- Installation:
pip install nopdb - Docs: https://nopdb.readthedocs.io/
NoPdb is a programmatic (non-interactive) debugger for Python. This means it gives you access to debugger-like superpowers directly from your code. With NoPdb, you can:
- capture function calls, including arguments, local variables, return values and stack traces
- set "breakpoints" that trigger user-defined actions when hit, namely:
- evaluate expressions to retrieve their values later
- execute arbitrary code, including modifying local variables
- enter an interactive debugger like pdb
NoPdb is also a convenient tool for inspecting machine learning model internals. For example, this notebook, this post on Towards Data Science and this notebook (SciPy 2022 virtual poster) show how to use it to visualize Transformer attention in PyTorch.
NoPdb should run at least under CPython and PyPy. Most features should work under any implementation
as long as it has sys.settrace().
Note: This project is in its early development stage. Contributions and improvement ideas are welcome.
The functions capture_call() and capture_calls() allow
capturing useful information about calls to a given function.
They are typically used as context managers, e.g.:
with nopdb.capture_calls(fn) as calls:
some_code_that_calls_fn()
print(calls) # see details about how fn() was calledThe information we can retrieve includes the function's arguments, return value, local variables and stack trace. For example:
>>> with nopdb.capture_call(f) as call:
... g(1)
>>> call
CallCapture(name='f', args=OrderedDict(x=1, y=1), return_value=4)
>>> call.print_stack()
File "<stdin>", line 2, in <module>
File "<stdin>", line 2, in g
File "<stdin>", line 1, in f
>>> call.args['x']
1
>>> call.return_value
4
>>> call.locals
{'y': 1, 'x': 1, 'z': 2}Like conventional debuggers, NoPdb can set breakpoints. However, because NoPdb is a non-interactive debugger, its breakpoints do not actually stop the execution of the program. Instead, they allow executing actions scheduled in advance, such as evaluating expressions.
To set a breakpoint, call the breakpoint() function. A breakpoint object
is returned, allowing to schedule actions using its methods such as
eval() and exec(). For example:
# Break at line 3 of the file or notebook cell where f is defined
with nopdb.breakpoint(function=f, line=3) as bp:
x = bp.eval("x") # Schedule an expression
type_y = bp.eval("type(y)") # Another one
bp.exec("print(y)") # Schedule a print statement
some_code_that_calls_f()
print(x, type_y) # Retrieve the captured valuesThere are other ways to specify the breakpoint location. For example:
# Break at any line with the given source code in the given file
with nopdb.breakpoint(file="pathlib.py", line="return obj") as bp:
...
# Break as soon as any function with the given name is called
with nopdb.breakpoint(function="myfunc") as bp:
...Not only can we capture values, we can also modify them!
>>> with nopdb.breakpoint(function=f, line=3) as bp:
... # Get the value of x, then increment it, then get the new value
... x_before = bp.eval('x')
... bp.exec('x += 1')
... x_after = bp.eval('x')
...
... some_code_that_calls_f()
>>> x_before
[2]
>>> x_after
[3]Functionalities that do not exist, but could be added in the future:
Breakpoint.callback()for calling a given callback function, passing information about the current frame as an argument.Breakpoint.jump()for jumping to a different line in the same function.
- Like Pdb, NoPdb only works with pure-Python functions. Calls to built-ins and C extensions cannot be captured. This also applies to ML frameworks that compile models into static graphs; for NoPdb to work, this feature needs to be disabled, e.g. with
tf.config.run_functions_eagerly(True)in TensorFlow and with thejax.disable_jit()context manager in JAX. - Local variable assignment in
Breakpoint.exec()is only supported under CPython and PyPy.