include/core/SkGraphics.h - skia - Git at Google

 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkGraphics_DEFINED
 #define SkGraphics_DEFINED

 #include "include/core/SkRefCnt.h"
 #include "include/private/base/SkAPI.h"

 #include <cstddef>
 #include <cstdint>
 #include <memory>

 class SkData;
 class SkImageGenerator;
 class SkOpenTypeSVGDecoder;
 class SkTraceMemoryDump;

 class SK_API SkGraphics {
 public:
     /**
      *  Call this at process initialization time if your environment does not
      *  permit static global initializers that execute code.
      *  Init() is thread-safe and idempotent.
      */
     static void Init();

     /**
      *  Return the max number of bytes that should be used by the font cache.
      *  If the cache needs to allocate more, it will purge previous entries.
      *  This max can be changed by calling SetFontCacheLimit().
      */
     static size_t GetFontCacheLimit();

     /**
      *  Specify the max number of bytes that should be used by the font cache.
      *  If the cache needs to allocate more, it will purge previous entries.
      *
      *  This function returns the previous setting, as if GetFontCacheLimit()
      *  had be called before the new limit was set.
      */
     static size_t SetFontCacheLimit(size_t bytes);

     /**
      *  Return the number of bytes currently used by the font cache.
      */
     static size_t GetFontCacheUsed();

     /**
      *  Return the number of entries in the font cache.
      *  A cache "entry" is associated with each typeface + pointSize + matrix.
      */
     static int GetFontCacheCountUsed();

     /**
      *  Return the current limit to the number of entries in the font cache.
      *  A cache "entry" is associated with each typeface + pointSize + matrix.
      */
     static int GetFontCacheCountLimit();

     /**
      *  Set the limit to the number of entries in the font cache, and return
      *  the previous value. If this new value is lower than the previous,
      *  it will automatically try to purge entries to meet the new limit.
      */
     static int SetFontCacheCountLimit(int count);

     /**
      *  Return the current limit to the number of entries in the typeface cache.
      *  A cache "entry" is associated with each typeface.
      */
     static int GetTypefaceCacheCountLimit();

     /**
      *  Set the limit to the number of entries in the typeface cache, and return
      *  the previous value. Changes to this only take effect the next time
      *  each cache object is modified.
      */
     static int SetTypefaceCacheCountLimit(int count);

     /**
      *  For debugging purposes, this will attempt to purge the font cache. It
      *  does not change the limit, but will cause subsequent font measures and
      *  draws to be recreated, since they will no longer be in the cache.
      */
     static void PurgeFontCache();

     /**
      *  If the strike cache is above the cache limit, attempt to purge strikes
      *  with pinners. This should be called after clients release locks on
      *  pinned strikes.
      */
     static void PurgePinnedFontCache();

     /**
      *  This function returns the memory used for temporary images and other resources.
      */
     static size_t GetResourceCacheTotalBytesUsed();

     /**
      *  These functions get/set the memory usage limit for the resource cache, used for temporary
      *  bitmaps and other resources. Entries are purged from the cache when the memory useage
      *  exceeds this limit.
      */
     static size_t GetResourceCacheTotalByteLimit();
     static size_t SetResourceCacheTotalByteLimit(size_t newLimit);

     /**
      *  For debugging purposes, this will attempt to purge the resource cache. It
      *  does not change the limit.
      */
     static void PurgeResourceCache();

     /**
      *  When the cachable entry is very lage (e.g. a large scaled bitmap), adding it to the cache
      *  can cause most/all of the existing entries to be purged. To avoid the, the client can set
      *  a limit for a single allocation. If a cacheable entry would have been cached, but its size
      *  exceeds this limit, then we do not attempt to cache it at all.
      *
      *  Zero is the default value, meaning we always attempt to cache entries.
      */
     static size_t GetResourceCacheSingleAllocationByteLimit();
     static size_t SetResourceCacheSingleAllocationByteLimit(size_t newLimit);

     /**
      *  Dumps memory usage of caches using the SkTraceMemoryDump interface. See SkTraceMemoryDump
      *  for usage of this method.
      */
     static void DumpMemoryStatistics(SkTraceMemoryDump* dump);

     /**
      *  Free as much globally cached memory as possible. This will purge all private caches in Skia,
      *  including font and image caches.
      *
      *  If there are caches associated with GPU context, those will not be affected by this call.
      */
     static void PurgeAllCaches();

     typedef std::unique_ptr<SkImageGenerator>
                                             (*ImageGeneratorFromEncodedDataFactory)(sk_sp<SkData>);

     /**
      *  To instantiate images from encoded data, first looks at this runtime function-ptr. If it
      *  exists, it is called to create an SkImageGenerator from SkData. If there is no function-ptr
      *  or there is, but it returns NULL, then skia will call its internal default implementation.
      *
      *  Returns the previous factory (which could be NULL).
      */
     static ImageGeneratorFromEncodedDataFactory
                     SetImageGeneratorFromEncodedDataFactory(ImageGeneratorFromEncodedDataFactory);

     /**
      *  To draw OpenType SVG data, Skia will look at this runtime function pointer. If this function
      *  pointer is set, the SkTypeface implementations which support OpenType SVG will call this
      *  function to create an SkOpenTypeSVGDecoder to decode the OpenType SVG and draw it as needed.
      *  If this function is not set, the SkTypeface implementations will generally not support
      *  OpenType SVG and attempt to use other glyph representations if available.
      */
     using OpenTypeSVGDecoderFactory =
             std::unique_ptr<SkOpenTypeSVGDecoder> (*)(const uint8_t* svg, size_t length);
     static OpenTypeSVGDecoderFactory SetOpenTypeSVGDecoderFactory(OpenTypeSVGDecoderFactory);
     static OpenTypeSVGDecoderFactory GetOpenTypeSVGDecoderFactory();
 };

 #endif
	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkGraphics_DEFINED
	#define SkGraphics_DEFINED

	#include "include/core/SkRefCnt.h"
	#include "include/private/base/SkAPI.h"

	#include <cstddef>
	#include <cstdint>
	#include <memory>

	class SkData;
	class SkImageGenerator;
	class SkOpenTypeSVGDecoder;
	class SkTraceMemoryDump;

	class SK_API SkGraphics {
	public:
	/**
	* Call this at process initialization time if your environment does not
	* permit static global initializers that execute code.
	* Init() is thread-safe and idempotent.
	*/
	static void Init();

	/**
	* Return the max number of bytes that should be used by the font cache.
	* If the cache needs to allocate more, it will purge previous entries.
	* This max can be changed by calling SetFontCacheLimit().
	*/
	static size_t GetFontCacheLimit();

	/**
	* Specify the max number of bytes that should be used by the font cache.
	* If the cache needs to allocate more, it will purge previous entries.
	*
	* This function returns the previous setting, as if GetFontCacheLimit()
	* had be called before the new limit was set.
	*/
	static size_t SetFontCacheLimit(size_t bytes);

	/**
	* Return the number of bytes currently used by the font cache.
	*/
	static size_t GetFontCacheUsed();

	/**
	* Return the number of entries in the font cache.
	* A cache "entry" is associated with each typeface + pointSize + matrix.
	*/
	static int GetFontCacheCountUsed();

	/**
	* Return the current limit to the number of entries in the font cache.
	* A cache "entry" is associated with each typeface + pointSize + matrix.
	*/
	static int GetFontCacheCountLimit();

	/**
	* Set the limit to the number of entries in the font cache, and return
	* the previous value. If this new value is lower than the previous,
	* it will automatically try to purge entries to meet the new limit.
	*/
	static int SetFontCacheCountLimit(int count);

	/**
	* Return the current limit to the number of entries in the typeface cache.
	* A cache "entry" is associated with each typeface.
	*/
	static int GetTypefaceCacheCountLimit();

	/**
	* Set the limit to the number of entries in the typeface cache, and return
	* the previous value. Changes to this only take effect the next time
	* each cache object is modified.
	*/
	static int SetTypefaceCacheCountLimit(int count);

	/**
	* For debugging purposes, this will attempt to purge the font cache. It
	* does not change the limit, but will cause subsequent font measures and
	* draws to be recreated, since they will no longer be in the cache.
	*/
	static void PurgeFontCache();

	/**
	* If the strike cache is above the cache limit, attempt to purge strikes
	* with pinners. This should be called after clients release locks on
	* pinned strikes.
	*/
	static void PurgePinnedFontCache();

	/**
	* This function returns the memory used for temporary images and other resources.
	*/
	static size_t GetResourceCacheTotalBytesUsed();

	/**
	* These functions get/set the memory usage limit for the resource cache, used for temporary
	* bitmaps and other resources. Entries are purged from the cache when the memory useage
	* exceeds this limit.
	*/
	static size_t GetResourceCacheTotalByteLimit();
	static size_t SetResourceCacheTotalByteLimit(size_t newLimit);

	/**
	* For debugging purposes, this will attempt to purge the resource cache. It
	* does not change the limit.
	*/
	static void PurgeResourceCache();

	/**
	* When the cachable entry is very lage (e.g. a large scaled bitmap), adding it to the cache
	* can cause most/all of the existing entries to be purged. To avoid the, the client can set
	* a limit for a single allocation. If a cacheable entry would have been cached, but its size
	* exceeds this limit, then we do not attempt to cache it at all.
	*
	* Zero is the default value, meaning we always attempt to cache entries.
	*/
	static size_t GetResourceCacheSingleAllocationByteLimit();
	static size_t SetResourceCacheSingleAllocationByteLimit(size_t newLimit);

	/**
	* Dumps memory usage of caches using the SkTraceMemoryDump interface. See SkTraceMemoryDump
	* for usage of this method.
	*/
	static void DumpMemoryStatistics(SkTraceMemoryDump* dump);

	/**
	* Free as much globally cached memory as possible. This will purge all private caches in Skia,
	* including font and image caches.
	*
	* If there are caches associated with GPU context, those will not be affected by this call.
	*/
	static void PurgeAllCaches();

	typedef std::unique_ptr<SkImageGenerator>
	(*ImageGeneratorFromEncodedDataFactory)(sk_sp<SkData>);

	/**
	* To instantiate images from encoded data, first looks at this runtime function-ptr. If it
	* exists, it is called to create an SkImageGenerator from SkData. If there is no function-ptr
	* or there is, but it returns NULL, then skia will call its internal default implementation.
	*
	* Returns the previous factory (which could be NULL).
	*/
	static ImageGeneratorFromEncodedDataFactory
	SetImageGeneratorFromEncodedDataFactory(ImageGeneratorFromEncodedDataFactory);

	/**
	* To draw OpenType SVG data, Skia will look at this runtime function pointer. If this function
	* pointer is set, the SkTypeface implementations which support OpenType SVG will call this
	* function to create an SkOpenTypeSVGDecoder to decode the OpenType SVG and draw it as needed.
	* If this function is not set, the SkTypeface implementations will generally not support
	* OpenType SVG and attempt to use other glyph representations if available.
	*/
	using OpenTypeSVGDecoderFactory =
	std::unique_ptr<SkOpenTypeSVGDecoder> ()(const uint8_t svg, size_t length);
	static OpenTypeSVGDecoderFactory SetOpenTypeSVGDecoderFactory(OpenTypeSVGDecoderFactory);
	static OpenTypeSVGDecoderFactory GetOpenTypeSVGDecoderFactory();
	};

	#endif