#ifdef HAVE_CONFIG_H # include #endif #ifdef HAVE_DLADDR # include #endif #include #include "Eo.h" #include "eo_ptr_indirection.h" #include "eo_private.h" #define EO_CLASS_IDS_FIRST 1 #define EO_OP_IDS_FIRST 1 /* Used inside the class_get functions of classes, see #EO_DEFINE_CLASS */ EAPI Eina_Spinlock _eo_class_creation_lock; int _eo_log_dom = -1; static _Eo_Class **_eo_classes; static Eo_Id _eo_classes_last_id; static int _eo_init_count = 0; static Eo_Op _eo_ops_last_id = 0; static size_t _eo_sz = 0; static size_t _eo_class_sz = 0; static void _eo_condtor_reset(_Eo_Object *obj); static inline void *_eo_data_scope_get(const _Eo_Object *obj, const _Eo_Class *klass); static inline void *_eo_data_xref_internal(const char *file, int line, _Eo_Object *obj, const _Eo_Class *klass, const _Eo_Object *ref_obj); static inline void _eo_data_xunref_internal(_Eo_Object *obj, void *data, const _Eo_Object *ref_obj); static const _Eo_Class *_eo_op_class_get(Eo_Op op); static const char * _eo_op_id_name_get(Eo_Op op); //avi dbg start static unsigned int eo_data_scope_get_counter=0; static clock_t eo_data_scope_get_clocks =0; static unsigned int eo_op_class_counter=0; static clock_t eo_op_class_get_clocks =0; static unsigned int eo_call_resolve_counter=0; static clock_t eo_call_resolve_clocks =0; //avi dbg end /* Start of Dich */ /* How we search and store the implementations in classes. */ #define DICH_CHAIN_LAST_BITS 5 #define DICH_CHAIN_LAST_SIZE (1 << DICH_CHAIN_LAST_BITS) #define DICH_CHAIN1(x) ((x) >> DICH_CHAIN_LAST_BITS) #define DICH_CHAIN_LAST(x) ((x) & ((1 << DICH_CHAIN_LAST_BITS) - 1)) /* We are substracting the mask here instead of "AND"ing because it's a hot path, * it should be a valid class at this point, and this lets the compiler do 1 * substraction at compile time. */ #define _UNMASK_ID(id) ((id) - MASK_CLASS_TAG) #define ID_CLASS_GET(id) ({ \ (_Eo_Class *) (((_UNMASK_ID(id) <= _eo_classes_last_id) && (_UNMASK_ID(id) > 0)) ? \ (_eo_classes[_UNMASK_ID(id) - 1]) : NULL); \ }) static inline void _dich_chain_alloc(Dich_Chain1 *chain1) { if (!chain1->funcs) { chain1->funcs = calloc(DICH_CHAIN_LAST_SIZE, sizeof(*(chain1->funcs))); } } static inline void _dich_copy_all(_Eo_Class *dst, const _Eo_Class *src) { Eo_Op i; const Dich_Chain1 *sc1 = src->chain; Dich_Chain1 *dc1 = dst->chain; for (i = 0 ; i < src->chain_size ; i++, sc1++, dc1++) { if (sc1->funcs) { size_t j; _dich_chain_alloc(dc1); const op_type_funcs *sf = sc1->funcs; op_type_funcs *df = dc1->funcs; for (j = 0 ; j < DICH_CHAIN_LAST_SIZE ; j++, df++, sf++) { if (sf->func) { memcpy(df, sf, sizeof(*df)); } } } } } static inline const op_type_funcs * _dich_func_get(const _Eo_Class *klass, Eo_Op op) { size_t idx1 = DICH_CHAIN1(op); if (EINA_UNLIKELY(idx1 >= klass->chain_size)) return NULL; Dich_Chain1 *chain1 = &klass->chain[idx1]; if (EINA_UNLIKELY(!chain1->funcs)) return NULL; return &chain1->funcs[DICH_CHAIN_LAST(op)]; } static inline Eina_Bool _dich_func_set(_Eo_Class *klass, Eo_Op op, eo_op_func_type func) { op_type_funcs *fsrc; size_t idx1 = DICH_CHAIN1(op); Dich_Chain1 *chain1 = &klass->chain[idx1]; _dich_chain_alloc(chain1); fsrc = &chain1->funcs[DICH_CHAIN_LAST(op)]; if (fsrc->src == klass) { const _Eo_Class *op_kls = _eo_op_class_get(op); const char *op_name = _eo_op_id_name_get(op); ERR("Class '%s': Overriding func %p for op %d (%s:'%s') with %p.", klass->desc->name, fsrc->func, op, op_kls->desc->name, op_name, func); return EINA_FALSE; } fsrc->func = func; fsrc->src = klass; return EINA_TRUE; } static inline void _dich_func_clean_all(_Eo_Class *klass) { size_t i; Dich_Chain1 *chain1 = klass->chain; for (i = 0 ; i < klass->chain_size ; i++, chain1++) { if (chain1->funcs) free(chain1->funcs); } free(klass->chain); klass->chain = NULL; } /* END OF DICH */ static inline Eina_Bool _eo_is_a_class(const Eo *eo_id) { Eo_Id oid; #ifdef HAVE_EO_ID oid = (Eo_Id) eo_id; #else /* fortunately EO_OBJ_POINTER_RETURN* will handle NULL eo_id */ if (!eo_id) return EINA_FALSE; oid = ((Eo_Base *) eo_id)->id; #endif return ((((oid >> REF_TAG_SHIFT) & 0x1) == 0x0) && (oid & MASK_CLASS_TAG)); } static inline _Eo_Class * _eo_class_pointer_get(const Eo_Class *klass_id) { #ifdef HAVE_EO_ID return ID_CLASS_GET((Eo_Id)klass_id); #else return (_Eo_Class *) klass_id; #endif } static const _Eo_Class * _eo_op_class_get(Eo_Op op) { eo_op_class_counter++; /* FIXME: Make it fast. */ _Eo_Class **itr = _eo_classes; int mid, max, min; clock_t start_time=clock(); min = 0; max = _eo_classes_last_id - 1; while (min <= max) { mid = (min + max) / 2; if (itr[mid]->base_id + itr[mid]->desc->ops.count < op) min = mid + 1; else if (itr[mid]->base_id > op) max = mid - 1; else{ eo_op_class_get_clocks+=clock()-start_time; return itr[mid]; } } eo_op_class_get_clocks+=clock()-start_time; return NULL; } static const Eo_Op_Description * _eo_op_id_desc_get(Eo_Op op) { unsigned int i; const _Eo_Class *klass; const Eo_Op_Description *op_descs; if (op == EO_NOOP) return NULL; klass = _eo_op_class_get(op); if (klass) { DBG("klass %p %s", klass, klass->desc->name); op_descs = klass->desc->ops.descs; for (i = 0; i < klass->desc->ops.count; i++) { if (op_descs[i].op == op) return &op_descs[i]; } } return NULL; } static const char * _eo_op_id_name_get(Eo_Op op) { const Eo_Op_Description *desc = _eo_op_id_desc_get(op); return (desc) ? desc->doc : NULL; } static inline const op_type_funcs * _eo_kls_itr_next(const _Eo_Class *orig_kls, const _Eo_Class *cur_klass, Eo_Op op) { const _Eo_Class **kls_itr = NULL; /* Find the kls itr. */ kls_itr = orig_kls->mro; while (*kls_itr && (*kls_itr != cur_klass)) kls_itr++; if (*kls_itr) { kls_itr++; while (*kls_itr) { const op_type_funcs *fsrc = _dich_func_get(*kls_itr, op); if (!fsrc || !fsrc->func) { kls_itr++; continue; } return fsrc; } } return NULL; } /************************************ EO ************************************/ EAPI Eo_Hook_Call eo_hook_call_pre = NULL; EAPI Eo_Hook_Call eo_hook_call_post = NULL; #define EO_INVALID_DATA (void *) -1 // 1024 entries == 16k or 32k (32 or 64bit) for eo call stack. that's 1023 // imbricated/recursive calls it can handle before barfing. i'd say that's ok #define EO_CALL_STACK_DEPTH_MIN 1024 #define EO_CALL_STACK_SHRINK_DROP (EO_CALL_STACK_DEPTH_MIN >> 1) typedef struct _Eo_Stack_Frame { const Eo *eo_id; union { _Eo_Object *obj; const _Eo_Class *kls; } o; const _Eo_Class *cur_klass; void *obj_data; } Eo_Stack_Frame; #define EO_CALL_STACK_SIZE (EO_CALL_STACK_DEPTH_MIN * sizeof(Eo_Stack_Frame)) static Eina_TLS _eo_call_stack_key = 0; typedef struct _Eo_Call_Stack { Eo_Stack_Frame *frames; Eo_Stack_Frame *frame_ptr; Eo_Stack_Frame *last_frame; Eo_Stack_Frame *shrink_frame; } Eo_Call_Stack; #define MEM_PAGE_SIZE 4096 static void * _eo_call_stack_mem_alloc(size_t size) { #ifdef HAVE_MMAP // allocate eo call stack via mmped anon segment if on linux - more // secure and safe. also gives page aligned memory allowing madvise void *ptr; size_t newsize; newsize = MEM_PAGE_SIZE * ((size + MEM_PAGE_SIZE - 1) / MEM_PAGE_SIZE); ptr = mmap(NULL, newsize, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_ANON, -1, 0); if (ptr == MAP_FAILED) { ERR("eo call stack mmap failed."); return NULL; } return ptr; #else //in regular cases just use malloc return calloc(1, size); #endif } #ifdef HAVE_MMAP static void _eo_call_stack_mem_resize(void **ptr EINA_UNUSED, size_t newsize, size_t size) { // FIXME we don't grow if (newsize > size) { CRI("eo call stack overflow, abort."); abort(); } // FIXME resize call stack down return; size_t addr = MEM_PAGE_SIZE * ((newsize + MEM_PAGE_SIZE - 1) / MEM_PAGE_SIZE); madvise(((unsigned char *)*ptr) + addr, size - addr, MADV_DONTNEED); #else static void _eo_call_stack_mem_resize(void **ptr, size_t newsize, size_t size EINA_UNUSED) { *ptr = realloc(*ptr, newsize); if (!*ptr) { CRI("eo call stack resize failed, abort."); abort(); } #endif } #ifdef HAVE_MMAP static void _eo_call_stack_mem_free(void *ptr, size_t size) { // free mmaped memory munmap(ptr, size); #else static void _eo_call_stack_mem_free(void *ptr, size_t size EINA_UNUSED) { // free regular memory free(ptr); #endif } static Eo_Call_Stack * _eo_call_stack_create() { Eo_Call_Stack *stack; stack = calloc(1, sizeof(Eo_Call_Stack)); if (!stack) return NULL; stack->frames = _eo_call_stack_mem_alloc(EO_CALL_STACK_SIZE); if (!stack->frames) { free(stack); return NULL; } // first frame is never used stack->frame_ptr = stack->frames; stack->last_frame = &stack->frames[EO_CALL_STACK_DEPTH_MIN - 1]; stack->shrink_frame = stack->frames; return stack; } static void _eo_call_stack_free(void *ptr) { Eo_Call_Stack *stack = (Eo_Call_Stack *) ptr; if (!stack) return; if (stack->frames) _eo_call_stack_mem_free(stack->frames, EO_CALL_STACK_SIZE); free(stack); } static inline Eo_Call_Stack * _eo_call_stack_get(Eina_Bool is_main_loop) { static Eo_Call_Stack *main_loop_stack = NULL; Eo_Call_Stack *stack = is_main_loop ? main_loop_stack : eina_tls_get(_eo_call_stack_key); if (stack) return stack; stack = _eo_call_stack_create(); if (!stack) { EINA_LOG_ERR("Could not alloc eo call stack."); return NULL; } if (is_main_loop) { main_loop_stack = stack; } else if (!eina_tls_set(_eo_call_stack_key, stack)) { EINA_LOG_ERR("Could not set eo call stack in TLS key."); _eo_call_stack_free(stack); return NULL; } return stack; } static inline void _eo_call_stack_resize(Eo_Call_Stack *stack, Eina_Bool grow) { size_t sz, next_sz; int frame_offset; sz = stack->last_frame - stack->frames + 1; if (grow) next_sz = sz * 2; else next_sz = sz / 2; frame_offset = stack->frame_ptr - stack->frames; DBG("resize from %lu to %lu", (long unsigned int)sz, (long unsigned int)next_sz); _eo_call_stack_mem_resize((void **)&(stack->frames), next_sz * sizeof(Eo_Stack_Frame), sz * sizeof(Eo_Stack_Frame)); if (!stack->frames) { CRI("unable to resize call stack, abort."); abort(); } stack->frame_ptr = &stack->frames[frame_offset]; stack->last_frame = &stack->frames[next_sz - 1]; if (next_sz == EO_CALL_STACK_DEPTH_MIN) frame_offset = 0; else { if (grow) frame_offset = sz - EO_CALL_STACK_SHRINK_DROP; else frame_offset = (next_sz / 2) - EO_CALL_STACK_SHRINK_DROP; } stack->shrink_frame = &stack->frames[frame_offset]; } static inline Eina_Bool _eo_do_internal(const Eo *eo_id, const Eo_Class *cur_klass_id, Eina_Bool is_super, Eo_Stack_Frame *fptr, Eo_Stack_Frame *pfptr) { Eina_Bool is_klass = _eo_is_a_class(eo_id); /* If we are already in the same object context, we inherit info from it. */ if (pfptr) { memcpy(fptr, pfptr, sizeof(Eo_Stack_Frame)); if (!is_klass) _eo_ref(fptr->o.obj); } else { fptr->eo_id = eo_id; fptr->obj_data = EO_INVALID_DATA; if (is_klass) { EO_CLASS_POINTER_RETURN_VAL(eo_id, _klass, EINA_FALSE); fptr->o.kls = _klass; } else { EO_OBJ_POINTER_RETURN_VAL(eo_id, _obj, EINA_FALSE); fptr->o.obj = _obj; _eo_ref(_obj); } } if (is_super) { EO_CLASS_POINTER_RETURN_VAL(cur_klass_id, cur_klass, EINA_FALSE); if (fptr->cur_klass == cur_klass) fptr->obj_data = EO_INVALID_DATA; fptr->cur_klass = cur_klass; } else { fptr->cur_klass = NULL; } return EINA_TRUE; } EAPI Eina_Bool _eo_do_start(const Eo *eo_id, const Eo_Class *cur_klass_id, Eina_Bool is_super, const char *file EINA_UNUSED, const char *func EINA_UNUSED, int line EINA_UNUSED) { Eina_Bool is_main_loop = eina_main_loop_is(); Eina_Bool ret = EINA_TRUE; Eo_Stack_Frame *fptr, *pfptr; Eo_Call_Stack *stack = _eo_call_stack_get(is_main_loop); if (stack->frame_ptr == stack->last_frame) _eo_call_stack_resize(stack, EINA_TRUE); fptr = stack->frame_ptr; pfptr = ((eo_id) && (fptr->eo_id == eo_id) ? fptr : NULL); fptr++; if (!_eo_do_internal(eo_id, cur_klass_id, is_super, fptr, pfptr)) { fptr->o.obj = NULL; fptr->cur_klass = NULL; ret = EINA_FALSE; } stack->frame_ptr++; return ret; } EAPI void _eo_do_end(void) { Eo_Stack_Frame *fptr; Eo_Call_Stack *stack = _eo_call_stack_get(eina_main_loop_is()); // Is it possible to extract information from the scope ? fptr = stack->frame_ptr; if (!_eo_is_a_class(fptr->eo_id) && fptr->o.obj) _eo_unref(fptr->o.obj); fptr->obj_data = EO_INVALID_DATA; if (fptr == stack->frames) { CRI("eo call stack underflow, abort."); abort(); } stack->frame_ptr--; if (fptr == stack->shrink_frame) _eo_call_stack_resize(stack, EINA_FALSE); } EAPI Eina_Bool _eo_call_resolve(const char *func_name, const Eo_Op op, Eo_Op_Call_Data *call, Eina_Bool is_main_loop, const char *file, int line) { Eo_Stack_Frame *fptr; const _Eo_Class *klass; const op_type_funcs *func; Eina_Bool is_obj; eo_call_resolve_counter++; clock_t start_time=clock(); if (op == EO_NOOP) return EINA_FALSE; fptr = _eo_call_stack_get(is_main_loop)->frame_ptr; if (EINA_UNLIKELY(!fptr->o.obj)) return EINA_FALSE; is_obj = !_eo_is_a_class(fptr->eo_id); klass = (is_obj) ? fptr->o.obj->klass : fptr->o.kls; /* If we have a current class, we need to itr to the next. */ if (fptr->cur_klass) { func = _eo_kls_itr_next(klass, fptr->cur_klass, op); if (!func) goto end; klass = func->src; } else { func = _dich_func_get(klass, op); if (!func) goto end; } if (EINA_LIKELY(func->func && func->src)) { call->func = func->func; call->klass = _eo_class_id_get(klass); if (is_obj) { call->obj = (Eo *)fptr->eo_id; if (func->src == fptr->o.obj->klass) { if (fptr->obj_data == EO_INVALID_DATA) fptr->obj_data = _eo_data_scope_get(fptr->o.obj, func->src); call->data = fptr->obj_data; } else call->data = _eo_data_scope_get(fptr->o.obj, func->src); } else { call->obj = call->klass; call->data = NULL; } eo_call_resolve_clocks+=clock()-start_time; return EINA_TRUE; } if (func->src != NULL) { ERR("in %s:%d: you called a pure virtual func '%s' (%d) of class '%s'.", file, line, func_name, op, klass->desc->name); return EINA_FALSE; } end: /* Try composite objects */ if (is_obj) { Eina_List *itr; Eo *emb_obj_id; EINA_LIST_FOREACH(((_Eo_Object *) fptr->o.obj)->composite_objects, itr, emb_obj_id) { _Eo_Object *emb_obj = _eo_obj_pointer_get((Eo_Id)emb_obj_id); if (!emb_obj) continue; func = _dich_func_get(emb_obj->klass, op); if (func == NULL) continue; if (EINA_LIKELY(func->func && func->src)) { call->obj = _eo_id_get(emb_obj); call->klass = _eo_class_id_get(emb_obj->klass); call->func = func->func; call->data = _eo_data_scope_get(emb_obj, func->src); eo_call_resolve_clocks+=clock()-start_time; return EINA_TRUE; } } } { const _Eo_Class *main_klass; main_klass = (is_obj) ? fptr->o.obj->klass : fptr->o.kls; /* If it's a do_super call. */ if (fptr->cur_klass) { ERR("in %s:%d: func '%s' (%d) could not be resolved for class '%s' for super of '%s'.", file, line, func_name, op, main_klass->desc->name, fptr->cur_klass->desc->name); } else { /* we should not be able to take this branch */ ERR("in %s:%d: func '%s' (%d) could not be resolved for class '%s'.", file, line, func_name, op, main_klass->desc->name); } } eo_call_resolve_clocks+=clock()-start_time; return EINA_FALSE; } static inline const Eo_Op_Description * _eo_api_desc_get(const void *api_func, const _Eo_Class *klass, const _Eo_Class **extns, const char *api_name) { int imin, imax, imid; const _Eo_Class *cur_klass; const _Eo_Class **kls_itr = NULL; const Eo_Op_Description *op_desc; const Eo_Op_Description *op_descs; if (klass) { for (kls_itr = klass->mro ; *kls_itr ; kls_itr++) { cur_klass = *kls_itr; imin = 0; imax = cur_klass->desc->ops.count - 1; op_descs = cur_klass->desc->ops.descs; while (imax >= imin) { imid = (imax + imin) / 2; op_desc = op_descs + imid; if (op_desc->api_func > api_func) imin = imid + 1; else if (op_desc->api_func < api_func) imax = imid - 1; else return op_desc; } #ifdef _WIN32 /* On Windows, DLL API's will be exported using the dllexport flag. * When used by another library or executable, they will be declared * using the dllimport flag. What happens really is that two symbols are * created, at two different addresses. So it's impossible to match * them. We fallback to plain string comparison based on the * function name itself. Slow, but this should rarely happen. */ for (unsigned int i = 0; i < cur_klass->desc->ops.count; i++) if (api_name && !strcmp(api_name, op_descs[i].api_name)) { if (op_descs[i].api_func == NULL || op_descs[i].api_func == ((void (*)())-1)) break; return &op_descs[i]; } #endif } } if (extns) { for (kls_itr = extns ; *kls_itr ; kls_itr++) { cur_klass = *kls_itr; op_desc = _eo_api_desc_get(api_func, cur_klass, NULL, api_name); if (op_desc) return op_desc; } } return NULL; } EAPI Eo_Op _eo_api_op_id_get(const void *api_func, Eina_Bool is_main_loop, const char *file, int line) { const Eo_Op_Description *desc; const _Eo_Class *klass; Eo_Call_Stack *stack = _eo_call_stack_get(is_main_loop); Eina_Bool class_ref = _eo_is_a_class(stack->frame_ptr->eo_id); if (EINA_UNLIKELY(!stack->frame_ptr->o.obj)) return EO_NOOP; if (class_ref) klass = stack->frame_ptr->o.kls; else klass = stack->frame_ptr->o.obj->klass; // Win32 compatibility: api_name is NULL because we're assuming the // function pointer is correct (it was referred to using the same // dllimport vs. dllexport flags). desc = _eo_api_desc_get(api_func, klass, klass->extensions, NULL); if (desc == NULL) { const char *fct_name = "unknown"; #ifdef HAVE_DLADDR Dl_info info; if (dladdr(api_func, &info) != 0) fct_name = info.dli_sname; #endif ERR("in %s:%d: unable to resolve %s api func '%s' %p in class '%s'.", file, line, (class_ref ? "class" : "regular"), fct_name, api_func, klass->desc->name); return EO_NOOP; } return desc->op; } static int eo_api_funcs_cmp(const void *p1, const void *p2) { const Eo_Op_Description *op1, *op2; op1 = (Eo_Op_Description *) p1; op2 = (Eo_Op_Description *) p2; if (op1->api_func > op2->api_func) return -1; else if (op1->api_func < op2->api_func) return 1; else return 0; } static Eina_Bool _eo_class_funcs_set(_Eo_Class *klass) { int op_id; const void *last_api_func; const Eo_Op_Description *api_desc; Eo_Op_Description *op_desc; Eo_Op_Description *op_descs; op_id = klass->base_id; op_descs = klass->desc->ops.descs; DBG("Set functions for class '%s':%p", klass->desc->name, klass); if (!op_descs) return EINA_TRUE; qsort((void*)op_descs, klass->desc->ops.count, sizeof(Eo_Op_Description), eo_api_funcs_cmp); last_api_func = NULL; for (op_desc = op_descs; op_desc->op_type != EO_OP_TYPE_INVALID; op_desc++) { if(op_desc->api_func == NULL) { ERR("Class '%s': NULL API not allowed (%d NULL->%p '%s').", klass->desc->name, op_desc->op, op_desc->func, op_desc->doc); return EINA_FALSE; } if (op_desc->op == EO_NOOP) { if (op_desc->api_func == last_api_func) { ERR("Class '%s': API previously defined (%d %p->%p '%s').", klass->desc->name, op_desc->op, op_desc->api_func, op_desc->func, op_desc->doc); return EINA_FALSE; } op_desc->op = op_id; op_id++; } else if (op_desc->op == EO_OP_OVERRIDE) { #ifdef _WIN32 api_desc = _eo_api_desc_get(op_desc->api_func, klass->parent, klass->extensions, op_desc->api_name); #else api_desc = _eo_api_desc_get(op_desc->api_func, klass->parent, klass->extensions, NULL); #endif if (api_desc == NULL) { ERR("Class '%s': Can't find api func description in class hierarchy (%p->%p) (%s).", klass->desc->name, op_desc->api_func, op_desc->func, op_desc->doc); return EINA_FALSE; } op_desc->op = api_desc->op; op_desc->doc = api_desc->doc; } DBG(" %4d %p->%p '%s'", op_desc->op, op_desc->api_func, op_desc->func, op_desc->doc); if (!_dich_func_set(klass, op_desc->op, op_desc->func)) return EINA_FALSE; last_api_func = op_desc->api_func; } return EINA_TRUE; } EAPI Eo * _eo_add_internal_start(const char *file, int line, const Eo_Class *klass_id, Eo *parent_id, Eina_Bool ref) { _Eo_Object *obj; EO_CLASS_POINTER_RETURN_VAL(klass_id, klass, NULL); if (parent_id) { EO_OBJ_POINTER_RETURN_VAL(parent_id, parent, NULL); } if (EINA_UNLIKELY(klass->desc->type != EO_CLASS_TYPE_REGULAR)) { ERR("in %s:%d: Class '%s' is not instantiate-able. Aborting.", file, line, klass->desc->name); return NULL; } eina_spinlock_take(&klass->objects.trash_lock); obj = eina_trash_pop(&klass->objects.trash); if (obj) { memset(obj, 0, klass->obj_size); klass->objects.trash_count--; } else { obj = calloc(1, klass->obj_size); } eina_spinlock_release(&klass->objects.trash_lock); obj->refcount++; obj->klass = klass; #ifndef HAVE_EO_ID EINA_MAGIC_SET((Eo_Base *) obj, EO_EINA_MAGIC); #endif obj->header.id = _eo_id_allocate(obj); Eo *eo_id = _eo_id_get(obj); _eo_condtor_reset(obj); _eo_ref(obj); eo_do(eo_id, eo_parent_set(parent_id)); /* If there's a parent. Unref. Eo_add should return an object with either a * parent ref, or with the lack of, just a ref. */ { Eo *parent_tmp; if (!ref && eo_do_ret(eo_id, parent_tmp, eo_parent_get())) { _eo_unref(obj); } } return eo_id; } Eo * _eo_add_internal_end(Eo *eo_id) { Eo_Stack_Frame *fptr; Eo_Call_Stack *stack = _eo_call_stack_get(eina_main_loop_is()); fptr = stack->frame_ptr; if ((fptr == NULL) || (fptr->eo_id != eo_id)) { ERR("Something very wrong happend to the call stack."); return NULL; } if (EINA_UNLIKELY(!fptr->o.obj)) { ERR("Corrupt call stuck, shouldn't happen, please report!"); return NULL; } if (!fptr->o.obj->condtor_done || fptr->o.obj->do_error) { const _Eo_Class *klass = (fptr->cur_klass) ? fptr->cur_klass : fptr->o.obj->klass; ERR("Object of class '%s' - Not all of the object constructors have been executed.", klass->desc->name); /* Unref twice, once for the ref in _eo_add_internal_start, and once for the basic object ref. */ _eo_unref(fptr->o.obj); _eo_unref(fptr->o.obj); return NULL; } fptr->o.obj->finalized = EINA_TRUE; _eo_unref(fptr->o.obj); return (Eo *)eo_id; } EAPI Eo * _eo_add_end(void) { Eo *ret = eo_finalize(); _eo_do_end(); return ret; } /*****************************************************************************/ #define _EO_OP_ERR_NO_OP_PRINT(file, line, op, klass) \ do \ { \ const _Eo_Class *op_klass = _eo_op_class_get(op); \ const char *_dom_name = (op_klass) ? op_klass->desc->name : NULL; \ ERR("in %s:%d: Can't execute function %s:%s (op 0x%x) for class '%s'. Aborting.", \ file, line, _dom_name, _eo_op_id_name_get(op), op, \ (klass) ? klass->desc->name : NULL); \ } \ while (0) EAPI const Eo_Class * eo_class_get(const Eo *eo_id) { if (_eo_is_a_class(eo_id)) { EO_CLASS_POINTER_RETURN_VAL(eo_id, _klass, NULL); return EO_ABSTRACT_CLASS_CLASS; } EO_OBJ_POINTER_RETURN_VAL(eo_id, obj, NULL); if (obj->klass) return _eo_class_id_get(obj->klass); return NULL; } EAPI const char * eo_class_name_get(const Eo_Class *eo_id) { const _Eo_Class *klass; if (_eo_is_a_class(eo_id)) { EO_CLASS_POINTER_RETURN_VAL(eo_id, _klass, NULL); klass = _klass; } else { EO_OBJ_POINTER_RETURN_VAL(eo_id, obj, NULL); klass = obj->klass; } return klass->desc->name; } static void _eo_class_base_op_init(_Eo_Class *klass) { const Eo_Class_Description *desc = klass->desc; klass->base_id = _eo_ops_last_id; _eo_ops_last_id += desc->ops.count + 1; klass->chain_size = DICH_CHAIN1(_eo_ops_last_id) + 1; klass->chain = calloc(klass->chain_size, sizeof(*klass->chain)); } #ifdef EO_DEBUG static Eina_Bool _eo_class_mro_has(const _Eo_Class *klass, const _Eo_Class *find) { const _Eo_Class **itr; for (itr = klass->mro ; *itr ; itr++) { if (*itr == find) { return EINA_TRUE; } } return EINA_FALSE; } #endif static Eina_List * _eo_class_list_remove_duplicates(Eina_List* list) { Eina_List *itr1, *itr2, *itr2n; itr1 = eina_list_last(list); while (itr1) { itr2 = eina_list_prev(itr1); while (itr2) { itr2n = eina_list_prev(itr2); if (eina_list_data_get(itr1) == eina_list_data_get(itr2)) { list = eina_list_remove_list(list, itr2); } itr2 = itr2n; } itr1 = eina_list_prev(itr1); } return list; } static Eina_List * _eo_class_mro_add(Eina_List *mro, const _Eo_Class *klass) { if (!klass) return mro; mro = eina_list_append(mro, klass); /* Recursively add MIXINS extensions. */ { const _Eo_Class **extn_itr; for (extn_itr = klass->extensions ; *extn_itr ; extn_itr++) { const _Eo_Class *extn = *extn_itr; if (extn->desc->type == EO_CLASS_TYPE_MIXIN) mro = _eo_class_mro_add(mro, extn); } } mro = _eo_class_mro_add(mro, klass->parent); return mro; } static Eina_List * _eo_class_mro_init(const Eo_Class_Description *desc, const _Eo_Class *parent, Eina_List *extensions) { Eina_List *mro = NULL; Eina_List *extn_itr = NULL; Eina_List *extn_pos = NULL; const _Eo_Class *extn = NULL; /* Add MIXINS extensions. */ EINA_LIST_FOREACH(extensions, extn_itr, extn) { if (extn->desc->type != EO_CLASS_TYPE_MIXIN) continue; mro = _eo_class_mro_add(mro, extn); extn_pos = eina_list_append(extn_pos, eina_list_last(mro)); } /* Check if we can create a consistent mro */ { Eina_List *itr = extn_pos; EINA_LIST_FOREACH(extensions, extn_itr, extn) { if (extn->desc->type != EO_CLASS_TYPE_MIXIN) continue; /* Get the first one after the extension. */ Eina_List *extn_list = eina_list_next(eina_list_data_get(itr)); /* If we found the extension again. */ if (eina_list_data_find_list(extn_list, extn)) { eina_list_free(mro); eina_list_free(extn_pos); ERR("Cannot create a consistent method resolution order for class '%s' because of '%s'.", desc->name, extn->desc->name); return NULL; } itr = eina_list_next(itr); } } eina_list_free(extn_pos); mro = _eo_class_mro_add(mro, parent); mro = _eo_class_list_remove_duplicates(mro); /* Will be replaced with the actual class pointer */ mro = eina_list_prepend(mro, NULL); return mro; } static void _eo_class_constructor(_Eo_Class *klass) { if (klass->constructed) return; klass->constructed = EINA_TRUE; if (klass->desc->class_constructor) klass->desc->class_constructor(_eo_class_id_get(klass)); } static void eo_class_free(_Eo_Class *klass) { void *data; if (klass->constructed) { if (klass->desc->class_destructor) klass->desc->class_destructor(_eo_class_id_get(klass)); _dich_func_clean_all(klass); } EINA_TRASH_CLEAN(&klass->objects.trash, data) free(data); EINA_TRASH_CLEAN(&klass->iterators.trash, data) free(data); eina_spinlock_free(&klass->objects.trash_lock); eina_spinlock_free(&klass->iterators.trash_lock); free(klass); } /* Not really called, just used for the ptr... */ static void _eo_class_isa_func(Eo *eo_id EINA_UNUSED, void *class_data EINA_UNUSED, va_list *list EINA_UNUSED) { /* Do nonthing. */ } EAPI const Eo_Class * eo_class_new(const Eo_Class_Description *desc, const Eo_Class *parent_id, ...) { _Eo_Class *klass; va_list p_list; size_t extn_sz, mro_sz, mixins_sz; Eina_List *extn_list, *mro, *mixins; EINA_SAFETY_ON_NULL_RETURN_VAL(desc, NULL); EINA_SAFETY_ON_NULL_RETURN_VAL(desc->name, NULL); _Eo_Class *parent = _eo_class_pointer_get(parent_id); #ifndef HAVE_EO_ID if (parent && !EINA_MAGIC_CHECK((Eo_Base *) parent, EO_CLASS_EINA_MAGIC)) { EINA_MAGIC_FAIL((Eo_Base *) parent, EO_CLASS_EINA_MAGIC); return NULL; } #endif /* Check restrictions on Interface types. */ if (desc->type == EO_CLASS_TYPE_INTERFACE) { EINA_SAFETY_ON_FALSE_RETURN_VAL(!desc->data_size, NULL); } /* Check parent */ if (parent) { /* Verify the inheritance is allowed. */ switch (desc->type) { case EO_CLASS_TYPE_REGULAR: case EO_CLASS_TYPE_REGULAR_NO_INSTANT: if ((parent->desc->type != EO_CLASS_TYPE_REGULAR) && (parent->desc->type != EO_CLASS_TYPE_REGULAR_NO_INSTANT)) { ERR("Regular classes ('%s') aren't allowed to inherit from non-regular classes ('%s').", desc->name, parent->desc->name); return NULL; } break; case EO_CLASS_TYPE_INTERFACE: case EO_CLASS_TYPE_MIXIN: if ((parent->desc->type != EO_CLASS_TYPE_INTERFACE) && (parent->desc->type != EO_CLASS_TYPE_MIXIN)) { ERR("Non-regular classes ('%s') aren't allowed to inherit from regular classes ('%s').", desc->name, parent->desc->name); return NULL; } break; } } /* Build class extensions list */ { DBG("Started building extensions list for class '%s'", desc->name); extn_list = NULL; const _Eo_Class *extn = NULL; const Eo_Id *extn_id = NULL; va_start(p_list, parent_id); extn_id = va_arg(p_list, Eo_Id *); while (extn_id) { extn = _eo_class_pointer_get((Eo_Class *)extn_id); switch (extn->desc->type) { case EO_CLASS_TYPE_REGULAR_NO_INSTANT: case EO_CLASS_TYPE_REGULAR: case EO_CLASS_TYPE_INTERFACE: case EO_CLASS_TYPE_MIXIN: extn_list = eina_list_append(extn_list, extn); break; } extn_id = va_arg(p_list, Eo_Id *); } va_end(p_list); extn_list = _eo_class_list_remove_duplicates(extn_list); extn_sz = sizeof(_Eo_Class *) * (eina_list_count(extn_list) + 1); DBG("Finished building extensions list for class '%s'", desc->name); } /* Prepare mro list */ { DBG("Started building MRO list for class '%s'", desc->name); mro = _eo_class_mro_init(desc, parent, extn_list); if (!mro) { eina_list_free(extn_list); return NULL; } mro_sz = sizeof(_Eo_Class *) * (eina_list_count(mro) + 1); DBG("Finished building MRO list for class '%s'", desc->name); } /* Prepare mixins list */ { Eina_List *itr; const _Eo_Class *kls_itr; DBG("Started building Mixins list for class '%s'", desc->name); mixins = NULL; EINA_LIST_FOREACH(mro, itr, kls_itr) { if ((kls_itr) && (kls_itr->desc->type == EO_CLASS_TYPE_MIXIN) && (kls_itr->desc->data_size > 0)) mixins = eina_list_append(mixins, kls_itr); } mixins_sz = sizeof(Eo_Extension_Data_Offset) * (eina_list_count(mixins) + 1); if ((desc->type == EO_CLASS_TYPE_MIXIN) && (desc->data_size > 0)) mixins_sz += sizeof(Eo_Extension_Data_Offset); DBG("Finished building Mixins list for class '%s'", desc->name); } klass = calloc(1, _eo_class_sz + extn_sz + mro_sz + mixins_sz); #ifndef HAVE_EO_ID EINA_MAGIC_SET((Eo_Base *) klass, EO_CLASS_EINA_MAGIC); #endif eina_spinlock_new(&klass->objects.trash_lock); eina_spinlock_new(&klass->iterators.trash_lock); klass->parent = parent; klass->desc = desc; klass->extensions = (const _Eo_Class **) ((char *) klass + _eo_class_sz); klass->mro = (const _Eo_Class **) ((char *) klass->extensions + extn_sz); klass->extn_data_off = (Eo_Extension_Data_Offset *) ((char *) klass->mro + mro_sz); if (klass->parent) { /* FIXME: Make sure this alignment is enough. */ klass->data_offset = klass->parent->data_offset + EO_ALIGN_SIZE(klass->parent->desc->data_size); } mro = eina_list_remove(mro, NULL); mro = eina_list_prepend(mro, klass); if ((desc->type == EO_CLASS_TYPE_MIXIN) && (desc->data_size > 0)) mixins = eina_list_prepend(mixins, klass); /* Copy the extensions and free the list */ { const _Eo_Class *extn = NULL; const _Eo_Class **extn_itr = klass->extensions; EINA_LIST_FREE(extn_list, extn) { *(extn_itr++) = extn; DBG("Added '%s' extension", extn->desc->name); } *(extn_itr) = NULL; } /* Copy the mro and free the list. */ { const _Eo_Class *kls_itr = NULL; const _Eo_Class **mro_itr = klass->mro; EINA_LIST_FREE(mro, kls_itr) { *(mro_itr++) = kls_itr; DBG("Added '%s' to MRO", kls_itr->desc->name); } *(mro_itr) = NULL; } size_t extn_data_off = klass->data_offset; if (klass->desc->type != EO_CLASS_TYPE_MIXIN) extn_data_off += EO_ALIGN_SIZE(klass->desc->data_size); /* Feed the mixins data offsets and free the mixins list. */ { const _Eo_Class *kls_itr = NULL; Eo_Extension_Data_Offset *extn_data_itr = klass->extn_data_off; EINA_LIST_FREE(mixins, kls_itr) { extn_data_itr->klass = kls_itr; extn_data_itr->offset = extn_data_off; extn_data_off += EO_ALIGN_SIZE(extn_data_itr->klass->desc->data_size); extn_data_itr++; DBG("Added '%s' to Data Offset info", kls_itr->desc->name); } extn_data_itr->klass = 0; extn_data_itr->offset = 0; } klass->obj_size = _eo_sz + extn_data_off; if (getenv("EO_DEBUG")) { fprintf(stderr, "Eo class '%s' will take %u bytes per object.\n", desc->name, klass->obj_size); } _eo_class_base_op_init(klass); /* Flatten the function array */ { const _Eo_Class **mro_itr = klass->mro; for ( ; *mro_itr ; mro_itr++) ; /* Skip ourselves. */ for ( mro_itr-- ; mro_itr > klass->mro ; mro_itr--) { _dich_copy_all(klass, *mro_itr); } } /* Mark which classes we implement */ { const _Eo_Class **extn_itr; for (extn_itr = klass->extensions ; *extn_itr ; extn_itr++) { const _Eo_Class *extn = *extn_itr; /* Set it in the dich. */ _dich_func_set(klass, extn->base_id + extn->desc->ops.count, _eo_class_isa_func); } _dich_func_set(klass, klass->base_id + klass->desc->ops.count, _eo_class_isa_func); if (klass->parent) { _dich_func_set(klass, klass->parent->base_id + klass->parent->desc->ops.count, _eo_class_isa_func); } } if (!_eo_class_funcs_set(klass)) { eina_spinlock_free(&klass->objects.trash_lock); eina_spinlock_free(&klass->iterators.trash_lock); _dich_func_clean_all(klass); free(klass); return NULL; } eina_spinlock_take(&_eo_class_creation_lock); klass->header.id = ++_eo_classes_last_id | MASK_CLASS_TAG; { /* FIXME: Handle errors. */ size_t arrsize = _eo_classes_last_id * sizeof(*_eo_classes); _Eo_Class **tmp; tmp = realloc(_eo_classes, arrsize); /* If it's the first allocation, memset. */ if (!_eo_classes) memset(tmp, 0, arrsize); _eo_classes = tmp; _eo_classes[_UNMASK_ID(klass->header.id) - 1] = klass; } eina_spinlock_release(&_eo_class_creation_lock); _eo_class_constructor(klass); DBG("Finished building class '%s'", klass->desc->name); return _eo_class_id_get(klass); } EAPI Eina_Bool eo_isa(const Eo *eo_id, const Eo_Class *klass_id) { EO_OBJ_POINTER_RETURN_VAL(eo_id, obj, EINA_FALSE); EO_CLASS_POINTER_RETURN_VAL(klass_id, klass, EINA_FALSE); const op_type_funcs *func = _dich_func_get(obj->klass, klass->base_id + klass->desc->ops.count); /* Currently implemented by reusing the LAST op id. Just marking it with * _eo_class_isa_func. */ return (func && (func->func == _eo_class_isa_func)); } EAPI Eo * eo_xref_internal(const char *file, int line, Eo *obj_id, const Eo *ref_obj_id) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, obj_id); _eo_ref(obj); #ifdef EO_DEBUG Eo_Xref_Node *xref = calloc(1, sizeof(*xref)); xref->ref_obj = ref_obj_id; xref->file = file; xref->line = line; obj->xrefs = eina_inlist_prepend(obj->xrefs, EINA_INLIST_GET(xref)); #else (void) ref_obj_id; (void) file; (void) line; #endif return obj_id; } EAPI void eo_xunref(Eo *obj_id, const Eo *ref_obj_id) { EO_OBJ_POINTER_RETURN(obj_id, obj); #ifdef EO_DEBUG Eo_Xref_Node *xref = NULL; EINA_INLIST_FOREACH(obj->xrefs, xref) { if (xref->ref_obj == ref_obj_id) break; } if (xref) { obj->xrefs = eina_inlist_remove(obj->xrefs, EINA_INLIST_GET(xref)); free(xref); } else { ERR("ref_obj (%p) does not reference obj (%p). Aborting unref.", ref_obj_id, obj_id); return; } #else (void) ref_obj_id; #endif _eo_unref(obj); } EAPI Eo * eo_ref(const Eo *obj_id) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, (Eo *)obj_id); _eo_ref(obj); return (Eo *)obj_id; } EAPI void eo_unref(const Eo *obj_id) { EO_OBJ_POINTER_RETURN(obj_id, obj); _eo_unref(obj); } EAPI void eo_del(const Eo *obj) { Eo *parent_tmp; if (eo_do_ret(obj, parent_tmp, eo_parent_get())) { eo_do(obj, eo_parent_set(NULL)); } else { eo_unref(obj); } } EAPI int eo_ref_get(const Eo *obj_id) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, 0); return obj->refcount; } EAPI void eo_error_set_internal(const Eo *obj_id, const char *file, int line) { EO_OBJ_POINTER_RETURN(obj_id, obj); ERR("Error with obj '%p' at %s:%d.", obj, file, line); obj->do_error = EINA_TRUE; } void _eo_condtor_done(Eo *obj_id) { EO_OBJ_POINTER_RETURN(obj_id, obj); if (obj->condtor_done) { ERR("Object %p is already constructed at this point.", obj); return; } obj->condtor_done = EINA_TRUE; } static inline void * _eo_data_scope_get(const _Eo_Object *obj, const _Eo_Class *klass) { eo_data_scope_get_counter++; clock_t start_time = clock(); if (EINA_LIKELY((klass->desc->data_size > 0) && (klass->desc->type != EO_CLASS_TYPE_MIXIN))) return ((char *) obj) + _eo_sz + klass->data_offset; if (EINA_UNLIKELY(klass->desc->data_size == 0)) return NULL; else { Eo_Extension_Data_Offset *doff_itr = obj->klass->extn_data_off; if (!doff_itr){ eo_data_scope_get_clocks+=clock()-start_time; return NULL; } while (doff_itr->klass) { if (doff_itr->klass == klass){ eo_data_scope_get_clocks+=clock()-start_time; return ((char *) obj) + _eo_sz + doff_itr->offset; } doff_itr++; } } eo_data_scope_get_clocks+=clock()-start_time; return NULL; } static inline void * _eo_data_xref_internal(const char *file, int line, _Eo_Object *obj, const _Eo_Class *klass, const _Eo_Object *ref_obj) { void *data = NULL; if (klass != NULL) { data = _eo_data_scope_get(obj, klass); if (data == NULL) return NULL; } (obj->datarefcount)++; #ifdef EO_DEBUG Eo_Xref_Node *xref = calloc(1, sizeof(*xref)); xref->ref_obj = _eo_id_get(ref_obj); xref->file = file; xref->line = line; obj->data_xrefs = eina_inlist_prepend(obj->data_xrefs, EINA_INLIST_GET(xref)); #else (void) ref_obj; (void) file; (void) line; #endif return data; } static inline void _eo_data_xunref_internal(_Eo_Object *obj, void *data, const _Eo_Object *ref_obj) { #ifdef EO_DEBUG const _Eo_Class *klass = obj->klass; Eina_Bool in_range = (((char *)data >= (((char *) obj) + _eo_sz)) && ((char *)data < (((char *) obj) + klass->obj_size))); if (!in_range) { ERR("Data %p is not in the data range of the object %p (%s).", data, (Eo *)obj->headr.id, obj->klass->desc->name); } #else (void) data; #endif if (obj->datarefcount == 0) { ERR("Data for object %zx (%s) is already not referenced.", (size_t)_eo_id_get(obj), obj->klass->desc->name); } else { (obj->datarefcount)--; } #ifdef EO_DEBUG Eo_Xref_Node *xref = NULL; EINA_INLIST_FOREACH(obj->data_xrefs, xref) { if (xref->ref_obj == _eo_id_get(ref_obj)) break; } if (xref) { obj->data_xrefs = eina_inlist_remove(obj->data_xrefs, EINA_INLIST_GET(xref)); free(xref); } else { ERR("ref_obj (0x%zx) does not reference data (%p) of obj (0x%zx).", (size_t)_eo_id_get(ref_obj), data, (size_t)_eo_id_get(obj)); } #else (void) ref_obj; #endif } EAPI void * eo_data_get(const Eo *obj_id, const Eo_Class *klass_id) { return eo_data_scope_get(obj_id, klass_id); } EAPI void * eo_data_scope_get(const Eo *obj_id, const Eo_Class *klass_id) { void *ret; EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, NULL); EO_CLASS_POINTER_RETURN_VAL(klass_id, klass, NULL); #ifdef EO_DEBUG if (!_eo_class_mro_has(obj->klass, klass)) { ERR("Tried getting data of class '%s' from object of class '%s', but the former is not a direct inheritance of the latter.", klass->desc->name, obj->klass->desc->name); return NULL; } #endif ret = _eo_data_scope_get(obj, klass); #ifdef EO_DEBUG if (!ret && (klass->desc->data_size == 0)) { ERR("Tried getting data of class '%s', but it has none.", klass->desc->name); } #endif return ret; } EAPI void * eo_data_xref_internal(const char *file, int line, const Eo *obj_id, const Eo_Class *klass_id, const Eo *ref_obj_id) { void *ret; EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, NULL); EO_OBJ_POINTER_RETURN_VAL(ref_obj_id, ref_obj, NULL); _Eo_Class *klass = NULL; if (klass_id) { EO_CLASS_POINTER_RETURN_VAL(klass_id, klass2, NULL); klass = klass2; #ifdef EO_DEBUG if (!_eo_class_mro_has(obj->klass, klass)) { ERR("Tried getting data of class '%s' from object of class '%s', but the former is not a direct inheritance of the latter.", klass->desc->name, obj->klass->desc->name); return NULL; } #endif } ret = _eo_data_xref_internal(file, line, obj, klass, ref_obj); #ifdef EO_DEBUG if (klass && !ret && (klass->desc->data_size == 0)) { ERR("Tried getting data of class '%s', but it has none.", klass->desc->name); } #endif return ret; } EAPI void eo_data_xunref_internal(const Eo *obj_id, void *data, const Eo *ref_obj_id) { EO_OBJ_POINTER_RETURN(obj_id, obj); EO_OBJ_POINTER_RETURN(ref_obj_id, ref_obj); _eo_data_xunref_internal(obj, data, ref_obj); } EAPI Eina_Bool eo_init(void) { const char *log_dom = "eo"; if (_eo_init_count++ > 0) return EINA_TRUE; eina_init(); _eo_sz = EO_ALIGN_SIZE(sizeof(_Eo_Object)); _eo_class_sz = EO_ALIGN_SIZE(sizeof(_Eo_Class)); _eo_classes = NULL; _eo_classes_last_id = EO_CLASS_IDS_FIRST - 1; _eo_ops_last_id = EO_OP_IDS_FIRST; _eo_log_dom = eina_log_domain_register(log_dom, EINA_COLOR_LIGHTBLUE); if (_eo_log_dom < 0) { EINA_LOG_ERR("Could not register log domain: %s.", log_dom); return EINA_FALSE; } if (!eina_spinlock_new(&_eo_class_creation_lock)) { EINA_LOG_ERR("Could not init lock."); return EINA_FALSE; } eina_magic_string_static_set(EO_EINA_MAGIC, EO_EINA_MAGIC_STR); eina_magic_string_static_set(EO_FREED_EINA_MAGIC, EO_FREED_EINA_MAGIC_STR); eina_magic_string_static_set(EO_CLASS_EINA_MAGIC, EO_CLASS_EINA_MAGIC_STR); #ifdef EO_DEBUG /* Call it just for coverage purposes. Ugly I know, but I like it better than * casting everywhere else. */ _eo_class_isa_func(NULL, NULL, NULL); #endif eina_log_timing(_eo_log_dom, EINA_LOG_STATE_STOP, EINA_LOG_STATE_INIT); /* bootstrap EO_CLASS_CLASS */ (void) EO_ABSTRACT_CLASS_CLASS; if (_eo_call_stack_key != 0) WRN("_eo_call_stack_key already set, this should not happen."); else { if (!eina_tls_cb_new(&_eo_call_stack_key, _eo_call_stack_free)) { EINA_LOG_ERR("Could not create TLS key for call stack."); return EINA_FALSE; } } return EINA_TRUE; } EAPI Eina_Bool eo_shutdown(void) { size_t i; _Eo_Class **cls_itr = _eo_classes; if (--_eo_init_count > 0) return EINA_TRUE; eina_log_timing(_eo_log_dom, EINA_LOG_STATE_START, EINA_LOG_STATE_SHUTDOWN); for (i = 0 ; i < _eo_classes_last_id ; i++, cls_itr++) { if (*cls_itr) eo_class_free(*cls_itr); } if (_eo_classes) free(_eo_classes); eina_spinlock_free(&_eo_class_creation_lock); if (_eo_call_stack_key != 0) eina_tls_free(_eo_call_stack_key); _eo_free_ids_tables(); eina_log_domain_unregister(_eo_log_dom); _eo_log_dom = -1; eina_shutdown(); return EINA_TRUE; } EAPI Eina_Bool eo_destructed_is(const Eo *obj_id) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, EINA_FALSE); return obj->destructed; } EAPI void eo_manual_free_set(Eo *obj_id, Eina_Bool manual_free) { EO_OBJ_POINTER_RETURN(obj_id, obj); obj->manual_free = manual_free; } EAPI Eina_Bool eo_manual_free(Eo *obj_id) { EO_OBJ_POINTER_RETURN_VAL(obj_id, obj, EINA_FALSE); if (EINA_FALSE == obj->manual_free) { ERR("Tried to manually free the object %p while the option has not been set; see eo_manual_free_set for more information.", obj); return EINA_FALSE; } if (!obj->destructed) { ERR("Tried deleting the object %p while still referenced(%d).", obj_id, obj->refcount); return EINA_FALSE; } _eo_free(obj); return EINA_TRUE; } static __attribute__((destructor)) void finish(void) { printf("eo.c: _eo_data_scope_get= %u time=%f , eo_op_class_get=%u time=%f, eo_call_resolve=%u time=%f\n", eo_data_scope_get_counter, (double) eo_data_scope_get_clocks /CLOCKS_PER_SEC, eo_op_class_counter, (double)eo_op_class_get_clocks /CLOCKS_PER_SEC, eo_call_resolve_counter, (double)eo_call_resolve_clocks /CLOCKS_PER_SEC );//avi debug }