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|
(* Copyright (c) 2008, Adam Chlipala
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* - The names of contributors may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*)
(* Grammar for Ur/Web programs *)
open Source
val s = ErrorMsg.spanOf
val dummy = ErrorMsg.dummySpan
fun capitalize "" = ""
| capitalize s = str (Char.toUpper (String.sub (s, 0))) ^ String.extract (s, 1, NONE)
fun entable t =
case #1 t of
TRecord c => c
| _ => t
datatype select_item =
Field of con * con
| Exp of con * exp
datatype select =
Star
| Items of select_item list
datatype group_item =
GField of con * con
fun eqTnames ((c1, _), (c2, _)) =
case (c1, c2) of
(CVar (ms1, x1), CVar (ms2, x2)) => ms1 = ms2 andalso x1 = x2
| (CName x1, CName x2) => x1 = x2
| _ => false
fun amend_select loc (si, (tabs, exps)) =
case si of
Field (tx, fx) =>
let
val c = (CRecord ([(fx, (CWild (KType, loc), loc))]), loc)
val (tabs, found) = ListUtil.foldlMap (fn ((tx', c'), found) =>
if eqTnames (tx, tx') then
((tx', (CConcat (c, c'), loc)), true)
else
((tx', c'), found))
false tabs
in
if found then
()
else
ErrorMsg.errorAt loc "Select of field from unbound table";
(tabs, exps)
end
| Exp (c, e) => (tabs, (c, e) :: exps)
fun amend_group loc (gi, tabs) =
let
val (tx, c) = case gi of
GField (tx, fx) => (tx, (CRecord ([(fx, (CWild (KType, loc), loc))]), loc))
val (tabs, found) = ListUtil.foldlMap (fn ((tx', c'), found) =>
if eqTnames (tx, tx') then
((tx', (CConcat (c, c'), loc)), true)
else
((tx', c'), found))
false tabs
in
if found then
()
else
ErrorMsg.errorAt loc "Select of field from unbound table";
tabs
end
fun sql_inject (v, t, loc) =
let
val e = (EApp ((EVar (["Basis"], "sql_inject"), loc), (t, loc)), loc)
in
(EApp (e, (v, loc)), loc)
end
fun sql_compare (oper, sqlexp1, sqlexp2, loc) =
let
val e = (EVar (["Basis"], "sql_comparison"), loc)
val e = (EApp (e, (EVar (["Basis"], "sql_" ^ oper), loc)), loc)
val e = (EApp (e, sqlexp1), loc)
in
(EApp (e, sqlexp2), loc)
end
fun sql_binary (oper, sqlexp1, sqlexp2, loc) =
let
val e = (EVar (["Basis"], "sql_binary"), loc)
val e = (EApp (e, (EVar (["Basis"], "sql_" ^ oper), loc)), loc)
val e = (EApp (e, sqlexp1), loc)
in
(EApp (e, sqlexp2), loc)
end
fun sql_unary (oper, sqlexp, loc) =
let
val e = (EVar (["Basis"], "sql_unary"), loc)
val e = (EApp (e, (EVar (["Basis"], "sql_" ^ oper), loc)), loc)
in
(EApp (e, sqlexp), loc)
end
fun sql_relop (oper, sqlexp1, sqlexp2, loc) =
let
val e = (EVar (["Basis"], "sql_relop"), loc)
val e = (EApp (e, (EVar (["Basis"], "sql_" ^ oper), loc)), loc)
val e = (EApp (e, sqlexp1), loc)
in
(EApp (e, sqlexp2), loc)
end
fun native_op (oper, e1, e2, loc) =
let
val e = (EVar (["Basis"], oper), loc)
val e = (EApp (e, (EWild, loc)), loc)
val e = (EApp (e, e1), loc)
in
(EApp (e, e2), loc)
end
%%
%header (functor UrwebLrValsFn(structure Token : TOKEN))
%term
EOF
| STRING of string | INT of Int64.int | FLOAT of Real64.real
| SYMBOL of string | CSYMBOL of string
| LPAREN | RPAREN | LBRACK | RBRACK | LBRACE | RBRACE
| EQ | COMMA | COLON | DCOLON | TCOLON | DOT | HASH | UNDER | UNDERUNDER | BAR
| DIVIDE | DOTDOTDOT
| CON | LTYPE | VAL | REC | AND | FUN | FOLD | UNIT | KUNIT | CLASS
| DATATYPE | OF
| TYPE | NAME
| ARROW | LARROW | DARROW | STAR | SEMI
| FN | PLUSPLUS | MINUSMINUS | DOLLAR | TWIDDLE
| STRUCTURE | SIGNATURE | STRUCT | SIG | END | FUNCTOR | WHERE | EXTERN
| INCLUDE | OPEN | CONSTRAINT | CONSTRAINTS | EXPORT | TABLE
| CASE | IF | THEN | ELSE
| XML_BEGIN of string | XML_END
| NOTAGS of string
| BEGIN_TAG of string | END_TAG of string
| SELECT | FROM | AS | CWHERE | GROUP | ORDER | BY | HAVING
| UNION | INTERSECT | EXCEPT
| LIMIT | OFFSET | ALL
| TRUE | FALSE | CAND | OR | NOT
| COUNT | AVG | SUM | MIN | MAX
| ASC | DESC
| INSERT | INTO | VALUES | UPDATE | SET | DELETE
| NE | LT | LE | GT | GE
%nonterm
file of decl list
| decls of decl list
| decl of decl
| vali of string * con option * exp
| valis of (string * con option * exp) list
| copt of con option
| dargs of string list
| barOpt of unit
| dcons of (string * con option) list
| dcon of string * con option
| sgn of sgn
| sgntm of sgn
| sgi of sgn_item
| sgis of sgn_item list
| str of str
| kind of kind
| ktuple of kind list
| kcolon of explicitness
| kopt of kind option
| path of string list * string
| cpath of string list * string
| spath of str
| mpath of string list
| cexp of con
| capps of con
| cterm of con
| ctuple of con list
| ctuplev of con list
| ident of con
| idents of con list
| rcon of (con * con) list
| rconn of (con * con) list
| rcone of (con * con) list
| cargs of con * kind -> con * kind
| cargl of con * kind -> con * kind
| cargl2 of con * kind -> con * kind
| carg of con * kind -> con * kind
| cargp of con * kind -> con * kind
| eexp of exp
| eapps of exp
| eterm of exp
| etuple of exp list
| rexp of (con * exp) list
| xml of exp
| xmlOne of exp
| tag of string * exp
| tagHead of string * exp
| earg of exp * con -> exp * con
| eargp of exp * con -> exp * con
| eargs of exp * con -> exp * con
| eargl of exp * con -> exp * con
| eargl2 of exp * con -> exp * con
| branch of pat * exp
| branchs of (pat * exp) list
| pat of pat
| pterm of pat
| rpat of (string * pat) list * bool
| ptuple of pat list
| attrs of (con * exp) list
| attr of con * exp
| attrv of exp
| query of exp
| query1 of exp
| tables of (con * exp) list
| tname of con
| table of con * exp
| tident of con
| fident of con
| seli of select_item
| selis of select_item list
| select of select
| sqlexp of exp
| wopt of exp
| groupi of group_item
| groupis of group_item list
| gopt of group_item list option
| hopt of exp
| obopt of exp
| obitem of exp * exp
| obexps of exp
| diropt of exp
| lopt of exp
| ofopt of exp
| sqlint of exp
| sqlagg of string
| texp of exp
| fields of con list
| sqlexps of exp list
| fsets of (con * exp) list
%verbose (* print summary of errors *)
%pos int (* positions *)
%start file
%pure
%eop EOF
%noshift EOF
%name Urweb
%right SEMI
%nonassoc LARROW
%nonassoc IF THEN ELSE
%nonassoc DARROW
%nonassoc COLON
%nonassoc DCOLON TCOLON
%left UNION INTERSECT EXCEPT
%right COMMA
%right OR
%right CAND
%nonassoc EQ NE LT LE GT GE
%right ARROW
%right PLUSPLUS MINUSMINUS
%right STAR
%left NOT
%nonassoc TWIDDLE
%nonassoc DOLLAR
%left DOT
%nonassoc LBRACE RBRACE
%%
file : decls (decls)
| SIG sgis ([(DSgn ("?", (SgnConst sgis, s (SIGleft, sgisright))),
s (SIGleft, sgisright))])
decls : ([])
| decl decls (decl :: decls)
decl : CON SYMBOL cargl2 kopt EQ cexp (let
val loc = s (CONleft, cexpright)
val k = Option.getOpt (kopt, (KWild, loc))
val (c, k) = cargl2 (cexp, k)
in
(DCon (SYMBOL, SOME k, c), loc)
end)
| LTYPE SYMBOL EQ cexp (DCon (SYMBOL, SOME (KType, s (LTYPEleft, cexpright)), cexp),
s (LTYPEleft, cexpright))
| DATATYPE SYMBOL dargs EQ barOpt dcons(DDatatype (SYMBOL, dargs, dcons), s (DATATYPEleft, dconsright))
| DATATYPE SYMBOL dargs EQ DATATYPE CSYMBOL DOT path
(case dargs of
[] => (DDatatypeImp (SYMBOL, CSYMBOL :: #1 path, #2 path), s (DATATYPEleft, pathright))
| _ => raise Fail "Arguments specified for imported datatype")
| VAL vali (DVal vali, s (VALleft, valiright))
| VAL REC valis (DValRec valis, s (VALleft, valisright))
| FUN valis (DValRec valis, s (FUNleft, valisright))
| SIGNATURE CSYMBOL EQ sgn (DSgn (CSYMBOL, sgn), s (SIGNATUREleft, sgnright))
| STRUCTURE CSYMBOL EQ str (DStr (CSYMBOL, NONE, str), s (STRUCTUREleft, strright))
| STRUCTURE CSYMBOL COLON sgn EQ str (DStr (CSYMBOL, SOME sgn, str), s (STRUCTUREleft, strright))
| FUNCTOR CSYMBOL LPAREN CSYMBOL COLON sgn RPAREN EQ str
(DStr (CSYMBOL1, NONE,
(StrFun (CSYMBOL2, sgn1, NONE, str), s (FUNCTORleft, strright))),
s (FUNCTORleft, strright))
| FUNCTOR CSYMBOL LPAREN CSYMBOL COLON sgn RPAREN COLON sgn EQ str
(DStr (CSYMBOL1, NONE,
(StrFun (CSYMBOL2, sgn1, SOME sgn2, str), s (FUNCTORleft, strright))),
s (FUNCTORleft, strright))
| EXTERN STRUCTURE CSYMBOL COLON sgn (DFfiStr (CSYMBOL, sgn), s (EXTERNleft, sgnright))
| OPEN mpath (case mpath of
[] => raise Fail "Impossible mpath parse [1]"
| m :: ms => (DOpen (m, ms), s (OPENleft, mpathright)))
| OPEN CONSTRAINTS mpath (case mpath of
[] => raise Fail "Impossible mpath parse [3]"
| m :: ms => (DOpenConstraints (m, ms), s (OPENleft, mpathright)))
| CONSTRAINT cterm TWIDDLE cterm (DConstraint (cterm1, cterm2), s (CONSTRAINTleft, ctermright))
| EXPORT spath (DExport spath, s (EXPORTleft, spathright))
| TABLE SYMBOL COLON cexp (DTable (SYMBOL, entable cexp), s (TABLEleft, cexpright))
| CLASS SYMBOL EQ cexp (DClass (SYMBOL, cexp), s (CLASSleft, cexpright))
| CLASS SYMBOL SYMBOL EQ cexp (let
val loc = s (CLASSleft, cexpright)
val k = (KType, loc)
val c = (CAbs (SYMBOL2, SOME k, cexp), loc)
in
(DClass (SYMBOL1, c), s (CLASSleft, cexpright))
end)
kopt : (NONE)
| DCOLON kind (SOME kind)
dargs : ([])
| SYMBOL dargs (SYMBOL :: dargs)
barOpt : ()
| BAR ()
dcons : dcon ([dcon])
| dcon BAR dcons (dcon :: dcons)
dcon : CSYMBOL (CSYMBOL, NONE)
| CSYMBOL OF cexp (CSYMBOL, SOME cexp)
vali : SYMBOL eargl2 copt EQ eexp (let
val loc = s (SYMBOLleft, eexpright)
val t = Option.getOpt (copt, (CWild (KType, loc), loc))
val (e, t) = eargl2 (eexp, t)
in
(SYMBOL, SOME t, e)
end)
copt : (NONE)
| COLON cexp (SOME cexp)
valis : vali ([vali])
| vali AND valis (vali :: valis)
sgn : sgntm (sgntm)
| FUNCTOR LPAREN CSYMBOL COLON sgn RPAREN COLON sgn
(SgnFun (CSYMBOL, sgn1, sgn2), s (FUNCTORleft, sgn2right))
sgntm : SIG sgis END (SgnConst sgis, s (SIGleft, ENDright))
| mpath (case mpath of
[] => raise Fail "Impossible mpath parse [2]"
| [x] => SgnVar x
| m :: ms => SgnProj (m,
List.take (ms, length ms - 1),
List.nth (ms, length ms - 1)),
s (mpathleft, mpathright))
| sgntm WHERE CON SYMBOL EQ cexp (SgnWhere (sgntm, SYMBOL, cexp), s (sgntmleft, cexpright))
| sgntm WHERE LTYPE SYMBOL EQ cexp(SgnWhere (sgntm, SYMBOL, cexp), s (sgntmleft, cexpright))
| LPAREN sgn RPAREN (sgn)
sgi : CON SYMBOL DCOLON kind (SgiConAbs (SYMBOL, kind), s (CONleft, kindright))
| LTYPE SYMBOL (SgiConAbs (SYMBOL, (KType, s (LTYPEleft, SYMBOLright))),
s (LTYPEleft, SYMBOLright))
| CON SYMBOL EQ cexp (SgiCon (SYMBOL, NONE, cexp), s (CONleft, cexpright))
| CON SYMBOL DCOLON kind EQ cexp (SgiCon (SYMBOL, SOME kind, cexp), s (CONleft, cexpright))
| LTYPE SYMBOL EQ cexp (SgiCon (SYMBOL, SOME (KType, s (LTYPEleft, cexpright)), cexp),
s (LTYPEleft, cexpright))
| DATATYPE SYMBOL dargs EQ barOpt dcons(SgiDatatype (SYMBOL, dargs, dcons), s (DATATYPEleft, dconsright))
| DATATYPE SYMBOL dargs EQ DATATYPE CSYMBOL DOT path
(case dargs of
[] => (SgiDatatypeImp (SYMBOL, CSYMBOL :: #1 path, #2 path), s (DATATYPEleft, pathright))
| _ => raise Fail "Arguments specified for imported datatype")
| VAL SYMBOL COLON cexp (SgiVal (SYMBOL, cexp), s (VALleft, cexpright))
| STRUCTURE CSYMBOL COLON sgn (SgiStr (CSYMBOL, sgn), s (STRUCTUREleft, sgnright))
| SIGNATURE CSYMBOL EQ sgn (SgiSgn (CSYMBOL, sgn), s (SIGNATUREleft, sgnright))
| FUNCTOR CSYMBOL LPAREN CSYMBOL COLON sgn RPAREN COLON sgn
(SgiStr (CSYMBOL1,
(SgnFun (CSYMBOL2, sgn1, sgn2), s (FUNCTORleft, sgn2right))),
s (FUNCTORleft, sgn2right))
| INCLUDE sgn (SgiInclude sgn, s (INCLUDEleft, sgnright))
| CONSTRAINT cterm TWIDDLE cterm (SgiConstraint (cterm1, cterm2), s (CONSTRAINTleft, ctermright))
| TABLE SYMBOL COLON cexp (SgiTable (SYMBOL, entable cexp), s (TABLEleft, cexpright))
| CLASS SYMBOL (SgiClassAbs SYMBOL, s (CLASSleft, SYMBOLright))
| CLASS SYMBOL EQ cexp (SgiClass (SYMBOL, cexp), s (CLASSleft, cexpright))
| CLASS SYMBOL SYMBOL EQ cexp (let
val loc = s (CLASSleft, cexpright)
val k = (KType, loc)
val c = (CAbs (SYMBOL2, SOME k, cexp), loc)
in
(SgiClass (SYMBOL1, c), s (CLASSleft, cexpright))
end)
sgis : ([])
| sgi sgis (sgi :: sgis)
str : STRUCT decls END (StrConst decls, s (STRUCTleft, ENDright))
| spath (spath)
| FUNCTOR LPAREN CSYMBOL COLON sgn RPAREN DARROW str
(StrFun (CSYMBOL, sgn, NONE, str), s (FUNCTORleft, strright))
| FUNCTOR LPAREN CSYMBOL COLON sgn RPAREN COLON sgn DARROW str
(StrFun (CSYMBOL, sgn1, SOME sgn2, str), s (FUNCTORleft, strright))
| spath LPAREN str RPAREN (StrApp (spath, str), s (spathleft, RPARENright))
spath : CSYMBOL (StrVar CSYMBOL, s (CSYMBOLleft, CSYMBOLright))
| spath DOT CSYMBOL (StrProj (spath, CSYMBOL), s (spathleft, CSYMBOLright))
kind : TYPE (KType, s (TYPEleft, TYPEright))
| NAME (KName, s (NAMEleft, NAMEright))
| LBRACE kind RBRACE (KRecord kind, s (LBRACEleft, RBRACEright))
| kind ARROW kind (KArrow (kind1, kind2), s (kind1left, kind2right))
| LPAREN kind RPAREN (#1 kind, s (LPARENleft, RPARENright))
| KUNIT (KUnit, s (KUNITleft, KUNITright))
| UNDERUNDER (KWild, s (UNDERUNDERleft, UNDERUNDERright))
| LPAREN ktuple RPAREN (KTuple ktuple, s (LPARENleft, RPARENright))
ktuple : kind STAR kind ([kind1, kind2])
| kind STAR ktuple (kind :: ktuple)
capps : cterm (cterm)
| capps cterm (CApp (capps, cterm), s (cappsleft, ctermright))
cexp : capps (capps)
| cexp ARROW cexp (TFun (cexp1, cexp2), s (cexp1left, cexp2right))
| SYMBOL kcolon kind ARROW cexp (TCFun (kcolon, SYMBOL, kind, cexp), s (SYMBOLleft, cexpright))
| cexp PLUSPLUS cexp (CConcat (cexp1, cexp2), s (cexp1left, cexp1right))
| FN cargs DARROW cexp (#1 (cargs (cexp, (KWild, s (FNleft, cexpright)))))
| cterm TWIDDLE cterm DARROW cexp(CDisjoint (cterm1, cterm2, cexp), s (cterm1left, cexpright))
| cterm TWIDDLE cterm ARROW cexp (TDisjoint (cterm1, cterm2, cexp), s (cterm1left, cexpright))
| LPAREN cexp RPAREN DCOLON kind (CAnnot (cexp, kind), s (LPARENleft, kindright))
| UNDER DCOLON kind (CWild kind, s (UNDERleft, UNDERright))
| ctuple (let
val loc = s (ctupleleft, ctupleright)
in
(TRecord (CRecord (ListUtil.mapi (fn (i, c) =>
((CName (Int.toString (i + 1)), loc),
c)) ctuple),
loc), loc)
end)
kcolon : DCOLON (Explicit)
| TCOLON (Implicit)
cargs : carg (carg)
| cargl (cargl)
cargl : cargp cargp (cargp1 o cargp2)
| cargp cargl (cargp o cargl)
cargl2 : (fn x => x)
| cargp cargl2 (cargp o cargl2)
carg : SYMBOL DCOLON kind (fn (c, k) =>
let
val loc = s (SYMBOLleft, kindright)
in
((CAbs (SYMBOL, SOME kind, c), loc),
(KArrow (kind, k), loc))
end)
| cargp (cargp)
cargp : SYMBOL (fn (c, k) =>
let
val loc = s (SYMBOLleft, SYMBOLright)
in
((CAbs (SYMBOL, NONE, c), loc),
(KArrow ((KWild, loc), k), loc))
end)
| LPAREN SYMBOL DCOLON kind RPAREN (fn (c, k) =>
let
val loc = s (LPARENleft, RPARENright)
in
((CAbs (SYMBOL, SOME kind, c), loc),
(KArrow (kind, k), loc))
end)
path : SYMBOL ([], SYMBOL)
| CSYMBOL DOT path (let val (ms, x) = path in (CSYMBOL :: ms, x) end)
cpath : CSYMBOL ([], CSYMBOL)
| CSYMBOL DOT cpath (let val (ms, x) = cpath in (CSYMBOL :: ms, x) end)
mpath : CSYMBOL ([CSYMBOL])
| CSYMBOL DOT mpath (CSYMBOL :: mpath)
cterm : LPAREN cexp RPAREN (#1 cexp, s (LPARENleft, RPARENright))
| LBRACK rcon RBRACK (CRecord rcon, s (LBRACKleft, RBRACKright))
| LBRACK rconn RBRACK (CRecord rconn, s (LBRACKleft, RBRACKright))
| LBRACE rcone RBRACE (TRecord (CRecord rcone, s (LBRACEleft, RBRACEright)),
s (LBRACEleft, RBRACEright))
| DOLLAR cterm (TRecord cterm, s (DOLLARleft, ctermright))
| HASH CSYMBOL (CName CSYMBOL, s (HASHleft, CSYMBOLright))
| HASH INT (CName (Int64.toString INT), s (HASHleft, INTright))
| path (CVar path, s (pathleft, pathright))
| path DOT INT (CProj ((CVar path, s (pathleft, pathright)), Int64.toInt INT),
s (pathleft, INTright))
| UNDER (CWild (KWild, s (UNDERleft, UNDERright)), s (UNDERleft, UNDERright))
| FOLD (CFold, s (FOLDleft, FOLDright))
| UNIT (CUnit, s (UNITleft, UNITright))
| LPAREN ctuplev RPAREN (CTuple ctuplev, s (LPARENleft, RPARENright))
ctuplev: cexp COMMA cexp ([cexp1, cexp2])
| cexp COMMA ctuplev (cexp :: ctuplev)
ctuple : capps STAR capps ([capps1, capps2])
| capps STAR ctuple (capps :: ctuple)
rcon : ([])
| ident EQ cexp ([(ident, cexp)])
| ident EQ cexp COMMA rcon ((ident, cexp) :: rcon)
rconn : ident ([(ident, (CUnit, s (identleft, identright)))])
| ident COMMA rconn ((ident, (CUnit, s (identleft, identright))) :: rconn)
rcone : ([])
| ident COLON cexp ([(ident, cexp)])
| ident COLON cexp COMMA rcone ((ident, cexp) :: rcone)
ident : CSYMBOL (CName CSYMBOL, s (CSYMBOLleft, CSYMBOLright))
| INT (CName (Int64.toString INT), s (INTleft, INTright))
| SYMBOL (CVar ([], SYMBOL), s (SYMBOLleft, SYMBOLright))
eapps : eterm (eterm)
| eapps eterm (EApp (eapps, eterm), s (eappsleft, etermright))
| eapps LBRACK cexp RBRACK (ECApp (eapps, cexp), s (eappsleft, RBRACKright))
eexp : eapps (eapps)
| FN eargs DARROW eexp (let
val loc = s (FNleft, eexpright)
in
#1 (eargs (eexp, (CWild (KType, loc), loc)))
end)
| LBRACK cterm TWIDDLE cterm RBRACK DARROW eexp(EDisjoint (cterm1, cterm2, eexp), s (LBRACKleft, RBRACKright))
| eexp COLON cexp (EAnnot (eexp, cexp), s (eexpleft, cexpright))
| eexp MINUSMINUS cexp (ECut (eexp, cexp), s (eexpleft, cexpright))
| CASE eexp OF barOpt branch branchs (ECase (eexp, branch :: branchs), s (CASEleft, branchsright))
| IF eexp THEN eexp ELSE eexp (let
val loc = s (IFleft, eexp3right)
in
(ECase (eexp1, [((PCon (["Basis"], "True", NONE), loc), eexp2),
((PCon (["Basis"], "False", NONE), loc), eexp3)]), loc)
end)
| SYMBOL LARROW eexp SEMI eexp (let
val loc = s (SYMBOLleft, eexp2right)
val e = (EVar (["Basis"], "bind"), loc)
val e = (EApp (e, eexp1), loc)
in
(EApp (e, (EAbs (SYMBOL, NONE, eexp2), loc)), loc)
end)
| UNIT LARROW eexp SEMI eexp (let
val loc = s (UNITleft, eexp2right)
val e = (EVar (["Basis"], "bind"), loc)
val e = (EApp (e, eexp1), loc)
val t = (TRecord (CRecord [], loc), loc)
in
(EApp (e, (EAbs ("_", SOME t, eexp2), loc)), loc)
end)
| eexp EQ eexp (native_op ("eq", eexp1, eexp2, s (eexp1left, eexp2right)))
| eexp NE eexp (native_op ("ne", eexp1, eexp2, s (eexp1left, eexp2right)))
eargs : earg (earg)
| eargl (eargl)
eargl : eargp eargp (eargp1 o eargp2)
| eargp eargl (eargp o eargl)
eargl2 : (fn x => x)
| eargp eargl2 (eargp o eargl2)
earg : SYMBOL kcolon kind (fn (e, t) =>
let
val loc = s (SYMBOLleft, kindright)
in
((ECAbs (kcolon, SYMBOL, kind, e), loc),
(TCFun (kcolon, SYMBOL, kind, t), loc))
end)
| SYMBOL COLON cexp (fn (e, t) =>
let
val loc = s (SYMBOLleft, cexpright)
in
((EAbs (SYMBOL, SOME cexp, e), loc),
(TFun (cexp, t), loc))
end)
| UNDER COLON cexp (fn (e, t) =>
let
val loc = s (UNDERleft, cexpright)
in
((EAbs ("_", SOME cexp, e), loc),
(TFun (cexp, t), loc))
end)
| eargp (eargp)
eargp : SYMBOL (fn (e, t) =>
let
val loc = s (SYMBOLleft, SYMBOLright)
in
((EAbs (SYMBOL, NONE, e), loc),
(TFun ((CWild (KType, loc), loc), t), loc))
end)
| UNIT (fn (e, t) =>
let
val loc = s (UNITleft, UNITright)
val t' = (TRecord (CRecord [], loc), loc)
in
((EAbs ("_", SOME t', e), loc),
(TFun (t', t), loc))
end)
| UNDER (fn (e, t) =>
let
val loc = s (UNDERleft, UNDERright)
in
((EAbs ("_", NONE, e), loc),
(TFun ((CWild (KType, loc), loc), t), loc))
end)
| LPAREN SYMBOL kcolon kind RPAREN(fn (e, t) =>
let
val loc = s (LPARENleft, RPARENright)
in
((ECAbs (kcolon, SYMBOL, kind, e), loc),
(TCFun (kcolon, SYMBOL, kind, t), loc))
end)
| LPAREN SYMBOL COLON cexp RPAREN (fn (e, t) =>
let
val loc = s (LPARENleft, RPARENright)
in
((EAbs (SYMBOL, SOME cexp, e), loc),
(TFun (cexp, t), loc))
end)
| LPAREN UNDER COLON cexp RPAREN (fn (e, t) =>
let
val loc = s (LPARENleft, RPARENright)
in
((EAbs ("_", SOME cexp, e), loc),
(TFun (cexp, t), loc))
end)
eterm : LPAREN eexp RPAREN (#1 eexp, s (LPARENleft, RPARENright))
| LPAREN etuple RPAREN (let
val loc = s (LPARENleft, RPARENright)
in
(ERecord (ListUtil.mapi (fn (i, e) =>
((CName (Int.toString (i + 1)), loc),
e)) etuple), loc)
end)
| path (EVar path, s (pathleft, pathright))
| cpath (EVar cpath, s (cpathleft, cpathright))
| LBRACE rexp RBRACE (ERecord rexp, s (LBRACEleft, RBRACEright))
| UNIT (ERecord [], s (UNITleft, UNITright))
| INT (EPrim (Prim.Int INT), s (INTleft, INTright))
| FLOAT (EPrim (Prim.Float FLOAT), s (FLOATleft, FLOATright))
| STRING (EPrim (Prim.String STRING), s (STRINGleft, STRINGright))
| path DOT idents (let
val loc = s (pathleft, identsright)
in
foldl (fn (ident, e) =>
(EField (e, ident), loc))
(EVar path, s (pathleft, pathright)) idents
end)
| FOLD (EFold, s (FOLDleft, FOLDright))
| XML_BEGIN xml XML_END (xml)
| XML_BEGIN XML_END (EApp ((EVar (["Basis"], "cdata"), s (XML_BEGINleft, XML_ENDright)),
(EPrim (Prim.String ""), s (XML_BEGINleft, XML_ENDright))),
s (XML_BEGINleft, XML_ENDright))
| LPAREN query RPAREN (query)
| LPAREN CWHERE sqlexp RPAREN (sqlexp)
| LPAREN INSERT INTO texp LPAREN fields RPAREN VALUES LPAREN sqlexps RPAREN RPAREN
(let
val loc = s (LPAREN1left, RPAREN3right)
val e = (EVar (["Basis"], "insert"), loc)
val e = (EApp (e, texp), loc)
in
if length fields <> length sqlexps then
ErrorMsg.errorAt loc "Length mismatch in INSERT field specification"
else
();
(EApp (e, (ERecord (ListPair.zip (fields, sqlexps)), loc)), loc)
end)
| LPAREN UPDATE texp SET fsets CWHERE sqlexp RPAREN
(let
val loc = s (LPARENleft, RPARENright)
val e = (EVar (["Basis"], "update"), loc)
val e = (EApp (e, (ERecord fsets, loc)), loc)
val e = (EApp (e, texp), loc)
in
(EApp (e, sqlexp), loc)
end)
| LPAREN DELETE FROM texp CWHERE sqlexp RPAREN
(let
val loc = s (LPARENleft, RPARENright)
val e = (EVar (["Basis"], "delete"), loc)
val e = (EApp (e, texp), loc)
in
(EApp (e, sqlexp), loc)
end)
| UNDER (EWild, s (UNDERleft, UNDERright))
texp : SYMBOL (EVar ([], SYMBOL), s (SYMBOLleft, SYMBOLright))
| LBRACE LBRACE eexp RBRACE RBRACE (eexp)
fields : fident ([fident])
| fident COMMA fields (fident :: fields)
sqlexps: sqlexp ([sqlexp])
| sqlexp COMMA sqlexps (sqlexp :: sqlexps)
fsets : fident EQ sqlexp ([(fident, sqlexp)])
| fident EQ sqlexp COMMA fsets ((fident, sqlexp) :: fsets)
idents : ident ([ident])
| ident DOT idents (ident :: idents)
etuple : eexp COMMA eexp ([eexp1, eexp2])
| eexp COMMA etuple (eexp :: etuple)
branch : pat DARROW eexp (pat, eexp)
branchs: ([])
| BAR branch branchs (branch :: branchs)
pat : pterm (pterm)
| cpath pterm (PCon (#1 cpath, #2 cpath, SOME pterm), s (cpathleft, ptermright))
pterm : SYMBOL (PVar SYMBOL, s (SYMBOLleft, SYMBOLright))
| cpath (PCon (#1 cpath, #2 cpath, NONE), s (cpathleft, cpathright))
| UNDER (PWild, s (UNDERleft, UNDERright))
| INT (PPrim (Prim.Int INT), s (INTleft, INTright))
| STRING (PPrim (Prim.String STRING), s (STRINGleft, STRINGright))
| LPAREN pat RPAREN (pat)
| LBRACE RBRACE (PRecord ([], false), s (LBRACEleft, RBRACEright))
| UNIT (PRecord ([], false), s (UNITleft, UNITright))
| LBRACE rpat RBRACE (PRecord rpat, s (LBRACEleft, RBRACEright))
| LPAREN ptuple RPAREN (PRecord (ListUtil.mapi (fn (i, p) => (Int.toString (i + 1), p)) ptuple,
false),
s (LPARENleft, RPARENright))
rpat : CSYMBOL EQ pat ([(CSYMBOL, pat)], false)
| INT EQ pat ([(Int64.toString INT, pat)], false)
| DOTDOTDOT ([], true)
| CSYMBOL EQ pat COMMA rpat ((CSYMBOL, pat) :: #1 rpat, #2 rpat)
| INT EQ pat COMMA rpat ((Int64.toString INT, pat) :: #1 rpat, #2 rpat)
ptuple : pat COMMA pat ([pat1, pat2])
| pat COMMA ptuple (pat :: ptuple)
rexp : ([])
| ident EQ eexp ([(ident, eexp)])
| ident EQ eexp COMMA rexp ((ident, eexp) :: rexp)
xml : xmlOne xml (let
val pos = s (xmlOneleft, xmlright)
in
(EApp ((EApp (
(EVar (["Basis"], "join"), pos),
xmlOne), pos),
xml), pos)
end)
| xmlOne (xmlOne)
xmlOne : NOTAGS (EApp ((EVar (["Basis"], "cdata"), s (NOTAGSleft, NOTAGSright)),
(EPrim (Prim.String NOTAGS), s (NOTAGSleft, NOTAGSright))),
s (NOTAGSleft, NOTAGSright))
| tag DIVIDE GT (let
val pos = s (tagleft, GTright)
in
(EApp (#2 tag,
(EApp ((EVar (["Basis"], "cdata"), pos),
(EPrim (Prim.String ""), pos)),
pos)), pos)
end)
| tag GT xml END_TAG (let
val pos = s (tagleft, GTright)
in
if #1 tag = END_TAG then
if END_TAG = "lform" then
(EApp ((EVar (["Basis"], "lform"), pos),
xml), pos)
else
(EApp (#2 tag, xml), pos)
else
(ErrorMsg.errorAt pos "Begin and end tags don't match.";
(EFold, pos))
end)
| LBRACE eexp RBRACE (eexp)
tag : tagHead attrs (let
val pos = s (tagHeadleft, attrsright)
in
(#1 tagHead,
(EApp ((EApp ((EVar (["Basis"], "tag"), pos),
(ERecord attrs, pos)), pos),
(EApp (#2 tagHead,
(ERecord [], pos)), pos)),
pos))
end)
tagHead: BEGIN_TAG (let
val pos = s (BEGIN_TAGleft, BEGIN_TAGright)
in
(BEGIN_TAG,
(EVar ([], BEGIN_TAG), pos))
end)
| tagHead LBRACE cexp RBRACE (#1 tagHead, (ECApp (#2 tagHead, cexp), s (tagHeadleft, RBRACEright)))
attrs : ([])
| attr attrs (attr :: attrs)
attr : SYMBOL EQ attrv ((CName (capitalize SYMBOL), s (SYMBOLleft, SYMBOLright)), attrv)
attrv : INT (EPrim (Prim.Int INT), s (INTleft, INTright))
| FLOAT (EPrim (Prim.Float FLOAT), s (FLOATleft, FLOATright))
| STRING (EPrim (Prim.String STRING), s (STRINGleft, STRINGright))
| LBRACE eexp RBRACE (eexp)
query : query1 obopt lopt ofopt (let
val loc = s (query1left, query1right)
val re = (ERecord [((CName "Rows", loc),
query1),
((CName "OrderBy", loc),
obopt),
((CName "Limit", loc),
lopt),
((CName "Offset", loc),
ofopt)], loc)
in
(EApp ((EVar (["Basis"], "sql_query"), loc), re), loc)
end)
query1 : SELECT select FROM tables wopt gopt hopt
(let
val loc = s (SELECTleft, tablesright)
val (sel, exps) =
case select of
Star => (map (fn (nm, _) =>
(nm, (CTuple [(CWild (KRecord (KType, loc), loc),
loc),
(CRecord [], loc)],
loc))) tables,
[])
| Items sis =>
let
val tabs = map (fn (nm, _) => (nm, (CRecord [], loc))) tables
val (tabs, exps) = foldl (amend_select loc) (tabs, []) sis
in
(map (fn (nm, c) => (nm,
(CTuple [c,
(CWild (KRecord (KType, loc), loc),
loc)], loc))) tabs,
exps)
end
val sel = (CRecord sel, loc)
val grp = case gopt of
NONE => (ECApp ((EVar (["Basis"], "sql_subset_all"), loc),
(CWild (KRecord (KRecord (KType, loc), loc),
loc), loc)), loc)
| SOME gis =>
let
val tabs = map (fn (nm, _) =>
(nm, (CRecord [], loc))) tables
val tabs = foldl (amend_group loc) tabs gis
val tabs = map (fn (nm, c) =>
(nm,
(CTuple [c,
(CWild (KRecord (KType, loc),
loc),
loc)], loc))) tabs
in
(ECApp ((EVar (["Basis"], "sql_subset"), loc),
(CRecord tabs, loc)), loc)
end
val e = (EVar (["Basis"], "sql_query1"), loc)
val re = (ERecord [((CName "From", loc),
(ERecord tables, loc)),
((CName "Where", loc),
wopt),
((CName "GroupBy", loc),
grp),
((CName "Having", loc),
hopt),
((CName "SelectFields", loc),
(ECApp ((EVar (["Basis"], "sql_subset"), loc),
sel), loc)),
((CName "SelectExps", loc),
(ERecord exps, loc))], loc)
val e = (EApp (e, re), loc)
in
e
end)
| query1 UNION query1 (sql_relop ("union", query11, query12, s (query11left, query12right)))
| query1 INTERSECT query1 (sql_relop ("intersect", query11, query12, s (query11left, query12right)))
| query1 EXCEPT query1 (sql_relop ("except", query11, query12, s (query11left, query12right)))
tables : table ([table])
| table COMMA tables (table :: tables)
tname : CSYMBOL (CName CSYMBOL, s (CSYMBOLleft, CSYMBOLright))
| LBRACE cexp RBRACE (cexp)
table : SYMBOL ((CName (capitalize SYMBOL), s (SYMBOLleft, SYMBOLright)),
(EVar ([], SYMBOL), s (SYMBOLleft, SYMBOLright)))
| SYMBOL AS tname (tname, (EVar ([], SYMBOL), s (SYMBOLleft, SYMBOLright)))
| LBRACE LBRACE eexp RBRACE RBRACE AS tname (tname, eexp)
tident : SYMBOL (CName (capitalize SYMBOL), s (SYMBOLleft, SYMBOLright))
| CSYMBOL (CName CSYMBOL, s (CSYMBOLleft, CSYMBOLright))
| LBRACE LBRACE cexp RBRACE RBRACE (cexp)
fident : CSYMBOL (CName CSYMBOL, s (CSYMBOLleft, CSYMBOLright))
| LBRACE cexp RBRACE (cexp)
seli : tident DOT fident (Field (tident, fident))
| sqlexp AS fident (Exp (fident, sqlexp))
selis : seli ([seli])
| seli COMMA selis (seli :: selis)
select : STAR (Star)
| selis (Items selis)
sqlexp : TRUE (sql_inject (EVar (["Basis"], "True"),
EVar (["Basis"], "sql_bool"),
s (TRUEleft, TRUEright)))
| FALSE (sql_inject (EVar (["Basis"], "False"),
EVar (["Basis"], "sql_bool"),
s (FALSEleft, FALSEright)))
| INT (sql_inject (EPrim (Prim.Int INT),
EVar (["Basis"], "sql_int"),
s (INTleft, INTright)))
| FLOAT (sql_inject (EPrim (Prim.Float FLOAT),
EVar (["Basis"], "sql_float"),
s (FLOATleft, FLOATright)))
| STRING (sql_inject (EPrim (Prim.String STRING),
EVar (["Basis"], "sql_string"),
s (STRINGleft, STRINGright)))
| tident DOT fident (let
val loc = s (tidentleft, fidentright)
val e = (EVar (["Basis"], "sql_field"), loc)
val e = (ECApp (e, tident), loc)
in
(ECApp (e, fident), loc)
end)
| CSYMBOL (let
val loc = s (CSYMBOLleft, CSYMBOLright)
val e = (EVar (["Basis"], "sql_exp"), loc)
in
(ECApp (e, (CName CSYMBOL, loc)), loc)
end)
| sqlexp EQ sqlexp (sql_compare ("eq", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp NE sqlexp (sql_compare ("ne", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp LT sqlexp (sql_compare ("lt", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp LE sqlexp (sql_compare ("le", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp GT sqlexp (sql_compare ("gt", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp GE sqlexp (sql_compare ("ge", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp CAND sqlexp (sql_binary ("and", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| sqlexp OR sqlexp (sql_binary ("or", sqlexp1, sqlexp2, s (sqlexp1left, sqlexp2right)))
| NOT sqlexp (sql_unary ("not", sqlexp, s (NOTleft, sqlexpright)))
| LBRACE eexp RBRACE (sql_inject (#1 eexp,
EWild,
s (LBRACEleft, RBRACEright)))
| LPAREN sqlexp RPAREN (sqlexp)
| COUNT LPAREN STAR RPAREN (let
val loc = s (COUNTleft, RPARENright)
in
(EApp ((EVar (["Basis"], "sql_count"), loc),
(ERecord [], loc)), loc)
end)
| sqlagg LPAREN sqlexp RPAREN (let
val loc = s (sqlaggleft, RPARENright)
val e = (EApp ((EVar (["Basis"], "sql_" ^ sqlagg), loc),
(EWild, loc)), loc)
val e = (EApp ((EVar (["Basis"], "sql_aggregate"), loc),
e), loc)
in
(EApp (e, sqlexp), loc)
end)
wopt : (sql_inject (EVar (["Basis"], "True"),
EVar (["Basis"], "sql_bool"),
dummy))
| CWHERE sqlexp (sqlexp)
groupi : tident DOT fident (GField (tident, fident))
groupis: groupi ([groupi])
| groupi COMMA groupis (groupi :: groupis)
gopt : (NONE)
| GROUP BY groupis (SOME groupis)
hopt : (sql_inject (EVar (["Basis"], "True"),
EVar (["Basis"], "sql_bool"),
dummy))
| HAVING sqlexp (sqlexp)
obopt : (ECApp ((EVar (["Basis"], "sql_order_by_Nil"), dummy),
(CWild (KRecord (KType, dummy), dummy), dummy)),
dummy)
| ORDER BY obexps (obexps)
obitem : sqlexp diropt (sqlexp, diropt)
obexps : obitem (let
val loc = s (obitemleft, obitemright)
val e' = (ECApp ((EVar (["Basis"], "sql_order_by_Nil"), loc),
(CWild (KRecord (KType, loc), loc), loc)),
loc)
val e = (EApp ((EVar (["Basis"], "sql_order_by_Cons"), loc),
#1 obitem), loc)
val e = (EApp (e, #2 obitem), loc)
in
(EApp (e, e'), loc)
end)
| obitem COMMA obexps (let
val loc = s (obitemleft, obexpsright)
val e = (EApp ((EVar (["Basis"], "sql_order_by_Cons"), loc),
#1 obitem), loc)
val e = (EApp (e, #2 obitem), loc)
in
(EApp (e, obexps), loc)
end)
diropt : (EVar (["Basis"], "sql_asc"), dummy)
| ASC (EVar (["Basis"], "sql_asc"), s (ASCleft, ASCright))
| DESC (EVar (["Basis"], "sql_desc"), s (DESCleft, DESCright))
lopt : (EVar (["Basis"], "sql_no_limit"), dummy)
| LIMIT ALL (EVar (["Basis"], "sql_no_limit"), dummy)
| LIMIT sqlint (let
val loc = s (LIMITleft, sqlintright)
in
(EApp ((EVar (["Basis"], "sql_limit"), loc), sqlint), loc)
end)
ofopt : (EVar (["Basis"], "sql_no_offset"), dummy)
| OFFSET sqlint (let
val loc = s (OFFSETleft, sqlintright)
in
(EApp ((EVar (["Basis"], "sql_offset"), loc), sqlint), loc)
end)
sqlint : INT (EPrim (Prim.Int INT), s (INTleft, INTright))
| LBRACE eexp RBRACE (eexp)
sqlagg : AVG ("avg")
| SUM ("sum")
| MIN ("min")
| MAX ("max")
|