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I would like to have a stream in scheme that holds a bunch of matrices that have a certain order.

The stream-car of this stream would be the matrix [1 6 0 3]; that is, row 1 col 1 is 1, row 1 col 2 is 6, row 2 col 1 is 0, and row 2 col 2 is 3. Each matrix is technically a list, but I have a representation (constructor and selectors) for a 2x2 matrix. So, this will be a stream of 2x2 matrices.

Now, the next item in the stream should be [2 10 0 5]. The pattern here is that the matrices in the next stream increases by the following: [k (4k+2) 0 (2k+1)] where k is the kth matrix.

I have an idea how I want to store these. As an example, I know that I can get a continuous stream of ones with:

(define ones (cons-stream 1 ones))

and a continuous stream of integers with:

(define integers (cons-stream 1 (add-streams ones integers)))

So, I would like a continuous stream of matrices that are in the format described above. That is, the first one (the car-stream) will be a matrix represented by [1 6 0 3] then a matrix represented by [2 10 0 5] then a matrix represented by [3 14 0 7].

So, I know it will be something like:

(define start-matrix '(1 6 0 3))

(define init-stream (cons-stream start-matrix 
                             (add-streams ___________
                                          init-stream)))

The underlined is what "I think" is the missing piece. I've removed the "add-streams" procedure from this post to clear my post up.

***EDIT: Realized I think my "start-matrix" has to be 1 6 0 3, not 1 4 0 2.

But there has to be a way to add 1 4 0 2 to the kth matrix.

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It's not clear what your question is. Which part of the above are you having trouble with? –  itsbruce Oct 15 '12 at 6:46
    
Hi itsbruce. Thanks for reading this. I just want a stream of matrices that are in the format described. That is [1 6 0 3] then [2 10 0 5] then [3 14 0 7]. it continuously makes a stream of matrices with this pattern. The actual pattern is [k (4k+2) 0 (2k+1)] I cleaned up my post a bit by removing the definitions for "add-streams" and the mapping procedure. It should be evident what I want without them. –  MattB Oct 15 '12 at 6:51
    
Yes, you want an infinite stream. What part of creating that don't you know how to do? Or do you just want people to write all the code you haven't written yet? –  itsbruce Oct 15 '12 at 6:53
    
No, not at all. I said "I know it should be something like..." above. I'm missing a key piece. Trust me, I've spent hours trying to figure this out and haven't had any luck. –  MattB Oct 15 '12 at 6:55
    
Yes, but since your answer is missing everything about your thoughts apart from the basic spec, how can anybody else know which key piece you are missing? It's like saying "I want to build a car" and not explaining whether it's the wheels or the engine that defeats you. –  itsbruce Oct 15 '12 at 6:58

1 Answer 1

up vote 1 down vote accepted

Ok, firstly, you realise you're going to have to define your own version of add-streams to do the matrix addition? (I realise this may have been in what you edited away).

Secondly, can you not see what is missing between the SICP example and your version? In the SICP example, there is a function which provides a constant stream of 1s. 1 is what is added to each new element of the integers stream. Now, there's something you want to add to each new member of the init-stream stream. Surely you can work out what that is? I mean, if you add it ever time and you do it k times... (you mention it so many times, you must know what it is). So all you are missing is a function that delivers an endless stream of that one thing.

Thirdly, do you realise why the SICP example adds new elements from the ones stream, rather than just adding 1 each time? (There's a principle being demonstrated).

Fourthly, do you see that init-stream is not a good name for this function? init-stream indicates a general purpose function, whereas you are defining something that returns a very specific stream. Why not just follow the SICP naming examples and name it for what it returns?

My third and fourth questions needn't be answered for you to solve your problem; I'm just interested to know if you grasp the point.

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Hey thanks Bruce, these are good tips. Yes, I got it working! I did have to use the add-streams method like you say, just modified. So I wrote an add-2x2 which does basic matrix addition and used the SICP stream-map with that procedure. I also had to reconstruct the stream like you mention "thirdly", to produce a constant stream of the matrix to be continuously added. Saw your post earlier but only had access to stack via my phone. Wanted to write you a thanks for your help. –  MattB Oct 16 '12 at 0:34

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