mirror of
https://github.com/NixOS/nixpkgs.git
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1cab362206
lib.formats.keyValue: init
421 lines
12 KiB
Nix
421 lines
12 KiB
Nix
{ lib, pkgs }:
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rec {
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/*
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Every following entry represents a format for program configuration files
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used for `settings`-style options (see https://github.com/NixOS/rfcs/pull/42).
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Each entry should look as follows:
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<format> = <parameters>: {
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# ^^ Parameters for controlling the format
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# The module system type most suitable for representing such a format
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# The description needs to be overwritten for recursive types
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type = ...;
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# Utility functions for convenience, or special interactions with the
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# format (optional)
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lib = {
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exampleFunction = ...
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# Types specific to the format (optional)
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types = { ... };
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...
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};
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# generate :: Name -> Value -> Path
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# A function for generating a file with a value of such a type
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generate = ...;
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});
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*/
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inherit (import ./formats/java-properties/default.nix { inherit lib pkgs; })
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javaProperties;
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json = {}: {
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type = with lib.types; let
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valueType = nullOr (oneOf [
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bool
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int
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float
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str
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path
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(attrsOf valueType)
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(listOf valueType)
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]) // {
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description = "JSON value";
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};
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in valueType;
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generate = name: value: pkgs.callPackage ({ runCommand, jq }: runCommand name {
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nativeBuildInputs = [ jq ];
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value = builtins.toJSON value;
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passAsFile = [ "value" ];
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} ''
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jq . "$valuePath"> $out
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'') {};
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};
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yaml = {}: {
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generate = name: value: pkgs.callPackage ({ runCommand, remarshal }: runCommand name {
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nativeBuildInputs = [ remarshal ];
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value = builtins.toJSON value;
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passAsFile = [ "value" ];
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} ''
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json2yaml "$valuePath" "$out"
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'') {};
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type = with lib.types; let
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valueType = nullOr (oneOf [
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bool
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int
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float
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str
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path
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(attrsOf valueType)
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(listOf valueType)
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]) // {
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description = "YAML value";
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};
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in valueType;
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};
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ini = {
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# Represents lists as duplicate keys
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listsAsDuplicateKeys ? false,
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# Alternative to listsAsDuplicateKeys, converts list to non-list
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# listToValue :: [IniAtom] -> IniAtom
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listToValue ? null,
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...
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}@args:
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assert !listsAsDuplicateKeys || listToValue == null;
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{
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type = with lib.types; let
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singleIniAtom = nullOr (oneOf [
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bool
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int
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float
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str
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]) // {
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description = "INI atom (null, bool, int, float or string)";
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};
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iniAtom =
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if listsAsDuplicateKeys then
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coercedTo singleIniAtom lib.singleton (listOf singleIniAtom) // {
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description = singleIniAtom.description + " or a list of them for duplicate keys";
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}
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else if listToValue != null then
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coercedTo singleIniAtom lib.singleton (nonEmptyListOf singleIniAtom) // {
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description = singleIniAtom.description + " or a non-empty list of them";
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}
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else
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singleIniAtom;
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in attrsOf (attrsOf iniAtom);
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generate = name: value:
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let
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transformedValue =
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if listToValue != null
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then
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lib.mapAttrs (section: lib.mapAttrs (key: val:
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if lib.isList val then listToValue val else val
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)) value
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else value;
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in pkgs.writeText name (lib.generators.toINI (removeAttrs args ["listToValue"]) transformedValue);
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};
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keyValue = {
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# Represents lists as duplicate keys
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listsAsDuplicateKeys ? false,
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# Alternative to listsAsDuplicateKeys, converts list to non-list
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# listToValue :: [Atom] -> Atom
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listToValue ? null,
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...
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}@args:
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assert !listsAsDuplicateKeys || listToValue == null;
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{
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type = with lib.types; let
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singleAtom = nullOr (oneOf [
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bool
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int
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float
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str
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]) // {
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description = "atom (null, bool, int, float or string)";
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};
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atom =
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if listsAsDuplicateKeys then
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coercedTo singleAtom lib.singleton (listOf singleAtom) // {
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description = singleAtom.description + " or a list of them for duplicate keys";
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}
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else if listToValue != null then
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coercedTo singleAtom lib.singleton (nonEmptyListOf singleAtom) // {
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description = singleAtom.description + " or a non-empty list of them";
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}
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else
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singleAtom;
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in attrsOf atom;
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generate = name: value:
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let
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transformedValue =
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if listToValue != null
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then
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lib.mapAttrs (key: val:
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if lib.isList val then listToValue val else val
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) value
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else value;
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in pkgs.writeText name (lib.generators.toKeyValue (removeAttrs args ["listToValue"]) transformedValue);
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};
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gitIni = { listsAsDuplicateKeys ? false, ... }@args: {
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type = with lib.types; let
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iniAtom = (ini args).type/*attrsOf*/.functor.wrapped/*attrsOf*/.functor.wrapped;
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in attrsOf (attrsOf (either iniAtom (attrsOf iniAtom)));
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generate = name: value: pkgs.writeText name (lib.generators.toGitINI value);
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};
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toml = {}: json {} // {
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type = with lib.types; let
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valueType = oneOf [
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bool
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int
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float
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str
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path
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(attrsOf valueType)
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(listOf valueType)
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] // {
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description = "TOML value";
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};
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in valueType;
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generate = name: value: pkgs.callPackage ({ runCommand, remarshal }: runCommand name {
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nativeBuildInputs = [ remarshal ];
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value = builtins.toJSON value;
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passAsFile = [ "value" ];
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} ''
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json2toml "$valuePath" "$out"
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'') {};
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};
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/* For configurations of Elixir project, like config.exs or runtime.exs
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Most Elixir project are configured using the [Config] Elixir DSL
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Since Elixir has more types than Nix, we need a way to map Nix types to
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more than 1 Elixir type. To that end, this format provides its own library,
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and its own set of types.
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To be more detailed, a Nix attribute set could correspond in Elixir to a
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[Keyword list] (the more common type), or it could correspond to a [Map].
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A Nix string could correspond in Elixir to a [String] (also called
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"binary"), an [Atom], or a list of chars (usually discouraged).
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A Nix array could correspond in Elixir to a [List] or a [Tuple].
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Some more types exists, like records, regexes, but since they are less used,
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we can leave the `mkRaw` function as an escape hatch.
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For more information on how to use this format in modules, please refer to
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the Elixir section of the Nixos documentation.
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TODO: special Elixir values doesn't show up nicely in the documentation
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[Config]: <https://hexdocs.pm/elixir/Config.html>
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[Keyword list]: <https://hexdocs.pm/elixir/Keyword.html>
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[Map]: <https://hexdocs.pm/elixir/Map.html>
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[String]: <https://hexdocs.pm/elixir/String.html>
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[Atom]: <https://hexdocs.pm/elixir/Atom.html>
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[List]: <https://hexdocs.pm/elixir/List.html>
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[Tuple]: <https://hexdocs.pm/elixir/Tuple.html>
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*/
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elixirConf = { elixir ? pkgs.elixir }:
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with lib; let
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toElixir = value: with builtins;
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if value == null then "nil" else
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if value == true then "true" else
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if value == false then "false" else
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if isInt value || isFloat value then toString value else
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if isString value then string value else
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if isAttrs value then attrs value else
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if isList value then list value else
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abort "formats.elixirConf: should never happen (value = ${value})";
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escapeElixir = escape [ "\\" "#" "\"" ];
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string = value: "\"${escapeElixir value}\"";
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attrs = set:
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if set ? _elixirType then specialType set
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else
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let
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toKeyword = name: value: "${name}: ${toElixir value}";
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keywordList = concatStringsSep ", " (mapAttrsToList toKeyword set);
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in
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"[" + keywordList + "]";
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listContent = values: concatStringsSep ", " (map toElixir values);
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list = values: "[" + (listContent values) + "]";
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specialType = { value, _elixirType }:
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if _elixirType == "raw" then value else
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if _elixirType == "atom" then value else
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if _elixirType == "map" then elixirMap value else
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if _elixirType == "tuple" then tuple value else
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abort "formats.elixirConf: should never happen (_elixirType = ${_elixirType})";
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elixirMap = set:
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let
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toEntry = name: value: "${toElixir name} => ${toElixir value}";
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entries = concatStringsSep ", " (mapAttrsToList toEntry set);
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in
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"%{${entries}}";
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tuple = values: "{${listContent values}}";
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toConf = values:
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let
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keyConfig = rootKey: key: value:
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"config ${rootKey}, ${key}, ${toElixir value}";
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keyConfigs = rootKey: values: mapAttrsToList (keyConfig rootKey) values;
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rootConfigs = flatten (mapAttrsToList keyConfigs values);
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in
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''
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import Config
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${concatStringsSep "\n" rootConfigs}
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'';
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in
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{
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type = with lib.types; let
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valueType = nullOr
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(oneOf [
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bool
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int
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float
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str
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(attrsOf valueType)
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(listOf valueType)
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]) // {
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description = "Elixir value";
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};
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in
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attrsOf (attrsOf (valueType));
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lib =
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let
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mkRaw = value: {
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inherit value;
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_elixirType = "raw";
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};
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in
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{
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inherit mkRaw;
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/* Fetch an environment variable at runtime, with optional fallback
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*/
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mkGetEnv = { envVariable, fallback ? null }:
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mkRaw "System.get_env(${toElixir envVariable}, ${toElixir fallback})";
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/* Make an Elixir atom.
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Note: lowercase atoms still need to be prefixed by ':'
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*/
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mkAtom = value: {
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inherit value;
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_elixirType = "atom";
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};
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/* Make an Elixir tuple out of a list.
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*/
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mkTuple = value: {
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inherit value;
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_elixirType = "tuple";
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};
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/* Make an Elixir map out of an attribute set.
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*/
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mkMap = value: {
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inherit value;
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_elixirType = "map";
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};
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/* Contains Elixir types. Every type it exports can also be replaced
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by raw Elixir code (i.e. every type is `either type rawElixir`).
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It also reexports standard types, wrapping them so that they can
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also be raw Elixir.
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*/
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types = with lib.types; let
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isElixirType = type: x: (x._elixirType or "") == type;
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rawElixir = mkOptionType {
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name = "rawElixir";
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description = "raw elixir";
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check = isElixirType "raw";
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};
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elixirOr = other: either other rawElixir;
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in
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{
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inherit rawElixir elixirOr;
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atom = elixirOr (mkOptionType {
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name = "elixirAtom";
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description = "elixir atom";
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check = isElixirType "atom";
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});
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tuple = elixirOr (mkOptionType {
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name = "elixirTuple";
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description = "elixir tuple";
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check = isElixirType "tuple";
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});
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map = elixirOr (mkOptionType {
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name = "elixirMap";
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description = "elixir map";
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check = isElixirType "map";
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});
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# Wrap standard types, since anything in the Elixir configuration
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# can be raw Elixir
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} // lib.mapAttrs (_name: type: elixirOr type) lib.types;
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};
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generate = name: value: pkgs.runCommand name
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{
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value = toConf value;
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passAsFile = [ "value" ];
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nativeBuildInputs = [ elixir ];
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} ''
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cp "$valuePath" "$out"
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mix format "$out"
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'';
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};
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}
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