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@ -130,6 +130,18 @@ action code {:
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return new ComplexSymbolFactory.Location(first.getLocation()[0],
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first.getLocation()[1]);
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}
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/** Return the rightmost non-whitespace location in NODES, or null if NODES
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* is empty. Assumes that the nodes of NODES are ordered in increasing
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* order of location, from left to right. */
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ComplexSymbolFactory.Location getRight(List<? extends Node> nodes) {
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if (nodes.isEmpty()) {
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return null;
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}
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Node last = nodes.get(nodes.size()-1);
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return new ComplexSymbolFactory.Location(last.getLocation()[2],
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last.getLocation()[3]);
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}
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:}
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@ -142,14 +154,78 @@ action code {:
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* semantic value of type <type> for these symbols that may be referenced
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* in actions ( {: ... :} ).
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*/
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terminal INDENT;
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terminal DEDENT;
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terminal String ID;
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terminal String STRING;
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/* Terminal Delimiters */
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terminal NEWLINE;
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terminal String PLUS;
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terminal String COLON;
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terminal String COMMA;
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/* Terminal Literals */
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terminal Integer NUMBER;
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terminal Boolean BOOL;
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terminal String NONE;
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/* Terminal Keywords */
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terminal String IF;
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terminal String ELSE;
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terminal String ELIF;
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terminal String WHILE;
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terminal String CLASS;
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terminal String DEF;
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terminal String LAMBDA;
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terminal String AS;
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terminal String FOR;
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terminal String GLOBAL;
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terminal String IN;
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terminal String NONLOCAL;
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terminal String PASS;
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terminal String RETURN;
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terminal String ASSERT;
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terminal String AWAIT;
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terminal String BREAK;
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terminal String CONTINUE;
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terminal String DEL;
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terminal String EXCEPT;
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terminal String FINALLY;
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terminal String FROM;
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terminal String IMPORT;
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terminal String RAISE;
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terminal String TRY;
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terminal String WITH;
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terminal String YIELD;
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/* Terminal Operators */
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terminal String PLUS;
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terminal String MINUS;
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terminal String MUL;
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terminal String DIV;
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terminal String NAMES;
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terminal String MOD;
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terminal String GT;
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terminal String LT;
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terminal String EQUAL;
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terminal String NEQ;
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terminal String GEQ;
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terminal String LEQ;
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terminal String ASSIGN;
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terminal String AND;
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terminal String OR;
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terminal String NOT;
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terminal String DOT;
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terminal String LPAR;
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terminal String RPAR;
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terminal String LBR;
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terminal String RBR;
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terminal String ARROW;
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terminal String IS;
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terminal Integer NUMBER;
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/* Returned by the lexer for erroneous tokens. Since it does not appear in
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* the grammar, it indicates a syntax error. */
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terminal UNRECOGNIZED;
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@ -160,14 +236,39 @@ terminal UNRECOGNIZED;
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* defines the listed nonterminal identifier symbols to have semantic values
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* of type <type>. */
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non terminal Program program;
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non terminal List<Declaration> program_head;
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non terminal List<Stmt> stmt_list, opt_stmt_list;
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non terminal Stmt stmt, expr_stmt;
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non terminal Expr expr, binary_expr;
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non terminal List<Declaration> program_head, class_body, class_body_defs, fun_body_decs;
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non terminal List<Stmt> stmt_list, opt_stmt_list, block, else_body;
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non terminal Stmt stmt, simple_stmt;
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non terminal Expr expr, pexpr, cexpr;
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non terminal VarDef var_def;
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non terminal ClassDef class_def;
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non terminal FuncDef fun_def;
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non terminal Literal literal;
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non terminal StringLiteral bin_op, comp_op;
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non terminal TypedVar typed_var;
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non terminal TypeAnnotation type, ret_type;
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non terminal Identifier identifier;
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non terminal List<TypedVar> typed_vars;
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non terminal GlobalDecl global_decl;
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non terminal NonLocalDecl nonlocal_decl;
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non terminal List<Expr> opt_target, expr_list;
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non terminal Expr target;
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non terminal MemberExpr member_expr;
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non terminal IndexExpr index_expr;
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/* Precedences (lowest to highest) for resolving what would otherwise be
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* ambiguities in the form of shift/reduce conflicts.. */
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precedence left PLUS;
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precedence left OR;
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precedence left AND;
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precedence left NOT;
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precedence nonassoc EQUAL, NEQ, LT, GT, LEQ, GEQ, IS;
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precedence left PLUS, MINUS;
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precedence left MUL, DIV, MOD;
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precedence left DOT, COMMA, LBR, RBR;
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precedence left IF, ELSE;
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/* The start symbol. */
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start with program;
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@ -175,45 +276,214 @@ start with program;
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/***** GRAMMAR RULES *****/
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/* Rules are defined in the order given by the language reference */
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/* program */
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program ::= program_head:d opt_stmt_list:s
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{: RESULT = new Program(d.isEmpty() ? getLeft(s) : getLeft(d),
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sxright, d, s, errors);
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:}
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;
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/* Initial list of declarations. */
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program_head ::= /* not implemented; currently matches empty string */
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{: RESULT = empty(); :}
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program_head ::= program_head:d var_def:vd {: RESULT = combine(d, vd); :}
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| program_head:d class_def:cd {: RESULT = combine(d, cd); :}
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| program_head:d fun_def:fd {: RESULT = combine(d, fd); :}
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| program_head:d error:e {: RESULT = d; :}
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| {: RESULT = empty(); :}
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;
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opt_stmt_list ::= {: RESULT = empty(); :}
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| stmt_list:s {: RESULT = s; :}
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;
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stmt_list ::= stmt:s {: RESULT = single(s); :}
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| stmt_list:l stmt:s {: RESULT = combine(l, s); :}
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| stmt_list:l error {: RESULT = l; :}
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/* If there is a syntax error in the source, this says to discard
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* symbols from the parsing stack and perform reductions until
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* there is a stmt_list on top of the stack, and then to discard
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* input symbols until it is possible to shift again, reporting
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* a syntax error. */
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/* class_def */
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class_def ::= CLASS:c identifier:id LPAR identifier:parentId RPAR COLON NEWLINE INDENT class_body:cb DEDENT {: RESULT = new ClassDef(cxleft, getRight(cb), id, parentId, cb); :};
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/* class_body */
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class_body ::= PASS NEWLINE {: RESULT = empty(); :}
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| class_body_defs:defs {: RESULT = defs; :}
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;
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class_body_defs ::= class_body_defs:defs var_def:vd {: RESULT = combine(defs, vd); :}
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| class_body_defs:defs fun_def:fd {: RESULT = combine(defs, fd); :}
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| class_body_defs:defs error {: RESULT = defs; :}
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| var_def:vd {: RESULT = single(vd); :}
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| fun_def:fd {: RESULT = single(fd); :}
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;
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/* fun_def */
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fun_def ::= DEF:def identifier:id LPAR typed_vars:params RPAR ret_type:rt COLON NEWLINE INDENT fun_body_decs:fbd stmt_list:sl DEDENT
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{: RESULT = new FuncDef(defxleft, getRight(sl), id, params, rt, fbd, sl); :}
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;
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stmt ::= expr_stmt:s NEWLINE {: RESULT = s; :}
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ret_type ::= ARROW type:t {: RESULT= t; :}
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| {: RESULT= null; :}
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;
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typed_vars ::= typed_var:tv {: RESULT= single(tv); :}
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| typed_vars:tvs COMMA typed_var:tv {: RESULT= combine(tvs, tv); :}
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| typed_vars:tvs COMMA error {: RESULT= tvs; :}
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| {: RESULT= empty(); :}
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;
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/* fun_body */
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fun_body_decs ::= fun_body_decs:fbd global_decl:gd {: RESULT= combine(fbd, gd); :}
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| fun_body_decs:fbd nonlocal_decl:nd {: RESULT= combine(fbd, nd); :}
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| fun_body_decs:fbd var_def:vd {: RESULT= combine(fbd, vd); :}
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| fun_body_decs:fbd fun_def:fd {: RESULT= combine(fbd, fd); :}
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| fun_body_decs:fbd error {: RESULT= fbd; :}
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| {: RESULT= empty(); :}
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;
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/* typed_var */
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typed_var ::= identifier:id COLON type:t {: RESULT = new TypedVar(idxleft, txright, id, t); :};
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/* type */
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type ::= identifier:id {: RESULT = new ClassType(idxleft, idxright, id.name); :}
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| STRING:str {: RESULT = new ClassType(strxleft, strxright, str); :}
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| LBR:lbr type:t RBR:rbr {: RESULT = new ListType(lbrxleft, rbrxright, t); :}
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;
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/* global_decl */
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global_decl ::= GLOBAL:g identifier:id NEWLINE {: RESULT = new GlobalDecl(gxleft, idxright, id); :};
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/* nonlocal_decl */
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nonlocal_decl ::= NONLOCAL:n identifier:id NEWLINE {: RESULT = new NonLocalDecl(nxleft, idxright, id); :};
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/* var_def */
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var_def ::= typed_var:t ASSIGN literal:l NEWLINE {: RESULT = new VarDef(txleft, lxright, t, l); :};
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/* stmt */
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stmt ::= simple_stmt:s NEWLINE {: RESULT = s; :}
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| IF:i expr:cond COLON block:b else_body:elb {: RESULT = new IfStmt(ixleft, getRight(elb), cond, b, elb); :}
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| WHILE:wh expr:cond COLON block:b {: RESULT = new WhileStmt(whxleft, getRight(b), cond, b); :}
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| FOR:f identifier:id IN expr:e COLON block:b {: RESULT = new ForStmt(fxleft, getRight(b), id, e, b); :}
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;
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else_body ::= ELSE:el COLON block:b {: RESULT = b; :}
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| ELIF:el expr:cond COLON block:b else_body:elb {: RESULT = single(new IfStmt(elxleft, getRight(elb), cond, b, elb)); :}
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| {: RESULT = empty(); :}
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;
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/* simple_stmt */
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simple_stmt ::= PASS:p {: RESULT = null; :}
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| expr:e {: RESULT = new ExprStmt(exleft, exright, e); :}
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| RETURN:r expr:e {: RESULT = new ReturnStmt(rxleft, exright, e); :}
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| RETURN {: RESULT = null; :}
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| opt_target:ot expr:e {: RESULT = new AssignStmt(getLeft(ot), exright, ot, e); :}
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;
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opt_target ::= opt_target:ot target:t ASSIGN {: RESULT = combine(ot, t); :}
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| target:t ASSIGN {: RESULT = single(t); :}
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;
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/* block */
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block ::= NEWLINE INDENT stmt_list:sl DEDENT {: RESULT = sl; :};
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/* literal */
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literal ::= NONE:n {: RESULT = new NoneLiteral(nxleft, nxright); :}
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| BOOL:b {: RESULT = new BooleanLiteral(bxleft, bxright, b); :}
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| NUMBER:n {: RESULT = new IntegerLiteral(nxleft, nxright, n); :}
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| STRING:s {: RESULT = new StringLiteral(sxleft, sxright, s); :}
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;
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/* expr */
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expr ::= cexpr:ce {: RESULT = ce; :}
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| NOT:n expr:exp {: RESULT = new UnaryExpr(nxleft, expxright, n, exp); :}
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| expr:e1 AND:a expr:e2 {: RESULT = new BinaryExpr(e1xleft, e2xright, e1, a, e2); :}
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| expr:e1 OR:o expr:e2 {: RESULT = new BinaryExpr(e1xleft, e2xright, e1, o, e2); :}
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| expr:e1 IF expr:e2 ELSE expr:e3 {: RESULT = new IfExpr(e1xleft, e3xright, e2, e1, e3); :}
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;
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/* cexpr */
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cexpr ::= pexpr:pe {: RESULT = pe; :}
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| pexpr:p1 comp_op:co cexpr:p2 {: RESULT = new BinaryExpr(p1xleft, p2xright, p1, co.value, p2); :}
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;
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expr_stmt ::= expr:e {: RESULT = new ExprStmt(exleft, exright, e); :}
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/* pexpr */
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pexpr ::= identifier:id {: RESULT = id; :}
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| literal:l {: RESULT = l; :}
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| LBR:lbr expr_list:l RBR:rbr {: RESULT = new ListExpr(lbrxleft, rbrxright, l); :}
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| LPAR:lpar expr:e RPAR:rpar {: RESULT = e; :}
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| member_expr:m {: RESULT = m; :}
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| index_expr:i {: RESULT = i; :}
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| member_expr:m LPAR expr_list:l RPAR:rpar {: RESULT = new MethodCallExpr(mxleft, rparxright, m, l); :}
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| identifier:id LPAR expr_list:l RPAR:rpar {: RESULT = new CallExpr(idxleft, rparxright, id, l); :}
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| pexpr:p1 bin_op:bo pexpr:p2 {: RESULT = new BinaryExpr(p1xleft, p2xright, p1, bo.value, p2); :}
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| MINUS:m pexpr:p {: RESULT = new UnaryExpr(mxleft, pxright, m, p); :}
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;
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expr_list ::= expr:e {: RESULT = single(e); :}
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| expr_list:el COMMA expr:e {: RESULT = combine(el, e); :}
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| {: RESULT = null; :}
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;
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expr ::= binary_expr:e {: RESULT = e; :}
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| NUMBER:n {: RESULT = new IntegerLiteral(nxleft, nxright, n); :}
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;
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/* bin_op */
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bin_op ::= PLUS:a {: RESULT = new StringLiteral(axleft, axright, "+"); :}
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| MINUS:a {: RESULT = new StringLiteral(axleft, axright, "-"); :}
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| MUL:a {: RESULT = new StringLiteral(axleft, axright, "*"); :}
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| DIV:a {: RESULT = new StringLiteral(axleft, axright, "/"); :}
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| MOD:a {: RESULT = new StringLiteral(axleft, axright, "%"); :}
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;
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/* A binary expression, illustrating how to find the left and right
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* source position of a phrase. */
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binary_expr ::= expr:e1 PLUS:op expr:e2
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{: RESULT = new BinaryExpr(e1xleft, e2xright,
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e1, op, e2); :}
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/* comp_op */
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comp_op ::= EQUAL:a {: RESULT = new StringLiteral(axleft, axright, "=="); :}
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| NEQ:a {: RESULT = new StringLiteral(axleft, axright, "!="); :}
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| LEQ:a {: RESULT = new StringLiteral(axleft, axright, "<="); :}
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| GEQ:a {: RESULT = new StringLiteral(axleft, axright, ">="); :}
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| LT:a {: RESULT = new StringLiteral(axleft, axright, "<"); :}
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| GT:a {: RESULT = new StringLiteral(axleft, axright, ">"); :}
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| IS:a {: RESULT = new StringLiteral(axleft, axright, "is"); :}
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;
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/* member_expr */
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member_expr ::= pexpr:p DOT identifier:id {: RESULT = new MemberExpr(pxleft, idxright, p, id); :}
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;
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/* index_expr */
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index_expr ::= pexpr:p LBR expr:e RBR:rbr {: RESULT = new IndexExpr(pxleft, rbrxright, p, e); :}
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;
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/* target */
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target ::= identifier:id {: RESULT = id; :}
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| member_expr:m {: RESULT = m; :}
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| index_expr:i {: RESULT = i; :}
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;
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/* Extras - rules below have not been given in language reference, we have them to ease implementation */
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identifier ::= ID:idStr {: RESULT = new Identifier(idStrxleft, idStrxright, idStr); :};
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stmt_list ::= stmt:s {: RESULT = single(s); :}
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| stmt_list:l stmt:s {: RESULT = combine(l, s); :}
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| stmt_list:l error {: RESULT = l; :}
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/* If there is a syntax error in the source, this says to discard
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* symbols from the parsing stack and perform reductions until
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* there is a stmt_list on top of the stack, and then to discard
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* input symbols until it is possible to shift again, reporting
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* a syntax error. */
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;
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bill
3 years ago