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/* bits.c - bitfield extraction code
*
* This file is Copyright (c)2010 by the GPSD project
* SPDX-License-Identifier: BSD-2-clause
*
* Bitfield extraction functions. In each, start is a bit index - not
* a byte index - and width is a bit width. The width is bounded above by
* 64 bits.
*
* The sbits() function assumes twos-complement arithmetic. ubits()
* and sbits() assume no padding in integers.
*/
#include <assert.h>
#include <stdint.h>
#include <stdbool.h>
#include <limits.h>
#include <string.h>
#include "bits.h"
uint64_t ubits(unsigned char buf[], unsigned int start, unsigned int width, bool le)
/* extract a (zero-origin) bitfield from the buffer as an unsigned big-endian uint64_t */
{
uint64_t fld = 0;
unsigned int i;
unsigned end;
assert(width <= sizeof(uint64_t) * CHAR_BIT);
for (i = start / CHAR_BIT;
i < (start + width + CHAR_BIT - 1) / CHAR_BIT; i++) {
fld <<= CHAR_BIT;
fld |= (unsigned char)buf[i];
}
end = (start + width) % CHAR_BIT;
if (end != 0) {
fld >>= (CHAR_BIT - end);
}
fld &= ~(~0ULL << width);
/* was extraction as a little-endian requested? */
if (le)
{
uint64_t reversed = 0;
for (i = width; i; --i)
{
reversed <<= 1;
if (fld & 1)
reversed |= 1;
fld >>= 1;
}
fld = reversed;
}
return fld;
}
int64_t sbits(signed char buf[], unsigned int start, unsigned int width, bool le)
/* extract a bitfield from the buffer as a signed big-endian long */
{
uint64_t fld = ubits((unsigned char *)buf, start, width, le);
/* ensure width > 0 as the result of
1ULL << (width - 1)
is undefined for width <= 0 */
assert(width > 0);
if (fld & (1ULL << (width - 1))) {
fld |= (~0ULL << (width - 1));
}
return (int64_t)fld;
}
union int_float {
int32_t i;
float f;
};
union long_double {
int64_t l;
double d;
};
float getlef32(const char *buf, int off)
{
union int_float i_f;
i_f.i = getles32(buf, off);
return i_f.f;
}
double getled64(const char *buf, int off)
{
union long_double l_d;
l_d.l = getles64(buf, off);
return l_d.d;
}
float getbef32(const char *buf, int off)
{
union int_float i_f;
i_f.i = getbes32(buf, off);
return i_f.f;
}
double getbed64(const char *buf, int off)
{
union long_double l_d;
l_d.l = getbes64(buf, off);
return l_d.d;
}
void putbef32(char *buf, int off, float val)
{
union int_float i_f;
i_f.f = val;
putbe32(buf, off, i_f.i);
}
void shiftleft(unsigned char *data, int size, unsigned short left)
{
unsigned char *byte;
if (left >= CHAR_BIT) {
size -= left/CHAR_BIT;
memmove(data, data + left/CHAR_BIT, (size + CHAR_BIT - 1)/CHAR_BIT);
left %= CHAR_BIT;
}
for (byte = data; size--; ++byte )
{
unsigned char bits;
if (size)
bits = byte[1] >> (CHAR_BIT - left);
else
bits = 0;
*byte <<= left;
*byte |= bits;
}
}
#ifdef __UNUSED__
void putbed64(char *buf, int off, double val)
{
union long_double l_d;
l_d.d = val;
putbe32(buf, (off), (l_d.l) >> 32);
putbe32(buf, (off)+4, (l_d.l));
}
u_int16_t swap_u16(u_int16_t i)
/* byte-swap a 16-bit unsigned int */
{
u_int8_t c1, c2;
c1 = i & 255;
c2 = (i >> 8) & 255;
return (c1 << 8) + c2;
}
u_int32_t swap_u32(u_int32_t i)
/* byte-swap a 32-bit unsigned int */
{
u_int8_t c1, c2, c3, c4;
c1 = i & 255;
c2 = (i >> 8) & 255;
c3 = (i >> 16) & 255;
c4 = (i >> 24) & 255;
return ((u_int32_t)c1 << 24) + ((u_int32_t)c2 << 16) + ((u_int32_t)c3 << 8) + c4;
}
u_int64_t swap_u64(u_int64_t i)
/* byte-swap a 64-bit unsigned int */
{
u_int8_t c1, c2, c3, c4, c5, c6, c7, c8;
c1 = i & 255;
c2 = (i >> 8) & 255;
c3 = (i >> 16) & 255;
c4 = (i >> 24) & 255;
c5 = (i >> 32) & 255;
c6 = (i >> 40) & 255;
c7 = (i >> 48) & 255;
c8 = (i >> 56) & 255;
return ((u_int64_t)c1 << 56) +
((u_int64_t)c2 << 48) +
((u_int64_t)c3 << 40) +
((u_int64_t)c4 << 32) +
((u_int64_t)c5 << 24) +
((u_int64_t)c6 << 16) +
((u_int64_t)c7 << 8) +
c8;
}
#endif /* __UNUSED__ */
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