/** * @file lv_cont.h * */ #ifndef LV_CONT_H #define LV_CONT_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "../lv_conf_internal.h" #if LV_USE_CONT != 0 #include "../lv_core/lv_obj.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /** Container layout options*/ enum { LV_LAYOUT_OFF = 0, /**< No layout */ LV_LAYOUT_CENTER, /**< Center objects */ /** * COLUMN: * - Place the object below each other * - Keep `pad_top` space on the top * - Keep `pad_inner` space between the objects */ LV_LAYOUT_COLUMN_LEFT, /**< Column left align*/ LV_LAYOUT_COLUMN_MID, /**< Column middle align*/ LV_LAYOUT_COLUMN_RIGHT, /**< Column right align*/ /** * ROW: * - Place the object next to each other * - Keep `pad_left` space on the left * - Keep `pad_inner` space between the objects * - If the object which applies the layout has `base_dir == LV_BIDI_DIR_RTL` * the row will start from the right applying `pad.right` space */ LV_LAYOUT_ROW_TOP, /**< Row top align*/ LV_LAYOUT_ROW_MID, /**< Row middle align*/ LV_LAYOUT_ROW_BOTTOM, /**< Row bottom align*/ /** * PRETTY: * - Place the object next to each other * - If there is no more space start a new row * - Respect `pad_left` and `pad_right` when determining the available space in a row * - Keep `pad_inner` space between the objects in the same row * - Keep `pad_inner` space between the objects in rows * - Divide the remaining horizontal space equally */ LV_LAYOUT_PRETTY_TOP, /**< Row top align*/ LV_LAYOUT_PRETTY_MID, /**< Row middle align*/ LV_LAYOUT_PRETTY_BOTTOM, /**< Row bottom align*/ /** * GRID * - Place the object next to each other * - If there is no more space start a new row * - Respect `pad_left` and `pad_right` when determining the available space in a row * - Keep `pad_inner` space between the objects in the same row * - Keep `pad_inner` space between the objects in rows * - Unlike `PRETTY`, `GRID` always keep `pad_inner` space horizontally between objects * so it doesn't divide the remaining horizontal space equally */ LV_LAYOUT_GRID, /**< Align same-sized object into a grid*/ _LV_LAYOUT_LAST }; typedef uint8_t lv_layout_t; /** * How to resize the container around the children. */ enum { LV_FIT_NONE, /**< Do not change the size automatically*/ LV_FIT_TIGHT, /**< Shrink wrap around the children */ LV_FIT_PARENT, /**< Align the size to the parent's edge*/ LV_FIT_MAX, /**< Align the size to the parent's edge first but if there is an object out of it then get larger */ _LV_FIT_LAST }; typedef uint8_t lv_fit_t; typedef struct { /*Inherited from 'base_obj' so no inherited ext. */ /*Ext. of ancestor*/ /*New data for this type */ lv_layout_t layout : 4; /*A layout from 'lv_layout_t' enum*/ lv_fit_t fit_left : 2; /*A fit type from `lv_fit_t` enum */ lv_fit_t fit_right : 2; /*A fit type from `lv_fit_t` enum */ lv_fit_t fit_top : 2; /*A fit type from `lv_fit_t` enum */ lv_fit_t fit_bottom : 2; /*A fit type from `lv_fit_t` enum */ } lv_cont_ext_t; /*Part of the container*/ enum { LV_CONT_PART_MAIN = LV_OBJ_PART_MAIN, _LV_CONT_PART_VIRTUAL_LAST = _LV_OBJ_PART_VIRTUAL_LAST, _LV_CONT_PART_REAL_LAST = _LV_OBJ_PART_REAL_LAST, }; /********************** * GLOBAL PROTOTYPES **********************/ /** * Create a container objects * @param par pointer to an object, it will be the parent of the new container * @param copy pointer to a container object, if not NULL then the new object will be copied from it * @return pointer to the created container */ lv_obj_t *lv_cont_create(lv_obj_t *par, const lv_obj_t *copy); /*===================== * Setter functions *====================*/ /** * Set a layout on a container * @param cont pointer to a container object * @param layout a layout from 'lv_cont_layout_t' */ void lv_cont_set_layout(lv_obj_t *cont, lv_layout_t layout); /** * Set the fit policy in all 4 directions separately. * It tell how to change the container's size automatically. * @param cont pointer to a container object * @param left left fit policy from `lv_fit_t` * @param right right fit policy from `lv_fit_t` * @param top top fit policy from `lv_fit_t` * @param bottom bottom fit policy from `lv_fit_t` */ void lv_cont_set_fit4(lv_obj_t *cont, lv_fit_t left, lv_fit_t right, lv_fit_t top, lv_fit_t bottom); /** * Set the fit policy horizontally and vertically separately. * It tells how to change the container's size automatically. * @param cont pointer to a container object * @param hor horizontal fit policy from `lv_fit_t` * @param ver vertical fit policy from `lv_fit_t` */ static inline void lv_cont_set_fit2(lv_obj_t *cont, lv_fit_t hor, lv_fit_t ver) { lv_cont_set_fit4(cont, hor, hor, ver, ver); } /** * Set the fit policy in all 4 direction at once. * It tells how to change the container's size automatically. * @param cont pointer to a container object * @param fit fit policy from `lv_fit_t` */ static inline void lv_cont_set_fit(lv_obj_t *cont, lv_fit_t fit) { lv_cont_set_fit4(cont, fit, fit, fit, fit); } /*===================== * Getter functions *====================*/ /** * Get the layout of a container * @param cont pointer to container object * @return the layout from 'lv_cont_layout_t' */ lv_layout_t lv_cont_get_layout(const lv_obj_t *cont); /** * Get left fit mode of a container * @param cont pointer to a container object * @return an element of `lv_fit_t` */ lv_fit_t lv_cont_get_fit_left(const lv_obj_t *cont); /** * Get right fit mode of a container * @param cont pointer to a container object * @return an element of `lv_fit_t` */ lv_fit_t lv_cont_get_fit_right(const lv_obj_t *cont); /** * Get top fit mode of a container * @param cont pointer to a container object * @return an element of `lv_fit_t` */ lv_fit_t lv_cont_get_fit_top(const lv_obj_t *cont); /** * Get bottom fit mode of a container * @param cont pointer to a container object * @return an element of `lv_fit_t` */ lv_fit_t lv_cont_get_fit_bottom(const lv_obj_t *cont); /********************** * MACROS **********************/ #endif /*LV_USE_CONT*/ #ifdef __cplusplus } /* extern "C" */ #endif #endif /*LV_CONT_H*/