D-Bus: Remove extra semicolon to avoid C warning
[vala-lang.git] / vala / valaunaryexpression.vala
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1 /* valaunaryexpression.vala
3 * Copyright (C) 2006-2011 Jürg Billeter
5 * This library is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU Lesser General Public
7 * License as published by the Free Software Foundation; either
8 * version 2.1 of the License, or (at your option) any later version.
10 * This library is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 * Lesser General Public License for more details.
15 * You should have received a copy of the GNU Lesser General Public
16 * License along with this library; if not, write to the Free Software
17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
19 * Author:
20 * Jürg Billeter <j@bitron.ch>
24 /**
25 * Represents an expression with one operand in the source code.
27 * Supports +, -, !, ~, ref, out.
29 public class Vala.UnaryExpression : Expression {
30 /**
31 * The unary operator.
33 public UnaryOperator operator { get; set; }
35 /**
36 * The operand.
38 public Expression inner {
39 get {
40 return _inner;
42 set {
43 _inner = value;
44 _inner.parent_node = this;
48 private Expression _inner;
50 /**
51 * Creates a new unary expression.
53 * @param op unary operator
54 * @param inner operand
55 * @param source reference to source code
56 * @return newly created binary expression
58 public UnaryExpression (UnaryOperator op, Expression _inner, SourceReference source) {
59 operator = op;
60 inner = _inner;
61 source_reference = source;
64 public override void accept (CodeVisitor visitor) {
65 visitor.visit_unary_expression (this);
67 visitor.visit_expression (this);
70 public override void accept_children (CodeVisitor visitor) {
71 inner.accept (visitor);
74 public override void replace_expression (Expression old_node, Expression new_node) {
75 if (inner == old_node) {
76 inner = new_node;
80 private string get_operator_string () {
81 switch (_operator) {
82 case UnaryOperator.PLUS: return "+";
83 case UnaryOperator.MINUS: return "-";
84 case UnaryOperator.LOGICAL_NEGATION: return "!";
85 case UnaryOperator.BITWISE_COMPLEMENT: return "~";
86 case UnaryOperator.INCREMENT: return "++";
87 case UnaryOperator.DECREMENT: return "--";
88 case UnaryOperator.REF: return "ref ";
89 case UnaryOperator.OUT: return "out ";
90 default: assert_not_reached ();
94 public override string to_string () {
95 return get_operator_string () + _inner.to_string ();
98 public override bool is_constant () {
99 if (operator == UnaryOperator.INCREMENT || operator == UnaryOperator.DECREMENT) {
100 return false;
103 if (operator == UnaryOperator.REF || operator == UnaryOperator.OUT) {
104 var field = inner.symbol_reference as Field;
105 if (field != null && field.binding == MemberBinding.STATIC) {
106 return true;
107 } else {
108 return false;
112 return inner.is_constant ();
115 public override bool is_pure () {
116 if (operator == UnaryOperator.INCREMENT || operator == UnaryOperator.DECREMENT) {
117 return false;
120 return inner.is_pure ();
123 bool is_numeric_type (DataType type) {
124 if (!(type.data_type is Struct)) {
125 return false;
128 var st = (Struct) type.data_type;
129 return st.is_integer_type () || st.is_floating_type ();
132 bool is_integer_type (DataType type) {
133 if (!(type.data_type is Struct)) {
134 return false;
137 var st = (Struct) type.data_type;
138 return st.is_integer_type ();
141 MemberAccess? find_member_access (Expression expr) {
142 if (expr is MemberAccess) {
143 return (MemberAccess) expr;
146 return null;
149 public override bool check (CodeContext context) {
150 if (checked) {
151 return !error;
154 checked = true;
156 if (operator == UnaryOperator.REF || operator == UnaryOperator.OUT) {
157 inner.lvalue = true;
158 inner.target_type = target_type;
161 if (!inner.check (context)) {
162 /* if there was an error in the inner expression, skip type check */
163 error = true;
164 return false;
167 if (inner.value_type is FieldPrototype) {
168 error = true;
169 Report.error (inner.source_reference, "Access to instance member `%s' denied".printf (inner.symbol_reference.get_full_name ()));
170 return false;
173 if (operator == UnaryOperator.PLUS || operator == UnaryOperator.MINUS) {
174 // integer or floating point type
175 if (!is_numeric_type (inner.value_type)) {
176 error = true;
177 Report.error (source_reference, "Operator not supported for `%s'".printf (inner.value_type.to_string ()));
178 return false;
181 value_type = inner.value_type;
182 } else if (operator == UnaryOperator.LOGICAL_NEGATION) {
183 // boolean type
184 if (!inner.value_type.compatible (context.analyzer.bool_type)) {
185 error = true;
186 Report.error (source_reference, "Operator not supported for `%s'".printf (inner.value_type.to_string ()));
187 return false;
190 value_type = inner.value_type;
191 } else if (operator == UnaryOperator.BITWISE_COMPLEMENT) {
192 // integer type
193 if (!is_integer_type (inner.value_type) && !(inner.value_type is EnumValueType)) {
194 error = true;
195 Report.error (source_reference, "Operator not supported for `%s'".printf (inner.value_type.to_string ()));
196 return false;
199 value_type = inner.value_type;
200 } else if (operator == UnaryOperator.INCREMENT ||
201 operator == UnaryOperator.DECREMENT) {
202 // integer type
203 if (!is_integer_type (inner.value_type)) {
204 error = true;
205 Report.error (source_reference, "Operator not supported for `%s'".printf (inner.value_type.to_string ()));
206 return false;
209 var ma = find_member_access (inner);
210 if (ma == null) {
211 error = true;
212 Report.error (source_reference, "Prefix operators not supported for this expression");
213 return false;
216 var old_value = new MemberAccess (ma.inner, ma.member_name, inner.source_reference);
217 var bin = new BinaryExpression (operator == UnaryOperator.INCREMENT ? BinaryOperator.PLUS : BinaryOperator.MINUS, old_value, new IntegerLiteral ("1"), source_reference);
219 var assignment = new Assignment (ma, bin, AssignmentOperator.SIMPLE, source_reference);
220 assignment.target_type = target_type;
221 context.analyzer.replaced_nodes.add (this);
222 parent_node.replace_expression (this, assignment);
223 assignment.check (context);
224 return true;
225 } else if (operator == UnaryOperator.REF || operator == UnaryOperator.OUT) {
226 var ea = inner as ElementAccess;
227 if (inner.symbol_reference is Field || inner.symbol_reference is Parameter || inner.symbol_reference is LocalVariable ||
228 (ea != null && ea.container.value_type is ArrayType)) {
229 // ref and out can only be used with fields, parameters, local variables, and array element access
230 lvalue = true;
231 value_type = inner.value_type;
232 } else {
233 error = true;
234 Report.error (source_reference, "ref and out method arguments can only be used with fields, parameters, local variables, and array element access");
235 return false;
237 } else {
238 error = true;
239 Report.error (source_reference, "internal error: unsupported unary operator");
240 return false;
243 return !error;
246 public override void emit (CodeGenerator codegen) {
247 inner.emit (codegen);
249 codegen.visit_unary_expression (this);
251 codegen.visit_expression (this);
254 public override void get_defined_variables (Collection<LocalVariable> collection) {
255 inner.get_defined_variables (collection);
256 if (operator == UnaryOperator.OUT || operator == UnaryOperator.REF) {
257 var local = inner.symbol_reference as LocalVariable;
258 if (local != null) {
259 collection.add (local);
264 public override void get_used_variables (Collection<LocalVariable> collection) {
265 if (operator != UnaryOperator.OUT) {
266 inner.get_used_variables (collection);
271 public enum Vala.UnaryOperator {
272 NONE,
273 PLUS,
274 MINUS,
275 LOGICAL_NEGATION,
276 BITWISE_COMPLEMENT,
277 INCREMENT,
278 DECREMENT,
279 REF,