What's all this fuss about Python and CPython (Jython,IronPython), I don't get it:

python.org mentions that CPython is:

The "traditional" implementation of Python (nicknamed CPython)

yet another Stack Overflow question mentions that:

CPython is the default byte-code interpreter of Python, which is written in C.

Honestly I don't get what both of those explanations practically mean but what I thought was that, if I use CPython does that mean when I run a sample python code, it compiles it to C language and then executes it as if it were C code

So what exactly is CPython and how does it differ when compared with python and should I probably use CPython over Python and if so what are its advantages?

10 Answers 10

up vote 499 down vote accepted

So what is CPython?

CPython is the original Python implementation. It is the implementation you download from Python.org. People call it CPython to distinguish it from other, later, Python implementations, and to distinguish the implementation of the language engine from the Python programming language itself.

The latter part is where your confusion comes from; you need to keep Python-the-language separate from whatever runs the Python code.

CPython happens to be implemented in C. That is just an implementation detail, really. CPython compiles your Python code into bytecode (transparently) and interprets that bytecode in a evaluation loop.

CPython is also the first to implement new features; Python-the-language development uses CPython as the base; other implementations follow.

What about Jython, etc.?

Jython, IronPython and PyPy are the current "other" implementations of the Python programming language; these are implemented in Java, C# and RPython (a subset of Python), respectively. Jython compiles your Python code to Java bytecode, so your Python code can run on the JVM. IronPython lets you run Python on the Microsoft CLR. And PyPy, being implemented in (a subset of) Python, lets you run Python code faster than CPython, which rightly should blow your mind. :-)

Actually compiling to C

So CPython does not translate your Python code to C by itself. Instead, it runs an interpreter loop. There is a project that does translate Python-ish code to C, and that is called Cython. Cython adds a few extensions to the Python language, and lets you compile your code to C extensions, code that plugs into the CPython interpreter.

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    I think it's worth mentioning that, in theory, a python script could be run using any of the implementations, and the results of running the script should be the same. – Douglas Mendizábal Jun 16 '13 at 7:54
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    As a matter of facts, and depending on the project you're working on, it may be a good idea to test and profile your Python code on several implementations. Having worked on Java+Jython projects before, you can run into many surprises because devs haven't tested their libs enough on this platform. – rahmu Jun 16 '13 at 11:59
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    The answer should IMHO make it clearer that CPython is still the canonical Python implementation, and one used by by far the majority of developers and users. (The first paragraph speaks of other, later Python implementations, which can be construed to have superseded CPython.) This may change in the future, but that is the current reality. Otherwise, the answer is, of course, spot-on. – user4815162342 Jul 8 '14 at 12:39
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    Saying that "PyPy is faster than CPython" is a bit dangerous I'd say. There's a very good answer to precisely that question here: stackoverflow.com/questions/18946662/… – Max Leske Dec 2 '14 at 14:22
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    @RestlessC0bra: Python code compiles down to bytecode, and a loop then 'reads' those bytecodes from memory and executes them one by one (interprets them). This is different from languages that compile down to machine code (such as C), providing instructions directly to the CPU. – Martijn Pieters Jul 17 '17 at 6:47

You need to distinguish between a language and an implementation. Python is a language,

According to Wikipedia, "A programming language is a notation for writing programs, which are specifications of a computation or algorithm". This means that it's simply the rules and syntax for writing code. Separately we have a programming language implementation which in most cases, is the actual interpreter or compiler.

Python is a language. CPython is the implementation of Python in C. Jython is the implementation in Java, and so on.

To sum up: You are already using CPython (if you downloaded from here).

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    You should read Martijn Pieters 's post "CPython does not translate your Python code to C by itself. It instead runs a interpreter loop. There is a project that does translate Python-ish code to C, and that is called Cython" – Raymond Chenon Mar 30 '17 at 11:47
  • why there is so much imphasization about Cpython. i.e: we don't hear Cc++ or CJava or even CSwift. Or am I missing something ? – Suhaib Oct 1 '17 at 19:43
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    @Suhaib: they do, in Java world people have e.g. HotSpot, OpenJDK, IBM J9 JDK, Azul. They usually are more precise, i.e. you don't really see "install Java" but rather "install a compatible Java 8 JDK, for example Oracle JDK 8". In JavaScript world you have node.js, V8, etc. You "install node.js", not "install JavaScript", right? But in Python world it's pretty common to just say "install Python 3.6" and done, referring to a language spec, not a specific runtime. – Hendy Irawan Dec 11 '17 at 3:10

This article thoroughly explains the difference between different implementations of Python. Like the article puts it:

The first thing to realize is that ‘Python’ is an interface. There’s a specification of what Python should do and how it should behave (as with any interface). And there are multiple implementations (as with any interface).

The second thing to realize is that ‘interpreted’ and ‘compiled’ are properties of an implementation, not an interface.

Python is a language: a set of rules that can be used to write programs. There are several implementaions of this language.

No matter what implementation you take, they do pretty much the same thing: take the text of your program and interpret it, executing its instructions. None of them compile your code into C or any other language.

CPython is the original implementation, written in C. (The "C" part in "CPython" refers to the language that was used to write Python interpreter itself.)

Jython is the same language (Python), but implemented using Java.

IronPython interpreter was written in C#.

There's also PyPy - a Python interpreter written in Python. Make your pick :)

Even I had the same problem understanding how are CPython, JPython, IronPython, PyPy are different from each other.

So, I am willing to clear three things before I begin to explain:

  1. Python: It is a language, it only states/describes how to convey/express yourself to the interpreter (the program which accepts your python code).
  2. Implementation: It is all about how the interpreter was written, specifically, in what language and what it ends up doing.
  3. Bytecode: It is the code that is processed by a program, usually referred to as a virtual machine, rather than by the "real" computer machine, the hardware processor.

CPython is the implementation, which was written in C language. It ends up producing bytecode (stack-machine based instruction set) which is Python specific and then executes it. The reason to convert Python code to a bytecode is because it's easier to implement an interpreter if it looks like machine instructions. But, it isn't necessary to produce some bytecode prior to execution of the Python code (but CPython does produce).

If you want to look at CPython's bytecode then you can. Here's how you can:

>>> def f(x, y):                # line 1
...    print("Hello")           # line 2
...    if x:                    # line 3
...       y += x                # line 4
...    print(x, y)              # line 5
...    return x+y               # line 6
...                             # line 7
>>> import dis                  # line 8
>>> dis.dis(f)                  # line 9
  2           0 LOAD_GLOBAL              0 (print)
              2 LOAD_CONST               1 ('Hello')
              4 CALL_FUNCTION            1
              6 POP_TOP

  3           8 LOAD_FAST                0 (x)
             10 POP_JUMP_IF_FALSE       20

  4          12 LOAD_FAST                1 (y)
             14 LOAD_FAST                0 (x)
             16 INPLACE_ADD
             18 STORE_FAST               1 (y)

  5     >>   20 LOAD_GLOBAL              0 (print)
             22 LOAD_FAST                0 (x)
             24 LOAD_FAST                1 (y)
             26 CALL_FUNCTION            2
             28 POP_TOP

  6          30 LOAD_FAST                0 (x)
             32 LOAD_FAST                1 (y)
             34 BINARY_ADD
36 RETURN_VALUE

Now, let's have a look at the above code. Lines 1 to 6 are a function definition. In line 8, we import the 'dis' module which can be used to view the intermediate Python bytecode (or you can say, disassembler for Python bytecode) that is generated by CPython (interpreter).

NOTE: I got the link to this code from #python IRC channel: https://gist.github.com/nedbat/e89fa710db0edfb9057dc8d18d979f9c

And then, there is Jython, which is written in Java and ends up producing Java byte code. The Java byte code runs on Java Runtime Environment, which is an implementation of Java Virtual Machine (JVM). If this is confusing then I suspect that you have no clue how Java works. In layman terms, Java (the language, not the compiler) code is taken by the Java compiler and outputs a file (which is Java byte code) that can be run only using a JRE. This is done so that, once the Java code is compiled then it can be ported to other machines in Java byte code format, which can be only run by JRE. If this is still confusing then you may want to have a look at this web page.

Here, you may ask if the CPython's bytecode is portable like Jython, I suspect not. The bytecode produced in CPython implementation was specific to that interpreter for making it easy for further execution of code (I also suspect that, such intermediate bytecode production, just for the ease the of processing is done in many other interpreters).

So, in Jython, when you compile your Python code, you end up with Java byte code, which can be run on a JVM.

Similarly, IronPython (written in C# language) compiles down your Python code to Common Language Runtime (CLR), which is a similar technology as compared to JVM, developed by Microsoft.

  • thx for detailed explanation !! This means CPython takes care of converting Python code to Byte Code and also interpret byte code to machine code ? In nut shell CPython is Compiler (for Python to Byte Code) and Python Virtual Machine (for Byte code to Machine code) ? Comparing same to .Net, there is C# Compiler to Convert C# to MSIL and CLR to convert from MSIL to Machine code. – Rahul Agarwal Nov 2 at 14:02

implementation means what language was used to implement Python and not how python Code would be implemented. The advantage of using CPython is the availability of C Run-time as well as easy integration with C/C++.

So CPython was originally implemented using C. There were other forks to the original implementation which enabled Python to lever-edge Java (JYthon) or .NET Runtime (IronPython).

Based on which Implementation you use, library availability might vary, for example Ctypes is not available in Jython, so any library which uses ctypes would not work in Jython. Similarly, if you want to use a Java Class, you cannot directly do so from CPython. You either need a glue (JEPP) or need to use Jython (The Java Implementation of Python)

You should know that CPython doesn't really support multithreading because of the Global Interpreter Lock. It also has no Optimisation mechanisms for recursion, and has many other limitations that other implementations and libraries try to fill.

You should take a look at this page on the python wiki.

Look at the code snippets on this page, it'll give you a good idea of what an interpreter is.

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    CPython supports multithreading, but the GIL makes it hard to take advantage of multiple cores or CPUs. That's not quite the same thing as not supporting multithreading at all. – Martijn Pieters Feb 13 '14 at 0:05

The original, and standard, implementation of Python is usually called CPython when you want to contrast it with the other options (and just plain “Python” otherwise). This name comes from the fact that it is coded in portable ANSI C language code. This is the Python that you fetch from http://www.python.org, get with the ActivePython and Enthought distributions, and have automatically on most Linux and Mac OS X machines. If you’ve found a preinstalled version of Python on your machine, it’s probably CPython, unless your company or organization is using Python in more specialized ways.

Unless you want to script Java or .NET applications with Python or find the benefits of Stackless or PyPy compelling, you probably want to use the standard CPython system. Because it is the reference implementation of the language, it tends to run the fastest, be the most complete, and be more up-to-date and robust than the alternative systems.

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    I don't mean to be rude, but CPython absolutely does not run the fastest. – Myles Hollowed Jan 14 at 1:52

A programming language implementation is a system for executing computer programs.

There are two general approaches to programming language implementation:

  • Interpretation: An interpreter takes as input a program in some language, and performs the actions written in that language on some machine.
  • Compilation: A compiler takes as input a program in some language, and translates that program into some other language, which may serve as input to another interpreter or another compiler.

Python is an interpreted high-level programming language created by Guido van Rossum's in 1991.

CPython is reference version of the Python computing language, which is written in C created by Guido van Rossum's too.

Other list of Python Implementations

Source

My initial experiences with both have tentatively led me to the following impression. I like features of both.

Python vs C Programming Language:

C -- Poor in data declarations and initializations. -- The detail in its structured form makes the logic of its functions easier to follow without the embellishment of extraneous comments or overly descriptive names.

Python --- Easy and fast data declarations and initializations. --- The simplicity of structure in called functions complicates the understanding of their applications and the direction of logic in Python. This necessitates excessive verbiage in labeling its variables as well as its routines. Python is better for setup and C is superior in follow-through and application.

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    This doesn't answer the question of how Python runs under the hood. @Rick: please don't write your name into the answer, it will be added automatically. – gogowitsch Mar 18 at 19:49

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