I have a script that generates two random 32-bit floating point numbers a and b, and divides them to make an output c.
I would like to store all 3 of these floating point numbers in hexadecimal format, as a string that contains 8 characters.
I found a clever way to do this online here:
And here's my implementation of their advice in C++
fileout << hex << *(int*)&a[i] << endl; fileout << hex << *(int*)&b[i] << endl; fileout << hex << *(int*)&c[i] << endl;
This works for most of the cases. However, some of the cases, the strings are not 8 characters wide. Sometimes they are only one bit long. Here is the sample of the output:
af1fe786 ffbbff0b fffbff0b 7fbcbf00 <-I like it, but has zeros at the end 77fefe77 7ffcbf00 fdad974d f2fc7fef 4a2fff56 67de7744 fdf7711b a9662905 cd7adf0 <-- problem 5f79ffc0 0 <--- problem 6ebbc784 cffffb83 de3bcacf e7b3de77 ec7f660b 3ab44ae4 aefdef82 fffa9fd6 fd1ff7d2 62f4 <--why not "62f40000" ebbf0fa6 ddd78b8d 4d62ebb3 ff5bbceb 3dfc3f61 ff800000 <- zeros at end, but still 8 bytes? df35b371 e0ff7bf1 3db6115d fbbfbccc ddf69e06 5d470843 a3bdae71 fe3fff66 0 <--problem 979e5ba1 febbe3b9 0 <-problem fdf73a80 efcf77a7 4d9887fd cafdfb07 bf7f3f35 4afebadd bffdee35 efb79f7f fb1028c <--problem
I want 8-character representations. As for the case of zero, I want to convert it to "00000000".
But I am really confused about the ones that are only 4, 5, 6, 7 characters long. Why do some numbers get zero filled at the end and others get truncated? If an int is 32 bits, why does sometimes only one bit show up? Is this due infamous "subnormal" numbers?