choose OCaml or C++

[sqlgg.git] / sql_parser.mly

/*
  Simple SQL parser
*/


%{
  open Printf
  open Sql
  open Sql.Type
  open ListMore
  open Stmt
  open Syntax
  open Operators

  let def_param_name name (id,t) =
    let name =
    match id with
    | Next | Numbered _ -> name
    | Named x -> x
    in
    (Named name,t)

%}

%token <int> INTEGER
%token <string> IDENT TEXT BLOB
%token <Stmt.param_id> PARAM
%token <Sql.Type.t option> FUNCTION
%token LPAREN RPAREN COMMA EOF DOT NULL
%token CONFLICT_ALGO
%token SELECT INSERT OR INTO CREATE UPDATE TABLE VALUES WHERE ASTERISK DISTINCT ALL
       LIMIT ORDER BY DESC ASC EQUAL DELETE FROM DEFAULT OFFSET SET JOIN LIKE_OP
       EXCL TILDE NOT TEST_NULL BETWEEN AND ESCAPE USING UNION EXCEPT INTERSECT AS
       CONCAT_OP JOIN_TYPE1 JOIN_TYPE2 NATURAL CROSS REPLACE IN GROUP HAVING
%token UNIQUE PRIMARY KEY AUTOINCREMENT ON CONFLICT
%token NUM_BINARY_OP PLUS MINUS
%token T_INTEGER T_BLOB T_TEXT T_FLOAT T_BOOLEAN

(*
%left COMMA_JOIN
%left JOIN_JOIN
*)
(* FIXME precedence of COMMA and JOIN *)

%left TEST_NULL
%left AND OR
%nonassoc EQUAL
%nonassoc NUM_BINARY_OP
%left PLUS MINUS
%left ASTERISK

%type <Syntax.expr> expr

%start <RA.Scheme.t * Stmt.params * Stmt.kind> input

%%

input: statement EOF { $1 } ;

statement: CREATE TABLE name=IDENT LPAREN scheme=column_defs RPAREN
              { let () = Tables.add (name,scheme) in ([],[],Create name) }
         | CREATE TABLE name=IDENT AS select=select_stmt
              {
                let (s,p) = select in
                Tables.add (name,s);
                ([],p,Create name)
              }
         | select_stmt
              { let (s,p) = $1 in s,p,Select }
         | insert_cmd table=IDENT cols=columns_list? VALUES
              {
                let s = Tables.get_scheme table in
                let s = match cols with
                  | Some cols -> RA.Scheme.project cols s
                  | None -> s
                in
                let p = Syntax.scheme_as_params s in
                [],p,Insert table
              }
         | update_cmd table=IDENT SET assignments=separated_nonempty_list(COMMA,set_column) w=where?
              {
                let t = Tables.get table in
                let p2 = get_params_opt [t] (snd t) w in
                let (cols,exprs) = List.split assignments in
                let _ = RA.Scheme.project cols (snd t) in (* validates columns *)
                let p1 = Syntax.get_params_l [t] (snd t) exprs in
                [], p1 @ p2, Update table
              }
         | DELETE FROM table=IDENT w=where?
              {
                let t = Tables.get table in
                let p = get_params_opt [t] (snd t) w in
                [], p, Delete table
              }

columns_list: LPAREN cols=separated_nonempty_list(COMMA,IDENT) RPAREN { cols }

select_stmt: select_core list(preceded(compound_op,select_core)) o=loption(order) p4=loption(limit)
              {
                let (s1,p1,tbls) = $1 in
                let (s2l,p2l) = List.split (List.map (fun (s,p,_) -> s,p) $2) in
                (* ignoring tables in compound statements - they cannot be used in ORDER BY *)
                let scheme = List.fold_left RA.Scheme.compound s1 s2l in
                let p3 = Syntax.get_params_l tbls scheme o in
(*                 RA.Scheme.check_unique scheme; *)
                scheme,(p1@(List.flatten p2l)@p3@p4)
              }

select_core: SELECT select_type? r=separated_nonempty_list(COMMA,column1)
             FROM t=table_list
             w=where?
             g=loption(group)
             h=having?
              {
                let (tbls,p2,joined_scheme) = Syntax.join t in
                let p1 = Syntax.params_of_columns tbls joined_scheme r in
                let p3 = Syntax.get_params_opt tbls joined_scheme w in
                let p4 = Syntax.get_params_l tbls joined_scheme g in
                let p5 = Syntax.get_params_opt tbls joined_scheme h in
                (Syntax.infer_scheme r tbls joined_scheme, p1 @ p2 @ p3 @ p4 @ p5, tbls)
              }

table_list: src=source joins=join_source* { (src,joins) }

join_source: NATURAL maybe_join_type JOIN src=source { src,`Natural }
           | CROSS JOIN src=source { src,`Cross }
           | qualified_join src=source cond=join_cond { src,cond }

qualified_join: COMMA | maybe_join_type JOIN { }

join_cond: ON e=expr { `Search e }
         | USING LPAREN l=separated_nonempty_list(COMMA,IDENT) RPAREN { `Using l }
         | (* *) { `Default }

source1: IDENT { Tables.get $1,[] }
       | LPAREN s=select_core RPAREN { let (s,p,_) = s in ("",s),p }

source: src=source1 alias=preceded(AS,IDENT)?
    {
      match alias with
      | Some name -> let ((n,s),p) = src in ((name,s),p)
      | None -> src
    }

insert_cmd: INSERT OR CONFLICT_ALGO INTO | INSERT INTO | REPLACE INTO { }

update_cmd: UPDATE {}
          | UPDATE OR CONFLICT_ALGO {} ;

select_type: DISTINCT | ALL { }

int_or_param: INTEGER { [] }
            | PARAM { [($1,Some Sql.Type.Int)] }

limit: LIMIT p=int_or_param { p }
     | LIMIT p1=int_or_param COMMA p2=int_or_param { p1 @ p2 }
     | LIMIT p1=int_or_param OFFSET p2=int_or_param { p1 @ p2 }

order: ORDER BY l=separated_nonempty_list(COMMA,terminated(expr,order_type?)) { l }
order_type: DESC | ASC { }

where: WHERE e=expr { e }
group: GROUP BY l=separated_nonempty_list(COMMA,expr) { l }
having: HAVING e=expr { e }

column1:
       | IDENT DOT ASTERISK { Syntax.AllOf $1 }
       | ASTERISK { Syntax.All }
       | expr maybe_as { let e = $1 in Syntax.Expr (e,$2) }

maybe_as: AS? name=IDENT { Some name }
        | { None }

column_defs: separated_nonempty_list(COMMA,column_def1) { $1 }
column_def1: name=IDENT t=sql_type? column_def_extra* { RA.attr name (match t with Some t -> t | None -> Type.Int) }
column_def_extra: PRIMARY KEY { Some Constraint.PrimaryKey }
                | NOT NULL { Some Constraint.NotNull }
                | UNIQUE { Some Constraint.Unique }
                | AUTOINCREMENT { Some Constraint.Autoincrement }
                | ON CONFLICT CONFLICT_ALGO { None }
                | DEFAULT INTEGER { None }

set_column: name=IDENT EQUAL e=expr { name,e }

(* expr: expr1 { $1 >> Syntax.expr_to_string >> prerr_endline; $1 } *)

mnot(X): NOT x = X | x = X { x }

expr:
     expr numeric_bin_op expr %prec PLUS { `Func ((Some Int),[$1;$3]) }
    | expr boolean_bin_op expr %prec AND { `Func ((Some Int),[$1;$3]) }
    | expr CONCAT_OP expr { `Func ((Some Text),[$1;$3]) }
    | e1=expr mnot(LIKE_OP) e2=expr e3=escape?
      { `Func (None,(List.filter_valid [Some e1; Some e2; e3])) }
    | unary_op expr { $2 }
    | LPAREN expr RPAREN { $2 }
    | IDENT { `Column ($1,None) }
    | t=IDENT DOT c=IDENT
    | IDENT DOT t=IDENT DOT c=IDENT { `Column (c,Some t) }
    | INTEGER { `Value Int }
    | e1=expr mnot(IN) LPAREN l=separated_nonempty_list(COMMA,expr) RPAREN { `Func (None,e1::l) }
    | e1=expr mnot(IN) LPAREN select=select_stmt RPAREN
      {
        let (s,p) = select in
        if (List.length s <> 1) then
          raise (RA.Scheme.Error (s,"only one column allowed for IN operator"));
        let l = List.map (fun x -> `Param x) p in
        `Func (None,e1::l)
      }
    | e1=expr IN table=IDENT { Tables.check(table); e1 }
(*     | FLOAT { `Value Float } *)
    | TEXT { `Value Text }
    | BLOB { `Value Blob }
    | PARAM { `Param ($1,None) }
    | FUNCTION LPAREN func_params RPAREN { `Func ($1,$3) }
    | expr TEST_NULL { $1 }
    | expr BETWEEN expr AND expr { `Func ((Some Int),[$1;$3;$5]) }

expr_list: separated_nonempty_list(COMMA,expr) { $1 }
func_params: expr_list { $1 }
           | ASTERISK { [] } ;
escape: ESCAPE expr { $2 }
numeric_bin_op: EQUAL | PLUS | MINUS | ASTERISK | NUM_BINARY_OP { }
boolean_bin_op: AND | OR { }

unary_op: EXCL { }
        | PLUS { }
        | MINUS { }
        | TILDE { }
        | NOT { }

sql_type_flavor: T_INTEGER  { Type.Int }
               | T_BLOB { Type.Blob }
               | T_TEXT { Type.Text }
               | T_FLOAT { Type.Float }
               | T_BOOLEAN { Type.Bool }

sql_type: t=sql_type_flavor
        | t=sql_type_flavor LPAREN INTEGER RPAREN
        | t=sql_type_flavor LPAREN INTEGER COMMA INTEGER RPAREN
        { t }

compound_op: UNION ALL? | EXCEPT | INTERSECT { }

maybe_join_type: JOIN_TYPE1? JOIN_TYPE2? { }