mirror of
https://github.com/NixOS/nixpkgs.git
synced 2024-11-24 16:03:23 +00:00
e14483d6a6
Previously, setting listsAsDuplicateKeys or listToValue would make it so merging these treat all values as lists, by coercing non-lists via lib.singleton. Some programs (such as gamemode; see #345121), allow some values to be repeated but not others, which can lead to unexpected behavior when non-list values are merged like this rather than throwing an error. This now makes that behavior opt-in via the mergeAsList option. Setting mergeAsList (to either true or false) without setting either listsAsDuplicateKeys or listToValue is an error, since lists are meaningless in this case.
541 lines
16 KiB
Nix
541 lines
16 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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Please note that `pkgs` may not always be available for use due to the split
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options doc build introduced in fc614c37c653, so lazy evaluation of only the
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'type' field is required.
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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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libconfig = (import ./formats/libconfig/default.nix { inherit lib pkgs; }).format;
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hocon = (import ./formats/hocon/default.nix { inherit lib pkgs; }).format;
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php = (import ./formats/php/default.nix { inherit lib pkgs; }).format;
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inherit (lib) mkOptionType;
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inherit (lib.types) nullOr oneOf coercedTo listOf nonEmptyListOf attrsOf either;
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inherit (lib.types) bool int float str path;
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json = {}: {
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type = 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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preferLocalBuild = true;
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} ''
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jq . "$valuePath"> $out
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'') {};
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};
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yaml = {}: {
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generate = name: value: pkgs.callPackage ({ runCommand, remarshal }: runCommand name {
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nativeBuildInputs = [ remarshal ];
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value = builtins.toJSON value;
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passAsFile = [ "value" ];
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preferLocalBuild = true;
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} ''
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json2yaml "$valuePath" "$out"
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'') {};
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type = 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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# the ini formats share a lot of code
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inherit (
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let
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singleIniAtom = nullOr (oneOf [ bool int float str ]) // {
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description = "INI atom (null, bool, int, float or string)";
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};
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iniAtom = { listsAsDuplicateKeys, listToValue, atomsCoercedToLists }:
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let
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singleIniAtomOr = if atomsCoercedToLists then coercedTo singleIniAtom lib.singleton else either singleIniAtom;
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in
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if listsAsDuplicateKeys then
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singleIniAtomOr (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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singleIniAtomOr (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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iniSection = { listsAsDuplicateKeys, listToValue, atomsCoercedToLists }@args:
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attrsOf (iniAtom args) // {
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description = "section of an INI file (attrs of " + (iniAtom args).description + ")";
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};
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maybeToList = listToValue: if listToValue != null then lib.mapAttrs (key: val: if lib.isList val then listToValue val else val) else lib.id;
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in {
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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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# Merge multiple instances of the same key into a list
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atomsCoercedToLists ? null,
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...
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}@args:
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assert listsAsDuplicateKeys -> listToValue == null;
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assert atomsCoercedToLists != null -> (listsAsDuplicateKeys || listToValue != null);
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let
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atomsCoercedToLists' = if atomsCoercedToLists == null then false else atomsCoercedToLists;
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in
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{
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type = lib.types.attrsOf (
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iniSection { inherit listsAsDuplicateKeys listToValue; atomsCoercedToLists = atomsCoercedToLists'; }
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);
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generate = name: value:
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lib.pipe value
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[
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(lib.mapAttrs (_: maybeToList listToValue))
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(lib.generators.toINI (removeAttrs args ["listToValue" "atomsCoercedToLists"]))
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(pkgs.writeText name)
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];
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};
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iniWithGlobalSection = {
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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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# Merge multiple instances of the same key into a list
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atomsCoercedToLists ? null,
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...
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}@args:
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assert listsAsDuplicateKeys -> listToValue == null;
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assert atomsCoercedToLists != null -> (listsAsDuplicateKeys || listToValue != null);
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let
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atomsCoercedToLists' = if atomsCoercedToLists == null then false else atomsCoercedToLists;
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in
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{
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type = lib.types.submodule {
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options = {
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sections = lib.mkOption rec {
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type = lib.types.attrsOf (
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iniSection { inherit listsAsDuplicateKeys listToValue; atomsCoercedToLists = atomsCoercedToLists'; }
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);
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default = {};
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description = type.description;
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};
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globalSection = lib.mkOption rec {
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type = iniSection { inherit listsAsDuplicateKeys listToValue; atomsCoercedToLists = atomsCoercedToLists'; };
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default = {};
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description = "global " + type.description;
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};
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};
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};
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generate = name: { sections ? {}, globalSection ? {}, ... }:
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pkgs.writeText name (lib.generators.toINIWithGlobalSection (removeAttrs args ["listToValue" "atomsCoercedToLists"])
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{
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globalSection = maybeToList listToValue globalSection;
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sections = lib.mapAttrs (_: maybeToList listToValue) sections;
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});
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};
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gitIni = { listsAsDuplicateKeys ? false, ... }@args: {
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type = let
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atom = iniAtom {
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listsAsDuplicateKeys = listsAsDuplicateKeys;
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listToValue = null;
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atomsCoercedToLists = false;
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};
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in attrsOf (attrsOf (either atom (attrsOf atom)));
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generate = name: value: pkgs.writeText name (lib.generators.toGitINI value);
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};
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}) ini iniWithGlobalSection gitIni;
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# As defined by systemd.syntax(7)
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#
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# null does not set any value, which allows for RFC42 modules to specify
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# optional config options.
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systemd = let
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mkValueString = lib.generators.mkValueStringDefault {};
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mkKeyValue = k: v:
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if v == null then "# ${k} is unset"
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else "${k} = ${mkValueString v}";
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in ini {
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listsAsDuplicateKeys = true;
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inherit mkKeyValue;
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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 = 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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toml = {}: json {} // {
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type = 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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preferLocalBuild = true;
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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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let
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toElixir = value:
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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 lib.isInt value || lib.isFloat value then toString value else
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if lib.isString value then string value else
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if lib.isAttrs value then attrs value else
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if lib.isList value then list value else
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abort "formats.elixirConf: should never happen (value = ${value})";
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escapeElixir = lib.escape [ "\\" "#" "\"" ];
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string = value: "\"${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 = lib.concatStringsSep ", " (lib.mapAttrsToList toKeyword set);
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in
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"[" + keywordList + "]";
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listContent = values: lib.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} => ${toElixir value}";
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entries = lib.concatStringsSep ", " (lib.mapAttrsToList toEntry set);
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in
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"%{${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}, ${toElixir value}";
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keyConfigs = rootKey: values: lib.mapAttrsToList (keyConfig rootKey) values;
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rootConfigs = lib.flatten (lib.mapAttrsToList keyConfigs values);
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in
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''
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import Config
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${lib.concatStringsSep "\n" rootConfigs}
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'';
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in
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{
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type = 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 = 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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preferLocalBuild = true;
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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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|
|
# Outputs a succession of Python variable assignments
|
|
# Useful for many Django-based services
|
|
pythonVars = {}: {
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|
type = let
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|
valueType = nullOr(oneOf [
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bool
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float
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int
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path
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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 = "Python value";
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|
};
|
|
in attrsOf valueType;
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|
generate = name: value: pkgs.callPackage ({ runCommand, python3, black }: runCommand name {
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nativeBuildInputs = [ python3 black ];
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value = builtins.toJSON value;
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pythonGen = ''
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import json
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import os
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|
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with open(os.environ["valuePath"], "r") as f:
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for key, value in json.load(f).items():
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print(f"{key} = {repr(value)}")
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'';
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passAsFile = [ "value" "pythonGen" ];
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preferLocalBuild = true;
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} ''
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cat "$valuePath"
|
|
python3 "$pythonGenPath" > $out
|
|
black $out
|
|
'') {};
|
|
};
|
|
|
|
}
|