bccde31e77
Want to get a few more signups than we allocated, in case somebody drops out. Change-Id: I832c4fdfa900f117092f5f7e8a5d8b7d256a94e5 Reviewed-on: https://cl.tvl.fyi/c/depot/+/11450 Reviewed-by: tazjin <tazjin@tvl.su> Autosubmit: tazjin <tazjin@tvl.su> Tested-by: BuildkiteCI
648 lines
20 KiB
Markdown
648 lines
20 KiB
Markdown
> [!TIP]
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> Are you interested in hacking on Nix projects for a week, together
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> with other Nix users? Do you have time at the end of August? Great,
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> come join us at [Volga Sprint](https://volgasprint.org/)!
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Nix - A One Pager
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=================
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[Nix](https://nixos.org/nix/), the package manager, is built on and with Nix,
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the language. This page serves as a fast intro to most of the (small) language.
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Unless otherwise specified, the word "Nix" refers only to the language below.
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Please file an issue if something in here confuses you or you think something
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important is missing.
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If you have Nix installed, you can try the examples below by running `nix repl`
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and entering code snippets there.
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<!-- markdown-toc start - Don't edit this section. Run M-x markdown-toc-refresh-toc -->
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**Table of Contents**
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- [Overview](#overview)
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- [Language constructs](#language-constructs)
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- [Primitives / literals](#primitives--literals)
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- [Operators](#operators)
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- [`//` (merge) operator](#-merge-operator)
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- [Variable bindings](#variable-bindings)
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- [Functions](#functions)
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- [Multiple arguments (currying)](#multiple-arguments-currying)
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- [Multiple arguments (attribute sets)](#multiple-arguments-attribute-sets)
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- [`if ... then ... else ...`](#if--then--else-)
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- [`inherit` keyword](#inherit-keyword)
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- [`with` statements](#with-statements)
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- [`import` / `NIX_PATH` / `<entry>`](#import--nix_path--entry)
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- [`or` expressions](#or-expressions)
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- [Standard libraries](#standard-libraries)
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- [`builtins`](#builtins)
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- [`pkgs.lib`](#pkgslib)
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- [`pkgs` itself](#pkgs-itself)
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- [Derivations](#derivations)
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- [Nix Idioms](#nix-idioms)
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- [File lambdas](#file-lambdas)
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- [`callPackage`](#callpackage)
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- [Overrides / Overlays](#overrides--overlays)
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<!-- markdown-toc end -->
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# Overview
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Nix is:
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* **purely functional**. It has no concept of sequential steps being executed,
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any dependency between operations is established by depending on *data* from
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previous operations.
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Any valid piece of Nix code is an *expression* that returns a value.
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Evaluating a Nix expression *yields a single data structure*, it does not
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execute a sequence of operations.
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Every Nix file evaluates to a *single expression*.
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* **lazy**. It will only evaluate expressions when their result is actually
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requested.
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For example, the builtin function `throw` causes evaluation to stop.
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Entering the following expression works fine however, because we never
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actually ask for the part of the structure that causes the `throw`.
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```nix
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let attrs = { a = 15; b = builtins.throw "Oh no!"; };
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in "The value of 'a' is ${toString attrs.a}"
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```
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* **purpose-built**. Nix only exists to be the language for Nix, the package
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manager. While people have occasionally used it for other use-cases, it is
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explicitly not a general-purpose language.
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# Language constructs
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This section describes the language constructs in Nix. It is a small language
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and most of these should be self-explanatory.
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## Primitives / literals
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Nix has a handful of data types which can be represented literally in source
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code, similar to many other languages.
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```nix
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# numbers
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42
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1.72394
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# strings & paths
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"hello"
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./some-file.json
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# strings support interpolation
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"Hello ${name}"
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# multi-line strings (common prefix whitespace is dropped)
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''
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first line
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second line
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''
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# lists (note: no commas!)
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[ 1 2 3 ]
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# attribute sets (field access with dot syntax)
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{ a = 15; b = "something else"; }
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# recursive attribute sets (fields can reference each other)
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rec { a = 15; b = a * 2; }
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```
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## Operators
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Nix has several operators, most of which are unsurprising:
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| Syntax | Description |
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|---------------------------|-----------------------------------------------------------------------------|
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| `+`, `-`, `*`, `/` | Numerical operations |
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| `+` | String concatenation |
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| `++` | List concatenation |
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| `==` | Equality |
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| `>`, `>=`, `<`, `<=` | Ordering comparators |
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| `&&` | Logical `AND` |
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| <code>||</code> | Logical `OR` |
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| `e1 -> e2` | Logical implication (i.e. <code>!e1 || e2</code>) |
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| `!` | Boolean negation |
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| `set.attr` | Access attribute `attr` in attribute set `set` |
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| `set ? attribute` | Test whether attribute set contains an attribute |
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| `left // right` | Merge `left` & `right` attribute sets, with the right set taking precedence |
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### `//` (merge) operator
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The `//`-operator is used pervasively in Nix code. You should familiarise
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yourself with it, as it is likely also the least familiar one.
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It merges the left and right attribute sets given to it:
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```nix
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{ a = 1; } // { b = 2; }
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# yields { a = 1; b = 2; }
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```
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Values from the right side take precedence:
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```nix
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{ a = "left"; } // { a = "right"; }
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# yields { a = "right"; }
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```
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The merge operator does *not* recursively merge attribute sets;
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```nix
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{ a = { b = 1; }; } // { a = { c = 2; }; }
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# yields { a = { c = 2; }; }
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```
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Helper functions for recursive merging exist in the [`lib` library](#pkgslib).
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## Variable bindings
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Bindings in Nix are introduced locally via `let` expressions, which make some
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variables available within a given scope.
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For example:
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```nix
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let
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a = 15;
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b = 2;
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in a * b
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# yields 30
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```
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Variables are immutable. This means that after defining what `a` or `b` are, you
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can not *modify* their value in the scope in which they are available.
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You can nest `let`-expressions to shadow variables.
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Variables are *not* available outside of the scope of the `let` expression.
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There are no global variables.
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## Functions
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All functions in Nix are anonymous lambdas. This means that they are treated
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just like data. Giving them names is accomplished by assigning them to
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variables, or setting them as values in an attribute set (more on that below).
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```
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# simple function
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# declaration is simply the argument followed by a colon
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name: "Hello ${name}"
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```
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### Multiple arguments (currying)
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Technically any Nix function can only accept **one argument**. Sometimes
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however, a function needs multiple arguments. This is achieved in Nix via
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[currying][], which means to create a function with one argument, that returns a
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function with another argument, that returns ... and so on.
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For example:
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```nix
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name: age: "${name} is ${toString age} years old"
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```
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An additional benefit of this approach is that you can pass one parameter to a
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curried function, and receive back a function that you can re-use (similar to
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partial application):
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```nix
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let
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multiply = a: b: a * b;
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doubleIt = multiply 2; # at this point we have passed in the value for 'a' and
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# receive back another function that still expects 'b'
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in
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doubleIt 15
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# yields 30
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```
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### Multiple arguments (attribute sets)
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Another way of specifying multiple arguments to a function in Nix is to make it
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accept an attribute set, which enables multiple other features:
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```nix
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{ name, age }: "${name} is ${toString age} years old"
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```
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Using this method, we gain the ability to specify default arguments (so that
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callers can omit them):
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```nix
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{ name, age ? 42 }: "${name} is ${toString age} years old"
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```
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Or in practice:
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```nix
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let greeter = { name, age ? 42 }: "${name} is ${toString age} years old";
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in greeter { name = "Slartibartfast"; }
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# yields "Slartibartfast is 42 years old"
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# (note: Slartibartfast is actually /significantly/ older)
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```
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Additionally we can introduce an ellipsis using `...`, meaning that we can
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accept an attribute set as our input that contains more variables than are
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needed for the function.
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```nix
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let greeter = { name, age, ... }: "${name} is ${toString age} years old";
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person = {
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name = "Slartibartfast";
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age = 42;
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# the 'email' attribute is not expected by the 'greeter' function ...
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email = "slartibartfast@magrath.ea";
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};
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in greeter person # ... but the call works due to the ellipsis.
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```
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Nix also supports binding the whole set of passed in attributes to a
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parameter using the `@` syntax:
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```nix
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let func = { name, age, ... }@args: builtins.attrNames args;
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in func {
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name = "Slartibartfast";
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age = 42;
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email = "slartibartfast@magrath.ea";
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}
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# yields: [ "age" "email" "name" ]
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```
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**Warning:** Combining the `@` syntax with default arguments can lead
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to surprising behaviour, as the passed attributes are bound verbatim.
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This means that defaulted arguments are not included in the bound
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attribute set:
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```nix
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({ a ? 1, b }@args: args.a) { b = 1; }
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# throws: error: attribute 'a' missing
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({ a ? 1, b }@args: args.a) { b = 1; a = 2; }
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# => 2
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```
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## `if ... then ... else ...`
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Nix has simple conditional support. Note that `if` is an **expression** in Nix,
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which means that both branches must be specified.
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```nix
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if someCondition
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then "it was true"
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else "it was false"
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```
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## `inherit` keyword
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The `inherit` keyword is used in attribute sets or `let` bindings to "inherit"
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variables from the parent scope.
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In short, a statement like `inherit foo;` expands to `foo = foo;`.
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Consider this example:
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```nix
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let
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name = "Slartibartfast";
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# ... other variables
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in {
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name = name; # set the attribute set key 'name' to the value of the 'name' var
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# ... other attributes
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}
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```
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The `name = name;` line can be replaced with `inherit name;`:
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```nix
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let
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name = "Slartibartfast";
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# ... other variables
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in {
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inherit name;
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# ... other attributes
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}
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```
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This is often convenient, especially because inherit supports multiple variables
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at the same time as well as "inheritance" from other attribute sets:
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```nix
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{
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inherit name age; # equivalent to `name = name; age = age;`
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inherit (otherAttrs) email; # equivalent to `email = otherAttrs.email`;
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}
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```
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## `with` statements
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The `with` statement "imports" all attributes from an attribute set into
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variables of the same name:
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```nix
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let attrs = { a = 15; b = 2; };
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in with attrs; a + b # 'a' and 'b' become variables in the scope following 'with'
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```
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The scope of a `with`-"block" is the expression immediately following the
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semicolon, i.e.:
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```nix
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let attrs = { /* some attributes */ };
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in with attrs; (/* this is the scope of the `with` */)
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```
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## `import` / `NIX_PATH` / `<entry>`
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Nix files can import each other by using the builtin `import` function and a
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literal path:
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```nix
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# assuming there is a file lib.nix with some useful functions
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let myLib = import ./lib.nix;
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in myLib.usefulFunction 42
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```
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The `import` function will read and evaluate the file, and return its Nix value.
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Nix files often begin with a function header to pass parameters into the rest of
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the file, so you will often see imports of the form `import ./some-file { ... }`.
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Nix has a concept of a `NIX_PATH` (similar to the standard `PATH` environment
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variable) which contains named aliases for file paths containing Nix
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expressions.
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In a standard Nix installation, several [channels][] will be present (for
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example `nixpkgs` or `nixos-unstable`) on the `NIX_PATH`.
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`NIX_PATH` entries can be accessed using the `<entry>` syntax, which simply
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evaluates to their file path:
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```nix
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<nixpkgs>
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# might yield something like `/home/tazjin/.nix-defexpr/channels/nixpkgs`
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```
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This is commonly used to import from channels:
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```nix
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let pkgs = import <nixpkgs> {};
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in pkgs.something
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```
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## `or` expressions
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Nix has a keyword called `or` which can be used to access a value from an
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attribute set while providing a fallback to a default value.
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The syntax is simple:
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```nix
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# Access an existing attribute
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let set = { a = 42; };
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in set.a or 23
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```
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Since the attribute `a` exists, this will return `42`.
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```nix
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# ... or fall back to a default if there is no such key
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let set = { };
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in set.a or 23
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```
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Since the attribute `a` does not exist, this will fall back to returning the
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default value `23`.
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Note that `or` expressions also work for nested attribute set access.
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# Standard libraries
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Yes, libraries, plural.
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Nix has three major things that could be considered its standard library and
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while there's a lot of debate to be had about this point, you still need to know
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all three.
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## `builtins`
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Nix comes with several functions that are baked into the language. These work
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regardless of which other Nix code you may or may not have imported.
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Most of these functions are implemented in the Nix interpreter itself, which
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means that they are rather fast when compared to some of the equivalents which
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are implemented in Nix itself.
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The Nix manual has [a section listing all `builtins`][builtins] and their usage.
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Examples of builtins that you will commonly encounter include, but are not
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limited to:
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* `derivation` (see [Derivations](#derivations))
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* `toJSON` / `fromJSON`
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* `toString`
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* `toPath` / `fromPath`
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The builtins also include several functions that have the (spooky) ability to
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break Nix' evaluation purity. No functions written in Nix itself can do this.
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Examples of those include:
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* `fetchGit` which can fetch a git-repository using the environment's default
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git/ssh configuration
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* `fetchTarball` which can fetch & extract archives without having to specify
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hashes
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Read through the manual linked above to get the full overview.
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## `pkgs.lib`
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The Nix package set, commonly referred to by Nixers simply as [nixpkgs][],
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contains a child attribute set called `lib` which provides a large number of
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useful functions.
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The canonical definition of these functions is [their source code][lib-src]. I
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wrote a tool ([nixdoc][]) in 2018 which generates manual entries for these
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functions, however not all of the files are included as of July 2019.
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See the [Nixpkgs manual entry on `lib`][lib-manual] for the documentation.
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These functions include various utilities for dealing with the data types in Nix
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(lists, attribute sets, strings etc.) and it is useful to at least skim through
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them to familiarise yourself with what is available.
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```nix
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{ pkgs ? import <nixpkgs> {} }:
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with pkgs.lib; # bring contents pkgs.lib into scope
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strings.toUpper "hello"
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# yields "HELLO"
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```
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## `pkgs` itself
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The Nix package set itself does not just contain packages, but also many useful
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functions which you might run into while creating new Nix packages.
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One particular subset of these that stands out are the [trivial builders][],
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which provide utilities for writing text files or shell scripts, running shell
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commands and capturing their output and so on.
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```nix
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{ pkgs ? import <nixpkgs> {} }:
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pkgs.writeText "hello.txt" "Hello dear reader!"
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# yields a derivation which creates a text file with the above content
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```
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# Derivations
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When a Nix expression is evaluated it may yield one or more *derivations*.
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Derivations describe a single build action that, when run, places one or more
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outputs (whether they be files or folders) in the Nix store.
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The builtin function `derivation` is responsible for creating derivations at a
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lower level. Usually when Nix users create derivations they will use the
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higher-level functions such as [stdenv.mkDerivation][smkd].
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Please see the manual [on derivations][drv-manual] for more information, as the
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general build logic is out of scope for this document.
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# Nix Idioms
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There are several idioms in Nix which are not technically part of the language
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specification, but will commonly be encountered in the wild.
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This section is an (incomplete) list of them.
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## File lambdas
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It is customary to start every file with a function header that receives the
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files dependencies, instead of importing them directly in the file.
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Sticking to this pattern lets users of your code easily change out, for example,
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the specific version of `nixpkgs` that is used.
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A common file header pattern would look like this:
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```nix
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{ pkgs ? import <nixpkgs> {} }:
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# ... 'pkgs' is then used in the code
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```
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In some sense, you might consider the function header of a file to be its "API".
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## `callPackage`
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|
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Building on the previous pattern, there is a custom in nixpkgs of specifying the
|
|
dependencies of your file explicitly instead of accepting the entire package
|
|
set.
|
|
|
|
For example, a file containing build instructions for a tool that needs the
|
|
standard build environment and `libsvg` might start like this:
|
|
|
|
```nix
|
|
# my-funky-program.nix
|
|
{ stdenv, libsvg }:
|
|
|
|
stdenv.mkDerivation { ... }
|
|
```
|
|
|
|
Any time a file follows this header pattern it is probably meant to be imported
|
|
using a special function called `callPackage` which is part of the top-level
|
|
package set (as well as certain subsets, such as `haskellPackages`).
|
|
|
|
```nix
|
|
{ pkgs ? import <nixpkgs> {} }:
|
|
|
|
let my-funky-program = pkgs.callPackage ./my-funky-program.nix {};
|
|
in # ... something happens with my-funky-program
|
|
```
|
|
|
|
The `callPackage` function looks at the expected arguments (via
|
|
`builtins.functionArgs`) and passes the appropriate keys from the set in which
|
|
it is defined as the values for each corresponding argument.
|
|
|
|
## Overrides / Overlays
|
|
|
|
One of the most powerful features of Nix is that the representation of all build
|
|
instructions as data means that they can easily be *overridden* to get a
|
|
different result.
|
|
|
|
For example, assuming there is a package `someProgram` which is built without
|
|
our favourite configuration flag (`--mimic-threaten-tag`) we might override it
|
|
like this:
|
|
|
|
```nix
|
|
someProgram.overrideAttrs(old: {
|
|
configureFlags = old.configureFlags or [] ++ ["--mimic-threaten-tag"];
|
|
})
|
|
```
|
|
|
|
This pattern has a variety of applications of varying complexity. The top-level
|
|
package set itself can have an `overlays` argument passed to it which may add
|
|
new packages to the imported set.
|
|
|
|
Note the use of the `or` operator to default to an empty list if the
|
|
original flags do not include `configureFlags`. This is required in
|
|
case a package does not set any flags by itself.
|
|
|
|
Since this can change in a package over time, it is useful to guard
|
|
against it using `or`.
|
|
|
|
For a slightly more advanced example, assume that we want to import `<nixpkgs>`
|
|
but have the modification above be reflected in the imported package set:
|
|
|
|
```nix
|
|
let
|
|
overlay = (final: prev: {
|
|
someProgram = prev.someProgram.overrideAttrs(old: {
|
|
configureFlags = old.configureFlags or [] ++ ["--mimic-threaten-tag"];
|
|
});
|
|
});
|
|
in import <nixpkgs> { overlays = [ overlay ]; }
|
|
```
|
|
|
|
The overlay function receives two arguments, `final` and `prev`. `final` is
|
|
the [fixed point][fp] of the overlay's evaluation, i.e. the package set
|
|
*including* the new packages and `prev` is the "original" package set.
|
|
|
|
See the Nix manual sections [on overrides][] and [on overlays][] for more
|
|
details (note: the convention has moved away from using `self` in favor of
|
|
`final`, and `prev` instead of `super`, but the documentation has not been
|
|
updated to reflect this).
|
|
|
|
[currying]: https://en.wikipedia.org/wiki/Currying
|
|
[builtins]: https://nixos.org/manual/nix/stable/language/builtins
|
|
[nixpkgs]: https://github.com/NixOS/nixpkgs
|
|
[lib-src]: https://github.com/NixOS/nixpkgs/tree/master/lib
|
|
[nixdoc]: https://github.com/tazjin/nixdoc
|
|
[lib-manual]: https://nixos.org/manual/nixpkgs/stable/#sec-functions-library
|
|
[channels]: https://nixos.org/manual/nix/stable/command-ref/files/channels
|
|
[trivial builders]: https://github.com/NixOS/nixpkgs/blob/master/pkgs/build-support/trivial-builders/default.nix
|
|
[smkd]: https://nixos.org/manual/nixpkgs/stable/#chap-stdenv
|
|
[drv-manual]: https://nixos.org/manual/nix/stable/language/derivations
|
|
[fp]: https://github.com/NixOS/nixpkgs/blob/master/lib/fixed-points.nix
|
|
[on overrides]: https://nixos.org/manual/nixpkgs/stable/#chap-overrides
|
|
[on overlays]: https://nixos.org/manual/nixpkgs/stable/#chap-overlays
|