# Definitions related to run-time type checking. Used in particular # to type-check NixOS configurations. { lib }: let inherit (lib) elem flip isAttrs isBool isDerivation isFloat isFunction isInt isList isString isStorePath throwIf toDerivation toList ; inherit (lib.lists) all concatLists count elemAt filter foldl' head imap1 last length tail ; inherit (lib.attrsets) attrNames filterAttrs hasAttr mapAttrs optionalAttrs zipAttrsWith ; inherit (lib.options) getFiles getValues mergeDefaultOption mergeEqualOption mergeOneOption mergeUniqueOption showFiles showOption ; inherit (lib.strings) concatMapStringsSep concatStringsSep escapeNixString hasInfix isStringLike ; inherit (lib.trivial) boolToString ; inherit (lib.modules) mergeDefinitions fixupOptionType mergeOptionDecls ; inAttrPosSuffix = v: name: let pos = builtins.unsafeGetAttrPos name v; in if pos == null then "" else " at ${pos.file}:${toString pos.line}:${toString pos.column}"; outer_types = rec { __attrsFailEvaluation = true; isType = type: x: (x._type or "") == type; setType = typeName: value: value // { _type = typeName; }; # Default type merging function # takes two type functors and return the merged type defaultTypeMerge = f: f': let wrapped = f.wrapped.typeMerge f'.wrapped.functor; payload = f.binOp f.payload f'.payload; in # cannot merge different types if f.name != f'.name then null # simple types else if (f.wrapped == null && f'.wrapped == null) && (f.payload == null && f'.payload == null) then f.type # composed types else if (f.wrapped != null && f'.wrapped != null) && (wrapped != null) then f.type wrapped # value types else if (f.payload != null && f'.payload != null) && (payload != null) then f.type payload else null; # Default type functor defaultFunctor = name: { inherit name; type = types.${name} or null; wrapped = null; payload = null; binOp = a: b: null; }; isOptionType = isType "option-type"; mkOptionType = { # Human-readable representation of the type, should be equivalent to # the type function name. name , # Description of the type, defined recursively by embedding the wrapped type if any. description ? null # A hint for whether or not this description needs parentheses. Possible values: # - "noun": a noun phrase # Example description: "positive integer", # - "conjunction": a phrase with a potentially ambiguous "or" connective # Example description: "int or string" # - "composite": a phrase with an "of" connective # Example description: "list of string" # - "nonRestrictiveClause": a noun followed by a comma and a clause # Example description: "positive integer, meaning >0" # See the `optionDescriptionPhrase` function. , descriptionClass ? null , # DO NOT USE WITHOUT KNOWING WHAT YOU ARE DOING! # Function applied to each definition that must return false when a definition # does not match the type. It should not check more than the root of the value, # because checking nested values reduces laziness, leading to unnecessary # infinite recursions in the module system. # Further checks of nested values should be performed by throwing in # the merge function. # Strict and deep type checking can be performed by calling lib.deepSeq on # the merged value. # # See https://github.com/NixOS/nixpkgs/pull/6794 that introduced this change, # https://github.com/NixOS/nixpkgs/pull/173568 and # https://github.com/NixOS/nixpkgs/pull/168295 that attempted to revert this, # https://github.com/NixOS/nixpkgs/issues/191124 and # https://github.com/NixOS/nixos-search/issues/391 for what happens if you ignore # this disclaimer. check ? (x: true) , # Merge a list of definitions together into a single value. # This function is called with two arguments: the location of # the option in the configuration as a list of strings # (e.g. ["boot" "loader "grub" "enable"]), and a list of # definition values and locations (e.g. [ { file = "/foo.nix"; # value = 1; } { file = "/bar.nix"; value = 2 } ]). merge ? mergeDefaultOption , # Whether this type has a value representing nothingness. If it does, # this should be a value of the form { value = ; } # If it doesn't, this should be {} # This may be used when a value is required for `mkIf false`. This allows the extra laziness in e.g. `lazyAttrsOf`. emptyValue ? {} , # Return a flat attrset of sub-options. Used to generate # documentation. getSubOptions ? prefix: {} , # List of modules if any, or null if none. getSubModules ? null , # Function for building the same option type with a different list of # modules. substSubModules ? m: null , # Function that merge type declarations. # internal, takes a functor as argument and returns the merged type. # returning null means the type is not mergeable typeMerge ? defaultTypeMerge functor , # The type functor. # internal, representation of the type as an attribute set. # name: name of the type # type: type function. # wrapped: the type wrapped in case of compound types. # payload: values of the type, two payloads of the same type must be # combinable with the binOp binary operation. # binOp: binary operation that merge two payloads of the same type. functor ? defaultFunctor name , # The deprecation message to display when this type is used by an option # If null, the type isn't deprecated deprecationMessage ? null , # The types that occur in the definition of this type. This is used to # issue deprecation warnings recursively. Can also be used to reuse # nested types nestedTypes ? {} }: { _type = "option-type"; inherit name check merge emptyValue getSubOptions getSubModules substSubModules typeMerge functor deprecationMessage nestedTypes descriptionClass; description = if description == null then name else description; }; # optionDescriptionPhrase :: (str -> bool) -> optionType -> str # # Helper function for producing unambiguous but readable natural language # descriptions of types. # # Parameters # # optionDescriptionPhase unparenthesize optionType # # `unparenthesize`: A function from descriptionClass string to boolean. # It must return true when the class of phrase will fit unambiguously into # the description of the caller. # # `optionType`: The option type to parenthesize or not. # The option whose description we're returning. # # Return value # # The description of the `optionType`, with parentheses if there may be an # ambiguity. optionDescriptionPhrase = unparenthesize: t: if unparenthesize (t.descriptionClass or null) then t.description else "(${t.description})"; # When adding new types don't forget to document them in # nixos/doc/manual/development/option-types.xml! types = rec { raw = mkOptionType { name = "raw"; description = "raw value"; descriptionClass = "noun"; check = value: true; merge = mergeOneOption; }; anything = mkOptionType { name = "anything"; description = "anything"; descriptionClass = "noun"; check = value: true; merge = loc: defs: let getType = value: if isAttrs value && isStringLike value then "stringCoercibleSet" else builtins.typeOf value; # Returns the common type of all definitions, throws an error if they # don't have the same type commonType = foldl' (type: def: if getType def.value == type then type else throw "The option `${showOption loc}' has conflicting option types in ${showFiles (getFiles defs)}" ) (getType (head defs).value) defs; mergeFunction = { # Recursively merge attribute sets set = (attrsOf anything).merge; # Safe and deterministic behavior for lists is to only accept one definition # listOf only used to apply mkIf and co. list = if length defs > 1 then throw "The option `${showOption loc}' has conflicting definitions, in ${showFiles (getFiles defs)}." else (listOf anything).merge; # This is the type of packages, only accept a single definition stringCoercibleSet = mergeOneOption; lambda = loc: defs: arg: anything.merge (loc ++ [ "" ]) (map (def: { file = def.file; value = def.value arg; }) defs); # Otherwise fall back to only allowing all equal definitions }.${commonType} or mergeEqualOption; in mergeFunction loc defs; }; unspecified = mkOptionType { name = "unspecified"; description = "unspecified value"; descriptionClass = "noun"; }; bool = mkOptionType { name = "bool"; description = "boolean"; descriptionClass = "noun"; check = isBool; merge = mergeEqualOption; }; boolByOr = mkOptionType { name = "boolByOr"; description = "boolean (merged using or)"; descriptionClass = "noun"; check = isBool; merge = loc: defs: foldl' (result: def: # Under the assumption that .check always runs before merge, we can assume that all defs.*.value # have been forced, and therefore we assume we don't introduce order-dependent strictness here result || def.value ) false defs; }; int = mkOptionType { name = "int"; description = "signed integer"; descriptionClass = "noun"; check = isInt; merge = mergeEqualOption; }; # Specialized subdomains of int ints = let betweenDesc = lowest: highest: "${toString lowest} and ${toString highest} (both inclusive)"; between = lowest: highest: assert lib.assertMsg (lowest <= highest) "ints.between: lowest must be smaller than highest"; addCheck int (x: x >= lowest && x <= highest) // { name = "intBetween"; description = "integer between ${betweenDesc lowest highest}"; }; ign = lowest: highest: name: docStart: between lowest highest // { inherit name; description = docStart + "; between ${betweenDesc lowest highest}"; }; unsign = bit: range: ign 0 (range - 1) "unsignedInt${toString bit}" "${toString bit} bit unsigned integer"; sign = bit: range: ign (0 - (range / 2)) (range / 2 - 1) "signedInt${toString bit}" "${toString bit} bit signed integer"; in { # TODO: Deduplicate with docs in nixos/doc/manual/development/option-types.section.md /** An int with a fixed range. # Example :::{.example} ## `lib.types.ints.between` usage example ```nix (ints.between 0 100).check (-1) => false (ints.between 0 100).check (101) => false (ints.between 0 0).check 0 => true ``` ::: */ inherit between; unsigned = addCheck types.int (x: x >= 0) // { name = "unsignedInt"; description = "unsigned integer, meaning >=0"; descriptionClass = "nonRestrictiveClause"; }; positive = addCheck types.int (x: x > 0) // { name = "positiveInt"; description = "positive integer, meaning >0"; descriptionClass = "nonRestrictiveClause"; }; u8 = unsign 8 256; u16 = unsign 16 65536; # the biggest int Nix accepts is 2^63 - 1 (9223372036854775808) # the smallest int Nix accepts is -2^63 (-9223372036854775807) u32 = unsign 32 4294967296; # u64 = unsign 64 18446744073709551616; s8 = sign 8 256; s16 = sign 16 65536; s32 = sign 32 4294967296; }; # Alias of u16 for a port number port = ints.u16; float = mkOptionType { name = "float"; description = "floating point number"; descriptionClass = "noun"; check = isFloat; merge = mergeEqualOption; }; number = either int float; numbers = let betweenDesc = lowest: highest: "${builtins.toJSON lowest} and ${builtins.toJSON highest} (both inclusive)"; in { between = lowest: highest: assert lib.assertMsg (lowest <= highest) "numbers.between: lowest must be smaller than highest"; addCheck number (x: x >= lowest && x <= highest) // { name = "numberBetween"; description = "integer or floating point number between ${betweenDesc lowest highest}"; }; nonnegative = addCheck number (x: x >= 0) // { name = "numberNonnegative"; description = "nonnegative integer or floating point number, meaning >=0"; descriptionClass = "nonRestrictiveClause"; }; positive = addCheck number (x: x > 0) // { name = "numberPositive"; description = "positive integer or floating point number, meaning >0"; descriptionClass = "nonRestrictiveClause"; }; }; str = mkOptionType { name = "str"; description = "string"; descriptionClass = "noun"; check = isString; merge = mergeEqualOption; }; nonEmptyStr = mkOptionType { name = "nonEmptyStr"; description = "non-empty string"; descriptionClass = "noun"; check = x: str.check x && builtins.match "[ \t\n]*" x == null; inherit (str) merge; }; # Allow a newline character at the end and trim it in the merge function. singleLineStr = let inherit (strMatching "[^\n\r]*\n?") check merge; in mkOptionType { name = "singleLineStr"; description = "(optionally newline-terminated) single-line string"; descriptionClass = "noun"; inherit check; merge = loc: defs: lib.removeSuffix "\n" (merge loc defs); }; strMatching = pattern: mkOptionType { name = "strMatching ${escapeNixString pattern}"; description = "string matching the pattern ${pattern}"; descriptionClass = "noun"; check = x: str.check x && builtins.match pattern x != null; inherit (str) merge; }; # Merge multiple definitions by concatenating them (with the given # separator between the values). separatedString = sep: mkOptionType rec { name = "separatedString"; description = if sep == "" then "Concatenated string" # for types.string. else "strings concatenated with ${builtins.toJSON sep}" ; descriptionClass = "noun"; check = isString; merge = loc: defs: concatStringsSep sep (getValues defs); functor = (defaultFunctor name) // { payload = sep; binOp = sepLhs: sepRhs: if sepLhs == sepRhs then sepLhs else null; }; }; lines = separatedString "\n"; commas = separatedString ","; envVar = separatedString ":"; # Deprecated; should not be used because it quietly concatenates # strings, which is usually not what you want. # We use a lib.warn because `deprecationMessage` doesn't trigger in nested types such as `attrsOf string` string = lib.warn "The type `types.string` is deprecated. See https://github.com/NixOS/nixpkgs/pull/66346 for better alternative types." (separatedString "" // { name = "string"; }); passwdEntry = entryType: addCheck entryType (str: !(hasInfix ":" str || hasInfix "\n" str)) // { name = "passwdEntry ${entryType.name}"; description = "${optionDescriptionPhrase (class: class == "noun") entryType}, not containing newlines or colons"; descriptionClass = "nonRestrictiveClause"; }; attrs = mkOptionType { name = "attrs"; description = "attribute set"; check = isAttrs; merge = loc: foldl' (res: def: res // def.value) {}; emptyValue = { value = {}; }; }; # A package is a top-level store path (/nix/store/hash-name). This includes: # - derivations # - more generally, attribute sets with an `outPath` or `__toString` attribute # pointing to a store path, e.g. flake inputs # - strings with context, e.g. "${pkgs.foo}" or (toString pkgs.foo) # - hardcoded store path literals (/nix/store/hash-foo) or strings without context # ("/nix/store/hash-foo"). These get a context added to them using builtins.storePath. # If you don't need a *top-level* store path, consider using pathInStore instead. package = mkOptionType { name = "package"; descriptionClass = "noun"; check = x: isDerivation x || isStorePath x; merge = loc: defs: let res = mergeOneOption loc defs; in if builtins.isPath res || (builtins.isString res && ! builtins.hasContext res) then toDerivation res else res; }; shellPackage = package // { check = x: isDerivation x && hasAttr "shellPath" x; }; pkgs = addCheck (unique { message = "A Nixpkgs pkgs set can not be merged with another pkgs set."; } attrs // { name = "pkgs"; descriptionClass = "noun"; description = "Nixpkgs package set"; }) (x: (x._type or null) == "pkgs"); path = mkOptionType { name = "path"; descriptionClass = "noun"; check = x: isStringLike x && builtins.substring 0 1 (toString x) == "/"; merge = mergeEqualOption; }; pathInStore = mkOptionType { name = "pathInStore"; description = "path in the Nix store"; descriptionClass = "noun"; check = x: isStringLike x && builtins.match "${builtins.storeDir}/[^.].*" (toString x) != null; merge = mergeEqualOption; }; listOf = elemType: mkOptionType rec { name = "listOf"; description = "list of ${optionDescriptionPhrase (class: class == "noun" || class == "composite") elemType}"; descriptionClass = "composite"; check = isList; merge = loc: defs: map (x: x.value) (filter (x: x ? value) (concatLists (imap1 (n: def: imap1 (m: def': (mergeDefinitions (loc ++ ["[definition ${toString n}-entry ${toString m}]"]) elemType [{ inherit (def) file; value = def'; }] ).optionalValue ) def.value ) defs))); emptyValue = { value = []; }; getSubOptions = prefix: elemType.getSubOptions (prefix ++ ["*"]); getSubModules = elemType.getSubModules; substSubModules = m: listOf (elemType.substSubModules m); functor = (defaultFunctor name) // { wrapped = elemType; }; nestedTypes.elemType = elemType; }; nonEmptyListOf = elemType: let list = addCheck (types.listOf elemType) (l: l != []); in list // { description = "non-empty ${optionDescriptionPhrase (class: class == "noun") list}"; emptyValue = { }; # no .value attr, meaning unset substSubModules = m: nonEmptyListOf (elemType.substSubModules m); }; attrsOf = elemType: mkOptionType rec { name = "attrsOf"; description = "attribute set of ${optionDescriptionPhrase (class: class == "noun" || class == "composite") elemType}"; descriptionClass = "composite"; check = isAttrs; merge = loc: defs: mapAttrs (n: v: v.value) (filterAttrs (n: v: v ? value) (zipAttrsWith (name: defs: (mergeDefinitions (loc ++ [name]) elemType defs).optionalValue ) # Push down position info. (map (def: mapAttrs (n: v: { inherit (def) file; value = v; }) def.value) defs))); emptyValue = { value = {}; }; getSubOptions = prefix: elemType.getSubOptions (prefix ++ [""]); getSubModules = elemType.getSubModules; substSubModules = m: attrsOf (elemType.substSubModules m); functor = (defaultFunctor name) // { wrapped = elemType; }; nestedTypes.elemType = elemType; }; # A version of attrsOf that's lazy in its values at the expense of # conditional definitions not working properly. E.g. defining a value with # `foo.attr = mkIf false 10`, then `foo ? attr == true`, whereas with # attrsOf it would correctly be `false`. Accessing `foo.attr` would throw an # error that it's not defined. Use only if conditional definitions don't make sense. lazyAttrsOf = elemType: mkOptionType rec { name = "lazyAttrsOf"; description = "lazy attribute set of ${optionDescriptionPhrase (class: class == "noun" || class == "composite") elemType}"; descriptionClass = "composite"; check = isAttrs; merge = loc: defs: zipAttrsWith (name: defs: let merged = mergeDefinitions (loc ++ [name]) elemType defs; # mergedValue will trigger an appropriate error when accessed in merged.optionalValue.value or elemType.emptyValue.value or merged.mergedValue ) # Push down position info. (map (def: mapAttrs (n: v: { inherit (def) file; value = v; }) def.value) defs); emptyValue = { value = {}; }; getSubOptions = prefix: elemType.getSubOptions (prefix ++ [""]); getSubModules = elemType.getSubModules; substSubModules = m: lazyAttrsOf (elemType.substSubModules m); functor = (defaultFunctor name) // { wrapped = elemType; }; nestedTypes.elemType = elemType; }; # TODO: deprecate this in the future: loaOf = elemType: types.attrsOf elemType // { name = "loaOf"; deprecationMessage = "Mixing lists with attribute values is no longer" + " possible; please use `types.attrsOf` instead. See" + " https://github.com/NixOS/nixpkgs/issues/1800 for the motivation."; nestedTypes.elemType = elemType; }; attrTag = tags: let tags_ = tags; in let tags = mapAttrs (n: opt: builtins.addErrorContext "while checking that attrTag tag ${lib.strings.escapeNixIdentifier n} is an option with a type${inAttrPosSuffix tags_ n}" ( throwIf (opt._type or null != "option") "In attrTag, each tag value must be an option, but tag ${lib.strings.escapeNixIdentifier n} ${ if opt?_type then if opt._type == "option-type" then "was a bare type, not wrapped in mkOption." else "was of type ${lib.strings.escapeNixString opt._type}." else "was not."}" opt // { declarations = opt.declarations or ( let pos = builtins.unsafeGetAttrPos n tags_; in if pos == null then [] else [ pos.file ] ); declarationPositions = opt.declarationPositions or ( let pos = builtins.unsafeGetAttrPos n tags_; in if pos == null then [] else [ pos ] ); } )) tags_; choicesStr = concatMapStringsSep ", " lib.strings.escapeNixIdentifier (attrNames tags); in mkOptionType { name = "attrTag"; description = "attribute-tagged union"; descriptionClass = "noun"; getSubOptions = prefix: mapAttrs (tagName: tagOption: { "${lib.showOption prefix}" = tagOption // { loc = prefix ++ [ tagName ]; }; }) tags; check = v: isAttrs v && length (attrNames v) == 1 && tags?${head (attrNames v)}; merge = loc: defs: let choice = head (attrNames (head defs).value); checkedValueDefs = map (def: assert (length (attrNames def.value)) == 1; if (head (attrNames def.value)) != choice then throw "The option `${showOption loc}` is defined both as `${choice}` and `${head (attrNames def.value)}`, in ${showFiles (getFiles defs)}." else { inherit (def) file; value = def.value.${choice}; }) defs; in if tags?${choice} then { ${choice} = (lib.modules.evalOptionValue (loc ++ [choice]) tags.${choice} checkedValueDefs ).value; } else throw "The option `${showOption loc}` is defined as ${lib.strings.escapeNixIdentifier choice}, but ${lib.strings.escapeNixIdentifier choice} is not among the valid choices (${choicesStr}). Value ${choice} was defined in ${showFiles (getFiles defs)}."; nestedTypes = tags; functor = defaultFunctor "attrTag" // { type = { tags, ... }: types.attrTag tags; payload = { inherit tags; }; binOp = let # Add metadata in the format that submodules work with wrapOptionDecl = option: { options = option; _file = ""; pos = null; }; in a: b: { tags = a.tags // b.tags // mapAttrs (tagName: bOpt: lib.mergeOptionDecls # FIXME: loc is not accurate; should include prefix # Fortunately, it's only used for error messages, where a "relative" location is kinda ok. # It is also returned though, but use of the attribute seems rare? [tagName] [ (wrapOptionDecl a.tags.${tagName}) (wrapOptionDecl bOpt) ] // { # mergeOptionDecls is not idempotent in these attrs: declarations = a.tags.${tagName}.declarations ++ bOpt.declarations; declarationPositions = a.tags.${tagName}.declarationPositions ++ bOpt.declarationPositions; } ) (builtins.intersectAttrs a.tags b.tags); }; }; }; uniq = unique { message = ""; }; unique = { message }: type: mkOptionType rec { name = "unique"; inherit (type) description descriptionClass check; merge = mergeUniqueOption { inherit message; inherit (type) merge; }; emptyValue = type.emptyValue; getSubOptions = type.getSubOptions; getSubModules = type.getSubModules; substSubModules = m: uniq (type.substSubModules m); functor = (defaultFunctor name) // { wrapped = type; }; nestedTypes.elemType = type; }; # Null or value of ... nullOr = elemType: mkOptionType rec { name = "nullOr"; description = "null or ${optionDescriptionPhrase (class: class == "noun" || class == "conjunction") elemType}"; descriptionClass = "conjunction"; check = x: x == null || elemType.check x; merge = loc: defs: let nrNulls = count (def: def.value == null) defs; in if nrNulls == length defs then null else if nrNulls != 0 then throw "The option `${showOption loc}` is defined both null and not null, in ${showFiles (getFiles defs)}." else elemType.merge loc defs; emptyValue = { value = null; }; getSubOptions = elemType.getSubOptions; getSubModules = elemType.getSubModules; substSubModules = m: nullOr (elemType.substSubModules m); functor = (defaultFunctor name) // { wrapped = elemType; }; nestedTypes.elemType = elemType; }; functionTo = elemType: mkOptionType { name = "functionTo"; description = "function that evaluates to a(n) ${optionDescriptionPhrase (class: class == "noun" || class == "composite") elemType}"; descriptionClass = "composite"; check = isFunction; merge = loc: defs: fnArgs: (mergeDefinitions (loc ++ [ "" ]) elemType (map (fn: { inherit (fn) file; value = fn.value fnArgs; }) defs)).mergedValue; getSubOptions = prefix: elemType.getSubOptions (prefix ++ [ "" ]); getSubModules = elemType.getSubModules; substSubModules = m: functionTo (elemType.substSubModules m); functor = (defaultFunctor "functionTo") // { wrapped = elemType; }; nestedTypes.elemType = elemType; }; # A submodule (like typed attribute set). See NixOS manual. submodule = modules: submoduleWith { shorthandOnlyDefinesConfig = true; modules = toList modules; }; # A module to be imported in some other part of the configuration. deferredModule = deferredModuleWith { }; # A module to be imported in some other part of the configuration. # `staticModules`' options will be added to the documentation, unlike # options declared via `config`. deferredModuleWith = attrs@{ staticModules ? [] }: mkOptionType { name = "deferredModule"; description = "module"; descriptionClass = "noun"; check = x: isAttrs x || isFunction x || path.check x; merge = loc: defs: { imports = staticModules ++ map (def: lib.setDefaultModuleLocation "${def.file}, via option ${showOption loc}" def.value) defs; }; inherit (submoduleWith { modules = staticModules; }) getSubOptions getSubModules; substSubModules = m: deferredModuleWith (attrs // { staticModules = m; }); functor = defaultFunctor "deferredModuleWith" // { type = types.deferredModuleWith; payload = { inherit staticModules; }; binOp = lhs: rhs: { staticModules = lhs.staticModules ++ rhs.staticModules; }; }; }; # The type of a type! optionType = mkOptionType { name = "optionType"; description = "optionType"; descriptionClass = "noun"; check = value: value._type or null == "option-type"; merge = loc: defs: if length defs == 1 then (head defs).value else let # Prepares the type definitions for mergeOptionDecls, which # annotates submodules types with file locations optionModules = map ({ value, file }: { _file = file; # There's no way to merge types directly from the module system, # but we can cheat a bit by just declaring an option with the type options = lib.mkOption { type = value; }; } ) defs; # Merges all the types into a single one, including submodule merging. # This also propagates file information to all submodules mergedOption = fixupOptionType loc (mergeOptionDecls loc optionModules); in mergedOption.type; }; submoduleWith = { modules , specialArgs ? {} , shorthandOnlyDefinesConfig ? false , description ? null , class ? null }@attrs: let inherit (lib.modules) evalModules; allModules = defs: map ({ value, file }: if isAttrs value && shorthandOnlyDefinesConfig then { _file = file; config = value; } else { _file = file; imports = [ value ]; } ) defs; base = evalModules { inherit class specialArgs; modules = [{ # This is a work-around for the fact that some sub-modules, # such as the one included in an attribute set, expects an "args" # attribute to be given to the sub-module. As the option # evaluation does not have any specific attribute name yet, we # provide a default for the documentation and the freeform type. # # This is necessary as some option declaration might use the # "name" attribute given as argument of the submodule and use it # as the default of option declarations. # # We use lookalike unicode single angle quotation marks because # of the docbook transformation the options receive. In all uses # > and < wouldn't be encoded correctly so the encoded values # would be used, and use of `<` and `>` would break the XML document. # It shouldn't cause an issue since this is cosmetic for the manual. _module.args.name = lib.mkOptionDefault "‹name›"; }] ++ modules; }; freeformType = base._module.freeformType; name = "submodule"; in mkOptionType { inherit name; description = if description != null then description else freeformType.description or name; check = x: isAttrs x || isFunction x || path.check x; merge = loc: defs: (base.extendModules { modules = [ { _module.args.name = last loc; } ] ++ allModules defs; prefix = loc; }).config; emptyValue = { value = {}; }; getSubOptions = prefix: (base.extendModules { inherit prefix; }).options // optionalAttrs (freeformType != null) { # Expose the sub options of the freeform type. Note that the option # discovery doesn't care about the attribute name used here, so this # is just to avoid conflicts with potential options from the submodule _freeformOptions = freeformType.getSubOptions prefix; }; getSubModules = modules; substSubModules = m: submoduleWith (attrs // { modules = m; }); nestedTypes = lib.optionalAttrs (freeformType != null) { freeformType = freeformType; }; functor = defaultFunctor name // { type = types.submoduleWith; payload = { inherit modules class specialArgs shorthandOnlyDefinesConfig description; }; binOp = lhs: rhs: { class = # `or null` was added for backwards compatibility only. `class` is # always set in the current version of the module system. if lhs.class or null == null then rhs.class or null else if rhs.class or null == null then lhs.class or null else if lhs.class or null == rhs.class then lhs.class or null else throw "A submoduleWith option is declared multiple times with conflicting class values \"${toString lhs.class}\" and \"${toString rhs.class}\"."; modules = lhs.modules ++ rhs.modules; specialArgs = let intersecting = builtins.intersectAttrs lhs.specialArgs rhs.specialArgs; in if intersecting == {} then lhs.specialArgs // rhs.specialArgs else throw "A submoduleWith option is declared multiple times with the same specialArgs \"${toString (attrNames intersecting)}\""; shorthandOnlyDefinesConfig = if lhs.shorthandOnlyDefinesConfig == null then rhs.shorthandOnlyDefinesConfig else if rhs.shorthandOnlyDefinesConfig == null then lhs.shorthandOnlyDefinesConfig else if lhs.shorthandOnlyDefinesConfig == rhs.shorthandOnlyDefinesConfig then lhs.shorthandOnlyDefinesConfig else throw "A submoduleWith option is declared multiple times with conflicting shorthandOnlyDefinesConfig values"; description = if lhs.description == null then rhs.description else if rhs.description == null then lhs.description else if lhs.description == rhs.description then lhs.description else throw "A submoduleWith option is declared multiple times with conflicting descriptions"; }; }; }; # A value from a set of allowed ones. enum = values: let inherit (lib.lists) unique; show = v: if builtins.isString v then ''"${v}"'' else if builtins.isInt v then builtins.toString v else if builtins.isBool v then boolToString v else ''<${builtins.typeOf v}>''; in mkOptionType rec { name = "enum"; description = # Length 0 or 1 enums may occur in a design pattern with type merging # where an "interface" module declares an empty enum and other modules # provide implementations, each extending the enum with their own # identifier. if values == [] then "impossible (empty enum)" else if builtins.length values == 1 then "value ${show (builtins.head values)} (singular enum)" else "one of ${concatMapStringsSep ", " show values}"; descriptionClass = if builtins.length values < 2 then "noun" else "conjunction"; check = flip elem values; merge = mergeEqualOption; functor = (defaultFunctor name) // { payload = values; binOp = a: b: unique (a ++ b); }; }; # Either value of type `t1` or `t2`. either = t1: t2: mkOptionType rec { name = "either"; description = if t1.descriptionClass or null == "nonRestrictiveClause" then # Plain, but add comma "${t1.description}, or ${optionDescriptionPhrase (class: class == "noun" || class == "conjunction") t2}" else "${optionDescriptionPhrase (class: class == "noun" || class == "conjunction") t1} or ${optionDescriptionPhrase (class: class == "noun" || class == "conjunction" || class == "composite") t2}"; descriptionClass = "conjunction"; check = x: t1.check x || t2.check x; merge = loc: defs: let defList = map (d: d.value) defs; in if all (x: t1.check x) defList then t1.merge loc defs else if all (x: t2.check x) defList then t2.merge loc defs else mergeOneOption loc defs; typeMerge = f': let mt1 = t1.typeMerge (elemAt f'.wrapped 0).functor; mt2 = t2.typeMerge (elemAt f'.wrapped 1).functor; in if (name == f'.name) && (mt1 != null) && (mt2 != null) then functor.type mt1 mt2 else null; functor = (defaultFunctor name) // { wrapped = [ t1 t2 ]; }; nestedTypes.left = t1; nestedTypes.right = t2; }; # Any of the types in the given list oneOf = ts: let head' = if ts == [] then throw "types.oneOf needs to get at least one type in its argument" else head ts; tail' = tail ts; in foldl' either head' tail'; # Either value of type `coercedType` or `finalType`, the former is # converted to `finalType` using `coerceFunc`. coercedTo = coercedType: coerceFunc: finalType: assert lib.assertMsg (coercedType.getSubModules == null) "coercedTo: coercedType must not have submodules (it’s a ${ coercedType.description})"; mkOptionType rec { name = "coercedTo"; description = "${optionDescriptionPhrase (class: class == "noun") finalType} or ${optionDescriptionPhrase (class: class == "noun") coercedType} convertible to it"; check = x: (coercedType.check x && finalType.check (coerceFunc x)) || finalType.check x; merge = loc: defs: let coerceVal = val: if coercedType.check val then coerceFunc val else val; in finalType.merge loc (map (def: def // { value = coerceVal def.value; }) defs); emptyValue = finalType.emptyValue; getSubOptions = finalType.getSubOptions; getSubModules = finalType.getSubModules; substSubModules = m: coercedTo coercedType coerceFunc (finalType.substSubModules m); typeMerge = t1: t2: null; functor = (defaultFunctor name) // { wrapped = finalType; }; nestedTypes.coercedType = coercedType; nestedTypes.finalType = finalType; }; # Augment the given type with an additional type check function. addCheck = elemType: check: elemType // { check = x: elemType.check x && check x; }; }; }; in outer_types // outer_types.types