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Obviously Python is more user friendly, a quick search on google shows many results that say that, as Python is byte-compiled is usually faster. I even found this that claims that you can see an improvement of over 2000% on dictionary-based operations.

What is your experience on this matter? In which kind of task each one is a clear winner?

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polls should be community wiki –  SilentGhost Mar 11 '10 at 12:43
This isn't actually a poll, there are no predefined options, I need some insight of which tool does which kind of work best. –  Doppelganger Mar 11 '10 at 19:09

8 Answers 8

up vote 25 down vote accepted

Generally, bash works better than python only in those environments where python is not available. :)

Seriously, I have to deal with both languages daily, and will take python instantly over bash if given the choice. Alas, I am forced to use bash on certain "small" platforms because someone has (mistakenly, IMHO) decided that python is "too large" to fit.

While it is true that bash might be faster than python for some select tasks, it can never be as quick to develop with, or as easy to maintain (at least after you get past 10 lines of code or so). Bash's sole strong point wrt python or ruby or lua, etc., is its ubiquity.

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Developer efficiency matters much more to me in scenarios where both bash and Python are sensible choices.

Some tasks lend themselves well to bash, and others to Python. It also isn't unusual for me to start something as a bash script and change it to Python as it evolves over several weeks.

A big advantage Python has is in corner cases around filename handling, while it has glob, shutil, subprocess, and others for common scripting needs.

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The question aimed at "performance-wise" comparison which implies machine performance and not developer performance. See my performance tests in another answer. –  Grzegorz Luczywo Aug 6 at 23:08

Bash is primarily a batch / shell scripting language with far less support for various data types and all sorts of quirks around control structures -- not to mention compatibility issues.

Which is faster? Neither, because you are not comparing apples to apples here. If you had to sort an ascii text file and you were using tools like zcat, sort, uniq, and sed then you will smoke Python performance wise.

However, if you need a proper programming environment that supports floating point and various control flow, then Python wins hands down. If you wrote say a recursive algorithm in Bash and Python, the Python version will win in an order of magnitude or more.

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So the whole moral of my rant is: use the right tool for the right job. –  Justin Mar 11 '10 at 15:40
floating point is supported with tools like awk, bc and with shells like zsh/ksh, so why do you say Python wins hands down? –  ghostdog74 Mar 11 '10 at 15:44
Because those tools are not Bash. I was pointing out a distinct difference. Those tools are used in a shell script, but native Bash itself does not support floating point. –  Justin Mar 11 '10 at 15:52
No. Try it yourself. gzip a large log file and use zcat, sort, etc to do some filtering and then use the native Python libs. It's significantly faster using the native tools. –  Justin Mar 11 '10 at 16:26
@justin, yes, these tools are not Bash but they have been around since ancient times and are often used in shell scripting. if you want floating point, use awk/bc. Its a combination of these tools that make shell scripting just as powerful as Python. –  ghostdog74 Mar 11 '10 at 17:06

Typical mainframe flow...

Input Disk/Tape/User (runtime) -----> Job Control Language (JCL) -----> Output Disk/Tape/Screen/Printer
                                         |                     ^
                                         |                     |
    Compiled libraries --------------->  --> COBOL Program -- 

Typical Linux flow...

Input Disk/SSD/User (runtime) -----> sh/ksh/bash ---------------------> Output Disk/SSD/Screen/Printer
                                         |                       ^
                                         |                       |
   Python library (runtime) ------- -->  --- Python script ----
                                    |    |                       ^
                                    |    |                       |
                                     --->  --- awk script ------
                                    |    |                       ^
                                    |    |                       |
                                     -->  --- sed script -------
                                    |    |                       ^
                                    |    |                       |
   C/C++ library (compile time) --- -->  --- C/C++ program -----
                                    |    |                       ^
                                    |    |                       |
                                     -->  --- Java program ------
                                         |                       ^
                                         :                       :

Linux shells like sh/ksh/bash/... provide input/output/flow-control designation facilities much like the old mainframe Job Control Language... but on steroids! They are "Turing complete" languages in their own right while being optimized to efficiently pass data and control to and from other executing processes written in ANY language the O/S supports.

Most Linux applications, regardless what language the bulk of the program is written in, depend on shell scripts and bash has become the most common. Clicking an icon on the desktop usually runs a short bash script. That script, either directly or indirectly, knows where all the files needed are and sets variables and command line parameters, finally calling the program. That's a shell's simplest use.

Linux as we know it however would hardly be Linux without the thousands of, many quite large and complex, shell scripts that startup the system, respond to events, control execution priorities and compile, configure and run programs.

Shells provide an infrastructure that lets us use pre-built components that are linked together at run time rather than compile time. Those components are free-standing programs in their own right that can be used alone or in other combinations without recompiling. The syntax for calling them is indistinguishable from that of a bash builtin command, and there are in fact numerous builtin commands for which there is also a stand-alone executable on the system, often having additional options.

MS-Windows by contrast, depends almost entirely on libraries. Libraries are static. They cannot change as the system changes, new online resources become available, or new software is added or removed.

Thus, it depends on which programs the bash shell script calls and their suitability for the subtask they are given whether the overall throughput and/or responsiveness will be better or worse than the equivalent Python. To complicate matters Python, like most languages, can also call other executables, though it is more cumbersome and thus not as often used.

Building with shell scripts is like assembling a computer with all hot-swappable components.

Building with Python, C++ or most any other language is more like building a computer by soldering the chips (libraries) and other electronic parts together without any pre-built hot-swappable components.

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There are 2 scenario's where Bash performance is at least equal I believe:

  • Scripting of command line utilities
  • Scripts which take only a short time to execute; where starting the Python interpreter takes more time than the operation itself

That said, I usually don't really concern myself with performance of the scripting language itself. If performance is a real issue you don't script but program (possibly in Python).

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If you are looking to cobble together a quick utility with minimal effort, bash is good. For a wrapper round an application, bash is invaluable.

Anything that may have you coming back over and over to add improvements is probably (though not always) better suited to a language like Python as Bash code comprising over a 1000 lines gets very painful to maintain. Bash code is also irritating to debug when it gets long.......

Part of the problem with these kind of questions is, from my experience, that shell scripts are usually all custom tasks. There have been very few shell scripting tasks that I have come across where there is already a solution freely available.

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Performance-wise bash outperforms python in the process startup time.

Here are some measurements from my core i7 laptop running Linux Mint:

Starting process                       Startup time

empty /bin/sh script                   1.7 ms
empty /bin/bash script                 2.8 ms
empty python script                    11.1 ms
python script with a few libs*         110 ms

*Python loaded libs are: os, os.path, json, time, requests, threading, subprocess

This shows a huge difference however bash execution time degrades quickly if it has to do anything sensible since it usually must call external processes.

If you care about performance use bash only for:

  • really simple and frequently called scripts
  • scripts that mainly call other processes
  • when you need minimal friction between manual administrative actions and scripting - fast check a few commands and place them in the file.sh
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The instant your bash script needs to do something that bash doesn't support well*, you're going to wish you'd done it in Python in the first place.

* including "be read and understood by someone else".

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