void Environment::handleRadioTx(bool blue, const Packet::RadioTx& tx) { for (int i = 0; i < tx.robots_size(); ++i) { const Packet::RadioTx::Robot& cmd = tx.robots(i); Robot* r = robot(blue, cmd.robot_id()); if (r) { // run controls update r->radioTx(&cmd); // trigger signals to update visualization Geometry2d::Point pos2 = r->getPosition(); QVector3D pos3(pos2.x, pos2.y, 0.0); QVector3D axis(0.0, 0.0, 1.0); } else { printf("Commanding nonexistent robot %s:%d\n", blue ? "Blue" : "Yellow", cmd.robot_id()); } Packet::RadioRx rx = r->radioRx(); rx.set_robot_id(r->shell); // Send the RX packet std::string out; rx.SerializeToString(&out); if (blue) _radioSocketBlue.writeDatagram(&out[0], out.size(), LocalAddress, RadioRxPort + 1); else _radioSocketYellow.writeDatagram(&out[0], out.size(), LocalAddress, RadioRxPort); } // FIXME: the interface changed for this part // Robot *rev = robot(blue, tx.robot_id()); // if (rev) // { // Packet::RadioRx rx = rev->radioRx(); // rx.set_robot_id(tx.robot_id()); // // // Send the RX packet // std::string out; // rx.SerializeToString(&out); // _radioSocket[ch].writeDatagram(&out[0], out.size(), LocalAddress, // RadioRxPort + ch); // } }
void Processor::sendRadioData() { Packet::RadioTx* tx = _state.logFrame->mutable_radio_tx(); tx->set_txmode(Packet::RadioTx::UNICAST); // Halt overrides normal motion control, but not joystick if (_state.gameState.halt()) { // Force all motor speeds to zero for (OurRobot* r : _state.self) { Packet::Control* control = r->control; control->set_xvelocity(0); control->set_yvelocity(0); control->set_avelocity(0); control->set_dvelocity(0); control->set_kcstrength(0); control->set_shootmode(Packet::Control::KICK); control->set_triggermode(Packet::Control::STAND_DOWN); control->set_song(Packet::Control::STOP); } } // Add RadioTx commands for visible robots and apply joystick input for (OurRobot* r : _state.self) { if (r->visible || _manualID == r->shell()) { Packet::Robot* txRobot = tx->add_robots(); // Copy motor commands. // Even if we are using the joystick, this sets robot_id and the // number of motors. txRobot->CopyFrom(r->robotPacket); if (r->shell() == _manualID) { const JoystickControlValues controlVals = getJoystickControlValues(); applyJoystickControls(controlVals, txRobot->mutable_control(), r); } } } if (_radio) { _radio->send(*_state.logFrame->mutable_radio_tx()); } }
void Processor::sendRadioData() { Packet::RadioTx* tx = _state.logFrame->mutable_radio_tx(); // Halt overrides normal motion control, but not joystick if (_state.gameState.halt()) { // Force all motor speeds to zero for (OurRobot* r : _state.self) { Packet::RadioTx::Robot& txRobot = r->radioTx; txRobot.set_body_x(0); txRobot.set_body_y(0); txRobot.set_body_w(0); txRobot.set_kick(0); txRobot.set_dribbler(0); } } // Add RadioTx commands for visible robots and apply joystick input for (OurRobot* r : _state.self) { if (r->visible || _manualID == r->shell()) { Packet::RadioTx::Robot* txRobot = tx->add_robots(); // Copy motor commands. // Even if we are using the joystick, this sets robot_id and the // number of motors. txRobot->CopyFrom(r->radioTx); if (r->shell() == _manualID) { JoystickControlValues controlVals = getJoystickControlValues(); applyJoystickControls(controlVals, txRobot, r); } } } if (_radio) { _radio->send(*_state.logFrame->mutable_radio_tx()); } }
void SimRadio::send(Packet::RadioTx& packet) { std::string out; packet.SerializeToString(&out); _socket.writeDatagram(&out[0], out.size(), LocalAddress, RadioTxPort + _channel); }
void USBRadio::send(Packet::RadioTx& packet) { QMutexLocker lock(&_mutex); if (!_device) { if (!open()) { return; } } uint8_t forward_packet[rtp::Forward_Size]; // ensure Forward_Size is correct static_assert(sizeof(rtp::header_data) + 6 * sizeof(rtp::ControlMessage) == rtp::Forward_Size, "Forward packet contents exceeds buffer size"); // Unit conversions static const float Seconds_Per_Cycle = 0.005f; static const float Meters_Per_Tick = 0.026f * 2 * M_PI / 6480.0f; static const float Radians_Per_Tick = 0.026f * M_PI / (0.0812f * 3240.0f); rtp::header_data* header = (rtp::header_data*)forward_packet; header->port = rtp::Port::CONTROL; header->address = rtp::BROADCAST_ADDRESS; header->type = rtp::header_data::Type::Control; // Build a forward packet for (int slot = 0; slot < 6; ++slot) { // Calculate the offset into the @forward_packet for this robot's // control message and cast it to a ControlMessage pointer for easy // access size_t offset = sizeof(rtp::header_data) + slot * sizeof(rtp::ControlMessage); rtp::ControlMessage* msg = (rtp::ControlMessage*)(forward_packet + offset); if (slot < packet.robots_size()) { const Packet::Control& robot = packet.robots(slot).control(); msg->uid = packet.robots(slot).uid(); msg->bodyX = robot.xvelocity() * rtp::ControlMessage::VELOCITY_SCALE_FACTOR; msg->bodyY = robot.yvelocity() * rtp::ControlMessage::VELOCITY_SCALE_FACTOR; msg->bodyW = robot.avelocity() * rtp::ControlMessage::VELOCITY_SCALE_FACTOR; msg->dribbler = max(0, min(255, static_cast<uint16_t>(robot.dvelocity()) * 2)); msg->kickStrength = robot.kcstrength(); msg->shootMode = robot.shootmode(); msg->triggerMode = robot.triggermode(); msg->song = robot.song(); } else { // empty slot msg->uid = rtp::INVALID_ROBOT_UID; } } // Send the forward packet int sent = 0; int transferRetCode = libusb_bulk_transfer(_device, LIBUSB_ENDPOINT_OUT | 2, forward_packet, sizeof(forward_packet), &sent, Control_Timeout); if (transferRetCode != LIBUSB_SUCCESS || sent != sizeof(forward_packet)) { fprintf(stderr, "USBRadio: Bulk write failed\n"); if (transferRetCode != LIBUSB_SUCCESS) fprintf(stderr, " Error: '%s'\n", libusb_error_name(transferRetCode)); libusb_close(_device); _device = nullptr; } }