1 // Copyright (c) 2011 The Chromium Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE file. 4 5 // This file specifies a recursive data storage class called Value intended for 6 // storing setting and other persistable data. It includes the ability to 7 // specify (recursive) lists and dictionaries, so it's fairly expressive. 8 // However, the API is optimized for the common case, namely storing a 9 // hierarchical tree of simple values. Given a DictionaryValue root, you can 10 // easily do things like: 11 // 12 // root->SetString("global.pages.homepage", "http://goateleporter.com"); 13 // std::string homepage = "http://google.com"; // default/fallback value 14 // root->GetString("global.pages.homepage", &homepage); 15 // 16 // where "global" and "pages" are also DictionaryValues, and "homepage" is a 17 // string setting. If some elements of the path didn't exist yet, the 18 // SetString() method would create the missing elements and attach them to root 19 // before attaching the homepage value. 20 21 #ifndef BASE_VALUES_H_ 22 #define BASE_VALUES_H_ 23 #pragma once 24 25 #include <iterator> 26 #include <map> 27 #include <string> 28 #include <vector> 29 30 #include "base/base_api.h" 31 #include "base/basictypes.h" 32 #include "base/string16.h" 33 #include "build/build_config.h" 34 35 class BinaryValue; 36 class DictionaryValue; 37 class FundamentalValue; 38 class ListValue; 39 class StringValue; 40 class Value; 41 42 typedef std::vector<Value*> ValueVector; 43 typedef std::map<std::string, Value*> ValueMap; 44 45 // The Value class is the base class for Values. A Value can be 46 // instantiated via the Create*Value() factory methods, or by directly 47 // creating instances of the subclasses. 48 class BASE_API Value { 49 public: 50 enum ValueType { 51 TYPE_NULL = 0, 52 TYPE_BOOLEAN, 53 TYPE_INTEGER, 54 TYPE_DOUBLE, 55 TYPE_STRING, 56 TYPE_BINARY, 57 TYPE_DICTIONARY, 58 TYPE_LIST 59 }; 60 61 virtual ~Value(); 62 63 // Convenience methods for creating Value objects for various 64 // kinds of values without thinking about which class implements them. 65 // These can always be expected to return a valid Value*. 66 static Value* CreateNullValue(); 67 static FundamentalValue* CreateBooleanValue(bool in_value); 68 static FundamentalValue* CreateIntegerValue(int in_value); 69 static FundamentalValue* CreateDoubleValue(double in_value); 70 static StringValue* CreateStringValue(const std::string& in_value); 71 static StringValue* CreateStringValue(const string16& in_value); 72 73 // This one can return NULL if the input isn't valid. If the return value 74 // is non-null, the new object has taken ownership of the buffer pointer. 75 static BinaryValue* CreateBinaryValue(char* buffer, size_t size); 76 77 // Returns the type of the value stored by the current Value object. 78 // Each type will be implemented by only one subclass of Value, so it's 79 // safe to use the ValueType to determine whether you can cast from 80 // Value* to (Implementing Class)*. Also, a Value object never changes 81 // its type after construction. GetType()82 ValueType GetType() const { return type_; } 83 84 // Returns true if the current object represents a given type. IsType(ValueType type)85 bool IsType(ValueType type) const { return type == type_; } 86 87 // These methods allow the convenient retrieval of settings. 88 // If the current setting object can be converted into the given type, 89 // the value is returned through the |out_value| parameter and true is 90 // returned; otherwise, false is returned and |out_value| is unchanged. 91 virtual bool GetAsBoolean(bool* out_value) const; 92 virtual bool GetAsInteger(int* out_value) const; 93 virtual bool GetAsDouble(double* out_value) const; 94 virtual bool GetAsString(std::string* out_value) const; 95 virtual bool GetAsString(string16* out_value) const; 96 virtual bool GetAsList(ListValue** out_value); 97 98 // This creates a deep copy of the entire Value tree, and returns a pointer 99 // to the copy. The caller gets ownership of the copy, of course. 100 // 101 // Subclasses return their own type directly in their overrides; 102 // this works because C++ supports covariant return types. 103 virtual Value* DeepCopy() const; 104 105 // Compares if two Value objects have equal contents. 106 virtual bool Equals(const Value* other) const; 107 108 // Compares if two Value objects have equal contents. Can handle NULLs. 109 // NULLs are considered equal but different from Value::CreateNullValue(). 110 static bool Equals(const Value* a, const Value* b); 111 112 protected: 113 // This isn't safe for end-users (they should use the Create*Value() 114 // static methods above), but it's useful for subclasses. 115 explicit Value(ValueType type); 116 117 private: 118 Value(); 119 120 ValueType type_; 121 122 DISALLOW_COPY_AND_ASSIGN(Value); 123 }; 124 125 // FundamentalValue represents the simple fundamental types of values. 126 class BASE_API FundamentalValue : public Value { 127 public: 128 explicit FundamentalValue(bool in_value); 129 explicit FundamentalValue(int in_value); 130 explicit FundamentalValue(double in_value); 131 virtual ~FundamentalValue(); 132 133 // Subclassed methods 134 virtual bool GetAsBoolean(bool* out_value) const; 135 virtual bool GetAsInteger(int* out_value) const; 136 virtual bool GetAsDouble(double* out_value) const; 137 virtual FundamentalValue* DeepCopy() const; 138 virtual bool Equals(const Value* other) const; 139 140 private: 141 union { 142 bool boolean_value_; 143 int integer_value_; 144 double double_value_; 145 }; 146 147 DISALLOW_COPY_AND_ASSIGN(FundamentalValue); 148 }; 149 150 class BASE_API StringValue : public Value { 151 public: 152 // Initializes a StringValue with a UTF-8 narrow character string. 153 explicit StringValue(const std::string& in_value); 154 155 // Initializes a StringValue with a string16. 156 explicit StringValue(const string16& in_value); 157 158 virtual ~StringValue(); 159 160 // Subclassed methods 161 virtual bool GetAsString(std::string* out_value) const; 162 virtual bool GetAsString(string16* out_value) const; 163 virtual StringValue* DeepCopy() const; 164 virtual bool Equals(const Value* other) const; 165 166 private: 167 std::string value_; 168 169 DISALLOW_COPY_AND_ASSIGN(StringValue); 170 }; 171 172 class BASE_API BinaryValue: public Value { 173 public: 174 virtual ~BinaryValue(); 175 176 // Creates a Value to represent a binary buffer. The new object takes 177 // ownership of the pointer passed in, if successful. 178 // Returns NULL if buffer is NULL. 179 static BinaryValue* Create(char* buffer, size_t size); 180 181 // For situations where you want to keep ownership of your buffer, this 182 // factory method creates a new BinaryValue by copying the contents of the 183 // buffer that's passed in. 184 // Returns NULL if buffer is NULL. 185 static BinaryValue* CreateWithCopiedBuffer(const char* buffer, size_t size); 186 GetSize()187 size_t GetSize() const { return size_; } GetBuffer()188 char* GetBuffer() { return buffer_; } GetBuffer()189 const char* GetBuffer() const { return buffer_; } 190 191 // Overridden from Value: 192 virtual BinaryValue* DeepCopy() const; 193 virtual bool Equals(const Value* other) const; 194 195 private: 196 // Constructor is private so that only objects with valid buffer pointers 197 // and size values can be created. 198 BinaryValue(char* buffer, size_t size); 199 200 char* buffer_; 201 size_t size_; 202 203 DISALLOW_COPY_AND_ASSIGN(BinaryValue); 204 }; 205 206 // DictionaryValue provides a key-value dictionary with (optional) "path" 207 // parsing for recursive access; see the comment at the top of the file. Keys 208 // are |std::string|s and should be UTF-8 encoded. 209 class BASE_API DictionaryValue : public Value { 210 public: 211 DictionaryValue(); 212 virtual ~DictionaryValue(); 213 214 // Returns true if the current dictionary has a value for the given key. 215 bool HasKey(const std::string& key) const; 216 217 // Returns the number of Values in this dictionary. size()218 size_t size() const { return dictionary_.size(); } 219 220 // Returns whether the dictionary is empty. empty()221 bool empty() const { return dictionary_.empty(); } 222 223 // Clears any current contents of this dictionary. 224 void Clear(); 225 226 // Sets the Value associated with the given path starting from this object. 227 // A path has the form "<key>" or "<key>.<key>.[...]", where "." indexes 228 // into the next DictionaryValue down. Obviously, "." can't be used 229 // within a key, but there are no other restrictions on keys. 230 // If the key at any step of the way doesn't exist, or exists but isn't 231 // a DictionaryValue, a new DictionaryValue will be created and attached 232 // to the path in that location. 233 // Note that the dictionary takes ownership of the value referenced by 234 // |in_value|, and therefore |in_value| must be non-NULL. 235 void Set(const std::string& path, Value* in_value); 236 237 // Convenience forms of Set(). These methods will replace any existing 238 // value at that path, even if it has a different type. 239 void SetBoolean(const std::string& path, bool in_value); 240 void SetInteger(const std::string& path, int in_value); 241 void SetDouble(const std::string& path, double in_value); 242 void SetString(const std::string& path, const std::string& in_value); 243 void SetString(const std::string& path, const string16& in_value); 244 245 // Like Set(), but without special treatment of '.'. This allows e.g. URLs to 246 // be used as paths. 247 void SetWithoutPathExpansion(const std::string& key, Value* in_value); 248 249 // Gets the Value associated with the given path starting from this object. 250 // A path has the form "<key>" or "<key>.<key>.[...]", where "." indexes 251 // into the next DictionaryValue down. If the path can be resolved 252 // successfully, the value for the last key in the path will be returned 253 // through the |out_value| parameter, and the function will return true. 254 // Otherwise, it will return false and |out_value| will be untouched. 255 // Note that the dictionary always owns the value that's returned. 256 bool Get(const std::string& path, Value** out_value) const; 257 258 // These are convenience forms of Get(). The value will be retrieved 259 // and the return value will be true if the path is valid and the value at 260 // the end of the path can be returned in the form specified. 261 bool GetBoolean(const std::string& path, bool* out_value) const; 262 bool GetInteger(const std::string& path, int* out_value) const; 263 bool GetDouble(const std::string& path, double* out_value) const; 264 bool GetString(const std::string& path, std::string* out_value) const; 265 bool GetString(const std::string& path, string16* out_value) const; 266 bool GetStringASCII(const std::string& path, std::string* out_value) const; 267 bool GetBinary(const std::string& path, BinaryValue** out_value) const; 268 bool GetDictionary(const std::string& path, 269 DictionaryValue** out_value) const; 270 bool GetList(const std::string& path, ListValue** out_value) const; 271 272 // Like Get(), but without special treatment of '.'. This allows e.g. URLs to 273 // be used as paths. 274 bool GetWithoutPathExpansion(const std::string& key, 275 Value** out_value) const; 276 bool GetIntegerWithoutPathExpansion(const std::string& key, 277 int* out_value) const; 278 bool GetDoubleWithoutPathExpansion(const std::string& key, 279 double* out_value) const; 280 bool GetStringWithoutPathExpansion(const std::string& key, 281 std::string* out_value) const; 282 bool GetStringWithoutPathExpansion(const std::string& key, 283 string16* out_value) const; 284 bool GetDictionaryWithoutPathExpansion(const std::string& key, 285 DictionaryValue** out_value) const; 286 bool GetListWithoutPathExpansion(const std::string& key, 287 ListValue** out_value) const; 288 289 // Removes the Value with the specified path from this dictionary (or one 290 // of its child dictionaries, if the path is more than just a local key). 291 // If |out_value| is non-NULL, the removed Value AND ITS OWNERSHIP will be 292 // passed out via out_value. If |out_value| is NULL, the removed value will 293 // be deleted. This method returns true if |path| is a valid path; otherwise 294 // it will return false and the DictionaryValue object will be unchanged. 295 bool Remove(const std::string& path, Value** out_value); 296 297 // Like Remove(), but without special treatment of '.'. This allows e.g. URLs 298 // to be used as paths. 299 bool RemoveWithoutPathExpansion(const std::string& key, Value** out_value); 300 301 // Makes a copy of |this| but doesn't include empty dictionaries and lists in 302 // the copy. This never returns NULL, even if |this| itself is empty. 303 DictionaryValue* DeepCopyWithoutEmptyChildren(); 304 305 // Merge a given dictionary into this dictionary. This is done recursively, 306 // i.e. any subdictionaries will be merged as well. In case of key collisions, 307 // the passed in dictionary takes precedence and data already present will be 308 // replaced. 309 void MergeDictionary(const DictionaryValue* dictionary); 310 311 // This class provides an iterator for the keys in the dictionary. 312 // It can't be used to modify the dictionary. 313 // 314 // YOU SHOULD ALWAYS USE THE XXXWithoutPathExpansion() APIs WITH THESE, NOT 315 // THE NORMAL XXX() APIs. This makes sure things will work correctly if any 316 // keys have '.'s in them. 317 class BASE_API key_iterator 318 : private std::iterator<std::input_iterator_tag, const std::string> { 319 public: key_iterator(ValueMap::const_iterator itr)320 explicit key_iterator(ValueMap::const_iterator itr) { itr_ = itr; } 321 key_iterator operator++() { 322 ++itr_; 323 return *this; 324 } 325 const std::string& operator*() { return itr_->first; } 326 bool operator!=(const key_iterator& other) { return itr_ != other.itr_; } 327 bool operator==(const key_iterator& other) { return itr_ == other.itr_; } 328 329 private: 330 ValueMap::const_iterator itr_; 331 }; 332 begin_keys()333 key_iterator begin_keys() const { return key_iterator(dictionary_.begin()); } end_keys()334 key_iterator end_keys() const { return key_iterator(dictionary_.end()); } 335 336 // Overridden from Value: 337 virtual DictionaryValue* DeepCopy() const; 338 virtual bool Equals(const Value* other) const; 339 340 private: 341 ValueMap dictionary_; 342 343 DISALLOW_COPY_AND_ASSIGN(DictionaryValue); 344 }; 345 346 // This type of Value represents a list of other Value values. 347 class BASE_API ListValue : public Value { 348 public: 349 typedef ValueVector::iterator iterator; 350 typedef ValueVector::const_iterator const_iterator; 351 352 ListValue(); 353 ~ListValue(); 354 355 // Clears the contents of this ListValue 356 void Clear(); 357 358 // Returns the number of Values in this list. GetSize()359 size_t GetSize() const { return list_.size(); } 360 361 // Returns whether the list is empty. empty()362 bool empty() const { return list_.empty(); } 363 364 // Sets the list item at the given index to be the Value specified by 365 // the value given. If the index beyond the current end of the list, null 366 // Values will be used to pad out the list. 367 // Returns true if successful, or false if the index was negative or 368 // the value is a null pointer. 369 bool Set(size_t index, Value* in_value); 370 371 // Gets the Value at the given index. Modifies |out_value| (and returns true) 372 // only if the index falls within the current list range. 373 // Note that the list always owns the Value passed out via |out_value|. 374 bool Get(size_t index, Value** out_value) const; 375 376 // Convenience forms of Get(). Modifies |out_value| (and returns true) 377 // only if the index is valid and the Value at that index can be returned 378 // in the specified form. 379 bool GetBoolean(size_t index, bool* out_value) const; 380 bool GetInteger(size_t index, int* out_value) const; 381 bool GetDouble(size_t index, double* out_value) const; 382 bool GetString(size_t index, std::string* out_value) const; 383 bool GetString(size_t index, string16* out_value) const; 384 bool GetBinary(size_t index, BinaryValue** out_value) const; 385 bool GetDictionary(size_t index, DictionaryValue** out_value) const; 386 bool GetList(size_t index, ListValue** out_value) const; 387 388 // Removes the Value with the specified index from this list. 389 // If |out_value| is non-NULL, the removed Value AND ITS OWNERSHIP will be 390 // passed out via |out_value|. If |out_value| is NULL, the removed value will 391 // be deleted. This method returns true if |index| is valid; otherwise 392 // it will return false and the ListValue object will be unchanged. 393 bool Remove(size_t index, Value** out_value); 394 395 // Removes the first instance of |value| found in the list, if any, and 396 // deletes it. Returns the index that it was located at (-1 for not present). 397 int Remove(const Value& value); 398 399 // Appends a Value to the end of the list. 400 void Append(Value* in_value); 401 402 // Appends a Value if it's not already present. Takes ownership of the 403 // |in_value|. Returns true if successful, or false if the value was already 404 // present. If the value was already present the |in_value| is deleted. 405 bool AppendIfNotPresent(Value* in_value); 406 407 // Insert a Value at index. 408 // Returns true if successful, or false if the index was out of range. 409 bool Insert(size_t index, Value* in_value); 410 411 // Swaps contents with the |other| list. Swap(ListValue * other)412 void Swap(ListValue* other) { 413 list_.swap(other->list_); 414 } 415 416 // Iteration begin()417 ListValue::iterator begin() { return list_.begin(); } end()418 ListValue::iterator end() { return list_.end(); } 419 begin()420 ListValue::const_iterator begin() const { return list_.begin(); } end()421 ListValue::const_iterator end() const { return list_.end(); } 422 423 // Overridden from Value: 424 virtual bool GetAsList(ListValue** out_value); 425 virtual ListValue* DeepCopy() const; 426 virtual bool Equals(const Value* other) const; 427 428 private: 429 ValueVector list_; 430 431 DISALLOW_COPY_AND_ASSIGN(ListValue); 432 }; 433 434 // This interface is implemented by classes that know how to serialize and 435 // deserialize Value objects. 436 class BASE_API ValueSerializer { 437 public: 438 virtual ~ValueSerializer(); 439 440 virtual bool Serialize(const Value& root) = 0; 441 442 // This method deserializes the subclass-specific format into a Value object. 443 // If the return value is non-NULL, the caller takes ownership of returned 444 // Value. If the return value is NULL, and if error_code is non-NULL, 445 // error_code will be set with the underlying error. 446 // If |error_message| is non-null, it will be filled in with a formatted 447 // error message including the location of the error if appropriate. 448 virtual Value* Deserialize(int* error_code, std::string* error_str) = 0; 449 }; 450 451 #endif // BASE_VALUES_H_ 452