/* * Copyright (C) 2015 Kaspar Schleiser * Copyright (C) 2016 Eistec AB * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @brief Integer division functions * * This header provides some integer division functions that can be used * to prevent linking in compiler-generated ones, which are often larger. * * @file * @ingroup sys_util * @author Kaspar Schleiser * @author Joakim NohlgÄrd * @{ */ #ifndef DIV_H #define DIV_H #include #include #ifdef __cplusplus extern "C" { #endif /** * @brief Approximation of (2**l)/d for d=15625, l=12, 32 bits */ #define DIV_H_INV_15625_32 0x431bde83ul /** * @brief Approximation of (2**l)/d for d=15625, l=12, 64 bits */ #define DIV_H_INV_15625_64 0x431bde82d7b634dbull /** * @brief Required shifts for division by 15625, l above */ #define DIV_H_INV_15625_SHIFT 12 /** * @internal * @brief Multiply two 64 bit integers into a 128 bit integer and return the upper half. * * The implementation only uses 64 bit integers internally, no __int128 support * is necessary. * * @see http://stackoverflow.com/questions/28868367/getting-the-high-part-of-64-bit-integer-multiplication * @param[in] a operand a * @param[in] b operand b * @return (((uint128_t)a * b) >> 64) */ uint64_t _div_mulhi64(const uint64_t a, const uint64_t b); /** * @brief Integer divide val by 15625, 64 bit version * * @param[in] val dividend * @return (val / 15625) */ static inline uint64_t div_u64_by_15625(uint64_t val) { if (val > 16383999997ull) { return (_div_mulhi64(DIV_H_INV_15625_64, val) >> DIV_H_INV_15625_SHIFT); } return (val * DIV_H_INV_15625_32) >> (DIV_H_INV_15625_SHIFT + 32); } /** * @brief Integer divide val by 1000000 * * @param[in] val dividend * @return (val / 1000000) */ static inline uint64_t div_u64_by_1000000(uint64_t val) { return div_u64_by_15625(val) >> 6; } /** * @brief Divide val by (15625/512) * * This is used to quantize a 1MHz value to the closest 32768Hz value, * e.g., for timers. * * The algorithm uses the modular multiplicative inverse of 15625 to use only * multiplication and bit shifts to perform the division. * * The result will be equal to the mathematical expression: floor((val * 512) / 15625) * * @param[in] val dividend * @return (val / (15625/512)) */ static inline uint32_t div_u32_by_15625div512(uint32_t val) { return ((uint64_t)(val) * DIV_H_INV_15625_32) >> (DIV_H_INV_15625_SHIFT + 32 - 9); } /** * @brief Divide val by (15625/512) * * This is used to quantize a 1MHz value to the closest 32768Hz value, * e.g., for timers. * * @param[in] val dividend * @return (val / (15625/512)) */ static inline uint64_t div_u64_by_15625div512(uint64_t val) { /* * This saves around 1400 bytes of ROM on Cortex-M platforms (both ARMv6 and * ARMv7) from avoiding linking against __aeabi_uldivmod and related helpers */ if (val > 16383999997ull) { /* this would overflow 2^64 in the multiplication that follows, need to * use the long version */ return (_div_mulhi64(DIV_H_INV_15625_64, val) >> (DIV_H_INV_15625_SHIFT - 9)); } return (val * DIV_H_INV_15625_32) >> (DIV_H_INV_15625_SHIFT + 32 - 9); } /** * @brief Integer divide val by 44488 * * @param[in] val dividend * @return (val / 44488) */ static inline uint32_t div_u32_by_44488(uint32_t val) { return ((uint64_t)val * 0xBC8F1391UL) >> (15 + 32); } /** * @brief Modulo 44488 * * @param[in] val dividend * @return (val % 44488) */ static inline uint32_t div_u32_mod_44488(uint32_t val) { return val - (div_u32_by_44488(val)*44488); } #ifdef __cplusplus } #endif /** @} */ #endif /* DIV_H */