Finding parfor baffling: Can anybody explain to me why this little bit of code works with for,but not with parfor?
이전 댓글 표시
function B = partest
A = 1:4; B = zeros(1,4);
parfor j=1:2
B([j j+2]) = A([j+2 j]);
end
The two bits of the loop access different bits of B, so there should be some way of doing this. My actual application involves large cell arrays, for which something similar holds for the function within the loop.
채택된 답변
A = reshape(1:4,2,2);
B = zeros(2);
parfor j=1:2
B(j,:) = A(j,end:-1:1);
end
댓글 수: 5
Matt J
2014년 9월 3일
In your original code, you appear to want B (and maybe also A) to be a sliced variable. But your indexing violates the following requirement from the documentation on sliced variables,
Form of Indexing. Within the list of indices for a sliced variable, one of these indices is of the form i, i+k, i-k, k+i, or k-i, where i is the loop variable and k is a constant or a simple (nonindexed) broadcast variable; and every other index is a scalar constant, a simple broadcast variable, colon, or end.
John Billingham
2014년 9월 3일
편집: John Billingham
2014년 9월 3일
Cell arrays can be sliced, too. I.e., you could do
parfor i=1:N
ith_Cell=mycell{i};
result{i}=manipulate(ith_Cell);
end
John Billingham
2014년 9월 3일
John Billingham
2014년 9월 4일
추가 답변 (1개)
Looks like the interpreter is not smart enough to detect that there is no race condition in the case you present. You could go around that using two loops:
A = 1:4; B = zeros(1,4);
parfor j=1:2
B(j) = A(j+2);
end
parfor j=1:2
B(j+2) = A(j);
end
I assume the operations you actually perform are more complicated than that. Otherwise Matt J's solution is the way to go.
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