I need to implement "big" arrays (~1800 elements) of a ternary datatype as runtime-efficiently as possible in C for cryptographic research. I thought of the following:
Using an array of any-sized integers, using 2 Bits to represent one element each
So I'd have
typedef uint32_t block;
const int blocksize = sizeof(block)<<3;
block dataArray[3]; // 3*32 bit => 48 Elements
uint8_t getElementAt(block *data, int position)
{
position = position * 2;
return (data[position/blocksize] >> (position % blocksize)) & 3;
}
returning me 0..2 which i can map to my three values.
Using an array of uint8_t addressing the elementy directly.
uint8_t data[48];
Sure, that needs at least four times more RAM but addressing and setting might be more efficient - is it?
Are there any other good possibilities I'm missing or special caveats in any of the two solutions?
uint_fast8_t
might be the ideal portable choice.CHAR_BIT == 8
, which is not guaranteed.