def p_assignment_pattern_1(p):
'''assignment_pattern : K_LP expression_list_proper '}' '''
print('assignment_pattern_1', list(p))
- # { PEAssignPattern*tmp = new PEAssignPattern(*$2);
+ # { PEAssignPattern*tmp = new PEAssignPattern(*p[2]);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_assignment_pattern_2(p):
print('assignment_pattern_2', list(p))
# { PEAssignPattern*tmp = new PEAssignPattern;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_block_identifier_opt_1(p):
'''class_declaration : K_virtual_opt K_class lifetime_opt class_identifier class_declaration_extends_opt ';' _embed0_class_declaration class_items_opt K_endclass _embed1_class_declaration class_declaration_endlabel_opt '''
print('class_declaration_1', list(p))
# { // Wrap up the class.
- # if ($11 && $4 && $4->name != $11) {
+ # if (p[11] && p[4] && p[4]->name != p[11]) {
# yyerror(@11, "error: Class end label doesn't match class name.");
- # delete[]$11;
+ # delete[]p[11];
# }
# }
()
def p__embed0_class_declaration(p):
'''_embed0_class_declaration : '''
- # { pform_start_class_declaration(@2, $4, $5.type, $5.exprs, $3); }
+ # { pform_start_class_declaration(@2, p[4], p[5].type, p[5].exprs, p[3]); }
()
def p__embed1_class_declaration(p):
'''_embed1_class_declaration : '''
print('class_identifier_1', list(p))
# { // Create a synthetic typedef for the class name so that the
# // lexor detects the name as a type.
- # perm_string name = lex_strings.make($1);
+ # perm_string name = lex_strings.make(p[1]);
# class_type_t*tmp = new class_type_t(name);
# FILE_NAME(tmp, @1);
# pform_set_typedef(name, tmp, NULL);
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_class_identifier_2(p):
'''class_identifier : TYPE_IDENTIFIER '''
print('class_identifier_2', list(p))
- # { class_type_t*tmp = dynamic_cast<class_type_t*>($1.type);
+ # { class_type_t*tmp = dynamic_cast<class_type_t*>(p[1].type);
# if (tmp == 0) {
- # yyerror(@1, "Type name \"%s\"is not a predeclared class name.", $1.text);
+ # yyerror(@1, "Type name \"%s\"is not a predeclared class name.", p[1].text);
# }
- # delete[]$1.text;
- # $$ = tmp;
+ # delete[]p[1].text;
+ # p[0] = tmp;
# }
()
def p_class_declaration_endlabel_opt_1(p):
'''class_declaration_endlabel_opt : ':' TYPE_IDENTIFIER '''
print('class_declaration_endlabel_opt_1', list(p))
- # { class_type_t*tmp = dynamic_cast<class_type_t*> ($2.type);
+ # { class_type_t*tmp = dynamic_cast<class_type_t*> (p[2].type);
# if (tmp == 0) {
- # yyerror(@2, "error: class declaration endlabel \"%s\" is not a class name\n", $2.text);
+ # yyerror(@2, "error: class declaration endlabel \"%s\" is not a class name\n", p[2].text);
# p[0] = None
# } else {
- # $$ = strdupnew(tmp->name.str());
+ # p[0] = strdupnew(tmp->name.str());
# }
- # delete[]$2.text;
+ # delete[]p[2].text;
# }
()
def p_class_declaration_endlabel_opt_2(p):
def p_class_declaration_extends_opt_1(p):
'''class_declaration_extends_opt : K_extends TYPE_IDENTIFIER '''
print('class_declaration_extends_opt_1', list(p))
- # { $$.type = $2.type;
- # $$.exprs= 0;
- # delete[]$2.text;
+ # { p[0].type = p[2].type;
+ # p[0].exprs= 0;
+ # delete[]p[2].text;
# }
()
def p_class_declaration_extends_opt_2(p):
'''class_declaration_extends_opt : K_extends TYPE_IDENTIFIER '(' expression_list_with_nuls ')' '''
print('class_declaration_extends_opt_2', list(p))
- # { $$.type = $2.type;
- # $$.exprs = $4;
- # delete[]$2.text;
+ # { p[0].type = p[2].type;
+ # p[0].exprs = p[4];
+ # delete[]p[2].text;
# }
()
def p_class_declaration_extends_opt_3(p):
'''class_declaration_extends_opt : '''
print('class_declaration_extends_opt_3', list(p))
- # { $$.type = 0; $$.exprs = 0; }
+ # { p[0].type = 0; p[0].exprs = 0; }
()
def p_class_items_opt_1(p):
'''class_items_opt : class_items '''
def p_class_item_1(p):
'''class_item : method_qualifier_opt K_function K_new _embed0_class_item '(' tf_port_list_opt ')' ';' function_item_list_opt statement_or_null_list_opt K_endfunction endnew_opt '''
print('class_item_1', list(p))
- # { current_function->set_ports($6);
+ # { current_function->set_ports(p[6]);
# pform_set_constructor_return(current_function);
# pform_set_this_class(@3, current_function);
- # current_function_set_statement(@3, $10);
+ # current_function_set_statement(@3, p[10]);
# pform_pop_scope();
# current_function = 0;
# }
def p_class_item_2(p):
'''class_item : property_qualifier_opt data_type list_of_variable_decl_assignments ';' '''
print('class_item_2', list(p))
- # { pform_class_property(@2, $1, $2, $3); }
+ # { pform_class_property(@2, p[1], p[2], p[3]); }
()
def p_class_item_3(p):
'''class_item : K_const class_item_qualifier_opt data_type list_of_variable_decl_assignments ';' '''
print('class_item_3', list(p))
- # { pform_class_property(@1, $2 | property_qualifier_t::make_const(), $3, $4); }
+ # { pform_class_property(@1, p[2] | property_qualifier_t::make_const(), p[3], p[4]); }
()
def p_class_item_4(p):
'''class_item : method_qualifier_opt task_declaration '''
'''class_item : K_extern method_qualifier_opt K_function data_type_or_implicit_or_void IDENTIFIER ';' '''
print('class_item_8', list(p))
# { yyerror(@1, "sorry: External methods are not yet supported.");
- # delete[] $5;
+ # delete[] p[5];
# }
()
def p_class_item_9(p):
'''class_item : K_extern method_qualifier_opt K_function data_type_or_implicit_or_void IDENTIFIER '(' tf_port_list_opt ')' ';' '''
print('class_item_9', list(p))
# { yyerror(@1, "sorry: External methods are not yet supported.");
- # delete[] $5;
+ # delete[] p[5];
# }
()
def p_class_item_10(p):
'''class_item : K_extern method_qualifier_opt K_task IDENTIFIER ';' '''
print('class_item_10', list(p))
# { yyerror(@1, "sorry: External methods are not yet supported.");
- # delete[] $4;
+ # delete[] p[4];
# }
()
def p_class_item_11(p):
'''class_item : K_extern method_qualifier_opt K_task IDENTIFIER '(' tf_port_list_opt ')' ';' '''
print('class_item_11', list(p))
# { yyerror(@1, "sorry: External methods are not yet supported.");
- # delete[] $4;
+ # delete[] p[4];
# }
()
def p_class_item_12(p):
def p_class_item_14(p):
'''class_item : property_qualifier_opt IDENTIFIER error ';' '''
print('class_item_14', list(p))
- # { yyerror(@3, "error: %s doesn't name a type.", $2);
+ # { yyerror(@3, "error: %s doesn't name a type.", p[2]);
# yyerrok;
# }
()
def p_class_item_qualifier_1(p):
'''class_item_qualifier : K_static '''
print('class_item_qualifier_1', list(p))
- # { $$ = property_qualifier_t::make_static(); }
+ # { p[0] = property_qualifier_t::make_static(); }
()
def p_class_item_qualifier_2(p):
'''class_item_qualifier : K_protected '''
print('class_item_qualifier_2', list(p))
- # { $$ = property_qualifier_t::make_protected(); }
+ # { p[0] = property_qualifier_t::make_protected(); }
()
def p_class_item_qualifier_3(p):
'''class_item_qualifier : K_local '''
print('class_item_qualifier_3', list(p))
- # { $$ = property_qualifier_t::make_local(); }
+ # { p[0] = property_qualifier_t::make_local(); }
()
def p_class_item_qualifier_list_1(p):
'''class_item_qualifier_list : class_item_qualifier_list class_item_qualifier '''
print('class_item_qualifier_list_1', list(p))
- # { $$ = $1 | $2; }
+ # { p[0] = p[1] | p[2]; }
()
def p_class_item_qualifier_list_2(p):
'''class_item_qualifier_list : class_item_qualifier '''
def p_class_item_qualifier_opt_2(p):
'''class_item_qualifier_opt : '''
print('class_item_qualifier_opt_2', list(p))
- # { $$ = property_qualifier_t::make_none(); }
+ # { p[0] = property_qualifier_t::make_none(); }
()
def p_class_new_1(p):
'''class_new : K_new '(' expression_list_with_nuls ')' '''
print('class_new_1', list(p))
- # { list<PExpr*>*expr_list = $3;
+ # { list<PExpr*>*expr_list = p[3];
# strip_tail_items(expr_list);
# PENewClass*tmp = new PENewClass(*expr_list);
# FILE_NAME(tmp, @1);
- # delete $3;
- # $$ = tmp;
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_class_new_2(p):
'''class_new : K_new hierarchy_identifier '''
print('class_new_2', list(p))
- # { PEIdent*tmpi = new PEIdent(*$2);
+ # { PEIdent*tmpi = new PEIdent(*p[2]);
# FILE_NAME(tmpi, @2);
# PENewCopy*tmp = new PENewCopy(tmpi);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_class_new_3(p):
print('class_new_3', list(p))
# { PENewClass*tmp = new PENewClass;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_concurrent_assertion_item_1(p):
def p_data_declaration_1(p):
'''data_declaration : attribute_list_opt data_type_or_implicit list_of_variable_decl_assignments ';' '''
print('data_declaration_1', list(p))
- # { data_type_t*data_type = $2;
+ # { data_type_t*data_type = p[2];
# if (data_type == 0) {
# data_type = new vector_type_t(IVL_VT_LOGIC, false, 0);
# FILE_NAME(data_type, @2);
# }
- # pform_makewire(@2, 0, str_strength, $3, NetNet::IMPLICIT_REG, data_type);
+ # pform_makewire(@2, 0, str_strength, p[3], NetNet::IMPLICIT_REG, data_type);
# }
()
def p_data_type_1(p):
dt.dims = p[3]
dt.reg_flag = reg_flag
p[0] = dt
- # { ivl_variable_type_t use_vtype = $1;
+ # { ivl_variable_type_t use_vtype = p[1];
# bool reg_flag = false;
# if (use_vtype == IVL_VT_NO_TYPE) {
# use_vtype = IVL_VT_LOGIC;
# reg_flag = true;
# }
- # vector_type_t*tmp = new vector_type_t(use_vtype, $2, $3);
+ # vector_type_t*tmp = new vector_type_t(use_vtype, p[2], p[3]);
# tmp->reg_flag = reg_flag;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_2(p):
'''data_type : non_integer_type '''
print('data_type_2', list(p))
p[0] = p[1]
- # { real_type_t*tmp = new real_type_t($1);
+ # { real_type_t*tmp = new real_type_t(p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_3(p):
'''data_type : struct_data_type '''
print('data_type_3', list(p))
p[0] = p[1]
- # { if (!$1->packed_flag) {
+ # { if (!p[1]->packed_flag) {
# yyerror(@1, "sorry: Unpacked structs not supported.");
# }
- # $$ = $1;
+ # p[0] = p[1];
# }
()
def p_data_type_4(p):
def p_data_type_5(p):
'''data_type : atom2_type signed_unsigned_opt '''
print('data_type_5', list(p))
- # { atom2_type_t*tmp = new atom2_type_t($1, $2);
+ # { atom2_type_t*tmp = new atom2_type_t(p[1], p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_6(p):
'''data_type : K_integer signed_unsigned_opt '''
print('data_type_6', list(p))
# { list<pform_range_t>*pd = make_range_from_width(integer_width);
- # vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, $2, pd);
+ # vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, p[2], pd);
# tmp->reg_flag = true;
# tmp->integer_flag = true;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_7(p):
# { list<pform_range_t>*pd = make_range_from_width(64);
# vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, false, pd);
# tmp->reg_flag = !gn_system_verilog();
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_8(p):
'''data_type : TYPE_IDENTIFIER dimensions_opt '''
print('data_type_8', list(p))
- # { if ($2) {
- # parray_type_t*tmp = new parray_type_t($1.type, $2);
+ # { if (p[2]) {
+ # parray_type_t*tmp = new parray_type_t(p[1].type, p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # } else $$ = $1.type;
- # delete[]$1.text;
+ # p[0] = tmp;
+ # } else p[0] = p[1].type;
+ # delete[]p[1].text;
# }
()
def p_data_type_9(p):
'''data_type : PACKAGE_IDENTIFIER K_SCOPE_RES _embed0_data_type TYPE_IDENTIFIER '''
print('data_type_9', list(p))
# { lex_in_package_scope(0);
- # $$ = $4.type;
- # delete[]$4.text;
+ # p[0] = p[4].type;
+ # delete[]p[4].text;
# }
()
def p_data_type_10(p):
print('data_type_10', list(p))
# { string_type_t*tmp = new string_type_t;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p__embed0_data_type(p):
'''_embed0_data_type : '''
- # { lex_in_package_scope($1); }
+ # { lex_in_package_scope(p[1]); }
()
def p_data_type_or_implicit_1(p):
'''data_type_or_implicit : data_type '''
def p_data_type_or_implicit_2(p):
'''data_type_or_implicit : signing dimensions_opt '''
print('data_type_or_implicit_2', list(p))
- # { vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, $1, $2);
+ # { vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, p[1], p[2]);
# tmp->implicit_flag = true;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_or_implicit_3(p):
'''data_type_or_implicit : dimensions '''
print('data_type_or_implicit_3', list(p))
- # { vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, false, $1);
+ # { vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, false, p[1]);
# tmp->implicit_flag = true;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_data_type_or_implicit_4(p):
print('data_type_or_implicit_or_void_2', list(p))
# { void_type_t*tmp = new void_type_t;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_description_1(p):
def p_description_8(p):
'''description : KK_attribute '(' IDENTIFIER ',' STRING ',' STRING ')' '''
print('description_8', list(p))
- # { perm_string tmp3 = lex_strings.make($3);
- # pform_set_type_attrib(tmp3, $5, $7);
- # delete[] $3;
- # delete[] $5;
+ # { perm_string tmp3 = lex_strings.make(p[3]);
+ # pform_set_type_attrib(tmp3, p[5], p[7]);
+ # delete[] p[3];
+ # delete[] p[5];
# }
()
def p_description_list_1(p):
def p_dynamic_array_new_1(p):
'''dynamic_array_new : K_new '[' expression ']' '''
print('dynamic_array_new_1', list(p))
- # { $$ = new PENewArray($3, 0);
- # FILE_NAME($$, @1);
+ # { p[0] = new PENewArray(p[3], 0);
+ # FILE_NAME(p[0], @1);
# }
()
def p_dynamic_array_new_2(p):
'''dynamic_array_new : K_new '[' expression ']' '(' expression ')' '''
print('dynamic_array_new_2', list(p))
- # { $$ = new PENewArray($3, $6);
- # FILE_NAME($$, @1);
+ # { p[0] = new PENewArray(p[3], p[6]);
+ # FILE_NAME(p[0], @1);
# }
()
def p_for_step_1(p):
'''for_step : lpvalue '=' expression '''
print('for_step_1', list(p))
- # { PAssign*tmp = new PAssign($1,$3);
+ # { PAssign*tmp = new PAssign(p[1],p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_for_step_2(p):
'''for_step : inc_or_dec_expression '''
print('for_step_2', list(p))
- # { $$ = pform_compressed_assign_from_inc_dec(@1, $1); }
+ # { p[0] = pform_compressed_assign_from_inc_dec(@1, p[1]); }
()
def p_for_step_3(p):
'''for_step : compressed_statement '''
'''function_declaration : K_function lifetime_opt data_type_or_implicit_or_void IDENTIFIER ';' _embed0_function_declaration function_item_list statement_or_null_list_opt K_endfunction _embed1_function_declaration endlabel_opt '''
print('function_declaration_1', list(p))
# { // Last step: check any closing name.
- # if ($11) {
- # if (strcmp($4,$11) != 0) {
+ # if (p[11]) {
+ # if (strcmp(p[4],p[11]) != 0) {
# yyerror(@11, "error: End label doesn't match "
# "function name");
# }
# yyerror(@11, "error: Function end labels require "
# "SystemVerilog.");
# }
- # delete[]$11;
+ # delete[]p[11];
# }
- # delete[]$4;
+ # delete[]p[4];
# }
()
def p_function_declaration_2(p):
'''function_declaration : K_function lifetime_opt data_type_or_implicit_or_void IDENTIFIER _embed2_function_declaration '(' tf_port_list_opt ')' ';' block_item_decls_opt statement_or_null_list_opt K_endfunction _embed3_function_declaration endlabel_opt '''
print('function_declaration_2', list(p))
# { // Last step: check any closing name.
- # if ($14) {
- # if (strcmp($4,$14) != 0) {
+ # if (p[14]) {
+ # if (strcmp(p[4],p[14]) != 0) {
# yyerror(@14, "error: End label doesn't match "
# "function name");
# }
# yyerror(@14, "error: Function end labels require "
# "SystemVerilog.");
# }
- # delete[]$14;
+ # delete[]p[14];
# }
- # delete[]$4;
+ # delete[]p[4];
# }
()
def p_function_declaration_3(p):
'''function_declaration : K_function lifetime_opt data_type_or_implicit_or_void IDENTIFIER error K_endfunction _embed4_function_declaration endlabel_opt '''
print('function_declaration_3', list(p))
# { // Last step: check any closing name.
- # if ($8) {
- # if (strcmp($4,$8) != 0) {
+ # if (p[8]) {
+ # if (strcmp(p[4],p[8]) != 0) {
# yyerror(@8, "error: End label doesn't match function name");
# }
# if (! gn_system_verilog()) {
# yyerror(@8, "error: Function end labels require "
# "SystemVerilog.");
# }
- # delete[]$8;
+ # delete[]p[8];
# }
- # delete[]$4;
+ # delete[]p[4];
# }
()
def p__embed0_function_declaration(p):
'''_embed0_function_declaration : '''
# { assert(current_function == 0);
- # current_function = pform_push_function_scope(@1, $4, $2);
+ # current_function = pform_push_function_scope(@1, p[4], p[2]);
# }
()
def p__embed1_function_declaration(p):
'''_embed1_function_declaration : '''
- # { current_function->set_ports($7);
- # current_function->set_return($3);
- # current_function_set_statement($8? @8 : @4, $8);
+ # { current_function->set_ports(p[7]);
+ # current_function->set_return(p[3]);
+ # current_function_set_statement(p[8]? @8 : @4, p[8]);
# pform_set_this_class(@4, current_function);
# pform_pop_scope();
# current_function = 0;
def p__embed2_function_declaration(p):
'''_embed2_function_declaration : '''
# { assert(current_function == 0);
- # current_function = pform_push_function_scope(@1, $4, $2);
+ # current_function = pform_push_function_scope(@1, p[4], p[2]);
# }
()
def p__embed3_function_declaration(p):
'''_embed3_function_declaration : '''
- # { current_function->set_ports($7);
- # current_function->set_return($3);
- # current_function_set_statement($11? @11 : @4, $11);
+ # { current_function->set_ports(p[7]);
+ # current_function->set_return(p[3]);
+ # current_function_set_statement(p[11]? @11 : @4, p[11]);
# pform_set_this_class(@4, current_function);
# pform_pop_scope();
# current_function = 0;
- # if ($7==0 && !gn_system_verilog()) {
+ # if (p[7]==0 && !gn_system_verilog()) {
# yyerror(@4, "error: Empty parenthesis syntax requires SystemVerilog.");
# }
# }
def p_implicit_class_handle_1(p):
'''implicit_class_handle : K_this '''
print('implicit_class_handle_1', list(p))
- # { $$ = pform_create_this(); }
+ # { p[0] = pform_create_this(); }
()
def p_implicit_class_handle_2(p):
'''implicit_class_handle : K_super '''
print('implicit_class_handle_2', list(p))
- # { $$ = pform_create_super(); }
+ # { p[0] = pform_create_super(); }
()
def p_inc_or_dec_expression_1(p):
'''inc_or_dec_expression : K_INCR lpvalue %prec UNARY_PREC '''
print('inc_or_dec_expression_1', list(p))
- # { PEUnary*tmp = new PEUnary('I', $2);
+ # { PEUnary*tmp = new PEUnary('I', p[2]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_inc_or_dec_expression_2(p):
'''inc_or_dec_expression : lpvalue K_INCR %prec UNARY_PREC '''
print('inc_or_dec_expression_2', list(p))
- # { PEUnary*tmp = new PEUnary('i', $1);
+ # { PEUnary*tmp = new PEUnary('i', p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_inc_or_dec_expression_3(p):
'''inc_or_dec_expression : K_DECR lpvalue %prec UNARY_PREC '''
print('inc_or_dec_expression_3', list(p))
- # { PEUnary*tmp = new PEUnary('D', $2);
+ # { PEUnary*tmp = new PEUnary('D', p[2]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_inc_or_dec_expression_4(p):
'''inc_or_dec_expression : lpvalue K_DECR %prec UNARY_PREC '''
print('inc_or_dec_expression_4', list(p))
- # { PEUnary*tmp = new PEUnary('d', $1);
+ # { PEUnary*tmp = new PEUnary('d', p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_inside_expression_1(p):
def p_integer_vector_type_4(p):
'''integer_vector_type : K_bool '''
print('integer_vector_type_4', list(p))
- # { $$ = IVL_VT_BOOL; }
+ # { p[0] = IVL_VT_BOOL; }
()
def p_join_keyword_1(p):
'''join_keyword : K_join '''
print('join_keyword_1', list(p))
- # { $$ = PBlock::BL_PAR; }
+ # { p[0] = PBlock::BL_PAR; }
()
def p_join_keyword_2(p):
'''join_keyword : K_join_none '''
print('join_keyword_2', list(p))
- # { $$ = PBlock::BL_JOIN_NONE; }
+ # { p[0] = PBlock::BL_JOIN_NONE; }
()
def p_join_keyword_3(p):
'''join_keyword : K_join_any '''
print('join_keyword_3', list(p))
- # { $$ = PBlock::BL_JOIN_ANY; }
+ # { p[0] = PBlock::BL_JOIN_ANY; }
()
def p_jump_statement_1(p):
'''jump_statement : K_break ';' '''
print('jump_statement_2', list(p))
# { PReturn*tmp = new PReturn(0);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_jump_statement_3(p):
'''jump_statement : K_return expression ';' '''
print('jump_statement_3', list(p))
- # { PReturn*tmp = new PReturn($2);
+ # { PReturn*tmp = new PReturn(p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_lifetime_1(p):
'''lifetime : K_automatic '''
print('lifetime_1', list(p))
- # { $$ = LexicalScope::AUTOMATIC; }
+ # { p[0] = LexicalScope::AUTOMATIC; }
()
def p_lifetime_2(p):
'''lifetime : K_static '''
print('lifetime_2', list(p))
- # { $$ = LexicalScope::STATIC; }
+ # { p[0] = LexicalScope::STATIC; }
()
def p_lifetime_opt_1(p):
'''lifetime_opt : lifetime '''
def p_lifetime_opt_2(p):
'''lifetime_opt : '''
print('lifetime_opt_2', list(p))
- # { $$ = LexicalScope::INHERITED; }
+ # { p[0] = LexicalScope::INHERITED; }
()
def p_loop_statement_1(p):
'''loop_statement : K_for '(' lpvalue '=' expression ';' expression ';' for_step ')' statement_or_null '''
print('loop_statement_1', list(p))
- # { PForStatement*tmp = new PForStatement($3, $5, $7, $9, $11);
+ # { PForStatement*tmp = new PForStatement(p[3], p[5], p[7], p[9], p[11]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_loop_statement_2(p):
'''loop_statement : K_for '(' data_type IDENTIFIER '=' expression ';' expression ';' for_step ')' _embed0_loop_statement statement_or_null '''
print('loop_statement_2', list(p))
# { pform_name_t tmp_hident;
- # tmp_hident.push_back(name_component_t(lex_strings.make($4)));
+ # tmp_hident.push_back(name_component_t(lex_strings.make(p[4])));
#
# PEIdent*tmp_ident = pform_new_ident(tmp_hident);
# FILE_NAME(tmp_ident, @4);
#
- # PForStatement*tmp_for = new PForStatement(tmp_ident, $6, $8, $10, $13);
+ # PForStatement*tmp_for = new PForStatement(tmp_ident, p[6], p[8], p[10], p[13]);
# FILE_NAME(tmp_for, @1);
#
# pform_pop_scope();
# PBlock*tmp_blk = current_block_stack.top();
# current_block_stack.pop();
# tmp_blk->set_statement(tmp_for_list);
- # $$ = tmp_blk;
- # delete[]$4;
+ # p[0] = tmp_blk;
+ # delete[]p[4];
# }
()
def p_loop_statement_3(p):
'''loop_statement : K_forever statement_or_null '''
print('loop_statement_3', list(p))
- # { PForever*tmp = new PForever($2);
+ # { PForever*tmp = new PForever(p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_loop_statement_4(p):
'''loop_statement : K_repeat '(' expression ')' statement_or_null '''
print('loop_statement_4', list(p))
- # { PRepeat*tmp = new PRepeat($3, $5);
+ # { PRepeat*tmp = new PRepeat(p[3], p[5]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_loop_statement_5(p):
'''loop_statement : K_while '(' expression ')' statement_or_null '''
print('loop_statement_5', list(p))
- # { PWhile*tmp = new PWhile($3, $5);
+ # { PWhile*tmp = new PWhile(p[3], p[5]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_loop_statement_6(p):
'''loop_statement : K_do statement_or_null K_while '(' expression ')' ';' '''
print('loop_statement_6', list(p))
- # { PDoWhile*tmp = new PDoWhile($5, $2);
+ # { PDoWhile*tmp = new PDoWhile(p[5], p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_loop_statement_7(p):
'''loop_statement : K_foreach '(' IDENTIFIER '[' loop_variables ']' ')' _embed1_loop_statement statement_or_null '''
print('loop_statement_7', list(p))
- # { PForeach*tmp_for = pform_make_foreach(@1, $3, $5, $9);
+ # { PForeach*tmp_for = pform_make_foreach(@1, p[3], p[5], p[9]);
#
# pform_pop_scope();
# vector<Statement*>tmp_for_list(1);
# PBlock*tmp_blk = current_block_stack.top();
# current_block_stack.pop();
# tmp_blk->set_statement(tmp_for_list);
- # $$ = tmp_blk;
+ # p[0] = tmp_blk;
# }
()
def p_loop_statement_8(p):
#
# list<decl_assignment_t*>assign_list;
# decl_assignment_t*tmp_assign = new decl_assignment_t;
- # tmp_assign->name = lex_strings.make($4);
+ # tmp_assign->name = lex_strings.make(p[4]);
# assign_list.push_back(tmp_assign);
- # pform_makewire(@4, 0, str_strength, &assign_list, NetNet::REG, $3);
+ # pform_makewire(@4, 0, str_strength, &assign_list, NetNet::REG, p[3]);
# }
()
def p__embed1_loop_statement(p):
# FILE_NAME(tmp, @1);
# current_block_stack.push(tmp);
#
- # pform_make_foreach_declarations(@1, $5);
+ # pform_make_foreach_declarations(@1, p[5]);
# }
()
def p_list_of_variable_decl_assignments_1(p):
'''list_of_variable_decl_assignments : variable_decl_assignment '''
print('list_of_variable_decl_assignments_1', list(p))
# { list<decl_assignment_t*>*tmp = new list<decl_assignment_t*>;
- # tmp->push_back($1);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_list_of_variable_decl_assignments_2(p):
'''list_of_variable_decl_assignments : list_of_variable_decl_assignments ',' variable_decl_assignment '''
print('list_of_variable_decl_assignments_2', list(p))
- # { list<decl_assignment_t*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { list<decl_assignment_t*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_variable_decl_assignment_1(p):
'''variable_decl_assignment : IDENTIFIER dimensions_opt '''
print('variable_decl_assignment_1', list(p))
# { decl_assignment_t*tmp = new decl_assignment_t;
- # tmp->name = lex_strings.make($1);
- # if ($2) {
- # tmp->index = *$2;
- # delete $2;
+ # tmp->name = lex_strings.make(p[1]);
+ # if (p[2]) {
+ # tmp->index = *p[2];
+ # delete p[2];
# }
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_variable_decl_assignment_2(p):
'''variable_decl_assignment : IDENTIFIER '=' expression '''
print('variable_decl_assignment_2', list(p))
# { decl_assignment_t*tmp = new decl_assignment_t;
- # tmp->name = lex_strings.make($1);
- # tmp->expr .reset($3);
- # delete[]$1;
- # $$ = tmp;
+ # tmp->name = lex_strings.make(p[1]);
+ # tmp->expr .reset(p[3]);
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_variable_decl_assignment_3(p):
'''variable_decl_assignment : IDENTIFIER '=' K_new '(' ')' '''
print('variable_decl_assignment_3', list(p))
# { decl_assignment_t*tmp = new decl_assignment_t;
- # tmp->name = lex_strings.make($1);
+ # tmp->name = lex_strings.make(p[1]);
# PENewClass*expr = new PENewClass;
# FILE_NAME(expr, @3);
# tmp->expr .reset(expr);
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_loop_variables_1(p):
'''loop_variables : loop_variables ',' IDENTIFIER '''
print('loop_variables_1', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # delete[]$3;
- # $$ = tmp;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_loop_variables_2(p):
'''loop_variables : IDENTIFIER '''
print('loop_variables_2', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # delete[]$1;
- # $$ = tmp;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_method_qualifier_1(p):
()
def p__embed0_modport_item(p):
'''_embed0_modport_item : '''
- # { pform_start_modport_item(@1, $1); }
+ # { pform_start_modport_item(@1, p[1]); }
()
def p_modport_ports_list_1(p):
'''modport_ports_list : modport_ports_declaration '''
print('modport_ports_list_3', list(p))
# { if (last_modport_port.type == MP_SIMPLE) {
# pform_add_modport_port(@3, last_modport_port.direction,
- # $3->name, $3->parm);
+ # p[3]->name, p[3]->parm);
# } else {
# yyerror(@3, "error: modport expression not allowed here.");
# }
- # delete $3;
+ # delete p[3];
# }
()
def p_modport_ports_list_4(p):
print('modport_ports_list_5', list(p))
# { if (last_modport_port.type == MP_SIMPLE) {
# pform_add_modport_port(@3, last_modport_port.direction,
- # lex_strings.make($3), 0);
+ # lex_strings.make(p[3]), 0);
# } else if (last_modport_port.type != MP_TF) {
# yyerror(@3, "error: list of identifiers not allowed here.");
# }
- # delete[] $3;
+ # delete[] p[3];
# }
()
def p_modport_ports_list_6(p):
'''modport_ports_declaration : attribute_list_opt port_direction IDENTIFIER '''
print('modport_ports_declaration_1', list(p))
# { last_modport_port.type = MP_SIMPLE;
- # last_modport_port.direction = $2;
- # pform_add_modport_port(@3, $2, lex_strings.make($3), 0);
- # delete[] $3;
- # delete $1;
+ # last_modport_port.direction = p[2];
+ # pform_add_modport_port(@3, p[2], lex_strings.make(p[3]), 0);
+ # delete[] p[3];
+ # delete p[1];
# }
()
def p_modport_ports_declaration_2(p):
'''modport_ports_declaration : attribute_list_opt port_direction modport_simple_port '''
print('modport_ports_declaration_2', list(p))
# { last_modport_port.type = MP_SIMPLE;
- # last_modport_port.direction = $2;
- # pform_add_modport_port(@3, $2, $3->name, $3->parm);
- # delete $3;
- # delete $1;
+ # last_modport_port.direction = p[2];
+ # pform_add_modport_port(@3, p[2], p[3]->name, p[3]->parm);
+ # delete p[3];
+ # delete p[1];
# }
()
def p_modport_ports_declaration_3(p):
'''modport_ports_declaration : attribute_list_opt import_export IDENTIFIER '''
print('modport_ports_declaration_3', list(p))
# { last_modport_port.type = MP_TF;
- # last_modport_port.is_import = $2;
+ # last_modport_port.is_import = p[2];
# yyerror(@3, "sorry: modport task/function ports are not yet supported.");
- # delete[] $3;
- # delete $1;
+ # delete[] p[3];
+ # delete p[1];
# }
()
def p_modport_ports_declaration_4(p):
'''modport_ports_declaration : attribute_list_opt import_export modport_tf_port '''
print('modport_ports_declaration_4', list(p))
# { last_modport_port.type = MP_TF;
- # last_modport_port.is_import = $2;
+ # last_modport_port.is_import = p[2];
# yyerror(@3, "sorry: modport task/function ports are not yet supported.");
- # delete $1;
+ # delete p[1];
# }
()
def p_modport_ports_declaration_5(p):
# { last_modport_port.type = MP_CLOCKING;
# last_modport_port.direction = NetNet::NOT_A_PORT;
# yyerror(@3, "sorry: modport clocking declaration is not yet supported.");
- # delete[] $3;
- # delete $1;
+ # delete[] p[3];
+ # delete p[1];
# }
()
def p_modport_simple_port_1(p):
'''modport_simple_port : '.' IDENTIFIER '(' expression ')' '''
print('modport_simple_port_1', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
- # tmp->parm = $4;
- # delete[]$2;
- # $$ = tmp;
+ # tmp->name = lex_strings.make(p[2]);
+ # tmp->parm = p[4];
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_modport_tf_port_1(p):
def p_non_integer_type_1(p):
'''non_integer_type : K_real '''
print('non_integer_type_1', list(p))
- # { $$ = real_type_t::REAL; }
+ # { p[0] = real_type_t::REAL; }
()
def p_non_integer_type_2(p):
'''non_integer_type : K_realtime '''
print('non_integer_type_2', list(p))
- # { $$ = real_type_t::REAL; }
+ # { p[0] = real_type_t::REAL; }
()
def p_non_integer_type_3(p):
'''non_integer_type : K_shortreal '''
print('non_integer_type_3', list(p))
- # { $$ = real_type_t::SHORTREAL; }
+ # { p[0] = real_type_t::SHORTREAL; }
()
def p_number_1(p):
'''number : BASED_NUMBER '''
print('number_1', list(p))
- # { $$ = $1; based_size = 0;}
+ # { p[0] = p[1]; based_size = 0;}
()
def p_number_2(p):
'''number : DEC_NUMBER '''
print('number_2', list(p))
num = Leaf(token.NUMBER, "%s" % (p[1]))
p[0] = num
- # { $$ = $1; based_size = 0;}
+ # { p[0] = p[1]; based_size = 0;}
()
def p_number_3(p):
'''number : DEC_NUMBER BASED_NUMBER '''
print('number_3', list(p))
num = Leaf(token.NUMBER, "%s:%s" % (p[1], p[2]))
p[0] = num
- # { $$ = pform_verinum_with_size($1,$2, @2.text, @2.first_line);
+ # { p[0] = pform_verinum_with_size(p[1],p[2], @2.text, @2.first_line);
# based_size = 0; }
()
def p_number_4(p):
'''number : UNBASED_NUMBER '''
print('number_4', list(p))
- # { $$ = $1; based_size = 0;}
+ # { p[0] = p[1]; based_size = 0;}
()
def p_number_5(p):
'''number : DEC_NUMBER UNBASED_NUMBER '''
print('number_5', list(p))
# { yyerror(@1, "error: Unbased SystemVerilog literal cannot have "
# "a size.");
- # $$ = $1; based_size = 0;}
+ # p[0] = p[1]; based_size = 0;}
()
def p_open_range_list_1(p):
'''open_range_list : open_range_list ',' value_range '''
print('package_declaration_1', list(p))
# { pform_end_package_declaration(@1);
# // If an end label is present make sure it match the package name.
- # if ($10) {
- # if (strcmp($3,$10) != 0) {
+ # if (p[10]) {
+ # if (strcmp(p[3],p[10]) != 0) {
# yyerror(@10, "error: End label doesn't match package name");
# }
- # delete[]$10;
+ # delete[]p[10];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p__embed0_package_declaration(p):
'''_embed0_package_declaration : '''
- # { pform_start_package_declaration(@1, $3, $2); }
+ # { pform_start_package_declaration(@1, p[3], p[2]); }
()
def p__embed1_package_declaration(p):
'''_embed1_package_declaration : '''
def p_package_import_item_1(p):
'''package_import_item : PACKAGE_IDENTIFIER K_SCOPE_RES IDENTIFIER '''
print('package_import_item_1', list(p))
- # { pform_package_import(@2, $1, $3);
- # delete[]$3;
+ # { pform_package_import(@2, p[1], p[3]);
+ # delete[]p[3];
# }
()
def p_package_import_item_2(p):
'''package_import_item : PACKAGE_IDENTIFIER K_SCOPE_RES '*' '''
print('package_import_item_2', list(p))
- # { pform_package_import(@2, $1, 0);
+ # { pform_package_import(@2, p[1], 0);
# }
()
def p_package_import_item_list_1(p):
def p_port_direction_1(p):
'''port_direction : K_input '''
print('port_direction_1', list(p))
- # { $$ = NetNet::PINPUT; }
+ # { p[0] = NetNet::PINPUT; }
()
def p_port_direction_2(p):
'''port_direction : K_output '''
print('port_direction_2', list(p))
- # { $$ = NetNet::POUTPUT; }
+ # { p[0] = NetNet::POUTPUT; }
()
def p_port_direction_3(p):
'''port_direction : K_inout '''
print('port_direction_3', list(p))
- # { $$ = NetNet::PINOUT; }
+ # { p[0] = NetNet::PINOUT; }
()
def p_port_direction_4(p):
'''port_direction : K_ref '''
print('port_direction_4', list(p))
- # { $$ = NetNet::PREF;
+ # { p[0] = NetNet::PREF;
# if (!gn_system_verilog()) {
# yyerror(@1, "error: Reference ports (ref) require SystemVerilog.");
- # $$ = NetNet::PINPUT;
+ # p[0] = NetNet::PINPUT;
# }
# }
()
def p_port_direction_opt_2(p):
'''port_direction_opt : '''
print('port_direction_opt_2', list(p))
- # { $$ = NetNet::PIMPLICIT; }
+ # { p[0] = NetNet::PIMPLICIT; }
()
def p_property_expr_1(p):
'''property_expr : expression '''
def p_property_qualifier_opt_2(p):
'''property_qualifier_opt : '''
print('property_qualifier_opt_2', list(p))
- # { $$ = property_qualifier_t::make_none(); }
+ # { p[0] = property_qualifier_t::make_none(); }
()
def p_property_qualifier_list_1(p):
'''property_qualifier_list : property_qualifier_list property_qualifier '''
print('property_qualifier_list_1', list(p))
- # { $$ = $1 | $2; }
+ # { p[0] = p[1] | p[2]; }
()
def p_property_qualifier_list_2(p):
'''property_qualifier_list : property_qualifier '''
def p_random_qualifier_1(p):
'''random_qualifier : K_rand '''
print('random_qualifier_1', list(p))
- # { $$ = property_qualifier_t::make_rand(); }
+ # { p[0] = property_qualifier_t::make_rand(); }
()
def p_random_qualifier_2(p):
'''random_qualifier : K_randc '''
print('random_qualifier_2', list(p))
- # { $$ = property_qualifier_t::make_randc(); }
+ # { p[0] = property_qualifier_t::make_randc(); }
()
def p_real_or_realtime_1(p):
'''real_or_realtime : K_real '''
def p_simple_type_or_string_1(p):
'''simple_type_or_string : integer_vector_type '''
print('simple_type_or_string_1', list(p))
- # { ivl_variable_type_t use_vtype = $1;
+ # { ivl_variable_type_t use_vtype = p[1];
# bool reg_flag = false;
# if (use_vtype == IVL_VT_NO_TYPE) {
# use_vtype = IVL_VT_LOGIC;
# vector_type_t*tmp = new vector_type_t(use_vtype, false, 0);
# tmp->reg_flag = reg_flag;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_simple_type_or_string_2(p):
'''simple_type_or_string : non_integer_type '''
print('simple_type_or_string_2', list(p))
- # { real_type_t*tmp = new real_type_t($1);
+ # { real_type_t*tmp = new real_type_t(p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_simple_type_or_string_3(p):
'''simple_type_or_string : atom2_type '''
print('simple_type_or_string_3', list(p))
- # { atom2_type_t*tmp = new atom2_type_t($1, true);
+ # { atom2_type_t*tmp = new atom2_type_t(p[1], true);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_simple_type_or_string_4(p):
# vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, true, pd);
# tmp->reg_flag = true;
# tmp->integer_flag = true;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_simple_type_or_string_5(p):
# { list<pform_range_t>*pd = make_range_from_width(64);
# vector_type_t*tmp = new vector_type_t(IVL_VT_LOGIC, false, pd);
# tmp->reg_flag = !gn_system_verilog();
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_simple_type_or_string_6(p):
'''simple_type_or_string : TYPE_IDENTIFIER '''
print('simple_type_or_string_6', list(p))
- # { $$ = $1.type;
- # delete[]$1.text;
+ # { p[0] = p[1].type;
+ # delete[]p[1].text;
# }
()
def p_simple_type_or_string_7(p):
'''simple_type_or_string : PACKAGE_IDENTIFIER K_SCOPE_RES _embed0_simple_type_or_string TYPE_IDENTIFIER '''
print('simple_type_or_string_7', list(p))
# { lex_in_package_scope(0);
- # $$ = $4.type;
- # delete[]$4.text;
+ # p[0] = p[4].type;
+ # delete[]p[4].text;
# }
()
def p_simple_type_or_string_8(p):
print('simple_type_or_string_8', list(p))
# { string_type_t*tmp = new string_type_t;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p__embed0_simple_type_or_string(p):
'''_embed0_simple_type_or_string : '''
- # { lex_in_package_scope($1); }
+ # { lex_in_package_scope(p[1]); }
()
def p_statement_1(p):
'''statement : attribute_list_opt statement_item '''
print('statement_1', list(p))
- # { pform_bind_attributes($2->attributes, $1);
- # $$ = $2;
+ # { pform_bind_attributes(p[2]->attributes, p[1]);
+ # p[0] = p[2];
# }
()
def p_statement_or_null_1(p):
# // endlabel_opt but still have the pform_endmodule() called
# // early enough that the lexor can know we are outside the
# // module.
- # if ($10) {
- # if (strcmp($3,$10) != 0) {
+ # if (p[10]) {
+ # if (strcmp(p[3],p[10]) != 0) {
# yyerror(@10, "error: End label doesn't match task name");
# }
# if (! gn_system_verilog()) {
# yyerror(@10, "error: Task end labels require "
# "SystemVerilog.");
# }
- # delete[]$10;
+ # delete[]p[10];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p_task_declaration_2(p):
# // endlabel_opt but still have the pform_endmodule() called
# // early enough that the lexor can know we are outside the
# // module.
- # if ($13) {
- # if (strcmp($3,$13) != 0) {
+ # if (p[13]) {
+ # if (strcmp(p[3],p[13]) != 0) {
# yyerror(@13, "error: End label doesn't match task name");
# }
# if (! gn_system_verilog()) {
# yyerror(@13, "error: Task end labels require "
# "SystemVerilog.");
# }
- # delete[]$13;
+ # delete[]p[13];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p_task_declaration_3(p):
# // endlabel_opt but still have the pform_endmodule() called
# // early enough that the lexor can know we are outside the
# // module.
- # if ($12) {
- # if (strcmp($3,$12) != 0) {
+ # if (p[12]) {
+ # if (strcmp(p[3],p[12]) != 0) {
# yyerror(@12, "error: End label doesn't match task name");
# }
# if (! gn_system_verilog()) {
# yyerror(@12, "error: Task end labels require "
# "SystemVerilog.");
# }
- # delete[]$12;
+ # delete[]p[12];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p_task_declaration_4(p):
# // endlabel_opt but still have the pform_endmodule() called
# // early enough that the lexor can know we are outside the
# // module.
- # if ($7) {
- # if (strcmp($3,$7) != 0) {
+ # if (p[7]) {
+ # if (strcmp(p[3],p[7]) != 0) {
# yyerror(@7, "error: End label doesn't match task name");
# }
# if (! gn_system_verilog()) {
# yyerror(@7, "error: Task end labels require "
# "SystemVerilog.");
# }
- # delete[]$7;
+ # delete[]p[7];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p__embed0_task_declaration(p):
'''_embed0_task_declaration : '''
# { assert(current_task == 0);
- # current_task = pform_push_task_scope(@1, $3, $2);
+ # current_task = pform_push_task_scope(@1, p[3], p[2]);
# }
()
def p__embed1_task_declaration(p):
'''_embed1_task_declaration : '''
- # { current_task->set_ports($6);
- # current_task_set_statement(@3, $7);
+ # { current_task->set_ports(p[6]);
+ # current_task_set_statement(@3, p[7]);
# pform_set_this_class(@3, current_task);
# pform_pop_scope();
# current_task = 0;
- # if ($7 && $7->size() > 1 && !gn_system_verilog()) {
+ # if (p[7] && p[7]->size() > 1 && !gn_system_verilog()) {
# yyerror(@7, "error: Task body with multiple statements requires SystemVerilog.");
# }
- # delete $7;
+ # delete p[7];
# }
()
def p__embed2_task_declaration(p):
'''_embed2_task_declaration : '''
# { assert(current_task == 0);
- # current_task = pform_push_task_scope(@1, $3, $2);
+ # current_task = pform_push_task_scope(@1, p[3], p[2]);
# }
()
def p__embed3_task_declaration(p):
'''_embed3_task_declaration : '''
- # { current_task->set_ports($6);
- # current_task_set_statement(@3, $10);
+ # { current_task->set_ports(p[6]);
+ # current_task_set_statement(@3, p[10]);
# pform_set_this_class(@3, current_task);
# pform_pop_scope();
# current_task = 0;
- # if ($10) delete $10;
+ # if (p[10]) delete p[10];
# }
()
def p__embed4_task_declaration(p):
'''_embed4_task_declaration : '''
# { assert(current_task == 0);
- # current_task = pform_push_task_scope(@1, $3, $2);
+ # current_task = pform_push_task_scope(@1, p[3], p[2]);
# }
()
def p__embed5_task_declaration(p):
'''_embed5_task_declaration : '''
# { current_task->set_ports(0);
- # current_task_set_statement(@3, $9);
+ # current_task_set_statement(@3, p[9]);
# pform_set_this_class(@3, current_task);
# if (! current_task->method_of()) {
- # cerr << @3 << ": warning: task definition for \"" << $3
+ # cerr << @3 << ": warning: task definition for \"" << p[3]
# << "\" has an empty port declaration list!" << endl;
# }
# pform_pop_scope();
# current_task = 0;
- # if ($9->size() > 1 && !gn_system_verilog()) {
+ # if (p[9]->size() > 1 && !gn_system_verilog()) {
# yyerror(@9, "error: Task body with multiple statements requires SystemVerilog.");
# }
- # delete $9;
+ # delete p[9];
# }
()
def p__embed6_task_declaration(p):
def p_tf_port_declaration_1(p):
'''tf_port_declaration : port_direction K_reg_opt unsigned_signed_opt dimensions_opt list_of_identifiers ';' '''
print('tf_port_declaration_1', list(p))
- # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, $1,
- # $2 ? IVL_VT_LOGIC :
+ # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, p[1],
+ # p[2] ? IVL_VT_LOGIC :
# IVL_VT_NO_TYPE,
- # $3, $4, $5);
- # $$ = tmp;
+ # p[3], p[4], p[5]);
+ # p[0] = tmp;
# }
()
def p_tf_port_declaration_2(p):
'''tf_port_declaration : port_direction K_integer list_of_identifiers ';' '''
print('tf_port_declaration_2', list(p))
# { list<pform_range_t>*range_stub = make_range_from_width(integer_width);
- # vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, $1, IVL_VT_LOGIC, true,
- # range_stub, $3, true);
- # $$ = tmp;
+ # vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, p[1], IVL_VT_LOGIC, true,
+ # range_stub, p[3], true);
+ # p[0] = tmp;
# }
()
def p_tf_port_declaration_3(p):
'''tf_port_declaration : port_direction K_time list_of_identifiers ';' '''
print('tf_port_declaration_3', list(p))
# { list<pform_range_t>*range_stub = make_range_from_width(64);
- # vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, $1, IVL_VT_LOGIC, false,
- # range_stub, $3);
- # $$ = tmp;
+ # vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, p[1], IVL_VT_LOGIC, false,
+ # range_stub, p[3]);
+ # p[0] = tmp;
# }
()
def p_tf_port_declaration_4(p):
'''tf_port_declaration : port_direction real_or_realtime list_of_identifiers ';' '''
print('tf_port_declaration_4', list(p))
- # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, $1, IVL_VT_REAL, true,
- # 0, $3);
- # $$ = tmp;
+ # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, p[1], IVL_VT_REAL, true,
+ # 0, p[3]);
+ # p[0] = tmp;
# }
()
def p_tf_port_declaration_5(p):
'''tf_port_declaration : port_direction K_string list_of_identifiers ';' '''
print('tf_port_declaration_5', list(p))
- # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, $1, IVL_VT_STRING, true,
- # 0, $3);
- # $$ = tmp;
+ # { vector<pform_tf_port_t>*tmp = pform_make_task_ports(@1, p[1], IVL_VT_STRING, true,
+ # 0, p[3]);
+ # p[0] = tmp;
# }
()
def p_tf_port_item_1(p):
'''tf_port_item : port_direction_opt data_type_or_implicit IDENTIFIER dimensions_opt tf_port_item_expr_opt '''
print('tf_port_item_1', list(p))
# { vector<pform_tf_port_t>*tmp;
- # NetNet::PortType use_port_type = $1;
- # if ((use_port_type == NetNet::PIMPLICIT) && (gn_system_verilog() || ($2 == 0)))
+ # NetNet::PortType use_port_type = p[1];
+ # if ((use_port_type == NetNet::PIMPLICIT) && (gn_system_verilog() || (p[2] == 0)))
# use_port_type = port_declaration_context.port_type;
- # perm_string name = lex_strings.make($3);
- # list<perm_string>* ilist = list_from_identifier($3);
+ # perm_string name = lex_strings.make(p[3]);
+ # list<perm_string>* ilist = list_from_identifier(p[3]);
#
# if (use_port_type == NetNet::PIMPLICIT) {
# yyerror(@1, "error: missing task/function port direction.");
# use_port_type = NetNet::PINPUT; // for error recovery
# }
- # if (($2 == 0) && ($1==NetNet::PIMPLICIT)) {
+ # if ((p[2] == 0) && (p[1]==NetNet::PIMPLICIT)) {
# // Detect special case this is an undecorated
# // identifier and we need to get the declaration from
# // left context.
- # if ($4 != 0) {
+ # if (p[4] != 0) {
# yyerror(@4, "internal error: How can there be an unpacked range here?\n");
# }
# tmp = pform_make_task_ports(@3, use_port_type,
# // indicate the type. Save the type for any right
# // context that may come later.
# port_declaration_context.port_type = use_port_type;
- # if ($2 == 0) {
- # $2 = new vector_type_t(IVL_VT_LOGIC, false, 0);
- # FILE_NAME($2, @3);
+ # if (p[2] == 0) {
+ # p[2] = new vector_type_t(IVL_VT_LOGIC, false, 0);
+ # FILE_NAME(p[2], @3);
# }
- # port_declaration_context.data_type = $2;
- # tmp = pform_make_task_ports(@3, use_port_type, $2, ilist);
+ # port_declaration_context.data_type = p[2];
+ # tmp = pform_make_task_ports(@3, use_port_type, p[2], ilist);
# }
- # if ($4 != 0) {
- # pform_set_reg_idx(name, $4);
+ # if (p[4] != 0) {
+ # pform_set_reg_idx(name, p[4]);
# }
#
- # $$ = tmp;
- # if ($5) {
+ # p[0] = tmp;
+ # if (p[5]) {
# assert(tmp->size()==1);
- # tmp->front().defe = $5;
+ # tmp->front().defe = p[5];
# }
# }
()
def p_tf_port_item_2(p):
'''tf_port_item : port_direction_opt data_type_or_implicit IDENTIFIER error '''
print('tf_port_item_2', list(p))
- # { yyerror(@3, "error: Error in task/function port item after port name %s.", $3);
+ # { yyerror(@3, "error: Error in task/function port item after port name %s.", p[3]);
# yyerrok;
# p[0] = None
# }
# yyerror(@1, "error: Task/function default arguments require "
# "SystemVerilog.");
# }
- # $$ = $2;
+ # p[0] = p[2];
# }
()
def p_tf_port_item_expr_opt_2(p):
'''tf_port_item_list : tf_port_item_list ',' tf_port_item '''
print('tf_port_item_list_1', list(p))
# { vector<pform_tf_port_t>*tmp;
- # if ($1 && $3) {
- # size_t s1 = $1->size();
- # tmp = $1;
- # tmp->resize(tmp->size()+$3->size());
- # for (size_t idx = 0 ; idx < $3->size() ; idx += 1)
- # tmp->at(s1+idx) = $3->at(idx);
- # delete $3;
- # } else if ($1) {
- # tmp = $1;
+ # if (p[1] && p[3]) {
+ # size_t s1 = p[1]->size();
+ # tmp = p[1];
+ # tmp->resize(tmp->size()+p[3]->size());
+ # for (size_t idx = 0 ; idx < p[3]->size() ; idx += 1)
+ # tmp->at(s1+idx) = p[3]->at(idx);
+ # delete p[3];
+ # } else if (p[1]) {
+ # tmp = p[1];
# } else {
- # tmp = $3;
+ # tmp = p[3];
# }
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_tf_port_item_list_2(p):
'''tf_port_item_list : error ',' tf_port_item '''
print('tf_port_item_list_3', list(p))
# { yyerror(@2, "error: Syntax error in task/function port declaration.");
- # $$ = $3;
+ # p[0] = p[3];
# }
()
def p_tf_port_item_list_4(p):
'''tf_port_item_list : tf_port_item_list ',' '''
print('tf_port_item_list_4', list(p))
# { yyerror(@2, "error: NULL port declarations are not allowed.");
- # $$ = $1;
+ # p[0] = p[1];
# }
()
def p_tf_port_item_list_5(p):
'''tf_port_item_list : tf_port_item_list ';' '''
print('tf_port_item_list_5', list(p))
# { yyerror(@2, "error: ';' is an invalid port declaration separator.");
- # $$ = $1;
+ # p[0] = p[1];
# }
()
def p_timeunits_declaration_1(p):
'''timeunits_declaration : K_timeunit TIME_LITERAL ';' '''
print('timeunits_declaration_1', list(p))
- # { pform_set_timeunit($2, allow_timeunit_decl); }
+ # { pform_set_timeunit(p[2], allow_timeunit_decl); }
()
def p_timeunits_declaration_2(p):
'''timeunits_declaration : K_timeunit TIME_LITERAL '/' TIME_LITERAL ';' '''
print('timeunits_declaration_2', list(p))
# { bool initial_decl = allow_timeunit_decl && allow_timeprec_decl;
- # pform_set_timeunit($2, initial_decl);
- # pform_set_timeprec($4, initial_decl);
+ # pform_set_timeunit(p[2], initial_decl);
+ # pform_set_timeprec(p[4], initial_decl);
# }
()
def p_timeunits_declaration_3(p):
'''timeunits_declaration : K_timeprecision TIME_LITERAL ';' '''
print('timeunits_declaration_3', list(p))
- # { pform_set_timeprec($2, allow_timeprec_decl); }
+ # { pform_set_timeprec(p[2], allow_timeprec_decl); }
()
def p_timeunits_declaration_opt_1(p):
'''timeunits_declaration_opt : %prec no_timeunits_declaration '''
'''variable_dimension : '[' expression ':' expression ']' '''
print('variable_dimension_1', list(p))
# { list<pform_range_t> *tmp = new list<pform_range_t>;
- # pform_range_t index ($2,$4);
+ # pform_range_t index (p[2],p[4]);
# tmp->push_back(index);
- # $$ = tmp;
+ # p[0] = tmp;
# }
# XXX TODO: subscriptlist
start = str(p[4])
# list<pform_range_t> *tmp = new list<pform_range_t>;
# pform_range_t index;
# index.first = new PENumber(new verinum((uint64_t)0, integer_width));
- # index.second = new PEBinary('-', $2, new PENumber(new verinum((uint64_t)1, integer_width)));
+ # index.second = new PEBinary('-', p[2], new PENumber(new verinum((uint64_t)1, integer_width)));
# tmp->push_back(index);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_variable_dimension_3(p):
# { list<pform_range_t> *tmp = new list<pform_range_t>;
# pform_range_t index (0,0);
# tmp->push_back(index);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_variable_dimension_4(p):
# yyerror("error: Queue declarations require SystemVerilog.");
# }
# tmp->push_back(index);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_variable_lifetime_1(p):
# { if (!gn_system_verilog()) {
# yyerror(@1, "error: overriding the default variable lifetime "
# "requires SystemVerilog.");
- # } else if ($1 != pform_peek_scope()->default_lifetime) {
+ # } else if (p[1] != pform_peek_scope()->default_lifetime) {
# yyerror(@1, "sorry: overriding the default variable lifetime "
# "is not yet supported.");
# }
- # var_lifetime = $1;
+ # var_lifetime = p[1];
# }
()
def p_attribute_list_opt_1(p):
def p_attribute_instance_list_4(p):
'''attribute_instance_list : attribute_instance_list K_PSTAR attribute_list K_STARP '''
print('attribute_instance_list_4', list(p))
- # { list<named_pexpr_t>*tmp = $1;
+ # { list<named_pexpr_t>*tmp = p[1];
# if (tmp) {
- # tmp->splice(tmp->end(), *$3);
- # delete $3;
- # $$ = tmp;
- # } else $$ = $3;
+ # tmp->splice(tmp->end(), *p[3]);
+ # delete p[3];
+ # p[0] = tmp;
+ # } else p[0] = p[3];
# }
()
def p_attribute_list_1(p):
'''attribute_list : attribute_list ',' attribute '''
print('attribute_list_1', list(p))
- # { list<named_pexpr_t>*tmp = $1;
- # tmp->push_back(*$3);
- # delete $3;
- # $$ = tmp;
+ # { list<named_pexpr_t>*tmp = p[1];
+ # tmp->push_back(*p[3]);
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_attribute_list_2(p):
'''attribute_list : attribute '''
print('attribute_list_2', list(p))
# { list<named_pexpr_t>*tmp = new list<named_pexpr_t>;
- # tmp->push_back(*$1);
- # delete $1;
- # $$ = tmp;
+ # tmp->push_back(*p[1]);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_attribute_1(p):
'''attribute : IDENTIFIER '''
print('attribute_1', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($1);
+ # tmp->name = lex_strings.make(p[1]);
# tmp->parm = 0;
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_attribute_2(p):
'''attribute : IDENTIFIER '=' expression '''
print('attribute_2', list(p))
- # { PExpr*tmp = $3;
+ # { PExpr*tmp = p[3];
# named_pexpr_t*tmp2 = new named_pexpr_t;
- # tmp2->name = lex_strings.make($1);
+ # tmp2->name = lex_strings.make(p[1]);
# tmp2->parm = tmp;
- # delete[]$1;
- # $$ = tmp2;
+ # delete[]p[1];
+ # p[0] = tmp2;
# }
()
def p_block_item_decl_1(p):
'''block_item_decl : data_type register_variable_list ';' '''
print('block_item_decl_1', list(p))
- # { if ($1) pform_set_data_type(@1, $1, $2, NetNet::REG, attributes_in_context);
+ # { if (p[1]) pform_set_data_type(@1, p[1], p[2], NetNet::REG, attributes_in_context);
# }
()
def p_block_item_decl_2(p):
'''block_item_decl : variable_lifetime data_type register_variable_list ';' '''
print('block_item_decl_2', list(p))
- # { if ($2) pform_set_data_type(@2, $2, $3, NetNet::REG, attributes_in_context);
+ # { if (p[2]) pform_set_data_type(@2, p[2], p[3], NetNet::REG, attributes_in_context);
# var_lifetime = LexicalScope::INHERITED;
# }
()
def p_block_item_decl_3(p):
'''block_item_decl : K_reg data_type register_variable_list ';' '''
print('block_item_decl_3', list(p))
- # { if ($2) pform_set_data_type(@2, $2, $3, NetNet::REG, attributes_in_context);
+ # { if (p[2]) pform_set_data_type(@2, p[2], p[3], NetNet::REG, attributes_in_context);
# }
()
def p_block_item_decl_4(p):
'''block_item_decl : variable_lifetime K_reg data_type register_variable_list ';' '''
print('block_item_decl_4', list(p))
- # { if ($3) pform_set_data_type(@3, $3, $4, NetNet::REG, attributes_in_context);
+ # { if (p[3]) pform_set_data_type(@3, p[3], p[4], NetNet::REG, attributes_in_context);
# var_lifetime = LexicalScope::INHERITED;
# }
()
def p_block_item_decl_5(p):
'''block_item_decl : K_event event_variable_list ';' '''
print('block_item_decl_5', list(p))
- # { if ($2) pform_make_events($2, @1.text, @1.first_line);
+ # { if (p[2]) pform_make_events(p[2], @1.text, @1.first_line);
# }
()
def p_block_item_decl_6(p):
def p_type_declaration_1(p):
'''type_declaration : K_typedef data_type IDENTIFIER dimensions_opt ';' '''
print('type_declaration_1', list(p))
- # { perm_string name = lex_strings.make($3);
- # pform_set_typedef(name, $2, $4);
- # delete[]$3;
+ # { perm_string name = lex_strings.make(p[3]);
+ # pform_set_typedef(name, p[2], p[4]);
+ # delete[]p[3];
# }
()
def p_type_declaration_2(p):
'''type_declaration : K_typedef data_type TYPE_IDENTIFIER ';' '''
print('type_declaration_2', list(p))
- # { perm_string name = lex_strings.make($3.text);
+ # { perm_string name = lex_strings.make(p[3].text);
# if (pform_test_type_identifier_local(name)) {
- # yyerror(@3, "error: Typedef identifier \"%s\" is already a type name.", $3.text);
+ # yyerror(@3, "error: Typedef identifier \"%s\" is already a type name.", p[3].text);
#
# } else {
- # pform_set_typedef(name, $2, NULL);
+ # pform_set_typedef(name, p[2], NULL);
# }
- # delete[]$3.text;
+ # delete[]p[3].text;
# }
()
def p_type_declaration_3(p):
print('type_declaration_3', list(p))
# { // Create a synthetic typedef for the class name so that the
# // lexor detects the name as a type.
- # perm_string name = lex_strings.make($3);
+ # perm_string name = lex_strings.make(p[3]);
# class_type_t*tmp = new class_type_t(name);
# FILE_NAME(tmp, @3);
# pform_set_typedef(name, tmp, NULL);
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p_type_declaration_4(p):
print('type_declaration_7', list(p))
# { // Create a synthetic typedef for the class name so that the
# // lexor detects the name as a type.
- # perm_string name = lex_strings.make($2);
+ # perm_string name = lex_strings.make(p[2]);
# class_type_t*tmp = new class_type_t(name);
# FILE_NAME(tmp, @2);
# pform_set_typedef(name, tmp, NULL);
- # delete[]$2;
+ # delete[]p[2];
# }
()
def p_type_declaration_8(p):
print('enum_data_type_1', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($3);
+ # enum_type->names .reset(p[3]);
# enum_type->base_type = IVL_VT_BOOL;
# enum_type->signed_flag = true;
# enum_type->integer_flag = false;
# enum_type->range.reset(make_range_from_width(32));
- # $$ = enum_type;
+ # p[0] = enum_type;
# }
()
def p_enum_data_type_2(p):
print('enum_data_type_2', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($5);
+ # enum_type->names .reset(p[5]);
# enum_type->base_type = IVL_VT_BOOL;
- # enum_type->signed_flag = $3;
+ # enum_type->signed_flag = p[3];
# enum_type->integer_flag = false;
- # enum_type->range.reset(make_range_from_width($2));
- # $$ = enum_type;
+ # enum_type->range.reset(make_range_from_width(p[2]));
+ # p[0] = enum_type;
# }
()
def p_enum_data_type_3(p):
print('enum_data_type_3', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($5);
+ # enum_type->names .reset(p[5]);
# enum_type->base_type = IVL_VT_LOGIC;
- # enum_type->signed_flag = $3;
+ # enum_type->signed_flag = p[3];
# enum_type->integer_flag = true;
# enum_type->range.reset(make_range_from_width(integer_width));
- # $$ = enum_type;
+ # p[0] = enum_type;
# }
()
def p_enum_data_type_4(p):
print('enum_data_type_4', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($6);
+ # enum_type->names .reset(p[6]);
# enum_type->base_type = IVL_VT_LOGIC;
- # enum_type->signed_flag = $3;
+ # enum_type->signed_flag = p[3];
# enum_type->integer_flag = false;
- # enum_type->range.reset($4 ? $4 : make_range_from_width(1));
- # $$ = enum_type;
+ # enum_type->range.reset(p[4] ? p[4] : make_range_from_width(1));
+ # p[0] = enum_type;
# }
()
def p_enum_data_type_5(p):
print('enum_data_type_5', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($6);
+ # enum_type->names .reset(p[6]);
# enum_type->base_type = IVL_VT_LOGIC;
- # enum_type->signed_flag = $3;
+ # enum_type->signed_flag = p[3];
# enum_type->integer_flag = false;
- # enum_type->range.reset($4 ? $4 : make_range_from_width(1));
- # $$ = enum_type;
+ # enum_type->range.reset(p[4] ? p[4] : make_range_from_width(1));
+ # p[0] = enum_type;
# }
()
def p_enum_data_type_6(p):
print('enum_data_type_6', list(p))
# { enum_type_t*enum_type = new enum_type_t;
# FILE_NAME(enum_type, @1);
- # enum_type->names .reset($6);
+ # enum_type->names .reset(p[6]);
# enum_type->base_type = IVL_VT_BOOL;
- # enum_type->signed_flag = $3;
+ # enum_type->signed_flag = p[3];
# enum_type->integer_flag = false;
- # enum_type->range.reset($4 ? $4 : make_range_from_width(1));
- # $$ = enum_type;
+ # enum_type->range.reset(p[4] ? p[4] : make_range_from_width(1));
+ # p[0] = enum_type;
# }
()
def p_enum_name_list_1(p):
'''enum_name_list : enum_name '''
print('enum_name_list_1', list(p))
- # { $$ = $1;
+ # { p[0] = p[1];
# }
()
def p_enum_name_list_2(p):
'''enum_name_list : enum_name_list ',' enum_name '''
print('enum_name_list_2', list(p))
- # { list<named_pexpr_t>*lst = $1;
- # lst->splice(lst->end(), *$3);
- # delete $3;
- # $$ = lst;
+ # { list<named_pexpr_t>*lst = p[1];
+ # lst->splice(lst->end(), *p[3]);
+ # delete p[3];
+ # p[0] = lst;
# }
()
def p_pos_neg_number_1(p):
'''pos_neg_number : number '''
print('pos_neg_number_1', list(p))
- # { $$ = $1;
+ # { p[0] = p[1];
# }
()
def p_pos_neg_number_2(p):
'''pos_neg_number : '-' number '''
print('pos_neg_number_2', list(p))
- # { verinum tmp = -(*($2));
- # *($2) = tmp;
- # $$ = $2;
+ # { verinum tmp = -(*(p[2]));
+ # *(p[2]) = tmp;
+ # p[0] = p[2];
# }
()
def p_enum_name_1(p):
'''enum_name : IDENTIFIER '''
print('enum_name_1', list(p))
- # { perm_string name = lex_strings.make($1);
- # delete[]$1;
- # $$ = make_named_number(name);
+ # { perm_string name = lex_strings.make(p[1]);
+ # delete[]p[1];
+ # p[0] = make_named_number(name);
# }
()
def p_enum_name_2(p):
'''enum_name : IDENTIFIER '[' pos_neg_number ']' '''
print('enum_name_2', list(p))
- # { perm_string name = lex_strings.make($1);
- # long count = check_enum_seq_value(@1, $3, false);
- # delete[]$1;
- # $$ = make_named_numbers(name, 0, count-1);
- # delete $3;
+ # { perm_string name = lex_strings.make(p[1]);
+ # long count = check_enum_seq_value(@1, p[3], false);
+ # delete[]p[1];
+ # p[0] = make_named_numbers(name, 0, count-1);
+ # delete p[3];
# }
()
def p_enum_name_3(p):
'''enum_name : IDENTIFIER '[' pos_neg_number ':' pos_neg_number ']' '''
print('enum_name_3', list(p))
- # { perm_string name = lex_strings.make($1);
- # $$ = make_named_numbers(name, check_enum_seq_value(@1, $3, true),
- # check_enum_seq_value(@1, $5, true));
- # delete[]$1;
- # delete $3;
- # delete $5;
+ # { perm_string name = lex_strings.make(p[1]);
+ # p[0] = make_named_numbers(name, check_enum_seq_value(@1, p[3], true),
+ # check_enum_seq_value(@1, p[5], true));
+ # delete[]p[1];
+ # delete p[3];
+ # delete p[5];
# }
()
def p_enum_name_4(p):
'''enum_name : IDENTIFIER '=' expression '''
print('enum_name_4', list(p))
- # { perm_string name = lex_strings.make($1);
- # delete[]$1;
- # $$ = make_named_number(name, $3);
+ # { perm_string name = lex_strings.make(p[1]);
+ # delete[]p[1];
+ # p[0] = make_named_number(name, p[3]);
# }
()
def p_enum_name_5(p):
'''enum_name : IDENTIFIER '[' pos_neg_number ']' '=' expression '''
print('enum_name_5', list(p))
- # { perm_string name = lex_strings.make($1);
- # long count = check_enum_seq_value(@1, $3, false);
- # $$ = make_named_numbers(name, 0, count-1, $6);
- # delete[]$1;
- # delete $3;
+ # { perm_string name = lex_strings.make(p[1]);
+ # long count = check_enum_seq_value(@1, p[3], false);
+ # p[0] = make_named_numbers(name, 0, count-1, p[6]);
+ # delete[]p[1];
+ # delete p[3];
# }
()
def p_enum_name_6(p):
'''enum_name : IDENTIFIER '[' pos_neg_number ':' pos_neg_number ']' '=' expression '''
print('enum_name_6', list(p))
- # { perm_string name = lex_strings.make($1);
- # $$ = make_named_numbers(name, check_enum_seq_value(@1, $3, true),
- # check_enum_seq_value(@1, $5, true), $8);
- # delete[]$1;
- # delete $3;
- # delete $5;
+ # { perm_string name = lex_strings.make(p[1]);
+ # p[0] = make_named_numbers(name, check_enum_seq_value(@1, p[3], true),
+ # check_enum_seq_value(@1, p[5], true), p[8]);
+ # delete[]p[1];
+ # delete p[3];
+ # delete p[5];
# }
()
def p_struct_data_type_1(p):
print('struct_data_type_1', list(p))
# { struct_type_t*tmp = new struct_type_t;
# FILE_NAME(tmp, @1);
- # tmp->packed_flag = $2;
+ # tmp->packed_flag = p[2];
# tmp->union_flag = false;
- # tmp->members .reset($4);
- # $$ = tmp;
+ # tmp->members .reset(p[4]);
+ # p[0] = tmp;
# }
()
def p_struct_data_type_2(p):
print('struct_data_type_2', list(p))
# { struct_type_t*tmp = new struct_type_t;
# FILE_NAME(tmp, @1);
- # tmp->packed_flag = $2;
+ # tmp->packed_flag = p[2];
# tmp->union_flag = true;
- # tmp->members .reset($4);
- # $$ = tmp;
+ # tmp->members .reset(p[4]);
+ # p[0] = tmp;
# }
()
def p_struct_data_type_3(p):
# yyerrok;
# struct_type_t*tmp = new struct_type_t;
# FILE_NAME(tmp, @1);
- # tmp->packed_flag = $2;
+ # tmp->packed_flag = p[2];
# tmp->union_flag = false;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_struct_data_type_4(p):
# yyerrok;
# struct_type_t*tmp = new struct_type_t;
# FILE_NAME(tmp, @1);
- # tmp->packed_flag = $2;
+ # tmp->packed_flag = p[2];
# tmp->union_flag = true;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_struct_union_member_list_1(p):
'''struct_union_member_list : struct_union_member_list struct_union_member '''
print('struct_union_member_list_1', list(p))
- # { list<struct_member_t*>*tmp = $1;
- # tmp->push_back($2);
- # $$ = tmp;
+ # { list<struct_member_t*>*tmp = p[1];
+ # tmp->push_back(p[2]);
+ # p[0] = tmp;
# }
()
def p_struct_union_member_list_2(p):
'''struct_union_member_list : struct_union_member '''
print('struct_union_member_list_2', list(p))
# { list<struct_member_t*>*tmp = new list<struct_member_t*>;
- # tmp->push_back($1);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_struct_union_member_1(p):
print('struct_union_member_1', list(p))
# { struct_member_t*tmp = new struct_member_t;
# FILE_NAME(tmp, @2);
- # tmp->type .reset($2);
- # tmp->names .reset($3);
- # $$ = tmp;
+ # tmp->type .reset(p[2]);
+ # tmp->names .reset(p[3]);
+ # p[0] = tmp;
# }
()
def p_struct_union_member_2(p):
'''case_item : expression_list_proper ':' statement_or_null '''
print('case_item_1', list(p))
# { PCase::Item*tmp = new PCase::Item;
- # tmp->expr = *$1;
- # tmp->stat = $3;
- # delete $1;
- # $$ = tmp;
+ # tmp->expr = *p[1];
+ # tmp->stat = p[3];
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_case_item_2(p):
'''case_item : K_default ':' statement_or_null '''
print('case_item_2', list(p))
# { PCase::Item*tmp = new PCase::Item;
- # tmp->stat = $3;
- # $$ = tmp;
+ # tmp->stat = p[3];
+ # p[0] = tmp;
# }
()
def p_case_item_3(p):
'''case_item : K_default statement_or_null '''
print('case_item_3', list(p))
# { PCase::Item*tmp = new PCase::Item;
- # tmp->stat = $2;
- # $$ = tmp;
+ # tmp->stat = p[2];
+ # p[0] = tmp;
# }
()
def p_case_item_4(p):
'''case_items : case_items case_item '''
print('case_items_1', list(p))
# { svector<PCase::Item*>*tmp;
- # tmp = new svector<PCase::Item*>(*$1, $2);
- # delete $1;
- # $$ = tmp;
+ # tmp = new svector<PCase::Item*>(*p[1], p[2]);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_case_items_2(p):
'''case_items : case_item '''
print('case_items_2', list(p))
# { svector<PCase::Item*>*tmp = new svector<PCase::Item*>(1);
- # (*tmp)[0] = $1;
- # $$ = tmp;
+ # (*tmp)[0] = p[1];
+ # p[0] = tmp;
# }
()
def p_charge_strength_1(p):
def p_defparam_assign_1(p):
'''defparam_assign : hierarchy_identifier '=' expression '''
print('defparam_assign_1', list(p))
- # { pform_set_defparam(*$1, $3);
- # delete $1;
+ # { pform_set_defparam(*p[1], p[3]);
+ # delete p[1];
# }
()
def p_defparam_assign_list_1(p):
'''defparam_assign_list : dimensions defparam_assign '''
print('defparam_assign_list_2', list(p))
# { yyerror(@1, "error: defparam may not include a range.");
- # delete $1;
+ # delete p[1];
# }
()
def p_defparam_assign_list_3(p):
'''delay1 : '#' delay_value_simple '''
print('delay1_1', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($2);
- # $$ = tmp;
+ # tmp->push_back(p[2]);
+ # p[0] = tmp;
# }
()
def p_delay1_2(p):
'''delay1 : '#' '(' delay_value ')' '''
print('delay1_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # $$ = tmp;
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_delay3_1(p):
'''delay3 : '#' delay_value_simple '''
print('delay3_1', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($2);
- # $$ = tmp;
+ # tmp->push_back(p[2]);
+ # p[0] = tmp;
# }
()
def p_delay3_2(p):
'''delay3 : '#' '(' delay_value ')' '''
print('delay3_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # $$ = tmp;
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_delay3_3(p):
'''delay3 : '#' '(' delay_value ',' delay_value ')' '''
print('delay3_3', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # tmp->push_back($5);
- # $$ = tmp;
+ # tmp->push_back(p[3]);
+ # tmp->push_back(p[5]);
+ # p[0] = tmp;
# }
()
def p_delay3_4(p):
'''delay3 : '#' '(' delay_value ',' delay_value ',' delay_value ')' '''
print('delay3_4', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # tmp->push_back($5);
- # tmp->push_back($7);
- # $$ = tmp;
+ # tmp->push_back(p[3]);
+ # tmp->push_back(p[5]);
+ # tmp->push_back(p[7]);
+ # p[0] = tmp;
# }
()
def p_delay3_opt_1(p):
'''delay_value_list : delay_value '''
print('delay_value_list_1', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($1);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_delay_value_list_2(p):
'''delay_value_list : delay_value_list ',' delay_value '''
print('delay_value_list_2', list(p))
- # { list<PExpr*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { list<PExpr*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_delay_value_1(p):
'''delay_value : expression '''
print('delay_value_1', list(p))
- # { PExpr*tmp = $1;
- # $$ = tmp;
+ # { PExpr*tmp = p[1];
+ # p[0] = tmp;
# }
()
def p_delay_value_2(p):
'''delay_value : expression ':' expression ':' expression '''
print('delay_value_2', list(p))
- # { $$ = pform_select_mtm_expr($1, $3, $5); }
+ # { p[0] = pform_select_mtm_expr(p[1], p[3], p[5]); }
()
def p_delay_value_simple_1(p):
'''delay_value_simple : DEC_NUMBER '''
print('delay_value_simple_1', list(p))
- # { verinum*tmp = $1;
+ # { verinum*tmp = p[1];
# if (tmp == 0) {
# yyerror(@1, "internal error: delay.");
# p[0] = None
# } else {
- # $$ = new PENumber(tmp);
- # FILE_NAME($$, @1);
+ # p[0] = new PENumber(tmp);
+ # FILE_NAME(p[0], @1);
# }
# based_size = 0;
# }
def p_delay_value_simple_2(p):
'''delay_value_simple : REALTIME '''
print('delay_value_simple_2', list(p))
- # { verireal*tmp = $1;
+ # { verireal*tmp = p[1];
# if (tmp == 0) {
# yyerror(@1, "internal error: delay.");
# p[0] = None
# } else {
- # $$ = new PEFNumber(tmp);
- # FILE_NAME($$, @1);
+ # p[0] = new PEFNumber(tmp);
+ # FILE_NAME(p[0], @1);
# }
# }
()
def p_delay_value_simple_3(p):
'''delay_value_simple : IDENTIFIER '''
print('delay_value_simple_3', list(p))
- # { PEIdent*tmp = new PEIdent(lex_strings.make($1));
+ # { PEIdent*tmp = new PEIdent(lex_strings.make(p[1]));
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # delete[]$1;
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_delay_value_simple_4(p):
# { int unit;
#
# based_size = 0;
- # $$ = 0;
- # if ($1 == 0 || !get_time_unit($1, unit))
+ # p[0] = 0;
+ # if (p[1] == 0 || !get_time_unit(p[1], unit))
# yyerror(@1, "internal error: delay.");
# else {
# double p = pow(10.0,
# (double)(unit - pform_get_timeunit()));
- # double time = atof($1) * p;
+ # double time = atof(p[1]) * p;
#
# verireal *v = new verireal(time);
- # $$ = new PEFNumber(v);
- # FILE_NAME($$, @1);
+ # p[0] = new PEFNumber(v);
+ # FILE_NAME(p[0], @1);
# }
# }
()
def p_discipline_declaration_1(p):
'''discipline_declaration : K_discipline IDENTIFIER optional_semicolon _embed0_discipline_declaration discipline_items K_enddiscipline '''
print('discipline_declaration_1', list(p))
- # { pform_end_discipline(@1); delete[] $2; }
+ # { pform_end_discipline(@1); delete[] p[2]; }
()
def p__embed0_discipline_declaration(p):
'''_embed0_discipline_declaration : '''
- # { pform_start_discipline($2); }
+ # { pform_start_discipline(p[2]); }
()
def p_discipline_items_1(p):
'''discipline_items : discipline_items discipline_item '''
def p_discipline_item_3(p):
'''discipline_item : K_potential IDENTIFIER ';' '''
print('discipline_item_3', list(p))
- # { pform_discipline_potential(@1, $2); delete[] $2; }
+ # { pform_discipline_potential(@1, p[2]); delete[] p[2]; }
()
def p_discipline_item_4(p):
'''discipline_item : K_flow IDENTIFIER ';' '''
print('discipline_item_4', list(p))
- # { pform_discipline_flow(@1, $2); delete[] $2; }
+ # { pform_discipline_flow(@1, p[2]); delete[] p[2]; }
()
def p_nature_declaration_1(p):
'''nature_declaration : K_nature IDENTIFIER optional_semicolon _embed0_nature_declaration nature_items K_endnature '''
print('nature_declaration_1', list(p))
- # { pform_end_nature(@1); delete[] $2; }
+ # { pform_end_nature(@1); delete[] p[2]; }
()
def p__embed0_nature_declaration(p):
'''_embed0_nature_declaration : '''
- # { pform_start_nature($2); }
+ # { pform_start_nature(p[2]); }
()
def p_nature_items_1(p):
'''nature_items : nature_items nature_item '''
def p_nature_item_1(p):
'''nature_item : K_units '=' STRING ';' '''
print('nature_item_1', list(p))
- # { delete[] $3; }
+ # { delete[] p[3]; }
()
def p_nature_item_2(p):
'''nature_item : K_abstol '=' expression ';' '''
def p_nature_item_3(p):
'''nature_item : K_access '=' IDENTIFIER ';' '''
print('nature_item_3', list(p))
- # { pform_nature_access(@1, $3); delete[] $3; }
+ # { pform_nature_access(@1, p[3]); delete[] p[3]; }
()
def p_nature_item_4(p):
'''nature_item : K_idt_nature '=' IDENTIFIER ';' '''
print('nature_item_4', list(p))
- # { delete[] $3; }
+ # { delete[] p[3]; }
()
def p_nature_item_5(p):
'''nature_item : K_ddt_nature '=' IDENTIFIER ';' '''
print('nature_item_5', list(p))
- # { delete[] $3; }
+ # { delete[] p[3]; }
()
def p_config_declaration_1(p):
'''config_declaration : K_config IDENTIFIER ';' K_design lib_cell_identifiers ';' list_of_config_rule_statements K_endconfig '''
print('config_declaration_1', list(p))
# { cerr << @1 << ": sorry: config declarations are not supported and "
# "will be skipped." << endl;
- # delete[] $2;
+ # delete[] p[2];
# }
()
def p_lib_cell_identifiers_1(p):
def p_config_rule_statement_2(p):
'''config_rule_statement : K_instance hierarchy_identifier K_liblist list_of_libraries ';' '''
print('config_rule_statement_2', list(p))
- # { delete $2; }
+ # { delete p[2]; }
()
def p_config_rule_statement_3(p):
'''config_rule_statement : K_instance hierarchy_identifier K_use lib_cell_id opt_config ';' '''
print('config_rule_statement_3', list(p))
- # { delete $2; }
+ # { delete p[2]; }
()
def p_config_rule_statement_4(p):
'''config_rule_statement : K_cell lib_cell_id K_liblist list_of_libraries ';' '''
def p_lib_cell_id_1(p):
'''lib_cell_id : IDENTIFIER '''
print('lib_cell_id_1', list(p))
- # { delete[] $1; }
+ # { delete[] p[1]; }
()
def p_lib_cell_id_2(p):
'''lib_cell_id : IDENTIFIER '.' IDENTIFIER '''
print('lib_cell_id_2', list(p))
- # { delete[] $1; delete[] $3; }
+ # { delete[] p[1]; delete[] p[3]; }
()
def p_list_of_libraries_1(p):
'''list_of_libraries : '''
def p_list_of_libraries_2(p):
'''list_of_libraries : list_of_libraries IDENTIFIER '''
print('list_of_libraries_2', list(p))
- # { delete[] $2; }
+ # { delete[] p[2]; }
()
def p_drive_strength_1(p):
'''drive_strength : '(' dr_strength0 ',' dr_strength1 ')' '''
print('drive_strength_1', list(p))
- # { $$.str0 = $2.str0;
- # $$.str1 = $4.str1;
+ # { p[0].str0 = p[2].str0;
+ # p[0].str1 = p[4].str1;
# }
()
def p_drive_strength_2(p):
'''drive_strength : '(' dr_strength1 ',' dr_strength0 ')' '''
print('drive_strength_2', list(p))
- # { $$.str0 = $4.str0;
- # $$.str1 = $2.str1;
+ # { p[0].str0 = p[4].str0;
+ # p[0].str1 = p[2].str1;
# }
()
def p_drive_strength_3(p):
'''drive_strength : '(' dr_strength0 ',' K_highz1 ')' '''
print('drive_strength_3', list(p))
- # { $$.str0 = $2.str0;
- # $$.str1 = IVL_DR_HiZ;
+ # { p[0].str0 = p[2].str0;
+ # p[0].str1 = IVL_DR_HiZ;
# }
()
def p_drive_strength_4(p):
'''drive_strength : '(' dr_strength1 ',' K_highz0 ')' '''
print('drive_strength_4', list(p))
- # { $$.str0 = IVL_DR_HiZ;
- # $$.str1 = $2.str1;
+ # { p[0].str0 = IVL_DR_HiZ;
+ # p[0].str1 = p[2].str1;
# }
()
def p_drive_strength_5(p):
'''drive_strength : '(' K_highz1 ',' dr_strength0 ')' '''
print('drive_strength_5', list(p))
- # { $$.str0 = $4.str0;
- # $$.str1 = IVL_DR_HiZ;
+ # { p[0].str0 = p[4].str0;
+ # p[0].str1 = IVL_DR_HiZ;
# }
()
def p_drive_strength_6(p):
'''drive_strength : '(' K_highz0 ',' dr_strength1 ')' '''
print('drive_strength_6', list(p))
- # { $$.str0 = IVL_DR_HiZ;
- # $$.str1 = $4.str1;
+ # { p[0].str0 = IVL_DR_HiZ;
+ # p[0].str1 = p[4].str1;
# }
()
def p_drive_strength_opt_1(p):
def p_drive_strength_opt_2(p):
'''drive_strength_opt : '''
print('drive_strength_opt_2', list(p))
- # { $$.str0 = IVL_DR_STRONG; $$.str1 = IVL_DR_STRONG; }
+ # { p[0].str0 = IVL_DR_STRONG; p[0].str1 = IVL_DR_STRONG; }
()
def p_dr_strength0_1(p):
'''dr_strength0 : K_supply0 '''
print('dr_strength0_1', list(p))
- # { $$.str0 = IVL_DR_SUPPLY; }
+ # { p[0].str0 = IVL_DR_SUPPLY; }
()
def p_dr_strength0_2(p):
'''dr_strength0 : K_strong0 '''
print('dr_strength0_2', list(p))
- # { $$.str0 = IVL_DR_STRONG; }
+ # { p[0].str0 = IVL_DR_STRONG; }
()
def p_dr_strength0_3(p):
'''dr_strength0 : K_pull0 '''
print('dr_strength0_3', list(p))
- # { $$.str0 = IVL_DR_PULL; }
+ # { p[0].str0 = IVL_DR_PULL; }
()
def p_dr_strength0_4(p):
'''dr_strength0 : K_weak0 '''
print('dr_strength0_4', list(p))
- # { $$.str0 = IVL_DR_WEAK; }
+ # { p[0].str0 = IVL_DR_WEAK; }
()
def p_dr_strength1_1(p):
'''dr_strength1 : K_supply1 '''
print('dr_strength1_1', list(p))
- # { $$.str1 = IVL_DR_SUPPLY; }
+ # { p[0].str1 = IVL_DR_SUPPLY; }
()
def p_dr_strength1_2(p):
'''dr_strength1 : K_strong1 '''
print('dr_strength1_2', list(p))
- # { $$.str1 = IVL_DR_STRONG; }
+ # { p[0].str1 = IVL_DR_STRONG; }
()
def p_dr_strength1_3(p):
'''dr_strength1 : K_pull1 '''
print('dr_strength1_3', list(p))
- # { $$.str1 = IVL_DR_PULL; }
+ # { p[0].str1 = IVL_DR_PULL; }
()
def p_dr_strength1_4(p):
'''dr_strength1 : K_weak1 '''
print('dr_strength1_4', list(p))
- # { $$.str1 = IVL_DR_WEAK; }
+ # { p[0].str1 = IVL_DR_WEAK; }
()
def p_clocking_event_opt_1(p):
'''clocking_event_opt : event_control '''
def p_event_control_1(p):
'''event_control : '@' hierarchy_identifier '''
print('event_control_1', list(p))
- # { PEIdent*tmpi = new PEIdent(*$2);
+ # { PEIdent*tmpi = new PEIdent(*p[2]);
# PEEvent*tmpe = new PEEvent(PEEvent::ANYEDGE, tmpi);
# PEventStatement*tmps = new PEventStatement(tmpe);
# FILE_NAME(tmps, @1);
- # $$ = tmps;
- # delete $2;
+ # p[0] = tmps;
+ # delete p[2];
# }
()
def p_event_control_2(p):
'''event_control : '@' '(' event_expression_list ')' '''
print('event_control_2', list(p))
- # { PEventStatement*tmp = new PEventStatement(*$3);
+ # { PEventStatement*tmp = new PEventStatement(*p[3]);
# FILE_NAME(tmp, @1);
- # delete $3;
- # $$ = tmp;
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_event_control_3(p):
def p_event_expression_list_2(p):
'''event_expression_list : event_expression_list K_or event_expression '''
print('event_expression_list_2', list(p))
- # { svector<PEEvent*>*tmp = new svector<PEEvent*>(*$1, *$3);
- # delete $1;
- # delete $3;
- # $$ = tmp;
+ # { svector<PEEvent*>*tmp = new svector<PEEvent*>(*p[1], *p[3]);
+ # delete p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_event_expression_list_3(p):
'''event_expression_list : event_expression_list ',' event_expression '''
print('event_expression_list_3', list(p))
- # { svector<PEEvent*>*tmp = new svector<PEEvent*>(*$1, *$3);
- # delete $1;
- # delete $3;
- # $$ = tmp;
+ # { svector<PEEvent*>*tmp = new svector<PEEvent*>(*p[1], *p[3]);
+ # delete p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_event_expression_1(p):
'''event_expression : K_posedge expression '''
print('event_expression_1', list(p))
- # { PEEvent*tmp = new PEEvent(PEEvent::POSEDGE, $2);
+ # { PEEvent*tmp = new PEEvent(PEEvent::POSEDGE, p[2]);
# FILE_NAME(tmp, @1);
# svector<PEEvent*>*tl = new svector<PEEvent*>(1);
# (*tl)[0] = tmp;
- # $$ = tl;
+ # p[0] = tl;
# }
()
def p_event_expression_2(p):
'''event_expression : K_negedge expression '''
print('event_expression_2', list(p))
- # { PEEvent*tmp = new PEEvent(PEEvent::NEGEDGE, $2);
+ # { PEEvent*tmp = new PEEvent(PEEvent::NEGEDGE, p[2]);
# FILE_NAME(tmp, @1);
# svector<PEEvent*>*tl = new svector<PEEvent*>(1);
# (*tl)[0] = tmp;
- # $$ = tl;
+ # p[0] = tl;
# }
()
def p_event_expression_3(p):
'''event_expression : expression '''
print('event_expression_3', list(p))
- # { PEEvent*tmp = new PEEvent(PEEvent::ANYEDGE, $1);
+ # { PEEvent*tmp = new PEEvent(PEEvent::ANYEDGE, p[1]);
# FILE_NAME(tmp, @1);
# svector<PEEvent*>*tl = new svector<PEEvent*>(1);
# (*tl)[0] = tmp;
- # $$ = tl;
+ # p[0] = tl;
# }
()
def p_branch_probe_expression_1(p):
'''branch_probe_expression : IDENTIFIER '(' IDENTIFIER ',' IDENTIFIER ')' '''
print('branch_probe_expression_1', list(p))
- # { $$ = pform_make_branch_probe_expression(@1, $1, $3, $5); }
+ # { p[0] = pform_make_branch_probe_expression(@1, p[1], p[3], p[5]); }
()
def p_branch_probe_expression_2(p):
'''branch_probe_expression : IDENTIFIER '(' IDENTIFIER ')' '''
print('branch_probe_expression_2', list(p))
- # { $$ = pform_make_branch_probe_expression(@1, $1, $3); }
+ # { p[0] = pform_make_branch_probe_expression(@1, p[1], p[3]); }
()
def p_expression_1(p):
'''expression : expr_primary_or_typename '''
def p_expression_5(p):
'''expression : '-' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_5', list(p))
- # { PEUnary*tmp = new PEUnary('-', $3);
+ # { PEUnary*tmp = new PEUnary('-', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_6(p):
'''expression : '~' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_6', list(p))
- # { PEUnary*tmp = new PEUnary('~', $3);
+ # { PEUnary*tmp = new PEUnary('~', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_7(p):
'''expression : '&' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_7', list(p))
- # { PEUnary*tmp = new PEUnary('&', $3);
+ # { PEUnary*tmp = new PEUnary('&', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_8(p):
'''expression : '!' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_8', list(p))
- # { PEUnary*tmp = new PEUnary('!', $3);
+ # { PEUnary*tmp = new PEUnary('!', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_9(p):
'''expression : '|' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_9', list(p))
- # { PEUnary*tmp = new PEUnary('|', $3);
+ # { PEUnary*tmp = new PEUnary('|', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_10(p):
'''expression : '^' attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_10', list(p))
- # { PEUnary*tmp = new PEUnary('^', $3);
+ # { PEUnary*tmp = new PEUnary('^', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_11(p):
def p_expression_14(p):
'''expression : K_NAND attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_14', list(p))
- # { PEUnary*tmp = new PEUnary('A', $3);
+ # { PEUnary*tmp = new PEUnary('A', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_15(p):
'''expression : K_NOR attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_15', list(p))
- # { PEUnary*tmp = new PEUnary('N', $3);
+ # { PEUnary*tmp = new PEUnary('N', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_16(p):
'''expression : K_NXOR attribute_list_opt expr_primary %prec UNARY_PREC '''
print('expression_16', list(p))
- # { PEUnary*tmp = new PEUnary('X', $3);
+ # { PEUnary*tmp = new PEUnary('X', p[3]);
# FILE_NAME(tmp, @3);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_17(p):
def p_expression_19(p):
'''expression : expression '^' attribute_list_opt expression '''
print('expression_19', list(p))
- # { PEBinary*tmp = new PEBinary('^', $1, $4);
+ # { PEBinary*tmp = new PEBinary('^', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_20(p):
'''expression : expression K_POW attribute_list_opt expression '''
print('expression_20', list(p))
- # { PEBinary*tmp = new PEBPower('p', $1, $4);
+ # { PEBinary*tmp = new PEBPower('p', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_21(p):
'''expression : expression '*' attribute_list_opt expression '''
print('expression_21', list(p))
- # { PEBinary*tmp = new PEBinary('*', $1, $4);
+ # { PEBinary*tmp = new PEBinary('*', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_22(p):
'''expression : expression '/' attribute_list_opt expression '''
print('expression_22', list(p))
- # { PEBinary*tmp = new PEBinary('/', $1, $4);
+ # { PEBinary*tmp = new PEBinary('/', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_23(p):
'''expression : expression '%' attribute_list_opt expression '''
print('expression_23', list(p))
- # { PEBinary*tmp = new PEBinary('%', $1, $4);
+ # { PEBinary*tmp = new PEBinary('%', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_24(p):
'''expression : expression '+' attribute_list_opt expression '''
print('expression_24', list(p))
- # { PEBinary*tmp = new PEBinary('+', $1, $4);
+ # { PEBinary*tmp = new PEBinary('+', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_25(p):
'''expression : expression '-' attribute_list_opt expression '''
print('expression_25', list(p))
- # { PEBinary*tmp = new PEBinary('-', $1, $4);
+ # { PEBinary*tmp = new PEBinary('-', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
p[0] = Node(syms.atom, [p[1], Leaf(token.MINUS, '-'), p[4]])
()
def p_expression_26(p):
'''expression : expression '&' attribute_list_opt expression '''
print('expression_26', list(p))
- # { PEBinary*tmp = new PEBinary('&', $1, $4);
+ # { PEBinary*tmp = new PEBinary('&', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_27(p):
'''expression : expression '|' attribute_list_opt expression '''
print('expression_27', list(p))
- # { PEBinary*tmp = new PEBinary('|', $1, $4);
+ # { PEBinary*tmp = new PEBinary('|', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_28(p):
'''expression : expression K_NAND attribute_list_opt expression '''
print('expression_28', list(p))
- # { PEBinary*tmp = new PEBinary('A', $1, $4);
+ # { PEBinary*tmp = new PEBinary('A', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_29(p):
'''expression : expression K_NOR attribute_list_opt expression '''
print('expression_29', list(p))
- # { PEBinary*tmp = new PEBinary('O', $1, $4);
+ # { PEBinary*tmp = new PEBinary('O', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_30(p):
'''expression : expression K_NXOR attribute_list_opt expression '''
print('expression_30', list(p))
- # { PEBinary*tmp = new PEBinary('X', $1, $4);
+ # { PEBinary*tmp = new PEBinary('X', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_31(p):
'''expression : expression '<' attribute_list_opt expression '''
print('expression_31', list(p))
- # { PEBinary*tmp = new PEBComp('<', $1, $4);
+ # { PEBinary*tmp = new PEBComp('<', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_32(p):
'''expression : expression '>' attribute_list_opt expression '''
print('expression_32', list(p))
- # { PEBinary*tmp = new PEBComp('>', $1, $4);
+ # { PEBinary*tmp = new PEBComp('>', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_33(p):
'''expression : expression K_LS attribute_list_opt expression '''
print('expression_33', list(p))
- # { PEBinary*tmp = new PEBShift('l', $1, $4);
+ # { PEBinary*tmp = new PEBShift('l', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_34(p):
'''expression : expression K_RS attribute_list_opt expression '''
print('expression_34', list(p))
- # { PEBinary*tmp = new PEBShift('r', $1, $4);
+ # { PEBinary*tmp = new PEBShift('r', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_35(p):
'''expression : expression K_RSS attribute_list_opt expression '''
print('expression_35', list(p))
- # { PEBinary*tmp = new PEBShift('R', $1, $4);
+ # { PEBinary*tmp = new PEBShift('R', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_36(p):
'''expression : expression K_EQ attribute_list_opt expression '''
print('expression_36', list(p))
- # { PEBinary*tmp = new PEBComp('e', $1, $4);
+ # { PEBinary*tmp = new PEBComp('e', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_37(p):
'''expression : expression K_CEQ attribute_list_opt expression '''
print('expression_37', list(p))
- # { PEBinary*tmp = new PEBComp('E', $1, $4);
+ # { PEBinary*tmp = new PEBComp('E', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_38(p):
'''expression : expression K_WEQ attribute_list_opt expression '''
print('expression_38', list(p))
- # { PEBinary*tmp = new PEBComp('w', $1, $4);
+ # { PEBinary*tmp = new PEBComp('w', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_39(p):
'''expression : expression K_LE attribute_list_opt expression '''
print('expression_39', list(p))
- # { PEBinary*tmp = new PEBComp('L', $1, $4);
+ # { PEBinary*tmp = new PEBComp('L', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_40(p):
'''expression : expression K_GE attribute_list_opt expression '''
print('expression_40', list(p))
- # { PEBinary*tmp = new PEBComp('G', $1, $4);
+ # { PEBinary*tmp = new PEBComp('G', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_41(p):
'''expression : expression K_NE attribute_list_opt expression '''
print('expression_41', list(p))
- # { PEBinary*tmp = new PEBComp('n', $1, $4);
+ # { PEBinary*tmp = new PEBComp('n', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_42(p):
'''expression : expression K_CNE attribute_list_opt expression '''
print('expression_42', list(p))
- # { PEBinary*tmp = new PEBComp('N', $1, $4);
+ # { PEBinary*tmp = new PEBComp('N', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_43(p):
'''expression : expression K_WNE attribute_list_opt expression '''
print('expression_43', list(p))
- # { PEBinary*tmp = new PEBComp('W', $1, $4);
+ # { PEBinary*tmp = new PEBComp('W', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_44(p):
'''expression : expression K_LOR attribute_list_opt expression '''
print('expression_44', list(p))
- # { PEBinary*tmp = new PEBLogic('o', $1, $4);
+ # { PEBinary*tmp = new PEBLogic('o', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_45(p):
'''expression : expression K_LAND attribute_list_opt expression '''
print('expression_45', list(p))
- # { PEBinary*tmp = new PEBLogic('a', $1, $4);
+ # { PEBinary*tmp = new PEBLogic('a', p[1], p[4]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_46(p):
'''expression : expression '?' attribute_list_opt expression ':' expression '''
print('expression_46', list(p))
- # { PETernary*tmp = new PETernary($1, $4, $6);
+ # { PETernary*tmp = new PETernary(p[1], p[4], p[6]);
# FILE_NAME(tmp, @2);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_mintypmax_1(p):
print('expr_mintypmax_2', list(p))
# { switch (min_typ_max_flag) {
# case MIN:
- # $$ = $1;
- # delete $3;
- # delete $5;
+ # p[0] = p[1];
+ # delete p[3];
+ # delete p[5];
# break;
# case TYP:
- # delete $1;
- # $$ = $3;
- # delete $5;
+ # delete p[1];
+ # p[0] = p[3];
+ # delete p[5];
# break;
# case MAX:
- # delete $1;
- # delete $3;
- # $$ = $5;
+ # delete p[1];
+ # delete p[3];
+ # p[0] = p[5];
# break;
# }
# if (min_typ_max_warn > 0) {
- # cerr << $$->get_fileline() << ": warning: choosing ";
+ # cerr << p[0]->get_fileline() << ": warning: choosing ";
# switch (min_typ_max_flag) {
# case MIN:
# cerr << "min";
def p_expression_list_with_nuls_1(p):
'''expression_list_with_nuls : expression_list_with_nuls ',' expression '''
print('expression_list_with_nuls_1', list(p))
- # { list<PExpr*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { list<PExpr*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_expression_list_with_nuls_2(p):
'''expression_list_with_nuls : expression '''
print('expression_list_with_nuls_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($1);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_expression_list_with_nuls_3(p):
print('expression_list_with_nuls_3', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
# tmp->push_back(0);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_list_with_nuls_4(p):
'''expression_list_with_nuls : expression_list_with_nuls ',' '''
print('expression_list_with_nuls_4', list(p))
- # { list<PExpr*>*tmp = $1;
+ # { list<PExpr*>*tmp = p[1];
# tmp->push_back(0);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expression_list_proper_1(p):
'''expression_list_proper : expression_list_proper ',' expression '''
print('expression_list_proper_1', list(p))
- # { list<PExpr*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { list<PExpr*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_expression_list_proper_2(p):
'''expression_list_proper : expression '''
print('expression_list_proper_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($1);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_expr_primary_or_typename_1(p):
'''expr_primary_or_typename : TYPE_IDENTIFIER '''
print('expr_primary_or_typename_2', list(p))
p[0] = p[1]
- # { PETypename*tmp = new PETypename($1.type);
+ # { PETypename*tmp = new PETypename(p[1].type);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
- # delete[]$1.text;
+ # p[0] = tmp;
+ # delete[]p[1].text;
# }
()
def p_expr_primary_1(p):
'''expr_primary : number '''
print('expr_primary_1', list(p))
p[0] = p[1]
- # { assert($1);
- # PENumber*tmp = new PENumber($1);
+ # { assert(p[1]);
+ # PENumber*tmp = new PENumber(p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_2(p):
'''expr_primary : REALTIME '''
print('expr_primary_2', list(p))
- # { PEFNumber*tmp = new PEFNumber($1);
+ # { PEFNumber*tmp = new PEFNumber(p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_3(p):
'''expr_primary : STRING '''
print('expr_primary_3', list(p))
- # { PEString*tmp = new PEString($1);
+ # { PEString*tmp = new PEString(p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_4(p):
# { int unit;
#
# based_size = 0;
- # $$ = 0;
- # if ($1 == 0 || !get_time_unit($1, unit))
+ # p[0] = 0;
+ # if (p[1] == 0 || !get_time_unit(p[1], unit))
# yyerror(@1, "internal error: delay.");
# else {
# double p = pow(10.0, (double)(unit - pform_get_timeunit()));
- # double time = atof($1) * p;
+ # double time = atof(p[1]) * p;
#
# verireal *v = new verireal(time);
- # $$ = new PEFNumber(v);
- # FILE_NAME($$, @1);
+ # p[0] = new PEFNumber(v);
+ # FILE_NAME(p[0], @1);
# }
# }
()
def p_expr_primary_5(p):
'''expr_primary : SYSTEM_IDENTIFIER '''
print('expr_primary_5', list(p))
- # { perm_string tn = lex_strings.make($1);
+ # { perm_string tn = lex_strings.make(p[1]);
# PECallFunction*tmp = new PECallFunction(tn);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # delete[]$1;
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_expr_primary_6(p):
'''expr_primary : hierarchy_identifier '''
print('expr_primary_6', list(p))
p[0] = p[1]
- # { PEIdent*tmp = pform_new_ident(*$1);
+ # { PEIdent*tmp = pform_new_ident(*p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # delete $1;
+ # p[0] = tmp;
+ # delete p[1];
# }
()
def p_expr_primary_7(p):
'''expr_primary : PACKAGE_IDENTIFIER K_SCOPE_RES hierarchy_identifier '''
print('expr_primary_7', list(p))
- # { $$ = pform_package_ident(@2, $1, $3);
- # delete $3;
+ # { p[0] = pform_package_ident(@2, p[1], p[3]);
+ # delete p[3];
# }
()
def p_expr_primary_8(p):
'''expr_primary : hierarchy_identifier '(' expression_list_with_nuls ')' '''
print('expr_primary_8', list(p))
- # { list<PExpr*>*expr_list = $3;
+ # { list<PExpr*>*expr_list = p[3];
# strip_tail_items(expr_list);
- # PECallFunction*tmp = pform_make_call_function(@1, *$1, *expr_list);
- # delete $1;
- # $$ = tmp;
+ # PECallFunction*tmp = pform_make_call_function(@1, *p[1], *expr_list);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_expr_primary_9(p):
'''expr_primary : implicit_class_handle '.' hierarchy_identifier '(' expression_list_with_nuls ')' '''
print('expr_primary_9', list(p))
- # { pform_name_t*t_name = $1;
- # while (! $3->empty()) {
- # t_name->push_back($3->front());
- # $3->pop_front();
+ # { pform_name_t*t_name = p[1];
+ # while (! p[3]->empty()) {
+ # t_name->push_back(p[3]->front());
+ # p[3]->pop_front();
# }
- # list<PExpr*>*expr_list = $5;
+ # list<PExpr*>*expr_list = p[5];
# strip_tail_items(expr_list);
# PECallFunction*tmp = pform_make_call_function(@1, *t_name, *expr_list);
- # delete $1;
- # delete $3;
- # $$ = tmp;
+ # delete p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_expr_primary_10(p):
'''expr_primary : SYSTEM_IDENTIFIER '(' expression_list_proper ')' '''
print('expr_primary_10', list(p))
- # { perm_string tn = lex_strings.make($1);
- # PECallFunction*tmp = new PECallFunction(tn, *$3);
+ # { perm_string tn = lex_strings.make(p[1]);
+ # PECallFunction*tmp = new PECallFunction(tn, *p[3]);
# FILE_NAME(tmp, @1);
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_expr_primary_11(p):
'''expr_primary : PACKAGE_IDENTIFIER K_SCOPE_RES IDENTIFIER '(' expression_list_proper ')' '''
print('expr_primary_11', list(p))
- # { perm_string use_name = lex_strings.make($3);
- # PECallFunction*tmp = new PECallFunction($1, use_name, *$5);
+ # { perm_string use_name = lex_strings.make(p[3]);
+ # PECallFunction*tmp = new PECallFunction(p[1], use_name, *p[5]);
# FILE_NAME(tmp, @3);
- # delete[]$3;
- # $$ = tmp;
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_expr_primary_12(p):
'''expr_primary : SYSTEM_IDENTIFIER '(' ')' '''
print('expr_primary_12', list(p))
- # { perm_string tn = lex_strings.make($1);
+ # { perm_string tn = lex_strings.make(p[1]);
# const vector<PExpr*>empty;
# PECallFunction*tmp = new PECallFunction(tn, empty);
# FILE_NAME(tmp, @1);
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# if (!gn_system_verilog()) {
# yyerror(@1, "error: Empty function argument list requires SystemVerilog.");
# }
def p_expr_primary_13(p):
'''expr_primary : implicit_class_handle '''
print('expr_primary_13', list(p))
- # { PEIdent*tmp = new PEIdent(*$1);
+ # { PEIdent*tmp = new PEIdent(*p[1]);
# FILE_NAME(tmp,@1);
- # delete $1;
- # $$ = tmp;
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_expr_primary_14(p):
'''expr_primary : implicit_class_handle '.' hierarchy_identifier '''
print('expr_primary_14', list(p))
- # { pform_name_t*t_name = $1;
- # while (! $3->empty()) {
- # t_name->push_back($3->front());
- # $3->pop_front();
+ # { pform_name_t*t_name = p[1];
+ # while (! p[3]->empty()) {
+ # t_name->push_back(p[3]->front());
+ # p[3]->pop_front();
# }
# PEIdent*tmp = new PEIdent(*t_name);
# FILE_NAME(tmp,@1);
- # delete $1;
- # delete $3;
- # $$ = tmp;
+ # delete p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_expr_primary_15(p):
'''expr_primary : K_acos '(' expression ')' '''
print('expr_primary_15', list(p))
# { perm_string tn = perm_string::literal("$acos");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_16(p):
'''expr_primary : K_acosh '(' expression ')' '''
print('expr_primary_16', list(p))
# { perm_string tn = perm_string::literal("$acosh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_17(p):
'''expr_primary : K_asin '(' expression ')' '''
print('expr_primary_17', list(p))
# { perm_string tn = perm_string::literal("$asin");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_18(p):
'''expr_primary : K_asinh '(' expression ')' '''
print('expr_primary_18', list(p))
# { perm_string tn = perm_string::literal("$asinh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_19(p):
'''expr_primary : K_atan '(' expression ')' '''
print('expr_primary_19', list(p))
# { perm_string tn = perm_string::literal("$atan");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_20(p):
'''expr_primary : K_atanh '(' expression ')' '''
print('expr_primary_20', list(p))
# { perm_string tn = perm_string::literal("$atanh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_21(p):
'''expr_primary : K_atan2 '(' expression ',' expression ')' '''
print('expr_primary_21', list(p))
# { perm_string tn = perm_string::literal("$atan2");
- # PECallFunction*tmp = make_call_function(tn, $3, $5);
+ # PECallFunction*tmp = make_call_function(tn, p[3], p[5]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_22(p):
'''expr_primary : K_ceil '(' expression ')' '''
print('expr_primary_22', list(p))
# { perm_string tn = perm_string::literal("$ceil");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_23(p):
'''expr_primary : K_cos '(' expression ')' '''
print('expr_primary_23', list(p))
# { perm_string tn = perm_string::literal("$cos");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_24(p):
'''expr_primary : K_cosh '(' expression ')' '''
print('expr_primary_24', list(p))
# { perm_string tn = perm_string::literal("$cosh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_25(p):
'''expr_primary : K_exp '(' expression ')' '''
print('expr_primary_25', list(p))
# { perm_string tn = perm_string::literal("$exp");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_26(p):
'''expr_primary : K_floor '(' expression ')' '''
print('expr_primary_26', list(p))
# { perm_string tn = perm_string::literal("$floor");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_27(p):
'''expr_primary : K_hypot '(' expression ',' expression ')' '''
print('expr_primary_27', list(p))
# { perm_string tn = perm_string::literal("$hypot");
- # PECallFunction*tmp = make_call_function(tn, $3, $5);
+ # PECallFunction*tmp = make_call_function(tn, p[3], p[5]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_28(p):
'''expr_primary : K_ln '(' expression ')' '''
print('expr_primary_28', list(p))
# { perm_string tn = perm_string::literal("$ln");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_29(p):
'''expr_primary : K_log '(' expression ')' '''
print('expr_primary_29', list(p))
# { perm_string tn = perm_string::literal("$log10");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_30(p):
'''expr_primary : K_pow '(' expression ',' expression ')' '''
print('expr_primary_30', list(p))
# { perm_string tn = perm_string::literal("$pow");
- # PECallFunction*tmp = make_call_function(tn, $3, $5);
+ # PECallFunction*tmp = make_call_function(tn, p[3], p[5]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_31(p):
'''expr_primary : K_sin '(' expression ')' '''
print('expr_primary_31', list(p))
# { perm_string tn = perm_string::literal("$sin");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_32(p):
'''expr_primary : K_sinh '(' expression ')' '''
print('expr_primary_32', list(p))
# { perm_string tn = perm_string::literal("$sinh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_33(p):
'''expr_primary : K_sqrt '(' expression ')' '''
print('expr_primary_33', list(p))
# { perm_string tn = perm_string::literal("$sqrt");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_34(p):
'''expr_primary : K_tan '(' expression ')' '''
print('expr_primary_34', list(p))
# { perm_string tn = perm_string::literal("$tan");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_35(p):
'''expr_primary : K_tanh '(' expression ')' '''
print('expr_primary_35', list(p))
# { perm_string tn = perm_string::literal("$tanh");
- # PECallFunction*tmp = make_call_function(tn, $3);
+ # PECallFunction*tmp = make_call_function(tn, p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_36(p):
'''expr_primary : K_abs '(' expression ')' '''
print('expr_primary_36', list(p))
- # { PEUnary*tmp = new PEUnary('m', $3);
+ # { PEUnary*tmp = new PEUnary('m', p[3]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_37(p):
'''expr_primary : K_max '(' expression ',' expression ')' '''
print('expr_primary_37', list(p))
- # { PEBinary*tmp = new PEBinary('M', $3, $5);
+ # { PEBinary*tmp = new PEBinary('M', p[3], p[5]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_38(p):
'''expr_primary : K_min '(' expression ',' expression ')' '''
print('expr_primary_38', list(p))
- # { PEBinary*tmp = new PEBinary('m', $3, $5);
+ # { PEBinary*tmp = new PEBinary('m', p[3], p[5]);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_expr_primary_39(p):
def p_expr_primary_40(p):
'''expr_primary : '{' expression_list_proper '}' '''
print('expr_primary_40', list(p))
- # { PEConcat*tmp = new PEConcat(*$2);
+ # { PEConcat*tmp = new PEConcat(*p[2]);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_expr_primary_41(p):
'''expr_primary : '{' expression '{' expression_list_proper '}' '}' '''
print('expr_primary_41', list(p))
- # { PExpr*rep = $2;
- # PEConcat*tmp = new PEConcat(*$4, rep);
+ # { PExpr*rep = p[2];
+ # PEConcat*tmp = new PEConcat(*p[4], rep);
# FILE_NAME(tmp, @1);
- # delete $4;
- # $$ = tmp;
+ # delete p[4];
+ # p[0] = tmp;
# }
()
def p_expr_primary_42(p):
'''expr_primary : '{' expression '{' expression_list_proper '}' error '}' '''
print('expr_primary_42', list(p))
- # { PExpr*rep = $2;
- # PEConcat*tmp = new PEConcat(*$4, rep);
+ # { PExpr*rep = p[2];
+ # PEConcat*tmp = new PEConcat(*p[4], rep);
# FILE_NAME(tmp, @1);
- # delete $4;
- # $$ = tmp;
+ # delete p[4];
+ # p[0] = tmp;
# yyerror(@5, "error: Syntax error between internal '}' "
# "and closing '}' of repeat concatenation.");
# yyerrok;
# list<PExpr*> empty_list;
# PEConcat*tmp = new PEConcat(empty_list);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# } else {
# yyerror(@1, "error: Concatenations are not allowed to be empty.");
# p[0] = None
def p_expr_primary_44(p):
'''expr_primary : expr_primary "'" '(' expression ')' '''
print('expr_primary_44', list(p))
- # { PExpr*base = $4;
+ # { PExpr*base = p[4];
# if (gn_system_verilog()) {
- # PECastSize*tmp = new PECastSize($1, base);
+ # PECastSize*tmp = new PECastSize(p[1], base);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# } else {
# yyerror(@1, "error: Size cast requires SystemVerilog.");
- # $$ = base;
+ # p[0] = base;
# }
# }
()
def p_expr_primary_45(p):
'''expr_primary : simple_type_or_string "'" '(' expression ')' '''
print('expr_primary_45', list(p))
- # { PExpr*base = $4;
+ # { PExpr*base = p[4];
# if (gn_system_verilog()) {
- # PECastType*tmp = new PECastType($1, base);
+ # PECastType*tmp = new PECastType(p[1], base);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# } else {
# yyerror(@1, "error: Type cast requires SystemVerilog.");
- # $$ = base;
+ # p[0] = base;
# }
# }
()
print('expr_primary_48', list(p))
# { PENull*tmp = new PENull;
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_function_item_list_opt_1(p):
'''function_item_list : function_item_list function_item '''
print('function_item_list_2', list(p))
# { /* */
- # if ($1 && $2) {
- # vector<pform_tf_port_t>*tmp = $1;
+ # if (p[1] && p[2]) {
+ # vector<pform_tf_port_t>*tmp = p[1];
# size_t s1 = tmp->size();
- # tmp->resize(s1 + $2->size());
- # for (size_t idx = 0 ; idx < $2->size() ; idx += 1)
- # tmp->at(s1+idx) = $2->at(idx);
- # delete $2;
- # $$ = tmp;
- # } else if ($1) {
- # $$ = $1;
+ # tmp->resize(s1 + p[2]->size());
+ # for (size_t idx = 0 ; idx < p[2]->size() ; idx += 1)
+ # tmp->at(s1+idx) = p[2]->at(idx);
+ # delete p[2];
+ # p[0] = tmp;
+ # } else if (p[1]) {
+ # p[0] = p[1];
# } else {
- # $$ = $2;
+ # p[0] = p[2];
# }
# }
()
'''gate_instance : IDENTIFIER '(' expression_list_with_nuls ')' '''
print('gate_instance_1', list(p))
# { lgate*tmp = new lgate;
- # tmp->name = $1;
- # tmp->parms = $3;
+ # tmp->name = p[1];
+ # tmp->parms = p[3];
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_gate_instance_2(p):
'''gate_instance : IDENTIFIER dimensions '(' expression_list_with_nuls ')' '''
print('gate_instance_2', list(p))
# { lgate*tmp = new lgate;
- # list<pform_range_t>*rng = $2;
- # tmp->name = $1;
- # tmp->parms = $4;
+ # list<pform_range_t>*rng = p[2];
+ # tmp->name = p[1];
+ # tmp->parms = p[4];
# tmp->range = rng->front();
# rng->pop_front();
# assert(rng->empty());
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # delete[]$1;
+ # delete[]p[1];
# delete rng;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_gate_instance_3(p):
print('gate_instance_3', list(p))
# { lgate*tmp = new lgate;
# tmp->name = "";
- # tmp->parms = $2;
+ # tmp->parms = p[2];
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_gate_instance_4(p):
'''gate_instance : IDENTIFIER dimensions '''
print('gate_instance_4', list(p))
# { lgate*tmp = new lgate;
- # list<pform_range_t>*rng = $2;
- # tmp->name = $1;
+ # list<pform_range_t>*rng = p[2];
+ # tmp->name = p[1];
# tmp->parms = 0;
# tmp->parms_by_name = 0;
# tmp->range = rng->front();
# assert(rng->empty());
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # delete[]$1;
+ # delete[]p[1];
# delete rng;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_gate_instance_5(p):
'''gate_instance : IDENTIFIER '(' port_name_list ')' '''
print('gate_instance_5', list(p))
# { lgate*tmp = new lgate;
- # tmp->name = $1;
+ # tmp->name = p[1];
# tmp->parms = 0;
- # tmp->parms_by_name = $3;
+ # tmp->parms_by_name = p[3];
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_gate_instance_6(p):
'''gate_instance : IDENTIFIER dimensions '(' port_name_list ')' '''
print('gate_instance_6', list(p))
# { lgate*tmp = new lgate;
- # list<pform_range_t>*rng = $2;
- # tmp->name = $1;
+ # list<pform_range_t>*rng = p[2];
+ # tmp->name = p[1];
# tmp->parms = 0;
- # tmp->parms_by_name = $4;
+ # tmp->parms_by_name = p[4];
# tmp->range = rng->front();
# rng->pop_front();
# assert(rng->empty());
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
- # delete[]$1;
+ # delete[]p[1];
# delete rng;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_gate_instance_7(p):
'''gate_instance : IDENTIFIER '(' error ')' '''
print('gate_instance_7', list(p))
# { lgate*tmp = new lgate;
- # tmp->name = $1;
+ # tmp->name = p[1];
# tmp->parms = 0;
# tmp->parms_by_name = 0;
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
# yyerror(@2, "error: Syntax error in instance port "
# "expression(s).");
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_gate_instance_8(p):
'''gate_instance : IDENTIFIER dimensions '(' error ')' '''
print('gate_instance_8', list(p))
# { lgate*tmp = new lgate;
- # tmp->name = $1;
+ # tmp->name = p[1];
# tmp->parms = 0;
# tmp->parms_by_name = 0;
# tmp->file = @1.text;
# tmp->lineno = @1.first_line;
# yyerror(@3, "error: Syntax error in instance port "
# "expression(s).");
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_gate_instance_list_1(p):
'''gate_instance_list : gate_instance_list ',' gate_instance '''
print('gate_instance_list_1', list(p))
- # { svector<lgate>*tmp1 = $1;
- # lgate*tmp2 = $3;
+ # { svector<lgate>*tmp1 = p[1];
+ # lgate*tmp2 = p[3];
# svector<lgate>*out = new svector<lgate> (*tmp1, *tmp2);
# delete tmp1;
# delete tmp2;
- # $$ = out;
+ # p[0] = out;
# }
()
def p_gate_instance_list_2(p):
'''gate_instance_list : gate_instance '''
print('gate_instance_list_2', list(p))
# { svector<lgate>*tmp = new svector<lgate>(1);
- # (*tmp)[0] = *$1;
- # delete $1;
- # $$ = tmp;
+ # (*tmp)[0] = *p[1];
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_gatetype_1(p):
'''gatetype : K_and '''
print('gatetype_1', list(p))
- # { $$ = PGBuiltin::AND; }
+ # { p[0] = PGBuiltin::AND; }
()
def p_gatetype_2(p):
'''gatetype : K_nand '''
print('gatetype_2', list(p))
- # { $$ = PGBuiltin::NAND; }
+ # { p[0] = PGBuiltin::NAND; }
()
def p_gatetype_3(p):
'''gatetype : K_or '''
print('gatetype_3', list(p))
- # { $$ = PGBuiltin::OR; }
+ # { p[0] = PGBuiltin::OR; }
()
def p_gatetype_4(p):
'''gatetype : K_nor '''
print('gatetype_4', list(p))
- # { $$ = PGBuiltin::NOR; }
+ # { p[0] = PGBuiltin::NOR; }
()
def p_gatetype_5(p):
'''gatetype : K_xor '''
print('gatetype_5', list(p))
- # { $$ = PGBuiltin::XOR; }
+ # { p[0] = PGBuiltin::XOR; }
()
def p_gatetype_6(p):
'''gatetype : K_xnor '''
print('gatetype_6', list(p))
- # { $$ = PGBuiltin::XNOR; }
+ # { p[0] = PGBuiltin::XNOR; }
()
def p_gatetype_7(p):
'''gatetype : K_buf '''
print('gatetype_7', list(p))
- # { $$ = PGBuiltin::BUF; }
+ # { p[0] = PGBuiltin::BUF; }
()
def p_gatetype_8(p):
'''gatetype : K_bufif0 '''
print('gatetype_8', list(p))
- # { $$ = PGBuiltin::BUFIF0; }
+ # { p[0] = PGBuiltin::BUFIF0; }
()
def p_gatetype_9(p):
'''gatetype : K_bufif1 '''
print('gatetype_9', list(p))
- # { $$ = PGBuiltin::BUFIF1; }
+ # { p[0] = PGBuiltin::BUFIF1; }
()
def p_gatetype_10(p):
'''gatetype : K_not '''
print('gatetype_10', list(p))
- # { $$ = PGBuiltin::NOT; }
+ # { p[0] = PGBuiltin::NOT; }
()
def p_gatetype_11(p):
'''gatetype : K_notif0 '''
print('gatetype_11', list(p))
- # { $$ = PGBuiltin::NOTIF0; }
+ # { p[0] = PGBuiltin::NOTIF0; }
()
def p_gatetype_12(p):
'''gatetype : K_notif1 '''
print('gatetype_12', list(p))
- # { $$ = PGBuiltin::NOTIF1; }
+ # { p[0] = PGBuiltin::NOTIF1; }
()
def p_switchtype_1(p):
'''switchtype : K_nmos '''
print('switchtype_1', list(p))
- # { $$ = PGBuiltin::NMOS; }
+ # { p[0] = PGBuiltin::NMOS; }
()
def p_switchtype_2(p):
'''switchtype : K_rnmos '''
print('switchtype_2', list(p))
- # { $$ = PGBuiltin::RNMOS; }
+ # { p[0] = PGBuiltin::RNMOS; }
()
def p_switchtype_3(p):
'''switchtype : K_pmos '''
print('switchtype_3', list(p))
- # { $$ = PGBuiltin::PMOS; }
+ # { p[0] = PGBuiltin::PMOS; }
()
def p_switchtype_4(p):
'''switchtype : K_rpmos '''
print('switchtype_4', list(p))
- # { $$ = PGBuiltin::RPMOS; }
+ # { p[0] = PGBuiltin::RPMOS; }
()
def p_switchtype_5(p):
'''switchtype : K_cmos '''
print('switchtype_5', list(p))
- # { $$ = PGBuiltin::CMOS; }
+ # { p[0] = PGBuiltin::CMOS; }
()
def p_switchtype_6(p):
'''switchtype : K_rcmos '''
print('switchtype_6', list(p))
- # { $$ = PGBuiltin::RCMOS; }
+ # { p[0] = PGBuiltin::RCMOS; }
()
def p_switchtype_7(p):
'''switchtype : K_tran '''
print('switchtype_7', list(p))
- # { $$ = PGBuiltin::TRAN; }
+ # { p[0] = PGBuiltin::TRAN; }
()
def p_switchtype_8(p):
'''switchtype : K_rtran '''
print('switchtype_8', list(p))
- # { $$ = PGBuiltin::RTRAN; }
+ # { p[0] = PGBuiltin::RTRAN; }
()
def p_switchtype_9(p):
'''switchtype : K_tranif0 '''
print('switchtype_9', list(p))
- # { $$ = PGBuiltin::TRANIF0; }
+ # { p[0] = PGBuiltin::TRANIF0; }
()
def p_switchtype_10(p):
'''switchtype : K_tranif1 '''
print('switchtype_10', list(p))
- # { $$ = PGBuiltin::TRANIF1; }
+ # { p[0] = PGBuiltin::TRANIF1; }
()
def p_switchtype_11(p):
'''switchtype : K_rtranif0 '''
print('switchtype_11', list(p))
- # { $$ = PGBuiltin::RTRANIF0; }
+ # { p[0] = PGBuiltin::RTRANIF0; }
()
def p_switchtype_12(p):
'''switchtype : K_rtranif1 '''
print('switchtype_12', list(p))
- # { $$ = PGBuiltin::RTRANIF1; }
+ # { p[0] = PGBuiltin::RTRANIF1; }
()
def p_hierarchy_identifier_1(p):
'''hierarchy_identifier : IDENTIFIER '''
print('hierarchy_identifier_1', list(p))
lpvalue = Leaf(token.NAME, p[1])
p[0] = lpvalue
- # { $$ = new pform_name_t;
- # $$->push_back(name_component_t(lex_strings.make($1)));
- # delete[]$1;
+ # { p[0] = new pform_name_t;
+ # p[0]->push_back(name_component_t(lex_strings.make(p[1])));
+ # delete[]p[1];
# }
()
def p_hierarchy_identifier_2(p):
'''hierarchy_identifier : hierarchy_identifier '.' IDENTIFIER '''
print('hierarchy_identifier_2', list(p))
- # { pform_name_t * tmp = $1;
- # tmp->push_back(name_component_t(lex_strings.make($3)));
- # delete[]$3;
- # $$ = tmp;
+ # { pform_name_t * tmp = p[1];
+ # tmp->push_back(name_component_t(lex_strings.make(p[3])));
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_hierarchy_identifier_3(p):
'''hierarchy_identifier : hierarchy_identifier '[' expression ']' '''
print('hierarchy_identifier_3', list(p))
- # { pform_name_t * tmp = $1;
+ # { pform_name_t * tmp = p[1];
# name_component_t&tail = tmp->back();
# index_component_t itmp;
# itmp.sel = index_component_t::SEL_BIT;
- # itmp.msb = $3;
+ # itmp.msb = p[3];
# tail.index.push_back(itmp);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_hierarchy_identifier_4(p):
'''hierarchy_identifier : hierarchy_identifier '[' '$' ']' '''
print('hierarchy_identifier_4', list(p))
- # { pform_name_t * tmp = $1;
+ # { pform_name_t * tmp = p[1];
# name_component_t&tail = tmp->back();
# if (! gn_system_verilog()) {
# yyerror(@3, "error: Last element expression ($) "
# itmp.msb = 0;
# itmp.lsb = 0;
# tail.index.push_back(itmp);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_hierarchy_identifier_5(p):
'''hierarchy_identifier : hierarchy_identifier '[' expression ':' expression ']' '''
print('hierarchy_identifier_5', list(p))
- # { pform_name_t * tmp = $1;
+ # { pform_name_t * tmp = p[1];
# name_component_t&tail = tmp->back();
# index_component_t itmp;
# itmp.sel = index_component_t::SEL_PART;
- # itmp.msb = $3;
- # itmp.lsb = $5;
+ # itmp.msb = p[3];
+ # itmp.lsb = p[5];
# tail.index.push_back(itmp);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_hierarchy_identifier_6(p):
'''hierarchy_identifier : hierarchy_identifier '[' expression K_PO_POS expression ']' '''
print('hierarchy_identifier_6', list(p))
- # { pform_name_t * tmp = $1;
+ # { pform_name_t * tmp = p[1];
# name_component_t&tail = tmp->back();
# index_component_t itmp;
# itmp.sel = index_component_t::SEL_IDX_UP;
- # itmp.msb = $3;
- # itmp.lsb = $5;
+ # itmp.msb = p[3];
+ # itmp.lsb = p[5];
# tail.index.push_back(itmp);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_hierarchy_identifier_7(p):
'''hierarchy_identifier : hierarchy_identifier '[' expression K_PO_NEG expression ']' '''
print('hierarchy_identifier_7', list(p))
- # { pform_name_t * tmp = $1;
+ # { pform_name_t * tmp = p[1];
# name_component_t&tail = tmp->back();
# index_component_t itmp;
# itmp.sel = index_component_t::SEL_IDX_DO;
- # itmp.msb = $3;
- # itmp.lsb = $5;
+ # itmp.msb = p[3];
+ # itmp.lsb = p[5];
# tail.index.push_back(itmp);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_list_of_identifiers_1(p):
'''list_of_identifiers : IDENTIFIER '''
print('list_of_identifiers_1', list(p))
- # { $$ = list_from_identifier($1); }
+ # { p[0] = list_from_identifier(p[1]); }
()
def p_list_of_identifiers_2(p):
'''list_of_identifiers : list_of_identifiers ',' IDENTIFIER '''
print('list_of_identifiers_2', list(p))
- # { $$ = list_from_identifier($1, $3); }
+ # { p[0] = list_from_identifier(p[1], p[3]); }
()
def p_list_of_port_identifiers_1(p):
'''list_of_port_identifiers : IDENTIFIER dimensions_opt '''
print('list_of_port_identifiers_1', list(p))
- # { $$ = make_port_list($1, $2, 0); }
+ # { p[0] = make_port_list(p[1], p[2], 0); }
()
def p_list_of_port_identifiers_2(p):
'''list_of_port_identifiers : list_of_port_identifiers ',' IDENTIFIER dimensions_opt '''
print('list_of_port_identifiers_2', list(p))
- # { $$ = make_port_list($1, $3, $4, 0); }
+ # { p[0] = make_port_list(p[1], p[3], p[4], 0); }
()
def p_list_of_variable_port_identifiers_1(p):
'''list_of_variable_port_identifiers : IDENTIFIER dimensions_opt '''
print('list_of_variable_port_identifiers_1', list(p))
- # { $$ = make_port_list($1, $2, 0); }
+ # { p[0] = make_port_list(p[1], p[2], 0); }
()
def p_list_of_variable_port_identifiers_2(p):
'''list_of_variable_port_identifiers : IDENTIFIER dimensions_opt '=' expression '''
print('list_of_variable_port_identifiers_2', list(p))
- # { $$ = make_port_list($1, $2, $4); }
+ # { p[0] = make_port_list(p[1], p[2], p[4]); }
()
def p_list_of_variable_port_identifiers_3(p):
'''list_of_variable_port_identifiers : list_of_variable_port_identifiers ',' IDENTIFIER dimensions_opt '''
print('list_of_variable_port_identifiers_3', list(p))
- # { $$ = make_port_list($1, $3, $4, 0); }
+ # { p[0] = make_port_list(p[1], p[3], p[4], 0); }
()
def p_list_of_variable_port_identifiers_4(p):
'''list_of_variable_port_identifiers : list_of_variable_port_identifiers ',' IDENTIFIER dimensions_opt '=' expression '''
print('list_of_variable_port_identifiers_4', list(p))
- # { $$ = make_port_list($1, $3, $4, $6); }
+ # { p[0] = make_port_list(p[1], p[3], p[4], p[6]); }
()
def p_list_of_ports_1(p):
'''list_of_ports : port_opt '''
print('list_of_ports_1', list(p))
# { vector<Module::port_t*>*tmp
# = new vector<Module::port_t*>(1);
- # (*tmp)[0] = $1;
- # $$ = tmp;
+ # (*tmp)[0] = p[1];
+ # p[0] = tmp;
# }
()
def p_list_of_ports_2(p):
'''list_of_ports : list_of_ports ',' port_opt '''
print('list_of_ports_2', list(p))
- # { vector<Module::port_t*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { vector<Module::port_t*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_list_of_port_declarations_1(p):
p[0] = [p[1]]
# { vector<Module::port_t*>*tmp
# = new vector<Module::port_t*>(1);
- # (*tmp)[0] = $1;
- # $$ = tmp;
+ # (*tmp)[0] = p[1];
+ # p[0] = tmp;
# }
()
def p_list_of_port_declarations_2(p):
# XXX p[3].prefix=' ' # add a space after the NL, must go in parameter
p[1].append(p[3])
p[0] = p[1]
- # { vector<Module::port_t*>*tmp = $1;
- # tmp->push_back($3);
- # $$ = tmp;
+ # { vector<Module::port_t*>*tmp = p[1];
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_list_of_port_declarations_3(p):
'''list_of_port_declarations : list_of_port_declarations ',' IDENTIFIER '''
print('list_of_port_declarations_3', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($3);
+ # perm_string name = lex_strings.make(p[3]);
# ptmp = pform_module_port_reference(name, @3.text,
# @3.first_line);
- # vector<Module::port_t*>*tmp = $1;
+ # vector<Module::port_t*>*tmp = p[1];
# tmp->push_back(ptmp);
#
# /* Get the port declaration details, the port type
# port_declaration_context.port_type,
# port_declaration_context.port_net_type,
# port_declaration_context.data_type, 0);
- # delete[]$3;
- # $$ = tmp;
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_list_of_port_declarations_4(p):
comment, dt, name = p[2], p[4], p[5]
p[0] = port_decl(comment, dt, name)
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($5);
- # data_type_t*use_type = $4;
- # if ($6) use_type = new uarray_type_t(use_type, $6);
+ # perm_string name = lex_strings.make(p[5]);
+ # data_type_t*use_type = p[4];
+ # if (p[6]) use_type = new uarray_type_t(use_type, p[6]);
# ptmp = pform_module_port_reference(name, @2.text, @2.first_line);
- # pform_module_define_port(@2, name, NetNet::PINPUT, $3, use_type, $1);
+ # pform_module_define_port(@2, name, NetNet::PINPUT, p[3], use_type, p[1]);
# port_declaration_context.port_type = NetNet::PINPUT;
- # port_declaration_context.port_net_type = $3;
- # port_declaration_context.data_type = $4;
- # delete[]$5;
- # $$ = ptmp;
+ # port_declaration_context.port_net_type = p[3];
+ # port_declaration_context.data_type = p[4];
+ # delete[]p[5];
+ # p[0] = ptmp;
# }
()
def p_port_declaration_2(p):
'''port_declaration : attribute_list_opt K_input K_wreal IDENTIFIER '''
print('port_declaration_2', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($4);
+ # perm_string name = lex_strings.make(p[4]);
# ptmp = pform_module_port_reference(name, @2.text,
# @2.first_line);
# real_type_t*real_type = new real_type_t(real_type_t::REAL);
# FILE_NAME(real_type, @3);
# pform_module_define_port(@2, name, NetNet::PINPUT,
- # NetNet::WIRE, real_type, $1);
+ # NetNet::WIRE, real_type, p[1]);
# port_declaration_context.port_type = NetNet::PINPUT;
# port_declaration_context.port_net_type = NetNet::WIRE;
# port_declaration_context.data_type = real_type;
- # delete[]$4;
- # $$ = ptmp;
+ # delete[]p[4];
+ # p[0] = ptmp;
# }
()
def p_port_declaration_3(p):
'''port_declaration : attribute_list_opt K_inout net_type_opt data_type_or_implicit IDENTIFIER dimensions_opt '''
print('port_declaration_3', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($5);
+ # perm_string name = lex_strings.make(p[5]);
# ptmp = pform_module_port_reference(name, @2.text, @2.first_line);
- # pform_module_define_port(@2, name, NetNet::PINOUT, $3, $4, $1);
+ # pform_module_define_port(@2, name, NetNet::PINOUT, p[3], p[4], p[1]);
# port_declaration_context.port_type = NetNet::PINOUT;
- # port_declaration_context.port_net_type = $3;
- # port_declaration_context.data_type = $4;
- # delete[]$5;
- # if ($6) {
+ # port_declaration_context.port_net_type = p[3];
+ # port_declaration_context.data_type = p[4];
+ # delete[]p[5];
+ # if (p[6]) {
# yyerror(@6, "sorry: Inout ports with unpacked dimensions not supported.");
- # delete $6;
+ # delete p[6];
# }
- # $$ = ptmp;
+ # p[0] = ptmp;
# }
()
def p_port_declaration_4(p):
'''port_declaration : attribute_list_opt K_inout K_wreal IDENTIFIER '''
print('port_declaration_4', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($4);
+ # perm_string name = lex_strings.make(p[4]);
# ptmp = pform_module_port_reference(name, @2.text,
# @2.first_line);
# real_type_t*real_type = new real_type_t(real_type_t::REAL);
# FILE_NAME(real_type, @3);
# pform_module_define_port(@2, name, NetNet::PINOUT,
- # NetNet::WIRE, real_type, $1);
+ # NetNet::WIRE, real_type, p[1]);
# port_declaration_context.port_type = NetNet::PINOUT;
# port_declaration_context.port_net_type = NetNet::WIRE;
# port_declaration_context.data_type = real_type;
- # delete[]$4;
- # $$ = ptmp;
+ # delete[]p[4];
+ # p[0] = ptmp;
# }
()
def p_port_declaration_5(p):
comment, dt, name = p[2], p[4], p[5]
p[0] = port_decl(comment, dt, name)
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($5);
- # data_type_t*use_dtype = $4;
- # if ($6) use_dtype = new uarray_type_t(use_dtype, $6);
- # NetNet::Type use_type = $3;
+ # perm_string name = lex_strings.make(p[5]);
+ # data_type_t*use_dtype = p[4];
+ # if (p[6]) use_dtype = new uarray_type_t(use_dtype, p[6]);
+ # NetNet::Type use_type = p[3];
# if (use_type == NetNet::IMPLICIT) {
- # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> ($4)) {
+ # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> (p[4])) {
# if (dtype->reg_flag)
# use_type = NetNet::REG;
# else if (dtype->implicit_flag)
# // output ports are implicitly (on the inside)
# // variables because "reg" is not valid syntax
# // here.
- # } else if (dynamic_cast<atom2_type_t*> ($4)) {
+ # } else if (dynamic_cast<atom2_type_t*> (p[4])) {
# use_type = NetNet::IMPLICIT_REG;
- # } else if (dynamic_cast<struct_type_t*> ($4)) {
+ # } else if (dynamic_cast<struct_type_t*> (p[4])) {
# use_type = NetNet::IMPLICIT_REG;
- # } else if (enum_type_t*etype = dynamic_cast<enum_type_t*> ($4)) {
+ # } else if (enum_type_t*etype = dynamic_cast<enum_type_t*> (p[4])) {
# if(etype->base_type == IVL_VT_LOGIC)
# use_type = NetNet::IMPLICIT_REG;
# }
# }
# ptmp = pform_module_port_reference(name, @2.text, @2.first_line);
- # pform_module_define_port(@2, name, NetNet::POUTPUT, use_type, use_dtype, $1);
+ # pform_module_define_port(@2, name, NetNet::POUTPUT, use_type, use_dtype, p[1]);
# port_declaration_context.port_type = NetNet::POUTPUT;
# port_declaration_context.port_net_type = use_type;
- # port_declaration_context.data_type = $4;
- # delete[]$5;
- # $$ = ptmp;
+ # port_declaration_context.data_type = p[4];
+ # delete[]p[5];
+ # p[0] = ptmp;
# }
()
def p_port_declaration_6(p):
'''port_declaration : attribute_list_opt K_output K_wreal IDENTIFIER '''
print('port_declaration_6', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($4);
+ # perm_string name = lex_strings.make(p[4]);
# ptmp = pform_module_port_reference(name, @2.text,
# @2.first_line);
# real_type_t*real_type = new real_type_t(real_type_t::REAL);
# FILE_NAME(real_type, @3);
# pform_module_define_port(@2, name, NetNet::POUTPUT,
- # NetNet::WIRE, real_type, $1);
+ # NetNet::WIRE, real_type, p[1]);
# port_declaration_context.port_type = NetNet::POUTPUT;
# port_declaration_context.port_net_type = NetNet::WIRE;
# port_declaration_context.data_type = real_type;
- # delete[]$4;
- # $$ = ptmp;
+ # delete[]p[4];
+ # p[0] = ptmp;
# }
()
def p_port_declaration_7(p):
'''port_declaration : attribute_list_opt K_output net_type_opt data_type_or_implicit IDENTIFIER '=' expression '''
print('port_declaration_7', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($5);
- # NetNet::Type use_type = $3;
+ # perm_string name = lex_strings.make(p[5]);
+ # NetNet::Type use_type = p[3];
# if (use_type == NetNet::IMPLICIT) {
- # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> ($4)) {
+ # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> (p[4])) {
# if (dtype->reg_flag)
# use_type = NetNet::REG;
# else
# }
# }
# ptmp = pform_module_port_reference(name, @2.text, @2.first_line);
- # pform_module_define_port(@2, name, NetNet::POUTPUT, use_type, $4, $1);
+ # pform_module_define_port(@2, name, NetNet::POUTPUT, use_type, p[4], p[1]);
# port_declaration_context.port_type = NetNet::PINOUT;
# port_declaration_context.port_net_type = use_type;
- # port_declaration_context.data_type = $4;
+ # port_declaration_context.data_type = p[4];
#
- # pform_make_var_init(@5, name, $7);
+ # pform_make_var_init(@5, name, p[7]);
#
- # delete[]$5;
- # $$ = ptmp;
+ # delete[]p[5];
+ # p[0] = ptmp;
# }
()
def p_net_type_opt_1(p):
def p_atom2_type_1(p):
'''atom2_type : K_byte '''
print('atom2_type_1', list(p))
- # { $$ = 8; }
+ # { p[0] = 8; }
()
def p_atom2_type_2(p):
'''atom2_type : K_shortint '''
print('atom2_type_2', list(p))
- # { $$ = 16; }
+ # { p[0] = 16; }
()
def p_atom2_type_3(p):
'''atom2_type : K_int '''
print('atom2_type_3', list(p))
- # { $$ = 32; }
+ # { p[0] = 32; }
()
def p_atom2_type_4(p):
'''atom2_type : K_longint '''
print('atom2_type_4', list(p))
- # { $$ = 64; }
+ # { p[0] = 64; }
()
def p_lpvalue_1(p):
'''lpvalue : hierarchy_identifier '''
print('lpvalue_1', list(p))
p[0] = p[1]
- # { PEIdent*tmp = pform_new_ident(*$1);
+ # { PEIdent*tmp = pform_new_ident(*p[1]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # delete $1;
+ # p[0] = tmp;
+ # delete p[1];
# }
()
def p_lpvalue_2(p):
'''lpvalue : implicit_class_handle '.' hierarchy_identifier '''
print('lpvalue_2', list(p))
- # { pform_name_t*t_name = $1;
- # while (!$3->empty()) {
- # t_name->push_back($3->front());
- # $3->pop_front();
+ # { pform_name_t*t_name = p[1];
+ # while (!p[3]->empty()) {
+ # t_name->push_back(p[3]->front());
+ # p[3]->pop_front();
# }
# PEIdent*tmp = new PEIdent(*t_name);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
- # delete $1;
- # delete $3;
+ # p[0] = tmp;
+ # delete p[1];
+ # delete p[3];
# }
()
def p_lpvalue_3(p):
'''lpvalue : '{' expression_list_proper '}' '''
print('lpvalue_3', list(p))
- # { PEConcat*tmp = new PEConcat(*$2);
+ # { PEConcat*tmp = new PEConcat(*p[2]);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_lpvalue_4(p):
'''cont_assign : lpvalue '=' expression '''
print('cont_assign_1', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($1);
- # tmp->push_back($3);
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # tmp->push_back(p[3]);
+ # p[0] = tmp;
# }
()
def p_cont_assign_list_1(p):
'''cont_assign_list : cont_assign_list ',' cont_assign '''
print('cont_assign_list_1', list(p))
- # { list<PExpr*>*tmp = $1;
- # tmp->splice(tmp->end(), *$3);
- # delete $3;
- # $$ = tmp;
+ # { list<PExpr*>*tmp = p[1];
+ # tmp->splice(tmp->end(), *p[3]);
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_cont_assign_list_2(p):
# // endlabel_opt but still have the pform_endmodule() called
# // early enough that the lexor can know we are outside the
# // module.
- # if ($17) {
- # if (strcmp($4,$17) != 0) {
- # switch ($2) {
+ # if (p[1]7) {
+ # if (strcmp(p[4],p[1]7) != 0) {
+ # switch (p[2]) {
# case K_module:
# yyerror(@17, "error: End label doesn't match "
# "module name.");
# break;
# }
# }
- # if (($2 == K_module) && (! gn_system_verilog())) {
+ # if ((p[2] == K_module) && (! gn_system_verilog())) {
# yyerror(@8, "error: Module end labels require "
# "SystemVerilog.");
# }
- # delete[]$17;
+ # delete[]p[1]7;
# }
- # delete[]$4;
+ # delete[]p[4];
# }
()
def p__embed0_module(p):
'''_embed0_module : '''
- # { pform_startmodule(@2, $4, $2==K_program, $2==K_interface, $3, $1); }
+ # { pform_startmodule(@2, p[4], p[2]==K_program, p[2]==K_interface, p[3], p[1]); }
()
def p__embed1_module(p):
'''_embed1_module : '''
- # { pform_module_set_ports($8); }
+ # { pform_module_set_ports(p[8]); }
()
def p__embed2_module(p):
'''_embed2_module : '''
# }
# // Check that program/endprogram and module/endmodule
# // keywords match.
- # if ($2 != $15) {
- # switch ($2) {
+ # if (p[2] != p[15]) {
+ # switch (p[2]) {
# case K_module:
# yyerror(@15, "error: module not closed by endmodule.");
# break;
# break;
# }
# }
- # pform_endmodule($4, in_celldefine, ucd);
+ # pform_endmodule(p[4], in_celldefine, ucd);
# }
()
def p_module_start_1(p):
'''module_start : K_module '''
print('module_start_1', list(p))
- # { $$ = K_module; }
+ # { p[0] = K_module; }
()
def p_module_start_2(p):
'''module_start : K_macromodule '''
print('module_start_2', list(p))
- # { $$ = K_module; }
+ # { p[0] = K_module; }
()
def p_module_start_3(p):
'''module_start : K_program '''
print('module_start_3', list(p))
- # { $$ = K_program; }
+ # { p[0] = K_program; }
()
def p_module_start_4(p):
'''module_start : K_interface '''
print('module_start_4', list(p))
- # { $$ = K_interface; }
+ # { p[0] = K_interface; }
()
def p_module_end_1(p):
'''module_end : K_endmodule '''
print('module_end_1', list(p))
- # { $$ = K_module; }
+ # { p[0] = K_module; }
()
def p_module_end_2(p):
'''module_end : K_endprogram '''
print('module_end_2', list(p))
- # { $$ = K_program; }
+ # { p[0] = K_program; }
()
def p_module_end_3(p):
'''module_end : K_endinterface '''
print('module_end_3', list(p))
- # { $$ = K_interface; }
+ # { p[0] = K_interface; }
()
def p_endlabel_opt_1(p):
'''endlabel_opt : ':' IDENTIFIER '''
def p_module_item_2(p):
'''module_item : attribute_list_opt net_type data_type_or_implicit delay3_opt net_variable_list ';' '''
print('module_item_2', list(p))
- # { data_type_t*data_type = $3;
+ # { data_type_t*data_type = p[3];
# if (data_type == 0) {
# data_type = new vector_type_t(IVL_VT_LOGIC, false, 0);
# FILE_NAME(data_type, @2);
# }
- # pform_set_data_type(@2, data_type, $5, $2, $1);
- # if ($4 != 0) {
+ # pform_set_data_type(@2, data_type, p[5], p[2], p[1]);
+ # if (p[4] != 0) {
# yyerror(@2, "sorry: net delays not supported.");
- # delete $4;
+ # delete p[4];
# }
- # delete $1;
+ # delete p[1];
# }
()
def p_module_item_3(p):
'''module_item : attribute_list_opt K_wreal delay3 net_variable_list ';' '''
print('module_item_3', list(p))
# { real_type_t*tmpt = new real_type_t(real_type_t::REAL);
- # pform_set_data_type(@2, tmpt, $4, NetNet::WIRE, $1);
- # if ($3 != 0) {
+ # pform_set_data_type(@2, tmpt, p[4], NetNet::WIRE, p[1]);
+ # if (p[3] != 0) {
# yyerror(@3, "sorry: net delays not supported.");
- # delete $3;
+ # delete p[3];
# }
- # delete $1;
+ # delete p[1];
# }
()
def p_module_item_4(p):
'''module_item : attribute_list_opt K_wreal net_variable_list ';' '''
print('module_item_4', list(p))
# { real_type_t*tmpt = new real_type_t(real_type_t::REAL);
- # pform_set_data_type(@2, tmpt, $3, NetNet::WIRE, $1);
- # delete $1;
+ # pform_set_data_type(@2, tmpt, p[3], NetNet::WIRE, p[1]);
+ # delete p[1];
# }
()
def p_module_item_5(p):
'''module_item : attribute_list_opt net_type data_type_or_implicit delay3_opt net_decl_assigns ';' '''
print('module_item_5', list(p))
- # { data_type_t*data_type = $3;
+ # { data_type_t*data_type = p[3];
# if (data_type == 0) {
# data_type = new vector_type_t(IVL_VT_LOGIC, false, 0);
# FILE_NAME(data_type, @2);
# }
- # pform_makewire(@2, $4, str_strength, $5, $2, data_type);
- # if ($1) {
+ # pform_makewire(@2, p[4], str_strength, p[5], p[2], data_type);
+ # if (p[1]) {
# yywarn(@2, "Attributes are not supported on net declaration "
# "assignments and will be discarded.");
- # delete $1;
+ # delete p[1];
# }
# }
()
def p_module_item_6(p):
'''module_item : attribute_list_opt net_type data_type_or_implicit drive_strength net_decl_assigns ';' '''
print('module_item_6', list(p))
- # { data_type_t*data_type = $3;
+ # { data_type_t*data_type = p[3];
# if (data_type == 0) {
# data_type = new vector_type_t(IVL_VT_LOGIC, false, 0);
# FILE_NAME(data_type, @2);
# }
- # pform_makewire(@2, 0, $4, $5, $2, data_type);
- # if ($1) {
+ # pform_makewire(@2, 0, p[4], p[5], p[2], data_type);
+ # if (p[1]) {
# yywarn(@2, "Attributes are not supported on net declaration "
# "assignments and will be discarded.");
- # delete $1;
+ # delete p[1];
# }
# }
()
'''module_item : attribute_list_opt K_wreal net_decl_assigns ';' '''
print('module_item_7', list(p))
# { real_type_t*data_type = new real_type_t(real_type_t::REAL);
- # pform_makewire(@2, 0, str_strength, $3, NetNet::WIRE, data_type);
- # if ($1) {
+ # pform_makewire(@2, 0, str_strength, p[3], NetNet::WIRE, data_type);
+ # if (p[1]) {
# yywarn(@2, "Attributes are not supported on net declaration "
# "assignments and will be discarded.");
- # delete $1;
+ # delete p[1];
# }
# }
()
'''module_item : K_trireg charge_strength_opt dimensions_opt delay3_opt list_of_identifiers ';' '''
print('module_item_8', list(p))
# { yyerror(@1, "sorry: trireg nets not supported.");
- # delete $3;
- # delete $4;
+ # delete p[3];
+ # delete p[4];
# }
()
def p_module_item_9(p):
'''module_item : attribute_list_opt port_direction net_type data_type_or_implicit list_of_port_identifiers ';' '''
print('module_item_9', list(p))
- # { pform_module_define_port(@2, $5, $2, $3, $4, $1); }
+ # { pform_module_define_port(@2, p[5], p[2], p[3], p[4], p[1]); }
()
def p_module_item_10(p):
'''module_item : attribute_list_opt port_direction K_wreal list_of_port_identifiers ';' '''
print('module_item_10', list(p))
# { real_type_t*real_type = new real_type_t(real_type_t::REAL);
- # pform_module_define_port(@2, $4, $2, NetNet::WIRE, real_type, $1);
+ # pform_module_define_port(@2, p[4], p[2], NetNet::WIRE, real_type, p[1]);
# }
()
def p_module_item_11(p):
'''module_item : attribute_list_opt K_inout data_type_or_implicit list_of_port_identifiers ';' '''
print('module_item_11', list(p))
- # { NetNet::Type use_type = $3 ? NetNet::IMPLICIT : NetNet::NONE;
- # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> ($3)) {
+ # { NetNet::Type use_type = p[3] ? NetNet::IMPLICIT : NetNet::NONE;
+ # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> (p[3])) {
# if (dtype->implicit_flag)
# use_type = NetNet::NONE;
# }
# if (use_type == NetNet::NONE)
- # pform_set_port_type(@2, $4, NetNet::PINOUT, $3, $1);
+ # pform_set_port_type(@2, p[4], NetNet::PINOUT, p[3], p[1]);
# else
- # pform_module_define_port(@2, $4, NetNet::PINOUT, use_type, $3, $1);
+ # pform_module_define_port(@2, p[4], NetNet::PINOUT, use_type, p[3], p[1]);
# }
()
def p_module_item_12(p):
'''module_item : attribute_list_opt K_input data_type_or_implicit list_of_port_identifiers ';' '''
print('module_item_12', list(p))
- # { NetNet::Type use_type = $3 ? NetNet::IMPLICIT : NetNet::NONE;
- # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> ($3)) {
+ # { NetNet::Type use_type = p[3] ? NetNet::IMPLICIT : NetNet::NONE;
+ # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> (p[3])) {
# if (dtype->implicit_flag)
# use_type = NetNet::NONE;
# }
# if (use_type == NetNet::NONE)
- # pform_set_port_type(@2, $4, NetNet::PINPUT, $3, $1);
+ # pform_set_port_type(@2, p[4], NetNet::PINPUT, p[3], p[1]);
# else
- # pform_module_define_port(@2, $4, NetNet::PINPUT, use_type, $3, $1);
+ # pform_module_define_port(@2, p[4], NetNet::PINPUT, use_type, p[3], p[1]);
# }
()
def p_module_item_13(p):
'''module_item : attribute_list_opt K_output data_type_or_implicit list_of_variable_port_identifiers ';' '''
print('module_item_13', list(p))
- # { NetNet::Type use_type = $3 ? NetNet::IMPLICIT : NetNet::NONE;
- # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> ($3)) {
+ # { NetNet::Type use_type = p[3] ? NetNet::IMPLICIT : NetNet::NONE;
+ # if (vector_type_t*dtype = dynamic_cast<vector_type_t*> (p[3])) {
# if (dtype->implicit_flag)
# use_type = NetNet::NONE;
# else if (dtype->reg_flag)
# // output ports are implicitly (on the inside)
# // variables because "reg" is not valid syntax
# // here.
- # } else if (dynamic_cast<atom2_type_t*> ($3)) {
+ # } else if (dynamic_cast<atom2_type_t*> (p[3])) {
# use_type = NetNet::IMPLICIT_REG;
- # } else if (dynamic_cast<struct_type_t*> ($3)) {
+ # } else if (dynamic_cast<struct_type_t*> (p[3])) {
# use_type = NetNet::IMPLICIT_REG;
- # } else if (enum_type_t*etype = dynamic_cast<enum_type_t*> ($3)) {
+ # } else if (enum_type_t*etype = dynamic_cast<enum_type_t*> (p[3])) {
# if(etype->base_type == IVL_VT_LOGIC)
# use_type = NetNet::IMPLICIT_REG;
# }
# if (use_type == NetNet::NONE)
- # pform_set_port_type(@2, $4, NetNet::POUTPUT, $3, $1);
+ # pform_set_port_type(@2, p[4], NetNet::POUTPUT, p[3], p[1]);
# else
- # pform_module_define_port(@2, $4, NetNet::POUTPUT, use_type, $3, $1);
+ # pform_module_define_port(@2, p[4], NetNet::POUTPUT, use_type, p[3], p[1]);
# }
()
def p_module_item_14(p):
'''module_item : attribute_list_opt port_direction net_type data_type_or_implicit error ';' '''
print('module_item_14', list(p))
# { yyerror(@2, "error: Invalid variable list in port declaration.");
- # if ($1) delete $1;
- # if ($4) delete $4;
+ # if (p[1]) delete p[1];
+ # if (p[4]) delete p[4];
# yyerrok;
# }
()
'''module_item : attribute_list_opt K_inout data_type_or_implicit error ';' '''
print('module_item_15', list(p))
# { yyerror(@2, "error: Invalid variable list in port declaration.");
- # if ($1) delete $1;
- # if ($3) delete $3;
+ # if (p[1]) delete p[1];
+ # if (p[3]) delete p[3];
# yyerrok;
# }
()
'''module_item : attribute_list_opt K_input data_type_or_implicit error ';' '''
print('module_item_16', list(p))
# { yyerror(@2, "error: Invalid variable list in port declaration.");
- # if ($1) delete $1;
- # if ($3) delete $3;
+ # if (p[1]) delete p[1];
+ # if (p[3]) delete p[3];
# yyerrok;
# }
()
'''module_item : attribute_list_opt K_output data_type_or_implicit error ';' '''
print('module_item_17', list(p))
# { yyerror(@2, "error: Invalid variable list in port declaration.");
- # if ($1) delete $1;
- # if ($3) delete $3;
+ # if (p[1]) delete p[1];
+ # if (p[3]) delete p[3];
# yyerrok;
# }
()
def p_module_item_18(p):
'''module_item : DISCIPLINE_IDENTIFIER list_of_identifiers ';' '''
print('module_item_18', list(p))
- # { pform_attach_discipline(@1, $1, $2); }
+ # { pform_attach_discipline(@1, p[1], p[2]); }
()
def p_module_item_19(p):
'''module_item : attribute_list_opt _embed0_module_item block_item_decl '''
def p_module_item_21(p):
'''module_item : attribute_list_opt gatetype gate_instance_list ';' '''
print('module_item_21', list(p))
- # { pform_makegates(@2, $2, str_strength, 0, $3, $1); }
+ # { pform_makegates(@2, p[2], str_strength, 0, p[3], p[1]); }
()
def p_module_item_22(p):
'''module_item : attribute_list_opt gatetype delay3 gate_instance_list ';' '''
print('module_item_22', list(p))
- # { pform_makegates(@2, $2, str_strength, $3, $4, $1); }
+ # { pform_makegates(@2, p[2], str_strength, p[3], p[4], p[1]); }
()
def p_module_item_23(p):
'''module_item : attribute_list_opt gatetype drive_strength gate_instance_list ';' '''
print('module_item_23', list(p))
- # { pform_makegates(@2, $2, $3, 0, $4, $1); }
+ # { pform_makegates(@2, p[2], p[3], 0, p[4], p[1]); }
()
def p_module_item_24(p):
'''module_item : attribute_list_opt gatetype drive_strength delay3 gate_instance_list ';' '''
print('module_item_24', list(p))
- # { pform_makegates(@2, $2, $3, $4, $5, $1); }
+ # { pform_makegates(@2, p[2], p[3], p[4], p[5], p[1]); }
()
def p_module_item_25(p):
'''module_item : attribute_list_opt switchtype gate_instance_list ';' '''
print('module_item_25', list(p))
- # { pform_makegates(@2, $2, str_strength, 0, $3, $1); }
+ # { pform_makegates(@2, p[2], str_strength, 0, p[3], p[1]); }
()
def p_module_item_26(p):
'''module_item : attribute_list_opt switchtype delay3 gate_instance_list ';' '''
print('module_item_26', list(p))
- # { pform_makegates(@2, $2, str_strength, $3, $4, $1); }
+ # { pform_makegates(@2, p[2], str_strength, p[3], p[4], p[1]); }
()
def p_module_item_27(p):
'''module_item : K_pullup gate_instance_list ';' '''
print('module_item_27', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLUP, pull_strength, 0, $2, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLUP, pull_strength, 0, p[2], 0); }
()
def p_module_item_28(p):
'''module_item : K_pulldown gate_instance_list ';' '''
print('module_item_28', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLDOWN, pull_strength, 0, $2, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLDOWN, pull_strength, 0, p[2], 0); }
()
def p_module_item_29(p):
'''module_item : K_pullup '(' dr_strength1 ')' gate_instance_list ';' '''
print('module_item_29', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLUP, $3, 0, $5, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLUP, p[3], 0, p[5], 0); }
()
def p_module_item_30(p):
'''module_item : K_pullup '(' dr_strength1 ',' dr_strength0 ')' gate_instance_list ';' '''
print('module_item_30', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLUP, $3, 0, $7, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLUP, p[3], 0, p[7], 0); }
()
def p_module_item_31(p):
'''module_item : K_pullup '(' dr_strength0 ',' dr_strength1 ')' gate_instance_list ';' '''
print('module_item_31', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLUP, $5, 0, $7, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLUP, p[5], 0, p[7], 0); }
()
def p_module_item_32(p):
'''module_item : K_pulldown '(' dr_strength0 ')' gate_instance_list ';' '''
print('module_item_32', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLDOWN, $3, 0, $5, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLDOWN, p[3], 0, p[5], 0); }
()
def p_module_item_33(p):
'''module_item : K_pulldown '(' dr_strength1 ',' dr_strength0 ')' gate_instance_list ';' '''
print('module_item_33', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLDOWN, $5, 0, $7, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLDOWN, p[5], 0, p[7], 0); }
()
def p_module_item_34(p):
'''module_item : K_pulldown '(' dr_strength0 ',' dr_strength1 ')' gate_instance_list ';' '''
print('module_item_34', list(p))
- # { pform_makegates(@1, PGBuiltin::PULLDOWN, $3, 0, $7, 0); }
+ # { pform_makegates(@1, PGBuiltin::PULLDOWN, p[3], 0, p[7], 0); }
()
def p_module_item_35(p):
'''module_item : attribute_list_opt IDENTIFIER parameter_value_opt gate_instance_list ';' '''
print('module_item_35', list(p))
- # { perm_string tmp1 = lex_strings.make($2);
- # pform_make_modgates(@2, tmp1, $3, $4, $1);
- # delete[]$2;
+ # { perm_string tmp1 = lex_strings.make(p[2]);
+ # pform_make_modgates(@2, tmp1, p[3], p[4], p[1]);
+ # delete[]p[2];
# }
()
def p_module_item_36(p):
'''module_item : attribute_list_opt IDENTIFIER parameter_value_opt error ';' '''
print('module_item_36', list(p))
# { yyerror(@2, "error: Invalid module instantiation");
- # delete[]$2;
- # if ($1) delete $1;
+ # delete[]p[2];
+ # if (p[1]) delete p[1];
# }
()
def p_module_item_37(p):
'''module_item : K_assign drive_strength_opt delay3_opt cont_assign_list ';' '''
print('module_item_37', list(p))
- # { pform_make_pgassign_list($4, $3, $2, @1.text, @1.first_line); }
+ # { pform_make_pgassign_list(p[4], p[3], p[2], @1.text, @1.first_line); }
()
def p_module_item_38(p):
'''module_item : attribute_list_opt K_always statement_item '''
print('module_item_38', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_39(p):
'''module_item : attribute_list_opt K_always_comb statement_item '''
print('module_item_39', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_COMB, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_COMB, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_40(p):
'''module_item : attribute_list_opt K_always_ff statement_item '''
print('module_item_40', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_FF, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_FF, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_41(p):
'''module_item : attribute_list_opt K_always_latch statement_item '''
print('module_item_41', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_LATCH, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_ALWAYS_LATCH, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_42(p):
'''module_item : attribute_list_opt K_initial statement_item '''
print('module_item_42', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_INITIAL, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_INITIAL, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_43(p):
'''module_item : attribute_list_opt K_final statement_item '''
print('module_item_43', list(p))
- # { PProcess*tmp = pform_make_behavior(IVL_PR_FINAL, $3, $1);
+ # { PProcess*tmp = pform_make_behavior(IVL_PR_FINAL, p[3], p[1]);
# FILE_NAME(tmp, @2);
# }
()
def p_module_item_44(p):
'''module_item : attribute_list_opt K_analog analog_statement '''
print('module_item_44', list(p))
- # { pform_make_analog_behavior(@2, IVL_PR_ALWAYS, $3); }
+ # { pform_make_analog_behavior(@2, IVL_PR_ALWAYS, p[3]); }
()
def p_module_item_45(p):
'''module_item : attribute_list_opt assertion_item '''
def p_module_item_51(p):
'''module_item : K_genvar list_of_identifiers ';' '''
print('module_item_51', list(p))
- # { pform_genvars(@1, $2); }
+ # { pform_genvars(@1, p[2]); }
()
def p_module_item_52(p):
'''module_item : K_for '(' IDENTIFIER '=' expression ';' expression ';' IDENTIFIER '=' expression ')' _embed2_module_item generate_block '''
print('module_item_64', list(p))
# { yyerror(@1, "error: I give up on this "
# "function definition.");
- # if ($4) {
+ # if (p[4]) {
# if (!gn_system_verilog()) {
# yyerror(@4, "error: Function end names require "
# "SystemVerilog.");
# }
- # delete[]$4;
+ # delete[]p[4];
# }
# yyerrok;
# }
def p_module_item_65(p):
'''module_item : KK_attribute '(' IDENTIFIER ',' STRING ',' STRING ')' ';' '''
print('module_item_65', list(p))
- # { perm_string tmp3 = lex_strings.make($3);
- # perm_string tmp5 = lex_strings.make($5);
- # pform_set_attrib(tmp3, tmp5, $7);
- # delete[] $3;
- # delete[] $5;
+ # { perm_string tmp3 = lex_strings.make(p[3]);
+ # perm_string tmp5 = lex_strings.make(p[5]);
+ # pform_set_attrib(tmp3, tmp5, p[7]);
+ # delete[] p[3];
+ # delete[] p[5];
# }
()
def p_module_item_66(p):
()
def p__embed0_module_item(p):
'''_embed0_module_item : '''
- # { attributes_in_context = $1; }
+ # { attributes_in_context = p[1]; }
()
def p__embed1_module_item(p):
'''_embed1_module_item : '''
()
def p__embed2_module_item(p):
'''_embed2_module_item : '''
- # { pform_start_generate_for(@1, $3, $5, $7, $9, $11); }
+ # { pform_start_generate_for(@1, p[3], p[5], p[7], p[9], p[11]); }
()
def p__embed3_module_item(p):
'''_embed3_module_item : '''
()
def p__embed4_module_item(p):
'''_embed4_module_item : '''
- # { pform_start_generate_case(@1, $3); }
+ # { pform_start_generate_case(@1, p[3]); }
()
def p__embed5_module_item(p):
'''_embed5_module_item : '''
def p_generate_if_1(p):
'''generate_if : K_if '(' expression ')' '''
print('generate_if_1', list(p))
- # { pform_start_generate_if(@1, $3); }
+ # { pform_start_generate_if(@1, p[3]); }
()
def p_generate_case_items_1(p):
'''generate_case_items : generate_case_items generate_case_item '''
()
def p__embed0_generate_case_item(p):
'''_embed0_generate_case_item : '''
- # { pform_generate_case_item(@1, $1); }
+ # { pform_generate_case_item(@1, p[1]); }
()
def p__embed1_generate_case_item(p):
'''_embed1_generate_case_item : '''
def p__embed0_generate_item(p):
'''_embed0_generate_item : '''
# {
- # pform_start_generate_nblock(@1, $3);
+ # pform_start_generate_nblock(@1, p[3]);
# }
()
def p_generate_item_list_1(p):
def p_generate_block_3(p):
'''generate_block : K_begin ':' IDENTIFIER generate_item_list_opt K_end endlabel_opt '''
print('generate_block_3', list(p))
- # { pform_generate_block_name($3);
- # if ($6) {
- # if (strcmp($3,$6) != 0) {
+ # { pform_generate_block_name(p[3]);
+ # if (p[6]) {
+ # if (strcmp(p[3],p[6]) != 0) {
# yyerror(@6, "error: End label doesn't match "
# "begin name");
# }
# yyerror(@6, "error: Begin end labels require "
# "SystemVerilog.");
# }
- # delete[]$6;
+ # delete[]p[6];
# }
- # delete[]$3;
+ # delete[]p[3];
# }
()
def p_generate_block_opt_1(p):
print('net_decl_assign_1', list(p))
# { net_decl_assign_t*tmp = new net_decl_assign_t;
# tmp->next = tmp;
- # tmp->name = lex_strings.make($1);
- # tmp->expr = $3;
- # delete[]$1;
- # $$ = tmp;
+ # tmp->name = lex_strings.make(p[1]);
+ # tmp->expr = p[3];
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_net_decl_assigns_1(p):
'''net_decl_assigns : net_decl_assigns ',' net_decl_assign '''
print('net_decl_assigns_1', list(p))
- # { net_decl_assign_t*tmp = $1;
- # $3->next = tmp->next;
- # tmp->next = $3;
- # $$ = tmp;
+ # { net_decl_assign_t*tmp = p[1];
+ # p[3]->next = tmp->next;
+ # tmp->next = p[3];
+ # p[0] = tmp;
# }
()
def p_net_decl_assigns_2(p):
'''net_decl_assigns : net_decl_assign '''
print('net_decl_assigns_2', list(p))
- # { $$ = $1;
+ # { p[0] = p[1];
# }
()
def p_bit_logic_1(p):
'''bit_logic : K_logic '''
print('bit_logic_1', list(p))
- # { $$ = IVL_VT_LOGIC; }
+ # { p[0] = IVL_VT_LOGIC; }
()
def p_bit_logic_2(p):
'''bit_logic : K_bool '''
print('bit_logic_2', list(p))
- # { $$ = IVL_VT_BOOL; /* Icarus misc */}
+ # { p[0] = IVL_VT_BOOL; /* Icarus misc */}
()
def p_bit_logic_3(p):
'''bit_logic : K_bit '''
print('bit_logic_3', list(p))
- # { $$ = IVL_VT_BOOL; /* IEEE1800 / IEEE1364-2009 */}
+ # { p[0] = IVL_VT_BOOL; /* IEEE1800 / IEEE1364-2009 */}
()
def p_bit_logic_opt_1(p):
'''bit_logic_opt : bit_logic '''
def p_bit_logic_opt_2(p):
'''bit_logic_opt : '''
print('bit_logic_opt_2', list(p))
- # { $$ = IVL_VT_NO_TYPE; }
+ # { p[0] = IVL_VT_NO_TYPE; }
()
def p_net_type_1(p):
'''net_type : K_wire '''
print('net_type_1', list(p))
- # { $$ = NetNet::WIRE; }
+ # { p[0] = NetNet::WIRE; }
()
def p_net_type_2(p):
'''net_type : K_tri '''
print('net_type_2', list(p))
- # { $$ = NetNet::TRI; }
+ # { p[0] = NetNet::TRI; }
()
def p_net_type_3(p):
'''net_type : K_tri1 '''
print('net_type_3', list(p))
- # { $$ = NetNet::TRI1; }
+ # { p[0] = NetNet::TRI1; }
()
def p_net_type_4(p):
'''net_type : K_supply0 '''
print('net_type_4', list(p))
- # { $$ = NetNet::SUPPLY0; }
+ # { p[0] = NetNet::SUPPLY0; }
()
def p_net_type_5(p):
'''net_type : K_wand '''
print('net_type_5', list(p))
- # { $$ = NetNet::WAND; }
+ # { p[0] = NetNet::WAND; }
()
def p_net_type_6(p):
'''net_type : K_triand '''
print('net_type_6', list(p))
- # { $$ = NetNet::TRIAND; }
+ # { p[0] = NetNet::TRIAND; }
()
def p_net_type_7(p):
'''net_type : K_tri0 '''
print('net_type_7', list(p))
- # { $$ = NetNet::TRI0; }
+ # { p[0] = NetNet::TRI0; }
()
def p_net_type_8(p):
'''net_type : K_supply1 '''
print('net_type_8', list(p))
- # { $$ = NetNet::SUPPLY1; }
+ # { p[0] = NetNet::SUPPLY1; }
()
def p_net_type_9(p):
'''net_type : K_wor '''
print('net_type_9', list(p))
- # { $$ = NetNet::WOR; }
+ # { p[0] = NetNet::WOR; }
()
def p_net_type_10(p):
'''net_type : K_trior '''
print('net_type_10', list(p))
- # { $$ = NetNet::TRIOR; }
+ # { p[0] = NetNet::TRIOR; }
()
def p_net_type_11(p):
'''net_type : K_wone '''
print('net_type_11', list(p))
- # { $$ = NetNet::UNRESOLVED_WIRE;
+ # { p[0] = NetNet::UNRESOLVED_WIRE;
# cerr << @1.text << ":" << @1.first_line << ": warning: "
# "'wone' is deprecated, please use 'uwire' "
# "instead." << endl;
def p_net_type_12(p):
'''net_type : K_uwire '''
print('net_type_12', list(p))
- # { $$ = NetNet::UNRESOLVED_WIRE; }
+ # { p[0] = NetNet::UNRESOLVED_WIRE; }
()
def p_param_type_1(p):
'''param_type : bit_logic_opt unsigned_signed_opt dimensions_opt '''
print('param_type_1', list(p))
- # { param_active_range = $3;
- # param_active_signed = $2;
- # if (($1 == IVL_VT_NO_TYPE) && ($3 != 0))
+ # { param_active_range = p[3];
+ # param_active_signed = p[2];
+ # if ((p[1] == IVL_VT_NO_TYPE) && (p[3] != 0))
# param_active_type = IVL_VT_LOGIC;
# else
- # param_active_type = $1;
+ # param_active_type = p[1];
# }
()
def p_param_type_2(p):
def p_param_type_5(p):
'''param_type : atom2_type '''
print('param_type_5', list(p))
- # { param_active_range = make_range_from_width($1);
+ # { param_active_range = make_range_from_width(p[1]);
# param_active_signed = true;
# param_active_type = IVL_VT_BOOL;
# }
def p_param_type_6(p):
'''param_type : TYPE_IDENTIFIER '''
print('param_type_6', list(p))
- # { pform_set_param_from_type(@1, $1.type, $1.text, param_active_range,
+ # { pform_set_param_from_type(@1, p[1].type, p[1].text, param_active_range,
# param_active_signed, param_active_type);
- # delete[]$1.text;
+ # delete[]p[1].text;
# }
()
def p_parameter_assign_list_1(p):
tpname = Node(syms.tname, [Leaf(token.NAME, p[1])])
expr = Node(syms.tfpdef, [tpname, Leaf(token.EQUAL, p[2]), p[3] ])
p[0] = expr
- # { PExpr*tmp = $3;
- # pform_set_parameter(@1, lex_strings.make($1), param_active_type,
- # param_active_signed, param_active_range, tmp, $4);
- # delete[]$1;
+ # { PExpr*tmp = p[3];
+ # pform_set_parameter(@1, lex_strings.make(p[1]), param_active_type,
+ # param_active_signed, param_active_range, tmp, p[4]);
+ # delete[]p[1];
# }
()
def p_localparam_assign_1(p):
'''localparam_assign : IDENTIFIER '=' expression '''
print('localparam_assign_1', list(p))
- # { PExpr*tmp = $3;
- # pform_set_localparam(@1, lex_strings.make($1), param_active_type,
+ # { PExpr*tmp = p[3];
+ # pform_set_localparam(@1, lex_strings.make(p[1]), param_active_type,
# param_active_signed, param_active_range, tmp);
- # delete[]$1;
+ # delete[]p[1];
# }
()
def p_parameter_value_ranges_opt_1(p):
def p_parameter_value_ranges_1(p):
'''parameter_value_ranges : parameter_value_ranges parameter_value_range '''
print('parameter_value_ranges_1', list(p))
- # { $$ = $2; $$->next = $1; }
+ # { p[0] = p[2]; p[0]->next = p[1]; }
()
def p_parameter_value_ranges_2(p):
'''parameter_value_ranges : parameter_value_range '''
print('parameter_value_ranges_2', list(p))
- # { $$ = $1; $$->next = 0; }
+ # { p[0] = p[1]; p[0]->next = 0; }
()
def p_parameter_value_range_1(p):
'''parameter_value_range : from_exclude '[' value_range_expression ':' value_range_expression ']' '''
print('parameter_value_range_1', list(p))
- # { $$ = pform_parameter_value_range($1, false, $3, false, $5); }
+ # { p[0] = pform_parameter_value_range(p[1], false, p[3], false, p[5]); }
()
def p_parameter_value_range_2(p):
'''parameter_value_range : from_exclude '[' value_range_expression ':' value_range_expression ')' '''
print('parameter_value_range_2', list(p))
- # { $$ = pform_parameter_value_range($1, false, $3, true, $5); }
+ # { p[0] = pform_parameter_value_range(p[1], false, p[3], true, p[5]); }
()
def p_parameter_value_range_3(p):
'''parameter_value_range : from_exclude '(' value_range_expression ':' value_range_expression ']' '''
print('parameter_value_range_3', list(p))
- # { $$ = pform_parameter_value_range($1, true, $3, false, $5); }
+ # { p[0] = pform_parameter_value_range(p[1], true, p[3], false, p[5]); }
()
def p_parameter_value_range_4(p):
'''parameter_value_range : from_exclude '(' value_range_expression ':' value_range_expression ')' '''
print('parameter_value_range_4', list(p))
- # { $$ = pform_parameter_value_range($1, true, $3, true, $5); }
+ # { p[0] = pform_parameter_value_range(p[1], true, p[3], true, p[5]); }
()
def p_parameter_value_range_5(p):
'''parameter_value_range : K_exclude expression '''
print('parameter_value_range_5', list(p))
- # { $$ = pform_parameter_value_range(true, false, $2, false, $2); }
+ # { p[0] = pform_parameter_value_range(true, false, p[2], false, p[2]); }
()
def p_value_range_expression_1(p):
'''value_range_expression : expression '''
'''parameter_value_opt : '#' '(' expression_list_with_nuls ')' '''
print('parameter_value_opt_1', list(p))
# { struct parmvalue_t*tmp = new struct parmvalue_t;
- # tmp->by_order = $3;
+ # tmp->by_order = p[3];
# tmp->by_name = 0;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_parameter_value_opt_2(p):
print('parameter_value_opt_2', list(p))
# { struct parmvalue_t*tmp = new struct parmvalue_t;
# tmp->by_order = 0;
- # tmp->by_name = $3;
- # $$ = tmp;
+ # tmp->by_name = p[3];
+ # p[0] = tmp;
# }
()
def p_parameter_value_opt_3(p):
'''parameter_value_opt : '#' DEC_NUMBER '''
print('parameter_value_opt_3', list(p))
- # { assert($2);
- # PENumber*tmp = new PENumber($2);
+ # { assert(p[2]);
+ # PENumber*tmp = new PENumber(p[2]);
# FILE_NAME(tmp, @1);
#
# struct parmvalue_t*lst = new struct parmvalue_t;
# lst->by_order = new list<PExpr*>;
# lst->by_order->push_back(tmp);
# lst->by_name = 0;
- # $$ = lst;
+ # p[0] = lst;
# based_size = 0;
# }
()
def p_parameter_value_opt_4(p):
'''parameter_value_opt : '#' REALTIME '''
print('parameter_value_opt_4', list(p))
- # { assert($2);
- # PEFNumber*tmp = new PEFNumber($2);
+ # { assert(p[2]);
+ # PEFNumber*tmp = new PEFNumber(p[2]);
# FILE_NAME(tmp, @1);
#
# struct parmvalue_t*lst = new struct parmvalue_t;
# lst->by_order = new list<PExpr*>;
# lst->by_order->push_back(tmp);
# lst->by_name = 0;
- # $$ = lst;
+ # p[0] = lst;
# }
()
def p_parameter_value_opt_5(p):
'''parameter_value_byname : '.' IDENTIFIER '(' expression ')' '''
print('parameter_value_byname_1', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
- # tmp->parm = $4;
- # delete[]$2;
- # $$ = tmp;
+ # tmp->name = lex_strings.make(p[2]);
+ # tmp->parm = p[4];
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_parameter_value_byname_2(p):
'''parameter_value_byname : '.' IDENTIFIER '(' ')' '''
print('parameter_value_byname_2', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
+ # tmp->name = lex_strings.make(p[2]);
# tmp->parm = 0;
- # delete[]$2;
- # $$ = tmp;
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_parameter_value_byname_list_1(p):
'''parameter_value_byname_list : parameter_value_byname '''
print('parameter_value_byname_list_1', list(p))
# { list<named_pexpr_t>*tmp = new list<named_pexpr_t>;
- # tmp->push_back(*$1);
- # delete $1;
- # $$ = tmp;
+ # tmp->push_back(*p[1]);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_parameter_value_byname_list_2(p):
'''parameter_value_byname_list : parameter_value_byname_list ',' parameter_value_byname '''
print('parameter_value_byname_list_2', list(p))
- # { list<named_pexpr_t>*tmp = $1;
- # tmp->push_back(*$3);
- # delete $3;
- # $$ = tmp;
+ # { list<named_pexpr_t>*tmp = p[1];
+ # tmp->push_back(*p[3]);
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_port_1(p):
def p_port_2(p):
'''port : '.' IDENTIFIER '(' port_reference ')' '''
print('port_2', list(p))
- # { Module::port_t*tmp = $4;
- # tmp->name = lex_strings.make($2);
- # delete[]$2;
- # $$ = tmp;
+ # { Module::port_t*tmp = p[4];
+ # tmp->name = lex_strings.make(p[2]);
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_3(p):
'''port : '{' port_reference_list '}' '''
print('port_3', list(p))
- # { Module::port_t*tmp = $2;
+ # { Module::port_t*tmp = p[2];
# tmp->name = perm_string();
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_port_4(p):
'''port : '.' IDENTIFIER '(' '{' port_reference_list '}' ')' '''
print('port_4', list(p))
- # { Module::port_t*tmp = $5;
- # tmp->name = lex_strings.make($2);
- # delete[]$2;
- # $$ = tmp;
+ # { Module::port_t*tmp = p[5];
+ # tmp->name = lex_strings.make(p[2]);
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_opt_1(p):
'''port_name : '.' IDENTIFIER '(' expression ')' '''
print('port_name_1', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
- # tmp->parm = $4;
- # delete[]$2;
- # $$ = tmp;
+ # tmp->name = lex_strings.make(p[2]);
+ # tmp->parm = p[4];
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_name_2(p):
print('port_name_2', list(p))
# { yyerror(@3, "error: invalid port connection expression.");
# named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
+ # tmp->name = lex_strings.make(p[2]);
# tmp->parm = 0;
- # delete[]$2;
- # $$ = tmp;
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_name_3(p):
'''port_name : '.' IDENTIFIER '(' ')' '''
print('port_name_3', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
+ # tmp->name = lex_strings.make(p[2]);
# tmp->parm = 0;
- # delete[]$2;
- # $$ = tmp;
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_name_4(p):
'''port_name : '.' IDENTIFIER '''
print('port_name_4', list(p))
# { named_pexpr_t*tmp = new named_pexpr_t;
- # tmp->name = lex_strings.make($2);
- # tmp->parm = new PEIdent(lex_strings.make($2), true);
+ # tmp->name = lex_strings.make(p[2]);
+ # tmp->parm = new PEIdent(lex_strings.make(p[2]), true);
# FILE_NAME(tmp->parm, @1);
- # delete[]$2;
- # $$ = tmp;
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_port_name_5(p):
# { named_pexpr_t*tmp = new named_pexpr_t;
# tmp->name = lex_strings.make("*");
# tmp->parm = 0;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_port_name_list_1(p):
'''port_name_list : port_name_list ',' port_name '''
print('port_name_list_1', list(p))
- # { list<named_pexpr_t>*tmp = $1;
- # tmp->push_back(*$3);
- # delete $3;
- # $$ = tmp;
+ # { list<named_pexpr_t>*tmp = p[1];
+ # tmp->push_back(*p[3]);
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_port_name_list_2(p):
'''port_name_list : port_name '''
print('port_name_list_2', list(p))
# { list<named_pexpr_t>*tmp = new list<named_pexpr_t>;
- # tmp->push_back(*$1);
- # delete $1;
- # $$ = tmp;
+ # tmp->push_back(*p[1]);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_port_reference_1(p):
'''port_reference : IDENTIFIER '''
print('port_reference_1', list(p))
# { Module::port_t*ptmp;
- # perm_string name = lex_strings.make($1);
+ # perm_string name = lex_strings.make(p[1]);
# ptmp = pform_module_port_reference(name, @1.text, @1.first_line);
- # delete[]$1;
- # $$ = ptmp;
+ # delete[]p[1];
+ # p[0] = ptmp;
# }
()
def p_port_reference_2(p):
print('port_reference_2', list(p))
# { index_component_t itmp;
# itmp.sel = index_component_t::SEL_PART;
- # itmp.msb = $3;
- # itmp.lsb = $5;
+ # itmp.msb = p[3];
+ # itmp.lsb = p[5];
#
- # name_component_t ntmp (lex_strings.make($1));
+ # name_component_t ntmp (lex_strings.make(p[1]));
# ntmp.index.push_back(itmp);
#
# pform_name_t pname;
# ptmp->name = perm_string();
# ptmp->expr.push_back(wtmp);
#
- # delete[]$1;
- # $$ = ptmp;
+ # delete[]p[1];
+ # p[0] = ptmp;
# }
()
def p_port_reference_3(p):
print('port_reference_3', list(p))
# { index_component_t itmp;
# itmp.sel = index_component_t::SEL_BIT;
- # itmp.msb = $3;
+ # itmp.msb = p[3];
# itmp.lsb = 0;
#
- # name_component_t ntmp (lex_strings.make($1));
+ # name_component_t ntmp (lex_strings.make(p[1]));
# ntmp.index.push_back(itmp);
#
# pform_name_t pname;
# Module::port_t*ptmp = new Module::port_t;
# ptmp->name = perm_string();
# ptmp->expr.push_back(tmp);
- # delete[]$1;
- # $$ = ptmp;
+ # delete[]p[1];
+ # p[0] = ptmp;
# }
()
def p_port_reference_4(p):
print('port_reference_4', list(p))
# { yyerror(@1, "error: invalid port bit select");
# Module::port_t*ptmp = new Module::port_t;
- # PEIdent*wtmp = new PEIdent(lex_strings.make($1));
+ # PEIdent*wtmp = new PEIdent(lex_strings.make(p[1]));
# FILE_NAME(wtmp, @1);
- # ptmp->name = lex_strings.make($1);
+ # ptmp->name = lex_strings.make(p[1]);
# ptmp->expr.push_back(wtmp);
- # delete[]$1;
- # $$ = ptmp;
+ # delete[]p[1];
+ # p[0] = ptmp;
# }
()
def p_port_reference_list_1(p):
def p_port_reference_list_2(p):
'''port_reference_list : port_reference_list ',' port_reference '''
print('port_reference_list_2', list(p))
- # { Module::port_t*tmp = $1;
- # append(tmp->expr, $3->expr);
- # delete $3;
- # $$ = tmp;
+ # { Module::port_t*tmp = p[1];
+ # append(tmp->expr, p[3]->expr);
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_dimensions_opt_1(p):
def p_dimensions_2(p):
'''dimensions : dimensions variable_dimension '''
print('dimensions_2', list(p))
- # { list<pform_range_t> *tmp = $1;
- # if ($2) {
- # tmp->splice(tmp->end(), *$2);
- # delete $2;
+ # { list<pform_range_t> *tmp = p[1];
+ # if (p[2]) {
+ # tmp->splice(tmp->end(), *p[2]);
+ # delete p[2];
# }
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_register_variable_1(p):
'''register_variable : IDENTIFIER dimensions_opt '''
print('register_variable_1', list(p))
- # { perm_string name = lex_strings.make($1);
+ # { perm_string name = lex_strings.make(p[1]);
# pform_makewire(@1, name, NetNet::REG,
# NetNet::NOT_A_PORT, IVL_VT_NO_TYPE, 0);
- # pform_set_reg_idx(name, $2);
- # $$ = $1;
+ # pform_set_reg_idx(name, p[2]);
+ # p[0] = p[1];
# }
()
def p_register_variable_2(p):
# "explicit lifetime in this context." << endl;
# warn_count += 1;
# }
- # perm_string name = lex_strings.make($1);
+ # perm_string name = lex_strings.make(p[1]);
# pform_makewire(@1, name, NetNet::REG,
# NetNet::NOT_A_PORT, IVL_VT_NO_TYPE, 0);
- # pform_set_reg_idx(name, $2);
- # pform_make_var_init(@1, name, $4);
- # $$ = $1;
+ # pform_set_reg_idx(name, p[2]);
+ # pform_make_var_init(@1, name, p[4]);
+ # p[0] = p[1];
# }
()
def p_register_variable_list_1(p):
'''register_variable_list : register_variable '''
print('register_variable_list_1', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # $$ = tmp;
- # delete[]$1;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_register_variable_list_2(p):
'''register_variable_list : register_variable_list ',' register_variable '''
print('register_variable_list_2', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # $$ = tmp;
- # delete[]$3;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_net_variable_1(p):
'''net_variable : IDENTIFIER dimensions_opt '''
print('net_variable_1', list(p))
- # { perm_string name = lex_strings.make($1);
+ # { perm_string name = lex_strings.make(p[1]);
# pform_makewire(@1, name, NetNet::IMPLICIT,
# NetNet::NOT_A_PORT, IVL_VT_NO_TYPE, 0);
- # pform_set_reg_idx(name, $2);
- # $$ = $1;
+ # pform_set_reg_idx(name, p[2]);
+ # p[0] = p[1];
# }
()
def p_net_variable_list_1(p):
'''net_variable_list : net_variable '''
print('net_variable_list_1', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # $$ = tmp;
- # delete[]$1;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_net_variable_list_2(p):
'''net_variable_list : net_variable_list ',' net_variable '''
print('net_variable_list_2', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # $$ = tmp;
- # delete[]$3;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_event_variable_1(p):
'''event_variable : IDENTIFIER dimensions_opt '''
print('event_variable_1', list(p))
- # { if ($2) {
+ # { if (p[2]) {
# yyerror(@2, "sorry: event arrays are not supported.");
- # delete $2;
+ # delete p[2];
# }
- # $$ = $1;
+ # p[0] = p[1];
# }
()
def p_event_variable_list_1(p):
'''event_variable_list : event_variable '''
print('event_variable_list_1', list(p))
- # { $$ = list_from_identifier($1); }
+ # { p[0] = list_from_identifier(p[1]); }
()
def p_event_variable_list_2(p):
'''event_variable_list : event_variable_list ',' event_variable '''
print('event_variable_list_2', list(p))
- # { $$ = list_from_identifier($1, $3); }
+ # { p[0] = list_from_identifier(p[1], p[3]); }
()
def p_specify_item_1(p):
'''specify_item : K_specparam specparam_decl ';' '''
def p_specify_item_2(p):
'''specify_item : specify_simple_path_decl ';' '''
print('specify_item_2', list(p))
- # { pform_module_specify_path($1);
+ # { pform_module_specify_path(p[1]);
# }
()
def p_specify_item_3(p):
'''specify_item : specify_edge_path_decl ';' '''
print('specify_item_3', list(p))
- # { pform_module_specify_path($1);
+ # { pform_module_specify_path(p[1]);
# }
()
def p_specify_item_4(p):
'''specify_item : K_if '(' expression ')' specify_simple_path_decl ';' '''
print('specify_item_4', list(p))
- # { PSpecPath*tmp = $5;
+ # { PSpecPath*tmp = p[5];
# if (tmp) {
# tmp->conditional = true;
- # tmp->condition = $3;
+ # tmp->condition = p[3];
# }
# pform_module_specify_path(tmp);
# }
def p_specify_item_5(p):
'''specify_item : K_if '(' expression ')' specify_edge_path_decl ';' '''
print('specify_item_5', list(p))
- # { PSpecPath*tmp = $5;
+ # { PSpecPath*tmp = p[5];
# if (tmp) {
# tmp->conditional = true;
- # tmp->condition = $3;
+ # tmp->condition = p[3];
# }
# pform_module_specify_path(tmp);
# }
def p_specify_item_6(p):
'''specify_item : K_ifnone specify_simple_path_decl ';' '''
print('specify_item_6', list(p))
- # { PSpecPath*tmp = $2;
+ # { PSpecPath*tmp = p[2];
# if (tmp) {
# tmp->conditional = true;
# tmp->condition = 0;
def p_specify_item_8(p):
'''specify_item : K_Sfullskew '(' spec_reference_event ',' spec_reference_event ',' delay_value ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_8', list(p))
- # { delete $7;
- # delete $9;
+ # { delete p[7];
+ # delete p[9];
# }
()
def p_specify_item_9(p):
'''specify_item : K_Shold '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_9', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_10(p):
'''specify_item : K_Snochange '(' spec_reference_event ',' spec_reference_event ',' delay_value ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_10', list(p))
- # { delete $7;
- # delete $9;
+ # { delete p[7];
+ # delete p[9];
# }
()
def p_specify_item_11(p):
'''specify_item : K_Speriod '(' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_11', list(p))
- # { delete $5;
+ # { delete p[5];
# }
()
def p_specify_item_12(p):
'''specify_item : K_Srecovery '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_12', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_13(p):
'''specify_item : K_Srecrem '(' spec_reference_event ',' spec_reference_event ',' delay_value ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_13', list(p))
- # { delete $7;
- # delete $9;
+ # { delete p[7];
+ # delete p[9];
# }
()
def p_specify_item_14(p):
'''specify_item : K_Sremoval '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_14', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_15(p):
'''specify_item : K_Ssetup '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_15', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_16(p):
'''specify_item : K_Ssetuphold '(' spec_reference_event ',' spec_reference_event ',' delay_value ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_16', list(p))
- # { delete $7;
- # delete $9;
+ # { delete p[7];
+ # delete p[9];
# }
()
def p_specify_item_17(p):
'''specify_item : K_Sskew '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_17', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_18(p):
'''specify_item : K_Stimeskew '(' spec_reference_event ',' spec_reference_event ',' delay_value spec_notifier_opt ')' ';' '''
print('specify_item_18', list(p))
- # { delete $7;
+ # { delete p[7];
# }
()
def p_specify_item_19(p):
'''specify_item : K_Swidth '(' spec_reference_event ',' delay_value ',' expression spec_notifier_opt ')' ';' '''
print('specify_item_19', list(p))
- # { delete $5;
- # delete $7;
+ # { delete p[5];
+ # delete p[7];
# }
()
def p_specify_item_20(p):
'''specify_item : K_Swidth '(' spec_reference_event ',' delay_value ')' ';' '''
print('specify_item_20', list(p))
- # { delete $5;
+ # { delete p[5];
# }
()
def p_specify_item_21(p):
'''specify_item : K_pulsestyle_onevent specify_path_identifiers ';' '''
print('specify_item_21', list(p))
- # { delete $2;
+ # { delete p[2];
# }
()
def p_specify_item_22(p):
'''specify_item : K_pulsestyle_ondetect specify_path_identifiers ';' '''
print('specify_item_22', list(p))
- # { delete $2;
+ # { delete p[2];
# }
()
def p_specify_item_23(p):
'''specify_item : K_showcancelled specify_path_identifiers ';' '''
print('specify_item_23', list(p))
- # { delete $2;
+ # { delete p[2];
# }
()
def p_specify_item_24(p):
'''specify_item : K_noshowcancelled specify_path_identifiers ';' '''
print('specify_item_24', list(p))
- # { delete $2;
+ # { delete p[2];
# }
()
def p_specify_item_list_1(p):
def p_specify_edge_path_decl_1(p):
'''specify_edge_path_decl : specify_edge_path '=' '(' delay_value_list ')' '''
print('specify_edge_path_decl_1', list(p))
- # { $$ = pform_assign_path_delay($1, $4); }
+ # { p[0] = pform_assign_path_delay(p[1], p[4]); }
()
def p_specify_edge_path_decl_2(p):
'''specify_edge_path_decl : specify_edge_path '=' delay_value_simple '''
print('specify_edge_path_decl_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # $$ = pform_assign_path_delay($1, tmp);
+ # tmp->push_back(p[3]);
+ # p[0] = pform_assign_path_delay(p[1], tmp);
# }
()
def p_edge_operator_1(p):
'''specify_edge_path : '(' specify_path_identifiers spec_polarity K_EG '(' specify_path_identifiers polarity_operator expression ')' ')' '''
print('specify_edge_path_1', list(p))
# { int edge_flag = 0;
- # $$ = pform_make_specify_edge_path(@1, edge_flag, $2, $3, false, $6, $8); }
+ # p[0] = pform_make_specify_edge_path(@1, edge_flag, p[2], p[3], false, p[6], p[8]); }
()
def p_specify_edge_path_2(p):
'''specify_edge_path : '(' edge_operator specify_path_identifiers spec_polarity K_EG '(' specify_path_identifiers polarity_operator expression ')' ')' '''
print('specify_edge_path_2', list(p))
- # { int edge_flag = $2? 1 : -1;
- # $$ = pform_make_specify_edge_path(@1, edge_flag, $3, $4, false, $7, $9);}
+ # { int edge_flag = p[2]? 1 : -1;
+ # p[0] = pform_make_specify_edge_path(@1, edge_flag, p[3], p[4], false, p[7], p[9]);}
()
def p_specify_edge_path_3(p):
'''specify_edge_path : '(' specify_path_identifiers spec_polarity K_SG '(' specify_path_identifiers polarity_operator expression ')' ')' '''
print('specify_edge_path_3', list(p))
# { int edge_flag = 0;
- # $$ = pform_make_specify_edge_path(@1, edge_flag, $2, $3, true, $6, $8); }
+ # p[0] = pform_make_specify_edge_path(@1, edge_flag, p[2], p[3], true, p[6], p[8]); }
()
def p_specify_edge_path_4(p):
'''specify_edge_path : '(' edge_operator specify_path_identifiers spec_polarity K_SG '(' specify_path_identifiers polarity_operator expression ')' ')' '''
print('specify_edge_path_4', list(p))
- # { int edge_flag = $2? 1 : -1;
- # $$ = pform_make_specify_edge_path(@1, edge_flag, $3, $4, true, $7, $9); }
+ # { int edge_flag = p[2]? 1 : -1;
+ # p[0] = pform_make_specify_edge_path(@1, edge_flag, p[3], p[4], true, p[7], p[9]); }
()
def p_polarity_operator_1(p):
'''polarity_operator : K_PO_POS '''
def p_specify_simple_path_decl_1(p):
'''specify_simple_path_decl : specify_simple_path '=' '(' delay_value_list ')' '''
print('specify_simple_path_decl_1', list(p))
- # { $$ = pform_assign_path_delay($1, $4); }
+ # { p[0] = pform_assign_path_delay(p[1], p[4]); }
()
def p_specify_simple_path_decl_2(p):
'''specify_simple_path_decl : specify_simple_path '=' delay_value_simple '''
print('specify_simple_path_decl_2', list(p))
# { list<PExpr*>*tmp = new list<PExpr*>;
- # tmp->push_back($3);
- # $$ = pform_assign_path_delay($1, tmp);
+ # tmp->push_back(p[3]);
+ # p[0] = pform_assign_path_delay(p[1], tmp);
# }
()
def p_specify_simple_path_decl_3(p):
def p_specify_simple_path_1(p):
'''specify_simple_path : '(' specify_path_identifiers spec_polarity K_EG specify_path_identifiers ')' '''
print('specify_simple_path_1', list(p))
- # { $$ = pform_make_specify_path(@1, $2, $3, false, $5); }
+ # { p[0] = pform_make_specify_path(@1, p[2], p[3], false, p[5]); }
()
def p_specify_simple_path_2(p):
'''specify_simple_path : '(' specify_path_identifiers spec_polarity K_SG specify_path_identifiers ')' '''
print('specify_simple_path_2', list(p))
- # { $$ = pform_make_specify_path(@1, $2, $3, true, $5); }
+ # { p[0] = pform_make_specify_path(@1, p[2], p[3], true, p[5]); }
()
def p_specify_simple_path_3(p):
'''specify_simple_path : '(' error ')' '''
'''specify_path_identifiers : IDENTIFIER '''
print('specify_path_identifiers_1', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # $$ = tmp;
- # delete[]$1;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_specify_path_identifiers_2(p):
# "will be applied to the whole vector.");
# }
# list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # $$ = tmp;
- # delete[]$1;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_specify_path_identifiers_3(p):
# "will be applied to the whole vector.");
# }
# list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # $$ = tmp;
- # delete[]$1;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # p[0] = tmp;
+ # delete[]p[1];
# }
()
def p_specify_path_identifiers_4(p):
'''specify_path_identifiers : specify_path_identifiers ',' IDENTIFIER '''
print('specify_path_identifiers_4', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # $$ = tmp;
- # delete[]$3;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_specify_path_identifiers_5(p):
# "in path declarations. The declaration "
# "will be applied to the whole vector.");
# }
- # list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # $$ = tmp;
- # delete[]$3;
+ # list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_specify_path_identifiers_6(p):
# "in path declarations. The declaration "
# "will be applied to the whole vector.");
# }
- # list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # $$ = tmp;
- # delete[]$3;
+ # list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_specparam_1(p):
'''specparam : IDENTIFIER '=' expression '''
print('specparam_1', list(p))
- # { PExpr*tmp = $3;
- # pform_set_specparam(@1, lex_strings.make($1),
+ # { PExpr*tmp = p[3];
+ # pform_set_specparam(@1, lex_strings.make(p[1]),
# param_active_range, tmp);
- # delete[]$1;
+ # delete[]p[1];
# }
()
def p_specparam_2(p):
# { PExpr*tmp = 0;
# switch (min_typ_max_flag) {
# case MIN:
- # tmp = $3;
- # delete $5;
- # delete $7;
+ # tmp = p[3];
+ # delete p[5];
+ # delete p[7];
# break;
# case TYP:
- # delete $3;
- # tmp = $5;
- # delete $7;
+ # delete p[3];
+ # tmp = p[5];
+ # delete p[7];
# break;
# case MAX:
- # delete $3;
- # delete $5;
- # tmp = $7;
+ # delete p[3];
+ # delete p[5];
+ # tmp = p[7];
# break;
# }
# if (min_typ_max_warn > 0) {
# cerr << " expression." << endl;
# min_typ_max_warn -= 1;
# }
- # pform_set_specparam(@1, lex_strings.make($1),
+ # pform_set_specparam(@1, lex_strings.make(p[1]),
# param_active_range, tmp);
- # delete[]$1;
+ # delete[]p[1];
# }
()
def p_specparam_3(p):
'''specparam : PATHPULSE_IDENTIFIER '=' expression '''
print('specparam_3', list(p))
- # { delete[]$1;
- # delete $3;
+ # { delete[]p[1];
+ # delete p[3];
# }
()
def p_specparam_4(p):
'''specparam : PATHPULSE_IDENTIFIER '=' '(' expression ',' expression ')' '''
print('specparam_4', list(p))
- # { delete[]$1;
- # delete $4;
- # delete $6;
+ # { delete[]p[1];
+ # delete p[4];
+ # delete p[6];
# }
()
def p_specparam_list_1(p):
()
def p__embed0_specparam_decl(p):
'''_embed0_specparam_decl : '''
- # { param_active_range = $1; }
+ # { param_active_range = p[1]; }
()
def p_spec_polarity_1(p):
'''spec_polarity : '+' '''
print('spec_polarity_1', list(p))
- # { $$ = '+'; }
+ # { p[0] = '+'; }
()
def p_spec_polarity_2(p):
'''spec_polarity : '-' '''
print('spec_polarity_2', list(p))
- # { $$ = '-'; }
+ # { p[0] = '-'; }
()
def p_spec_polarity_3(p):
'''spec_polarity : '''
def p_spec_reference_event_1(p):
'''spec_reference_event : K_posedge expression '''
print('spec_reference_event_1', list(p))
- # { delete $2; }
+ # { delete p[2]; }
()
def p_spec_reference_event_2(p):
'''spec_reference_event : K_negedge expression '''
print('spec_reference_event_2', list(p))
- # { delete $2; }
+ # { delete p[2]; }
()
def p_spec_reference_event_3(p):
'''spec_reference_event : K_posedge expr_primary K_TAND expression '''
print('spec_reference_event_3', list(p))
- # { delete $2;
- # delete $4;
+ # { delete p[2];
+ # delete p[4];
# }
()
def p_spec_reference_event_4(p):
'''spec_reference_event : K_negedge expr_primary K_TAND expression '''
print('spec_reference_event_4', list(p))
- # { delete $2;
- # delete $4;
+ # { delete p[2];
+ # delete p[4];
# }
()
def p_spec_reference_event_5(p):
'''spec_reference_event : K_edge '[' edge_descriptor_list ']' expr_primary '''
print('spec_reference_event_5', list(p))
- # { delete $5; }
+ # { delete p[5]; }
()
def p_spec_reference_event_6(p):
'''spec_reference_event : K_edge '[' edge_descriptor_list ']' expr_primary K_TAND expression '''
print('spec_reference_event_6', list(p))
- # { delete $5;
- # delete $7;
+ # { delete p[5];
+ # delete p[7];
# }
()
def p_spec_reference_event_7(p):
'''spec_reference_event : expr_primary K_TAND expression '''
print('spec_reference_event_7', list(p))
- # { delete $1;
- # delete $3;
+ # { delete p[1];
+ # delete p[3];
# }
()
def p_spec_reference_event_8(p):
'''spec_reference_event : expr_primary '''
print('spec_reference_event_8', list(p))
- # { delete $1; }
+ # { delete p[1]; }
()
def p_edge_descriptor_list_1(p):
'''edge_descriptor_list : edge_descriptor_list ',' K_edge_descriptor '''
def p_spec_notifier_2(p):
'''spec_notifier : ',' hierarchy_identifier '''
print('spec_notifier_2', list(p))
- # { args_after_notifier = 0; delete $2; }
+ # { args_after_notifier = 0; delete p[2]; }
()
def p_spec_notifier_3(p):
'''spec_notifier : spec_notifier ',' '''
# { args_after_notifier += 1;
# if (args_after_notifier >= 3) {
# cerr << @3 << ": warning: timing checks are not supported "
- # "and delayed signal \"" << *$3
+ # "and delayed signal \"" << *p[3]
# << "\" will not be driven." << endl;
# }
- # delete $3; }
+ # delete p[3]; }
()
def p_spec_notifier_5(p):
'''spec_notifier : IDENTIFIER '''
print('spec_notifier_5', list(p))
- # { args_after_notifier = 0; delete[]$1; }
+ # { args_after_notifier = 0; delete[]p[1]; }
()
def p_statement_item_1(p):
'''statement_item : K_assign lpvalue '=' expression ';' '''
print('statement_item_1', list(p))
- # { PCAssign*tmp = new PCAssign($2, $4);
+ # { PCAssign*tmp = new PCAssign(p[2], p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_2(p):
'''statement_item : K_deassign lpvalue ';' '''
print('statement_item_2', list(p))
- # { PDeassign*tmp = new PDeassign($2);
+ # { PDeassign*tmp = new PDeassign(p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_3(p):
'''statement_item : K_force lpvalue '=' expression ';' '''
print('statement_item_3', list(p))
- # { PForce*tmp = new PForce($2, $4);
+ # { PForce*tmp = new PForce(p[2], p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_4(p):
'''statement_item : K_release lpvalue ';' '''
print('statement_item_4', list(p))
- # { PRelease*tmp = new PRelease($2);
+ # { PRelease*tmp = new PRelease(p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_5(p):
print('statement_item_5', list(p))
# { PBlock*tmp = new PBlock(PBlock::BL_SEQ);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_6(p):
'''statement_item : K_begin _embed0_statement_item block_item_decls_opt _embed1_statement_item statement_or_null_list K_end '''
print('statement_item_6', list(p))
# { PBlock*tmp;
- # if ($3) {
+ # if (p[3]) {
# pform_pop_scope();
# assert(! current_block_stack.empty());
# tmp = current_block_stack.top();
# tmp = new PBlock(PBlock::BL_SEQ);
# FILE_NAME(tmp, @1);
# }
- # if ($5) tmp->set_statement(*$5);
- # delete $5;
- # $$ = tmp;
+ # if (p[5]) tmp->set_statement(*p[5]);
+ # delete p[5];
+ # p[0] = tmp;
# }
()
def p_statement_item_7(p):
# assert(! current_block_stack.empty());
# PBlock*tmp = current_block_stack.top();
# current_block_stack.pop();
- # if ($6) tmp->set_statement(*$6);
- # delete $6;
- # if ($8) {
- # if (strcmp($3,$8) != 0) {
+ # if (p[6]) tmp->set_statement(*p[6]);
+ # delete p[6];
+ # if (p[8]) {
+ # if (strcmp(p[3],p[8]) != 0) {
# yyerror(@8, "error: End label doesn't match begin name");
# }
# if (! gn_system_verilog()) {
# yyerror(@8, "error: Begin end labels require "
# "SystemVerilog.");
# }
- # delete[]$8;
+ # delete[]p[8];
# }
- # delete[]$3;
- # $$ = tmp;
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_statement_item_8(p):
'''statement_item : K_fork join_keyword '''
print('statement_item_8', list(p))
- # { PBlock*tmp = new PBlock($2);
+ # { PBlock*tmp = new PBlock(p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_9(p):
'''statement_item : K_fork _embed3_statement_item block_item_decls_opt _embed4_statement_item statement_or_null_list join_keyword '''
print('statement_item_9', list(p))
# { PBlock*tmp;
- # if ($3) {
+ # if (p[3]) {
# pform_pop_scope();
# assert(! current_block_stack.empty());
# tmp = current_block_stack.top();
# current_block_stack.pop();
- # tmp->set_join_type($6);
+ # tmp->set_join_type(p[6]);
# } else {
- # tmp = new PBlock($6);
+ # tmp = new PBlock(p[6]);
# FILE_NAME(tmp, @1);
# }
- # if ($5) tmp->set_statement(*$5);
- # delete $5;
- # $$ = tmp;
+ # if (p[5]) tmp->set_statement(*p[5]);
+ # delete p[5];
+ # p[0] = tmp;
# }
()
def p_statement_item_10(p):
# assert(! current_block_stack.empty());
# PBlock*tmp = current_block_stack.top();
# current_block_stack.pop();
- # tmp->set_join_type($7);
- # if ($6) tmp->set_statement(*$6);
- # delete $6;
- # if ($8) {
- # if (strcmp($3,$8) != 0) {
+ # tmp->set_join_type(p[7]);
+ # if (p[6]) tmp->set_statement(*p[6]);
+ # delete p[6];
+ # if (p[8]) {
+ # if (strcmp(p[3],p[8]) != 0) {
# yyerror(@8, "error: End label doesn't match fork name");
# }
# if (! gn_system_verilog()) {
# yyerror(@8, "error: Fork end labels require "
# "SystemVerilog.");
# }
- # delete[]$8;
+ # delete[]p[8];
# }
- # delete[]$3;
- # $$ = tmp;
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_statement_item_11(p):
'''statement_item : K_disable hierarchy_identifier ';' '''
print('statement_item_11', list(p))
- # { PDisable*tmp = new PDisable(*$2);
+ # { PDisable*tmp = new PDisable(*p[2]);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_statement_item_12(p):
# { pform_name_t tmp_name;
# PDisable*tmp = new PDisable(tmp_name);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_13(p):
'''statement_item : K_TRIGGER hierarchy_identifier ';' '''
print('statement_item_13', list(p))
- # { PTrigger*tmp = new PTrigger(*$2);
+ # { PTrigger*tmp = new PTrigger(*p[2]);
# FILE_NAME(tmp, @1);
- # delete $2;
- # $$ = tmp;
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_statement_item_14(p):
def p_statement_item_17(p):
'''statement_item : K_case '(' expression ')' case_items K_endcase '''
print('statement_item_17', list(p))
- # { PCase*tmp = new PCase(NetCase::EQ, $3, $5);
+ # { PCase*tmp = new PCase(NetCase::EQ, p[3], p[5]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_18(p):
'''statement_item : K_casex '(' expression ')' case_items K_endcase '''
print('statement_item_18', list(p))
- # { PCase*tmp = new PCase(NetCase::EQX, $3, $5);
+ # { PCase*tmp = new PCase(NetCase::EQX, p[3], p[5]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_19(p):
'''statement_item : K_casez '(' expression ')' case_items K_endcase '''
print('statement_item_19', list(p))
- # { PCase*tmp = new PCase(NetCase::EQZ, $3, $5);
+ # { PCase*tmp = new PCase(NetCase::EQZ, p[3], p[5]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_20(p):
def p_statement_item_23(p):
'''statement_item : K_if '(' expression ')' statement_or_null %prec less_than_K_else '''
print('statement_item_23', list(p))
- # { PCondit*tmp = new PCondit($3, $5, 0);
+ # { PCondit*tmp = new PCondit(p[3], p[5], 0);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_24(p):
'''statement_item : K_if '(' expression ')' statement_or_null K_else statement_or_null '''
print('statement_item_24', list(p))
- # { PCondit*tmp = new PCondit($3, $5, $7);
+ # { PCondit*tmp = new PCondit(p[3], p[5], p[7]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_25(p):
'''statement_item : K_if '(' error ')' statement_or_null %prec less_than_K_else '''
print('statement_item_25', list(p))
# { yyerror(@1, "error: Malformed conditional expression.");
- # $$ = $5;
+ # p[0] = p[5];
# }
()
def p_statement_item_26(p):
'''statement_item : K_if '(' error ')' statement_or_null K_else statement_or_null '''
print('statement_item_26', list(p))
# { yyerror(@1, "error: Malformed conditional expression.");
- # $$ = $5;
+ # p[0] = p[5];
# }
()
def p_statement_item_27(p):
def p_statement_item_28(p):
'''statement_item : inc_or_dec_expression ';' '''
print('statement_item_28', list(p))
- # { $$ = pform_compressed_assign_from_inc_dec(@1, $1); }
+ # { p[0] = pform_compressed_assign_from_inc_dec(@1, p[1]); }
()
def p_statement_item_29(p):
'''statement_item : delay1 statement_or_null '''
print('statement_item_29', list(p))
- # { PExpr*del = $1->front();
- # assert($1->size() == 1);
- # delete $1;
- # PDelayStatement*tmp = new PDelayStatement(del, $2);
+ # { PExpr*del = p[1]->front();
+ # assert(p[1]->size() == 1);
+ # delete p[1];
+ # PDelayStatement*tmp = new PDelayStatement(del, p[2]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_30(p):
'''statement_item : event_control statement_or_null '''
print('statement_item_30', list(p))
- # { PEventStatement*tmp = $1;
+ # { PEventStatement*tmp = p[1];
# if (tmp == 0) {
# yyerror(@1, "error: Invalid event control.");
# p[0] = None
# } else {
- # tmp->set_statement($2);
- # $$ = tmp;
+ # tmp->set_statement(p[2]);
+ # p[0] = tmp;
# }
# }
()
print('statement_item_31', list(p))
# { PEventStatement*tmp = new PEventStatement;
# FILE_NAME(tmp, @1);
- # tmp->set_statement($3);
- # $$ = tmp;
+ # tmp->set_statement(p[3]);
+ # p[0] = tmp;
# }
()
def p_statement_item_32(p):
print('statement_item_32', list(p))
# { PEventStatement*tmp = new PEventStatement;
# FILE_NAME(tmp, @1);
- # tmp->set_statement($5);
- # $$ = tmp;
+ # tmp->set_statement(p[5]);
+ # p[0] = tmp;
# }
()
def p_statement_item_33(p):
print ("expr", repr(expr))
print ("expr (python):'%s'" % expr)
p[0] = expr
- # { PAssign*tmp = new PAssign($1,$3);
+ # { PAssign*tmp = new PAssign(p[1],p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_34(p):
print('statement_item_34', list(p))
# { yyerror(@2, "Syntax in assignment statement l-value.");
# yyerrok;
- # $$ = new PNoop;
+ # p[0] = new PNoop;
# }
()
def p_statement_item_35(p):
'''statement_item : lpvalue K_LE expression ';' '''
print('statement_item_35', list(p))
- # { PAssignNB*tmp = new PAssignNB($1,$3);
+ # { PAssignNB*tmp = new PAssignNB(p[1],p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_36(p):
print('statement_item_36', list(p))
# { yyerror(@2, "Syntax in assignment statement l-value.");
# yyerrok;
- # $$ = new PNoop;
+ # p[0] = new PNoop;
# }
()
def p_statement_item_37(p):
'''statement_item : lpvalue '=' delay1 expression ';' '''
print('statement_item_37', list(p))
- # { PExpr*del = $3->front(); $3->pop_front();
- # assert($3->empty());
- # PAssign*tmp = new PAssign($1,del,$4);
+ # { PExpr*del = p[3]->front(); p[3]->pop_front();
+ # assert(p[3]->empty());
+ # PAssign*tmp = new PAssign(p[1],del,p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_38(p):
'''statement_item : lpvalue K_LE delay1 expression ';' '''
print('statement_item_38', list(p))
- # { PExpr*del = $3->front(); $3->pop_front();
- # assert($3->empty());
- # PAssignNB*tmp = new PAssignNB($1,del,$4);
+ # { PExpr*del = p[3]->front(); p[3]->pop_front();
+ # assert(p[3]->empty());
+ # PAssignNB*tmp = new PAssignNB(p[1],del,p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_39(p):
'''statement_item : lpvalue '=' event_control expression ';' '''
print('statement_item_39', list(p))
- # { PAssign*tmp = new PAssign($1,0,$3,$4);
+ # { PAssign*tmp = new PAssign(p[1],0,p[3],p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_40(p):
'''statement_item : lpvalue '=' K_repeat '(' expression ')' event_control expression ';' '''
print('statement_item_40', list(p))
- # { PAssign*tmp = new PAssign($1,$5,$7,$8);
+ # { PAssign*tmp = new PAssign(p[1],p[5],p[7],p[8]);
# FILE_NAME(tmp,@1);
# tmp->set_lineno(@1.first_line);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_41(p):
'''statement_item : lpvalue K_LE event_control expression ';' '''
print('statement_item_41', list(p))
- # { PAssignNB*tmp = new PAssignNB($1,0,$3,$4);
+ # { PAssignNB*tmp = new PAssignNB(p[1],0,p[3],p[4]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_42(p):
'''statement_item : lpvalue K_LE K_repeat '(' expression ')' event_control expression ';' '''
print('statement_item_42', list(p))
- # { PAssignNB*tmp = new PAssignNB($1,$5,$7,$8);
+ # { PAssignNB*tmp = new PAssignNB(p[1],p[5],p[7],p[8]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_43(p):
'''statement_item : lpvalue '=' dynamic_array_new ';' '''
print('statement_item_43', list(p))
- # { PAssign*tmp = new PAssign($1,$3);
+ # { PAssign*tmp = new PAssign(p[1],p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_44(p):
'''statement_item : lpvalue '=' class_new ';' '''
print('statement_item_44', list(p))
- # { PAssign*tmp = new PAssign($1,$3);
+ # { PAssign*tmp = new PAssign(p[1],p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_45(p):
'''statement_item : K_wait '(' expression ')' statement_or_null '''
print('statement_item_45', list(p))
# { PEventStatement*tmp;
- # PEEvent*etmp = new PEEvent(PEEvent::POSITIVE, $3);
+ # PEEvent*etmp = new PEEvent(PEEvent::POSITIVE, p[3]);
# tmp = new PEventStatement(etmp);
# FILE_NAME(tmp,@1);
- # tmp->set_statement($5);
- # $$ = tmp;
+ # tmp->set_statement(p[5]);
+ # p[0] = tmp;
# }
()
def p_statement_item_46(p):
print('statement_item_46', list(p))
# { PEventStatement*tmp = new PEventStatement((PEEvent*)0);
# FILE_NAME(tmp,@1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_item_47(p):
'''statement_item : SYSTEM_IDENTIFIER '(' expression_list_with_nuls ')' ';' '''
print('statement_item_47', list(p))
- # { PCallTask*tmp = new PCallTask(lex_strings.make($1), *$3);
+ # { PCallTask*tmp = new PCallTask(lex_strings.make(p[1]), *p[3]);
# FILE_NAME(tmp,@1);
- # delete[]$1;
- # delete $3;
- # $$ = tmp;
+ # delete[]p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_statement_item_48(p):
'''statement_item : SYSTEM_IDENTIFIER ';' '''
print('statement_item_48', list(p))
# { list<PExpr*>pt;
- # PCallTask*tmp = new PCallTask(lex_strings.make($1), pt);
+ # PCallTask*tmp = new PCallTask(lex_strings.make(p[1]), pt);
# FILE_NAME(tmp,@1);
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_statement_item_49(p):
'''statement_item : hierarchy_identifier '(' expression_list_with_nuls ')' ';' '''
print('statement_item_49', list(p))
- # { PCallTask*tmp = pform_make_call_task(@1, *$1, *$3);
- # delete $1;
- # delete $3;
- # $$ = tmp;
+ # { PCallTask*tmp = pform_make_call_task(@1, *p[1], *p[3]);
+ # delete p[1];
+ # delete p[3];
+ # p[0] = tmp;
# }
()
def p_statement_item_50(p):
'''statement_item : hierarchy_identifier K_with '{' constraint_block_item_list_opt '}' ';' '''
print('statement_item_50', list(p))
# { /* ....randomize with { <constraints> } */
- # if ($1 && peek_tail_name(*$1) == "randomize") {
+ # if (p[1] && peek_tail_name(*p[1]) == "randomize") {
# if (!gn_system_verilog())
# yyerror(@2, "error: Randomize with constraint requires SystemVerilog.");
# else
# yyerror(@2, "error: Constraint block can only be applied to randomize method.");
# }
# list<PExpr*>pt;
- # PCallTask*tmp = new PCallTask(*$1, pt);
+ # PCallTask*tmp = new PCallTask(*p[1], pt);
# FILE_NAME(tmp, @1);
- # delete $1;
- # $$ = tmp;
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_statement_item_51(p):
'''statement_item : implicit_class_handle '.' hierarchy_identifier '(' expression_list_with_nuls ')' ';' '''
print('statement_item_51', list(p))
- # { pform_name_t*t_name = $1;
- # while (! $3->empty()) {
- # t_name->push_back($3->front());
- # $3->pop_front();
+ # { pform_name_t*t_name = p[1];
+ # while (! p[3]->empty()) {
+ # t_name->push_back(p[3]->front());
+ # p[3]->pop_front();
# }
- # PCallTask*tmp = new PCallTask(*t_name, *$5);
+ # PCallTask*tmp = new PCallTask(*t_name, *p[5]);
# FILE_NAME(tmp, @1);
- # delete $1;
- # delete $3;
- # delete $5;
- # $$ = tmp;
+ # delete p[1];
+ # delete p[3];
+ # delete p[5];
+ # p[0] = tmp;
# }
()
def p_statement_item_52(p):
'''statement_item : hierarchy_identifier ';' '''
print('statement_item_52', list(p))
# { list<PExpr*>pt;
- # PCallTask*tmp = pform_make_call_task(@1, *$1, pt);
- # delete $1;
- # $$ = tmp;
+ # PCallTask*tmp = pform_make_call_task(@1, *p[1], pt);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_statement_item_53(p):
'''statement_item : implicit_class_handle '.' K_new '(' expression_list_with_nuls ')' ';' '''
print('statement_item_53', list(p))
- # { PChainConstructor*tmp = new PChainConstructor(*$5);
+ # { PChainConstructor*tmp = new PChainConstructor(*p[5]);
# FILE_NAME(tmp, @3);
- # delete $1;
- # $$ = tmp;
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_statement_item_54(p):
print('statement_item_54', list(p))
# { yyerror(@3, "error: Syntax error in task arguments.");
# list<PExpr*>pt;
- # PCallTask*tmp = pform_make_call_task(@1, *$1, pt);
- # delete $1;
- # $$ = tmp;
+ # PCallTask*tmp = pform_make_call_task(@1, *p[1], pt);
+ # delete p[1];
+ # p[0] = tmp;
# }
()
def p_statement_item_55(p):
print('statement_item_55', list(p))
# { yyerror(@2, "error: malformed statement");
# yyerrok;
- # $$ = new PNoop;
+ # p[0] = new PNoop;
# }
()
def p__embed0_statement_item(p):
()
def p__embed1_statement_item(p):
'''_embed1_statement_item : '''
- # { if ($3) {
+ # { if (p[3]) {
# if (! gn_system_verilog()) {
# yyerror("error: Variable declaration in unnamed block "
# "requires SystemVerilog.");
()
def p__embed2_statement_item(p):
'''_embed2_statement_item : '''
- # { PBlock*tmp = pform_push_block_scope($3, PBlock::BL_SEQ);
+ # { PBlock*tmp = pform_push_block_scope(p[3], PBlock::BL_SEQ);
# FILE_NAME(tmp, @1);
# current_block_stack.push(tmp);
# }
()
def p__embed4_statement_item(p):
'''_embed4_statement_item : '''
- # { if ($3) {
+ # { if (p[3]) {
# if (! gn_system_verilog()) {
# yyerror("error: Variable declaration in unnamed block "
# "requires SystemVerilog.");
()
def p__embed5_statement_item(p):
'''_embed5_statement_item : '''
- # { PBlock*tmp = pform_push_block_scope($3, PBlock::BL_PAR);
+ # { PBlock*tmp = pform_push_block_scope(p[3], PBlock::BL_PAR);
# FILE_NAME(tmp, @1);
# current_block_stack.push(tmp);
# }
def p_compressed_statement_1(p):
'''compressed_statement : lpvalue K_PLUS_EQ expression '''
print('compressed_statement_1', list(p))
- # { PAssign*tmp = new PAssign($1, '+', $3);
+ # { PAssign*tmp = new PAssign(p[1], '+', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_2(p):
'''compressed_statement : lpvalue K_MINUS_EQ expression '''
print('compressed_statement_2', list(p))
- # { PAssign*tmp = new PAssign($1, '-', $3);
+ # { PAssign*tmp = new PAssign(p[1], '-', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_3(p):
'''compressed_statement : lpvalue K_MUL_EQ expression '''
print('compressed_statement_3', list(p))
- # { PAssign*tmp = new PAssign($1, '*', $3);
+ # { PAssign*tmp = new PAssign(p[1], '*', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_4(p):
'''compressed_statement : lpvalue K_DIV_EQ expression '''
print('compressed_statement_4', list(p))
- # { PAssign*tmp = new PAssign($1, '/', $3);
+ # { PAssign*tmp = new PAssign(p[1], '/', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_5(p):
'''compressed_statement : lpvalue K_MOD_EQ expression '''
print('compressed_statement_5', list(p))
- # { PAssign*tmp = new PAssign($1, '%', $3);
+ # { PAssign*tmp = new PAssign(p[1], '%', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_6(p):
'''compressed_statement : lpvalue K_AND_EQ expression '''
print('compressed_statement_6', list(p))
- # { PAssign*tmp = new PAssign($1, '&', $3);
+ # { PAssign*tmp = new PAssign(p[1], '&', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_7(p):
'''compressed_statement : lpvalue K_OR_EQ expression '''
print('compressed_statement_7', list(p))
- # { PAssign*tmp = new PAssign($1, '|', $3);
+ # { PAssign*tmp = new PAssign(p[1], '|', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_8(p):
'''compressed_statement : lpvalue K_XOR_EQ expression '''
print('compressed_statement_8', list(p))
- # { PAssign*tmp = new PAssign($1, '^', $3);
+ # { PAssign*tmp = new PAssign(p[1], '^', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_9(p):
'''compressed_statement : lpvalue K_LS_EQ expression '''
print('compressed_statement_9', list(p))
- # { PAssign *tmp = new PAssign($1, 'l', $3);
+ # { PAssign *tmp = new PAssign(p[1], 'l', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_10(p):
'''compressed_statement : lpvalue K_RS_EQ expression '''
print('compressed_statement_10', list(p))
- # { PAssign*tmp = new PAssign($1, 'r', $3);
+ # { PAssign*tmp = new PAssign(p[1], 'r', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_compressed_statement_11(p):
'''compressed_statement : lpvalue K_RSS_EQ expression '''
print('compressed_statement_11', list(p))
- # { PAssign *tmp = new PAssign($1, 'R', $3);
+ # { PAssign *tmp = new PAssign(p[1], 'R', p[3]);
# FILE_NAME(tmp, @1);
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_statement_or_null_list_opt_1(p):
def p_statement_or_null_list_1(p):
'''statement_or_null_list : statement_or_null_list statement_or_null '''
print('statement_or_null_list_1', list(p))
- # { vector<Statement*>*tmp = $1;
- # if ($2) tmp->push_back($2);
- # $$ = tmp;
+ # { vector<Statement*>*tmp = p[1];
+ # if (p[2]) tmp->push_back(p[2]);
+ # p[0] = tmp;
# }
()
def p_statement_or_null_list_2(p):
'''statement_or_null_list : statement_or_null '''
print('statement_or_null_list_2', list(p))
# { vector<Statement*>*tmp = new vector<Statement*>(0);
- # if ($1) tmp->push_back($1);
- # $$ = tmp;
+ # if (p[1]) tmp->push_back(p[1]);
+ # p[0] = tmp;
# }
()
def p_analog_statement_1(p):
'''analog_statement : branch_probe_expression K_CONTRIBUTE expression ';' '''
print('analog_statement_1', list(p))
- # { $$ = pform_contribution_statement(@2, $1, $3); }
+ # { p[0] = pform_contribution_statement(@2, p[1], p[3]); }
()
def p_task_item_1(p):
'''task_item : block_item_decl '''
print('task_item_1', list(p))
- # {
$$ = new vector<pform_tf_port_t>(0); }
+ # {
p[0] = new vector<pform_tf_port_t>(0); }
()
def p_task_item_2(p):
'''task_item : tf_port_declaration '''
def p_task_item_list_1(p):
'''task_item_list : task_item_list task_item '''
print('task_item_list_1', list(p))
- # { vector<pform_tf_port_t>*tmp = $1;
+ # { vector<pform_tf_port_t>*tmp = p[1];
# size_t s1 = tmp->size();
- # tmp->resize(s1 + $2->size());
- # for (size_t idx = 0 ; idx < $2->size() ; idx += 1)
- # tmp->at(s1 + idx) = $2->at(idx);
- # delete $2;
- # $$ = tmp;
+ # tmp->resize(s1 + p[2]->size());
+ # for (size_t idx = 0 ; idx < p[2]->size() ; idx += 1)
+ # tmp->at(s1 + idx) = p[2]->at(idx);
+ # delete p[2];
+ # p[0] = tmp;
# }
()
def p_task_item_list_2(p):
'''udp_body : K_table udp_entry_list K_endtable '''
print('udp_body_1', list(p))
# { lex_end_table();
- # $$ = $2;
+ # p[0] = p[2];
# }
()
def p_udp_body_2(p):
def p_udp_comb_entry_1(p):
'''udp_comb_entry : udp_input_list ':' udp_output_sym ';' '''
print('udp_comb_entry_1', list(p))
- # { char*tmp = new char[strlen($1)+3];
- # strcpy(tmp, $1);
+ # { char*tmp = new char[strlen(p[1])+3];
+ # strcpy(tmp, p[1]);
# char*tp = tmp+strlen(tmp);
# *tp++ = ':';
- # *tp++ = $3;
+ # *tp++ = p[3];
# *tp++ = 0;
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_udp_comb_entry_list_1(p):
'''udp_comb_entry_list : udp_comb_entry '''
print('udp_comb_entry_list_1', list(p))
# { list<string>*tmp = new list<string>;
- # tmp->push_back($1);
- # delete[]$1;
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_udp_comb_entry_list_2(p):
'''udp_comb_entry_list : udp_comb_entry_list udp_comb_entry '''
print('udp_comb_entry_list_2', list(p))
- # { list<string>*tmp = $1;
- # tmp->push_back($2);
- # delete[]$2;
- # $$ = tmp;
+ # { list<string>*tmp = p[1];
+ # tmp->push_back(p[2]);
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_udp_sequ_entry_list_1(p):
'''udp_sequ_entry_list : udp_sequ_entry '''
print('udp_sequ_entry_list_1', list(p))
# { list<string>*tmp = new list<string>;
- # tmp->push_back($1);
- # delete[]$1;
- # $$ = tmp;
+ # tmp->push_back(p[1]);
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_udp_sequ_entry_list_2(p):
'''udp_sequ_entry_list : udp_sequ_entry_list udp_sequ_entry '''
print('udp_sequ_entry_list_2', list(p))
- # { list<string>*tmp = $1;
- # tmp->push_back($2);
- # delete[]$2;
- # $$ = tmp;
+ # { list<string>*tmp = p[1];
+ # tmp->push_back(p[2]);
+ # delete[]p[2];
+ # p[0] = tmp;
# }
()
def p_udp_sequ_entry_1(p):
'''udp_sequ_entry : udp_input_list ':' udp_input_sym ':' udp_output_sym ';' '''
print('udp_sequ_entry_1', list(p))
- # { char*tmp = new char[strlen($1)+5];
- # strcpy(tmp, $1);
+ # { char*tmp = new char[strlen(p[1])+5];
+ # strcpy(tmp, p[1]);
# char*tp = tmp+strlen(tmp);
# *tp++ = ':';
- # *tp++ = $3;
+ # *tp++ = p[3];
# *tp++ = ':';
- # *tp++ = $5;
+ # *tp++ = p[5];
# *tp++ = 0;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_udp_initial_1(p):
'''udp_initial : K_initial IDENTIFIER '=' number ';' '''
print('udp_initial_1', list(p))
- # { PExpr*etmp = new PENumber($4);
- # PEIdent*itmp = new PEIdent(lex_strings.make($2));
+ # { PExpr*etmp = new PENumber(p[4]);
+ # PEIdent*itmp = new PEIdent(lex_strings.make(p[2]));
# PAssign*atmp = new PAssign(itmp, etmp);
# FILE_NAME(atmp, @2);
- # delete[]$2;
- # $$ = atmp;
+ # delete[]p[2];
+ # p[0] = atmp;
# }
()
def p_udp_init_opt_1(p):
'''udp_input_list : udp_input_sym '''
print('udp_input_list_1', list(p))
# { char*tmp = new char[2];
- # tmp[0] = $1;
+ # tmp[0] = p[1];
# tmp[1] = 0;
- # $$ = tmp;
+ # p[0] = tmp;
# }
()
def p_udp_input_list_2(p):
'''udp_input_list : udp_input_list udp_input_sym '''
print('udp_input_list_2', list(p))
- # { char*tmp = new char[strlen($1)+2];
- # strcpy(tmp, $1);
+ # { char*tmp = new char[strlen(p[1])+2];
+ # strcpy(tmp, p[1]);
# char*tp = tmp+strlen(tmp);
- # *tp++ = $2;
+ # *tp++ = p[2];
# *tp++ = 0;
- # delete[]$1;
- # $$ = tmp;
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_udp_input_sym_1(p):
'''udp_input_sym : '0' '''
print('udp_input_sym_1', list(p))
- # { $$ = '0'; }
+ # { p[0] = '0'; }
()
def p_udp_input_sym_2(p):
'''udp_input_sym : '1' '''
print('udp_input_sym_2', list(p))
- # { $$ = '1'; }
+ # { p[0] = '1'; }
()
def p_udp_input_sym_3(p):
'''udp_input_sym : 'x' '''
print('udp_input_sym_3', list(p))
- # { $$ = 'x'; }
+ # { p[0] = 'x'; }
()
def p_udp_input_sym_4(p):
'''udp_input_sym : '?' '''
print('udp_input_sym_4', list(p))
- # { $$ = '?'; }
+ # { p[0] = '?'; }
()
def p_udp_input_sym_5(p):
'''udp_input_sym : 'b' '''
print('udp_input_sym_5', list(p))
- # { $$ = 'b'; }
+ # { p[0] = 'b'; }
()
def p_udp_input_sym_6(p):
'''udp_input_sym : '*' '''
print('udp_input_sym_6', list(p))
- # { $$ = '*'; }
+ # { p[0] = '*'; }
()
def p_udp_input_sym_7(p):
'''udp_input_sym : '%' '''
print('udp_input_sym_7', list(p))
- # { $$ = '%'; }
+ # { p[0] = '%'; }
()
def p_udp_input_sym_8(p):
'''udp_input_sym : 'f' '''
print('udp_input_sym_8', list(p))
- # { $$ = 'f'; }
+ # { p[0] = 'f'; }
()
def p_udp_input_sym_9(p):
'''udp_input_sym : 'F' '''
print('udp_input_sym_9', list(p))
- # { $$ = 'F'; }
+ # { p[0] = 'F'; }
()
def p_udp_input_sym_10(p):
'''udp_input_sym : 'l' '''
print('udp_input_sym_10', list(p))
- # { $$ = 'l'; }
+ # { p[0] = 'l'; }
()
def p_udp_input_sym_11(p):
'''udp_input_sym : 'h' '''
print('udp_input_sym_11', list(p))
- # { $$ = 'h'; }
+ # { p[0] = 'h'; }
()
def p_udp_input_sym_12(p):
'''udp_input_sym : 'B' '''
print('udp_input_sym_12', list(p))
- # { $$ = 'B'; }
+ # { p[0] = 'B'; }
()
def p_udp_input_sym_13(p):
'''udp_input_sym : 'r' '''
print('udp_input_sym_13', list(p))
- # { $$ = 'r'; }
+ # { p[0] = 'r'; }
()
def p_udp_input_sym_14(p):
'''udp_input_sym : 'R' '''
print('udp_input_sym_14', list(p))
- # { $$ = 'R'; }
+ # { p[0] = 'R'; }
()
def p_udp_input_sym_15(p):
'''udp_input_sym : 'M' '''
print('udp_input_sym_15', list(p))
- # { $$ = 'M'; }
+ # { p[0] = 'M'; }
()
def p_udp_input_sym_16(p):
'''udp_input_sym : 'n' '''
print('udp_input_sym_16', list(p))
- # { $$ = 'n'; }
+ # { p[0] = 'n'; }
()
def p_udp_input_sym_17(p):
'''udp_input_sym : 'N' '''
print('udp_input_sym_17', list(p))
- # { $$ = 'N'; }
+ # { p[0] = 'N'; }
()
def p_udp_input_sym_18(p):
'''udp_input_sym : 'p' '''
print('udp_input_sym_18', list(p))
- # { $$ = 'p'; }
+ # { p[0] = 'p'; }
()
def p_udp_input_sym_19(p):
'''udp_input_sym : 'P' '''
print('udp_input_sym_19', list(p))
- # { $$ = 'P'; }
+ # { p[0] = 'P'; }
()
def p_udp_input_sym_20(p):
'''udp_input_sym : 'Q' '''
print('udp_input_sym_20', list(p))
- # { $$ = 'Q'; }
+ # { p[0] = 'Q'; }
()
def p_udp_input_sym_21(p):
'''udp_input_sym : 'q' '''
print('udp_input_sym_21', list(p))
- # { $$ = 'q'; }
+ # { p[0] = 'q'; }
()
def p_udp_input_sym_22(p):
'''udp_input_sym : '_' '''
print('udp_input_sym_22', list(p))
- # { $$ = '_'; }
+ # { p[0] = '_'; }
()
def p_udp_input_sym_23(p):
'''udp_input_sym : '+' '''
print('udp_input_sym_23', list(p))
- # { $$ = '+'; }
+ # { p[0] = '+'; }
()
def p_udp_input_sym_24(p):
'''udp_input_sym : DEC_NUMBER '''
print('udp_input_sym_24', list(p))
- # { yyerror(@1, "internal error: Input digits parse as decimal number!"); $$ = '0'; }
+ # { yyerror(@1, "internal error: Input digits parse as decimal number!"); p[0] = '0'; }
()
def p_udp_output_sym_1(p):
'''udp_output_sym : '0' '''
print('udp_output_sym_1', list(p))
- # { $$ = '0'; }
+ # { p[0] = '0'; }
()
def p_udp_output_sym_2(p):
'''udp_output_sym : '1' '''
print('udp_output_sym_2', list(p))
- # { $$ = '1'; }
+ # { p[0] = '1'; }
()
def p_udp_output_sym_3(p):
'''udp_output_sym : 'x' '''
print('udp_output_sym_3', list(p))
- # { $$ = 'x'; }
+ # { p[0] = 'x'; }
()
def p_udp_output_sym_4(p):
'''udp_output_sym : '-' '''
print('udp_output_sym_4', list(p))
- # { $$ = '-'; }
+ # { p[0] = '-'; }
()
def p_udp_output_sym_5(p):
'''udp_output_sym : DEC_NUMBER '''
print('udp_output_sym_5', list(p))
- # { yyerror(@1, "internal error: Output digits parse as decimal number!"); $$ = '0'; }
+ # { yyerror(@1, "internal error: Output digits parse as decimal number!"); p[0] = '0'; }
()
def p_udp_port_decl_1(p):
'''udp_port_decl : K_input list_of_identifiers ';' '''
print('udp_port_decl_1', list(p))
- # { $$ = pform_make_udp_input_ports($2); }
+ # { p[0] = pform_make_udp_input_ports(p[2]); }
()
def p_udp_port_decl_2(p):
'''udp_port_decl : K_output IDENTIFIER ';' '''
print('udp_port_decl_2', list(p))
- # { perm_string pname = lex_strings.make($2);
+ # { perm_string pname = lex_strings.make(p[2]);
# PWire*pp = new PWire(pname, NetNet::IMPLICIT, NetNet::POUTPUT, IVL_VT_LOGIC);
# vector<PWire*>*tmp = new vector<PWire*>(1);
# (*tmp)[0] = pp;
- # $$ = tmp;
- # delete[]$2;
+ # p[0] = tmp;
+ # delete[]p[2];
# }
()
def p_udp_port_decl_3(p):
'''udp_port_decl : K_reg IDENTIFIER ';' '''
print('udp_port_decl_3', list(p))
- # { perm_string pname = lex_strings.make($2);
+ # { perm_string pname = lex_strings.make(p[2]);
# PWire*pp = new PWire(pname, NetNet::REG, NetNet::PIMPLICIT, IVL_VT_LOGIC);
# vector<PWire*>*tmp = new vector<PWire*>(1);
# (*tmp)[0] = pp;
- # $$ = tmp;
- # delete[]$2;
+ # p[0] = tmp;
+ # delete[]p[2];
# }
()
def p_udp_port_decl_4(p):
'''udp_port_decl : K_reg K_output IDENTIFIER ';' '''
print('udp_port_decl_4', list(p))
- # { perm_string pname = lex_strings.make($3);
+ # { perm_string pname = lex_strings.make(p[3]);
# PWire*pp = new PWire(pname, NetNet::REG, NetNet::POUTPUT, IVL_VT_LOGIC);
# vector<PWire*>*tmp = new vector<PWire*>(1);
# (*tmp)[0] = pp;
- # $$ = tmp;
- # delete[]$3;
+ # p[0] = tmp;
+ # delete[]p[3];
# }
()
def p_udp_port_decls_1(p):
def p_udp_port_decls_2(p):
'''udp_port_decls : udp_port_decls udp_port_decl '''
print('udp_port_decls_2', list(p))
- # { vector<PWire*>*tmp = $1;
- # size_t s1 = $1->size();
- # tmp->resize(s1+$2->size());
- # for (size_t idx = 0 ; idx < $2->size() ; idx += 1)
- # tmp->at(s1+idx) = $2->at(idx);
- # $$ = tmp;
- # delete $2;
+ # { vector<PWire*>*tmp = p[1];
+ # size_t s1 = p[1]->size();
+ # tmp->resize(s1+p[2]->size());
+ # for (size_t idx = 0 ; idx < p[2]->size() ; idx += 1)
+ # tmp->at(s1+idx) = p[2]->at(idx);
+ # p[0] = tmp;
+ # delete p[2];
# }
()
def p_udp_port_list_1(p):
'''udp_port_list : IDENTIFIER '''
print('udp_port_list_1', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($1));
- # delete[]$1;
- # $$ = tmp;
+ # tmp->push_back(lex_strings.make(p[1]));
+ # delete[]p[1];
+ # p[0] = tmp;
# }
()
def p_udp_port_list_2(p):
'''udp_port_list : udp_port_list ',' IDENTIFIER '''
print('udp_port_list_2', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($3));
- # delete[]$3;
- # $$ = tmp;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[3]));
+ # delete[]p[3];
+ # p[0] = tmp;
# }
()
def p_udp_reg_opt_1(p):
'''udp_input_declaration_list : K_input IDENTIFIER '''
print('udp_input_declaration_list_1', list(p))
# { list<perm_string>*tmp = new list<perm_string>;
- # tmp->push_back(lex_strings.make($2));
- # $$ = tmp;
- # delete[]$2;
+ # tmp->push_back(lex_strings.make(p[2]));
+ # p[0] = tmp;
+ # delete[]p[2];
# }
()
def p_udp_input_declaration_list_2(p):
'''udp_input_declaration_list : udp_input_declaration_list ',' K_input IDENTIFIER '''
print('udp_input_declaration_list_2', list(p))
- # { list<perm_string>*tmp = $1;
- # tmp->push_back(lex_strings.make($4));
- # $$ = tmp;
- # delete[]$4;
+ # { list<perm_string>*tmp = p[1];
+ # tmp->push_back(lex_strings.make(p[4]));
+ # p[0] = tmp;
+ # delete[]p[4];
# }
()
def p_udp_primitive_1(p):
'''udp_primitive : K_primitive IDENTIFIER '(' udp_port_list ')' ';' udp_port_decls udp_init_opt udp_body K_endprimitive endlabel_opt '''
print('udp_primitive_1', list(p))
- # { perm_string tmp2 = lex_strings.make($2);
- # pform_make_udp(tmp2, $4, $7, $9, $8,
+ # { perm_string tmp2 = lex_strings.make(p[2]);
+ # pform_make_udp(tmp2, p[4], p[7], p[9], p[8],
# @2.text, @2.first_line);
- # if ($11) {
- # if (strcmp($2,$11) != 0) {
+ # if (p[11]) {
+ # if (strcmp(p[2],p[11]) != 0) {
# yyerror(@11, "error: End label doesn't match "
# "primitive name");
# }
# yyerror(@11, "error: Primitive end labels "
# "require SystemVerilog.");
# }
- # delete[]$11;
+ # delete[]p[11];
# }
- # delete[]$2;
+ # delete[]p[2];
# }
()
def p_udp_primitive_2(p):
'''udp_primitive : K_primitive IDENTIFIER '(' K_output udp_reg_opt IDENTIFIER udp_initial_expr_opt ',' udp_input_declaration_list ')' ';' udp_body K_endprimitive endlabel_opt '''
print('udp_primitive_2', list(p))
- # { perm_string tmp2 = lex_strings.make($2);
- # perm_string tmp6 = lex_strings.make($6);
- # pform_make_udp(tmp2, $5, tmp6, $7, $9, $12,
+ # { perm_string tmp2 = lex_strings.make(p[2]);
+ # perm_string tmp6 = lex_strings.make(p[6]);
+ # pform_make_udp(tmp2, p[5], tmp6, p[7], p[9], p[12],
# @2.text, @2.first_line);
- # if ($14) {
- # if (strcmp($2,$14) != 0) {
+ # if (p[14]) {
+ # if (strcmp(p[2],p[14]) != 0) {
# yyerror(@14, "error: End label doesn't match "
# "primitive name");
# }
# yyerror(@14, "error: Primitive end labels "
# "require SystemVerilog.");
# }
- # delete[]$14;
+ # delete[]p[14];
# }
- # delete[]$2;
- # delete[]$6;
+ # delete[]p[2];
+ # delete[]p[6];
# }
()
def p_K_packed_opt_1(p):
projects / sv2nmigen.git / commitdiff