问题
I need to convert a short value from the host byte order to little endian. If the target was big endian, I could use the htons() function, but alas - it's not.
I guess I could do:
swap(htons(val))
But this could potentially cause the bytes to be swapped twice, rendering the result correct but giving me a performance penalty which is not alright in my case.
回答1:
Something like the following:
unsigned short swaps( unsigned short val)
{
return ((val & 0xff) << 8) | ((val & 0xff00) >> 8);
}
/* host to little endian */
#define PLATFORM_IS_BIG_ENDIAN 1
#if PLATFORM_IS_LITTLE_ENDIAN
unsigned short htoles( unsigned short val)
{
/* no-op on a little endian platform */
return val;
}
#elif PLATFORM_IS_BIG_ENDIAN
unsigned short htoles( unsigned short val)
{
/* need to swap bytes on a big endian platform */
return swaps( val);
}
#else
unsigned short htoles( unsigned short val)
{
/* the platform hasn't been properly configured for the */
/* preprocessor to know if it's little or big endian */
/* use potentially less-performant, but always works option */
return swaps( htons(val));
}
#endif
If you have a system that's properly configured (such that the preprocessor knows whether the target id little or big endian) you get an 'optimized' version of htoles()
. Otherwise you get the potentially non-optimized version that depends on htons()
. In any case, you get something that works.
Nothing too tricky and more or less portable.
Of course, you can further improve the optimization possibilities by implementing this with inline
or as macros as you see fit.
You might want to look at something like the "Portable Open Source Harness (POSH)" for an actual implementation that defines the endianness for various compilers. Note, getting to the library requires going though a pseudo-authentication page (though you don't need to register to give any personal details): http://hookatooka.com/poshlib/
回答2:
Here is an article about endianness and how to determine it from IBM:
Writing endian-independent code in C: Don't let endianness "byte" you
It includes an example of how to determine endianness at run time ( which you would only need to do once )
const int i = 1;
#define is_bigendian() ( (*(char*)&i) == 0 )
int main(void) {
int val;
char *ptr;
ptr = (char*) &val;
val = 0x12345678;
if (is_bigendian()) {
printf(“%X.%X.%X.%X\n", u.c[0], u.c[1], u.c[2], u.c[3]);
} else {
printf(“%X.%X.%X.%X\n", u.c[3], u.c[2], u.c[1], u.c[0]);
}
exit(0);
}
The page also has a section on methods for reversing byte order:
short reverseShort (short s) {
unsigned char c1, c2;
if (is_bigendian()) {
return s;
} else {
c1 = s & 255;
c2 = (s >> 8) & 255;
return (c1 << 8) + c2;
}
}
;
short reverseShort (char *c) {
short s;
char *p = (char *)&s;
if (is_bigendian()) {
p[0] = c[0];
p[1] = c[1];
} else {
p[0] = c[1];
p[1] = c[0];
}
return s;
}
回答3:
Then you should know your endianness and call htons() conditionally. Actually, not even htons, but just swap bytes conditionally. Compile-time, of course.
回答4:
This trick should would: at startup, use ntohs
with a dummy value and then compare the resulting value to the original value. If both values are the same, then the machine uses big endian, otherwise it is little endian.
Then, use a ToLittleEndian
method that either does nothing or invokes ntohs
, depending on the result of the initial test.
(Edited with the information provided in comments)
回答5:
My rule-of-thumb performance guess is that depends whether you are little-endian-ising a big block of data in one go, or just one value:
If just one value, then the function call overhead is probably going to swamp the overhead of unnecessary byte-swaps, and that's even if the compiler doesn't optimise away the unnecessary byte swaps. Then you're maybe going to write the value as the port number of a socket connection, and try to open or bind a socket, which takes an age compared with any sort of bit-manipulation. So just don't worry about it.
If a large block, then you might worry the compiler won't handle it. So do something like this:
if (!is_little_endian()) {
for (int i = 0; i < size; ++i) {
vals[i] = swap_short(vals[i]);
}
}
Or look into SIMD instructions on your architecture which can do it considerably faster.
Write is_little_endian()
using whatever trick you like. I think the one Robert S. Barnes provides is sound, but since you usually know for a given target whether it's going to be big- or little-endian, maybe you should have a platform-specific header file, that defines it to be a macro evaluating either to 1 or 0.
As always, if you really care about performance, then look at the generated assembly to see whether pointless code has been removed or not, and time the various alternatives against each other to see what actually goes fastest.
回答6:
Unfortunately, there's not really a cross-platform way to determine a system's byte order at compile-time with standard C. I suggest adding a #define
to your config.h
(or whatever else you or your build system uses for build configuration).
A unit test to check for the correct definition of LITTLE_ENDIAN
or BIG_ENDIAN
could look like this:
#include <assert.h>
#include <limits.h>
#include <stdint.h>
void check_bits_per_byte(void)
{ assert(CHAR_BIT == 8); }
void check_sizeof_uint32(void)
{ assert(sizeof (uint32_t) == 4); }
void check_byte_order(void)
{
static const union { unsigned char bytes[4]; uint32_t value; } byte_order =
{ { 1, 2, 3, 4 } };
static const uint32_t little_endian = 0x04030201ul;
static const uint32_t big_endian = 0x01020304ul;
#ifdef LITTLE_ENDIAN
assert(byte_order.value == little_endian);
#endif
#ifdef BIG_ENDIAN
assert(byte_order.value == big_endian);
#endif
#if !defined LITTLE_ENDIAN && !defined BIG_ENDIAN
assert(!"byte order unknown or unsupported");
#endif
}
int main(void)
{
check_bits_per_byte();
check_sizeof_uint32();
check_byte_order();
}
回答7:
On many Linux systems, there is a <endian.h>
or <sys/endian.h>
with conversion functions. man page for ENDIAN(3)
来源:https://stackoverflow.com/questions/1873352/how-do-i-convert-a-value-from-host-byte-order-to-little-endian