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My recent change broke make pdf and in other documentation formats results in weird rendering and invalid URL, all because of a forgotten comma to separate @uref arguments.
213 lines
11 KiB
Plaintext
213 lines
11 KiB
Plaintext
@node Bit Manipulation, Date and Time, Arithmetic, Top
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@c %MENU% Bit manipulation
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@chapter Bit Manipulation
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This chapter contains information about functions and macros for
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determining the endianness of integer types and manipulating the bits
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of unsigned integers. These functions and macros are from ISO C23 and
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are declared in the header file @file{stdbit.h}.
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The following macros describe the endianness of integer types. They
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have values that are integer constant expressions.
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@defmac __STDC_ENDIAN_LITTLE__
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This macro represents little-endian storage.
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@end defmac
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@defmac __STDC_ENDIAN_BIG__
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This macro represents big-endian storage.
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@end defmac
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@defmac __STDC_ENDIAN_NATIVE__
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This macro equals @code{__STDC_ENDIAN_LITTLE__} if integer types are
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stored in memory in little-endian format, and equals
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@code{__STDC_ENDIAN_BIG__} if integer types are stored in memory in
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big-endian format.
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@end defmac
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The following functions manipulate the bits of unsigned integers.
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Each function family has functions for the types @code{unsigned char},
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@code{unsigned short}, @code{unsigned int}, @code{unsigned long int}
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and @code{unsigned long long int}. In addition, there is a
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corresponding type-generic macro (not listed below), named the same as
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the functions but without any suffix such as @samp{_uc}. The
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type-generic macro can only be used with an argument of an unsigned
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integer type with a width of 8, 16, 32 or 64 bits, or when using
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a compiler with support for
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@uref{https://gcc.gnu.org/onlinedocs/gcc/Other-Builtins.html,@code{__builtin_stdc_bit_ceil}},
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etc.@:, built-in functions such as GCC 14.1 or later
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any unsigned integer type those built-in functions support.
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In GCC 14.1 that includes support for @code{unsigned __int128} and
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@code{unsigned _BitInt(@var{n})} if supported by the target.
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@deftypefun {unsigned int} stdc_leading_zeros_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_leading_zeros_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_leading_zeros_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_leading_zeros_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_leading_zeros_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_leading_zeros} functions count the number of leading
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(most significant) zero bits in @var{x}, starting from the most
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significant bit of the argument type. If @var{x} is zero, they return
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the width of @var{x} in bits.
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@end deftypefun
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@deftypefun {unsigned int} stdc_leading_ones_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_leading_ones_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_leading_ones_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_leading_ones_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_leading_ones_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_leading_ones} functions count the number of leading
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(most significant) one bits in @var{x}, starting from the most
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significant bit of the argument type.
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@end deftypefun
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@deftypefun {unsigned int} stdc_trailing_zeros_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_trailing_zeros_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_trailing_zeros_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_trailing_zeros_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_trailing_zeros_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_trailing_zeros} functions count the number of trailing
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(least significant) zero bits in @var{x}, starting from the least
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significant bit of the argument type. If @var{x} is zero, they return
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the width of @var{x} in bits.
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@end deftypefun
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@deftypefun {unsigned int} stdc_trailing_ones_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_trailing_ones_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_trailing_ones_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_trailing_ones_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_trailing_ones_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_trailing_ones} functions count the number of trailing
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(least significant) one bits in @var{x}, starting from the least
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significant bit of the argument type.
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@end deftypefun
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@deftypefun {unsigned int} stdc_first_leading_zero_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_zero_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_zero_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_zero_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_zero_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_first_leading_zero} functions return the position of
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the most significant zero bit in @var{x}, counting from the most
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significant bit of @var{x} as 1, or zero if there is no zero bit in
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@var{x}.
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@end deftypefun
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@deftypefun {unsigned int} stdc_first_leading_one_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_one_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_one_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_one_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_first_leading_one_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_first_leading_one} functions return the position of the
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most significant one bit in @var{x}, counting from the most
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significant bit of @var{x} as 1, or zero if there is no one bit in
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@var{x}.
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@end deftypefun
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@deftypefun {unsigned int} stdc_first_trailing_zero_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_zero_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_zero_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_zero_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_zero_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_first_trailing_zero} functions return the position of
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the least significant zero bit in @var{x}, counting from the least
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significant bit of @var{x} as 1, or zero if there is no zero bit in
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@var{x}.
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@end deftypefun
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@deftypefun {unsigned int} stdc_first_trailing_one_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_one_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_one_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_one_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_first_trailing_one_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_first_trailing_one} functions return the position of
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the least significant one bit in @var{x}, counting from the least
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significant bit of @var{x} as 1, or zero if there is no one bit in
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@var{x}.
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@end deftypefun
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@deftypefun {unsigned int} stdc_count_zeros_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_count_zeros_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_count_zeros_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_count_zeros_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_count_zeros_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_count_zeros} functions count the number of zero bits in
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@var{x}.
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@end deftypefun
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@deftypefun {unsigned int} stdc_count_ones_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_count_ones_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_count_ones_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_count_ones_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_count_ones_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_count_ones} functions count the number of one bits in
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@var{x}.
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@end deftypefun
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@deftypefun {_Bool} stdc_has_single_bit_uc (unsigned char @var{x})
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@deftypefunx {_Bool} stdc_has_single_bit_us (unsigned short @var{x})
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@deftypefunx {_Bool} stdc_has_single_bit_ui (unsigned int @var{x})
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@deftypefunx {_Bool} stdc_has_single_bit_ul (unsigned long int @var{x})
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@deftypefunx {_Bool} stdc_has_single_bit_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_has_single_bit} functions return whether @var{x} has
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exactly one bit set to one.
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@end deftypefun
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@deftypefun {unsigned int} stdc_bit_width_uc (unsigned char @var{x})
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@deftypefunx {unsigned int} stdc_bit_width_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_bit_width_ui (unsigned int @var{x})
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@deftypefunx {unsigned int} stdc_bit_width_ul (unsigned long int @var{x})
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@deftypefunx {unsigned int} stdc_bit_width_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_bit_width} functions return the minimum number of bits
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needed to store @var{x}, not counting leading zero bits. If @var{x}
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is zero, they return zero.
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@end deftypefun
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@deftypefun {unsigned char} stdc_bit_floor_uc (unsigned char @var{x})
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@deftypefunx {unsigned short} stdc_bit_floor_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_bit_floor_ui (unsigned int @var{x})
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@deftypefunx {unsigned long int} stdc_bit_floor_ul (unsigned long int @var{x})
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@deftypefunx {unsigned long long int} stdc_bit_floor_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_bit_floor} functions return the largest integer power
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of two that is less than or equal to @var{x}. If @var{x} is zero,
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they return zero.
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@end deftypefun
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@deftypefun {unsigned char} stdc_bit_ceil_uc (unsigned char @var{x})
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@deftypefunx {unsigned short} stdc_bit_ceil_us (unsigned short @var{x})
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@deftypefunx {unsigned int} stdc_bit_ceil_ui (unsigned int @var{x})
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@deftypefunx {unsigned long int} stdc_bit_ceil_ul (unsigned long int @var{x})
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@deftypefunx {unsigned long long int} stdc_bit_ceil_ull (unsigned long long int @var{x})
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@standards{C23, stdbit.h}
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@safety{@prelim{}@mtsafe{}@assafe{}@acsafe{}}
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The @code{stdc_bit_ceil} functions return the smallest integer power
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of two that is greater than or equal to @var{x}. If this cannot be
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represented in the return type, they return zero.
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@end deftypefun
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