Creating a function with
lambda is slightly faster than creating it with
def. The difference is due to
def creating a name entry in the locals table. The resulting function has the same execution speed.
Lambda functions are somewhat less readable for most Python users, but also much more concise in some circumstances. Consider converting from using non-functional to functional routine:
# Using non-functional version.
heading(math.sqrt(v.x * v.x + v.y * v.y), math.atan(v.y / v.x))
# Using lambda with functional version.
fheading(v, lambda v: math.sqrt(v.x * v.x + v.y * v.y), lambda v: math.atan(v.y / v.x))
# Using def with functional version.
return math.sqrt(v.x * v.x + v.y * v.y)
return math.atan(v.y / v.x)
deal_with_headings(v, size, direction)
As you can see, the
lambda version is shorter and "easier" in the sense that you only need to add
lambda v: to the original non-functional version to convert to the functional version. It's also a lot more concise. But remember, a lot of Python users will be confused by the lambda syntax, so what you lose in length and real complexity might be gained back in confusion from fellow coders.
lambda functions can only be used once, unless assigned to a variable name.
lambda functions assigned to variable names have no advantage over
lambda functions can be difficult or impossible to pickle.
def functions' names must be carefully chosen to be reasonably descriptive and unique or at least otherwise unused in scope.
Python mostly avoids functional programming conventions in favor of procedural and simpler objective semantics. The
lambda operator stands in direct contrast to this bias. Moreover, as an alternative to the already prevalent
lambda function adds diversity to your syntax. Some would consider that less consistent.
As noted by others, many uses of
lambda in the field can be replaced by members of the
operator or other modules. For instance:
do_something(x, y, lambda x, y: x + y)
do_something(x, y, operator.add)
Using the pre-existing function can make code more readable in many cases.
The Pythonic principle: “There should be one—and preferably only one—obvious way to do it”
That's similar to the single source of truth doctrine. Unfortunately, the single-obvious-way-to-do-it principle has always been more an wistful aspiration for Python, rather than a true guiding principal. Consider the very-powerful array comprehensions in Python. They are functionally equivalent to the
[e for e in some_array if some_condition(e)]
def are the same.
It's a matter of opinion, but I would say that anything in the Python language intended for general use which doesn't obviously break anything is "Pythonic" enough.