src/animator/SkTDArray_Experimental.h - platform/external/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 SkTDArray_Experimental_DEFINED
 #define SkTDArray_Experimental_DEFINED

 #include "SkTypes.h"

 #ifdef SK_BUILD_FOR_UNIX
 #define SK_BUILD_FOR_ADS_12
 #endif

 #ifndef SK_BUILD_FOR_ADS_12
 #define SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT 1
 #else
 #define SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT 0
 #endif

 #if SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT == 0
 #include "SkTDArray.h"
 #define SkIntArray(type) SkTDArray<type>
 #define SkLongArray(type) SkTDArray<type>
 #else

 class SkDS32Array {
 protected:
     SkDS32Array();
     SkDS32Array(const SkDS32Array& src);
     SkDS32Array(const int32_t src[], U16CPU count);
     SkDS32Array& operator=(const SkDS32Array& src);
     friend int operator==(const SkDS32Array& a, const SkDS32Array& b);
     int32_t* append() { return this->append(1, NULL); }
     int32_t* append(U16CPU count, const int32_t* src = NULL);

     int32_t* appendClear()
     {
         int32_t* result = this->append();
         *result = 0;
         return result;
     }

     int find(const int32_t& elem) const;
     int32_t* insert(U16CPU index, U16CPU count, const int32_t* src);
     int rfind(const int32_t& elem) const;
     void swap(SkDS32Array& other);
 public:
     bool isEmpty() const { return fCount == 0; }
     int count() const { return fCount; }

     void remove(U16CPU index, U16CPU count = 1)
     {
         SkASSERT(index + count <= fCount);
         fCount = SkToU16(fCount - count);
         memmove(fArray + index, fArray + index + count, sizeof(int32_t) * (fCount - index));
     }

     void reset()
     {
         if (fArray)
         {
             sk_free(fArray);
             fArray = NULL;
 #ifdef SK_DEBUG
             fData = NULL;
 #endif
             fReserve = fCount = 0;
         }
         else
         {
             SkASSERT(fReserve == 0 && fCount == 0);
         }
     }

     void setCount(U16CPU count)
     {
         if (count > fReserve)
             this->growBy(count - fCount);
         else
             fCount = SkToU16(count);
     }
 protected:
 #ifdef SK_DEBUG
     enum {
         kDebugArraySize = 24
     };
     int32_t(* fData)[kDebugArraySize];
 #endif
     int32_t*    fArray;
     uint16_t    fReserve, fCount;
     void growBy(U16CPU extra);
 };

 #ifdef SK_DEBUG
     #define SYNC() fTData = (T (*)[kDebugArraySize]) fArray
 #else
     #define SYNC()
 #endif

 template <typename T> class SkTDS32Array : public SkDS32Array {
 public:
     SkTDS32Array() { SkDEBUGCODE(fTData=NULL); SkASSERT(sizeof(T) == sizeof(int32_t)); }
     SkTDS32Array(const SkTDS32Array<T>& src) : SkDS32Array(src) {}
     ~SkTDS32Array() { sk_free(fArray); }
     T&  operator[](int index) const { SYNC(); SkASSERT((unsigned)index < fCount); return ((T*) fArray)[index]; }
     SkTDS32Array<T>& operator=(const SkTDS32Array<T>& src) {
         return (SkTDS32Array<T>&) SkDS32Array::operator=(src); }
     friend int operator==(const SkTDS32Array<T>& a, const SkTDS32Array<T>& b) {
         return operator==((const SkDS32Array&) a, (const SkDS32Array&) b); }
     T* append() { return (T*) SkDS32Array::append(); }
     T* appendClear() { return (T*) SkDS32Array::appendClear(); }
     T* append(U16CPU count, const T* src = NULL) { return (T*) SkDS32Array::append(count, (const int32_t*) src); }
     T*  begin() const { SYNC(); return (T*) fArray; }
     T*  end() const { return (T*) (fArray ? fArray + fCount : NULL); }
     int find(const T& elem) const { return SkDS32Array::find((const int32_t&) elem); }
     T* insert(U16CPU index) { return this->insert(index, 1, NULL); }
     T* insert(U16CPU index, U16CPU count, const T* src = NULL) {
         return (T*) SkDS32Array::insert(index, count, (const int32_t*) src); }
     int rfind(const T& elem) const { return SkDS32Array::rfind((const int32_t&) elem); }
     T*          push() { return this->append(); }
     void        push(T& elem) { *this->append() = elem; }
     const T&    top() const { return (*this)[fCount - 1]; }
     T&          top() { return (*this)[fCount - 1]; }
     void        pop(T* elem) { if (elem) *elem = (*this)[fCount - 1]; --fCount; }
     void        pop() { --fCount; }
 private:
 #ifdef SK_DEBUG
     mutable T(* fTData)[kDebugArraySize];
 #endif
 };

 #define SkIntArray(type) SkTDS32Array<type> // holds 32 bit data types
 #define SkLongArray(type) SkTDS32Array<type>    // holds 32/64 bit data types depending on pointer size

 #endif // SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT

 #endif // SkTDArray_Experimental_DEFINED

	/*
	* 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 SkTDArray_Experimental_DEFINED
	#define SkTDArray_Experimental_DEFINED

	#include "SkTypes.h"

	#ifdef SK_BUILD_FOR_UNIX
	#define SK_BUILD_FOR_ADS_12
	#endif

	#ifndef SK_BUILD_FOR_ADS_12
	#define SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT 1
	#else
	#define SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT 0
	#endif

	#if SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT == 0
	#include "SkTDArray.h"
	#define SkIntArray(type) SkTDArray<type>
	#define SkLongArray(type) SkTDArray<type>
	#else

	class SkDS32Array {
	protected:
	SkDS32Array();
	SkDS32Array(const SkDS32Array& src);
	SkDS32Array(const int32_t src[], U16CPU count);
	SkDS32Array& operator=(const SkDS32Array& src);
	friend int operator==(const SkDS32Array& a, const SkDS32Array& b);
	int32_t* append() { return this->append(1, NULL); }
	int32_t* append(U16CPU count, const int32_t* src = NULL);

	int32_t* appendClear()
	{
	int32_t* result = this->append();
	*result = 0;
	return result;
	}

	int find(const int32_t& elem) const;
	int32_t* insert(U16CPU index, U16CPU count, const int32_t* src);
	int rfind(const int32_t& elem) const;
	void swap(SkDS32Array& other);
	public:
	bool isEmpty() const { return fCount == 0; }
	int count() const { return fCount; }

	void remove(U16CPU index, U16CPU count = 1)
	{
	SkASSERT(index + count <= fCount);
	fCount = SkToU16(fCount - count);
	memmove(fArray + index, fArray + index + count, sizeof(int32_t) * (fCount - index));
	}

	void reset()
	{
	if (fArray)
	{
	sk_free(fArray);
	fArray = NULL;
	#ifdef SK_DEBUG
	fData = NULL;
	#endif
	fReserve = fCount = 0;
	}
	else
	{
	SkASSERT(fReserve == 0 && fCount == 0);
	}
	}

	void setCount(U16CPU count)
	{
	if (count > fReserve)
	this->growBy(count - fCount);
	else
	fCount = SkToU16(count);
	}
	protected:
	#ifdef SK_DEBUG
	enum {
	kDebugArraySize = 24
	};
	int32_t(* fData)[kDebugArraySize];
	#endif
	int32_t* fArray;
	uint16_t fReserve, fCount;
	void growBy(U16CPU extra);
	};

	#ifdef SK_DEBUG
	#define SYNC() fTData = (T (*)[kDebugArraySize]) fArray
	#else
	#define SYNC()
	#endif

	template <typename T> class SkTDS32Array : public SkDS32Array {
	public:
	SkTDS32Array() { SkDEBUGCODE(fTData=NULL); SkASSERT(sizeof(T) == sizeof(int32_t)); }
	SkTDS32Array(const SkTDS32Array<T>& src) : SkDS32Array(src) {}
	~SkTDS32Array() { sk_free(fArray); }
	T& operator[](int index) const { SYNC(); SkASSERT((unsigned)index < fCount); return ((T*) fArray)[index]; }
	SkTDS32Array<T>& operator=(const SkTDS32Array<T>& src) {
	return (SkTDS32Array<T>&) SkDS32Array::operator=(src); }
	friend int operator==(const SkTDS32Array<T>& a, const SkTDS32Array<T>& b) {
	return operator==((const SkDS32Array&) a, (const SkDS32Array&) b); }
	T* append() { return (T*) SkDS32Array::append(); }
	T* appendClear() { return (T*) SkDS32Array::appendClear(); }
	T* append(U16CPU count, const T* src = NULL) { return (T) SkDS32Array::append(count, (const int32_t) src); }
	T* begin() const { SYNC(); return (T*) fArray; }
	T* end() const { return (T*) (fArray ? fArray + fCount : NULL); }
	int find(const T& elem) const { return SkDS32Array::find((const int32_t&) elem); }
	T* insert(U16CPU index) { return this->insert(index, 1, NULL); }
	T* insert(U16CPU index, U16CPU count, const T* src = NULL) {
	return (T) SkDS32Array::insert(index, count, (const int32_t) src); }
	int rfind(const T& elem) const { return SkDS32Array::rfind((const int32_t&) elem); }
	T* push() { return this->append(); }
	void push(T& elem) { *this->append() = elem; }
	const T& top() const { return (*this)[fCount - 1]; }
	T& top() { return (*this)[fCount - 1]; }
	void pop(T* elem) { if (elem) elem = (this)[fCount - 1]; --fCount; }
	void pop() { --fCount; }
	private:
	#ifdef SK_DEBUG
	mutable T(* fTData)[kDebugArraySize];
	#endif
	};

	#define SkIntArray(type) SkTDS32Array<type> // holds 32 bit data types
	#define SkLongArray(type) SkTDS32Array<type> // holds 32/64 bit data types depending on pointer size

	#endif // SK_SMALLER_ARRAY_TEMPLATE_EXPERIMENT

	#endif // SkTDArray_Experimental_DEFINED