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Is there a way to do the following preprocessor directives in Python?


< do some code >


< do some other code >

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up vote 76 down vote accepted

There's __debug__, which is a special value that the compiler does preprocess.

if __debug__:
  print "If this prints, you're not running python -O."
  print "If this prints, you are running python -O!"

__debug__ will be replaced with a constant 0 or 1 by the compiler, and the optimizer will remove any if 0: lines before your source is interpreted.

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+1 for learning something new. – David Jan 27 '09 at 4:14
Wow this definitely answers my question! – intrepion Jan 27 '09 at 5:45
The problem with the solution is that by default debug is true, it is only false if you run python with the -O command line switch. I find that this switch is typically not used, which is not necessarily what a user would expect. – Moe Jan 27 '09 at 20:10
@Moe: It does seem that the logic of the flag is backwards. if debug evaluates to True I would expect that I am running in debug mode, which is not the case. – Bill the Lizard Jan 27 '09 at 21:58
But it allows you to have assertions in development that get stripped on a production server if you only use -O there. :-) I didn't think this was possible before reading this! – jonny Nov 26 '15 at 20:59

I suspect you're gonna hate this answer. The way you do that in Python is

# code here
   #debugging code goes here
   # other code here.

Since python is an interpreter, there's no preprocessing step to be applied, and no particular advantage to having a special syntax.

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Being an interpreter doesn't have anything to do with it. Nobody claims Java is interpreted, yet Java uses exactly the same technique (the D language is another example). Python is in fact a compiler, it compiles source code to bytecode and executes it in a VM, just like Java. – Greg Hewgill Jan 27 '09 at 1:45
@Greg Hewgill: There's no value in preprocessor directives to finesse things like static type declarations or conditional code, since the one doesn't exist and the other doesn't represent a significant cost. – S.Lott Jan 27 '09 at 3:22
Greg, go back and think about that answer. (1) Java, unlike Python, has a separate compilation phase. (2) While they never became popular, there hae been several java preprocessors. ... – Charlie Martin Jan 28 '09 at 3:05
(con't) Now, as a quiz question, what makes a preprocessor more advantageous in C/C++ than Python? – Charlie Martin Jan 28 '09 at 3:05
@Charlie After the preprocessor runs (and it's written well) it should be able to remove all of the meta statements that aren't used. Therefore, IL (Intermediate Language) or ByteCode if you're using python will only contain the code that is used for that particular preprocessor condition. If you just sprinkle if/else statements, all of those statements still need to be sanity checked every time the code is run (even after optimizations are applied). – Evan Plaice Feb 6 '11 at 1:21

I wrote a python preprocessor called pypreprocessor that does exactly what you're describing.

The source and documentation is available on Google Code.

The package can also be downloaded/installed through the PYPI.

Here's an example to accomplish what you're describing.

from pypreprocessor import pypreprocessor


#define debug

#ifdef debug
print('The source is in debug mode')
print('The source is not in debug mode')

pypreprocessor is capable of a lot more than just on-the-fly preprocessing. To see more use case examples check out the project on Google Code.

Update: More info on pypreprocessor

The way I accomplish the preprocessing is simple. From the example above, the preprocessor imports a pypreprocessor object that's created in the pypreprocessor module. When you call parse() on the preprocessor it self-consumes the file that it is imported into and generates a temp copy of itself that comments out all of the preprocessor code (to avoid the preprocessor from calling itself recursively in an infinite loop) and comments out all of the unused portions.

Commenting out the lines is, as opposed to removing them, is necessary to preserve line numbers on error tracebacks if the module throws an exception or crashes. And I've even gone as far as to rewrite the error traceback to report reflect the proper file name of the module that crashed.

Then, the generated file containing the postprocessed code is executed on-the-fly.

The upside to using this method over just adding a bunch of if statements inline in the code is, there will be no execution time wasted evaluating useless statements because the commented out portions of the code will be excluded from the compiled .pyc files.

The downside (and my original reason for creating the module) is that you can't run both python 2x and python 3x in the same file because pythons interpreter runs a full syntax check before executing the code and will reject any version specific code before the preprocessor is allowed to run ::sigh::. My original goal was to be able to develop 2x and 3x code side-by-side in the same file that would create version specific bytecode depending on what it is running on.

Either way, the preprocessor module is still very useful for implementing common c-style preprocessing capabilities. As well as, the preprocessor is capable of outputting the postprocessed code to a file for later use if you want.

Also, if you want to generate a version that has all of the preprocessor directives as well as any of the #ifdefs that are excluded removed it's as simple as setting a flag in the preprocessor code before calling parse(). This makes removing unwanted code from a version specific source file a one step process (vs crawling through the code and removing if statements manually).

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You can use the preprocessor in Python. Just run your scripts through the cpp (C-Preprocessor) in your bin directory. However I've done this with Lua and the benefits of easy interpretation have outweighed the more complex compilation IMHO.

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I agree, that sounds a lot more trouble than its worth! – intrepion Jan 27 '09 at 2:14
FWIW I used exactly this technique long ago while working with another interpreted language, PostScript, and found it very useful -- mainly for #include'ing files and #ifdef'ing statements, not so much for macro substitution. It wasn't that much extra trouble to deal with -- just a few extra things in the make files which existed because C++ was also being used. @Evan Plaice's pypreprocessor sounds like something worth checking-out. – martineau Nov 15 '10 at 17:20
BTW: I had to use a special command-line argument with the C-Preprocessor to preserve comments because PostScript's use of "//" conflicted with C/C++'s. That would probably also need to be done to use it with Python which has the "//" integer divide operator. – martineau Nov 15 '10 at 17:45

You can just use the normal language constructs:

DEBUG = True
  # Define a function, a class or do some crazy stuff
  def f():
    return 23
  def f():
    return 42
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An alternative method is to use a bash script to comment out portions of code which are only relevant to debugging. Below is an example script which comments out lines that have a '#DEBUG' statement in it. It can also remove these comment markers again.

if [ "$1" == "off" ]; then
  sed -e '/^#/! {/#DEBUG/ s/^/#/}' -i *.py
  echo "Debug mode to $1"
elif [ "$1" == "on" ]; then
  sed -e '/#DEBUG/ s/^#//' -i *.py
  echo "Debug mode to $1"
  echo "usage: $0 on | off"
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