I want to know if code A is likely to be faster than code B on a majority, or significant number, of hardware/systems.
for(i = 0; i < 4; i ++) file.write(array[i], 1);
// for(i = 0; i < 1; i ++) file.write(array[i], 4);
The reason I ask is because I want to be able to write a very long file of 64 bit sequential integers to disk.
Currently the problem I am facing is that my array, which is really a buffer, contains objects which are 8 bytes long, rather than objects of 1 byte which I could very easily write using something like:
I thought of a few solutions, but they all seem pretty unimaginative and bodged to me.
The first was to iterate over 8 bytes:
for(j = 0; j < size_of_array; j ++) for(i = 0; i < 8; i ++) // 8 == sizeof(uint64_t) file.write((char*)(array + i + j), 1);
Then I thought, why not just trick write() into writing the 8 bytes for me? Am I allowed to do this?
for(j = 0; j < size_of_array; j ++) file.write((char*)(array + j), 8);
Then I thought, well... Go a step further:
file.write((char*)(array), 8 * size_of_array);
So my question is really, what is the fastest way to write a very large quantity of data to disk?
By large, I am suggesting writing a buffer containing 4 million objects, and re-filling the buffer and writing again, perhaps to create a file several tens of gigabytes in size.
For those who are interested, this is a parallel processing experiment. Step 1 is to generate the data. This is where I am now. Step 1...