503 lines
11 KiB
Markdown
503 lines
11 KiB
Markdown
# Dust Language Reference
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!!! This is a **work in progress** and has incomplete information. !!!
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This is an in-depth description of the syntax and abstractions used by the Dust language. It is not
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necessary to read or understand all of it before you start using Dust. Instead, refer to it when
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you need help with the syntax or understanding how the code is run.
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Each section of this document corresponds to a node in the concrete syntax tree. Creating this tree
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is the first step in interpreting Dust code. Second, the syntax tree is traversed and an abstract
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tree is generated. Each node in the syntax tree corresponds to a node in the abstract tree. Third,
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the abstract tree is verified to ensure that it will not generate any values that violate the type
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restrictions. Finally, the abstract tree is run, beginning at the [root](#root).
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You may reference the [grammar file](tree-sitter-dust/grammar.js) and the [Tree Sitter docs]
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(https://tree-sitter.github.io/) while reading this guide to understand how the language is parsed.
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<!--toc:start-->
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- [Dust Language Reference](#dust-language-reference)
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- [Root](#root)
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- [Values](#values)
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- [Boolean](#boolean)
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- [Integer](#integer)
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- [Float](#float)
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- [Range](#range)
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- [String](#string)
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- [List](#list)
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- [Map](#map)
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- [Function](#function)
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- [Option](#option)
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- [Structure](#structure)
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- [Types](#types)
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- [Basic Types](#basic-types)
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- [Number](#number)
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- [Any](#any)
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- [None](#none)
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- [List Type](#list-type)
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- [Map Type](#map-type)
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- [Iter](#iter)
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- [Function Type](#function-type)
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- [Option Type](#option-type)
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- [Custom Types](#custom-types)
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- [Statements](#statements)
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- [Assignment](#assignment)
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- [Blocks](#blocks)
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- [Synchronous Blocks](#synchronous-blocks)
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- [Asynchronous Blocks](#asynchronous-blocks)
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- [Break](#break)
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- [For Loop](#for-loop)
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- [While Loop](#while-loop)
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- [If/Else](#ifelse)
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- [Match](#match)
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- [Pipe](#pipe)
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- [Expression](#expression)
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- [Expressions](#expressions)
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- [Identifier](#identifier)
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- [Index](#index)
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- [Logic](#logic)
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- [Math](#math)
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- [Value](#value)
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- [New](#new)
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- [Command](#command)
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- [Built-In Values](#built-in-values)
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- [Comments](#comments)
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<!--toc:end-->
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## Root
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The root node represents all of the source code. It is a sequence of [statements](#statements) that
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are executed synchronously, in order. The output of the program is always the result of the final
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statement or the first error encountered.
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## Values
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There are ten kinds of value in Dust. Some are very simple and are parsed directly from the source
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code, some are collections and others are used in special ways, like functions and structures. All
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values can be assinged to an [identifier](#identifiers).
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Dust does not have a null type. Absent values are represented with the `none` value, which is a
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kind of [option](#option). You may not create a variable without a value and no variable can ever
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be in an 'undefined' state during execution.
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### Boolean
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Booleans are true or false. They are represented by the literal tokens `true` and `false`.
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### Integer
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Integers are whole numbers that may be positive, negative or zero. Internally, an integer is a
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signed 64-bit value.
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```dust
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42
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```
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Integers always **overflow** when their maximum or minimum value is reached. Overflowing means that
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if the value is too high or low for the 64-bit integer, it will wrap around. You can use the built-
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in values `int:max` and `int:min` to get the highest and lowest possible values.
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```dust
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assert_equal(int:max + 1, int:min)
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assert_equal(int:min - 1, int:max)
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```
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### Float
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A float is a numeric value with a decimal. Floats are 64-bit and, like integers, will **overflow**
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at their bounds.
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```dust
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42.0
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```
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### Range
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A range represents a contiguous sequence of integers. Dust ranges are **inclusive** so both the high
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and low bounds will be represented.
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```dust
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0..100
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```
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### String
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A string is a **utf-8** sequence used to represent text. Strings can be wrapped in single or double quotes as well as backticks.
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```dust
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'42'
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"42"
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`42`
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'forty-two'
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```
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### List
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A list is **collection** of values stored as a sequence and accessible by [indexing](#index) their position with an integer. Lists indexes begin at zero for the first item.
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```dust
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[ 42 'forty-two' ]
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[ 123, 'one', 'two', 'three' ]
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```
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Note that the commas are optional, including trailing commas.
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```dust
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[1 2 3 4 5]:2
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# Output: 3
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```
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### Map
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Maps are flexible collections with arbitrary **key-value pairs**, similar to JSON objects. A map is
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created with a pair of curly braces and its entries are variables declared inside those braces. Map
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contents can be accessed using a colon `:`. Commas may optionally be included after the key-value
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pairs.
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```dust
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reminder = {
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message = "Buy milk"
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tags = ["groceries", "home"]
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}
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reminder:message
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# Output: Buy milk
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```
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Internally a map is represented by a B-tree. The implicit advantage of using a B-tree instead of a
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hash map is that a B-tree is sorted and therefore can be easily compared to another. Maps are also
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used by the interpreter as the data structure for holding variables. You can even inspect the active
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**execution context** by calling the built-in `context()` function.
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The map stores each [identifier](#identifiers)'s key with a value and the value's type. For internal
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use by the interpreter, a type can be set to a key without a value. This makes it possible to check
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the types of values before they are computed.
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### Function
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A function encapsulates a section of the abstract tree so that it can be run seperately and with
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different arguments. The function body is a [block](#block), so adding `async` will cause the body
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to run like any other `async` block. Unlike some languages, there are no concepts like futures or
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async functions in Dust.
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Functions are **first-class values** in Dust, so they can be assigned to variables like any other
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value.
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```dust
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# This simple function has no arguments and no return value.
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say_hi = () <none> {
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output("hi") # The "output" function is a built-in that prints to stdout.
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}
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# This function has one argument and will return a value.
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add_one = (number <num>) <num> {
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number + 1
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}
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say_hi()
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assert_equal(add_one(3), 4)
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```
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Functions can also be **anonymous**. This is useful for using **callbacks** (i.e. functions that are
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called by another function).
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```dust
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# Use a callback to retain only the numeric characters in a string.
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str:retain(
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'a1b2c3'
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(char <str>) <bool> {
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is_some(int:parse(char))
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}
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)
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```
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### Option
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An option represents a value that may not be present. It has two variants: **some** and **none**.
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```dust
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say_something = (message <option(str)>) <str> {
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either_or(message, "hiya")
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}
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say_something(some("goodbye"))
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# goodbye
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say_something(none)
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# hiya
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```
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Dust includes built-in functions to work with option values: `is_none`, `is_some` and `either_or`.
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### Structure
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A structure is a **concrete type value**. It is a value, like any other, and can be [assigned]
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(#assignment) to an [identifier](#identifier). It can then be instantiated as a [map](#map) that
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will only allow the variables present in the structure. Default values may be provided for each
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variable in the structure, which will be propagated to the map it creates. Values without defaults
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must be given a value during instantiation.
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```dust
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struct User {
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name <str>
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email <str>
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id <int> = generate_id()
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}
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bob = new User {
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name = "Bob"
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email = "bob@example.com"
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}
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# The variable "bob" is a structured map.
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```
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A map created by using [new](#new) is called a **structured map**. In other languages it may be
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called a "homomorphic mapped type". Dust will generate errors if you try to set any values on the
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structured map that are not allowed by the structure.
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## Types
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Dust enforces strict type checking. To make the language easier to write, **type inference** is used
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to allow variables to be declared without specifying the type. Instead, the interpreter will figure
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it out and set the strictest type possible.
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To make the type-setting syntax easier to distinguish from the rest of your code, a **type
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specification** is wrapped in pointed brackets. So variable assignment using types looks like this:
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```dust
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my_float <float> = 666.0
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```
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### Basic Types
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The simple types, and their notation are:
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- boolean `bool`
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- integer `int`
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- float `float`
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- string `str`
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### Number
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The `num` type may represent a value of type `int` or `float`.
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### Any
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The `any` type does not enforce type bounds.
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### None
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The `none` type indicates that no value should be found after executing the statement or block, with
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one expection: the `none` variant of the `option` type.
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### List Type
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A list's contents can be specified to create type-safe lists. The `list(str)` type would only allow
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string values. Writing `list` without the parentheses and content type is equivalent to writing
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`list(any)`.
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### Map Type
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The `map` type is unstructured and can hold any key-value pair.
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### Iter
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The `iter` type refers to types that can be used with a [for loop](#for-loop). These include `list`,
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`range`, `string` and `map`.
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### Function Type
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A function's type specification is more complex than other types. A function value must always have
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its arguments and return type specified when the **function value** is created.
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```dust
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my_function = (number <int>, text <str>) <none> {
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output(number)
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output(text)
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}
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```
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But what if we need to specify a **function type** without creating the function value? This is
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necessary when using callbacks or defining structures that have functions set at instantiation.
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```dust
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use_adder = (adder <(int) -> int>, number <int>) -> <int> {
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adder(number)
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}
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use_adder(
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(i <int>) <int> { i + 2 }
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40
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)
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# Output: 42
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```
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```dust
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struct Message {
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send_n_times <(str, int) -> none>
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}
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stdout_message = new Message {
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send_n_times = (content <str>, n <int>) <none> {
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for _ in 0..n {
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output(content)
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}
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}
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}
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```
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### Option Type
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The `option(type)` type is expected to be either `some(value)` or `none`. The type of the value
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inside the `some` is always specified.
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```dust
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get_line_break_index(text <str>) <some(int)> {
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str:find(text, '\n')
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}
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```
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### Custom Types
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Custom types such as **structures** are referenced by their variable identifier.
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```dust
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struct File {
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path <str>
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size <int>
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type <str>
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}
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print_file_info(file <File>) <none> {
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info = file:path
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+ '\n'
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+ file:size
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+ '\n'
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+ file:type
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output(info)
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}
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```
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## Statements
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TODO
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### Assignment
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TODO
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### Blocks
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TODO
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#### Synchronous Blocks
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TODO
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#### Asynchronous Blocks
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```dust
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# An async block will run each statement in its own thread.
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async {
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output(random_integer())
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output(random_float())
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output(random_boolean())
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}
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```
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```dust
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data = async {
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output("Reading a file...")
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read("examples/assets/faithful.csv")
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}
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```
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### Break
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TODO
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### For Loop
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TODO
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```dust
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list = [ 1, 2, 3 ]
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for number in list {
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output(number + 1)
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}
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```
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### While Loop
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TODO
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A **while** loop continues until a predicate is false.
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```dust
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i = 0
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while i < 10 {
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output(i)
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i += 1
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}
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```
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### If/Else
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TODO
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### Match
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TODO
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### Pipe
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TODO
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### Expression
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TODO
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## Expressions
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TODO
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#### Identifier
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TODO
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#### Index
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TODO
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#### Logic
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TODO
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#### Math
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TODO
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#### Value
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TODO
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#### New
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TODO
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#### Command
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TODO
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## Built-In Values
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TODO
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## Comments
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TODO
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