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|
# -*- Mode: Python -*-
# GObject-Introspection - a framework for introspecting GObject libraries
# Copyright (C) 2008 Johan Dahlin
#
# 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 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., 59 Temple Place - Suite 330,
# Boston, MA 02111-1307, USA.
#
import os
import sys
import subprocess
from . import ast
from . import message
from . import utils
from .cachestore import CacheStore
from .girparser import GIRParser
from .sourcescanner import (
SourceSymbol, ctype_name, CTYPE_POINTER,
CTYPE_BASIC_TYPE, CTYPE_UNION, CTYPE_ARRAY, CTYPE_TYPEDEF,
CTYPE_VOID, CTYPE_ENUM, CTYPE_FUNCTION, CTYPE_STRUCT,
CSYMBOL_TYPE_FUNCTION, CSYMBOL_TYPE_FUNCTION_MACRO, CSYMBOL_TYPE_TYPEDEF, CSYMBOL_TYPE_STRUCT,
CSYMBOL_TYPE_ENUM, CSYMBOL_TYPE_UNION, CSYMBOL_TYPE_OBJECT,
CSYMBOL_TYPE_MEMBER, CSYMBOL_TYPE_ELLIPSIS, CSYMBOL_TYPE_CONST,
TYPE_QUALIFIER_CONST, TYPE_QUALIFIER_VOLATILE)
class TransformerException(Exception):
pass
class Transformer(object):
namespace = property(lambda self: self._namespace)
def __init__(self, namespace, accept_unprefixed=False,
identifier_filter_cmd=None, symbol_filter_cmd=None):
self._cachestore = CacheStore()
self._accept_unprefixed = accept_unprefixed
self._namespace = namespace
self._pkg_config_packages = set()
self._typedefs_ns = {}
self._parsed_includes = {} # <string namespace -> Namespace>
self._includepaths = []
self._passthrough_mode = False
self._identifier_filter_cmd = identifier_filter_cmd
self._symbol_filter_cmd = symbol_filter_cmd
# Cache a list of struct/unions in C's "tag namespace". This helps
# manage various orderings of typedefs and structs. See:
# https://bugzilla.gnome.org/show_bug.cgi?id=581525
self._tag_ns = {}
def get_pkgconfig_packages(self):
return self._pkg_config_packages
def disable_cache(self):
self._cachestore = None
def set_passthrough_mode(self):
self._passthrough_mode = True
def _append_new_node(self, node):
original = self._namespace.get(node.name)
# Special case constants here; we allow duplication to sort-of
# handle #ifdef. But this introduces an arch-dependency in the .gir
# file. So far this has only come up scanning glib - in theory, other
# modules will just depend on that.
if original and\
(isinstance(original, ast.FunctionMacro) or isinstance(node,
ast.FunctionMacro)):
pass
elif isinstance(original, ast.Constant) and isinstance(node, ast.Constant):
pass
elif original is node:
# Ignore attempts to add the same node to the namespace. This can
# happen when parsing typedefs and structs in particular orderings:
# typedef struct _Foo Foo;
# struct _Foo {...};
pass
elif original:
positions = set()
positions.update(original.file_positions)
positions.update(node.file_positions)
message.fatal("Namespace conflict for '%s'" % (node.name, ),
positions)
else:
self._namespace.append(node)
def parse(self, symbols):
for symbol in symbols:
# WORKAROUND
# https://bugzilla.gnome.org/show_bug.cgi?id=550616
if symbol.ident in ['gst_g_error_get_type']:
continue
try:
node = self._traverse_one(symbol)
except TransformerException as e:
message.warn_symbol(symbol, e)
continue
if node and node.name:
self._append_new_node(node)
if isinstance(node, ast.Compound) and node.tag_name and \
node.tag_name not in self._tag_ns:
self._tag_ns[node.tag_name] = node
# Run through the tag namespace looking for structs that have not been
# promoted into the main namespace. In this case we simply promote them
# with their struct tag.
for tag_name, struct in self._tag_ns.items():
if not struct.name:
try:
name = self.strip_identifier(tag_name)
struct.name = name
self._append_new_node(struct)
except TransformerException as e:
message.warn_node(node, e)
def set_include_paths(self, paths):
self._includepaths = list(paths)
def register_include(self, include):
if include in self._namespace.includes:
return
self._namespace.includes.add(include)
filename = self._find_include(include)
self._parse_include(filename)
def register_include_uninstalled(self, include_path):
basename = os.path.basename(include_path)
if not basename.endswith('.gir'):
raise SystemExit("Include path '%s' must be a filename path "
"ending in .gir" % (include_path, ))
girname = basename[:-4]
include = ast.Include.from_string(girname)
if include in self._namespace.includes:
return
self._namespace.includes.add(include)
self._parse_include(include_path, uninstalled=True)
def lookup_giname(self, name):
"""Given a name of the form Foo or Bar.Foo,
return the corresponding ast.Node, or None if none
available. Will throw KeyError however for unknown
namespaces."""
if '.' not in name:
return self._namespace.get(name)
else:
(ns, giname) = name.split('.', 1)
if ns == self._namespace.name:
return self._namespace.get(giname)
# Fallback to the main namespace if not a dependency and matches a prefix
if ns in self._namespace.identifier_prefixes and ns not in self._parsed_includes:
message.warn(("Deprecated reference to identifier " +
"prefix %s in GIName %s") % (ns, name))
return self._namespace.get(giname)
include = self._parsed_includes[ns]
return include.get(giname)
def lookup_typenode(self, typeobj):
"""Given a Type object, if it points to a giname,
calls lookup_giname() on the name. Otherwise return
None."""
if typeobj.target_giname:
return self.lookup_giname(typeobj.target_giname)
return None
# Private
def _get_gi_data_dirs(self):
data_dirs = utils.get_system_data_dirs()
data_dirs.append(DATADIR)
if os.name != 'nt':
# For backwards compatibility, was always unconditionally added to the list.
data_dirs.append('/usr/share')
return data_dirs
def _find_include(self, include):
searchdirs = self._includepaths[:]
searchdirs.extend(GIRDIR)
for path in self._get_gi_data_dirs():
searchdirs.append(os.path.join(path, 'gir-1.0'))
girname = '%s-%s.gir' % (include.name, include.version)
for d in searchdirs:
path = os.path.join(d, girname)
if os.path.exists(path):
return path
sys.stderr.write("Couldn't find include '%s' (search path: '%s')\n" %
(girname, searchdirs))
sys.exit(1)
@classmethod
def parse_from_gir(cls, filename, extra_include_dirs=None):
self = cls(None)
if extra_include_dirs is not None:
self.set_include_paths(extra_include_dirs)
self.set_passthrough_mode()
parser = self._parse_include(filename)
self._namespace = parser.get_namespace()
del self._parsed_includes[self._namespace.name]
return self
def _parse_include(self, filename, uninstalled=False):
parser = None
if self._cachestore is not None:
parser = self._cachestore.load(filename)
if parser is None:
parser = GIRParser(types_only=not self._passthrough_mode)
parser.parse(filename)
if self._cachestore is not None:
self._cachestore.store(filename, parser)
for include in parser.get_namespace().includes:
if include.name not in self._parsed_includes:
dep_filename = self._find_include(include)
self._parse_include(dep_filename)
if not uninstalled:
for pkg in parser.get_namespace().exported_packages:
self._pkg_config_packages.add(pkg)
namespace = parser.get_namespace()
self._parsed_includes[namespace.name] = namespace
return parser
def _iter_namespaces(self):
"""Return an iterator over all included namespaces; the
currently-scanned namespace is first."""
yield self._namespace
for ns in self._parsed_includes.values():
yield ns
def _sort_matches(self, val):
"""Key sort which ensures items in self._namespace are last by returning
a tuple key starting with 1 for self._namespace entries and 0 for
everythin else.
"""
if val[0] == self._namespace:
return 1, val[2]
else:
return 0, val[2]
def _split_c_string_for_namespace_matches(self, name, is_identifier=False):
if not is_identifier and self._symbol_filter_cmd:
proc = subprocess.Popen(self._symbol_filter_cmd,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
proc_name, err = proc.communicate(name.encode())
proc_name = proc_name.strip()
if proc.returncode:
raise ValueError('filter: %r exited: %d with error: %s' %
(self._symbol_filter_cmd, proc.returncode, err))
name = proc_name.decode('ascii')
name = name.strip()
matches = [] # Namespaces which might contain this name
unprefixed_namespaces = [] # Namespaces with no prefix, last resort
for ns in self._iter_namespaces():
if is_identifier:
prefixes = ns.identifier_prefixes
elif name[0].isupper():
prefixes = ns._ucase_symbol_prefixes
else:
prefixes = ns.symbol_prefixes
if prefixes:
for prefix in prefixes:
if (not is_identifier) and (not prefix.endswith('_')):
prefix = prefix + '_'
if name.startswith(prefix):
matches.append((ns, name[len(prefix):], len(prefix)))
break
else:
unprefixed_namespaces.append(ns)
if matches:
matches.sort(key=self._sort_matches)
return list(map(lambda x: (x[0], x[1]), matches))
elif self._accept_unprefixed:
return [(self._namespace, name)]
elif unprefixed_namespaces:
# A bit of a hack; this function ideally shouldn't look through the
# contents of namespaces; but since we aren't scanning anything
# without a prefix, it's not too bad.
for ns in unprefixed_namespaces:
if name in ns:
return [(ns, name)]
raise ValueError("Unknown namespace for %s '%s'"
% ('identifier' if is_identifier else 'symbol', name, ))
def split_ctype_namespaces(self, ident):
"""Given a StudlyCaps string identifier like FooBar, return a
list of (namespace, stripped_identifier) sorted by namespace length,
or raise ValueError. As a special case, if the current namespace matches,
it is always biggest (i.e. last)."""
return self._split_c_string_for_namespace_matches(ident, is_identifier=True)
def split_csymbol_namespaces(self, symbol):
"""Given a C symbol like foo_bar_do_baz, return a list of
(namespace, stripped_symbol) sorted by namespace match probablity, or
raise ValueError."""
return self._split_c_string_for_namespace_matches(symbol, is_identifier=False)
def split_csymbol(self, symbol):
"""Given a C symbol like foo_bar_do_baz, return the most probable
(namespace, stripped_symbol) match, or raise ValueError."""
matches = self._split_c_string_for_namespace_matches(symbol, is_identifier=False)
return matches[-1]
def strip_identifier(self, ident):
if self._identifier_filter_cmd:
proc = subprocess.Popen(self._identifier_filter_cmd,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
proc_ident, err = proc.communicate(ident.encode())
if proc.returncode:
raise ValueError('filter: %r exited: %d with error: %s' %
(self._identifier_filter_cmd, proc.returncode, err))
ident = proc_ident.decode('ascii').strip()
hidden = ident.startswith('_')
if hidden:
ident = ident[1:]
try:
matches = self.split_ctype_namespaces(ident)
except ValueError as e:
raise TransformerException(str(e))
for ns, name in matches:
if ns is self._namespace:
if hidden:
return '_' + name
return name
(ns, name) = matches[-1]
raise TransformerException(
"Skipping foreign identifier '%s' from namespace %s" % (ident, ns.name, ))
return None
def _strip_symbol(self, symbol):
ident = symbol.ident
hidden = ident.startswith('_')
if hidden:
ident = ident[1:]
try:
(ns, name) = self.split_csymbol(ident)
except ValueError as e:
raise TransformerException(str(e))
if ns != self._namespace:
raise TransformerException(
"Skipping foreign symbol from namespace %s" % (ns.name, ))
if hidden:
return '_' + name
return name
def _traverse_one(self, symbol, stype=None, parent_symbol=None):
assert isinstance(symbol, SourceSymbol), symbol
if stype is None:
stype = symbol.type
if stype == CSYMBOL_TYPE_FUNCTION:
return self._create_function(symbol)
elif stype == CSYMBOL_TYPE_FUNCTION_MACRO:
return self._create_function_macro(symbol)
elif stype == CSYMBOL_TYPE_TYPEDEF:
return self._create_typedef(symbol)
elif stype == CSYMBOL_TYPE_STRUCT:
return self._create_tag_ns_compound(ast.Record, symbol)
elif stype == CSYMBOL_TYPE_ENUM:
return self._create_enum(symbol)
elif stype == CSYMBOL_TYPE_MEMBER:
return self._create_member(symbol, parent_symbol)
elif stype == CSYMBOL_TYPE_UNION:
return self._create_tag_ns_compound(ast.Union, symbol)
elif stype == CSYMBOL_TYPE_CONST:
return self._create_const(symbol)
# Ignore variable declarations in the header
elif stype == CSYMBOL_TYPE_OBJECT:
pass
else:
print("transformer: unhandled symbol: '%s'" % (symbol, ))
def _enum_common_prefix(self, symbol):
def common_prefix(a, b):
commonparts = []
for aword, bword in zip(a.split('_'), b.split('_')):
if aword != bword:
return '_'.join(commonparts) + '_'
commonparts.append(aword)
return min(a, b)
# Nothing less than 2 has a common prefix
if len(list(symbol.base_type.child_list)) < 2:
return None
prefix = None
for child in symbol.base_type.child_list:
if prefix is None:
prefix = child.ident
else:
prefix = common_prefix(prefix, child.ident)
if prefix == '':
return None
return prefix
def _create_enum(self, symbol):
prefix = self._enum_common_prefix(symbol)
if prefix:
prefixlen = len(prefix)
else:
prefixlen = 0
members = []
for child in symbol.base_type.child_list:
if child.private:
continue
if prefixlen > 0:
name = child.ident[prefixlen:]
else:
# Ok, the enum members don't have a consistent prefix
# among them, so let's just remove the global namespace
# prefix.
name = self._strip_symbol(child)
members.append(ast.Member(name.lower(),
child.const_int,
child.ident))
enum_name = self.strip_identifier(symbol.ident)
if symbol.base_type.is_bitfield:
klass = ast.Bitfield
else:
klass = ast.Enum
node = klass(enum_name, symbol.ident, members=members)
node.add_symbol_reference(symbol)
return node
def _create_function(self, symbol):
# Drop functions that start with _ very early on here
if symbol.ident.startswith('_'):
return None
parameters = list(self._create_parameters(symbol, symbol.base_type))
return_ = self._create_return(symbol.base_type.base_type)
name = self._strip_symbol(symbol)
func = ast.Function(name, return_, parameters, False, symbol.ident)
func.add_symbol_reference(symbol)
return func
def _create_function_macro(self, symbol):
if symbol.ident.startswith('_'):
return None
if (symbol.source_filename is None or not symbol.source_filename.endswith('.h')):
return None
parameters = list(self._create_parameters(symbol, symbol.base_type))
name = self._strip_symbol(symbol)
macro = ast.FunctionMacro(name, parameters, symbol.ident)
macro.add_symbol_reference(symbol)
return macro
def _create_source_type(self, source_type, is_parameter=False):
assert source_type is not None
if source_type.type == CTYPE_VOID:
value = 'void'
elif source_type.type == CTYPE_BASIC_TYPE:
value = source_type.name
elif source_type.type == CTYPE_TYPEDEF:
value = source_type.name
elif (source_type.type == CTYPE_POINTER or
# Array to pointer adjustment as per 6.7.6.3.
# This is performed only on the outermost array,
# so we don't forward is_parameter.
(source_type.type == CTYPE_ARRAY and is_parameter)):
value = self._create_source_type(source_type.base_type) + '*'
elif source_type.type == CTYPE_ARRAY:
return self._create_source_type(source_type.base_type)
else:
value = 'gpointer'
return value
def _create_complete_source_type(self, source_type, is_parameter=False):
assert source_type is not None
const = (source_type.type_qualifier & TYPE_QUALIFIER_CONST)
volatile = (source_type.type_qualifier & TYPE_QUALIFIER_VOLATILE)
if source_type.type == CTYPE_VOID:
return 'void'
elif source_type.type in [CTYPE_BASIC_TYPE,
CTYPE_TYPEDEF,
CTYPE_STRUCT,
CTYPE_UNION,
CTYPE_ENUM]:
value = source_type.name
if const:
value = 'const ' + value
if volatile:
value = 'volatile ' + value
return value
elif (source_type.type == CTYPE_POINTER or
# Array to pointer adjustment as per 6.7.6.3.
# This is performed only on the outermost array,
# so we don't forward is_parameter.
(source_type.type == CTYPE_ARRAY and is_parameter)):
value = self._create_complete_source_type(source_type.base_type) + '*'
# TODO: handle pointer to function as a special case?
if const:
value += ' const'
if volatile:
value += ' volatile'
return value
elif source_type.type == CTYPE_ARRAY:
return self._create_complete_source_type(source_type.base_type)
else:
if const:
value = 'gconstpointer'
else:
value = 'gpointer'
if volatile:
value = 'volatile ' + value
return value
def _create_parameters(self, symbol, base_type):
for i, child in enumerate(base_type.child_list):
yield self._create_parameter(symbol, i, child)
def _synthesize_union_type(self, symbol, parent_symbol):
# Synthesize a named union so that it can be referenced.
parent_ident = parent_symbol.ident
# FIXME: Should split_ctype_namespaces handle the hidden case?
hidden = parent_ident.startswith('_')
if hidden:
parent_ident = parent_ident[1:]
matches = self.split_ctype_namespaces(parent_ident)
(namespace, parent_name) = matches[-1]
assert namespace and parent_name
if hidden:
parent_name = '_' + parent_name
fake_union = ast.Union("%s__%s__union" % (parent_name, symbol.ident))
# _parse_fields accesses <type>.base_type.child_list, so we have to
# pass symbol.base_type even though that refers to the array, not the
# union.
self._parse_fields(symbol.base_type, fake_union)
self._append_new_node(fake_union)
fake_type = ast.Type(
target_giname="%s.%s" % (namespace.name, fake_union.name))
return fake_type
def _create_member(self, symbol, parent_symbol=None):
source_type = symbol.base_type
if (source_type.type == CTYPE_POINTER
and symbol.base_type.base_type.type == CTYPE_FUNCTION):
node = self._create_callback(symbol, member=True)
elif source_type.type == CTYPE_STRUCT and source_type.name is None:
node = self._create_member_compound(ast.Record, symbol)
elif source_type.type == CTYPE_UNION and source_type.name is None:
node = self._create_member_compound(ast.Union, symbol)
else:
# Special handling for fields; we don't have annotations on them
# to apply later, yet.
if source_type.type == CTYPE_ARRAY:
# Determine flattened array size and its element type.
flattened_size = 1
while source_type.type == CTYPE_ARRAY:
for child in source_type.child_list:
if flattened_size is not None:
flattened_size *= child.const_int
break
else:
flattened_size = None
source_type = source_type.base_type
# If the array contains anonymous unions, like in the GValue
# struct, we need to handle this specially. This is necessary
# to be able to properly calculate the size of the compound
# type (e.g. GValue) that contains this array, see
# <https://bugzilla.gnome.org/show_bug.cgi?id=657040>.
if source_type.type == CTYPE_UNION and source_type.name is None:
element_type = self._synthesize_union_type(symbol, parent_symbol)
else:
ctype = self._create_source_type(source_type)
complete_ctype = self._create_complete_source_type(source_type)
element_type = self.create_type_from_ctype_string(ctype,
complete_ctype=complete_ctype)
ftype = ast.Array(None, element_type)
ftype.zeroterminated = False
ftype.size = flattened_size
else:
ftype = self._create_type_from_base(symbol.base_type)
# ast.Fields are assumed to be read-write
# (except for Objects, see also glibtransformer.py)
node = ast.Field(symbol.ident, ftype,
readable=True, writable=True,
bits=symbol.const_int)
if symbol.private:
node.readable = False
node.writable = False
node.private = True
return node
def _create_typedef(self, symbol):
ctype = symbol.base_type.type
if (ctype == CTYPE_POINTER and symbol.base_type.base_type.type == CTYPE_FUNCTION):
node = self._create_typedef_callback(symbol)
elif (ctype == CTYPE_FUNCTION):
node = self._create_typedef_callback(symbol)
elif (ctype == CTYPE_POINTER and symbol.base_type.base_type.type == CTYPE_STRUCT):
node = self._create_typedef_compound(ast.Record, symbol, disguised=True)
elif ctype == CTYPE_STRUCT:
node = self._create_typedef_compound(ast.Record, symbol)
elif ctype == CTYPE_UNION:
node = self._create_typedef_compound(ast.Union, symbol)
elif ctype == CTYPE_ENUM:
return self._create_enum(symbol)
elif ctype in (CTYPE_TYPEDEF,
CTYPE_POINTER,
CTYPE_BASIC_TYPE,
CTYPE_VOID):
name = self.strip_identifier(symbol.ident)
target = self._create_type_from_base(symbol.base_type)
if name in ast.type_names:
return None
# https://bugzilla.gnome.org/show_bug.cgi?id=755882
if name.endswith('_autoptr'):
return None
node = ast.Alias(name, target, ctype=symbol.ident)
node.add_symbol_reference(symbol)
else:
raise NotImplementedError(
"symbol '%s' of type %s" % (symbol.ident, ctype_name(ctype)))
return node
def _canonicalize_ctype(self, ctype):
# First look up the ctype including any pointers;
# a few type names like 'char*' have their own aliases
# and we need pointer information for those.
firstpass = ast.type_names.get(ctype)
# If we have a particular alias for this, skip deep
# canonicalization to prevent changing
# e.g. char* -> int8*
if firstpass:
return firstpass.target_fundamental
if not ctype.endswith('*'):
return ctype
# We have a pointer type.
# Strip the end pointer, canonicalize our base type
base = ctype[:-1]
canonical_base = self._canonicalize_ctype(base)
# Append the pointer again
canonical = canonical_base + '*'
return canonical
def _create_type_from_base(self, source_type, is_parameter=False, is_return=False):
ctype = self._create_source_type(source_type, is_parameter=is_parameter)
complete_ctype = self._create_complete_source_type(source_type, is_parameter=is_parameter)
const = ((source_type.type == CTYPE_POINTER) and
(source_type.base_type.type_qualifier & TYPE_QUALIFIER_CONST))
return self.create_type_from_ctype_string(ctype, is_const=const,
is_parameter=is_parameter, is_return=is_return,
complete_ctype=complete_ctype)
def _create_bare_container_type(self, base, ctype=None,
is_const=False, complete_ctype=None):
if base in ('GList', 'GSList', 'GLib.List', 'GLib.SList'):
if base in ('GList', 'GSList'):
name = 'GLib.' + base[1:]
else:
name = base
return ast.List(name, ast.TYPE_ANY, ctype=ctype,
is_const=is_const, complete_ctype=complete_ctype)
elif base in ('GByteArray', 'GLib.ByteArray', 'GObject.ByteArray'):
return ast.Array('GLib.ByteArray', ast.TYPE_UINT8, ctype=ctype,
is_const=is_const, complete_ctype=complete_ctype)
elif base in ('GArray', 'GPtrArray',
'GLib.Array', 'GLib.PtrArray',
'GObject.Array', 'GObject.PtrArray'):
if '.' in base:
name = 'GLib.' + base.split('.', 1)[1]
else:
name = 'GLib.' + base[1:]
return ast.Array(name, ast.TYPE_ANY, ctype=ctype,
is_const=is_const, complete_ctype=complete_ctype)
elif base in ('GHashTable', 'GLib.HashTable', 'GObject.HashTable'):
return ast.Map(ast.TYPE_ANY, ast.TYPE_ANY, ctype=ctype, is_const=is_const,
complete_ctype=complete_ctype)
return None
def create_type_from_ctype_string(self, ctype, is_const=False,
is_parameter=False, is_return=False,
complete_ctype=None):
canonical = self._canonicalize_ctype(ctype)
base = canonical.replace('*', '')
# While gboolean and _Bool are distinct types, they used to be treated
# by scanner as exactly the same one. In general this is incorrect
# because of different ABI, but this usually works fine,
# so for backward compatibility lets continue for now:
# https://gitlab.gnome.org/GNOME/gobject-introspection/merge_requests/24#note_92792
if canonical in ('_Bool', 'bool'):
canonical = 'gboolean'
base = canonical
# Special default: char ** -> ast.Array, same for GStrv
if (is_return and canonical == 'utf8*') or base == 'GStrv':
bare_utf8 = ast.TYPE_STRING.clone()
bare_utf8.ctype = None
return ast.Array(None, bare_utf8, ctype=ctype,
is_const=is_const, complete_ctype=complete_ctype)
fundamental = ast.type_names.get(base)
if fundamental is not None:
return ast.Type(target_fundamental=fundamental.target_fundamental,
ctype=ctype,
is_const=is_const, complete_ctype=complete_ctype)
container = self._create_bare_container_type(base, ctype=ctype, is_const=is_const,
complete_ctype=complete_ctype)
if container:
return container
return ast.Type(ctype=ctype, is_const=is_const, complete_ctype=complete_ctype)
def _create_parameter(self, parent_symbol, index, symbol):
if symbol.type == CSYMBOL_TYPE_ELLIPSIS:
return ast.Parameter('...', ast.Varargs())
else:
if symbol.base_type:
ptype = self._create_type_from_base(symbol.base_type, is_parameter=True)
else:
ptype = None
if symbol.ident is None:
if symbol.base_type and symbol.base_type.type != CTYPE_VOID:
message.warn_symbol(parent_symbol, "missing parameter name; undocumentable")
ident = 'arg%d' % (index, )
else:
ident = symbol.ident
return ast.Parameter(ident, ptype)
def _create_return(self, source_type):
typeval = self._create_type_from_base(source_type, is_return=True)
return ast.Return(typeval)
def _create_const(self, symbol):
if symbol.ident.startswith('_'):
return None
# Don't create constants for non-public things
# http://bugzilla.gnome.org/show_bug.cgi?id=572790
if (symbol.source_filename is None or not symbol.source_filename.endswith('.h')):
return None
name = self._strip_symbol(symbol)
if symbol.const_string is not None:
typeval = ast.TYPE_STRING
value = symbol.const_string
elif symbol.const_int is not None:
if symbol.base_type is not None:
typeval = self._create_type_from_base(symbol.base_type)
else:
typeval = ast.TYPE_INT
unaliased = typeval
self._resolve_type_from_ctype(unaliased)
if typeval.target_giname and typeval.ctype:
target = self.lookup_giname(typeval.target_giname)
target = self.resolve_aliases(target)
if isinstance(target, ast.Type):
unaliased = target
if unaliased == ast.TYPE_UINT64:
value = str(symbol.const_int % 2 ** 64)
elif unaliased == ast.TYPE_UINT32:
value = str(symbol.const_int % 2 ** 32)
elif unaliased == ast.TYPE_UINT16:
value = str(symbol.const_int % 2 ** 16)
elif unaliased == ast.TYPE_UINT8:
value = str(symbol.const_int % 2 ** 16)
else:
value = str(symbol.const_int)
elif symbol.const_boolean is not None:
typeval = ast.TYPE_BOOLEAN
value = "true" if symbol.const_boolean else "false"
elif symbol.const_double is not None:
typeval = ast.TYPE_DOUBLE
value = '%f' % (symbol.const_double, )
else:
raise AssertionError()
const = ast.Constant(name, typeval, value,
symbol.ident)
const.add_symbol_reference(symbol)
return const
def _create_typedef_compound(self, compound_class, symbol, disguised=False):
name = self.strip_identifier(symbol.ident)
assert symbol.base_type
if symbol.base_type.name:
tag_name = symbol.base_type.name
else:
tag_name = None
# If the struct already exists in the tag namespace, use it.
if tag_name in self._tag_ns:
compound = self._tag_ns[tag_name]
if compound.name:
# If the struct name is set it means the struct has already been
# promoted from the tag namespace to the main namespace by a
# prior typedef struct. If we get here it means this is another
# typedef of that struct. Instead of creating an alias to the
# primary typedef that has been promoted, we create a new Record
# with shared fields. This handles the case where we want to
# give structs like GInitiallyUnowned its own Record:
# typedef struct _GObject GObject;
# typedef struct _GObject GInitiallyUnowned;
# See: http://bugzilla.gnome.org/show_bug.cgi?id=569408
new_compound = compound_class(name, symbol.ident, tag_name=tag_name)
new_compound.fields = compound.fields
new_compound.add_symbol_reference(symbol)
return new_compound
else:
# If the struct does not have its name set, it exists only in
# the tag namespace. Set it here and return it which will
# promote it to the main namespace. Essentially the first
# typedef for a struct clobbers its name and ctype which is what
# will be visible to GI.
compound.name = name
compound.ctype = symbol.ident
else:
# Create a new struct with a typedef name and tag name when available.
# Structs with a typedef name are promoted into the main namespace
# by it being returned to the "parse" function and are also added to
# the tag namespace if it has a tag_name set.
compound = compound_class(name, symbol.ident, disguised=disguised, tag_name=tag_name)
if tag_name:
# Force the struct as disguised for now since we do not yet know
# if it has fields that will be parsed. Note that this is using
# an erroneous definition of disguised and we should eventually
# only look at the field count when needed.
compound.disguised = True
else:
# Case where we have an anonymous struct which is typedef'd:
# typedef struct {...} Struct;
# we need to parse the fields because we never get a struct
# in the tag namespace which is normally where fields are parsed.
self._parse_fields(symbol, compound)
compound.add_symbol_reference(symbol)
return compound
def _create_tag_ns_compound(self, compound_class, symbol):
# Get or create a struct from C's tag namespace
if symbol.ident in self._tag_ns:
compound = self._tag_ns[symbol.ident]
else:
compound = compound_class(None, symbol.ident, tag_name=symbol.ident)
# Make sure disguised is False as we are now about to parse the
# fields of the real struct.
compound.disguised = False
# Fields may need to be parsed in either of the above cases because the
# Record can be created with a typedef prior to the struct definition.
self._parse_fields(symbol, compound)
compound.add_symbol_reference(symbol)
return compound
def _create_member_compound(self, compound_class, symbol):
compound = compound_class(symbol.ident, symbol.ident)
self._parse_fields(symbol, compound)
compound.add_symbol_reference(symbol)
return compound
def _create_typedef_callback(self, symbol):
callback = self._create_callback(symbol)
if not callback:
return None
return callback
def _parse_fields(self, symbol, compound):
for child in symbol.base_type.child_list:
child_node = self._traverse_one(child, parent_symbol=symbol)
if not child_node:
continue
if isinstance(child_node, ast.Field):
field = child_node
else:
field = ast.Field(child.ident, None, True, False,
anonymous_node=child_node)
compound.fields.append(field)
def _create_callback(self, symbol, member=False):
if (symbol.base_type.type == CTYPE_FUNCTION): # function
paramtype = symbol.base_type
retvaltype = symbol.base_type.base_type
elif (symbol.base_type.type == CTYPE_POINTER): # function pointer
paramtype = symbol.base_type.base_type
retvaltype = symbol.base_type.base_type.base_type
parameters = list(self._create_parameters(symbol, paramtype))
retval = self._create_return(retvaltype)
# Mark the 'user_data' arguments
for i, param in enumerate(parameters):
if (param.type.target_fundamental == 'gpointer' and param.argname == 'user_data'):
param.closure_name = param.argname
if member:
name = symbol.ident
elif symbol.ident.find('_') > 0:
name = self._strip_symbol(symbol)
else:
name = self.strip_identifier(symbol.ident)
callback = ast.Callback(name, retval, parameters, False,
ctype=symbol.ident)
callback.add_symbol_reference(symbol)
return callback
def create_type_from_user_string(self, typestr):
"""Parse a C type string (as might be given from an
annotation) and resolve it. For compatibility, we can consume
both GI type string (utf8, Foo.Bar) style, as well as C (char *, FooBar) style.
Note that type resolution may not succeed."""
if '.' in typestr:
container = self._create_bare_container_type(typestr)
if container:
typeval = container
else:
typeval = self._namespace.type_from_name(typestr)
else:
typeval = self.create_type_from_ctype_string(typestr)
self.resolve_type(typeval)
if typeval.resolved:
# Explicitly clear out the c_type; there isn't one in this case.
typeval.ctype = None
return typeval
def _resolve_type_from_ctype_all_namespaces(self, typeval, pointer_stripped):
# If we can't determine the namespace from the type name,
# fall back to trying all of our includes. An example of this is mutter,
# which has nominal namespace of "Meta", but a few classes are
# "Mutter". We don't export that data in introspection currently.
# Basically the library should be fixed, but we'll hack around it here.
for namespace in self._parsed_includes.values():
target = namespace.get_by_ctype(pointer_stripped)
if target:
typeval.target_giname = '%s.%s' % (namespace.name, target.name)
return True
return False
def _resolve_type_from_ctype(self, typeval):
assert typeval.ctype is not None
pointer_stripped = typeval.ctype.replace('*', '')
try:
matches = self.split_ctype_namespaces(pointer_stripped)
except ValueError:
return self._resolve_type_from_ctype_all_namespaces(typeval, pointer_stripped)
for namespace, name in matches:
target = namespace.get(name)
if not target:
target = namespace.get_by_ctype(pointer_stripped)
if target:
typeval.target_giname = '%s.%s' % (namespace.name, target.name)
return True
return False
def _resolve_type_from_gtype_name(self, typeval):
assert typeval.gtype_name is not None
for ns in self._iter_namespaces():
node = ns.type_names.get(typeval.gtype_name, None)
if node is not None:
typeval.target_giname = '%s.%s' % (ns.name, node.name)
return True
return False
def _resolve_type_internal(self, typeval):
if isinstance(typeval, (ast.Array, ast.List)):
return self.resolve_type(typeval.element_type)
elif isinstance(typeval, ast.Map):
key_resolved = self.resolve_type(typeval.key_type)
value_resolved = self.resolve_type(typeval.value_type)
return key_resolved and value_resolved
elif typeval.resolved:
return True
elif typeval.ctype:
return self._resolve_type_from_ctype(typeval)
elif typeval.gtype_name:
return self._resolve_type_from_gtype_name(typeval)
def resolve_type(self, typeval):
if not self._resolve_type_internal(typeval):
return False
if typeval.target_fundamental or typeval.target_foreign:
return True
assert typeval.target_giname is not None
try:
type_ = self.lookup_giname(typeval.target_giname)
except KeyError:
type_ = None
if type_ is None:
typeval.target_giname = None
return typeval.resolved
def resolve_aliases(self, typenode):
"""Removes all aliases from typenode, returns first non-alias
in the typenode alias chain. Returns typenode argument if it
is not an alias."""
while isinstance(typenode, ast.Alias):
if typenode.target.target_giname is not None:
typenode = self.lookup_giname(typenode.target.target_giname)
elif typenode.target.target_fundamental is not None:
typenode = typenode.target
else:
break
return typenode
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