Algorithms
Algorithms(算法)
bsearch
bsearch_s
qsort
qsort_s
Atomic operations
Atomic operations library(原子操作库)
ATOMIC_*_LOCK_FREE
atomic_compare_exchange_strong
atomic_compare_exchange_strong_explicit
atomic_compare_exchange_weak
atomic_compare_exchange_weak_explicit
atomic_exchange
atomic_exchange_explicit
atomic_fetch_add
atomic_fetch_add_explicit
atomic_fetch_and
atomic_fetch_and_explicit
atomic_fetch_or
atomic_fetch_or_explicit
atomic_fetch_sub
atomic_fetch_sub_explicit
atomic_fetch_xor
atomic_fetch_xor_explicit
atomic_flag
atomic_flag_clear
atomic_flag_clear_explicit
ATOMIC_FLAG_INIT
atomic_flag_test_and_set
atomic_flag_test_and_set_explicit
atomic_init
atomic_is_lock_free
atomic_load
atomic_load_explicit
atomic_signal_fence
atomic_store
atomic_store_explicit
atomic_thread_fence(线程围栏)
ATOMIC_VAR_INIT
kill_dependency
memory_order(内存排序)
C keywords
auto(自动存储)
break(跳出循环)
C keywords(关键词)
case
char
const(常量修饰符)
continue
default(预设运算式)
do
double(双精度浮点型)
else
enum(枚举类型)
extern(全局变量)
float(浮点数)
for
fortran
goto(goto语句)
if(if语句)
inline(行内函式)
int
long(长整型)
register(寄存器变量)
restrict( restrict类型限定符)
return
short
signed
sizeof(sizeof运算符)
static(静态变量)
struct(结构体)
switch(switch语句)
typedef(typedef关键字)
union(联合体)
unsigned(无符号)
void(空类型)
volatile(volatile变量)
while(while语句)
_Alignas
_Alignof
_Atomic
_Bool
_Complex
_Generic
_Imaginary
_Noreturn
_Static_assert
_Thread_local
C language
#define directive
#elif directive
#else directive
#endif directive
#error directive
#if directive
#ifdef directive
#ifndef directive
#include directive
#line directive
#pragma directive
alignas(对齐指定符)
Alternative operators and tokens(替代运算符和令牌)
Analyzability
Arithmetic operators
Arithmetic types
Array declaration(数组声明)
Array initialization(阵列初始化)
ASCII Chart
Assignment operators(赋值运算符)
types(atomic类型限定符)
Basic concepts
Bit fields(位域)
break statement
C language
C Operator Precedence
cast operator
character constant(字符字面量)
Comments(注释符)
Comparison operators(比较运算符)
compound literals(符合字面量)
Conditional inclusion(条件包含)
Conformance(一致性)
const type qualifier(const 限定符)
Constant expressions(常量表达)
continue statement
Declarations(声明)
do-while loop
Enumerations(枚举类型)
Escape sequences(转义字符)
Expressions(表达式)
External and tentative definitions(外部和暂定的定义)
File scope(文件范围)
floating constant(浮点常量)
for loop
Function declarations(函数声明)
Function definitions(函数声明)
Functions
Generic selection泛型选择
goto statement
Identifier(标示符)
if statement
Implicit conversions(隐式转换)
Increment/decrement operators(前置/后置操作符)
Initialization(初始化)
inline function specifier(内联函式)
integer constant
Lifetime(生命期)
Logical operators(逻辑运算符)
Lookup and name spaces
Main function(主函式)
Member access operators(会员接入运营商)
Memory model
Objects and alignment(字节对齐)
Order of evaluation(评估顺序)
Other operators
Phases of translation(翻译阶段)
Pointer declaration
Preprocessor(预处理)
restrict type qualifier(restrict类型限定符)
return statement
Scalar initialization(标量类型初始化)
Scope(范围)
sizeof operator(sizeof运算符)
Statements(陈述)
static assert declaration(静态断言声明)
Static storage duration(静态存储周期)
Storage-class specifiers(存储类说明符)
string literals(字符串字面量)
Struct and union initialization(结构体与联合体初始化)
Struct declaration(结构体声明)
switch statement
Thread storage duration(线程存储时间)
Type
Type(类型)
Typedef declaration(Typedef声明)
Undefined behavior(未定义行为)
Union declaration(联合体声明)
Value categories(值类别)
Variadic arguments(变长参数宏)
volatile type qualifier(volatile 类型限定符)
while loop
_Alignof operator
_Noreturn function specifier
Date and time
asctime(asctime函数)
asctime_s
clock
CLOCKS_PER_SEC
clock_t
ctime(ctime函数)
ctime_s
Date and time utilities(日期和时间库)
difftime(计算两个时间的间隔)
gmtime
gmtime_s
localtime
localtime_s
mktime(将时间结构数据转换成经过的秒数的函数)
strftime(格式化输出时间函数)
time
timespec
timespec_get
time_t
tm
wcsftime(格式化时间宽字符)
Dynamic memory management
aligned_alloc
C memory management library(内存管理库)
calloc
free(释放动态分配空间的函数)
malloc(动态分配内存空间的函数)
realloc(重新分配内存空间的函数)
Error handling
abort_handler_s
assert(断言)
constraint_handler_t
errno(错误报告)
Error handling(错误处理)
Error numbers(错误个数)
ignore_handler_s
set_constraint_handler_s
static_assert
File input/output
clearerr(清除/复位)
fclose
feof
ferror
fflush(清空文件缓冲区)
fgetc
fgetpos
fgets
fgetwc
fgetws
File input/output
fopen
fopen_s
fprintf
fprintf_s
fputc
fputs
fputwc
fputws
fread
freopen
freopen_s
fscanf
fscanf_s
fseek
fsetpos
ftell
fwide
fwprintf
fwprintf_s
fwrite
fwscanf
fwscanf_s
getc
getchar
gets
gets_s
getwchar
perror
printf
printf_s
putc
putchar
puts
putwc
putwchar
remove
rename
rewind
scanf
scanf_s
setbuf
setvbuf
snprintf
sprintf
sscanf
sscanf_s
swprintf
swprintf_s
swscanf
swscanf_s
tmpfile
tmpfile_s
tmpnam
tmpnam_s
ungetc
ungetwc
vfprintf
vfprintf_s
vfscanf
vfscanf_s
vfwprintf
vfwprintf_s
vfwscanf
vfwscanf_s
vprintf
vprintf_s
vscanf
vscanf_s
vsnprintf
vsprintf
vsscanf
vsscanf_s
vswprintf
vswprintf_s
vswscanf
vswscanf_s
vwprintf
vwprintf_s
vwscanf
vwscanf_s
wprintf
wprintf_s
wscanf
wscanf_s
Localization support
lconv
LC_ALL
LC_COLLATE
LC_CTYPE
LC_MONETARY
LC_NUMERIC
LC_TIME
localeconv
Localization support
setlocale
Numerics
abs
acos
acosf
acosh
acoshf
acoshl
acosl
asin
asinf
asinh
asinhf
asinhl
asinl
atan
atan2
atan2f
atan2l
atanf
atanh
atanhf
atanhl
atanl
cabs
cabsf
cabsl
cacos
cacosf
cacosh
cacoshf
cacoshl
cacosl
carg
cargf
cargl
casin
casinf
casinh
casinhf
casinhl
casinl
catan
catanf
catanh
catanhf
catanhl
catanl
cbrt
cbrtf
cbrtl
ccos
ccosf
ccosh
ccoshf
ccoshl
ccosl
ceil
ceilf
ceill
cexp
cexpf
cexpl
cimag
cimagf
cimagl
clog
clogf
clogl
CMPLX
CMPLXF
CMPLXL
Common mathematical functions
complex
Complex number arithmetic
conj
conjf
conjl
copysign
copysignf
copysignl
cos
cosf
cosh
coshf
coshl
cosl
cpow
cpowf
cpowl
cproj
cprojf
cprojl
creal
crealf
creall
csin
csinf
csinh
csinhf
csinhl
csinl
csqrt
csqrtf
csqrtl
ctan
ctanf
ctanh
ctanhf
ctanhl
ctanl
div
double_t
erf
erfc
erfcf
erfcl
erff
erfl
exp
exp2
exp2f
exp2l
expf
expl
expm1
expm1f
expm1l
fabs
fabsf
fabsl
fdim
feclearexcept
fegetenv
fegetexceptflag
fegetround
feholdexcept
feraiseexcept
fesetenv
fesetexceptflag
fesetround
fetestexcept
feupdateenv
FE_ALL_EXCEPT
FE_DFL_ENV
FE_DIVBYZERO
FE_DOWNWARD
FE_INEXACT
FE_INVALID
FE_OVERFLOW
FE_TONEAREST
FE_TOWARDZERO
FE_UNDERFLOW
FE_UPWARD
Floating-point environment
float_t
floor
floorf
floorl
fma
fmaf
fmal
fmax
fmaxf
fmaxl
fmin
fminf
fminl
fmod
fmodf
fmodl
fpclassify
FP_INFINITE
FP_NAN
FP_NORMAL
FP_SUBNORMAL
FP_ZERO
frexp
frexpf
frexpl
HUGE_VAL
HUGE_VALF
HUGE_VALL
hypot
hypotf
hypotl
I
ilogb
ilogbf
ilogbl
imaginary
imaxabs
imaxdiv
INFINITY
isfinite
isgreater
isgreaterequal
isinf
isless
islessequal
islessgreater
isnan
isnormal
isunordered
labs
ldexp
ldexpf
ldexpl
ldiv
lgamma
lgammaf
lgammal
llabs
lldiv
llrint
llrintf
llrintl
llround
llroundf
llroundl
log
log10
log10f
log10l
log1p
log1pf
log1pl
log2
log2f
log2l
logb
logbf
logbl
logf
logl
lrint
lrintf
lrintl
lround
lroundf
lroundl
MATH_ERREXCEPT
math_errhandling
MATH_ERRNO
modf
modff
modfl
nan
NAN
nanf
nanl
nearbyint
nearbyintf
nearbyintl
nextafter
nextafterf
nextafterl
nexttoward
nexttowardf
nexttowardl
Numerics
pow
powf
powl
Pseudo-random number generation
rand
RAND_MAX
remainder
remainderf
remainderl
remquo
remquof
remquol
rint
rintf
rintl
round
roundf
roundl
scalbln
scalblnf
scalblnl
scalbn
scalbnf
scalbnl
signbit
sin
sinf
sinh
sinhf
sinhl
sinl
sqrt
sqrtf
sqrtl
srand
tan
tanf
tanh
tanhf
tanhl
tanl
tgamma
tgammaf
tgammal
trunc
truncf
truncl
Type-generic math
_Complex_I
_Imaginary_I
Program support
abort
atexit
at_quick_exit
exit
EXIT_FAILURE
EXIT_SUCCESS
getenv
getenv_s
jmp_buf
longjmp
Program support utilities
quick_exit
raise
setjmp
SIGABRT
SIGFPE
SIGILL
SIGINT
signal
SIGSEGV
SIGTERM
sig_atomic_t
SIG_DFL
SIG_ERR
SIG_IGN
system
_Exit
Strings
atof
atoi
atol
atoll
btowc
c16rtomb
c32rtomb
char16_t
char32_t
isalnum
isalpha
isblank
iscntrl
isdigit
isgraph
islower
isprint
ispunct
isspace
isupper
iswalnum
iswalpha
iswblank
iswcntrl
iswctype
iswdigit
iswgraph
iswlower
iswprint
iswpunct
iswspace
iswupper
iswxdigit
isxdigit
mblen
mbrlen
mbrtoc16
mbrtoc32
mbrtowc
mbsinit
mbsrtowcs
mbsrtowcs_s
mbstate_t
mbstowcs
mbstowcs_s
mbtowc
memchr
memcmp
memcpy
memcpy_s
memmove
memmove_s
memset
memset_s
Null-terminated byte strings
Null-terminated multibyte strings
Null-terminated wide strings
strcat
strcat_s
strchr
strcmp
strcoll
strcpy
strcpy_s
strcspn
strerror
strerrorlen_s
strerror_s
Strings library
strlen
strncat
Thread support
call_once
cnd_broadcast
cnd_destroy
cnd_init
cnd_signal
cnd_timedwait
cnd_wait
mtx_destroy
mtx_init
mtx_lock
mtx_plain
mtx_recursive
mtx_timed
mtx_timedlock
mtx_trylock
mtx_unlock
once_flag
ONCE_FLAG_INIT
thrd_busy
thrd_create
thrd_current
thrd_detach
thrd_equal
thrd_error
thrd_exit
thrd_join
thrd_nomem
thrd_sleep
thrd_success
thrd_timedout
thrd_yield
Thread support library
thread_local
tss_create
tss_delete
TSS_DTOR_ITERATIONS
tss_get
tss_set
Type support
Boolean type support library
Fixed width integer types
FLT_EVAL_METHOD
FLT_ROUNDS
max_align_t
NULL
Numeric limits
offsetof
ptrdiff_t
size_t
Type support
Variadic functions
Variadic functions
va_arg
va_copy
va_end
va_list
va_start
©
Ce document utilise Manuel du site Web PHP chinois Libérer
personnages
构造一个指定字符数组类型的未命名对象,用于需要在源代码中嵌入字符串时使用。
句法
" s-char-sequence " | (1) | |
|---|---|---|
u8 " s-char-sequence " | (2) | (since C11) |
u " s-char-sequence " | (3) | (since C11) |
U " s-char-sequence " | (4) | (since C11) |
L " s-char-sequence " | (5) |
其中
S-炭序列 | - | 零个或多个字符,每个字符可以是源字符集中的多字节字符(不包括(“),\和换行符),也可以是字符转义,十六进制转义,八进制转义或统一字符名称(自C99开始)在转义序列中。 |
|---|
1)字符串文字:文字的类型是char[],数组中的每个字符都是使用执行字符集从s-char-sequence中的下一个字符初始化的。
2)UTF-8字符串文字:文字的类型是char[],数组中的每个字符都是使用UTF-8编码从s-char-sequence中的下一个多字节字符初始化的。
3)16位宽字符串文字:文字的类型是char16_t[],数组中的每个char16_t元素都被初始化,就好像通过mbrtoc16在实现定义的区域设置中执行一样。
4)32位宽的字符串文字:文字的类型是char32_t[],数组中的每个char32_t元素都被初始化,就好像通过mbrtoc32在实现定义的区域设置中执行一样。
5)宽字符串文字:文字的类型是wchar_t[],数组中的每个wchar_t元素被初始化,就好像通过mbstowcs在实现定义的区域设置中执行一样。
说明
首先,在翻译阶段6(宏扩展之后),将相邻的字符串文字(即仅由空白分隔的字符串文字)连接起来。
只有两个窄或两个宽字符串可以连接在一起。 | (直到C99) |
|---|---|
如果一个文字没有前缀,那么结果字符串文字的宽度/编码由前缀文字指定。如果两个字符串文字具有不同的编码前缀,则连接是实现定义的。L“Δx=%”PRId16 //在阶段4,PRId16在阶段6扩展为“d”// L“Δx=%”和“d”形成L“Δx=%d” | (自C99以来) |
其次,在翻译阶段7,将终止空字符添加到每个字符串文字中,然后每个文字初始化一个静态存储持续时间和长度的未命名数组,以便足以容纳字符串文字的内容加上一个空终止符。
char* p = "\x12" "3"; // creates a static char[3] array holding {'\x12', '3', '\0'} // sets p to point to the first element of the array字符串文字是不可修改的(事实上可以放在只读存储器中.rodata)。如果程序试图修改由字符串文字形成的静态数组,则行为是不确定的。
char* p = "Hello";p[1] = 'M'; // Undefined behavior
对于相同的字符串文字来说,既不要求也不禁止在存储器中引用相同的位置。而且,重叠的字符串文字或者是其他字符串文字的子字符串的字符串文字可以组合。
"def" == 3+"abcdef"; // may be 1 or 0, implementation-defined
注意
字符串文字不一定是一个字符串; 如果字符串文字含有空字符,则表示包含多个字符串的数组:
char* p = "abc\0def"; // strlen(p) == 3, but the array has size 8
如果一个有效的十六进制数字在字符串文字中出现十六进制转义,它将无法编译为无效转义序列,但字符串连接可以用作解决方法:
//char* p = "\xfff"; // error: hex escape sequence out of rangechar* p = "\xff""f"; // okay, the literal is char[3] holding {'\xff', 'f', '\0'}字符串文字可用于初始化数组,如果数组大小小于字符串文字的大小,则会忽略空终止符:
char a1[] = "abc"; // a1 is char[4] holding {'a', 'b', 'c', '\0'}char a2[4] = "abc"; // a2 is char[4] holding {'a', 'b', 'c', '\0'}char a3[3] = "abc"; // a3 is char[3] holding {'a', 'b', 'c'}字符串文字(1)和宽字符串文字(5)的编码是实现定义的。例如,GCC与选择它们的命令行选项 -fexec-charset和-fwide-exec-charset。
例
#include <stdio.h>#include <stdlib.h>#include <stddef.h>#include <uchar.h>#include <locale.h>int main(void){
char s1[] = "a猫?"; // or "a\u732B\U0001F34C"
char s2[] = u8"a猫?";
char16_t s3[] = u"a猫?";
char32_t s4[] = U"a猫?";
wchar_t s5[] = L"a猫?";
setlocale(LC_ALL, "en_US.utf8"); printf(" \"%s\" is a char[%zu] holding { ", s1, sizeof s1 / sizeof *s1); for(size_t n = 0; n < sizeof s1 / sizeof *s1; ++n)
printf("%#x ", +(unsigned char)s1[n]); puts(" }"); printf("u8\"%s\" is a char[%zu] holding { ", s2, sizeof s2 / sizeof *s2); for(size_t n = 0; n < sizeof s2 / sizeof *s2; ++n)
printf("%#x ", +(unsigned char)s2[n]); puts(" }"); printf(" u\"a猫?\" is a char16_t[%zu] holding { ", sizeof s3 / sizeof *s3); for(size_t n = 0; n < sizeof s3 / sizeof *s3; ++n)
printf("%#x ", s3[n]); puts(" }"); printf(" U\"a猫?\" is a char32_t[%zu] holding { ", sizeof s4 / sizeof *s4); for(size_t n = 0; n < sizeof s4 / sizeof *s4; ++n)
printf("%#x ", s4[n]); puts(" }"); printf(" L\"%ls\" is a wchar_t[%zu] holding { ", s5, sizeof s5 / sizeof *s5); for(size_t n = 0; n < sizeof s5 / sizeof *s5; ++n)
printf("%#x ", s5[n]); puts(" }");}可能的输出:
"a猫?" is a char[9] holding { 0x61 0xe7 0x8c 0xab 0xf0 0x9f 0x8d 0x8c 0 }u8"a猫?" is a char[9] holding { 0x61 0xe7 0x8c 0xab 0xf0 0x9f 0x8d 0x8c 0 }
u"a猫?" is a char16_t[5] holding { 0x61 0x732b 0xd83c 0xdf4c 0 }
U"a猫?" is a char32_t[4] holding { 0x61 0x732b 0x1f34c 0 }
L"a猫?" is a wchar_t[4] holding { 0x61 0x732b 0x1f34c 0 }