hekate/bdk/libs/lvgl/lv_misc/lv_area.c

/**
 * @file lv_area.c
 *
 */

/*********************
 *      INCLUDES
 *********************/
#include "lv_area.h"
#include "lv_math.h"

/*********************
 *      DEFINES
 *********************/

/**********************
 *      TYPEDEFS
 **********************/

/**********************
 *  STATIC PROTOTYPES
 **********************/

/**********************
 *  STATIC VARIABLES
 **********************/

/**********************
 *      MACROS
 **********************/

/**********************
 *   GLOBAL FUNCTIONS
 **********************/

/**
 * 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)
{
    area_p->x1 = x1;
    area_p->y1 = y1;
    area_p->x2 = x2;
    area_p->y2 = y2;
}

/**
 * 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)
{
    area_p->x2 = area_p->x1 + w - 1;
}

/**
 * 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)
{
    area_p->y2 = area_p->y1 + h - 1;
}

/**
 * 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)
{
    lv_coord_t w = lv_area_get_width(area_p);
    lv_coord_t h = lv_area_get_height(area_p);
    area_p->x1 = x;
    area_p->y1 = y;
    lv_area_set_width(area_p, w);
    lv_area_set_height(area_p, h);
}

/**
 * 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)
{
    uint32_t size;

    size = (uint32_t)(area_p->x2 - area_p->x1 + 1) *
           (area_p->y2 - area_p->y1 + 1);

    return size;
}

/**
 * Get the common parts of two areas
 * @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
 * @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)
{
    /* Get the smaller area from 'a1_p' and 'a2_p' */
    res_p->x1 = LV_MATH_MAX(a1_p->x1, a2_p->x1);
    res_p->y1 = LV_MATH_MAX(a1_p->y1, a2_p->y1);
    res_p->x2 = LV_MATH_MIN(a1_p->x2, a2_p->x2);
    res_p->y2 = LV_MATH_MIN(a1_p->y2, a2_p->y2);

    /*If x1 or y1 greater then x2 or y2 then the areas union is empty*/
    bool union_ok = true;
    if((res_p->x1 > res_p->x2) ||
            (res_p->y1 > res_p->y2)) {
        union_ok = false;
    }

    return union_ok;
}
/**
 * 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)
{
    a_res_p->x1 = LV_MATH_MIN(a1_p->x1, a2_p->x1);
    a_res_p->y1 = LV_MATH_MIN(a1_p->y1, a2_p->y1);
    a_res_p->x2 = LV_MATH_MAX(a1_p->x2, a2_p->x2);
    a_res_p->y2 = LV_MATH_MAX(a1_p->y2, a2_p->y2);
}

/**
 * Check if a point is on an area
 * @param a_p pointer to an area
 * @param p_p pointer to a point
 * @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)
{
    bool is_on = false;

    if((p_p->x >= a_p->x1 && p_p->x <= a_p->x2) &&
            ((p_p->y >= a_p->y1 && p_p->y <= a_p->y2))) {
        is_on = true;
    }

    return is_on;
}

/**
 * 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)
{
    if((a1_p->x1 <= a2_p->x2) &&
            (a1_p->x2 >= a2_p->x1) &&
            (a1_p->y1 <= a2_p->y2) &&
            (a1_p->y2 >= a2_p->y1)) {
        return true;
    } else {
        return false;
    }

}

/**
 * Check if an area is fully on an other
 * @param ain_p pointer to an area which could be in 'aholder_p'
 * @param aholder pointer to an area which could involve 'ain_p'
 * @return
 */
bool lv_area_is_in(const lv_area_t * ain_p, const lv_area_t * aholder_p)
{
    bool is_in = false;

    if(ain_p->x1  >= aholder_p->x1 &&
            ain_p->y1  >= aholder_p->y1 &&
            ain_p->x2  <= aholder_p->x2 &&
            ain_p->y2  <= aholder_p->y2) {
        is_in = true;
    }

    return is_in;
}

/**********************
 *   STATIC FUNCTIONS
 **********************/
[Nyx] Introducing hekate GUI, named Nyx! Version 0.8.0. Expect dragons! 2019-06-30 01:03:00 +00:00			`/**`
			`* @file lv_area.c`
			`*`
			`*/`

			`/*********************`
			`* INCLUDES`
			`*********************/`
			`#include "lv_area.h"`
			`#include "lv_math.h"`

			`/*********************`
			`* DEFINES`
			`*********************/`

			`/**********************`
			`* TYPEDEFS`
			`**********************/`

			`/**********************`
			`* STATIC PROTOTYPES`
			`**********************/`

			`/**********************`
			`* STATIC VARIABLES`
			`**********************/`

			`/**********************`
			`* MACROS`
			`**********************/`

			`/**********************`
			`* GLOBAL FUNCTIONS`
			`**********************/`

			`/**`
			`* 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)`
			`{`
			`area_p->x1 = x1;`
			`area_p->y1 = y1;`
			`area_p->x2 = x2;`
			`area_p->y2 = y2;`
			`}`

			`/**`
			`* 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)`
			`{`
			`area_p->x2 = area_p->x1 + w - 1;`
			`}`

			`/**`
			`* 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)`
			`{`
			`area_p->y2 = area_p->y1 + h - 1;`
			`}`

			`/**`
			`* 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)`
			`{`
			`lv_coord_t w = lv_area_get_width(area_p);`
			`lv_coord_t h = lv_area_get_height(area_p);`
			`area_p->x1 = x;`
			`area_p->y1 = y;`
			`lv_area_set_width(area_p, w);`
			`lv_area_set_height(area_p, h);`
			`}`

			`/**`
			`* 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)`
			`{`
			`uint32_t size;`

			`size = (uint32_t)(area_p->x2 - area_p->x1 + 1) *`
			`(area_p->y2 - area_p->y1 + 1);`

			`return size;`
			`}`

			`/**`
			`* Get the common parts of two areas`
			`* @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`
			`* @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)`
			`{`
			`/* Get the smaller area from 'a1_p' and 'a2_p' */`
			`res_p->x1 = LV_MATH_MAX(a1_p->x1, a2_p->x1);`
			`res_p->y1 = LV_MATH_MAX(a1_p->y1, a2_p->y1);`
			`res_p->x2 = LV_MATH_MIN(a1_p->x2, a2_p->x2);`
			`res_p->y2 = LV_MATH_MIN(a1_p->y2, a2_p->y2);`

			`/If x1 or y1 greater then x2 or y2 then the areas union is empty/`
			`bool union_ok = true;`
			`if((res_p->x1 > res_p->x2) \|\|`
			`(res_p->y1 > res_p->y2)) {`
			`union_ok = false;`
			`}`

			`return union_ok;`
			`}`
			`/**`
			`* 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)`
			`{`
			`a_res_p->x1 = LV_MATH_MIN(a1_p->x1, a2_p->x1);`
			`a_res_p->y1 = LV_MATH_MIN(a1_p->y1, a2_p->y1);`
			`a_res_p->x2 = LV_MATH_MAX(a1_p->x2, a2_p->x2);`
			`a_res_p->y2 = LV_MATH_MAX(a1_p->y2, a2_p->y2);`
			`}`

			`/**`
			`* Check if a point is on an area`
			`* @param a_p pointer to an area`
			`* @param p_p pointer to a point`
			`* @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)`
			`{`
			`bool is_on = false;`

			`if((p_p->x >= a_p->x1 && p_p->x <= a_p->x2) &&`
			`((p_p->y >= a_p->y1 && p_p->y <= a_p->y2))) {`
			`is_on = true;`
			`}`

			`return is_on;`
			`}`

			`/**`
			`* 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)`
			`{`
			`if((a1_p->x1 <= a2_p->x2) &&`
			`(a1_p->x2 >= a2_p->x1) &&`
			`(a1_p->y1 <= a2_p->y2) &&`
			`(a1_p->y2 >= a2_p->y1)) {`
			`return true;`
			`} else {`
			`return false;`
			`}`

			`}`

			`/**`
			`* Check if an area is fully on an other`
			`* @param ain_p pointer to an area which could be in 'aholder_p'`
			`* @param aholder pointer to an area which could involve 'ain_p'`
			`* @return`
			`*/`
			`bool lv_area_is_in(const lv_area_t * ain_p, const lv_area_t * aholder_p)`
			`{`
			`bool is_in = false;`

			`if(ain_p->x1 >= aholder_p->x1 &&`
			`ain_p->y1 >= aholder_p->y1 &&`
			`ain_p->x2 <= aholder_p->x2 &&`
			`ain_p->y2 <= aholder_p->y2) {`
			`is_in = true;`
			`}`

			`return is_in;`
			`}`

			`/**********************`
			`* STATIC FUNCTIONS`
			`**********************/`