ref: bbe28faab4f6dce29fe820450c425d255546cfbb
dir: /include/helpers.h/
/* * This file is part of RGBDS. * * Copyright (c) 2014-2020, RGBDS contributors. * * SPDX-License-Identifier: MIT */ #ifndef HELPERS_H #define HELPERS_H // Of course, MSVC does not support C11, so no _Noreturn there... #ifdef _MSC_VER #define _Noreturn __declspec(noreturn) #endif // Ideally, we'd use `__has_attribute` and `__has_builtin`, but these were only introduced in GCC 9 #ifdef __GNUC__ // GCC or compatible #define format_(archetype, str_index, first_arg) \ __attribute__ ((format (archetype, str_index, first_arg))) #define attr_(...) __attribute__ ((__VA_ARGS__)) // In release builds, define "unreachable" as such, but trap in debug builds #ifdef NDEBUG #define unreachable_ __builtin_unreachable #else #define unreachable_ __builtin_trap #endif #else // Unsupported, but no need to throw a fit #define format_(archetype, str_index, first_arg) #define attr_(...) // This seems to generate similar code to __builtin_unreachable, despite different semantics // Note that executing this is undefined behavior (declared _Noreturn, but does return) static inline _Noreturn void unreachable_(void) {} #endif // Use builtins whenever possible, and shim them otherwise #ifdef __GNUC__ // GCC or compatible #define ctz __builtin_ctz #define clz __builtin_clz #elif defined(_MSC_VER) #include <assert.h> #include <intrin.h> #pragma intrinsic(_BitScanReverse, _BitScanForward) static inline int ctz(unsigned int x) { unsigned long cnt; assert(x != 0); _BitScanForward(&cnt, x); return cnt; } static inline int clz(unsigned int x) { unsigned long cnt; assert(x != 0); _BitScanReverse(&cnt, x); return 31 - cnt; } #else #include <limits.h> static inline int ctz(unsigned int x) { int cnt = 0; while (!(x & 1)) { x >>= 1; cnt++; } return cnt; } static inline int clz(unsigned int x) { int cnt = 0; while (x <= UINT_MAX / 2) { x <<= 1; cnt++; } return cnt; } #endif // Macros for stringification #define STR(x) #x #define EXPAND_AND_STR(x) STR(x) // Obtaining the size of an array; `arr` must be an expression, not a type! // (Having two instances of `arr` is OK because the contents of `sizeof` are not evaluated.) #define ARRAY_SIZE(arr) (sizeof(arr) / sizeof *(arr)) #endif // HELPERS_H