#ifndef EO_H #define EO_H #include #include #ifdef EAPI # undef EAPI #endif #ifdef _WIN32 # ifdef EFL_EO_BUILD # ifdef DLL_EXPORT # define EAPI __declspec(dllexport) # else # define EAPI # endif /* ! DLL_EXPORT */ # else # define EAPI __declspec(dllimport) # endif /* ! EFL_EO_BUILD */ #else # ifdef __GNUC__ # if __GNUC__ >= 4 # define EAPI __attribute__ ((visibility("default"))) # else # define EAPI # endif # else # define EAPI # endif #endif /* ! _WIN32 */ #ifdef __cplusplus extern "C" { #endif /** * @var _eo_class_creation_lock * This variable is used for locking purposes in the class_get function * defined in #EO_DEFINE_CLASS. * This is just to work around the fact that we need to init locks before * using them. * Don't touch it if you don't know what you are doing. * @internal */ EAPI extern Eina_Lock _eo_class_creation_lock; /** * @internal * An enum representing the possible types of an Op. */ enum _Eo_Op_Type { EO_OP_TYPE_INVALID = -1, /**< Invalid op. */ EO_OP_TYPE_REGULAR = 0, /**< Regular op. */ EO_OP_TYPE_CLASS, /**< Class op - a class op. Like static in Java/C++. */ }; /** * @internal * @typedef Eo_Op_Type * A convenience typedef for #_Eo_Op_Type. */ typedef enum _Eo_Op_Type Eo_Op_Type; /** * @page eo_main Eo * * @date 2012 (created) * * @section toc Table of Contents * * @li @ref eo_main_intro * @li @ref eo_main_compiling * @li @ref eo_main_next_steps * @li @ref eo_main_intro_example * * @section eo_main_intro Introduction * * The Eo generic object system. It was designed to be the base object * system for the EFL. * @section eo_main_compiling How to compile * * Eo is a library your application links to. The procedure for this is * very simple. You simply have to compile your application with the * appropriate compiler flags that the @c pkg-config script outputs. For * example: * * Compiling C or C++ files into object files: * * @verbatim gcc -c -o main.o main.c `pkg-config --cflags eo` @endverbatim * * Linking object files into a binary executable: * * @verbatim gcc -o my_application main.o `pkg-config --libs eo` @endverbatim * * See @ref pkgconfig * * @section eo_main_next_steps Next Steps * * After you understood what Eo is and installed it in your system * you should proceed understanding the programming interface. * * Recommended reading: * * @li @ref Eo_Class_Base * @li @ref Eo_Class * @li @ref Eo_Events * @li @ref Eo_Composite_Objects * * @section eo_main_intro_example Introductory Example * * @ref Eo_Tutorial * * * @addtogroup Eo * @{ */ /** * @def EO_TYPECHECK(type, x) * * Checks x is castable to type "type" and casts it to it. * @param type The C type to check against. * @param x the variable to test and cast. */ #define EO_TYPECHECK(type, x) \ ({ \ type __x; \ __x = x; \ (type) __x; \ }) /** * @typedef Eo * The basic Object type. */ typedef struct _Eo Eo; /** * @typedef Eo_Op * The Eo operation type id. */ typedef unsigned int Eo_Op; /** * @typedef Eo_Class * The basic Object class type. * @ingroup Eo_Class */ typedef struct _Eo_Class Eo_Class; /** * @typedef Eo_Class_Id * An Id of a class. * @ingroup Eo_Class */ typedef size_t Eo_Class_Id; /** * @def EO_NOOP * A special #Eo_Op meaning "No operation". */ #define EO_NOOP ((Eo_Op) 0) /** * @typedef eo_op_func_type * The type of the Op functions. This is the type of the functions used by * Eo. * * @see eo_op_func_type_class */ typedef void (*eo_op_func_type)(Eo *, void *class_data, va_list *list); /** * @typedef eo_op_func_type_class * The type of the class Op functions. This is the same as #eo_op_func_type,\ * exepct that it's for usage with class functions, and not with object * functions. * * @see eo_op_func_type */ typedef void (*eo_op_func_type_class)(const Eo_Class *, va_list *list); /** * @addtogroup Eo_Events Eo's Event Handling * @{ */ /** * @struct _Eo_Event_Description * This struct holds the description of a specific event. */ struct _Eo_Event_Description { const char *name; /**< name of the event. */ const char *doc; /**< Explanation about the event. */ }; /** * @typedef Eo_Event_Description * A convenience typedef for #_Eo_Event_Description */ typedef struct _Eo_Event_Description Eo_Event_Description; /** * @def EO_EVENT_DESCRIPTION(name, doc) * An helper macro to help populating #Eo_Event_Description * @param name The name of the event. * @param doc Additional doc for the event. * @see Eo_Event_Description */ #define EO_EVENT_DESCRIPTION(name, doc) { name, doc } /** * @} */ /** * @addtogroup Eo_Class Eo Class * @{ */ /** * @def EO_DEFINE_CLASS(class_get_func_name, class_desc, parent_class, ...) * A convenience macro to be used for creating the class_get function. This * macro is fairly simple but should still be used as it'll let us improve * things easily. * @param class_get_func_name the name of the wanted class_get function name. * @param class_desc the class description. * @param parent_class The parent class for the function. Look at eo_class_new() for more information. * @param ... List of etxensions. Look at eo_class_new() for more information. * * You must use this macro if you want thread safety in class creation. */ #define EO_DEFINE_CLASS(class_get_func_name, class_desc, parent_class, ...) \ EAPI const Eo_Class * \ class_get_func_name(void) \ { \ const Eo_Class *_tmp_parent_class; \ static volatile char lk_init = 0; \ static Eina_Lock _my_lock; \ static const Eo_Class * volatile _my_class = NULL; \ if (EINA_LIKELY(!!_my_class)) return _my_class; \ \ eina_lock_take(&_eo_class_creation_lock); \ if (!lk_init) \ eina_lock_new(&_my_lock); \ if (lk_init < 2) eina_lock_take(&_my_lock); \ if (!lk_init) \ lk_init = 1; \ else \ { \ if (lk_init < 2) eina_lock_release(&_my_lock); \ eina_lock_release(&_eo_class_creation_lock); \ return _my_class; \ } \ eina_lock_release(&_eo_class_creation_lock); \ _tmp_parent_class = parent_class; \ _my_class = eo_class_new(class_desc, _tmp_parent_class, __VA_ARGS__); \ eina_lock_release(&_my_lock); \ \ eina_lock_take(&_eo_class_creation_lock); \ eina_lock_free(&_my_lock); \ lk_init = 2; \ eina_lock_release(&_eo_class_creation_lock); \ return _my_class; \ } /** * An enum representing the possible types of an Eo class. */ enum _Eo_Class_Type { EO_CLASS_TYPE_REGULAR = 0, /**< Regular class. */ EO_CLASS_TYPE_REGULAR_NO_INSTANT, /**< Regular non instant-able class. */ EO_CLASS_TYPE_INTERFACE, /**< Interface */ EO_CLASS_TYPE_MIXIN /**< Mixin */ }; /** * @typedef Eo_Class_Type * A convenience typedef for #_Eo_Class_Type. */ typedef enum _Eo_Class_Type Eo_Class_Type; /** * @struct _Eo_Op_Func_Description * Used to associate an Op with a func. * @see eo_class_funcs_set */ struct _Eo_Op_Func_Description { Eo_Op op; /**< The op */ eo_op_func_type func; /**< The function to call for the op. */ Eo_Op_Type op_type; /**< The type of the op */ }; /** * @typedef Eo_Op_Func_Description * A convenience typedef for #_Eo_Op_Func_Description */ typedef struct _Eo_Op_Func_Description Eo_Op_Func_Description; /** * @def EO_OP_FUNC(op, func) * A convenience macro to be used when populating the #Eo_Op_Func_Description * array. */ #define EO_OP_FUNC(op, func) { op, EO_TYPECHECK(eo_op_func_type, func), EO_OP_TYPE_REGULAR } /** * @def EO_OP_FUNC_CLASS(op, func) * A convenience macro to be used when populating the #Eo_Op_Func_Description * array. * The same as #EO_OP_FUNC but for class functions. * * @see EO_OP_FUNC */ #define EO_OP_FUNC_CLASS(op, func) { op, (eo_op_func_type) EO_TYPECHECK(eo_op_func_type_class, func), EO_OP_TYPE_CLASS } /** * @def EO_OP_FUNC_SENTINEL * A convenience macro to be used when populating the #Eo_Op_Func_Description * array. It must appear at the end of the ARRAY. */ #define EO_OP_FUNC_SENTINEL { 0, NULL, EO_OP_TYPE_INVALID } /** * @struct _Eo_Op_Description * This struct holds the description of a specific op. */ struct _Eo_Op_Description { Eo_Op sub_op; /**< The sub_id of the op in it's class. */ const char *name; /**< The name of the op. */ const char *doc; /**< Explanation about the Op. */ Eo_Op_Type op_type; /**< The type of the Op. */ }; /** * @typedef Eo_Op_Description * A convenience typedef for #_Eo_Op_Description */ typedef struct _Eo_Op_Description Eo_Op_Description; /** * @def EO_VERSION * The current version of EO. */ #define EO_VERSION 1 /** * @struct _Eo_Class_Description * This struct holds the description of a class. * This description should be passed to eo_class_new. * Please use the #EO_CLASS_DESCRIPTION_OPS macro when populating it. */ struct _Eo_Class_Description { unsigned int version; /**< The current version of eo, use #EO_VERSION */ const char *name; /**< The name of the class. */ Eo_Class_Type type; /**< The type of the class. */ struct { Eo_Op *base_op_id; const Eo_Op_Description *descs; size_t count; } ops; /**< The ops description, should be filled using #EO_CLASS_DESCRIPTION_OPS */ const Eo_Event_Description **events; /**< The event descriptions for this class. */ size_t data_size; /**< The size of data (private + protected + public) this class needs per object. */ void (*class_constructor)(Eo_Class *klass); /**< The constructor of the class. */ void (*class_destructor)(Eo_Class *klass); /**< The destructor of the class. */ }; /** * @typedef Eo_Class_Description * A convenience typedef for #_Eo_Class_Description */ typedef struct _Eo_Class_Description Eo_Class_Description; /** * @def EO_CLASS_DESCRIPTION_OPS(base_op_id, op_descs, count) * An helper macro to help populating #Eo_Class_Description. * @param base_op_id A pointer to the base op id of the class. * @param op_descs the op descriptions array. * @param count the number of ops in the op descriptions array. */ #define EO_CLASS_DESCRIPTION_OPS(base_op_id, op_descs, count) { base_op_id, op_descs, count } /** * @def EO_OP_DESCRIPTION(op, doc) * An helper macro to help populating #Eo_Op_Description * @param sub_id The sub id of the op being described. * @param doc Additional doc for the op. * @see Eo_Op_Description * @see EO_OP_DESCRIPTION_CLASS * @see EO_OP_DESCRIPTION_SENTINEL */ #define EO_OP_DESCRIPTION(sub_id, doc) { sub_id, #sub_id, doc, EO_OP_TYPE_REGULAR } /** * @def EO_OP_DESCRIPTION_CLASS(op, doc) * An helper macro to help populating #Eo_Op_Description * This macro is the same as EO_OP_DESCRIPTION but indicates that the op's * implementation is of type CLASS. * @param sub_id The sub id of the op being described. * @param doc Additional doc for the op. * @see Eo_Op_Description * @see EO_OP_DESCRIPTION * @see EO_OP_DESCRIPTION_SENTINEL */ #define EO_OP_DESCRIPTION_CLASS(sub_id, doc) { sub_id, #sub_id, doc, EO_OP_TYPE_CLASS } /** * @def EO_OP_DESCRIPTION_SENTINEL * An helper macro to help populating #Eo_Op_Description * Should be placed at the end of the array. * @see Eo_Op_Description * @see EO_OP_DESCRIPTION */ #define EO_OP_DESCRIPTION_SENTINEL { 0, NULL, NULL, EO_OP_TYPE_INVALID } /** * @brief Create a new class. * @param desc the class description to create the class with. * @param parent the class to inherit from. * @param ... A NULL terminated list of extensions (interfaces, mixins and the classes of any composite objects). * @return The new class's handle on success, or NULL otherwise. * * You should use #EO_DEFINE_CLASS. It'll provide thread safety and other * features easily. * * @see #EO_DEFINE_CLASS */ EAPI const Eo_Class *eo_class_new(const Eo_Class_Description *desc, const Eo_Class *parent, ...); /** * @brief Check if an object "is a" klass. * @param obj The object to check * @param klass The klass to check against. * @return @c EINA_TRUE if obj implements klass, @c EINA_FALSE otherwise. * * Notice: This function does not support composite objects. */ EAPI Eina_Bool eo_isa(const Eo *obj, const Eo_Class *klass); /** * @brief Sets the OP functions for a class. * @param klass the class to set the functions to. * @param func_descs a NULL terminated array of #Eo_Op_Func_Description * * Should be called from within the class constructor. */ EAPI void eo_class_funcs_set(Eo_Class *klass, const Eo_Op_Func_Description *func_descs); /** * @brief Gets the name of the passed class. * @param klass the class to work on. * @return The class's name. * * @see eo_class_get() */ EAPI const char *eo_class_name_get(const Eo_Class *klass); /** * @} */ /** * @brief Init the eo subsystem * @return @c EINA_TRUE on success. * * @see eo_shutfown() */ EAPI Eina_Bool eo_init(void); /** * @brief Shutdown the eo subsystem * @return @c EINA_TRUE on success. * * @see eo_init() */ EAPI Eina_Bool eo_shutdown(void); /** * @def eo_do * A convenience wrapper around eo_do_internal() * @see eo_do_internal */ #define eo_do(obj, ...) eo_do_internal(obj, EO_OP_TYPE_REGULAR, __VA_ARGS__, EO_NOOP) /** * @def eo_class_do * A convenience wrapper around eo_class_do_internal() * @see eo_class_do_internal */ #define eo_class_do(klass, ...) eo_class_do_internal(klass, __VA_ARGS__, EO_NOOP) /** * @brief Calls op functions of an object * @param obj The object to work on * @param op_type The type of the ops that are passed. * @param ... NULL terminated list of OPs and parameters. * @return @c EINA_TRUE on success. * * Use the helper macros, don't pass the parameters manually. * Use #eo_do instead of this function. * * @see #eo_do */ EAPI Eina_Bool eo_do_internal(Eo *obj, Eo_Op_Type op_type, ...); /** * @brief Calls op functions of a class. * @param klass The class to work on * @param ... NULL terminated list of OPs and parameters. * @return @c EINA_TRUE on success. * * Use the helper macros, don't pass the parameters manually. * Use #eo_do instead of this function. * * @see #eo_class_do */ EAPI Eina_Bool eo_class_do_internal(const Eo_Class *klass, ...); /** * @brief Calls the super function for the specific op. * @param obj The object to work on * @param ... list of parameters. * @return @c EINA_TRUE on success. * * Unlike eo_do(), this function only accepts one op. * * @see #eo_do */ #define eo_do_super(obj, ...) eo_do_super_internal(obj, EO_OP_TYPE_REGULAR, __VA_ARGS__) /** * @brief Calls the super function for the specific op. * @param klass The klass to work on * @param ... list of parameters. * @return @c EINA_TRUE on success. * * Unlike eo_class_do(), this function only accepts one op. * * @see #eo_class_do */ #define eo_class_do_super(klass, ...) eo_class_do_super_internal(klass, __VA_ARGS__) /** * @brief Calls the super function for the specific op. * @param obj The object to work on * @param op_type The type of the ops that are passed. * @param op The wanted op. * @param ... list of parameters. * @return @c EINA_TRUE on success. * * Don't use this function, use the wrapping macros instead. * * @see #eo_do * @see #eo_do_super */ EAPI Eina_Bool eo_do_super_internal(Eo *obj, Eo_Op_Type op_type, Eo_Op op, ...); /** * @brief Calls the super function for the specific op. * @param klass The klass to work on * @param op The wanted op. * @param ... list of parameters. * @return @c EINA_TRUE on success. * * Don't use this function, use the wrapping macros instead. * * @see #eo_class_do * @see #eo_class_do_super */ EAPI Eina_Bool eo_class_do_super_internal(const Eo_Class *klass, Eo_Op op, ...); /** * @brief Gets the class of the object. * @param obj The object to work on * @return The object's class. * * @see eo_class_name_get() */ EAPI const Eo_Class *eo_class_get(const Eo *obj); /** * @def eo_error_set * @brief Notify eo that there was an error when constructing, destructing or calling a function of the object. * @param obj the object to work on. * * @see eo_error_get() */ #define eo_error_set(obj) eo_error_set_internal(obj, __FILE__, __LINE__) /* @cond 0 */ EAPI void eo_error_set_internal(const Eo *obj, const char *file, int line); /* @endcond */ /** * @def eo_add * @brief Create a new object with the default constructor. * @param klass the class of the object to create. * @param parent the parent to set to the object. * @param ... The ops to run. * @return An handle to the new object on success, NULL otherwise. * * @see #eo_add_custom */ #define eo_add(klass, parent, ...) \ ({ \ const Eo_Class *_tmp_klass = klass; \ eo_add_internal(_tmp_klass, parent, eo_constructor(), ## __VA_ARGS__, EO_NOOP); \ }) /** * @def eo_add_custom * @brief Create a new object with a custom constructor. * @param klass the class of the object to create. * @param parent the parent to set to the object. * @param ... The ops to run. With the constructor being first. * @return An handle to the new object on success, NULL otherwise. * * @see #eo_add */ #define eo_add_custom(klass, parent, ...) \ ({ \ const Eo_Class *_tmp_klass = klass; \ eo_add_internal(_tmp_klass, parent, ## __VA_ARGS__, EO_NOOP); \ }) /** * @brief Create a new object. * @param klass the class of the object to create. * @param parent the parent to set to the object. * @param ... The ops to run. With the constructor being first. * @return An handle to the new object on success, NULL otherwise. * * Use the helper macros, don't pass the parameters manually. * Use #eo_add or #eo_add_custom instead of this function. * * @see #eo_add */ EAPI Eo *eo_add_internal(const Eo_Class *klass, Eo *parent, ...); /** * @brief Get the parent of an object * @param obj the object to get the parent of. * @return a pointer to the parent object. * * @see eo_parent_set() */ EAPI Eo *eo_parent_get(const Eo *obj); /** * @brief Set the parent of an object * @param obj the object to get the parent of. * @param parent the new parent. * @return @c EINA_TRUE on success, @c EINA_FALSE on failure. * * Parents keep references to their children so in order to delete objects * that have parents you need to set parent to NULL or use eo_del() that * does that for you (and also unrefs the object). * * @see eo_del() * @see eo_parent_get() */ EAPI Eina_Bool eo_parent_set(Eo *obj, const Eo *parent); /** * @brief Get a pointer to the data of an object for a specific class. * @param obj the object to work on. * @param klass the klass associated with the data. * @return a pointer to the data. */ EAPI void *eo_data_get(const Eo *obj, const Eo_Class *klass); /** * @brief Increment the object's reference count by 1. * @param obj the object to work on. * @return The object passed. * * It's very easy to get a refcount leak and start leaking memory because * of a forgotten unref or an extra ref. That is why there are eo_xref * and eo_xunref that will make debugging easier in such a case. * Therefor, these functions should only be used in small scopes, i.e at the * start of some section in which the object may get freed, or if you know * what you are doing. * * @see eo_unref() * @see eo_ref_get() */ EAPI Eo *eo_ref(const Eo *obj); /** * @brief Decrement the object's reference count by 1 and free it if needed. * @param obj the object to work on. * * @see eo_ref() * @see eo_ref_get() */ EAPI void eo_unref(const Eo *obj); /** * @brief Return the ref count of the object passed. * @param obj the object to work on. * @return the ref count of the object. * * @see eo_ref() * @see eo_unref() */ EAPI int eo_ref_get(const Eo *obj); /** * @brief Unrefs the object and reparents it to NULL. * @param obj the object to work on. * * Because eo_del() unrefs and reparents to NULL, it doesn't really delete the * object. * * @see eo_unref() * @see eo_parent_set() */ EAPI void eo_del(const Eo *obj); /** * @def eo_xref(obj, ref_obj) * Convenience macro around eo_xref_internal() * @see eo_xref() */ #define eo_xref(obj, ref_obj) eo_xref_internal(obj, ref_obj, __FILE__, __LINE__) /** * @brief Increment the object's reference count by 1 (and associate the ref with ref_obj) * @param obj the object to work on. * @param ref_obj the object that references obj. * @param file the call's filename. * @param line the call's line number. * @return The object passed (obj) * * People should not use this function, use #eo_xref instead. * A compile flag my make it and eobj_xunref() behave the same as eobj_ref() * and eobj_unref() respectively. So this should be used wherever possible. * * @see eo_xunref() */ EAPI Eo *eo_xref_internal(Eo *obj, const Eo *ref_obj, const char *file, int line); /** * @brief Decrement the object's reference count by 1 and free it if needed. Will free the ref associated with ref_obj). * @param obj the object to work on. * @param ref_obj the object that references obj. * * This function only enforces the checks for object association. I.e don't rely * on it. If such enforces are compiled out, this function behaves the same as * eo_unref(). * * @see eo_xref_internal() */ EAPI void eo_xunref(Eo *obj, const Eo *ref_obj); /** * @brief Enable or disable the manual free feature. * @param obj the object to work on. * @param manual_free indicates if the free is manual (EINA_TRUE) or automatic (EINA_FALSE). * * The developer is in charge to call the function eo_manual_free to free the memory allocated for this object. * * Do not use, unless you really know what you are doing. It's used by Evas * because evas wants to keep its private data available even after the object * is deleted. Setting this to true makes Eo destruct the object but not free * the private data or the object itself. * * @see eo_manual_free() */ EAPI void eo_manual_free_set(Eo *obj, Eina_Bool manual_free); /** * @brief Frees the object. * @param obj the object to work on. * This function must be called by the developer if the function * eo_manual_free_set has been called before with the parameter EINA_TRUE. * An error will be printed if this function is called when the manual * free option is not set to EINA_TRUE or the number of refs is not 0. * * @see eo_manual_free_set() */ EAPI void eo_manual_free(Eo *obj); /** * @brief Checks if the object was already descructed (only relevant for manual_free objects). * @param obj the object to check. * This function checks if the object was already destructed (but not alraedy * freed). It should only be used with objects that are supposed to be manually * freed, but not yet freed (but possibly destructed). * * @see eo_manual_free_set() */ EAPI Eina_Bool eo_destructed_is(const Eo *obj); /** * @addtogroup Eo_Composite_Objects Composite Objects. * @{ */ /** * @brief Make an object a composite object of another. * @param comp_obj the object that will be used to composite parent. * @param parent the "parent" object. * * This functions also sets the parent of comp_obj to parent. * * @see eo_composite_detach() * @see eo_composite_is() */ EAPI void eo_composite_attach(Eo *comp_obj, Eo *parent); /** * @brief Detach a composite object from another object. * @param comp_obj the object attached to parent. * @param parent the "parent" object. * * This functions also sets the parent of comp_obj to @c NULL. * * @see eo_composite_attach() * @see eo_composite_is() */ EAPI void eo_composite_detach(Eo *comp_obj, Eo *parent); /** * @brief Check if an object is a composite object. * @param comp_obj the object to be checked. * @return @c EINA_TRUE if it is, @c EINA_FALSE otherwise. * * @see eo_composite_attach() * @see eo_composite_detach() */ EAPI Eina_Bool eo_composite_is(const Eo *comp_obj); /** * @} */ /** * @addtogroup Eo_Class_Base Eo's Base class. * @{ */ /** * @def EO_BASE_CLASS * The class type for the Eo base class. */ #define EO_BASE_CLASS eo_base_class_get() /** * @brief Use #EO_BASE_CLASS * @internal * */ EAPI const Eo_Class *eo_base_class_get(void); /** * @typedef eo_base_data_free_func * Data free func prototype. */ typedef void (*eo_base_data_free_func)(void *); /** * @var EO_BASE_BASE_ID * #EO_BASE_CLASS 's base id. */ extern EAPI Eo_Op EO_BASE_BASE_ID; enum { EO_BASE_SUB_ID_CONSTRUCTOR, EO_BASE_SUB_ID_DESTRUCTOR, EO_BASE_SUB_ID_DATA_SET, EO_BASE_SUB_ID_DATA_GET, EO_BASE_SUB_ID_DATA_DEL, EO_BASE_SUB_ID_WREF_ADD, EO_BASE_SUB_ID_WREF_DEL, EO_BASE_SUB_ID_EVENT_CALLBACK_PRIORITY_ADD, EO_BASE_SUB_ID_EVENT_CALLBACK_DEL, EO_BASE_SUB_ID_EVENT_CALLBACK_CALL, EO_BASE_SUB_ID_EVENT_CALLBACK_FORWARDER_ADD, EO_BASE_SUB_ID_EVENT_CALLBACK_FORWARDER_DEL, EO_BASE_SUB_ID_EVENT_FREEZE, EO_BASE_SUB_ID_EVENT_THAW, EO_BASE_SUB_ID_EVENT_FREEZE_GET, EO_BASE_SUB_ID_EVENT_GLOBAL_FREEZE, EO_BASE_SUB_ID_EVENT_GLOBAL_THAW, EO_BASE_SUB_ID_EVENT_GLOBAL_FREEZE_GET, EO_BASE_SUB_ID_LAST }; /** * @def EO_BASE_ID(sub_id) * Helper macro to get the full Op ID out of the sub_id for EO_BASE. * @param sub_id the sub id inside EO_BASE. */ #define EO_BASE_ID(sub_id) (EO_BASE_BASE_ID + (sub_id)) /** * @def eo_base_data_set(key, data, free_func) * Set generic data to object. * @param[in] key the key associated with the data * @param[in] data the data to set. * @param[in] free_func the func to free data with (NULL means "do nothing"). * * @see #eo_base_data_get * @see #eo_base_data_del */ #define eo_base_data_set(key, data, free_func) EO_BASE_ID(EO_BASE_SUB_ID_DATA_SET), EO_TYPECHECK(const char *, key), EO_TYPECHECK(const void *, data), EO_TYPECHECK(eo_base_data_free_func, free_func) /** * @def eo_base_data_get(key, data) * Get generic data from object. * @param[in] key the key associated with the data * @param[out] data the data for the key * * @see #eo_base_data_set * @see #eo_base_data_del */ #define eo_base_data_get(key, data) EO_BASE_ID(EO_BASE_SUB_ID_DATA_GET), EO_TYPECHECK(const char *, key), EO_TYPECHECK(void **, data) /** * @def eo_base_data_del(key) * Del generic data from object. * @param[in] key the key associated with the data * * @see #eo_base_data_set * @see #eo_base_data_get */ #define eo_base_data_del(key) EO_BASE_ID(EO_BASE_SUB_ID_DATA_DEL), EO_TYPECHECK(const char *, key) /** * @def eo_wref_add * @brief Add a new weak reference to obj. * @param wref The pointer to use for the weak ref. * * This function registers the object handle pointed by wref to obj so when * obj is deleted it'll be updated to NULL. This functions should be used * when you want to keep track of an object in a safe way, but you don't want * to prevent it from being freed. * * @see #eo_wref_del */ #define eo_wref_add(wref) EO_BASE_ID(EO_BASE_SUB_ID_WREF_ADD), EO_TYPECHECK(Eo **, wref) /** * @def eo_wref_del * @brief Delete the weak reference passed. * @param wref the weak reference to free. * * @see #eo_wref_add */ #define eo_wref_del(wref) EO_BASE_ID(EO_BASE_SUB_ID_WREF_DEL), EO_TYPECHECK(Eo **, wref) /** * @def eo_wref_del_safe * @brief Delete the weak reference passed. * @param wref the weak reference to free. * * Same as eo_wref_del(), with the different that it's not called from eobj_do() * so you don't need to check if *wref is not NULL. * * @see #eo_wref_del */ #define eo_wref_del_safe(wref) \ do { \ if (*wref) eo_do(*wref, eo_wref_del(wref)); \ } while (0) /** * @def eo_constructor * @brief Call the object's constructor. * * Should not be used with #eo_do. Only use it with #eo_do_super. * * @see #eo_destructor */ #define eo_constructor() EO_BASE_ID(EO_BASE_SUB_ID_CONSTRUCTOR) /** * @def eo_destructor * @brief Call the object's destructor. * * Should not be used with #eo_do. Only use it with #eo_do_super. * * @see #eo_constructor */ #define eo_destructor() EO_BASE_ID(EO_BASE_SUB_ID_DESTRUCTOR) /** * @addtogroup Eo_Events Eo's Event Handling * @{ */ /** * @def EO_CALLBACK_PRIORITY_BEFORE * Slightly more prioritized than default. */ #define EO_CALLBACK_PRIORITY_BEFORE -100 /** * @def EO_CALLBACK_PRIORITY_DEFAULT * Default callback priority level */ #define EO_CALLBACK_PRIORITY_DEFAULT 0 /** * @def EO_CALLBACK_PRIORITY_AFTER * Slightly less prioritized than default. */ #define EO_CALLBACK_PRIORITY_AFTER 100 /** * @typedef Eo_Callback_Priority * * Callback priority value. Range is -32k - 32k. The lower the number, the * higher the priority. * * @see EO_CALLBACK_PRIORITY_AFTER * @see EO_CALLBACK_PRIORITY_BEFORE * @see EO_CALLBACK_PRIORITY_DEFAULT */ typedef short Eo_Callback_Priority; /** * @def EO_CALLBACK_STOP * Stop calling callbacks for the even of which the callback was called for. * @see EO_CALLBACK_CONTINUE */ #define EO_CALLBACK_STOP EINA_FALSE /** * @def EO_CALLBACK_CONTINUE * Continue calling callbacks for the even of which the callback was called for. * @see EO_CALLBACK_STOP */ #define EO_CALLBACK_CONTINUE EINA_TRUE /** * @typedef Eo_Event_Cb * * An event callback prototype. * * @param data The user data registered with the callback. * @param obj The object which initiated the event. * @param desc The event's description. * @param event_info additional data passed with the event. * @return #EO_CALLBACK_STOP to stop calling additional callbacks for the event, #EO_CALLBACK_CONTINUE to continue. */ typedef Eina_Bool (*Eo_Event_Cb)(void *data, Eo *obj, const Eo_Event_Description *desc, void *event_info); /** * @def eo_event_callback_forwarder_add * @brief Add an event callback forwarder for an event and an object. * @param[in] desc The description of the event to listen to. * @param[in] new_obj The object to emit events from. * * @see eo_event_callback_forwarder_del() */ #define eo_event_callback_forwarder_add(desc, new_obj) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_CALLBACK_FORWARDER_ADD), EO_TYPECHECK(const Eo_Event_Description *, desc), EO_TYPECHECK(Eo *, new_obj) /** * @def eo_event_callback_forwarder_del * @brief Remove an event callback forwarder for an event and an object. * @param[in] desc The description of the event to listen to. * @param[in] new_obj The object to emit events from. * * @see eo_event_callback_forwarder_add() */ #define eo_event_callback_forwarder_del(desc, new_obj) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_CALLBACK_FORWARDER_DEL), EO_TYPECHECK(const Eo_Event_Description *, desc), EO_TYPECHECK(Eo *, new_obj) /** * @def eo_event_freeze * @brief freeze events of object. * * Prevents event callbacks from being called for the object. * * @see #eo_event_thaw */ #define eo_event_freeze() EO_BASE_ID(EO_BASE_SUB_ID_EVENT_FREEZE) /** * @def eo_event_thaw * @brief thaw events of object. * * Lets event callbacks be called for the object. * * @see #eo_event_freeze */ #define eo_event_thaw() EO_BASE_ID(EO_BASE_SUB_ID_EVENT_THAW) /** * @def eo_event_freeze_get * @brief return freeze events of object. * * @param[out] fcount The event freeze count of the object. * * Return event freeze count. * * @see #eo_event_freeze * @see #eo_event_thaw */ #define eo_event_freeze_get(fcount) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_FREEZE_GET), EO_TYPECHECK(int *, fcount) /** * @def eo_event_global_freeze * @brief freeze events of object. * * Prevents event callbacks from being called for the object. * * @see #eo_event_freeze * @see #eo_event_global_thaw */ #define eo_event_global_freeze() EO_BASE_ID(EO_BASE_SUB_ID_EVENT_GLOBAL_FREEZE) /** * @def eo_event_global_thaw * @brief thaw events of object. * * Lets event callbacks be called for the object. * * @see #eo_event_thaw * @see #eo_event_global_freeze */ #define eo_event_global_thaw() EO_BASE_ID(EO_BASE_SUB_ID_EVENT_GLOBAL_THAW) /** * @def eo_event_global_freeze_get * @brief return freeze events of object. * * @param[out] fcount The event freeze count of the object. * * Return event freeze count. * * @see #eo_event_freeze_get * @see #eo_event_global_freeze * @see #eo_event_global_thaw */ #define eo_event_global_freeze_get(fcount) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_GLOBAL_FREEZE_GET), EO_TYPECHECK(int *, fcount) /** * @def eo_event_callback_add(obj, desc, cb, data) * Add a callback for an event. * @param[in] desc The description of the event to listen to. * @param[in] cb the callback to call. * @param[in] data additional data to pass to the callback. * * callbacks of the same priority are called in reverse order of creation. * * @see eo_event_callback_priority_add() */ #define eo_event_callback_add(desc, cb, data) \ eo_event_callback_priority_add(desc, \ EO_CALLBACK_PRIORITY_DEFAULT, cb, data) /** * @def eo_event_callback_priority_add * @brief Add a callback for an event with a specific priority. * @param[in] desc The description of the event to listen to. * @param[in] priority The priority of the callback. * @param[in] cb the callback to call. * @param[in] data additional data to pass to the callback. * * callbacks of the same priority are called in reverse order of creation. * * @see #eo_event_callback_add */ #define eo_event_callback_priority_add(desc, priority, cb, data) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_CALLBACK_PRIORITY_ADD), EO_TYPECHECK(const Eo_Event_Description *, desc), EO_TYPECHECK(Eo_Callback_Priority, priority), EO_TYPECHECK(Eo_Event_Cb, cb), EO_TYPECHECK(const void *, data) /** * @def eo_event_callback_del * @brief Del a callback with a specific data associated to it for an event. * @param[in] desc The description of the event to listen to. * @param[in] func the callback to delete. * @param[in] user_data The data to compare. * */ #define eo_event_callback_del(desc, func, user_data) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_CALLBACK_DEL), EO_TYPECHECK(const Eo_Event_Description *, desc), EO_TYPECHECK(Eo_Event_Cb, func), EO_TYPECHECK(const void *, user_data) /** * @def eo_event_callback_call * @brief Call the callbacks for an event of an object. * @param[in] desc The description of the event to call. * @param[in] event_info Extra event info to pass to the callbacks. * @param[out] aborted @c EINA_TRUE if one of the callbacks aborted the call, @c EINA_FALSE otherwise. */ #define eo_event_callback_call(desc, event_info, aborted) EO_BASE_ID(EO_BASE_SUB_ID_EVENT_CALLBACK_CALL), EO_TYPECHECK(const Eo_Event_Description *, desc), EO_TYPECHECK(const void *, event_info), EO_TYPECHECK(Eina_Bool *, aborted) /** * @} */ /** * @var _EO_EV_CALLBACK_ADD * see EO_EV_CALLBACK_ADD */ EAPI extern const Eo_Event_Description _EO_EV_CALLBACK_ADD; /** * @def EO_EV_CALLBACK_ADD * The event description (of type #Eo_Event_Description) for * The "Callback listener added" event. */ #define EO_EV_CALLBACK_ADD (&(_EO_EV_CALLBACK_ADD)) /** * @var _EO_EV_CALLBACK_DEL * see EO_EV_CALLBACK_DEL */ EAPI extern const Eo_Event_Description _EO_EV_CALLBACK_DEL; /** * @def EO_EV_CALLBACK_DEL * The event description (of type #Eo_Event_Description) for * The "Callback listener deleted" event. */ #define EO_EV_CALLBACK_DEL (&(_EO_EV_CALLBACK_DEL)) /** * @var _EO_EV_DEL * see #EO_EV_DEL */ EAPI extern const Eo_Event_Description _EO_EV_DEL; /** * @def EO_EV_DEL * Object is being deleted. */ #define EO_EV_DEL (&(_EO_EV_DEL)) /** * @} */ /** * @} */ #ifdef __cplusplus } #endif #endif