/* Some useful bit functions */ C_MODE_START extern const char _my_bits_nbits[256]; extern const uchar _my_bits_reverse_table[256]; /* Find smallest X in 2^X >= value This can be used to divide a number with value by doing a shift instead */ static inline uint my_bit_log2(ulong value) { uint bit; for (bit=0 ; value > 1 ; value>>=1, bit++) ; return bit; } static inline uint my_count_bits(ulonglong v) { #if SIZEOF_LONG_LONG > 4 /* The following code is a bit faster on 16 bit machines than if we would only shift v */ ulong v2=(ulong) (v >> 32); return (uint) (uchar) (_my_bits_nbits[(uchar) v] + _my_bits_nbits[(uchar) (v >> 8)] + _my_bits_nbits[(uchar) (v >> 16)] + _my_bits_nbits[(uchar) (v >> 24)] + _my_bits_nbits[(uchar) (v2)] + _my_bits_nbits[(uchar) (v2 >> 8)] + _my_bits_nbits[(uchar) (v2 >> 16)] + _my_bits_nbits[(uchar) (v2 >> 24)]); #else return (uint) (uchar) (_my_bits_nbits[(uchar) v] + _my_bits_nbits[(uchar) (v >> 8)] + _my_bits_nbits[(uchar) (v >> 16)] + _my_bits_nbits[(uchar) (v >> 24)]); #endif } static inline uint my_count_bits_ushort(ushort v) { return _my_bits_nbits[v]; } /* Next highest power of two SYNOPSIS my_round_up_to_next_power() v Value to check RETURN Next or equal power of 2 Note: 0 will return 0 NOTES Algorithm by Sean Anderson, according to: http://graphics.stanford.edu/~seander/bithacks.html (Orignal code public domain) Comments shows how this works with 01100000000000000000000000001011 */ static inline uint32 my_round_up_to_next_power(uint32 v) { v--; /* 01100000000000000000000000001010 */ v|= v >> 1; /* 01110000000000000000000000001111 */ v|= v >> 2; /* 01111100000000000000000000001111 */ v|= v >> 4; /* 01111111110000000000000000001111 */ v|= v >> 8; /* 01111111111111111100000000001111 */ v|= v >> 16; /* 01111111111111111111111111111111 */ return v+1; /* 10000000000000000000000000000000 */ } static inline uint32 my_clear_highest_bit(uint32 v) { uint32 w=v >> 1; w|= w >> 1; w|= w >> 2; w|= w >> 4; w|= w >> 8; w|= w >> 16; return v & w; } static inline uint32 my_reverse_bits(uint32 key) { return (_my_bits_reverse_table[ key & 255] << 24) | (_my_bits_reverse_table[(key>> 8) & 255] << 16) | (_my_bits_reverse_table[(key>>16) & 255] << 8) | _my_bits_reverse_table[(key>>24) ]; } C_MODE_END