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After reading this very informative (albeit somewhat argumentative) question I would like to know your experience with programming large projects with Python. Do things become un manageable as the project becomes larger? This concern is one thing that keeps me attached to Java. I would therefore be particularly interested in informed comparisons of maintainability and extensibility of Java and Python for large projects.

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This is the kind of question that always confuses me. How can the typing system affect maintainability? There are two possibilities - either you can trust the people checking into your source base or you can't. In the former case, you don't have any problems, regardless of what language, system, frameworks, etc. you are using. If you can't trust them, there is no hope for you regardless of what language, system, frameworks, etc. you are using. I certainly don't see how as small a piece of the pie as the typing system can make any difference as to the overall maintainability of a project. – Carl Norum Sep 8 '10 at 21:06
This looks like a good candidate for CW. – nmichaels Sep 8 '10 at 21:07
@Nathon and aaa - CWed it is – JnBrymn Sep 8 '10 at 21:53
I am no expert on Python nor Java, for me maintainability is mostly depends on on design. – THEn Sep 8 '10 at 22:00
@THEn: Good luck trying to maintain some Visual Basic or Perl or shell script... I guess this is why you said mostly. – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Sep 8 '10 at 22:38
up vote 12 down vote accepted

I work on a large scale commercial product done in Python. I give a very rough estimate of 5000 files x 500 lines each. That's about 2.5 millions lines of Python. Mind you the complexity of this project is probably equivalent to 10 mil+ lines of code in other languages. I've not heard from a single engineer/architecture/manager who complain about Python code being unmaintainable. From what I've seen from our bug tracker, I do not see any systemic problem that could be avoided by static type checking. In fact there is very few bugs spawn from incorrect use of object type at all.

I think this is a very good academic subject to empirically study why static class based language does not seems to be as critical as one might think.

And about extensibility. We just added a database 2 on top of the database 1 in our product, both of them non-SQL. There is no issue related to type checking. First of all we have designed an API flexible enough to anticipate different underlying implementation. I think dynamic language is a helps rather than hindrance in this regard. When we went on to testing and bug fixing phrase, we were working on the kind of bugs people working on any language would have to face. For example, memory usage issues, consistence and referential integrity issues, error handling issues. I don't see static type checking have much help on any of these challenges. On the other hand we have benefited greatly from dynamic language by being able to inject code mid-flight or after simple patching. And we are able to test our hypothesis and demonstrate our fixes quickly.

It is safe to say most of our 100+ engineers are happy and productive using Python. It is probably unthinkable for us to build the same product using a static typed language in the same amount of time with the same quality.

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Wow! Sorry, I just can't help but comment on this. Nice to know... – Franz Noel Dec 29 '12 at 8:18
what are the tools you use ? Continuous Integration ? What's your strategy for testing ? Would you say that the engineers are all mature Python developers ? – Rytek Feb 4 '15 at 16:53

From my experience statically typed languages can be difficult to maintain. For instance lets say you have a utility function which accepts a custom class as a parameter. If down the road you adopt a new naming convention than this class's name will have to change, and then then all of your utility functions will have to change as well. In a language like python it doesn't matter as long at the class implements the same methods.

Personally I despise a language that gets in my way. Speed of expressing your ideas is value, and this is the advantage Python has over Java.

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I'm working on the worse Java codebase ever created in the history of man kind at the moment. It is littered with unnecessary global state, do-nothing statements (including do nothing anonymous class instantiations), unnecessary custom class loaders, littering the filesystem with random garbage, race conditions, who knows what else, yet it is still relatively easy to work with... Why? because it's a simple language, although Python is too... The whole purpose of static typing is to make everything static; i.e: easy to analyze. – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Sep 8 '10 at 22:43
Your naming convention example doesn't make any sense: 1. In both Python and Java, you never pass the name of a class to a function unless you're asking for trouble, or have a very specific use-case. 2. Contrary to reflection-free Java code, Python code cannot be deterministically refactored to use new method names due to dynamic typing. 3. Pythonic code follows PEP8 naming conventions, most Java follows theConventionLikeThis, why would you ever use your own convention when you already have to intermix De facto libraries which all use the De facto conventions? – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Sep 8 '10 at 22:50
Also, you might wanna try Haskell before you say static typing "gets in your way"... Perhaps your impression comes from the dumb (yet simple and sound) way Java implemented it. – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Sep 8 '10 at 22:55
@Longpoke: His point about naming is that you need the typename in the function parameter. If you have a function doStuff(CustomClass c) and you decide you need to rename CustomClass, you just hosed all your methods that take that as a parameter. Although this is a very minimal problem since most IDEs allow you to just refactor it. And python doesn't get rid of this since you still have to instantiate objects and those calls will have to change too – Falmarri Sep 8 '10 at 23:24
@Falmarri: Oops I misread, I thought he meant a function that takes a name of a class, rather than just a class. Agreed. – L̲̳o̲̳̳n̲̳̳g̲̳̳p̲̳o̲̳̳k̲̳̳e̲̳̳ Sep 9 '10 at 0:07

A large code base in python without good test coverage might be an issue. But thats just one part of the image. It's all about people and suitable approaches to do the job.


  • Source Control
  • Bug Tracking
  • Unit Tests
  • Committed Team

you might fail with any kind of language.

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My experience has been that a Python codebase is less forgiving of new developers who've been tasked with maintaining the code after the original developers have already moved on. The particular codebase I encountered did not have any unit tests, which meant that all mistakes were only caught in integration tests or (as too often happened) in the field. Statically typed languages can catch some of the stupider mistakes you can make, but it's certainly not a magic bullet. – Dan Bryant Sep 9 '10 at 0:59
Statically typed languages give you a more detailed method signature. If you are dealing with a code base that is poorly documented and not very self-documenting, it can be a huge help. Unfortunately, good dynamically typed languages (I'm thinking of Python here) make prototyping almost too easy - you can get a program up and running and pretty close to complete so quickly that properly naming and documenting comes to seem like an insurmountable chore. Developers have to learn the importance of choosing good names before static typing loses much of its advantage in maintainability. – outis nihil Oct 3 '14 at 15:39

Try tracing back the source of an apparently malformed object in a large, dynamically-typed framework with lots of IoC or other design patterns where the object cannot be traced directly up the stack.

Now try doing this in a statically-typed language.

Unless the type of the object is documented close to the use-site (e.g. via type annotations, a-la Python's typesafe library) or somewhere on the stack, deducing where it came from can be virtually impossible. I speak from experience, having tried to debug parts of the BuildBot framework. It involved an immense amount of raw text searching through the framework, even using fancy IDEs such as PyDev, Komodo and Wingware.

I do not doubt that it is possible to impose some type constraints on dynamic languages, but the lack of any standardisation on this seems to be an impediment to anyone trying to debug part of a large, existent framework.

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I remember the days before and after the innovation of IntelliJ IDEA. There are huge differences. Before, static typing was only for compilation, development basically treats source code as text files. After, source code is structured information, many development tasks are must easier, thanks to static typing.

However, it's not like the old days were living hell. We took it as is, do whatever necessary, use the tools available to date, get the system built, satisfaction. There weren't too many unhappy memories. That's probably what dynamic typing programmers feel now. It's not that bad.

Of course, I'll never go back to the old days. If I'm forbidden to use such an IDE, I guess I'll give us programming all together.

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In my experience, maintainability depends on low coupling, good documentation, good development process, and excellent testing. Static typing has very little to do with any of this.

The errors that Java will catch at compile time are only a small subset of the errors that can occur. They're also almost always the most trivial to detect by testing; there's no way you can miss calling a method on an object of the wrong class if you're testing that your code produces the right answer! In that respect you could argue that Python actually is better for ensuring quality; by forcing you to test at least a bit to ensure your code is free of simple typos, it ensures that you actually do test at least a bit.

In fact Java is not even a very good example of a language with strong static checks for catching lots of bugs. Try programming in Haskell or Mercury to see what I mean, or better yet try programming in Scala and interfacing with Java libraries; the difference in how much "correctness" the compiler is able to guarantee for you is striking when you compare the normal idiomatic Scala code using Scala libraries to the code that has to deal with Java libraries (I have actually done this, since I program a bit in Scala on Android).

Your ability to write good maintainable code in large code-bases worked on by many developers over long periods of time, despite the shortcomings of Java's static error detection compared to languages like Scala, depends on exactly the same techniques Python programmers use to do the same thing in their large code-bases, despite the shortcomings of Python's static error detection compared to Java.

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I've used Python for many projects, from a few hundred lines to several thousand lines. Dynamic typing is a great time saver and it makes OO concepts like polymorphism way easier to use. The type system does not make projects unmaintainable. If you have trouble imagining that, try writing a few things in Python and see how they go.

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The problem under discussion is not writing a new program ex nihilo - which, yes, is much easier in a dynamically typed language like Python; the problem is maintainability, and particularly wrapping your head around someone else's code. Because the method signatures of a dynamically typed language don't inherently carry any type information, you lose a built-in self-documentation mechanism. – outis nihil Oct 3 '14 at 15:43
@outisnihil My point was not just that writing new code in Python was easy, but that in my experience Python code is quite maintainable. I guess I didn't say it explicitly, but not all the projects for which I've used Python have been solo. This is more of a testimonial than a deep answer, but I thought it might add value to the conversation. – nmichaels Oct 20 '14 at 21:40
For me, at least, Python makes understanding the algorithm within each method easier, but (like all dynamically typed languages) understanding how to use existing methods slightly harder (without documentation). – outis nihil Oct 21 '14 at 16:44

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