// C objects framework // - rlyeh, public domain. // // ## object limitations // - 8-byte overhead per object // - XX-byte overhead per object-entity // - 32 components max per object-entity // - 256 classes max per game // - 256 references max per object // - 1024K bytes max per object // - 8 generations + 64K IDs per running instance (19-bit IDs) // - support for pragma pack(1) structs not enabled by default. /* /!\ if you plan to use pragma pack(1) on any struct, you need #define OBJ_MIN_PRAGMAPACK_BITS 0 at the expense of max class size /!\ */ #ifndef OBJ_MIN_PRAGMAPACK_BITS //#define OBJ_MIN_PRAGMAPACK_BITS 3 // allows pragma packs >= 8. objsizew becomes 8<<3, so 2048 bytes max per class (default) #define OBJ_MIN_PRAGMAPACK_BITS 2 // allows pragma packs >= 4. objsizew becomes 8<<2, so 1024 bytes max per class //#define OBJ_MIN_PRAGMAPACK_BITS 1 // allows pragma packs >= 2. objsizew becomes 8<<1, so 512 bytes max per class //#define OBJ_MIN_PRAGMAPACK_BITS 0 // allows pragma packs >= 1. objsizew becomes 8<<0, so 256 bytes max per class #endif #define OBJHEADER \ union { \ uintptr_t objheader; \ struct { \ uintptr_t objtype:8; \ uintptr_t objsizew:8; \ uintptr_t objrefs:8; \ uintptr_t objheap:1; \ uintptr_t objcomps:1; /* << can be removed? check payload ptr instead? */ \ uintptr_t objunused:64-8-8-8-1-1-ID_INDEX_BITS-ID_COUNT_BITS; /*19*/ \ uintptr_t objid:ID_INDEX_BITS+ID_COUNT_BITS; /*16+3*/ \ }; \ }; #define OBJ \ struct { OBJHEADER }; // ---------------------------------------------------------------------------- // syntax sugars #ifdef OBJTYPE #undef OBJTYPE #endif #define OBJTYPE(T) \ OBJTYPE_##T #define OBJTYPEDEF(NAME,N) \ enum { OBJTYPE(NAME) = N }; \ STATIC_ASSERT( N <= 255 ); \ STATIC_ASSERT( sizeof(NAME) == ((sizeof(NAME)>>OBJ_MIN_PRAGMAPACK_BITS)<objheader = HEAP ? id_make(PTR) : 0, /*should assign to .objid instead. however, id_make() returns shifted bits already*/ \ (PTR)->objtype = (OBJ_TYPE), \ (PTR)->objheap = (HEAP), \ (PTR)->objsizew = (SIZEOF_OBJ>>OBJ_MIN_PRAGMAPACK_BITS)) #define OBJ_CTOR_PTR(PTR,HEAP,SIZEOF_OBJ,OBJ_TYPE) ( \ OBJ_CTOR_HDR(PTR,HEAP,SIZEOF_OBJ,OBJ_TYPE), \ obj_ctor(PTR)) #define OBJ_CTOR(TYPE, NAME, HEAP, PAYLOAD_SIZE, ...) (TYPE*)( \ objtmp = (HEAP ? MALLOC(sizeof(TYPE)+(PAYLOAD_SIZE)) : ALLOCA(sizeof(TYPE)+(PAYLOAD_SIZE))), \ *(TYPE*)objtmp = ((TYPE){ {0}, __VA_ARGS__}), \ ((PAYLOAD_SIZE) ? memset((char*)objtmp + sizeof(TYPE), 0, (PAYLOAD_SIZE)) : objtmp), \ ( OBJTYPES[ OBJTYPE(TYPE) ] = #TYPE ), \ OBJ_CTOR_PTR(objtmp, HEAP,sizeof(TYPE),OBJTYPE(TYPE)), \ ifdef(debug, (obj_printf)(objtmp, va("%s", callstack(+16))), 0), \ obj_setname(objtmp, NAME)) #define obj(TYPE, ...) *OBJ_CTOR(TYPE, #TYPE, 0, sizeof(array(obj*)), __VA_ARGS__) #define obj_new(TYPE, ...) OBJ_CTOR(TYPE, #TYPE, 1, sizeof(array(obj*)), __VA_ARGS__) #define obj_new_ext(TYPE, NAME, ...) OBJ_CTOR(TYPE, NAME, 1, sizeof(array(obj*)), __VA_ARGS__) void* obj_malloc(unsigned sz); void* obj_free(void *o); // ---------------------------------------------------------------------------- // obj generics. can be extended. #define obj_ctor(o,...) obj_method(ctor, o, ##__VA_ARGS__) #define obj_dtor(o,...) obj_method(dtor, o, ##__VA_ARGS__) #define obj_save(o,...) obj_method(save, o, ##__VA_ARGS__) #define obj_load(o,...) obj_method(load, o, ##__VA_ARGS__) #define obj_test(o,...) obj_method(test, o, ##__VA_ARGS__) #define obj_init(o,...) obj_method(init, o, ##__VA_ARGS__) #define obj_quit(o,...) obj_method(quit, o, ##__VA_ARGS__) #define obj_tick(o,...) obj_method(tick, o, ##__VA_ARGS__) #define obj_draw(o,...) obj_method(draw, o, ##__VA_ARGS__) #define obj_lerp(o,...) obj_method(lerp, o, ##__VA_ARGS__) #define obj_edit(o,...) obj_method(edit, o, ##__VA_ARGS__) // --- syntax sugars #define obj_extend(T,func) (obj_##func[OBJTYPE(T)] = (void*)T##_##func) #define obj_method(method,o,...) (obj_##method[((obj*)(o))->objtype](o,##__VA_ARGS__)) // (obj_##method[((obj*)(o))->objtype]((o), ##__VA_ARGS__)) #define obj_vtable(func,RC,...) RC macro(obj_##func)(){ __VA_ARGS__ }; RC (*obj_##func[256])() = { REPEAT256(macro(obj_##func)) }; #define obj_vtable_null(func,RC) RC (*obj_##func[256])() = { 0 }; // null virtual table. will crash unless obj_extend'ed #define REPEAT16(f) f,f,f,f,f,f,f,f,f,f,f,f,f,f,f,f #define REPEAT64(f) REPEAT16(f),REPEAT16(f),REPEAT16(f),REPEAT16(f) #define REPEAT256(f) REPEAT64(f),REPEAT64(f),REPEAT64(f),REPEAT64(f) // --- declare vtables API extern void (*obj_ctor[256])(); ///- API extern void (*obj_dtor[256])(); ///- API extern char* (*obj_save[256])(); ///- API extern bool (*obj_load[256])(); ///- API extern int (*obj_test[256])(); ///- API extern int (*obj_init[256])(); ///- API extern int (*obj_quit[256])(); ///- API extern int (*obj_tick[256])(); ///- API extern int (*obj_draw[256])(); ///- API extern int (*obj_lerp[256])(); ///- API extern int (*obj_edit[256])(); ///- // ---------------------------------------------------------------------------- // core API uintptr_t obj_header(const void *o); API uintptr_t obj_id(const void *o); API const char* obj_type(const void *o); API unsigned obj_typeid(const void *o); API int obj_sizeof(const void *o); API int obj_size(const void *o); // size of all members together in struct. may include padding bytes. API char* obj_data(void *o); // pointer to the first member in struct API const char* obj_datac(const void *o); // const pointer to the first struct member API void* obj_payload(const void *o); // pointer right after last member in struct API void* obj_zero(void *o); // reset all object members // ---------------------------------------------------------------------------- // refcounting API void* obj_ref(void *oo); API void* obj_unref(void *oo); // ---------------------------------------------------------------------------- // scene tree #define each_objchild(p,t,o) /*non-recursive*/ \ (array(obj*)* children = obj_children(p); children; children = 0) \ for(int _i = 1, _end = array_count(*children); _i < _end; ++_i) \ for(t *o = (t *)((*children)[_i]); o && (obj_parent(o) == p); o = 0) API obj* obj_detach(void *c); API obj* obj_attach(void *o, void *c); API obj* obj_root(const void *o); API obj* obj_parent(const void *o); API array(obj*)*obj_children(const void *o); // child[0]: parent, child[1]: 1st child, child[2]: 2nd child... API array(obj*)*obj_siblings(const void *o); // child[0]: grandpa, child[1]: sibling1, child[2]: sibling2... API int obj_dumptree(const void *o); // ---------------------------------------------------------------------------- // metadata API void* obj_setmeta(void *o, const char *key, const char *value); API const char* obj_meta(const void *o, const char *key); API void* obj_setname(void *o, const char *name); API const char* obj_name(const void *o); // ---------------------------------------------------------------------------- // stl API void* obj_swap(void *dst, void *src); API void* obj_copy_fast(void *dst, const void *src); API void* obj_copy(void *dst, const void *src); API int obj_comp_fast(const void *a, const void *b); API int obj_comp(const void *a, const void *b); API int obj_lesser(const void *a, const void *b); API int obj_greater(const void *a, const void *b); API int obj_equal(const void *a, const void *b); API uint64_t obj_hash(const void *o); // ---------------------------------------------------------------------------- // debug API bool obj_hexdump(const void *oo); API int obj_print(const void *o); API int obj_printf(const void *o, const char *text); API int obj_console(const void *o); // obj_output() ? #define obj_printf(o, ...) obj_printf(o, va(__VA_ARGS__)) // ---------------------------------------------------------------------------- // serialization API char* obj_saveini(const void *o); API obj* obj_mergeini(void *o, const char *ini); API obj* obj_loadini(void *o, const char *ini); API char* obj_savejson(const void *o); API obj* obj_mergejson(void *o, const char *json); API obj* obj_loadjson(void *o, const char *json); API char* obj_savebin(const void *o); API obj* obj_mergebin(void *o, const char *sav); API obj* obj_loadbin(void *o, const char *sav); API char* obj_savempack(const void *o); // @todo API obj* obj_mergempack(void *o, const char *sav); // @todo API obj* obj_loadmpack(void *o, const char *sav); // @todo API int obj_push(const void *o); API int obj_pop(void *o); // ---------------------------------------------------------------------------- // components API bool obj_addcomponent(void *object, unsigned c, void *ptr); API bool obj_hascomponent(void *object, unsigned c); API void* obj_getcomponent(void *object, unsigned c); API bool obj_delcomponent(void *object, unsigned c); API bool obj_usecomponent(void *object, unsigned c); API bool obj_offcomponent(void *object, unsigned c); API char* entity_save(entity *self); // ---------------------------------------------------------------------------- // reflection #define each_objmember(oo,TYPE,NAME,PTR) \ (array(reflect_t) *found_ = members_find(obj_type(oo)); found_; found_ = 0) \ for(int it_ = 0, end_ = array_count(*found_); it_ != end_; ++it_ ) \ for(reflect_t *R = &(*found_)[it_]; R; R = 0 ) \ for(const char *NAME = R->name, *TYPE = R->type; NAME || TYPE; ) \ for(void *PTR = ((char*)oo) + R->sz ; NAME || TYPE ; NAME = TYPE = 0 ) API void* obj_clone(const void *src); API void* obj_merge(void *dst, const void *src); // @testme API void* obj_mutate(void **dst, const void *src); API void* obj_make(const char *str); // built-ins typedef enum OBJTYPE_BUILTINS { OBJTYPE_obj = 0, OBJTYPE_entity = 1, OBJTYPE_vec2 = 2, OBJTYPE_vec3 = 3, OBJTYPE_vec4 = 4, OBJTYPE_quat = 5, OBJTYPE_mat33 = 6, OBJTYPE_mat34 = 7, OBJTYPE_mat44 = 8, OBJTYPE_vec2i = 9, OBJTYPE_vec3i = 10, } OBJTYPE_BUILTINS;