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I noticed that converting an already full matrix to a full matrix is slow:

>> tic; for k = 1:100; x = uint16(ones(10000,100)); end; toc
Elapsed time is 0.035748 seconds.
>> tic; for k = 1:100; x = uint16(uint16(ones(10000,100))); end; toc
Elapsed time is 0.034180 seconds.
>> tic; for k = 1:100; x = full(uint16(ones(10000,100))); end; toc
Elapsed time is 0.460977 seconds. %%%%% SLOW!

I tested without the uint16 as well:

>> tic; for k = 1:100; x = ones(10000,100); end; toc
Elapsed time is 0.060028 seconds.
>> tic; for k = 1:100; x = full(ones(10000,100)); end; toc
Elapsed time is 0.229058 seconds. %%%%% SLOW!

Same effect.

Why is this? full is supposed to only convert sparse matrix to full matrices. If it is already full, shouldn't it do nothing?

EDIT: issparse is superfast! I guess being a MEX, it's mostly memory cost?

MATLAB Version (R2011b) on Mac OS X

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What is the context for this? If it is slow, then don't do it. Use issparse to test if you actually need to convert. –  zeFrenchy Feb 26 '13 at 16:08
Maybe it's not converting, just checking if it has to, and that's the slow part ? –  Smash Feb 26 '13 at 16:08
@DominiqueJacquel I already changed my code to do issparse before full. It's a bit cumbersome, but I'll live. This is mostly out of curiosity. –  Memming Feb 26 '13 at 16:32

2 Answers 2

Disclaimer: This is my best guess about what is happening, but I don't know for sure what goes on under Matlab's hood. Update: In a comment, EitanT pointed out that my guess is most likely wrong.

I think that Matlab's JIT engine is doing optimizations in some of these cases, but not all.

When you have a loop where a variable is created but never used, the JIT engine doesn't bother creating that variable over and over. It just does it once. Anything like this will be fast:

% this calls 'ones' once
for i = 1:100, x = ones(10000,100); end

But if you create a variable and then use it, say by passing it to a function, that variable is created every time. This takes more time, obviously.

% this calls 'ones' every iteration to pass to `full`
for i = 1:100, x = full(ones(10000,100)); end
share|improve this answer
I disagree with your argumentation. for i = 1:100, x = ones(10000,100); end is definitely much slower than A = ones(10000, 100); for i = 1:100, x = A; end. Also, in my answer I prove that x = full(A) is rather fast, which contradicts your statement that it should take more time. –  Eitan T Feb 26 '13 at 17:14
@EitanT I agree with your first point and updated my answer. To your second point, A is created just once. I argued that creating the matrix to pass to full was slow part. –  shoelzer Feb 26 '13 at 17:19
So according to you, using x = full(A) in a loop should be significantly slower than just x = A, but this is not the case... –  Eitan T Feb 26 '13 at 17:25
@shoelzer The question implies that the OP is only interesed in determining whether full is fast or slow, but I can be wrong. The JIT part remains a mystery... –  Eitan T Feb 26 '13 at 18:59
@EitanT I interpreted the question to be "Why is full slow in my test code?" I attempted to explain that. But +1 to your straightforward answer that showed he was measuring the wrong thing. –  shoelzer Feb 26 '13 at 19:06

full works just fine.

The slow part is actually the ones(10000, 100)... here's the proof:

>> tic, for k = 1:100, x = ones(10000,100); end, toc
Elapsed time is 0.043143 seconds.

>> A = ones(10000,100);
>> tic, for k = 1:100, x = full(A); end, toc
Elapsed time is 0.000081 seconds.

full is invoked with a non-sparse matrix and runs fast, hence it is not the reason for the slowdown.

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But the question shows that tic; for k = 1:100; x = uint16(ones(10000,100)); end; toc is fast. How is that possible? –  shoelzer Feb 26 '13 at 16:15
This part is probably JIT optimization like you mentioned, but I'm not sure. Go figure... –  Eitan T Feb 26 '13 at 16:38

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