module GC
The GC module provides an interface to Ruby's mark and sweep garbage collection mechanism.
Some of the underlying methods are also available via the ObjectSpace module.
You may obtain information about the operation of the GC through GC::Profiler.
In Files
- gc.c
Constants
- INTERNAL_CONSTANTS
- OPTS
Public Class Methods
Disables garbage collection, returning true
if garbage
collection was already disabled.
GC.disable #=> false GC.disable #=> true
VALUE rb_gc_disable(void) { rb_objspace_t *objspace = &rb_objspace; int old = dont_gc; gc_rest(objspace); dont_gc = TRUE; return old ? Qtrue : Qfalse; }
Enables garbage collection, returning true
if garbage
collection was previously disabled.
GC.disable #=> false GC.enable #=> true GC.enable #=> false
VALUE rb_gc_enable(void) { rb_objspace_t *objspace = &rb_objspace; int old = dont_gc; dont_gc = FALSE; return old ? Qtrue : Qfalse; }
Returns information about the most recent garbage collection.
static VALUE gc_latest_gc_info(int argc, VALUE *argv, VALUE self) { rb_objspace_t *objspace = &rb_objspace; VALUE arg = Qnil; if (rb_scan_args(argc, argv, "01", &arg) == 1) { if (!SYMBOL_P(arg) && !RB_TYPE_P(arg, T_HASH)) { rb_raise(rb_eTypeError, "non-hash or symbol given"); } } if (arg == Qnil) { arg = rb_hash_new(); } return gc_info_decode(objspace, arg, 0); }
Returns the size of memory allocated by malloc().
Only available if ruby was built with CALC_EXACT_MALLOC_SIZE
.
static VALUE gc_malloc_allocated_size(VALUE self) { return UINT2NUM(rb_objspace.malloc_params.allocated_size); }
Returns the number of malloc() allocations.
Only available if ruby was built with CALC_EXACT_MALLOC_SIZE
.
static VALUE gc_malloc_allocations(VALUE self) { return UINT2NUM(rb_objspace.malloc_params.allocations); }
Initiates garbage collection, unless manually disabled.
This method is defined with keyword arguments that default to true:
def GC.start(full_mark: true, immediate_sweep: true); end
Use full_mark: false to perform a minor GC. Use immediate_sweep: false to defer sweeping (use lazy sweep).
Note: These keyword arguments are implementation and version dependent. They are not guaranteed to be future-compatible, and may be ignored if the underlying implementation does not support them.
static VALUE gc_start_internal(int argc, VALUE *argv, VALUE self) { rb_objspace_t *objspace = &rb_objspace; int full_mark = TRUE, immediate_mark = TRUE, immediate_sweep = TRUE; VALUE opt = Qnil; static ID keyword_ids[3]; rb_scan_args(argc, argv, "0:", &opt); if (!NIL_P(opt)) { VALUE kwvals[3]; if (!keyword_ids[0]) { keyword_ids[0] = rb_intern("full_mark"); keyword_ids[1] = rb_intern("immediate_mark"); keyword_ids[2] = rb_intern("immediate_sweep"); } rb_get_kwargs(opt, keyword_ids, 0, 3, kwvals); if (kwvals[0] != Qundef) full_mark = RTEST(kwvals[0]); if (kwvals[1] != Qundef) immediate_mark = RTEST(kwvals[1]); if (kwvals[2] != Qundef) immediate_sweep = RTEST(kwvals[2]); } garbage_collect(objspace, full_mark, immediate_mark, immediate_sweep, GPR_FLAG_METHOD); if (!finalizing) finalize_deferred(objspace); return Qnil; }
Returns a Hash containing information about the GC.
The hash includes information about internal statistics about GC such as:
{ :count=>0, :heap_allocated_pages=>24, :heap_sorted_length=>24, :heap_allocatable_pages=>0, :heap_available_slots=>9783, :heap_live_slots=>7713, :heap_free_slots=>2070, :heap_final_slots=>0, :heap_marked_slots=>0, :heap_swept_slots=>0, :heap_eden_pages=>24, :heap_tomb_pages=>0, :total_allocated_pages=>24, :total_freed_pages=>0, :total_allocated_objects=>7796, :total_freed_objects=>83, :malloc_increase_bytes=>2389312, :malloc_increase_bytes_limit=>16777216, :minor_gc_count=>0, :major_gc_count=>0, :remembered_wb_unprotected_objects=>0, :remembered_wb_unprotected_objects_limit=>0, :old_objects=>0, :old_objects_limit=>0, :oldmalloc_increase_bytes=>2389760, :oldmalloc_increase_bytes_limit=>16777216 }
The contents of the hash are implementation specific and may be changed in the future.
This method is only expected to work on C Ruby.
static VALUE gc_stat(int argc, VALUE *argv, VALUE self) { VALUE arg = Qnil; if (rb_scan_args(argc, argv, "01", &arg) == 1) { if (SYMBOL_P(arg)) { size_t value = gc_stat_internal(arg); return SIZET2NUM(value); } else if (!RB_TYPE_P(arg, T_HASH)) { rb_raise(rb_eTypeError, "non-hash or symbol given"); } } if (arg == Qnil) { arg = rb_hash_new(); } gc_stat_internal(arg); return arg; }
Returns current status of GC stress mode.
static VALUE gc_stress_get(VALUE self) { rb_objspace_t *objspace = &rb_objspace; return ruby_gc_stress_mode; }
Updates the GC stress mode.
When stress mode is enabled, the GC is invoked at every GC opportunity: all memory and object allocations.
Enabling stress mode will degrade performance, it is only for debugging.
flag can be true, false, or a fixnum bit-ORed following flags.
0x01:: no major GC 0x02:: no immediate sweep 0x04:: full mark after malloc/calloc/realloc
static VALUE gc_stress_set_m(VALUE self, VALUE flag) { rb_objspace_t *objspace = &rb_objspace; rb_secure(2); gc_stress_set(objspace, flag); return flag; }
Verify internal consistency.
This method is implementation specific. Now this method checks generational consistency if RGenGC is supported.
static VALUE gc_verify_internal_consistency(VALUE self) { rb_objspace_t *objspace = &rb_objspace; struct verify_internal_consistency_struct data = {0}; struct each_obj_args eo_args; data.objspace = objspace; gc_report(5, objspace, "gc_verify_internal_consistency: start\n"); /* check relations */ eo_args.callback = verify_internal_consistency_i; eo_args.data = (void *)&data; objspace_each_objects((VALUE)&eo_args); if (data.err_count != 0) { #if RGENGC_CHECK_MODE >= 5 objspace->rgengc.error_count = data.err_count; gc_marks_check(objspace, NULL, NULL); allrefs_dump(objspace); #endif rb_bug("gc_verify_internal_consistency: found internal inconsistency."); } /* check heap_page status */ gc_verify_heap_pages(objspace); /* check counters */ if (!is_lazy_sweeping(heap_eden) && !finalizing) { if (objspace_live_slots(objspace) != data.live_object_count) { fprintf(stderr, "heap_pages_final_slots: %d, objspace->profile.total_freed_objects: %d\n", (int)heap_pages_final_slots, (int)objspace->profile.total_freed_objects); rb_bug("inconsistent live slot nubmer: expect %"PRIuSIZE", but %"PRIuSIZE".", objspace_live_slots(objspace), data.live_object_count); } } #if USE_RGENGC if (!is_marking(objspace)) { if (objspace->rgengc.old_objects != data.old_object_count) { rb_bug("inconsistent old slot nubmer: expect %"PRIuSIZE", but %"PRIuSIZE".", objspace->rgengc.old_objects, data.old_object_count); } if (objspace->rgengc.remembered_wb_unprotected_objects != data.remembered_shady_count) { rb_bug("inconsistent old slot nubmer: expect %"PRIuSIZE", but %"PRIuSIZE".", objspace->rgengc.remembered_wb_unprotected_objects, data.remembered_shady_count); } } #endif if (!finalizing) { size_t list_count = 0; { VALUE z = heap_pages_deferred_final; while (z) { list_count++; z = RZOMBIE(z)->next; } } if (heap_pages_final_slots != data.zombie_object_count || heap_pages_final_slots != list_count) { rb_bug("inconsistent finalizing object count:\n" " expect %"PRIuSIZE"\n" " but %"PRIuSIZE" zombies\n" " heap_pages_deferred_final list has %"PRIuSIZE" items.", heap_pages_final_slots, data.zombie_object_count, list_count); } } gc_report(5, objspace, "gc_verify_internal_consistency: OK\n"); return Qnil; }
Public Instance Methods
Initiates garbage collection, unless manually disabled.
This method is defined with keyword arguments that default to true:
def GC.start(full_mark: true, immediate_sweep: true); end
Use full_mark: false to perform a minor GC. Use immediate_sweep: false to defer sweeping (use lazy sweep).
Note: These keyword arguments are implementation and version dependent. They are not guaranteed to be future-compatible, and may be ignored if the underlying implementation does not support them.
static VALUE gc_start_internal(int argc, VALUE *argv, VALUE self) { rb_objspace_t *objspace = &rb_objspace; int full_mark = TRUE, immediate_mark = TRUE, immediate_sweep = TRUE; VALUE opt = Qnil; static ID keyword_ids[3]; rb_scan_args(argc, argv, "0:", &opt); if (!NIL_P(opt)) { VALUE kwvals[3]; if (!keyword_ids[0]) { keyword_ids[0] = rb_intern("full_mark"); keyword_ids[1] = rb_intern("immediate_mark"); keyword_ids[2] = rb_intern("immediate_sweep"); } rb_get_kwargs(opt, keyword_ids, 0, 3, kwvals); if (kwvals[0] != Qundef) full_mark = RTEST(kwvals[0]); if (kwvals[1] != Qundef) immediate_mark = RTEST(kwvals[1]); if (kwvals[2] != Qundef) immediate_sweep = RTEST(kwvals[2]); } garbage_collect(objspace, full_mark, immediate_mark, immediate_sweep, GPR_FLAG_METHOD); if (!finalizing) finalize_deferred(objspace); return Qnil; }