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(** Row folding *)

con folder = K ==> fn r :: {K} =>
                      tf :: ({K} -> Type)
                      -> (nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] =>
                          tf r -> tf ([nm = v] ++ r))
                      -> tf [] -> tf r

fun fold [K] [tf :: {K} -> Type]
         (f : (nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] =>
               tf r -> tf ([nm = v] ++ r)))
         (i : tf []) [r :: {K}] (fl : folder r) = fl [tf] f i

structure Folder = struct
    fun nil [K] [tf :: {K} -> Type]
            (f : nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] =>
             tf r -> tf ([nm = v] ++ r))
            (i : tf []) = i

    fun cons [K] [r ::: {K}] [nm :: Name] [v :: K] [[nm] ~ r] (fold : folder r)
             [tf :: {K} -> Type]
             (f : nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] =>
              tf r -> tf ([nm = v] ++ r))
             (i : tf []) = f [nm] [v] [r] ! (fold [tf] f i)

    fun concat [K] [r1 ::: {K}] [r2 ::: {K}] [r1 ~ r2]
        (f1 : folder r1) (f2 : folder r2)
        [tf :: {K} -> Type]
        (f : nm :: Name -> v :: K -> r :: {K} -> [[nm] ~ r] =>
         tf r -> tf ([nm = v] ++ r))
        (i : tf []) =
        f1 [fn r1' => [r1' ~ r2] => tf (r1' ++ r2)]
           (fn [nm :: Name] [v :: K] [r1' :: {K}] [[nm] ~ r1']
                            (acc : [r1' ~ r2] => tf (r1' ++ r2))
                            [[nm = v] ++ r1' ~ r2] =>
               f [nm] [v] [r1' ++ r2] ! acc)
           (fn [[] ~ r2] => f2 [tf] f i) !

    fun mp [K1] [K2] [f ::: K1 -> K2] [r ::: {K1}]
        (fold : folder r)
        [tf :: {K2} -> Type]
        (f : nm :: Name -> v :: K2 -> r :: {K2} -> [[nm] ~ r] =>
         tf r -> tf ([nm = v] ++ r))
        (i : tf []) =
        fold [fn r => tf (map f r)]
        (fn [nm :: Name] [v :: K1] [rest :: {K1}] [[nm] ~ rest] (acc : tf (map f rest)) =>
            f [nm] [f v] [map f rest] ! acc)
        i
end


fun not b = if b then False else True

con idT (t :: Type) = t
con record (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

con mapU = K ==> fn f :: K => map (fn _ :: Unit => f)

con ex = fn tf :: (Type -> Type) =>
            res ::: Type -> (choice :: Type -> tf choice -> res) -> res

fun ex [tf :: (Type -> Type)] [choice :: Type] (body : tf choice) : ex tf =
 fn [res] (f : choice :: Type -> tf choice -> res) =>
    f [choice] body

fun compose [t1 ::: Type] [t2 ::: Type] [t3 ::: Type]
            (f1 : t2 -> t3) (f2 : t1 -> t2) (x : t1) = f1 (f2 x)

fun show_option [t ::: Type] (_ : show t) =
    mkShow (fn opt : option t =>
               case opt of
                   None => ""
                 | Some x => show x)

fun read_option [t ::: Type] (_ : read t) =
    mkRead (fn s =>
               case s of
                   "" => None
                 | _ => Some (readError s : t))
           (fn s =>
               case s of
                   "" => Some None
                 | _ => case read s of
                            None => None
                          | v => Some v)

fun txt [t] [ctx ::: {Unit}] [use ::: {Type}] (_ : show t) (v : t) =
    cdata (show v)

fun foldUR [tf :: Type] [tr :: {Unit} -> Type]
           (f : nm :: Name -> rest :: {Unit}
                -> [[nm] ~ rest] =>
                      tf -> tr rest -> tr ([nm] ++ rest))
           (i : tr []) [r :: {Unit}] (fl : folder r)=
    fl [fn r :: {Unit} => $(mapU tf r) -> tr r]
       (fn [nm :: Name] [t :: Unit] [rest :: {Unit}] [[nm] ~ rest] acc r =>
           f [nm] [rest] ! r.nm (acc (r -- nm)))
       (fn _ => i)

fun foldUR2 [tf1 :: Type] [tf2 :: Type] [tr :: {Unit} -> Type]
           (f : nm :: Name -> rest :: {Unit}
                -> [[nm] ~ rest] =>
                      tf1 -> tf2 -> tr rest -> tr ([nm] ++ rest))
           (i : tr []) [r :: {Unit}] (fl : folder r) =
    fl [fn r :: {Unit} => $(mapU tf1 r) -> $(mapU tf2 r) -> tr r]
       (fn [nm :: Name] [t :: Unit] [rest :: {Unit}] [[nm] ~ rest] acc r1 r2 =>
           f [nm] [rest] ! r1.nm r2.nm (acc (r1 -- nm) (r2 -- nm)))
       (fn _ _ => i)

fun foldURX2 [tf1 :: Type] [tf2 :: Type] [ctx :: {Unit}]
           (f : nm :: Name -> rest :: {Unit}
                -> [[nm] ~ rest] =>
                      tf1 -> tf2 -> xml ctx [] []) =
    foldUR2 [tf1] [tf2] [fn _ => xml ctx [] []]
            (fn [nm :: Name] [rest :: {Unit}] [[nm] ~ rest] v1 v2 acc =>
                <xml>{f [nm] [rest] ! v1 v2}{acc}</xml>)
            <xml/>

fun foldR [K] [tf :: K -> Type] [tr :: {K} -> Type]
           (f : nm :: Name -> t :: K -> rest :: {K}
                -> [[nm] ~ rest] =>
                      tf t -> tr rest -> tr ([nm = t] ++ rest))
           (i : tr []) [r :: {K}] (fl : folder r) =
    fl [fn r :: {K} => $(map tf r) -> tr r]
       (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] (acc : _ -> tr rest) r =>
           f [nm] [t] [rest] ! r.nm (acc (r -- nm)))
       (fn _ => i)

fun foldR2 [K] [tf1 :: K -> Type] [tf2 :: K -> Type] [tr :: {K} -> Type]
            (f : nm :: Name -> t :: K -> rest :: {K}
                 -> [[nm] ~ rest] =>
                       tf1 t -> tf2 t -> tr rest -> tr ([nm = t] ++ rest))
            (i : tr []) [r :: {K}] (fl : folder r) =
    fl [fn r :: {K} => $(map tf1 r) -> $(map tf2 r) -> tr r]
       (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] 
                        (acc : _ -> _ -> tr rest) r1 r2 =>
           f [nm] [t] [rest] ! r1.nm r2.nm (acc (r1 -- nm) (r2 -- nm)))
       (fn _ _ => i)

fun foldRX [K] [tf :: K -> Type] [ctx :: {Unit}]
            (f : nm :: Name -> t :: K -> rest :: {K}
                 -> [[nm] ~ rest] =>
                       tf t -> xml ctx [] []) =
    foldR [tf] [fn _ => xml ctx [] []]
          (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] r acc =>
              <xml>{f [nm] [t] [rest] ! r}{acc}</xml>)
          <xml/>

fun foldRX2 [K] [tf1 :: K -> Type] [tf2 :: K -> Type] [ctx :: {Unit}]
             (f : nm :: Name -> t :: K -> rest :: {K}
                  -> [[nm] ~ rest] =>
                        tf1 t -> tf2 t -> xml ctx [] []) =
    foldR2 [tf1] [tf2] [fn _ => xml ctx [] []]
           (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest]
                            r1 r2 acc =>
               <xml>{f [nm] [t] [rest] ! r1 r2}{acc}</xml>)
           <xml/>

fun queryI [tables ::: {{Type}}] [exps ::: {Type}]
           [tables ~ exps] (q : sql_query tables exps)
           (f : $(exps ++ map (fn fields :: {Type} => $fields) tables)
                -> transaction unit) =
    query q
          (fn fs _ => f fs)
          ()

fun queryX [tables ::: {{Type}}] [exps ::: {Type}] [ctx ::: {Unit}]
           [tables ~ exps] (q : sql_query tables exps)
           (f : $(exps ++ map (fn fields :: {Type} => $fields) tables)
                -> xml ctx [] []) =
    query q
          (fn fs acc => return <xml>{acc}{f fs}</xml>)
          <xml/>

fun queryX' [tables ::: {{Type}}] [exps ::: {Type}] [ctx ::: {Unit}]
            [tables ~ exps] (q : sql_query tables exps)
            (f : $(exps ++ map (fn fields :: {Type} => $fields) tables)
                 -> transaction (xml ctx [] [])) =
    query q
          (fn fs acc =>
              r <- f fs;
              return <xml>{acc}{r}</xml>)
          <xml/>

fun oneOrNoRows [tables ::: {{Type}}] [exps ::: {Type}]
                [tables ~ exps]
                (q : sql_query tables exps)  =
    query q
          (fn fs _ => return (Some fs))
          None

fun oneRow [tables ::: {{Type}}] [exps ::: {Type}]
           [tables ~ exps] (q : sql_query tables exps) =
    o <- oneOrNoRows q;
    return (case o of
                None => error <xml>Query returned no rows</xml>
              | Some r => r)

fun eqNullable [tables ::: {{Type}}] [agg ::: {{Type}}] [exps ::: {Type}]
    [t ::: Type] (_ : sql_injectable (option t))
    (e1 : sql_exp tables agg exps (option t))
    (e2 : sql_exp tables agg exps (option t)) =
    (SQL ({e1} IS NULL AND {e2} IS NULL) OR {e1} = {e2})

fun eqNullable' [tables ::: {{Type}}] [agg ::: {{Type}}] [exps ::: {Type}]
    [t ::: Type] (_ : sql_injectable (option t))
    (e1 : sql_exp tables agg exps (option t))
    (e2 : option t) =
    case e2 of
        None => (SQL {e1} IS NULL)
      | Some _ => sql_binary sql_eq e1 (sql_inject e2)