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r(a) is a recursive function which attempts to fill in a 0 in the board in each step.

i=a.find(''0);~i

i=a.find('0');~i or exit(a) is the on-success termination. If no more 0 values exist in the board, we're done.

m is the current value we will try to fill the 0 with.

m in[(i-j)%9*(i/9^j/9)*(i/27^j/27|i%9/3^j%9/3)or a[j]for j in range(81)] evaluates to truthy if it is obivously incorrect to put m in the current 0. Let's nickname it "is_bad". This is the most tricky bit. :)

is_bad or r(a[:i]+m+a[i+1:] is a conditional recursive step. It will recursively try to evaluate the next 0 in the board iff the current solution candidate appears to be sane.

for m in '%d'%5**18 enumerates all the numbers from 1 to 9 (inefficiently).
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r(a) is a recursive function which attempts to fill in a 0 in the board in each step.

i=a.find(''0);~i or exit(a) is the on-success termination. If no more 0 values exist in the board, we're done.

m is the current value we will try to fill the 0 with.

m in[(i-j)%9*(i/9^j/9)*(i/27^j/27|i%9/3^j%9/3)or a[j]for j in range(81)] evaluates to truthy if it is obivously incorrect to put m in the current 0. Let's nickname it "is_bad". This is the most tricky bit. :)

is_bad or r(a[:i]+m+a[i+1:] is a conditional recursive step. It will recursively try to evaluate the next 0 in the board iff the current solution candidate appears to be sane.

for m in '%d'%5**18 enumerates all the numbers from 1 to 9 (inefficiently).