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I study haskell. I encounter with the problem that I cannot save intermediate calculation steps. It feels ineffective. How to use dynamic programming in functional programming?

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closed as not a real question by C. A. McCann, Matt Fenwick, false, Julius, Jeroen Feb 5 '13 at 19:52

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

You could use continuations and closures for storing intermediate values:… – Christian Feb 5 '13 at 11:54
This question is too abstract. Can you give a specific problem you want to solve, please? Bonus points if it's so concrete that there's actually some code that doesn't do what you want. – Daniel Wagner Feb 5 '13 at 12:50
I haven't done much dynamic programming in Haskell so far, but it feels like laziness and purity will be your friends here. Just construct a data type representing you intermediate values (your Viterbi lattice, for instance) and use a recursive algorithm to populate it with values. If you make your question more concrete I can try to help more. – J. Abrahamson Feb 5 '13 at 17:21
There are a number of Viterbi algorithm implementations, by the by, here, and here might be worth perusing. – J. Abrahamson Feb 5 '13 at 17:22
up vote 6 down vote accepted

I encounter [in Haskell] the problem that I cannot save intermediate calculation steps.

I do not know what ressources you used to learn it, but they were apparently not the best.

For example:

    intermediate = {- calculation step -}
in ...

saves the result of a calculation step in intermediate. (Better: it binds the variable intermediate to the value. )

In addition, to cite the relevant Wikipedia entry:

In mathematics, computer science, and economics, dynamic programming is a method for solving complex problems by breaking them down into simpler subproblems. It is applicable to problems exhibiting the properties of overlapping subproblems[1] and optimal substructure (described below). When applicable, the method takes far less time than naive methods.

The key idea behind dynamic programming is quite simple. In general, to solve a given problem, we need to solve different parts of the problem (subproblems), then combine the solutions of the subproblems to reach an overall solution. Often, many of these subproblems are really the same. The dynamic programming approach seeks to solve each subproblem only once, thus reducing the number of computations: once the solution to a given subproblem has been computed, it is stored or "memo-ized": the next time the same solution is needed, it is simply looked up. This approach is especially useful when the number of repeating subproblems grows exponentially as a function of the size of the input.

It is obvious that this style of problem solving is supported by Haskell quite nicely. For example, in the easiest case one could carry a map around, that keeps the already solved sub-problems and their solutions. More advanced approach could use the State Monad. And so on.

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