Unigine::HashMap Class

// declare an enumeration
enum class MyEnum
{
	One,
	Two,
	Three,
};
// create a hash map using an initializer list
const HashMap<String, MyEnum> hashMap_1
{
	{ "One", MyEnum::One },
	{ "Two", MyEnum::Two },
	{ "Three", MyEnum::Three },
};
// check the result
for (const auto &k : hashMap_1)
	Log::message("%s : %d \n", k.key.get(), k.data);

Create a hash set using a copy constructor:

Source code (C++)

// create a hash map using an initializer list
const HashMap<String, int> initial{ { "a", 1 },{ "b", 2 },{ "c", 3 },{ "d", 4 }, };
// copy constructor
HashMap<String, int> copied(initial);
//check the result
for (const auto &k : copied)
	Log::message("%s : %d \n", k.key.get(), k.data);

You can change the created hash map by using the class member functions described in the article. Check some of the usage examples:

To add items to the current hash map, you can use one of the append() or insert() functions:

Source code (C++)

// create hash maps using initializer lists
HashMap<String, int> initial{ { "a", 1 }, { "b", 2 }, { "c", 3 }, };
const HashMap<String, int> to_append{ { "m", 7 }, { "n", 8 }, { "o", 9 }, };

// append items of one hash map to another
initial.append(to_append);
// insert an item into the "initial" hash map
initial.insert("s", 10);
// check the result
for (const auto &k : initial)
	Log::message("%s : %d \n", k.key.get(), k.data);

Insert an item with a value constructed in-place to avoid unnecessary copying by using the emplace() function:

Source code (C++)

// declare a named structure
struct Foo
{
	Foo(int a, int b) : a_(a), b_(b) {}
	int a_, b_;
};
// create an empty hash map
HashMap<String, Foo> hashMap;
// insert items into the hash map by specifying a key and an arguments for the Foo constructor
hashMap.emplace("foo_1_2", 1, 2);
hashMap.emplace("foo_1_3", 1, 3);
// check the result
for (const auto &it : hashMap)
	Log::message("Key %s, Value %d %d\n", it.key.get(), it.data.a_, it.data.b_);

Get a value by the key from the hash map and insert an item if there is no such key:

Source code (C++)

// creare an empty hash map
HashMap<int, int> hashMap{ { 1, 10 } };

// try to get values by the specified keys
Log::message("Value %d\n", hashMap[1]);
// if there is no such key, it will be added to the hash map with the default value
Log::message("Value %d\n", hashMap[2]);
// check the result - the new item with the default value is added to the hash map
for (const auto &k: hashMap)
	Log::message("%d : %d \n", k.key, k.data);

Take an item from the hash map:

Source code (C++)

// create a hash map
HashMap<int, int> hashMap { {1, 1}, {2, 2}, {3, 3}, };

// declare a key and a value
const int key = 0;
const int value = 4;

// append a new item to the hash map
hashMap.append(key,value);

// get an item iterator by its key
auto it = hashMap.find(key);
// take the item from the hash map
int c = hashMap.take(it);

// check the result - the taken item is removed from the hash map
for (const auto &k : hashMap)
	Log::message("%d : %d \n", k.key, k.data);

Remove an item from the hash map:

Source code (C++)

// create a hash map
	HashMap<int, int> hashMap{ { 1, 1 },{ 2, 2 },{ 3, 3 }, };

	// get an item iterator by its key
	auto it = hashMap.find(2);
	// remove the item from the hash map
	hashMap.remove(it);

	// check the result
	for (const auto &k: hashMap)
		Log::message("%d : %d \n", k.key, k.data);

Get items by the values from the hash map:

Source code (C++)

// create a hash map
HashMap<String, int> hashMap{ { "a", 1 }, { "b", 2 }, { "c", 3 }, };
// get an item iterator by its value
auto it = hashMap.findData(2);
// check the result
Log::message("%s \n", it->key.get());

Get a value/values from the hash map:

Source code (C++)

// create a hash map
HashMap<String, int> hashMap{ { "a", 1 },{ "b", 2 },{ "c", 3 }, };
// get a key by its value
Log::message("%d \n", hashMap.value("a"));

// get a vector of all values of the hash map
Vector<int> ret = hashMap.values();
for (int i = 0; i < ret.size(); i++) Log::message("%d \n",ret[i]);

Методы:

Имя	Описание View: Sort by:
HashMap	Default constructor that produces an empty hash map.
operator =	Assignment operator for the hash map.
append	Appends an item with a given key and value to the hash map.
insert	Inserts an item with a given key and value into the hash map.
append	Appends an item with a specified key to the hash map.
insert	Inserts an item with a specified key into the hash map.
emplace	Inserts an item with a specified key into the hash map.
take	Removes an item with a specified key from the hash map and returns an item value.
operator []	Hash map item access.
get	Returns a value by a specified key.
contains	Checks if an item with a specified key and value exists in the hash map.
findData	Searches for an item with a specified value in the hash map.
value	Returns a value with a specified key from the hash map.
valueRef	Returns a value with a specified key from the hash map.
values	Returns a vector of all values of the hash map.
getValues	Appends hash map values to a given vector.
getPairs	Appends hash map key-value pairs to a given vector.
operator ==	Checks if two hash maps are equal.
operator !=	Checks if two hash maps are not equal.

HashMap Class

Members

HashMap ( ) #

Default constructor that produces an empty hash map.

HashMap ( std::initializer_list<Pair<Key,Type>> list ) #

Constructor. Creates a hash map from given key-value pairs.

Arguments

std::initializer_list<Pair<Key,Type>> list - List of pairs.

HashMap ( const HashMap& o ) #

Constructor. Creates a hash map by copying a source hash map.

Arguments

const HashMap& o - Hash map.

HashMap ( HashMap&& o ) #

Constructor. Creates a hash map by copying a source hash map.

Arguments

HashMap&& o - Hash map.

HashMap<Key, Type, Counter> & operator= ( const HashMap& o ) #

Assignment operator for the hash map.

Arguments

const HashMap& o - Hash map.

HashMap<Key, Type, Counter> & operator= ( HashMap&& o ) #

Assignment operator for the hash map.

Arguments

HashMap&& o - Hash map.

Iterator append ( const Key& key, const Type& value ) #

Appends an item with a given key and value to the hash map.

Arguments

const Key& key - Key.
const Type& value - Value.

Return value

Item iterator.

Iterator append ( const Key& key, Type&& value ) #

Appends an item with a given key and value to the hash map.

Arguments

const Key& key - Key.
Type&& value - Value.

Return value

Item iterator.

Iterator append ( Key&& key, const Type& value ) #

Appends an item with a given key and value to the hash map.

Arguments

Key&& key - Key.
const Type& value - Value.

Return value

Item iterator.

Iterator append ( Key&& key, Type&& value ) #

Appends an item with a given key and value to the hash map.

Arguments

Key&& key - Key.
Type&& value - Value.

Return value

Item iterator.

void append ( const HashMap& o ) #

Appends a given hash map to the current one.

Arguments

const HashMap& o - Hash map.

void append ( HashMap&& o ) #

Appends a given hash map to the current one.

Arguments

HashMap&& o - Hash map.

Iterator insert ( const Key& key, const Type& value ) #

Inserts an item with a given key and value into the hash map.

Arguments

const Key& key - Key.
const Type& value - Value.

Return value

Item iterator.

Iterator insert ( const Key& key, Type&& value ) #

Inserts an item with a given key and value into the hash map.

Arguments

const Key& key - Key.
Type&& value - Value.

Return value

Item iterator.

Iterator insert ( Key&& key, const Type& value ) #

Inserts an item with a given key and value into the hash map.

Arguments

Key&& key - Key.
const Type& value - Value.

Return value

Item iterator.

Iterator insert ( Key&& key, Type&& value ) #

Inserts an item with a given key and value into the hash map.

Arguments

Key&& key - Key.
Type&& value - Value.

Return value

Item iterator.

void insert ( const HashMap& o ) #

Inserts a given hash map into the current one.

Arguments

const HashMap& o - Hash map.

void insert ( HashMap&& o ) #

Inserts a given hash map into the current one.

Arguments

HashMap&& o - Hash map.

Type & append ( const Key& key ) #

Appends an item with a specified key to the hash map. The item value is default-constructed.

Arguments

const Key& key - Key.

Return value

Added item value.

Type & append ( Key&& key ) #

Appends an item with a specified key to the hash map. The item value is default-constructed.

Arguments

Key&& key - Key.

Return value

Added item value.

Type & insert ( const Key& key ) #

Inserts an item with a specified key into the hash map. The item value is default-constructed.

Arguments

const Key& key - Key.

Return value

Inserted item value.

Type & insert ( Key&& key ) #

Inserts an item with a specified key into the hash map. The item value is default-constructed.

Arguments

Key&& key - Key.

Return value

Inserted item value.

Type & emplace ( const Key& key, Args&& args ) #

Inserts an item with a specified key into the hash map. The new item value is constructed in-place with the given arguments avoiding unnecessary copying.

Arguments

const Key& key - Key.
Args&& args - Arguments for an item value constructor.

Return value

Inserted item value.

Type & emplace ( Key&& key, Args&& args ) #

Inserts an item with a specified key into the hash map. The new item value is constructed in-place with the given arguments avoiding unnecessary copying.

Arguments

Key&& key - Key.
Args&& args - Arguments for an item value constructor.

Return value

Inserted item value.

Type take ( const Key& key, const Type& value ) #

Removes an item with a specified key from the hash map and returns an item value. If there is no item with the specified key, a default value is returned.

Arguments

const Key& key - Key.
const Type& value - Default value.

Return value

Removed item value.

Type take ( const Key& key ) #

Removes an item with a specified key from the hash map and returns its value. If there is no item with the specified key, a default-constructed value is returned.

Arguments

const Key& key - Key.

Return value

Removed item value.

Type take ( const Iterator& it ) #

Removes an item from the hash map by its iterator and returns an item value. If there is no such item, a default-constructed value is returned.

Arguments

const Iterator& it - Item iterator.

Return value

Removed item value.

Type take ( const ConstIterator& it ) #

Removes an item from the hash map by its iterator and returns an item value. If there is no such item, a default-constructed value is returned.

Arguments

const ConstIterator& it - Item iterator.

Return value

Removed item value.

Type & operator[] ( const Key& key ) #

Hash map item access.

Arguments

const Key& key - Key.

Return value

Accessed item value.

Type & operator[] ( Key&& key ) #

Hash map item access.

Arguments

Key&& key - Key.

Return value

Accessed item value.

const Type & operator[] ( const Key& key ) const#

Hash map item access.

Arguments

const Key& key - Key.

Return value

Accessed item value.

Type & get ( Key&& key ) #

Returns a value by a specified key. If there is no item with the key, inserts a new value.

Arguments

Key&& key - Key.

Return value

Value.

Type & get ( const Key& key ) #

Returns a value by a specified key. If there is no item with the key, inserts a new value.

Arguments

const Key& key - Key.

Return value

Value.

const Type & get ( const T& key ) const#

Returns a value by a specified key.

Arguments

const T& key - Key.

Return value

Value.

const Type & get ( const T& key, const Type& value ) const#

Returns a value by a specified key. If there is no item with the key, the default value is returned.

Arguments

const T& key - Key.
const Type& value - Default value.

Return value

Value.

bool contains ( const T& key, const Type& value ) const#

Checks if an item with a specified key and value exists in the hash map.

Arguments

const T& key - Key.
const Type& value - Value.

Return value

Returns 1 if an item exists; otherwise, 0 is returned.

Iterator findData ( const Type& t ) #

Searches for an item with a specified value in the hash map.

Arguments

const Type& t - Value.

Return value

Item iterator.

ConstIterator findData ( const Type& t ) const#

Searches for an item with a specified value in the hash map.

Arguments

const Type& t - Value.

Return value

Item iterator.

Type value ( const T& key ) const#

Returns a value with a specified key from the hash map. If there is no such key, returns a default-constructed value.

Arguments

const T& key - Key.

Return value

Value.

Type value ( const T& key, const Type& def ) const#

Returns a value with a specified key from the hash map. If there is no such key, returns a default value.

Arguments

const T& key - Key.
const Type& def - Default value.

Return value

Value.

const Type & valueRef ( const T& key, const Type& def ) const#

Returns a value with a specified key from the hash map. If there is no such key, returns a default value.

Arguments

const T& key - Key.
const Type& def - Default value.

Return value

Value.

int values ( ) const#

Returns a vector of all values of the hash map.

Return value

Vector of hash map values.

void getValues ( Vector<Type>& values ) const#

Appends hash map values to a given vector.

Arguments

Vector<Type>& values - Vector of hash map values.

void getPairs ( Vector<Pair<Key,Type >>& pairs ) const#

Appends hash map key-value pairs to a given vector.

Arguments

Vector<Pair<Key,Type >>& pairs - Vector of hash map key-value pairs.

bool operator== ( const HashMap& o ) const#

Checks if two hash maps are equal. The hash maps are considered equal if their key-value pairs are the same.

Arguments

const HashMap& o - Hash map.

Return value

Returns 1 if hash maps are equal; otherwise, 0 is returned.

bool operator!= ( const HashMap& o ) const#

Checks if two hash maps are not equal. The hash maps are considered equal if their key-value pairs are the same.

Arguments

const HashMap& o - Hash map.

Return value

Returns 1 if hash maps are not equal; otherwise, 0 is returned.

Last update: 16.08.2024

Помогите сделать статью лучше

Была ли эта статья полезной?

Сообщить о проблеме в этой статье

(или выберите слово/фразу и нажмите Ctrl+Enter

Unigine::HashMap Class

In This Article:

Методы:

HashMap Class

Members

HashMap ( ) #

HashMap ( std::initializer_list<Pair<Key,Type>> list ) #

Arguments

HashMap ( const HashMap& o ) #

Arguments

HashMap ( HashMap&& o ) #

Arguments

HashMap<Key, Type, Counter> & operator= ( const HashMap& o ) #

Arguments

HashMap<Key, Type, Counter> & operator= ( HashMap&& o ) #

Arguments

Iterator append ( const Key& key, const Type& value ) #

Arguments

Return value

Iterator append ( const Key& key, Type&& value ) #

Arguments

Return value

Iterator append ( Key&& key, const Type& value ) #

Arguments

Return value

Iterator append ( Key&& key, Type&& value ) #

Arguments

Return value

void append ( const HashMap& o ) #

Arguments

void append ( HashMap&& o ) #

Arguments

Iterator insert ( const Key& key, const Type& value ) #

Arguments

Return value

Iterator insert ( const Key& key, Type&& value ) #

Arguments

Return value

Iterator insert ( Key&& key, const Type& value ) #

Arguments

Return value

Iterator insert ( Key&& key, Type&& value ) #

Arguments

Return value

void insert ( const HashMap& o ) #

Arguments

void insert ( HashMap&& o ) #

Arguments

Type & append ( const Key& key ) #

Arguments

Return value

Type & append ( Key&& key ) #

Arguments

Return value

Type & insert ( const Key& key ) #

Arguments

Return value

Type & insert ( Key&& key ) #

Arguments

Return value

Type & emplace ( const Key& key, Args&& args ) #

Arguments

Return value

Type & emplace ( Key&& key, Args&& args ) #

Arguments

Return value

Type take ( const Key& key, const Type& value ) #

Arguments

Return value

Type take ( const Key& key ) #

Arguments

Return value

Type take ( const Iterator& it ) #

Arguments

Return value

Type take ( const ConstIterator& it ) #

Arguments

Return value

Type & operator[] ( const Key& key ) #

Arguments