gm/bitmaptiled.cpp - platform/external/skqp - Gitiles

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "gm.h"

 #if SK_SUPPORT_GPU
 #include "GrContext.h"

 // This test exercises Ganesh's drawing of tiled bitmaps. In particular, that the offsets and the
 // extents of the tiles don't causes gaps between tiles.
 static void draw_tile_bitmap_with_fractional_offset(SkCanvas* canvas, bool vertical) {
     GrContext* context = canvas->getGrContext();
     if (!context) {
         skiagm::GM::DrawGpuOnlyMessage(canvas);
         return;
     }

     // This should match kBmpSmallTileSize in SkGpuDevice.cpp. Note that our canvas size is tuned
     // to this constant as well.
     const int kTileSize = 1 << 10;

     // We're going to draw a section of the bitmap that intersects 3 tiles (3x1 or 1x3).
     // We need that to be < 50% of the total image, so our image is 7 tiles (7x1 or 1x7).
     const int kBitmapLongEdge = 7 * kTileSize;
     const int kBitmapShortEdge = 1 * kTileSize;

     // To trigger tiling, we also need the image to be more than 50% of the cache, so we ensure the
     // cache is sized to make that true.
     const int kBitmapArea = kBitmapLongEdge * kBitmapShortEdge;
     const size_t kBitmapBytes = kBitmapArea * sizeof(SkPMColor);

     int oldMaxResources;
     size_t oldMaxResourceBytes;
     context->getResourceCacheLimits(&oldMaxResources, &oldMaxResourceBytes);

     const size_t newMaxResourceBytes = kBitmapBytes + (kBitmapBytes / 2);
     context->setResourceCacheLimits(oldMaxResources, newMaxResourceBytes);

     // Construct our bitmap as either very wide or very tall
     SkBitmap bmp;
     bmp.allocN32Pixels(vertical ? kBitmapShortEdge : kBitmapLongEdge,
                        vertical ? kBitmapLongEdge : kBitmapShortEdge, true);
     bmp.eraseColor(SK_ColorWHITE);

     // Draw ten strips with varying fractional offset to catch any rasterization issues with tiling
     for (int i = 0; i < 10; ++i) {
         float offset = i * 0.1f;
         if (vertical) {
             canvas->drawBitmapRect(bmp, SkRect::MakeXYWH(0.0f, (kTileSize - 50) + offset,
                                                          32.0f, 1124.0f),
                                    SkRect::MakeXYWH(37.0f * i, 0.0f, 32.0f, 1124.0f), nullptr);
         } else {
             canvas->drawBitmapRect(bmp, SkRect::MakeXYWH((kTileSize - 50) + offset, 0.0f,
                                                          1124.0f, 32.0f),
                                    SkRect::MakeXYWH(0.0f, 37.0f * i, 1124.0f, 32.0f), nullptr);
         }
     }

     // Restore the cache
     context->setResourceCacheLimits(oldMaxResources, oldMaxResourceBytes);
 }

 DEF_SIMPLE_GM_BG(bitmaptiled_fractional_horizontal, canvas, 1124, 365, SK_ColorBLACK) {
     draw_tile_bitmap_with_fractional_offset(canvas, false);
 }

 DEF_SIMPLE_GM_BG(bitmaptiled_fractional_vertical, canvas, 365, 1124, SK_ColorBLACK) {
     draw_tile_bitmap_with_fractional_offset(canvas, true);
 }

 #endif
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "gm.h"

	#if SK_SUPPORT_GPU
	#include "GrContext.h"

	// This test exercises Ganesh's drawing of tiled bitmaps. In particular, that the offsets and the
	// extents of the tiles don't causes gaps between tiles.
	static void draw_tile_bitmap_with_fractional_offset(SkCanvas* canvas, bool vertical) {
	GrContext* context = canvas->getGrContext();
	if (!context) {
	skiagm::GM::DrawGpuOnlyMessage(canvas);
	return;
	}

	// This should match kBmpSmallTileSize in SkGpuDevice.cpp. Note that our canvas size is tuned
	// to this constant as well.
	const int kTileSize = 1 << 10;

	// We're going to draw a section of the bitmap that intersects 3 tiles (3x1 or 1x3).
	// We need that to be < 50% of the total image, so our image is 7 tiles (7x1 or 1x7).
	const int kBitmapLongEdge = 7 * kTileSize;
	const int kBitmapShortEdge = 1 * kTileSize;

	// To trigger tiling, we also need the image to be more than 50% of the cache, so we ensure the
	// cache is sized to make that true.
	const int kBitmapArea = kBitmapLongEdge * kBitmapShortEdge;
	const size_t kBitmapBytes = kBitmapArea * sizeof(SkPMColor);

	int oldMaxResources;
	size_t oldMaxResourceBytes;
	context->getResourceCacheLimits(&oldMaxResources, &oldMaxResourceBytes);

	const size_t newMaxResourceBytes = kBitmapBytes + (kBitmapBytes / 2);
	context->setResourceCacheLimits(oldMaxResources, newMaxResourceBytes);

	// Construct our bitmap as either very wide or very tall
	SkBitmap bmp;
	bmp.allocN32Pixels(vertical ? kBitmapShortEdge : kBitmapLongEdge,
	vertical ? kBitmapLongEdge : kBitmapShortEdge, true);
	bmp.eraseColor(SK_ColorWHITE);

	// Draw ten strips with varying fractional offset to catch any rasterization issues with tiling
	for (int i = 0; i < 10; ++i) {
	float offset = i * 0.1f;
	if (vertical) {
	canvas->drawBitmapRect(bmp, SkRect::MakeXYWH(0.0f, (kTileSize - 50) + offset,
	32.0f, 1124.0f),
	SkRect::MakeXYWH(37.0f * i, 0.0f, 32.0f, 1124.0f), nullptr);
	} else {
	canvas->drawBitmapRect(bmp, SkRect::MakeXYWH((kTileSize - 50) + offset, 0.0f,
	1124.0f, 32.0f),
	SkRect::MakeXYWH(0.0f, 37.0f * i, 1124.0f, 32.0f), nullptr);
	}
	}

	// Restore the cache
	context->setResourceCacheLimits(oldMaxResources, oldMaxResourceBytes);
	}

	DEF_SIMPLE_GM_BG(bitmaptiled_fractional_horizontal, canvas, 1124, 365, SK_ColorBLACK) {
	draw_tile_bitmap_with_fractional_offset(canvas, false);
	}

	DEF_SIMPLE_GM_BG(bitmaptiled_fractional_vertical, canvas, 365, 1124, SK_ColorBLACK) {
	draw_tile_bitmap_with_fractional_offset(canvas, true);
	}

	#endif