr);
|
|
auto surf = SkSurface::MakeRenderTarget(ctxInfo.grContext(), SkBudgeted::kNo, info, 1,
|
|
origin, nullptr);
|
|
if (!surf) {
|
|
continue;
|
|
}
|
|
float d = std::sqrt((float)surf->width() * surf->width() +
|
|
(float)surf->height() * surf->height());
|
|
for (int j = 0; j < surf->height(); ++j) {
|
|
for (int i = 0; i < surf->width(); ++i) {
|
|
float r = i / (float)surf->width();
|
|
float g = 1.f - i / (float)surf->height();
|
|
float b = std::sqrt((float)i * i + (float)j * j) / d;
|
|
SkPaint paint;
|
|
paint.setColor4f(SkColor4f{r, g, b, 1.f}, nullptr);
|
|
surf->getCanvas()->drawRect(SkRect::MakeXYWH(i, j, 1, 1), paint);
|
|
}
|
|
}
|
|
for (const auto& rect : {SkIRect::MakeWH(kW, kH), // full size
|
|
SkIRect::MakeLTRB(1, 2, kW - 3, kH - 4), // partial
|
|
SkIRect::MakeXYWH(1, 1, 0, 0), // empty: fail
|
|
SkIRect::MakeWH(kW + 1, kH / 2)}) { // too wide: fail
|
|
for (int rct = 0; rct <= kLastEnum_SkColorType; ++rct) {
|
|
auto readCT = static_cast<SkColorType>(rct);
|
|
for (const sk_sp<SkColorSpace>& readCS :
|
|
{sk_sp<SkColorSpace>(), SkColorSpace::MakeSRGBLinear()}) {
|
|
SkAutoPixmapStorage result;
|
|
Context context;
|
|
context.fPixmap = &result;
|
|
info = SkImageInfo::Make(rect.width(), rect.height(), readCT,
|
|
kPremul_SkAlphaType, readCS);
|
|
result.alloc(info);
|
|
memset(result.writable_addr(), 0xAB, result.computeByteSize());
|
|
// Rescale quality and linearity don't matter since we're doing a non-
|
|
// scaling readback.
|
|
surf->asyncRescaleAndReadPixels(info, rect, SkSurface::RescaleGamma::kSrc,
|
|
kNone_SkFilterQuality, callback, &context);
|
|
while (!context.fCalled) {
|
|
ctxInfo.grContext()->checkAsyncWorkCompletion();
|
|
}
|
|
if (rect.isEmpty() || !SkIRect::MakeWH(kW, kH).contains(rect)) {
|
|
REPORTER_ASSERT(reporter, !context.fSuceeded);
|
|
}
|
|
if (context.fSuceeded) {
|
|
REPORTER_ASSERT(reporter, readCT != kUnknown_SkColorType &&
|
|
!rect.isEmpty());
|
|
} else {
|
|
// TODO: Support reading to kGray.
|
|
auto surfBounds = SkIRect::MakeWH(surf->width(), surf->height());
|
|
if (readCT != kUnknown_SkColorType && readCT != kGray_8_SkColorType &&
|
|
!rect.isEmpty() && surfBounds.contains(rect)) {
|
|
ERRORF(reporter,
|
|
"Async read failed. Surf Color Type: %d, Read CT: %d,"
|
|
"Rect [%d, %d, %d, %d], origin: %d, CS conversion: %d\n",
|
|
surfCT, readCT, rect.fLeft, rect.fTop, rect.fRight,
|
|
rect.fBottom, origin, (bool)readCS);
|
|
}
|
|
continue;
|
|
}
|
|
// We use a synchronous read as the source of truth.
|
|
SkAutoPixmapStorage ref;
|
|
ref.alloc(info);
|
|
memset(ref.writable_addr(), 0xCD, ref.computeByteSize());
|
|
if (!surf->readPixels(ref, rect.fLeft, rect.fTop)) {
|
|
continue;
|
|
}
|
|
// When there is no conversion, don't allow a difference.
|
|
float tol = 0.f;
|
|
if (readCS || readCT != surfCT) {
|
|
// When there is a conversion allow a diff of two values when no
|
|
// color space conversion and three otherwise. Except for alpha where
|
|
// we allow no difference. Allow intermediate truncation to an 8 bit per
|
|
// channel format.
|
|
int rgbBits = std::min({min_rgb_channel_bits(readCT),
|
|
min_rgb_channel_bits(surfCT), 8});
|
|
|
|
tol = (readCS ? 3.f : 2.f) / (1 << rgbBits);
|
|
}
|
|
const float tols[4] = {tol, tol, tol, 0};
|
|
auto error = std::function<ComparePixmapsErrorReporter>(
|
|
[&](int x, int y, const float diffs[4]) {
|
|
SkASSERT(x >= 0 && y >= 0);
|
|
ERRORF(reporter,
|
|
"Surf Color Type: %d, Read CT: %d, Rect [%d, %d, %d, %d]"
|
|
", origin: %d, CS conversion: %d\n"
|
|
"Error at %d, %d. Diff in floats: (%f, %f, %f %f)",
|
|
surfCT, readCT, rect.fLeft, rect.fTop, rect.fRight,
|
|
rect.fBottom, origin, (bool)readCS, x, y, diffs[0],
|
|
diffs[1], diffs[2], diffs[3]);
|
|
});
|
|
compare_pixels(ref, result, tols, error);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|