Background
I am trying to code Fisher's exact test (see: wiki), specifically for 2 x 2 contingency tables (matrices). But I am stuck on one particular step: to generate alternative matrices given an observed matrix of non-negative integers, where alternative matrices' row and column sums must be equal to the original matrix. This page (Wolphram) has a description of all the steps, but below I will elaborate on the bit I am stuck on.
Question
In order to implement Fisher's exact test for 2 x 2 contingency tables I am given a 2 x 2 matrix whose elements are non-negative integers representing observations, the observed matrix.
One of the steps requires me to generate all combinations of 2 x 2 matrices, the alternative matrices, whose non-negative integer elements are restricted by the following conditions:
- The dimensions of all alternative matrices are 2 x 2, i.e. equal to the observed matrix.
- The sum of each row of the alternative matrices must be equal to the corresponding sum of each row of the observed matrixm, i.e. sum of row 2 in the observed matric == sum of row 2 in each of the alternative matrices.
- The sum of each column of the alternative matrices must be equal to the corresponding sum of each column of the observed matrix.
To me the most obvious way to generate alternative matrices is to brute force all possible combinations of numbers in a 2 x 2 matrix, whose values are less than or equal to the sums of rows/columns of the observed matrix. Then iterate through these combinations filtering out combinations that fail to satisfy the conditions above.
Edited: What is the fastest algorithm to generate all combinations of elements in a 2x2 matrix (alternative matrices), with row and column sums equal to those of the observed matrix?
Original: How can we implement this in either of the following languages: R, Python, C/C++, Matlab?
Example
For an example application of the 2×2 test, let X be a journal, say either Mathematics Magazine or Science, and let Y be the number of articles on the topics of mathematics and biology appearing in a given issue of one of these journals. If Mathematics Magazine has five articles on math and one on biology, and Science has none on math and four on biology, then the relevant matrix would be:
and all possible alternative matrices will then be:
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