From: svnhieber Date: Tue, 11 Jan 2011 16:53:57 +0000 (+0000) Subject: encoder tick "wrapping", some useful initialisations X-Git-Url: https://git.rohieb.name/bachelor-thesis/roomba_tests.git/commitdiff_plain/37da2859aefe405088aefbf8ce772a4fa9cd7292?ds=sidebyside encoder tick "wrapping", some useful initialisations git-svn-id: https://svn.itm.uni-luebeck.de/wisebed/wiselib/trunk/pc_apps/roomba_tests@4001 f8795833-4959-0410-8ae9-8bcb0cfab428 --- diff --git a/main.cc b/main.cc index 5002d70..3eb6874 100644 --- a/main.cc +++ b/main.cc @@ -40,7 +40,6 @@ using namespace std; #else // QT_VERSION > 0x040500 #define getInt QInputDialog::getInt #endif // QT_VERSION - // UART port on which we communicate with the Roomba char uart[] = "/dev/ttyUSB0"; @@ -65,18 +64,47 @@ char * ground_type; * Sensor data we need, filled in callback */ struct SensorData { + + SensorData() : + capacity(0), charge(0), charging(0), current(0), temperature(0), + voltage(0), abs_left_encoder_counts(0), abs_right_encoder_counts(0) { + } + uint16_t capacity, charge; uint8_t charging; int16_t current; int8_t temperature; uint16_t voltage; - int16_t left_encoder_counts, right_encoder_counts; + /** absolute encoder counts; i.e. not overflown, but consecutive */ + int abs_left_encoder_counts, abs_right_encoder_counts; } sensor_data; +/** + * Returns the difference between two unsigned short values. The calculated + * value is always smaller or equal to 0x8000. + * This is useful if you have an overflowing counter and you want to determine + * when you have to "wrap over" the value. + */ +int nearest_diff(unsigned short last, unsigned short current) { + int d = current - last; + if(d < -0x8000) { // overflow in positive direction + d = (0x10000 - last_i + this_i); + } + if(d >= 0x8000) { // overflow in negative direction + d = -(0x10000 - this_i + last_i); + } +} + /** * Callback that fills the sensor data when data is available */ struct DataAvailable { + int latest_encoder_left_, latest_encoder_right_; + + DataAvailable() : + latest_encoder_left_(0), latest_encoder_right_(0) { + } + void cb(int state) { if(state != Roomba::DATA_AVAILABLE) { return; @@ -86,8 +114,12 @@ struct DataAvailable { sensor_data.charging = roomba().charging; sensor_data.current = roomba().current; sensor_data.voltage = roomba().voltage; - sensor_data.left_encoder_counts = roomba().left_encoder_counts; - sensor_data.right_encoder_counts = roomba().right_encoder_counts; + sensor_data.abs_left_encoder_counts += nearest_diff(latest_encoder_left_, + roomba().left_encoder_counts); + latest_encoder_left_ = roomba().left_encoder_counts; + sensor_data.abs_right_encoder_counts += nearest_diff(latest_encoder_right_, + roomba().right_encoder_counts); + latest_encoder_right_ = roomba().right_encoder_counts; } } data_available; @@ -142,11 +174,15 @@ void drive(Roomba& roomba, ControlledMotion& ctrl_motion) { << " input_distance=" << input_distance << " velocity=" << velocity << " internal_distance=" << roomba.distance() << " deviation_x=" << deviation_x << " deviation_y=" << deviation_y - << " encoder_ticks_left=" << sensor_data.left_encoder_counts - << " encoder_ticks_right=" << sensor_data.right_encoder_counts + << " abs_encoder_ticks_left=" << sensor_data.abs_left_encoder_counts + << " abs_encoder_ticks_right=" << sensor_data.abs_right_encoder_counts << " batt_charge=" << sensor_data.charge << " batt_capacity=" << sensor_data.capacity << " batt_voltage=" << sensor_data.voltage << " batt_current=" << sensor_data.current << endl; + + // reset, because we only need the difference between two drive commands + sensor_data.abs_left_encoder_counts = 0; + sensor_data.abs_right_encoder_counts = 0; } } @@ -197,12 +233,16 @@ void turn(Roomba& roomba, ControlledMotion& ctrl_motion) { << " move=straight" << " ground_type=" << ground_type << "turn_angle=" << turn_angle << " measured_angle=" << measured_angle << " velocity=" << velocity << " internal_angle=" << roomba.angle() - << " encoder_ticks_left=" << sensor_data.left_encoder_counts - << " encoder_ticks_right=" << sensor_data.right_encoder_counts + << " abs_encoder_ticks_left=" << sensor_data.abs_left_encoder_counts + << " abs_encoder_ticks_right=" << sensor_data.abs_right_encoder_counts << " batt_charge=" << sensor_data.charge << " batt_capacity=" << sensor_data.capacity << " batt_voltage=" << sensor_data.voltage << " batt_current=" << sensor_data.current << endl; + // reset, because we only need the difference between two turns + sensor_data.abs_left_encoder_counts = 0; + sensor_data.abs_right_encoder_counts = 0; + // new orientation cur_angle = (cur_angle + measured_angle) % 360; }