%code top { #include "Nodes.hpp" using namespace monicelli; } %skeleton "lalr1.cc" %require "3.0" %language "c++" %defines %output "Parser.cpp" %locations %token-table %define parse.error verbose %define api.namespace {monicelli} %define parser_class_name {Parser} %lex-param {Scanner &scanner} %parse-param {Scanner &scanner} %parse-param {Program &program} %code requires { #include "Nodes.hpp" namespace monicelli { class Scanner; } } %code { static int yylex(Parser::semantic_type*, Parser::location_type*, Scanner&); } %token MAIN %token RETURN %token ARTICLE TYPENAME STAR %token VARDECL ASSIGN %token PRINT INPUT %token ASSERT BANG %token LOOP_BEGIN LOOP_CONDITION %token BRANCH_CONDITION BRANCH_BEGIN BRANCH_ELSE BRANCH_END CASE_END %token COLON COMMA %token FUNDECL PARAMS FUNCALL FUN_END %token ABORT %token ID NUMBER FLOAT %left OP_LT OP_GT OP_LTE OP_GTE %left OP_PLUS OP_MINUS %left OP_TIMES OP_DIV %left OP_SHL OP_SHR %nonassoc LOWER_THAN_ELSE %nonassoc BRANCH_ELSE %code { #include static std::stack stmtStack; static std::stack argsStack; static std::stack paramsStack; static std::stack branchCaseStack; } %union { int intval; double floatval; std::string* strval; bool boolval; monicelli::Type typeval; monicelli::Statement* statementval; monicelli::StatementList* statlistval; monicelli::Assert* assertval; monicelli::FunctionCall* callval; monicelli::Print* printval; monicelli::Input* inputval; monicelli::Abort* abortval; monicelli::Branch* branchval; monicelli::VarDeclaration* declval; monicelli::Assignment* assignval; monicelli::Loop* loopval; monicelli::BranchCase *caseval; monicelli::Return* returnval; monicelli::Expression* expressionval; monicelli::SemiExpression *semiexpval; monicelli::Id* idval; monicelli::Number* numericval; monicelli::Function* funval; monicelli::Main* mainval; } %type NUMBER %type FLOAT %type ID %type TYPENAME %type statement %type branch_body %type assert_stmt %type fun_call %type fun_decl %type print_stmt %type input_stmt %type abort_stmt %type branch_stmt %type case_stmt %type var_decl %type assign_stmt %type loop_stmt %type return_stmt %type expression maybe_expression simple_expression var_init %type semi_expression %type variable %type numeric %type main %type pointer %start program %% program: /* epsilon */ | fun_decls main fun_decls { program.setMain($2); } ; fun_decls: /* epsilon */ | fun_decl { program.addFunction($1); } fun_decls ; fun_decl: FUNDECL ID { paramsStack.push(new IdList()); } args FUN_END { stmtStack.push(new StatementList()); } statements { $$ = new Function(new Id($2), paramsStack.top(), stmtStack.top()); paramsStack.pop(); stmtStack.pop(); } ; args: /* epsilon */ | PARAMS arglist ; arglist: variable { paramsStack.top()->push_back($1); } | variable { paramsStack.top()->push_back($1); } arglist ; main: MAIN { stmtStack.push(new StatementList()); } statements { $$ = new Main(stmtStack.top()); stmtStack.pop(); } ; statements: /* epsilon */ { } | statement { if ($1 != nullptr) { stmtStack.top()->push_back($1); } } statements ; statement: assert_stmt { $$ = $1; } | fun_call { $$ = $1; } | print_stmt { $$ = $1; } | input_stmt { $$ = $1; } | abort_stmt { $$ = $1; } | branch_stmt { $$ = $1; } | var_decl { $$ = $1; } | assign_stmt { $$ = $1; } | loop_stmt { $$ = $1; } | return_stmt { $$ = $1; } | COMMA { $$ = nullptr; } ; var_decl: VARDECL variable COMMA pointer TYPENAME var_init { $$ = new VarDeclaration($2, $5, $4, $6); } ; pointer: /* epsilon */ { $$ = false; } | STAR { $$ = true; } ; var_init: /* epsilon */ { $$ = nullptr; } | ASSIGN expression { $$ = $2; } ; numeric: NUMBER { $$ = new Integer($1); } | FLOAT { $$ = new Float($1); } ; variable: ID { $$ = new Id($1); } | ARTICLE ID { $$ = new Id($2); } ; assign_stmt: variable ASSIGN expression { $$ = new Assignment($1, $3); } ; print_stmt: expression PRINT { $$ = new Print($1); } ; input_stmt: INPUT variable { $$ = new Input($2); } ; return_stmt: RETURN maybe_expression BANG { $$ = new Return($2); } ; maybe_expression: expression { $$ = $1; } | /* epsilon */ { $$ = nullptr; } ; loop_stmt: LOOP_BEGIN { stmtStack.push(new StatementList()); } statements LOOP_CONDITION expression { $$ = new Loop(stmtStack.top(), $5); stmtStack.pop(); } ; branch_stmt: BRANCH_CONDITION variable BRANCH_BEGIN { branchCaseStack.push(new BranchCaseList()); } branch_body BRANCH_END { $$ = new Branch($2, branchCaseStack.top(), $5); branchCaseStack.pop(); } ; branch_body: cases %prec LOWER_THAN_ELSE { $$ = nullptr; } | cases BRANCH_ELSE COLON { stmtStack.push(new StatementList()); } statements { $$ = stmtStack.top(); stmtStack.pop(); } ; cases: case_stmt | case_stmt CASE_END cases ; case_stmt: semi_expression COLON { stmtStack.push(new StatementList()); } statements { branchCaseStack.top()->push_back(new BranchCase($1, stmtStack.top())); stmtStack.pop(); } ; fun_call: FUNCALL { argsStack.push(new ExpressionList()); } ID call_args FUN_END { $$ = new FunctionCall(new Id($3), argsStack.top()); argsStack.pop(); } ; call_args: /* epsilon */ | PARAMS call_arglist ; call_arglist: expression { argsStack.top()->push_back($1); } | expression { argsStack.top()->push_back($1); } COMMA call_arglist ; abort_stmt: ABORT { $$ = new Abort(); } ; assert_stmt: ASSERT expression BANG { $$ = new Assert($2); } ; expression: simple_expression { $$ = $1; } | expression OP_LT expression { $$ = new ExpLt($1, $3); } | expression OP_GT expression { $$ = new ExpGt($1, $3); } | expression OP_LTE expression { $$ = new ExpLte($1, $3); } | expression OP_GTE expression { $$ = new ExpGte($1, $3); } | expression OP_PLUS expression { $$ = new ExpPlus($1, $3); } | expression OP_MINUS expression { $$ = new ExpMinus($1, $3); } | expression OP_TIMES expression { $$ = new ExpTimes($1, $3); } | expression OP_DIV expression { $$ = new ExpDiv($1, $3); } | expression OP_SHL expression { $$ = new ExpShl($1, $3); } | expression OP_SHR expression { $$ = new ExpShr($1, $3); } ; semi_expression: expression { $$ = new SemiExpEq($1); } | OP_LT expression { $$ = new SemiExpLt($2); } | OP_GT expression { $$ = new SemiExpGt($2); } | OP_LTE expression { $$ = new SemiExpLte($2); } | OP_GTE expression { $$ = new SemiExpGte($2); } | OP_PLUS expression { $$ = new SemiExpPlus($2); } | OP_MINUS expression { $$ = new SemiExpMinus($2); } | OP_TIMES expression { $$ = new SemiExpTimes($2); } | OP_DIV expression { $$ = new SemiExpDiv($2); } | OP_SHL expression { $$ = new SemiExpShl($2); } | OP_SHR expression { $$ = new SemiExpShr($2); } ; simple_expression: fun_call { $$ = $1; } | numeric { $$ = $1; } | variable { $$ = $1; } ; %% #include "Scanner.hpp" void Parser::error(const location_type& loc, const std::string &message) { std::cerr << "Error at " << loc.begin.line << ":" << loc.begin.column; std::cerr << ": " << message << std::endl; } static int yylex(Parser::semantic_type *lval, Parser::location_type *loc, Scanner &scanner) { return scanner.yylex(lval); }