static void edbm_bevel_update_header(bContext *C, wmOperator *op) { char header[UI_MAX_DRAW_STR]; char buf[UI_MAX_DRAW_STR]; char *p = buf; int available_len = sizeof(buf); Scene *sce = CTX_data_scene(C); char offset_str[NUM_STR_REP_LEN]; const char *mode_str, *omiter_str, *imiter_str; PropertyRNA *prop; #define WM_MODALKEY(_id) \ WM_modalkeymap_operator_items_to_string_buf( \ op->type, (_id), true, UI_MAX_SHORTCUT_STR, &available_len, &p) if (RNA_enum_get(op->ptr, "offset_type") == BEVEL_AMT_PERCENT) { BLI_snprintf(offset_str, NUM_STR_REP_LEN, "%.1f%%", RNA_float_get(op->ptr, "offset_pct")); } else { bUnit_AsString2(offset_str, NUM_STR_REP_LEN, (double)RNA_float_get(op->ptr, "offset"), 3, B_UNIT_LENGTH, &sce->unit, true); } prop = RNA_struct_find_property(op->ptr, "offset_type"); RNA_property_enum_name_gettexted( C, op->ptr, prop, RNA_property_enum_get(op->ptr, prop), &mode_str); prop = RNA_struct_find_property(op->ptr, "miter_outer"); RNA_property_enum_name_gettexted( C, op->ptr, prop, RNA_property_enum_get(op->ptr, prop), &omiter_str); prop = RNA_struct_find_property(op->ptr, "miter_inner"); RNA_property_enum_name_gettexted( C, op->ptr, prop, RNA_property_enum_get(op->ptr, prop), &imiter_str); BLI_snprintf(header, sizeof(header), IFACE_("%s: confirm, " "%s: cancel, " "%s: mode (%s), " "%s: width (%s), " "%s: segments (%d), " "%s: profile (%.3f), " "%s: clamp overlap (%s), " "%s: vertex only (%s), " "%s: outer miter (%s), " "%s: inner miter (%s), " "%s: harden normals (%s), " "%s: mark seam (%s), " "%s: mark sharp (%s)"), WM_MODALKEY(BEV_MODAL_CONFIRM), WM_MODALKEY(BEV_MODAL_CANCEL), WM_MODALKEY(BEV_MODAL_OFFSET_MODE_CHANGE), mode_str, WM_MODALKEY(BEV_MODAL_VALUE_OFFSET), offset_str, WM_MODALKEY(BEV_MODAL_VALUE_SEGMENTS), RNA_int_get(op->ptr, "segments"), WM_MODALKEY(BEV_MODAL_VALUE_PROFILE), RNA_float_get(op->ptr, "profile"), WM_MODALKEY(BEV_MODAL_CLAMP_OVERLAP_TOGGLE), WM_bool_as_string(RNA_boolean_get(op->ptr, "clamp_overlap")), WM_MODALKEY(BEV_MODAL_VERTEX_ONLY_TOGGLE), WM_bool_as_string(RNA_boolean_get(op->ptr, "vertex_only")), WM_MODALKEY(BEV_MODAL_OUTER_MITER_CHANGE), omiter_str, WM_MODALKEY(BEV_MODAL_INNER_MITER_CHANGE), imiter_str, WM_MODALKEY(BEV_MODAL_HARDEN_NORMALS_TOGGLE), WM_bool_as_string(RNA_boolean_get(op->ptr, "harden_normals")), WM_MODALKEY(BEV_MODAL_MARK_SEAM_TOGGLE), WM_bool_as_string(RNA_boolean_get(op->ptr, "mark_seam")), WM_MODALKEY(BEV_MODAL_MARK_SHARP_TOGGLE), WM_bool_as_string(RNA_boolean_get(op->ptr, "mark_sharp"))); #undef WM_MODALKEY ED_workspace_status_text(C, header); }
static void walk_update_header(bContext *C, wmOperator *op, WalkInfo *walk) { const bool gravity = (walk->navigation_mode == WALK_MODE_GRAVITY) || ((walk->teleport.state == WALK_TELEPORT_STATE_ON) && (walk->teleport.navigation_mode == WALK_MODE_GRAVITY)); char header[UI_MAX_DRAW_STR]; char buf[UI_MAX_DRAW_STR]; char *p = buf; int available_len = sizeof(buf); #define WM_MODALKEY(_id) \ WM_modalkeymap_operator_items_to_string_buf(op->type, (_id), true, UI_MAX_SHORTCUT_STR, &available_len, &p) BLI_snprintf(header, sizeof(header), IFACE_("%s: confirm, %s: cancel, " "%s: gravity (%s), " "%s|%s|%s|%s: move around, " "%s: fast, %s: slow, " "%s|%s: up and down, " "%s: teleport, %s: jump, " "%s: increase speed, %s: decrease speed"), WM_MODALKEY(WALK_MODAL_CONFIRM), WM_MODALKEY(WALK_MODAL_CANCEL), WM_MODALKEY(WALK_MODAL_TOGGLE), WM_bool_as_string(gravity), WM_MODALKEY(WALK_MODAL_DIR_FORWARD), WM_MODALKEY(WALK_MODAL_DIR_LEFT), WM_MODALKEY(WALK_MODAL_DIR_BACKWARD), WM_MODALKEY(WALK_MODAL_DIR_RIGHT), WM_MODALKEY(WALK_MODAL_FAST_ENABLE), WM_MODALKEY(WALK_MODAL_SLOW_ENABLE), WM_MODALKEY(WALK_MODAL_DIR_UP), WM_MODALKEY(WALK_MODAL_DIR_DOWN), WM_MODALKEY(WALK_MODAL_TELEPORT), WM_MODALKEY(WALK_MODAL_JUMP), WM_MODALKEY(WALK_MODAL_ACCELERATE), WM_MODALKEY(WALK_MODAL_DECELERATE)); #undef WM_MODALKEY ED_area_headerprint(CTX_wm_area(C), header); }
static void fly_update_header(bContext *C, wmOperator *op, FlyInfo *fly) { char header[UI_MAX_DRAW_STR]; char buf[UI_MAX_DRAW_STR]; char *p = buf; int available_len = sizeof(buf); #define WM_MODALKEY(_id) \ WM_modalkeymap_operator_items_to_string_buf(op->type, (_id), true, UI_MAX_SHORTCUT_STR, &available_len, &p) BLI_snprintf(header, sizeof(header), IFACE_("%s: confirm, %s: cancel, " "%s: pan enable, " "%s|%s|%s|%s|%s|%s: direction, " "%s: slow, %s: free look, " "%s: Upright x axis (%s), " "%s: Upright z axis (%s), " "%s: increase speed, %s: decrease speed"), WM_MODALKEY(FLY_MODAL_CONFIRM), WM_MODALKEY(FLY_MODAL_CANCEL), WM_MODALKEY(FLY_MODAL_PAN_ENABLE), WM_MODALKEY(FLY_MODAL_DIR_FORWARD), WM_MODALKEY(FLY_MODAL_DIR_LEFT), WM_MODALKEY(FLY_MODAL_DIR_BACKWARD), WM_MODALKEY(FLY_MODAL_DIR_RIGHT), WM_MODALKEY(FLY_MODAL_DIR_UP), WM_MODALKEY(FLY_MODAL_DIR_DOWN), WM_MODALKEY(FLY_MODAL_PRECISION_ENABLE), WM_MODALKEY(FLY_MODAL_FREELOOK_ENABLE), WM_MODALKEY(FLY_MODAL_AXIS_LOCK_X), WM_bool_as_string(fly->xlock != FLY_AXISLOCK_STATE_OFF), WM_MODALKEY(FLY_MODAL_AXIS_LOCK_Z), WM_bool_as_string(fly->zlock != FLY_AXISLOCK_STATE_OFF), WM_MODALKEY(FLY_MODAL_ACCELERATE), WM_MODALKEY(FLY_MODAL_DECELERATE)); #undef WM_MODALKEY ED_area_headerprint(CTX_wm_area(C), header); }