Mercurial > urweb
view lib/ur/top.urs @ 2184:1ecef02f67c5
More Elaborate work to avoid instantiating unification variables with out-of-scope regular variables
author | Adam Chlipala <adam@chlipala.net> |
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date | Sat, 24 Oct 2015 17:23:07 -0400 |
parents | 9029e0e2c67c |
children |
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(** Row folding *) con folder :: K --> {K} -> Type val fold : K --> tf :: ({K} -> Type) -> (nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] => tf r -> tf ([nm = v] ++ r)) -> tf [] -> r ::: {K} -> folder r -> tf r structure Folder : sig val nil : K --> folder (([]) :: {K}) val cons : K --> r ::: {K} -> nm :: Name -> v :: K -> [[nm] ~ r] => folder r -> folder ([nm = v] ++ r) val concat : K --> r1 ::: {K} -> r2 ::: {K} -> [r1 ~ r2] => folder r1 -> folder r2 -> folder (r1 ++ r2) val mp : K1 --> K2 --> f ::: (K1 -> K2) -> r ::: {K1} -> folder r -> folder (map f r) end val not : bool -> bool (* Type-level identity function *) con ident = K ==> fn t :: K => t (* Type-level function which yields the value-level record described by the given type-level record *) con record = fn t :: {Type} => $t con fst = K1 ==> K2 ==> fn t :: (K1 * K2) => t.1 con snd = K1 ==> K2 ==> fn t :: (K1 * K2) => t.2 con fst3 = K1 ==> K2 ==> K3 ==> fn t :: (K1 * K2 * K3) => t.1 con snd3 = K1 ==> K2 ==> K3 ==> fn t :: (K1 * K2 * K3) => t.2 con thd3 = K1 ==> K2 ==> K3 ==> fn t :: (K1 * K2 * K3) => t.3 (* Convert a record of n Units into a type-level record where each field has the same value (which describes a uniformly typed record) *) con mapU = K ==> fn f :: K => map (fn _ :: Unit => f) (* Existential type former *) con ex :: K --> (K -> Type) -> Type (* Introduction of existential type *) val ex_intro : K --> tf :: (K -> Type) -> choice :: K -> tf choice -> ex tf (* Eliminator for existential type *) val ex_elim : K --> tf ::: (K -> Type) -> ex tf -> res ::: Type -> (choice :: K -> tf choice -> res) -> res (* Composition of ordinary (value-level) functions *) val compose : t1 ::: Type -> t2 ::: Type -> t3 ::: Type -> (t2 -> t3) -> (t1 -> t2) -> (t1 -> t3) val show_option : t ::: Type -> show t -> show (option t) val read_option : t ::: Type -> read t -> read (option t) val txt : t ::: Type -> ctx ::: {Unit} -> use ::: {Type} -> show t -> t -> xml ctx use [] (* Given a polymorphic type (tf) and a means of constructing "default" values of tf applied to arbitrary arguments, constructs records consisting of those "default" values *) val map0 : K --> tf :: (K -> Type) -> (t :: K -> tf t) -> r ::: {K} -> folder r -> $(map tf r) (* Given two polymorphic types (tf1 and tf2) and a means of converting from tf1 t to tf2 t for arbitrary t, converts records of tf1's to records of tf2's *) val mp : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> (t ::: K -> tf1 t -> tf2 t) -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) (* Two-argument conversion form of mp *) val map2 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> tf :: (K -> Type) -> (t ::: K -> tf1 t -> tf2 t -> tf t) -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> $(map tf r) (* Three-argument conversion form of mp *) val map3 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> tf3 :: (K -> Type) -> tf :: (K -> Type) -> (t ::: K -> tf1 t -> tf2 t -> tf3 t -> tf t) -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> $(map tf3 r) -> $(map tf r) (* Fold along a uniformly (homogenously) typed record *) val foldUR : tf :: Type -> tr :: ({Unit} -> Type) -> (nm :: Name -> rest :: {Unit} -> [[nm] ~ rest] => tf -> tr rest -> tr ([nm] ++ rest)) -> tr [] -> r ::: {Unit} -> folder r -> $(mapU tf r) -> tr r (* Fold (generalized safe zip) along two equal-length uniformly-typed records *) val foldUR2 : tf1 :: Type -> tf2 :: Type -> tr :: ({Unit} -> Type) -> (nm :: Name -> rest :: {Unit} -> [[nm] ~ rest] => tf1 -> tf2 -> tr rest -> tr ([nm] ++ rest)) -> tr [] -> r ::: {Unit} -> folder r -> $(mapU tf1 r) -> $(mapU tf2 r) -> tr r (* Fold along a heterogenously-typed record *) val foldR : K --> tf :: (K -> Type) -> tr :: ({K} -> Type) -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf t -> tr rest -> tr ([nm = t] ++ rest)) -> tr [] -> r ::: {K} -> folder r -> $(map tf r) -> tr r (* Fold (generalized safe zip) along two heterogenously-typed records *) val foldR2 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> tr :: ({K} -> Type) -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf1 t -> tf2 t -> tr rest -> tr ([nm = t] ++ rest)) -> tr [] -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> tr r (* Fold (generalized safe zip) along three heterogenously-typed records *) val foldR3 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> tf3 :: (K -> Type) -> tr :: ({K} -> Type) -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf1 t -> tf2 t -> tf3 t -> tr rest -> tr ([nm = t] ++ rest)) -> tr [] -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> $(map tf3 r) -> tr r (* Generate some XML by mapping over a uniformly-typed record *) val mapUX : tf :: Type -> ctx :: {Unit} -> (nm :: Name -> rest :: {Unit} -> [[nm] ~ rest] => tf -> xml ctx [] []) -> r ::: {Unit} -> folder r -> $(mapU tf r) -> xml ctx [] [] (* Generate some XML by mapping over a heterogenously-typed record *) val mapX : K --> tf :: (K -> Type) -> ctx :: {Unit} -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf t -> xml ctx [] []) -> r ::: {K} -> folder r -> $(map tf r) -> xml ctx [] [] val mapUX2 : tf1 :: Type -> tf2 :: Type -> ctx :: {Unit} -> (nm :: Name -> rest :: {Unit} -> [[nm] ~ rest] => tf1 -> tf2 -> xml ctx [] []) -> r ::: {Unit} -> folder r -> $(mapU tf1 r) -> $(mapU tf2 r) -> xml ctx [] [] val mapX2 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> ctx :: {Unit} -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf1 t -> tf2 t -> xml ctx [] []) -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> xml ctx [] [] val mapX3 : K --> tf1 :: (K -> Type) -> tf2 :: (K -> Type) -> tf3 :: (K -> Type) -> ctx :: {Unit} -> (nm :: Name -> t :: K -> rest :: {K} -> [[nm] ~ rest] => tf1 t -> tf2 t -> tf3 t -> xml ctx [] []) -> r ::: {K} -> folder r -> $(map tf1 r) -> $(map tf2 r) -> $(map tf3 r) -> xml ctx [] [] (* Note that the next two functions return elements in the _reverse_ of the natural order! * Such a choice interacts well with the time complexity of standard list operations. * It's easy to regain the natural order by inverting a query's 'ORDER BY' condition. *) val queryL : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> transaction (list $(exps ++ map (fn fields :: {Type} => $fields) tables)) val queryL1 : t ::: Name -> fs ::: {Type} -> sql_query [] [] [t = fs] [] -> transaction (list $fs) val query1 : t ::: Name -> fs ::: {Type} -> state ::: Type -> sql_query [] [] [t = fs] [] -> ($fs -> state -> transaction state) -> state -> transaction state val query1' : t ::: Name -> fs ::: {Type} -> state ::: Type -> sql_query [] [] [t = fs] [] -> ($fs -> state -> state) -> state -> transaction state val queryI : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> ($(exps ++ map (fn fields :: {Type} => $fields) tables) -> transaction unit) -> transaction unit val queryI1 : nm ::: Name -> fs ::: {Type} -> sql_query [] [] [nm = fs] [] -> ($fs -> transaction unit) -> transaction unit val queryX : tables ::: {{Type}} -> exps ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> ($(exps ++ map (fn fields :: {Type} => $fields) tables) -> xml ctx inp []) -> transaction (xml ctx inp []) val queryXI : tables ::: {{Type}} -> exps ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> (int -> $(exps ++ map (fn fields :: {Type} => $fields) tables) -> xml ctx inp []) -> transaction (xml ctx inp []) val queryX1 : nm ::: Name -> fs ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> sql_query [] [] [nm = fs] [] -> ($fs -> xml ctx inp []) -> transaction (xml ctx inp []) val queryX1I : nm ::: Name -> fs ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> sql_query [] [] [nm = fs] [] -> (int -> $fs -> xml ctx inp []) -> transaction (xml ctx inp []) val queryX' : tables ::: {{Type}} -> exps ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> ($(exps ++ map (fn fields :: {Type} => $fields) tables) -> transaction (xml ctx inp [])) -> transaction (xml ctx inp []) val queryX1' : nm ::: Name -> fs ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> sql_query [] [] [nm = fs] [] -> ($fs -> transaction (xml ctx inp [])) -> transaction (xml ctx inp []) val queryXE' : exps ::: {Type} -> ctx ::: {Unit} -> inp ::: {Type} -> sql_query [] [] [] exps -> ($exps -> transaction (xml ctx inp [])) -> transaction (xml ctx inp []) val hasRows : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> transaction bool val oneOrNoRows : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> transaction (option $(exps ++ map (fn fields :: {Type} => $fields) tables)) val oneOrNoRows1 : nm ::: Name -> fs ::: {Type} -> sql_query [] [] [nm = fs] [] -> transaction (option $fs) val oneOrNoRowsE1 : tabs ::: {Unit} -> nm ::: Name -> t ::: Type -> [tabs ~ [nm]] => sql_query [] [] (mapU [] tabs) [nm = t] -> transaction (option t) val oneRow : tables ::: {{Type}} -> exps ::: {Type} -> [tables ~ exps] => sql_query [] [] tables exps -> transaction $(exps ++ map (fn fields :: {Type} => $fields) tables) val oneRow1 : nm ::: Name -> fs ::: {Type} -> sql_query [] [] [nm = fs] [] -> transaction $fs val oneRowE1 : tabs ::: {Unit} -> nm ::: Name -> t ::: Type -> [tabs ~ [nm]] => sql_query [] [] (mapU [] tabs) [nm = t] -> transaction t val nonempty : fs ::: {Type} -> us ::: {{Unit}} -> sql_table fs us -> transaction bool val eqNullable : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_injectable (option t) -> sql_exp tables agg exps (option t) -> sql_exp tables agg exps (option t) -> sql_exp tables agg exps bool val eqNullable' : tables ::: {{Type}} -> agg ::: {{Type}} -> exps ::: {Type} -> t ::: Type -> sql_injectable (option t) -> sql_exp tables agg exps (option t) -> option t -> sql_exp tables agg exps bool val mkRead' : t ::: Type -> (string -> option t) -> string -> read t val postFields : postBody -> list (string * string) val max : t ::: Type -> ord t -> t -> t -> t val min : t ::: Type -> ord t -> t -> t -> t val assert : t ::: Type -> bool (* Did we avoid something bad? *) -> string (* Explanation of the bad thing *) -> string (* Source location of the bad thing *) -> t (* Return this value if all went well. *) -> t