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I would be interested to learn about large scale development in Python and especially in how do you maintain a large code base?

  • When you make incompatibility changes to the signature of a method, how do you find all the places where that method is being called. In C++/Java the compiler will find it for you, how do you do it in Python?

  • When you make changes deep inside the code, how do you find out what operations an instance provides, since you don't have a static type to lookup?

  • How do you handle/prevent typing errors (typos)?

  • Are UnitTest's used as a substitute for static type checking?

As you can guess I almost only worked with statically typed languages (C++/Java), but I would like to try my hands on Python for larger programs. But I had a very bad experience, a long time ago, with the clipper (dBase) language, which was also dynamically typed.

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I think these are all valid questions for small projects as well as large. –  Simon Oct 25 '08 at 13:33
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It is a common illusion that if my code compiles then it is correct. Tests are a must-have to refactor your code whether your language is statically typed or not. –  J.F. Sebastian Oct 25 '08 at 17:15
    
You might be interested in reading this: infoq.com/articles/nuxeo_python_to_java –  ShaChris23 Aug 9 '10 at 21:47
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In Haskell, in my experience if the code compiles it is correct most of the time. (Super strict typing) –  HHC Jan 2 at 1:16
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8 Answers 8

up vote 20 down vote accepted

Since nobody pointed out pychecker, pylint and similar tools, I will: pychecker and pylint are tools that can help you find incorrect assumptions (about function signatures, object attributes, etc.) They won't find everything that a compiler might find in a statically typed language -- but they can find problems that such compilers for such languages can't find, too.

Python (and any dynamically typed language) is fundamentally different in terms of the errors you're likely to cause and how you would detect and fix them. It has definite downsides as well as upsides, but many (including me) would argue that in Python's case, the ease of writing code (and the ease of making it structurally sound) and of modifying code without breaking API compatibility (adding new optional arguments, providing different objects that have the same set of methods and attributes) make it suitable just fine for large codebases.

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I still have my doubts about using Python in a large scale development, but these tools should be able to mitigate a lot of problems. –  BugSlayer Nov 19 '08 at 11:45
    
Yeah it's just about your opinion. There are huge projects built with Python and some of them are built for very high availability and reliability (Zope, Plone, ...). –  dom0 Oct 7 '13 at 21:53
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Don't use a screw driver as a hammer

Python is not a statically typed language, so don't try to use it that way.

When you use a specific tool, you use it for what it has been built. For Python, it means:

  • Duck typing : no type checking. Only behavior matters. Therefore your code must be designed to use this feature. A good design means generic signatures, no dependences between components, high abstraction levels.. So if you change anything, you won't have to change the rest of the code. Python will not complain either, that what it has been built for. Types are not an issue.

  • Huge standard library. You do not need to change all your calls in the program if you use standard features you haven't coded yourself. And Python come with batteries included. I keep discovering them everyday. I had no idea of the number of modules I could use when I started and tried to rewrite existing stuff like everybody. It's OK, you can't get it all right from the beginning.

You don't write Java, C++, Python, PHP, Erlang, whatever, the same way. They are good reasons why there is room for each of so many different languages, they do not do the same things.

Unit tests are not a substitute

Unit tests must be performed with any language. The most famous unit test library (JUnit) is from the Java world!

This has nothing to do with types. You check behaviors, again. You avoid trouble with regression. You ensure your customer you are on tracks.

Python for large scale projects

Languages, libraries and frameworks don't scale. Architectures do.

If you design a solid architecture, if you are able to make it evolves quickly, then it will scale. Unit tests help, automatic code check as well. But they are just safety nets. And small ones.

Python is especially suitable for large projects because it enforces some good practices and has a lot of usual design patterns built-in. But again, do not use it for what it is not designed. E.g : Python is not a technology for CPU intensive tasks.

In a huge project, you will most likely use several different technologies anyway. As a SGBD and a templating language, or else. Python is no exception.

You will probably want to use C/C++ for the part of your code you need to be fast. Or Java to fit in a Tomcat environment. Don't know, don't care. Python can play well with these.

As a conclusion

My answer may feel a bit rude, but don't get me wrong: this is a very good question.

A lot of people come to Python with old habits. I screwed myself trying to code Java like Python. You can, but will never get the best of it.

If you have played / want to play with Python, it's great! It's a wonderful tool. But just a tool, really.

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Well put and thought provoking. Thank you. –  Frank V Jan 28 '10 at 22:30
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Can you cite the source of that quote, "Languages, libraries and frameworks don't scale. Architectures do."? It's so well put I wanted to find out who said it originally. Was it you? –  Randolpho Nov 17 '10 at 19:05
    
This is supposedly from Cal Henderson but since I have no certitude it is, I won't put it in the anwser. –  e-satis Nov 19 '10 at 10:08
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I had some experience with modifying "Frets On Fire", an open source python "Guitar Hero" clone.

as I see it, python is not really suitable for a really large scale project.

I found myself spending a large part of the development time debugging issues related to assignment of incompatible types, things that static typed laguages will reveal effortlessly at compile-time. also, since types are determined on run-time, trying to understand existing code becomes harder, because you have no idea what's the type of that parameter you are currently looking at.

in addition to that, calling functions using their name string with the __getattr__ built in function is generally more common in Python than in other programming languages, thus getting the call graph to a certain function somewhat hard (although you can call functions with their name in some statically typed languages as well).

I think that Python really shines in small scale software, rapid prototype development, and gluing existing programs together, but I would not use it for large scale software projects, since in those types of programs maintainability becomes the real issue, and in my opinion python is relatively weak there.

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I have no idea why you were down voted for this insightful comment. Projects written in dynamic languages, without very extensive unit tests, once they reach a critical mass have a real danger of demonstrating this behaviour. The more magic (getattr, eval) there is, the worse the problem gets. –  richq Oct 25 '08 at 14:08
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looking in the repository of frets on fire (yeah open source) ~ 70 src-files > 15 test-src-files hm –  Blauohr Oct 25 '08 at 14:21
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Hum... Sure. Youtube is a pretty small app. I guess that's why google use Python. Quick hacks. They're just starting up newbies after all. –  e-satis Oct 25 '08 at 14:25
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Python scales well if you write it well.. Google, youtube, NASA and others use Python a lot (Youtube most extensively, I think). A majority of my work's film post-production pipeline is written in Python (render farm management, extensions to artist-tools, asset management, etc etc). –  dbr Oct 26 '08 at 10:24
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voted up because dynamic languages MAY exhibit those problems on large scale systems. But who says that large scale static-language systems does not exhibit terrible problems as well? C++ code can grow unmantainable. The key (and the hardest step) is to develop a suitable architecture for the project. –  Hernán Jul 8 '09 at 18:26
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my 0.10 EUR:

i have several python application in 'production'-state. our company use java, c++ and python. we develop with the eclipse ide (pydev for python)

unittests are the key-solution for the problem. (also for c++ and java)

the less secure world of "dynamic-typing" will make you less careless about your code quality

BY THE WAY:

large scale development doesn't mean, that you use one single language!

large scale development often uses a handful of languages specific to the problem.

so i agree to the-hammer-problem :-)


PS: static-typing & python

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this is true for any dynamic language, as you have no compiler check for invalid variable name etc. –  goodwill Oct 25 '08 at 15:48
    
Thanks for the link! Excellent article. –  BugSlayer Oct 27 '08 at 15:27
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Here are some items that have helped me maintain a fairly large system in python.

  • Structure your code in layers. i.e separate biz logic, presentaion logic and your persistence layers. Invest a bit of time in defining these layers and make sure everyone on the project is bought in. For large systems creating a framework that forces you into a certain way of development can be key as well.

  • Tests are key, without unit tests you will likely end up with an unmanagable code base several times quicker than with other languages. Keep in mind that unit tests are often not sufficient, make sure to have several integration/acceptance tests you can run quickly after any major change.

  • Use Fail Fast principle. Add assertions for cases you feel your code maybe vulnerable.

  • Have standard logging/error handling that will help you quickly navigate to the issue

  • Use an IDE( pyDev works for me) that provides type ahead, pyLint/Checker integration that help you detect common typos right away and promote some coding standards

  • Carefull about your imports, never do from x import * or do relative imports without use of .

  • Do refactor, a search/replace tool with regular expressions is often all you need to do move methods/class type refactoring.

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And still, if tests are so crucial it means time spent in testing will increase and Fail Fast is almost the same as having static types. The refactoring even with help can become tedious or error prone because the certainty is missing. Sometimes I wish Python would allow to mix static and dynamic types. –  Trilarion Apr 4 at 14:28
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Incompatible changes to the signature of a method. This doesn't happen as much in Python as it does in Java and C++.

Python has optional arguments, default values, and far more flexibility in defining method signatures. Also, duck typing means that -- for example -- you don't have to switch from some class to an interface as part of a significant software change. Things just aren't as complex.

How do you find all the places where that method is being called? grep works for dynamic languages. If you need to know every place a method is used, grep (or equivalent IDE-supported search) works great.

How do you find out what operations an instance provides, since you don't have a static type to lookup?

a. Look at the source. You don't have the Java/C++ problem of object libraries and jar files to contend with. You don't need all the elaborate aids and tools that those languages require.

b. An IDE can provide signature information under many common circumstances. You can, easily, defeat your IDE's reasoning powers. When that happens, you should probably review what you're doing to be sure it makes sense. If your IDE can't reason out your type information, perhaps it's too dynamic.

c. In Python, you often work through the interactive interpreter. Unlike Java and C++, you can explore your instances directly and interactively. You don't need a sophisticated IDE.

Example:

  >>> x= SomeClass()
  >>> dir(x)

How do you handle/prevent typing errors? Same as static languages: you don't prevent them. You find and correct them. Java can only find a certain class of typos. If you have two similar class or variable names, you can wind up in deep trouble, even with static type checking.

Example:

class MyClass { }
class MyClassx extends MyClass { }

A typo with these two class names can cause havoc. ["But I wouldn't put myself in that position with Java," folks say. Agreed. I wouldn't put myself in that position with Python, either; you make classes that are profoundly different, and will fail early if they're misused.]

Are UnitTest's used as a substitute for static type checking? Here's the other Point of view: static type checking is a substitute for clear, simple design.

I've worked with programmers who weren't sure why an application worked. They couldn't figure out why things didn't compile; the didn't know the difference between abstract superclass and interface, and the couldn't figure out why a change in place makes a bunch of other modules in a separate JAR file crash. The static type checking gave them false confidence in a flawed design.

Dynamic languages allow programs to be simple. Simplicity is a substitute for static type checking. Clarity is a substitute for static type checking.

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-1. The statically-typed languages cause havoc at compile-time for certain category of errors (typos, type-mismatch etc), but the dynamically-typed languages (such as Python) delay this until runtime, often after several days of running. THAT is PAIN. Early detection of problems is far helpful for developers. –  Nawaz Aug 5 '13 at 12:26
    
Advicing grep for refactoring is a bit unsatisfactionary. I can imagine you can keep false positive and false negatives which would not be very nice. –  Trilarion Apr 4 at 14:30
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The usual answer to that is testing testing testing. You're supposed to have an extensive unit test suite and run it often, particularly before a new version goes online.

Proponents of dynamically typed languages make the case that you have to test anyway because even in a statically typed language conformance to the crude rules of the type system covers only a small part of what can potentially go wrong.

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My general rule of thumb is to use dynamic languages for small non-mission-critical projects and statically-typed languages for big projects. I find that code written in a dynamic language such as python gets "tangled" more quickly. Partly that is because it is much quicker to write code in a dynamic language and that leads to shortcuts and worse design, at least in my case. Partly it's because I have IntelliJ for quick and easy refactoring when I use Java, which I don't have for python.

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You do now :) –  Lstor May 25 at 19:58
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