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/* valasymbolresolver.vala
*
* Copyright (C) 2006-2008 Jürg Billeter, Raffaele Sandrini
*
* 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 <j@bitron.ch>
* Raffaele Sandrini <raffaele@sandrini.ch>
*/
using GLib;
using Gee;
/**
* Code visitor resolving symbol names.
*/
public class Vala.SymbolResolver : CodeVisitor {
Symbol root_symbol;
Scope current_scope;
Gee.List<NamespaceReference> current_using_directives;
/**
* Resolve symbol names in the specified code context.
*
* @param context a code context
*/
public void resolve (CodeContext context) {
root_symbol = context.root;
current_scope = root_symbol.scope;
context.accept (this);
}
public override void visit_source_file (SourceFile file) {
current_using_directives = file.get_using_directives ();
current_scope = root_symbol.scope;
file.accept_children (this);
current_using_directives = null;
}
public override void visit_class (Class cl) {
current_scope = cl.scope;
cl.accept_children (this);
foreach (DataType type in cl.get_base_types ()) {
if (type.data_type is Class) {
if (cl.base_class != null) {
cl.error = true;
Report.error (type.source_reference, "%s: Classes cannot have multiple base classes (`%s' and `%s')".printf (cl.get_full_name (), cl.base_class.get_full_name (), type.data_type.get_full_name ()));
return;
}
cl.base_class = (Class) type.data_type;
if (cl.base_class.is_subtype_of (cl)) {
cl.error = true;
Report.error (type.source_reference, "Base class cycle (`%s' and `%s')".printf (cl.get_full_name (), cl.base_class.get_full_name ()));
return;
}
}
}
current_scope = current_scope.parent_scope;
}
public override void visit_struct (Struct st) {
current_scope = st.scope;
st.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_interface (Interface iface) {
current_scope = iface.scope;
iface.accept_children (this);
foreach (DataType type in iface.get_prerequisites ()) {
if (type.data_type != null && type.data_type.is_subtype_of (iface)) {
iface.error = true;
Report.error (type.source_reference, "Prerequisite cycle (`%s' and `%s')".printf (iface.get_full_name (), type.data_type.get_full_name ()));
return;
}
}
current_scope = current_scope.parent_scope;
}
public override void visit_enum (Enum en) {
current_scope = en.scope;
en.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_error_domain (ErrorDomain ed) {
current_scope = ed.scope;
ed.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_delegate (Delegate cb) {
current_scope = cb.scope;
cb.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_constant (Constant c) {
current_scope = c.scope;
c.accept_children (this);
}
public override void visit_field (Field f) {
current_scope = f.scope;
f.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_method (Method m) {
current_scope = m.scope;
m.accept_children (this);
current_scope = current_scope.parent_scope;
}
public override void visit_creation_method (CreationMethod m) {
m.accept_children (this);
}
public override void visit_formal_parameter (FormalParameter p) {
p.accept_children (this);
}
public override void visit_property (Property prop) {
prop.accept_children (this);
}
public override void visit_property_accessor (PropertyAccessor acc) {
acc.accept_children (this);
}
public override void visit_signal (Signal sig) {
sig.accept_children (this);
}
public override void visit_constructor (Constructor c) {
c.accept_children (this);
}
public override void visit_destructor (Destructor d) {
d.accept_children (this);
}
public override void visit_block (Block b) {
b.accept_children (this);
}
public override void visit_namespace_reference (NamespaceReference ns) {
ns.namespace_symbol = current_scope.lookup (ns.name);
if (ns.namespace_symbol == null) {
ns.error = true;
Report.error (ns.source_reference, "The namespace name `%s' could not be found".printf (ns.name));
return;
}
}
private Symbol? resolve_symbol (UnresolvedSymbol unresolved_symbol) {
if (unresolved_symbol.qualified) {
// qualified access to global symbol
return root_symbol.scope.lookup (unresolved_symbol.name);
} else if (unresolved_symbol.inner == null) {
Symbol sym = null;
Scope scope = current_scope;
while (sym == null && scope != null) {
sym = scope.lookup (unresolved_symbol.name);
scope = scope.parent_scope;
}
if (sym == null) {
foreach (NamespaceReference ns in current_using_directives) {
if (ns.error) {
continue;
}
var local_sym = ns.namespace_symbol.scope.lookup (unresolved_symbol.name);
if (local_sym != null) {
if (sym != null) {
unresolved_symbol.error = true;
Report.error (unresolved_symbol.source_reference, "`%s' is an ambiguous reference between `%s' and `%s'".printf (unresolved_symbol.name, sym.get_full_name (), local_sym.get_full_name ()));
return null;
}
sym = local_sym;
}
}
}
return sym;
} else {
var parent_symbol = resolve_symbol (unresolved_symbol.inner);
if (parent_symbol == null) {
unresolved_symbol.error = true;
Report.error (unresolved_symbol.inner.source_reference, "The symbol `%s' could not be found".printf (unresolved_symbol.inner.name));
return null;
}
return parent_symbol.scope.lookup (unresolved_symbol.name);
}
}
private DataType resolve_type (UnresolvedType unresolved_type) {
DataType type = null;
// still required for vapigen
if (unresolved_type.unresolved_symbol.name == "void") {
return new VoidType ();
}
var sym = resolve_symbol (unresolved_type.unresolved_symbol);
if (sym == null) {
// don't report same error twice
if (!unresolved_type.unresolved_symbol.error) {
Report.error (unresolved_type.source_reference, "The type name `%s' could not be found".printf (unresolved_type.unresolved_symbol.to_string ()));
}
return new InvalidType ();
}
if (sym is TypeParameter) {
type = new TypeParameterType ((TypeParameter) sym);
} else if (sym is TypeSymbol) {
if (sym is Delegate) {
type = new DelegateType ((Delegate) sym);
} else if (sym is Class) {
var cl = (Class) sym;
if (cl.is_error_base) {
type = new ErrorType (null, unresolved_type.source_reference);
} else {
type = new ObjectType (cl);
}
} else if (sym is Interface) {
type = new ObjectType ((Interface) sym);
} else if (sym is Struct) {
type = new ValueType ((Struct) sym);
} else if (sym is Enum) {
type = new ValueType ((Enum) sym);
} else if (sym is ErrorDomain) {
type = new ErrorType ((ErrorDomain) sym, unresolved_type.source_reference);
} else {
Report.error (unresolved_type.source_reference, "internal error: `%s' is not a supported type".printf (sym.get_full_name ()));
return new InvalidType ();
}
} else {
Report.error (unresolved_type.source_reference, "`%s' is not a type".printf (sym.get_full_name ()));
return new InvalidType ();
}
type.source_reference = unresolved_type.source_reference;
type.value_owned = unresolved_type.value_owned;
type.nullable = unresolved_type.nullable;
type.is_dynamic = unresolved_type.is_dynamic;
foreach (DataType type_arg in unresolved_type.get_type_arguments ()) {
type.add_type_argument (type_arg);
}
return type;
}
public override void visit_data_type (DataType data_type) {
data_type.accept_children (this);
if (!(data_type is UnresolvedType)) {
return;
}
var unresolved_type = (UnresolvedType) data_type;
unresolved_type.parent_node.replace_type (unresolved_type, resolve_type (unresolved_type));
}
public override void visit_local_variable (LocalVariable local) {
local.accept_children (this);
if (local.variable_type is ReferenceType) {
local.variable_type.nullable = true;
}
}
public override void visit_initializer_list (InitializerList list) {
list.accept_children (this);
}
public override void visit_if_statement (IfStatement stmt) {
stmt.accept_children (this);
}
public override void visit_switch_section (SwitchSection section) {
section.accept_children (this);
}
public override void visit_while_statement (WhileStatement stmt) {
stmt.accept_children (this);
}
public override void visit_do_statement (DoStatement stmt) {
stmt.accept_children (this);
}
public override void visit_for_statement (ForStatement stmt) {
stmt.accept_children (this);
}
public override void visit_foreach_statement (ForeachStatement stmt) {
stmt.accept_children (this);
}
public override void visit_return_statement (ReturnStatement stmt) {
stmt.accept_children (this);
}
public override void visit_throw_statement (ThrowStatement stmt) {
stmt.accept_children (this);
}
public override void visit_try_statement (TryStatement stmt) {
stmt.accept_children (this);
}
public override void visit_catch_clause (CatchClause clause) {
clause.accept_children (this);
}
public override void visit_array_creation_expression (ArrayCreationExpression e) {
e.accept_children (this);
}
public override void visit_parenthesized_expression (ParenthesizedExpression expr) {
expr.accept_children (this);
}
public override void visit_invocation_expression (InvocationExpression expr) {
expr.accept_children (this);
}
public override void visit_object_creation_expression (ObjectCreationExpression expr) {
expr.accept_children (this);
}
public override void visit_unary_expression (UnaryExpression expr) {
expr.accept_children (this);
}
public override void visit_reference_transfer_expression (ReferenceTransferExpression expr) {
expr.accept_children (this);
}
public override void visit_lambda_expression (LambdaExpression l) {
l.accept_children (this);
}
public override void visit_assignment (Assignment a) {
a.accept_children (this);
}
}
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