What is the difference between:
some_list1 =  some_list1.append("something")
some_list2 =  some_list2 += ["something"]
For your case the only difference is performance: append is twice as fast.
Python 3.0 (r30:67507, Dec 3 2008, 20:14:27) [MSC v.1500 32 bit (Intel)] on win32 Type "help", "copyright", "credits" or "license" for more information. >>> import timeit >>> timeit.Timer('s.append("something")', 's = ').timeit() 0.20177424499999999 >>> timeit.Timer('s += ["something"]', 's = ').timeit() 0.41192320500000079 Python 2.5.1 (r251:54863, Apr 18 2007, 08:51:08) [MSC v.1310 32 bit (Intel)] on win32 Type "help", "copyright", "credits" or "license" for more information. >>> import timeit >>> timeit.Timer('s.append("something")', 's = ').timeit() 0.23079359499999999 >>> timeit.Timer('s += ["something"]', 's = ').timeit() 0.44208112500000141
In general case
append will add one item to the list, while
+= will copy all elements of right-hand-side list into the left-hand-side list.
Update: perf analysis
Comparing bytecodes we can assume that
append version wastes cycles in
CALL_FUNCTION, and += version -- in
>>> import dis >>> dis.dis(compile("s = ; s.append('spam')", '', 'exec')) 1 0 BUILD_LIST 0 3 STORE_NAME 0 (s) 6 LOAD_NAME 0 (s) 9 LOAD_ATTR 1 (append) 12 LOAD_CONST 0 ('spam') 15 CALL_FUNCTION 1 18 POP_TOP 19 LOAD_CONST 1 (None) 22 RETURN_VALUE >>> dis.dis(compile("s = ; s += ['spam']", '', 'exec')) 1 0 BUILD_LIST 0 3 STORE_NAME 0 (s) 6 LOAD_NAME 0 (s) 9 LOAD_CONST 0 ('spam') 12 BUILD_LIST 1 15 INPLACE_ADD 16 STORE_NAME 0 (s) 19 LOAD_CONST 1 (None) 22 RETURN_VALUE
We can improve performance even more by removing
>>> timeit.Timer('a("something")', 's = ; a = s.append').timeit() 0.15924410999923566
In the example you gave, there is no difference, in terms of output, between
+=. But there is a difference between
+ (which the question originally asked about).
>>> a =  >>> id(a) 11814312 >>> a.append("hello") >>> id(a) 11814312 >>> b =  >>> id(b) 11828720 >>> c = b + ["hello"] >>> id(c) 11833752 >>> b += ["hello"] >>> id(b) 11828720
As you can see,
+= have the same result; they add the item to the list, without producing a new list. Using
+ adds the two lists and produces a new list.
>>> a= >>> a.append([1,2]) >>> a [[1, 2]] >>> a= >>> a+=[1,2] >>> a [1, 2]
See that append adds a single element to the list, which may be anything.
+= joins the lists.
+= is an assignment. When you use it you're really saying ‘some_list2= some_list2+['something']’. Assignments involve rebinding, so:
l=  def a1(x): l.append(x) # works def a2(x): l= l+[x] # assign to l, makes l local # so attempt to read l for addition gives UnboundLocalError def a3(x): l+= [x] # fails for the same reason
The += operator should also normally create a new list object like list+list normally does:
>>> l1=  >>> l2= l1 >>> l1.append('x') >>> l1 is l2 True >>> l1= l1+['x'] >>> l1 is l2 False
However in reality:
>>> l2= l1 >>> l1+= ['x'] >>> l1 is l2 True
This is because Python lists implement __iadd__() to make a += augmented assignment short-circuit and call list.extend() instead. (It's a bit of a strange wart this: it usually does what you meant, but for confusing reasons.)
In general, if you're appending/extended an existing list, and you want to keep the reference to the same list (instead of making a new one), it's best to be explicit and stick with the append()/extend() methods.
some_list2 += ["something"]
for one value, there is no difference. Documentation states, that:
s[len(s):len(s)] = [x]
s[len(s):len(s)] = x
s.append(x) is same as
The difference is that concatenate will flatten the resulting list, whereas append will keep the levels intact:
So for example with:
myList = [ ] listA = [1,2,3] listB = ["a","b","c"]
Using append, you end up with a list of lists:
>> myList.append(listA) >> myList.append(listB) >> myList [[1,2,3],['a',b','c']]
Using concatenate instead, you end up with a flat list:
>> myList += listA + listB >> myList [1,2,3,"a","b","c"]
The performance tests here are not correct:
timeit.Timer('for i in xrange(100): app(i)', 's =  ; app = s.append').timeit()
good tests can be found here: http://markandclick.com/1/post/2012/01/python-list-append-vs.html
In addition to the aspects described in the other answers, append and + have very different behaviors when you're trying to build a list of lists.
>>> list1=[[1,2],[3,4]] >>> list2=[5,6] >>> list3=list1+list2 >>> list3 [[1, 2], [3, 4], 5, 6] >>> list1.append(list2) >>> list1 [[1, 2], [3, 4], [5, 6]]
list1+['5','6'] adds '5' and '6' to the list1 as individual elements. list1.append(['5','6']) adds the list ['5','6'] to the list1 as a single element.
The rebinding behaviour mentioned in other answers does matter in certain circumstances:
>>> a = (,) >>> a.append(1) >>> a (, ) >>> a +=  Traceback (most recent call last): File "<interactive input>", line 1, in <module> TypeError: 'tuple' object does not support item assignment
That's because augmented assignment always rebinds, even if the object was mutated in-place. The rebinding here happens to be
a = *mutated list*, which doesn't work for tuples.
let's take an example first
list1=[1,2,3,4] list2=list1 (that means they points to same object) if we do list1=list1+ it will create a new object of list print(list1) output [1,2,3,4,5] print(list2) output [1,2,3,4] but if we append then list1.append(5) no new object of list created print(list1) output [1,2,3,4,5] print(list2) output [1,2,3,4,5] extend(list) also do the same work as append it just append a list instead of a single variable