/** * @file lv_slider.c * */ /********************* * INCLUDES *********************/ #include "lv_conf.h" #if USE_LV_SLIDER != 0 #include "lv_slider.h" #include "misc/math/math_base.h" #include "../lv_draw/lv_draw.h" /********************* * DEFINES *********************/ /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static bool lv_slider_design(lv_obj_t * slider, const area_t * mask, lv_design_mode_t mode); /********************** * STATIC VARIABLES **********************/ static lv_design_f_t ancestor_design_f; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ /*----------------- * Create function *-----------------*/ /** * Create a slider objects * @param par pointer to an object, it will be the parent of the new slider * @param copy pointer to a slider object, if not NULL then the new object will be copied from it * @return pointer to the created slider */ lv_obj_t * lv_slider_create(lv_obj_t * par, lv_obj_t * copy) { /*Create the ancestor slider*/ /*TODO modify it to the ancestor create function */ lv_obj_t * new_slider = lv_bar_create(par, copy); dm_assert(new_slider); /*Allocate the slider type specific extended data*/ lv_slider_ext_t * ext = lv_obj_alloc_ext(new_slider, sizeof(lv_slider_ext_t)); dm_assert(ext); /*Initialize the allocated 'ext' */ ext->cb = NULL; ext->tmp_value = ext->bar.min_value; ext->style_knob = lv_style_get(LV_STYLE_PRETTY_COLOR, NULL); /* Save the bar design function. * It will be used in the sllider design function*/ if(ancestor_design_f == NULL) ancestor_design_f = lv_obj_get_design_f(new_slider); /*The signal and design functions are not copied so set them here*/ lv_obj_set_signal_f(new_slider, lv_slider_signal); lv_obj_set_design_f(new_slider, lv_slider_design); /*Init the new slider slider*/ if(copy == NULL) { lv_obj_set_click(new_slider, true); } /*Copy an existing slider*/ else { lv_slider_ext_t * copy_ext = lv_obj_get_ext(copy); /*Refresh the style with new signal function*/ lv_obj_refr_style(new_slider); } return new_slider; } /** * Signal function of the slider * @param slider pointer to a slider object * @param sign a signal type from lv_signal_t enum * @param param pointer to a signal specific variable * @return true: the object is still valid (not deleted), false: the object become invalid */ bool lv_slider_signal(lv_obj_t * slider, lv_signal_t sign, void * param) { bool valid; /* Include the ancient signal function */ /* TODO update it to the ancestor's signal function*/ valid = lv_bar_signal(slider, sign, param); /* The object can be deleted so check its validity and then * make the object specific signal handling */ if(valid != false) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); // lv_bars_t * style = lv_obj_get_style(slider); point_t p; cord_t w = lv_obj_get_width(slider); cord_t h = lv_obj_get_height(slider); int16_t tmp; switch(sign) { case LV_SIGNAL_PRESSED: ext->tmp_value = lv_bar_get_value(slider); break; case LV_SIGNAL_PRESSING: lv_dispi_get_point(param, &p); if(w > h) { p.x -= slider->cords.x1 + h / 2; /*Modify the point to shift with half knob (important on the start and end)*/ tmp = (int32_t) ((int32_t) p.x * (ext->bar.max_value - ext->bar.min_value + 1)) / (w - h); } else { p.y -= slider->cords.y1 + w / 2; /*Modify the point to shift with half knob (important on the start and end)*/ tmp = (int32_t) ((int32_t) p.y * (ext->bar.max_value - ext->bar.min_value + 1)) / (h - w); tmp = ext->bar.max_value - tmp; /*Invert he value: small value means higher y*/ } lv_bar_set_value(slider, tmp); break; case LV_SIGNAL_PRESS_LOST: lv_bar_set_value(slider, ext->tmp_value); break; case LV_SIGNAL_RELEASED: ext->tmp_value = lv_bar_get_value(slider); lv_bar_set_value(slider, ext->tmp_value); if(ext->cb != NULL) ext->cb(slider, param); break; default: break; } } return valid; } /*===================== * Setter functions *====================*/ /** * Set a function which will be called when a new value is set on the slider * @param slider pointer to slider object * @param cb a callback function */ void lv_slider_set_action(lv_obj_t * slider, lv_action_t cb) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); ext->cb = cb; } /** * Set the style of knob on a slider * @param slider pointer to slider object * @param style pointer the new knob style */ void lv_slider_set_sytle_knob(lv_obj_t * slider, lv_style_t * style) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); ext->style_knob = style; lv_obj_inv(slider); } /*===================== * Getter functions *====================*/ /** * Get the slider callback function * @param slider pointer to slider object * @return the callback function */ lv_action_t lv_slider_get_action(lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); return ext->cb; } /** * Get the style of knob on a slider * @param slider pointer to slider object * @return pointer the new knob style */ lv_style_t * lv_slider_get_sytle_knob(lv_obj_t * slider) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); return ext->style_knob; } /********************** * STATIC FUNCTIONS **********************/ /** * Handle the drawing related tasks of the sliders * @param slider pointer to an object * @param mask the object will be drawn only in this area * @param mode LV_DESIGN_COVER_CHK: only check if the object fully covers the 'mask_p' area * (return 'true' if yes) * LV_DESIGN_DRAW: draw the object (always return 'true') * LV_DESIGN_DRAW_POST: drawing after every children are drawn * @param return true/false, depends on 'mode' */ static bool lv_slider_design(lv_obj_t * slider, const area_t * mask, lv_design_mode_t mode) { /*Return false if the object is not covers the mask_p area*/ if(mode == LV_DESIGN_COVER_CHK) { return ancestor_design_f(slider, mask, mode); } /*Draw the object*/ else if(mode == LV_DESIGN_DRAW_MAIN) { lv_slider_ext_t * ext = lv_obj_get_ext(slider); cord_t w = lv_obj_get_width(slider); cord_t h = lv_obj_get_height(slider); /*Modify the bar act_value to keep until the farer edge of knob*/ int16_t tmp; int16_t range = ext->bar.max_value - ext->bar.min_value; if(w >= h) { int16_t knob_value = (int32_t)((int32_t)h * range) / w; tmp = (int32_t)((int32_t)(range - (ext->bar.act_value - ext->bar.min_value)) * knob_value) / range; ext->bar.act_value +=tmp; } else { int16_t knob_value = (int32_t)((int32_t)w * range) / h; tmp = (int32_t)((int32_t)(range - (ext->bar.act_value - ext->bar.min_value)) * knob_value) / range; ext->bar.act_value +=tmp; } ancestor_design_f(slider, mask, mode); ext->bar.act_value -=tmp; area_t knob_area; area_cpy(&knob_area, &slider->cords); if(w >= h) { knob_area.x2 = (int32_t) ((int32_t)(w - h) * ext->bar.act_value) / range; knob_area.x2 += knob_area.x1; knob_area.x2 += h; knob_area.x1 = knob_area.x2 - h; } else { knob_area.y1 = (int32_t) ((int32_t)(h - w) * ext->bar.act_value) / range; knob_area.y1 = knob_area.y2 - knob_area.y1; knob_area.y1 -= w; knob_area.y2 = knob_area.y1 + w; } lv_draw_rect(&knob_area, mask, ext->style_knob); } /*Post draw when the children are drawn*/ else if(mode == LV_DESIGN_DRAW_POST) { } return true; } #endif