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Direktori : /proc/thread-self/root/opt/alt/python33/include/python3.3m/ |
Current File : //proc/thread-self/root/opt/alt/python33/include/python3.3m/pymacro.h |
#ifndef Py_PYMACRO_H #define Py_PYMACRO_H #define Py_MIN(x, y) (((x) > (y)) ? (y) : (x)) #define Py_MAX(x, y) (((x) > (y)) ? (x) : (y)) /* Argument must be a char or an int in [-128, 127] or [0, 255]. */ #define Py_CHARMASK(c) ((unsigned char)((c) & 0xff)) /* Assert a build-time dependency, as an expression. Your compile will fail if the condition isn't true, or can't be evaluated by the compiler. This can be used in an expression: its value is 0. Example: #define foo_to_char(foo) \ ((char *)(foo) \ + Py_BUILD_ASSERT_EXPR(offsetof(struct foo, string) == 0)) Written by Rusty Russell, public domain, http://ccodearchive.net/ */ #define Py_BUILD_ASSERT_EXPR(cond) \ (sizeof(char [1 - 2*!(cond)]) - 1) /* Get the number of elements in a visible array This does not work on pointers, or arrays declared as [], or function parameters. With correct compiler support, such usage will cause a build error (see Py_BUILD_ASSERT_EXPR). Written by Rusty Russell, public domain, http://ccodearchive.net/ Requires at GCC 3.1+ */ #if (defined(__GNUC__) && !defined(__STRICT_ANSI__) && \ (((__GNUC__ == 3) && (__GNU_MINOR__ >= 1)) || (__GNUC__ >= 4))) /* Two gcc extensions. &a[0] degrades to a pointer: a different type from an array */ #define Py_ARRAY_LENGTH(array) \ (sizeof(array) / sizeof((array)[0]) \ + Py_BUILD_ASSERT_EXPR(!__builtin_types_compatible_p(typeof(array), \ typeof(&(array)[0])))) #else #define Py_ARRAY_LENGTH(array) \ (sizeof(array) / sizeof((array)[0])) #endif /* Define macros for inline documentation. */ #define PyDoc_VAR(name) static char name[] #define PyDoc_STRVAR(name,str) PyDoc_VAR(name) = PyDoc_STR(str) #ifdef WITH_DOC_STRINGS #define PyDoc_STR(str) str #else #define PyDoc_STR(str) "" #endif /* Below "a" is a power of 2. */ /* Round down size "n" to be a multiple of "a". */ #define _Py_SIZE_ROUND_DOWN(n, a) ((size_t)(n) & ~(size_t)((a) - 1)) /* Round up size "n" to be a multiple of "a". */ #define _Py_SIZE_ROUND_UP(n, a) (((size_t)(n) + \ (size_t)((a) - 1)) & ~(size_t)((a) - 1)) /* Round pointer "p" down to the closest "a"-aligned address <= "p". */ #define _Py_ALIGN_DOWN(p, a) ((void *)((Py_uintptr_t)(p) & ~(Py_uintptr_t)((a) - 1))) /* Round pointer "p" up to the closest "a"-aligned address >= "p". */ #define _Py_ALIGN_UP(p, a) ((void *)(((Py_uintptr_t)(p) + \ (Py_uintptr_t)((a) - 1)) & ~(Py_uintptr_t)((a) - 1))) /* Check if pointer "p" is aligned to "a"-bytes boundary. */ #define _Py_IS_ALIGNED(p, a) (!((Py_uintptr_t)(p) & (Py_uintptr_t)((a) - 1))) #endif /* Py_PYMACRO_H */