/* valacastexpression.vala * * Copyright (C) 2006-2011 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 */ /** * Represents a type cast in the source code. */ public class Vala.CastExpression : Expression { /** * The expression to be cast. */ public Expression inner { get { return _inner; } private set { _inner = value; _inner.parent_node = this; } } /** * The target type. */ public DataType type_reference { get { return _data_type; } private set { _data_type = value; _data_type.parent_node = this; } } /** * Checked casts return NULL instead of raising an error. */ public bool is_silent_cast { get; private set; } public bool is_non_null_cast { get; private set; } private Expression _inner; private DataType _data_type; /** * Creates a new cast expression. * * @param inner expression to be cast * @param type_reference target type * @return newly created cast expression */ public CastExpression (Expression inner, DataType type_reference, SourceReference? source_reference = null) { this.type_reference = type_reference; this.source_reference = source_reference; this.is_silent_cast = false; this.is_non_null_cast = false; this.inner = inner; } public CastExpression.silent (Expression inner, DataType type_reference, SourceReference? source_reference = null) { this.type_reference = type_reference; this.source_reference = source_reference; this.is_silent_cast = true; this.is_non_null_cast = false; this.inner = inner; } public CastExpression.non_null (Expression inner, SourceReference? source_reference = null) { this.inner = inner; this.is_non_null_cast = true; this.source_reference = source_reference; } public override void accept (CodeVisitor visitor) { visitor.visit_cast_expression (this); visitor.visit_expression (this); } public override void accept_children (CodeVisitor visitor) { inner.accept (visitor); if (!is_non_null_cast) { type_reference.accept (visitor); } } public override string to_string () { if (is_non_null_cast) { return "(!) %s".printf (inner.to_string ()); } else if (is_silent_cast) { return "%s as %s".printf (inner.to_string (), type_reference.to_string ()); } else { return "(%s) %s".printf (type_reference.to_string (), inner.to_string ()); } } public override void replace_expression (Expression old_node, Expression new_node) { if (inner == old_node) { inner = new_node; } } public override bool is_pure () { return inner.is_pure (); } public override bool is_accessible (Symbol sym) { return inner.is_accessible (sym); } public override void replace_type (DataType old_type, DataType new_type) { if (type_reference == old_type) { type_reference = new_type; } } public override bool is_non_null () { return is_non_null_cast || (!is_silent_cast && inner.is_non_null ()); } public override void get_error_types (Collection collection, SourceReference? source_reference = null) { inner.get_error_types (collection, source_reference); } public override bool check (CodeContext context) { if (checked) { return !error; } checked = true; if (!inner.check (context)) { error = true; return false; } if (inner.value_type == null) { Report.error (source_reference, "Invalid cast expression"); error = true; return false; } if (is_non_null_cast) { // (!) non-null cast type_reference = inner.value_type.copy (); type_reference.nullable = false; } type_reference.check (context); // FIXME: check whether cast is allowed if (type_reference is VoidType) { Report.error (source_reference, "Casting to `void' is not allowed"); error = true; return false; } // Allow casting to array or pointer type if (!(type_reference is ArrayType || type_reference is PointerType)) { if (!type_reference.is_real_struct_type () && inner.value_type.is_real_struct_type () && (context.profile != Profile.GOBJECT || !(is_gvariant (context, inner.value_type) || is_gvalue (context, inner.value_type)))) { error = true; Report.error (source_reference, "Casting of struct `%s' to `%s' is not allowed", inner.value_type.to_qualified_string (), type_reference.to_qualified_string ()); } } if (type_reference is DelegateType && inner.value_type is MethodType) { if (target_type != null) { inner.value_type.value_owned = target_type.value_owned; } else { inner.value_type.value_owned = true; } } // Implicit transformation of stack-allocated value to heap-allocated boxed-type if (!(is_silent_cast || is_non_null_cast) && (type_reference is ValueType && type_reference.nullable) && inner.value_type.is_non_null_simple_type ()) { var local = new LocalVariable (type_reference, get_temp_name (), null, inner.source_reference); var decl = new DeclarationStatement (local, source_reference); insert_statement (context.analyzer.insert_block, decl); var temp_access = SemanticAnalyzer.create_temp_access (local, target_type); temp_access.formal_target_type = formal_target_type; // don't set initializer earlier as this changes parent_node and parent_statement local.initializer = inner; decl.check (context); context.analyzer.replaced_nodes.add (this); parent_node.replace_expression (this, temp_access); return temp_access.check (context); } value_type = type_reference; value_type.value_owned = inner.value_type.value_owned; value_type.floating_reference = inner.value_type.floating_reference; if (is_silent_cast) { value_type.nullable = true; } if (context.profile == Profile.GOBJECT && is_gvariant (context, inner.value_type) && !is_gvariant (context, value_type)) { // GVariant unboxing returns owned value value_type.value_owned = true; if (value_type.get_type_signature () == null) { error = true; Report.error (source_reference, "Casting of `GLib.Variant' to `%s' is not supported", value_type.to_qualified_string ()); } } if (context.profile == Profile.GOBJECT && is_gvalue (context, inner.value_type) && !is_gvalue (context, value_type)) { // GValue unboxing returns unowned value value_type.value_owned = false; if (value_type.nullable && value_type.type_symbol != null && !value_type.type_symbol.is_reference_type ()) { error = true; Report.error (source_reference, "Casting of `GLib.Value' to `%s' is not supported", value_type.to_qualified_string ()); } } inner.target_type = inner.value_type.copy (); return !error; } bool is_gvariant (CodeContext context, DataType type) { return type.type_symbol != null && type.type_symbol.is_subtype_of (context.analyzer.gvariant_type.type_symbol); } bool is_gvalue (CodeContext context, DataType type) { return type.type_symbol != null && type.type_symbol.is_subtype_of (context.analyzer.gvalue_type.type_symbol); } public override void emit (CodeGenerator codegen) { inner.emit (codegen); codegen.visit_cast_expression (this); codegen.visit_expression (this); } public override void get_defined_variables (Collection collection) { inner.get_defined_variables (collection); } public override void get_used_variables (Collection collection) { inner.get_used_variables (collection); } public override bool is_constant () { return inner.is_constant (); } }