Do Python lambda functions help in reducing the execution times?
It is understood that Python lambda functions help in creating anonymous functions. These can be used in other functions like map(), reduce(), filter() and key() in sorting functions. It can also be used to demonstrate and utilise lexical closures.
What I would like to specifically know here is, do lambda functions have a specific advantage over regular functions in terms of their execution times, considering all the other factors to be unchanged?
As I am new to Python, I have tried to understand them by analogously comparing them with the inline functions of C++. Inline functions, as I understand from C++, are useful in saving time as they do not require the necessary "housekeeping tasks" concerned with context switching that occur during function calls and jumps.
Do Python Lambda functions provide with such similar advantages over regular functions?
Some relevant posts that I found useful but not necessarily helpful for my question:
Why are Python lambdas useful?
Why use lambda functions?
python lambda
add a comment |
It is understood that Python lambda functions help in creating anonymous functions. These can be used in other functions like map(), reduce(), filter() and key() in sorting functions. It can also be used to demonstrate and utilise lexical closures.
What I would like to specifically know here is, do lambda functions have a specific advantage over regular functions in terms of their execution times, considering all the other factors to be unchanged?
As I am new to Python, I have tried to understand them by analogously comparing them with the inline functions of C++. Inline functions, as I understand from C++, are useful in saving time as they do not require the necessary "housekeeping tasks" concerned with context switching that occur during function calls and jumps.
Do Python Lambda functions provide with such similar advantages over regular functions?
Some relevant posts that I found useful but not necessarily helpful for my question:
Why are Python lambdas useful?
Why use lambda functions?
python lambda
Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17
add a comment |
It is understood that Python lambda functions help in creating anonymous functions. These can be used in other functions like map(), reduce(), filter() and key() in sorting functions. It can also be used to demonstrate and utilise lexical closures.
What I would like to specifically know here is, do lambda functions have a specific advantage over regular functions in terms of their execution times, considering all the other factors to be unchanged?
As I am new to Python, I have tried to understand them by analogously comparing them with the inline functions of C++. Inline functions, as I understand from C++, are useful in saving time as they do not require the necessary "housekeeping tasks" concerned with context switching that occur during function calls and jumps.
Do Python Lambda functions provide with such similar advantages over regular functions?
Some relevant posts that I found useful but not necessarily helpful for my question:
Why are Python lambdas useful?
Why use lambda functions?
python lambda
It is understood that Python lambda functions help in creating anonymous functions. These can be used in other functions like map(), reduce(), filter() and key() in sorting functions. It can also be used to demonstrate and utilise lexical closures.
What I would like to specifically know here is, do lambda functions have a specific advantage over regular functions in terms of their execution times, considering all the other factors to be unchanged?
As I am new to Python, I have tried to understand them by analogously comparing them with the inline functions of C++. Inline functions, as I understand from C++, are useful in saving time as they do not require the necessary "housekeeping tasks" concerned with context switching that occur during function calls and jumps.
Do Python Lambda functions provide with such similar advantages over regular functions?
Some relevant posts that I found useful but not necessarily helpful for my question:
Why are Python lambdas useful?
Why use lambda functions?
python lambda
python lambda
edited Dec 19 at 9:32
Mel
3,77092330
3,77092330
asked Dec 1 at 7:58
bp14
13516
13516
Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17
add a comment |
Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17
Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17
add a comment |
1 Answer
1
active
oldest
votes
No. The function objects generated by lambda
behave exactly like those generated by def
. They do not execute any faster. (Also, inline
in modern C++ is no longer a directive telling the compiler to inline a function, and has very little to do with inlining.)
If you want, you can take a look at the bytecode disassembly for a lambda
and an equivalent def
:
import dis
dis.dis(lambda x: x + 2)
print()
def f(x): return x + 2
dis.dis(f)
Output:
3 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
6 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
No difference. You can also time them:
import timeit
def f(x): return x + 2
g = lambda x: x + 2
print(timeit.timeit('f(3)', globals=globals()))
print(timeit.timeit('g(3)', globals=globals()))
Output:
0.06977041810750961
0.07760106027126312
The lambda actually took longer in this run. (There seems to be some confusion in the comments about whether we're timing enough work to be meaningful. timeit
wraps the timed statement in a million-iteration loop by default, so yes, we are.)
Before you ask, no, lambda
has no performance disadvantage over def
either. The winner of the above race is basically up to luck. lambda
and def
do have a significant disadvantage over avoiding the use of a callback function entirely, though. For example, map
-with-lambda
has a significant performance penalty relative to list comprehensions:
import timeit
print(timeit.timeit('list(map(lambda x: x*x, range(10)))'))
print(timeit.timeit('[x*x for x in range(10)]'))
Output:
1.5655903220176697
0.7803761437535286
Whether lambda
or def
, Python functions are expensive to call.
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.
– Jean-François Fabre
Dec 1 at 14:14
2
@Jean-FrançoisFabre: agreed, and specifically I'd say thatlist+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.
– Steve Jessop
Dec 1 at 14:15
|
show 4 more comments
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No. The function objects generated by lambda
behave exactly like those generated by def
. They do not execute any faster. (Also, inline
in modern C++ is no longer a directive telling the compiler to inline a function, and has very little to do with inlining.)
If you want, you can take a look at the bytecode disassembly for a lambda
and an equivalent def
:
import dis
dis.dis(lambda x: x + 2)
print()
def f(x): return x + 2
dis.dis(f)
Output:
3 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
6 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
No difference. You can also time them:
import timeit
def f(x): return x + 2
g = lambda x: x + 2
print(timeit.timeit('f(3)', globals=globals()))
print(timeit.timeit('g(3)', globals=globals()))
Output:
0.06977041810750961
0.07760106027126312
The lambda actually took longer in this run. (There seems to be some confusion in the comments about whether we're timing enough work to be meaningful. timeit
wraps the timed statement in a million-iteration loop by default, so yes, we are.)
Before you ask, no, lambda
has no performance disadvantage over def
either. The winner of the above race is basically up to luck. lambda
and def
do have a significant disadvantage over avoiding the use of a callback function entirely, though. For example, map
-with-lambda
has a significant performance penalty relative to list comprehensions:
import timeit
print(timeit.timeit('list(map(lambda x: x*x, range(10)))'))
print(timeit.timeit('[x*x for x in range(10)]'))
Output:
1.5655903220176697
0.7803761437535286
Whether lambda
or def
, Python functions are expensive to call.
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.
– Jean-François Fabre
Dec 1 at 14:14
2
@Jean-FrançoisFabre: agreed, and specifically I'd say thatlist+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.
– Steve Jessop
Dec 1 at 14:15
|
show 4 more comments
No. The function objects generated by lambda
behave exactly like those generated by def
. They do not execute any faster. (Also, inline
in modern C++ is no longer a directive telling the compiler to inline a function, and has very little to do with inlining.)
If you want, you can take a look at the bytecode disassembly for a lambda
and an equivalent def
:
import dis
dis.dis(lambda x: x + 2)
print()
def f(x): return x + 2
dis.dis(f)
Output:
3 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
6 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
No difference. You can also time them:
import timeit
def f(x): return x + 2
g = lambda x: x + 2
print(timeit.timeit('f(3)', globals=globals()))
print(timeit.timeit('g(3)', globals=globals()))
Output:
0.06977041810750961
0.07760106027126312
The lambda actually took longer in this run. (There seems to be some confusion in the comments about whether we're timing enough work to be meaningful. timeit
wraps the timed statement in a million-iteration loop by default, so yes, we are.)
Before you ask, no, lambda
has no performance disadvantage over def
either. The winner of the above race is basically up to luck. lambda
and def
do have a significant disadvantage over avoiding the use of a callback function entirely, though. For example, map
-with-lambda
has a significant performance penalty relative to list comprehensions:
import timeit
print(timeit.timeit('list(map(lambda x: x*x, range(10)))'))
print(timeit.timeit('[x*x for x in range(10)]'))
Output:
1.5655903220176697
0.7803761437535286
Whether lambda
or def
, Python functions are expensive to call.
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.
– Jean-François Fabre
Dec 1 at 14:14
2
@Jean-FrançoisFabre: agreed, and specifically I'd say thatlist+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.
– Steve Jessop
Dec 1 at 14:15
|
show 4 more comments
No. The function objects generated by lambda
behave exactly like those generated by def
. They do not execute any faster. (Also, inline
in modern C++ is no longer a directive telling the compiler to inline a function, and has very little to do with inlining.)
If you want, you can take a look at the bytecode disassembly for a lambda
and an equivalent def
:
import dis
dis.dis(lambda x: x + 2)
print()
def f(x): return x + 2
dis.dis(f)
Output:
3 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
6 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
No difference. You can also time them:
import timeit
def f(x): return x + 2
g = lambda x: x + 2
print(timeit.timeit('f(3)', globals=globals()))
print(timeit.timeit('g(3)', globals=globals()))
Output:
0.06977041810750961
0.07760106027126312
The lambda actually took longer in this run. (There seems to be some confusion in the comments about whether we're timing enough work to be meaningful. timeit
wraps the timed statement in a million-iteration loop by default, so yes, we are.)
Before you ask, no, lambda
has no performance disadvantage over def
either. The winner of the above race is basically up to luck. lambda
and def
do have a significant disadvantage over avoiding the use of a callback function entirely, though. For example, map
-with-lambda
has a significant performance penalty relative to list comprehensions:
import timeit
print(timeit.timeit('list(map(lambda x: x*x, range(10)))'))
print(timeit.timeit('[x*x for x in range(10)]'))
Output:
1.5655903220176697
0.7803761437535286
Whether lambda
or def
, Python functions are expensive to call.
No. The function objects generated by lambda
behave exactly like those generated by def
. They do not execute any faster. (Also, inline
in modern C++ is no longer a directive telling the compiler to inline a function, and has very little to do with inlining.)
If you want, you can take a look at the bytecode disassembly for a lambda
and an equivalent def
:
import dis
dis.dis(lambda x: x + 2)
print()
def f(x): return x + 2
dis.dis(f)
Output:
3 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
6 0 LOAD_FAST 0 (x)
3 LOAD_CONST 1 (2)
6 BINARY_ADD
7 RETURN_VALUE
No difference. You can also time them:
import timeit
def f(x): return x + 2
g = lambda x: x + 2
print(timeit.timeit('f(3)', globals=globals()))
print(timeit.timeit('g(3)', globals=globals()))
Output:
0.06977041810750961
0.07760106027126312
The lambda actually took longer in this run. (There seems to be some confusion in the comments about whether we're timing enough work to be meaningful. timeit
wraps the timed statement in a million-iteration loop by default, so yes, we are.)
Before you ask, no, lambda
has no performance disadvantage over def
either. The winner of the above race is basically up to luck. lambda
and def
do have a significant disadvantage over avoiding the use of a callback function entirely, though. For example, map
-with-lambda
has a significant performance penalty relative to list comprehensions:
import timeit
print(timeit.timeit('list(map(lambda x: x*x, range(10)))'))
print(timeit.timeit('[x*x for x in range(10)]'))
Output:
1.5655903220176697
0.7803761437535286
Whether lambda
or def
, Python functions are expensive to call.
edited Dec 1 at 19:12
answered Dec 1 at 8:01
user2357112
150k12157248
150k12157248
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.
– Jean-François Fabre
Dec 1 at 14:14
2
@Jean-FrançoisFabre: agreed, and specifically I'd say thatlist+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.
– Steve Jessop
Dec 1 at 14:15
|
show 4 more comments
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.
– Jean-François Fabre
Dec 1 at 14:14
2
@Jean-FrançoisFabre: agreed, and specifically I'd say thatlist+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.
– Steve Jessop
Dec 1 at 14:15
7
7
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
"map-with-lambda has a significant performance penalty relative to list comprehensions". We don't say that enough
– Jean-François Fabre
Dec 1 at 8:36
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
@user2357112 Thanks for your reply. The bytecode disassembly and timing outputs are revealing. My current understanding is: lambdas are not particularly advantageous over def functions. They help to make the code more readable(if not always, at least sometimes). It is also a legacy of functional programming choices - Thanks!
– bp14
Dec 1 at 10:26
1
1
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
@Jean-FrançoisFabre: maybe, although just looking at the two lines of code side-by-side I prefer the list comprehension regardless of performance. So there's normally no need to talk about it!
– Steve Jessop
Dec 1 at 14:12
ok let me say it again :)
list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.– Jean-François Fabre
Dec 1 at 14:14
ok let me say it again :)
list+map+lambda
combination is there only for so-called experts to boast over how well they understand python, where list comprehensions are there only because they're easy to understand.– Jean-François Fabre
Dec 1 at 14:14
2
2
@Jean-FrançoisFabre: agreed, and specifically I'd say that
list+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.– Steve Jessop
Dec 1 at 14:15
@Jean-FrançoisFabre: agreed, and specifically I'd say that
list+map+lambda
is there to prove that there's something else (probably one or more functional languages) that you're more expert in than you are in Python.– Steve Jessop
Dec 1 at 14:15
|
show 4 more comments
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Yes if you just want to return something from the function you should prefer lambda.
– Sharvin Shah
Dec 1 at 8:00
Currently, accepting user2357112's answer until a better explanation is put forward. Thanks everyone!
– bp14
Dec 7 at 13:17