#ifndef _BS_PRIMS #define _BS_PRIMS /* For now, use unsigned short for compatibility with old libg++ code. Later, change to unsigned long as the default. */ typedef unsigned long _BS_word; #define _BS_CHAR_BIT 8 #define _BS_BITS_PER_WORD (_BS_CHAR_BIT*sizeof(_BS_word)) #define _BS_WORDS_NEEDED(NBITS) ((NBITS+_BS_BITS_PER_WORD-1)/_BS_BITS_PER_WORD) /* For now, we number the bits in a _BS_word in little-endian order. Later, might use machine order. */ #ifdef CHILL_LIB #ifndef BITS_BIG_ENDIAN #include "config.h" #endif #define _BS_BIGENDIAN BITS_BIG_ENDIAN #else #define _BS_BIGENDIAN 0 #endif /* By "left" we mean where bit number 0 is. Hence, so left shift is << if we're numbering the bits in big-endian oder, and >> if we're numbering the bits in little-endian order. Currently, we always use little-endian order. Later, we might use machine-endian order. */ #if _BS_BIGENDIAN #define _BS_LEFT << #define _BS_RIGHT >> #else #define _BS_LEFT >> #define _BS_RIGHT << #endif #if _BS_BIGENDIAN #define _BS_BITMASK(BITNO) (1 << (_BS_BITS_PER_WORD - 1 - (BITNO))) #else #define _BS_BITMASK(BITNO) (1 << (BITNO)) #endif /* Given a PTR which may not be aligned on a _BS_word boundary, set NEW_PTR to point to (the beginning of) the corresponding _BS_word. Adjust the bit-offset OFFSET to compensate for the difference. */ #define _BS_ADJUST_ALIGNED(NEW_PTR, PTR, OFFSET) \ ( (NEW_PTR) = (_BS_word*)(((char*)(PTR)-(char*)0) & ~(sizeof(_BS_word)-1)), \ (OFFSET) += (char*)(PTR) - (char*)(NEW_PTR) ) /* Given a bit point (PTR, OFFSET) normalize it so that OFFSET < _BS_BITS_PER_WORD. */ #define _BS_NORMALIZE(PTR, OFFSET) \ { _BS_size_t __tmp_ind = _BS_INDEX (OFFSET); \ (PTR) += __tmp_ind; \ (OFFSET) -= __tmp_ind * _BS_BITS_PER_WORD; } #define _BS_INDEX(I) ((unsigned)(I) / _BS_BITS_PER_WORD) #define _BS_POS(I) ((I) & (_BS_BITS_PER_WORD -1 )) #ifndef _BS_size_t #ifdef __GNUC__ #define _BS_size_t __SIZE_TYPE__ #else #define _BS_size_t unsigned long #endif #endif #ifndef __P #ifdef __STDC__ #define __P(protos) protos #else #define __P(protos) () #endif #endif /*!__P*/ #if !defined(__STDC__) && !defined(const) #define const #endif #if !defined(__STDC__) && !defined(void) #define void int #endif /* The 16 2-operand raster-ops: These match the correspodning GX codes in X11. */ enum _BS_alu { _BS_alu_clear = 0 /* 0 */, _BS_alu_and = 1 /* src & dst */, _BS_alu_andReverse = 2 /* src & ~dst */, _BS_alu_copy = 3 /* src */, _BS_alu_andInverted = 4 /* ~src & dst */, _BS_alu_noop = 5 /* dst */, _BS_alu_xor = 6 /* src ^ dst */, _BS_alu_or = 7 /* src | dst */, _BS_alu_nor = 8 /* ~src & ~dst */, _BS_alu_equiv = 9 /* ~(src ^ dst) */, _BS_alu_invert = 10 /* ~dst */, _BS_alu_orReverse = 11 /* src | ~dst */, _BS_alu_copyInverted = 12 /* ~src */, _BS_alu_orInverted = 13 /* ~src | dst */, _BS_alu_nand = 14 /* ~src | d~st */, _BS_alu_set = 15 /* ~src | dst */ }; #define _BS #define _BS #ifdef __cplusplus extern "C" { #endif extern void _BS_and __P((_BS_word*,int, const _BS_word*, int, _BS_size_t)); extern void _BS_blt __P((enum _BS_alu, _BS_word*,int, const _BS_word*,int, _BS_size_t)); extern void _BS_copy __P((_BS_word*,int, const _BS_word*,int, _BS_size_t)); #define _BS_copy_0(DS, SS, LENGTH) _BS_copy(DS, 0, SS, 0, LENGTH) extern int _BS_count __P((const _BS_word*, int, _BS_size_t)); extern int _BS_any __P((const _BS_word*, int, _BS_size_t)); extern void _BS_clear __P((_BS_word*, int, _BS_size_t)); extern void _BS_set __P((_BS_word*, int, _BS_size_t)); extern void _BS_invert __P((_BS_word*, int, _BS_size_t)); int _BS_lcompare_0 __P((_BS_word*, _BS_size_t, _BS_word*, _BS_size_t)); extern void _BS_xor __P((_BS_word*,int, const _BS_word*,int, _BS_size_t)); #ifdef __cplusplus } #endif #endif /* !_BS_PRIMS */