9f1c241e0d
The real question is whether we ever want to record a picture without using the path bounds for a conservative (but faster) clip answer? R=reed@google.com, mtklein@google.com, djsollen@google.com, scroggo@google.com Author: robertphillips@google.com Review URL: https://codereview.chromium.org/316143003
662 lines
20 KiB
C++
662 lines
20 KiB
C++
/*
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* Copyright 2012 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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#ifndef PictureRenderer_DEFINED
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#define PictureRenderer_DEFINED
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#include "SkCanvas.h"
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#include "SkCountdown.h"
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#include "SkDrawFilter.h"
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#include "SkMath.h"
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#include "SkPaint.h"
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#include "SkPicture.h"
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#include "SkPictureRecorder.h"
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#include "SkRect.h"
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#include "SkRefCnt.h"
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#include "SkRunnable.h"
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#include "SkString.h"
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#include "SkTDArray.h"
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#include "SkThreadPool.h"
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#include "SkTypes.h"
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#if SK_SUPPORT_GPU
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#include "GrContextFactory.h"
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#include "GrContext.h"
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#endif
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#include "image_expectations.h"
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class SkBitmap;
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class SkCanvas;
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class SkGLContextHelper;
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class SkThread;
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namespace sk_tools {
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class TiledPictureRenderer;
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class PictureRenderer : public SkRefCnt {
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public:
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enum SkDeviceTypes {
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#if SK_ANGLE
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kAngle_DeviceType,
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#endif
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#if SK_MESA
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kMesa_DeviceType,
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#endif
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kBitmap_DeviceType,
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#if SK_SUPPORT_GPU
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kGPU_DeviceType,
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kNVPR_DeviceType,
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#endif
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};
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enum BBoxHierarchyType {
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kNone_BBoxHierarchyType = 0,
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kQuadTree_BBoxHierarchyType,
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kRTree_BBoxHierarchyType,
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kTileGrid_BBoxHierarchyType,
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kLast_BBoxHierarchyType = kTileGrid_BBoxHierarchyType,
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};
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// this uses SkPaint::Flags as a base and adds additional flags
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enum DrawFilterFlags {
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kNone_DrawFilterFlag = 0,
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kHinting_DrawFilterFlag = 0x10000, // toggles between no hinting and normal hinting
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kSlightHinting_DrawFilterFlag = 0x20000, // toggles between slight and normal hinting
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kAAClip_DrawFilterFlag = 0x40000, // toggles between soft and hard clip
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kMaskFilter_DrawFilterFlag = 0x80000, // toggles on/off mask filters (e.g., blurs)
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};
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SK_COMPILE_ASSERT(!(kMaskFilter_DrawFilterFlag & SkPaint::kAllFlags), maskfilter_flag_must_be_greater);
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SK_COMPILE_ASSERT(!(kHinting_DrawFilterFlag & SkPaint::kAllFlags),
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hinting_flag_must_be_greater);
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SK_COMPILE_ASSERT(!(kSlightHinting_DrawFilterFlag & SkPaint::kAllFlags),
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slight_hinting_flag_must_be_greater);
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/**
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* Called with each new SkPicture to render.
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*
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* @param pict The SkPicture to render.
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* @param writePath The output directory within which this renderer should write all images,
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* or NULL if this renderer should not write all images.
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* @param mismatchPath The output directory within which this renderer should write any images
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* which do not match expectations, or NULL if this renderer should not write mismatches.
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* @param inputFilename The name of the input file we are rendering.
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* @param useChecksumBasedFilenames Whether to use checksum-based filenames when writing
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* bitmap images to disk.
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*/
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virtual void init(SkPicture* pict, const SkString* writePath, const SkString* mismatchPath,
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const SkString* inputFilename, bool useChecksumBasedFilenames);
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/**
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* TODO(epoger): Temporary hack, while we work on http://skbug.com/2584 ('bench_pictures is
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* timing reading pixels and writing json files'), such that:
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* - render_pictures can call this method and continue to work
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* - any other callers (bench_pictures) will skip calls to write() by default
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*/
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void enableWrites() { fEnableWrites = true; }
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/**
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* Set the viewport so that only the portion listed gets drawn.
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*/
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void setViewport(SkISize size) { fViewport = size; }
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/**
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* Set the scale factor at which draw the picture.
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*/
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void setScaleFactor(SkScalar scale) { fScaleFactor = scale; }
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/**
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* Perform any setup that should done prior to each iteration of render() which should not be
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* timed.
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*/
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virtual void setup() {}
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/**
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* Perform the work. If this is being called within the context of bench_pictures,
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* this is the step that will be timed.
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*
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* Typically "the work" is rendering an SkPicture into a bitmap, but in some subclasses
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* it is recording the source SkPicture into another SkPicture.
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*
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* If fWritePath has been specified, the result of the work will be written to that dir.
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* If fMismatchPath has been specified, and the actual image result differs from its
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* expectation, the result of the work will be written to that dir.
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*
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* @param out If non-null, the implementing subclass MAY allocate an SkBitmap, copy the
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* output image into it, and return it here. (Some subclasses ignore this parameter)
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* @return bool True if rendering succeeded and, if fWritePath had been specified, the output
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* was successfully written to a file.
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*/
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virtual bool render(SkBitmap** out = NULL) = 0;
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/**
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* Called once finished with a particular SkPicture, before calling init again, and before
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* being done with this Renderer.
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*/
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virtual void end();
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/**
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* If this PictureRenderer is actually a TiledPictureRender, return a pointer to this as a
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* TiledPictureRender so its methods can be called.
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*/
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virtual TiledPictureRenderer* getTiledRenderer() { return NULL; }
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/**
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* Resets the GPU's state. Does nothing if the backing is raster. For a GPU renderer, calls
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* flush, swapBuffers and, if callFinish is true, finish.
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* @param callFinish Whether to call finish.
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*/
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void resetState(bool callFinish);
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/**
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* Remove all decoded textures from the CPU caches and all uploaded textures
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* from the GPU.
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*/
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void purgeTextures();
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/**
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* Set the backend type. Returns true on success and false on failure.
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*/
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bool setDeviceType(SkDeviceTypes deviceType) {
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fDeviceType = deviceType;
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#if SK_SUPPORT_GPU
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// In case this function is called more than once
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SkSafeUnref(fGrContext);
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fGrContext = NULL;
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// Set to Native so it will have an initial value.
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GrContextFactory::GLContextType glContextType = GrContextFactory::kNative_GLContextType;
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#endif
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switch(deviceType) {
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case kBitmap_DeviceType:
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return true;
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#if SK_SUPPORT_GPU
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case kGPU_DeviceType:
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// Already set to GrContextFactory::kNative_GLContextType, above.
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break;
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case kNVPR_DeviceType:
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glContextType = GrContextFactory::kNVPR_GLContextType;
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break;
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#if SK_ANGLE
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case kAngle_DeviceType:
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glContextType = GrContextFactory::kANGLE_GLContextType;
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break;
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#endif
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#if SK_MESA
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case kMesa_DeviceType:
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glContextType = GrContextFactory::kMESA_GLContextType;
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break;
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#endif
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#endif
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default:
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// Invalid device type.
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return false;
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}
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#if SK_SUPPORT_GPU
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fGrContext = fGrContextFactory.get(glContextType);
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if (NULL == fGrContext) {
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return false;
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} else {
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fGrContext->ref();
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return true;
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}
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#endif
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}
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#if SK_SUPPORT_GPU
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void setSampleCount(int sampleCount) {
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fSampleCount = sampleCount;
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}
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#endif
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void setDrawFilters(DrawFilterFlags const * const filters, const SkString& configName) {
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memcpy(fDrawFilters, filters, sizeof(fDrawFilters));
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fDrawFiltersConfig = configName;
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}
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void setBBoxHierarchyType(BBoxHierarchyType bbhType) {
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fBBoxHierarchyType = bbhType;
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}
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BBoxHierarchyType getBBoxHierarchyType() { return fBBoxHierarchyType; }
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void setGridSize(int width, int height) {
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fGridInfo.fTileInterval.set(width, height);
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}
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void setJsonSummaryPtr(ImageResultsAndExpectations* jsonSummaryPtr) {
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fJsonSummaryPtr = jsonSummaryPtr;
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}
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bool isUsingBitmapDevice() {
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return kBitmap_DeviceType == fDeviceType;
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}
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virtual SkString getPerIterTimeFormat() { return SkString("%.2f"); }
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virtual SkString getNormalTimeFormat() { return SkString("%6.2f"); }
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/**
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* Reports the configuration of this PictureRenderer.
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*/
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SkString getConfigName() {
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SkString config = this->getConfigNameInternal();
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if (!fViewport.isEmpty()) {
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config.appendf("_viewport_%ix%i", fViewport.width(), fViewport.height());
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}
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if (fScaleFactor != SK_Scalar1) {
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config.appendf("_scalar_%f", SkScalarToFloat(fScaleFactor));
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}
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if (kRTree_BBoxHierarchyType == fBBoxHierarchyType) {
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config.append("_rtree");
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} else if (kQuadTree_BBoxHierarchyType == fBBoxHierarchyType) {
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config.append("_quadtree");
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} else if (kTileGrid_BBoxHierarchyType == fBBoxHierarchyType) {
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config.append("_grid");
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config.append("_");
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config.appendS32(fGridInfo.fTileInterval.width());
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config.append("x");
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config.appendS32(fGridInfo.fTileInterval.height());
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}
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#if SK_SUPPORT_GPU
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switch (fDeviceType) {
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case kGPU_DeviceType:
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if (fSampleCount) {
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config.appendf("_msaa%d", fSampleCount);
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} else {
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config.append("_gpu");
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}
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break;
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case kNVPR_DeviceType:
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config.appendf("_nvprmsaa%d", fSampleCount);
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break;
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#if SK_ANGLE
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case kAngle_DeviceType:
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config.append("_angle");
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break;
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#endif
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#if SK_MESA
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case kMesa_DeviceType:
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config.append("_mesa");
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break;
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#endif
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default:
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// Assume that no extra info means bitmap.
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break;
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}
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#endif
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config.append(fDrawFiltersConfig.c_str());
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return config;
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}
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#if SK_SUPPORT_GPU
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bool isUsingGpuDevice() {
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switch (fDeviceType) {
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case kGPU_DeviceType:
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case kNVPR_DeviceType:
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// fall through
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#if SK_ANGLE
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case kAngle_DeviceType:
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// fall through
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#endif
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#if SK_MESA
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case kMesa_DeviceType:
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#endif
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return true;
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default:
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return false;
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}
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}
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SkGLContextHelper* getGLContext() {
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GrContextFactory::GLContextType glContextType
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= GrContextFactory::kNull_GLContextType;
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switch(fDeviceType) {
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case kGPU_DeviceType:
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glContextType = GrContextFactory::kNative_GLContextType;
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break;
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case kNVPR_DeviceType:
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glContextType = GrContextFactory::kNVPR_GLContextType;
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break;
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#if SK_ANGLE
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case kAngle_DeviceType:
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glContextType = GrContextFactory::kANGLE_GLContextType;
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break;
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#endif
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#if SK_MESA
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case kMesa_DeviceType:
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glContextType = GrContextFactory::kMESA_GLContextType;
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break;
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#endif
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default:
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return NULL;
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}
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return fGrContextFactory.getGLContext(glContextType);
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}
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GrContext* getGrContext() {
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return fGrContext;
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}
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#endif
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SkCanvas* getCanvas() {
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return fCanvas;
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}
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SkPicture* getPicture() {
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return fPicture;
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}
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PictureRenderer()
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: fJsonSummaryPtr(NULL)
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, fDeviceType(kBitmap_DeviceType)
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, fEnableWrites(false)
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, fBBoxHierarchyType(kNone_BBoxHierarchyType)
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, fScaleFactor(SK_Scalar1)
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#if SK_SUPPORT_GPU
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, fGrContext(NULL)
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, fSampleCount(0)
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#endif
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{
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fGridInfo.fMargin.setEmpty();
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fGridInfo.fOffset.setZero();
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fGridInfo.fTileInterval.set(1, 1);
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sk_bzero(fDrawFilters, sizeof(fDrawFilters));
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fViewport.set(0, 0);
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}
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#if SK_SUPPORT_GPU
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virtual ~PictureRenderer() {
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SkSafeUnref(fGrContext);
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}
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#endif
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protected:
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SkAutoTUnref<SkCanvas> fCanvas;
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SkAutoTUnref<SkPicture> fPicture;
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bool fUseChecksumBasedFilenames;
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ImageResultsAndExpectations* fJsonSummaryPtr;
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SkDeviceTypes fDeviceType;
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bool fEnableWrites;
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BBoxHierarchyType fBBoxHierarchyType;
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DrawFilterFlags fDrawFilters[SkDrawFilter::kTypeCount];
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SkString fDrawFiltersConfig;
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SkString fWritePath;
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SkString fMismatchPath;
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SkString fInputFilename;
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SkTileGridFactory::TileGridInfo fGridInfo; // used when fBBoxHierarchyType is TileGrid
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void buildBBoxHierarchy();
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/**
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* Return the total width that should be drawn. If the viewport width has been set greater than
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* 0, this will be the minimum of the current SkPicture's width and the viewport's width.
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*/
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int getViewWidth();
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/**
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* Return the total height that should be drawn. If the viewport height has been set greater
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* than 0, this will be the minimum of the current SkPicture's height and the viewport's height.
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*/
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int getViewHeight();
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/**
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* Scales the provided canvas to the scale factor set by setScaleFactor.
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*/
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void scaleToScaleFactor(SkCanvas*);
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SkBBHFactory* getFactory();
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uint32_t recordFlags() const { return 0; }
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SkCanvas* setupCanvas();
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virtual SkCanvas* setupCanvas(int width, int height);
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/**
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* Copy src to dest; if src==NULL, set dest to empty string.
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*/
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static void CopyString(SkString* dest, const SkString* src);
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private:
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SkISize fViewport;
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SkScalar fScaleFactor;
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#if SK_SUPPORT_GPU
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GrContextFactory fGrContextFactory;
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GrContext* fGrContext;
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int fSampleCount;
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#endif
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virtual SkString getConfigNameInternal() = 0;
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typedef SkRefCnt INHERITED;
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};
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/**
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* This class does not do any rendering, but its render function executes recording, which we want
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* to time.
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*/
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class RecordPictureRenderer : public PictureRenderer {
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virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
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virtual SkString getPerIterTimeFormat() SK_OVERRIDE { return SkString("%.4f"); }
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virtual SkString getNormalTimeFormat() SK_OVERRIDE { return SkString("%6.4f"); }
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protected:
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virtual SkCanvas* setupCanvas(int width, int height) SK_OVERRIDE;
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private:
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virtual SkString getConfigNameInternal() SK_OVERRIDE;
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};
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class PipePictureRenderer : public PictureRenderer {
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public:
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virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
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private:
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virtual SkString getConfigNameInternal() SK_OVERRIDE;
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typedef PictureRenderer INHERITED;
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};
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class SimplePictureRenderer : public PictureRenderer {
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public:
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virtual void init(SkPicture* pict, const SkString* writePath, const SkString* mismatchPath,
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const SkString* inputFilename, bool useChecksumBasedFilenames) SK_OVERRIDE;
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virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
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private:
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virtual SkString getConfigNameInternal() SK_OVERRIDE;
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typedef PictureRenderer INHERITED;
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};
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class TiledPictureRenderer : public PictureRenderer {
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public:
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TiledPictureRenderer();
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virtual void init(SkPicture* pict, const SkString* writePath, const SkString* mismatchPath,
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const SkString* inputFilename, bool useChecksumBasedFilenames) SK_OVERRIDE;
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/**
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* Renders to tiles, rather than a single canvas.
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* If fWritePath was provided, a separate file is
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* created for each tile, named "path0.png", "path1.png", etc.
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* Multithreaded mode currently does not support writing to a file.
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*/
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virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
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virtual void end() SK_OVERRIDE;
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void setTileWidth(int width) {
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fTileWidth = width;
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}
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int getTileWidth() const {
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return fTileWidth;
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}
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void setTileHeight(int height) {
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fTileHeight = height;
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}
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int getTileHeight() const {
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return fTileHeight;
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}
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void setTileWidthPercentage(double percentage) {
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fTileWidthPercentage = percentage;
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}
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double getTileWidthPercentage() const {
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return fTileWidthPercentage;
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}
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void setTileHeightPercentage(double percentage) {
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fTileHeightPercentage = percentage;
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}
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double getTileHeightPercentage() const {
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return fTileHeightPercentage;
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}
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void setTileMinPowerOf2Width(int width) {
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SkASSERT(SkIsPow2(width) && width > 0);
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if (!SkIsPow2(width) || width <= 0) {
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return;
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}
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fTileMinPowerOf2Width = width;
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}
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int getTileMinPowerOf2Width() const {
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return fTileMinPowerOf2Width;
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}
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virtual TiledPictureRenderer* getTiledRenderer() SK_OVERRIDE { return this; }
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virtual bool supportsTimingIndividualTiles() { return true; }
|
|
|
|
/**
|
|
* Report the number of tiles in the x and y directions. Must not be called before init.
|
|
* @param x Output parameter identifying the number of tiles in the x direction.
|
|
* @param y Output parameter identifying the number of tiles in the y direction.
|
|
* @return True if the tiles have been set up, and x and y are meaningful. If false, x and y are
|
|
* unmodified.
|
|
*/
|
|
bool tileDimensions(int& x, int&y);
|
|
|
|
/**
|
|
* Move to the next tile and return its indices. Must be called before calling drawCurrentTile
|
|
* for the first time.
|
|
* @param i Output parameter identifying the column of the next tile to be drawn on the next
|
|
* call to drawNextTile.
|
|
* @param j Output parameter identifying the row of the next tile to be drawn on the next call
|
|
* to drawNextTile.
|
|
* @param True if the tiles have been created and the next tile to be drawn by drawCurrentTile
|
|
* is within the range of tiles. If false, i and j are unmodified.
|
|
*/
|
|
bool nextTile(int& i, int& j);
|
|
|
|
/**
|
|
* Render one tile. This will draw the same tile each time it is called until nextTile is
|
|
* called. The tile rendered will depend on how many calls have been made to nextTile.
|
|
* It is an error to call this without first calling nextTile, or if nextTile returns false.
|
|
*/
|
|
void drawCurrentTile();
|
|
|
|
protected:
|
|
SkTDArray<SkRect> fTileRects;
|
|
|
|
virtual SkCanvas* setupCanvas(int width, int height) SK_OVERRIDE;
|
|
virtual SkString getConfigNameInternal() SK_OVERRIDE;
|
|
|
|
private:
|
|
int fTileWidth;
|
|
int fTileHeight;
|
|
double fTileWidthPercentage;
|
|
double fTileHeightPercentage;
|
|
int fTileMinPowerOf2Width;
|
|
|
|
// These variables are only used for timing individual tiles.
|
|
// Next tile to draw in fTileRects.
|
|
int fCurrentTileOffset;
|
|
// Number of tiles in the x direction.
|
|
int fTilesX;
|
|
// Number of tiles in the y direction.
|
|
int fTilesY;
|
|
|
|
void setupTiles();
|
|
void setupPowerOf2Tiles();
|
|
|
|
typedef PictureRenderer INHERITED;
|
|
};
|
|
|
|
class CloneData;
|
|
|
|
class MultiCorePictureRenderer : public TiledPictureRenderer {
|
|
public:
|
|
explicit MultiCorePictureRenderer(int threadCount);
|
|
|
|
~MultiCorePictureRenderer();
|
|
|
|
virtual void init(SkPicture* pict, const SkString* writePath, const SkString* mismatchPath,
|
|
const SkString* inputFilename, bool useChecksumBasedFilenames) SK_OVERRIDE;
|
|
|
|
/**
|
|
* Behaves like TiledPictureRenderer::render(), only using multiple threads.
|
|
*/
|
|
virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
|
|
|
|
virtual void end() SK_OVERRIDE;
|
|
|
|
virtual bool supportsTimingIndividualTiles() SK_OVERRIDE { return false; }
|
|
|
|
private:
|
|
virtual SkString getConfigNameInternal() SK_OVERRIDE;
|
|
|
|
const int fNumThreads;
|
|
SkTDArray<SkCanvas*> fCanvasPool;
|
|
SkThreadPool fThreadPool;
|
|
SkPicture* fPictureClones;
|
|
CloneData** fCloneData;
|
|
SkCountdown fCountdown;
|
|
|
|
typedef TiledPictureRenderer INHERITED;
|
|
};
|
|
|
|
/**
|
|
* This class does not do any rendering, but its render function executes turning an SkPictureRecord
|
|
* into an SkPicturePlayback, which we want to time.
|
|
*/
|
|
class PlaybackCreationRenderer : public PictureRenderer {
|
|
public:
|
|
virtual void setup() SK_OVERRIDE;
|
|
|
|
virtual bool render(SkBitmap** out = NULL) SK_OVERRIDE;
|
|
|
|
virtual SkString getPerIterTimeFormat() SK_OVERRIDE { return SkString("%.4f"); }
|
|
|
|
virtual SkString getNormalTimeFormat() SK_OVERRIDE { return SkString("%6.4f"); }
|
|
|
|
private:
|
|
SkAutoTDelete<SkPictureRecorder> fRecorder;
|
|
|
|
virtual SkString getConfigNameInternal() SK_OVERRIDE;
|
|
|
|
typedef PictureRenderer INHERITED;
|
|
};
|
|
|
|
extern PictureRenderer* CreateGatherPixelRefsRenderer();
|
|
extern PictureRenderer* CreatePictureCloneRenderer();
|
|
|
|
}
|
|
|
|
#endif // PictureRenderer_DEFINED
|