std::literals::string_view_literals::operator""sv
出自cppreference.com
| 在標頭 <string_view> 定義
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(1) | (C++17 起) |
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(2) | (C++20 起) |
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(3) | (C++17 起) |
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(4) | (C++17 起) |
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(5) | (C++17 起) |
從字符數組字面量組成字符串視圖。
1) 返回
std::string_view{str, len}。2) 返回
std::u8string_view{str, len}。3) 返回
std::u16string_view{str, len}。4) 返回
std::u32string_view{str, len}。5) 返回
std::wstring_view{str, len}。參數
| str | - | 指向原生字符數組字面量起始的指針 |
| len | - | 原生字符數組字面量的長度 |
返回值
std::basic_string_view 字面量。
註解
這些運算符聲明於命名空間 std::literals::string_view_literals 中,literals 和 string_view_literals 均為其中的內聯命名空間。能以如下方式取得對這些運算符的訪問:
using namespace std::literalsusing namespace std::string_view_literalsusing namespace std::literals::string_view_literals
示例
運行此代碼
#include <iostream>
#include <string_view>
#include <typeinfo>
void print_each_character(const std::string_view sw)
{
for (char c : sw)
std::cout << (c == '\0' ? '@' : c);
std::cout << '\n';
}
int main()
{
using namespace std::literals;
std::string_view s1 = "abc\0\0def";
std::string_view s2 = "abc\0\0def"sv;
std::cout << "s1.size(): " << s1.size() << "; s1: ";
print_each_character(s1);
std::cout << "s2.size(): " << s2.size() << "; s2: ";
print_each_character(s2);
std::cout << "substr(1, 4): " << "abcdef"sv.substr(1, 4) << '\n';
auto value_type_info = []<typename T>(T)
{
using V = typename T::value_type;
std::cout << "sizeof " << typeid(V).name() << ": " << sizeof(V) << '\n';
};
value_type_info("char A"sv);
value_type_info(L"wchar_t ∀"sv);
value_type_info(u8"char8_t ∆"sv);
value_type_info(u"char16_t ∇"sv);
value_type_info(U"char32_t ∃"sv);
value_type_info(LR"(raw ⊞)"sv);
}
可能的輸出:
s1.size(): 3; s1: abc
s2.size(): 8; s2: abc@@def
substr(1, 4): bcde
sizeof char: 1
sizeof wchar_t: 4
sizeof char8_t: 1
sizeof char16_t: 2
sizeof char32_t: 4
sizeof wchar_t: 4
參閱
構造 basic_string_view (公開成員函數) | |
(C++14) |
轉換字符數組字面量為 basic_string (函數) |