/* * Copyright 2008-2011 Colin Walters * Copyright 2011 Laszlo Pandy * Copyright 2011 Torsten Schönfeld * Copyright 2011, 2012 Pavel Holejsovsky * Copyright 2013 Martin Pitt * Copyright 2014 Giovanni Campagna * Copyright 2018 Christoph Reiter * Copyright 2019, 2024 Philip Chimento * Copyright 2022 Emmanuele Bassi * Copyright 2023 GNOME Foundation, Inc. * * SPDX-License-Identifier: LGPL-2.1-or-later * * 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, see . * * Author: Philip Withnall */ #include "config.h" #include "gio.h" #include "girepository.h" #include "glib.h" #include "test-common.h" #if defined(G_OS_UNIX) && !defined(__APPLE__) #include "gio/gdesktopappinfo.h" #elif defined(G_OS_WIN32) #include "gio/gwin32inputstream.h" #endif static void test_repository_basic (RepositoryFixture *fx, const void *unused) { const char * const * search_paths; char **namespaces = NULL; size_t n_namespaces; const char *expected_namespaces[] = { "GLib", NULL }; char **versions; size_t n_versions; const char *prefix = NULL; g_test_summary ("Test basic opening of a repository and requiring a typelib"); versions = gi_repository_enumerate_versions (fx->repository, "SomeInvalidNamespace", &n_versions); g_assert_nonnull (versions); g_assert_cmpstrv (versions, ((char *[]){NULL})); g_assert_cmpuint (n_versions, ==, 0); g_clear_pointer (&versions, g_strfreev); versions = gi_repository_enumerate_versions (fx->repository, "GLib", NULL); g_assert_nonnull (versions); g_assert_cmpstrv (versions, ((char *[]){"2.0", NULL})); g_clear_pointer (&versions, g_strfreev); search_paths = gi_repository_get_search_path (fx->repository, NULL); g_assert_nonnull (search_paths); g_assert_cmpuint (g_strv_length ((char **) search_paths), >, 0); g_assert_cmpstr (search_paths[0], ==, fx->gobject_typelib_dir); namespaces = gi_repository_get_loaded_namespaces (fx->repository, &n_namespaces); g_assert_cmpstrv (namespaces, expected_namespaces); g_assert_cmpuint (n_namespaces, ==, g_strv_length ((char **) expected_namespaces)); g_strfreev (namespaces); prefix = gi_repository_get_c_prefix (fx->repository, "GLib"); g_assert_nonnull (prefix); g_assert_cmpstr (prefix, ==, "G"); } static void test_repository_info (RepositoryFixture *fx, const void *unused) { GIBaseInfo *not_found_info = NULL; GIObjectInfo *object_info = NULL, *object_info_by_gtype = NULL; GISignalInfo *signal_info = NULL; GIFunctionInfo *method_info = NULL; GType gtype; g_test_summary ("Test retrieving some basic info blobs from a typelib"); not_found_info = gi_repository_find_by_name (fx->repository, "GObject", "ThisDoesNotExist"); g_assert_null (not_found_info); object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); g_assert_true (GI_IS_OBJECT_INFO (object_info)); g_assert_true (GI_IS_REGISTERED_TYPE_INFO (object_info)); g_assert_true (GI_IS_BASE_INFO (object_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (object_info)), ==, "Object"); g_assert_cmpstr (gi_base_info_get_namespace (GI_BASE_INFO (object_info)), ==, "GObject"); gtype = gi_registered_type_info_get_g_type (GI_REGISTERED_TYPE_INFO (object_info)); g_assert_true (g_type_is_a (gtype, G_TYPE_OBJECT)); object_info_by_gtype = GI_OBJECT_INFO (gi_repository_find_by_gtype (fx->repository, G_TYPE_OBJECT)); g_assert_nonnull (object_info); signal_info = gi_object_info_find_signal (object_info, "does-not-exist"); g_assert_null (signal_info); signal_info = gi_object_info_find_signal (object_info, "notify"); g_assert_nonnull (signal_info); g_assert_true (GI_IS_SIGNAL_INFO (signal_info)); g_assert_true (GI_IS_CALLABLE_INFO (signal_info)); g_assert_true (GI_IS_BASE_INFO (signal_info)); g_assert_cmpint (gi_signal_info_get_flags (signal_info), ==, G_SIGNAL_RUN_FIRST | G_SIGNAL_NO_RECURSE | G_SIGNAL_DETAILED | G_SIGNAL_NO_HOOKS | G_SIGNAL_ACTION); g_assert_cmpuint (gi_object_info_get_n_methods (object_info), >, 2); method_info = gi_object_info_find_method (object_info, "get_property"); g_assert_nonnull (method_info); g_assert_true (GI_IS_FUNCTION_INFO (method_info)); g_assert_true (GI_IS_CALLABLE_INFO (method_info)); g_assert_true (GI_IS_BASE_INFO (method_info)); g_assert_true (gi_callable_info_is_method (GI_CALLABLE_INFO (method_info))); g_assert_cmpuint (gi_callable_info_get_n_args (GI_CALLABLE_INFO (method_info)), ==, 2); g_clear_pointer (&method_info, gi_base_info_unref); method_info = gi_object_info_get_method (object_info, gi_object_info_get_n_methods (object_info) - 1); g_assert_true (gi_callable_info_is_method (GI_CALLABLE_INFO (method_info))); g_assert_cmpuint (gi_callable_info_get_n_args (GI_CALLABLE_INFO (method_info)), >, 0); g_clear_pointer (&method_info, gi_base_info_unref); gi_base_info_unref (signal_info); gi_base_info_unref (object_info); gi_base_info_unref (object_info_by_gtype); } static void test_repository_dependencies (RepositoryFixture *fx, const void *unused) { GError *error = NULL; char **dependencies; size_t n_dependencies; g_test_summary ("Test ensures namespace dependencies are correctly exposed"); dependencies = gi_repository_get_dependencies (fx->repository, "GObject", &n_dependencies); g_assert_cmpuint (g_strv_length (dependencies), ==, 1); g_assert_cmpuint (n_dependencies, ==, 1); g_assert_true (g_strv_contains ((const char **) dependencies, "GLib-2.0")); g_clear_error (&error); g_clear_pointer (&dependencies, g_strfreev); } static void test_repository_base_info_clear (RepositoryFixture *fx, const void *unused) { GITypeInfo zeroed_type_info = { 0, }; GITypeInfo idempotent_type_info; GIObjectInfo *object_info = NULL; GIFunctionInfo *method_info = NULL; GIArgInfo *arg_info = NULL; g_test_summary ("Test calling gi_base_info_clear() on a zero-filled struct"); /* Load a valid #GITypeInfo onto the stack and clear it multiple times to * check gi_base_info_clear() is idempotent after the first call. */ object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); method_info = gi_object_info_find_method (object_info, "get_property"); g_assert_nonnull (method_info); arg_info = gi_callable_info_get_arg (GI_CALLABLE_INFO (method_info), 0); g_assert_nonnull (arg_info); gi_arg_info_load_type_info (arg_info, &idempotent_type_info); gi_base_info_clear (&idempotent_type_info); gi_base_info_clear (&idempotent_type_info); gi_base_info_clear (&idempotent_type_info); g_clear_pointer (&arg_info, gi_base_info_unref); g_clear_pointer (&method_info, gi_base_info_unref); g_clear_pointer (&object_info, gi_base_info_unref); /* Try clearing a #GITypeInfo which has always been zero-filled on the stack. */ gi_base_info_clear (&zeroed_type_info); gi_base_info_clear (&zeroed_type_info); gi_base_info_clear (&zeroed_type_info); } static void test_repository_arg_info (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; GIStructInfo *struct_info = NULL; GIFunctionInfo *method_info = NULL; GIArgInfo *arg_info = NULL; GITypeInfo *type_info = NULL; GITypeInfo type_info_stack; unsigned int idx; g_test_summary ("Test retrieving GIArgInfos from a typelib"); /* Test all the methods of GIArgInfo. Here we’re looking at the * `const char *property_name` argument of g_object_get_property(). (The * ‘self’ argument is not exposed through gi_callable_info_get_arg().) */ object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); method_info = gi_object_info_find_method (object_info, "get_property"); g_assert_nonnull (method_info); arg_info = gi_callable_info_get_arg (GI_CALLABLE_INFO (method_info), 0); g_assert_nonnull (arg_info); g_assert_cmpint (gi_arg_info_get_direction (arg_info), ==, GI_DIRECTION_IN); g_assert_false (gi_arg_info_is_return_value (arg_info)); g_assert_false (gi_arg_info_is_optional (arg_info)); g_assert_false (gi_arg_info_is_caller_allocates (arg_info)); g_assert_false (gi_arg_info_may_be_null (arg_info)); g_assert_false (gi_arg_info_is_skip (arg_info)); g_assert_cmpint (gi_arg_info_get_ownership_transfer (arg_info), ==, GI_TRANSFER_NOTHING); g_assert_cmpint (gi_arg_info_get_scope (arg_info), ==, GI_SCOPE_TYPE_INVALID); g_assert_false (gi_arg_info_get_closure_index (arg_info, NULL)); g_assert_false (gi_arg_info_get_closure_index (arg_info, &idx)); g_assert_cmpuint (idx, ==, 0); g_assert_false (gi_arg_info_get_destroy_index (arg_info, NULL)); g_assert_false (gi_arg_info_get_destroy_index (arg_info, &idx)); g_assert_cmpuint (idx, ==, 0); type_info = gi_arg_info_get_type_info (arg_info); g_assert_nonnull (type_info); g_assert_true (gi_type_info_is_pointer (type_info)); g_assert_cmpint (gi_type_info_get_tag (type_info), ==, GI_TYPE_TAG_UTF8); gi_arg_info_load_type_info (arg_info, &type_info_stack); g_assert_true (gi_type_info_is_pointer (&type_info_stack) == gi_type_info_is_pointer (type_info)); g_assert_cmpint (gi_type_info_get_tag (&type_info_stack), ==, gi_type_info_get_tag (type_info)); gi_base_info_clear (&type_info_stack); g_clear_pointer (&type_info, gi_base_info_unref); g_clear_pointer (&arg_info, gi_base_info_unref); g_clear_pointer (&method_info, gi_base_info_unref); g_clear_pointer (&object_info, gi_base_info_unref); /* Test an (out) argument. Here it’s the `guint *n_properties` from * g_object_class_list_properties(). */ struct_info = GI_STRUCT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "ObjectClass")); g_assert_nonnull (struct_info); method_info = gi_struct_info_find_method (struct_info, "list_properties"); g_assert_nonnull (method_info); arg_info = gi_callable_info_get_arg (GI_CALLABLE_INFO (method_info), 0); g_assert_nonnull (arg_info); g_assert_cmpint (gi_arg_info_get_direction (arg_info), ==, GI_DIRECTION_OUT); g_assert_false (gi_arg_info_is_optional (arg_info)); g_assert_false (gi_arg_info_is_caller_allocates (arg_info)); g_assert_cmpint (gi_arg_info_get_ownership_transfer (arg_info), ==, GI_TRANSFER_EVERYTHING); g_clear_pointer (&arg_info, gi_base_info_unref); g_clear_pointer (&method_info, gi_base_info_unref); g_clear_pointer (&struct_info, gi_base_info_unref); } static void test_repository_callable_info (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; GIFunctionInfo *method_info = NULL; GICallableInfo *callable_info; GITypeInfo *type_info = NULL; GITypeInfo type_info_stack; GIAttributeIter iter = GI_ATTRIBUTE_ITER_INIT; const char *name, *value; GIArgInfo *arg_info = NULL; GIArgInfo arg_info_stack; g_test_summary ("Test retrieving GICallableInfos from a typelib"); /* Test all the methods of GICallableInfo. Here we’re looking at * g_object_get_qdata(). */ object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); method_info = gi_object_info_find_method (object_info, "get_qdata"); g_assert_nonnull (method_info); callable_info = GI_CALLABLE_INFO (method_info); g_assert_true (gi_callable_info_is_method (callable_info)); g_assert_false (gi_callable_info_can_throw_gerror (callable_info)); type_info = gi_callable_info_get_return_type (callable_info); g_assert_nonnull (type_info); g_assert_true (gi_type_info_is_pointer (type_info)); g_assert_cmpint (gi_type_info_get_tag (type_info), ==, GI_TYPE_TAG_VOID); gi_callable_info_load_return_type (callable_info, &type_info_stack); g_assert_true (gi_type_info_is_pointer (&type_info_stack) == gi_type_info_is_pointer (type_info)); g_assert_cmpint (gi_type_info_get_tag (&type_info_stack), ==, gi_type_info_get_tag (type_info)); gi_base_info_clear (&type_info_stack); g_clear_pointer (&type_info, gi_base_info_unref); /* This method has no attributes */ g_assert_false (gi_callable_info_iterate_return_attributes (callable_info, &iter, &name, &value)); g_assert_null (gi_callable_info_get_return_attribute (callable_info, "doesnt-exist")); g_assert_false (gi_callable_info_get_caller_owns (callable_info)); g_assert_true (gi_callable_info_may_return_null (callable_info)); g_assert_false (gi_callable_info_skip_return (callable_info)); g_assert_cmpuint (gi_callable_info_get_n_args (callable_info), ==, 1); arg_info = gi_callable_info_get_arg (callable_info, 0); g_assert_nonnull (arg_info); gi_callable_info_load_arg (callable_info, 0, &arg_info_stack); g_assert_cmpint (gi_arg_info_get_direction (&arg_info_stack), ==, gi_arg_info_get_direction (arg_info)); g_assert_true (gi_arg_info_may_be_null (&arg_info_stack) == gi_arg_info_may_be_null (arg_info)); gi_base_info_clear (&arg_info_stack); g_clear_pointer (&arg_info, gi_base_info_unref); g_assert_cmpint (gi_callable_info_get_instance_ownership_transfer (callable_info), ==, GI_TRANSFER_NOTHING); g_clear_pointer (&method_info, gi_base_info_unref); g_clear_pointer (&object_info, gi_base_info_unref); } static void test_repository_callback_info (RepositoryFixture *fx, const void *unused) { GICallbackInfo *callback_info = NULL; g_test_summary ("Test retrieving GICallbackInfos from a typelib"); /* Test all the methods of GICallbackInfo. This is simple, because there are none. */ callback_info = GI_CALLBACK_INFO (gi_repository_find_by_name (fx->repository, "GObject", "ObjectFinalizeFunc")); g_assert_nonnull (callback_info); g_clear_pointer (&callback_info, gi_base_info_unref); } static void test_repository_char_types (RepositoryFixture *fx, const void *unused) { GIStructInfo *gvalue_info; GIFunctionInfo *method_info; GITypeInfo *type_info; g_test_summary ("Test that signed and unsigned char GITypeInfo have GITypeTag of INT8 and UINT8 respectively"); gvalue_info = GI_STRUCT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Value")); g_assert_nonnull (gvalue_info); /* unsigned char */ method_info = gi_struct_info_find_method (gvalue_info, "get_uchar"); g_assert_nonnull (method_info); type_info = gi_callable_info_get_return_type (GI_CALLABLE_INFO (method_info)); g_assert_nonnull (type_info); g_assert_cmpuint (gi_type_info_get_tag (type_info), ==, GI_TYPE_TAG_UINT8); g_clear_pointer (&type_info, gi_base_info_unref); g_clear_pointer (&method_info, gi_base_info_unref); /* signed char */ method_info = gi_struct_info_find_method (gvalue_info, "get_schar"); g_assert_nonnull (method_info); type_info = gi_callable_info_get_return_type (GI_CALLABLE_INFO (method_info)); g_assert_nonnull (type_info); g_assert_cmpuint (gi_type_info_get_tag (type_info), ==, GI_TYPE_TAG_INT8); g_clear_pointer (&type_info, gi_base_info_unref); g_clear_pointer (&method_info, gi_base_info_unref); g_clear_pointer (&gvalue_info, gi_base_info_unref); } static void test_repository_constructor_return_type (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; GIFunctionInfo *constructor = NULL; GITypeInfo *return_type = NULL; GIBaseInfo *return_info = NULL; const char *class_name = NULL; const char *return_name = NULL; g_test_summary ("Test the return type of a constructor, g_object_newv()"); object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); class_name = gi_registered_type_info_get_type_name (GI_REGISTERED_TYPE_INFO (object_info)); g_assert_nonnull (class_name); constructor = gi_object_info_find_method (object_info, "newv"); g_assert_nonnull (constructor); return_type = gi_callable_info_get_return_type (GI_CALLABLE_INFO (constructor)); g_assert_nonnull (return_type); g_assert_cmpuint (gi_type_info_get_tag (return_type), ==, GI_TYPE_TAG_INTERFACE); return_info = gi_type_info_get_interface (return_type); g_assert_nonnull (return_info); return_name = gi_registered_type_info_get_type_name (GI_REGISTERED_TYPE_INFO (return_info)); g_assert_nonnull (return_name); g_assert_cmpstr (class_name, ==, return_name); g_clear_pointer (&return_info, gi_base_info_unref); g_clear_pointer (&return_type, gi_base_info_unref); g_clear_pointer (&constructor, gi_base_info_unref); g_clear_pointer (&object_info, gi_base_info_unref); } static void test_repository_enum_info_c_identifier (RepositoryFixture *fx, const void *unused) { GIBaseInfo *info = NULL; GIValueInfo *value_info = NULL; unsigned n_infos, n_values, ix, jx; const char *c_identifier = NULL; g_test_summary ("Test that every enum member has a C identifier"); n_infos = gi_repository_get_n_infos (fx->repository, "GLib"); for (ix = 0; ix < n_infos; ix++) { info = gi_repository_get_info (fx->repository, "GLib", ix); if (GI_IS_ENUM_INFO (info)) { n_values = gi_enum_info_get_n_values (GI_ENUM_INFO (info)); for (jx = 0; jx < n_values; jx++) { value_info = gi_enum_info_get_value (GI_ENUM_INFO (info), jx); c_identifier = gi_base_info_get_attribute (GI_BASE_INFO (value_info), "c:identifier"); g_assert_nonnull (c_identifier); g_clear_pointer (&value_info, gi_base_info_unref); } } g_clear_pointer (&info, gi_base_info_unref); } } static void test_repository_enum_info_static_methods (RepositoryFixture *fx, const void *unused) { GIEnumInfo *enum_info = NULL; unsigned n_methods, ix; GIFunctionInfo *function_info = NULL; GIFunctionInfoFlags flags; const char *symbol = NULL; g_test_summary ("Test an enum with methods"); enum_info = GI_ENUM_INFO (gi_repository_find_by_name (fx->repository, "GLib", "UnicodeScript")); g_assert_nonnull (enum_info); n_methods = gi_enum_info_get_n_methods (enum_info); g_assert_cmpuint (n_methods, >, 0); for (ix = 0; ix < n_methods; ix++) { function_info = gi_enum_info_get_method (enum_info, ix); g_assert_nonnull (function_info); flags = gi_function_info_get_flags (function_info); g_assert_false (flags & GI_FUNCTION_IS_METHOD); /* must be static */ symbol = gi_function_info_get_symbol (function_info); g_assert_nonnull (symbol); g_assert_true (g_str_has_prefix (symbol, "g_unicode_script_")); g_clear_pointer (&function_info, gi_base_info_unref); } g_clear_pointer (&enum_info, gi_base_info_unref); } static void test_repository_error_quark (RepositoryFixture *fx, const void *unused) { GIEnumInfo *error_info = NULL; g_test_summary ("Test finding an error quark by error domain"); /* Find a simple error domain. */ error_info = gi_repository_find_by_error_domain (fx->repository, G_RESOLVER_ERROR); g_assert_nonnull (error_info); g_assert_true (GI_IS_ENUM_INFO (error_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (error_info)), ==, "ResolverError"); g_clear_pointer (&error_info, gi_base_info_unref); /* Find again to check the caching. */ error_info = gi_repository_find_by_error_domain (fx->repository, G_RESOLVER_ERROR); g_assert_nonnull (error_info); g_assert_true (GI_IS_ENUM_INFO (error_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (error_info)), ==, "ResolverError"); g_clear_pointer (&error_info, gi_base_info_unref); /* Try and find an unknown error domain. */ g_assert_null (gi_repository_find_by_error_domain (fx->repository, GI_REPOSITORY_ERROR)); /* And check caching for unknown error domains. */ g_assert_null (gi_repository_find_by_error_domain (fx->repository, GI_REPOSITORY_ERROR)); /* It would be good to try and find one which will resolve in both Gio and * GioUnix/GioWin32, but neither of the platform-specific GIRs actually define * any error domains at the moment. */ } static void test_repository_flags_info_c_identifier (RepositoryFixture *fx, const void *unused) { GIBaseInfo *info = NULL; GIValueInfo *value_info = NULL; unsigned n_infos, n_values, ix, jx; const char *c_identifier = NULL; g_test_summary ("Test that every flags member has a C identifier"); n_infos = gi_repository_get_n_infos (fx->repository, "GLib"); for (ix = 0; ix < n_infos; ix++) { info = gi_repository_get_info (fx->repository, "GLib", ix); if (GI_IS_FLAGS_INFO (info)) { n_values = gi_enum_info_get_n_values (GI_ENUM_INFO (info)); for (jx = 0; jx < n_values; jx++) { value_info = gi_enum_info_get_value (GI_ENUM_INFO (info), jx); c_identifier = gi_base_info_get_attribute (GI_BASE_INFO (value_info), "c:identifier"); g_assert_nonnull (c_identifier); g_clear_pointer (&value_info, gi_base_info_unref); } } g_clear_pointer (&info, gi_base_info_unref); } } static void test_repository_fundamental_ref_func (RepositoryFixture *fx, const void *unused) { GIObjectInfo *info; g_test_summary ("Test getting the ref func of a fundamental type"); info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "ParamSpec")); g_assert_nonnull (info); g_assert_nonnull (gi_object_info_get_ref_function_pointer (info)); g_clear_pointer (&info, gi_base_info_unref); } static void test_repository_instance_method_ownership_transfer (RepositoryFixture *fx, const void *unused) { GIObjectInfo *class_info = NULL; GIFunctionInfo *func_info = NULL; GITransfer transfer; g_test_summary ("Test two methods of the same object having opposite ownership transfer of the instance parameter"); class_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "Gio", "DBusMethodInvocation")); g_assert_nonnull (class_info); func_info = gi_object_info_find_method (class_info, "get_connection"); g_assert_nonnull (func_info); transfer = gi_callable_info_get_instance_ownership_transfer (GI_CALLABLE_INFO (func_info)); g_assert_cmpint (GI_TRANSFER_NOTHING, ==, transfer); g_clear_pointer (&func_info, gi_base_info_unref); func_info = gi_object_info_find_method (class_info, "return_error_literal"); g_assert_nonnull (func_info); transfer = gi_callable_info_get_instance_ownership_transfer (GI_CALLABLE_INFO (func_info)); g_assert_cmpint (GI_TRANSFER_EVERYTHING, ==, transfer); g_clear_pointer (&func_info, gi_base_info_unref); g_clear_pointer (&class_info, gi_base_info_unref); } static void test_repository_object_gtype_interfaces (RepositoryFixture *fx, const void *unused) { GIInterfaceInfo **interfaces; size_t n_interfaces, ix; const char *name; gboolean found_initable = FALSE, found_async_initable = FALSE; g_test_summary ("Test gi_repository_get_object_gtype_interfaces()"); gi_repository_get_object_gtype_interfaces (fx->repository, G_TYPE_DBUS_CONNECTION, &n_interfaces, &interfaces); g_assert_cmpuint (n_interfaces, ==, 2); for (ix = 0; ix < n_interfaces; ix++) { name = gi_base_info_get_name (GI_BASE_INFO (*(interfaces + ix))); if (strcmp (name, "Initable") == 0) found_initable = TRUE; else if (strcmp (name, "AsyncInitable") == 0) found_async_initable = TRUE; } g_assert_true (found_initable); g_assert_true (found_async_initable); } static void test_repository_signal_info_with_array_length_arg (RepositoryFixture *fx, const void *unused) { GIObjectInfo *gsettings_info = NULL; GISignalInfo *sig_info = NULL; GIArgInfo *arg_info = NULL; GITypeInfo *type_info = NULL; unsigned length_ix; g_test_summary ("Test finding the associated array length argument of an array parameter of a signal"); gsettings_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "Gio", "Settings")); g_assert_nonnull (gsettings_info); sig_info = gi_object_info_find_signal (gsettings_info, "change-event"); g_assert_nonnull (sig_info); g_assert_cmpuint (gi_callable_info_get_n_args (GI_CALLABLE_INFO (sig_info)), ==, 2); /* verify array argument */ arg_info = gi_callable_info_get_arg (GI_CALLABLE_INFO (sig_info), 0); g_assert_nonnull (arg_info); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (arg_info)), ==, "keys"); type_info = gi_arg_info_get_type_info (arg_info); g_assert_nonnull (type_info); g_assert_cmpint (gi_type_info_get_tag (type_info), ==, GI_TYPE_TAG_ARRAY); g_assert_cmpint (gi_type_info_get_array_type (type_info), ==, GI_ARRAY_TYPE_C); g_assert_false (gi_type_info_is_zero_terminated (type_info)); gboolean ok = gi_type_info_get_array_length_index (type_info, &length_ix); g_assert_true (ok); g_assert_cmpuint (length_ix, ==, 1); g_clear_pointer (&arg_info, gi_base_info_unref); g_clear_pointer (&type_info, gi_base_info_unref); /* verify array length argument */ arg_info = gi_callable_info_get_arg (GI_CALLABLE_INFO (sig_info), 1); g_assert_nonnull (arg_info); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (arg_info)), ==, "n_keys"); g_clear_pointer (&arg_info, gi_base_info_unref); g_clear_pointer (&type_info, gi_base_info_unref); g_clear_pointer (&sig_info, gi_base_info_unref); g_clear_pointer (&gsettings_info, gi_base_info_unref); } static void test_repository_type_info_name (RepositoryFixture *fx, const void *unused) { GIInterfaceInfo *interface_info = NULL; GIVFuncInfo *vfunc; GITypeInfo *typeinfo; g_test_summary ("Test that gi_base_info_get_name() returns null for GITypeInfo"); g_test_bug ("https://gitlab.gnome.org/GNOME/gobject-introspection/issues/96"); interface_info = GI_INTERFACE_INFO (gi_repository_find_by_name (fx->repository, "Gio", "File")); g_assert_nonnull (interface_info); vfunc = gi_interface_info_find_vfunc (interface_info, "read_async"); g_assert_nonnull (vfunc); typeinfo = gi_callable_info_get_return_type (GI_CALLABLE_INFO (vfunc)); g_assert_nonnull (typeinfo); g_assert_null (gi_base_info_get_name (GI_BASE_INFO (typeinfo))); g_clear_pointer (&interface_info, gi_base_info_unref); g_clear_pointer (&vfunc, gi_base_info_unref); g_clear_pointer (&typeinfo, gi_base_info_unref); } static void test_repository_vfunc_info_with_no_invoker (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; GIVFuncInfo *vfunc_info = NULL; GIFunctionInfo *invoker_info = NULL; g_test_summary ("Test vfunc with no known invoker on object, such as GObject.dispose"); object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "GObject", "Object")); g_assert_nonnull (object_info); vfunc_info = gi_object_info_find_vfunc (object_info, "dispose"); g_assert_nonnull (vfunc_info); invoker_info = gi_vfunc_info_get_invoker (vfunc_info); g_assert_null (invoker_info); g_clear_pointer (&object_info, gi_base_info_unref); g_clear_pointer (&vfunc_info, gi_base_info_unref); } static void test_repository_vfunc_info_with_invoker_on_interface (RepositoryFixture *fx, const void *unused) { GIInterfaceInfo *interface_info = NULL; GIVFuncInfo *vfunc_info = NULL; GIFunctionInfo *invoker_info = NULL; g_test_summary ("Test vfunc with invoker on interface, such as GFile.read_async"); interface_info = GI_INTERFACE_INFO (gi_repository_find_by_name (fx->repository, "Gio", "File")); g_assert_nonnull (interface_info); vfunc_info = gi_interface_info_find_vfunc (interface_info, "read_async"); g_assert_nonnull (vfunc_info); invoker_info = gi_vfunc_info_get_invoker (vfunc_info); g_assert_nonnull (invoker_info); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (invoker_info)), ==, "read_async"); g_clear_pointer (&interface_info, gi_base_info_unref); g_clear_pointer (&vfunc_info, gi_base_info_unref); g_clear_pointer (&invoker_info, gi_base_info_unref); } static void test_repository_vfunc_info_with_invoker_on_object (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; GIVFuncInfo *vfunc_info = NULL; GIFunctionInfo *invoker_info = NULL; g_test_summary ("Test vfunc with invoker on object, such as GAppLaunchContext.get_display"); object_info = GI_OBJECT_INFO (gi_repository_find_by_name (fx->repository, "Gio", "AppLaunchContext")); g_assert_nonnull (object_info); vfunc_info = gi_object_info_find_vfunc (object_info, "get_display"); g_assert_nonnull (vfunc_info); invoker_info = gi_vfunc_info_get_invoker (vfunc_info); g_assert_nonnull (invoker_info); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (invoker_info)), ==, "get_display"); /* And let's be sure we can find the method directly */ g_clear_pointer (&invoker_info, gi_base_info_unref); invoker_info = gi_object_info_find_method (object_info, "get_display"); g_assert_nonnull (invoker_info); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (invoker_info)), ==, "get_display"); g_clear_pointer (&object_info, gi_base_info_unref); g_clear_pointer (&vfunc_info, gi_base_info_unref); g_clear_pointer (&invoker_info, gi_base_info_unref); } static void test_repository_find_by_gtype (RepositoryFixture *fx, const void *unused) { GIObjectInfo *object_info = NULL; g_test_summary ("Test finding a GType"); object_info = (GIObjectInfo *) gi_repository_find_by_gtype (fx->repository, G_TYPE_OBJECT); g_assert_nonnull (object_info); g_assert_true (GI_IS_OBJECT_INFO (object_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (object_info)), ==, "Object"); g_clear_pointer (&object_info, gi_base_info_unref); /* Find it again; this time it should hit the cache. */ object_info = (GIObjectInfo *) gi_repository_find_by_gtype (fx->repository, G_TYPE_OBJECT); g_assert_nonnull (object_info); g_assert_true (GI_IS_OBJECT_INFO (object_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (object_info)), ==, "Object"); g_clear_pointer (&object_info, gi_base_info_unref); /* Try and find an unknown GType. */ g_assert_null (gi_repository_find_by_gtype (fx->repository, GI_TYPE_BASE_INFO)); /* And check caching for unknown GTypes. */ g_assert_null (gi_repository_find_by_gtype (fx->repository, GI_TYPE_BASE_INFO)); /* Now try and find one which will resolve in both Gio and GioUnix/GioWin32. * The longest-named typelib should be returned. */ { GType platform_specific_type; const char *expected_name, *expected_namespace; #if defined(G_OS_UNIX) && !(__APPLE__) platform_specific_type = G_TYPE_DESKTOP_APP_INFO; expected_name = "DesktopAppInfo"; expected_namespace = "GioUnix"; #elif defined(G_OS_WIN32) platform_specific_type = G_TYPE_WIN32_INPUT_STREAM; expected_name = "InputStream"; expected_namespace = "GioWin32"; #else platform_specific_type = G_TYPE_INVALID; expected_name = NULL; expected_namespace = NULL; #endif if (expected_name != NULL) { object_info = (GIObjectInfo *) gi_repository_find_by_gtype (fx->repository, platform_specific_type); g_assert_nonnull (object_info); g_assert_true (GI_IS_OBJECT_INFO (object_info)); g_assert_cmpstr (gi_base_info_get_name (GI_BASE_INFO (object_info)), ==, expected_name); g_assert_cmpstr (gi_base_info_get_namespace (GI_BASE_INFO (object_info)), ==, expected_namespace); g_clear_pointer (&object_info, gi_base_info_unref); } } } static void test_repository_loaded_namespaces (RepositoryFixture *fx, const void *unused) { char **namespaces; size_t n_namespaces; /* These should be in alphabetical order */ #if defined(G_OS_UNIX) const char *expected_namespaces[] = { "GLib", "GModule", "GObject", "Gio", "GioUnix", NULL }; #elif defined(G_OS_WIN32) const char *expected_namespaces[] = { "GLib", "GModule", "GObject", "Gio", "GioWin32", NULL }; #else const char *expected_namespaces[] = { "GLib", "GModule", "GObject", "Gio", NULL }; #endif g_test_summary ("Test listing loaded namespaces"); namespaces = gi_repository_get_loaded_namespaces (fx->repository, &n_namespaces); g_assert_cmpstrv (namespaces, expected_namespaces); g_assert_cmpuint (n_namespaces, ==, g_strv_length ((char **) expected_namespaces)); g_strfreev (namespaces); /* Test again but without passing `n_namespaces`. */ namespaces = gi_repository_get_loaded_namespaces (fx->repository, NULL); g_assert_cmpstrv (namespaces, expected_namespaces); g_strfreev (namespaces); } int main (int argc, char *argv[]) { repository_init (&argc, &argv); ADD_REPOSITORY_TEST ("/repository/basic", test_repository_basic, &typelib_load_spec_glib); ADD_REPOSITORY_TEST ("/repository/info", test_repository_info, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/dependencies", test_repository_dependencies, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/base-info/clear", test_repository_base_info_clear, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/arg-info", test_repository_arg_info, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/callable-info", test_repository_callable_info, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/callback-info", test_repository_callback_info, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/char-types", test_repository_char_types, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/constructor-return-type", test_repository_constructor_return_type, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/enum-info-c-identifier", test_repository_enum_info_c_identifier, &typelib_load_spec_glib); ADD_REPOSITORY_TEST ("/repository/enum-info-static-methods", test_repository_enum_info_static_methods, &typelib_load_spec_glib); ADD_REPOSITORY_TEST ("/repository/error-quark", test_repository_error_quark, &typelib_load_spec_gio_platform); ADD_REPOSITORY_TEST ("/repository/flags-info-c-identifier", test_repository_flags_info_c_identifier, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/fundamental-ref-func", test_repository_fundamental_ref_func, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/instance-method-ownership-transfer", test_repository_instance_method_ownership_transfer, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/object-gtype-interfaces", test_repository_object_gtype_interfaces, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/signal-info-with-array-length-arg", test_repository_signal_info_with_array_length_arg, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/type-info-name", test_repository_type_info_name, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/vfunc-info-with-no-invoker", test_repository_vfunc_info_with_no_invoker, &typelib_load_spec_gobject); ADD_REPOSITORY_TEST ("/repository/vfunc-info-with-invoker-on-interface", test_repository_vfunc_info_with_invoker_on_interface, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/vfunc-info-with-invoker-on-object", test_repository_vfunc_info_with_invoker_on_object, &typelib_load_spec_gio); ADD_REPOSITORY_TEST ("/repository/find-by-gtype", test_repository_find_by_gtype, &typelib_load_spec_gio_platform); ADD_REPOSITORY_TEST ("/repository/loaded-namespaces", test_repository_loaded_namespaces, &typelib_load_spec_gio_platform); return g_test_run (); }