The ObjectSpace module contains a number of routines that interact with the garbage collection facility and allow you to traverse all living objects with an iterator.
ObjectSpace also provides support for object finalizers, procs that will be called when a specific object is about to be destroyed by garbage collection.
a = "A" b = "B" ObjectSpace.define_finalizer(a, proc {|id| puts "Finalizer one on #{id}" }) ObjectSpace.define_finalizer(b, proc {|id| puts "Finalizer two on #{id}" })
produces:
Finalizer two on 537763470 Finalizer one on 537763480
Converts an object id to a reference to the object. May not be called on an object id passed as a parameter to a finalizer.
s = "I am a string" #=> "I am a string" r = ObjectSpace._id2ref(s.object_id) #=> "I am a string" r == s #=> true
static VALUE id2ref(VALUE obj, VALUE objid) { #if SIZEOF_LONG == SIZEOF_VOIDP #define NUM2PTR(x) NUM2ULONG(x) #elif SIZEOF_LONG_LONG == SIZEOF_VOIDP #define NUM2PTR(x) NUM2ULL(x) #endif rb_objspace_t *objspace = &rb_objspace; VALUE ptr; void *p0; ptr = NUM2PTR(objid); p0 = (void *)ptr; if (ptr == Qtrue) return Qtrue; if (ptr == Qfalse) return Qfalse; if (ptr == Qnil) return Qnil; if (FIXNUM_P(ptr)) return (VALUE)ptr; if (FLONUM_P(ptr)) return (VALUE)ptr; ptr = obj_id_to_ref(objid); if ((ptr % sizeof(RVALUE)) == (4 << 2)) { ID symid = ptr / sizeof(RVALUE); if (rb_id2str(symid) == 0) rb_raise(rb_eRangeError, "%p is not symbol id value", p0); return ID2SYM(symid); } if (!is_id_value(objspace, ptr)) { rb_raise(rb_eRangeError, "%p is not id value", p0); } if (!is_live_object(objspace, ptr)) { rb_raise(rb_eRangeError, "%p is recycled object", p0); } if (RBASIC(ptr)->klass == 0) { rb_raise(rb_eRangeError, "%p is internal object", p0); } return (VALUE)ptr; }
Counts objects for each type.
It returns a hash, such as:
{ :TOTAL=>10000, :FREE=>3011, :T_OBJECT=>6, :T_CLASS=>404, # ... }
The contents of the returned hash are implementation specific. It may be changed in future.
If the optional argument result_hash
is given, it is
overwritten and returned. This is intended to avoid probe effect.
This method is only expected to work on C Ruby.
static VALUE count_objects(int argc, VALUE *argv, VALUE os) { rb_objspace_t *objspace = &rb_objspace; size_t counts[T_MASK+1]; size_t freed = 0; size_t total = 0; size_t i; VALUE hash; if (rb_scan_args(argc, argv, "01", &hash) == 1) { if (!RB_TYPE_P(hash, T_HASH)) rb_raise(rb_eTypeError, "non-hash given"); } for (i = 0; i <= T_MASK; i++) { counts[i] = 0; } for (i = 0; i < heap_allocated_pages; i++) { struct heap_page *page = heap_pages_sorted[i]; RVALUE *p, *pend; p = page->start; pend = p + page->total_slots; for (;p < pend; p++) { if (p->as.basic.flags) { counts[BUILTIN_TYPE(p)]++; } else { freed++; } } total += page->total_slots; } if (hash == Qnil) { hash = rb_hash_new(); } else if (!RHASH_EMPTY_P(hash)) { st_foreach(RHASH_TBL_RAW(hash), set_zero, hash); } rb_hash_aset(hash, ID2SYM(rb_intern("TOTAL")), SIZET2NUM(total)); rb_hash_aset(hash, ID2SYM(rb_intern("FREE")), SIZET2NUM(freed)); for (i = 0; i <= T_MASK; i++) { VALUE type; switch (i) { #define COUNT_TYPE(t) case (t): type = ID2SYM(rb_intern(#t)); break; COUNT_TYPE(T_NONE); COUNT_TYPE(T_OBJECT); COUNT_TYPE(T_CLASS); COUNT_TYPE(T_MODULE); COUNT_TYPE(T_FLOAT); COUNT_TYPE(T_STRING); COUNT_TYPE(T_REGEXP); COUNT_TYPE(T_ARRAY); COUNT_TYPE(T_HASH); COUNT_TYPE(T_STRUCT); COUNT_TYPE(T_BIGNUM); COUNT_TYPE(T_FILE); COUNT_TYPE(T_DATA); COUNT_TYPE(T_MATCH); COUNT_TYPE(T_COMPLEX); COUNT_TYPE(T_RATIONAL); COUNT_TYPE(T_NIL); COUNT_TYPE(T_TRUE); COUNT_TYPE(T_FALSE); COUNT_TYPE(T_SYMBOL); COUNT_TYPE(T_FIXNUM); COUNT_TYPE(T_UNDEF); COUNT_TYPE(T_NODE); COUNT_TYPE(T_ICLASS); COUNT_TYPE(T_ZOMBIE); #undef COUNT_TYPE default: type = INT2NUM(i); break; } if (counts[i]) rb_hash_aset(hash, type, SIZET2NUM(counts[i])); } return hash; }
Adds aProc as a finalizer, to be called after obj was destroyed.
static VALUE define_final(int argc, VALUE *argv, VALUE os) { VALUE obj, block; rb_scan_args(argc, argv, "11", &obj, &block); should_be_finalizable(obj); if (argc == 1) { block = rb_block_proc(); } else { should_be_callable(block); } return define_final0(obj, block); }
Calls the block once for each living, nonimmediate object in this Ruby
process. If module is specified, calls the block for only those
classes or modules that match (or are a subclass of) module.
Returns the number of objects found. Immediate objects
(Fixnum
s, Symbol
s true
,
false
, and nil
) are never returned. In the
example below, each_object
returns both the numbers we defined
and several constants defined in the Math
module.
If no block is given, an enumerator is returned instead.
a = 102.7 b = 95 # Won't be returned c = 12345678987654321 count = ObjectSpace.each_object(Numeric) {|x| p x } puts "Total count: #{count}"
produces:
12345678987654321 102.7 2.71828182845905 3.14159265358979 2.22044604925031e-16 1.7976931348623157e+308 2.2250738585072e-308 Total count: 7
static VALUE os_each_obj(int argc, VALUE *argv, VALUE os) { VALUE of; if (argc == 0) { of = 0; } else { rb_scan_args(argc, argv, "01", &of); } RETURN_ENUMERATOR(os, 1, &of); return os_obj_of(of); }
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; }