AREXPORT void ArActionDesired::log(void) const { // all those maxes and movement parameters if (getMaxVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "\tMaxTransVel %.0f", getMaxVel()); if (getMaxNegVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "\tMaxTransNegVel %.0f", getMaxNegVel()); if (getTransAccelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "\tTransAccel %.0f", getTransAccel()); if (getTransDecelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "\tTransDecel %.0f", getTransDecel()); if (getMaxRotVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tMaxRotVel %.0f", "", getMaxRotVel()); if (getRotAccelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tRotAccel %.0f", "", getRotAccel()); if (getRotDecelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tRotDecel %.0f", "", getRotDecel()); if (getMaxLeftLatVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%12s\tMaxLeftLatVel %.0f", "", getMaxLeftLatVel()); if (getMaxRightLatVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%12s\tMaxRightLatVel %.0f", "", getMaxRightLatVel()); if (getLatAccelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%12s\tLatAccel %.0f", "", getLatAccel()); if (getLatDecelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%12s\tLatDecel %.0f", "", getLatDecel()); // the actual movement part if (getVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "\tVel %.0f", getVel()); if (getHeadingStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tHeading %.0f", "", getHeading()); if (getDeltaHeadingStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tDeltaHeading %.0f", "", getDeltaHeading()); if (getRotVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%25s\tRotVel %.0f", "", getRotVel()); if (getLatVelStrength() >= ArActionDesired::MIN_STRENGTH) ArLog::log(ArLog::Normal, "%12s\tLatVel %.0f", "", getLatVel()); }
/** Like most memory stuff this won't work across DLL's in windows, it should work fine in linux or with static library files in windows. **/ AREXPORT std::string ArRobotConfigPacketReader::buildStringMovement(void) const { std::string ret; char line[32000]; sprintf(line, "TransVelMax %d TransAccel %d TransDecel %d\n", getTransVelMax(), getTransAccel(), getTransDecel()); ret += line; sprintf(line, "RotVelMax %d RotAccel %d RotDecel %d\n", getRotVelMax(), getRotAccel(), getRotDecel()); ret += line; if (myRobot->hasLatVel()) { sprintf(line, "LatVelMax %d LatAccel %d LatDecel %d\n", getLatVelMax(), getLatAccel(), getLatDecel()); ret += line; } return ret; }
/** Like most memory stuff this won't work across DLL's in windows, it should work fine in linux or with static library files in windows. **/ AREXPORT std::string ArRobotConfigPacketReader::buildString(void) const { std::string ret; char line[32000]; sprintf(line, "General information:\n"); ret += line; sprintf(line, "Robot is type '%s' subtype '%s'\n", getType(), getSubType()); ret += line; sprintf(line, "serial number '%s' name '%s'\n", getSerialNumber(), getName()); ret += line; sprintf(line, "Intrinsic properties and unsettable maxes:\n"); ret += line; sprintf(line, "RotVelTop %d RotAccelTop %d\n", getRotVelTop(), getRotAccelTop()); ret += line; sprintf(line, "TransVelTop %d TransAccelTop %d\n", getTransVelTop(), getTransAccelTop()); ret += line; sprintf(line, "PWMMax %d ResetBaud %s\n", getPwmMax(), ArUtil::convertBool(getResetBaud())); ret += line; sprintf(line, "Current values:\n"); ret += line; sprintf(line, "RotVelMax %d RotAccel %d RotDecel %d\n", getRotVelMax(), getRotAccel(), getRotDecel()); ret += line; sprintf(line, "TransVelMax %d TransAccel %d TransDecel %d\n", getTransVelMax(), getTransAccel(), getTransDecel()); ret += line; sprintf(line, "Accessories:\n"); ret += line; sprintf(line, "Gripper %s FrontSonar %s RearSonar %s Charger %d Gyro %s\n", ArUtil::convertBool(getHasGripper()), ArUtil::convertBool(getFrontSonar()), ArUtil::convertBool(getRearSonar()), getHasCharger(), ArUtil::convertBool(getHasGyro())); ret += line; sprintf(line, "FrontBumps %d RearBumps %d\n", getFrontBumps(), getRearBumps()); ret += line; sprintf(line, "Settings:\n"); ret += line; sprintf(line, "SipCycle %d SonarCycle %d HostBaud %d Aux1Baud %d\n", getSipCycleTime(), getSonarCycle(), getHostBaud(), getAux1Baud()); ret += line; sprintf(line, "StallVal %d StallCount %d RevCount %d Watchdog %d\n", getStallVal(), getStallCount(), getRevCount(), getWatchdog()); ret += line; sprintf(line, "JoyVel %d JoyRVel %d NormalMotorPackets %s\n", getJoyVel(), getJoyRotVel(), ArUtil::convertBool(getNormalMPacs())); ret += line; sprintf(line, "PID Settings:\n"); ret += line; sprintf(line, "Rot kp %d kv %d ki %d\n", getRotKP(), getRotKV(), getRotKI()); ret += line; sprintf(line, "Trans kp %d kv %d ki %d\n", getTransKP(), getTransKV(), getTransKI()); ret += line; sprintf(line, "DriftFactor %d\n", getDriftFactor()); ret += line; sprintf(line, "Aux2Baud setting %d, Aux3Baud setting %d\n", getAux2Baud(), getAux3Baud()); ret += line; sprintf(line, "TicksMM: %d\n", getTicksMM()); ret += line; sprintf(line, "Shutdown Voltage: %d\n", getShutdownVoltage()); ret += line; return ret; }
/** Like most memory stuff this won't work across DLL's in windows, it should work fine in linux or with static library files in windows. **/ AREXPORT std::string ArRobotConfigPacketReader::buildString(void) const { std::string ret; char line[32000]; sprintf(line, "General information:\n"); ret += line; sprintf(line, "Robot is type '%s' subtype '%s'\n", getType(), getSubType()); ret += line; sprintf(line, "serial number '%s' name '%s'\n", getSerialNumber(), getName()); ret += line; sprintf(line, "firmware version '%s'\n", getFirmwareVersion()); ret += line; sprintf(line, "Intrinsic properties and unsettable maxes:\n"); ret += line; sprintf(line, "TransVelTop %d TransAccelTop %d\n", getTransVelTop(), getTransAccelTop()); ret += line; sprintf(line, "RotVelTop %d RotAccelTop %d\n", getRotVelTop(), getRotAccelTop()); ret += line; if (myRobot->hasLatVel()) { sprintf(line, "LatVelTop %d LatAccelTop %d\n", getLatVelTop(), getLatAccelTop()); ret += line; } sprintf(line, "PWMMax %d ResetBaud %s\n", getPwmMax(), ArUtil::convertBool(getResetBaud())); ret += line; sprintf(line, "Current values:\n"); ret += line; sprintf(line, "TransVelMax %d TransAccel %d TransDecel %d\n", getTransVelMax(), getTransAccel(), getTransDecel()); ret += line; sprintf(line, "RotVelMax %d RotAccel %d RotDecel %d\n", getRotVelMax(), getRotAccel(), getRotDecel()); ret += line; if (myRobot->hasLatVel()) { sprintf(line, "LatVelMax %d LatAccel %d LatDecel %d\n", getLatVelMax(), getLatAccel(), getLatDecel()); ret += line; } sprintf(line, "Accessories:\n"); ret += line; sprintf(line, "Gripper %s FrontSonar %s RearSonar %s Charger %d GyroType %d\n", ArUtil::convertBool(getHasGripper()), ArUtil::convertBool(getFrontSonar()), ArUtil::convertBool(getRearSonar()), getHasCharger(), getGyroType()); ret += line; sprintf(line, "FrontBumps %d RearBumps %d\n", getFrontBumps(), getRearBumps()); ret += line; sprintf(line, "Settings:\n"); ret += line; sprintf(line, "SipCycle %d SonarCycle %d HostBaud %d Aux1Baud %d\n", getSipCycleTime(), getSonarCycle(), getHostBaud(), getAux1Baud()); ret += line; sprintf(line, "StallVal %d StallCount %d RevCount %d Watchdog %d\n", getStallVal(), getStallCount(), getRevCount(), getWatchdog()); ret += line; sprintf(line, "GyroRateLimit %d\n", getGyroRateLimit()); ret += line; sprintf(line, "JoyVel %d JoyRVel %d NormalMotorPackets %s\n", getJoyVel(), getJoyRotVel(), ArUtil::convertBool(getNormalMPacs())); ret += line; sprintf(line, "PID Settings:\n"); ret += line; sprintf(line, "Trans kp %d kv %d ki %d\n", getTransKP(), getTransKV(), getTransKI()); ret += line; sprintf(line, "Rot kp %d kv %d ki %d\n", getRotKP(), getRotKV(), getRotKI()); ret += line; sprintf(line, "Other:\n"); ret += line; sprintf(line, "DriftFactor %d KinematicsDelay %d\n", getDriftFactor(), getKinematicsDelay()); ret += line; sprintf(line, "Aux2Baud setting %d Aux3Baud setting %d\n", getAux2Baud(), getAux3Baud()); ret += line; sprintf(line, "PDBPort setting %d\n", getPDBPort()); ret += line; sprintf(line, "TicksMM %d GyroCW %d GyroCCW %d\n", getTicksMM(), getGyroCW(), getGyroCCW()); ret += line; sprintf(line, "ShutdownVoltage %d PowerbotChargeTreshold %d\n", getShutdownVoltage(), getPowerbotChargeThreshold()); ret += line; char buf[128]; int i, j; unsigned int value = getPowerBits(); int bit; buf[0] = '\0'; for (j = 0, bit = 1; j < 16; ++j, bit *= 2) { if (j == 8) sprintf(buf, "%s ", buf); if (value & bit) sprintf(buf, "%s%d", buf, 1); else sprintf(buf, "%s%d", buf, 0); } sprintf(line, "HighTempShutdown %d PowerBits %s\n", getHighTemperatureShutdown(), buf); ret += line; return ret; }