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I have a very big sparse csc_matrix x. I want to do elementwise exp() on it. Basically what I want is to get the same result as I would have got with numpy.exp(x.toarray()). But I can't do that(my memory won't allow me to convert the sparse matrix into an array). Is there any way out? Thanks in advance!

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    If you can't hold the input in dense format, you're not going to be able to hold the output; the output won't be sparse, since e^0=1. – user2357112 Feb 23 '17 at 6:46
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If you don't have the memory to hold x.toarray(), you don't have the memory to hold the output you're asking for. The output won't be sparse; in fact, unless your input has negative infinities in it, the output probably won't have a single 0.

It'd probably be better to compute exp(x)-1, which is as simple as

x.expm1()
  • Yes, you're right. But, how can I do it only for non zero values then? – Bishwajit Purkaystha Feb 23 '17 at 6:57
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    What's that? Sparse matrices contain all the numpy functions that happen to map zero to zero as members? There's a feature I wouldn't have expected! – Paul Panzer Feb 23 '17 at 6:58
  • Yes, scipy/sparse/data.py has a block of code that # Add the numpy unary ufuncs for which func(0) = 0 to _data_matrix.. The key is being able to access the .data attribute, and make a new matrix with a _with_data method. I wasn't aware of that either. – hpaulj Feb 23 '17 at 7:14
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If you want to do something on nonzeros only: the data attribute is writable at least in some representations including csr and csc. Some representations allow for duplicate entries, so make sure you are acting on a "normalised" form.

  • Yes, that's what I was thinking of. Anyhow I'll get my hands dirty! – Bishwajit Purkaystha Feb 23 '17 at 7:06
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To change non-zero elements, maybe this would work for you:

x = some big sparse matrix
np.exp( x.data, out=x.data ) # ask np.exp() to store results in existing x.data

presumably slower:

# above seems more efficient (no new memory alloc).
x.data = np.exp( x.data )

I've been wrestling with how to get an element-wise log2() of each non-zero array element. I ended up doing smth like:

np.log2( x.data, out=x.data )

The following two techniques seem like exactly what I was looking for. My matrix is sparse but it still plenty of non-zero elements.

Credit to @DSM here for the idea of directly changing x.data, I think that is a superb insight about sparse matrices.

Credit to @Mike Müller for the idea of using "out" as itself. In the same thread, @kmario23 points out an important caveat about promoting .data to floats (inputs could be int or smth) so it is compatible with the .exp() or whatever function, I would want to do that if I was writing smth for general use.

note: I'm just starting to learn about sparse matrices, so would like to know if this is a bad idea for reason(s) I'm not seeing. Please do let me know if I'm on thin ice with this.

Normally I wouldn't mess with private attributes, but .data shows up pretty clearly in the attributes documentation for the various sparse matrices I've looked at.

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