/** * @file lv_meter.c * */ /********************* * INCLUDES *********************/ #include "lv_meter.h" #if LV_USE_METER != 0 #include "../../../misc/lv_assert.h" /********************* * DEFINES *********************/ #define MY_CLASS &lv_meter_class /********************** * TYPEDEFS **********************/ /********************** * STATIC PROTOTYPES **********************/ static void lv_meter_constructor(const lv_obj_class_t * class_p, lv_obj_t * obj); static void lv_meter_destructor(const lv_obj_class_t * class_p, lv_obj_t * obj); static void lv_meter_event(const lv_obj_class_t * class_p, lv_event_t * e); static void draw_arcs(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area); static void draw_ticks_and_labels(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area); static void draw_needles(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area); static void inv_arc(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t old_value, int32_t new_value); static void inv_line(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t value); /********************** * STATIC VARIABLES **********************/ const lv_obj_class_t lv_meter_class = { .constructor_cb = lv_meter_constructor, .destructor_cb = lv_meter_destructor, .event_cb = lv_meter_event, .instance_size = sizeof(lv_meter_t), .base_class = &lv_obj_class }; /********************** * MACROS **********************/ /********************** * GLOBAL FUNCTIONS **********************/ lv_obj_t * lv_meter_create(lv_obj_t * parent) { LV_LOG_INFO("begin"); lv_obj_t * obj = lv_obj_class_create_obj(MY_CLASS, parent); lv_obj_class_init_obj(obj); return obj; } /*===================== * Add scale *====================*/ lv_meter_scale_t * lv_meter_add_scale(lv_obj_t * obj) { LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; lv_meter_scale_t * scale = _lv_ll_ins_head(&meter->scale_ll); LV_ASSERT_MALLOC(scale); lv_memset_00(scale, sizeof(lv_meter_scale_t)); scale->angle_range = 270; scale->rotation = 90 + (360 - scale->angle_range) / 2; scale->min = 0; scale->max = 100; scale->tick_cnt = 6; scale->tick_length = 8; scale->tick_width = 2; scale->label_gap = 2; return scale; } void lv_meter_set_scale_ticks(lv_obj_t * obj, lv_meter_scale_t * scale, uint16_t cnt, uint16_t width, uint16_t len, lv_color_t color) { scale->tick_cnt = cnt; scale->tick_width = width; scale->tick_length = len; scale->tick_color = color; lv_obj_invalidate(obj); } void lv_meter_set_scale_major_ticks(lv_obj_t * obj, lv_meter_scale_t * scale, uint16_t nth, uint16_t width, uint16_t len, lv_color_t color, int16_t label_gap) { scale->tick_major_nth = nth; scale->tick_major_width = width; scale->tick_major_length = len; scale->tick_major_color = color; scale->label_gap = label_gap; lv_obj_invalidate(obj); } void lv_meter_set_scale_range(lv_obj_t * obj, lv_meter_scale_t * scale, int32_t min, int32_t max, uint32_t angle_range, uint32_t rotation) { scale->min = min; scale->max = max; scale->angle_range = angle_range; scale->rotation = rotation; lv_obj_invalidate(obj); } /*===================== * Add indicator *====================*/ lv_meter_indicator_t * lv_meter_add_needle_line(lv_obj_t * obj, lv_meter_scale_t * scale, uint16_t width, lv_color_t color, int16_t r_mod) { LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; lv_meter_indicator_t * indic = _lv_ll_ins_head(&meter->indicator_ll); LV_ASSERT_MALLOC(indic); lv_memset_00(indic, sizeof(lv_meter_indicator_t)); indic->scale = scale; indic->opa = LV_OPA_COVER; indic->type = LV_METER_INDICATOR_TYPE_NEEDLE_LINE; indic->type_data.needle_line.width = width; indic->type_data.needle_line.color = color; indic->type_data.needle_line.r_mod = r_mod; lv_obj_invalidate(obj); return indic; } lv_meter_indicator_t * lv_meter_add_needle_img(lv_obj_t * obj, lv_meter_scale_t * scale, const void * src, lv_coord_t pivot_x, lv_coord_t pivot_y) { LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; lv_meter_indicator_t * indic = _lv_ll_ins_head(&meter->indicator_ll); LV_ASSERT_MALLOC(indic); lv_memset_00(indic, sizeof(lv_meter_indicator_t)); indic->scale = scale; indic->opa = LV_OPA_COVER; indic->type = LV_METER_INDICATOR_TYPE_NEEDLE_IMG; indic->type_data.needle_img.src = src; indic->type_data.needle_img.pivot.x = pivot_x; indic->type_data.needle_img.pivot.y = pivot_y; lv_obj_invalidate(obj); return indic; } lv_meter_indicator_t * lv_meter_add_arc(lv_obj_t * obj, lv_meter_scale_t * scale, uint16_t width, lv_color_t color, int16_t r_mod) { LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; lv_meter_indicator_t * indic = _lv_ll_ins_head(&meter->indicator_ll); LV_ASSERT_MALLOC(indic); lv_memset_00(indic, sizeof(lv_meter_indicator_t)); indic->scale = scale; indic->opa = LV_OPA_COVER; indic->type = LV_METER_INDICATOR_TYPE_ARC; indic->type_data.arc.width = width; indic->type_data.arc.color = color; indic->type_data.arc.r_mod = r_mod; lv_obj_invalidate(obj); return indic; } lv_meter_indicator_t * lv_meter_add_scale_lines(lv_obj_t * obj, lv_meter_scale_t * scale, lv_color_t color_start, lv_color_t color_end, bool local, int16_t width_mod) { LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; lv_meter_indicator_t * indic = _lv_ll_ins_head(&meter->indicator_ll); LV_ASSERT_MALLOC(indic); lv_memset_00(indic, sizeof(lv_meter_indicator_t)); indic->scale = scale; indic->opa = LV_OPA_COVER; indic->type = LV_METER_INDICATOR_TYPE_SCALE_LINES; indic->type_data.scale_lines.color_start = color_start; indic->type_data.scale_lines.color_end = color_end; indic->type_data.scale_lines.local_grad = local; indic->type_data.scale_lines.width_mod = width_mod; lv_obj_invalidate(obj); return indic; } /*===================== * Set indicator value *====================*/ void lv_meter_set_indicator_value(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t value) { int32_t old_start = indic->start_value; int32_t old_end = indic->end_value; indic->start_value = value; indic->end_value = value; if(indic->type == LV_METER_INDICATOR_TYPE_ARC) { inv_arc(obj, indic, old_start, value); inv_arc(obj, indic, old_end, value); } else if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_IMG || indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_LINE) { inv_line(obj, indic, old_start); inv_line(obj, indic, old_end); inv_line(obj, indic, value); } else { lv_obj_invalidate(obj); } } void lv_meter_set_indicator_start_value(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t value) { int32_t old_value = indic->start_value; indic->start_value = value; if(indic->type == LV_METER_INDICATOR_TYPE_ARC) { inv_arc(obj, indic, old_value, value); } else if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_IMG || indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_LINE) { inv_line(obj, indic, old_value); inv_line(obj, indic, value); } else { lv_obj_invalidate(obj); } } void lv_meter_set_indicator_end_value(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t value) { int32_t old_value = indic->end_value; indic->end_value = value; if(indic->type == LV_METER_INDICATOR_TYPE_ARC) { inv_arc(obj, indic, old_value, value); } else if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_IMG || indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_LINE) { inv_line(obj, indic, old_value); inv_line(obj, indic, value); } else { lv_obj_invalidate(obj); } } /********************** * STATIC FUNCTIONS **********************/ static void lv_meter_constructor(const lv_obj_class_t * class_p, lv_obj_t * obj) { LV_UNUSED(class_p); LV_TRACE_OBJ_CREATE("begin"); lv_meter_t * meter = (lv_meter_t *)obj; _lv_ll_init(&meter->scale_ll, sizeof(lv_meter_scale_t)); _lv_ll_init(&meter->indicator_ll, sizeof(lv_meter_indicator_t)); LV_TRACE_OBJ_CREATE("finished"); } static void lv_meter_destructor(const lv_obj_class_t * class_p, lv_obj_t * obj) { LV_UNUSED(class_p); LV_ASSERT_OBJ(obj, MY_CLASS); lv_meter_t * meter = (lv_meter_t *)obj; _lv_ll_clear(&meter->indicator_ll); _lv_ll_clear(&meter->scale_ll); } static void lv_meter_event(const lv_obj_class_t * class_p, lv_event_t * e) { LV_UNUSED(class_p); lv_res_t res = lv_obj_event_base(MY_CLASS, e); if(res != LV_RES_OK) return; lv_event_code_t code = lv_event_get_code(e); lv_obj_t * obj = lv_event_get_target(e); if(code == LV_EVENT_DRAW_MAIN) { lv_draw_ctx_t * draw_ctx = lv_event_get_draw_ctx(e); lv_area_t scale_area; lv_obj_get_content_coords(obj, &scale_area); draw_arcs(obj, draw_ctx, &scale_area); draw_ticks_and_labels(obj, draw_ctx, &scale_area); draw_needles(obj, draw_ctx, &scale_area); lv_coord_t r_edge = lv_area_get_width(&scale_area) / 2; lv_point_t scale_center; scale_center.x = scale_area.x1 + r_edge; scale_center.y = scale_area.y1 + r_edge; lv_draw_rect_dsc_t mid_dsc; lv_draw_rect_dsc_init(&mid_dsc); lv_obj_init_draw_rect_dsc(obj, LV_PART_INDICATOR, &mid_dsc); lv_coord_t w = lv_obj_get_style_width(obj, LV_PART_INDICATOR) / 2; lv_coord_t h = lv_obj_get_style_height(obj, LV_PART_INDICATOR) / 2; lv_area_t nm_cord; nm_cord.x1 = scale_center.x - w; nm_cord.y1 = scale_center.y - h; nm_cord.x2 = scale_center.x + w; nm_cord.y2 = scale_center.y + h; lv_draw_rect(draw_ctx, &mid_dsc, &nm_cord); } } static void draw_arcs(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area) { lv_meter_t * meter = (lv_meter_t *)obj; lv_draw_arc_dsc_t arc_dsc; lv_draw_arc_dsc_init(&arc_dsc); arc_dsc.rounded = lv_obj_get_style_arc_rounded(obj, LV_PART_ITEMS); lv_coord_t r_out = lv_area_get_width(scale_area) / 2 ; lv_point_t scale_center; scale_center.x = scale_area->x1 + r_out; scale_center.y = scale_area->y1 + r_out; lv_opa_t opa_main = lv_obj_get_style_opa(obj, LV_PART_MAIN); lv_meter_indicator_t * indic; lv_obj_draw_part_dsc_t part_draw_dsc; lv_obj_draw_dsc_init(&part_draw_dsc, draw_ctx); part_draw_dsc.arc_dsc = &arc_dsc; part_draw_dsc.part = LV_PART_INDICATOR; part_draw_dsc.class_p = MY_CLASS; part_draw_dsc.type = LV_METER_DRAW_PART_ARC; _LV_LL_READ_BACK(&meter->indicator_ll, indic) { if(indic->type != LV_METER_INDICATOR_TYPE_ARC) continue; arc_dsc.color = indic->type_data.arc.color; arc_dsc.width = indic->type_data.arc.width; arc_dsc.opa = indic->opa > LV_OPA_MAX ? opa_main : (opa_main * indic->opa) >> 8; lv_meter_scale_t * scale = indic->scale; int32_t start_angle = lv_map(indic->start_value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); int32_t end_angle = lv_map(indic->end_value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); part_draw_dsc.radius = r_out + indic->type_data.arc.r_mod; part_draw_dsc.sub_part_ptr = indic; part_draw_dsc.p1 = &scale_center; lv_event_send(obj, LV_EVENT_DRAW_PART_BEGIN, &part_draw_dsc); lv_draw_arc(draw_ctx, &arc_dsc, &scale_center, part_draw_dsc.radius, start_angle, end_angle); lv_event_send(obj, LV_EVENT_DRAW_PART_END, &part_draw_dsc); } } static void draw_ticks_and_labels(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area) { lv_meter_t * meter = (lv_meter_t *)obj; lv_point_t p_center; lv_coord_t r_edge = LV_MIN(lv_area_get_width(scale_area) / 2, lv_area_get_height(scale_area) / 2); p_center.x = scale_area->x1 + r_edge; p_center.y = scale_area->y1 + r_edge; uint8_t i; lv_draw_line_dsc_t line_dsc; lv_draw_line_dsc_init(&line_dsc); lv_obj_init_draw_line_dsc(obj, LV_PART_TICKS, &line_dsc); line_dsc.raw_end = 1; lv_draw_label_dsc_t label_dsc; lv_draw_label_dsc_init(&label_dsc); lv_obj_init_draw_label_dsc(obj, LV_PART_TICKS, &label_dsc); lv_meter_scale_t * scale; lv_draw_mask_radius_param_t inner_minor_mask; lv_draw_mask_radius_param_t inner_major_mask; lv_draw_mask_radius_param_t outer_mask; lv_obj_draw_part_dsc_t part_draw_dsc; lv_obj_draw_dsc_init(&part_draw_dsc, draw_ctx); part_draw_dsc.class_p = MY_CLASS; part_draw_dsc.part = LV_PART_TICKS; part_draw_dsc.type = LV_METER_DRAW_PART_TICK; part_draw_dsc.line_dsc = &line_dsc; _LV_LL_READ_BACK(&meter->scale_ll, scale) { part_draw_dsc.sub_part_ptr = scale; lv_coord_t r_out = r_edge + scale->r_mod; lv_coord_t r_in_minor = r_out - scale->tick_length; lv_coord_t r_in_major = r_out - scale->tick_major_length; lv_area_t area_inner_minor; area_inner_minor.x1 = p_center.x - r_in_minor; area_inner_minor.y1 = p_center.y - r_in_minor; area_inner_minor.x2 = p_center.x + r_in_minor; area_inner_minor.y2 = p_center.y + r_in_minor; lv_draw_mask_radius_init(&inner_minor_mask, &area_inner_minor, LV_RADIUS_CIRCLE, true); lv_area_t area_inner_major; area_inner_major.x1 = p_center.x - r_in_major; area_inner_major.y1 = p_center.y - r_in_major; area_inner_major.x2 = p_center.x + r_in_major - 1; area_inner_major.y2 = p_center.y + r_in_major - 1; lv_draw_mask_radius_init(&inner_major_mask, &area_inner_major, LV_RADIUS_CIRCLE, true); lv_area_t area_outer; area_outer.x1 = p_center.x - r_out; area_outer.y1 = p_center.y - r_out; area_outer.x2 = p_center.x + r_out - 1; area_outer.y2 = p_center.y + r_out - 1; lv_draw_mask_radius_init(&outer_mask, &area_outer, LV_RADIUS_CIRCLE, false); int16_t outer_mask_id = lv_draw_mask_add(&outer_mask, NULL); int16_t inner_act_mask_id = LV_MASK_ID_INV; /*Will be added later*/ uint32_t minor_cnt = scale->tick_major_nth ? scale->tick_major_nth - 1 : 0xFFFF; for(i = 0; i < scale->tick_cnt; i++) { minor_cnt++; bool major = false; if(minor_cnt == scale->tick_major_nth) { minor_cnt = 0; major = true; } int32_t value_of_line = lv_map(i, 0, scale->tick_cnt - 1, scale->min, scale->max); part_draw_dsc.value = value_of_line; lv_color_t line_color = major ? scale->tick_major_color : scale->tick_color; lv_color_t line_color_ori = line_color; lv_coord_t line_width_ori = major ? scale->tick_major_width : scale->tick_width; lv_coord_t line_width = line_width_ori; lv_meter_indicator_t * indic; _LV_LL_READ_BACK(&meter->indicator_ll, indic) { if(indic->type != LV_METER_INDICATOR_TYPE_SCALE_LINES) continue; if(value_of_line >= indic->start_value && value_of_line <= indic->end_value) { line_width += indic->type_data.scale_lines.width_mod; if(indic->type_data.scale_lines.color_start.full == indic->type_data.scale_lines.color_end.full) { line_color = indic->type_data.scale_lines.color_start; } else { lv_opa_t ratio; if(indic->type_data.scale_lines.local_grad) { ratio = lv_map(value_of_line, indic->start_value, indic->end_value, LV_OPA_TRANSP, LV_OPA_COVER); } else { ratio = lv_map(value_of_line, scale->min, scale->max, LV_OPA_TRANSP, LV_OPA_COVER); } line_color = lv_color_mix(indic->type_data.scale_lines.color_end, indic->type_data.scale_lines.color_start, ratio); } } } /*`* 256` for extra precision*/ int32_t angle_upscale = ((i * scale->angle_range) << 8) / (scale->tick_cnt - 1); int32_t angle_low = (angle_upscale >> 8); int32_t angle_high = angle_low + 1; int32_t angle_rem = angle_upscale & 0xFF; /*Interpolate sine and cos*/ int32_t sin_low = lv_trigo_sin(angle_low + scale->rotation); int32_t sin_high = lv_trigo_sin(angle_high + scale->rotation); int32_t sin_mid = (sin_low * (256 - angle_rem) + sin_high * angle_rem) >> 8; int32_t cos_low = lv_trigo_cos(angle_low + scale->rotation); int32_t cos_high = lv_trigo_cos(angle_high + scale->rotation); int32_t cos_mid = (cos_low * (256 - angle_rem) + cos_high * angle_rem) >> 8; line_dsc.color = line_color; line_dsc.width = line_width; /*Use the interpolated angle to get the outer x and y coordinates. *Draw a little bit longer lines to be sure the mask will clip them correctly*/ lv_point_t p_outer; p_outer.x = (int32_t)(((int32_t)cos_mid * (r_out + line_width) + 127) >> (LV_TRIGO_SHIFT)) + p_center.x; p_outer.y = (int32_t)(((int32_t)sin_mid * (r_out + line_width) + 127) >> (LV_TRIGO_SHIFT)) + p_center.y; part_draw_dsc.p1 = &p_outer; part_draw_dsc.p1 = &p_center; part_draw_dsc.id = i; part_draw_dsc.label_dsc = &label_dsc; /*Draw the text*/ if(major) { lv_draw_mask_remove_id(outer_mask_id); uint32_t r_text = r_in_major - scale->label_gap; lv_point_t p; p.x = (int32_t)((int32_t)((int32_t)cos_mid * r_text + 127) >> LV_TRIGO_SHIFT) + p_center.x; p.y = (int32_t)((int32_t)((int32_t)sin_mid * r_text + 127) >> LV_TRIGO_SHIFT) + p_center.y; lv_draw_label_dsc_t label_dsc_tmp; lv_memcpy(&label_dsc_tmp, &label_dsc, sizeof(label_dsc_tmp)); part_draw_dsc.label_dsc = &label_dsc_tmp; char buf[16]; lv_snprintf(buf, sizeof(buf), "%" LV_PRId32, value_of_line); part_draw_dsc.text = buf; lv_event_send(obj, LV_EVENT_DRAW_PART_BEGIN, &part_draw_dsc); lv_point_t label_size; lv_txt_get_size(&label_size, part_draw_dsc.text, label_dsc.font, label_dsc.letter_space, label_dsc.line_space, LV_COORD_MAX, LV_TEXT_FLAG_NONE); lv_area_t label_cord; label_cord.x1 = p.x - label_size.x / 2; label_cord.y1 = p.y - label_size.y / 2; label_cord.x2 = label_cord.x1 + label_size.x; label_cord.y2 = label_cord.y1 + label_size.y; lv_draw_label(draw_ctx, part_draw_dsc.label_dsc, &label_cord, part_draw_dsc.text, NULL); outer_mask_id = lv_draw_mask_add(&outer_mask, NULL); } else { part_draw_dsc.label_dsc = NULL; part_draw_dsc.text = NULL; lv_event_send(obj, LV_EVENT_DRAW_PART_BEGIN, &part_draw_dsc); } inner_act_mask_id = lv_draw_mask_add(major ? &inner_major_mask : &inner_minor_mask, NULL); lv_draw_line(draw_ctx, &line_dsc, &p_outer, &p_center); lv_draw_mask_remove_id(inner_act_mask_id); lv_event_send(obj, LV_EVENT_DRAW_MAIN_END, &part_draw_dsc); line_dsc.color = line_color_ori; line_dsc.width = line_width_ori; } lv_draw_mask_free_param(&inner_minor_mask); lv_draw_mask_free_param(&inner_major_mask); lv_draw_mask_free_param(&outer_mask); lv_draw_mask_remove_id(outer_mask_id); } } static void draw_needles(lv_obj_t * obj, lv_draw_ctx_t * draw_ctx, const lv_area_t * scale_area) { lv_meter_t * meter = (lv_meter_t *)obj; lv_coord_t r_edge = lv_area_get_width(scale_area) / 2; lv_point_t scale_center; scale_center.x = scale_area->x1 + r_edge; scale_center.y = scale_area->y1 + r_edge; lv_draw_line_dsc_t line_dsc; lv_draw_line_dsc_init(&line_dsc); lv_obj_init_draw_line_dsc(obj, LV_PART_ITEMS, &line_dsc); lv_draw_img_dsc_t img_dsc; lv_draw_img_dsc_init(&img_dsc); lv_obj_init_draw_img_dsc(obj, LV_PART_ITEMS, &img_dsc); lv_opa_t opa_main = lv_obj_get_style_opa(obj, LV_PART_MAIN); lv_obj_draw_part_dsc_t part_draw_dsc; lv_obj_draw_dsc_init(&part_draw_dsc, draw_ctx); part_draw_dsc.class_p = MY_CLASS; part_draw_dsc.p1 = &scale_center; lv_meter_indicator_t * indic; _LV_LL_READ_BACK(&meter->indicator_ll, indic) { lv_meter_scale_t * scale = indic->scale; part_draw_dsc.sub_part_ptr = indic; if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_LINE) { int32_t angle = lv_map(indic->end_value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); lv_coord_t r_out = r_edge + scale->r_mod + indic->type_data.needle_line.r_mod; lv_point_t p_end; p_end.y = (lv_trigo_sin(angle) * (r_out)) / LV_TRIGO_SIN_MAX + scale_center.y; p_end.x = (lv_trigo_cos(angle) * (r_out)) / LV_TRIGO_SIN_MAX + scale_center.x; line_dsc.color = indic->type_data.needle_line.color; line_dsc.width = indic->type_data.needle_line.width; line_dsc.opa = indic->opa > LV_OPA_MAX ? opa_main : (opa_main * indic->opa) >> 8; part_draw_dsc.id = LV_METER_DRAW_PART_NEEDLE_LINE; part_draw_dsc.line_dsc = &line_dsc; part_draw_dsc.p2 = &p_end; lv_event_send(obj, LV_EVENT_DRAW_PART_BEGIN, &part_draw_dsc); lv_draw_line(draw_ctx, &line_dsc, &scale_center, &p_end); lv_event_send(obj, LV_EVENT_DRAW_PART_END, &part_draw_dsc); } else if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_IMG) { if(indic->type_data.needle_img.src == NULL) continue; int32_t angle = lv_map(indic->end_value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); lv_img_header_t info; lv_img_decoder_get_info(indic->type_data.needle_img.src, &info); lv_area_t a; a.x1 = scale_center.x - indic->type_data.needle_img.pivot.x; a.y1 = scale_center.y - indic->type_data.needle_img.pivot.y; a.x2 = a.x1 + info.w - 1; a.y2 = a.y1 + info.h - 1; img_dsc.opa = indic->opa > LV_OPA_MAX ? opa_main : (opa_main * indic->opa) >> 8; img_dsc.pivot.x = indic->type_data.needle_img.pivot.x; img_dsc.pivot.y = indic->type_data.needle_img.pivot.y; angle = angle * 10; if(angle > 3600) angle -= 3600; img_dsc.angle = angle; part_draw_dsc.img_dsc = &img_dsc; lv_event_send(obj, LV_EVENT_DRAW_PART_BEGIN, &part_draw_dsc); lv_draw_img(draw_ctx, &img_dsc, &a, indic->type_data.needle_img.src); lv_event_send(obj, LV_EVENT_DRAW_PART_END, &part_draw_dsc); } } } static void inv_arc(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t old_value, int32_t new_value) { bool rounded = lv_obj_get_style_arc_rounded(obj, LV_PART_ITEMS); lv_area_t scale_area; lv_obj_get_content_coords(obj, &scale_area); lv_coord_t r_out = lv_area_get_width(&scale_area) / 2; lv_point_t scale_center; scale_center.x = scale_area.x1 + r_out; scale_center.y = scale_area.y1 + r_out; r_out += indic->type_data.arc.r_mod; lv_meter_scale_t * scale = indic->scale; int32_t start_angle = lv_map(old_value, scale->min, scale->max, scale->rotation, scale->angle_range + scale->rotation); int32_t end_angle = lv_map(new_value, scale->min, scale->max, scale->rotation, scale->angle_range + scale->rotation); lv_area_t a; lv_draw_arc_get_area(scale_center.x, scale_center.y, r_out, LV_MIN(start_angle, end_angle), LV_MAX(start_angle, end_angle), indic->type_data.arc.width, rounded, &a); lv_obj_invalidate_area(obj, &a); } static void inv_line(lv_obj_t * obj, lv_meter_indicator_t * indic, int32_t value) { lv_area_t scale_area; lv_obj_get_content_coords(obj, &scale_area); lv_coord_t r_out = lv_area_get_width(&scale_area) / 2; lv_point_t scale_center; scale_center.x = scale_area.x1 + r_out; scale_center.y = scale_area.y1 + r_out; lv_meter_scale_t * scale = indic->scale; if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_LINE) { int32_t angle = lv_map(value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); r_out += scale->r_mod + indic->type_data.needle_line.r_mod; lv_point_t p_end; p_end.y = (lv_trigo_sin(angle) * (r_out)) / LV_TRIGO_SIN_MAX + scale_center.y; p_end.x = (lv_trigo_cos(angle) * (r_out)) / LV_TRIGO_SIN_MAX + scale_center.x; lv_area_t a; a.x1 = LV_MIN(scale_center.x, p_end.x) - indic->type_data.needle_line.width - 2; a.y1 = LV_MIN(scale_center.y, p_end.y) - indic->type_data.needle_line.width - 2; a.x2 = LV_MAX(scale_center.x, p_end.x) + indic->type_data.needle_line.width + 2; a.y2 = LV_MAX(scale_center.y, p_end.y) + indic->type_data.needle_line.width + 2; lv_obj_invalidate_area(obj, &a); } else if(indic->type == LV_METER_INDICATOR_TYPE_NEEDLE_IMG) { int32_t angle = lv_map(value, scale->min, scale->max, scale->rotation, scale->rotation + scale->angle_range); lv_img_header_t info; lv_img_decoder_get_info(indic->type_data.needle_img.src, &info); angle = angle * 10; if(angle > 3600) angle -= 3600; scale_center.x -= indic->type_data.needle_img.pivot.x; scale_center.y -= indic->type_data.needle_img.pivot.y; lv_area_t a; _lv_img_buf_get_transformed_area(&a, info.w, info.h, angle, LV_IMG_ZOOM_NONE, &indic->type_data.needle_img.pivot); a.x1 += scale_center.x - 2; a.y1 += scale_center.y - 2; a.x2 += scale_center.x + 2; a.y2 += scale_center.y + 2; lv_obj_invalidate_area(obj, &a); } } #endif