Exemplo n.º 1
0
/* ARGSUSED1 */
void CurveHandleKeys(unsigned char key, int x, int y)
{
  if (key > '0' && key < '9')
    CurveHandleEditMenu((key-'0')-1);
  else if (key == 'd')
    CurveHandleMenu(CMENU_DONEEDIT);
  else {
    switch(key) {
      case 'f':
      case ' ': Step++;
                StopWalking(); break;
      case 'F': Step += 5;
                StopWalking(); break;
      case 'b': Step--;
                StopWalking(); break;
      case 'B': Step -= 5; 
                StopWalking(); break;
    }
    Step %= CYCLE_SIZE;
    if (Step < 0)
      Step = CYCLE_SIZE + Step;
    fStep = Step;
    RedisplayBoth();
  }
}
Exemplo n.º 2
0
void Motion::StartWalking(double distance)
{
	double timeToWalk = distance / BrainData::GetInstance()->WALK_SPEED;
	StartWalking();
	usleep(timeToWalk*1000000); //convert sec to microsec
	StopWalking();
}
Exemplo n.º 3
0
/* ARGSUSED2 */
void CurveHandleButton(int button, int state, int x, int y)
{
  if (button == GLUT_RIGHT_BUTTON )
    return;

  if (state == GLUT_DOWN && CurveDownBtn == -1) {
    if (button == GLUT_MIDDLE_BUTTON)
      CurveHandleMenu(CMENU_WALK);
    else
      fStep = Step = (int)((float)x/glutGet(GLUT_WINDOW_WIDTH) * CYCLE_SIZE);
      
    CurveDownBtn = button;

    WasWalking = Walking;
    StopWalking();
    RedisplayBoth();
  } else if (button == CurveDownBtn) {
    CurveDownBtn = -1;
    if (WasWalking) {
      Walking = 1;
      agvSetAllowIdle(0);
      glutIdleFunc(IncrementStep);	
    }
  }
}
Exemplo n.º 4
0
void C_HL2MP_Player::HandleSpeedChanges( void )
{
	int buttonsChanged = m_afButtonPressed | m_afButtonReleased;

	if( buttonsChanged & IN_SPEED )
	{
		// The state of the sprint/run button has changed.
		if ( IsSuitEquipped() )
		{
			if ( !(m_afButtonPressed & IN_SPEED)  && IsSprinting() )
			{
				StopSprinting();
			}
			else if ( (m_afButtonPressed & IN_SPEED) && !IsSprinting() )
			{
				if ( CanSprint() )
				{
					StartSprinting();
				}
				else
				{
					// Reset key, so it will be activated post whatever is suppressing it.
					m_nButtons &= ~IN_SPEED;
				}
			}
		}
	}
	else if( buttonsChanged & IN_WALK )
	{
		if ( IsSuitEquipped() )
		{
			// The state of the WALK button has changed. 
			if( IsWalking() && !(m_afButtonPressed & IN_WALK) )
			{
				StopWalking();
			}
			else if( !IsWalking() && !IsSprinting() && (m_afButtonPressed & IN_WALK) && !(m_nButtons & IN_DUCK) )
			{
				StartWalking();
			}
		}
	}

	if ( IsSuitEquipped() && m_fIsWalking && !(m_nButtons & IN_WALK)  ) 
		StopWalking();
}
Exemplo n.º 5
0
void GuyHandleKeys(unsigned char key, int x, int y)
{
  switch(key) {
    case 'f':
    case ' ': Step++;
              StopWalking(); break;
    case 'F': Step += 5;
              StopWalking(); break;
    case 'b': Step--;
              StopWalking(); break;
    case 'B': Step -= 5; 
              StopWalking(); break;
  }
  Step %= CYCLE_SIZE;
  if (Step < 0)
    Step = CYCLE_SIZE + Step;
  agvHandleKeys(key, x, y);
  RedisplayBoth();
}
Exemplo n.º 6
0
/// This should be subclassed to actually add some physics, based on your given game. By default it will send a PT_SET_ACCELERATION message to the entity using walkingAcceleration.
void PathableProperty::GoToWaypoint(Waypoint * wp)
{
	if (wp == 0)
	{
		StopWalking();
		return;
	}
	MoveToMessage mtm(wp->position);
	owner->ProcessMessage(&mtm);
}
Exemplo n.º 7
0
/// Sets new path to walk, first going to the first waypoint in the path.
void PathableProperty::StartWalking(Path alongPath)
{
	StopWalking();
	isWalking = false;
	nextWaypoint = 0;
	path = alongPath;
	if (!path.Size())
		return;
	isWalking = true;
	nextWaypoint = path[0];
	GoToWaypoint(nextWaypoint);
}
Exemplo n.º 8
0
void C_HL2MP_Player::HandleSpeedChanges( void )
{
	int buttonsChanged = m_afButtonPressed | m_afButtonReleased;

	if( buttonsChanged & IN_WALK )
	{
		if ( IsSuitEquipped() )
		{
			// The state of the WALK button has changed. 
			if( IsWalking() && !(m_afButtonPressed & IN_WALK) )
			{
				StopWalking();
			}
			else if( !IsWalking() && (m_afButtonPressed & IN_WALK) && !(m_nButtons & IN_DUCK) )
			{
				StartWalking();
			}
		}
	}

	if ( IsSuitEquipped() && m_fIsWalking && !(m_nButtons & IN_WALK)  ) 
		StopWalking();
}
Exemplo n.º 9
0
void Motion::TurnByAngle(double angle)
{
	if(angle == 0)
		return;
	else if(angle > 0)
		StartWalking(0,0,30);
	else if(angle < 0)
	{
		angle = -angle;
		StartWalking(0,0,-30);
	}
	usleep(2000*1000);
	//usleep(factor*angle*27);
	StopWalking();
	SetHeadTilt(HeadTilt(GetHeadTilt().Tilt,0));
}
Exemplo n.º 10
0
/// Sets next waypoint as target. If next waypoint becomes 0, it will stop walking. If path is cyclic, will never stop walking until StopWalking is called.
bool PathableProperty::SetNextWaypointAsTarget()
{
	int index = path.GetIndexOf(nextWaypoint);
	++index;
	if (index >= path.Size() - 1) // If final point, just go to it and stop.
	{
//		std::cout<<"\nIs final waypoint.";
		GoToWaypoint(nextWaypoint);
		Message msg("OnFinalDestinationSet");
		owner->ProcessMessage(&msg);
		StopWalking();
		return false;
	}
	nextWaypoint = path[index];	
	// TODO check circularity and max size of path?
	return true;
}
Exemplo n.º 11
0
void C_HL2MP_Player::HandleSpeedChanges( void )
{
	bool bCanSprint = CanSprint();
	bool bIsSprinting = IsSprinting();
	bool bWantSprint = (bCanSprint && IsSuitEquipped() && (m_nButtons & IN_SPEED));
	if (bIsSprinting != bWantSprint)
	{
		// If someone wants to sprint, make sure they've pressed the button to do so. We want to prevent the
		// case where a player can hold down the sprint key and burn tiny bursts of sprint as the suit recharges
		// We want a full debounce of the key to resume sprinting after the suit is completely drained
		if (bWantSprint)
		{
			StartSprinting();
		}
		else
		{
			StopSprinting();
		}
	}

	bool bIsWalking = IsWalking();
	// have suit, pressing button, not sprinting or ducking
	bool bWantWalking;

	if (IsSuitEquipped())
	{
		bWantWalking = (m_nButtons & IN_WALK) && !IsSprinting() && !(m_nButtons & IN_DUCK);
	}
	else
	{
		bWantWalking = true;
	}

	if (bIsWalking != bWantWalking)
	{
		if (bWantWalking)
		{
			StartWalking();
		}
		else
		{
			StopWalking();
		}
	}
}
Exemplo n.º 12
0
/*****************************************************************************************
 * Function Name: SetWalkingMode
 * Description: This function Loads the settings for the walking module to a walking mode
 * 				the function sets the max walking speed to 13 and -13.
 * 				the function stops the motion, and needs to be enabled.
 *
 *****************************************************************************************/
void WalkingAndActions::SetWalkingMode(WalkingModes_t walkingMode)
{
    if(m_walkingMode == walkingMode)
    {
        return;
    }
    StopWalking();
#ifdef DEBUG_SET_WALKING_MODE
    cout << "[WalkingAndActions::SetWalkingMode]: Toggling walking mode to [" << ConvertWalkingModeToString(walkingMode) << "]\n";
#endif
    usleep(500 * 1000);
    switch(walkingMode)
    {
    //if changed to walking mode, change the max speed for the axis
    //and load ini file, and change the walking mode variable

    case RUNNING:
        m_walking->LoadINISettings(m_running_ini);
        m_maxXSpeed      = RUNNING_MAX_FORWARD_SPEED;
        m_minXSpeed      = RUNNING_MAX_BACKWARD_SPEED;
        m_maxYSpeed		= MAX_LEFT_SPEED;
        m_minYSpeed		= MAX_RIGHT_SPEED;
        m_maxLeftTurningAngle  = MAX_TURN_LEFT_SPEED;
        m_maxRightTurningAngle = MAX_TURN_RIGHT_SPEED;
        m_walkingMode		   = RUNNING;
        break;

    case WALKING:
        StartAction(STAND_UP_WALKING);
        m_walking->LoadINISettings(m_walking_ini);
        m_maxXSpeed      = WALKING_MAX_FORWARD_SPEED;
        m_minXSpeed      = WALKING_MAX_BACKWARD_SPEED;
        m_maxYSpeed		= MAX_LEFT_SPEED;
        m_minYSpeed		= MAX_RIGHT_SPEED;
        m_maxLeftTurningAngle  = MAX_TURN_LEFT_SPEED;
        m_maxRightTurningAngle = MAX_TURN_RIGHT_SPEED;
        m_walkingMode		   = WALKING;
        break;

    default:
        printf("No such walkingMode type as [%d]\n",walkingMode);
        break;
    }
}
Exemplo n.º 13
0
void CSDKPlayer::HandleSpeedChanges( void )
{
	bool bIsWalking = IsWalking();
	bool bWantWalking;
	
	bWantWalking = true;
	
	if( bIsWalking != bWantWalking )
	{
		if ( bWantWalking )
		{
			StartWalking();
		}
		else
		{
			StopWalking();
		}
	}
}
Exemplo n.º 14
0
/*****************************************************************************************
 * Method Name:   StartAction
 * Description:   This method gets an action and execute it
 * Arguments:     action - action to perform
 *****************************************************************************************/
void WalkingAndActions::StartAction(Actions_t action)
{
#ifdef DEBUG_START_ACTION
    cout << "[StartAction]: Action type: " << action << "\n";
#endif
#ifdef DEBUG_START_ACTION
    printf("[StartAction]: Stopping StartWalking thread...\n");
#endif
    StopThreadRunning();
#ifdef DEBUG_START_ACTION
    printf("[StartAction]: StartWalking thread stopped.\n");
#endif


    sigset_t mask;
    sigemptyset(&mask);
    sigaddset(&mask, SIGINT);
    sigaddset(&mask, SIGUSR2);
    bool isSigmaskSuccess = pthread_sigmask(SIG_BLOCK, &mask, NULL);
#ifdef DEBUG_START_ACTION
    if(isSigmaskSuccess)
    {
        printf("[StartAction]: Sigmask failed\n");
    }
    else
    {
        printf("[StartAction]: Sigmask success\n");
    }
#endif
    pthread_mutex_lock(& m_walkingAndActionsMutex);

#ifdef DEBUG_START_ACTION
    printf("[StartAction]: Mutex has been locked. \n");
#endif

    //check if in walking mode
    if( IsWalking() == true )
    {
#ifdef DEBUG_START_ACTION
        printf("[StartAction]: The robot is walking - StopWalking...\n");
#endif
        StopWalking();
#ifdef DEBUG_START_ACTION
        printf("[StartAction]: The robot has stopped walking.\n");
#endif
    }
    while( IsActionOnGoing() == true )
    {
#ifdef DEBUG_START_ACTION
        printf("[StartAction]: An action is ongoing...\n");
#endif
        usleep(8000);
    }
#ifdef DEBUG_START_ACTION
    printf("[StartAction]: Walking and actions has been stopped. \n");
#endif
    //action module take control of the body without head
    m_action->m_Joint.SetEnableBodyWithoutHead(true,true);

    //action module start the action
#ifdef DEBUG_START_ACTION
    printf("[StartAction]: Starting the action...\n");
#endif
    m_action->Start( (int)action );

#ifdef DEBUG_START_ACTION
    cout << "[StartAction]: Check if action is still running...\n";
#endif
    while(m_action->IsRunning())
    {
        usleep(8000);
    }
#ifdef DEBUG_START_ACTION
    cout << "[StartAction]: Action: " << (int)action << " has been done\n";
#endif
    ResetWalkingParams();
#ifdef DEBUG_START_ACTION
    cout << "[StartAction]: Walking Params has been reseted\n";
#endif


    pthread_mutex_unlock(& m_walkingAndActionsMutex);
#ifdef DEBUG_START_ACTION
    printf("[StartAction]: Mutex has been unlocked. \n");
#endif

    pthread_sigmask(SIG_UNBLOCK, &mask, NULL);
}
Exemplo n.º 15
0
void Motion::TurnToGoal(double angle)
{
	StartWalking(0,40,5);
	usleep(88888.8888*angle);
	StopWalking();
}