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I was reading up on Dynamic Programming and am quite new to it. I wanted to know if Dynamic Programming can be applied in an "iterative" and a "recursive" way or is it good practice to apply it only one of the ways. Any good examples/links would be helpful.

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3 Answers 3

Dynamic programming can be seen (in many cases) as a recursive solution implemented in reverse.

Normally, in a recursion, you would calculate x(n+1) = f(x(n)) with some stop condition for n=0 (or some other value).

In many cases the function f is some min/max function, but it doesn't have to be. Also, the function doesn't have to take a single variable.

Dynamic programming would solve this problem by calculating f(0), then f(1), then f(2) etc.

With more than one variable, there would normally be some natural order to calculate the function.

An example that dynamic programming can solve: You are given 3 golf clubs. Each golf club can send a golf ball x units of distance forward (for example, 24, 37 and 54 units). The question is: can you hit a hole that is exactly 200 units away? And if you can, what's the minimum number of shots you need.

The recursive solution would be something like:

shots(200) = min(shots(200-24),shots(200-37),shots(200-54))

This would allow a trivial implementation, where the function shot(n) returns 0 if n is 0, some huge number if n is less than 0, and the expression above otherwise.

However, for large values of n you will hit the same values again and again, from different branches of the expression above. In that case, it's better just to start from 0 and calculate shots(0), shots(1), shots(2) etc. This would be the "dynamic programming" solution to this problem - using linear time and constant space instead of exponential time (traversing a 3-way tree) and linear space at best (for the call stack).

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The top-down approach is still considered dynamic programming if you throw in memoization. Bottom-up DP and top-down DP are both DP. –  harold Sep 4 '11 at 16:08
@harold you're right, I probably should have added something about memoization (it's a bit more difficult to use if you want to keep the memory requirement reasonable, you need to know when you can "forget" values whereas with bottom-up it's pretty clear). –  Omri Barel Sep 4 '11 at 16:17
While the recursive solution with caching looks at only a small subset of the numbers 0..200, the iterative solution would have to look at all of them (at least it is not straightforward to avoid that). So, it seems that the recursive solution would run faster in this case. –  Meir Goldenberg Apr 28 at 7:16
@MeirGoldenberg this really depends on the exact numbers, doesn't it? With 1, 3 and 5 units, recursion will not be very sparse. With a total distance of 120,000 recursion (with or without memoization) would require a lot more memory than DP. It's possible to find where each approach works best. –  Omri Barel Apr 28 at 10:06
I fully agree with Omri and want to ask the following question. What would be a classical example of a problem for which the top-down recursive approach to DP (with caching) would result in a much simpler solution than the iterative approach? The "sparse" version of the problem in this thread is one example, but I am looking for a problem that's motivated by a practical application. –  Meir Goldenberg Apr 28 at 14:52

Yes, DP can be applied to both.

Start here: http://en.wikipedia.org/wiki/Dynamic_programming

Then you have Dynamic Programming: From novice to advanced and A Tutorial on Dynamic Programming

For the first tutorial, you will find links to TopCoder.com problems for practice (each of these problems have also an Editorial explaining the idea behind the solution.

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A classic but still highly relevant work about this is SICP, link to book and lectures (aka The Wizard Lectures):


It covers iteration vs recursion affects your code during writing and execution. In particular topics like understanding how to write recursive functions that don't recursively consume resources and other subtleties.

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