basic_string 類別
型別物件 basic_string 所控制的序列是 Standard C++ 字串類別,稱為字串,但不應與整個 C++標準連結庫中使用的以 Null 終止的 C 樣式字元串混淆。 Standard C++ 字串是一個容器,可讓您使用字元串做為一般類型,例如比較和串連作業、反覆運算器、C++標準連結庫演算法,以及使用類別配置器管理的記憶體複製和指派。 如果您需要將 Standard C++ 字串轉換成以 Null 結尾的 C 樣式字串,請使用 basic_string::c_str 成員。
語法
template <class CharType, class Traits = char_traits<CharType>, class Allocator = allocator<CharType>>
class basic_string;
參數
CharType
若要儲存在字串中之單一字元的資料類型。 C++標準連結庫提供這個類別範本的特製化,以及類型、 和 的元素類型 u16stringcharwstringchar16_twchar_t定義。string char32_tu32string
Traits
類別會Traits描述basic_string特製化中項目的各種重要屬性CharType。 預設值是 char_traits<CharType>。
Allocator
代表預存配置器物件的類型,封裝有關字串之記憶體配置和解除配置的詳細資訊。 預設值是 allocator<CharType>。
建構函式
| 建構函式 | 描述 |
|---|---|
basic_string |
建構空的或由特定字元初始化的字串,或為其他字串物件的所有或部分複本的字串,或 C 字串。 |
Typedefs
| 類型名稱 | 描述 |
|---|---|
allocator_type |
類型,表示字串物件的 allocator 類別。 |
const_iterator |
類型,提供可以存取和讀取字串中 const 元素的隨機存取迭代器。 |
const_pointer |
類型,提供字串中 const 元素的指標。 |
const_reference |
類型,提供儲存在字串中供讀取和執行 const 作業之 const 元素的參考。 |
const_reverse_iterator |
類型,提供可以讀取字串中任何 const 元素的隨機存取迭代器。 |
difference_type |
類型,提供兩個指出相同字串內之元素的迭代器間的差異。 |
iterator |
類型,提供可以讀取或修改字串中之任何元素的隨機存取迭代器。 |
npos |
初始化為 -1 的不帶正負號整數值,表示搜尋函式失敗時「找不到」或「所有剩餘字元」。 |
pointer |
類型,提供字串或字元陣列中之字元元素的指標。 |
reference |
類型,提供儲存在字串中之元素的參考。 |
reverse_iterator |
類型,提供可以讀取或修改反轉字串中的元素的隨機存取迭代器。 |
size_type |
字串中元素數的不帶正負號整數類型。 |
traits_type |
儲存在字串中之元素的字元特性的類型。 |
value_type |
類型,代表儲存在字串中的字元類型。 |
成員函式
| 成員函數 | 描述 |
|---|---|
append |
將字元加入至字串的結尾。 |
assign |
將新的字元值指派給字串的內容。 |
at |
傳回位於字串中指定位置的元素參考。 |
back |
|
begin |
傳回定址字串中第一個元素的迭代器。 |
c_str |
將字串的內容轉換為 C 樣式且以 Null 結尾的字串。 |
capacity |
傳回可儲存在字串中且不增加字串的記憶體配置的最大元素數目。 |
cbegin |
傳回定址字串中的第一個元素的 const 迭代器。 |
cend |
傳回定址字串中最後一個元素的下一個位置的 const 迭代器。 |
clear |
清除字串的所有元素。 |
compare |
將某個字串與指定的字串比較,以判斷兩個字串是否相等,或其中一個字串的字數小於另一個字串。 |
copy |
從來源字串中的索引位置,最多複製指定的字元數到目標字元陣列。 已取代。 請改用 basic_string::_Copy_s。 |
crbegin |
傳回定址反轉字串中的第一個元素的 const 迭代器。 |
crend |
傳回定址反轉字串中最後一個元素的下一個位置的 const 迭代器。 |
_Copy_s |
Microsoft特定:將來源字串中索引位置的指定字元數目最多複製到目標字元陣列。 |
data |
將字串的內容轉換成字元的陣列。 |
empty |
測試字串是否包含字元。 |
end |
傳回定址字串中最後一個元素的下一個位置的迭代器。 |
ends_withC++20 |
檢查字串是否以指定的後綴結尾。 |
erase |
從指定位置移除字串中的某個元素或某個元素範圍。 |
find |
以正向方向搜尋字串中,第一個符合指定之字元序列的子字串。 |
find_first_not_of |
在字串中搜尋不是指定字串的任何專案的第一個字元。 |
find_first_of |
搜尋字串中,符合指定字串之任何元素的第一個字元。 |
find_last_not_of |
在字串中搜尋不是指定字串的任何項目的最後一個字元。 |
find_last_of |
搜尋字串中,是指定字串之元素的最後一個字元。 |
front |
傳回字串中第一個元素的參考。 |
get_allocator |
傳回用來建構字串的 allocator 物件複本。 |
insert |
將元素、數個專案或專案範圍插入字串中指定的位置。 |
length |
傳回字串中目前的元素數目。 |
max_size |
傳回字串中可能包含的字元數上限。 |
pop_back |
清除字串的最後一個元素。 |
push_back |
將元素加入至字串結尾。 |
rbegin |
傳回指向反轉字串中第一個元素的迭代器。 |
rend |
傳回指向反轉字串中最後一個元素後方的迭代器。 |
replace |
使用指定的字元,或從其他範圍或字串或 C 字串複製的字元,取代位於字串中指定位置的元素。 |
reserve |
將字串的容量數字,設定為至少和指定的數字一樣大。 |
resize |
指定字串的新大小,視需要附加或清除元素。 |
rfind |
以向後方向搜尋字串中,第一個符合指定之字元序列的子字串。 |
shrink_to_fit |
丟棄多餘的字串容量。 |
size |
傳回字串中目前的元素數目。 |
starts_withC++20 |
檢查字串是否以指定的前置詞開頭。 |
substr |
從開始於指定位置的字串,複製最多一定字元數量的子字串。 |
swap |
交換兩個字串的內容。 |
操作員
| 運算子 | 描述 |
|---|---|
operator+= |
將字元附加至字串。 |
operator= |
將新的字元值指派給字串的內容。 |
operator[] |
使用字串中的指定索引,提供字元的參考。 |
常值
定義的標頭 basic_string 也會定義下列 使用者定義的常值,這會從輸入參數建立指定型別的字串。
| 宣告 | 描述 |
|---|---|
inline string operator"" s(const char* str, size_t len) |
傳回:string(str, len) |
inline string operator"" s(const wchar_t* str, size_t len) |
傳回:wstring(str, len) |
inline basic_string<char8_t> operator"" s(const char8_t* str, size_t len) |
傳回:basic_string<char8_t>(str, len) |
inline u16string operator"" s(const char16_t* str, size_t len) |
傳回:u16string(str, len) |
inline u32string operator"" s(const char32_t* str, size_t len) |
傳回:u32string(str, len) |
備註
如果要求函式產生比 max_size 元素更長的序列,函式會擲回 類型的 length_error對象來報告長度錯誤。
指定受控制序列元素的參考、指標和反覆運算器,在變更受控制序列的函式或第一次呼叫非const 成員函式之後,可能會變成無效。
需求
Header:<string>
命名空間:std
basic_string::allocator_type
類型,表示字串物件的配置器類別。
typedef Allocator allocator_type;
備註
此類型是範本參數 Allocator的同義字。
範例
// basic_string_allocator_type.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The following lines declare objects
// that use the default allocator.
string s1;
basic_string <char>::allocator_type xchar = s1.get_allocator( );
// You can now call functions on the allocator class xchar used by s1
}
basic_string::append
將字元加入至字串的結尾。
basic_string<CharType, Traits, Allocator>& append(
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& append(
const value_type* ptr,
size_type count);
basic_string<CharType, Traits, Allocator>& append(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset,
size_type count);
basic_string<CharType, Traits, Allocator>& append(
const basic_string<CharType, Traits, Allocator>& str);
basic_string<CharType, Traits, Allocator>& append(
size_type count,
value_type char_value);
template <class InputIterator>
basic_string<CharType, Traits, Allocator>& append(
InputIterator first,
InputIterator last);
basic_string<CharType, Traits, Allocator>& append(
const_pointer first,
const_pointer last);
basic_string<CharType, Traits, Allocator>& append(
const_iterator first,
const_iterator last);
參數
ptr
要附加的 C 字串。
str
要附加其字元的字串。
offset
提供要附加之字元的部分來源字串組件的索引。
count
要從來源字串附加的字元數上限。
char_value
要附加的字元值。
first
輸入迭代器,為範圍中要附加的第一個元素定址。
last
輸入反覆運算器, const_pointer或 const_iterator 尋址要附加之範圍中最後一個專案以外的位置。
傳回值
正在附加成員函式所傳遞字元之字串物件的參考。
備註
字元可以使用 或成員函append式或 push_back附加至字串operator+=。 operator+= 會附加單一自變數值,而多重自變數 append 成員函式允許指定要加入之字串的特定部分。
範例
// basic_string_append.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// appending a C-string to a string
string str1a ( "Hello " );
cout << "The original string str1 is: " << str1a << endl;
const char *cstr1a = "Out There ";
cout << "The C-string cstr1a is: " << cstr1a << endl;
str1a.append ( cstr1a );
cout << "Appending the C-string cstr1a to string str1 gives: "
<< str1a << "." << endl << endl;
// The second member function
// appending part of a C-string to a string
string str1b ( "Hello " );
cout << "The string str1b is: " << str1b << endl;
const char *cstr1b = "Out There ";
cout << "The C-string cstr1b is: " << cstr1b << endl;
str1b.append ( cstr1b , 3 );
cout << "Appending the 1st part of the C-string cstr1b "
<< "to string str1 gives: " << str1b << "."
<< endl << endl;
// The third member function
// appending part of one string to another
string str1c ( "Hello " ), str2c ( "Wide World " );
cout << "The string str2c is: " << str2c << endl;
str1c.append ( str2c , 5 , 5 );
cout << "The appended string str1 is: "
<< str1c << "." << endl << endl;
// The fourth member function
// appending one string to another in two ways,
// comparing append and operator [ ]
string str1d ( "Hello " ), str2d ( "Wide " ), str3d ( "World " );
cout << "The string str2d is: " << str2d << endl;
str1d.append ( str2d );
cout << "The appended string str1d is: "
<< str1d << "." << endl;
str1d += str3d;
cout << "The doubly appended strig str1 is: "
<< str1d << "." << endl << endl;
// The fifth member function
// appending characters to a string
string str1e ( "Hello " );
str1e.append ( 4 , '!' );
cout << "The string str1 appended with exclamations is: "
<< str1e << endl << endl;
// The sixth member function
// appending a range of one string to another
string str1f ( "Hello " ), str2f ( "Wide World " );
cout << "The string str2f is: " << str2f << endl;
str1f.append ( str2f.begin ( ) + 5 , str2f.end ( ) - 1 );
cout << "The appended string str1 is: "
<< str1f << "." << endl << endl;
}
The original string str1 is: Hello
The C-string cstr1a is: Out There
Appending the C-string cstr1a to string str1 gives: Hello Out There .
The string str1b is: Hello
The C-string cstr1b is: Out There
Appending the 1st part of the C-string cstr1b to string str1 gives: Hello Out.
The string str2c is: Wide World
The appended string str1 is: Hello World.
The string str2d is: Wide
The appended string str1d is: Hello Wide .
The doubly appended strig str1 is: Hello Wide World .
The string str1 appended with exclamations is: Hello !!!!
The string str2f is: Wide World
The appended string str1 is: Hello World.
basic_string::assign
將新的字元值指派給字串的內容。
basic_string<CharType, Traits, Allocator>& assign(
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& assign(
const value_type* ptr,
size_type count);
basic_string<CharType, Traits, Allocator>& assign(
const basic_string<CharType, Traits, Allocator>& str,
size_type off,
size_type count);
basic_string<CharType, Traits, Allocator>& assign(
const basic_string<CharType, Traits, Allocator>& str);
basic_string<CharType, Traits, Allocator>& assign(
size_type count,
value_type char_value);
template <class InIt>
basic_string<CharType, Traits, Allocator>& assign(
InputIterator first,
InputIterator last);
basic_string<CharType, Traits, Allocator>& assign(
const_pointer first,
const_pointer last);
basic_string<CharType, Traits, Allocator>& assign(
const_iterator first,
const_iterator last);
參數
ptr
要指派給目標字串之 C 字串的字元指標。
count
要從來源字串指派的字元數。
str
其字元要指派給目標字串的來源字串。
char_value
要指派的字元值。
first
輸入迭代器 const_pointer 或 const_iterator,為來源字串範圍中要指派給目標範圍的第一個字元定址。
last
輸入迭代器 const_pointer 或 const_iterator,為來源字串範圍中要指派給目標範圍的最後一個字元以外的字元定址。
off
即將開始指派新字元的位置。
傳回值
正由成員函式指派新字元之字串物件的參考。
備註
字串可以指派新的字元值。 新的值可以是字串和 C 字串,或是單一字元。 operator=如果單一參數可以描述新值,可以使用 ;否則,具有多個參數的成員函assign式可用來指定要指派給目標字串的哪個部分。
範例
// basic_string_assign.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function assigning the
// characters of a C-string to a string
string str1a;
const char *cstr1a = "Out There";
cout << "The C-string cstr1a is: " << cstr1a << "." << endl;
str1a.assign ( cstr1a );
cout << "Assigning the C-string cstr1a to string str1 gives: "
<< str1a << "." << endl << endl;
// The second member function assigning a specific
// number of the of characters a C-string to a string
string str1b;
const char *cstr1b = "Out There";
cout << "The C-string cstr1b is: " << cstr1b << endl;
str1b.assign ( cstr1b , 3 );
cout << "Assigning the 1st part of the C-string cstr1b "
<< "to string str1 gives: " << str1b << "."
<< endl << endl;
// The third member function assigning a specific number
// of the characters from one string to another string
string str1c ( "Hello " ), str2c ( "Wide World " );
cout << "The string str2c is: " << str2c << endl;
str1c.assign ( str2c , 5 , 5 );
cout << "The newly assigned string str1 is: "
<< str1c << "." << endl << endl;
// The fourth member function assigning the characters
// from one string to another string in two equivalent
// ways, comparing the assign and operator =
string str1d ( "Hello" ), str2d ( "Wide" ), str3d ( "World" );
cout << "The original string str1 is: " << str1d << "." << endl;
cout << "The string str2d is: " << str2d << endl;
str1d.assign ( str2d );
cout << "The string str1 newly assigned with string str2d is: "
<< str1d << "." << endl;
cout << "The string str3d is: " << str3d << "." << endl;
str1d = str3d;
cout << "The string str1 reassigned with string str3d is: "
<< str1d << "." << endl << endl;
// The fifth member function assigning a specific
// number of characters of a certain value to a string
string str1e ( "Hello " );
str1e.assign ( 4 , '!' );
cout << "The string str1 assigned with eclamations is: "
<< str1e << endl << endl;
// The sixth member function assigning the value from
// the range of one string to another string
string str1f ( "Hello " ), str2f ( "Wide World " );
cout << "The string str2f is: " << str2f << endl;
str1f.assign ( str2f.begin ( ) + 5 , str2f.end ( ) - 1 );
cout << "The string str1 assigned a range of string str2f is: "
<< str1f << "." << endl << endl;
}
The C-string cstr1a is: Out There.
Assigning the C-string cstr1a to string str1 gives: Out There.
The C-string cstr1b is: Out There
Assigning the 1st part of the C-string cstr1b to string str1 gives: Out.
The string str2c is: Wide World
The newly assigned string str1 is: World.
The original string str1 is: Hello.
The string str2d is: Wide
The string str1 newly assigned with string str2d is: Wide.
The string str3d is: World.
The string str1 reassigned with string str3d is: World.
The string str1 assigned with eclamations is: !!!!
The string str2f is: Wide World
The string str1 assigned a range of string str2f is: World.
basic_string::at
使用字串中的指定索引,提供字元的參考。
const_reference at(size_type offset) const;
reference at(size_type offset);
參數
offset
要參考之元素的位置索引。
傳回值
位於參數索引所指定之位置的字串字元參考。
備註
字串的第一個元素具有零的索引,而下列元素會依正整數連續編製索引,因此長度 n 的字串有 n個元素,由數位 n - 1 編製索引。
operator[]成員比成員函at式更快,可提供字串元素的讀取和寫入存取權。
成員 operator[] 不會檢查當做參數傳遞的索引是否有效,但成員函 at 式確實有效,因此,如果有效性不確定,則應該使用。 無效的索引,這個索引小於零或大於或等於字串的大小,傳遞至成員函 at 式會 out_of_range 擲回 Class 例外狀況。 傳遞給 operator[] 的索引若無效會導致未定義的行為,但等於字串長度的索引是 const 字串的有效索引,而且當傳遞此索引時,運算子會傳回 Null 字元。
傳回的參考可能會因為字串重新配置或修改非const 字串而失效。
範例
// basic_string_at.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" ), str2 ( "Goodbye world" );
const string cstr1 ( "Hello there" ), cstr2 ( "Goodbye now" );
cout << "The original string str1 is: " << str1 << endl;
cout << "The original string str2 is: " << str2 << endl;
// Element access to the non const strings
basic_string <char>::reference refStr1 = str1 [6];
basic_string <char>::reference refStr2 = str2.at ( 3 );
cout << "The character with an index of 6 in string str1 is: "
<< refStr1 << "." << endl;
cout << "The character with an index of 3 in string str2 is: "
<< refStr2 << "." << endl;
// Element access to the const strings
basic_string <char>::const_reference crefStr1 = cstr1 [ cstr1.length ( ) ];
basic_string <char>::const_reference crefStr2 = cstr2.at ( 8 );
if ( crefStr1 == '\0' )
cout << "The null character is returned as a valid reference."
<< endl;
else
cout << "The null character is not returned." << endl;
cout << "The character with index 8 in the const string cstr2 is: "
<< crefStr2 << "." << endl;
}
basic_string::back
傳回字串的最後一個項目參考。
const_reference back() const;
reference back();
傳回值
字串的最後一個項目參考,必須為非空白。
備註
basic_string::basic_string
建構空的或由特定字元初始化的字串,或為其他字串物件的所有或部分複本的字串,或 C 樣式 (以 Null 結束的) 字串。
basic_string();
explicit basic_string(
const allocator_type& alloc_type);
basic_string(
const basic_string& right);
basic_string(
basic_string&& right);
basic_string(
const basic_string& right,
size_type right_offset,
size_type count = npos);
basic_string(
const basic_string& right,
size_type right_offset,
size_type count,
const allocator_type& alloc_type);
basic_string(
const value_type* ptr,
size_type count);
basic_string(
const value_type* ptr,
size_type count,
const allocator_type& alloc_type);
basic_string(
const value_type* ptr);
basic_string(
const value_type* ptr,
const allocator_type& alloc_type);
basic_string(
size_type count,
value_type char_value);
basic_string(
size_type count,
value_type char_value,
const allocator_type& alloc_type);
template <class InputIterator>
basic_string(
InputIterator first,
InputIterator last);
template <class InputIterator>
basic_string(
InputIterator first,
InputIterator last,
const allocator_type& alloc_type);
basic_string(
const_pointer first,
const_pointer last);
basic_string(
const_iterator first,
const_iterator last);
參數
ptr
所含字元用來初始化所建構之 string 的 C 字串。 除非為零,否則 count 這個值不能是 Null 指標。
alloc_type
要建構之字串物件的儲存體配置器類別。
count
要初始化的字元數。
right
要初始化所建構之字串的字串。
right_offset
對於所建構的字串,第一個用來初始化其字元值之字串字元的索引。
char_value
要複製到所建構之字串中的字元值。
first
輸入迭代器 const_pointer 或 const_iterator,為來源範圍中要插入的第一個元素定址。
last
輸入迭代器 const_pointer 或 const_iterator,為來源範圍中要插入的最後一個元素以外的元素定址。
傳回值
建構函式所建構之字串物件的參考。
備註
所有建構函式都會儲存 basic_string::allocator_type 並初始化受控制序列。 配置器物件是引數 al (如果存在)。 針對複製建構函式,其為 right.get_allocator()的呼叫 basic_string::get_allocator。 否則,設定器為 Alloc()。
受控制的序列會初始化為其餘運算元所指定之運算元序列的複本。 沒有運算元序列的建構函式會指定空的初始受控制序列。 如果 InputIterator 是範本建構函式中的整數類型,操作數序列 first, last 的行為會與 (size_type) first, (value_type) last相同。
範例
// basic_string_ctor.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function initializing with a C-string
const char *cstr1a = "Hello Out There.";
basic_string <char> str1a ( cstr1a , 5);
cout << "The string initialized by C-string cstr1a is: "
<< str1a << "." << endl;
// The second member function initializing with a string
string str2a ( "How Do You Do" );
basic_string <char> str2b ( str2a , 7 , 7 );
cout << "The string initialized by part of the string cstr2a is: "
<< str2b << "." << endl;
// The third member function initializing a string
// with a number of characters of a specific value
basic_string <char> str3a ( 5, '9' );
cout << "The string initialized by five number 9s is: "
<< str3a << endl;
// The fourth member function creates an empty string
// and string with a specified allocator
basic_string <char> str4a;
string str4b;
basic_string <char> str4c ( str4b.get_allocator( ) );
if (str4c.empty ( ) )
cout << "The string str4c is empty." << endl;
else
cout << "The string str4c is not empty." << endl;
// The fifth member function initializes a string from
// another range of characters
string str5a ( "Hello World" );
basic_string <char> str5b ( str5a.begin ( ) + 5 , str5a.end ( ) );
cout << "The string initialized by another range is: "
<< str5b << "." << endl;
}
basic_string::begin
傳回定址字串中第一個元素的迭代器。
const_iterator begin() const;
iterator begin();
傳回值
隨機存取迭代器,為序列的第一個元素或空序列結尾以外的位置定址。
範例
// basic_string_begin.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( ) {
using namespace std;
string str1 ( "No way out." ), str2;
basic_string <char>::iterator strp_Iter, str1_Iter, str2_Iter;
basic_string <char>::const_iterator str1_cIter;
str1_Iter = str1.begin ( );
cout << "The first character of the string str1 is: "
<< *str1_Iter << endl;
cout << "The full original string str1 is: " << str1 << endl;
// The dereferenced iterator can be used to modify a character
*str1_Iter = 'G';
cout << "The first character of the modified str1 is now: "
<< *str1_Iter << endl;
cout << "The full modified string str1 is now: " << str1 << endl;
// The following line would be an error because iterator is const
// *str1_cIter = 'g';
// For an empty string, begin is equivalent to end
if ( str2.begin ( ) == str2.end ( ) )
cout << "The string str2 is empty." << endl;
else
cout << "The string str2 is not empty." << endl;
}
basic_string::c_str
將字串的內容轉換為 C 樣式且以 Null 結束的字串。
const value_type *c_str() const;
傳回值
叫用字串的 C 樣式版本指標。 在呼叫 物件上 類別中的解const 構函式,包括解構函式 basic_string 之後,指標值無效。
備註
屬於類別範本 basic_string<char> 的類型字串物件不一定以 Null 終止。 Null 字元在 C 字串中做為特殊字元 '\0' ,用來標記字串結尾,但在字串類型的 物件中沒有特殊意義,而且可能是字串串的一部分,就像任何其他字元一樣。 有從 自動轉換成 const char * 字串,但字串類別不提供從 C 樣式字串自動轉換成 類型的 basic_string<char>物件。
不應該修改傳回的 C 樣式字串,這可能會使字串的指標失效,或刪除,因為字串的存留期有限,而且由類別字串所擁有。
範例
// basic_string_c_str.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" );
cout << "The original string object str1 is: "
<< str1 << endl;
cout << "The length of the string object str1 = "
<< str1.length ( ) << endl << endl;
// Converting a string to an array of characters
const char *ptr1 = 0;
ptr1= str1.data ( );
cout << "The modified string object ptr1 is: " << ptr1
<< endl;
cout << "The length of character array str1 = "
<< strlen ( ptr1) << endl << endl;
// Converting a string to a C-style string
const char *c_str1 = str1.c_str ( );
cout << "The C-style string c_str1 is: " << c_str1
<< endl;
cout << "The length of C-style string str1 = "
<< strlen ( c_str1) << endl << endl;
}
The original string object str1 is: Hello world
The length of the string object str1 = 11
The modified string object ptr1 is: Hello world
The length of character array str1 = 11
The C-style string c_str1 is: Hello world
The length of C-style string str1 = 11
basic_string::capacity
傳回可儲存在字串中且不增加字串的記憶體配置的最大元素數目。
size_type capacity() const;
傳回值
目前在記憶體中配置以保留字串的儲存空間大小。
備註
成員函式會傳回目前配置來保存受控制序列的記憶體,值至少與一樣 size大。
範例
// basic_string_capacity.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world");
cout << "The original string str1 is: " << str1 << endl;
// The size and length member functions differ in name only
basic_string <char>::size_type sizeStr1, lenStr1;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
basic_string <char>::size_type capStr1, max_sizeStr1;
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of original string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of original string str1 is: "
<< max_sizeStr1 << "." << endl << endl;
str1.erase ( 6, 5 );
cout << "The modified string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
// after erasing part of the original string
cout << "The current size of modified string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of modified string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of modified string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of modified string str1 is: "
<< max_sizeStr1 << "." << endl;
}
basic_string::cbegin
傳回 const 迭代器,為範圍中的第一個項目定址。
const_iterator cbegin() const;
傳回值
const 隨機存取迭代器,指向範圍的第一個項目,或指向空白範圍結尾 (空白範圍 cbegin() == cend()) 之外的位置。
備註
使用 的 cbegin傳回值,就無法修改範圍中的專案。
您可以使用此成員函式取代 begin() 成員函式,以確保傳回值是 const_iterator。 一般而言,它會與類型推算關鍵詞一 auto 起使用,如下列範例所示。 在此範例中,請考慮Container為支援 begin() 和 cbegin()之任何種類的可修改(非const)容器。
auto i1 = Container.begin();
// i1 is Container<T>::iterator
auto i2 = Container.cbegin();
// i2 is Container<T>::const_iterator
basic_string::cend
傳回 const 迭代器,為範圍中最後一個項目之外的位置定址。
const_iterator cend() const;
傳回值
指向範圍結尾之外的 const 隨機存取迭代器。
備註
cend 用來測試迭代器是否已超過其範圍結尾。
您可以使用此成員函式取代 end() 成員函式,以確保傳回值是 const_iterator。 一般而言,它會與類型推算關鍵詞一 auto 起使用,如下列範例所示。 在此範例中,請考慮Container為支援 end() 和 cend()之任何種類的可修改(非const)容器。
auto i1 = Container.end();
// i1 is Container<T>::iterator
auto i2 = Container.cend();
// i2 is Container<T>::const_iterator
所 cend 傳回的值不應該取值。
basic_string::clear
清除字串的所有元素。
void clear();
備註
呼叫成員函式所在的字串將會是空的。
範例
// basic_string_clear.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world"), str2;
basic_string <char>::iterator str_Iter;
cout << "The original string str1 is: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
str1.clear ( );
cout << "The modified string str1 is: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
//For an empty string, begin is equivalent to end
if ( str1.begin ( ) == str1.end ( ) )
cout << "Nothing printed above because "
<< "the string str1 is empty." << endl;
else
cout << "The string str1 is not empty." << endl;
}
The original string str1 is: Hello world
The modified string str1 is:
Nothing printed above because the string str1 is empty.
basic_string::compare
執行區分大小寫的比較與指定的字串,以判斷兩個字串是否相等,或其中一個是否比另一個字元串低。
int compare(
const basic_string<CharType, Traits, Allocator>& str) const;
int compare(
size_type position_1,
size_type number_1,
const basic_string<CharType, Traits, Allocator>& str) const;
int compare(
size_type position_1,
size_type number_1,
const basic_string<CharType, Traits, Allocator>& str,
size_type offset,
size_type count) const;
int compare(
const value_type* ptr) const;
int compare(
size_type position_1,
size_type number_1,
const value_type* ptr) const;
int compare(
size_type position_1,
size_type number_1,
const value_type* ptr
size_type number_2) const;
參數
str
要與運算元字串比較的字串。
position_1
比較開始處的運算元字串索引。
number_1
要比較之運算元字串的字元數上限。
number_2
要比較之參數字串的字元數上限。
offset
比較開始處的參數字串索引。
count
要比較之參數字串的字元數上限。
ptr
要與運算元字串比較的 C 字串。
傳回值
如果運算元字串小於參數字串,則為負值;如果兩個字串相等,則為零;如果運算元字串大於參數字串,則為正值。
備註
成員函式會 compare 根據所使用的字串,比較參數和操作數位串的所有或部分。
比較會區分大小寫。
範例
// basic_string_compare.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function compares
// an operand string to a parameter string
int comp1;
string s1o ( "CAB" );
string s1p ( "CAB" );
cout << "The operand string is: " << s1o << endl;
cout << "The parameter string is: " << s1p << endl;
comp1 = s1o.compare ( s1p );
if ( comp1 < 0 )
cout << "The operand string is less than "
<< "the parameter string." << endl;
else if ( comp1 == 0 )
cout << "The operand string is equal to "
<< "the parameter string." << endl;
else
cout << "The operand string is greater than "
<< "the parameter string." << endl;
cout << endl;
// The second member function compares part of
// an operand string to a parameter string
int comp2a, comp2b;
string s2o ( "AACAB" );
string s2p ( "CAB" );
cout << "The operand string is: " << s2o << endl;
cout << "The parameter string is: " << s2p << endl;
comp2a = s2o.compare ( 2 , 3 , s2p );
if ( comp2a < 0 )
cout << "The last three characters of "
<< "the operand string\n are less than "
<< "the parameter string." << endl;
else if ( comp2a == 0 )
cout << "The last three characters of "
<< "the operand string\n are equal to "
<< "the parameter string." << endl;
else
cout << "The last three characters of "
<< "the operand string\n is greater than "
<< "the parameter string." << endl;
comp2b = s2o.compare ( 0 , 3 , s2p );
if ( comp2b < 0 )
cout << "The first three characters of "
<< "the operand string\n are less than "
<< "the parameter string." << endl;
else if ( comp2b == 0 )
cout << "The first three characters of "
<< "the operand string\n are equal to "
<< "the parameter string." << endl;
else
cout << "The first three characters of "
<< "the operand string\n is greater than "
<< "the parameter string." << endl;
cout << endl;
// The third member function compares part of
// an operand string to part of a parameter string
int comp3a;
string s3o ( "AACAB" );
string s3p ( "DCABD" );
cout << "The operand string is: " << s3o << endl;
cout << "The parameter string is: " << s3p << endl;
comp3a = s3o.compare ( 2 , 3 , s3p , 1 , 3 );
if ( comp3a < 0 )
cout << "The three characters from position 2 of "
<< "the operand string are less than\n "
<< "the 3 characters parameter string "
<< "from position 1." << endl;
else if ( comp3a == 0 )
cout << "The three characters from position 2 of "
<< "the operand string are equal to\n "
<< "the 3 characters parameter string "
<< "from position 1." << endl;
else
cout << "The three characters from position 2 of "
<< "the operand string is greater than\n "
<< "the 3 characters parameter string "
<< "from position 1." << endl;
cout << endl;
// The fourth member function compares
// an operand string to a parameter C-string
int comp4a;
string s4o ( "ABC" );
const char* cs4p = "DEF";
cout << "The operand string is: " << s4o << endl;
cout << "The parameter C-string is: " << cs4p << endl;
comp4a = s4o.compare ( cs4p );
if ( comp4a < 0 )
cout << "The operand string is less than "
<< "the parameter C-string." << endl;
else if ( comp4a == 0 )
cout << "The operand string is equal to "
<< "the parameter C-string." << endl;
else
cout << "The operand string is greater than "
<< "the parameter C-string." << endl;
cout << endl;
// The fifth member function compares part of
// an operand string to a parameter C-string
int comp5a;
string s5o ( "AACAB" );
const char* cs5p = "CAB";
cout << "The operand string is: " << s5o << endl;
cout << "The parameter string is: " << cs5p << endl;
comp5a = s5o.compare ( 2 , 3 , s2p );
if ( comp5a < 0 )
cout << "The last three characters of "
<< "the operand string\n are less than "
<< "the parameter C-string." << endl;
else if ( comp5a == 0 )
cout << "The last three characters of "
<< "the operand string\n are equal to "
<< "the parameter C-string." << endl;
else
cout << "The last three characters of "
<< "the operand string\n is greater than "
<< "the parameter C-string." << endl;
cout << endl;
// The sixth member function compares part of
// an operand string to part of an equal length of
// a parameter C-string
int comp6a;
string s6o ( "AACAB" );
const char* cs6p = "ACAB";
cout << "The operand string is: " << s6o << endl;
cout << "The parameter C-string is: " << cs6p << endl;
comp6a = s6o.compare ( 1 , 3 , cs6p , 3 );
if ( comp6a < 0 )
cout << "The 3 characters from position 1 of "
<< "the operand string are less than\n "
<< "the first 3 characters of the parameter C-string."
<< endl;
else if ( comp6a == 0 )
cout << "The 3 characters from position 2 of "
<< "the operand string are equal to\n "
<< "the first 3 characters of the parameter C-string."
<< endl;
else
cout << "The 3 characters from position 2 of "
<< "the operand string is greater than\n "
<< "the first 3 characters of the parameter C-string."
<< endl;
cout << endl;
}
The operand string is: CAB
The parameter string is: CAB
The operand string is equal to the parameter string.
The operand string is: AACAB
The parameter string is: CAB
The last three characters of the operand string
are equal to the parameter string.
The first three characters of the operand string
are less than the parameter string.
The operand string is: AACAB
The parameter string is: DCABD
The three characters from position 2 of the operand string are equal to
the 3 characters parameter string from position 1.
The operand string is: ABC
The parameter C-string is: DEF
The operand string is less than the parameter C-string.
The operand string is: AACAB
The parameter string is: CAB
The last three characters of the operand string
are equal to the parameter C-string.
The operand string is: AACAB
The parameter C-string is: ACAB
The 3 characters from position 2 of the operand string are equal to
the first 3 characters of the parameter C-string.
basic_string::const_iterator
類型,提供可以存取和讀取字串中 const 元素的隨機存取迭代器。
typedef implementation-defined const_iterator;
備註
類型 const_iterator 無法用來修改字元的值,並且用來逐一查看正向的字串。
範例
如需如何宣告和使用 const_iterator的範例begin,請參閱範例。
basic_string::const_pointer
類型,提供字串中 const 元素的指標。
typedef typename allocator_type::const_pointer const_pointer;
備註
此類型是 allocator_type::const_pointer的同義字。
針對類型 string,它相當於 char*。
宣告 const 的指標必須在宣告時初始化。 Const 指標一律指向相同的記憶體位置,而且可能指向常數或非常數數據。
範例
// basic_string_const_ptr.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
basic_string<char>::const_pointer pstr1a = "In Here";
const char *cstr1c = "Out There";
cout << "The string pstr1a is: " << pstr1a << "." << endl;
cout << "The C-string cstr1c is: " << cstr1c << "." << endl;
}
The string pstr1a is: In Here.
The C-string cstr1c is: Out There.
basic_string::const_reference
類型,提供儲存在字串中供讀取和執行 const 作業之 const 元素的參考。
typedef typename allocator_type::const_reference const_reference;
備註
類型 const_reference 無法用來修改專案的值。
此類型是 allocator_type::const_reference的同義字。 針對類型 string,它相當於 const char&。
範例
如需如何宣告和使用 const_reference的範例at,請參閱範例。
basic_string::const_reverse_iterator
類型,提供可以讀取字串中任何 const 元素的隨機存取迭代器。
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
備註
類型 const_reverse_iterator 無法修改字元的值,並且用來反向逐一查看字串。
範例
如需如何宣告和使用 const_reverse_iterator的範例rbegin,請參閱範例。
basic_string::copy
從來源字串中的索引位置,最多複製指定的字元數到目標字元陣列。
此方法有賴於呼叫者檢查傳遞的值是否正確,因此可能不安全。 請考慮改用 basic_string::_Copy_s。
size_type copy(
value_type* ptr,
size_type count,
size_type offset = 0) const;
參數
ptr
要複製元素的目標字元陣列。
count 最多從來源字串複製的字元數。
offset
來源字串中要建立複本的開始位置。
傳回值
已複製的字元數。
備註
Null 字元不會附加至複本結尾。
範例
// basic_string_copy.cpp
// compile with: /EHsc /W3
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello World" );
basic_string <char>::iterator str_Iter;
char array1 [ 20 ] = { 0 };
char array2 [ 10 ] = { 0 };
basic_string <char>:: pointer array1Ptr = array1;
basic_string <char>:: value_type *array2Ptr = array2;
cout << "The original string str1 is: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
basic_string <char>:: size_type nArray1;
// Note: string::copy is potentially unsafe, consider
// using string::_Copy_s instead.
nArray1 = str1.copy ( array1Ptr , 12 ); // C4996
cout << "The number of copied characters in array1 is: "
<< nArray1 << endl;
cout << "The copied characters array1 is: " << array1 << endl;
basic_string <char>:: size_type nArray2;
// Note: string::copy is potentially unsafe, consider
// using string::_Copy_s instead.
nArray2 = str1.copy ( array2Ptr , 5 , 6 ); // C4996
cout << "The number of copied characters in array2 is: "
<< nArray2 << endl;
cout << "The copied characters array2 is: " << array2Ptr << endl;
}
The original string str1 is: Hello World
The number of copied characters in array1 is: 11
The copied characters array1 is: Hello World
The number of copied characters in array2 is: 5
The copied characters array2 is: World
basic_string::crbegin
傳回定址反轉字串中的第一個元素的 const 迭代器。
const_reverse_iterator crbegin() const;
傳回值
指向字串結尾之外的反向迭代器。 此位置會指定反向字串的開頭。
basic_string::crend
傳 const 回反覆運算器,尋址物件是反轉字串中最後一個項目之後的位置。
const_reverse_iterator crend() const;
傳回值
反向 const 反覆運算器,尋址對像是反轉字串中最後一個項目之後的位置(未反轉字串中第一個專案之前的位置)。
備註
basic_string::_Copy_s
從來源字串中的索引位置,最多複製指定的字元數到目標字元陣列。
size_type _Copy_s(
value_type* dest,
size_type dest_size,
size_type count,
size_type offset = 0) const;
參數
dest
要複製元素的目標字元陣列。
dest_size
dest 的大小。
count 最多從來源字串複製的字元數。
offset
來源字串中要建立複本的開始位置。
傳回值
已複製的字元數。
備註
Null 字元不會附加至複本結尾。 此函式Microsoft特定。
範例
// basic_string__Copy_s.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1("Hello World");
basic_string<char>::iterator str_Iter;
const int array1_size = 20;
char array1[array1_size] = { 0 };
const int array2_size = 10;
char array2[array2_size] = { 0 };
basic_string<char>:: pointer array1Ptr = array1;
basic_string<char>:: value_type *array2Ptr = array2;
cout << "The original string str1 is: ";
for (str_Iter = str1.begin(); str_Iter != str1.end(); str_Iter++)
cout << *str_Iter;
cout << endl;
basic_string<char>::size_type nArray1;
nArray1 = str1._Copy_s(array1Ptr, array1_size, 12);
cout << "The number of copied characters in array1 is: "
<< nArray1 << endl;
cout << "The copied characters array1 is: " << array1 << endl;
basic_string<char>:: size_type nArray2;
nArray2 = str1._Copy_s(array2Ptr, array2_size, 5, 6);
cout << "The number of copied characters in array2 is: "
<< nArray2 << endl;
cout << "The copied characters array2 is: " << array2Ptr << endl;
}
The original string str1 is: Hello World
The number of copied characters in array1 is: 11
The copied characters array1 is: Hello World
The number of copied characters in array2 is: 5
The copied characters array2 is: World
basic_string::data
將字串的內容轉換成以 Null 結尾的字元陣列。
const value_type *data() const noexcept;
value_type *data() noexcept;
傳回值
包含字串內容之 Null 終止數位之第一個項目的指標。 對於空字串,指標會指向等於 value_type()的單一 Null 字元。
備註
由指向有效範圍 [data(), data() + size()]所data傳回的指標。 範圍中的每個項目都會對應至字串中的目前數據。 也就是說,針對範圍中的每個有效位移 n , data() + n == addressof(operator[](n))。
如果您修改的多載data所const傳回字串的內容,則行為是未定義的。 如果終端機 Null 字元變更為任何其他值,您也會取得未定義的行為。 如果字串的非const 參考傳遞至標準連結庫函式,傳回的指標可能會失效。 呼叫非const 成員函式也可以使它失效。 對成員at、、、、frontendbeginrbegin、、、 rend和 operator[] 的呼叫不會使指標失效。 back
在C++11 之前, data 不保證傳回的字串是以 null 終止。 自 C++11 起, data 且 c_str 兩者都會傳回以 Null 結尾的字串,而且實際上都相同。
非const 多載在 C++17 中是新的。 若要使用它,請指定 /std:c++17 或更新版本的編譯程序選項。
範例
// basic_string_data.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" );
cout << "The original string object str1 is: "
<< str1 << endl;
cout << "The length of the string object str1 = "
<< str1.length ( ) << endl << endl;
// Converting a string to an array of characters
const char *ptr1 = 0;
ptr1= str1.data ( );
cout << "The modified string object ptr1 is: " << ptr1
<< endl;
cout << "The length of character array str1 = "
<< strlen ( ptr1) << endl << endl;
// Converting a string to a C-style string
const char *c_str1 = str1.c_str ( );
cout << "The C-style string c_str1 is: " << c_str1
<< endl;
cout << "The length of C-style string str1 = "
<< strlen ( c_str1) << endl << endl;
}
The original string object str1 is: Hello world
The length of the string object str1 = 11
The modified string object ptr1 is: Hello world
The length of character array str1 = 11
The C-style string c_str1 is: Hello world
The length of C-style string str1 = 11
basic_string::difference_type
類型,提供兩個指出相同字串內之元素的迭代器間的差異。
typedef typename allocator_type::difference_type difference_type;
備註
此帶正負號的整數類型所描述的物件可代表受控制序列中任何兩個項目位址之間的差距。
針對類型 string,它相當於 ptrdiff_t。
範例
// basic_string_diff_type.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "quintillion" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexChFi, indexChLi;
indexChFi = str1.find_first_of ( "i" );
indexChLi = str1.find_last_of ( "i" );
basic_string<char>::difference_type diffi = indexChLi - indexChFi;
cout << "The first character i is at position: "
<< indexChFi << "." << endl;
cout << "The last character i is at position: "
<< indexChLi << "." << endl;
cout << "The difference is: " << diffi << "." << endl;
}
The original string str1 is: quintillion
The first character i is at position: 2.
The last character i is at position: 8.
The difference is: 6.
basic_string::empty
測試字串是否包含字元。
bool empty() const;
傳回值
true 如果字串物件不包含任何字元,則為 ; false 如果至少有一個字元,則為 。
備註
成員函式相當於 size == 0。
範例
// basic_string_empty.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main() {
using namespace std;
bool b1, b2;
string str1 ("Hello world");
cout << "The original string object str1 is: " << str1 << endl;
b1 = str1.empty();
if (b1)
cout << "The string object str1 is empty." << endl;
else
cout << "The string object str1 is not empty." << endl;
cout << endl;
// An example of an empty string object
string str2;
b2 = str2.empty();
if (b2)
cout << "The string object str2 is empty." << endl;
else
cout << "The string object str2 is not empty." << endl;
}
basic_string::end
傳回定址字串中最後一個元素的下一個位置的迭代器。
const_iterator end() const;
iterator end();
傳回值
傳回隨機存取迭代器,為字串中最後一個元素的下一個位置定址。
備註
end 通常用來測試反覆運算器是否已到達其字串的結尾。 所 end 傳回的值不應該取值。
如果將 的 end 傳回值指派給 const_iterator,則無法修改字串物件。 如果 的傳回值 end 指派給 iterator,則可以修改字串物件。
範例
// basic_string_end.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "No way out." ), str2;
basic_string <char>::iterator str_Iter, str1_Iter, str2_Iter;
basic_string <char>::const_iterator str1_cIter;
str1_Iter = str1.end ( );
str1_Iter--;
str1_Iter--;
cout << "The last character-letter of the string str1 is: " << *str1_Iter << endl;
cout << "The full original string str1 is: " << str1 << endl;
// end used to test when an iterator has reached the end of its string
cout << "The string is now: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
// The dereferenced iterator can be used to modify a character
*str1_Iter = 'T';
cout << "The last character-letter of the modified str1 is now: "
<< *str1_Iter << endl;
cout << "The modified string str1 is now: " << str1 << endl;
// The following line would be an error because iterator is const
// *str1_cIter = 'T';
// For an empty string, end is equivalent to begin
if ( str2.begin( ) == str2.end ( ) )
cout << "The string str2 is empty." << endl;
else
cout << "The stringstr2 is not empty." << endl;
}
The last character-letter of the string str1 is: t
The full original string str1 is: No way out.
The string is now: No way out.
The last character-letter of the modified str1 is now: T
The modified string str1 is now: No way ouT.
The string str2 is empty.
basic_string::ends_with
檢查字串是否以指定的後綴結尾。
bool ends_with(const CharType c) const noexcept;
bool ends_with(const CharType* const x) const noexcept;
bool ends_with(const basic_string_view sv) const noexcept;
參數
c
要尋找的單一字元後綴。
sv
包含要尋找之後綴的字串檢視。
您可以傳遞 std::basic_string轉換成字串檢視的 。
x
包含要尋找之後綴的 Null 終止字元字串。
傳回值
true 如果字串以指定的後綴結尾,則為 ; false 否則。
備註
ends_with() 是 C++20 中的新功能。 若要使用它,請指定 /std:c++20 或更新版本的編譯程序選項。
請參閱 starts_with 檢查字串是否以指定的前置詞開頭。
範例
// Requires /std:c++20 or /std:c++latest
#include <string>
#include <iostream>
int main()
{
std::basic_string<char> str = "abcdefg";
std::cout << std::boolalpha; // so booleans show as 'true'/'false'
std::cout << str.ends_with('g') << '\n';
std::cout << str.ends_with("eFg") << '\n';
std::basic_string<char> str2 = "efg";
std::cout << str.ends_with(str2);
return 0;
}
true
false
true
basic_string::erase
從指定位置移除字串中的某個元素或某個元素範圍。
iterator erase(
iterator first,
iterator last);
iterator erase(
iterator iter);
basic_string<CharType, Traits, Allocator>& erase(
size_type offset = 0,
size_type count = npos);
參數
first
迭代器,為範圍中要清除之第一個元素的位置定址。
last
迭代器,為範圍中要清除之最後一個元素之後的位置定址。
iter
迭代器,為字串中要清除之元素的位置定址。
offset
字串中要移除之第一個字元的索引。
count
如果字串 offset範圍中的開頭為 ,將會移除的項目數目。
傳回值
若是前兩個成員函式,則為定址成員函式所移除的最後一個字元之後第一個字元的迭代器。 若是第三個成員函式,則為已清除元素之來源字串物件的參考。
備註
第三個成員函式會傳 *this回 。
範例
// basic_string_erase.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The 1st member function using a range demarcated
// by iterators
string str1 ( "Hello world" );
basic_string <char>::iterator str1_Iter;
cout << "The original string object str1 is: "
<< str1 << "." << endl;
str1_Iter = str1.erase ( str1.begin ( ) + 3 , str1.end ( ) - 1 );
cout << "The first element after those removed is: "
<< *str1_Iter << "." << endl;
cout << "The modified string object str1 is: " << str1
<< "." << endl << endl;
// The 2nd member function erasing a char pointed to
// by an iterator
string str2 ( "Hello World" );
basic_string <char>::iterator str2_Iter;
cout << "The original string object str2 is: " << str2
<< "." << endl;
str2_Iter = str2.erase ( str2.begin ( ) + 5 );
cout << "The first element after those removed is: "
<< *str2_Iter << "." << endl;
cout << "The modified string object str2 is: " << str2
<< "." << endl << endl;
// The 3rd member function erasing a number of chars
// after a char
string str3 ( "Hello computer" ), str3m;
basic_string <char>::iterator str3_Iter;
cout << "The original string object str3 is: "
<< str3 << "." << endl;
str3m = str3.erase ( 6 , 8 );
cout << "The modified string object str3m is: "
<< str3m << "." << endl;
}
The original string object str1 is: Hello world.
The first element after those removed is: d.
The modified string object str1 is: Held.
The original string object str2 is: Hello World.
The first element after those removed is: W.
The modified string object str2 is: HelloWorld.
The original string object str3 is: Hello computer.
The modified string object str3m is: Hello .
basic_string::find
以正向方向搜尋字串中,第一個符合指定之字元序列的子字串。
size_type find(
value_type char_value,
size_type offset = 0) const;
size_type find(
const value_type* ptr,
size_type offset = 0) const;
size_type find(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type find(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = 0) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
開始搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為搜尋的子字串的第一個字元的索引,否則為 npos。
範例
// basic_string_find.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "Hello Everyone" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
indexCh1a = str1.find ( "e" , 3 );
if (indexCh1a != string::npos )
cout << "The index of the 1st 'e' found after the 3rd"
<< " position in str1 is: " << indexCh1a << endl;
else
cout << "The character 'e' was not found in str1 ." << endl;
indexCh1b = str1.find ( "x" );
if (indexCh1b != string::npos )
cout << "The index of the 'x' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The Character 'x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for a substring as specified by a C-string
string str2 ( "Let me make this perfectly clear." );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "perfect";
indexCh2a = str2.find ( cstr2 , 5 );
if ( indexCh2a != string::npos )
cout << "The index of the 1st element of 'perfect' "
<< "after\n the 5th position in str2 is: "
<< indexCh2a << endl;
else
cout << "The substring 'perfect' was not found in str2 ."
<< endl;
const char *cstr2b = "imperfectly";
indexCh2b = str2.find ( cstr2b , 0 );
if (indexCh2b != string::npos )
cout << "The index of the 1st element of 'imperfect' "
<< "after\n the 5th position in str3 is: "
<< indexCh2b << endl;
else
cout << "The substring 'imperfect' was not found in str2 ."
<< endl << endl;
// The third member function searches a string
// for a substring as specified by a C-string
string str3 ( "This is a sample string for this program" );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a, indexCh3b;
const char *cstr3a = "sample";
indexCh3a = str3.find ( cstr3a );
if ( indexCh3a != string::npos )
cout << "The index of the 1st element of sample "
<< "in str3 is: " << indexCh3a << endl;
else
cout << "The substring 'sample' was not found in str3 ."
<< endl;
const char *cstr3b = "for";
indexCh3b = str3.find ( cstr3b , indexCh3a + 1 , 2 );
if (indexCh3b != string::npos )
cout << "The index of the next occurrence of 'for' is in "
<< "str3 begins at: " << indexCh3b << endl << endl;
else
cout << "There is no next occurrence of 'for' in str3 ."
<< endl << endl;
// The fourth member function searches a string
// for a substring as specified by a string
string str4 ( "clearly this perfectly unclear." );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "clear" );
indexCh4a = str4.find ( str4a , 5 );
if ( indexCh4a != string::npos )
cout << "The index of the 1st element of 'clear' "
<< "after\n the 5th position in str4 is: "
<< indexCh4a << endl;
else
cout << "The substring 'clear' was not found in str4 ."
<< endl;
string str4b ( "clear" );
indexCh4b = str4.find ( str4b );
if (indexCh4b != string::npos )
cout << "The index of the 1st element of 'clear' "
<< "in str4 is: "
<< indexCh4b << endl;
else
cout << "The substring 'clear' was not found in str4 ."
<< endl << endl;
}
The original string str1 is: Hello Everyone
The index of the 1st 'e' found after the 3rd position in str1 is: 8
The Character 'x' was not found in str1.
The original string str2 is: Let me make this perfectly clear.
The index of the 1st element of 'perfect' after
the 5th position in str2 is: 17
The substring 'imperfect' was not found in str2 .
The original string str3 is: This is a sample string for this program
The index of the 1st element of sample in str3 is: 10
The index of the next occurrence of 'for' is in str3 begins at: 24
The original string str4 is: clearly this perfectly unclear.
The index of the 1st element of 'clear' after
the 5th position in str4 is: 25
The index of the 1st element of 'clear' in str4 is: 0
basic_string::find_first_not_of
在字串中搜尋不是指定字串之專案的第一個字元。
size_type find_first_not_of(
value_type char_value,
size_type offset = 0) const;
size_type find_first_not_of(
const value_type* ptr,
size_type offset = 0) const;
size_type find_first_not_of(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type find_first_not_of(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = 0) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
開始搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為搜尋的子字串的第一個字元的索引,否則為 npos。
範例
// basic_string_find_first_not_of.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "xddd-1234-abcd" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
static const basic_string <char>::size_type npos = -1;
indexCh1a = str1.find_first_not_of ( "d" , 2 );
if ( indexCh1a != npos )
cout << "The index of the 1st 'd' found after the 3rd"
<< " position in str1 is: " << indexCh1a << endl;
else
cout << "The character 'd' was not found in str1 ." << endl;
indexCh1b = str1.find_first_not_of ( "x" );
if (indexCh1b != npos )
cout << "The index of the 'non x' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The character 'non x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for a substring as specified by a C-string
string str2 ( "BBB-1111" );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "B1";
indexCh2a = str2.find_first_not_of ( cstr2 , 6 );
if ( indexCh2a != npos )
cout << "The index of the 1st occurrence of an "
<< "element of 'B1' in str2 after\n the 6th "
<< "position is: " << indexCh2a << endl;
else
cout << "Elements of the substring 'B1' were not"
<< "\n found in str2 after the 6th position."
<< endl;
const char *cstr2b = "B2";
indexCh2b = str2.find_first_not_of ( cstr2b );
if ( indexCh2b != npos )
cout << "The index of the 1st element of 'B2' "
<< "after\n the 0th position in str2 is: "
<< indexCh2b << endl << endl;
else
cout << "The substring 'B2' was not found in str2 ."
<< endl << endl << endl;
// The third member function searches a string
// for a substring as specified by a C-string
string str3 ( "444-555-GGG" );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a, indexCh3b;
const char *cstr3a = "45G";
indexCh3a = str3.find_first_not_of ( cstr3a );
if ( indexCh3a != npos )
cout << "The index of the 1st occurrence of an "
<< "element in str3\n other than one of the "
<< "characters in '45G' is: " << indexCh3a
<< endl;
else
cout << "Elements in str3 contain only characters "
<< " in the string '45G'. "
<< endl;
const char *cstr3b = "45G";
indexCh3b = str3.find_first_not_of ( cstr3b , indexCh3a + 1 , 2 );
if ( indexCh3b != npos )
cout << "The index of the second occurrence of an "
<< "element of '45G' in str3\n after the 0th "
<< "position is: " << indexCh3b << endl << endl;
else
cout << "Elements in str3 contain only characters "
<< " in the string '45G'. "
<< endl << endl;
// The fourth member function searches a string
// for a substring as specified by a string
string str4 ( "12-ab-12-ab" );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "ba3" );
indexCh4a = str4.find_first_not_of ( str4a , 5 );
if (indexCh4a != npos )
cout << "The index of the 1st non occurrence of an "
<< "element of 'ba3' in str4 after\n the 5th "
<< "position is: " << indexCh4a << endl;
else
cout << "Elements other than those in the substring"
<< " 'ba3' were not found in the string str4."
<< endl;
string str4b ( "12" );
indexCh4b = str4.find_first_not_of ( str4b );
if (indexCh4b != npos )
cout << "The index of the 1st non occurrence of an "
<< "element of '12' in str4 after\n the 0th "
<< "position is: " << indexCh4b << endl;
else
cout << "Elements other than those in the substring"
<< " '12' were not found in the string str4."
<< endl;
}
The original string str1 is: xddd-1234-abcd
The index of the 1st 'd' found after the 3rd position in str1 is: 4
The index of the 'non x' found in str1 is: 1
The original string str2 is: BBB-1111
Elements of the substring 'B1' were not
found in str2 after the 6th position.
The index of the 1st element of 'B2' after
the 0th position in str2 is: 3
The original string str3 is: 444-555-GGG
The index of the 1st occurrence of an element in str3
other than one of the characters in '45G' is: 3
The index of the second occurrence of an element of '45G' in str3
after the 0th position is: 7
The original string str4 is: 12-ab-12-ab
The index of the 1st non occurrence of an element of 'ba3' in str4 after
the 5th position is: 5
The index of the 1st non occurrence of an element of '12' in str4 after
the 0th position is: 2
basic_string::find_first_of
搜尋字串中,符合指定字串之任何元素的第一個字元。
size_type find_first_of(
value_type char_value,
size_type offset = 0) const;
size_type find_first_of(
const value_type* ptr,
size_type offset = 0) const;
size_type find_first_of(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type find_first_of(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = 0) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
開始搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為搜尋的子字串的第一個字元的索引,否則為 npos。
範例
// basic_string_find_first_of.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "abcd-1234-abcd-1234" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
static const basic_string <char>::size_type npos = -1;
indexCh1a = str1.find_first_of ( "d" , 5 );
if ( indexCh1a != npos )
cout << "The index of the 1st 'd' found after the 5th"
<< " position in str1 is: " << indexCh1a << endl;
else
cout << "The character 'd' was not found in str1 ." << endl;
indexCh1b = str1.find_first_of ( "x" );
if ( indexCh1b != npos )
cout << "The index of the 'x' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The character 'x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for any element of a substring as specified by a C-string
string str2 ( "ABCD-1234-ABCD-1234" );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "B1";
indexCh2a = str2.find_first_of ( cstr2 , 6 );
if ( indexCh2a != npos )
cout << "The index of the 1st occurrence of an "
<< "element of 'B1' in str2 after\n the 6th "
<< "position is: " << indexCh2a << endl;
else
cout << "Elements of the substring 'B1' were not "
<< "found in str2 after the 10th position."
<< endl;
const char *cstr2b = "D2";
indexCh2b = str2.find_first_of ( cstr2b );
if ( indexCh2b != npos )
cout << "The index of the 1st element of 'D2' "
<< "after\n the 0th position in str2 is: "
<< indexCh2b << endl << endl;
else
cout << "The substring 'D2' was not found in str2 ."
<< endl << endl << endl;
// The third member function searches a string
// for any element of a substring as specified by a C-string
string str3 ( "123-abc-123-abc-456-EFG-456-EFG" );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a, indexCh3b;
const char *cstr3a = "5G";
indexCh3a = str3.find_first_of ( cstr3a );
if ( indexCh3a != npos )
cout << "The index of the 1st occurrence of an "
<< "element of '5G' in str3 after\n the 0th "
<< "position is: " << indexCh3a << endl;
else
cout << "Elements of the substring '5G' were not "
<< "found in str3\n after the 0th position."
<< endl;
const char *cstr3b = "5GF";
indexCh3b = str3.find_first_of ( cstr3b , indexCh3a + 1 , 2 );
if (indexCh3b != npos )
cout << "The index of the second occurrence of an "
<< "element of '5G' in str3\n after the 0th "
<< "position is: " << indexCh3b << endl << endl;
else
cout << "Elements of the substring '5G' were not "
<< "found in str3\n after the first occurrrence."
<< endl << endl;
// The fourth member function searches a string
// for any element of a substring as specified by a string
string str4 ( "12-ab-12-ab" );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "ba3" );
indexCh4a = str4.find_first_of ( str4a , 5 );
if ( indexCh4a != npos )
cout << "The index of the 1st occurrence of an "
<< "element of 'ba3' in str4 after\n the 5th "
<< "position is: " << indexCh4a << endl;
else
cout << "Elements of the substring 'ba3' were not "
<< "found in str4\n after the 0th position."
<< endl;
string str4b ( "a2" );
indexCh4b = str4.find_first_of ( str4b );
if ( indexCh4b != npos )
cout << "The index of the 1st occurrence of an "
<< "element of 'a2' in str4 after\n the 0th "
<< "position is: " << indexCh4b << endl;
else
cout << "Elements of the substring 'a2' were not "
<< "found in str4\n after the 0th position."
<< endl;
}
The original string str1 is: abcd-1234-abcd-1234
The index of the 1st 'd' found after the 5th position in str1 is: 13
The character 'x' was not found in str1.
The original string str2 is: ABCD-1234-ABCD-1234
The index of the 1st occurrence of an element of 'B1' in str2 after
the 6th position is: 11
The index of the 1st element of 'D2' after
the 0th position in str2 is: 3
The original string str3 is: 123-abc-123-abc-456-EFG-456-EFG
The index of the 1st occurrence of an element of '5G' in str3 after
the 0th position is: 17
The index of the second occurrence of an element of '5G' in str3
after the 0th position is: 22
The original string str4 is: 12-ab-12-ab
The index of the 1st occurrence of an element of 'ba3' in str4 after
the 5th position is: 9
The index of the 1st occurrence of an element of 'a2' in str4 after
the 0th position is: 1
basic_string::find_last_not_of
在字串中搜尋不是指定字串的任何項目的最後一個字元。
size_type find_last_not_of(
value_type char_value,
size_type offset = npos) const;
size_type find_last_not_of(
const value_type* ptr,
size_type offset = npos) const;
size_type find_last_not_of(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type find_last_not_of(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = npos) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
完成搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為搜尋的子字串的第一個字元的索引,否則為 npos。
範例
// basic_string_find_last_not_of.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "dddd-1dd4-abdd" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
static const basic_string <char>::size_type npos = -1;
indexCh1a = str1.find_last_not_of ( "d" , 7 );
if ( indexCh1a != npos )
cout << "The index of the last non 'd'\n found before the "
<< "7th position in str1 is: " << indexCh1a << endl;
else
cout << "The non 'd' character was not found ." << endl;
indexCh1b = str1.find_last_not_of ( "d" );
if ( indexCh1b != npos )
cout << "The index of the non 'd' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The Character 'non x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for a substring as specified by a C-string
string str2 ( "BBB-1111" );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "B1";
indexCh2a = str2.find_last_not_of ( cstr2 , 6 );
if ( indexCh2a != npos )
cout << "The index of the last occurrence of a "
<< "element\n not of 'B1' in str2 before the 6th "
<< "position is: " << indexCh2a << endl;
else
cout << "Elements not of the substring 'B1' were not "
<< "\n found in str2 before the 6th position."
<< endl;
const char *cstr2b = "B-1";
indexCh2b = str2.find_last_not_of ( cstr2b );
if ( indexCh2b != npos )
cout << "The index of the last element not "
<< "in 'B-1'\n is: "
<< indexCh2b << endl << endl;
else
cout << "The elements of the substring 'B-1' were "
<< "not found in str2 ."
<< endl << endl;
// The third member function searches a string
// for a substring as specified by a C-string
string str3 ( "444-555-GGG" );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a, indexCh3b;
const char *cstr3a = "45G";
indexCh3a = str3.find_last_not_of ( cstr3a );
if ( indexCh3a != npos )
cout << "The index of the last occurrence of an "
<< "element in str3\n other than one of the "
<< "characters in '45G' is: " << indexCh3a
<< endl;
else
cout << "Elements in str3 contain only characters "
<< " in the string '45G'. "
<< endl;
const char *cstr3b = "45G";
indexCh3b = str3.find_last_not_of ( cstr3b , 6 , indexCh3a - 1 );
if (indexCh3b != npos )
cout << "The index of the penultimate occurrence of an "
<< "element\n not in '45G' in str3 is: "
<< indexCh3b << endl << endl;
else
cout << "Elements in str3 contain only characters "
<< " in the string '45G'. "
<< endl << endl;
// The fourth member function searches a string
// for a substring as specified by a string
string str4 ( "12-ab-12-ab" );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "b-a" );
indexCh4a = str4.find_last_not_of ( str4a , 5 );
if ( indexCh4a != npos )
cout << "The index of the last occurrence of an "
<< "element not\n in 'b-a' in str4 before the 5th "
<< "position is: " << indexCh4a << endl;
else
cout << "Elements other than those in the substring"
<< " 'b-a' were not found in the string str4."
<< endl;
string str4b ( "12" );
indexCh4b = str4.find_last_not_of ( str4b );
if ( indexCh4b != npos )
cout << "The index of the last occurrence of an "
<< "element not in '12'\n in str4 before the end "
<< "position is: " << indexCh4b << endl;
else
cout << "Elements other than those in the substring"
<< " '12'\n were not found in the string str4."
<< endl;
}
The original string str1 is: dddd-1dd4-abdd
The index of the last non 'd'
found before the 7th position in str1 is: 5
The index of the non 'd' found in str1 is: 11
The original string str2 is: BBB-1111
The index of the last occurrence of a element
not of 'B1' in str2 before the 6th position is: 3
The elements of the substring 'B-1' were not found in str2 .
The original string str3 is: 444-555-GGG
The index of the last occurrence of an element in str3
other than one of the characters in '45G' is: 7
The index of the penultimate occurrence of an element
not in '45G' in str3 is: 3
The original string str4 is: 12-ab-12-ab
The index of the last occurrence of an element not
in 'b-a' in str4 before the 5th position is: 1
The index of the last occurrence of an element not in '12'
in str4 before the end position is: 10
basic_string::find_last_of
搜尋字串中,符合指定字串之任何元素的最後一個字元。
size_type find_last_of(
value_type char_value,
size_type offset = npos) const;
size_type find_last_of(
const value_type* ptr,
size_type offset = npos) const;
size_type find_last_of(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type find_last_of(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = npos) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
完成搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為搜尋的子字串的最後一個字元的索引;否則為 npos。
範例
// basic_string_find_last_of.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "abcd-1234-abcd-1234" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
static const basic_string <char>::size_type npos = -1;
indexCh1a = str1.find_last_of ( "d" , 14 );
if ( indexCh1a != npos )
cout << "The index of the last 'd' found before the 14th"
<< " position in str1 is: " << indexCh1a << endl;
else
cout << "The character 'd' was not found in str1 ." << endl;
indexCh1b = str1.find_first_of ( "x" );
if ( indexCh1b != npos )
cout << "The index of the 'x' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The character 'x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for a substring as specified by a C-string
string str2 ( "ABCD-1234-ABCD-1234" );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "B1";
indexCh2a = str2.find_last_of ( cstr2 , 12 );
if (indexCh2a != npos )
cout << "The index of the last occurrence of an "
<< "element of 'B1' in str2 before\n the 12th "
<< "position is: " << indexCh2a << endl;
else
cout << "Elements of the substring 'B1' were not "
<< "found in str2 before the 12th position."
<< endl;
const char *cstr2b = "D2";
indexCh2b = str2.find_last_of ( cstr2b );
if ( indexCh2b != npos )
cout << "The index of the last element of 'D2' "
<< "after\n the 0th position in str2 is: "
<< indexCh2b << endl << endl;
else
cout << "The substring 'D2' was not found in str2 ."
<< endl << endl << endl;
// The third member function searches a string
// for a substring as specified by a C-string
string str3 ( "456-EFG-456-EFG" );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a;
const char *cstr3a = "5E";
indexCh3a = str3.find_last_of ( cstr3a , 8 , 8 );
if ( indexCh3a != npos )
cout << "The index of the last occurrence of an "
<< "element of '5E' in str3 before\n the 8th "
<< "position is: " << indexCh3a << endl << endl;
else
cout << "Elements of the substring '5G' were not "
<< "found in str3\n before the 8th position."
<< endl << endl;
// The fourth member function searches a string
// for a substring as specified by a string
string str4 ( "12-ab-12-ab" );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "ba3" );
indexCh4a = str4.find_last_of ( str4a , 8 );
if ( indexCh4a != npos )
cout << "The index of the last occurrence of an "
<< "element of 'ba3' in str4 before\n the 8th "
<< "position is: " << indexCh4a << endl;
else
cout << "Elements of the substring 'ba3' were not "
<< "found in str4\n after the 0th position."
<< endl;
string str4b ( "a2" );
indexCh4b = str4.find_last_of ( str4b );
if ( indexCh4b != npos )
cout << "The index of the last occurrence of an "
<< "element of 'a2' in str4 before\n the 0th "
<< "position is: " << indexCh4b << endl;
else
cout << "Elements of the substring 'a2' were not "
<< "found in str4\n after the 0th position."
<< endl;
}
The original string str1 is: abcd-1234-abcd-1234
The index of the last 'd' found before the 14th position in str1 is: 13
The character 'x' was not found in str1.
The original string str2 is: ABCD-1234-ABCD-1234
The index of the last occurrence of an element of 'B1' in str2 before
the 12th position is: 11
The index of the last element of 'D2' after
the 0th position in str2 is: 16
The original string str3 is: 456-EFG-456-EFG
The index of the last occurrence of an element of '5E' in str3 before
the 8th position is: 4
The original string str4 is: 12-ab-12-ab
The index of the last occurrence of an element of 'ba3' in str4 before
the 8th position is: 4
The index of the last occurrence of an element of 'a2' in str4 before
the 0th position is: 9
basic_string::front
傳回字串中第一個元素的參考。
const_reference front() const;
reference front();
傳回值
字串的第一個項目參考,必須是非空白。
備註
basic_string::get_allocator
傳回用來建構字串的配置器物件複本。
allocator_type get_allocator() const;
傳回值
字串使用的配置器。
備註
這個成員函式會傳回儲存的配置器物件。
供字串類別用於指定類別如何管理儲存的配置器。 預設配置器所提供的容器類別,已足夠大多數的程式設計需求。 撰寫和使用您自己的配置器類別是進階C++功能。
範例
// basic_string_get_allocator.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The following lines declare objects
// that use the default allocator.
string s1;
basic_string <char> s2;
basic_string <char, char_traits< char >, allocator< char > > s3;
// s4 will use the same allocator class as s1
basic_string <char> s4( s1.get_allocator ( ) );
basic_string <char>::allocator_type xchar = s1.get_allocator( );
// You can now call functions on the allocator class xchar used by s1
}
basic_string::insert
將元素、數個專案或專案範圍插入字串中指定的位置。
basic_string<CharType, Traits, Allocator>& insert(
size_type position,
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& insert(
size_type position,
const value_type* ptr,
size_type count);
basic_string<CharType, Traits, Allocator>& insert(
size_type position,
const basic_string<CharType, Traits, Allocator>& str);
basic_string<CharType, Traits, Allocator>& insert(
size_type position,
const basic_string<CharType, Traits, Allocator>& str,
size_type offset,
size_type count);
basic_string<CharType, Traits, Allocator>& insert(
size_type position,
size_type count,
value_type char_value);
iterator insert(
iterator iter);
iterator insert(
iterator iter,
value_type char_value)l
template <class InputIterator>
void insert(
iterator iter,
InputIterator first,
InputIterator last);
void insert(
iterator iter,
size_type count,
value_type char_value);
void insert(
iterator iter,
const_pointer first,
const_pointer last);
void insert(
iterator iter,
const_iterator first,
const_iterator last);
參數
position
新字元插入點後面位置的索引。
ptr
要全部或部分插入字串的 C 字串。
count
要插入的字元數。
str
要全部或部分插入目標字串的字串。
offset
提供要附加之字元的部分來源字串組件的索引。
char_value
要插入之項目的字元值。
iter
迭代器,為要在其後插入字元的位置定址。
first
輸入反覆運算器, const_pointer或 const_iterator 尋址要插入之來源範圍中的第一個專案。
last
輸入反覆運算器, const_pointer或 const_iterator 尋址要插入之來源範圍中最後一個專案以外的位置。
傳回值
傳回值的函式會傳回下列其中一項:
- 包含
basic_string原始字串加上新字元之的參考。 - 插入字元開頭的反覆運算器。
範例
// basic_string_insert.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function inserting a C-string
// at a given position
basic_string <char> str1a ( "way" );
const char *cstr1a = "a";
str1a.insert ( 0, cstr1a );
cout << "The string with a C-string inserted at position 0 is: "
<< str1a << "." << endl;
// The second member function inserting a C-string
// at a given position for a specified number of elements
basic_string <char> str2a ( "Good" );
const char *cstr2a = "Bye Bye Baby";
str2a.insert ( 4, cstr2a ,3 );
cout << "The string with a C-string inserted at the end is: "
<< str2a << "." << endl;
// The third member function inserting a string
// at a given position
basic_string <char> str3a ( "Bye" );
string str3b ( "Good" );
str3a.insert ( 0, str3b );
cout << "The string with a string inserted at position 0 is: "
<< str3a << "." << endl;
// The fourth member function inserting part of
// a string at a given position
basic_string <char> str4a ( "Good " );
string str4b ( "Bye Bye Baby" );
str4a.insert ( 5, str4b , 8 , 4 );
cout << "The string with part of a string inserted at position 4 is: "
<< str4a << "." << endl;
// The fifth member function inserts a number of characters
// at a specified position in the string
string str5 ( "The number is: ." );
str5.insert ( 15 , 3 , '3' );
cout << "The string with characters inserted is: "
<< str5 << endl;
// The sixth member function inserts a character
// at a specified position in the string
string str6 ( "ABCDFG" );
basic_string <char>::iterator str6_Iter = ( str6.begin ( ) + 4 );
str6.insert ( str6_Iter , 'e' );
cout << "The string with a character inserted is: "
<< str6 << endl;
// The seventh member function inserts a range
// at a specified position in the string
string str7a ( "ABCDHIJ" );
string str7b ( "abcdefgh" );
basic_string <char>::iterator str7a_Iter = (str7a.begin ( ) + 4 );
str7a.insert ( str7a_Iter , str7b.begin ( ) + 4 , str7b.end ( ) -1 );
cout << "The string with a character inserted from a range is: "
<< str7a << endl;
// The eighth member function inserts a number of
// characters at a specified position in the string
string str8 ( "ABCDHIJ" );
basic_string <char>::iterator str8_Iter = ( str8.begin ( ) + 4 );
str8.insert ( str8_Iter , 3 , 'e' );
cout << "The string with a character inserted from a range is: "
<< str8 << endl;
}
The string with a C-string inserted at position 0 is: away.
The string with a C-string inserted at the end is: GoodBye.
The string with a string inserted at position 0 is: GoodBye.
The string with part of a string inserted at position 4 is: Good Baby.
The string with characters inserted is: The number is: 333.
The string with a character inserted is: ABCDeFG
The string with a character inserted from a range is: ABCDefgHIJ
The string with a character inserted from a range is: ABCDeeeHIJ
basic_string::iterator
類型,提供可以存取和讀取字串中 const 元素的隨機存取迭代器。
typedef implementation-defined iterator;
備註
類型 iterator 可用來修改字元的值,並用來逐一查看正向的字串。
範例
如需如何宣告和使用 iterator的範例begin,請參閱範例。
basic_string::length
傳回字串中目前的元素數目。
size_type length() const;
備註
成員函式與 size相同。
範例
// basic_string_length.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world");
cout << "The original string str1 is: " << str1 << endl;
// The size and length member functions differ in name only
basic_string <char>::size_type sizeStr1, lenStr1;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
basic_string <char>::size_type capStr1, max_sizeStr1;
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of original string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of original string str1 is: "
<< max_sizeStr1 << "." << endl << endl;
str1.erase ( 6, 5 );
cout << "The modified string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
// after erasing part of the original string
cout << "The current size of modified string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of modified string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of modified string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of modified string str1 is: "
<< max_sizeStr1 << "." << endl;
}
basic_string::max_size
傳回字串中可能包含的字元數上限。
size_type max_size() const;
傳回值
字串中可能包含的字元數上限。
備註
當作業產生長度大於大小上限的字串時,會擲回 Class 類型的length_error例外狀況。
範例
// basic_string_max_size.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world");
cout << "The original string str1 is: " << str1 << endl;
// The size and length member functions differ in name only
basic_string <char>::size_type sizeStr1, lenStr1;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
basic_string <char>::size_type capStr1, max_sizeStr1;
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of original string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of original string str1 is: "
<< max_sizeStr1 << "." << endl << endl;
str1.erase ( 6, 5 );
cout << "The modified string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
// after erasing part of the original string
cout << "The current size of modified string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of modified string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of modified string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of modified string str1 is: "
<< max_sizeStr1 << "." << endl;
}
basic_string::npos
初始化為 -1 的不帶正負號整數值,表示搜尋函式失敗時「找不到」或「所有剩餘字元」。
static const size_type npos = -1;
備註
當傳回值要檢查npos的值時,除非傳回值的類型size_typeint不是 或 unsigned,否則它可能無法運作。
範例
如需如何宣告和使用 npos的範例find,請參閱範例。
basic_string::operator+=
將字元附加至字串。
basic_string<CharType, Traits, Allocator>& operator+=(
value_type char_value);
basic_string<CharType, Traits, Allocator>& operator+=(
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& operator+=(
const basic_string<CharType, Traits, Allocator>& right);
參數
char_value
要附加的字元。
ptr
要附加之 C 字串的字元。
right
要附加之字串的字元。
傳回值
正在附加成員函式所傳遞字元之字串物件的參考。
備註
字元可以使用 或成員函append式或 push_back附加至字串operator+=。 operator+= 會附加單一引數值,而多引數 append 成員函式則允許指定要新增的特定字串部分。
範例
// basic_string_op_app.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// appending a single character to a string
string str1a ( "Hello" );
cout << "The original string str1 is: " << str1a << endl;
str1a += '!' ;
cout << "The string str1 appended with an exclamation is: "
<< str1a << endl << endl;
// The second member function
// appending a C-string to a string
string str1b ( "Hello " );
const char *cstr1b = "Out There";
cout << "The C-string cstr1b is: " << cstr1b << endl;
str1b += cstr1b;
cout << "Appending the C-string cstr1b to string str1 gives: "
<< str1b << "." << endl << endl;
// The third member function
// appending one string to another in two ways,
// comparing append and operator [ ]
string str1d ( "Hello " ), str2d ( "Wide " ), str3d ( "World" );
cout << "The string str2d is: " << str2d << endl;
str1d.append ( str2d );
cout << "The appended string str1d is: "
<< str1d << "." << endl;
str1d += str3d;
cout << "The doubly appended strig str1 is: "
<< str1d << "." << endl << endl;
}
The original string str1 is: Hello
The string str1 appended with an exclamation is: Hello!
The C-string cstr1b is: Out There
Appending the C-string cstr1b to string str1 gives: Hello Out There.
The string str2d is: Wide
The appended string str1d is: Hello Wide .
The doubly appended strig str1 is: Hello Wide World.
basic_string::operator=
將新的字元值指派給字串的內容。
basic_string<CharType, Traits, Allocator>& operator=(
value_type char_value);
basic_string<CharType, Traits, Allocator>& operator=(
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& operator=(
const basic_string<CharType, Traits, Allocator>& right);
basic_string<CharType, Traits, Allocator>& operator=(
const basic_string<CharType, Traits, Allocator>&& right);
參數
char_value
要指派的字元值。
ptr
要指派給目標字串之 C 字串的字元指標。
right
其字元要指派給目標字串的來源字串。
傳回值
正由成員函式指派新字元之字串物件的參考。
備註
字串可以指派新的字元值。 新的值可以是字串和 C 字串,或是單一字元。 operator=如果單一參數可以描述新值,則可以使用 ,否則具有多個參數的成員函assign式可用來指定要指派給目標字串的字串部分。
範例
// basic_string_op_assign.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function assigning a
// character of a certain value to a string
string str1a ( "Hello " );
str1a = '0';
cout << "The string str1 assigned with the zero character is: "
<< str1a << endl << endl;
// The second member function assigning the
// characters of a C-string to a string
string str1b;
const char *cstr1b = "Out There";
cout << "The C-string cstr1b is: " << cstr1b << "." << endl;
str1b = cstr1b;
cout << "Assigning the C-string cstr1a to string str1 gives: "
<< str1b << "." << endl << endl;
// The third member function assigning the characters
// from one string to another string in two equivalent
// ways, comparing the assign and operator =
string str1c ( "Hello" ), str2c ( "Wide" ), str3c ( "World" );
cout << "The original string str1 is: " << str1c << "." << endl;
cout << "The string str2c is: " << str2c << "." << endl;
str1c.assign ( str2c );
cout << "The string str1 newly assigned with string str2c is: "
<< str1c << "." << endl;
cout << "The string str3c is: " << str3c << "." << endl;
str1c = str3c;
cout << "The string str1 reassigned with string str3c is: "
<< str1c << "." << endl << endl;
}
The string str1 assigned with the zero character is: 0
The C-string cstr1b is: Out There.
Assigning the C-string cstr1a to string str1 gives: Out There.
The original string str1 is: Hello.
The string str2c is: Wide.
The string str1 newly assigned with string str2c is: Wide.
The string str3c is: World.
The string str1 reassigned with string str3c is: World.
basic_string::operator[]
使用字串中的指定索引,提供字元的參考。
const_reference operator[](size_type offset) const;
reference operator[](size_type offset);
參數
offset
要參考之元素的位置索引。
傳回值
位於參數索引所指定之位置的字串字元參考。
備註
字串的第一個元素具有零的索引,而下列元素會依正整數連續編製索引。 這表示長度 n 的字串有 n個元素,由數位 n - 1 編製索引。
operator[] 比成員函 at 式提供字串元素的讀取和寫入存取更快。
operator[] 不會檢查傳遞為參數的索引是否有效,但成員函 at 式在有效性中應該使用,因此不確定。 傳遞至成員函 at 式的索引無效(索引小於零或大於或等於字元串的大小),會 out_of_range 擲回 Class 例外狀況。 傳遞給 operator[] 的索引若無效會導致未定義的行為,但等於字串長度的索引是 const 字串的有效索引,而且當傳遞此索引時,運算子會傳回 Null 字元。
傳回的參考可能會因為字串重新配置或修改非const 字串而失效。
使用 設定為 1 或 2 進行 _ITERATOR_DEBUG_LEVEL 編譯時,如果您嘗試存取超出字串界限的專案,就會發生運行時錯誤。 如需詳細資訊,請參閱 Checked Iterators。
範例
// basic_string_op_ref.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" ), str2 ( "Goodbye world" );
const string cstr1 ( "Hello there" ), cstr2 ( "Goodbye now" );
cout << "The original string str1 is: " << str1 << endl;
cout << "The original string str2 is: " << str2 << endl;
// Element access to the non-const strings
basic_string <char>::reference refStr1 = str1 [6];
basic_string <char>::reference refStr2 = str2.at ( 3 );
cout << "The character with an index of 6 in string str1 is: "
<< refStr1 << "." << endl;
cout << "The character with an index of 3 in string str2 is: "
<< refStr2 << "." << endl;
// Element access to the const strings
basic_string <char>::const_reference crefStr1 = cstr1 [ cstr1.length ( ) ];
basic_string <char>::const_reference crefStr2 = cstr2.at ( 8 );
if ( crefStr1 == '\0' )
cout << "The null character is returned as a valid reference."
<< endl;
else
cout << "The null character is not returned." << endl;
cout << "The character with index of 8 in the const string cstr2 is: "
<< crefStr2 << "." << endl;
}
basic_string::pointer
類型,提供字串或字元陣列中之字元元素的指標。
typedef typename allocator_type::pointer pointer;
備註
此類型是 allocator_type::pointer的同義字。
針對類型 string,它相當於 char *。
範例
// basic_string_pointer.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
basic_string<char>::pointer pstr1a = "In Here";
char *cstr1b = "Out There";
cout << "The string pstr1a is: " << pstr1a << "." << endl;
cout << "The C-string cstr1b is: " << cstr1b << "." << endl;
}
The string pstr1a is: In Here.
The C-string cstr1b is: Out There.
basic_string::pop_back
清除字串的最後一個元素。
void pop_back();
備註
這個成員函式可有效地呼叫 erase(size() - 1) 來清除序列的最後一個項目,其必須是非空白。
basic_string::push_back
將元素加入至字串結尾。
void push_back(value_type char_value);
參數
char_value
要新增至字串結尾的字元。
備註
成員函式實際上會呼叫 insert( end, char_value )。 如需詳細資訊,請參閱 insert 和 end。
範例
// basic_string_push_back.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "abc" );
basic_string <char>::iterator str_Iter, str1_Iter;
cout << "The original string str1 is: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
// str1.push_back ( 'd' );
str1_Iter = str1.end ( );
str1_Iter--;
cout << "The last character-letter of the modified str1 is now: "
<< *str1_Iter << endl;
cout << "The modified string str1 is: ";
for ( str_Iter = str1.begin( ); str_Iter != str1.end( ); str_Iter++ )
cout << *str_Iter;
cout << endl;
}
The original string str1 is: abc
The last character-letter of the modified str1 is now: c
The modified string str1 is: abc
basic_string::rbegin
傳回指向反轉字串中第一個元素的迭代器。
const_reverse_iterator rbegin() const;
reverse_iterator rbegin();
傳回值
將隨機存取迭代器傳回至反向字串中的第一個元素,為對應之未反向字串中的最後一個元素定址。
備註
rbegin 與反向字串搭配使用,就像搭配字串使用一樣 begin 。
如果將 的 rbegin 傳回值指派給 const_reverse_iterator,則無法修改字串物件。 如果 rbegin 的傳回值已指派給 reverse_iterator,則可以修改字串物件。
rbegin 可用來初始化向後逐一查看字串的作業。
範例
// basic_string_rbegin.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Able was I ere I saw Elba" ), str2;
basic_string <char>::reverse_iterator str_rIter, str1_rIter, str2_rIter;
basic_string <char>::const_reverse_iterator str1_rcIter;
str1_rIter = str1.rbegin ( );
// str1_rIter--;
cout << "The first character-letter of the reversed string str1 is: "
<< *str1_rIter << endl;
cout << "The full reversed string str1 is:\n ";
for ( str_rIter = str1.rbegin( ); str_rIter != str1.rend( ); str_rIter++ )
cout << *str_rIter;
cout << endl;
// The dereferenced iterator can be used to modify a character
*str1_rIter = 'A';
cout << "The first character-letter of the modified str1 is now: "
<< *str1_rIter << endl;
cout << "The full modified reversed string str1 is now:\n ";
for ( str_rIter = str1.rbegin( ); str_rIter != str1.rend( ); str_rIter++ )
cout << *str_rIter;
cout << endl;
// The following line would be an error because iterator is const
// *str1_rcIter = 'A';
// For an empty string, begin is equivalent to end
if ( str2.rbegin( ) == str2.rend ( ) )
cout << "The string str2 is empty." << endl;
else
cout << "The stringstr2 is not empty." << endl;
}
The first character-letter of the reversed string str1 is: a
The full reversed string str1 is:
ablE was I ere I saw elbA
The first character-letter of the modified str1 is now: A
The full modified reversed string str1 is now:
AblE was I ere I saw elbA
The string str2 is empty.
basic_string::reference
類型,提供儲存在字串中之元素的參考。
typedef typename allocator_type::reference reference;
備註
型 reference 別可用來修改專案的值。
此類型是 allocator_type::reference的同義字。
針對類型 string,它相當於 chr&。
範例
如需如何宣告和使用 reference的範例at,請參閱範例。
basic_string::rend
傳回迭代器,為反向字串中最後一個元素的下一個位置定址。
const_reverse_iterator rend() const;
reverse_iterator rend();
傳回值
反向隨機存取迭代器,為反向字串中最後一個元素的下一個位置定址。
備註
rend 與反向字串搭配使用,就像搭配字串使用一樣 end 。
如果將 的 rend 傳回值指派給 const_reverse_iterator,則無法修改字串物件。 如果 rend 的傳回值已指派給 reverse_iterator,則可以修改字串物件。
rend 可以用來測試反向迭代器是否已到達其字串的結尾。
所 rend 傳回的值不應該取值。
範例
// basic_string_rend.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Able was I ere I saw Elba"), str2;
basic_string <char>::reverse_iterator str_rIter, str1_rIter, str2_rIter;
basic_string <char>::const_reverse_iterator str1_rcIter;
str1_rIter = str1.rend ( );
str1_rIter--;
cout << "The last character-letter of the reversed string str1 is: "
<< *str1_rIter << endl;
cout << "The full reversed string str1 is:\n ";
for ( str_rIter = str1.rbegin( ); str_rIter != str1.rend( ); str_rIter++ )
cout << *str_rIter;
cout << endl;
// The dereferenced iterator can be used to modify a character
*str1_rIter = 'o';
cout << "The last character-letter of the modified str1 is now: "
<< *str1_rIter << endl;
cout << "The full modified reversed string str1 is now:\n ";
for ( str_rIter = str1.rbegin( ); str_rIter != str1.rend( ); str_rIter++ )
cout << *str_rIter;
cout << endl;
// The following line would be an error because iterator is const
// *str1_rcIter = 'T';
// For an empty string, end is equivalent to begin
if ( str2.rbegin( ) == str2.rend ( ) )
cout << "The string str2 is empty." << endl;
else
cout << "The stringstr2 is not empty." << endl;
}
The last character-letter of the reversed string str1 is: A
The full reversed string str1 is:
ablE was I ere I saw elbA
The last character-letter of the modified str1 is now: o
The full modified reversed string str1 is now:
ablE was I ere I saw elbo
The string str2 is empty.
basic_string::replace
以指定的字元取代字串中的專案,或以從其他範圍、字串或 C 字串複製的字元取代字串中的專案。
basic_string<CharType, Traits, Allocator>& replace(
size_type position_1,
size_type number_1,
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& replace(
size_type position_1,
size_type number_1,
const basic_string<CharType, Traits, Allocator>& str);
basic_string<CharType, Traits, Allocator>& replace(
size_type position_1,
size_type number_1,
const value_type* ptr,
size_type number_2);
basic_string<CharType, Traits, Allocator>& replace(
size_type position_1,
size_type number_1,
const basic_string<CharType, Traits, Allocator>& str,
size_type position_2,
size_type number_2);
basic_string<CharType, Traits, Allocator>& replace(
size_type position_1,
size_type number_1,
size_type count,
value_type char_value);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
const value_type* ptr);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
const basic_string<CharType, Traits, Allocator>& str);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
const value_type* ptr,
size_type number_2);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
size_type number_2,
value_type char_value);
template <class InputIterator>
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
InputIterator first,
InputIterator last);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
const_pointer first,
const_pointer last);
basic_string<CharType, Traits, Allocator>& replace(
iterator first0,
iterator last0,
const_iterator first,
const_iterator last);
參數
str
作為運算元字串之字元來源的字串。
position_1
取代開始處的運算元字串索引。
number_1
運算元字串中要取代的字元數上限。
position_2
複製開始處的參數字串索引。
number_2
要從參數 C 字串使用的字元數上限。
ptr
作為運算元字串之字元來源的 C 字串。
char_value
要複製到運算元字串的字元。
first0
迭代器,為運算元字串中要移除的第一個字元定址。
last0
迭代器,為運算元字串中要移除的最後一個字元定址。
first
迭代器 const_pointer 或 const_iterator,為參數字串中要複製的第一個字元定址。
last
迭代器 const_pointer 或 const_iterator,為參數字串中要複製的最後一個字元定址。
count
複製到運算元字串的次數 char_value。
傳回值
對其進行取代的運算元字串。
範例
// basic_string_replace.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first two member functions replace
// part of the operand string with
// characters from a parameter string or C-string
string result1a, result1b;
string s1o ( "AAAAAAAA" );
string s1p ( "BBB" );
const char* cs1p = "CCC";
cout << "The operand string s1o is: " << s1o << endl;
cout << "The parameter string s1p is: " << s1p << endl;
cout << "The parameter C-string cs1p is: " << cs1p << endl;
result1a = s1o.replace ( 1 , 3 , s1p );
cout << "The result of s1o.replace ( 1 , 3 , s1p )\n is "
<< "the string: " << result1a << "." << endl;
result1b = s1o.replace ( 5 , 3 , cs1p );
cout << "The result of s1o.replace ( 5 , 3 , cs1p )\n is "
<< "the string: " << result1b << "." << endl;
cout << endl;
// The third & fourth member function replace
// part of the operand string with characters
// form part of a parameter string or C-string
string result2a, result2b;
string s2o ( "AAAAAAAA" );
string s2p ( "BBB" );
const char* cs2p = "CCC";
cout << "The operand string s2o is: " << s2o << endl;
cout << "The parameter string s1p is: " << s2p << endl;
cout << "The parameter C-string cs2p is: " << cs2p << endl;
result2a = s2o.replace ( 1 , 3 , s2p , 1 , 2 );
cout << "The result of s2o.replace (1, 3, s2p, 1, 2)\n is "
<< "the string: " << result2a << "." << endl;
result2b = s2o.replace ( 4 , 3 , cs2p , 1 );
cout << "The result of s2o.replace (4 ,3 ,cs2p)\n is "
<< "the string: " << result2b << "." << endl;
cout << endl;
// The fifth member function replaces
// part of the operand string with characters
string result3a;
string s3o ( "AAAAAAAA" );
char ch3p = 'C';
cout << "The operand string s3o is: " << s3o << endl;
cout << "The parameter character c1p is: " << ch3p << endl;
result3a = s3o.replace ( 1 , 3 , 4 , ch3p );
cout << "The result of s3o.replace(1, 3, 4, ch3p)\n is "
<< "the string: " << result3a << "." << endl;
cout << endl;
// The sixth & seventh member functions replace
// part of the operand string, delineated with iterators,
// with a parameter string or C-string
string s4o ( "AAAAAAAA" );
string s4p ( "BBB" );
const char* cs4p = "CCC";
cout << "The operand string s4o is: " << s4o << endl;
cout << "The parameter string s4p is: " << s4p << endl;
cout << "The parameter C-string cs4p is: " << cs4p << endl;
basic_string<char>::iterator IterF0, IterL0;
IterF0 = s4o.begin ( );
IterL0 = s4o.begin ( ) + 3;
string result4a, result4b;
result4a = s4o.replace ( IterF0 , IterL0 , s4p );
cout << "The result of s1o.replace (IterF0, IterL0, s4p)\n is "
<< "the string: " << result4a << "." << endl;
result4b = s4o.replace ( IterF0 , IterL0 , cs4p );
cout << "The result of s4o.replace (IterF0, IterL0, cs4p)\n is "
<< "the string: " << result4b << "." << endl;
cout << endl;
// The 8th member function replaces
// part of the operand string delineated with iterators
// with a number of characters from a parameter C-string
string s5o ( "AAAAAAAF" );
const char* cs5p = "CCCBB";
cout << "The operand string s5o is: " << s5o << endl;
cout << "The parameter C-string cs5p is: " << cs5p << endl;
basic_string<char>::iterator IterF1, IterL1;
IterF1 = s5o.begin ( );
IterL1 = s5o.begin ( ) + 4;
string result5a;
result5a = s5o.replace ( IterF1 , IterL1 , cs5p , 4 );
cout << "The result of s5o.replace (IterF1, IterL1, cs4p ,4)\n is "
<< "the string: " << result5a << "." << endl;
cout << endl;
// The 9th member function replaces
// part of the operand string delineated with iterators
// with specified characters
string s6o ( "AAAAAAAG" );
char ch6p = 'q';
cout << "The operand string s6o is: " << s6o << endl;
cout << "The parameter character ch6p is: " << ch6p << endl;
basic_string<char>::iterator IterF2, IterL2;
IterF2 = s6o.begin ( );
IterL2 = s6o.begin ( ) + 3;
string result6a;
result6a = s6o.replace ( IterF2 , IterL2 , 4 , ch6p );
cout << "The result of s6o.replace (IterF1, IterL1, 4, ch6p)\n is "
<< "the string: " << result6a << "." << endl;
cout << endl;
// The 10th member function replaces
// part of the operand string delineated with iterators
// with part of a parameter string delineated with iterators
string s7o ( "OOOOOOO" );
string s7p ( "PPPP" );
cout << "The operand string s7o is: " << s7o << endl;
cout << "The parameter string s7p is: " << s7p << endl;
basic_string<char>::iterator IterF3, IterL3, IterF4, IterL4;
IterF3 = s7o.begin ( ) + 1;
IterL3 = s7o.begin ( ) + 3;
IterF4 = s7p.begin ( );
IterL4 = s7p.begin ( ) + 2;
string result7a;
result7a = s7o.replace ( IterF3 , IterL3 , IterF4 , IterL4 );
cout << "The result of s7o.replace (IterF3 ,IterL3 ,IterF4 ,IterL4)\n is "
<< "the string: " << result7a << "." << endl;
cout << endl;
}
The operand string s1o is: AAAAAAAA
The parameter string s1p is: BBB
The parameter C-string cs1p is: CCC
The result of s1o.replace ( 1 , 3 , s1p )
is the string: ABBBAAAA.
The result of s1o.replace ( 5 , 3 , cs1p )
is the string: ABBBACCC.
The operand string s2o is: AAAAAAAA
The parameter string s1p is: BBB
The parameter C-string cs2p is: CCC
The result of s2o.replace (1, 3, s2p, 1, 2)
is the string: ABBAAAA.
The result of s2o.replace (4 ,3 ,cs2p)
is the string: ABBAC.
The operand string s3o is: AAAAAAAA
The parameter character c1p is: C
The result of s3o.replace(1, 3, 4, ch3p)
is the string: ACCCCAAAA.
The operand string s4o is: AAAAAAAA
The parameter string s4p is: BBB
The parameter C-string cs4p is: CCC
The result of s1o.replace (IterF0, IterL0, s4p)
is the string: BBBAAAAA.
The result of s4o.replace (IterF0, IterL0, cs4p)
is the string: CCCAAAAA.
The operand string s5o is: AAAAAAAF
The parameter C-string cs5p is: CCCBB
The result of s5o.replace (IterF1, IterL1, cs4p ,4)
is the string: CCCBAAAF.
The operand string s6o is: AAAAAAAG
The parameter character ch6p is: q
The result of s6o.replace (IterF1, IterL1, 4, ch6p)
is the string: qqqqAAAAG.
The operand string s7o is: OOOOOOO
The parameter string s7p is: PPPP
The result of s7o.replace (IterF3 ,IterL3 ,IterF4 ,IterL4)
is the string: OPPOOOO.
basic_string::reserve
將字串的容量數字,設定為至少和指定的數字一樣大。
void reserve(size_type count = 0);
參數
count
為其保留記憶體的字元數。
備註
有足夠的容量很重要,因為重新配置是耗時的程式。 此外,它會使參考字串中字元的所有參考、指標和反覆運算器失效。
字串物件類型的容量概念與 型 vector別 的物件相同。 不同於 vector,可以呼叫成員函 reserve 式來壓縮物件的容量。 此要求是非繫結要求,而且不一定會發生。 當 參數的預設值為零時,的呼叫 reserve 是非系結要求,以壓縮字串容量以符合字串目前中的字元數。 此容量永遠不會縮減到低於目前的字元數。
呼叫 reserve 是壓縮字串容量的唯一方法。 不過,如前所述,此要求是非繫結要求,而且可能不會發生。
範例
// basic_string_reserve.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world");
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type sizeStr1, sizerStr1;
sizeStr1 = str1.size ( );
basic_string <char>::size_type capStr1, caprStr1;
capStr1 = str1.capacity ( );
// Compare size & capacity of the original string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl << endl;
// Compare size & capacity of the string
// with added capacity
str1.reserve ( 40 );
sizerStr1 = str1.size ( );
caprStr1 = str1.capacity ( );
cout << "The string str1with augmented capacity is: "
<< str1 << endl;
cout << "The current size of string str1 is: "
<< sizerStr1 << "." << endl;
cout << "The new capacity of string str1 is: "
<< caprStr1 << "." << endl << endl;
// Compare size & capacity of the string
// with downsized capacity
str1.reserve ( );
basic_string <char>::size_type sizedStr1;
basic_string <char>::size_type capdStr1;
sizedStr1 = str1.size ( );
capdStr1 = str1.capacity ( );
cout << "The string str1 with downsized capacity is: "
<< str1 << endl;
cout << "The current size of string str1 is: "
<< sizedStr1 << "." << endl;
cout << "The reduced capacity of string str1 is: "
<< capdStr1 << "." << endl << endl;
}
The original string str1 is: Hello world
The current size of original string str1 is: 11.
The capacity of original string str1 is: 15.
The string str1with augmented capacity is: Hello world
The current size of string str1 is: 11.
The new capacity of string str1 is: 47.
The string str1 with downsized capacity is: Hello world
The current size of string str1 is: 11.
The reduced capacity of string str1 is: 47.
basic_string::resize
指定字串的新大小,視需要附加或清除元素。
void resize(
size_type count,);
void resize(
size_type count,
value_type char_value);
參數
count
字串的新大小。
char_value
如果需要更多專案,則會使用 附加字元的值初始化。
備註
如果產生的大小超過字元數上限,此格式會擲回 length_error。
範例
// basic_string_resize.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type sizeStr1;
sizeStr1 = str1.size ( );
basic_string <char>::size_type capStr1;
capStr1 = str1.capacity ( );
// Compare size & capacity of the original string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl << endl;
// Use resize to increase size by 2 elements: exclamations
str1.resize ( str1.size ( ) + 2 , '!' );
cout << "The resized string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
capStr1 = str1.capacity ( );
// Compare size & capacity of a string after resizing
cout << "The current size of resized string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of resized string str1 is: "
<< capStr1 << "." << endl << endl;
// Use resize to increase size by 20 elements:
str1.resize ( str1.size ( ) + 20 );
cout << "The resized string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
capStr1 = str1.capacity ( );
// Compare size & capacity of a string after resizing
// note capacity increases automatically as required
cout << "The current size of modified string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of modified string str1 is: "
<< capStr1 << "." << endl << endl;
// Use resize to downsize by 28 elements:
str1.resize ( str1.size ( ) - 28 );
cout << "The downsized string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
capStr1 = str1.capacity ( );
// Compare size & capacity of a string after downsizing
cout << "The current size of downsized string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of downsized string str1 is: "
<< capStr1 << "." << endl;
}
The original string str1 is: Hello world
The current size of original string str1 is: 11.
The capacity of original string str1 is: 15.
The resized string str1 is: Hello world!!
The current size of resized string str1 is: 13.
The capacity of resized string str1 is: 15.
The resized string str1 is: Hello world!!
The current size of modified string str1 is: 33.
The capacity of modified string str1 is: 47.
The downsized string str1 is: Hello
The current size of downsized string str1 is: 5.
The capacity of downsized string str1 is: 47.
basic_string::reverse_iterator
類型,提供儲存在字串中之元素的參考。
typedef std::reverse_iterator<iterator> reverse_iterator;
備註
類型 reverse_iterator 可用來修改字元的值,且會用來反向逐一查看字串。
範例
如需如何宣告和使用 reverse_iterator的範例rbegin,請參閱範例。
basic_string::rfind
以向後方向搜尋字串中,第一個符合指定之字元序列的子字串。
size_type rfind(
value_type char_value,
size_type offset = npos) const;
size_type rfind(
const value_type* ptr,
size_type offset = npos) const;
size_type rfind(
const value_type* ptr,
size_type offset,
size_type count) const;
size_type rfind(
const basic_string<CharType, Traits, Allocator>& str,
size_type offset = npos) const;
參數
char_value
要搜尋之成員函式的字元值。
offset
開始搜尋位置的索引。
ptr
要搜尋之成員函式的 C 字串。
count
要搜尋之成員函式的 C 字串中,從第一個字元開始往前計數的字元數目。
str
要搜尋之成員函式的字串。
傳回值
在成功時,為向後搜尋的子字串之第一個字元最後出現位置的索引;否則為 npos。
範例
// basic_string_rfind.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// The first member function
// searches for a single character in a string
string str1 ( "Hello Everyone" );
cout << "The original string str1 is: " << str1 << endl;
basic_string <char>::size_type indexCh1a, indexCh1b;
static const basic_string <char>::size_type npos = -1;
indexCh1a = str1.rfind ( "e" , 9 );
if ( indexCh1a != npos )
cout << "The index of the 1st 'e' found before the 9th"
<< " position in str1 is: " << indexCh1a << endl;
else
cout << "The character 'e' was not found in str1 ." << endl;
indexCh1b = str1.rfind ( "x" );
if ( indexCh1b != npos )
cout << "The index of the 'x' found in str1 is: "
<< indexCh1b << endl << endl;
else
cout << "The character 'x' was not found in str1."
<< endl << endl;
// The second member function searches a string
// for a substring as specified by a C-string
string str2 ( "Let me make this perfectly clear." );
cout << "The original string str2 is: " << str2 << endl;
basic_string <char>::size_type indexCh2a, indexCh2b;
const char *cstr2 = "perfect";
indexCh2a = str2.rfind ( cstr2 , 30 );
if ( indexCh2a != npos )
cout << "The index of the 1st element of 'perfect' "
<< "before\n the 30th position in str2 is: "
<< indexCh2a << endl;
else
cout << "The substring 'perfect' was not found in str2 ."
<< endl;
const char *cstr2b = "imperfectly";
indexCh2b = str2.rfind ( cstr2b , 30 );
if ( indexCh2b != npos )
cout << "The index of the 1st element of 'imperfect' "
<< "before\n the 5th position in str3 is: "
<< indexCh2b << endl;
else
cout << "The substring 'imperfect' was not found in str2 ."
<< endl << endl;
// The third member function searches a string
// for a substring as specified by a C-string
string str3 ( "It is a nice day. I am happy." );
cout << "The original string str3 is: " << str3 << endl;
basic_string <char>::size_type indexCh3a, indexCh3b;
const char *cstr3a = "nice";
indexCh3a = str3.rfind ( cstr3a );
if ( indexCh3a != npos )
cout << "The index of the 1st element of 'nice' "
<< "in str3 is: " << indexCh3a << endl;
else
cout << "The substring 'nice' was not found in str3 ."
<< endl;
const char *cstr3b = "am";
indexCh3b = str3.rfind ( cstr3b , indexCh3a + 25 , 2 );
if ( indexCh3b != npos )
cout << "The index of the next occurrence of 'am' in "
<< "str3 begins at: " << indexCh3b << endl << endl;
else
cout << "There is no next occurrence of 'am' in str3 ."
<< endl << endl;
// The fourth member function searches a string
// for a substring as specified by a string
string str4 ( "This perfectly unclear." );
cout << "The original string str4 is: " << str4 << endl;
basic_string <char>::size_type indexCh4a, indexCh4b;
string str4a ( "clear" );
indexCh4a = str4.rfind ( str4a , 15 );
if (indexCh4a != npos )
cout << "The index of the 1st element of 'clear' "
<< "before\n the 15th position in str4 is: "
<< indexCh4a << endl;
else
cout << "The substring 'clear' was not found in str4 "
<< "before the 15th position." << endl;
string str4b ( "clear" );
indexCh4b = str4.rfind ( str4b );
if ( indexCh4b != npos )
cout << "The index of the 1st element of 'clear' "
<< "in str4 is: "
<< indexCh4b << endl;
else
cout << "The substring 'clear' was not found in str4 ."
<< endl << endl;
}
The original string str1 is: Hello Everyone
The index of the 1st 'e' found before the 9th position in str1 is: 8
The character 'x' was not found in str1.
The original string str2 is: Let me make this perfectly clear.
The index of the 1st element of 'perfect' before
the 30th position in str2 is: 17
The substring 'imperfect' was not found in str2 .
The original string str3 is: It is a nice day. I am happy.
The index of the 1st element of 'nice' in str3 is: 8
The index of the next occurrence of 'am' in str3 begins at: 20
The original string str4 is: This perfectly unclear.
The substring 'clear' was not found in str4 before the 15th position.
The index of the 1st element of 'clear' in str4 is: 17
basic_string::shrink_to_fit
丟棄多餘的字串容量。
void shrink_to_fit();
備註
此成員函式會排除容器中任何非必要的儲存體。
basic_string::size
傳回字串中目前的元素數目。
size_type size() const;
傳回值
字串的長度。
範例
// basic_string_size.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Hello world");
cout << "The original string str1 is: " << str1 << endl;
// The size and length member functions differ in name only
basic_string <char>::size_type sizeStr1, lenStr1;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
basic_string <char>::size_type capStr1, max_sizeStr1;
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
cout << "The current size of original string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of original string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of original string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of original string str1 is: "
<< max_sizeStr1 << "." << endl << endl;
str1.erase ( 6, 5 );
cout << "The modified string str1 is: " << str1 << endl;
sizeStr1 = str1.size ( );
lenStr1 = str1.length ( );
capStr1 = str1.capacity ( );
max_sizeStr1 = str1.max_size ( );
// Compare size, length, capacity & max_size of a string
// after erasing part of the original string
cout << "The current size of modified string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The current length of modified string str1 is: "
<< lenStr1 << "." << endl;
cout << "The capacity of modified string str1 is: "
<< capStr1 << "." << endl;
cout << "The max_size of modified string str1 is: "
<< max_sizeStr1 << "." << endl;
}
basic_string::size_type
不帶正負號的整數類型,可以表示字串中的元素和索引數目。
typedef typename allocator_type::size_type size_type;
備註
它相當於 allocator_type::size_type。
針對類型 string,它相當於 size_t。
範例
// basic_string_size_type.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ( "Hello world" );
basic_string <char>::size_type sizeStr1, capStr1;
sizeStr1 = str1.size ( );
capStr1 = str1.capacity ( );
cout << "The current size of string str1 is: "
<< sizeStr1 << "." << endl;
cout << "The capacity of string str1 is: " << capStr1
<< "." << endl;
}
The current size of string str1 is: 11.
The capacity of string str1 is: 15.
basic_string::starts_with
檢查字串是否以指定的前置詞開頭。
bool starts_with(const CharType c) const noexcept;
bool starts_with(const CharType* const x) const noexcept;
bool starts_with(const basic_string_view sv) const noexcept;
參數
c
要尋找的單一字元前置詞。
sv
字串檢視,包含要尋找的前置詞。
您可以傳遞 std::basic_string轉換成字串檢視的 。
x
包含要尋找之前置詞的 Null 終止字元字串。
傳回值
true 如果字串以指定的前置詞開頭,則為 ; false 否則。
備註
starts_with() 是 C++20 中的新功能。 若要使用它,請指定 /std:c++20 或更新版本的編譯程序選項。
查看 ends_with 字串是否以指定的後綴結尾。
範例
// Requires /std:c++20 or /std:c++latest
#include <string>
#include <iostream>
int main()
{
std::basic_string<char> str = "abcdefg";
std::cout << std::boolalpha; // so booleans show as 'true'/'false'
std::cout << str.starts_with('b') << '\n';
std::cout << str.starts_with("aBc") << '\n';
std::basic_string<char> str2 = "abc";
std::cout << str.starts_with(str2);
return 0;
}
false
false
true
basic_string::substr
從開始於指定位置的字串,複製最多一定字元數量的子字串。
basic_string<CharType, Traits, Allocator> substr(
size_type offset = 0,
size_type count = npos) const;
參數
offset
索引,用於將元素定位在建立字串複本的來源位置,預設值為 0。
count
存在時要複製的字元數。
傳回值
子字串物件,該對像是字串操作數的複本,從第一個自變數所指定的位置開始。
範例
// basic_string_substr.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
string str1 ("Heterological paradoxes are persistent.");
cout << "The original string str1 is: \n " << str1
<< endl << endl;
basic_string <char> str2 = str1.substr ( 6 , 7 );
cout << "The substring str1 copied is: " << str2
<< endl << endl;
basic_string <char> str3 = str1.substr ( );
cout << "The default substring str3 is: \n " << str3
<< "\n which is the entire original string." << endl;
}
The original string str1 is:
Heterological paradoxes are persistent.
The substring str1 copied is: logical
The default substring str3 is:
Heterological paradoxes are persistent.
which is the entire original string.
basic_string::swap
交換兩個字串的內容。
void swap(
basic_string<CharType, Traits, Allocator>& str);
參數
str
來源字串,其專案要與目的地字串中的項目交換。
備註
如果所要交換的字串具有相同的配置器物件,swap 成員函式:
- 會在固定時間發生。
- 不會擲回例外狀況。
- 不會使在兩個字串中指定元素的任何參考、指標或迭代器失效。
否則,它會讓元素指派和建構函式呼叫與兩個受控制序列中的元素數目成正比。
範例
// basic_string_swap.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
// Declaring an objects of type basic_string<char>
string s1 ( "Tweedledee" );
string s2 ( "Tweedledum" );
cout << "Before swapping string s1 and s2:" << endl;
cout << " The basic_string s1 = " << s1 << "." << endl;
cout << " The basic_string s2 = " << s2 << "." << endl;
s1.swap ( s2 );
cout << "After swapping string s1 and s2:" << endl;
cout << " The basic_string s1 = " << s1 << "." << endl;
cout << " The basic_string s2 = " << s2 << "." << endl;
}
Before swapping string s1 and s2:
The basic_string s1 = Tweedledee.
The basic_string s2 = Tweedledum.
After swapping string s1 and s2:
The basic_string s1 = Tweedledum.
The basic_string s2 = Tweedledee.
basic_string::traits_type
儲存在字串中之元素的字元特性的類型。
typedef Traits traits_type;
備註
此類型與第二個範本參數 Traits同義。
針對類型 string,它相當於 char_traits<char>。
範例
如需如何宣告和使用 traits_type的範例copy,請參閱範例。
basic_string::value_type
類型,代表儲存在字串中的字元類型。
typedef typename allocator_type::value_type value_type;
備註
它相當於 traits_type::char_type 和 ,相當於 char 型 string別的物件。
範例
// basic_string_value_type.cpp
// compile with: /EHsc
#include <string>
#include <iostream>
int main( )
{
using namespace std;
basic_string<char>::value_type ch1 = 'G';
char ch2 = 'H';
cout << "The character ch1 is: " << ch1 << "." << endl;
cout << "The character ch2 is: " << ch2 << "." << endl;
}
The character ch1 is: G.
The character ch2 is: H.