mirror of https://github.com/axmolengine/axmol.git
222 lines
5.9 KiB
C++
222 lines
5.9 KiB
C++
/*
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* Copyright (C) 2006 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef SkTemplates_DEFINED
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#define SkTemplates_DEFINED
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#include "SkTypes.h"
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/** \file SkTemplates.h
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This file contains light-weight template classes for type-safe and exception-safe
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resource management.
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*/
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/** \class SkAutoTCallVProc
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Call a function when this goes out of scope. The template uses two
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parameters, the object, and a function that is to be called in the destructor.
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If detach() is called, the object reference is set to null. If the object
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reference is null when the destructor is called, we do not call the
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function.
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*/
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template <typename T, void (*P)(T*)> class SkAutoTCallVProc : SkNoncopyable {
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public:
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SkAutoTCallVProc(T* obj): fObj(obj) {}
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~SkAutoTCallVProc() { if (fObj) P(fObj); }
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T* detach() { T* obj = fObj; fObj = NULL; return obj; }
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private:
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T* fObj;
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};
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/** \class SkAutoTCallIProc
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Call a function when this goes out of scope. The template uses two
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parameters, the object, and a function that is to be called in the destructor.
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If detach() is called, the object reference is set to null. If the object
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reference is null when the destructor is called, we do not call the
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function.
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*/
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template <typename T, int (*P)(T*)> class SkAutoTCallIProc : SkNoncopyable {
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public:
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SkAutoTCallIProc(T* obj): fObj(obj) {}
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~SkAutoTCallIProc() { if (fObj) P(fObj); }
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T* detach() { T* obj = fObj; fObj = NULL; return obj; }
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private:
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T* fObj;
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};
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// See also SkTScopedPtr.
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template <typename T> class SkAutoTDelete : SkNoncopyable {
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public:
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SkAutoTDelete(T* obj, bool deleteWhenDone = true) : fObj(obj) {
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fDeleteWhenDone = deleteWhenDone;
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}
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~SkAutoTDelete() { if (fDeleteWhenDone) delete fObj; }
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T* get() const { return fObj; }
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void free() { delete fObj; fObj = NULL; }
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T* detach() { T* obj = fObj; fObj = NULL; return obj; }
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private:
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T* fObj;
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bool fDeleteWhenDone;
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};
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template <typename T> class SkAutoTDeleteArray : SkNoncopyable {
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public:
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SkAutoTDeleteArray(T array[]) : fArray(array) {}
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~SkAutoTDeleteArray() { delete[] fArray; }
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T* get() const { return fArray; }
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void free() { delete[] fArray; fArray = NULL; }
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T* detach() { T* array = fArray; fArray = NULL; return array; }
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private:
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T* fArray;
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};
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/** Allocate an array of T elements, and free the array in the destructor
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*/
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template <typename T> class SkAutoTArray : SkNoncopyable {
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public:
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/** Allocate count number of T elements
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*/
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SkAutoTArray(size_t count) {
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fArray = NULL;
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if (count) {
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fArray = new T[count];
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}
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SkDEBUGCODE(fCount = count;)
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}
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~SkAutoTArray() {
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delete[] fArray;
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}
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/** Return the array of T elements. Will be NULL if count == 0
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*/
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T* get() const { return fArray; }
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/** Return the nth element in the array
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*/
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T& operator[](int index) const {
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SkASSERT((unsigned)index < fCount);
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return fArray[index];
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}
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private:
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T* fArray;
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SkDEBUGCODE(size_t fCount;)
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};
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/** Wraps SkAutoTArray, with room for up to N elements preallocated
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*/
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template <size_t N, typename T> class SkAutoSTArray : SkNoncopyable {
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public:
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/** Allocate count number of T elements
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*/
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SkAutoSTArray(size_t count) {
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if (count > N) {
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fArray = new T[count];
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} else if (count) {
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fArray = new (fStorage) T[count];
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} else {
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fArray = NULL;
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}
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fCount = count;
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}
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~SkAutoSTArray() {
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if (fCount > N) {
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delete[] fArray;
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} else {
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T* start = fArray;
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T* iter = start + fCount;
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while (iter > start) {
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(--iter)->~T();
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}
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}
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}
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/** Return the number of T elements in the array
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*/
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size_t count() const { return fCount; }
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/** Return the array of T elements. Will be NULL if count == 0
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*/
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T* get() const { return fArray; }
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/** Return the nth element in the array
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*/
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T& operator[](int index) const {
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SkASSERT((unsigned)index < fCount);
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return fArray[index];
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}
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private:
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size_t fCount;
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T* fArray;
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// since we come right after fArray, fStorage should be properly aligned
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char fStorage[N * sizeof(T)];
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};
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/** Allocate a temp array on the stack/heap.
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Does NOT call any constructors/destructors on T (i.e. T must be POD)
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*/
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template <typename T> class SkAutoTMalloc : SkNoncopyable {
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public:
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SkAutoTMalloc(size_t count)
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{
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fPtr = (T*)sk_malloc_flags(count * sizeof(T), SK_MALLOC_THROW | SK_MALLOC_TEMP);
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}
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~SkAutoTMalloc()
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{
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sk_free(fPtr);
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}
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T* get() const { return fPtr; }
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private:
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T* fPtr;
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};
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template <size_t N, typename T> class SkAutoSTMalloc : SkNoncopyable {
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public:
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SkAutoSTMalloc(size_t count)
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{
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if (count <= N)
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fPtr = fTStorage;
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else
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fPtr = (T*)sk_malloc_flags(count * sizeof(T), SK_MALLOC_THROW | SK_MALLOC_TEMP);
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}
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~SkAutoSTMalloc()
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{
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if (fPtr != fTStorage)
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sk_free(fPtr);
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}
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T* get() const { return fPtr; }
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private:
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T* fPtr;
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union {
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uint32_t fStorage32[(N*sizeof(T) + 3) >> 2];
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T fTStorage[1]; // do NOT want to invoke T::T()
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};
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};
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#endif
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