forked from cadey/xesite
675 lines
16 KiB
Markdown
675 lines
16 KiB
Markdown
---
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title: "TL;DR Rust"
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date: 2020-09-19
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tags:
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- rust
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- go
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- golang
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---
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# TL;DR Rust
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Recently I've been starting to use Rust more and more for larger and larger
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projects. As things have come up, I realized that I am missing a good reference
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for common things in Rust as compared to Go. This post contains a quick
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high-level overview of patterns in Rust and how they compare to patterns
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in Go. This will focus on code samples. This is no replacement for the [Rust
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book](https://doc.rust-lang.org/book/), but should help you get spun up on the
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various patterns used in Rust code.
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Also I'm happy to introduce Mara to the blog!
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[Hey, happy to be here! I'm Mara, I'll interject with side information,
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challenge assertions and more! Thanks for inviting
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me!](conversation://Mara/hacker)
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Let's start somewhere simple: functions.
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## Making Functions
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Functions are defined using `fn` instead of `func`:
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```go
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// go
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func foo() {}
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```
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```rust
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// rust
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fn foo() {}
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```
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### Arguments
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Arguments can be passed by separating the name from the type with a colon:
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```go
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// go
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func foo(bar int) {}
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```
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```rust
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// rust
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fn foo(bar: i32) {}
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```
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### Returns
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Values can be returned by adding `-> Type` to the function declaration:
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```go
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// go
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func foo() int {
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return 2
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}
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```
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```rust
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// rust
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fn foo() -> i32 {
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return 2;
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}
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```
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In Rust values can also be returned on the last statement without the `return`
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keyword or a terminating semicolon:
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```rust
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// rust
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fn foo() -> i32 {
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2
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}
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```
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[Hmm, what if I try to do something like this. Will this
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work?](conversation://Mara/hmm)
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```rust
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// rust
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fn foo() -> i32 {
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if some_cond {
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2
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}
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4
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}
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```
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Let's find out! The compiler spits back an error:
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```
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error[E0308]: mismatched types
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--> src/lib.rs:3:9
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2 | / if some_cond {
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3 | | 2
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| | ^ expected `()`, found integer
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4 | | }
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| | -- help: consider using a semicolon here
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| |_____|
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| expected this to be `()`
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```
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This happens because most basic statements in Rust can return values. The best
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way to fix this would be to move the `4` return into an `else` block:
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```rust
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// rust
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fn foo() -> i32 {
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if some_cond {
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2
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} else {
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4
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}
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}
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```
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Otherwise, the compiler will think you are trying to use that `if` as a
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statement, such as like this:
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```rust
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// rust
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let val = if some_cond { 2 } else { 4 };
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```
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### Functions that can fail
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The [Result](https://doc.rust-lang.org/std/result/) type represents things that
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can fail with specific errors. The [eyre Result
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type](https://docs.rs/eyre) represents things that can fail
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with any error. For readability, this post will use the eyre Result type.
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[The angle brackets in the `Result` type are arguments to the type, this allows
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the Result type to work across any type you could imagine.](conversation://Mara/hacker)
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```go
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// go
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import "errors"
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func divide(x, y int) (int, err) {
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if y == 0 {
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return 0, errors.New("cannot divide by zero")
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}
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return x / y, nil
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}
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```
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```rust
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// rust
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use eyre::{eyre, Result};
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fn divide(x: i32, y: i32) -> Result<i32> {
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match y {
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0 => Err(eyre!("cannot divide by zero")),
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_ => Ok(x / y),
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}
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}
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```
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[Huh? I thought Rust had the <a
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href="https://doc.rust-lang.org/std/error/trait.Error.html">Error trait</a>,
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shouldn't you be able to use that instead of a third party package like
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eyre?](conversation://Mara/wat)
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Let's try that, however we will need to make our own error type because the
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[`eyre!`](https://docs.rs/eyre/0.6.0/eyre/macro.eyre.html) macro creates its own
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transient error type on the fly.
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First we need to make our own simple error type for a DivideByZero error:
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```rust
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// rust
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use std::error::Error;
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use std::fmt;
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#[derive(Debug)]
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struct DivideByZero;
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impl fmt::Display for DivideByZero {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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write!(f, "cannot divide by zero")
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}
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}
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impl Error for DivideByZero {}
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```
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So now let's use it:
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```rust
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// rust
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fn divide(x: i32, y: i32) -> Result<i32, DivideByZero> {
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match y {
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0 => Err(DivideByZero{}),
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_ => Ok(x / y),
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}
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}
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```
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However there is still one thing left: the function returns a DivideByZero
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error, not _any_ error like the [error interface in
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Go](https://godoc.org/builtin#error). In order to represent that we need to
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return something that implements the Error trait:
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```rust
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// rust
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fn divide(x: i32, y: i32) -> Result<i32, impl Error> {
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// ...
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}
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```
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And for the simple case, this will work. However as things get more complicated
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this simple facade will not work due to reality and its complexities. This is
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why I am shipping as much as I can out to other packages like eyre or
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[anyhow](https://docs.rs/anyhow). Check out this code in the [Rust
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Playground](https://play.rust-lang.org/?version=stable&mode=debug&edition=2018&gist=946057d8eb02f388cb3f03bae226d10d)
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to mess with this code interactively.
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[Pro tip: eyre (via <a href="https://docs.rs/color-eyre">color-eyre</a>) also
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has support for adding <a href="https://docs.rs/color-eyre/0.5.4/color_eyre/#custom-sections-for-error-reports-via-help-trait">custom
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sections and context</a> to errors similar to Go's <a href="https://godoc.org/fmt#Errorf">`fmt.Errorf` `%w`
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format argument</a>, which will help in real world
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applications. When you do need to actually make your own errors, you may want to look into
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crates like <a href="https://docs.rs/thiserror">thiserror</a> to help with
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automatically generating your error implementation.](conversation://Mara/hacker)
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### The `?` Operator
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In Rust, the `?` operator checks for an error in a function call and if there is
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one, it automatically returns the error and gives you the result of the function
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if there was no error. This only works in functions that return either an Option
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or a Result.
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[The <a href="https://doc.rust-lang.org/std/option/index.html">Option</a> type
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isn't shown in very much detail here, but it acts like a "this thing might not exist and it's your
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responsibility to check" container for any value. The closest analogue in Go is
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making a pointer to a value or possibly putting a value in an `interface{}`
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(which can be annoying to deal with in practice).](conversation://Mara/hacker)
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```go
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// go
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func doThing() (int, error) {
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result, err := divide(3, 4)
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if err != nil {
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return 0, err
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}
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return result, nil
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}
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```
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```rust
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// rust
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use eyre::Result;
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fn do_thing() -> Result<i32> {
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let result = divide(3, 4)?;
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Ok(result)
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}
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```
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If the second argument of divide is changed to `0`, then `do_thing` will return
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an error.
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[And how does that work with eyre?](conversation://Mara/hmm)
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It works with eyre because eyre has its own error wrapper type called
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[`Report`](https://docs.rs/eyre/0.6.0/eyre/struct.Report.html), which can
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represent anything that implements the Error trait.
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## Macros
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Rust macros are function calls with `!` after their name:
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```rust
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// rust
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println!("hello, world");
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```
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## Variables
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Variables are created using `let`:
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```go
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// go
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var foo int
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var foo = 3
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foo := 3
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```
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```rust
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// rust
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let foo: i32;
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let foo = 3;
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```
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### Mutability
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In Rust, every variable is immutable (unchangeable) by default. If we try to
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change those variables above we get a compiler error:
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```rust
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// rust
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fn main() {
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let foo: i32;
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let foo = 3;
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foo = 4;
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}
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```
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This makes the compiler return this error:
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```
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error[E0384]: cannot assign twice to immutable variable `foo`
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--> src/main.rs:4:5
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3 | let foo = 3;
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| ---
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| first assignment to `foo`
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| help: make this binding mutable: `mut foo`
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4 | foo = 4;
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| ^^^^^^^ cannot assign twice to immutable variable
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```
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As the compiler suggests, you can create a mutable variable by adding the `mut`
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keyword after the `let` keyword. There is no analog to this in Go.
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```rust
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// rust
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let mut foo: i32 = 0;
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foo = 4;
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```
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[This is slightly a lie. There's more advanced cases involving interior
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mutability and other fun stuff like that, however this is a more advanced topic
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that isn't covered here.](conversation://Mara/hacker)
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### Lifetimes
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Rust does garbage collection at compile time. It also passes ownership of memory
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to functions as soon as possible. For example:
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```rust
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// rust
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let quo = divide(4, 8)?;
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let other_quo = divide(quo, 5)?;
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// Fails compile because ownership of quo was given to divide to create other_quo
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let yet_another_quo = divide(quo, 4)?;
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```
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To work around this you can pass a reference to the divide function:
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```rust
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// rust
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let other_quo = divide(&quo, 5);
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let yet_another_quo = divide(&quo, 4)?;
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```
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Or even create a clone of it:
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```rust
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// rust
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let other_quo = divide(quo.clone(), 5);
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let yet_another_quo = divide(quo, 4)?;
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```
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[You can also get more fancy with <a
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href="https://doc.rust-lang.org/rust-by-example/scope/lifetime/explicit.html">explicit
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lifetime annotations</a>, however as of Rust's 2018 edition they aren't usually
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required unless you are doing something weird. This is something that is also
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covered in more detail in <a
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href="https://doc.rust-lang.org/stable/book/ch04-00-understanding-ownership.html">The
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Rust Book</a>.](conversation://Mara/hacker)
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### Passing Mutability
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Sometimes functions need mutable variables. To pass a mutable reference, add
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`&mut` before the name of the variable:
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```rust
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let something = do_something_to_quo(&mut quo)?;
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```
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## Project Setup
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### Imports
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External dependencies are declared using the [Cargo.toml
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file](https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html):
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```toml
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# Cargo.toml
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[dependencies]
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eyre = "0.6"
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```
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This depends on the crate [anyhow](https://crates.io/anyhow) at version 1.0.x.
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Dependencies can also have optional features:
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```toml
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# Cargo.toml
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[dependencies]
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reqwest = { version = "0.10", features = ["json"] }
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```
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This depends on the crate [reqwest](https://crates.io/reqwest) at version 0.10.x
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with the `json` feature enabled (in this case it enables reqwest being able to
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automagically convert things to/from json using Serde).
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External dependencies can be used with the `use` statement:
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```go
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// go
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import "github.com/foo/bar"
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```
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```rust
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// rust
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use foo; // -> foo now has the members of crate foo behind the :: operator
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use foo::Bar; // -> Bar is now exposed as a type in this file
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use eyre::{eyre, Result}; // exposes the eyre! and Result members of eyre
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```
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[This doesn't cover how the <a
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href="http://www.sheshbabu.com/posts/rust-module-system/">module system</a>
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works, however the post I linked there covers this better than I
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can.](conversation://Mara/hacker)
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## Async/Await
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Async functions may be interrupted to let other things execute as needed. This
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program uses [tokio](https://tokio.rs/) to handle async tasks. To run an async
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task and wait for its result, do this:
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```
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// rust
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let printer_fact = reqwest::get("https://printerfacts.cetacean.club/fact")
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.await?
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.text()
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.await?;
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println!("your printer fact is: {}", printer_fact);
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```
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This will populate `response` with an amusing fact about everyone's favorite
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household pet, the [printer](https://printerfacts.cetacean.club).
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To make an async function, add the `async` keyword before the `fn` keyword:
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```rust
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// rust
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async fn get_text(url: String) -> Result<String> {
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reqwest::get(&url)
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.await?
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.text()
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.await?
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}
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```
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This can then be called like this:
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```rust
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// rust
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let printer_fact = get_text("https://printerfacts.cetacean.club/fact").await?;
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```
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## Public/Private Types and Functions
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Rust has three privacy levels for functions:
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- Only visible to the current file (no keyword, lowercase in Go)
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- Visible to anything in the current crate (`pub(crate)`, internal packages in
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go)
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- Visible to everyone (`pub`, upper case in Go)
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[You can't get a perfect analog to `pub(crate)` in Go, but <a
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href="https://docs.google.com/document/d/1e8kOo3r51b2BWtTs_1uADIA5djfXhPT36s6eHVRIvaU/edit">internal
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packages can get close to this behavior.](conversation://Mara/hacker)
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## Structures
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Rust structures are created using the `struct` keyword:
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```go
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// go
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type Client struct {
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Token string
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}
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```
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```rust
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// rust
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pub struct Client {
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pub token: String,
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}
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```
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If the `pub` keyword is not specified before a member name, it will not be
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usable outside the Rust source code file it is defined in:
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```go
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type Client struct {
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token string
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}
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```
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```rust
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pub(crate) struct Client {
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token: String,
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}
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```
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### Encoding structs to JSON
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[serde](https://serde.rs) is used to convert structures to json. The Rust
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compiler's
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[derive](https://doc.rust-lang.org/stable/rust-by-example/trait/derive.html)
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feature is used to automatically implement the conversion logic.
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```go
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type Response struct {
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Name string `json:"name"`
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Description *string `json:"description,omitempty"`
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}
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```
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```rust
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use serde::{Serialize, Deserialize};
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#[derive(Serialize, Deserialize, Debug)]
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pub(crate) struct Response {
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pub name: String,
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pub description: Option<String>,
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}
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```
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## Strings
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Rust has a few string types that do different things. You can read more about
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this [here](https://fasterthanli.me/blog/2020/working-with-strings-in-rust/),
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but at a high level most projects only uses a few of them:
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- `&str`, a slice reference to a String owned by someone else
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- String, an owned UTF-8 string
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- PathBuf, a filepath string (encoded in whatever encoding the OS running this
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code uses for filesystems)
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The strings are different types for safety reasons. See the linked blogpost for
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more detail about this.
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## Enumerations / Tagged Unions
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|
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Enumerations, also known as tagged unions, are a way to specify a superposition
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of one of a few different kinds of values in one type. The main place they are
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used in this project is for command line parsing with
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[structopt](https://docs.rs/structopt/0.3.14/structopt/). There is no easy
|
|
analog for this in Go.
|
|
|
|
```rust
|
|
#[derive(StructOpt, Debug)]
|
|
#[structopt(about = "A simple release management tool")]
|
|
pub(crate) enum Cmd {
|
|
/// Creates a new release for a git repo
|
|
Cut {
|
|
#[structopt(flatten)]
|
|
common: Common,
|
|
/// Changelog location
|
|
#[structopt(long, short, default_value="./CHANGELOG.md")]
|
|
changelog: PathBuf,
|
|
},
|
|
|
|
/// Runs releases as triggered by GitHub Actions
|
|
GitHubAction {
|
|
#[structopt(flatten)]
|
|
gha: GitHubAction,
|
|
},
|
|
}
|
|
```
|
|
|
|
Enum variants can be matched using the `match` keyword:
|
|
|
|
```rust
|
|
match cmd {
|
|
Cmd::Cut { common, changelog } => {
|
|
cmd::cut::run(common, changelog).await
|
|
}
|
|
Cmd::GitHubAction { gha } => {
|
|
cmd::github_action::run(gha).await
|
|
}
|
|
}
|
|
```
|
|
|
|
All variants of an enum must be matched in order for the code to compile.
|
|
|
|
## Testing
|
|
|
|
Test functions need to be marked with the `#[test]` annotation, then they will
|
|
be run alongside `cargo test`:
|
|
|
|
```rust
|
|
mod tests { // not required but it is good practice
|
|
#[test]
|
|
fn math_works() {
|
|
assert_eq!(2 + 2, 4);
|
|
}
|
|
|
|
#[tokio::test] // needs tokio as a dependency
|
|
async fn http_works() {
|
|
let _ = get_html("https://within.website").await.unwrap();
|
|
}
|
|
}
|
|
```
|
|
|
|
Avoid the use of `unwrap()` outside of tests. In the wrong cases, using
|
|
`unwrap()` in production code can cause the server to crash and can incur data
|
|
loss.
|
|
|
|
[Alternatively, you can also use the <a href="https://learning-rust.github.io/docs/e4.unwrap_and_expect.html#expect">`.expect()`</a> method instead
|
|
of `.unwrap()`. This lets you attach a message that will be shown when the
|
|
result isn't Ok.](conversation://Mara/hacker)
|
|
|
|
---
|
|
|
|
This is by no means comprehensive, see the rust book or [Learn X in Y Minutes
|
|
Where X = Rust](https://learnxinyminutes.com/docs/rust/) for more information.
|
|
This code is written to be as boring and obvious as possible. If things don't
|
|
make sense, please reach out and don't be afraid to ask questions.
|