void Screen::displayInfo() { ScenarioInfo info( this ); info.setNbPlayer( getNbPlayer() ); info.setName( getScenarioName() ); info.setTheme( getScenarioTheme() ); info.setDescription( getScenarioDescription() ); info.setDay(getDateByType( 0 ) ); info.setWeek(getDateByType( 2 ) ); info.setMonth(getDateByType( 3 ) ); info.setYear(getDateByType( 4 ) ); if(theMap) { info.setMapWidth( theMap->getWidth() ); info.setMapHeight( theMap->getHeight() ); } if( info.exec() ) { setNbPlayer( info.getNbPlayer() ); setScenarioName( info.getName() ); setScenarioTheme( info.getTheme() ); setScenarioDescription( info.getDescription() ); setDateByType( 0, info.getDay() > 0 ? info.getDay() : 1 ); setDateByType( 1, 1 ); setDateByType( 2, info.getWeek() ); setDateByType( 3, info.getMonth() ); setDateByType( 4, info.getYear() ); adjustPlayers(); } }
void peano::applications::navierstokes::prototype1::scenarios::configuration::FluidScenarioConfiguration::readMaximumElevationInNegGravitationDirection() const { // maximum elevation has been specified in the configuration if (isMaximumElevationSpecified()) { return; } double result = 0.0; assertion(isValid()); if ( !tarch::la::equals(getGravityVector().norm(),0.0) && ( // getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidPreCICEColdLeg::IDENTIFIER || getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidObstacleInChannel::IDENTIFIER // || // getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidObstacleInChannelWithSlipWalls::IDENTIFIER || // getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidObstacleInStationaryFlowField::IDENTIFIER || // getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidObstacleInTurbulentChannel::IDENTIFIER || // getScenarioName() == peano::applications::navierstokes::prototype1::scenarios::FluidFlatPlateInParallelFlow::IDENTIFIER ) ) { _log.warning("readMaximumElevationInNegGravitationDirection()", "Gravity is non-zero, if this scenario has Neumann boundaries you should define atrribute \"" + ATTRIBUTE_MAXIMUM_ELEVATION + "\" in tag <" + configuration::FluidScenarioConfiguration::TAG + "> to get the correct hydropressure correction."); bool isGravityInXDirection = true; bool isGravityInYDirection = true; bool isGravityInZDirection = DIMENSIONS >= 3; for (int d=0; d<DIMENSIONS; d++) { //only y-direction for gravity supported! if (d!=0 && !tarch::la::equals(getGravityVector()(d),0.0)) isGravityInXDirection = false; if (d!=1 && !tarch::la::equals(getGravityVector()(d),0.0)) isGravityInYDirection = false; if (d!=2 && !tarch::la::equals(getGravityVector()(d),0.0)) isGravityInZDirection = false; } if (isGravityInXDirection && !isGravityInYDirection && !isGravityInZDirection) { result = getInletOffset()(0) + getInletDimension()(0); } else if (isGravityInYDirection && !isGravityInXDirection && !isGravityInZDirection) { result = getInletOffset()(1) + getInletDimension()(1); } else if (isGravityInZDirection && !isGravityInXDirection && !isGravityInYDirection) { assertion(DIMENSIONS == 3); result = getInletOffset()(2) + getInletDimension()(2); } else { _log.error("getMaximumElevationInNegGravitationDirection()","only y- or z-direction (exclusive or) for gravity vector supported! Otherwise use attribute \"" + ATTRIBUTE_MAXIMUM_ELEVATION + "\" in tag <" + configuration::FluidScenarioConfiguration::TAG + ">."); exit(ASSERTION_EXIT_CODE); } } else { // assertionFail(""); } _maximumElevation = result; _maximumElevationSpecified = true; }
void Screen::displayInfo() { ScenarioInfo info( this ); info.setNbPlayer( getNbPlayer() ); info.setName( getScenarioName() ); info.setTheme( getScenarioTheme() ); info.setDescription( getScenarioDescription() ); if( info.exec() ) { // XXX:get back the infos... } }