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I was having a debate on this with some colleagues. Is there a preferred way to retrieve an object in Django when you're expecting only one?

The two obvious ways are:

   try: 
      obj = MyModel.objects.get(id=1)
   except MyModel.DoesNotExist:
      # we have no object!  do something
      pass

and

   objs = MyModel.objects.filter(id=1)
   if len(objs) == 1:
      obj = objs[0]
   else: 
      # we have no object!  do something
      pass

The first method seems behaviorally more correct, but uses exceptions in control flow which may introduce some overhead. The second is more roundabout but won't ever raise an exception.

Any thoughts on which of these is preferable? Which is more efficient?

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12 Answers 12

up vote 73 down vote accepted

get() is provided specifically for this case. Use it.

Option 2 is almost precisely how the get() method is actually implemented in Django, so there should be no "performance" difference (and the fact that you're thinking about it indicates you're violating one of the cardinal rules of programming, namely trying to optimize code before it's even been written and profiled -- until you have the code and can run it, you don't know how it will perform, and trying to optimize before then is a path of pain).

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You can install a module called django-annoying and then do this:

from annoying.functions import get_object_or_None

obj = get_object_or_None(MyModel, id=1)

if not obj:
    #omg the object was not found do some error stuff
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why is it annoying to have such a method ? looks fine to me ! –  Thomas Sep 4 at 8:59

1 is correct. In Python an exception has equal overhead to a return. For a simplified proof you can look at this.

2 This is what Django is doing in the backend. get calls filter and raises an exception if no item is found or if more than one than one object is found.

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1  
That test is pretty unfair. A large part of the overhead in throwing an exception is the handling of the stack trace. That test had a stack length of 1 which is much lower than you would usually find in an application. –  Rob Young May 11 '11 at 16:00
    
@Rob Young: What do you mean? Where do you see stack trace handling in the typical "ask forgiveness rather than permission" scheme? The processing time depends on the distance the exception travels, not how deep it all happens (when we're not writing in java and calling e.printStackTrace()). And most often (like in dictionary lookup) - the exception is thrown just below the try. –  Tomasz Gandor Aug 31 '13 at 7:56

Why on Earth would I want to wrap every .get() in a try/except? Why would the manager's get() not adopt behavior similar to the built-in dict's get() method? It's not Pythonic, I'll argue, to make the programmer wrap such a common idiom in try/except every time. As it is, I spent 20 minutes trying to find the proper way to do a get because I couldn't believe the try/except would need to be handled manually every time by design.

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There is a reasonable solution to this problem here. –  David Jan 12 '12 at 21:09
    
So you can use get in the cases when having more or less than one object returned is truly exceptional. –  Andrew Martin May 20 '13 at 17:53
    
@AndrewMartin But having more or less than one object returned is always exceptional: the get() method will raise either MultipleObjectsReturned or DoesNotExist, depending on the situation. Even if providing a default was possible, it seems reasonable that the same exceptions would be raised (i.e., get() would only work if a single object was returned, default provided or not). –  David Jun 3 '13 at 22:38

Some more info about exceptions. If they are not raised, they cost almost nothing. Thus if you know you are probably going to have a result, use the exception, since using a conditional expression you pay the cost of checking every time, no matter what. On the other hand, they cost a bit more than a conditional expression when they are raised, so if you expect not to have a result with some frequency (say, 30% of the time, if memory serves), the conditional check turns out to be a bit cheaper.

But this is Django's ORM, and probably the round-trip to the database, or even a cached result, is likely to dominate the performance characteristics, so favor readability, in this case, since you expect exactly one result, use get().

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I can't speak with any experience of Django but option #1 clearly tells the system that you are asking for 1 object, whereas the second option does not. This means that option #1 could more easily take advantage of cache or database indexes, especially where the attribute you're filtering on is not guaranteed to be unique.

Also (again, speculating) the second option may have to create some sort of results collection or iterator object since the filter() call could normally return many rows. You'd bypass this with get().

Finally, the first option is both shorter and omits the extra temporary variable - only a minor difference but every little helps.

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Why do all that work? Replace 4 lines with 1 builtin shortcut. (This does its own try/except.)

from django.shortcuts import get_object_or_404

obj = get_object_or_404(MyModel, id=1)
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1  
This is great when it's the desired behavior, but sometimes, you might want to create the missing object, or the pull was optional information. –  IfLoop Jun 20 '09 at 1:34
    
That is what Model.objects.get_or_create() is for –  Mark0978 Jun 24 at 17:00

I've played with this problem a bit and discovered that the option 2 executes two SQL queries, which for such a simple task is excessive. See my annotation:

objs = MyModel.objects.filter(id=1) # This does not execute any SQL
if len(objs) == 1: # This executes SELECT COUNT(*) FROM XXX WHERE filter
    obj = objs[0]  # This executes SELECT x, y, z, .. FROM XXX WHERE filter
else: 
    # we have no object!  do something
    pass

An equivalent version that executes a single query is:

items = [item for item in MyModel.objects.filter(id=1)] # executes SELECT x, y, z FROM XXX WHERE filter
count = len(items) # Does not execute any query, items is a standard list.
if count == 0:
   return None
return items[0]

By switching to this approach, I was able to substantially reduce number of queries my application executes.

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Interesting question, but for me option #2 reeks of premature optimisation. I'm not sure which is more performant, but option #1 certainly looks and feels more pythonic to me.

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I suggest a different design.

If you want to perform a function on a possible result, you could derive from QuerySet, like this: http://djangosnippets.org/snippets/734/

The result is pretty awesome, you could for example:

MyModel.objects.filter(id=1).yourFunction()

Here, filter returns either an empty queryset or a queryset with a single item. Your custom queryset functions are also chainable and reusable. If you want to perform it for all your entries: MyModel.objects.all().yourFunction().

They are also ideal to be used as actions in the admin interface:

def yourAction(self, request, queryset):
    queryset.yourFunction()
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Option 1 is more elegant, but be sure to use try..except.

From my own experience I can tell you that sometimes you're sure there cannot possibly be more than one matching object in the database, and yet there will be two... (except of course when getting the object by its primary key).

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I'm a bit late to the party, but with Django 1.6 there is the first() method on querysets.

https://docs.djangoproject.com/en/1.6/ref/models/querysets/#django.db.models.query.QuerySet.first


Returns the first object matched by the queryset, or None if there is no matching object. If the QuerySet has no ordering defined, then the queryset is automatically ordered by the primary key.

Example:

p = Article.objects.order_by('title', 'pub_date').first()
Note that first() is a convenience method, the following code sample is equivalent to the above example:

try:
    p = Article.objects.order_by('title', 'pub_date')[0]
except IndexError:
    p = None
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