src/utils/SkMetaData.h - platform/external/skia - Gitiles


 /*
  * 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 SkMetaData_DEFINED
 #define SkMetaData_DEFINED

 #include "SkScalar.h"

 class SkRefCnt;

 class SK_API SkMetaData {
 public:
     /**
      *  Used to manage the life-cycle of a ptr in the metadata. This is option
      *  in setPtr, and is only invoked when either copying one metadata to
      *  another, or when the metadata is destroyed.
      *
      *  setPtr(name, ptr, proc) {
      *      fPtr = proc(ptr, true);
      *  }
      *
      *  copy: A = B {
      *      A.fPtr = B.fProc(B.fPtr, true);
      *  }
      *
      *  ~SkMetaData {
      *      fProc(fPtr, false);
      *  }
      */
     typedef void* (*PtrProc)(void* ptr, bool doRef);

     /**
      *  Implements PtrProc for SkRefCnt pointers
      */
     static void* RefCntProc(void* ptr, bool doRef);

     SkMetaData();
     SkMetaData(const SkMetaData& src);
     ~SkMetaData();

     SkMetaData& operator=(const SkMetaData& src);

     void reset();

     bool findS32(const char name[], int32_t* value = nullptr) const;
     bool findScalar(const char name[], SkScalar* value = nullptr) const;
     const SkScalar* findScalars(const char name[], int* count,
                                 SkScalar values[] = nullptr) const;
     const char* findString(const char name[]) const;
     bool findPtr(const char name[], void** value = nullptr, PtrProc* = nullptr) const;
     bool findBool(const char name[], bool* value = nullptr) const;
     const void* findData(const char name[], size_t* byteCount = nullptr) const;

     bool hasS32(const char name[], int32_t value) const {
         int32_t v;
         return this->findS32(name, &v) && v == value;
     }
     bool hasScalar(const char name[], SkScalar value) const {
         SkScalar v;
         return this->findScalar(name, &v) && v == value;
     }
     bool hasString(const char name[], const char value[]) const {
         const char* v = this->findString(name);
         return  (v == nullptr && value == nullptr) ||
                 (v != nullptr && value != nullptr && !strcmp(v, value));
     }
     bool hasPtr(const char name[], void* value) const {
         void* v;
         return this->findPtr(name, &v) && v == value;
     }
     bool hasBool(const char name[], bool value) const {
         bool    v;
         return this->findBool(name, &v) && v == value;
     }
     bool hasData(const char name[], const void* data, size_t byteCount) const {
         size_t len;
         const void* ptr = this->findData(name, &len);
         return ptr && len == byteCount && !memcmp(ptr, data, len);
     }

     void setS32(const char name[], int32_t value);
     void setScalar(const char name[], SkScalar value);
     SkScalar* setScalars(const char name[], int count, const SkScalar values[] = nullptr);
     void setString(const char name[], const char value[]);
     void setPtr(const char name[], void* value, PtrProc proc = nullptr);
     void setBool(const char name[], bool value);
     // the data is copied from the input pointer.
     void setData(const char name[], const void* data, size_t byteCount);

     bool removeS32(const char name[]);
     bool removeScalar(const char name[]);
     bool removeString(const char name[]);
     bool removePtr(const char name[]);
     bool removeBool(const char name[]);
     bool removeData(const char name[]);

     // helpers for SkRefCnt
     bool findRefCnt(const char name[], SkRefCnt** ptr = nullptr) {
         return this->findPtr(name, reinterpret_cast<void**>(ptr));
     }
     bool hasRefCnt(const char name[], SkRefCnt* ptr) {
         return this->hasPtr(name, ptr);
     }
     void setRefCnt(const char name[], SkRefCnt* ptr) {
         this->setPtr(name, ptr, RefCntProc);
     }
     bool removeRefCnt(const char name[]) {
         return this->removePtr(name);
     }

     enum Type {
         kS32_Type,
         kScalar_Type,
         kString_Type,
         kPtr_Type,
         kBool_Type,
         kData_Type,

         kTypeCount
     };

     struct Rec;
     class Iter;
     friend class Iter;

     class Iter {
     public:
         Iter() : fRec(nullptr) {}
         Iter(const SkMetaData&);

         /** Reset the iterator, so that calling next() will return the first
             data element. This is done implicitly in the constructor.
         */
         void reset(const SkMetaData&);

         /** Each time next is called, it returns the name of the next data element,
             or null when there are no more elements. If non-null is returned, then the
             element's type is returned (if not null), and the number of data values
             is returned in count (if not null).
         */
         const char* next(Type*, int* count);

     private:
         Rec* fRec;
     };

 public:
     struct Rec {
         Rec*        fNext;
         uint16_t    fDataCount; // number of elements
         uint8_t     fDataLen;   // sizeof a single element
         uint8_t     fType;

         const void* data() const { return (this + 1); }
         void*       data() { return (this + 1); }
         const char* name() const { return (const char*)this->data() + fDataLen * fDataCount; }
         char*       name() { return (char*)this->data() + fDataLen * fDataCount; }

         static Rec* Alloc(size_t);
         static void Free(Rec*);
     };
     Rec*    fRec;

     const Rec* find(const char name[], Type) const;
     void* set(const char name[], const void* data, size_t len, Type, int count);
     bool remove(const char name[], Type);
 };

 #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 SkMetaData_DEFINED
	#define SkMetaData_DEFINED

	#include "SkScalar.h"

	class SkRefCnt;

	class SK_API SkMetaData {
	public:
	/**
	* Used to manage the life-cycle of a ptr in the metadata. This is option
	* in setPtr, and is only invoked when either copying one metadata to
	* another, or when the metadata is destroyed.
	*
	* setPtr(name, ptr, proc) {
	* fPtr = proc(ptr, true);
	* }
	*
	* copy: A = B {
	* A.fPtr = B.fProc(B.fPtr, true);
	* }
	*
	* ~SkMetaData {
	* fProc(fPtr, false);
	* }
	*/
	typedef void* (PtrProc)(void ptr, bool doRef);

	/**
	* Implements PtrProc for SkRefCnt pointers
	*/
	static void* RefCntProc(void* ptr, bool doRef);

	SkMetaData();
	SkMetaData(const SkMetaData& src);
	~SkMetaData();

	SkMetaData& operator=(const SkMetaData& src);

	void reset();

	bool findS32(const char name[], int32_t* value = nullptr) const;
	bool findScalar(const char name[], SkScalar* value = nullptr) const;
	const SkScalar* findScalars(const char name[], int* count,
	SkScalar values[] = nullptr) const;
	const char* findString(const char name[]) const;
	bool findPtr(const char name[], void** value = nullptr, PtrProc* = nullptr) const;
	bool findBool(const char name[], bool* value = nullptr) const;
	const void* findData(const char name[], size_t* byteCount = nullptr) const;

	bool hasS32(const char name[], int32_t value) const {
	int32_t v;
	return this->findS32(name, &v) && v == value;
	}
	bool hasScalar(const char name[], SkScalar value) const {
	SkScalar v;
	return this->findScalar(name, &v) && v == value;
	}
	bool hasString(const char name[], const char value[]) const {
	const char* v = this->findString(name);
	return (v == nullptr && value == nullptr) \|\|
	(v != nullptr && value != nullptr && !strcmp(v, value));
	}
	bool hasPtr(const char name[], void* value) const {
	void* v;
	return this->findPtr(name, &v) && v == value;
	}
	bool hasBool(const char name[], bool value) const {
	bool v;
	return this->findBool(name, &v) && v == value;
	}
	bool hasData(const char name[], const void* data, size_t byteCount) const {
	size_t len;
	const void* ptr = this->findData(name, &len);
	return ptr && len == byteCount && !memcmp(ptr, data, len);
	}

	void setS32(const char name[], int32_t value);
	void setScalar(const char name[], SkScalar value);
	SkScalar* setScalars(const char name[], int count, const SkScalar values[] = nullptr);
	void setString(const char name[], const char value[]);
	void setPtr(const char name[], void* value, PtrProc proc = nullptr);
	void setBool(const char name[], bool value);
	// the data is copied from the input pointer.
	void setData(const char name[], const void* data, size_t byteCount);

	bool removeS32(const char name[]);
	bool removeScalar(const char name[]);
	bool removeString(const char name[]);
	bool removePtr(const char name[]);
	bool removeBool(const char name[]);
	bool removeData(const char name[]);

	// helpers for SkRefCnt
	bool findRefCnt(const char name[], SkRefCnt** ptr = nullptr) {
	return this->findPtr(name, reinterpret_cast<void**>(ptr));
	}
	bool hasRefCnt(const char name[], SkRefCnt* ptr) {
	return this->hasPtr(name, ptr);
	}
	void setRefCnt(const char name[], SkRefCnt* ptr) {
	this->setPtr(name, ptr, RefCntProc);
	}
	bool removeRefCnt(const char name[]) {
	return this->removePtr(name);
	}

	enum Type {
	kS32_Type,
	kScalar_Type,
	kString_Type,
	kPtr_Type,
	kBool_Type,
	kData_Type,

	kTypeCount
	};

	struct Rec;
	class Iter;
	friend class Iter;

	class Iter {
	public:
	Iter() : fRec(nullptr) {}
	Iter(const SkMetaData&);

	/** Reset the iterator, so that calling next() will return the first
	data element. This is done implicitly in the constructor.
	*/
	void reset(const SkMetaData&);

	/** Each time next is called, it returns the name of the next data element,
	or null when there are no more elements. If non-null is returned, then the
	element's type is returned (if not null), and the number of data values
	is returned in count (if not null).
	*/
	const char* next(Type, int count);

	private:
	Rec* fRec;
	};

	public:
	struct Rec {
	Rec* fNext;
	uint16_t fDataCount; // number of elements
	uint8_t fDataLen; // sizeof a single element
	uint8_t fType;

	const void* data() const { return (this + 1); }
	void* data() { return (this + 1); }
	const char* name() const { return (const char)this->data() + fDataLen fDataCount; }
	char* name() { return (char)this->data() + fDataLen fDataCount; }

	static Rec* Alloc(size_t);
	static void Free(Rec*);
	};
	Rec* fRec;

	const Rec* find(const char name[], Type) const;
	void* set(const char name[], const void* data, size_t len, Type, int count);
	bool remove(const char name[], Type);
	};

	#endif