TL;DR: %%testcell
prevents your testing cells from affecting the
global namespace.
The Python cell magic %%testcell
executes a cell without polluting
the notebook’s global namespace. This is useful whenever you want to
test your code without having any of the local variables escape that
cell.
What’s happening under the hood is that your cell code, before being executed, is wrapped in a temporary function that will be deleted after execution. To give you the feeling of seamless integration the last statement is optionally returned like it happens in a normal cell.
WARNING: this don’t protect you from the side effects of your code like deleting a file or mutating the state of a global variable.
pip install testcell
just import it with import testcell
and then use the %%testcell
cell
magic.
%%testcell
a = "'a' is not polluting global scope"
a
"'a' is not polluting global scope"
assert 'a' not in locals()
What is happening under the hood is that %%testcell
wraps your cell’s
code with a function, execute it and then deletes it. Adding the
verbose
keywork will print which code will be executed.
NOTE: The actual cell code is enclosed within BEGIN
and END
comment
blocks for improved readability.
%%testcell verbose
a = "'a' is not polluting global scope"
a
### BEGIN
def _test_cell_():
#| echo: false
a = "'a' is not polluting global scope"
return a # %%testcell
try:
_ = _test_cell_()
finally:
del _test_cell_
_ # This will be added to global scope
### END
"'a' is not polluting global scope"
If you’re just interested in seeing what will be executed, but actually
not executing it, you ca use dryrun
option:
%%testcell dryrun
a = "'a' is not polluting global scope"
a
### BEGIN
def _test_cell_():
#| echo: false
a = "'a' is not polluting global scope"
return a # %%testcell
try:
_ = _test_cell_()
finally:
del _test_cell_
if _ is not None: display(_)
### END
If you add a semicolon ;
at the end of your last statement no return
statement is added and nothing is displayed like a normal jupyter cell.
%%testcell verbose
a = "'a' is not polluting global scope"
a;
### BEGIN
def _test_cell_():
#| echo: false
a = "'a' is not polluting global scope"
a;
try:
_ = _test_cell_()
finally:
del _test_cell_
_ # This will be added to global scope
### END
testcell
works seamlessly with existing print
or display
statements
on last line:
%%testcell verbose
a = "'a' is not polluting global scope"
print(a)
### BEGIN
def _test_cell_():
#| echo: false
a = "'a' is not polluting global scope"
return print(a) # %%testcell
try:
_ = _test_cell_()
finally:
del _test_cell_
_ # This will be added to global scope
### END
'a' is not polluting global scope
Moreover, thanks to ast
, it properly deals with complex situations
like comments on the last line and multi lines statements
%%testcell verbose
a = "'a' is not polluting global scope"
(a,
True)
# this is a comment on last line
### BEGIN
def _test_cell_():
#| echo: false
a = "'a' is not polluting global scope"
return (a,
True) # %%testcell
try:
_ = _test_cell_()
finally:
del _test_cell_
_ # This will be added to global scope
### END
("'a' is not polluting global scope", True)
%%testcelln
is a shortcut for %%testcell noglobals
and executes the
cell in complete isolation from the global scope. This is very useful
when you want to ensure that global variables or namespaces are not
accessible within the cell.
aaa = 'global variable'
%%testcell
'aaa' in globals()
True
%%testcell noglobals
'aaa' in globals()
False
%%testcelln
'aaa' in globals()
False
%%testcelln
globals().keys()
dict_keys(['__builtins__'])
With %%testcelln
inside the cell, you’ll be able to access only to
__builtins__
(aka: standard python’s functions). It behaves like a
notebook-in-notebook.
%%testcell
def my_function(x):
print(aaa) # global variable
return x
try:
my_function(123)
except Exception as e:
print(e)
global variable
%%testcelln
def my_function(x):
print(aaa) # global variable
return x
try:
my_function(123)
except Exception as e:
print(e)
name 'aaa' is not defined
As you can see from this last example, %%testcelln
helps you to
identify that my_function
refers global variable aaa
.
IMPORTANT: this is just wrapping your cell and so it’s still running on your main kernel. If you modify variables that has been created outside of this cell (aka: if you have side effects) this will not protect you.
aaa
'global variable'
%%testcell
# WARNING: this will alter the state of global variable:
globals().update({'aaa' : 'modified global variable'});
aaa
'modified global variable'
del aaa
- PROJECT PAGE: https://github.com/artste/testcell
- DOCUMENTATION: https://artste.github.io/testcell
- PYPI: https://pypi.org/project/testcell
- COLAB DEMO: testcell_demo.ipynb
- KAGGLE SAMPLE NOTEBOOK: https://www.kaggle.com/artste/introducing-testcell
- Install as a plugin to enable it by default like other cell’s magic.