.. image:: https://travis-ci.org/AGrigis/bredala.svg?branch=master
Project description
Easy to use pure-python caller signature and profiler. Based on Pelletier’s pprofile.
Overview
With Python’s standard profiling tools, it is not possible to tell dynamically which function is a hot-spot. On top of that the resulting execution ioutput is not filtered and the information of interest may be difficult to find. Those drawbacks made me start ‘bredala’ which provide:
A dynamic API to define which functions/methods to follow (based on the ‘New Import Hooks’ PEP0302.
A signature mechanism that display the prototype of the called function/method.
A filtered profile to access quickly to the execution time of interest.
Usage
The proposed module display function signatures and by default function line profiles. The lattest option can be disabled:
import bredala bredala.USE_PROFILER = False
At the beginning of your script import the project and select which functions/methods have to be profiled (it must be done before all imports):
import bredala
bredala.register("bredala.demo.myfunctions", names=["addition",
"substraction"])
from bredala.demo.myfunctions import addition, substraction, factorial
addition(2, 1)
substraction(2, 1)
factorial(5)
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.addition...
addition(a=2, b=1)
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
11| 1| 3.69549e-05| 3.69549e-05| 13.15%|def addition(a, b):
12| 0| 0| 0| 0.00%| """ Demonstration function.
13| 0| 0| 0| 0.00%| """
14| 1| 5.00679e-05| 5.00679e-05| 17.81%| return a + b
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.substraction...
substraction(a=2, b=1)
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
17| 1| 3.00407e-05| 3.00407e-05| 13.17%|def substraction(a, b):
18| 0| 0| 0| 0.00%| """ Demonstration function.
19| 0| 0| 0| 0.00%| """
20| 1| 3.00407e-05| 3.00407e-05| 13.17%| return a - b
____________________________________________________________________0.0s, 0.0min
It is possilbe to profile all the functions/methods of a module by removing the optional ‘names’ argument. In another script:
import bredala
bredala.USE_PROFILER = False
bredala.register("bredala.demo.myfunctions")
bredala.register("bredala.demo.myclasses")
from bredala.demo.myfunctions import addition, substraction, factorial
from bredala.demo.myclasses import Square, Triangle
addition(2, 1)
substraction(2, 1)
factorial(2)
o = Square("my_square")
o.area(2)
o = Triangle("my_square")
o.area(2, 3)
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.addition...
addition(a=2, b=1)
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.substraction...
substraction(a=2, b=1)
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.factorial...
factorial(a=2)
________________________________________________________________________________
[bredala] Calling bredala.demo.myfunctions.factorial...
factorial(a=1)
____________________________________________________________________0.0s, 0.0min
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Square.__init__...
__init__(self=<bredala.demo.myclasses.Square object at 0x7fde3ce049d0>, name='my_square')
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Square.area...
area(self=<bredala.demo.myclasses.Square object at 0x7fde3ce049d0>, length_of_side=2)
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Triangle.__init__...
__init__(self=<bredala.demo.myclasses.Triangle object at 0x7fde3ce04b50>, name='my_square')
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Triangle.area...
area(self=<bredala.demo.myclasses.Triangle object at 0x7fde3ce04b50>, base=2, vertical_height=3)
____________________________________________________________________0.0s, 0.0min
For classes we can select to follow all the methods of a class:
import bredala
bredala.register("bredala.demo.myclasses", names=["Square"])
from bredala.demo.myclasses import Square, Triangle
o = Square("my_square")
o.area(2)
o = Triangle("my_square")
o.area(2, 3)
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Square.__init__...
__init__(self=<bredala.demo.myclasses.Square object at 0x7f26fa000f90>, name='my_square')
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
14| 1| 3.40939e-05| 3.40939e-05| 17.40%| def __init__(self, name):
15| 1| 2.69413e-05| 2.69413e-05| 13.75%| self.name = name
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Square.area...
area(self=<bredala.demo.myclasses.Square object at 0x7f26fa000f90>, length_of_side=2)
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
24| 1| 2.09808e-05| 2.09808e-05| 13.19%| def area(self, length_of_side):
25| 1| 2.09808e-05| 2.09808e-05| 13.19%| return length_of_side ** 2
____________________________________________________________________0.0s, 0.0min
Or we can select to follow specific methods:
import bredala
bredala.register("bredala.demo.myclasses", names=["Square.area",
"Triangle.area"])
from bredala.demo.myclasses import Square, Triangle
o = Square("my_square")
o.area(2)
o = Triangle("my_square")
o.area(2, 3)
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Square.area...
area(self=<bredala.demo.myclasses.Square object at 0x7f52b5c10f90>, length_of_side=2)
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
24| 1| 3.38554e-05| 3.38554e-05| 17.09%| def area(self, length_of_side):
25| 1| 2.6226e-05| 2.6226e-05| 13.24%| return length_of_side ** 2
____________________________________________________________________0.0s, 0.0min
________________________________________________________________________________
[bredala] Calling bredala.demo.myclasses.Triangle.area...
area(self=<bredala.demo.myclasses.Triangle object at 0x7f52b5540790>, base=2, vertical_height=3)
Line #| Hits| Time| Time per hit| %|Source code
------+----------+-------------+-------------+-------+-----------
31| 1| 2.09808e-05| 2.09808e-05| 12.94%| def area(self, base, vertical_height):
32| 1| 2.09808e-05| 2.09808e-05| 12.94%| return 0.5 * base * vertical_height
____________________________________________________________________0.0s, 0.0min
Perspectives
It will be nice to configure which functions/modules are followed on the fly.
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