First, rather than shifting, you can do a bitwise test on the
relevant bit. Second, you can use a pointer, rather than
indexing (but the compiler should do this optimization itself.
Thus:
uint64_t
readUnsignedVarLength( unsigned char const* pos )
{
uint64_t results = 0;
while ( (*pos & 0x80) == 0 ) {
results = (results << 7) | *pos;
++ pos;
}
return results;
}
At least, this corresponds to what your code does. For variable
length encoding of unsigned integers, it is incorrect, since
1) variable length encodings are little endian, and your code is
big endian, and 2) your code doesn't or in the high order byte.
Finally, the Wiki page suggests that you've got the test
inversed. (I know this format mainly from BER encoding and
Google protocol buffers, both of which set bit 7 to indicate
that another byte will follow.
The routine I use is:
uint64_t
readUnsignedVarLen( unsigned char const* source )
{
int shift = 0;
uint64_t results = 0;
uint8_t tmp = *source ++;
while ( ( tmp & 0x80 ) != 0 ) {
*value |= ( tmp & 0x7F ) << shift;
shift += 7;
tmp = *source ++;
}
return results | (tmp << shift);
}
For the rest, this wasn't written with performance in mind, but
I doubt that you could do significantly better. An alternative
solution would be to pick up all of the bytes first, then
process them in reverse order:
uint64_t
readUnsignedVarLen( unsigned char const* source )
{
unsigned char buffer[10];
unsigned char* p = std::begin( buffer );
while ( p != std::end( buffer ) && (*source & 0x80) != 0 ) {
*p = *source & 0x7F;
++ p;
}
assert( p != std::end( buffer ) );
*p = *source;
++ p;
uint64_t results = 0;
while ( p != std::begin( buffer ) ) {
-- p;
results = (results << 7) + *p;
}
return results;
}
The necessity of checking for buffer overrun will likely make
this slightly slower, but on some architectures, shifting by
a constant is significantly faster than shifting by a variable,
so this could be faster on them.
Globally, however, don't expect miracles. The motivation for
using variable length integers is to reduce data size, at
a cost in runtime for decoding and encoding.
func
not notify anyone how many bytes were used? This design requires inefficiency I think...