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Why are there no ++ and -- operators in Python?

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16 Answers 16

up vote 178 down vote accepted

It's not because it doesn't make sense; it makes perfect sense to define "x++" as "x += 1, evaluating to the previous binding of x".

If you want to know the original reason, you'll have to either wade through old Python mailing lists or ask somebody who was there (eg. Guido), but it's easy enough to justify after the fact:

Simple increment and decrement aren't needed as much as in other languages. You don't write things like for(int i = 0; i < 10; ++i) in Python very often; instead you do things like for i in range(0, 10).

Since it's not needed nearly as often, there's much less reason to give it its own special syntax; when you do need to increment, += is usually just fine.

It's not a decision of whether it makes sense, or whether it can be done--it does, and it can. It's a question of whether the benefit is worth adding to the core syntax of the language. Remember, this is four operators--postinc, postdec, preinc, predec, and each of these would need to have its own class overloads; they all need to be specified, and tested; it would add opcodes to the language (implying a larger, and therefore slower, VM engine); every class that supports a logical increment would need to implement them (on top of += and -=).

This is all redundant with += and -=, so it would become a net loss.

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It is often useful to use something like array[i++], which is not tidily done with +=/-=. –  Turner Hayes Oct 26 '12 at 1:47
@thayes: That's not a common pattern in Python. –  Glenn Maynard Oct 29 '12 at 16:50
@thayes Since that will be inside a loop, you might as well loop over i directly - if you actually need it and can't just e.g. use array.append() –  Tobias Kienzler Jan 23 '13 at 15:56
I see the much bigger concern being readability and predictability. Back in my C days, I saw more than enough bugs stemming from misunderstandings about the distinction between i++ and ++i... –  Charles Duffy Jul 17 '13 at 14:54
I believe in the "C" world it is most effectively used (not most commonly) with pointers. There is a direct mapping to some instructions sets that support pre- or post-increment of address registers - M68K comes to mind as an early supporter of this. Since there are no pointers in Python it is redundant. –  phkahler Jul 17 '13 at 14:56


Python is a lot about clarity and no programmer is likely to correctly guess the meaning of --a unless s/he's learned a language having that construct.

Python is also a lot about avoiding constructs that invite mistakes and the ++ operators are known to be rich sources of defects. These two reasons are enough not to have those operators in Python.

The decision that Python uses indentation to mark blocks rather than syntactical means such as some form of begin/end bracketing or mandatory end marking is based largely on the same considerations.

For illustration, have a look at the discussion around introducing a conditional operator (in C: cond ? resultif : resultelse) into Python in 2005. Read at least the first message and the decision message of that discussion (which had several precursors on the same topic previously).

Trivia: The PEP frequently mentioned therein is the "Python Extension Proposal" PEP 308. LC means list comprehension, GE means generator expression (and don't worry if those confuse you, they are none of the few complicated spots of Python).

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This may be because @GlennMaynard is looking at the matter as in comparison with other languages, but in Python, you do things the python way. It's not a 'why' question. It's there and you can do things to the same effect with x+=. In The Zen of Python, it is given: "there should only be one way to solve a problem." Multiple choices are great in art (freedom of expression) but lousy in engineering.

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This original answer I wrote is a myth from the folklore of computing: debunked by Dennis Ritchie as "historically impossible" as noted in the letters to the editors of Communications of the ACM July 2012 doi:10.1145/2209249.2209251

The C increment/decrement operators were invented at a time when the C compiler wasn't very smart and the authors wanted to be able to specify the direct intent that a machine language operator should be used which saved a handful of cycles for a compiler which might do a

load memory
load 1
store memory

instead of

inc memory 

and the PDP-11 even supported "autoincrement" and "autoincrement deferred" instructions corresponding to *++p and *p++, respectively. See section 5.3 of the manual if horribly curious.

As compilers are smart enough to handle the high-level optimization tricks built into the syntax of C, they are just a syntactic convenience now.

Python doesn't have tricks to convey intentions to the assembler because it doesn't use one.

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Javascript has ++. I don't think that's a "trick to convey intentions to the assembler." Plus, Python does have bytecode. So I think the reason is something else. –  Nathan Davis Nov 2 '13 at 17:55
This "providing hints to the compiler" business is indeed a myth. Frankly, it's a dumb addition to any language and it violates the following two precepts: 1. You don't code for the computer to read, you code for another engineer to read. And 2. You don't code for a competent engineer to read, you code for a competent engineer to read while exhausted at 3am and hopped up on caffeine. –  tgm1024 Dec 6 '14 at 14:53
@tgm1024 To be fair, when coding on a 10–30 character per second, half-duplex teletype, you code so that you can key it in before next week. –  msw Jan 16 at 14:33
@msw, I'm afraid I missed your meaning. –  tgm1024 Jan 16 at 23:00
@tgm1024 Unix and C saw the bulk of their initial development on PDP-11s which used incredibly slow teletypes for user communication. While you are dead right that today coding for the machine is mostly silly, back then it was the Human/Machine interface which was the bottleneck. It is hard to imagine working that slowly if you never had to. –  msw Jan 17 at 3:22

My understanding of why python does not have ++ operator is following: When you write this in python a=b=c=1 you will get three variables (labels) pointing at same object (which value is 1). You can verify this by using id function which will return an object memory address:

In [19]: id(a)
Out[19]: 34019256

In [20]: id(b)
Out[20]: 34019256

In [21]: id(c)
Out[21]: 34019256

All three variables (labels) point to the same object. Now increment one of variable and see how it affects memory addresses:

In [22] a = a + 1

In [23]: id(a)
Out[23]: 34019232

In [24]: id(b)
Out[24]: 34019256

In [25]: id(c)
Out[25]: 34019256

You can see that variable a now points to another object as variables b and c. Because you've used a = a + 1 it is explicitly clear. In other words you assign completely another object to label a. Imagine that you can write a++ it would suggest that you did not assign to variable a new object but ratter increment the old one. All this stuff is IMHO for minimization of confusion. For better understanding see how python variables works:

In Python, why can a function modify some arguments as perceived by the caller, but not others?

Is Python call-by-value or call-by-reference? Neither.

Does Python pass by value, or by reference?

Is Python pass-by-reference or pass-by-value?

Python: How do I pass a variable by reference?

Understanding Python variables and Memory Management

Emulating pass-by-value behaviour in python

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First, Python is only indirectly influenced by C; it is heavily influenced by ABC, which apparently does not have these operators, so it should not be any great surprise not to find them in Python either.

Secondly, as others have said, increment and decrement are supported by += and -= already.

Third, full support for a ++ and -- operator set usually includes supporting both the prefix and postfix versions of them. In C and C++, this can lead to all kinds of "lovely" constructs that seem (to me) to be against the spirit of simplicity and straight-forwardness that Python embraces.

For example, while the C statement while(*t++ = *s++); may seem simple and elegant to an experienced programmer, to someone learning it, it is anything but simple. Throw in a mixture of prefix and postfix increments and decrements, and even many pros will have to stop and think a bit.

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+1 for reminding us about Python heritage –  swdev Apr 15 '14 at 22:17

The ++ class of operators are expressions with side effects. This is something generally not found in Python.

For the same reason an assignment is not an expression in Python, thus preventing the common if (a = f(...)) { /* using a here */ } idiom.

Lastly I suspect that there operator are not very consistent with Pythons reference semantics. Remember, Python does not have variables (or pointers) with the semantics known from C/C++.

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++ operator is not exactly same the += operator. In fact result of both is same but uses have some difference. For example, You can use ++ operator in ternary conditional, for loop, etc but can't use +=. At bottom, We feel the need ++ and --, for this reason.

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That's wrong, at least for C/C++. You can use += in for loops, if statements etc. It is an expression just like assignment, return the result of the addtions. –  Ber Feb 12 '14 at 9:54

I always assumed it had to do with this line of the zen of python:

There should be one — and preferably only one — obvious way to do it.

x++ and x+=1 do the exact same thing, so there is no reason to have both.

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Ok, let's delete += operator then? –  EralpB Dec 27 '12 at 22:39
one-- is zero ? –  Andre Holzner Jan 12 '13 at 8:31
one-- is one in the sentence, but zero immediately afterwards. So this 'koan' also hints that increment/decrement operators are non-obvious. –  Victor K Mar 18 '13 at 17:31
@EralpB If you delete +=, then you cannot do things like x += 10. += is a more general case of ++ –  Rory Jan 20 '14 at 12:40
Also: "Explicit is better than implicit". –  Ber Feb 12 '14 at 9:59

as i understood it so you won't think the value in memory is changed. in c when you do x++ the value of x in memory changes. but in python all numbers are immutable hence the address that x pointed as still has x not x+1. when you write x++ you would think that x change what really happens is that x refrence is changed to a location in memory where x+1 is stored or recreate this location if doe's not exists.

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So what makes this ++ and different from += 1? –  Ber Feb 12 '14 at 9:56

I believe it stems from the Python creed that "explicit is better than implicit".

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Of course, we could say "Guido just decided that way", but I think the question is really about the reasons for that decision. I think there are several reasons:

  • It mixes together statements and expressions, which is not good practice. See http://norvig.com/python-iaq.html
  • It generally encourages people to write less readable code
  • Extra complexity in the language implementation, which is unnecessary in Python, as already mentioned
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Glad someone finally mentioned the statement vs expression aspect. In C assignment is an expression and so it the ++ operator. In Python assignment is a statement, so if it had a ++, it would likely need to be an assignment statement, too (and even less useful or needed). –  martineau Sep 7 '10 at 17:03
Agreed - if they were statements, then at a minimum it would become absolutely meaningless to talk about the difference between post- and pre- operators. –  Paul Griffiths Jul 17 '13 at 15:09

Because, in Python, integers are immutable (int's += actually returns a different object).

Also, with ++/-- you need to worry about pre- versus post- increment/decrement, and it takes only one more keystroke to write x+=1. In other words, it avoids potential confusion at the expense of very little gain.

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ints are immutable in C as well. If you don't think so, try to get your C compiler to generate code for 42++... Something like this (modifying a literal constant) was actually possible in some old Fortran compilers (or so I've read): All future uses of that literal in that program run would then really have a different value. Happy debugging! –  Lutz Prechelt Jan 16 at 15:46

Maybe a better question would be to ask why do these operators exist in C. K&R calls increment and decrement operators 'unusual' (Section 2.8page 46). The Introduction calls them 'more concise and often more efficient'. I suspect that the fact that these operations always come up in pointer manipulation also has played a part in their introduction. In Python it has been probably decided that it made no sense to try to optimise increments (in fact I just did a test in C, and it seems that the gcc-generated assembly uses addl instead of incl in both cases) and there is no pointer arithmetic; so it would have been just One More Way to Do It and we know Python loathes that.

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I'm very new to python but I suspect the reason is because of the emphasis between mutable and immutable objects within the language. Now, I know that x++ can easily be interpreted as x = x + 1, but it LOOKS like you're incrementing in-place an object which could be immutable.

Just my guess/feeling/hunch.

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In this aspect, x++ is closer to x += 1 than to x = x + 1, these two making a difference as well on mutable objects. –  glglgl Dec 13 '12 at 10:12

It was just designed that way. Increment and decrement operators are just shortcuts for x = x + 1. Python has typically adopted a design strategy which reduces the number of alternative means of performing an operation. Augmented assignment is the closest thing to increment/decrement operators in Python, and they weren't even added until Python 2.0.

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