%{ package php5 import ( "strings" "strconv" "github.com/z7zmey/php-parser/token" "github.com/z7zmey/php-parser/node" "github.com/z7zmey/php-parser/node/scalar" "github.com/z7zmey/php-parser/node/name" "github.com/z7zmey/php-parser/node/stmt" "github.com/z7zmey/php-parser/node/expr" "github.com/z7zmey/php-parser/node/expr/assign" "github.com/z7zmey/php-parser/node/expr/binary" "github.com/z7zmey/php-parser/node/expr/cast" ) %} %union{ node node.Node token token.Token boolWithToken boolWithToken list []node.Node foreachVariable foreachVariable nodesWithEndToken *nodesWithEndToken simpleIndirectReference simpleIndirectReference altSyntaxNode altSyntaxNode } %type $unk %token T_INCLUDE %token T_INCLUDE_ONCE %token T_EXIT %token T_IF %token T_LNUMBER %token T_DNUMBER %token T_STRING %token T_STRING_VARNAME %token T_VARIABLE %token T_NUM_STRING %token T_INLINE_HTML %token T_CHARACTER %token T_BAD_CHARACTER %token T_ENCAPSED_AND_WHITESPACE %token T_CONSTANT_ENCAPSED_STRING %token T_ECHO %token T_DO %token T_WHILE %token T_ENDWHILE %token T_FOR %token T_ENDFOR %token T_FOREACH %token T_ENDFOREACH %token T_DECLARE %token T_ENDDECLARE %token T_AS %token T_SWITCH %token T_ENDSWITCH %token T_CASE %token T_DEFAULT %token T_BREAK %token T_CONTINUE %token T_GOTO %token T_FUNCTION %token T_CONST %token T_RETURN %token T_TRY %token T_CATCH %token T_FINALLY %token T_THROW %token T_USE %token T_INSTEADOF %token T_GLOBAL %token T_VAR %token T_UNSET %token T_ISSET %token T_EMPTY %token T_HALT_COMPILER %token T_CLASS %token T_TRAIT %token T_INTERFACE %token T_EXTENDS %token T_IMPLEMENTS %token T_OBJECT_OPERATOR %token T_DOUBLE_ARROW %token T_LIST %token T_ARRAY %token T_CALLABLE %token T_CLASS_C %token T_TRAIT_C %token T_METHOD_C %token T_FUNC_C %token T_LINE %token T_FILE %token T_COMMENT %token T_DOC_COMMENT %token T_OPEN_TAG %token T_OPEN_TAG_WITH_ECHO %token T_CLOSE_TAG %token T_WHITESPACE %token T_START_HEREDOC %token T_END_HEREDOC %token T_DOLLAR_OPEN_CURLY_BRACES %token T_CURLY_OPEN %token T_PAAMAYIM_NEKUDOTAYIM %token T_NAMESPACE %token T_NS_C %token T_DIR %token T_NS_SEPARATOR %token T_ELLIPSIS %token T_EVAL %token T_REQUIRE %token T_REQUIRE_ONCE %token T_LOGICAL_OR %token T_LOGICAL_XOR %token T_LOGICAL_AND %token T_INSTANCEOF %token T_NEW %token T_CLONE %token T_ELSEIF %token T_ELSE %token T_ENDIF %token T_PRINT %token T_YIELD %token T_STATIC %token T_ABSTRACT %token T_FINAL %token T_PRIVATE %token T_PROTECTED %token T_PUBLIC %token T_INC %token T_DEC %token T_YIELD_FROM %token T_INT_CAST %token T_DOUBLE_CAST %token T_STRING_CAST %token T_ARRAY_CAST %token T_OBJECT_CAST %token T_BOOL_CAST %token T_UNSET_CAST %token T_COALESCE %token T_SPACESHIP %token T_NOELSE %token '"' %token '`' %token '{' %token '}' %token ';' %token ':' %token '(' %token ')' %token '[' %token ']' %token '?' %token '&' %token '-' %token '+' %token '!' %token '~' %token '@' %token '$' %left T_INCLUDE T_INCLUDE_ONCE T_EVAL T_REQUIRE T_REQUIRE_ONCE %left ',' %left T_LOGICAL_OR %left T_LOGICAL_XOR %left T_LOGICAL_AND %right T_PRINT %right T_YIELD %left '=' T_PLUS_EQUAL T_MINUS_EQUAL T_MUL_EQUAL T_DIV_EQUAL T_CONCAT_EQUAL T_MOD_EQUAL T_AND_EQUAL T_OR_EQUAL T_XOR_EQUAL T_SL_EQUAL T_SR_EQUAL T_POW_EQUAL %left '?' ':' %left T_BOOLEAN_OR %left T_BOOLEAN_AND %left '|' %left '^' %left '&' %nonassoc T_IS_EQUAL T_IS_NOT_EQUAL T_IS_IDENTICAL T_IS_NOT_IDENTICAL %nonassoc '<' T_IS_SMALLER_OR_EQUAL '>' T_IS_GREATER_OR_EQUAL %left T_SL T_SR %left '+' '-' '.' %left '*' '/' '%' %right '!' %nonassoc T_INSTANCEOF %right '~' T_INC T_DEC T_INT_CAST T_DOUBLE_CAST T_STRING_CAST T_ARRAY_CAST T_OBJECT_CAST T_BOOL_CAST T_UNSET_CAST '@' %right T_POW %right '[' %nonassoc T_NEW T_CLONE %left T_ELSEIF %left T_ELSE %left T_ENDIF %right T_STATIC T_ABSTRACT T_FINAL T_PRIVATE T_PROTECTED T_PUBLIC %type function interface_entry %type top_statement use_declaration use_function_declaration use_const_declaration common_scalar %type static_class_constant compound_variable reference_variable class_name variable_class_name %type dim_offset expr expr_without_variable r_variable w_variable rw_variable variable base_variable_with_function_calls %type base_variable array_function_dereference function_call inner_statement statement unticked_statement %type statement global_var static_scalar scalar class_constant static_class_name_scalar class_name_scalar %type encaps_var encaps_var encaps_var_offset general_constant isset_variable internal_functions_in_yacc assignment_list_element %type variable_name variable_without_objects dynamic_class_name_reference new_expr class_name_reference static_member %type function_call fully_qualified_class_name combined_scalar combined_scalar_offset general_constant parenthesis_expr %type exit_expr yield_expr function_declaration_statement class_declaration_statement constant_declaration %type else_single new_else_single unset_variable declare_statement %type finally_statement additional_catch unticked_function_declaration_statement unticked_class_declaration_statement %type optional_class_type parameter class_entry_type extends_from class_statement class_constant_declaration %type trait_use_statement function_call_parameter trait_adaptation_statement trait_precedence trait_alias %type trait_method_reference_fully_qualified trait_method_reference trait_modifiers member_modifier method %type static_scalar_value static_operation %type top_statement_list namespace_name use_declarations use_function_declarations use_const_declarations %type inner_statement_list global_var_list static_var_list encaps_list isset_variables non_empty_array_pair_list %type array_pair_list assignment_list lexical_var_list lexical_vars elseif_list new_elseif_list non_empty_for_expr %type for_expr case_list echo_expr_list unset_variables declare_list catch_statement additional_catches %type non_empty_additional_catches parameter_list non_empty_parameter_list class_statement_list implements_list %type class_statement_list variable_modifiers method_modifiers class_variable_declaration interface_extends_list %type interface_list non_empty_function_call_parameter_list trait_list trait_adaptation_list non_empty_trait_adaptation_list %type trait_reference_list non_empty_member_modifiers backticks_expr static_array_pair_list non_empty_static_array_pair_list %type chaining_dereference chaining_instance_call chaining_method_or_property instance_call variable_property %type method_or_not array_method_dereference object_property object_dim_list dynamic_class_name_variable_property %type dynamic_class_name_variable_properties variable_properties %type simple_indirect_reference %type foreach_variable foreach_optional_arg %type ctor_arguments function_call_parameter_list switch_case_list method_body trait_adaptations %type is_reference is_variadic %type while_statement for_statement foreach_statement %% start: top_statement_list { rootnode = stmt.NewStmtList($1) } ; top_statement_list: top_statement_list top_statement { $$ = append($1, $2) } | /* empty */ { $$ = []node.Node{} } ; namespace_name: T_STRING { namePart := name.NewNamePart($1.Value) positions.AddPosition(namePart, positionBuilder.NewTokenPosition($1)) $$ = []node.Node{namePart} comments.AddComments(namePart, $1.Comments()) } | namespace_name T_NS_SEPARATOR T_STRING { namePart := name.NewNamePart($3.Value) positions.AddPosition(namePart, positionBuilder.NewTokenPosition($3)) $$ = append($1, namePart) comments.AddComments(namePart, $3.Comments()) } ; top_statement: statement { $$ = $1 } | function_declaration_statement { $$ = $1 } | class_declaration_statement { $$ = $1 } | T_HALT_COMPILER '(' ')' ';' { $$ = stmt.NewHaltCompiler() positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_NAMESPACE namespace_name ';' { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) $$ = stmt.NewNamespace(name, nil) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments($$, $1.Comments()) } | T_NAMESPACE namespace_name '{' top_statement_list '}' { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) $$ = stmt.NewNamespace(name, $4) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $5)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments($$, $1.Comments()) } | T_NAMESPACE '{' top_statement_list '}' { $$ = stmt.NewNamespace(nil, $3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_USE use_declarations ';' { $$ = stmt.NewUseList(nil, $2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_USE T_FUNCTION use_function_declarations ';' { useType := node.NewIdentifier($2.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($2)) comments.AddComments($$, $2.Comments()) $$ = stmt.NewUseList(useType, $3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_USE T_CONST use_const_declarations ';' { useType := node.NewIdentifier($2.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($2)) comments.AddComments($$, $2.Comments()) $$ = stmt.NewUseList(useType, $3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | constant_declaration ';' { $$ = $1 } ; use_declarations: use_declarations ',' use_declaration { $$ = append($1, $3) } | use_declaration { $$ = []node.Node{$1} } ; use_declaration: namespace_name { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | namespace_name T_AS T_STRING { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) alias := node.NewIdentifier($3.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($3)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($1, $3)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments(alias, $3.Comments()) comments.AddComments($$, ListGetFirstNodeComments($1)) } | T_NS_SEPARATOR namespace_name { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($2)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments($$, ListGetFirstNodeComments($2)) } | T_NS_SEPARATOR namespace_name T_AS T_STRING { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) alias := node.NewIdentifier($4.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($4)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($2, $4)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments(alias, $4.Comments()) comments.AddComments($$, ListGetFirstNodeComments($2)) } ; use_function_declarations: use_function_declarations ',' use_function_declaration { $$ = append($1, $3) } | use_function_declaration { $$ = []node.Node{$1} } ; use_function_declaration: namespace_name { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | namespace_name T_AS T_STRING { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) alias := node.NewIdentifier($3.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($3)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($1, $3)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments(alias, $3.Comments()) comments.AddComments($$, ListGetFirstNodeComments($1)) } | T_NS_SEPARATOR namespace_name { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($2)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments($$, ListGetFirstNodeComments($2)) } | T_NS_SEPARATOR namespace_name T_AS T_STRING { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) alias := node.NewIdentifier($4.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($4)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($2, $4)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments(alias, $4.Comments()) comments.AddComments($$, ListGetFirstNodeComments($2)) } ; use_const_declarations: use_const_declarations ',' use_const_declaration { $$ = append($1, $3) } | use_const_declaration { $$ = []node.Node{$1} } ; use_const_declaration: namespace_name { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | namespace_name T_AS T_STRING { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) alias := node.NewIdentifier($3.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($3)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($1, $3)) comments.AddComments(name, ListGetFirstNodeComments($1)) comments.AddComments(alias, $3.Comments()) comments.AddComments($$, ListGetFirstNodeComments($1)) } | T_NS_SEPARATOR namespace_name { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) $$ = stmt.NewUse(nil, name, nil) positions.AddPosition($$, positionBuilder.NewNodeListPosition($2)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments($$, ListGetFirstNodeComments($2)) } | T_NS_SEPARATOR namespace_name T_AS T_STRING { name := name.NewName($2) positions.AddPosition(name, positionBuilder.NewNodeListPosition($2)) alias := node.NewIdentifier($4.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($4)) $$ = stmt.NewUse(nil, name, alias) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($2, $4)) comments.AddComments(name, ListGetFirstNodeComments($2)) comments.AddComments(alias, $4.Comments()) comments.AddComments($$, ListGetFirstNodeComments($2)) } ; constant_declaration: constant_declaration ',' T_STRING '=' static_scalar { name := node.NewIdentifier($3.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($3)) comments.AddComments(name, $3.Comments()) constant := stmt.NewConstant(name, $5, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($3, $5)) comments.AddComments(constant, $3.Comments()) constList := $1.(*stmt.ConstList) constList.Consts = append(constList.Consts, constant) $$ = $1 positions.AddPosition($$, positionBuilder.NewNodeNodeListPosition($1, constList.Consts)) } | T_CONST T_STRING '=' static_scalar { name := node.NewIdentifier($2.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($2)) comments.AddComments(name, $2.Comments()) constant := stmt.NewConstant(name, $4, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($2, $4)) comments.AddComments(constant, $2.Comments()) constList := []node.Node{constant} $$ = stmt.NewConstList(constList) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, constList)) comments.AddComments($$, $1.Comments()) } ; inner_statement_list: inner_statement_list inner_statement { $$ = append($1, $2) } | /* empty */ { $$ = []node.Node{} } ; inner_statement: statement { $$ = $1 } | function_declaration_statement { $$ = $1 } | class_declaration_statement { $$ = $1 } | T_HALT_COMPILER '(' ')' ';' { $$ = stmt.NewHaltCompiler() positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; statement: unticked_statement { $$ = $1 } | T_STRING ':' { label := node.NewIdentifier($1.Value) positions.AddPosition(label, positionBuilder.NewTokenPosition($1)) $$ = stmt.NewLabel(label) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments(label, $1.Comments()) comments.AddComments($$, $1.Comments()) } ; unticked_statement: '{' inner_statement_list '}' { $$ = stmt.NewStmtList($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_IF parenthesis_expr statement elseif_list else_single { $$ = stmt.NewIf($2, $3, $4, $5) if $5 != nil { positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $5)) } else if len($4) > 0 { positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $4)) } else { positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $3)) } comments.AddComments($$, $1.Comments()) } | T_IF parenthesis_expr ':' inner_statement_list new_elseif_list new_else_single T_ENDIF ';' { stmts := stmt.NewStmtList($4) positions.AddPosition(stmts, positionBuilder.NewNodeListPosition($4)) $$ = stmt.NewAltIf($2, stmts, $5, $6) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $8)) comments.AddComments($$, $1.Comments()) } | T_WHILE parenthesis_expr while_statement { if ($3.isAlt) { $$ = stmt.NewAltWhile($2, $3.node) } else { $$ = stmt.NewWhile($2, $3.node) } positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $3.node)) comments.AddComments($$, $1.Comments()) } | T_DO statement T_WHILE parenthesis_expr ';' { $$ = stmt.NewDo($2, $4) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $5)) comments.AddComments($$, $1.Comments()) } | T_FOR '(' for_expr ';' for_expr ';' for_expr ')' for_statement { if ($9.isAlt) { $$ = stmt.NewAltFor($3, $5, $7, $9.node) } else { $$ = stmt.NewFor($3, $5, $7, $9.node) } positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $9.node)) comments.AddComments($$, $1.Comments()) } | T_SWITCH parenthesis_expr switch_case_list { if ($3.endToken.Value == ";") { $$ = stmt.NewAltSwitch($2, $3.nodes) } else { $$ = stmt.NewSwitch($2, $3.nodes) } positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3.endToken)) comments.AddComments($$, $1.Comments()) } | T_BREAK ';' { $$ = stmt.NewBreak(nil) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_BREAK expr ';' { $$ = stmt.NewBreak($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_CONTINUE ';' { $$ = stmt.NewContinue(nil) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_CONTINUE expr ';' { $$ = stmt.NewContinue($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_RETURN ';' { $$ = stmt.NewReturn(nil) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_RETURN expr_without_variable ';' { $$ = stmt.NewReturn($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_RETURN variable ';' { $$ = stmt.NewReturn($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | yield_expr ';' { $$ = stmt.NewExpression($1) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $2)) comments.AddComments($$, comments[$1]) } | T_GLOBAL global_var_list ';' { $$ = stmt.NewGlobal($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_STATIC static_var_list ';' { $$ = stmt.NewStatic($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_ECHO echo_expr_list ';' { $$ = stmt.NewEcho($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_INLINE_HTML { $$ = stmt.NewInlineHtml($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | expr ';' { $$ = stmt.NewExpression($1) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $2)) comments.AddComments($$, comments[$1]) } | T_UNSET '(' unset_variables ')' ';' { $$ = stmt.NewUnset($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $5)) comments.AddComments($$, $1.Comments()) } | T_FOREACH '(' variable T_AS foreach_variable foreach_optional_arg ')' foreach_statement { if $6.node == nil { if ($8.isAlt) { $$ = stmt.NewAltForeach($3, nil, $5.node, $8.node, $5.byRef) } else { $$ = stmt.NewForeach($3, nil, $5.node, $8.node, $5.byRef) } } else { if ($8.isAlt) { $$ = stmt.NewAltForeach($3, $5.node, $6.node, $8.node, $6.byRef) } else { $$ = stmt.NewForeach($3, $5.node, $6.node, $8.node, $6.byRef) } } positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $8.node)) comments.AddComments($$, $1.Comments()) } | T_FOREACH '(' expr_without_variable T_AS foreach_variable foreach_optional_arg ')' foreach_statement { if $6.node == nil { if ($8.isAlt) { $$ = stmt.NewAltForeach($3, nil, $5.node, $8.node, $5.byRef) } else { $$ = stmt.NewForeach($3, nil, $5.node, $8.node, $5.byRef) } } else { if ($8.isAlt) { $$ = stmt.NewAltForeach($3, $5.node, $6.node, $8.node, $6.byRef) } else { $$ = stmt.NewForeach($3, $5.node, $6.node, $8.node, $6.byRef) } } positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $8.node)) comments.AddComments($$, $1.Comments()) } | T_DECLARE '(' declare_list ')' declare_statement { $$ = stmt.NewDeclare($3, $5) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $5)) comments.AddComments($$, $1.Comments()) } | ';' { $$ = stmt.NewNop() positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_TRY '{' inner_statement_list '}' catch_statement finally_statement { $$ = stmt.NewTry($3, $5, $6) if $6 == nil { positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $5)) } else { positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $6)) } comments.AddComments($$, $1.Comments()) } | T_THROW expr ';' { $$ = stmt.NewThrow($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_GOTO T_STRING ';' { label := node.NewIdentifier($2.Value) positions.AddPosition(label, positionBuilder.NewTokenPosition($2)) $$ = stmt.NewGoto(label) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments(label, $2.Comments()) comments.AddComments($$, $1.Comments()) } ; catch_statement: /* empty */ { $$ = []node.Node{} } | T_CATCH '(' fully_qualified_class_name T_VARIABLE ')' '{' inner_statement_list '}' additional_catches { identifier := node.NewIdentifier(strings.TrimLeft($4.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($4)) comments.AddComments(identifier, $4.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($4)) comments.AddComments(variable, $4.Comments()) catch := stmt.NewCatch([]node.Node{$3}, variable, $7) positions.AddPosition(catch, positionBuilder.NewTokensPosition($1, $8)) comments.AddComments(catch, $1.Comments()) $$ = append([]node.Node{catch}, $9...) } finally_statement: /* empty */ { $$ = nil } | T_FINALLY '{' inner_statement_list '}' { $$ = stmt.NewFinally($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; additional_catches: non_empty_additional_catches { $$ = $1 } | /* empty */ { $$ = []node.Node{} } ; non_empty_additional_catches: additional_catch { $$ = []node.Node{$1} } | non_empty_additional_catches additional_catch { $$ = append($1, $2) } ; additional_catch: T_CATCH '(' fully_qualified_class_name T_VARIABLE ')' '{' inner_statement_list '}' { identifier := node.NewIdentifier(strings.TrimLeft($4.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($4)) comments.AddComments(identifier, $4.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($4)) comments.AddComments(variable, $4.Comments()) $$ = stmt.NewCatch([]node.Node{$3}, variable, $7) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $8)) comments.AddComments($$, $1.Comments()) } ; unset_variables: unset_variable { $$ = []node.Node{$1} } | unset_variables ',' unset_variable { $$ = append($1, $3) } ; unset_variable: variable { $$ = $1 } ; function_declaration_statement: unticked_function_declaration_statement { $$ = $1 } ; class_declaration_statement: unticked_class_declaration_statement { $$ = $1 } ; is_reference: /* empty */ { $$ = boolWithToken{false, nil} } | '&' { $$ = boolWithToken{true, &$1} } ; is_variadic: /* empty */ { $$ = boolWithToken{false, nil} } | T_ELLIPSIS { $$ = boolWithToken{true, &$1} } ; unticked_function_declaration_statement: function is_reference T_STRING '(' parameter_list ')' '{' inner_statement_list '}' { name := node.NewIdentifier($3.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($3)) comments.AddComments(name, $3.Comments()) $$ = stmt.NewFunction(name, $2.value, $5, nil, $8, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $9)) comments.AddComments($$, $1.Comments()) } ; unticked_class_declaration_statement: class_entry_type T_STRING extends_from implements_list '{' class_statement_list '}' { switch n := $1.(type) { case *stmt.Class : name := node.NewIdentifier($2.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($2)) n.ClassName = name n.Stmts = $6 n.Extends = $3 n.Implements = $4 case *stmt.Trait : // TODO: is it possible that trait extend or implement name := node.NewIdentifier($2.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($2)) n.TraitName = name n.Stmts = $6 } $$ = $1 } | interface_entry T_STRING interface_extends_list '{' class_statement_list '}' { name := node.NewIdentifier($2.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($2)) comments.AddComments(name, $2.Comments()) $$ = stmt.NewInterface(name, $3, $5, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $6)) comments.AddComments($$, $1.Comments()) } ; class_entry_type: T_CLASS { $$ = stmt.NewClass(nil, nil, nil, nil, nil, nil, "") positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_ABSTRACT T_CLASS { classModifier := node.NewIdentifier($1.Value) positions.AddPosition(classModifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(classModifier, $1.Comments()) $$ = stmt.NewClass(nil, []node.Node{classModifier}, nil, nil, nil, nil, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_TRAIT { $$ = stmt.NewTrait(nil, nil, "") positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_FINAL T_CLASS { classModifier := node.NewIdentifier($1.Value) positions.AddPosition(classModifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(classModifier, $1.Comments()) $$ = stmt.NewClass(nil, []node.Node{classModifier}, nil, nil, nil, nil, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; extends_from: /* empty */ { $$ = nil } | T_EXTENDS fully_qualified_class_name { $$ = $2 } ; interface_entry: T_INTERFACE { $$ = $1 } ; interface_extends_list: /* empty */ { $$ = nil } | T_EXTENDS interface_list { $$ = $2 } ; implements_list: /* empty */ { $$ = nil } | T_IMPLEMENTS interface_list { $$ = $2 } ; interface_list: fully_qualified_class_name { $$ = []node.Node{$1} } | interface_list ',' fully_qualified_class_name { $$ = append($1, $3) } ; foreach_optional_arg: /* empty */ { $$ = foreachVariable{nil, false} } | T_DOUBLE_ARROW foreach_variable { $$ = $2 } ; foreach_variable: variable { $$ = foreachVariable{$1, false} } | '&' variable { $$ = foreachVariable{$2, true} } | T_LIST '(' assignment_list ')' { list := expr.NewList($3) positions.AddPosition(list, positionBuilder.NewTokensPosition($1, $4)) $$ = foreachVariable{list, false} comments.AddComments(list, $1.Comments()) } ; for_statement: statement { $$ = altSyntaxNode{$1, false} } | ':' inner_statement_list T_ENDFOR ';' { $$ = altSyntaxNode{stmt.NewStmtList($2), true} positions.AddPosition($$.node, positionBuilder.NewTokensPosition($1, $4)) } ; foreach_statement: statement { $$ = altSyntaxNode{$1, false} } | ':' inner_statement_list T_ENDFOREACH ';' { $$ = altSyntaxNode{stmt.NewStmtList($2), true} positions.AddPosition($$.node, positionBuilder.NewTokensPosition($1, $4)) } ; declare_statement: statement { $$ = $1; } | ':' inner_statement_list T_ENDDECLARE ';' { $$ = stmt.NewStmtList($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; declare_list: T_STRING '=' static_scalar { name := node.NewIdentifier($1.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) constant := stmt.NewConstant(name, $3, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($1, $3)) comments.AddComments(constant, $1.Comments()) $$ = []node.Node{constant} } | declare_list ',' T_STRING '=' static_scalar { name := node.NewIdentifier($3.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($3)) comments.AddComments(name, $3.Comments()) constant := stmt.NewConstant(name, $5, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($3, $5)) comments.AddComments(constant, $3.Comments()) $$ = append($1, constant) } ; switch_case_list: '{' case_list '}' { $$ = &nodesWithEndToken{$2, $3} } | '{' ';' case_list '}' { $$ = &nodesWithEndToken{$3, $4} } | ':' case_list T_ENDSWITCH ';' { $$ = &nodesWithEndToken{$2, $4} } | ':' ';' case_list T_ENDSWITCH ';' { $$ = &nodesWithEndToken{$3, $5} } ; case_list: /* empty */ { $$ = []node.Node{} } | case_list T_CASE expr case_separator inner_statement_list { _case := stmt.NewCase($3, $5) positions.AddPosition(_case, positionBuilder.NewTokenNodeListPosition($2, $5)) $$ = append($1, _case) comments.AddComments(_case, $2.Comments()) } | case_list T_DEFAULT case_separator inner_statement_list { _default := stmt.NewDefault($4) positions.AddPosition(_default, positionBuilder.NewTokenNodeListPosition($2, $4)) $$ = append($1, _default) comments.AddComments(_default, $2.Comments()) } ; case_separator: ':' | ';' ; while_statement: statement { $$ = altSyntaxNode{$1, false} } | ':' inner_statement_list T_ENDWHILE ';' { $$ = altSyntaxNode{stmt.NewStmtList($2), true} positions.AddPosition($$.node, positionBuilder.NewTokensPosition($1, $4)) } ; elseif_list: /* empty */ { $$ = nil } | elseif_list T_ELSEIF parenthesis_expr statement { _elseIf := stmt.NewElseIf($3, $4) positions.AddPosition(_elseIf, positionBuilder.NewTokenNodePosition($2, $4)) comments.AddComments(_elseIf, $2.Comments()) $$ = append($1, _elseIf) } ; new_elseif_list: /* empty */ { $$ = nil } | new_elseif_list T_ELSEIF parenthesis_expr ':' inner_statement_list { stmts := stmt.NewStmtList($5) positions.AddPosition(stmts, positionBuilder.NewNodeListPosition($5)) _elseIf := stmt.NewAltElseIf($3, stmts) positions.AddPosition(_elseIf, positionBuilder.NewTokenNodeListPosition($2, $5)) comments.AddComments(_elseIf, $2.Comments()) $$ = append($1, _elseIf) } ; else_single: /* empty */ { $$ = nil } | T_ELSE statement { $$ = stmt.NewElse($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; new_else_single: /* empty */ { $$ = nil } | T_ELSE ':' inner_statement_list { stmts := stmt.NewStmtList($3) positions.AddPosition(stmts, positionBuilder.NewNodeListPosition($3)) $$ = stmt.NewAltElse(stmts) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments($$, $1.Comments()) } ; parameter_list: non_empty_parameter_list { $$ = $1; } | /* empty */ { $$ = nil } ; non_empty_parameter_list: parameter { $$ = []node.Node{$1} } | non_empty_parameter_list ',' parameter { $$ = append($1, $3) } ; parameter: optional_class_type is_reference is_variadic T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($4.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($4)) comments.AddComments($$, $4.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($4)) comments.AddComments($$, $4.Comments()) $$ = node.NewParameter($1, variable, nil, $2.value, $3.value) if $1 != nil { positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } else if $2.value == true { positions.AddPosition($$, positionBuilder.NewTokensPosition(*$2.token, $4)) comments.AddComments($$, $2.token.Comments()) } else if $3.value == true { positions.AddPosition($$, positionBuilder.NewTokensPosition(*$3.token, $4)) comments.AddComments($$, $3.token.Comments()) } else { positions.AddPosition($$, positionBuilder.NewTokenPosition($4)) comments.AddComments($$, $4.Comments()) } } | optional_class_type is_reference is_variadic T_VARIABLE '=' static_scalar { identifier := node.NewIdentifier(strings.TrimLeft($4.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($4)) comments.AddComments(identifier, $4.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($4)) comments.AddComments(variable, $4.Comments()) $$ = node.NewParameter($1, variable, $6, $2.value, $3.value) if $1 != nil { positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $6)) comments.AddComments($$, comments[$1]) } else if $2.value == true { positions.AddPosition($$, positionBuilder.NewTokenNodePosition(*$2.token, $6)) comments.AddComments($$, $2.token.Comments()) } else if $3.value == true { positions.AddPosition($$, positionBuilder.NewTokenNodePosition(*$3.token, $6)) comments.AddComments($$, $3.token.Comments()) } else { positions.AddPosition($$, positionBuilder.NewTokenNodePosition($4, $6)) comments.AddComments($$, $4.Comments()) } } ; optional_class_type: /* empty */ { $$ = nil } | T_ARRAY { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_CALLABLE { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | fully_qualified_class_name { $$ = $1 } ; function_call_parameter_list: '(' ')' { $$ = &nodesWithEndToken{[]node.Node{}, $2} } | '(' non_empty_function_call_parameter_list ')' { $$ = &nodesWithEndToken{$2, $3} } | '(' yield_expr ')' { arg := node.NewArgument($2, false, false) positions.AddPosition(arg, positionBuilder.NewNodePosition($2)) comments.AddComments(arg, comments[$2]) $$ = &nodesWithEndToken{[]node.Node{arg}, $3} } ; non_empty_function_call_parameter_list: function_call_parameter { $$ = []node.Node{$1} } | non_empty_function_call_parameter_list ',' function_call_parameter { $$ = append($1, $3) } ; function_call_parameter: expr_without_variable { $$ = node.NewArgument($1, false, false) positions.AddPosition($$, positionBuilder.NewNodePosition($1)) comments.AddComments($$, comments[$1]) } | variable { $$ = node.NewArgument($1, false, false) positions.AddPosition($$, positionBuilder.NewNodePosition($1)) comments.AddComments($$, comments[$1]) } | '&' w_variable { $$ = node.NewArgument($2, false, true) positions.AddPosition($$, positionBuilder.NewNodePosition($2)) comments.AddComments($$, $1.Comments()) } | T_ELLIPSIS expr { $$ = node.NewArgument($2, true, false) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; global_var_list: global_var_list ',' global_var { $$ = append($1, $3) } | global_var { $$ = []node.Node{$1} } ; global_var: T_VARIABLE { name := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) $$ = expr.NewVariable(name) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) comments.AddComments($$, $1.Comments()) } | '$' r_variable { $$ = expr.NewVariable($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '$' '{' expr '}' { $$ = expr.NewVariable($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; static_var_list: static_var_list ',' T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($3.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($3)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($3)) staticVar := stmt.NewStaticVar(variable, nil) positions.AddPosition(staticVar, positionBuilder.NewTokenPosition($3)) $$ = append($1, staticVar) comments.AddComments(identifier, $3.Comments()) comments.AddComments(variable, $3.Comments()) comments.AddComments(staticVar, $3.Comments()) } | static_var_list ',' T_VARIABLE '=' static_scalar { identifier := node.NewIdentifier(strings.TrimLeft($3.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($3)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($3)) staticVar := stmt.NewStaticVar(variable, $5) positions.AddPosition(staticVar, positionBuilder.NewTokenNodePosition($3, $5)) $$ = append($1, staticVar) comments.AddComments(identifier, $3.Comments()) comments.AddComments(variable, $3.Comments()) comments.AddComments(staticVar, $3.Comments()) } | T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) staticVar := stmt.NewStaticVar(variable, nil) positions.AddPosition(staticVar, positionBuilder.NewTokenPosition($1)) $$ = []node.Node{staticVar} comments.AddComments(identifier, $1.Comments()) comments.AddComments(variable, $1.Comments()) comments.AddComments(staticVar, $1.Comments()) } | T_VARIABLE '=' static_scalar { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) staticVar := stmt.NewStaticVar(variable, $3) positions.AddPosition(staticVar, positionBuilder.NewTokenNodePosition($1, $3)) $$ = []node.Node{staticVar} comments.AddComments(identifier, $1.Comments()) comments.AddComments(variable, $1.Comments()) comments.AddComments(staticVar, $1.Comments()) } ; class_statement_list: class_statement_list class_statement { $$ = append($1, $2) } | /* empty */ { $$ = []node.Node{} } ; class_statement: variable_modifiers class_variable_declaration ';' { $$ = stmt.NewPropertyList($1, $2) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($1, $3)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | class_constant_declaration ';' { $$ = $1 } | trait_use_statement { $$ = $1 } | method_modifiers function is_reference T_STRING '(' parameter_list ')' method_body { name := node.NewIdentifier($4.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($4)) comments.AddComments(name, $4.Comments()) $$ = stmt.NewClassMethod(name, $1, $3.value, $6, nil, $8.nodes, "") positions.AddPosition($$, positionBuilder.NewOptionalListTokensPosition($1, $2, $8.endToken)) comments.AddComments($$, ListGetFirstNodeComments($1)) } ; trait_use_statement: T_USE trait_list trait_adaptations { $$ = stmt.NewTraitUse($2, $3.nodes) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3.endToken)) comments.AddComments($$, $1.Comments()) } ; trait_list: fully_qualified_class_name { $$ = []node.Node{$1} } | trait_list ',' fully_qualified_class_name { $$ = append($1, $3) } ; trait_adaptations: ';' { $$ = &nodesWithEndToken{nil, $1} } | '{' trait_adaptation_list '}' { $$ = &nodesWithEndToken{$2, $3} } ; trait_adaptation_list: /* empty */ { $$ = nil } | non_empty_trait_adaptation_list { $$ = $1 } ; non_empty_trait_adaptation_list: trait_adaptation_statement { $$ = []node.Node{$1} } | non_empty_trait_adaptation_list trait_adaptation_statement { $$ = append($1, $2) } ; trait_adaptation_statement: trait_precedence ';' { $$ = $1 } | trait_alias ';' { $$ = $1 } ; trait_precedence: trait_method_reference_fully_qualified T_INSTEADOF trait_reference_list { $$ = stmt.NewTraitUsePrecedence($1, $3) positions.AddPosition($$, positionBuilder.NewNodeNodeListPosition($1, $3)) comments.AddComments($$, comments[$1]) } ; trait_reference_list: fully_qualified_class_name { $$ = []node.Node{$1} } | trait_reference_list ',' fully_qualified_class_name { $$ = append($1, $3) } ; trait_method_reference: T_STRING { name := node.NewIdentifier($1.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) $$ = stmt.NewTraitMethodRef(nil, name) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | trait_method_reference_fully_qualified { $$ = $1 } ; trait_method_reference_fully_qualified: fully_qualified_class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) comments.AddComments(target, $3.Comments()) $$ = stmt.NewTraitMethodRef($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments($$, comments[$1]) } ; trait_alias: trait_method_reference T_AS trait_modifiers T_STRING { alias := node.NewIdentifier($4.Value) positions.AddPosition(alias, positionBuilder.NewTokenPosition($4)) $$ = stmt.NewTraitUseAlias($1, $3, alias) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments(alias, $4.Comments()) comments.AddComments($$, comments[$1]) } | trait_method_reference T_AS member_modifier { $$ = stmt.NewTraitUseAlias($1, $3, nil) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } ; trait_modifiers: /* empty */ { $$ = nil } | member_modifier { $$ = $1 } ; method_body: ';' /* abstract method */ { $$ = &nodesWithEndToken{nil, $1} } | '{' inner_statement_list '}' { $$ = &nodesWithEndToken{$2, $3} } ; variable_modifiers: non_empty_member_modifiers { $$ = $1; } | T_VAR { modifier := node.NewIdentifier($1.Value) positions.AddPosition(modifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(modifier, $1.Comments()) $$ = []node.Node{modifier} } ; method_modifiers: /* empty */ { $$ = nil } | non_empty_member_modifiers { $$ = $1 } ; non_empty_member_modifiers: member_modifier { $$ = []node.Node{$1} } | non_empty_member_modifiers member_modifier { $$ = append($1, $2) } ; member_modifier: T_PUBLIC { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_PROTECTED { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_PRIVATE { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_STATIC { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_ABSTRACT { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_FINAL { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } ; class_variable_declaration: class_variable_declaration ',' T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($3.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($3)) comments.AddComments(identifier, $3.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($3)) comments.AddComments(variable, $3.Comments()) property := stmt.NewProperty(variable, nil, "") positions.AddPosition(property, positionBuilder.NewTokenPosition($3)) comments.AddComments(property, $3.Comments()) $$ = append($1, property) } | class_variable_declaration ',' T_VARIABLE '=' static_scalar { identifier := node.NewIdentifier(strings.TrimLeft($3.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($3)) comments.AddComments(identifier, $3.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($3)) comments.AddComments(variable, $3.Comments()) property := stmt.NewProperty(variable, $5, "") positions.AddPosition(property, positionBuilder.NewTokenNodePosition($3, $5)) comments.AddComments(property, $3.Comments()) $$ = append($1, property) } | T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(identifier, $1.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) comments.AddComments(variable, $1.Comments()) property := stmt.NewProperty(variable, nil, "") positions.AddPosition(property, positionBuilder.NewTokenPosition($1)) comments.AddComments(property, $1.Comments()) $$ = []node.Node{property} } | T_VARIABLE '=' static_scalar { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(identifier, $1.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) comments.AddComments(variable, $1.Comments()) property := stmt.NewProperty(variable, $3, "") positions.AddPosition(property, positionBuilder.NewTokenNodePosition($1, $3)) comments.AddComments(property, $1.Comments()) $$ = []node.Node{property} } ; class_constant_declaration: class_constant_declaration ',' T_STRING '=' static_scalar { name := node.NewIdentifier($3.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($3)) comments.AddComments(name, $3.Comments()) constant := stmt.NewConstant(name, $5, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($3, $5)) comments.AddComments(constant, $3.Comments()) $1.(*stmt.ClassConstList).Consts = append($1.(*stmt.ClassConstList).Consts, constant) positions.AddPosition($1, positionBuilder.NewNodesPosition($1, $5)) $$ = $1 } | T_CONST T_STRING '=' static_scalar { name := node.NewIdentifier($2.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($2)) comments.AddComments(name, $2.Comments()) constant := stmt.NewConstant(name, $4, "") positions.AddPosition(constant, positionBuilder.NewTokenNodePosition($2, $4)) comments.AddComments(constant, $2.Comments()) $$ = stmt.NewClassConstList(nil, []node.Node{constant}) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; echo_expr_list: echo_expr_list ',' expr { $$ = append($1, $3) } | expr { $$ = []node.Node{$1} } ; for_expr: /* empty */ { $$ = nil } | non_empty_for_expr { $$ = $1 } ; non_empty_for_expr: non_empty_for_expr ',' expr { $$ = append($1, $3) } | expr { $$ = []node.Node{$1} } ; chaining_method_or_property: chaining_method_or_property variable_property { $$ = append($1, $2...) } | variable_property { $$ = $1 } ; chaining_dereference: chaining_dereference '[' dim_offset ']' { fetch := expr.NewArrayDimFetch(nil, $3) positions.AddPosition(fetch, positionBuilder.NewNodePosition($3)) $$ = append($1, fetch) } | '[' dim_offset ']' { fetch := expr.NewArrayDimFetch(nil, $2) positions.AddPosition(fetch, positionBuilder.NewNodePosition($2)) $$ = []node.Node{fetch} } ; chaining_instance_call: chaining_dereference chaining_method_or_property { $$ = append($1, $2...) } | chaining_dereference { $$ = $1 } | chaining_method_or_property { $$ = $1 } ; instance_call: /* empty */ { $$ = nil } | chaining_instance_call { $$ = $1 } ; new_expr: T_NEW class_name_reference ctor_arguments { if $3 != nil { $$ = expr.NewNew($2, $3.nodes) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3.endToken)) } else { $$ = expr.NewNew($2, nil) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) } comments.AddComments($$, $1.Comments()) } ; expr_without_variable: T_LIST '(' assignment_list ')' '=' expr { list := expr.NewList($3) positions.AddPosition(list, positionBuilder.NewTokensPosition($1, $4)) $$ = assign.NewAssign(list, $6) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $6)) comments.AddComments(list, $1.Comments()) comments.AddComments($$, $1.Comments()) } | variable '=' expr { $$ = assign.NewAssign($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable '=' '&' variable { $$ = assign.NewReference($1, $4) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $4)) comments.AddComments($$, comments[$1]) } | variable '=' '&' T_NEW class_name_reference ctor_arguments { _new := expr.NewNew($5, nil) positions.AddPosition(_new, positionBuilder.NewTokenNodePosition($4, $5)) if $6 != nil { _new = expr.NewNew($5, $6.nodes) positions.AddPosition(_new, positionBuilder.NewTokensPosition($4, $6.endToken)) } comments.AddComments(_new, comments[$1]) $$ = assign.NewReference($1, _new) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, _new)) comments.AddComments($$, comments[$1]) } | T_CLONE expr { $$ = expr.NewClone($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | variable T_PLUS_EQUAL expr { $$ = assign.NewPlus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_MINUS_EQUAL expr { $$ = assign.NewMinus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_MUL_EQUAL expr { $$ = assign.NewMul($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_POW_EQUAL expr { $$ = assign.NewPow($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_DIV_EQUAL expr { $$ = assign.NewDiv($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_CONCAT_EQUAL expr { $$ = assign.NewConcat($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_MOD_EQUAL expr { $$ = assign.NewMod($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_AND_EQUAL expr { $$ = assign.NewBitwiseAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_OR_EQUAL expr { $$ = assign.NewBitwiseOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_XOR_EQUAL expr { $$ = assign.NewBitwiseXor($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_SL_EQUAL expr { $$ = assign.NewShiftLeft($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable T_SR_EQUAL expr { $$ = assign.NewShiftRight($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | rw_variable T_INC { $$ = expr.NewPostInc($1) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $2)) comments.AddComments($$, comments[$1]) } | T_INC rw_variable { $$ = expr.NewPreInc($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | rw_variable T_DEC { $$ = expr.NewPostDec($1) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $2)) comments.AddComments($$, comments[$1]) } | T_DEC rw_variable { $$ = expr.NewPreDec($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | expr T_BOOLEAN_OR expr { $$ = binary.NewBooleanOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_BOOLEAN_AND expr { $$ = binary.NewBooleanAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_LOGICAL_OR expr { $$ = binary.NewLogicalOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_LOGICAL_AND expr { $$ = binary.NewLogicalAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_LOGICAL_XOR expr { $$ = binary.NewLogicalXor($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '|' expr { $$ = binary.NewBitwiseOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '&' expr { $$ = binary.NewBitwiseAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '^' expr { $$ = binary.NewBitwiseXor($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '.' expr { $$ = binary.NewConcat($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '+' expr { $$ = binary.NewPlus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '-' expr { $$ = binary.NewMinus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '*' expr { $$ = binary.NewMul($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_POW expr { $$ = binary.NewPow($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '/' expr { $$ = binary.NewDiv($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '%' expr { $$ = binary.NewMod($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_SL expr { $$ = binary.NewShiftLeft($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_SR expr { $$ = binary.NewShiftRight($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | '+' expr %prec T_INC { $$ = expr.NewUnaryPlus($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '-' expr %prec T_INC { $$ = expr.NewUnaryMinus($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '!' expr { $$ = expr.NewBooleanNot($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '~' expr { $$ = expr.NewBitwiseNot($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | expr T_IS_IDENTICAL expr { $$ = binary.NewIdentical($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_IS_NOT_IDENTICAL expr { $$ = binary.NewNotIdentical($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_IS_EQUAL expr { $$ = binary.NewEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_IS_NOT_EQUAL expr { $$ = binary.NewNotEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '<' expr { $$ = binary.NewSmaller($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_IS_SMALLER_OR_EQUAL expr { $$ = binary.NewSmallerOrEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr '>' expr { $$ = binary.NewGreater($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_IS_GREATER_OR_EQUAL expr { $$ = binary.NewGreaterOrEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | expr T_INSTANCEOF class_name_reference { $$ = expr.NewInstanceOf($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | parenthesis_expr { $$ = $1 } | new_expr { $$ = $1 } | '(' new_expr ')' instance_call { $$ = $2 for _, n := range($4) { switch nn := n.(type) { case *expr.ArrayDimFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, $1.Comments()) $$ = nn case *expr.PropertyFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, $1.Comments()) $$ = nn case *expr.MethodCall: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, $1.Comments()) $$ = nn } } } | expr '?' expr ':' expr { $$ = expr.NewTernary($1, $3, $5) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $5)) comments.AddComments($$, comments[$1]) } | expr '?' ':' expr { $$ = expr.NewTernary($1, nil, $4) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $4)) comments.AddComments($$, comments[$1]) } | internal_functions_in_yacc { $$ = $1 } | T_INT_CAST expr { $$ = cast.NewInt($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_DOUBLE_CAST expr { $$ = cast.NewDouble($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_STRING_CAST expr { $$ = cast.NewString($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_ARRAY_CAST expr { $$ = cast.NewArray($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_OBJECT_CAST expr { $$ = cast.NewObject($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_BOOL_CAST expr { $$ = cast.NewBool($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_UNSET_CAST expr { $$ = cast.NewUnset($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_EXIT exit_expr { if (strings.EqualFold($1.Value, "die")) { $$ = expr.NewDie($2) } else { $$ = expr.NewExit($2) } positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '@' expr { $$ = expr.NewErrorSuppress($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | scalar { $$ = $1 } | combined_scalar_offset { $$ = $1 } | combined_scalar { $$ = $1 } | '`' backticks_expr '`' { $$ = expr.NewShellExec($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_PRINT expr { $$ = expr.NewPrint($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_YIELD { $$ = expr.NewYield(nil, nil) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | function is_reference '(' parameter_list ')' lexical_vars '{' inner_statement_list '}' { $$ = expr.NewClosure($4, $6, nil, $8, false, $2.value, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $9)) comments.AddComments($$, $1.Comments()) } | T_STATIC function is_reference '(' parameter_list ')' lexical_vars '{' inner_statement_list '}' { $$ = expr.NewClosure($5, $7, nil, $9, true, $3.value, "") positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $10)) comments.AddComments($$, $1.Comments()) } ; yield_expr: T_YIELD expr_without_variable { $$ = expr.NewYield(nil, $2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_YIELD variable { $$ = expr.NewYield(nil, $2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_YIELD expr T_DOUBLE_ARROW expr_without_variable { $$ = expr.NewYield($2, $4) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_YIELD expr T_DOUBLE_ARROW variable { $$ = expr.NewYield($2, $4) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; combined_scalar_offset: combined_scalar '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | combined_scalar_offset '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | T_CONSTANT_ENCAPSED_STRING '[' dim_offset ']' { str := scalar.NewString($1.Value) positions.AddPosition(str, positionBuilder.NewTokenPosition($1)) comments.AddComments(str, $1.Comments()) $$ = expr.NewArrayDimFetch(str, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition(str, $4)) comments.AddComments($$, comments[str]) } | general_constant '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } ; combined_scalar: T_ARRAY '(' array_pair_list ')' { $$ = expr.NewArray($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | '[' array_pair_list ']' { $$ = expr.NewShortArray($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } ; function: T_FUNCTION { $$ = $1 } ; lexical_vars: /* empty */ { $$ = []node.Node{} } | T_USE '(' lexical_var_list ')' { $$ = $3; } ; lexical_var_list: lexical_var_list ',' T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($3.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($3)) comments.AddComments(identifier, $3.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($3)) comments.AddComments(variable, $3.Comments()) use := expr.NewClosureUse(variable, false) positions.AddPosition(use, positionBuilder.NewTokenPosition($3)) comments.AddComments(use, $3.Comments()) $$ = append($1, use) } | lexical_var_list ',' '&' T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($4.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($4)) comments.AddComments(identifier, $4.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($4)) comments.AddComments(variable, $3.Comments()) use := expr.NewClosureUse(variable, true) positions.AddPosition(use, positionBuilder.NewTokensPosition($3, $4)) comments.AddComments(use, $3.Comments()) $$ = append($1, use) } | T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) comments.AddComments(identifier, $1.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) comments.AddComments(variable, $1.Comments()) use := expr.NewClosureUse(variable, false) positions.AddPosition(use, positionBuilder.NewTokenPosition($1)) comments.AddComments(use, $1.Comments()) $$ = []node.Node{use} } | '&' T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($2.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($2)) comments.AddComments(identifier, $2.Comments()) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($2)) comments.AddComments(variable, $1.Comments()) use := expr.NewClosureUse(variable, true) positions.AddPosition(use, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments(use, $1.Comments()) $$ = []node.Node{use} } ; function_call: namespace_name function_call_parameter_list { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) $$ = expr.NewFunctionCall(name, $2.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition(name, $2.endToken)) comments.AddComments($$, comments[name]) } | T_NAMESPACE T_NS_SEPARATOR namespace_name function_call_parameter_list { funcName := name.NewRelative($3) positions.AddPosition(funcName, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments(funcName, $1.Comments()) $$ = expr.NewFunctionCall(funcName, $4.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition(funcName, $4.endToken)) comments.AddComments($$, comments[funcName]) } | T_NS_SEPARATOR namespace_name function_call_parameter_list { funcName := name.NewFullyQualified($2) positions.AddPosition(funcName, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments(funcName, $1.Comments()) $$ = expr.NewFunctionCall(funcName, $3.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition(funcName, $3.endToken)) comments.AddComments($$, comments[funcName]) } | class_name T_PAAMAYIM_NEKUDOTAYIM variable_name function_call_parameter_list { $$ = expr.NewStaticCall($1, $3, $4.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4.endToken)) comments.AddComments($$, comments[$1]) } | class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects function_call_parameter_list { $$ = expr.NewStaticCall($1, $3, $4.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4.endToken)) comments.AddComments($$, comments[$1]) } | variable_class_name T_PAAMAYIM_NEKUDOTAYIM variable_name function_call_parameter_list { $$ = expr.NewStaticCall($1, $3, $4.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4.endToken)) comments.AddComments($$, comments[$1]) } | variable_class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects function_call_parameter_list { $$ = expr.NewStaticCall($1, $3, $4.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4.endToken)) comments.AddComments($$, comments[$1]) } | variable_without_objects function_call_parameter_list { $$ = expr.NewFunctionCall($1, $2.nodes) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $2.endToken)) comments.AddComments($$, comments[$1]) } ; class_name: T_STATIC { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | namespace_name { $$ = name.NewName($1) positions.AddPosition($$, positionBuilder.NewNodeListPosition($1)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | T_NAMESPACE T_NS_SEPARATOR namespace_name { $$ = name.NewRelative($3) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_NS_SEPARATOR namespace_name { $$ = name.NewFullyQualified($2) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; fully_qualified_class_name: namespace_name { $$ = name.NewName($1) positions.AddPosition($$, positionBuilder.NewNodeListPosition($1)) comments.AddComments($$, ListGetFirstNodeComments($1)) } | T_NAMESPACE T_NS_SEPARATOR namespace_name { $$ = name.NewRelative($3) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_NS_SEPARATOR namespace_name { $$ = name.NewFullyQualified($2) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; class_name_reference: class_name { $$ = $1 } | dynamic_class_name_reference { $$ = $1 } ; dynamic_class_name_reference: base_variable T_OBJECT_OPERATOR object_property dynamic_class_name_variable_properties { $$ = $1 for _, n := range($3) { switch nn := n.(type) { case *expr.ArrayDimFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.PropertyFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn } } for _, n := range($4) { switch nn := n.(type) { case *expr.ArrayDimFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.PropertyFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn } } } | base_variable { $$ = $1 } ; dynamic_class_name_variable_properties: dynamic_class_name_variable_properties dynamic_class_name_variable_property { $$ = append($1, $2...) } | /* empty */ { $$ = []node.Node{} } ; dynamic_class_name_variable_property: T_OBJECT_OPERATOR object_property { $$ = $2 } ; exit_expr: /* empty */ { $$ = nil } | '(' ')' { $$ = nil } | parenthesis_expr { $$ = $1 } ; backticks_expr: /* empty */ { $$ = []node.Node{} } | T_ENCAPSED_AND_WHITESPACE { $$ = []node.Node{scalar.NewEncapsedStringPart($1.Value)} } | encaps_list { $$ = $1; } ; ctor_arguments: /* empty */ { $$ = nil } | function_call_parameter_list { $$ = $1 } ; common_scalar: T_LNUMBER { $$ = scalar.NewLnumber($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_DNUMBER { $$ = scalar.NewDnumber($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_CONSTANT_ENCAPSED_STRING { $$ = scalar.NewString($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_LINE { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_FILE { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_DIR { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_TRAIT_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_METHOD_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_FUNC_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_NS_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_START_HEREDOC T_ENCAPSED_AND_WHITESPACE T_END_HEREDOC { $$ = scalar.NewString($2.Value) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3))/* TODO: mark as Heredoc*/ comments.AddComments($$, $1.Comments()) } | T_START_HEREDOC T_END_HEREDOC { $$ = scalar.NewEncapsed(nil) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; static_class_constant: class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) $$ = expr.NewClassConstFetch($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments(target, $3.Comments()) comments.AddComments($$, comments[$1]) } ; static_scalar: static_scalar_value { $$ = $1 } ; static_scalar_value: common_scalar { $$ = $1 } | static_class_name_scalar { $$ = $1 } | namespace_name { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewNodePosition(name)) comments.AddComments($$, comments[name]) } | T_NAMESPACE T_NS_SEPARATOR namespace_name { name := name.NewRelative($3) positions.AddPosition(name, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments(name, $1.Comments()) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments($$, comments[name]) } | T_NS_SEPARATOR namespace_name { name := name.NewFullyQualified($2) positions.AddPosition(name, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments(name, $1.Comments()) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments($$, comments[name]) } | T_ARRAY '(' static_array_pair_list ')' { $$ = expr.NewArray($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | '[' static_array_pair_list ']' { $$ = expr.NewShortArray($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | static_class_constant { $$ = $1 } | T_CLASS_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | static_operation { $$ = $1 } ; static_operation: static_scalar_value '[' static_scalar_value ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | static_scalar_value '+' static_scalar_value { $$ = binary.NewPlus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '-' static_scalar_value { $$ = binary.NewMinus($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '*' static_scalar_value { $$ = binary.NewMul($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_POW static_scalar_value { $$ = binary.NewPow($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '/' static_scalar_value { $$ = binary.NewDiv($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '%' static_scalar_value { $$ = binary.NewMod($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | '!' static_scalar_value { $$ = expr.NewBooleanNot($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '~' static_scalar_value { $$ = expr.NewBitwiseNot($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | static_scalar_value '|' static_scalar_value { $$ = binary.NewBitwiseOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '&' static_scalar_value { $$ = binary.NewBitwiseAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '^' static_scalar_value { $$ = binary.NewBitwiseXor($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_SL static_scalar_value { $$ = binary.NewShiftLeft($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_SR static_scalar_value { $$ = binary.NewShiftRight($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '.' static_scalar_value { $$ = binary.NewConcat($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_LOGICAL_XOR static_scalar_value { $$ = binary.NewLogicalXor($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_LOGICAL_AND static_scalar_value { $$ = binary.NewLogicalAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_LOGICAL_OR static_scalar_value { $$ = binary.NewLogicalOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_BOOLEAN_AND static_scalar_value { $$ = binary.NewBooleanAnd($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_BOOLEAN_OR static_scalar_value { $$ = binary.NewBooleanOr($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_IDENTICAL static_scalar_value { $$ = binary.NewIdentical($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_NOT_IDENTICAL static_scalar_value { $$ = binary.NewNotIdentical($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_EQUAL static_scalar_value { $$ = binary.NewEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_NOT_EQUAL static_scalar_value { $$ = binary.NewNotEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '<' static_scalar_value { $$ = binary.NewSmaller($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '>' static_scalar_value { $$ = binary.NewGreater($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_SMALLER_OR_EQUAL static_scalar_value { $$ = binary.NewSmallerOrEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value T_IS_GREATER_OR_EQUAL static_scalar_value { $$ = binary.NewGreaterOrEqual($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | static_scalar_value '?' ':' static_scalar_value { $$ = expr.NewTernary($1, nil, $4) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $4)) comments.AddComments($$, comments[$1]) } | static_scalar_value '?' static_scalar_value ':' static_scalar_value { $$ = expr.NewTernary($1, $3, $5) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $5)) comments.AddComments($$, comments[$1]) } | '+' static_scalar_value { $$ = expr.NewUnaryPlus($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '-' static_scalar_value { $$ = expr.NewUnaryMinus($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | '(' static_scalar_value ')' { $$ = $2 } ; general_constant: class_constant { $$ = $1 } | namespace_name { name := name.NewName($1) positions.AddPosition(name, positionBuilder.NewNodeListPosition($1)) comments.AddComments(name, ListGetFirstNodeComments($1)) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewNodePosition(name)) comments.AddComments($$, comments[name]) } | T_NAMESPACE T_NS_SEPARATOR namespace_name { name := name.NewRelative($3) positions.AddPosition(name, positionBuilder.NewTokenNodeListPosition($1, $3)) comments.AddComments(name, $1.Comments()) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewNodePosition(name)) comments.AddComments($$, comments[name]) } | T_NS_SEPARATOR namespace_name { name := name.NewFullyQualified($2) positions.AddPosition(name, positionBuilder.NewTokenNodeListPosition($1, $2)) comments.AddComments(name, $1.Comments()) $$ = expr.NewConstFetch(name) positions.AddPosition($$, positionBuilder.NewNodePosition(name)) comments.AddComments($$, comments[name]) } ; scalar: T_STRING_VARNAME { name := node.NewIdentifier($1.Value) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) $$ = expr.NewVariable(name) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) comments.AddComments($$, $1.Comments()) } | general_constant { $$ = $1 } | class_name_scalar { $$ = $1 } | common_scalar { $$ = $1 } | '"' encaps_list '"' { $$ = scalar.NewEncapsed($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_START_HEREDOC encaps_list T_END_HEREDOC { $$ = scalar.NewEncapsed($2) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_CLASS_C { $$ = scalar.NewMagicConstant($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } ; static_array_pair_list: /* empty */ { $$ = nil } | non_empty_static_array_pair_list possible_comma { $$ = $1 } ; possible_comma: /* empty */ | ',' ; non_empty_static_array_pair_list: non_empty_static_array_pair_list ',' static_scalar_value T_DOUBLE_ARROW static_scalar_value { arrayItem := expr.NewArrayItem($3, $5, false) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($3, $5)) comments.AddComments(arrayItem, comments[$3]) $$ = append($1, arrayItem) } | non_empty_static_array_pair_list ',' static_scalar_value { arrayItem := expr.NewArrayItem(nil, $3, false) positions.AddPosition(arrayItem, positionBuilder.NewNodePosition($3)) comments.AddComments(arrayItem, comments[$3]) $$ = append($1, arrayItem) } | static_scalar_value T_DOUBLE_ARROW static_scalar_value { arrayItem := expr.NewArrayItem($1, $3, false) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments(arrayItem, comments[$1]) $$ = []node.Node{arrayItem} } | static_scalar_value { arrayItem := expr.NewArrayItem(nil, $1, false) positions.AddPosition(arrayItem, positionBuilder.NewNodePosition($1)) comments.AddComments(arrayItem, comments[$1]) $$ = []node.Node{arrayItem} } ; expr: r_variable { $$ = $1 } | expr_without_variable { $$ = $1 } ; parenthesis_expr: '(' expr ')' { $$ = $2 } | '(' yield_expr ')' { $$ = $2 } ; r_variable: variable { $$ = $1 } ; w_variable: variable { $$ = $1 } ; rw_variable: variable { $$ = $1 } ; variable: base_variable_with_function_calls T_OBJECT_OPERATOR object_property method_or_not variable_properties { $$ = $1 if $4 != nil { $4[0].(*expr.MethodCall).Method = $3[len($3)-1].(*expr.PropertyFetch).Property $3 = append($3[:len($3)-1], $4...) } for _, n := range($3) { switch nn := n.(type) { case *expr.ArrayDimFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.PropertyFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.MethodCall: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn } } for _, n := range($5) { switch nn := n.(type) { case *expr.ArrayDimFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.PropertyFetch: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn case *expr.MethodCall: nn.Variable = $$ positions.AddPosition($$, positionBuilder.NewNodesPosition($$, nn)) comments.AddComments(nn, comments[$1]) $$ = nn } } } | base_variable_with_function_calls { $$ = $1 } ; variable_properties: variable_properties variable_property { $$ = append($1, $2...) } | /* empty */ { $$ = []node.Node{} } ; variable_property: T_OBJECT_OPERATOR object_property method_or_not { if $3 != nil { $3[0].(*expr.MethodCall).Method = $2[len($2)-1].(*expr.PropertyFetch).Property $2 = append($2[:len($2)-1], $3...) } $$ = $2 } ; array_method_dereference: array_method_dereference '[' dim_offset ']' { fetch := expr.NewArrayDimFetch(nil, $3) positions.AddPosition(fetch, positionBuilder.NewNodePosition($3)) $$ = append($1, fetch) } | method '[' dim_offset ']' { fetch := expr.NewArrayDimFetch(nil, $3) positions.AddPosition(fetch, positionBuilder.NewNodePosition($3)) $$ = []node.Node{$1, fetch} } ; method: function_call_parameter_list { $$ = expr.NewMethodCall(nil, nil, $1.nodes) positions.AddPosition($$, positionBuilder.NewNodeListTokenPosition($1.nodes, $1.endToken)) } ; method_or_not: method { $$ = []node.Node{$1} } | array_method_dereference { $$ = $1 } | /* empty */ { $$ = nil } ; variable_without_objects: reference_variable { $$ = $1 } | simple_indirect_reference reference_variable { $1.last.SetVarName($2) for _, n := range($1.all) { positions[n] = positionBuilder.NewNodesPosition(n, $2) } $$ = $1.all[0] } ; static_member: class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects { $$ = expr.NewStaticPropertyFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } | variable_class_name T_PAAMAYIM_NEKUDOTAYIM variable_without_objects { $$ = expr.NewStaticPropertyFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments($$, comments[$1]) } ; variable_class_name: reference_variable { $$ = $1 } ; array_function_dereference: array_function_dereference '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | function_call '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } ; base_variable_with_function_calls: base_variable { $$ = $1 } | array_function_dereference { $$ = $1 } | function_call { $$ = $1 } ; base_variable: reference_variable { $$ = $1 } | simple_indirect_reference reference_variable { $1.last.SetVarName($2) for _, n := range($1.all) { positions[n] = positionBuilder.NewNodesPosition(n, $2) } $$ = $1.all[0] } | static_member { $$ = $1 } ; reference_variable: reference_variable '[' dim_offset ']' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | reference_variable '{' expr '}' { $$ = expr.NewArrayDimFetch($1, $3) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $4)) comments.AddComments($$, comments[$1]) } | compound_variable { $$ = $1 } ; compound_variable: T_VARIABLE { name := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) $$ = expr.NewVariable(name) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) comments.AddComments($$, $1.Comments()) } | '$' '{' expr '}' { $$ = expr.NewVariable($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } ; dim_offset: /* empty */ { $$ = nil } | expr { $$ = $1 } ; object_property: object_dim_list { $$ = $1 } | variable_without_objects { fetch := expr.NewPropertyFetch(nil, $1) positions.AddPosition(fetch, positionBuilder.NewNodePosition($1)) $$ = []node.Node{fetch} } ; object_dim_list: object_dim_list '[' dim_offset ']' { fetch := expr.NewArrayDimFetch(nil, $3) positions.AddPosition(fetch, positionBuilder.NewNodePosition($3)) $$ = append($1, fetch) } | object_dim_list '{' expr '}' { fetch := expr.NewArrayDimFetch(nil, $3) positions.AddPosition(fetch, positionBuilder.NewNodePosition($3)) $$ = append($1, fetch) } | variable_name { fetch := expr.NewPropertyFetch(nil, $1) positions.AddPosition(fetch, positionBuilder.NewNodePosition($1)) $$ = []node.Node{fetch} } ; variable_name: T_STRING { $$ = node.NewIdentifier($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | '{' expr '}' { $$ = $2 } ; simple_indirect_reference: '$' { n := expr.NewVariable(nil) positions.AddPosition(n, positionBuilder.NewTokenPosition($1)) comments.AddComments(n, $1.Comments()) $$ = simpleIndirectReference{[]*expr.Variable{n}, n} } | simple_indirect_reference '$' { n := expr.NewVariable(nil) positions.AddPosition(n, positionBuilder.NewTokenPosition($2)) comments.AddComments(n, $2.Comments()) $1.last.SetVarName(n) $1.all = append($1.all, n) $1.last = n $$ = $1 } ; assignment_list: assignment_list ',' assignment_list_element { $$ = append($1, $3) } | assignment_list_element { if $1 == nil { $$ = []node.Node{} } else { $$ = []node.Node{$1} } } ; assignment_list_element: variable { $$ = expr.NewArrayItem(nil, $1, false) positions.AddPosition($$, positionBuilder.NewNodePosition($1)) comments.AddComments($$, comments[$1]) } | T_LIST '(' assignment_list ')' { item := expr.NewList($3) positions.AddPosition(item, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments(item, $1.Comments()) $$ = expr.NewArrayItem(nil, item, false) positions.AddPosition($$, positionBuilder.NewNodePosition(item)) comments.AddComments($$, comments[item]) } | /* empty */ { $$ = nil } ; array_pair_list: /* empty */ { $$ = []node.Node{} } | non_empty_array_pair_list possible_comma { $$ = $1 } ; non_empty_array_pair_list: non_empty_array_pair_list ',' expr T_DOUBLE_ARROW expr { arrayItem := expr.NewArrayItem($3, $5, false) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($3, $5)) comments.AddComments(arrayItem, comments[$3]) $$ = append($1, arrayItem) } | non_empty_array_pair_list ',' expr { arrayItem := expr.NewArrayItem(nil, $3, false) positions.AddPosition(arrayItem, positionBuilder.NewNodePosition($3)) comments.AddComments(arrayItem, comments[$3]) $$ = append($1, arrayItem) } | expr T_DOUBLE_ARROW expr { arrayItem := expr.NewArrayItem($1, $3, false) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($1, $3)) comments.AddComments(arrayItem, comments[$1]) $$ = []node.Node{arrayItem} } | expr { arrayItem := expr.NewArrayItem(nil, $1, false) positions.AddPosition(arrayItem, positionBuilder.NewNodePosition($1)) comments.AddComments(arrayItem, comments[$1]) $$ = []node.Node{arrayItem} } | non_empty_array_pair_list ',' expr T_DOUBLE_ARROW '&' w_variable { arrayItem := expr.NewArrayItem($3, $6, true) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($3, $6)) comments.AddComments(arrayItem, comments[$3]) $$ = append($1, arrayItem) } | non_empty_array_pair_list ',' '&' w_variable { arrayItem := expr.NewArrayItem(nil, $4, true) positions.AddPosition(arrayItem, positionBuilder.NewTokenNodePosition($3, $4)) comments.AddComments(arrayItem, $3.Comments()) $$ = append($1, arrayItem) } | expr T_DOUBLE_ARROW '&' w_variable { arrayItem := expr.NewArrayItem($1, $4, true) positions.AddPosition(arrayItem, positionBuilder.NewNodesPosition($1, $4)) comments.AddComments(arrayItem, comments[$1]) $$ = []node.Node{arrayItem} } | '&' w_variable { arrayItem := expr.NewArrayItem(nil, $2, true) positions.AddPosition(arrayItem, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments(arrayItem, $1.Comments()) $$ = []node.Node{arrayItem} } ; encaps_list: encaps_list encaps_var { $$ = append($1, $2) } | encaps_list T_ENCAPSED_AND_WHITESPACE { encapsed := scalar.NewEncapsedStringPart($2.Value) positions.AddPosition(encapsed, positionBuilder.NewTokenPosition($2)) $$ = append($1, encapsed) comments.AddComments(encapsed, $2.Comments()) } | encaps_var { $$ = []node.Node{$1} } | T_ENCAPSED_AND_WHITESPACE encaps_var { encapsed := scalar.NewEncapsedStringPart($1.Value) positions.AddPosition(encapsed, positionBuilder.NewTokenPosition($1)) $$ = []node.Node{encapsed, $2} comments.AddComments(encapsed, $1.Comments()) } ; encaps_var: T_VARIABLE { name := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(name, positionBuilder.NewTokenPosition($1)) $$ = expr.NewVariable(name) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments(name, $1.Comments()) comments.AddComments($$, $1.Comments()) } | T_VARIABLE '[' encaps_var_offset ']' { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) $$ = expr.NewArrayDimFetch(variable, $3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments(identifier, $1.Comments()) comments.AddComments(variable, $1.Comments()) comments.AddComments($$, $1.Comments()) } | T_VARIABLE T_OBJECT_OPERATOR T_STRING { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($1)) fetch := node.NewIdentifier($3.Value) positions.AddPosition(fetch, positionBuilder.NewTokenPosition($3)) $$ = expr.NewPropertyFetch(variable, fetch) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments(identifier, $1.Comments()) comments.AddComments(variable, $1.Comments()) comments.AddComments(fetch, $3.Comments()) comments.AddComments($$, $1.Comments()) } | T_DOLLAR_OPEN_CURLY_BRACES expr '}' { $$ = $2 positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $3)) comments.AddComments($$, $1.Comments()) } | T_DOLLAR_OPEN_CURLY_BRACES T_STRING_VARNAME '[' expr ']' '}' { identifier := node.NewIdentifier($2.Value) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($2)) variable := expr.NewVariable(identifier) positions.AddPosition(variable, positionBuilder.NewTokenPosition($2)) $$ = expr.NewArrayDimFetch(variable, $4) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $6)) comments.AddComments(identifier, $2.Comments()) comments.AddComments(variable, $1.Comments()) comments.AddComments($$, $1.Comments()) } | T_CURLY_OPEN variable '}' { $$ = $2; } ; encaps_var_offset: T_STRING { $$ = scalar.NewString($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments($$, $1.Comments()) } | T_NUM_STRING { // TODO: add option to handle 64 bit integer if _, err := strconv.Atoi($1.Value); err == nil { $$ = scalar.NewLnumber($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) } else { $$ = scalar.NewString($1.Value) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) } comments.AddComments($$, $1.Comments()) } | T_VARIABLE { identifier := node.NewIdentifier(strings.TrimLeft($1.Value, "$")) positions.AddPosition(identifier, positionBuilder.NewTokenPosition($1)) $$ = expr.NewVariable(identifier) positions.AddPosition($$, positionBuilder.NewTokenPosition($1)) comments.AddComments(identifier, $1.Comments()) comments.AddComments($$, $1.Comments()) } ; internal_functions_in_yacc: T_ISSET '(' isset_variables ')' { $$ = expr.NewIsset($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_EMPTY '(' variable ')' { $$ = expr.NewEmpty($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_EMPTY '(' expr_without_variable ')' { $$ = expr.NewEmpty($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_INCLUDE expr { $$ = expr.NewInclude($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_INCLUDE_ONCE expr { $$ = expr.NewIncludeOnce($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_EVAL '(' expr ')' { $$ = expr.NewEval($3) positions.AddPosition($$, positionBuilder.NewTokensPosition($1, $4)) comments.AddComments($$, $1.Comments()) } | T_REQUIRE expr { $$ = expr.NewRequire($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } | T_REQUIRE_ONCE expr { $$ = expr.NewRequireOnce($2) positions.AddPosition($$, positionBuilder.NewTokenNodePosition($1, $2)) comments.AddComments($$, $1.Comments()) } ; isset_variables: isset_variable { $$ = []node.Node{$1} } | isset_variables ',' isset_variable { $$ = append($1, $3) } ; isset_variable: variable { $$ = $1 } | expr_without_variable { $$ = $1 } ; class_constant: class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) $$ = expr.NewClassConstFetch($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments(target, $3.Comments()) comments.AddComments($$, comments[$1]) } | variable_class_name T_PAAMAYIM_NEKUDOTAYIM T_STRING { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) $$ = expr.NewClassConstFetch($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments(target, $3.Comments()) comments.AddComments($$, comments[$1]) } ; static_class_name_scalar: class_name T_PAAMAYIM_NEKUDOTAYIM T_CLASS { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) $$ = expr.NewClassConstFetch($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments(target, $3.Comments()) comments.AddComments($$, comments[$1]) } ; class_name_scalar: class_name T_PAAMAYIM_NEKUDOTAYIM T_CLASS { target := node.NewIdentifier($3.Value) positions.AddPosition(target, positionBuilder.NewTokenPosition($3)) $$ = expr.NewClassConstFetch($1, target) positions.AddPosition($$, positionBuilder.NewNodeTokenPosition($1, $3)) comments.AddComments(target, $3.Comments()) comments.AddComments($$, comments[$1]) } ; %%