#109 CPython byte code explorer
Python Bytes - A podcast by Michael Kennedy and Brian Okken - Luni
Categories:
Sponsored by DigitalOcean: pythonbytes.fm/digitalocean
- an excellent discussion of understanding
@property
and Python’s descriptor protocol. - discussion includes getter, setter, and deleter methods you can override.
- JetBrains polled over 1,600 people involved in Data Science and based in the US, Europe, Japan, and China, in order to gain insight into how this industry sector is evolving
- Key Takeaways
- Most people assume that Python will remain the primary programming language in the field for the next 5 years.
- Python is currently the most popular language among data scientists.
- Data Science professionals tend to use Keras and Tableau, while amateur data scientists are more likely to prefer Microsoft Azure ML.
- Most common activities among pros and amateurs:
- Data processing
- Data visualization
- Main programming language for data analysis
- Python 57%
- R 15%
- Julia 0%
- IDEs and Editors
- Jupyter 43%
- PyCharm 38%
- RStudio 23%
- …
cache.py
is a one file python library that extends memoization across runs using a cache file.- memoization is an incredibly useful technique that many self taught or on the job taught developers don’t know about, because it’s not obvious.
- example:
import cache
@cache.cache()
def expensive_func(arg, kwarg=None):
# Expensive stuff here
return arg
- The
@cache.cache()
function can take multiple arguments.@cache.cache(timeout=20)
- Only caches the function for 20 seconds.@cache.cache(fname="my_cache.pkl")
- Saves cache to a custom filename (defaults to hidden file.cache.pkl
)@cache.cache(key=cache.ARGS[KWARGS,NONE])
- Check against args, kwargs or neither of them when doing a cache lookup.
- part of a larger video series
- set up. Tools to keras ultimately
- Tools
- anaconda
- tensorflow
- Jupyter
- Keras
- good for true beginners
- setup and activate a condo venv
- Start up a notebook and switch envs
- use conda, rather than pip
- “Python library that makes it easy for data scientists to create charts.”
- from the docs:
- Consistent input data format: Spend less time transforming data to get your charts to work. All plotting functions use a consistent tidy input data format.
- Smart default styles: Create pretty charts with very little customization required.
- Simple API: We've attempted to make to the API as intuitive and easy to learn as possible.
- Flexibility: Chartify is built on top of Bokeh, so if you do need more control you can always fall back on Bokeh's API.
- JupyterLab extension to inspect Python Bytecode
- via Anton Helm
- by Jeremy Tuloup
- You’ll see exactly what it’s about if you watch the GIF movie at the github repo.
- Can’t think of a better way to understand Python bytecode quickly than to play a little with this
- Comparing versions of CPython: If you have several versions of Python installed on your machine (let's say in different conda environments), you can use the extension to check how the bytecode might differ.
- Nice visualization of different performance aspects of while vs. for at the end
Brian: