1/* 2 * Copyright (C) 2005 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17#ifndef ANDROID_KEYED_VECTOR_H 18#define ANDROID_KEYED_VECTOR_H 19 20#include <assert.h> 21#include <stdint.h> 22#include <sys/types.h> 23 24#include <utils/SortedVector.h> 25#include <utils/TypeHelpers.h> 26#include <utils/Errors.h> 27 28// --------------------------------------------------------------------------- 29 30namespace android { 31 32template <typename KEY, typename VALUE> 33class KeyedVector 34{ 35public: 36 typedef KEY key_type; 37 typedef VALUE value_type; 38 39 inline KeyedVector(); 40 41 /* 42 * empty the vector 43 */ 44 45 inline void clear() { mVector.clear(); } 46 47 /*! 48 * vector stats 49 */ 50 51 //! returns number of items in the vector 52 inline size_t size() const { return mVector.size(); } 53 //! returns wether or not the vector is empty 54 inline bool isEmpty() const { return mVector.isEmpty(); } 55 //! returns how many items can be stored without reallocating the backing store 56 inline size_t capacity() const { return mVector.capacity(); } 57 //! setst the capacity. capacity can never be reduced less than size() 58 inline ssize_t setCapacity(size_t size) { return mVector.setCapacity(size); } 59 60 /*! 61 * accessors 62 */ 63 const VALUE& valueFor(const KEY& key) const; 64 const VALUE& valueAt(size_t index) const; 65 const KEY& keyAt(size_t index) const; 66 ssize_t indexOfKey(const KEY& key) const; 67 68 /*! 69 * modifing the array 70 */ 71 72 VALUE& editValueFor(const KEY& key); 73 VALUE& editValueAt(size_t index); 74 75 /*! 76 * add/insert/replace items 77 */ 78 79 ssize_t add(const KEY& key, const VALUE& item); 80 ssize_t replaceValueFor(const KEY& key, const VALUE& item); 81 ssize_t replaceValueAt(size_t index, const VALUE& item); 82 83 /*! 84 * remove items 85 */ 86 87 ssize_t removeItem(const KEY& key); 88 ssize_t removeItemsAt(size_t index, size_t count = 1); 89 90private: 91 SortedVector< key_value_pair_t<KEY, VALUE> > mVector; 92}; 93 94// --------------------------------------------------------------------------- 95 96/** 97 * Variation of KeyedVector that holds a default value to return when 98 * valueFor() is called with a key that doesn't exist. 99 */ 100template <typename KEY, typename VALUE> 101class DefaultKeyedVector : public KeyedVector<KEY, VALUE> 102{ 103public: 104 inline DefaultKeyedVector(const VALUE& defValue = VALUE()); 105 const VALUE& valueFor(const KEY& key) const; 106 107private: 108 VALUE mDefault; 109}; 110 111// --------------------------------------------------------------------------- 112 113template<typename KEY, typename VALUE> inline 114KeyedVector<KEY,VALUE>::KeyedVector() 115{ 116} 117 118template<typename KEY, typename VALUE> inline 119ssize_t KeyedVector<KEY,VALUE>::indexOfKey(const KEY& key) const { 120 return mVector.indexOf( key_value_pair_t<KEY,VALUE>(key) ); 121} 122 123template<typename KEY, typename VALUE> inline 124const VALUE& KeyedVector<KEY,VALUE>::valueFor(const KEY& key) const { 125 ssize_t i = indexOfKey(key); 126 assert(i>=0); 127 return mVector.itemAt(i).value; 128} 129 130template<typename KEY, typename VALUE> inline 131const VALUE& KeyedVector<KEY,VALUE>::valueAt(size_t index) const { 132 return mVector.itemAt(index).value; 133} 134 135template<typename KEY, typename VALUE> inline 136const KEY& KeyedVector<KEY,VALUE>::keyAt(size_t index) const { 137 return mVector.itemAt(index).key; 138} 139 140template<typename KEY, typename VALUE> inline 141VALUE& KeyedVector<KEY,VALUE>::editValueFor(const KEY& key) { 142 ssize_t i = indexOfKey(key); 143 assert(i>=0); 144 return mVector.editItemAt(i).value; 145} 146 147template<typename KEY, typename VALUE> inline 148VALUE& KeyedVector<KEY,VALUE>::editValueAt(size_t index) { 149 return mVector.editItemAt(index).value; 150} 151 152template<typename KEY, typename VALUE> inline 153ssize_t KeyedVector<KEY,VALUE>::add(const KEY& key, const VALUE& value) { 154 return mVector.add( key_value_pair_t<KEY,VALUE>(key, value) ); 155} 156 157template<typename KEY, typename VALUE> inline 158ssize_t KeyedVector<KEY,VALUE>::replaceValueFor(const KEY& key, const VALUE& value) { 159 key_value_pair_t<KEY,VALUE> pair(key, value); 160 mVector.remove(pair); 161 return mVector.add(pair); 162} 163 164template<typename KEY, typename VALUE> inline 165ssize_t KeyedVector<KEY,VALUE>::replaceValueAt(size_t index, const VALUE& item) { 166 if (index<size()) { 167 mVector.editItemAt(index).value = item; 168 return index; 169 } 170 return BAD_INDEX; 171} 172 173template<typename KEY, typename VALUE> inline 174ssize_t KeyedVector<KEY,VALUE>::removeItem(const KEY& key) { 175 return mVector.remove(key_value_pair_t<KEY,VALUE>(key)); 176} 177 178template<typename KEY, typename VALUE> inline 179ssize_t KeyedVector<KEY, VALUE>::removeItemsAt(size_t index, size_t count) { 180 return mVector.removeItemsAt(index, count); 181} 182 183// --------------------------------------------------------------------------- 184 185template<typename KEY, typename VALUE> inline 186DefaultKeyedVector<KEY,VALUE>::DefaultKeyedVector(const VALUE& defValue) 187 : mDefault(defValue) 188{ 189} 190 191template<typename KEY, typename VALUE> inline 192const VALUE& DefaultKeyedVector<KEY,VALUE>::valueFor(const KEY& key) const { 193 ssize_t i = indexOfKey(key); 194 return i >= 0 ? KeyedVector<KEY,VALUE>::valueAt(i) : mDefault; 195} 196 197}; // namespace android 198 199// --------------------------------------------------------------------------- 200 201#endif // ANDROID_KEYED_VECTOR_H 202