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I see that there's a relatively new feature in Ruby which allows chained iteration -- in other words, instead of each_with_indices { |x,i,j| ... } you might do each.with_indices { |x,i,j| ... }, where #each returns an Enumerator object, and Enumerator#with_indices causes the additional yield parameters to be included.

So, Enumerator has its own method #with_index, presumably for one-dimensional objects, source found here. But I can't figure out the best way to adapt this to other objects.

To be clear, and in response to comments: Ruby doesn't have an #each_with_indices right now -- it's only got an #each_with_index. (That's why I want to create one.)

A series of questions, themselves chained:

  1. How would one adapt chained iteration to a one-dimensional object? Simply do an include Enumerable?
  2. Presumably the above (#1) would not work for an n-dimensional object. Would one create an EnumerableN class, derived from Enumerable, but with #with_index converted into #with_indices?
  3. Can #2 be done for Ruby extensions written in C? For example, I have a matrix class which stores various types of data (floats, doubles, integers, sometimes regular Ruby objects, etc.). Enumeration needs to check the data type (dtype) first as per the example below.

Example:

VALUE nm_dense_each(VALUE nm) {
  volatile VALUE nm = nmatrix; // Not sure this actually does anything.
  DENSE_STORAGE* s = NM_STORAGE_DENSE(nm); // get the storage pointer

  RETURN_ENUMERATOR(nm, 0, 0);

  if (NM_DTYPE(nm) == nm::RUBYOBJ) { // matrix stores VALUEs

    // matrix of Ruby objects -- yield those objects directly
    for (size_t i = 0; i < nm_storage_count_max_elements(s); ++i)
      rb_yield( reinterpret_cast<VALUE*>(s->elements)[i] );

  } else { // matrix stores non-Ruby data (int, float, etc)

    // We're going to copy the matrix element into a Ruby VALUE and then operate on it. This way user can't accidentally
    // modify it and cause a seg fault.
    for (size_t i = 0; i < nm_storage_count_max_elements(s); ++i) {
      // rubyobj_from_cval() converts any type of data into a VALUE using macros such as INT2FIX()
      VALUE v = rubyobj_from_cval((char*)(s->elements) + i*DTYPE_SIZES[NM_DTYPE(nm)], NM_DTYPE(nm)).rval;
      rb_yield( v ); // yield to the copy we made
    }
  }
}

So, to combine my three questions into one: How would I write, in C, a #with_indices to chain onto the NMatrix#each method above?

I don't particularly want anyone to feel like I'm asking them to code this for me, though if you did want to, we'd love to have you involved in our project. =)

But if you know of some example elsewhere on the web of how this is done, that'd be perfect -- or if you could just explain in words, that'd be lovely too.

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No there isn't such feature. Nothing as you mention exists in Ruby 1.9. And no such thing as you mention was introduced in Ruby 2.0. However, Ruby has a different thing called each_with_index. And Ruby 1.9 introduced with_index. –  sawa May 2 '13 at 6:29
    
Okay, fixed my question -- it's now general to Ruby. Did you downvote? Might I ask why? It's a pretty carefully written question. –  mohawkjohn May 2 '13 at 15:19
1  
@sawa: You are completely right. I think that the OP is already all in his imagined NMatrix#each_with_indices method, because 2D matrices have 2 indices :-) Lemme go and see their repo, how the NMatrix heroes are doing... –  Boris Stitnicky May 2 '13 at 16:06
1  
@mohawkjohn: No, sawa is a nice guy, he, didn't downvote, it was an anonymous coward jealous that we're gonna have matrix handling better than Matlab in Ruby :-) –  Boris Stitnicky May 2 '13 at 16:11
1  
Yes. Rumor has it that you need to install ATLAS manually -- that the Debian/Ubuntu package won't cut it. Haven't been able to prove this, but most of the bug reports seem to come from people using apt-get. –  mohawkjohn May 2 '13 at 17:09

2 Answers 2

#with_index is a method of Enumerator: http://ruby-doc.org/core-1.9.3/Enumerator.html#method-i-with_index

I suppose you could make a subclass of Enumerator that has #with_indices and have your #each return an instance of that class? That's the first thing that comes to mind, although your enumerator might have to be pretty coupled to the originating class...

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Yes, but I think his problem is that he wants to write it in C. He is on a completely different level than us quiche eaters ;-) –  Boris Stitnicky May 2 '13 at 17:09
    
Sure, but it's nice to understand the principles in Ruby first. I think the problem is that Enumerator/Enumerable doesn't have #with_indices, only #with_index. I'm not sure of the appropriate mechanism for creating the former. –  mohawkjohn May 2 '13 at 17:11
    
Most (all?) Enumerable methods return an Enumerator if you don't pass them a block. That's how foo.map.with_index, bar.each.with_object, etc. work. –  kejadlen May 2 '13 at 17:26
    
One thought is to create NEnumerator which has #with_indices, and then create an NEnumerable layer which translates Enumerable calls to return NEnumerators instead of Enumerators. Maybe it might be easier to just have #each return an object from which you can extract the value and indices instead. –  kejadlen May 2 '13 at 17:29
    
@kejadlen: Exactly. Ordinary Enumerator / Enumerable are specific to 1-dimensional collections. I wonder whether having NEnumerable / NEnumerator would be an overkill. It seems to me that yes, but I might be mistaken... –  Boris Stitnicky May 2 '13 at 17:34

Since you are saying that you are also interested in Ruby linguistics, not just C, let me contribute my 5 cents, without claiming to actually answer the question. #each_with_index and #with_index already became so idiomatic, that majority of the people rely on the index being a number. Therefore, if you go and implement your NMatrix#each_with_index in such way, that in the block { |e, i| ... } it would supply eg. arrays [0, 0], [0, 1], [0, 2], [1, 0], [1, 1], ... as index i, you would surprise people. Also, if others chain your NMatrix#each enumerator with #with_index method, they will receive just a single number as index. So, indeed, you are right to conclude that you need a distinct method to take care for the 2 indices-type (or, more generally, n indices for higher dimension matrices):

matrix.each_with_indices { |e, indices| ... }

This method should return a 2-dimensional (n-dimensional) array as indices == [i, j] . You should not go for the version:

matrix.each_with_indices { |e, i, j| ... }

As for the #with_index method, it is not your concern at all. If your NMatrix provides #each method (which it certainly does), then #with_index will work normally with it, out of your control. And you do not need to ponder about introducing matrix-specific #with_indices, because #each itself is not really specific to matrices, but to one-dimensional ordered collections of any sort. Finally, sorry for not being a skilled C programmer to cater to your C-related part of the question.

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Really? An Array instead of an *array? Can you provide some justification for that? It's an interesting thought, but I'm not sure I'm convinced yet. –  mohawkjohn May 2 '13 at 17:35
    
The justification is, that others will come up with higher-dimensional objects. Such as 3-dimensional matrices (which I should not really call tensors). And there you have expectable behavior regardless of the number of dimensions. And in Ruby, it is really easy to write i, j = indices. I suspect that oftenimes the users will not even have to write i, j = indices and instead they will be convenienced by having i, j prepackaged and not having to write something like curr_pos = [i, j]... –  Boris Stitnicky May 2 '13 at 17:40
    
Current code accounts for higher dimensions. You just do #each_with_indices { |val, i, j, k, l| ... } for example. –  mohawkjohn May 2 '13 at 18:09
    
Congrats to those dimensions. The ultimate choice is yours. I lack skill to formalize the reasons for my preference. Earlier, I would have preferred |val, i, j, k, ...|. With experience in Ruby, I learned that this cheap convenience of passing collection members unpackaged to methods has some downside or two. I just forgot what it was. What I can say, is, that for the target users, NMatrix will do 98% of their computations, but actual NMatrix method calls will constitute just 2% of their code base. So don't sacrifice political correctness for saving 1 line of user code in those calls. –  Boris Stitnicky May 2 '13 at 18:37

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