{ depot, lib, ... }: let # Takes a tag, checks whether it is an attrset with one element, # if so sets `isTag` to `true` and sets the name and value. # If not, sets `isTag` to `false` and sets `errmsg`. verifyTag = tag: let cases = builtins.attrNames tag; len = builtins.length cases; in if builtins.length cases == 1 then let name = builtins.head cases; in { isTag = true; name = name; val = tag.${name}; errmsg = null; } else { isTag = false; errmsg = ("match: an instance of a sum is an attrset " + "with exactly one element, yours had ${toString len}" + ", namely: ${lib.generators.toPretty {} cases}"); name = null; val = null; }; # Returns the tag name of a given tag attribute set. # Throws if the tag is invalid. # # Type: tag -> string tagName = tag: (assertIsTag tag).name; # Returns the tagged value of a given tag attribute set. # Throws if the tag is invalid. # # Type: tag -> any tagValue = tag: (assertIsTag tag).val; # like `verifyTag`, but throws the error message if it is not a tag. assertIsTag = tag: let res = verifyTag tag; in assert res.isTag || throw res.errmsg; { inherit (res) name val; }; # Discriminator for values. # Goes through a list of tagged predicates `{ <tag> = <pred>; }` # and returns the value inside the tag # for which the first predicate applies, `{ <tag> = v; }`. # They can then later be matched on with `match`. # # `defTag` is the tag that is assigned if there is no match. # # Examples: # discrDef "smol" [ # { biggerFive = i: i > 5; } # { negative = i: i < 0; } # ] (-100) # => { negative = -100; } # discrDef "smol" [ # { biggerFive = i: i > 5; } # { negative = i: i < 0; } # ] 1 # => { smol = 1; } discrDef = defTag: fs: v: let res = lib.findFirst (t: t.val v) null (map assertIsTag fs); in if res == null then { ${defTag} = v; } else { ${res.name} = v; }; # Like `discrDef`, but fail if there is no match. discr = fs: v: let res = discrDef null fs v; in assert lib.assertMsg (res != null) "tag.discr: No predicate found that matches ${lib.generators.toPretty {} v}"; res; # The canonical pattern matching primitive. # A sum value is an attribute set with one element, # whose key is the name of the variant and # whose value is the content of the variant. # `matcher` is an attribute set which enumerates # all possible variants as keys and provides a function # which handles each variant’s content. # You should make an effort to return values of the same # type in your matcher, or new sums. # # Example: # let # success = { res = 42; }; # failure = { err = "no answer"; }; # matcher = { # res = i: i + 1; # err = _: 0; # }; # in # match success matcher == 43 # && match failure matcher == 0; # match = sum: matcher: let cases = builtins.attrNames sum; in assert let len = builtins.length cases; in lib.assertMsg (len == 1) ("match: an instance of a sum is an attrset " + "with exactly one element, yours had ${toString len}" + ", namely: ${lib.generators.toPretty {} cases}"); let case = builtins.head cases; in assert lib.assertMsg (matcher ? ${case}) ("match: \"${case}\" is not a valid case of this sum, " + "the matcher accepts: ${lib.generators.toPretty {} (builtins.attrNames matcher)}"); matcher.${case} sum.${case}; # A `match` with the arguments flipped. # “Lam” stands for “lambda”, because it can be used like the # `\case` LambdaCase statement in Haskell, to create a curried # “matcher” function ready to take a value. # # Example: # lib.pipe { foo = 42; } [ # (matchLam { # foo = i: if i < 23 then { small = i; } else { big = i; }; # bar = _: { small = 5; }; # }) # (matchLam { # small = i: "yay it was small"; # big = i: "whoo it was big!"; # }) # ] # => "whoo it was big!"; matchLam = matcher: sum: match sum matcher; tests = import ./tests.nix { inherit depot lib verifyTag discr discrDef match matchLam ; }; in { inherit verifyTag tagName tagValue discr discrDef match matchLam tests ; }