#include #include #include #include #include #include #include #include #include #include #include #include struct os_count_struct { mrb_int total; mrb_int freed; mrb_int counts[MRB_TT_MAXDEFINE+1]; }; static int os_count_object_type(mrb_state *mrb, struct RBasic *obj, void *data) { struct os_count_struct *obj_count; obj_count = (struct os_count_struct*)data; obj_count->total++; if (mrb_object_dead_p(mrb, obj)) { obj_count->freed++; } else { obj_count->counts[obj->tt]++; } return MRB_EACH_OBJ_OK; } /* * call-seq: * ObjectSpace.count_objects([result_hash]) -> hash * * Counts objects for each type. * * It returns a hash, such as: * { * :TOTAL=>10000, * :FREE=>3011, * :T_OBJECT=>6, * :T_CLASS=>404, * # ... * } * * If the optional argument +result_hash+ is given, * it is overwritten and returned. This is intended to avoid probe effect. * */ static mrb_value os_count_objects(mrb_state *mrb, mrb_value self) { struct os_count_struct obj_count = { 0 }; mrb_int i; mrb_value hash; if (mrb_get_args(mrb, "|H", &hash) == 0) { hash = mrb_hash_new(mrb); } if (!mrb_hash_empty_p(mrb, hash)) { mrb_hash_clear(mrb, hash); } mrb_objspace_each_objects(mrb, os_count_object_type, &obj_count); mrb_hash_set(mrb, hash, mrb_symbol_value(mrb_intern_lit(mrb, "TOTAL")), mrb_fixnum_value(obj_count.total)); mrb_hash_set(mrb, hash, mrb_symbol_value(mrb_intern_lit(mrb, "FREE")), mrb_fixnum_value(obj_count.freed)); for (i = MRB_TT_FALSE; i < MRB_TT_MAXDEFINE; i++) { mrb_value type; switch (i) { #define COUNT_TYPE(t) case (MRB_T ## t): type = mrb_symbol_value(mrb_intern_lit(mrb, #t)); break; COUNT_TYPE(T_FALSE); COUNT_TYPE(T_FREE); COUNT_TYPE(T_TRUE); COUNT_TYPE(T_FIXNUM); COUNT_TYPE(T_SYMBOL); COUNT_TYPE(T_UNDEF); COUNT_TYPE(T_FLOAT); COUNT_TYPE(T_CPTR); COUNT_TYPE(T_OBJECT); COUNT_TYPE(T_CLASS); COUNT_TYPE(T_MODULE); COUNT_TYPE(T_ICLASS); COUNT_TYPE(T_SCLASS); COUNT_TYPE(T_PROC); COUNT_TYPE(T_ARRAY); COUNT_TYPE(T_HASH); COUNT_TYPE(T_STRING); COUNT_TYPE(T_RANGE); COUNT_TYPE(T_EXCEPTION); COUNT_TYPE(T_ENV); COUNT_TYPE(T_DATA); COUNT_TYPE(T_FIBER); #undef COUNT_TYPE default: type = mrb_fixnum_value(i); break; } if (obj_count.counts[i]) mrb_hash_set(mrb, hash, type, mrb_fixnum_value(obj_count.counts[i])); } return hash; } struct os_each_object_data { mrb_value block; struct RClass *target_module; mrb_int count; }; static int os_each_object_cb(mrb_state *mrb, struct RBasic *obj, void *ud) { struct os_each_object_data *d = (struct os_each_object_data*)ud; /* filter dead objects */ if (mrb_object_dead_p(mrb, obj)) { return MRB_EACH_OBJ_OK; } /* filter internal objects */ switch (obj->tt) { case MRB_TT_ENV: case MRB_TT_ICLASS: return MRB_EACH_OBJ_OK; default: break; } /* filter half baked (or internal) objects */ if (!obj->c) return MRB_EACH_OBJ_OK; /* filter class kind if target module defined */ if (d->target_module && !mrb_obj_is_kind_of(mrb, mrb_obj_value(obj), d->target_module)) { return MRB_EACH_OBJ_OK; } mrb_yield(mrb, d->block, mrb_obj_value(obj)); ++d->count; return MRB_EACH_OBJ_OK; } /* * call-seq: * ObjectSpace.each_object([module]) {|obj| ... } -> fixnum * * Calls the block once for each object in this Ruby process. * Returns the number of objects found. * If the optional argument +module+ is given, * calls the block for only those classes or modules * that match (or are a subclass of) +module+. * * If no block is given, ArgumentError is raised. * */ static mrb_value os_each_object(mrb_state *mrb, mrb_value self) { mrb_value cls = mrb_nil_value(); struct os_each_object_data d; mrb_get_args(mrb, "&!|C", &d.block, &cls); d.target_module = mrb_nil_p(cls) ? NULL : mrb_class_ptr(cls); d.count = 0; mrb_objspace_each_objects(mrb, os_each_object_cb, &d); return mrb_fixnum_value(d.count); } static mrb_int os_memsize_of_ivars(mrb_state* mrb, mrb_value obj) { return mrb_obj_iv_tbl_memsize(mrb, obj); } static mrb_int os_memsize_of_irep(mrb_state* state, const struct mrb_irep *irep) { mrb_int size, i; size = (irep->slen * sizeof(mrb_sym)) + (irep->plen * sizeof(mrb_code)) + (irep->ilen * sizeof(mrb_code)); for(i = 0; i < irep->rlen; i++) { size += os_memsize_of_irep(state, irep->reps[i]); } return size; } static mrb_int os_memsize_of_method(mrb_state* mrb, mrb_value method_obj) { mrb_int size; mrb_value proc_value = mrb_obj_iv_get(mrb, mrb_obj_ptr(method_obj), mrb_intern_lit(mrb, "_proc")); struct RProc *proc = mrb_proc_ptr(proc_value); size = sizeof(struct RProc); if (!MRB_PROC_CFUNC_P(proc)) size += os_memsize_of_irep(mrb, proc->body.irep); return size; } static mrb_int os_memsize_of_object(mrb_state* mrb, mrb_value obj) { mrb_int size = 0; switch(obj.tt) { case MRB_TT_STRING: size += mrb_objspace_page_slot_size(); if (!RSTR_EMBED_P(RSTRING(obj)) && !RSTR_SHARED_P(RSTRING(obj))) { size += RSTRING_CAPA(obj); } break; case MRB_TT_CLASS: case MRB_TT_MODULE: case MRB_TT_SCLASS: case MRB_TT_ICLASS: size += mrb_gc_mark_mt_size(mrb, mrb_class_ptr(obj)) * sizeof(mrb_method_t); /* fall through */ case MRB_TT_EXCEPTION: case MRB_TT_OBJECT: { size += mrb_objspace_page_slot_size(); size += os_memsize_of_ivars(mrb, obj); if (mrb_obj_is_kind_of(mrb, obj, mrb_class_get(mrb, "UnboundMethod")) || mrb_obj_is_kind_of(mrb, obj, mrb_class_get(mrb, "Method"))){ size += os_memsize_of_method(mrb, obj); } break; } case MRB_TT_HASH: { size += mrb_objspace_page_slot_size() + mrb_os_memsize_of_hash_table(obj); break; } case MRB_TT_ARRAY: { mrb_int len = RARRAY_LEN(obj); /* Arrays that do not fit within an RArray perform a heap allocation * storing an array of pointers to the original objects*/ size += mrb_objspace_page_slot_size(); if(len > MRB_ARY_EMBED_LEN_MAX) size += sizeof(mrb_value *) * len; break; } case MRB_TT_PROC: { struct RProc* proc = mrb_proc_ptr(obj); size += mrb_objspace_page_slot_size(); size += MRB_ENV_LEN(proc->e.env) * sizeof(mrb_value); if(!MRB_PROC_CFUNC_P(proc)) size += os_memsize_of_irep(mrb, proc->body.irep); break; } case MRB_TT_DATA: size += mrb_objspace_page_slot_size(); break; #ifndef MRB_WITHOUT_FLOAT case MRB_TT_FLOAT: #ifdef MRB_WORD_BOXING size += mrb_objspace_page_slot_size() + sizeof(struct RFloat); #endif break; #endif case MRB_TT_RANGE: #ifndef MRB_RANGE_EMBED size += mrb_objspace_page_slot_size() + sizeof(struct mrb_range_edges); #endif break; case MRB_TT_FIBER: { struct RFiber* f = (struct RFiber *)mrb_ptr(obj); ptrdiff_t stack_size = f->cxt->stend - f->cxt->stbase; ptrdiff_t ci_size = f->cxt->ciend - f->cxt->cibase; size += mrb_objspace_page_slot_size() + sizeof(struct RFiber) + sizeof(struct mrb_context) + sizeof(struct RProc *) * f->cxt->esize + sizeof(uint16_t *) * f->cxt->rsize + sizeof(mrb_value) * stack_size + sizeof(mrb_callinfo) * ci_size; break; } case MRB_TT_ISTRUCT: size += mrb_objspace_page_slot_size(); break; /* zero heap size types. * immediate VM stack values, contained within mrb_state, or on C stack */ case MRB_TT_TRUE: case MRB_TT_FALSE: case MRB_TT_FIXNUM: case MRB_TT_BREAK: case MRB_TT_CPTR: case MRB_TT_SYMBOL: case MRB_TT_FREE: case MRB_TT_UNDEF: case MRB_TT_ENV: /* never used, silences compiler warning * not having a default: clause lets the compiler tell us when there is a new * TT not accounted for */ case MRB_TT_MAXDEFINE: break; } return size; } /* * call-seq: * ObjectSpace.memsize_of(obj, recurse: false) -> Numeric * * Returns the amount of heap memory allocated for object in size_t units. * * The return value depends on the definition of size_t on that platform, * therefore the value is not comparable across platform types. * * Immediate values such as integers, booleans, symbols and unboxed float numbers * return 0. Additionally special objects which are small enough to fit inside an * object pointer, termed embedded objects, will return the size of the object pointer. * Strings and arrays below a compile-time defined size may be embedded. * * Setting recurse: true descends into instance variables, array members, * hash keys and hash values recursively, calculating the child objects and adding to * the final sum. It avoids infinite recursion and over counting objects by * internally tracking discovered object ids. * */ static mrb_value os_memsize_of(mrb_state *mrb, mrb_value self) { mrb_int total; mrb_value obj; mrb_get_args(mrb, "o", &obj); total = os_memsize_of_object(mrb, obj); return mrb_fixnum_value(total); } void mrb_mruby_objectspace_gem_init(mrb_state *mrb) { struct RClass *os = mrb_define_module(mrb, "ObjectSpace"); mrb_define_class_method(mrb, os, "count_objects", os_count_objects, MRB_ARGS_OPT(1)); mrb_define_class_method(mrb, os, "each_object", os_each_object, MRB_ARGS_OPT(1)); mrb_define_class_method(mrb, os, "memsize_of", os_memsize_of, MRB_ARGS_REQ(1)|MRB_ARGS_OPT(1)); } void mrb_mruby_objectspace_gem_final(mrb_state *mrb) { }