srand() seeds the random number generator. Without a seed, the generator is unable to generate the numbers you are looking for. As long as one's need for random numbers is not security-critical (e.g. any sort of cryptography), common practice is to use the system time as a seed by using the
time() function from the
<ctime> library as such:
srand(time(0)). This will seed the random number generator with the system time expressed as a Unix timestamp (i.e. the number of seconds since the date 1/1/1970). You can then use
rand() to generate a pseudo-random number.
Here is a quote from a duplicate question:
The reason is that a random number generated from the rand() function isn't
actually random. It simply is a transformation. Wikipedia gives a better
explanation of the meaning of pseudorandom number generator: deterministic
random bit generator. Every time you call rand() it takes the seed and/or the
last random number(s) generated (the C standard doesn't specify the algorithm
used, though C++11 has facilities for specifying some popular algorithms), runs
a mathematical operation on those numbers, and returns the result. So if the
seed state is the same each time (as it is if you don't call srand with a truly
random number), then you will always get the same 'random' numbers out.
If you want to know more, you can read the following: