/** * @file lv_area.h * */ #ifndef LV_AREA_H #define LV_AREA_H #ifdef __cplusplus extern "C" { #endif /********************* * INCLUDES *********************/ #include "../lv_conf_internal.h" #include #include /********************* * DEFINES *********************/ #if LV_USE_LARGE_COORD typedef int32_t lv_coord_t; #else typedef int16_t lv_coord_t; #endif /********************** * TYPEDEFS **********************/ /** * Represents a point on the screen. */ typedef struct { lv_coord_t x; lv_coord_t y; } lv_point_t; /** Represents an area of the screen.*/ typedef struct { lv_coord_t x1; lv_coord_t y1; lv_coord_t x2; lv_coord_t y2; } lv_area_t; /** Alignments*/ enum { LV_ALIGN_DEFAULT = 0, LV_ALIGN_TOP_LEFT, LV_ALIGN_TOP_MID, LV_ALIGN_TOP_RIGHT, LV_ALIGN_BOTTOM_LEFT, LV_ALIGN_BOTTOM_MID, LV_ALIGN_BOTTOM_RIGHT, LV_ALIGN_LEFT_MID, LV_ALIGN_RIGHT_MID, LV_ALIGN_CENTER, LV_ALIGN_OUT_TOP_LEFT, LV_ALIGN_OUT_TOP_MID, LV_ALIGN_OUT_TOP_RIGHT, LV_ALIGN_OUT_BOTTOM_LEFT, LV_ALIGN_OUT_BOTTOM_MID, LV_ALIGN_OUT_BOTTOM_RIGHT, LV_ALIGN_OUT_LEFT_TOP, LV_ALIGN_OUT_LEFT_MID, LV_ALIGN_OUT_LEFT_BOTTOM, LV_ALIGN_OUT_RIGHT_TOP, LV_ALIGN_OUT_RIGHT_MID, LV_ALIGN_OUT_RIGHT_BOTTOM, }; typedef uint8_t lv_align_t; enum { LV_DIR_NONE = 0x00, LV_DIR_LEFT = (1 << 0), LV_DIR_RIGHT = (1 << 1), LV_DIR_TOP = (1 << 2), LV_DIR_BOTTOM = (1 << 3), LV_DIR_HOR = LV_DIR_LEFT | LV_DIR_RIGHT, LV_DIR_VER = LV_DIR_TOP | LV_DIR_BOTTOM, LV_DIR_ALL = LV_DIR_HOR | LV_DIR_VER, }; typedef uint8_t lv_dir_t; /********************** * GLOBAL PROTOTYPES **********************/ /** * Initialize an area * @param area_p pointer to an area * @param x1 left coordinate of the area * @param y1 top coordinate of the area * @param x2 right coordinate of the area * @param y2 bottom coordinate of the area */ void lv_area_set(lv_area_t * area_p, lv_coord_t x1, lv_coord_t y1, lv_coord_t x2, lv_coord_t y2); /** * Copy an area * @param dest pointer to the destination area * @param src pointer to the source area */ inline static void lv_area_copy(lv_area_t * dest, const lv_area_t * src) { dest->x1 = src->x1; dest->y1 = src->y1; dest->x2 = src->x2; dest->y2 = src->y2; } /** * Get the width of an area * @param area_p pointer to an area * @return the width of the area (if x1 == x2 -> width = 1) */ static inline lv_coord_t lv_area_get_width(const lv_area_t * area_p) { return (lv_coord_t)(area_p->x2 - area_p->x1 + 1); } /** * Get the height of an area * @param area_p pointer to an area * @return the height of the area (if y1 == y2 -> height = 1) */ static inline lv_coord_t lv_area_get_height(const lv_area_t * area_p) { return (lv_coord_t)(area_p->y2 - area_p->y1 + 1); } /** * Set the width of an area * @param area_p pointer to an area * @param w the new width of the area (w == 1 makes x1 == x2) */ void lv_area_set_width(lv_area_t * area_p, lv_coord_t w); /** * Set the height of an area * @param area_p pointer to an area * @param h the new height of the area (h == 1 makes y1 == y2) */ void lv_area_set_height(lv_area_t * area_p, lv_coord_t h); /** * Set the position of an area (width and height will be kept) * @param area_p pointer to an area * @param x the new x coordinate of the area * @param y the new y coordinate of the area */ void _lv_area_set_pos(lv_area_t * area_p, lv_coord_t x, lv_coord_t y); /** * Return with area of an area (x * y) * @param area_p pointer to an area * @return size of area */ uint32_t lv_area_get_size(const lv_area_t * area_p); void lv_area_increase(lv_area_t * area, lv_coord_t w_extra, lv_coord_t h_extra); void lv_area_move(lv_area_t * area, lv_coord_t x_ofs, lv_coord_t y_ofs); /** * Get the common parts of two areas * @param res_p pointer to an area, the result will be stored her * @param a1_p pointer to the first area * @param a2_p pointer to the second area * @return false: the two area has NO common parts, res_p is invalid */ bool _lv_area_intersect(lv_area_t * res_p, const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Join two areas into a third which involves the other two * @param res_p pointer to an area, the result will be stored here * @param a1_p pointer to the first area * @param a2_p pointer to the second area */ void _lv_area_join(lv_area_t * a_res_p, const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Check if a point is on an area * @param a_p pointer to an area * @param p_p pointer to a point * @param radius radius of area (e.g. for rounded rectangle) * @return false:the point is out of the area */ bool _lv_area_is_point_on(const lv_area_t * a_p, const lv_point_t * p_p, lv_coord_t radius); /** * Check if two area has common parts * @param a1_p pointer to an area. * @param a2_p pointer to an other area * @return false: a1_p and a2_p has no common parts */ bool _lv_area_is_on(const lv_area_t * a1_p, const lv_area_t * a2_p); /** * Check if an area is fully on an other * @param ain_p pointer to an area which could be in 'aholder_p' * @param aholder_p pointer to an area which could involve 'ain_p' * @param radius radius of `aholder_p` (e.g. for rounded rectangle) * @return true: `ain_p` is fully inside `aholder_p` */ bool _lv_area_is_in(const lv_area_t * ain_p, const lv_area_t * aholder_p, lv_coord_t radius); /** * Check if an area is fully out of an other * @param aout_p pointer to an area which could be in 'aholder_p' * @param aholder_p pointer to an area which could involve 'ain_p' * @param radius radius of `aholder_p` (e.g. for rounded rectangle) * @return true: `aout_p` is fully outside `aholder_p` */ bool _lv_area_is_out(const lv_area_t * aout_p, const lv_area_t * aholder_p, lv_coord_t radius); /** * Check if 2 area is the same * @param a pointer to an area * @param b pointer to another area */ bool _lv_area_is_equal(const lv_area_t * a, const lv_area_t * b); /** * Align an area to an other * @param base an are where the other will be aligned * @param to_align the area to align * @param align `LV_ALIGN_...` */ void lv_area_align(const lv_area_t * base, lv_area_t * to_align, lv_align_t align, lv_coord_t ofs_x, lv_coord_t ofs_y); void lv_point_transform(lv_point_t * p, int32_t angle, int32_t zoom, const lv_point_t * pivot); /********************** * MACROS **********************/ #if LV_USE_LARGE_COORD #define _LV_COORD_TYPE_SHIFT (29U) #else #define _LV_COORD_TYPE_SHIFT (13U) #endif #define _LV_COORD_TYPE_MASK (3 << _LV_COORD_TYPE_SHIFT) #define _LV_COORD_TYPE(x) ((x) & _LV_COORD_TYPE_MASK) /*Extract type specifiers*/ #define _LV_COORD_PLAIN(x) ((x) & ~_LV_COORD_TYPE_MASK) /*Remove type specifiers*/ #define _LV_COORD_TYPE_PX (0 << _LV_COORD_TYPE_SHIFT) #define _LV_COORD_TYPE_SPEC (1 << _LV_COORD_TYPE_SHIFT) #define _LV_COORD_TYPE_PX_NEG (3 << _LV_COORD_TYPE_SHIFT) #define LV_COORD_IS_PX(x) (_LV_COORD_TYPE(x) == _LV_COORD_TYPE_PX || \ _LV_COORD_TYPE(x) == _LV_COORD_TYPE_PX_NEG ? true : false) #define LV_COORD_IS_SPEC(x) (_LV_COORD_TYPE(x) == _LV_COORD_TYPE_SPEC ? true : false) #define LV_COORD_SET_SPEC(x) ((x) | _LV_COORD_TYPE_SPEC) /*Special coordinates*/ #define LV_PCT(x) (x < 0 ? LV_COORD_SET_SPEC(1000 - (x)) : LV_COORD_SET_SPEC(x)) #define LV_COORD_IS_PCT(x) ((LV_COORD_IS_SPEC(x) && _LV_COORD_PLAIN(x) <= 2000) ? true : false) #define LV_COORD_GET_PCT(x) (_LV_COORD_PLAIN(x) > 1000 ? 1000 - _LV_COORD_PLAIN(x) : _LV_COORD_PLAIN(x)) #define LV_SIZE_CONTENT LV_COORD_SET_SPEC(2001) LV_EXPORT_CONST_INT(LV_SIZE_CONTENT); /*Max coordinate value*/ #define LV_COORD_MAX ((1 << _LV_COORD_TYPE_SHIFT) - 1) #define LV_COORD_MIN (-LV_COORD_MAX) LV_EXPORT_CONST_INT(LV_COORD_MAX); LV_EXPORT_CONST_INT(LV_COORD_MIN); /** * Convert a percentage value to `lv_coord_t`. * Percentage values are stored in special range * @param x the percentage (0..1000) * @return a coordinate that stores the percentage */ static inline lv_coord_t lv_pct(lv_coord_t x) { return LV_PCT(x); } #ifdef __cplusplus } /*extern "C"*/ #endif #endif