%{ open Ast open Util %} %token BOOL INT REAL %token PROBE %token TRUE FALSE %token IF THEN ELSE %token NOT AND OR %token MOD %token CONST NODE FUNCTION RETURNS %token VAR LET TEL %token PRE %token ASSUME GUARANTEE %token ACTIVATE %token AUTOMATON STATE INITIAL UNTIL UNLESS RESUME RESTART %token LPAREN RPAREN %token LCURLY RCURLY %token STAR PLUS MINUS DIVIDE %token LESS GREATER LESS_EQUAL GREATER_EQUAL %token DIFF EQUAL %token SEMICOLON COLON COMMA %token ARROW %token IDENT %token INTVAL %token REALVAL %token EOF (* Lowest priorities first *) %left ARROW %left OR %left AND %left EQUAL DIFF %left LESS GREATER LESS_EQUAL GREATER_EQUAL %left PLUS MINUS %left STAR DIVIDE MOD (* Root token *) %start file %% file: | t=list(toplevel) EOF { t } toplevel: | d=ext(const_decl) { AST_const_decl d } | d=ext(node_decl) { AST_node_decl d } primary_expr: | LPAREN e=expr RPAREN { e } | e=ext(IDENT) { AST_identifier e } | e=ext(INTVAL) { AST_int_const e } | e=ext(REALVAL) { AST_real_const e } | TRUE { AST_bool_const true } | FALSE { AST_bool_const false } | e=ext(IDENT) LPAREN l=separated_list(COMMA,ext(expr)) RPAREN { AST_instance (e, l, fst e ^ uid ()) } | INT LPAREN e=ext(expr) RPAREN { AST_cast(e, AST_TINT) } | REAL LPAREN e=ext(expr) RPAREN { AST_cast(e, AST_TREAL) } unary_expr: | e=primary_expr { e } | NOT e=ext(unary_expr) { AST_not(e) } | PRE e=ext(unary_expr) { AST_pre(e, "pre"^uid()) } | o=unary_op e=ext(unary_expr) { AST_unary (o, e) } %inline unary_op: | PLUS { AST_UPLUS } | MINUS { AST_UMINUS } binary_expr: | e=unary_expr { e } | e=ext(binary_expr) ARROW f=ext(binary_expr) { AST_arrow(e, f) } | e=ext(binary_expr) o=binary_op f=ext(binary_expr) { AST_binary (o, e, f) } | e=ext(binary_expr) o=binary_rel f=ext(binary_expr) { AST_binary_rel (o, e, f) } | e=ext(binary_expr) o=binary_bool f=ext(binary_expr) { AST_binary_bool (o, e, f) } %inline binary_op: | STAR { AST_MUL } | DIVIDE { AST_DIV } | MOD { AST_MOD } | PLUS { AST_PLUS } | MINUS { AST_MINUS } %inline binary_rel: | LESS { AST_LT } | GREATER { AST_GT } | LESS_EQUAL { AST_LE } | GREATER_EQUAL { AST_GE } | EQUAL { AST_EQ} | DIFF { AST_NE } %inline binary_bool: | AND { AST_AND } | OR { AST_OR } if_expr: | IF c=ext(expr) THEN t=ext(expr) ELSE e=ext(expr) { AST_if(c, t, e) } | e=binary_expr { e } expr: | e=if_expr { e } (* Equations (can be asserts, automata, ...) *) automaton: | AUTOMATON a=IDENT? s=list(ext(state)) RETURNS r=separated_list(COMMA, IDENT) { ((match a with Some n -> n | None -> "aut") ^ uid (), s, r) } state: | i=boption(INITIAL) STATE n=IDENT unless=trans(UNLESS) v=option(var_decl) b=body until=trans(UNTIL) { if unless <> [] then failwith "UNLESS transitions not supported."; { initial = i; st_name = n; st_locals = (match v with Some v -> v | None -> []); body = b; until = until; } } trans(TT): | TT t=nonempty_list(terminated(transition, SEMICOLON)) { t } | { [] } transition: | IF e=ext(expr) RESUME s=ext(IDENT) { (e, s, false) } | IF e=ext(expr) RESTART s=ext(IDENT) { (e, s, true) } activate: | ACTIVATE a=activate_if RETURNS r=separated_list(COMMA, IDENT) { (a, r) } activate_if: | IF c=ext(expr) THEN t=activate_if ELSE e=activate_if { AST_activate_if(c, t, e) } | lv=option(var_decl) b=body { AST_activate_body { act_id = "act"^uid(); act_locals = (match lv with Some v -> v | None -> []); body = b; } } eqn: | i=separated_list(COMMA, ext(IDENT)) EQUAL e=ext(expr) { AST_assign(i, e) } | ASSUME i=ext(IDENT) COLON e=ext(expr) { AST_assume(i, e) } | GUARANTEE i=ext(IDENT) COLON e=ext(expr) { AST_guarantee(i, e) } | a=automaton { AST_automaton(a) } | a=activate { AST_activate(a) } typ: | INT { AST_TINT } | BOOL { AST_TBOOL } | REAL { AST_TREAL } (* Declarations *) dbody: | e=ext(eqn) SEMICOLON { [e] } | l=body { l } body: | LET l=nonempty_list(terminated(ext(eqn), SEMICOLON)) TEL { l } var: | p=boption(PROBE) i=IDENT { (p, i) } vari: | vn=separated_list(COMMA, var) COLON t=typ { List.map (fun (p, i) -> (p, i, t)) vn } vars: | v=separated_list(SEMICOLON, vari) { List.flatten v } const_decl: | CONST i=IDENT COLON t=typ EQUAL e=ext(expr) SEMICOLON { { c_name = i; typ = t; value = e; } } var_decl: | VAR l=nonempty_list(terminated(vari, SEMICOLON)) { List.flatten l } node_kw: | NODE {} | FUNCTION {} node_decl: | node_kw id=IDENT LPAREN v=vars RPAREN RETURNS LPAREN rv=vars RPAREN e = dbody { { n_name = id; args = v; ret = rv; var = []; body = e; } } | node_kw id=IDENT LPAREN v=vars RPAREN RETURNS LPAREN rv=vars RPAREN lv=var_decl b=body { { n_name = id; args = v; ret = rv; var = lv; body = b; } } (* Utility : add extent information *) %inline ext(X): | x=X { x, ($startpos, $endpos) } %%