I have seen many questions on SO about this particular subject but none of them has any answer for me, so I thought of asking this question.
I wanted to generate a random number between [1, 1]. How I can do this?
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Use
EDIT: (adding relevant portions of the comment section) On the limitations of this method:



If all you have is the Standard C library, then other people's answers are sensible. If you have POSIX functionality available to you, consider using the drand48() family of functions. In particular:
Note that the manual says:
If you strictly need The 


For starters, you'll need the C library function
near the beginning of your code. However, if you simply do You should also seed your random number generator using the So, overall we have:



I had a similar question a while back and thought that it might be more efficient to just generate the fractional part directly. I did some searching and came across an interesting fast floating point rand that doesn't use floating point division or multiplication or a int>float cast can be done with some intimate knowledge of the internal representation of a float:
The first part generates a random float from [2^1,2^2), subtract 3 and you have [1, 1). This of course may be too intimate for some applications/developers but it was just what I was looking for. This mechanism works well for any range that is a power of 2 wide. 


While the accepted answer is fine in many cases, it will leave out "every other number", because it is expanding a range of already discrete values by 2 to cover the [1, 1] interval. In a similar way if you had a random number generator which could generate an integer from [0, 10] and you wanted to generate [0, 20], simply multiplying by 2 will span the range, but not be able to cover the range (it would leave out all the odd numbers). It probably has sufficiently fine grain for your needs, but does have this drawback, which could be statistically significant (and detrimental) in many applications  particularly monte carlo simulations and systems which have sensitive dependence on initial conditions. A method which is able to generate any representable floating point number from 1 to 1 inclusive should rely on generating a sequence a1.a2 a3 a4 a5 ... up to the limit of your floating point precision which is the only way to be able to generate any possible float in the range. (i.e. following the definition of the real numbers) 


From the "The C Standard Library"
So:



As others already noted, any attempts to simply transform the range of 'rand()' function from [0, RAND_MAX] into the desired [1, +1] will produce a random number generator that can only generate a discrete set of floatingpoint values. For a floatingpoint generator the density of these values might be insufficient in some applications (if the implementationdefined value of RAND_MAX is not sufficiently large). If this is a problem, one can increase the aforementioned density exponentially by using two or more 'rand()' calls instead of one. For example, by combining the results of two consecutive calls to 'rand()' one can obtain a pseudorandom number in [0, (RAND_MAX + 1)^2  1] range
and later use the same method to transform it into a floatingpoint number in [1, +1] range
By using this method one can buildup as many 'rand()' calls as necessary, keeping an eye on integer overflow, of course. As a side note, this method of combining consecutive 'rand()' calls doesn't produce very high quality pseudorandom number generators, but it might work perfectly well for many purposes. 

