# Nixpkgs/NixOS option handling. let lib = import ./default.nix; in with { inherit (builtins) head length; }; with import ./trivial.nix; with import ./lists.nix; with import ./misc.nix; with import ./attrsets.nix; with import ./properties.nix; rec { inherit (lib) typeOf; isOption = attrs: (typeOf attrs) == "option"; mkOption = attrs: attrs // { _type = "option"; # name (this is the name of the attributem it is automatically generated by the traversal) # default (value used when no definition exists) # example (documentation) # description (documentation) # type (option type, provide a default merge function and ensure type correctness) # merge (function used to merge definitions into one definition: [ /type/ ] -> /type/) # apply (convert the option value to ease the manipulation of the option result) # options (set of sub-options declarations & definitions) # extraConfigs (list of possible configurations) }; mapSubOptions = f: opt: if opt ? options then opt // { options = map f (toList opt.options); } else opt; # Make the option declaration more user-friendly by adding default # settings and some verifications based on the declaration content (like # type correctness). addOptionMakeUp = {name, recurseInto}: decl: let init = { inherit name; merge = mergeDefaultOption; apply = lib.id; }; functionsFromType = opt: if decl ? type && decl.type ? merge then opt // optionalAttrs (decl.type ? merge) { inherit (decl.type) merge; } // optionalAttrs (decl.type ? check) { inherit (decl.type) check; } else opt; addDeclaration = opt: opt // decl; ensureMergeInputType = opt: if opt ? check then opt // { merge = list: if all opt.check list then opt.merge list else throw "One of the definitions has a bad type."; } else opt; ensureDefaultType = opt: if opt ? check && opt ? default then opt // { default = if opt.check opt.default then opt.default else throw "The default value has a bad type."; } else opt; handleOptionSets = opt: if opt ? type && opt.type.hasOptions then let optionConfig = vals: args: map (f: lib.applyIfFunction f args) (opt.options ++ toList vals); # Evaluate sub-modules. subModuleMerge = path: vals: lib.fix (args: let result = recurseInto path (optionConfig vals args); name = lib.removePrefix (opt.name + ".") path; extraArgs = opt.extraArgs or {}; individualExtraArgs = opt.individualExtraArgs or {}; in { inherit (result) config options; inherit name; } // (opt.extraArgs or {}) // (if hasAttr name individualExtraArgs then getAttr name individualExtraArgs else {}) ); # Add _options in sub-modules to make it viewable from other # modules. subModuleMergeConfig = path: vals: let result = subModuleMerge path vals; in { _args = result; } // result.config; in opt // { merge = list: opt.type.iter subModuleMergeConfig opt.name (opt.merge list); options = let path = opt.type.docPath opt.name; in (subModuleMerge path []).options; } else opt; in foldl (opt: f: f opt) init [ # default settings functionsFromType # user settings addDeclaration # override settings ensureMergeInputType ensureDefaultType handleOptionSets ]; # Merge a list of options containning different field. This is useful to # separate the merge & apply fields from the interface. mergeOptionDecls = opts: if opts == [] then {} else if length opts == 1 then let opt = head opts; in if opt ? options then opt // { options = toList opt.options; } else opt else fold (opt1: opt2: lib.addErrorContext "opt1 = ${lib.showVal opt1}\nopt2 = ${lib.showVal opt2}" ( # You cannot merge if two options have the same field. assert opt1 ? default -> ! opt2 ? default; assert opt1 ? example -> ! opt2 ? example; assert opt1 ? description -> ! opt2 ? description; assert opt1 ? merge -> ! opt2 ? merge; assert opt1 ? apply -> ! opt2 ? apply; assert opt1 ? type -> ! opt2 ? type; opt1 // opt2 // optionalAttrs (opt1 ? options || opt2 ? options) { options = (toList (opt1.options or [])) ++ (toList (opt2.options or [])); } // optionalAttrs (opt1 ? extraConfigs || opt2 ? extraConfigs) { extraConfigs = opt1.extraConfigs or [] ++ opt2.extraConfigs or []; } )) {} opts; # !!! This function will be removed because this can be done with the # multiple option declarations. addDefaultOptionValues = defs: opts: opts // builtins.listToAttrs (map (defName: { name = defName; value = let defValue = builtins.getAttr defName defs; optValue = builtins.getAttr defName opts; in if typeOf defValue == "option" then # `defValue' is an option. if hasAttr defName opts then builtins.getAttr defName opts else defValue.default else # `defValue' is an attribute set containing options. # So recurse. if hasAttr defName opts && isAttrs optValue then addDefaultOptionValues defValue optValue else addDefaultOptionValues defValue {}; } ) (attrNames defs)); mergeDefaultOption = list: if length list == 1 then head list else if all builtins.isFunction list then x: mergeDefaultOption (map (f: f x) list) else if all isList list then concatLists list else if all isAttrs list then fold lib.mergeAttrs {} list else if all builtins.isBool list then fold lib.or false list else if all builtins.isString list then lib.concatStrings list else if all builtins.isInt list && all (x: x == head list) list then head list else throw "Cannot merge values."; mergeTypedOption = typeName: predicate: merge: list: if all predicate list then merge list else throw "Expect a ${typeName}."; mergeEnableOption = mergeTypedOption "boolean" (x: true == x || false == x) (fold lib.or false); mergeListOption = mergeTypedOption "list" isList concatLists; mergeStringOption = mergeTypedOption "string" (x: if builtins ? isString then builtins.isString x else x + "") lib.concatStrings; mergeOneOption = list: if list == [] then abort "This case should never happen." else if length list != 1 then throw "Multiple definitions. Only one is allowed for this option." else head list; fixableMergeFun = merge: f: config: merge ( # generate the list of option sets. f config ); fixableMergeModules = merge: initModules: {...}@args: config: fixableMergeFun merge (config: lib.moduleClosure initModules (args // { inherit config; }) ) config; fixableDefinitionsOf = initModules: {...}@args: fixableMergeModules (modules: (lib.moduleMerge "" modules).config) initModules args; fixableDeclarationsOf = initModules: {...}@args: fixableMergeModules (modules: (lib.moduleMerge "" modules).options) initModules args; definitionsOf = initModules: {...}@args: (lib.fix (module: fixableMergeModules (lib.moduleMerge "") initModules args module.config )).config; declarationsOf = initModules: {...}@args: (lib.fix (module: fixableMergeModules (lib.moduleMerge "") initModules args module.config )).options; # Generate documentation template from the list of option declaration like # the set generated with filterOptionSets. optionAttrSetToDocList = ignore: newOptionAttrSetToDocList; newOptionAttrSetToDocList = attrs: let options = collect isOption attrs; in fold (opt: rest: let docOption = { inherit (opt) name; description = if opt ? description then opt.description else throw "Option ${opt.name}: No description."; declarations = map (x: toString x.source) opt.declarations; #definitions = map (x: toString x.source) opt.definitions; } // optionalAttrs (opt ? example) { example = scrubOptionValue opt.example; } // optionalAttrs (opt ? default) { default = scrubOptionValue opt.default; } // optionalAttrs (opt ? defaultText) { default = opt.defaultText; }; subOptions = if opt ? options then newOptionAttrSetToDocList opt.options else []; in [ docOption ] ++ subOptions ++ rest ) [] options; /* This function recursively removes all derivation attributes from `x' except for the `name' attribute. This is to make the generation of `options.xml' much more efficient: the XML representation of derivations is very large (on the order of megabytes) and is not actually used by the manual generator. */ scrubOptionValue = x: if isDerivation x then { type = "derivation"; drvPath = x.name; outPath = x.name; name = x.name; } else if isList x then map scrubOptionValue x else if isAttrs x then mapAttrs (n: v: scrubOptionValue v) (removeAttrs x ["_args"]) else x; /* For use in the ‘example’ option attribute. It causes the given text to be included verbatim in documentation. This is necessary for example values that are not simple values, e.g., functions. */ literalExample = text: { _type = "literalExample"; inherit text; }; }