How can I get a random System.Decimal? System.Random
doesn't support it directly.

EDIT: Removed old version This is similar to Daniel's version, but will give the complete range. It also introduces a new extension method to get a random "any integer" value, which I think is handy. Note that the distribution of decimals here is not uniform.



You would normally expect from a randomnumbergenerator that it not only generated random numbers, but that the numbers were uniformly randomly generated. There are two definitions of uniformly random: discrete uniformly random and continuous uniformly random. Discretely uniformly random makes sense for a random number generator that has a finite number of different possible outcomes. For example generating an integer between 1 and 10. You would then expect that the probability of getting 4 is the same as getting 7. Continuously uniformly random makes sense when the random number generator generates numbers in a range. For example a generator that generates a real number between 0 and 1. You would then expect that the probability of getting a number between 0 and 0.5 is the same as getting a number between 0.5 and 1. When a random number generator generates floatingpoint numbers (which is basically what a System.Decimal is  it is just floatingpoint which base 10), it is arguable what the proper definition of uniformly random is: On one hand, since the floatingpoint number is being represented by a fixed number of bits in a computer, it is obvious that there are a finite number of possible outcomes. So one could argue that the proper distribution is a discrete continuous distribution with each representable number having the same probability. That is basically what Jon Skeet's and John Leidegren's implementation does. On the other hand, one might argue that since a floatingpoint number is supposed to be an approximation to a real number, we would be better off by trying to approximate the behavior of a continuous random number generator  even though are actual RNG is actually discrete. This is the behavior you get from Random.NextDouble(), where  even though there are approximately as many representable numbers in the range 0.000010.00002 as there are in the range 0.80.9, you are a thousand times more likely to get a number in the second range  as you would expect. So a proper implementation of a Random.NextDecimal() should probably be continuously uniformly distributed. Here is a simple variation of Jon Skeet's answer that is uniformly distributed between 0 and 1 (I reuse his NextInt32() extension method):
You could also discuss how to get an uniform distribution over the entire range of decimals. There is probably an easier way to do this, but this slight modification of John Leidegren's answer should produce a relatively uniform distribution:
Basically, we make sure that values of scale are chosen proportionally to the size of the corresponding range. That means that we should get a scale of 0 90% of the time  since that range contains 90% of the possible range  a scale of 1 9% of the time, etc. There are still some problems with the implementation, since it does take into account that some numbers have multiple representations  but it should be much closer to a uniform distribution than the other implementations. 


I like Jon Skeet's second approach, here's a third alternative. Never mind my subclassing trick, this should be written as an extension method. The protected Sample() method is exposed by the public NextDouble() method (which internally, when you specify a custom range, is being used to generate the numbers).



Here is Decimal random with Range implementation that works fine for me.



I puzzled with this for a bit. This is the best I could come up with:
Edit: As noted in the comments lo, mid and hi can never contain int.MaxValue so the complete range of Decimals isn't possible. 


here you go... uses the crypt library to generate a couple of random bytes, then convertes them to a decimal value... see MSDN for the decimal constructor
revised to use a different decimal constructor to give a better range of numbers



Check out the following link for readymade implementations that should help: MathNet.Numerics, Random Numbers and Probability Distributions The extensive distributions are especially of interest, built on top of the Random Number Generators (MersenneTwister, etc.) directly derived from System.Random, all providing handy extension methods (e.g. NextFullRangeInt32, NextFullRangeInt64, NextDecimal, etc.). You can, of course, just use the default SystemRandomSource, which is simply System.Random embellished with the extension methods. Oh, and you can create your RNG instances as thread safe if you need it. Very handy indeed! This is an old question, but for those who are just reading it, why reinvent the wheel? 




