# A partial and basic implementation of GVariant formatted strings. # # Note, this API is not considered fully stable and it might therefore # change in backwards incompatible ways without prior notice. { lib }: with lib; let mkPrimitive = t: v: { _type = "gvariant"; type = t; value = v; __toString = self: "@${self.type} ${toString self.value}"; }; type = { arrayOf = t: "a${t}"; maybeOf = t: "m${t}"; tupleOf = ts: "(${concatStrings ts})"; string = "s"; boolean = "b"; uchar = "y"; int16 = "n"; uint16 = "q"; int32 = "i"; uint32 = "u"; int64 = "x"; uint64 = "t"; double = "d"; }; # Returns the GVariant type of a given Nix value. If no type can be # found for the value then the empty string is returned. typeOf = v: with type; if builtins.isBool v then boolean else if builtins.isInt v then int32 else if builtins.isFloat v then double else if builtins.isString v then string else if builtins.isList v then let elemType = elemTypeOf v; in if elemType == "" then "" else arrayOf elemType else if builtins.isAttrs v && v ? type then v.type else ""; elemTypeOf = vs: if builtins.isList vs then if vs == [ ] then "" else typeOf (head vs) else ""; mkMaybe = elemType: elem: mkPrimitive (type.maybeOf elemType) elem // { __toString = self: if self.value == null then "@${self.type} nothing" else "just ${toString self.value}"; }; in rec { inherit type typeOf; isArray = hasPrefix "a"; isMaybe = hasPrefix "m"; isTuple = hasPrefix "("; # Returns the GVariant value that most closely matches the given Nix # value. If no GVariant value can be found then `null` is returned. # # No support for dictionaries, maybe types, or variants. mkValue = v: if builtins.isBool v then mkBoolean v else if builtins.isInt v then mkInt32 v else if builtins.isFloat v then mkDouble v else if builtins.isString v then mkString v else if builtins.isList v then if v == [ ] then mkArray type.string [ ] else mkArray (elemTypeOf v) v else if builtins.isAttrs v && (v._type or "") == "gvariant" then v else null; mkArray = elemType: elems: mkPrimitive (type.arrayOf elemType) (map mkValue elems) // { __toString = self: "@${self.type} [${concatMapStringsSep "," toString self.value}]"; }; mkEmptyArray = elemType: mkArray elemType [ ]; mkNothing = elemType: mkMaybe elemType null; mkJust = elem: let gvarElem = mkValue elem; in mkMaybe gvarElem.type gvarElem; mkTuple = elems: let gvarElems = map mkValue elems; tupleType = type.tupleOf (map (e: e.type) gvarElems); in mkPrimitive tupleType gvarElems // { __toString = self: "@${self.type} (${concatMapStringsSep "," toString self.value})"; }; mkBoolean = v: mkPrimitive type.boolean v // { __toString = self: if self.value then "true" else "false"; }; mkString = v: let sanitize = s: replaceStrings [ "\n" ] [ "\\n" ] (escape [ "'" "\\" ] s); in mkPrimitive type.string v // { __toString = self: "'${sanitize self.value}'"; }; mkObjectpath = v: mkPrimitive type.string v // { __toString = self: "objectpath '${escape [ "'" ] self.value}'"; }; mkUchar = mkPrimitive type.uchar; mkInt16 = mkPrimitive type.int16; mkUint16 = mkPrimitive type.uint16; mkInt32 = v: mkPrimitive type.int32 v // { __toString = self: toString self.value; }; mkUint32 = mkPrimitive type.uint32; mkInt64 = mkPrimitive type.int64; mkUint64 = mkPrimitive type.uint64; mkDouble = v: mkPrimitive type.double v // { __toString = self: toString self.value; }; }