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Why is Python assignment a statement rather than an expression? If it was an expression which returns the value of the right hand side in the assignment, it would have allowed for much less verbose code in some cases. Are there any issues I can't see?

For example:

# lst is some sequence
# X is come class
x = X()

could have been rewritten as:

lst.append(x = X())

Well, to be precise, the above won't work because x would be treated as a keyword argument. But another pair of parens (or another symbol for keyword arguments) would have resolved that.

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What does your code example have to do with the question? –  Ignacio Vazquez-Abrams Feb 2 '11 at 1:16
@Ignacio: my mistake. The version edited (@Laurence Gonsalves) is good. –  max Feb 2 '11 at 2:09
"Are there any issues I can't see?" It appears that "much less verbose code" is somehow not a problem. Terse, cryptic code golf seems like an issue. Are you discounting that one for some reason? –  S.Lott Feb 2 '11 at 2:17
@S Lott: I guess I was thinking of simple examples (like the one I gave, which I don't see as too cryptic); I agree that the ability to abuse this might be one of the reasons against this feature. –  max Feb 3 '11 at 17:14
I like this question and other questions like it. I believe the answers and comments are very constructive and helpful. I'm just amazed the closure police hasn't shut it down already as NC ;-) –  cfi Feb 19 '13 at 9:26

6 Answers 6

up vote 21 down vote accepted

There are many who feel that having assignments be expressions, especially in languages like Python where any value is allowable in a condition (not just values of some boolean type), is error-prone. Presumably Guido is/was among those who feel that way. The classic error is:

if x = y: # oops! meant to say ==

The situation is also a bit more complicated in Python than it is in a language like C, since in Python the first assignment to a variable is also its declaration. For example:

def f():
    print x

def g():
    x = h()
    print x

In these two functions the "print x" lines do different things: one refers to the global variable x, and the other refers to the local variable x. The x in g is local because of the assignment. This could be even more confusing (than it already is) if it was possible to bury the assignment inside some larger expression/statement.

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The "= vs ==" thing is a red herring. It hasn't been an actual problem in C/C++ for years, ever since compilers learned how to warn about it. I've been using both languages for over ten years and I can't remember the last time I was bitten by that. –  Glenn Maynard Feb 2 '11 at 4:11
@Glenn: Python doesn't have a compiler to warn you, there is no concept of "almost syntax errors" like that. –  Lennart Regebro Feb 2 '11 at 9:20
@Glenn: But since its used at runtime it can't warn about these things in the same sense. Compiler warnings in C are sort of "almost syntax errors", it says "Are you really sure you want this". That concept has no Python equivalent. It's either correct, or it's a syntax error. And Python tries to avoid supporting things that lead newbies to make errors. :-) –  Lennart Regebro Feb 2 '11 at 12:04
@Lennart: Trying to prevent beginners from making beginner mistakes is futile and not--at least not by itself, and at the expense of something else--a good design rationale; and "we can't do that with a warning because our warning system isn't discoverable enough" points at a problem with the warning system or the documentation--you don't design a language around the warning system, you do the reverse. –  Glenn Maynard Feb 2 '11 at 22:23
The point again being that there is no "compile time" in normal usage of the word, as compiling is done on demand during running. Which is the difference I have been pointing out all the time here. It's getting boring repeating myself, so I'm going to stop now. –  Lennart Regebro Feb 3 '11 at 9:18

The real-world answer: it's not needed.

Most of the cases you see this in C are because of the fact that error handling is done manually:

if((fd = open("file", O_RDONLY)) == -1)
    // error handling

Similarly for the way many loops are written:

while(i++ < 10)

These common cases are done differently in Python. Error handling typically uses exception handling; loops typically use iterators.

The arguments against it aren't necessarily earth-shattering, but they're weighed against the fact that it simply isn't that important in Python.

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+1: I didn't think of this.. –  max Feb 3 '11 at 19:33
Sometimes you may need things like while (x[k] += 1) <= limit: ...; you could rewrite it without the assignment as an expression, but that requires a non-trivial restructuring. –  musiphil Dec 31 '14 at 0:44

I believe this was deliberate on Guido's part in order to prevent certain classic errors. E.g.

if x = 3: print x

when you actually meant to say

if x == 3: ...

I do agree there are times I wished it would work, but I also miss { and } around a block of code, and that sure isn't going to change.

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I actually like this behavior. I don't like code that produces a value AND has side effects. It should be one or the other, or it can get really confusing, really fast.

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Lots of expressions have side-effects. –  Glenn Maynard Feb 2 '11 at 4:08
  1. Python's syntax is much less verbose than C's syntax.
  2. It has much more sophisticated scope rules than C.
  3. To use parentheses in every single expression reduces the code readability and python avoids that.

If assigments were expressions, these and many other features would have to be re-worked. For me it is like a deal you have to make in order to have such readable code and useful features. In order to have

if a and (h not in b): ...

rather than

if (a && !(h in b)) { ... }

[not talking about the classic (if a = b:) kind of error.]

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Getting into taste discussion, or any discussion perceived as such, is generally a waste of time, no matter how good the arguments.

Outside more general principles, my preferred practical reason to have assignment be an expression is to have a readable equivalent of a case statement when I want to match a string with several patterns (extracting sub-patterns), until one succeeds. Maybe someone has a nice solution which I did not see.

Anyway ... why not make everyone happy by making both worlds available by means of an interpretable comment at the beginning of the module file that states explicitly that assignments can be used as expression, if the programmer so desires?

People satisfied with the current situation will not see any change, and will still have their syntax errors detected in the same way.

And people who want to use assignment as expressions will simply have to say so.

I do not see that allowing to use assignments as expressions in an existing program that did not use it (by simply adding the suggested comment above) would change the semantics of that program.


Post-sriptum - This is added after the first five paragraphs of section 1 in the discussion below have been posted.

I do not know why Python designers made that choice. Avoidance of the admittedly common error if a=b : ... instead of if a==b : ... is hardly a justification.

First, it could quite easily be avoided with another notation for assignment, such as := or <-, more appropriate since assignment is not symmetrical, and used in some of the early ancestors of Python.

Second, the same problem is tolerated in another context. One can write a = b=c while meaning actually to write a = b==c which is quite different. And the error is not that visible when b and c are large expressions. Furthermore, while it would probably be detected as a type error if the language were statically typed, this is not so in a dynamically typed language like Python (this is actually true of = versus == in all contexts).

This tolerance is all the more surprising that multiple assignment of the form a = b = c is hardly an essential feature of the language, hardly a very useful feature.

It all looks like remnants of early design decisions, some motivated by similarities with existing languages like C or Bash because Python is also a scripting language, but has become much more than that. In other words, it seems more accidental than well thought out design. Hopefully, that is not what people have in mind when talking of pythonicity.

This being said, these are minor syntactic restrictions, however annoying. The language seems much better designed overall (with some mental restriction regarding scope rules, until I make up my mind about its logic).

An interesting aspect of this discussion is that the prohibition of assignment as expression (though it could be solved by a notation change) is also made necessary by the absence of static typing. But it is to be expected that absence of static typing, which is a legitimate design choice, makes a lot of bugs harder to catch. This is a very general observation. Nevertheless, this is the choice made by Python designers. So be it.

But then they can hardly regret that confusion between equality and assignment will be harder to catch. It is only a direct consequence, one of many consequences of their design choice of more flexibility at the expense of error detection. So error detection is a poor excuse for this limitation on assignment.

Regarding the fact that an expression assignment would mix functionnal and imperative style, this is a non-issue. The mixing is already everywhere in the language.

Is there a written rationale for Python that document design choices in general, and the issue discussed here in particular ?

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That proposal is even worse, than any of the two alternatives. You're proposing ambiguity. That's strikes me as not being Pythonic. –  cfi Feb 19 '13 at 9:24
What ambiguity ? Anything you write can only take one meaning, but it may or may not be permitted by the syntax, which the compilers detects. –  babou May 8 '13 at 14:55
The ambiguity is that for code readers it is no longer sufficient to just look at an assignment. To understand the full meaning of the statement one also has to look at the new proposed pragma. –  cfi May 16 '13 at 10:36
Meaning dependence on context is true of about anything you write. This is the case for global variables or functions, or for operators, to give a few examples. It is especially true of a language without static typing like Python, and you do not consider it ambiguous. In our case, there is only one meaning, no ambiguity, only a question of whether the compiler or interpreter will accept it. One may dispute the advisability of my proposal above ... but ambiguity is not the issue. The authoritarian attitude of Python designers regarding minor aspects of programming style is more of an issue. –  babou May 16 '13 at 12:41
The difference is that you are proposing ambiguity into the semantics of the language itself. This is not about content of an object or variable, this is about language behavior. –  cfi May 16 '13 at 14:50

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