问题
I was solving a programming exercise and came across a problem over which I am not able to satisfactorily find a solution. The problem goes as follows:
Print all unique integer partitions given an integer as input.
Integer partition is a way of writing n as a sum of positive integers.
for ex: Input=4 then output should be Output=
1 1 1 1
1 1 2
2 2
1 3
4
How should I think about solving this problem? I was wondering about using recursion. Can anyone provide me an algorithm for this question? Or a hint towards solution. any explanation for such kind of problems is welcome. (I am a beginner in programming world) Thank you!!
回答1:
I would approach it this way:
First, generalize the problem. You can define a function
printPartitions(int target, int maxValue, string suffix)
with the specification:
Print all integer partitions of target, followed by suffix, such that each value in the partition is at most maxValue
Note that there is always at least 1 solution (provided both target and maxValue are positive), which is all 1s.
You can use this method recursively. So lets first think about the base case:
printPartitions(0, maxValue, suffix)
should simply print suffix
.
If target
is not 0
, you have to options: either use maxValue
or not (if maxValue > target
there is only one option: don't use it). If you don't use it, you should lower maxValue
by 1
.
That is:
if (maxValue <= target)
printPartitions(target-maxValue, maxValue, maxValue + suffix);
if (maxValue > 1)
printPartitions(target, maxValue-1, suffix);
Combining this all leads to a relatively simple method (coded in Java here and I reordered the statements a little to obtain the very same order as you described):
void printPartitions(int target, int maxValue, String suffix) {
if (target == 0)
System.out.println(suffix);
else {
if (maxValue > 1)
printPartitions(target, maxValue-1, suffix);
if (maxValue <= target)
printPartitions(target-maxValue, maxValue, maxValue + " " + suffix);
}
}
You can simply call this as
printPartitions(4, 4, "");
which outputs
1 1 1 1
1 1 2
2 2
1 3
4
回答2:
This is loosely derived from Heuster's approach.
Firstly, note that the last numbers of the output are 1,2,2,3,4
. If the last number is 2
, the 2nd last numbers are 1,2
. This tells me that it might be a good idea have a recursive function with a for-loop generating the string from the back.
The code itself is pretty straight-forward:
- Loop from 1 to
target
, prepending the variable to the suffix, subtracting it fromtarget
and recursing. - Also note that each generated string is sorted (which implicitly avoids duplication of output). We get it sorted by simply passing in the last-generated number and looping no further than that number.
Code:
private void printPartitions(int target, int max, String suffix)
{
if (target == 0)
System.out.println(suffix);
else
{
for (int i = 1; i <= max && i <= target; i++)
printPartitions(target - i, i, i + " " + suffix);
}
}
Caller function:
public void printPartitions(int target)
{
printPartitions(target, target, "");
}
回答3:
The process to enumerate the integer partitions of a number n is recursive. There is a single partition of 0, the empty set (). There is a single partition of 1, the set (1). There are two partitions of 2, the sets (1 1) and (2). There are three partitions of 3, the sets (1 1 1), (1 2) and (3). There are five partitions of 4, the sets (1 1 1 1), (1 1 2), (1 3), (2 2), and (4). There are seven partitions of 5, the sets (1 1 1 1 1), (1 1 1 2), (1 2 2), (1 1 3), (1 4), (2 3) and (5). And so on. In each case, the next-larger set of partitions is determined by adding each integer x less than or equal to n to all the sets formed by the partition of n − x, eliminating any duplicates.
I give code in several languages at my blog. For example, here is my solution in Scheme:
(define (set-cons x xs)
(if (member x xs) xs
(cons x xs)))
(define (parts n)
(if (zero? n) (list (list))
(let ((xs (list)))
(do ((x 1 (+ x 1))) ((= x n) (cons (list n) xs))
(do ((yss (parts (- n x)) (cdr yss))) ((null? yss))
(set! xs (set-cons (sort < (cons x (car yss))) xs)))))))
> (parts 0)
(())
> (parts 1)
((1))
> (parts 2)
((2) (1 1))
> (parts 3)
((3) (1 1 1) (1 2))
> (parts 4)
((4) (2 2) (1 1 2) (1 1 1 1) (1 3))
> (parts 5)
((5) (2 3) (1 1 3) (1 1 1 1 1) (1 1 1 2) (1 2 2) (1 4))
> (parts 6)
((6) (3 3) (2 2 2) (2 4) (1 1 4) (1 1 2 2) (1 1 1 1 2)
((1 1 1 1 1 1) (1 1 1 3) (1 2 3) (1 5))
回答4:
here is an algorithm. let me know what you think. tested on python3
def partition(A):
table = [[[1]]] + [None]*(A-1)
for i in range(1,A):
table[i] = [[i+1]]
for k in range(i):
table[i].extend([[i-k]+l for l in table[k] if i-k >= l[0]])
return table[-1]
def print_partition(A):
for i in reversed(partition(A)): print(*i)
来源:https://stackoverflow.com/questions/17720072/print-all-unique-integer-partitions-given-an-integer-as-input