gboolean sgen_is_bridge_object (MonoObject *obj) { if ((obj->vtable->gc_bits & SGEN_GC_BIT_BRIDGE_OBJECT) != SGEN_GC_BIT_BRIDGE_OBJECT) return FALSE; return bridge_callbacks.is_bridge_object (obj); }
void sgen_bridge_processing_finish (int generation) { bridge_processor.processing_build_callback_data (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_build_callback_data (generation); if (bridge_processor.num_sccs == 0) { g_assert (bridge_processor.num_xrefs == 0); goto after_callback; } bridge_callbacks.cross_references (bridge_processor.num_sccs, bridge_processor.api_sccs, bridge_processor.num_xrefs, bridge_processor.api_xrefs); if (compare_bridge_processors ()) sgen_compare_bridge_processor_results (&bridge_processor, &compare_to_bridge_processor); null_weak_links_to_dead_objects (&bridge_processor, generation); free_callback_data (&bridge_processor); if (compare_bridge_processors ()) free_callback_data (&compare_to_bridge_processor); after_callback: bridge_processor.processing_after_callback (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_after_callback (generation); bridge_processing_in_progress = FALSE; }
void sgen_bridge_processing_finish (int generation) { bridge_processor.processing_build_callback_data (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_build_callback_data (generation); if (bridge_processor.num_sccs == 0) { g_assert (bridge_processor.num_xrefs == 0); goto after_callback; } bridge_callbacks.cross_references (bridge_processor.num_sccs, bridge_processor.api_sccs, bridge_processor.num_xrefs, bridge_processor.api_xrefs); if (compare_bridge_processors ()) sgen_compare_bridge_processor_results (&bridge_processor, &compare_to_bridge_processor); null_weak_links_to_dead_objects (&bridge_processor, generation); free_callback_data (&bridge_processor); if (compare_bridge_processors ()) free_callback_data (&compare_to_bridge_processor); after_callback: bridge_processor.processing_after_callback (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_after_callback (generation); mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_GC, "GC_BRIDGE: Complete, was running for %.2fms", mono_time_since_last_stw () / 10000.0f); bridge_processing_in_progress = FALSE; }
void sgen_bridge_processing_finish (int generation) { unsigned long step_8; SGEN_TV_DECLARE (atv); SGEN_TV_DECLARE (btv); bridge_processor.processing_build_callback_data (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_build_callback_data (generation); if (bridge_processor.num_sccs == 0) { g_assert (bridge_processor.num_xrefs == 0); goto after_callback; } bridge_callbacks.cross_references (bridge_processor.num_sccs, bridge_processor.api_sccs, bridge_processor.num_xrefs, bridge_processor.api_xrefs); if (compare_bridge_processors ()) sgen_compare_bridge_processor_results (&bridge_processor, &compare_to_bridge_processor); SGEN_TV_GETTIME (btv); null_weak_links_to_dead_objects (&bridge_processor, generation); free_callback_data (&bridge_processor); if (compare_bridge_processors ()) free_callback_data (&compare_to_bridge_processor); SGEN_TV_GETTIME (atv); step_8 = SGEN_TV_ELAPSED (btv, atv); after_callback: bridge_processor.processing_after_callback (generation); if (compare_bridge_processors ()) compare_to_bridge_processor.processing_after_callback (generation); bridge_processing_in_progress = FALSE; }