/* valamemberaccess.vala * * Copyright (C) 2006-2012 Jürg Billeter * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Author: * Jürg Billeter */ using GLib; /** * Represents an access to a type member in the source code. */ public class Vala.MemberAccess : Expression { /** * The parent of the member. */ public Expression? inner { get { return _inner; } set { _inner = value; if (_inner != null) { _inner.parent_node = this; } } } /** * The name of the member. */ public string member_name { get; set; } /** * Pointer member access. */ public bool pointer_member_access { get; set; } /** * Represents access to an instance member without an actual instance, * e.g. `MyClass.an_instance_method`. */ public bool prototype_access { get; set; } /** * Requires indirect access due to possible side-effects of parent expression. */ public bool tainted_access { get; set; } /** * Specifies whether the member is used for object creation. */ public bool creation_member { get; set; } /** * Qualified access to global symbol. */ public bool qualified { get; set; } private Expression? _inner; private List type_argument_list = new ArrayList (); bool is_with_variable_access; /** * Creates a new member access expression. * * @param inner parent of the member * @param member_name member name * @param source_reference reference to source code * @return newly created member access expression */ public MemberAccess (Expression? inner, string member_name, SourceReference? source_reference = null) { this.inner = inner; this.member_name = member_name; this.source_reference = source_reference; } public MemberAccess.simple (string member_name, SourceReference? source_reference = null) { this.inner = null; this.member_name = member_name; this.source_reference = source_reference; } public MemberAccess.pointer (Expression inner, string member_name, SourceReference? source_reference = null) { this.inner = inner; this.member_name = member_name; this.source_reference = source_reference; pointer_member_access = true; } /** * Appends the specified type as generic type argument. * * @param arg a type reference */ public void add_type_argument (DataType arg) { type_argument_list.add (arg); arg.parent_node = this; } /** * Returns the list of generic type arguments. * * @return type argument list */ public unowned List get_type_arguments () { return type_argument_list; } public override void accept (CodeVisitor visitor) { visitor.visit_member_access (this); visitor.visit_expression (this); } public override void accept_children (CodeVisitor visitor) { if (inner != null) { inner.accept (visitor); } foreach (DataType type_arg in type_argument_list) { type_arg.accept (visitor); } } public override string to_string () { if (symbol_reference == null || symbol_reference.is_instance_member ()) { if (inner == null) { return member_name; } else { return "%s%s%s".printf (inner.to_string (), pointer_member_access ? "->" : ".", member_name); } } else { // ensure to always use fully-qualified name // to refer to static members return symbol_reference.get_full_name (); } } public override void replace_expression (Expression old_node, Expression new_node) { if (inner == old_node) { inner = new_node; } } public override bool is_pure () { // accessing property could have side-effects return (inner == null || inner.is_pure ()) && !(symbol_reference is Property); } public override bool is_accessible (Symbol sym) { return (inner == null || inner.is_accessible (sym)) && symbol_reference.is_accessible (sym); } public override void replace_type (DataType old_type, DataType new_type) { for (int i = 0; i < type_argument_list.size; i++) { if (type_argument_list[i] == old_type) { type_argument_list[i] = new_type; return; } } } public override bool is_constant () { unowned Method? method = symbol_reference as Method; if (symbol_reference is Constant) { return true; } else if (symbol_reference is ArrayLengthField && inner != null && inner.symbol_reference is Constant) { // length of constant array return true; } else if (method != null && (method.binding == MemberBinding.STATIC || prototype_access)) { return true; } else { return false; } } public override bool is_non_null () { unowned Constant? c = symbol_reference as Constant; if (c != null) { return (c is EnumValue || !c.type_reference.nullable); } else { return false; } } public override void get_error_types (Collection collection, SourceReference? source_reference = null) { if (inner != null) { inner.get_error_types (collection, source_reference); } } public override bool check (CodeContext context) { if (checked) { return !error; } checked = true; if (inner != null) { inner.check (context); } foreach (DataType type_arg in type_argument_list) { type_arg.check (context); } unowned Symbol? base_symbol = null; unowned Parameter? this_parameter = null; bool may_access_instance_members = false; bool may_access_klass_members = false; var visited_types = new ArrayList (); symbol_reference = null; if (qualified) { base_symbol = context.root; symbol_reference = base_symbol.scope.lookup (member_name); } else if (inner == null) { if (member_name == "this") { if (!context.analyzer.is_in_instance_method ()) { error = true; Report.error (source_reference, "This access invalid outside of instance methods"); return false; } } base_symbol = context.analyzer.current_symbol; // track whether method has been found to make sure that access // to instance member is denied from within static lambda expressions bool method_found = false; unowned Symbol? sym = context.analyzer.current_symbol; while (sym != null && symbol_reference == null) { if (!method_found) { if (sym is CreationMethod) { unowned CreationMethod cm = (CreationMethod) sym; this_parameter = cm.this_parameter; may_access_instance_members = true; may_access_klass_members = true; method_found = true; } else if (sym is Property) { unowned Property prop = (Property) sym; this_parameter = prop.this_parameter; may_access_instance_members = (prop.binding == MemberBinding.INSTANCE); may_access_klass_members = (prop.binding != MemberBinding.STATIC); method_found = true; } else if (sym is Constructor) { unowned Constructor c = (Constructor) sym; this_parameter = c.this_parameter; may_access_instance_members = (c.binding == MemberBinding.INSTANCE); may_access_klass_members = true; method_found = true; } else if (sym is Destructor) { unowned Destructor d = (Destructor) sym; this_parameter = d.this_parameter; may_access_instance_members = (d.binding == MemberBinding.INSTANCE); may_access_klass_members = true; method_found = true; } else if (sym is Method) { unowned Method m = (Method) sym; this_parameter = m.this_parameter; may_access_instance_members = (m.binding == MemberBinding.INSTANCE); may_access_klass_members = (m.binding != MemberBinding.STATIC); method_found = true; } } symbol_reference = SemanticAnalyzer.symbol_lookup_inherited (sym, member_name); if (!is_with_variable_access && symbol_reference == null && sym is WithStatement) { unowned WithStatement w = (WithStatement) sym; var variable_type = w.with_variable.variable_type; if (variable_type is PointerType) { variable_type = ((PointerType) variable_type).base_type; } visited_types.add (variable_type); symbol_reference = variable_type.get_member (member_name); if (symbol_reference != null) { inner = new MemberAccess (null, w.with_variable.name, source_reference); ((MemberAccess) inner).is_with_variable_access = true; inner.check (context); may_access_instance_members = true; } } if (symbol_reference == null && sym is TypeSymbol && may_access_instance_members) { // used for generated to_string methods in enums symbol_reference = this_parameter.variable_type.get_member (member_name); if (symbol_reference != null && is_instance_symbol (symbol_reference)) { // implicit this inner = new MemberAccess (null, "this", source_reference); inner.value_type = this_parameter.variable_type.copy (); inner.value_type.value_owned = false; inner.symbol_reference = this_parameter; symbol_reference = inner.value_type.get_member (member_name); } } if (symbol_reference == null) { if (sym is TypeSymbol) { // do not allow instance access to outer classes this_parameter = null; may_access_instance_members = false; may_access_klass_members = false; } } sym = sym.parent_symbol; } if (symbol_reference == null && source_reference != null) { foreach (UsingDirective ns in source_reference.using_directives) { if (ns.error) { // ignore previous error continue; } var local_sym = ns.namespace_symbol.scope.lookup (member_name); if (local_sym != null) { if (symbol_reference != null && symbol_reference != local_sym) { error = true; Report.error (source_reference, "`%s' is an ambiguous reference between `%s' and `%s'".printf (member_name, symbol_reference.get_full_name (), local_sym.get_full_name ())); return false; } // Transform to fully qualified member access unowned Symbol? inner_sym = local_sym.parent_symbol; unowned MemberAccess? inner_ma = this; while (inner_sym != null && inner_sym.name != null) { inner_ma.inner = new MemberAccess (null, inner_sym.name, source_reference); inner_ma = (MemberAccess) inner_ma.inner; inner_sym = inner_sym.parent_symbol; } inner_ma.qualified = true; inner.check (context); symbol_reference = local_sym; } } } } else { if (inner.error) { /* if there was an error in the inner expression, skip this check */ error = true; return false; } if (inner.value_type is PointerType) { unowned PointerType? pointer_type = inner.value_type as PointerType; if (pointer_type != null && pointer_type.base_type is ValueType) { if (inner.formal_value_type is GenericType) { inner = new CastExpression (inner, pointer_type.copy (), source_reference); } // transform foo->bar to (*foo).bar inner = new PointerIndirection (inner, source_reference); inner.check (context); pointer_member_access = false; } } if (inner is MemberAccess) { unowned MemberAccess ma = (MemberAccess) inner; if (ma.prototype_access) { error = true; Report.error (source_reference, "Access to instance member `%s' denied".printf (inner.symbol_reference.get_full_name ())); return false; } } if (inner is CastExpression && ((CastExpression) inner).is_silent_cast) { Report.warning (source_reference, "Access to possible `null'. Perform a check or use an unsafe cast."); } if (inner is MemberAccess || inner is BaseAccess) { base_symbol = inner.symbol_reference; if (symbol_reference == null && (base_symbol is Namespace || base_symbol is TypeSymbol)) { symbol_reference = base_symbol.scope.lookup (member_name); if (inner is BaseAccess) { // inner expression is base access // access to instance members of the base type possible may_access_instance_members = true; may_access_klass_members = true; } } } if (inner is MemberAccess && inner.symbol_reference is TypeParameter) { inner.value_type = new GenericType ((TypeParameter) inner.symbol_reference); inner.value_type.source_reference = source_reference; } if (symbol_reference == null && inner.value_type != null) { if (pointer_member_access) { symbol_reference = inner.value_type.get_pointer_member (member_name); } else { if (inner.value_type.type_symbol != null) { base_symbol = inner.value_type.type_symbol; } symbol_reference = inner.value_type.get_member (member_name); } if (symbol_reference != null) { // inner expression is variable, field, or parameter // access to instance members of the corresponding type possible may_access_instance_members = true; may_access_klass_members = true; } } if (symbol_reference == null && inner.value_type != null && inner.value_type.is_dynamic) { // allow late bound members for dynamic types var dynamic_object_type = (ObjectType) inner.value_type; if (parent_node is MethodCall) { unowned MethodCall invoc = (MethodCall) parent_node; if (invoc.call == this) { // dynamic method DataType ret_type; if (invoc.target_type != null) { ret_type = invoc.target_type.copy (); ret_type.value_owned = true; } else if (invoc.parent_node is ExpressionStatement) { ret_type = new VoidType (); } else { // expect dynamic object of the same type ret_type = inner.value_type.copy (); } var m = new DynamicMethod (inner.value_type, member_name, ret_type, source_reference); m.invocation = invoc; var err = new ErrorType (null, null); err.dynamic_error = true; m.add_error_type (err); m.access = SymbolAccessibility.PUBLIC; m.add_parameter (new Parameter.with_ellipsis ()); m.this_parameter = new Parameter ("this", dynamic_object_type.copy (), m.source_reference); dynamic_object_type.type_symbol.scope.add (null, m); symbol_reference = m; } } else if (parent_node is Assignment) { unowned Assignment a = (Assignment) parent_node; if (a.left == this) { // dynamic property assignment var prop = new DynamicProperty (inner.value_type, member_name, source_reference); prop.access = SymbolAccessibility.PUBLIC; prop.set_accessor = new PropertyAccessor (false, true, false, null, null, prop.source_reference); prop.owner = inner.value_type.type_symbol.scope; dynamic_object_type.type_symbol.scope.add (null, prop); symbol_reference = prop; } } else if (parent_node is MemberAccess && inner is MemberAccess && parent_node.parent_node is MethodCall) { unowned MemberAccess ma = (MemberAccess) parent_node; if (ma.member_name == "connect" || ma.member_name == "connect_after") { // dynamic signal var s = new DynamicSignal (inner.value_type, member_name, new VoidType (), source_reference); var mcall = (MethodCall) parent_node.parent_node; // the first argument is the handler if (mcall.get_argument_list().size > 0) { s.handler = mcall.get_argument_list()[0]; unowned MemberAccess? arg = s.handler as MemberAccess; if (arg == null || !arg.check (context) || !(arg.symbol_reference is Method)) { error = true; Report.error (s.handler.source_reference, "Invalid handler for `%s'".printf (s.get_full_name ())); } } s.access = SymbolAccessibility.PUBLIC; dynamic_object_type.type_symbol.scope.add (null, s); symbol_reference = s; } } if (symbol_reference == null) { // dynamic property read access var prop = new DynamicProperty (inner.value_type, member_name, source_reference); if (target_type != null) { prop.property_type = target_type; } else { // expect dynamic object of the same type prop.property_type = inner.value_type.copy (); } prop.access = SymbolAccessibility.PUBLIC; prop.get_accessor = new PropertyAccessor (true, false, false, prop.property_type.copy (), null, prop.source_reference); prop.owner = inner.value_type.type_symbol.scope; dynamic_object_type.type_symbol.scope.add (null, prop); symbol_reference = prop; } if (symbol_reference != null) { may_access_instance_members = true; may_access_klass_members = true; } } if (symbol_reference is ArrayResizeMethod) { if (inner.symbol_reference is Variable) { // require the real type with its original value_owned attritubte var inner_type = context.analyzer.get_value_type_for_symbol (inner.symbol_reference, true) as ArrayType; if (inner_type != null && inner_type.inline_allocated) { Report.error (source_reference, "`resize' is not supported for arrays with fixed length"); error = true; } else if (inner_type != null && !inner_type.value_owned) { Report.error (source_reference, "`resize' is not allowed for unowned array references"); error = true; } } else if (inner.symbol_reference is Constant) { // disallow resize() for const array Report.error (source_reference, "`resize' is not allowed for constant arrays"); error = true; } } } // enum-type inference if (inner == null && symbol_reference == null && target_type != null && target_type.type_symbol is Enum) { unowned Enum enum_type = (Enum) target_type.type_symbol; foreach (var val in enum_type.get_values ()) { if (member_name == val.name) { symbol_reference = val; break; } } } if (symbol_reference == null) { error = true; string base_type_name = "(null)"; unowned Symbol? base_type = null; if (inner != null && inner.value_type != null) { base_type_name = inner.value_type.to_string (); base_type = inner.value_type.type_symbol; } else if (base_symbol != null) { base_type_name = base_symbol.get_full_name (); base_type = base_symbol; } string? base_type_package = ""; if (base_type != null && base_type.external_package) { base_type_package = base_symbol.source_reference.file.package_name; if (base_type_package != null) { base_type_package = " (%s)".printf (base_type_package); } } string visited_types_string = ""; foreach (var type in visited_types) { visited_types_string += " or `%s'".printf (type.to_string ()); } Report.error (source_reference, "The name `%s' does not exist in the context of `%s'%s%s".printf (member_name, base_type_name, base_type_package, visited_types_string)); value_type = new InvalidType (); return false; } else if (symbol_reference.error) { //ignore previous error error = true; return false; } if (symbol_reference is Signal) { unowned Signal sig = (Signal) symbol_reference; unowned CodeNode? ma = this; while (ma.parent_node is MemberAccess) { ma = ma.parent_node; } unowned CodeNode? parent = ma.parent_node; if (parent != null && !(parent is ElementAccess) && !(((MemberAccess) ma).inner is BaseAccess) && (!(parent is MethodCall) || ((MethodCall) parent).get_argument_list ().contains (this))) { if (sig.get_attribute ("HasEmitter") != null) { if (!sig.check (context)) { return false; } symbol_reference = sig.emitter; } else { error = true; Report.error (source_reference, "Signal `%s' requires emitter in this context".printf (symbol_reference.get_full_name ())); return false; } } } unowned Symbol? member = symbol_reference; var access = SymbolAccessibility.PUBLIC; bool instance = false; bool klass = false; bool generics = false; if (!member.check (context)) { return false; } if (member is LocalVariable) { unowned LocalVariable local = (LocalVariable) member; unowned Block? block = local.parent_symbol as Block; if (block != null && SemanticAnalyzer.find_parent_method_or_property_accessor (block) != context.analyzer.current_method_or_property_accessor) { // mark all methods between current method and the captured // block as closures (to support nested closures) unowned Symbol? sym = context.analyzer.current_method_or_property_accessor; while (sym != block) { unowned Method? method = sym as Method; if (method != null) { method.closure = true; // consider captured variables as used // as we require captured variables to be initialized method.add_captured_variable (local); } sym = sym.parent_symbol; } local.captured = true; block.captured = true; if (local.variable_type.type_symbol == context.analyzer.va_list_type.type_symbol) { error = true; Report.error (source_reference, "Capturing `va_list' variable `%s' is not allowed".printf (local.get_full_name ())); } } } else if (member is Parameter) { unowned Parameter param = (Parameter) member; unowned Method? m = param.parent_symbol as Method; if (m != null && m != context.analyzer.current_method_or_property_accessor && param != m.this_parameter) { // mark all methods between current method and the captured // parameter as closures (to support nested closures) unowned Symbol? sym = context.analyzer.current_method_or_property_accessor; while (sym != m) { unowned Method? method = sym as Method; if (method != null) { method.closure = true; } sym = sym.parent_symbol; } param.captured = true; m.body.captured = true; if (param.direction != ParameterDirection.IN) { error = true; Report.error (source_reference, "Cannot capture reference or output parameter `%s'".printf (param.get_full_name ())); } if (param.variable_type.type_symbol == context.analyzer.va_list_type.type_symbol) { error = true; Report.error (source_reference, "Capturing `va_list' parameter `%s' is not allowed".printf (param.get_full_name ())); } } else { unowned PropertyAccessor? acc = param.parent_symbol.parent_symbol as PropertyAccessor; if (acc != null && acc != context.analyzer.current_method_or_property_accessor && param != acc.prop.this_parameter) { // mark all methods between current method and the captured // parameter as closures (to support nested closures) unowned Symbol? sym = context.analyzer.current_method_or_property_accessor; while (sym != m) { unowned Method? method = sym as Method; if (method != null) { method.closure = true; } sym = sym.parent_symbol; } param.captured = true; acc.body.captured = true; } } } else if (member is Field) { unowned Field f = (Field) member; access = f.access; instance = (f.binding == MemberBinding.INSTANCE); klass = (f.binding == MemberBinding.CLASS); // do not allow access to fields of generic types // if instance type does not specify type arguments if (f.variable_type is GenericType) { generics = true; } } else if (member is Constant) { unowned Constant c = (Constant) member; access = c.access; unowned Block? block = c.parent_symbol as Block; if (block != null && SemanticAnalyzer.find_parent_method_or_property_accessor (block) != context.analyzer.current_method_or_property_accessor) { error = true; Report.error (source_reference, "internal error: accessing local constants of outer methods is not supported yet"); return false; } } else if (member is Method) { unowned Method m = (Method) member; if (m.is_async_callback) { // ensure to use right callback method for virtual/abstract async methods // and also for lambda expressions within async methods unowned Method? async_method = context.analyzer.current_async_method; bool is_valid_access = false; if (async_method != null) { if (m == async_method.get_callback_method ()) { is_valid_access = true; } else if (async_method.base_method != null && m == async_method.base_method.get_callback_method ()) { is_valid_access = true; } else if (async_method.base_interface_method != null && m == async_method.base_interface_method.get_callback_method ()) { is_valid_access = true; } } if (!is_valid_access) { error = true; Report.error (source_reference, "Access to async callback `%s' not allowed in this context".printf (m.get_full_name ())); return false; } if (async_method != context.analyzer.current_method) { unowned Symbol? sym = context.analyzer.current_method; while (sym != async_method) { unowned Method? method = sym as Method; if (method != null) { method.closure = true; } sym = sym.parent_symbol; } async_method.body.captured = true; } m = async_method.get_callback_method (); symbol_reference = m; member = symbol_reference; } else if (m.base_method != null) { // refer to base method to inherit default arguments m = m.base_method; if (m.signal_reference != null) { // method is class/default handler for a signal // let signal deal with member access symbol_reference = m.signal_reference; } else { symbol_reference = m; } member = symbol_reference; } else if (m.base_interface_method != null) { // refer to base method to inherit default arguments m = m.base_interface_method; if (m.signal_reference != null) { // method is class/default handler for a signal // let signal deal with member access symbol_reference = m.signal_reference; } else { symbol_reference = m; } member = symbol_reference; } access = m.access; if (!(m is CreationMethod)) { instance = (m.binding == MemberBinding.INSTANCE); } klass = (m.binding == MemberBinding.CLASS); // do not allow access to methods using generic type parameters // if instance type does not specify type arguments foreach (var param in m.get_parameters ()) { unowned GenericType? generic_type = param.variable_type as GenericType; if (generic_type != null && generic_type.type_parameter.parent_symbol is TypeSymbol) { generics = true; break; } } unowned GenericType? generic_type = m.return_type as GenericType; if (generic_type != null && generic_type.type_parameter.parent_symbol is TypeSymbol) { generics = true; } } else if (member is Property) { unowned Property prop = (Property) member; if (!prop.check (context)) { error = true; return false; } if (prop.base_property != null) { // refer to base property prop = prop.base_property; symbol_reference = prop; member = symbol_reference; } else if (prop.base_interface_property != null) { // refer to base property prop = prop.base_interface_property; symbol_reference = prop; member = symbol_reference; } access = prop.access; if (lvalue) { if (prop.set_accessor == null) { error = true; Report.error (source_reference, "Property `%s' is read-only".printf (prop.get_full_name ())); return false; } else if (!prop.set_accessor.writable && prop.set_accessor.construction) { if (context.analyzer.find_current_method () is CreationMethod) { error = true; Report.error (source_reference, "Cannot assign to construct-only properties, use Object (property: value) constructor chain up"); return false; } else if (context.analyzer.is_in_constructor ()) { if (!context.analyzer.current_type_symbol.is_subtype_of ((TypeSymbol) prop.parent_symbol)) { error = true; Report.error (source_reference, "Cannot assign to construct-only property `%s' in `construct' of `%s'".printf (prop.get_full_name (), context.analyzer.current_type_symbol.get_full_name ())); return false; } } else { error = true; Report.error (source_reference, "Cannot assign to construct-only property in this context"); return false; } } if (prop.access == SymbolAccessibility.PUBLIC) { access = prop.set_accessor.access; } else if (prop.access == SymbolAccessibility.PROTECTED && prop.set_accessor.access != SymbolAccessibility.PUBLIC) { access = prop.set_accessor.access; } } else { if (prop.get_accessor == null) { error = true; Report.error (source_reference, "Property `%s' is write-only".printf (prop.get_full_name ())); return false; } if (prop.access == SymbolAccessibility.PUBLIC) { access = prop.get_accessor.access; } else if (prop.access == SymbolAccessibility.PROTECTED && prop.get_accessor.access != SymbolAccessibility.PUBLIC) { access = prop.get_accessor.access; } } instance = (prop.binding == MemberBinding.INSTANCE); // do not allow access to properties of generic types // if instance type does not specify type arguments if (prop.property_type is GenericType) { generics = true; } } else if (member is Signal) { instance = true; access = member.access; } else if (!creation_member && member is ErrorCode) { symbol_reference = ((ErrorCode) member).code; member = symbol_reference; } // recursive usage of itself doesn't count as used unowned CodeNode? parent = this; while (parent != member) { parent = parent.parent_node; if (parent == null || parent == member) { break; } } if (parent != member) { member.used = true; } member.version.check (context, source_reference); if (access == SymbolAccessibility.PROTECTED && member.parent_symbol is TypeSymbol) { unowned TypeSymbol target_type = (TypeSymbol) member.parent_symbol; bool in_subtype = false; for (Symbol this_symbol = context.analyzer.current_symbol; this_symbol != null; this_symbol = this_symbol.parent_symbol) { if (this_symbol == target_type) { // required for interfaces with non-abstract methods // accessing protected interface members in_subtype = true; break; } unowned Class? cl = this_symbol as Class; if (cl != null && cl.is_subtype_of (target_type)) { in_subtype = true; break; } } if (!in_subtype) { error = true; Report.error (source_reference, "Access to protected member `%s' denied".printf (member.get_full_name ())); return false; } } else if (access == SymbolAccessibility.PRIVATE) { unowned Symbol? target_type = member.parent_symbol; bool in_target_type = false; for (Symbol this_symbol = context.analyzer.current_symbol; this_symbol != null; this_symbol = this_symbol.parent_symbol) { if (target_type == this_symbol) { in_target_type = true; break; } } if (!in_target_type) { error = true; Report.error (source_reference, "Access to private member `%s' denied".printf (member.get_full_name ())); return false; } } if (generics && inner != null) { unowned DataType instance_type = inner.value_type; unowned PointerType? pointer_type = inner.value_type as PointerType; if (pointer_type != null) { instance_type = pointer_type.base_type; } // instance type might be a subtype of the parent symbol of the member // that subtype might not be generic, so do not report an error in that case unowned ObjectType? object_type = instance_type as ObjectType; if (object_type != null && object_type.object_type_symbol.has_type_parameters () && !instance_type.has_type_arguments ()) { error = true; Report.error (inner.source_reference, "missing generic type arguments"); return false; } } if ((instance && !may_access_instance_members) || (klass && !may_access_klass_members)) { prototype_access = true; if (symbol_reference is Method) { // also set static type for prototype access // required when using instance methods as delegates in constants // TODO replace by MethodPrototype value_type = context.analyzer.get_value_type_for_symbol (symbol_reference, lvalue); } else if (symbol_reference is Field) { value_type = new FieldPrototype ((Field) symbol_reference); } else if (symbol_reference is Property) { value_type = new PropertyPrototype ((Property) symbol_reference); } else { error = true; value_type = new InvalidType (); } if (target_type != null) { value_type.value_owned = target_type.value_owned; } } else { // implicit this access if (instance && inner == null) { inner = new MemberAccess (null, "this", source_reference); inner.value_type = this_parameter.variable_type.copy (); inner.value_type.value_owned = false; inner.symbol_reference = this_parameter; } else { check_lvalue_access (); } if (!instance && !klass && !(symbol_reference is CreationMethod) && may_access_instance_members && inner != null) { if (inner.symbol_reference is Method) { // do not warn when calling .begin or .end on static async method } else { Report.warning (source_reference, "Access to static member `%s' with an instance reference".printf (symbol_reference.get_full_name ())); // Transform to static member access unowned Symbol? inner_sym = symbol_reference.parent_symbol; unowned MemberAccess? inner_ma = this; while (inner_sym != null && inner_sym.name != null) { inner_ma.inner = new MemberAccess (null, inner_sym.name, source_reference); inner_ma = (MemberAccess) inner_ma.inner; inner_sym = inner_sym.parent_symbol; } inner_ma.qualified = true; inner.check (context); } } if (context.experimental_non_null && instance && inner.value_type.nullable && !(inner.value_type is PointerType) && !(inner.value_type is GenericType) && !(inner.value_type is ArrayType)) { Report.error (source_reference, "Access to instance member `%s' from nullable reference denied".printf (symbol_reference.get_full_name ())); } unowned Method? m = symbol_reference as Method; unowned MemberAccess? inner_ma = inner as MemberAccess; if (m != null && m.binding == MemberBinding.STATIC && m.parent_symbol is ObjectTypeSymbol && inner != null && inner.value_type == null && inner_ma.type_argument_list.size > 0) { // support static methods in generic classes inner.value_type = new ObjectType ((ObjectTypeSymbol) m.parent_symbol); foreach (var type_argument in inner_ma.type_argument_list) { inner.value_type.add_type_argument (type_argument); } } formal_value_type = context.analyzer.get_value_type_for_symbol (symbol_reference, lvalue); if (inner != null && formal_value_type != null) { value_type = formal_value_type.get_actual_type (inner.value_type, null, this); } else { value_type = formal_value_type; } if (symbol_reference is Method) { unowned Method method = (Method) symbol_reference; if (target_type != null) { value_type.value_owned = target_type.value_owned; } if (instance && method.parent_symbol is TypeSymbol) { inner.target_type = SemanticAnalyzer.get_data_type_for_symbol (method.parent_symbol); inner.target_type.value_owned = method.this_parameter.variable_type.value_owned; } } else if (symbol_reference is Property && instance && symbol_reference.parent_symbol != null) { inner.target_type = SemanticAnalyzer.get_data_type_for_symbol (symbol_reference.parent_symbol); } else if ((symbol_reference is Field || symbol_reference is Signal) && instance && symbol_reference.parent_symbol != null) { var parent_type = SemanticAnalyzer.get_data_type_for_symbol (symbol_reference.parent_symbol); inner.target_type = parent_type.get_actual_type (inner.value_type, null, this); } } if (value_type != null) { value_type.check (context); } // Provide some extra information for the code generator if (!tainted_access) { tainted_access = is_tainted (); } return !error; } static bool is_instance_symbol (Symbol symbol) { if (symbol is Field && ((Field) symbol).binding == MemberBinding.INSTANCE) { return true; } else if (symbol is Method && !(symbol is CreationMethod) && ((Method) symbol).binding == MemberBinding.INSTANCE) { return true; } else if (symbol is Property && ((Property) symbol).binding == MemberBinding.INSTANCE) { return true; } else if (symbol is Signal) { return true; } else { return false; } } public void check_lvalue_access () { if (inner == null) { return; } var instance = symbol_reference is Field && ((Field) symbol_reference).binding == MemberBinding.INSTANCE; if (!instance) { instance = symbol_reference is Method && ((Method) symbol_reference).binding == MemberBinding.INSTANCE; } if (!instance) { instance = symbol_reference is Property && ((Property) symbol_reference).binding == MemberBinding.INSTANCE; } var this_access = inner.symbol_reference is Parameter && inner.symbol_reference.name == "this"; var struct_or_array = (inner.value_type is StructValueType && !inner.value_type.nullable) || inner.value_type is ArrayType; unowned MemberAccess? ma = inner as MemberAccess; if (ma == null && struct_or_array && inner is PointerIndirection) { // (*struct)->method() ma = ((PointerIndirection) inner).inner as MemberAccess; } if (instance && struct_or_array && (symbol_reference is Method || lvalue) && ((ma != null && ma.symbol_reference is Variable) || inner is ElementAccess) && !this_access) { inner.lvalue = true; if (ma != null) { ma.lvalue = true; ma.check_lvalue_access (); } } if (symbol_reference is Method && ((Method) symbol_reference).get_attribute ("DestroysInstance") != null) { unowned Class? cl = ((Method) symbol_reference).parent_symbol as Class; if (cl != null && cl.is_compact && ma != null) { ma.lvalue = true; ma.check_lvalue_access (); } } } public override void emit (CodeGenerator codegen) { if (inner != null) { inner.emit (codegen); } codegen.visit_member_access (this); codegen.visit_expression (this); } public override void get_defined_variables (Collection collection) { if (inner != null) { inner.get_defined_variables (collection); } } public override void get_used_variables (Collection collection) { if (inner != null) { inner.get_used_variables (collection); } unowned LocalVariable? local = symbol_reference as LocalVariable; unowned Parameter? param = symbol_reference as Parameter; if (local != null) { collection.add (local); } else if (param != null && param.direction == ParameterDirection.OUT) { collection.add (param); } } bool is_tainted () { unowned CodeNode node = this; if (node.parent_node is MemberAccess) { return false; } while (node.parent_node is Expression) { node = node.parent_node; if (node is Assignment || node is MethodCall || node is ObjectCreationExpression) { break; } } bool found = false; var traverse = new TraverseVisitor ((n) => { if (n is PostfixExpression) { found = true; return TraverseStatus.STOP; } else if (n is UnaryExpression) { unowned UnaryExpression e = (UnaryExpression) n; if (e.operator == UnaryOperator.INCREMENT || e.operator == UnaryOperator.DECREMENT) { found = true; return TraverseStatus.STOP; } } return TraverseStatus.CONTINUE; }); node.accept (traverse); return found; } }