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- mkmf (44)
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-
check
_ signedness (22) -
convertible
_ int (22)
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先頭4件
- Kernel
# check _ signedness(type , headers = nil , opts = nil) -> "signed" | "unsigned" | nil - Kernel
# check _ signedness(type , headers = nil , opts = nil) { . . . } -> "signed" | "unsigned" | nil - Kernel
# convertible _ int(type , headers = nil , opts = nil) - Kernel
# convertible _ int(type , headers = nil , opts = nil) { . . . }
-
Kernel
# check _ signedness(type , headers = nil , opts = nil) -> "signed" | "unsigned" | nil (118.0) -
Returns the signedness of the given +type+. You may optionally specify additional +headers+ to search in for the +type+. If the +type+ is found and is a numeric type, a macro is passed as a preprocessor constant to the compiler using the +type+ name, in uppercase, prepended with 'SIGNEDNESS_OF_', followed by the +type+ name, followed by '=X' where 'X' is positive integer if the +type+ is unsigned, or negative integer if the +type+ is signed. For example, if size_t is defined as unsigned, then check_signedness('size_t') would returned +1 and the SIGNEDNESS_OF_SIZE_T=+1 preprocessor macro would be passed to the compiler, and SIGNEDNESS_OF_INT=-1 if check_signedness('int') is done.
...ven +type+. You may optionally
specify additional +headers+ to search in for the +type+.
If the +type+ is found and is a numeric type, a macro is passed as a
preprocessor constant to the compiler using the +type+ name, in
uppercase, prepended with 'SIGNEDNESS_OF_', followed by the +type+
nam......' where 'X' is positive integer if the +type+ is
unsigned, or negative integer if the +type+ is signed.
For example, if size_t is defined as unsigned, then
check_signedness('size_t') would returned +1 and the
SIGNEDNESS_OF_SIZE_T=+1 preprocessor macro would be passed to the
compiler, and SIGN... -
Kernel
# check _ signedness(type , headers = nil , opts = nil) { . . . } -> "signed" | "unsigned" | nil (118.0) -
Returns the signedness of the given +type+. You may optionally specify additional +headers+ to search in for the +type+. If the +type+ is found and is a numeric type, a macro is passed as a preprocessor constant to the compiler using the +type+ name, in uppercase, prepended with 'SIGNEDNESS_OF_', followed by the +type+ name, followed by '=X' where 'X' is positive integer if the +type+ is unsigned, or negative integer if the +type+ is signed. For example, if size_t is defined as unsigned, then check_signedness('size_t') would returned +1 and the SIGNEDNESS_OF_SIZE_T=+1 preprocessor macro would be passed to the compiler, and SIGNEDNESS_OF_INT=-1 if check_signedness('int') is done.
...ven +type+. You may optionally
specify additional +headers+ to search in for the +type+.
If the +type+ is found and is a numeric type, a macro is passed as a
preprocessor constant to the compiler using the +type+ name, in
uppercase, prepended with 'SIGNEDNESS_OF_', followed by the +type+
nam......' where 'X' is positive integer if the +type+ is
unsigned, or negative integer if the +type+ is signed.
For example, if size_t is defined as unsigned, then
check_signedness('size_t') would returned +1 and the
SIGNEDNESS_OF_SIZE_T=+1 preprocessor macro would be passed to the
compiler, and SIGN... -
Kernel
# convertible _ int(type , headers = nil , opts = nil) (118.0) -
Returns the convertible integer type of the given +type+. You may optionally specify additional +headers+ to search in for the +type+. _Convertible_ means actually same type, or typedefed from same type. If the +type+ is a integer type and _convertible_ type is found, following macros are passed as preprocessor constants to the compiler using the +type+ name, in uppercase. * 'TYPEOF_', followed by the +type+ name, followed by '=X' where 'X' is the found _convertible_ type name. * 'TYP2NUM' and 'NUM2TYP, where 'TYP' is the +type+ name in uppercase with replacing '_t' suffix with 'T', followed by '=X' where 'X' is the macro name to convert +type+ to +Integer+ object, and vice versa. For example, if foobar_t is defined as unsigned long, then convertible_int("foobar_t") would return "unsigned long", and define macros: #define TYPEOF_FOOBAR_T unsigned long #define FOOBART2NUM ULONG2NUM #define NUM2FOOBART NUM2ULONG
...e integer type of the given +type+. You may
optionally specify additional +headers+ to search in for the +type+.
_Convertible_ means actually same type, or typedefed from same type.
If the +type+ is a integer type and _convertible_ type is found,
following macros are passed as preprocessor co......nstants to the
compiler using the +type+ name, in uppercase.
* 'TYPEOF_', followed by the +type+ name, followed by '=X' where 'X'
is the found _convertible_ type name. * 'TYP2NUM' and 'NUM2TYP,
where 'TYP' is the +type+ name in uppercase with replacing '_t'
suffix with 'T', followed by......'=X' where 'X' is the macro name to
convert +type+ to +Integer+ object, and vice versa.
For example, if foobar_t is defined as unsigned long, then
convertible_int("foobar_t") would return "unsigned long", and define
macros:
#define TYPEOF_FOOBAR_T unsigned long
#define FOOBART2NUM U... -
Kernel
# convertible _ int(type , headers = nil , opts = nil) { . . . } (118.0) -
Returns the convertible integer type of the given +type+. You may optionally specify additional +headers+ to search in for the +type+. _Convertible_ means actually same type, or typedefed from same type. If the +type+ is a integer type and _convertible_ type is found, following macros are passed as preprocessor constants to the compiler using the +type+ name, in uppercase. * 'TYPEOF_', followed by the +type+ name, followed by '=X' where 'X' is the found _convertible_ type name. * 'TYP2NUM' and 'NUM2TYP, where 'TYP' is the +type+ name in uppercase with replacing '_t' suffix with 'T', followed by '=X' where 'X' is the macro name to convert +type+ to +Integer+ object, and vice versa. For example, if foobar_t is defined as unsigned long, then convertible_int("foobar_t") would return "unsigned long", and define macros: #define TYPEOF_FOOBAR_T unsigned long #define FOOBART2NUM ULONG2NUM #define NUM2FOOBART NUM2ULONG
...e integer type of the given +type+. You may
optionally specify additional +headers+ to search in for the +type+.
_Convertible_ means actually same type, or typedefed from same type.
If the +type+ is a integer type and _convertible_ type is found,
following macros are passed as preprocessor co......nstants to the
compiler using the +type+ name, in uppercase.
* 'TYPEOF_', followed by the +type+ name, followed by '=X' where 'X'
is the found _convertible_ type name. * 'TYP2NUM' and 'NUM2TYP,
where 'TYP' is the +type+ name in uppercase with replacing '_t'
suffix with 'T', followed by......'=X' where 'X' is the macro name to
convert +type+ to +Integer+ object, and vice versa.
For example, if foobar_t is defined as unsigned long, then
convertible_int("foobar_t") would return "unsigned long", and define
macros:
#define TYPEOF_FOOBAR_T unsigned long
#define FOOBART2NUM U...