I have an updated version of this on my blog here: https://chrisamico.com/blog/2023-01-14/python-setup/.
This is my recommended Python setup, as of Fall 2022. The Python landscape can be a confusing mess of overlapping tools that sometimes don't work well together. This is an effort to standardize our approach and environments.
| nil | |
| "Hello World!" | |
| :hello-world! | |
| :what-is-the-difference-with-a-string? | |
| :this-is-like-an-infinite-enum |
| List<Integer> list = new ArrayList<Integer>() | |
| list.add(1) | |
| list.add(2) | |
| list.add(3) | |
| list = Collections.unmodifiableList(list) | |
| List<Integer> list2 = new ArrayList<Integer>(list) | |
| list2.add(4) | |
| List<Integer> list2 = Collections.unmodifiableList(new ArrayList<Integer>(list)) | |
| List<Integer> list = List.of(1,2,3) | |
| list.add(4) |
I was talking to a coworker recently about general techniques that almost always form the core of any effort to write very fast, down-to-the-metal hot path code on the JVM, and they pointed out that there really isn't a particularly good place to go for this information. It occurred to me that, really, I had more or less picked up all of it by word of mouth and experience, and there just aren't any good reference sources on the topic. So… here's my word of mouth.
This is by no means a comprehensive gist. It's also important to understand that the techniques that I outline in here are not 100% absolute either. Performance on the JVM is an incredibly complicated subject, and while there are rules that almost always hold true, the "almost" remains very salient. Also, for many or even most applications, there will be other techniques that I'm not mentioning which will have a greater impact. JMH, Java Flight Recorder, and a good profiler are your very best friend! Mea
FWIW: I (@rondy) am not the creator of the content shared here, which is an excerpt from Edmond Lau's book. I simply copied and pasted it from another location and saved it as a personal note, before it gained popularity on news.ycombinator.com. Unfortunately, I cannot recall the exact origin of the original source, nor was I able to find the author's name, so I am can't provide the appropriate credits.
Code is clean if it can be understood easily – by everyone on the team. Clean code can be read and enhanced by a developer other than its original author. With understandability comes readability, changeability, extensibility and maintainability.
Copyright © 2016-2018 Fantasyland Institute of Learning. All rights reserved.
A function is a mapping from one set, called a domain, to another set, called the codomain. A function associates every element in the domain with exactly one element in the codomain. In Scala, both domain and codomain are types.
val square : Int => Int = x => x * x
This describes how I setup Atom for an ideal Clojure development workflow. This fixes indentation on newlines, handles parentheses, etc. The keybinding settings for enter (in keymap.cson) are important to get proper newlines with indentation at the right level. There are other helpers in init.coffee and keymap.cson that are useful for cutting, copying, pasting, deleting, and indenting Lisp expressions.
The Atom documentation is excellent. It's highly worth reading the flight manual.
| f(events) -> state | |
| match f(state, event) -> state | |
| f(state, command) -> events |
| public class MessageIdentity | |
| { | |
| public Guid NameSpace; | |
| private readonly byte[] _namespaceBytes; | |
| public MessageIdentity(Guid guidNameSpace) | |
| { | |
| NameSpace = guidNameSpace; | |
| _namespaceBytes = guidNameSpace.ToByteArray(); | |
| SwapByteOrder(_namespaceBytes); |