Exemplo n.º 1
0
string smrclGenerator::initializeMission(vector<route> rPlan) {

    string initStr;
    const int   STRLEN = 256;
    char        tempStr[STRLEN];

    //Process the rules to generate command structure
    clearCommands();
    codeGen->processCommands(&cmds,false);

    //Set condition value for first switch
    initStr = "condVal = 1\n";

    for(size_t i = 0; i < cmds.size(); i++) {
        snprintf(tempStr,STRLEN,"  fail%d = 0\n",cmds[i].id);
        initStr += tempStr;
    }

    //Put the next stage init commands in the success case
    for (size_t i = 0; i < cmds.size(); i++) {
        if ((cmds[i].quality > 0.0) && (!cmds[i].initCommand.empty())) {
            initStr += cmds[i].initCommand;
            initStr += "\n";
        }
    }

    return initStr;

}
Exemplo n.º 2
0
/**
 *  Omnibot destructor
 */
omnibot::~omnibot()
{
	if(!_passedIrc)
	{
		delete _irc;
	}

	clearCommands();
	delete _commands;
}
Exemplo n.º 3
0
void plLogicModBase::read(hsStream* S, plResManager* mgr) {
    plSingleModifier::read(S, mgr);

    clearCommands();
    fCommandList.setSizeNull(S->readInt());
    for (size_t i=0; i<fCommandList.getSize(); i++)
        fCommandList[i] = plMessage::Convert(mgr->ReadCreatable(S));

    setNotify(plNotifyMsg::Convert(mgr->ReadCreatable(S)));
    fLogicFlags.read(S);
    fDisabled = S->readBool();
}
Exemplo n.º 4
0
void plLogicModBase::IPrcParse(const pfPrcTag* tag, plResManager* mgr) {
    if (tag->getName() == "LogicModParams") {
        fDisabled = tag->getParam("Disabled", "false").toBool();
    } else if (tag->getName() == "Commands") {
        clearCommands();
        fCommandList.setSizeNull(tag->countChildren());
        const pfPrcTag* child = tag->getFirstChild();
        for (size_t i=0; i<fCommandList.getSize(); i++) {
            fCommandList[i] = plMessage::Convert(mgr->prcParseCreatable(child));
            child = child->getNextSibling();
        }
    } else if (tag->getName() == "Notify") {
        if (tag->hasChildren())
            setNotify(plNotifyMsg::Convert(mgr->prcParseCreatable(tag->getFirstChild())));
    } else if (tag->getName() == "LogicFlags") {
        if (tag->hasChildren())
            fLogicFlags.prcParse(tag->getFirstChild());
    } else {
        plSingleModifier::IPrcParse(tag, mgr);
    }
}
void AbstractManager::clearCommands(int severity)
{
    if(severity != -1)
    {
        if(mLock.tryLockForWrite(mWriteMaxWait))
        {
            CommandQueue* queue = mHashCommandQueues.value(severity,0);
            if(queue)
            {
                qDeleteAll(queue->toSet());
                queue->clear();
            }
            mLock.unlock();
        }
    }
    else
    {
        foreach(int sever,mHashCommandQueues.keys())
        {
            clearCommands(sever);
        }
    }
}
Exemplo n.º 6
0
void makeSimplePath(const char * s) {
  int x; // a counter for the number of cells to be crossed
  state_t state;
  char c;
  clearCommands();
  state = PathStart;
  x = 0;
  while (state != PathExit) {
    c = *s++;
    switch (state) {
      case PathStart:
        if (c == 'F') {
          x = 1;
          state = PathOrtho_F;
        } else if (c == 'R') {
          emitCommand(CMD_ERROR_00);
          state = PathStop;
        } else if (c == 'L') {
          emitCommand(CMD_ERROR_00);
          state = PathStop;
        } else if (c == 'S') {
          state = PathStop;
        } else {
          emitCommand(CMD_ERROR_00);
          state = PathStop;
        }
        break;
      case PathOrtho_F:
        if (c == 'F') {
          x++;
        } else if (c == 'R') {
          emitCommand(FWD0 + x);
          state = PathOrtho_R;
        } else if (c == 'L') {
          emitCommand(FWD0 + x);
          state = PathOrtho_L;
        } else if (c == 'S') {
          emitCommand(FWD0 + x);
          state = PathStop;
        } else {
          emitCommand(CMD_ERROR_01);
          state = PathStop;
        }
        break;
      case PathOrtho_R:
        if (c == 'F') {
          emitCommand(SS90ER);
          x = 2;
          state = PathOrtho_F;
        } else if (c == 'R') {
          emitCommand(SS90ER);
          emitCommand(FWD1);
          state = PathOrtho_R;
        } else if (c == 'L') {
          emitCommand(SS90ER);
          emitCommand(FWD1);
          state = PathOrtho_L;
        } else if (c == 'S') {
          emitCommand(SS90ER);
          emitCommand(FWD1);
          state = PathStop;
        } else {
          emitCommand(CMD_ERROR_02);
          state = PathStop;
        }
        break;
      case PathOrtho_L:
        if (c == 'F') {
          emitCommand(SS90EL);
          x = 2;
          state = PathOrtho_F;
        } else if (c == 'R') {
          emitCommand(SS90EL);
          emitCommand(FWD1);
          state = PathOrtho_R;
        } else if (c == 'L') {
          emitCommand(SS90EL);
          emitCommand(FWD1);
          state = PathOrtho_L;
        } else if (c == 'S') {
          emitCommand(SS90EL);
          emitCommand(FWD1);
          state = PathStop;
        } else {
          emitCommand(CMD_ERROR_03);
          state = PathStop;
        }
        break;
      case PathStop:
        emitCommand(CMD_STOP); // make sure the command list gets terminated
        state = PathExit;
        break;
      default:
        emitCommand(CMD_ERROR_15);
        state = PathExit;
        break;
    }
  }
}
Exemplo n.º 7
0
ConsoleInput::~ConsoleInput() {
	clearPathsToFiles();
	clearCommands();
	//std::cout << "ConsoleInput::~ConsoleInput()" << std::endl;
}
Exemplo n.º 8
0
/** Robot code assembler
 *
 * This function generates a switch statement for continous robot movement
 *
 */
string smrclGenerator::generateSwitch(vector<route> rPlan,size_t pIndex, bool wait) {

    string                  cmdStr;
    const int               STRLEN = 256;
    char                    tempStr[STRLEN];
    int                     caseCnt = 1;

    //Error check
    if (rPlan.size() <= (size_t)pIndex) {
        printf("Generator: Plan is has less elements than index");
        return cmdStr;
    }


    //Save the old commands (currently not used)
    oldCmds = cmds;

    //Clear the commands vector
    clearCommands();

    //Process the rules to generate command structure
    codeGen->processCommands(&cmds,wait);
    codeGen->processNextCommands(&nextCmds,wait);

    //Set the id's
    crashId = cmds.size() + 1;
    successId = cmds.size() + 2;
        
    //Sort the commands in highest quality first order
    sort(cmds.begin(),cmds.end());
    reverse(cmds.begin(),cmds.end());
    sort(nextCmds.begin(),nextCmds.end());
    reverse(nextCmds.begin(),nextCmds.end());
    //Generate commands output for the route element
    //cmds = processCommandsFromRule();//processCommands(rPlan,pIndex);//

    //Generate commands output for the next route element (forward planning)
    //(Only if the route has enough elements)
    // nextCmds = processCommands(rPlan,pIndex+1);
    
    //Reset trigger variables
    cmdStr += "success = 0\n";
    cmdStr += "reload  = 0\n";

    //Start the switch
    cmdStr += "switch (condVal)\n";

    //Make a case of the highest quality command for the following route element
    //to execute, if the previous command is finished successfully
    snprintf(tempStr,STRLEN,"  putevent \"ev%d\"\n",successId);
    cmdStr += tempStr;

    //Clear the fail-variables
    for(size_t i = 0; i < cmds.size(); i++) {
        snprintf(tempStr,STRLEN,"  fail%d = 0\n",cmds[i].id);
        cmdStr += tempStr;
    }
    //Load the init variables
    for (size_t i = 0; i < nextCmds.size(); i++)
        if ((nextCmds[i].quality > 0) && (!nextCmds[i].initCommand.empty())) {
            cmdStr += nextCmds[i].initCommand;
            cmdStr += "\n";
        }
    //Put the next command if there is any elements left in the mission, otherwise stop
    if ((pIndex+1) >= rPlan.size()) {
        cmdStr += "stop\n wait 2\n idle\n"; //Stop the robot
    } else {
       cmdStr += makeCaseCommand(nextCmds, 0); 
    }
    
    


    //Add the case-commands for the command, if the command is not empty
    for(size_t i = 0; i < cmds.size(); i++) {
        if (!cmds[i].command.empty()) {
            snprintf(tempStr,STRLEN,"  case %d\n",caseCnt);
            caseCnt++;
            cmdStr += tempStr;
            snprintf(tempStr,STRLEN,"  putevent \"ev%d\"\n",cmds[i].id);
            cmdStr += tempStr;

            //Add the command itself
            cmdStr += makeCaseCommand(cmds, i);
        }
    }

    //Make a "last resort case"
    snprintf(tempStr,STRLEN," case %d\n",caseCnt);
    caseCnt++;
    cmdStr += tempStr;
    snprintf(tempStr,STRLEN,"  putevent \"ev%d\"\n",crashId);
    cmdStr += tempStr;
    snprintf(tempStr,STRLEN,"  stop\n");
    cmdStr += tempStr;

    //Make a case of the highest quality command for the following route element
    //to execute, if the previous command is finished successfully
    snprintf(tempStr,STRLEN," case %d\n",successId);
    caseCnt++;
    cmdStr += tempStr;
    snprintf(tempStr,STRLEN,"  putevent \"ev%d\"\n",successId);
    cmdStr += tempStr;
    for(size_t i = 0; i < cmds.size(); i++) {
        snprintf(tempStr,STRLEN,"  fail%d = 0\n",cmds[i].id);
        cmdStr += tempStr;
    }
    for (size_t i = 0; i < nextCmds.size(); i++) {
         if ((cmds[i].quality > 0) && (!cmds[i].exitCommand.empty())) {
            cmdStr += cmds[i].exitCommand;
            cmdStr += "\n";
        }
        if ((nextCmds[i].quality > 0) && (!nextCmds[i].initCommand.empty())) {
            cmdStr += nextCmds[i].initCommand;
            cmdStr += "\n";
        }
    }
    //Put the next command if there is any elements left in the mission, otherwise stop
    if ((pIndex+1) >= rPlan.size()) {
        cmdStr += "stop\n wait 2\n idle\n"; //Stop the robot
    } else {
       cmdStr += makeCaseCommand(nextCmds, 0);
    }

    //Finally round up the switch
    cmdStr += "endswitch\n";

    return cmdStr;
}