For example, say I enter '10' for the amount of values, and '10000' as a total amount.
The script would need to randomize 10 different numbers that all equal up to 10000. No more, no less.
But it needs to be dynamic, as well. As in, sometimes I might enter '5' or '6' or even '99' for the amount of values, and any number (up to a billion or even higher) as the total amount.
How would I go about doing this?
EDIT: I should also mention that all numbers need to be a positive integer
I believe the answer provided by @JoeBlow is largely correct, but only if the 'randomness' desired requires uniform distribution. In a comment on that answer, @Artefacto said this:
This begs the question which was mentioned previously regarding the desired distribution of these numbers. JoeBlow's method does ensure a that element 1 has the same chance at being number x as element 2, which means that it must be biased towards numbers of size Max/n. Whether the OP wanted a more likely shot at a single element approaching Max or wanted a uniform distribution was not made clear in the question. [Apologies - I am not sure from a terminology perspective whether that makes a 'uniform distribution', so I refer to it in layman's terms only]
In all, it is incorrect to say that a 'random' list of elements is necessarily uniformly distributed. The missing element, as stated in other comments above, is the desired distribution.
To demonstrate this, I propose the following solution, which contains sequential random numbers of a random distribution pattern. Such a solution would be useful if the first element should have an equal chance at any number between 0-N, with each subsequent number having an equal chance at any number between 0-[Remaining Total]:
It may be necessary to take these elements and randomize their order after they have been created, depending on how they will be used [otherwise, the average size of each element decreases with each iteration].
The easiest and fastest approach that comes to my mind is:
Divide 10000 by 10 and store the values in an array. (10 times the value
10000
)Walk through every one of the 10 elements in a
for
loop.From each element, subtract a random number between (10000 / 10).
Add that number to the following element.
This will give you a number of random values that, when added, will result in the end value (ignoring floating point issues).
Should be half-way easy to implement.
You'll reach PHP's maximum integer limit at some point, though. Not sure how far this can be used for values towards a billion and beyond.
The correct answer here is unbelievably simple.
Just imagine a white line, let's say 1000 units long.
You want to divide the line in to ten parts, using red marks.
VERY SIMPLY, CHOOSE NINE RANDOM NUMBERS and put a red paint mark at each of those points.
It's just that simple. You're done!
Thus, the algorithm is:
(1) pick nine random numbers between 0 and 1000 (2) put the nine numbers, a zero, and a 1000, in an array (3) sort the array (4) using subtraction get the ten "distances" between array values
You're done.
(Obviously if you want to have no zeros in your final set, in part (1) simply rechoose another random number if you get a collision.)
Ideally as programmers, we can "see" visual algorithms like this in our heads -- try to think visually whatever we do!
Footnote - for any non-programmers reading this, just to be clear pls note that this is like "the first thing you ever learn when studying computer science!" i.e. I do not get any credit for this, I just typed in the answer since I stumbled on the page. No kudos to me!
Just for the record another common approach (depending on the desired outcome, whether you're dealing with real or whole numbers, and other constraints) is also very "ah hah!" elegant. All you do is this: get 10 random numbers. Add them up. Remarkably simply, just: multiply or divide them all by some number, so that, the total is the desired total! It's that easy!
Related: http://www.mathworks.cn/matlabcentral/newsreader/view_thread/141395
See this MATLAB package. It is accompanied with a file with the theory behind the implementation.
This is the implementation (© Roger Stafford):
Generate 10 random numbers till 10000 . Sort them from big to small : g0 to g9
This will yield 10 random numbers over the full range which add up to 10000.
maybe something like this:
set max amount remaining to the target number
loop for 1 to the number of values you want - 1
get a random number from 0 to the max amount remaining
set new max amount remaining to old max amount remaining minus the current random number
repeat loop
you will end up with a 'remainder' so the last number is determined by whatever is left over to make up the original total.