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I was playing with python and I realized we don't need to use '+' operator to concatenate strings unless it is used directly.

For example:

string1 = 'Hello'   'World'  #1 works fine
string2 = 'Hello' + 'World'  #2 also works fine

string3 = 'Hello'
string4 = 'World'
string5 = string3   string4  #3 causes syntax error
string6 = string3 + string4  #4 works fine

Now I have two questions:

  1. why statement 3 does not work while statement 1 does?
  2. And Is there any technical difference such as calculation speed etc. between statement 1 and 2?
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1  
this is just similar to C/C++ where "hello " "world" will automatically concatenated together –  Lưu Vĩnh Phúc Jun 4 '14 at 4:48

3 Answers 3

up vote 31 down vote accepted

From the docs:

Multiple adjacent string literals (delimited by whitespace), possibly using different quoting conventions, are allowed, and their meaning is the same as their concatenation. Thus, "hello" 'world' is equivalent to "helloworld".


Statement 3 doesn't work because:

The ‘+’ operator must be used to concatenate string expressions at run time.

Notice that the title of the subheader in the docs is "string literal concatenation" too. This only works for string literals, not other objects.


There's probably no difference. If there is, it's probably extremely tiny and nothing that anyone should worry about.


Also, understand that there can be dangers to this:

>>> def foo(bar, baz=None):
...     return bar
... 
>>> foo("bob"
... "bill")
'bobbill'

This is a perfect example of where Errors should never pass silently. What if I wanted "bill" to be the argument baz? I have forgotton a comma, but no error is raised. Instead, concatenation has taken place.

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2  
So "Errors should never pass silently" in this case means that the grammar should be defined such that if a comma is removed from any valid program, the resulting program is either invalid or else has the same meaning as the original program? I mean syntactically significant comma, ofc, the rule shouldn't apply to removing a comma from inside a string literal ;-) –  Steve Jessop Sep 17 '13 at 8:39
    
@SteveJessop Hmm, I guess it doesn't suit this example, doesn't it. Because technically there is no error, right? –  TerryA Sep 17 '13 at 8:41
    
Well, as a language designer if you think "leaving out a comma" is a common typo, then it's reasonable to decide that you will not create situations where leaving out a comma changes a valid program to another valid program with different meaning. Your example code is an error if the programmer intended a comma and not if the programmer didn't, the issue is that the language is defined such that the interpreter can't tell which. There are other cases in Python where that happens, for example (0) != (0,), and each one has its reasons that GvR considered more important. –  Steve Jessop Sep 17 '13 at 8:43
1  
Another example applying to both Python and C (even though the comma doesn't mean the same thing): 1 - 1 and 1 , - 1 are different. Basically, context-sensitive operators lead to such examples, and juxtaposition in effect turns token boundaries into context-sensitive operators. String concatenation is a particularly easy mistake to make since it's pretty common to introduce linebreaks into comma-separated lists of strings. If you wrote foo(1, <newline> -1) then you'd have in effect the same lack of ability of the language to tell when you leave off the trailing comma. –  Steve Jessop Sep 17 '13 at 8:54
1  
@SteveJessop Wow, that's amazing. I've attempted to learn C++ before, but I never got into it because I love python (especially its syntax) so much, but you have definitely taught me a lot here. Thank you! –  TerryA Sep 17 '13 at 9:00

This is implicit string literal concatenation. It only happens with string literals, not variables or other expressions that evaluate to strings. There used to be a (tiny) performance difference, but these days, the peephole optimizer should render the forms essentially equivalent.

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To answer your second question: There is no difference at all (at least with the implementation I use). Disassembling both statements, they are rendered as LOAD_CONST STORE_FAST. They are equivalent.

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2  
That is the case in CPython, but afaik not in every implementation. –  flornquake Sep 17 '13 at 8:11
    
@flornquake Thank you for your input. I updated and somewhat restricted my answer. –  Hyperboreus Sep 17 '13 at 16:43

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