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|
/* valagirparser.vala
*
* Copyright (C) 2008-2012 Jürg Billeter
* Copyright (C) 2011-2014 Luca Bruno
*
* 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>
* Luca Bruno <lucabru@src.gnome.org>
*/
using GLib;
/**
* Code visitor parsing all GIR source files.
*
* Pipeline:
* 1) Parse metadata
* 2) Parse GIR with metadata, track unresolved GIR symbols, create Vala symbols
* 3) Reconciliate the tree by mapping tracked symbols
* 4) Process the tree
*/
public class Vala.GirParser : CodeVisitor {
/*
* Metadata parser
*/
enum ArgumentType {
SKIP,
HIDDEN,
NEW,
TYPE,
TYPE_ARGUMENTS,
CHEADER_FILENAME,
NAME,
OWNED,
UNOWNED,
PARENT,
NULLABLE,
DEPRECATED,
REPLACEMENT,
DEPRECATED_SINCE,
SINCE,
ARRAY,
ARRAY_LENGTH_IDX,
ARRAY_NULL_TERMINATED,
DEFAULT,
OUT,
REF,
VFUNC_NAME,
VIRTUAL,
ABSTRACT,
COMPACT,
SEALED,
SCOPE,
STRUCT,
THROWS,
PRINTF_FORMAT,
ARRAY_LENGTH_FIELD,
SENTINEL,
CLOSURE,
DESTROY,
CPREFIX,
LOWER_CASE_CPREFIX,
LOWER_CASE_CSUFFIX,
ERRORDOMAIN,
DESTROYS_INSTANCE,
BASE_TYPE,
FINISH_NAME,
FINISH_INSTANCE,
SYMBOL_TYPE,
INSTANCE_IDX,
EXPERIMENTAL,
FEATURE_TEST_MACRO,
FLOATING,
TYPE_ID,
TYPE_GET_FUNCTION,
RETURN_VOID,
RETURNS_MODIFIED_POINTER,
DELEGATE_TARGET_CNAME,
DESTROY_NOTIFY_CNAME,
FINISH_VFUNC_NAME,
NO_ACCESSOR_METHOD,
NO_WRAPPER,
CNAME,
DELEGATE_TARGET,
CTYPE;
public static ArgumentType? from_string (string name) {
var enum_class = (EnumClass) typeof(ArgumentType).class_ref ();
var nick = name.replace ("_", "-");
unowned GLib.EnumValue? enum_value = enum_class.get_value_by_nick (nick);
if (enum_value != null) {
ArgumentType value = (ArgumentType) enum_value.value;
return value;
}
return null;
}
}
class Argument {
public Expression expression;
public SourceReference source_reference;
public bool used = false;
public Argument (Expression expression, SourceReference? source_reference = null) {
this.expression = expression;
this.source_reference = source_reference;
}
}
class MetadataSet : Metadata {
public MetadataSet (string? selector = null) {
base ("", selector);
}
public void add_sibling (Metadata metadata) {
foreach (var child in metadata.children) {
add_child (child);
}
// merge arguments and take precedence
foreach (var key in metadata.args.get_keys ()) {
args[key] = metadata.args[key];
}
}
}
class Metadata {
private static Metadata _empty = null;
public static Metadata empty {
get {
if (_empty == null) {
_empty = new Metadata ("");
}
return _empty;
}
}
public PatternSpec pattern_spec;
public string? selector;
public SourceReference source_reference;
public bool used = false;
public Vala.Map<ArgumentType,Argument> args = new HashMap<ArgumentType,Argument> ();
public ArrayList<Metadata> children = new ArrayList<Metadata> ();
public Metadata (string pattern, string? selector = null, SourceReference? source_reference = null) {
this.pattern_spec = new PatternSpec (pattern);
this.selector = selector;
this.source_reference = source_reference;
}
public void add_child (Metadata metadata) {
children.add (metadata);
}
public Metadata match_child (string name, string? selector = null) {
var result = Metadata.empty;
foreach (var metadata in children) {
if ((selector == null || metadata.selector == null || metadata.selector == selector) && metadata.pattern_spec.match_string (name)) {
metadata.used = true;
if (result == Metadata.empty) {
// first match
result = metadata;
} else {
var ms = result as MetadataSet;
if (ms == null) {
// second match
ms = new MetadataSet (selector);
ms.add_sibling (result);
}
ms.add_sibling (metadata);
result = ms;
}
}
}
return result;
}
public void add_argument (ArgumentType key, Argument value) {
args.set (key, value);
}
public bool has_argument (ArgumentType key) {
return args.contains (key);
}
public Expression? get_expression (ArgumentType arg) {
var val = args.get (arg);
if (val != null) {
val.used = true;
return val.expression;
}
return null;
}
public string? get_string (ArgumentType arg) {
var lit = get_expression (arg) as StringLiteral;
if (lit != null) {
return lit.eval ();
}
return null;
}
public int get_integer (ArgumentType arg) {
var unary = get_expression (arg) as UnaryExpression;
if (unary != null && unary.operator == UnaryOperator.MINUS) {
var lit = unary.inner as IntegerLiteral;
if (lit != null) {
return -int.parse (lit.value);
}
} else {
var lit = get_expression (arg) as IntegerLiteral;
if (lit != null) {
return int.parse (lit.value);
}
}
return 0;
}
public bool get_bool (ArgumentType arg, bool default_value = false) {
var lit = get_expression (arg) as BooleanLiteral;
if (lit != null) {
return lit.value;
}
return default_value;
}
public SourceReference? get_source_reference (ArgumentType arg) {
var val = args.get (arg);
if (val != null) {
return val.source_reference;
}
return null;
}
}
class MetadataParser {
/**
* Grammar:
* metadata ::= [ rule [ '\n' relativerule ]* ]
* rule ::= pattern ' ' [ args ]
* relativerule ::= '.' rule
* pattern ::= glob [ '#' selector ] [ '.' pattern ]
*/
private Metadata tree = new Metadata ("");
private Scanner scanner;
private SourceLocation begin;
private SourceLocation end;
private SourceLocation old_end;
private TokenType current;
private Metadata parent_metadata;
public MetadataParser () {
tree.used = true;
}
SourceReference get_current_src () {
return new SourceReference (scanner.source_file, begin, end);
}
SourceReference get_src (SourceLocation begin, SourceLocation? end = null) {
var e = this.end;
if (end != null) {
e = end;
}
return new SourceReference (scanner.source_file, begin, e);
}
public Metadata parse_metadata (SourceFile metadata_file) {
scanner = new Scanner (metadata_file);
next ();
while (current != TokenType.EOF) {
if (!parse_rule ()) {
return Metadata.empty;
}
}
return tree;
}
TokenType next () {
old_end = end;
current = scanner.read_token (out begin, out end);
return current;
}
bool has_space () {
return old_end.pos != begin.pos;
}
bool has_newline () {
return old_end.line != begin.line;
}
string get_string (SourceLocation? begin = null, SourceLocation? end = null) {
var b = this.begin;
var e = this.end;
if (begin != null) {
b = begin;
}
if (end != null) {
e = end;
}
return ((string) b.pos).substring (0, (int) (e.pos - b.pos));
}
string? parse_identifier (bool is_glob) {
var begin = this.begin;
if (current == TokenType.DOT || current == TokenType.HASH) {
if (is_glob) {
Report.error (get_src (begin), "expected glob-style pattern");
} else {
Report.error (get_src (begin), "expected identifier");
}
return null;
}
if (is_glob) {
while (current != TokenType.EOF && current != TokenType.DOT && current != TokenType.HASH) {
next ();
if (has_space ()) {
break;
}
}
} else {
next ();
}
return get_string (begin, old_end);
}
string? parse_selector () {
if (current != TokenType.HASH || has_space ()) {
return null;
}
next ();
return parse_identifier (false);
}
Metadata? parse_pattern () {
Metadata metadata;
bool is_relative = false;
if (current == TokenType.IDENTIFIER || current == TokenType.STAR) {
// absolute pattern
parent_metadata = tree;
} else {
// relative pattern
if (current != TokenType.DOT) {
Report.error (get_current_src (), "expected pattern or `.', got `%s'", current.to_string ());
return null;
}
next ();
is_relative = true;
}
if (parent_metadata == null) {
Report.error (get_current_src (), "cannot determinate parent metadata");
return null;
}
SourceLocation begin = this.begin;
var pattern = parse_identifier (true);
if (pattern == null) {
return null;
}
metadata = new Metadata (pattern, parse_selector (), get_src (begin));
parent_metadata.add_child (metadata);
while (current != TokenType.EOF && !has_space ()) {
if (current != TokenType.DOT) {
Report.error (get_current_src (), "expected `.' got `%s'", current.to_string ());
break;
}
next ();
begin = this.begin;
pattern = parse_identifier (true);
if (pattern == null) {
return null;
}
var child = new Metadata (pattern, parse_selector (), get_src (begin, old_end));
metadata.add_child (child);
metadata = child;
}
if (!is_relative) {
parent_metadata = metadata;
}
return metadata;
}
Expression? parse_expression () {
var begin = this.begin;
var src = get_current_src ();
Expression expr = null;
switch (current) {
case TokenType.NULL:
expr = new NullLiteral (src);
break;
case TokenType.TRUE:
expr = new BooleanLiteral (true, src);
break;
case TokenType.FALSE:
expr = new BooleanLiteral (false, src);
break;
case TokenType.MINUS:
next ();
var inner = parse_expression ();
if (inner == null) {
Report.error (src, "expected expression after `-', got `%s'", current.to_string ());
} else {
expr = new UnaryExpression (UnaryOperator.MINUS, inner, get_src (begin));
}
return expr;
case TokenType.INTEGER_LITERAL:
expr = new IntegerLiteral (get_string (), src);
break;
case TokenType.REAL_LITERAL:
expr = new RealLiteral (get_string (), src);
break;
case TokenType.STRING_LITERAL:
expr = new StringLiteral (get_string (), src);
break;
case TokenType.IDENTIFIER:
expr = new MemberAccess (null, get_string (), src);
while (next () == TokenType.DOT) {
if (next () != TokenType.IDENTIFIER) {
Report.error (get_current_src (), "expected identifier got `%s'", current.to_string ());
break;
}
expr = new MemberAccess (expr, get_string (), get_current_src ());
}
return expr;
case TokenType.OPEN_PARENS:
// empty tuple => no expression
if (next () != TokenType.CLOSE_PARENS) {
Report.error (get_current_src (), "expected `)', got `%s'", current.to_string ());
break;
}
expr = new Tuple (src);
break;
default:
Report.error (src, "expected literal or symbol got %s", current.to_string ());
break;
}
next ();
return expr;
}
bool parse_args (Metadata metadata) {
while (current != TokenType.EOF && has_space () && !has_newline ()) {
SourceLocation begin = this.begin;
var id = parse_identifier (false);
if (id == null) {
return false;
}
var arg_type = ArgumentType.from_string (id);
if (arg_type == null) {
Report.warning (get_src (begin, old_end), "unknown argument `%s'", id);
continue;
}
if (current != TokenType.ASSIGN) {
// threat as `true'
metadata.add_argument (arg_type, new Argument (new BooleanLiteral (true, get_src (begin)), get_src (begin)));
continue;
}
next ();
Expression expr = parse_expression ();
if (expr == null) {
return false;
}
metadata.add_argument (arg_type, new Argument (expr, get_src (begin)));
}
return true;
}
bool parse_rule () {
var old_end = end;
var metadata = parse_pattern ();
if (metadata == null) {
return false;
}
if (current == TokenType.EOF || old_end.line != end.line) {
// eof or new rule
return true;
}
return parse_args (metadata);
}
}
/*
* GIR parser
*/
class Node {
public static ArrayList<Node> new_namespaces = new ArrayList<Node> ();
public weak Node parent;
public string element_type;
public string name;
public Map<string,string> girdata = null;
public Metadata metadata = Metadata.empty;
public SourceReference source_reference = null;
public ArrayList<Node> members = new ArrayList<Node> (); // guarantees fields order
public HashMap<string, ArrayList<Node>> scope = new HashMap<string, ArrayList<Node>> (str_hash, str_equal);
public GirComment comment;
public Symbol symbol;
public bool new_symbol;
public bool merged;
public bool processed;
// function-specific
public int return_array_length_idx = -1;
public List<ParameterInfo> parameters;
public ArrayList<int> array_length_parameters;
public ArrayList<int> closure_parameters;
public ArrayList<int> destroy_parameters;
// record-specific
public UnresolvedSymbol gtype_struct_for;
// class-specific
public UnresolvedSymbol type_struct;
// alias-specific
public DataType base_type;
// struct-specific
public int array_length_idx = -1;
public bool deprecated = false;
public uint64 deprecated_version = 0;
public string? deprecated_since = null;
public string? deprecated_replacement = null;
public Node (string? name) {
this.name = name;
}
public void add_member (Node node) {
var nodes = scope[node.name];
if (nodes == null) {
nodes = new ArrayList<Node> ();
scope[node.name] = nodes;
}
nodes.add (node);
members.add (node);
node.parent = this;
}
public void remove_member (Node node) {
var nodes = scope[node.name];
nodes.remove (node);
if (nodes.size == 0) {
scope.remove (node.name);
}
members.remove (node);
node.parent = null;
}
public Node? lookup (string name, bool create_namespace = false, SourceReference? source_reference = null) {
var nodes = scope[name];
Node node = null;
if (nodes != null) {
node = nodes[0];
}
if (node == null) {
Symbol sym = null;
if (symbol != null) {
sym = symbol.scope.lookup (name);
}
if (sym != null || create_namespace) {
node = new Node (name);
node.symbol = sym;
node.new_symbol = node.symbol == null;
node.source_reference = source_reference;
add_member (node);
if (sym == null) {
new_namespaces.add (node);
}
}
}
return node;
}
public ArrayList<Node>? lookup_all (string name) {
return scope[name];
}
public UnresolvedSymbol get_unresolved_symbol () {
if (parent.name == null) {
return new UnresolvedSymbol (null, name);
} else {
return new UnresolvedSymbol (parent.get_unresolved_symbol (), name);
}
}
public string get_full_name () {
if (parent == null) {
return name;
}
if (name == null) {
return parent.get_full_name ();
}
if (parent.get_full_name () == null) {
return name;
}
return "%s.%s".printf (parent.get_full_name (), name);
}
public string get_default_gir_name () {
GLib.StringBuilder default_name = new GLib.StringBuilder ();
for (unowned Node? node = this ; node != null ; node = node.parent) {
if (node.symbol is Namespace) {
if (node.symbol.get_attribute_string ("CCode", "gir_namespace") != null) {
break;
}
}
default_name.prepend (node.name);
}
return default_name.str;
}
public string get_gir_name () {
var gir_name = girdata["name"];
if (gir_name == null) {
gir_name = girdata["glib:name"];
}
return gir_name;
}
public string get_lower_case_cprefix () {
if (name == null) {
return "";
}
var prefix = symbol.get_attribute_string ("CCode", "lower_case_cprefix");
if (prefix == null && (symbol is ObjectTypeSymbol || symbol is Struct)) {
if (metadata.has_argument (ArgumentType.LOWER_CASE_CPREFIX)) {
prefix = metadata.get_string (ArgumentType.LOWER_CASE_CPREFIX);
} else if (metadata.has_argument (ArgumentType.CPREFIX)) {
prefix = metadata.get_string (ArgumentType.CPREFIX);
} else {
prefix = symbol.get_attribute_string ("CCode", "cprefix");
}
}
if (prefix == null && girdata != null && (girdata.contains ("c:symbol-prefix") || girdata.contains("c:symbol-prefixes"))) {
/* Use the prefix in the gir. We look up prefixes up to the root.
If some node does not have girdata, we ignore it as i might be
a namespace created due to reparenting. */
unowned Node cur = this;
do {
if (cur.girdata != null) {
var p = cur.girdata["c:symbol-prefix"];
if (p == null) {
p = cur.girdata["c:symbol-prefixes"];
if (p != null) {
var idx = p.index_of (",");
if (idx >= 0) {
p = p.substring (0, idx);
}
}
}
if (p != null) {
prefix = "%s_%s".printf (p, prefix ?? "");
}
}
cur = cur.parent;
} while (cur != null);
}
if (prefix == null) {
prefix = get_default_lower_case_cprefix ();
}
return prefix;
}
public string get_default_lower_case_cprefix () {
return "%s%s_".printf (parent.get_lower_case_cprefix (), get_lower_case_csuffix ());
}
public string get_lower_case_csuffix () {
var suffix = symbol.get_attribute_string ("CCode", "lower_case_csuffix");
if (metadata.has_argument (ArgumentType.LOWER_CASE_CSUFFIX)) {
suffix = metadata.get_string (ArgumentType.LOWER_CASE_CSUFFIX);
}
// we can't rely on gir suffix if metadata changed the name
if (suffix == null && girdata != null && girdata["c:symbol-prefix"] != null && !metadata.has_argument (ArgumentType.NAME)) {
suffix = girdata["c:symbol-prefix"];
}
if (suffix == null) {
suffix = get_default_lower_case_csuffix ();
}
return suffix;
}
public string get_default_lower_case_csuffix () {
var csuffix = Symbol.camel_case_to_lower_case (name);
// FIXME Code duplication with CCodeAttribute.get_default_lower_case_suffix()
// remove underscores in some cases to avoid conflicts of type macros
if (csuffix.has_prefix ("type_")) {
csuffix = "type" + csuffix.substring ("type_".length);
} else if (csuffix.has_prefix ("is_")) {
csuffix = "is" + csuffix.substring ("is_".length);
}
if (csuffix.has_suffix ("_class")) {
csuffix = csuffix.substring (0, csuffix.length - "_class".length) + "class";
}
return csuffix;
}
public string get_cprefix () {
if (name == null) {
return "";
}
string prefix;
if (metadata.has_argument (ArgumentType.CPREFIX)) {
prefix = metadata.get_string (ArgumentType.CPREFIX);
} else {
prefix = symbol.get_attribute_string ("CCode", "cprefix");
}
if (prefix == null && girdata != null && girdata["c:identifier-prefixes"] != null) {
prefix = girdata["c:identifier-prefixes"];
int idx = prefix.index_of (",");
if (idx != -1) {
prefix = prefix.substring (0, idx);
}
}
if (prefix == null) {
if (symbol is Enum || symbol is ErrorDomain) {
prefix = "%s%s".printf (parent.get_lower_case_cprefix ().ascii_up (), name);
} else {
prefix = get_cname ();
}
}
return prefix;
}
public string get_cname () {
if (name == null) {
return "";
}
string cname;
if (metadata.has_argument (ArgumentType.CNAME)) {
cname = metadata.get_string (ArgumentType.CNAME);
} else {
cname = symbol.get_attribute_string ("CCode", "cname");
}
if (girdata != null) {
if (cname == null) {
cname = girdata["c:identifier"];
}
if (cname == null) {
cname = girdata["c:type"];
}
if (cname == null) {
cname = girdata["glib:type-name"];
}
}
if (cname == null) {
cname = get_default_cname ();
}
return cname;
}
public string get_default_cname () {
if (name == null) {
return "";
}
if (symbol is Field) {
if (((Field) symbol).binding == MemberBinding.STATIC) {
return parent.get_lower_case_cprefix () + name;
} else {
return name;
}
} else if (symbol is Method) {
return "%s%s".printf (parent.get_lower_case_cprefix (), name);
} else {
return "%s%s".printf (parent.get_cprefix (), name);
}
}
public string get_finish_cname () {
var finish_cname = symbol.get_attribute_string ("CCode", "finish_name");
if (finish_cname == null) {
finish_cname = get_cname ();
if (finish_cname.has_suffix ("_async")) {
finish_cname = finish_cname.substring (0, finish_cname.length - "_async".length);
}
finish_cname = "%s_finish".printf (finish_cname);
}
return finish_cname;
}
public string get_cheader_filename () {
if (metadata.has_argument (ArgumentType.CHEADER_FILENAME)) {
return metadata.get_string (ArgumentType.CHEADER_FILENAME);
}
var cheader_filename = symbol.get_attribute_string ("CCode", "cheader_filename");
if (cheader_filename != null) {
return cheader_filename;
}
if (parent.name != null) {
return parent.get_cheader_filename ();
} else if (symbol.source_reference != null) {
return symbol.source_reference.file.get_cinclude_filename ();
}
return "";
}
private static uint64 parse_version_string (string version) {
int64 res = 0;
int shift = 16;
string[] tokens = version.split (".", 3);
foreach (unowned string token in tokens) {
int64 t;
if (!int64.try_parse (token, out t))
return 0;
if (t > 0xffff)
return 0;
res |= (t << shift);
shift -= 8;
}
return res;
}
static void move_class_methods (Node target, Node? source) {
if (source == null) {
return;
}
var i = 0;
while (i < source.members.size) {
var node = source.members[i];
if (node.symbol is Method) {
source.remove_member (node);
target.add_member (node);
((Method) node.symbol).binding = MemberBinding.CLASS;
} else {
i++;
}
}
}
public void process (GirParser parser) {
if (processed) {
return;
}
if (symbol is Namespace && parent == parser.root) {
// first process aliases since they have no assigned symbol
foreach (var node in members) {
if (node.element_type == "alias") {
parser.process_alias (node);
}
}
// auto reparent namespace methods, allowing node removals
for (int i=0; i < members.size; i++) {
var node = members[i];
if (node.symbol is Method && node.new_symbol) {
parser.process_namespace_method (this, node);
if (i < members.size && members[i] != node) {
// node removed in the middle
i--;
}
}
}
}
if (symbol is Class && girdata != null) {
if (type_struct != null) {
move_class_methods (this, parser.resolve_node (parent, type_struct));
}
var class_struct = girdata["glib:type-struct"];
if (class_struct != null) {
move_class_methods (this, parser.resolve_node (parent, parser.parse_symbol_from_string (class_struct, source_reference)));
}
}
// process children
foreach (var node in members) {
node.process (parser);
}
if (girdata != null) {
// GIR node processing
if (symbol is Method) {
var m = (Method) symbol;
parser.process_callable (this);
var colliding = parent.lookup_all (name);
foreach (var node in colliding) {
var sym = node.symbol;
if (sym is Field) {
if (m.return_type.compatible (((Field) sym).variable_type) && m.get_parameters ().size == 0) {
// assume method is getter
merged = true;
} else {
Report.warning (symbol.source_reference, "Field `%s' conflicts with method of the same name", get_full_name ());
}
} else if (sym is Signal) {
node.process (parser);
var sig = (Signal) sym;
if (m.is_virtual || m.is_abstract) {
sig.is_virtual = true;
} else {
sig.set_attribute ("HasEmitter", true);
}
parser.assume_parameter_names (sig, m, false);
if (m.get_parameters().size != sig.get_parameters().size) {
Report.warning (symbol.source_reference, "Signal `%s' conflicts with method of the same name", get_full_name ());
}
merged = true;
} else if (sym is Method && !(sym is CreationMethod) && node != this) {
if (m.is_virtual || m.is_abstract) {
bool different_invoker = false;
var attr = m.get_attribute ("NoWrapper");
if (attr != null) {
/* no invoker but this method has the same name,
most probably the invoker has a different name
and g-ir-scanner missed it */
var invoker = parser.find_invoker (this);
if (invoker != null) {
m.set_attribute_string ("CCode", "vfunc_name", m.name);
m.name = invoker.symbol.name;
m.set_attribute ("NoWrapper", false);
invoker.merged = true;
different_invoker = true;
}
}
if (!different_invoker) {
if (attr != null) {
Report.warning (symbol.source_reference, "Virtual method `%s' conflicts with method of the same name", get_full_name ());
}
node.merged = true;
}
} else if (m.is_class_member ()) {
Report.warning (symbol.source_reference, "Class method `%s' conflicts with method of the same name", get_full_name ());
node.merged = true;
}
}
}
if (!(m is CreationMethod)) {
if (metadata.has_argument (ArgumentType.DESTROYS_INSTANCE)) {
m.set_attribute ("DestroysInstance", metadata.get_bool (ArgumentType.DESTROYS_INSTANCE));
}
if (metadata.has_argument (ArgumentType.RETURNS_MODIFIED_POINTER)) {
m.set_attribute ("ReturnsModifiedPointer", metadata.get_bool (ArgumentType.RETURNS_MODIFIED_POINTER));
}
// merge custom vfunc
if (metadata.has_argument (ArgumentType.VFUNC_NAME)) {
var vfunc = parent.lookup (metadata.get_string (ArgumentType.VFUNC_NAME));
if (vfunc != null && vfunc != this) {
vfunc.processed = true;
vfunc.merged = true;
}
}
}
if (metadata.has_argument (ArgumentType.DELEGATE_TARGET)) {
m.set_attribute_bool ("CCode", "delegate_target", metadata.get_bool (ArgumentType.DELEGATE_TARGET));
}
if (m.coroutine) {
parser.process_async_method (this);
}
} else if (symbol is Property) {
var colliding = parent.lookup_all (name);
foreach (var node in colliding) {
if (node.symbol is Signal) {
// properties take precedence
node.processed = true;
node.merged = true;
Report.warning (symbol.source_reference, "Signal `%s' conflicts with property of the same name", get_full_name ());
} else if (node.symbol is Method) {
// getter in C, but not in Vala
node.merged = true;
}
}
var prop = (Property) symbol;
// add accessors, can't do this before gir symbol resolution
var readable = girdata["readable"];
var writable = girdata["writable"];
var construct_ = girdata["construct"];
var construct_only = girdata["construct-only"];
if (readable != "0") {
prop.get_accessor = new PropertyAccessor (true, false, false, prop.property_type.copy (), null, null);
}
if (writable == "1" || construct_only == "1") {
prop.set_accessor = new PropertyAccessor (false, (construct_only != "1") && (writable == "1"), (construct_only == "1") || (construct_ == "1"), prop.property_type.copy (), null, null);
}
// there is no information about the internal ownership so assume `owned` as default
prop.property_type.value_owned = true;
// find virtual/abstract accessors to handle abstract properties properly
Node getter = null;
var getters = parent.lookup_all ("get_%s".printf (name));
if (getters != null) {
foreach (var g in getters) {
if ((getter == null || !g.merged) && g.get_cname () == "%sget_%s".printf (parent.get_lower_case_cprefix (), name)) {
getter = g;
}
}
}
Node setter = null;
var setters = parent.lookup_all ("set_%s".printf (name));
if (setters != null) {
foreach (var s in setters) {
if ((setter == null || !s.merged) && s.get_cname () == "%sset_%s".printf (parent.get_lower_case_cprefix (), name)) {
setter = s;
}
}
}
prop.set_attribute ("NoAccessorMethod", (readable == "0" && construct_only == "1"));
if (prop.get_accessor != null) {
var m = getter != null ? getter.symbol as Method : null;
// ensure getter vfunc if the property is abstract
if (m != null) {
getter.process (parser);
if (m.return_type is VoidType || m.get_parameters().size != 0 || m.tree_can_fail) {
prop.set_attribute ("NoAccessorMethod", true);
} else {
if (getter.name == name) {
foreach (var node in colliding) {
if (node.symbol is Method) {
node.merged = true;
}
}
}
prop.get_accessor.value_type.value_owned = m.return_type.value_owned;
if (!m.is_abstract && !m.is_virtual && prop.is_abstract) {
prop.set_attribute ("ConcreteAccessor", true);
}
}
} else {
prop.set_attribute ("NoAccessorMethod", true);
}
}
if (prop.get_attribute ("NoAccessorMethod") == null && prop.set_accessor != null && prop.set_accessor.writable) {
var m = setter != null ? setter.symbol as Method : null;
// ensure setter vfunc if the property is abstract
if (m != null) {
setter.process (parser);
if (!(m.return_type is VoidType || m.return_type is BooleanType) || m.get_parameters ().size != 1 || m.tree_can_fail) {
prop.set_attribute ("NoAccessorMethod", true);
prop.set_attribute ("ConcreteAccessor", false);
} else {
prop.set_accessor.value_type.value_owned = m.get_parameters()[0].variable_type.value_owned;
if (prop.get_attribute ("ConcreteAccessor") != null && !m.is_abstract && !m.is_virtual && prop.is_abstract) {
prop.set_attribute ("ConcreteAccessor", true);
prop.set_attribute ("NoAccessorMethod", false);
}
}
} else {
prop.set_attribute ("NoAccessorMethod", true);
prop.set_attribute ("ConcreteAccessor", false);
}
}
if (prop.get_attribute ("NoAccessorMethod") != null) {
if (!prop.overrides && parent.symbol is Class) {
// bug 742012
// find base interface property with ConcreteAccessor and this overriding property with NoAccessorMethod
var base_prop_node = parser.base_interface_property (this);
if (base_prop_node != null) {
base_prop_node.process (parser);
var base_property = (Property) base_prop_node.symbol;
if (base_property.get_attribute ("ConcreteAccessor") != null) {
prop.set_attribute ("NoAccessorMethod", false);
if (prop.get_accessor != null) {
prop.get_accessor.value_type.value_owned = base_property.get_accessor.value_type.value_owned;
}
if (prop.set_accessor != null) {
prop.set_accessor.value_type.value_owned = base_property.set_accessor.value_type.value_owned;
}
}
}
}
}
if (metadata.has_argument (ArgumentType.NO_ACCESSOR_METHOD)) {
prop.set_attribute ("NoAccessorMethod", metadata.get_bool (ArgumentType.NO_ACCESSOR_METHOD));
}
if (prop.get_attribute ("NoAccessorMethod") != null) {
// gobject defaults
if (prop.get_accessor != null) {
prop.get_accessor.value_type.value_owned = true;
}
if (prop.set_accessor != null) {
prop.set_accessor.value_type.value_owned = false;
}
}
} else if (symbol is Field) {
var field = (Field) symbol;
var colliding = parent.lookup_all (name);
if (colliding.size > 1) {
// whatelse has precedence over the field
merged = true;
}
if (metadata.has_argument (ArgumentType.DELEGATE_TARGET)) {
field.set_attribute_bool ("CCode", "delegate_target", metadata.get_bool (ArgumentType.DELEGATE_TARGET));
}
if (metadata.has_argument (ArgumentType.DELEGATE_TARGET_CNAME)) {
field.set_attribute_string ("CCode", "delegate_target_cname", metadata.get_string (ArgumentType.DELEGATE_TARGET_CNAME));
}
if (metadata.has_argument (ArgumentType.DESTROY_NOTIFY_CNAME)) {
field.set_attribute_string ("CCode", "destroy_notify_cname", metadata.get_string (ArgumentType.DESTROY_NOTIFY_CNAME));
}
if (field.variable_type is DelegateType && parent.gtype_struct_for != null) {
// virtual method field
var d = ((DelegateType) field.variable_type).delegate_symbol;
parser.process_virtual_method_field (this, d, parent.gtype_struct_for);
merged = true;
} else if (field.variable_type is DelegateType) {
// anonymous delegate
var d = ((DelegateType) field.variable_type).delegate_symbol;
if (this.lookup (d.name).parent == this) {
d.set_attribute_bool ("CCode", "has_typedef", false);
if (d.has_target && !metadata.has_argument (ArgumentType.DELEGATE_TARGET)) {
field.set_attribute_bool ("CCode", "delegate_target", false);
}
d.name = "%s%sFunc".printf (parent.symbol.name, Symbol.lower_case_to_camel_case (d.name));
get_parent_namespace (this).add_delegate (d);
}
} else if (field.variable_type is ArrayType) {
Node array_length;
if (metadata.has_argument (ArgumentType.ARRAY_LENGTH_FIELD)) {
array_length = parent.lookup (metadata.get_string (ArgumentType.ARRAY_LENGTH_FIELD));
} else if (array_length_idx > -1 && parent.members.size > array_length_idx) {
array_length = parent.members[array_length_idx];
} else {
array_length = parent.lookup ("n_%s".printf (field.name));
if (array_length == null) {
array_length = parent.lookup ("num_%s".printf (field.name));
if (array_length == null) {
array_length = parent.lookup ("%s_length".printf (field.name));
if (array_length == null) {
array_length = parent.lookup ("%s_length1".printf (field.name));
}
}
}
}
if (array_length != null && array_length.symbol is Field) {
var length_field = (Field) array_length.symbol;
// array has length
field.set_attribute_string ("CCode", "array_length_cname", length_field.name);
var length_type = length_field.variable_type.to_qualified_string ();
if (length_type != "int") {
var st = parser.root.lookup (length_type);
if (st != null) {
field.set_attribute_string ("CCode", "array_length_type", st.get_cname ());
}
}
field.remove_attribute_argument ("CCode", "array_length");
field.remove_attribute_argument ("CCode", "array_null_terminated");
}
}
} else if (symbol is Signal || symbol is Delegate) {
parser.process_callable (this);
} else if (symbol is Interface) {
parser.process_interface (this);
} else if (symbol is Struct) {
if (parent.symbol is ObjectTypeSymbol || parent.symbol is Struct) {
// nested struct
foreach (var fn in members) {
var f = fn.symbol as Field;
if (f != null) {
if (f.binding == MemberBinding.INSTANCE) {
f.set_attribute_string ("CCode", "cname", "%s.%s".printf (name, fn.get_cname ()));
}
f.name = "%s_%s".printf (symbol.name, f.name);
fn.name = f.name;
parent.add_member (fn);
}
}
merged = true;
} else {
// record for a gtype
if (gtype_struct_for != null) {
var obj = parser.resolve_node (parent, gtype_struct_for);
if (obj != null && obj.symbol is Interface && "%sIface".printf (obj.get_cname ()) != get_cname ()) {
// set the interface struct name
obj.symbol.set_attribute_string ("CCode", "type_cname", get_cname ());
} else if (obj != null && obj.symbol is Class && "%sClass".printf (obj.get_cname ()) != get_cname ()) {
// set the class struct name
obj.symbol.set_attribute_string ("CCode", "type_cname", get_cname ());
}
merged = true;
}
}
}
// deprecated
if (metadata.has_argument (ArgumentType.REPLACEMENT)) {
deprecated = true;
deprecated_replacement = metadata.get_string (ArgumentType.REPLACEMENT);
}
if (metadata.has_argument (ArgumentType.DEPRECATED_SINCE)) {
deprecated = true;
deprecated_since = metadata.get_string (ArgumentType.DEPRECATED_SINCE);
} else if (girdata["deprecated-version"] != null) {
deprecated = true;
deprecated_since = girdata.get ("deprecated-version");
}
if (metadata.has_argument (ArgumentType.DEPRECATED)) {
deprecated = metadata.get_bool (ArgumentType.DEPRECATED, true);
if (!deprecated) {
deprecated_since = null;
deprecated_replacement = null;
}
} else if (girdata["deprecated"] != null) {
deprecated = true;
}
if (deprecated_since != null) {
deprecated_version = parse_version_string (deprecated_since);
}
// experimental
if (metadata.has_argument (ArgumentType.EXPERIMENTAL)) {
symbol.set_attribute_bool ("Version", "experimental", metadata.get_bool (ArgumentType.EXPERIMENTAL));
}
// since
if (metadata.has_argument (ArgumentType.SINCE)) {
symbol.version.since = metadata.get_string (ArgumentType.SINCE);
} else if (symbol is Namespace == false && girdata["version"] != null) {
symbol.version.since = girdata.get ("version");
}
if (parent.symbol is Namespace) {
// always write cheader filename for namespace children
symbol.set_attribute_string ("CCode", "cheader_filename", get_cheader_filename ());
} else if (metadata.has_argument (ArgumentType.CHEADER_FILENAME)) {
symbol.set_attribute_string ("CCode", "cheader_filename", metadata.get_string (ArgumentType.CHEADER_FILENAME));
}
if (get_cname () != get_default_cname ()) {
symbol.set_attribute_string ("CCode", "cname", get_cname ());
}
if (metadata.has_argument (ArgumentType.FEATURE_TEST_MACRO)) {
symbol.set_attribute_string ("CCode", "feature_test_macro", metadata.get_string (ArgumentType.FEATURE_TEST_MACRO));
}
// lower_case_cprefix
if (get_lower_case_cprefix () != get_default_lower_case_cprefix ()) {
symbol.set_attribute_string ("CCode", "lower_case_cprefix", get_lower_case_cprefix ());
}
// lower_case_csuffix
if (get_lower_case_csuffix () != get_default_lower_case_csuffix ()) {
symbol.set_attribute_string ("CCode", "lower_case_csuffix", get_lower_case_csuffix ());
}
// set gir name if the symbol has been renamed
string gir_name = get_gir_name ();
string default_gir_name = get_default_gir_name ();
if (is_container (symbol) && !(symbol is Namespace) && (name != gir_name || gir_name != default_gir_name)) {
symbol.set_attribute_string ("GIR", "name", gir_name);
}
}
if (!(new_symbol && merged) && is_container (symbol)) {
foreach (var node in members) {
if (this.deprecated_version > 0 && node.deprecated_version > 0) {
if (this.deprecated_version <= node.deprecated_version) {
node.deprecated = false;
node.deprecated_since = null;
node.deprecated_replacement = null;
}
}
if (node.deprecated) {
node.symbol.version.deprecated = true;
}
if (node.deprecated_since != null) {
node.symbol.version.deprecated_since = node.deprecated_since;
}
if (node.deprecated_replacement != null) {
node.symbol.version.replacement = node.deprecated_replacement;
}
if (node.new_symbol && !node.merged && !metadata.get_bool (ArgumentType.HIDDEN)) {
add_symbol_to_container (symbol, node.symbol);
}
}
var cl = symbol as Class;
if (cl != null && !cl.is_compact && cl.default_construction_method == null) {
// always provide constructor in generated bindings
// to indicate that implicit Object () chainup is allowed
var cm = new CreationMethod (null, null, cl.source_reference);
cm.has_construct_function = false;
cm.access = SymbolAccessibility.PROTECTED;
cl.add_method (cm);
}
}
processed = true;
}
public string to_string () {
if (parent.name == null) {
return name;
} else {
return "%s.%s".printf (parent.to_string (), name);
}
}
}
static GLib.Regex type_from_string_regex;
MarkupReader reader;
CodeContext context;
SourceFile current_source_file;
Node root;
ArrayList<Metadata> metadata_roots = new ArrayList<Metadata> ();
SourceLocation begin;
SourceLocation end;
MarkupTokenType current_token;
string[] cheader_filenames;
ArrayList<Metadata> metadata_stack;
Metadata metadata;
ArrayList<Node> tree_stack;
Node current;
Node old_current;
Set<string> provided_namespaces = new HashSet<string> (str_hash, str_equal);
HashMap<UnresolvedSymbol,Symbol> unresolved_symbols_map = new HashMap<UnresolvedSymbol,Symbol> (unresolved_symbol_hash, unresolved_symbol_equal);
ArrayList<UnresolvedSymbol> unresolved_gir_symbols = new ArrayList<UnresolvedSymbol> ();
HashMap<UnresolvedType,Node> unresolved_type_arguments = new HashMap<UnresolvedType,Node> ();
ArrayList<Interface> ifaces_needing_object_prereq = new ArrayList<Interface> ();
/**
* Parses all .gir source files in the specified code
* context and builds a code tree.
*
* @param context a code context
*/
public void parse (CodeContext context) {
this.context = context;
root = new Node (null);
root.symbol = context.root;
tree_stack = new ArrayList<Node> ();
current = root;
map_vala_to_gir ();
context.accept (this);
resolve_gir_symbols ();
create_new_namespaces ();
resolve_type_arguments ();
root.process (this);
/* Temporarily workaround G-I bug not adding GLib.Object prerequisite:
ensure we have at least one instantiable prerequisite */
var glib_ns = context.root.scope.lookup ("GLib") as Namespace;
if (glib_ns != null) {
var object_type = (Class) glib_ns.scope.lookup ("Object");
foreach (var iface in ifaces_needing_object_prereq) {
iface.add_prerequisite (new ObjectType (object_type));
}
}
foreach (var metadata in metadata_roots) {
report_unused_metadata (metadata);
}
this.context = null;
}
void map_vala_to_gir () {
foreach (var source_file in context.get_source_files ()) {
string gir_namespace = source_file.gir_namespace;
string gir_version = source_file.gir_version;
Namespace ns = null;
if (gir_namespace == null) {
foreach (var node in source_file.get_nodes ()) {
if (node is Namespace) {
ns = (Namespace) node;
gir_namespace = ns.get_attribute_string ("CCode", "gir_namespace");
if (gir_namespace != null) {
gir_version = ns.get_attribute_string ("CCode", "gir_version");
break;
}
}
}
}
if (gir_namespace == null) {
continue;
}
provided_namespaces.add ("%s-%s".printf (gir_namespace, gir_version));
var gir_symbol = new UnresolvedSymbol (null, gir_namespace);
if (gir_namespace != ns.name) {
set_symbol_mapping (gir_symbol, ns);
}
foreach (var node in source_file.get_nodes ()) {
if (node.has_attribute_argument ("GIR", "name")) {
var map_from = new UnresolvedSymbol (gir_symbol, node.get_attribute_string ("GIR", "name"));
set_symbol_mapping (map_from, (Symbol) node);
}
}
}
}
public override void visit_source_file (SourceFile source_file) {
if (source_file.filename.has_suffix (".gir")) {
parse_file (source_file);
}
}
public void parse_file (SourceFile source_file) {
var has_global_context = (context != null);
if (!has_global_context) {
context = source_file.context;
}
metadata_stack = new ArrayList<Metadata> ();
metadata = Metadata.empty;
cheader_filenames = null;
this.current_source_file = source_file;
reader = new MarkupReader (source_file.filename);
// xml prolog
do {
next ();
if (current_token == MarkupTokenType.EOF) {
Report.error (get_current_src (), "unexpected end of file");
return;
}
} while (current_token != MarkupTokenType.START_ELEMENT && reader.name != "repository");
parse_repository ();
reader = null;
this.current_source_file = null;
if (!has_global_context) {
context = null;
}
}
void next () {
current_token = reader.read_token (out begin, out end);
}
void start_element (string name) {
if (current_token != MarkupTokenType.START_ELEMENT || reader.name != name) {
// error
Report.error (get_current_src (), "expected start element of `%s'", name);
}
}
void end_element (string name) {
while (current_token != MarkupTokenType.END_ELEMENT || reader.name != name) {
Report.warning (get_current_src (), "expected end element of `%s'", name);
skip_element ();
}
next ();
}
SourceReference get_current_src () {
return new SourceReference (this.current_source_file, begin, end);
}
SourceReference get_src (SourceLocation begin, SourceLocation? end = null) {
var e = this.end;
if (end != null) {
e = end;
}
return new SourceReference (this.current_source_file, begin, e);
}
const string GIR_VERSION = "1.2";
static void add_symbol_to_container (Symbol container, Symbol sym) {
if (container is Class) {
unowned Class cl = (Class) container;
if (sym is Class) {
cl.add_class ((Class) sym);
} else if (sym is Constant) {
cl.add_constant ((Constant) sym);
} else if (sym is Enum) {
cl.add_enum ((Enum) sym);
} else if (sym is Field) {
cl.add_field ((Field) sym);
} else if (sym is Method) {
cl.add_method ((Method) sym);
} else if (sym is Property) {
cl.add_property ((Property) sym);
} else if (sym is Signal) {
cl.add_signal ((Signal) sym);
} else if (sym is Struct) {
cl.add_struct ((Struct) sym);
}
} else if (container is Enum) {
unowned Enum en = (Enum) container;
if (sym is EnumValue) {
en.add_value ((EnumValue) sym);
} else if (sym is Constant) {
en.add_constant ((Constant) sym);
} else if (sym is Method) {
en.add_method ((Method) sym);
}
} else if (container is Interface) {
unowned Interface iface = (Interface) container;
if (sym is Class) {
iface.add_class ((Class) sym);
} else if (sym is Constant) {
iface.add_constant ((Constant) sym);
} else if (sym is Enum) {
iface.add_enum ((Enum) sym);
} else if (sym is Field) {
iface.add_field ((Field) sym);
} else if (sym is Method) {
iface.add_method ((Method) sym);
} else if (sym is Property) {
iface.add_property ((Property) sym);
} else if (sym is Signal) {
iface.add_signal ((Signal) sym);
} else if (sym is Struct) {
iface.add_struct ((Struct) sym);
}
} else if (container is Namespace) {
unowned Namespace ns = (Namespace) container;
if (sym is Namespace) {
ns.add_namespace ((Namespace) sym);
} else if (sym is Class) {
ns.add_class ((Class) sym);
} else if (sym is Constant) {
ns.add_constant ((Constant) sym);
} else if (sym is Delegate) {
ns.add_delegate ((Delegate) sym);
} else if (sym is Enum) {
ns.add_enum ((Enum) sym);
} else if (sym is ErrorDomain) {
ns.add_error_domain ((ErrorDomain) sym);
} else if (sym is Field) {
unowned Field field = (Field) sym;
if (field.binding == MemberBinding.INSTANCE) {
field.binding = MemberBinding.STATIC;
}
ns.add_field (field);
} else if (sym is Interface) {
ns.add_interface ((Interface) sym);
} else if (sym is Method) {
unowned Method method = (Method) sym;
if (method.binding == MemberBinding.INSTANCE) {
method.binding = MemberBinding.STATIC;
}
ns.add_method (method);
} else if (sym is Struct) {
ns.add_struct ((Struct) sym);
}
} else if (container is Struct) {
unowned Struct st = (Struct) container;
if (sym is Constant) {
st.add_constant ((Constant) sym);
} else if (sym is Field) {
st.add_field ((Field) sym);
} else if (sym is Method) {
st.add_method ((Method) sym);
} else if (sym is Property) {
st.add_property ((Property) sym);
}
} else if (container is ErrorDomain) {
unowned ErrorDomain ed = (ErrorDomain) container;
if (sym is ErrorCode) {
ed.add_code ((ErrorCode) sym);
} else if (sym is Method) {
ed.add_method ((Method) sym);
}
} else {
Report.error (sym.source_reference, "impossible to add `%s' to container `%s'", sym.name, container.name);
}
}
static bool is_container (Symbol sym) {
return sym is ObjectTypeSymbol || sym is Struct || sym is Namespace || sym is ErrorDomain || sym is Enum;
}
static unowned Namespace get_parent_namespace (Node node) {
unowned Node? n = node.parent;
while (n != null) {
if (n.symbol is Namespace) {
return (Namespace) n.symbol;
}
n = n.parent;
}
assert_not_reached ();
}
UnresolvedSymbol? parse_symbol_from_string (string symbol_string, SourceReference? source_reference = null) {
UnresolvedSymbol? sym = null;
foreach (unowned string s in symbol_string.split (".")) {
sym = new UnresolvedSymbol (sym, s, source_reference);
}
if (sym == null) {
Report.error (source_reference, "a symbol must be specified");
}
return sym;
}
void set_symbol_mapping (UnresolvedSymbol map_from, Symbol map_to) {
// last mapping is the most up-to-date
if (map_from is UnresolvedSymbol) {
unresolved_symbols_map[(UnresolvedSymbol) map_from] = map_to;
}
}
void assume_parameter_names (Signal sig, Symbol sym, bool skip_first) {
var iter = ((Callable) sym).get_parameters ().iterator ();
bool first = true;
foreach (var param in sig.get_parameters ()) {
if (!iter.next ()) {
// unreachable for valid GIR
break;
}
if (skip_first && first) {
if (!iter.next ()) {
// unreachable for valid GIR
break;
}
first = false;
}
param.name = iter.get ().name;
}
}
Node? find_invoker (Node node) {
/* most common use case is invoker has at least the given method prefix
and the same parameter names */
var m = (Method) node.symbol;
var prefix = "%s_".printf (m.name);
foreach (var n in node.parent.members) {
if (!n.name.has_prefix (prefix)) {
continue;
}
Method? invoker = n.symbol as Method;
if (invoker == null || (m.get_parameters().size != invoker.get_parameters().size)) {
continue;
}
var iter = invoker.get_parameters ().iterator ();
foreach (var param in m.get_parameters ()) {
assert (iter.next ());
if (param.name != iter.get().name) {
invoker = null;
break;
}
}
if (invoker != null) {
return n;
}
}
return null;
}
Metadata get_current_metadata () {
var selector = reader.name;
var child_name = reader.get_attribute ("name");
if (child_name == null) {
child_name = reader.get_attribute ("glib:name");
}
// Give a transparent union the generic name "union"
if (selector == "union" && child_name == null) {
child_name = "union";
}
if (child_name == null) {
return Metadata.empty;
}
selector = selector.replace ("-", "_");
child_name = child_name.replace ("-", "_");
if (selector.has_prefix ("glib:")) {
selector = selector.substring ("glib:".length);
}
return metadata.match_child (child_name, selector);
}
bool push_metadata () {
var new_metadata = get_current_metadata ();
// skip ?
if (new_metadata.has_argument (ArgumentType.SKIP)) {
if (new_metadata.get_bool (ArgumentType.SKIP)) {
return false;
}
} else if (reader.get_attribute ("introspectable") == "0" || reader.get_attribute ("private") == "1") {
return false;
}
metadata_stack.add (metadata);
metadata = new_metadata;
return true;
}
void pop_metadata () {
metadata = metadata_stack.remove_at (metadata_stack.size - 1);
}
bool parse_type_arguments_from_string (DataType parent_type, string type_arguments, SourceReference? source_reference = null) {
int type_arguments_length = (int) type_arguments.length;
GLib.StringBuilder current = new GLib.StringBuilder.sized (type_arguments_length);
int depth = 0;
for (var c = 0 ; c < type_arguments_length ; c++) {
if (type_arguments[c] == '<' || type_arguments[c] == '[') {
depth++;
current.append_unichar (type_arguments[c]);
} else if (type_arguments[c] == '>' || type_arguments[c] == ']') {
depth--;
current.append_unichar (type_arguments[c]);
} else if (type_arguments[c] == ',') {
if (depth == 0) {
var dt = parse_type_from_string (current.str, true, source_reference);
if (dt == null) {
return false;
}
parent_type.add_type_argument (dt);
current.truncate ();
} else {
current.append_unichar (type_arguments[c]);
}
} else {
current.append_unichar (type_arguments[c]);
}
}
var dt = parse_type_from_string (current.str, true, source_reference);
if (dt == null) {
return false;
}
parent_type.add_type_argument (dt);
return true;
}
DataType? parse_type_from_string (string type_string, bool owned_by_default, SourceReference? source_reference = null) {
if (type_from_string_regex == null) {
try {
type_from_string_regex = new GLib.Regex ("^(?:(owned|unowned|weak) +)?([0-9a-zA-Z_\\.]+)(?:<(.+)>)?(\\*+)?(\\[,*\\])?(\\?)?$", GLib.RegexCompileFlags.ANCHORED | GLib.RegexCompileFlags.DOLLAR_ENDONLY | GLib.RegexCompileFlags.OPTIMIZE);
} catch (GLib.RegexError e) {
GLib.error ("Unable to compile regex: %s", e.message);
}
}
GLib.MatchInfo match;
if (!type_from_string_regex.match (type_string, 0, out match)) {
Report.error (source_reference, "unable to parse type");
return null;
}
DataType? type = null;
var ownership_data = match.fetch (1);
var type_name = match.fetch (2);
var type_arguments_data = match.fetch (3);
var pointers_data = match.fetch (4);
var array_data = match.fetch (5);
var nullable_data = match.fetch (6);
var nullable = nullable_data != null && nullable_data.length > 0;
if (ownership_data == null && type_name == "void") {
if (array_data == null && !nullable) {
type = new VoidType (source_reference);
if (pointers_data != null) {
for (int i=0; i < pointers_data.length; i++) {
type = new PointerType (type);
}
}
return type;
} else {
Report.error (source_reference, "invalid void type");
return null;
}
}
bool value_owned = owned_by_default;
if (ownership_data == "owned") {
if (owned_by_default) {
Report.error (source_reference, "unexpected `owned' keyword");
} else {
value_owned = true;
}
} else if (ownership_data == "unowned") {
if (owned_by_default) {
value_owned = false;
} else {
Report.error (source_reference, "unexpected `unowned' keyword");
return null;
}
}
var sym = parse_symbol_from_string (type_name, source_reference);
if (sym == null) {
return null;
}
type = new UnresolvedType.from_symbol (sym, source_reference);
if (type_arguments_data != null && type_arguments_data.length > 0) {
if (!parse_type_arguments_from_string (type, type_arguments_data, source_reference)) {
return null;
}
}
if (pointers_data != null) {
for (int i=0; i < pointers_data.length; i++) {
type = new PointerType (type);
}
}
if (array_data != null && array_data.length != 0) {
type.value_owned = true;
type = new ArrayType (type, (int) array_data.length - 1, source_reference);
}
type.nullable = nullable;
type.value_owned = value_owned;
return type;
}
string? element_get_string (string attribute_name, ArgumentType arg_type) {
if (metadata.has_argument (arg_type)) {
return metadata.get_string (arg_type);
} else {
return reader.get_attribute (attribute_name);
}
}
/*
* The changed is a faster way to check whether the type has changed and it may affect the C declaration.
*/
DataType? element_get_type (DataType orig_type, bool owned_by_default, ref bool no_array_length, ref bool array_null_terminated, out bool changed = null) {
changed = false;
var type = orig_type;
if (metadata.has_argument (ArgumentType.TYPE)) {
type = parse_type_from_string (metadata.get_string (ArgumentType.TYPE), owned_by_default, metadata.get_source_reference (ArgumentType.TYPE));
changed = true;
} else if (!(type is VoidType)) {
if (metadata.has_argument (ArgumentType.TYPE_ARGUMENTS)) {
type.remove_all_type_arguments ();
parse_type_arguments_from_string (type, metadata.get_string (ArgumentType.TYPE_ARGUMENTS), metadata.get_source_reference (ArgumentType.TYPE_ARGUMENTS));
}
if (!(type is ArrayType) && metadata.get_bool (ArgumentType.ARRAY)) {
type.value_owned = true;
type = new ArrayType (type, 1, type.source_reference);
changed = true;
}
if (owned_by_default) {
type.value_owned = !metadata.get_bool (ArgumentType.UNOWNED, !type.value_owned);
} else {
type.value_owned = metadata.get_bool (ArgumentType.OWNED, type.value_owned);
}
type.nullable = metadata.get_bool (ArgumentType.NULLABLE, type.nullable);
}
if (type is ArrayType) {
if (!(orig_type is ArrayType)) {
no_array_length = true;
}
array_null_terminated = metadata.get_bool (ArgumentType.ARRAY_NULL_TERMINATED, array_null_terminated);
}
return type;
}
string? element_get_name (string? gir_name = null) {
unowned string tag = reader.name;
var name = gir_name;
if (name == null) {
name = reader.get_attribute ("name");
}
var pattern = metadata.get_string (ArgumentType.NAME);
if (pattern != null) {
if (pattern.index_of_char ('(') < 0) {
// shortcut for "(.+)/replacement"
name = pattern;
} else {
try {
string replacement = "\\1"; // replace the whole name with the match by default
var split = pattern.split ("/");
if (split.length > 1) {
pattern = split[0];
replacement = split[1];
}
var regex = new Regex (pattern, RegexCompileFlags.ANCHORED, RegexMatchFlags.ANCHORED);
name = regex.replace (name, -1, 0, replacement);
} catch (Error e) {
name = pattern;
}
}
} else if (tag == "enumeration") {
// FIXME Stripping "Enum"-suffix is required for error-domains
// Applied to all enumerations to preserve backwards compatibility
if (name != null && name.has_suffix ("Enum")) {
name = name.substring (0, name.length - "Enum".length);
}
}
return name;
}
string? element_get_type_id () {
var type_id = metadata.get_string (ArgumentType.TYPE_ID);
if (type_id != null) {
return type_id;
}
type_id = reader.get_attribute ("glib:get-type");
if (type_id != null) {
type_id += " ()";
}
return type_id;
}
void set_array_ccode (Symbol sym, ParameterInfo info) {
sym.set_attribute_double ("CCode", "array_length_pos", info.vala_idx);
if (sym is Parameter) {
sym.set_attribute_string ("CCode", "array_length_cname", info.param.name);
}
var type_name = info.param.variable_type.to_qualified_string ();
if (type_name != "int") {
var st = root.lookup (type_name);
if (st != null) {
if (sym is Callable || sym is Parameter) {
sym.set_attribute_string ("CCode", "array_length_type", st.get_cname ());
}
}
}
}
void set_type_id_ccode (Symbol sym) {
if (sym.has_attribute_argument ("CCode", "has_type_id")
|| sym.has_attribute_argument ("CCode", "type_id"))
return;
var type_id = element_get_type_id ();
if (type_id == null) {
sym.set_attribute_bool ("CCode", "has_type_id", false);
} else {
sym.set_attribute_string ("CCode", "type_id", type_id);
}
}
void parse_repository () {
start_element ("repository");
if (reader.get_attribute ("version") != GIR_VERSION) {
Report.error (get_current_src (), "unsupported GIR version %s (supported: %s)", reader.get_attribute ("version"), GIR_VERSION);
return;
}
next ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (reader.name == "namespace") {
parse_namespace ();
} else if (reader.name == "include") {
parse_include ();
} else if (reader.name == "package") {
var pkg = parse_package ();
this.current_source_file.package_name = pkg;
if (context.has_package (pkg)) {
// package already provided elsewhere, stop parsing this GIR
// if it was not passed explicitly
if (!this.current_source_file.from_commandline) {
return;
}
} else {
context.add_package (pkg);
}
} else if (reader.name == "c:include") {
parse_c_include ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `repository'", reader.name);
skip_element ();
}
}
end_element ("repository");
}
void parse_include () {
start_element ("include");
var pkg = reader.get_attribute ("name");
var version = reader.get_attribute ("version");
if (version != null) {
pkg = "%s-%s".printf (pkg, version);
}
// add the package to the queue
context.add_external_package (pkg);
next ();
end_element ("include");
}
string parse_package () {
start_element ("package");
var pkg = reader.get_attribute ("name");
next ();
end_element ("package");
return pkg;
}
void parse_c_include () {
start_element ("c:include");
cheader_filenames += reader.get_attribute ("name");
next ();
end_element ("c:include");
}
void skip_element () {
next ();
int level = 1;
while (level > 0) {
if (current_token == MarkupTokenType.START_ELEMENT) {
level++;
} else if (current_token == MarkupTokenType.END_ELEMENT) {
level--;
} else if (current_token == MarkupTokenType.EOF) {
Report.error (get_current_src (), "unexpected end of file");
break;
}
next ();
}
}
Node? resolve_node (Node parent_scope, UnresolvedSymbol unresolved_sym, bool create_namespace = false) {
if (unresolved_sym.inner == null) {
var scope = parent_scope;
while (scope != null) {
var node = scope.lookup (unresolved_sym.name, create_namespace, unresolved_sym.source_reference);
if (node != null) {
return node;
}
scope = scope.parent;
}
} else {
var inner = resolve_node (parent_scope, unresolved_sym.inner, create_namespace);
if (inner != null) {
return inner.lookup (unresolved_sym.name, create_namespace, unresolved_sym.source_reference);
}
}
return null;
}
Symbol? resolve_symbol (Node parent_scope, UnresolvedSymbol unresolved_sym) {
var node = resolve_node (parent_scope, unresolved_sym);
if (node != null) {
return node.symbol;
}
return null;
}
void push_node (string name, bool merge) {
var parent = current;
if (metadata.has_argument (ArgumentType.PARENT)) {
var target = parse_symbol_from_string (metadata.get_string (ArgumentType.PARENT), metadata.get_source_reference (ArgumentType.PARENT));
parent = resolve_node (root, target, true);
}
var node = parent.lookup (name);
if (node == null || (node.symbol != null && !merge)) {
node = new Node (name);
node.new_symbol = true;
parent.add_member (node);
} else {
Node.new_namespaces.remove (node);
}
node.element_type = reader.name;
node.girdata = reader.get_attributes ();
node.metadata = metadata;
node.source_reference = get_current_src ();
var gir_name = node.get_gir_name ();
if (parent != current || gir_name != name) {
set_symbol_mapping (new UnresolvedSymbol (null, gir_name), node.get_unresolved_symbol ());
}
tree_stack.add (current);
current = node;
}
void pop_node () {
old_current = current;
current = tree_stack.remove_at (tree_stack.size - 1);
}
void parse_namespace () {
start_element ("namespace");
string? cprefix = reader.get_attribute ("c:identifier-prefixes");
if (cprefix != null) {
int idx = cprefix.index_of (",");
if (idx != -1) {
cprefix = cprefix.substring (0, idx);
}
}
string? lower_case_cprefix = reader.get_attribute ("c:symbol-prefixes");
string vala_namespace = cprefix;
string gir_namespace = reader.get_attribute ("name");
string gir_version = reader.get_attribute ("version");
if (lower_case_cprefix != null) {
int idx = lower_case_cprefix.index_of (",");
if (idx != -1) {
lower_case_cprefix = lower_case_cprefix.substring (0, idx);
}
}
if (provided_namespaces.contains ("%s-%s".printf (gir_namespace, gir_version))) {
skip_element ();
return;
}
// load metadata, first look into metadata directories then in the same directory of the .gir.
string? metadata_filename = context.get_metadata_path (current_source_file.filename);
if (metadata_filename != null && FileUtils.test (metadata_filename, FileTest.EXISTS)) {
var metadata_parser = new MetadataParser ();
var metadata_file = new SourceFile (context, current_source_file.file_type, metadata_filename);
context.add_source_file (metadata_file);
metadata = metadata_parser.parse_metadata (metadata_file);
metadata_roots.add (metadata);
}
var ns_metadata = metadata.match_child (gir_namespace);
if (ns_metadata.has_argument (ArgumentType.NAME)) {
vala_namespace = ns_metadata.get_string (ArgumentType.NAME);
}
if (vala_namespace == null) {
vala_namespace = gir_namespace;
}
current_source_file.gir_namespace = gir_namespace;
current_source_file.gir_version = gir_version;
Namespace ns;
push_node (vala_namespace, true);
if (current.new_symbol) {
ns = new Namespace (vala_namespace, current.source_reference);
current.symbol = ns;
} else {
ns = (Namespace) current.symbol;
ns.attributes = null;
ns.source_reference = current.source_reference;
}
current.metadata = ns_metadata;
if (ns_metadata.has_argument (ArgumentType.CPREFIX)) {
cprefix = ns_metadata.get_string (ArgumentType.CPREFIX);
}
if (ns_metadata.has_argument (ArgumentType.LOWER_CASE_CPREFIX)) {
lower_case_cprefix = ns_metadata.get_string (ArgumentType.LOWER_CASE_CPREFIX);
} else if (lower_case_cprefix != null) {
lower_case_cprefix += "_";
}
ns.set_attribute_string ("CCode", "gir_namespace", gir_namespace);
ns.set_attribute_string ("CCode", "gir_version", gir_version);
if (cprefix != null) {
ns.set_attribute_string ("CCode", "cprefix", cprefix);
if (lower_case_cprefix == null) {
ns.set_attribute_string ("CCode", "lower_case_cprefix", Symbol.camel_case_to_lower_case (cprefix) + "_");
}
}
if (lower_case_cprefix != null) {
ns.set_attribute_string ("CCode", "lower_case_cprefix", lower_case_cprefix);
}
if (cheader_filenames != null) {
ns.set_attribute_string ("CCode", "cheader_filename", string.joinv (",", cheader_filenames));
}
next ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "alias") {
parse_alias ();
} else if (reader.name == "enumeration") {
if (metadata.has_argument (ArgumentType.ERRORDOMAIN)) {
if (metadata.get_bool (ArgumentType.ERRORDOMAIN)) {
parse_error_domain ();
} else {
parse_enumeration ();
}
} else {
if ((reader.get_attribute ("glib:error-quark") != null) || (reader.get_attribute ("glib:error-domain") != null)) {
parse_error_domain ();
} else {
parse_enumeration ();
}
}
} else if (reader.name == "bitfield") {
parse_bitfield ();
} else if (reader.name == "function") {
parse_method ("function");
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "callback") {
parse_callback ();
} else if (reader.name == "record") {
if (metadata.has_argument (ArgumentType.STRUCT)) {
if (metadata.get_bool (ArgumentType.STRUCT)) {
parse_record ();
} else {
parse_boxed ("record");
}
} else if (element_get_type_id () != null) {
parse_boxed ("record");
} else if (!reader.get_attribute ("name").has_suffix ("Private")) {
if (reader.get_attribute ("glib:is-gtype-struct-for") == null && reader.get_attribute ("disguised") == "1") {
parse_boxed ("record");
} else {
parse_record ();
}
} else {
skip_element ();
}
} else if (reader.name == "class") {
parse_class ();
} else if (reader.name == "interface") {
parse_interface ();
} else if (reader.name == "glib:boxed") {
parse_boxed ("glib:boxed");
} else if (reader.name == "union") {
if (element_get_type_id () != null && !metadata.get_bool (ArgumentType.STRUCT)) {
parse_boxed ("union");
} else {
parse_union ();
}
} else if (reader.name == "constant") {
parse_constant ();
} else if (reader.name == "docsection") {
skip_element ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `namespace'", reader.name);
skip_element ();
}
pop_metadata ();
}
pop_node ();
end_element ("namespace");
}
void parse_alias () {
start_element ("alias");
push_node (element_get_name (), true);
// not enough information, symbol will be created while processing the tree
next ();
if (current.comment == null) {
current.comment = parse_symbol_doc ();
} else {
parse_symbol_doc ();
}
bool no_array_length = false;
bool array_null_terminated = false;
current.base_type = element_get_type (parse_type (null, null, true), true, ref no_array_length, ref array_null_terminated);
if (metadata.has_argument (ArgumentType.BASE_TYPE)) {
current.base_type = parse_type_from_string (metadata.get_string (ArgumentType.BASE_TYPE), true, metadata.get_source_reference (ArgumentType.BASE_TYPE));
}
pop_node ();
end_element ("alias");
}
private void calculate_common_prefix (ref string? common_prefix, string cname) {
if (common_prefix == null) {
common_prefix = cname;
while (common_prefix.length > 0 && !common_prefix.has_suffix ("_")) {
// FIXME: could easily be made faster
common_prefix = common_prefix.substring (0, common_prefix.length - 1);
}
} else {
while (!cname.has_prefix (common_prefix)) {
common_prefix = common_prefix.substring (0, common_prefix.length - 1);
}
}
while (common_prefix.length > 0 && (!common_prefix.has_suffix ("_") ||
(cname.get_char (common_prefix.length).isdigit ()) && (cname.length - common_prefix.length) <= 1)) {
// enum values may not consist solely of digits
common_prefix = common_prefix.substring (0, common_prefix.length - 1);
}
}
GirComment? parse_symbol_doc () {
GirComment? comment = null;
while (current_token == MarkupTokenType.START_ELEMENT) {
unowned string reader_name = reader.name;
if (reader_name == "doc") {
start_element ("doc");
next ();
if (current_token == MarkupTokenType.TEXT) {
comment = new GirComment (reader.content, current.source_reference);
next ();
}
end_element ("doc");
} else if (reader_name == "doc-version" || reader_name == "doc-deprecated" || reader_name == "doc-stability") {
skip_element ();
} else if (reader_name == "source-position") {
skip_element ();
} else if (reader_name == "attribute") {
skip_element ();
} else {
break;
}
}
return comment;
}
Comment? parse_doc () {
Comment? comment = null;
while (current_token == MarkupTokenType.START_ELEMENT) {
unowned string reader_name = reader.name;
if (reader_name == "doc") {
start_element ("doc");
next ();
if (current_token == MarkupTokenType.TEXT) {
comment = new Comment (reader.content, current.source_reference);
next ();
}
end_element ("doc");
} else if (reader_name == "doc-version" || reader_name == "doc-deprecated" || reader_name == "doc-stability") {
skip_element ();
} else if (reader_name == "source-position") {
skip_element ();
} else if (reader_name == "attribute") {
skip_element ();
} else {
break;
}
}
return comment;
}
void parse_enumeration (string element_name = "enumeration", bool error_domain = false) {
start_element (element_name);
push_node (element_get_name (), true);
Symbol sym;
if (current.new_symbol) {
if (error_domain) {
sym = new ErrorDomain (current.name, current.source_reference);
} else {
var en = new Enum (current.name, current.source_reference);
if (element_name == "bitfield") {
en.set_attribute ("Flags", true);
}
sym = en;
}
current.symbol = sym;
} else {
sym = current.symbol;
}
if (!error_domain)
set_type_id_ccode (sym);
sym.access = SymbolAccessibility.PUBLIC;
string? common_prefix = null;
bool explicit_prefix = false;
if (metadata.has_argument (ArgumentType.CPREFIX)) {
sym.set_attribute_string ("CCode", "cprefix", metadata.get_string (ArgumentType.CPREFIX));
explicit_prefix = true;
}
bool has_member = false;
next ();
sym.comment = parse_symbol_doc ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "member") {
has_member = true;
if (error_domain) {
parse_error_member ();
} else {
parse_enumeration_member ();
}
if (!explicit_prefix) {
calculate_common_prefix (ref common_prefix, old_current.get_cname ());
}
} else if (reader.name == "function") {
skip_element ();
} else if (reader.name == "function-macro") {
skip_element ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `%s'", reader.name, element_name);
skip_element ();
}
pop_metadata ();
}
if (!has_member) {
Report.error (get_current_src (), "%s `%s' has no members", element_name, current.name);
}
if (common_prefix != null) {
sym.set_attribute_string ("CCode", "cprefix", common_prefix);
}
pop_node ();
end_element (element_name);
}
void parse_error_domain () {
parse_enumeration ("enumeration", true);
}
void parse_bitfield () {
parse_enumeration ("bitfield");
}
void parse_enumeration_member () {
start_element ("member");
push_node (element_get_name().ascii_up().replace ("-", "_"), false);
var ev = new EnumValue (current.name, metadata.get_expression (ArgumentType.DEFAULT), current.source_reference);
current.symbol = ev;
next ();
ev.comment = parse_symbol_doc ();
pop_node ();
end_element ("member");
}
void parse_error_member () {
start_element ("member");
push_node (element_get_name().ascii_up().replace ("-", "_"), false);
ErrorCode ec;
string value = reader.get_attribute ("value");
if (value != null) {
ec = new ErrorCode.with_value (current.name, new IntegerLiteral (value));
} else {
ec = new ErrorCode (current.name);
}
current.symbol = ec;
next ();
ec.comment = parse_symbol_doc ();
pop_node ();
end_element ("member");
}
DataType parse_return_value (out string? ctype = null, out int array_length_idx = null, out bool no_array_length = null, out bool array_null_terminated = null, out Comment? comment = null) {
start_element ("return-value");
string transfer = reader.get_attribute ("transfer-ownership");
string nullable = reader.get_attribute ("nullable");
string allow_none = reader.get_attribute ("allow-none");
next ();
comment = parse_doc ();
var transfer_elements = transfer != "container";
var type = parse_type (out ctype, out array_length_idx, transfer_elements, out no_array_length, out array_null_terminated);
if (transfer == "full" || transfer == "container") {
type.value_owned = true;
}
if (nullable == "1" || allow_none == "1") {
type.nullable = true;
}
type = element_get_type (type, true, ref no_array_length, ref array_null_terminated);
end_element ("return-value");
return type;
}
Parameter parse_parameter (out int array_length_idx = null, out int closure_idx = null, out int destroy_idx = null, out string? scope = null, out Comment? comment = null, string? default_name = null) {
var begin = this.begin;
Parameter param;
array_length_idx = -1;
closure_idx = -1;
destroy_idx = -1;
string element_type = reader.name;
if (current_token != MarkupTokenType.START_ELEMENT || (element_type != "parameter" && element_type != "instance-parameter")) {
Report.error (get_current_src (), "expected start element of `parameter' or `instance-parameter'");
}
start_element (element_type);
var name = metadata.get_string (ArgumentType.NAME);
if (name == null) {
name = reader.get_attribute ("name");
}
if (name == null) {
name = default_name;
} else if (name.contains ("-")) {
Report.warning (get_current_src (), "parameter name contains hyphen");
name = name.replace ("-", "_");
}
string direction = null;
if (metadata.has_argument (ArgumentType.OUT)) {
if (metadata.get_bool (ArgumentType.OUT)) {
direction = "out";
} // null otherwise
} else if (metadata.has_argument (ArgumentType.REF)) {
if (metadata.get_bool (ArgumentType.REF)) {
direction = "inout";
} // null otherwise
} else {
direction = reader.get_attribute ("direction");
}
string transfer = reader.get_attribute ("transfer-ownership");
string nullable = reader.get_attribute ("nullable");
string allow_none = reader.get_attribute ("allow-none");
scope = element_get_string ("scope", ArgumentType.SCOPE);
string closure = reader.get_attribute ("closure");
string destroy = reader.get_attribute ("destroy");
if (closure != null && &closure_idx != null) {
closure_idx = int.parse (closure);
}
if (destroy != null && &destroy_idx != null) {
destroy_idx = int.parse (destroy);
}
if (metadata.has_argument (ArgumentType.CLOSURE)) {
closure_idx = metadata.get_integer (ArgumentType.CLOSURE);
}
if (metadata.has_argument (ArgumentType.DESTROY)) {
destroy_idx = metadata.get_integer (ArgumentType.DESTROY);
}
next ();
comment = parse_doc ();
if (reader.name == "varargs") {
start_element ("varargs");
next ();
param = new Parameter.with_ellipsis (get_src (begin));
end_element ("varargs");
} else {
string ctype;
bool no_array_length;
bool array_null_terminated;
var type = parse_type (out ctype, out array_length_idx, transfer != "container", out no_array_length, out array_null_terminated);
if (transfer == "full" || transfer == "container" || destroy != null) {
type.value_owned = true;
}
if (nullable == "1" || (allow_none == "1" && direction != "out")) {
type.nullable = true;
}
bool changed;
type = element_get_type (type, direction == "out" || direction == "inout", ref no_array_length, ref array_null_terminated, out changed);
if (!changed) {
// discard ctype, duplicated information
ctype = null;
}
param = new Parameter (name, type, get_src (begin));
if (ctype != null) {
param.set_attribute_string ("CCode", "type", ctype);
}
if (direction == "out") {
param.direction = ParameterDirection.OUT;
} else if (direction == "inout") {
param.direction = ParameterDirection.REF;
}
if (type is DelegateType && metadata.has_argument (ArgumentType.DELEGATE_TARGET)) {
param.set_attribute_bool ("CCode", "delegate_target", metadata.get_bool (ArgumentType.DELEGATE_TARGET));
}
if (type is ArrayType) {
if (metadata.has_argument (ArgumentType.ARRAY_LENGTH_IDX)) {
array_length_idx = metadata.get_integer (ArgumentType.ARRAY_LENGTH_IDX);
} else {
if (no_array_length || array_null_terminated) {
param.set_attribute_bool ("CCode", "array_length", !no_array_length);
}
if (array_null_terminated) {
param.set_attribute_bool ("CCode", "array_null_terminated", array_null_terminated);
}
}
}
param.initializer = metadata.get_expression (ArgumentType.DEFAULT);
// empty tuple used for parameters without initializer
if (param.initializer is Tuple) {
param.initializer = null;
}
}
end_element (element_type);
return param;
}
DataType parse_type (out string? ctype = null, out int array_length_idx = null, bool transfer_elements = true, out bool no_array_length = null, out bool array_null_terminated = null) {
bool is_array = false;
string type_name = reader.get_attribute ("name");
ctype = null;
var fixed_length = -1;
array_length_idx = -1;
no_array_length = true;
array_null_terminated = true;
if (reader.name == "array") {
is_array = true;
start_element ("array");
var src = get_current_src ();
if (type_name == null) {
if (reader.get_attribute ("length") != null) {
array_length_idx = int.parse (reader.get_attribute ("length"));
no_array_length = false;
array_null_terminated = false;
}
if (reader.get_attribute ("fixed-size") != null) {
fixed_length = int.parse (reader.get_attribute ("fixed-size"));
array_null_terminated = false;
}
if (reader.get_attribute ("c:type") == "GStrv") {
no_array_length = true;
array_null_terminated = true;
}
if (reader.get_attribute ("zero-terminated") != null) {
array_null_terminated = int.parse (reader.get_attribute ("zero-terminated")) != 0;
}
next ();
var element_type = parse_type ();
element_type.value_owned = transfer_elements;
end_element ("array");
var array_type = new ArrayType (element_type, 1, src);
if (fixed_length > 0) {
array_type.fixed_length = true;
array_type.length = new IntegerLiteral (fixed_length.to_string ());
}
return array_type;
}
} else if (reader.name == "callback"){
parse_callback ();
return new DelegateType ((Delegate) old_current.symbol);
} else {
start_element ("type");
}
if (metadata.has_argument (ArgumentType.CTYPE)) {
ctype = metadata.get_string (ArgumentType.CTYPE);
} else {
ctype = reader.get_attribute("c:type");
}
next ();
if (type_name == null) {
type_name = ctype;
}
DataType type;
if (type_name != null) {
type = parse_type_from_gir_name (type_name, out no_array_length, out array_null_terminated, ctype);
} else {
// empty <type/>
no_array_length = false;
array_null_terminated = false;
type = new InvalidType ();
Report.error (get_current_src (), "empty type element");
}
// type arguments / element types
while (current_token == MarkupTokenType.START_ELEMENT) {
if (type_name == "GLib.ByteArray") {
skip_element ();
continue;
}
var element_type = parse_type ();
element_type.value_owned = transfer_elements;
type.add_type_argument (element_type);
if (element_type is UnresolvedType) {
Node parent = current ?? root;
while (parent != root && parent.parent != null && parent.parent != root) {
parent = parent.parent;
}
unresolved_type_arguments[(UnresolvedType) element_type] = parent;
}
}
end_element (is_array ? "array" : "type");
return type;
}
DataType parse_type_from_gir_name (string type_name, out bool no_array_length = null, out bool array_null_terminated = null, string? ctype = null) {
no_array_length = false;
array_null_terminated = false;
DataType? type = null;
if (type_name == "none") {
type = new VoidType (get_current_src ());
} else if (type_name == "gpointer") {
type = new PointerType (new VoidType (get_current_src ()), get_current_src ());
} else if (type_name == "GObject.Strv") {
var element_type = new UnresolvedType.from_symbol (new UnresolvedSymbol (null, "string"));
element_type.value_owned = true;
type = new ArrayType (element_type, 1, get_current_src ());
no_array_length = true;
array_null_terminated = true;
} else {
bool known_type = true;
if (type_name == "utf8") {
type_name = "string";
} else if (type_name == "gboolean") {
type = new BooleanType ((Struct) context.root.scope.lookup ("bool"));
} else if (type_name == "gchar") {
type_name = "char";
} else if (type_name == "gshort") {
type_name = "short";
} else if (type_name == "gushort") {
type_name = "ushort";
} else if (type_name == "gint") {
type_name = "int";
} else if (type_name == "guint") {
type_name = "uint";
} else if (type_name == "glong") {
if (ctype != null && ctype.has_prefix ("gssize")) {
type_name = "ssize_t";
} else if (ctype != null && ctype.has_prefix ("gintptr")) {
type_name = "intptr";
} else {
type_name = "long";
}
} else if (type_name == "gulong") {
if (ctype != null && ctype.has_prefix ("gsize")) {
type_name = "size_t";
} else if (ctype != null && ctype.has_prefix ("guintptr")) {
type_name = "uintptr";
} else {
type_name = "ulong";
}
} else if (type_name == "gint8") {
type_name = "int8";
} else if (type_name == "guint8") {
type_name = "uint8";
} else if (type_name == "gint16") {
type_name = "int16";
} else if (type_name == "guint16") {
type_name = "uint16";
} else if (type_name == "gint32") {
type_name = "int32";
} else if (type_name == "guint32") {
type_name = "uint32";
} else if (type_name == "gint64") {
type_name = "int64";
} else if (type_name == "guint64") {
type_name = "uint64";
} else if (type_name == "gfloat") {
type_name = "float";
} else if (type_name == "gdouble") {
type_name = "double";
} else if (type_name == "filename") {
type_name = "string";
} else if (type_name == "GLib.offset") {
type_name = "int64";
} else if (type_name == "gsize") {
type_name = "size_t";
} else if (type_name == "gssize") {
type_name = "ssize_t";
} else if (type_name == "guintptr") {
type_name = "uintptr";
} else if (type_name == "gintptr") {
type_name = "intptr";
} else if (type_name == "GType") {
type_name = "GLib.Type";
} else if (type_name == "GObject.Class") {
type_name = "GLib.ObjectClass";
} else if (type_name == "gunichar") {
type_name = "unichar";
} else if (type_name == "Atk.ImplementorIface") {
type_name = "Atk.Implementor";
} else {
known_type = false;
}
if (type == null) {
var sym = parse_symbol_from_string (type_name, get_current_src ());
type = new UnresolvedType.from_symbol (sym, get_current_src ());
if (!known_type) {
unresolved_gir_symbols.add (sym);
}
}
}
return type;
}
void parse_record () {
start_element ("record");
push_node (element_get_name (), true);
Struct st;
bool require_copy_free = false;
if (current.new_symbol) {
st = new Struct (element_get_name (), current.source_reference);
current.symbol = st;
} else {
st = (Struct) current.symbol;
}
set_type_id_ccode (st);
require_copy_free = st.has_attribute_argument ("CCode", "type_id");
st.access = SymbolAccessibility.PUBLIC;
var gtype_struct_for = reader.get_attribute ("glib:is-gtype-struct-for");
if (gtype_struct_for != null) {
current.gtype_struct_for = parse_symbol_from_string (gtype_struct_for, current.source_reference);
unresolved_gir_symbols.add (current.gtype_struct_for);
}
bool first_field = true;
next ();
st.comment = parse_symbol_doc ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
if (first_field && reader.name == "field") {
first_field = false;
}
skip_element ();
continue;
}
if (reader.name == "field") {
if (reader.get_attribute ("name") != "priv" && !(first_field && gtype_struct_for != null)) {
parse_field ();
} else {
skip_element ();
}
first_field = false;
} else if (reader.name == "constructor") {
parse_constructor ();
} else if (reader.name == "method") {
parse_method ("method");
} else if (reader.name == "function") {
skip_element ();
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "union") {
parse_union ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `record'", reader.name);
skip_element ();
}
pop_metadata ();
}
// Add default g_boxed_copy/free ccode-attributes
if (require_copy_free) {
st.set_attribute_string ("CCode", "copy_function", "g_boxed_copy");
st.set_attribute_string ("CCode", "free_function", "g_boxed_free");
}
pop_node ();
end_element ("record");
}
void parse_class () {
start_element ("class");
push_node (element_get_name (), true);
Class cl;
var parent = reader.get_attribute ("parent");
if (current.new_symbol) {
cl = new Class (current.name, current.source_reference);
cl.is_abstract = metadata.get_bool (ArgumentType.ABSTRACT, reader.get_attribute ("abstract") == "1");
cl.is_sealed = metadata.get_bool (ArgumentType.SEALED, false);
if (metadata.has_argument (ArgumentType.TYPE_GET_FUNCTION)) {
cl.set_attribute_string ("CCode", "type_get_function", metadata.get_string (ArgumentType.TYPE_GET_FUNCTION));
}
if (parent != null) {
cl.add_base_type (parse_type_from_gir_name (parent));
}
var type_struct = reader.get_attribute ("glib:type-struct");
if (type_struct != null) {
current.type_struct = parse_symbol_from_string (type_struct, current.source_reference);
unresolved_gir_symbols.add (current.type_struct);
}
current.symbol = cl;
} else {
cl = (Class) current.symbol;
}
set_type_id_ccode (cl);
cl.access = SymbolAccessibility.PUBLIC;
next ();
cl.comment = parse_symbol_doc ();
var first_field = true;
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
if (first_field && reader.name == "field") {
first_field = false;
}
skip_element ();
continue;
}
if (reader.name == "implements") {
start_element ("implements");
cl.add_base_type (parse_type_from_gir_name (reader.get_attribute ("name")));
next ();
end_element ("implements");
} else if (reader.name == "constant") {
parse_constant ();
} else if (reader.name == "field") {
if (first_field && parent != null) {
// first field is guaranteed to be the parent instance
skip_element ();
} else {
if (reader.get_attribute ("name") != "priv") {
parse_field ();
} else {
skip_element ();
}
}
first_field = false;
} else if (reader.name == "property") {
parse_property ();
} else if (reader.name == "constructor") {
parse_constructor ();
} else if (reader.name == "function") {
parse_method ("function");
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "method") {
parse_method ("method");
} else if (reader.name == "virtual-method") {
parse_method ("virtual-method");
} else if (reader.name == "union") {
parse_union ();
} else if (reader.name == "glib:signal") {
parse_signal ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `class'", reader.name);
skip_element ();
}
pop_metadata ();
}
pop_node ();
end_element ("class");
}
void parse_interface () {
start_element ("interface");
push_node (element_get_name (), true);
Interface iface;
if (current.new_symbol) {
iface = new Interface (current.name, current.source_reference);
if (metadata.has_argument (ArgumentType.TYPE_GET_FUNCTION)){
iface.set_attribute_string ("CCode", "type_get_function", metadata.get_string (ArgumentType.TYPE_GET_FUNCTION));
}
current.symbol = iface;
} else {
iface = (Interface) current.symbol;
}
set_type_id_ccode (iface);
iface.access = SymbolAccessibility.PUBLIC;
next ();
iface.comment = parse_symbol_doc ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "prerequisite") {
start_element ("prerequisite");
iface.add_prerequisite (parse_type_from_gir_name (reader.get_attribute ("name")));
next ();
end_element ("prerequisite");
} else if (reader.name == "field") {
parse_field ();
} else if (reader.name == "property") {
parse_property ();
} else if (reader.name == "virtual-method") {
parse_method ("virtual-method");
} else if (reader.name == "function") {
parse_method ("function");
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "method") {
parse_method ("method");
} else if (reader.name == "glib:signal") {
parse_signal ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `interface'", reader.name);
skip_element ();
}
pop_metadata ();
}
pop_node ();
end_element ("interface");
}
void parse_field () {
start_element ("field");
push_node (element_get_name (), false);
string nullable = reader.get_attribute ("nullable");
string allow_none = reader.get_attribute ("allow-none");
next ();
var comment = parse_symbol_doc ();
bool no_array_length;
bool array_null_terminated;
int array_length_idx;
var type = parse_type (null, out array_length_idx, true, out no_array_length, out array_null_terminated);
type = element_get_type (type, true, ref no_array_length, ref array_null_terminated);
string name = current.name;
string cname = current.girdata["name"];
var field = new Field (name, type, null, current.source_reference);
field.access = SymbolAccessibility.PUBLIC;
field.comment = comment;
if (name != cname) {
field.set_attribute_string ("CCode", "cname", cname);
}
if (type is ArrayType) {
if (!no_array_length && array_length_idx > -1) {
current.array_length_idx = array_length_idx;
}
if (no_array_length || array_null_terminated) {
field.set_attribute_bool ("CCode", "array_length", !no_array_length);
}
if (array_null_terminated) {
field.set_attribute_bool ("CCode", "array_null_terminated", true);
}
}
if (nullable == "1" || allow_none == "1") {
type.nullable = true;
}
current.symbol = field;
pop_node ();
end_element ("field");
}
Property parse_property () {
start_element ("property");
push_node (element_get_name().replace ("-", "_"), false);
bool is_abstract = metadata.get_bool (ArgumentType.ABSTRACT, current.parent.symbol is Interface);
string transfer = reader.get_attribute ("transfer-ownership");
next ();
var comment = parse_symbol_doc ();
bool no_array_length;
bool array_null_terminated;
var type = parse_type (null, null, transfer != "container", out no_array_length, out array_null_terminated);
type = element_get_type (type, true, ref no_array_length, ref array_null_terminated);
var prop = new Property (current.name, type, null, null, current.source_reference);
prop.comment = comment;
prop.access = SymbolAccessibility.PUBLIC;
prop.is_abstract = is_abstract;
if (no_array_length || array_null_terminated) {
prop.set_attribute_bool ("CCode", "array_length", !no_array_length);
}
if (array_null_terminated) {
prop.set_attribute_bool ("CCode", "array_null_terminated", true);
}
current.symbol = prop;
pop_node ();
end_element ("property");
return prop;
}
void parse_callback () {
parse_function ("callback");
}
void parse_constructor () {
parse_function ("constructor");
}
class ParameterInfo {
public ParameterInfo (Parameter param, int array_length_idx, int closure_idx, int destroy_idx, bool is_async = false) {
this.param = param;
this.array_length_idx = array_length_idx;
this.closure_idx = closure_idx;
this.destroy_idx = destroy_idx;
this.vala_idx = 0.0F;
this.keep = true;
this.is_async = is_async;
}
public Parameter param;
public float vala_idx;
public int array_length_idx;
public int closure_idx;
public int destroy_idx;
public bool keep;
public bool is_async;
public bool is_async_result;
public bool is_error;
}
void parse_function (string element_name) {
start_element (element_name);
push_node (element_get_name (reader.get_attribute ("invoker")).replace ("-", "_"), false);
string symbol_type;
if (metadata.has_argument (ArgumentType.SYMBOL_TYPE)) {
symbol_type = metadata.get_string (ArgumentType.SYMBOL_TYPE);
} else {
symbol_type = element_name;
}
string? ctype = null;
if (metadata.has_argument (ArgumentType.CTYPE)) {
ctype = metadata.get_string (ArgumentType.CTYPE);
}
string name = current.name;
string throws_string = reader.get_attribute ("throws");
string invoker = reader.get_attribute ("invoker");
next ();
var comment = parse_symbol_doc ();
DataType return_type;
string return_ctype = null;
int return_array_length_idx = -1;
bool return_no_array_length = false;
bool return_array_null_terminated = false;
if (current_token == MarkupTokenType.START_ELEMENT && reader.name == "return-value") {
Comment? return_comment;
return_type = parse_return_value (out return_ctype, out return_array_length_idx, out return_no_array_length, out return_array_null_terminated, out return_comment);
if (return_comment != null) {
if (comment == null) {
comment = new GirComment (null, current.source_reference);
}
comment.return_content = return_comment;
}
} else {
return_type = new VoidType ();
}
Symbol s;
if (symbol_type == "callback") {
s = new Delegate (name, return_type, current.source_reference);
((Delegate) s).has_target = false;
} else if (symbol_type == "constructor") {
if (name == "new") {
name = null;
} else if (name.has_prefix ("new_")) {
name = name.substring ("new_".length);
}
var m = new CreationMethod (null, name, current.source_reference);
m.has_construct_function = false;
if (name != null && !current.name.has_prefix ("new_")) {
m.set_attribute_string ("CCode", "cname", current.girdata["c:identifier"]);
}
string parent_ctype = null;
if (current.parent.symbol is Class) {
parent_ctype = current.parent.get_cname ();
}
if (return_ctype != null && (parent_ctype == null || return_ctype != parent_ctype + "*")) {
m.set_attribute_string ("CCode", "type", return_ctype);
}
s = m;
} else if (symbol_type == "glib:signal") {
s = new Signal (name, return_type, current.source_reference);
} else {
s = new Method (name, return_type, current.source_reference);
}
s.access = SymbolAccessibility.PUBLIC;
s.comment = comment;
// Transform fixed-array properties of return-type into ccode-attribute
var array_type = return_type as ArrayType;
if (array_type != null && array_type.fixed_length) {
s.set_attribute_string ("CCode", "array_length_cexpr", ((IntegerLiteral) array_type.length).value);
array_type.fixed_length = false;
array_type.length = null;
}
if (s is Signal) {
if (current.girdata["name"] != name.replace ("_", "-")) {
s.set_attribute_string ("CCode", "cname", current.girdata["name"]);
}
}
if (s is Method) {
var m = (Method) s;
if (symbol_type == "virtual-method" || symbol_type == "callback") {
if (current.parent.symbol is Interface) {
m.is_abstract = true;
} else {
m.is_virtual = true;
}
if (metadata.has_argument (ArgumentType.NO_WRAPPER)) {
s.set_attribute ("NoWrapper", metadata.get_bool (ArgumentType.NO_WRAPPER), s.source_reference);
} else if (invoker == null && !metadata.has_argument (ArgumentType.VFUNC_NAME)) {
s.set_attribute ("NoWrapper", true, s.source_reference);
}
if (current.girdata["name"] != name) {
m.set_attribute_string ("CCode", "vfunc_name", current.girdata["name"]);
}
} else if (symbol_type == "function") {
m.binding = MemberBinding.STATIC;
}
if (metadata.has_argument (ArgumentType.FLOATING)) {
m.returns_floating_reference = metadata.get_bool (ArgumentType.FLOATING);
m.return_type.value_owned = true;
}
if (metadata.has_argument (ArgumentType.NEW)) {
m.hides = metadata.get_bool (ArgumentType.NEW);
}
}
if (s is Method && !(s is CreationMethod)) {
var method = (Method) s;
if (metadata.has_argument (ArgumentType.VIRTUAL)) {
method.is_virtual = metadata.get_bool (ArgumentType.VIRTUAL);
method.is_abstract = false;
} else if (metadata.has_argument (ArgumentType.ABSTRACT)) {
method.is_abstract = metadata.get_bool (ArgumentType.ABSTRACT);
method.is_virtual = false;
}
if (metadata.has_argument (ArgumentType.VFUNC_NAME)) {
method.set_attribute_string ("CCode", "vfunc_name", metadata.get_string (ArgumentType.VFUNC_NAME));
method.is_virtual = true;
}
if (metadata.has_argument (ArgumentType.FINISH_VFUNC_NAME)) {
method.set_attribute_string ("CCode", "finish_vfunc_name", metadata.get_string (ArgumentType.FINISH_VFUNC_NAME));
method.is_virtual = true;
}
}
if (!(metadata.get_expression (ArgumentType.THROWS) is NullLiteral)) {
if (metadata.has_argument (ArgumentType.THROWS)) {
var error_types = metadata.get_string (ArgumentType.THROWS).split(",");
foreach (var error_type_name in error_types) {
var error_type = parse_type_from_string (error_type_name, true, metadata.get_source_reference (ArgumentType.THROWS));
if (s is Method) {
((Method) s).add_error_type (error_type);
} else {
((Delegate) s).add_error_type (error_type);
}
}
} else if (throws_string == "1") {
if (s is Method) {
((Method) s).add_error_type (new ErrorType (null, null));
} else {
((Delegate) s).add_error_type (new ErrorType (null, null));
}
}
}
if (s is Method) {
var m = (Method) s;
m.set_attribute ("PrintfFormat", metadata.get_bool (ArgumentType.PRINTF_FORMAT));
if (metadata.has_argument (ArgumentType.SENTINEL)) {
m.set_attribute_string ("CCode", "sentinel", metadata.get_string (ArgumentType.SENTINEL));
}
}
if (return_type is ArrayType && metadata.has_argument (ArgumentType.ARRAY_LENGTH_IDX)) {
return_array_length_idx = metadata.get_integer (ArgumentType.ARRAY_LENGTH_IDX);
} else {
if (return_no_array_length || return_array_null_terminated) {
s.set_attribute_bool ("CCode", "array_length", !return_no_array_length);
}
if (return_array_null_terminated) {
s.set_attribute_bool ("CCode", "array_null_terminated", true);
}
}
current.return_array_length_idx = return_array_length_idx;
if (ctype != null) {
s.set_attribute_string ("CCode", "type", ctype);
}
current.symbol = s;
if (metadata.has_argument (ArgumentType.FINISH_NAME)) {
s.set_attribute_string ("CCode", "finish_name", metadata.get_string (ArgumentType.FINISH_NAME));
}
if (metadata.has_argument (ArgumentType.FINISH_INSTANCE)) {
s.set_attribute_bool ("CCode", "finish_instance", metadata.get_bool (ArgumentType.FINISH_INSTANCE));
}
int instance_idx = -2;
if (element_name == "function" && symbol_type == "method") {
if (metadata.has_argument (ArgumentType.INSTANCE_IDX)) {
instance_idx = metadata.get_integer (ArgumentType.INSTANCE_IDX);
if (instance_idx != 0) {
s.set_attribute_double ("CCode", "instance_pos", instance_idx + 0.5);
}
} else {
Report.error (get_current_src (), "instance_idx required when converting function to method");
}
}
var parameters = new ArrayList<ParameterInfo> ();
current.array_length_parameters = new ArrayList<int> ();
current.closure_parameters = new ArrayList<int> ();
current.destroy_parameters = new ArrayList<int> ();
if (current_token == MarkupTokenType.START_ELEMENT && reader.name == "parameters") {
start_element ("parameters");
next ();
var current_parameter_idx = -1;
while (current_token == MarkupTokenType.START_ELEMENT) {
current_parameter_idx++;
var is_instance_parameter = (reader.name == "instance-parameter"
&& !(symbol_type == "function" || symbol_type == "constructor"));
if (instance_idx > -2 && instance_idx == current_parameter_idx) {
skip_element ();
continue;
}
if (!push_metadata ()) {
skip_element ();
continue;
}
int array_length_idx, closure_idx, destroy_idx;
string scope;
string default_param_name = null;
Comment? param_comment;
default_param_name = "arg%d".printf (parameters.size);
var param = parse_parameter (out array_length_idx, out closure_idx, out destroy_idx, out scope, out param_comment, default_param_name);
if (is_instance_parameter) {
unowned Method? m = s as Method;
if (m != null) {
if (param.direction == ParameterDirection.IN) {
if (param.variable_type.value_owned) {
m.set_attribute ("DestroysInstance", true);
}
pop_metadata ();
continue;
} else {
//TODO can more be done here?
m.binding = MemberBinding.STATIC;
}
}
}
if (array_length_idx != -1) {
if (instance_idx > -2 && instance_idx < array_length_idx) {
array_length_idx--;
}
current.array_length_parameters.add (array_length_idx);
}
if (closure_idx != -1) {
if (instance_idx > -2 && instance_idx < closure_idx) {
closure_idx--;
}
if (current.closure_parameters.index_of (current_parameter_idx) < 0) {
current.closure_parameters.add (closure_idx);
}
}
if (destroy_idx != -1) {
if (instance_idx > -2 && instance_idx < destroy_idx) {
destroy_idx--;
}
if (current.destroy_parameters.index_of (current_parameter_idx) < 0) {
current.destroy_parameters.add (destroy_idx);
}
}
if (param_comment != null) {
if (comment == null) {
comment = new GirComment (null, s.source_reference);
s.comment = comment;
}
comment.add_content_for_parameter ((param.ellipsis)? "..." : param.name, param_comment);
}
var info = new ParameterInfo (param, array_length_idx, closure_idx, destroy_idx, scope == "async");
parameters.add (info);
pop_metadata ();
}
end_element ("parameters");
}
current.parameters = parameters;
pop_node ();
end_element (element_name);
}
void parse_method (string element_name) {
parse_function (element_name);
}
void parse_signal () {
parse_function ("glib:signal");
}
void parse_boxed (string element_name) {
start_element (element_name);
string name = reader.get_attribute ("name");
if (name == null) {
name = reader.get_attribute ("glib:name");
}
push_node (element_get_name (name), true);
Class cl;
bool require_copy_free = false;
if (current.new_symbol) {
cl = new Class (current.name, current.source_reference);
if (metadata.has_argument (ArgumentType.COMPACT)) {
cl.set_attribute ("Compact", metadata.get_bool (ArgumentType.COMPACT));
} else {
cl.set_attribute ("Compact", true);
}
current.symbol = cl;
} else {
cl = (Class) current.symbol;
}
set_type_id_ccode (cl);
require_copy_free = cl.has_attribute_argument ("CCode", "type_id");
cl.access = SymbolAccessibility.PUBLIC;
if (metadata.has_argument (ArgumentType.BASE_TYPE)) {
cl.add_base_type (parse_type_from_string (metadata.get_string (ArgumentType.BASE_TYPE), true, metadata.get_source_reference (ArgumentType.BASE_TYPE)));
}
next ();
cl.comment = parse_symbol_doc ();
Node? ref_method = null;
Node? unref_method = null;
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "field") {
parse_field ();
} else if (reader.name == "constructor") {
parse_constructor ();
} else if (reader.name == "method") {
parse_method ("method");
var cname = old_current.get_cname ();
if (cname.has_suffix ("_ref") && (ref_method == null || old_current.name == "ref")) {
ref_method = old_current;
} else if (cname.has_suffix ("_unref") && (unref_method == null || old_current.name == "unref")) {
unref_method = old_current;
}
} else if (reader.name == "function") {
skip_element ();
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "union") {
parse_union ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `class'", reader.name);
skip_element ();
}
pop_metadata ();
}
// Add ccode-attributes for ref/unref methodes if available
// otherwise fallback to default g_boxed_copy/free
if (cl.has_attribute_argument ("CCode", "ref_function") || cl.has_attribute_argument ("CCode", "unref_function")
|| cl.has_attribute_argument ("CCode", "copy_function") || cl.has_attribute_argument ("CCode", "free_function")) {
//do nothing
} else if (ref_method != null && unref_method != null) {
cl.set_attribute_string ("CCode", "ref_function", ref_method.get_cname ());
cl.set_attribute_string ("CCode", "unref_function", unref_method.get_cname ());
} else if (require_copy_free) {
cl.set_attribute_string ("CCode", "copy_function", "g_boxed_copy");
cl.set_attribute_string ("CCode", "free_function", "g_boxed_free");
}
pop_node ();
end_element (element_name);
}
void parse_union () {
start_element ("union");
string? element_name = element_get_name ();
if (element_name == null) {
next ();
parse_symbol_doc ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "field") {
parse_field ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `transparent union'", reader.name);
skip_element ();
}
pop_metadata ();
}
end_element ("union");
return;
}
push_node (element_name, true);
Struct st;
if (current.new_symbol) {
st = new Struct (reader.get_attribute ("name"), current.source_reference);
current.symbol = st;
} else {
st = (Struct) current.symbol;
}
st.access = SymbolAccessibility.PUBLIC;
next ();
st.comment = parse_symbol_doc ();
while (current_token == MarkupTokenType.START_ELEMENT) {
if (!push_metadata ()) {
skip_element ();
continue;
}
if (reader.name == "field") {
parse_field ();
} else if (reader.name == "constructor") {
parse_constructor ();
} else if (reader.name == "method") {
parse_method ("method");
} else if (reader.name == "function") {
skip_element ();
} else if (reader.name == "function-macro") {
skip_element ();
} else if (reader.name == "record") {
parse_record ();
} else {
// error
Report.error (get_current_src (), "unknown child element `%s' in `union'", reader.name);
skip_element ();
}
pop_metadata ();
}
pop_node ();
end_element ("union");
}
void parse_constant () {
start_element ("constant");
push_node (element_get_name (), false);
next ();
var comment = parse_symbol_doc ();
bool no_array_length;
bool array_null_terminated;
int array_length_idx;
var type = parse_type (null, out array_length_idx, true, out no_array_length, out array_null_terminated);
type = element_get_type (type, true, ref no_array_length, ref array_null_terminated);
var c = new Constant (current.name, type, null, current.source_reference);
current.symbol = c;
c.access = SymbolAccessibility.PUBLIC;
c.comment = comment;
if (no_array_length || array_null_terminated) {
c.set_attribute_bool ("CCode", "array_length", !no_array_length);
}
if (array_null_terminated) {
c.set_attribute_bool ("CCode", "array_null_terminated", true);
}
pop_node ();
end_element ("constant");
}
/* Reporting */
void report_unused_metadata (Metadata metadata) {
if (metadata == Metadata.empty) {
return;
}
if (metadata.args.size == 0 && metadata.children.size == 0) {
Report.warning (metadata.source_reference, "empty metadata");
return;
}
foreach (var arg_type in metadata.args.get_keys ()) {
var arg = metadata.args[arg_type];
if (!arg.used) {
// if metadata is used and argument is not, then it's a unexpected argument
Report.warning (arg.source_reference, "argument never used");
}
}
foreach (var child in metadata.children) {
if (!child.used) {
Report.warning (child.source_reference, "metadata never used");
} else {
report_unused_metadata (child);
}
}
}
/* Post-parsing */
void resolve_gir_symbols () {
// gir has simple namespaces, we won't get deeper than 2 levels here, except reparenting
foreach (var map_from in unresolved_gir_symbols) {
while (map_from != null) {
var map_to = unresolved_symbols_map[map_from];
if (map_to != null) {
// remap the original symbol to match the target
map_from.inner = null;
map_from.name = map_to.name;
if (map_to is UnresolvedSymbol) {
var umap_to = (UnresolvedSymbol) map_to;
while (umap_to.inner != null) {
umap_to = umap_to.inner;
map_from.inner = new UnresolvedSymbol (null, umap_to.name);
map_from = map_from.inner;
}
} else {
while (map_to.parent_symbol != null && map_to.parent_symbol != context.root) {
map_to = map_to.parent_symbol;
map_from.inner = new UnresolvedSymbol (null, map_to.name);
map_from = map_from.inner;
}
}
break;
}
map_from = map_from.inner;
}
}
}
void create_new_namespaces () {
foreach (var node in Node.new_namespaces) {
if (node.symbol == null) {
node.symbol = new Namespace (node.name, node.source_reference);
}
}
}
void resolve_type_arguments () {
var it = unresolved_type_arguments.map_iterator ();
while (it.next ()) {
var element_type = it.get_key ();
var parent = it.get_value ();
var sym = (TypeSymbol) resolve_symbol (parent, element_type.unresolved_symbol);
// box structs in type arguments
var st = sym as Struct;
if (st != null && !st.is_integer_type () && !st.is_floating_type ()) {
element_type.nullable = true;
}
}
}
void process_interface (Node iface_node) {
/* Temporarily workaround G-I bug not adding GLib.Object prerequisite:
ensure we have at least one instantiable prerequisite */
Interface iface = (Interface) iface_node.symbol;
bool has_instantiable_prereq = false;
foreach (DataType prereq in iface.get_prerequisites ()) {
Symbol sym = null;
if (prereq is UnresolvedType) {
var unresolved_symbol = ((UnresolvedType) prereq).unresolved_symbol;
sym = resolve_symbol (iface_node.parent, unresolved_symbol);
} else {
sym = prereq.type_symbol;
}
if (sym is Class) {
has_instantiable_prereq = true;
break;
}
}
if (!has_instantiable_prereq) {
ifaces_needing_object_prereq.add (iface);
}
}
void process_alias (Node alias) {
/* this is unfortunate because <alias> tag has no type information, thus we have
to guess it from the base type */
DataType base_type = null;
Symbol type_sym = null;
Node base_node = null;
bool simple_type = false;
if (alias.base_type is UnresolvedType) {
base_type = alias.base_type;
base_node = resolve_node (alias.parent, ((UnresolvedType) base_type).unresolved_symbol);
if (base_node != null) {
type_sym = base_node.symbol;
}
} else if (alias.base_type is PointerType && ((PointerType) alias.base_type).base_type is VoidType) {
// gpointer, if it's a struct make it a simpletype
simple_type = true;
} else {
base_type = alias.base_type;
type_sym = base_type.type_symbol;
if (type_sym != null) {
base_node = resolve_node (alias.parent, parse_symbol_from_string (type_sym.get_full_name (), alias.source_reference));
}
}
if (type_sym is Struct && ((Struct) type_sym).is_simple_type ()) {
simple_type = true;
}
if (base_type == null || type_sym == null || type_sym is Struct) {
var st = new Struct (alias.name, alias.source_reference);
st.access = SymbolAccessibility.PUBLIC;
if (base_type != null) {
// threat target="none" as a new struct
st.base_type = base_type;
}
st.comment = alias.comment;
st.set_simple_type (simple_type);
alias.symbol = st;
} else if (type_sym is Class) {
var cl = new Class (alias.name, alias.source_reference);
cl.access = SymbolAccessibility.PUBLIC;
if (base_type != null) {
cl.add_base_type (base_type);
}
cl.comment = alias.comment;
cl.set_attribute ("Compact", ((Class) type_sym).is_compact);
alias.symbol = cl;
} else if (type_sym is Interface) {
// this is not a correct alias, but what can we do otherwise?
var iface = new Interface (alias.name, alias.source_reference);
iface.access = SymbolAccessibility.PUBLIC;
if (base_type != null) {
iface.add_prerequisite (base_type);
}
iface.comment = alias.comment;
alias.symbol = iface;
} else if (type_sym is Delegate) {
var orig = (Delegate) type_sym;
if (base_node != null) {
base_node.process (this);
orig = (Delegate) base_node.symbol;
}
var deleg = new Delegate (alias.name, orig.return_type.copy (), alias.source_reference);
deleg.access = orig.access;
foreach (var param in orig.get_parameters ()) {
deleg.add_parameter (param.copy ());
}
var error_types = new ArrayList<DataType> ();
orig.get_error_types (error_types, alias.source_reference);
foreach (var error_type in error_types) {
deleg.add_error_type (error_type.copy ());
}
foreach (var attribute in orig.attributes) {
deleg.attributes.append (attribute);
}
alias.symbol = deleg;
} else if (type_sym != null) {
Report.warning (alias.source_reference, "alias `%s' for `%s' is not supported", alias.get_full_name (), type_sym.get_full_name ());
alias.symbol = type_sym;
alias.merged = true;
}
// inherit attributes, like type_id
if (type_sym is Class || (type_sym is Struct && !simple_type)) {
if (type_sym.has_attribute_argument ("CCode", "has_type_id")) {
alias.symbol.set_attribute_bool ("CCode", "has_type_id", type_sym.get_attribute_bool ("CCode", "has_type_id"));
} else if (type_sym.has_attribute_argument ("CCode", "type_id")) {
alias.symbol.set_attribute_string ("CCode", "type_id", type_sym.get_attribute_string ("CCode", "type_id"));
}
}
}
void process_callable (Node node) {
if (node.element_type == "alias" && node.symbol is Delegate) {
// processed in parse_alias
return;
}
var s = node.symbol;
List<ParameterInfo> parameters = node.parameters;
DataType return_type = null;
if (s is Callable) {
return_type = ((Callable) s).return_type;
}
if (return_type is ArrayType && node.return_array_length_idx >= 0) {
if (node.return_array_length_idx >= parameters.size) {
Report.error (return_type.source_reference, "invalid array length index");
} else {
parameters[node.return_array_length_idx].keep = false;
node.array_length_parameters.add (node.return_array_length_idx);
}
} else if (return_type is VoidType && parameters.size > 0) {
int n_out_parameters = 0;
foreach (var info in parameters) {
if (info.param.direction == ParameterDirection.OUT) {
n_out_parameters++;
}
}
if (n_out_parameters == 1) {
ParameterInfo last_param = parameters[parameters.size-1];
if (last_param.param.direction == ParameterDirection.OUT) {
// use last out real-non-null-struct parameter as return type
if (last_param.param.variable_type is UnresolvedType) {
var st = resolve_symbol (node.parent, ((UnresolvedType) last_param.param.variable_type).unresolved_symbol) as Struct;
if (st != null && !st.is_simple_type () && !last_param.param.variable_type.nullable) {
if (!node.metadata.get_bool (ArgumentType.RETURN_VOID, false)) {
last_param.keep = false;
return_type = last_param.param.variable_type.copy ();
}
}
}
}
}
} else {
if (return_type is UnresolvedType && !return_type.nullable) {
var st = resolve_symbol (node.parent, ((UnresolvedType) return_type).unresolved_symbol) as Struct;
if (st != null) {
bool is_simple_type = false;
Struct? base_st = st;
while (base_st != null) {
if (base_st.is_simple_type ()) {
is_simple_type = true;
break;
}
if (base_st.base_type is UnresolvedType) {
base_st = resolve_symbol (node.parent, ((UnresolvedType) base_st.base_type).unresolved_symbol) as Struct;
} else {
base_st = base_st.base_struct;
}
}
if (!is_simple_type) {
return_type.nullable = true;
}
}
}
}
foreach (ParameterInfo info in parameters) {
unowned DataType type = info.param.variable_type;
// Do not mark out-parameters as nullable if they are simple-types,
// since it would result in a boxed-type in vala
if (info.param.direction == ParameterDirection.OUT && type.nullable) {
Struct? st = null;
if (type is UnresolvedType) {
st = resolve_symbol (node.parent, ((UnresolvedType) type).unresolved_symbol) as Struct;
} else if (type is ValueType) {
st = type.type_symbol as Struct;
}
if (st != null && st.is_simple_type ()) {
type.nullable = false;
}
}
// Check and mark GAsync-style methods
if (s is Method) {
string? type_name = null;
unowned UnresolvedType? unresolved_type = type as UnresolvedType;
if (unresolved_type != null) {
type_name = unresolved_type.unresolved_symbol.name;
} else if (type != null) {
type_name = type.to_string ();
}
if (info.is_async) {
if ((unresolved_type != null && type_name == "AsyncReadyCallback")
|| type_name == "GLib.AsyncReadyCallback" || type_name == "Gio.AsyncReadyCallback"
|| type_name == "GLib.AsyncReadyCallback?" || type_name == "Gio.AsyncReadyCallback?") {
((Method) s).coroutine = true;
info.keep = false;
}
}
if ((unresolved_type != null && type_name == "AsyncResult")
|| type_name == "GLib.AsyncResult" || type_name == "Gio.AsyncResult"
|| type_name == "GLib.AsyncResult?" || type_name == "Gio.AsyncResult?") {
info.is_async_result = true;
}
}
// More thorough check for delegates throwing an error
if (info.param.direction == ParameterDirection.OUT && s is Delegate && !s.tree_can_fail) {
unowned UnresolvedType? unresolved_type = type as UnresolvedType;
if (unresolved_type != null && unresolved_type.unresolved_symbol.to_string () == "GLib.Error") {
((Delegate) s).add_error_type (new ErrorType (null, null));
info.is_error = true;
info.keep = false;
}
}
}
// Add null-literal as default-value for trailing GLib.Cancellable parameters
for (int param_n = parameters.size - 1 ; param_n >= 0 ; param_n--) {
ParameterInfo info = parameters[param_n];
if (!info.param.ellipsis && info.param.initializer == null) {
string type_string = info.param.variable_type.to_string ();
if (type_string == "GLib.Cancellable?" || type_string == "Gio.Cancellable?") {
info.param.initializer = new Vala.NullLiteral ();
} else {
break;
}
}
}
if (parameters.size > 1) {
ParameterInfo last_param = parameters[parameters.size-1];
if (last_param.param.ellipsis) {
var first_vararg_param = parameters[parameters.size-2];
if (first_vararg_param.param.name.has_prefix ("first_")) {
first_vararg_param.keep = false;
}
}
}
int i = 0, j=1;
int first_out = -1;
int last = -1;
foreach (ParameterInfo info in parameters) {
if (s is Delegate && info.closure_idx == i) {
var d = (Delegate) s;
d.has_target = true;
d.set_attribute_double ("CCode", "instance_pos", j - 0.1);
info.keep = false;
} else if (info.keep
&& !node.array_length_parameters.contains (i)
&& !node.closure_parameters.contains (i)
&& !node.destroy_parameters.contains (i)) {
info.vala_idx = (float) j;
info.keep = true;
/* interpolate for vala_idx between this and last*/
float last_idx = 0.0F;
if (last != -1) {
last_idx = parameters[last].vala_idx;
}
for (int k=last+1; k < i; k++) {
parameters[k].vala_idx = last_idx + (((j - last_idx) / (i-last)) * (k-last));
}
last = i;
j++;
} else {
info.keep = false;
// make sure that vala_idx is always set
// the above if branch does not set vala_idx for
// hidden parameters at the end of the parameter list
info.vala_idx = (j - 1) + (i - last) * 0.1F;
}
if (first_out < 0 && info.param.direction == ParameterDirection.OUT) {
first_out = i;
}
if (first_out >= 0 && info.is_async_result && s is Method) {
var shift = ((Method) s).binding == MemberBinding.INSTANCE ? 1.1 : 0.1;
s.set_attribute_double ("CCode", "async_result_pos", i + shift);
}
if (s is Delegate && info.is_error) {
if (!s.has_attribute_argument ("CCode", "instance_pos")) {
s.set_attribute_double ("CCode", "error_pos", j - 0.2);
}
}
i++;
}
foreach (ParameterInfo info in parameters) {
if (!info.keep) {
continue;
}
/* add_parameter sets carray_length_parameter_position and cdelegate_target_parameter_position
so do it first*/
if (s is Callable) {
((Callable) s).add_parameter (info.param);
}
if (info.array_length_idx != -1) {
if ((info.array_length_idx) >= parameters.size) {
Report.error (info.param.source_reference, "invalid array_length index");
continue;
}
set_array_ccode (info.param, parameters[info.array_length_idx]);
}
if (info.closure_idx != -1) {
if ((info.closure_idx) >= parameters.size) {
Report.error (info.param.source_reference, "invalid closure index");
continue;
}
if ("%g".printf (parameters[info.closure_idx].vala_idx) != "%g".printf (info.vala_idx + 0.1)) {
info.param.set_attribute_double ("CCode", "delegate_target_pos", parameters[info.closure_idx].vala_idx);
}
}
if (info.destroy_idx != -1) {
if (info.destroy_idx >= parameters.size) {
Report.error (info.param.source_reference, "invalid destroy index");
continue;
}
if ("%g".printf (parameters[info.destroy_idx].vala_idx) != "%g".printf (info.vala_idx + 0.2)) {
info.param.set_attribute_double ("CCode", "destroy_notify_pos", parameters[info.destroy_idx].vala_idx);
}
}
if (info.is_async) {
var resolved_type = info.param.variable_type;
if (resolved_type is UnresolvedType) {
var resolved_symbol = resolve_symbol (node.parent, ((UnresolvedType) resolved_type).unresolved_symbol);
if (resolved_symbol is Delegate) {
resolved_type = new DelegateType ((Delegate) resolved_symbol);
}
}
if (resolved_type is DelegateType) {
var d = ((DelegateType) resolved_type).delegate_symbol;
if (!(d.name == "DestroyNotify" && d.parent_symbol.name == "GLib")) {
info.param.set_attribute_string ("CCode", "scope", "async");
info.param.variable_type.value_owned = (info.closure_idx != -1 && info.destroy_idx != -1);
}
}
} else {
var resolved_type = info.param.variable_type;
if (resolved_type is DelegateType) {
info.param.variable_type.value_owned = (info.closure_idx != -1 && info.destroy_idx != -1);
}
}
}
if (return_type is ArrayType && node.return_array_length_idx >= 0) {
set_array_ccode (s, parameters[node.return_array_length_idx]);
}
if (s is Callable) {
((Callable) s).return_type = return_type;
}
}
void find_parent (string cname, Node current, ref Node best, ref int match) {
var old_best = best;
if (current.symbol is Namespace) {
foreach (var child in current.members) {
// symbol is null only for aliases that aren't yet processed
if ((child.symbol == null || is_container (child.symbol)) && cname.has_prefix (child.get_lower_case_cprefix ())) {
find_parent (cname, child, ref best, ref match);
}
}
}
if (best != old_best) {
// child is better
return;
}
var current_match = current.get_lower_case_cprefix().length;
if (current_match > match) {
match = current_match;
best = current;
}
}
bool same_gir (Symbol gir_component, Symbol sym) {
var gir_name = gir_component.source_reference.file.gir_namespace;
var gir_version = gir_component.source_reference.file.gir_version;
return "%s-%s".printf (gir_name, gir_version) in sym.source_reference.file.filename;
}
void process_namespace_method (Node ns, Node node) {
/* transform static methods into instance methods if possible.
In most of cases this is a .gir fault we are going to fix */
var ns_cprefix = ns.get_lower_case_cprefix ();
var method = (Method) node.symbol;
var cname = node.get_cname ();
Parameter first_param = null;
if (node.parameters.size > 0) {
first_param = node.parameters[0].param;
}
if (first_param != null && first_param.direction == ParameterDirection.IN && first_param.variable_type is UnresolvedType) {
// check if it's a missed instance method (often happens for structs)
var sym = ((UnresolvedType) first_param.variable_type).unresolved_symbol;
var parent = resolve_node (ns, sym);
if (parent != null && same_gir (method, parent.symbol) && parent.parent == ns && is_container (parent.symbol) && cname.has_prefix (parent.get_lower_case_cprefix ())) {
// instance method
var new_name = method.name.substring (parent.get_lower_case_cprefix().length - ns_cprefix.length);
if (parent.lookup (new_name) == null) {
ns.remove_member (node);
node.name = new_name;
node.parameters.remove_at (0);
node.return_array_length_idx--;
method.name = new_name;
method.binding = MemberBinding.INSTANCE;
parent.add_member (node);
}
return;
}
}
int match = 0;
Node parent = ns;
find_parent (cname, ns, ref parent, ref match);
var new_name = method.name.substring (parent.get_lower_case_cprefix().length - ns_cprefix.length);
if (same_gir (method, parent.symbol) && parent.lookup (new_name) == null) {
ns.remove_member (node);
node.name = new_name;
method.name = new_name;
parent.add_member (node);
}
}
void process_virtual_method_field (Node node, Delegate d, UnresolvedSymbol gtype_struct_for) {
var gtype_node = resolve_node (node.parent, gtype_struct_for);
if (gtype_node == null || !(gtype_node.symbol is ObjectTypeSymbol)) {
Report.error (gtype_struct_for.source_reference, "Unknown symbol `%s' for virtual method field `%s'", gtype_struct_for.to_string (), node.to_string ());
}
var nodes = gtype_node.lookup_all (d.name);
if (nodes == null) {
return;
}
foreach (var n in nodes) {
if (node != n) {
n.process (this);
}
}
foreach (var n in nodes) {
if (n.merged) {
continue;
}
var sym = n.symbol;
if (sym is Signal) {
var sig = (Signal) sym;
sig.is_virtual = true;
assume_parameter_names (sig, d, true);
} else if (sym is Property) {
var prop = (Property) sym;
prop.is_virtual = true;
}
}
}
void process_async_method (Node node) {
var m = (Method) node.symbol;
// TODO: async methods with out-parameters before in-parameters are not supported
bool requires_pointer = false;
foreach (var param in m.get_parameters ()) {
if (param.direction == ParameterDirection.IN) {
requires_pointer = true;
} else if (requires_pointer) {
param.direction = ParameterDirection.IN;
param.variable_type.nullable = false;
param.variable_type = new PointerType (param.variable_type);
Report.warning (param.source_reference, "Synchronous out-parameters are not supported in async methods");
}
}
string finish_method_base;
if (m.name == null) {
assert (m is CreationMethod);
finish_method_base = "new";
} else if (m.name.has_suffix ("_async")) {
finish_method_base = m.name.substring (0, m.name.length - "_async".length);
} else {
finish_method_base = m.name;
}
var finish_method_node = node.parent.lookup (finish_method_base + "_finish");
// check if the method is using non-standard finish method name
if (finish_method_node == null) {
var method_cname = node.get_finish_cname ();
foreach (var n in node.parent.members) {
if (n.symbol is Method && n.get_cname () == method_cname) {
finish_method_node = n;
break;
}
}
}
Method method = m;
if (finish_method_node != null && finish_method_node.symbol is Method) {
finish_method_node.process (this);
var finish_method = (Method) finish_method_node.symbol;
if (finish_method is CreationMethod) {
method = new CreationMethod (((CreationMethod) finish_method).class_name, null, m.source_reference);
method.access = m.access;
method.coroutine = true;
method.has_construct_function = finish_method.has_construct_function;
// cannot use List.copy()
// as it returns a list of unowned elements
foreach (Attribute a in m.attributes) {
method.attributes.append (a);
}
method.set_attribute_string ("CCode", "cname", node.get_cname ());
if (finish_method_base == "new") {
method.name = null;
} else if (finish_method_base.has_prefix ("new_")) {
method.name = m.name.substring ("new_".length);
}
foreach (var param in m.get_parameters ()) {
method.add_parameter (param);
}
node.symbol = method;
} else {
method.return_type = finish_method.return_type.copy ();
var a = finish_method.get_attribute ("CCode");
if (a != null && a.has_argument ("array_length")) {
method.set_attribute_bool ("CCode", "array_length", a.get_bool ("array_length"));
}
if (a != null && a.has_argument ("array_null_terminated")) {
method.set_attribute_bool ("CCode", "array_null_terminated", a.get_bool ("array_null_terminated"));
}
}
method.copy_attribute_double (finish_method, "CCode", "async_result_pos");
foreach (var param in finish_method.get_parameters ()) {
if (param.direction == ParameterDirection.OUT) {
var async_param = param.copy ();
if (method.scope.lookup (param.name) != null) {
// parameter name conflict
async_param.name += "_out";
}
method.add_parameter (async_param);
}
}
var error_types = new ArrayList<DataType> ();
finish_method.get_error_types (error_types, method.source_reference);
foreach (DataType error_type in error_types) {
method.add_error_type (error_type);
}
finish_method_node.processed = true;
finish_method_node.merged = true;
}
}
/* Hash and equal functions */
static uint unresolved_symbol_hash (UnresolvedSymbol? sym) {
var builder = new StringBuilder ();
while (sym != null) {
builder.append (sym.name);
sym = sym.inner;
}
return builder.str.hash ();
}
static bool unresolved_symbol_equal (UnresolvedSymbol? sym1, UnresolvedSymbol? sym2) {
while (sym1 != sym2) {
if (sym1 == null || sym2 == null) {
return false;
}
if (sym1.name != sym2.name) {
return false;
}
sym1 = sym1.inner;
sym2 = sym2.inner;
}
return true;
}
/* Helper methods */
Node? base_interface_property (Node prop_node) {
var cl = prop_node.parent.symbol as Class;
if (cl == null) {
return null;
}
foreach (DataType type in cl.get_base_types ()) {
if (!(type is UnresolvedType)) {
continue;
}
var base_node = resolve_node (prop_node.parent, ((UnresolvedType) type).unresolved_symbol);
if (base_node != null && base_node.symbol is Interface) {
var base_prop_node = base_node.lookup (prop_node.name);
if (base_prop_node != null && base_prop_node.symbol is Property) {
var base_property = (Property) base_prop_node.symbol;
if (base_property.is_abstract || base_property.is_virtual) {
// found
return base_prop_node;
}
}
}
}
return null;
}
}
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