• xmunk@sh.itjust.works
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    11 months ago

    When you can’t reasonably use a loop or when it’s not particularly important for performance and the recursive function is more readable.

    Honestly, in code the absolute most important quality is readability. Readability should always be prioritized until you find performance issues that matter in a specific block of code.

    • xxd@discuss.tchncs.de
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      11 months ago

      On a side note: not caring about performance “until you find performance issues” is a huge problem with modern software imho. That’s the reason apps are so slow, updates take so long, everything uses so much space. I’d wish that performance would always be a point of consideration, not an afterthought once there are problems.

      • xmunk@sh.itjust.works
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        11 months ago

        I’d rather people err on the side of readability… senior devs should know the importance of readability but still lay decent groundwork towards performance… do things the right way when it can be simple.

        Junior developers should just focus on readable code. Chances are their code will be slow, indecipherable, and wrong - I’d rather they focused on fixing the indecipherablity, the wrongness, and then the speed.

        But, to sort of generally undermine my own point - no rule should be an absolute in software development - sometimes premature optimization is totally justified - you just need to use common sense.

        • xxd@discuss.tchncs.de
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          11 months ago

          I agree that junior devs should focus on readability, rather than focusing on everything and just getting it all wrong. but as you say, if you have more experience, performance should be a point of consideration.

          • CapeWearingAeroplane@sopuli.xyz
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            11 months ago

            I think people talking about premature optimisation are often talking about micro-optimisations. Those are almost always unnecessary until you’ve identified choke points. Optimising the overall architecture of the code base on the other hand, is in my opinion something that should be thought about before you even start coding. That’s where the major gains can often be done anyway.

      • Lysergid@lemmy.ml
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        11 months ago

        I don’t think loop vs recursion choice is what significantly impacts performance in most cases. Most of the software I saw, suffer performance because of wrong API design or overall architecture. If app needs to fetch 100 objects from API which can provide only one object at the time no optimization will save that app.

        App team - we need bulk API.

        API team - cannot because of capacity, budget, backward compatibility, DB, 3rd patry API, not a KPI

        Also it’s mostly QAs measuring performance and validating it with product guidelines which set by person who mostly detached from specific product and sometimes reality.

        • xxd@discuss.tchncs.de
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          11 months ago

          I think loops tend to be faster, but well done recursion might be just as fast. I just wanted to mention performance being a point of consideration when making these decisions. I 100% agree that poor (API) architecture is probably one of the biggest reasons for slow software. It’s just that every bit of poor performance adds up along the way, and then we end up having fast computers (that are orders of magnitude faster than anything 15 years ago) running bloated electron apps (that are sometimes even slower than their equivalent 15 years ago) and it’s just frustrating.

        • spader312@lemmy.world
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          11 months ago

          Just adding on that recursion could be problematic if used in the wrong way, like too many calls can over flow the call stack (assuming the compiler is not able to optimize that away).

      • eluvatar@programming.dev
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        11 months ago

        Yeah but performance has way more to do with architecture than it does code readability. It doesn’t matter how well you write your code, if it’s an electron app it’s going to use more ram than a native app. So I totally agree, but at the scale that it’s a real problem it has more to do with architecture than the code in any given function.

        • bitcrafter@programming.dev
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          11 months ago

          Yeah but performance has way more to do with architecture than it does code readability.

          Indeed, I am a bit notorious at work for speeding C++ code up by rewriting it in Python, and I have been able to do this not because my Python code is particularly fast but because the architecture of the C++ code was such a complicated and inefficient mess that it actually managed to be slower than Python.

  • vzq@lemmy.blahaj.zone
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    11 months ago

    Best for what?

    For performance you almost always want an iterative instead of recursive. But performance is not the only constraint.

    Some algorithms are innately recursive. Forcing them into an iterative paradigm usually makes them less readable.

    If you are compelled to make a recursive algorithm iterative, consider using an explicit stack. Then you can keep the structure and side step the issues related to call overhead and stack depth.

    • fiah@discuss.tchncs.de
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      11 months ago

      If you are compelled to make a recursive algorithm iterative, consider using an explicit stack.

      yep, did that once to solve a specific problem, worked fine and if I recall correctly I could do it without making a total mess of my code

  • jjagaimo@lemmy.ca
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    11 months ago

    It depends on if the problem is recursive or iterative, and how much it needs to be optimized.

    For example, you may use a for loop for a simple find and replace scheme for characters in a string, where you check each character one by one until you find one which matches the target, and then substitute that.

    There are certainly recursive ways to do string replacement in strings which might be faster than an iterative search depending on implementation, but that’s more optimization than I might need 99.9999% of the time

    A recursive problem that’s difficult to solve iteratively is browsing all the files in a folder and it’s subfolders. Each folder may have several subfolders, which you then need to search, but then each of those folders can have subfolders. This problem can be solved fairly easily recursively but not as easily iteratively.

    That’s not to say it can’t be solved that way, but the implementation may be easier to write

    Recursive code, however, is more frequently prone to bugs which causes infinite recursion leading to crashes, as it is not a tool which is often used and requires several more fences to prevent issues. For example, in the folder example, if one were to encounter a shortcut to another folder and implement code to follow that shortcut as if it were a directory as well, then placing a shortcut to a folder within itself might cause the code to recurse infinitely without having a maximum recursion depth and or checking for previously seen folders.

    • Nommer@sh.itjust.works
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      11 months ago

      Could your folder tree problem also be solved with a whole loop instead? I’m very new but it seems like recursion is harder but possibly more optimized approach to loops or am I incorrect here?

      • mercator_rejection@programming.dev
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        11 months ago

        Any recursive algorithm can be made iterative and vise versa. It really depends on the algorithm if the function calls are a major factor in performance.

      • Faresh@lemmy.ml
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        11 months ago

        Recursion is never more efficient than the best equivalent iterative solution. Recursion however allows you to solve some problems very easily and very neatly.

      • jjagaimo@lemmy.ca
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        11 months ago

        I’m exaggerating a bit there. This problem is fairly easy to implement iteratively (e.g. keep a list of unbrowsed folders and keep adding to it), but that is not the case for all problems. Some will be easier to solve in one way, though fundamentally solvable either way

      • coloredgrayscale@programming.dev
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        11 months ago

        A naive iterative implementation would be by adding and removing the folders/files from a list.

        If tail call optimization works on the (recursive) example then that’s (kinda) the compiler turning a recursive function into a loop.

    • atheken@programming.dev
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      11 months ago

      I generally find that writing code that requires a lot of “accounting” is very prone to mistakes that are easier to avoid with recursion. What I mean by this is stuff where you’re tracking multiple counters and sets on each iteration. It’s very easy to produce off by one errors in these types of algos.

      Recursion, once you get the hang of it, can make certain kinds of problems “trivial,” and with tail-call recursion being implemented in many languages, the related memory costs have also been somewhat mitigated.

      Loops are simpler for beginners to understand, but I don’t think recursion is all that hard to learn with a bit of practice, and can really clean up some otherwise very complicated code.

      My general opinion is that we are all beginners for a short part of our journey, but our aim shouldn’t be to make everything simple enough that beginners never need to advance their skills. We spend most of our careers as journeymen, and that’s the level of understanding we should be aiming for/expecting for most code. Recursion in that context is absolutely ok from a “readability/complexity” perspective.

  • Blackmist@lemmy.world
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    11 months ago

    When navigating a tree structure.

    Processing files and folders, expression parsing, that kind of thing.

    I’ve no idea why the factorial example is so popular, because it’s one of the worst use cases for it. Still, I guess it can teach a new programmer what a stack overflow is.

    • Faresh@lemmy.ml
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      11 months ago

      I’ve no idea why the factorial example is so popular,

      It is because anyone who has done anything with math (as is the case with cs students), will know how the factorial is defined in math which is also a recursive definition, so the code ends up looking almost exactly like the definition in math, and because of its simplicity, it’s excellent to introduce students to the idea of recursion. So, it’s a combination of familiarity and simplicity that makes it such a well known example.

      Of course, in the real world you would use the implementation from a library. So whether recursion or iteration is better for factorials isn’t that important of a question, since you won’t be using your solution in a normal situation. The factorial example is supposed to be only used as nothing more than an example.

  • swordsmanluke@programming.dev
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    11 months ago

    Generally, some algorithms are more easily expressed as recursive functions than iterative loops. …and vice versa. And realistically, that’s how you should choose ninety nine percent of the time.

    But if you want to get into the weeds… Prefer iteration unless you know one or more of the following:

    • Your maximum iteration depth is bounded and cannot overflow your machine’s stack depth.
    • Your algorithm can be implemented with tail-call recursion AND your language supports the same.
    • Your senior/team lead wants a recursive solution.

    Because in environments where none of the above are true, iterative solutions are usually more performant, safer, and better understood.

    • pinchcramp@lemmy.dbzer0.com
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      11 months ago

      Your algorithm can be implemented with tail-call recursion AND your language supports the same.

      Just to nitpick but the compiler/interpreter needs to support tail-call recursion, not just the language. For example, tail-call recursion is part of the language spec for JavaScript (ECMAScript 6), but only certain engines actually support it (https://compat-table.github.io/compat-table/es6/ Ctrl+F tail call).

    • livingcoder@programming.dev
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      11 months ago

      I would agree. Only if the performance is extremely similar but the readability (for some reason) is significantly better for the recursive solution would I choose that.

  • mhredox@lemmy.world
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    11 months ago

    The only time I’ve ever really needed recursion is when I’m doing something that needs to map out some sort of tree or heavily nested object.

    One example that comes to mind is when I needed a function that acts like querySelector, but also searches through shadowroots. Since querySelector does not natively search within shadowroots, I had to write a recursive function that basically starts at the root and recursively searches each node for a shadowdom, goes inside, and runs itself again.

    It’s definitely not the most performant solution, but it is sometimes necessary.

  • cosmicrose@lemmy.world
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    11 months ago

    In Elixir & Erlang, they don’t even have a for-loop construct. You have to use recursion. And I think that’s beautiful. I also think tail-call optimization is beautiful.

  • cvttsd2si@programming.dev
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    11 months ago

    When doing functional programming, you can’t really do loops (because of referential transparency, you can’t update iterators or indices). However, recursion still works.

  • Froyn@kbin.social
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    11 months ago

    After reading all the given responses, I’ll go with the one not listed.

    “When the interviewer asks you to.”

  • hallettj@beehaw.org
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    11 months ago

    I pretty much always use list/iterator combinators (map, filter, flat_map, reduce), or recursion. I guess the choice is whether it is convenient to model the problem as an iterator. I think both options are safer than for loops because you avoid mutable variables.

    In nearly every case the performance difference between the strategies doesn’t matter. If it does matter you can always change it once you’ve identified your bottlenecks through profiling. But if your language implements optimizations like tail call elimination to avoid stack build-up, or stream fusion / lazy iterators then you might not see performance benefits from a for loop anyway.

    • blindsight@beehaw.org
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      11 months ago

      Yes. I know some of those words.

      Seriously, though, I’m not a programmer, but I picked up enough from context cues and background information that I think I got most of the big ideas. It’s fun to read about computer science.

      I wonder where my life would have gone if I’d made a different career choice, away from CS.

  • MagicShel@programming.dev
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    11 months ago

    I haven’t contemplated this question before so my answer may be incomplete or incorrect, and I’ve also had like two double scotches, but I feel like the answer is when something is iterative, you can have a job half done and know when it is. For example adding a field to every object in a list has a definite midpoint whether you calculate it or not.

    Recursion is for things that are either 100% done or not done at all. In other words until you determine all the elements, you can’t and haven’t done anything. For example, parsing that includes matched brackets. You can’t possibly know anything until you’ve found the last bracket.

  • solrize@lemmy.world
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    11 months ago

    Do you have a concrete example to ask about? Are you thinking of a particular language?

    Basically, do whatever is most idiomatic in your language. It also depends on what the control flow really looks like. General recursion translates to a while loop where you put stuff on a stack, and the recursive form may make more sense. Tail recursion translates to a jump or a for loop, and the loop is often more idiomatic.

  • corrupts_absolutely@sh.itjust.works
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    11 months ago

    depends on the language and the compiler, pretty sure gcc without at least -O2 doesnt do tail call elimination(and still itll be slower than iteration), and rust didnt have it/low priority and when i was introducing myself to js it didnt have tco everywhere either. so just write in a way that is idiomatic to your language. in haskell recursion is encouraged, in part because it is guaranteed that it will be optimized by the compiler.

    regardless of the language if your recursive function is poorly designed, its going to result in stack overflow with sufficiently large inputs