use of edu.umd.cs.findbugs.annotations.SuppressFBWarnings in project JMRI by JMRI.
the class NodeConfigFrame method infoButtonActionPerformed.
/**
* Method to handle info state
*/
@SuppressFBWarnings(value = "SBSC_USE_STRINGBUFFER_CONCATENATION")
public // though it would be good to fix it if you're working in this area
void infoButtonActionPerformed() {
// lookup the nodes
String nodesstring = "";
int tempnumnodes = _memo.getTrafficController().getNumNodes();
for (int i = 0; i < tempnumnodes; i++) {
AcelaNode tempnode;
tempnode = (AcelaNode) _memo.getTrafficController().getNodeFromAddress(i);
nodesstring = nodesstring + " " + tempnode.getNodeTypeString();
}
thenodesStaticC.setText(nodesstring);
// Find Acela Node address
nodeAddress = readNodeAddress();
if (nodeAddress < 0) {
return;
}
// get the AcelaNode corresponding to this node address
curNode = (AcelaNode) _memo.getTrafficController().getNodeFromAddress(nodeAddress);
if (curNode == null) {
statusText1.setText(rb.getString("Error4"));
statusText1.setVisible(true);
errorInStatus1 = true;
resetNotes2();
return;
}
// Set up static node address
nodeAddrStatic.setText(Integer.toString(nodeAddress));
nodeAddrBox.setVisible(true);
nodeAddrField.setVisible(false);
nodeAddrStatic.setVisible(false);
// get information for this node and set up combo box
nodeType = curNode.getNodeType();
nodeTypeBox.setSelectedIndex(nodeType);
nodeTypeBox.setVisible(false);
nodeTypeStatic.setText(AcelaNode.getModuleNames()[nodeType]);
nodeTypeStatic.setVisible(true);
// get information for this node if it is an output node
int numoutputbits = curNode.getNumOutputBitsPerCard();
if (numoutputbits > 0) {
// set up output types
for (int o = 0; o < numoutputbits; o++) {
if (curNode.getOutputInit(o) == 0) {
initialState[o] = rb.getString("InitialStateOff");
} else {
// if (curNode.getOutputInit(o) == 1) {
initialState[o] = rb.getString("InitialStateOn");
}
if (curNode.getOutputWired(o) == 0) {
outputWired[o] = rb.getString("OutputWiredNO");
} else {
// if (curNode.getOutputWired(o) == 1) {
outputWired[o] = rb.getString("OutputWiredNC");
}
if (curNode.getOutputType(o) == 0) {
outputType[o] = rb.getString("OutputTypeONOFF");
} else {
if (curNode.getOutputType(o) == 1) {
outputType[o] = rb.getString("OutputTypePULSE");
} else {
// if (curNode.getOutputType(o) == 2) {
outputType[o] = rb.getString("OutputTypeBLINK");
}
}
outputLength[o] = String.valueOf(curNode.getOutputLength(o));
}
}
// get information for this node if it is a sensor node
int numsensorbits = curNode.getNumSensorBitsPerCard();
if (numsensorbits > 0) {
// set up sensor types
for (int i = 0; i < numsensorbits; i++) {
if (curNode.getSensorType(i) == 0) {
filterType[i] = rb.getString("FilterTypeNoise");
} else if (curNode.getSensorType(i) == 1) {
filterType[i] = rb.getString("FilterTypeDebounce");
} else if (curNode.getSensorType(i) == 2) {
filterType[i] = rb.getString("FilterTypeCarGap");
} else {
filterType[i] = rb.getString("FilterTypeDirtyTrack");
}
if (curNode.getSensorPolarity(i) == 0) {
filterPolarity[i] = rb.getString("FilterNormalPolarity");
} else {
filterPolarity[i] = rb.getString("FilterInversePolarity");
}
filterThreshold[i] = String.valueOf(curNode.getSensorThreshold(i));
}
}
// Switch buttons
editMode = false;
addButton.setVisible(true);
editButton.setVisible(true);
deleteButton.setVisible(true);
doneButton.setVisible(true);
updateButton.setVisible(false);
cancelButton.setVisible(false);
// Switch to edit notes
statusText1.setText(infoStatus1);
statusText2.setText(infoStatus2);
statusText3.setText(infoStatus3);
d8outputConfigModel.setEditMode(false);
swoutputConfigModel.setEditMode(false);
ymoutputConfigModel.setEditMode(false);
TBoutputConfigModel.setEditMode(false);
TBsensorConfigModel.setEditMode(false);
smoutputConfigModel.setEditMode(false);
wmsensorConfigModel.setEditMode(false);
sysensorConfigModel.setEditMode(false);
contentPane.repaint();
}
use of edu.umd.cs.findbugs.annotations.SuppressFBWarnings in project JMRI by JMRI.
the class ClockMonPanel method debugOutputForRecomputeOffset.
@SuppressFBWarnings(value = "SBSC_USE_STRINGBUFFER_CONCATENATION", justification = "Slow operation in debug OK for now")
private void debugOutputForRecomputeOffset(double avgDiff) {
Date now = internalClock.getTime();
String txt = "";
for (int i = 0; i < priorOffsetErrors.size(); i++) {
txt = txt + " " + priorOffsetErrors.get(i).doubleValue();
}
log.debug("priorOffsetErrors: " + txt);
log.debug("syncOffset: " + syncInterval + " avgDiff: " + avgDiff + " @ " + now.toString());
}
use of edu.umd.cs.findbugs.annotations.SuppressFBWarnings in project JMRI by JMRI.
the class DefaultConditional method takeActionIfNeeded.
/**
* Compares action options, and takes action if appropriate
* <P>
* Only get here if a change in state has occurred when calculating this
* Conditional
*/
@SuppressWarnings({ "deprecation", "fallthrough" })
@SuppressFBWarnings(value = "SF_SWITCH_FALLTHROUGH")
private // have to apply to more than 500 lines of code - jake
void takeActionIfNeeded() {
if (log.isTraceEnabled()) {
log.trace("takeActionIfNeeded starts for " + getSystemName());
}
int actionCount = 0;
int actionNeeded = 0;
int act = 0;
int state = 0;
ArrayList<String> errorList = new ArrayList<>();
// Use a local copy of state to guarantee the entire list of actions will be fired off
// before a state change occurs that may block their completion.
int currentState = _currentState;
for (int i = 0; i < _actionList.size(); i++) {
ConditionalAction action = _actionList.get(i);
int neededAction = actionNeeded;
int option = action.getOption();
if (log.isTraceEnabled()) {
log.trace(" takeActionIfNeeded considers action " + i + " with currentState: " + currentState + " and option: " + option);
}
if (((currentState == TRUE) && (option == ACTION_OPTION_ON_CHANGE_TO_TRUE)) || ((currentState == FALSE) && (option == ACTION_OPTION_ON_CHANGE_TO_FALSE)) || (option == ACTION_OPTION_ON_CHANGE)) {
// need to take this action
actionNeeded++;
SignalHead h = null;
SignalMast f = null;
Logix x = null;
Light lgt = null;
Warrant w = null;
NamedBean nb = null;
if (action.getNamedBean() != null) {
nb = action.getNamedBean().getBean();
}
int value = 0;
Timer timer = null;
int type = action.getType();
String devName = getDeviceName(action);
if (devName == null) {
errorList.add("invalid memory name in action - " + action);
continue;
}
if (log.isDebugEnabled()) {
log.debug("getDeviceName()=" + action.getDeviceName() + " devName= " + devName);
}
switch(type) {
case Conditional.ACTION_NONE:
break;
case Conditional.ACTION_SET_TURNOUT:
Turnout t = (Turnout) nb;
if (t == null) {
errorList.add("invalid turnout name in action - " + action.getDeviceName());
} else {
act = action.getActionData();
if (act == Route.TOGGLE) {
state = t.getKnownState();
if (state == Turnout.CLOSED) {
act = Turnout.THROWN;
} else {
act = Turnout.CLOSED;
}
}
t.setCommandedState(act);
actionCount++;
}
break;
case Conditional.ACTION_RESET_DELAYED_TURNOUT:
action.stopTimer();
// fall through
case Conditional.ACTION_DELAYED_TURNOUT:
if (!action.isTimerActive()) {
// Create a timer if one does not exist
timer = action.getTimer();
if (timer == null) {
action.setListener(new TimeTurnout(i));
timer = new Timer(2000, action.getListener());
timer.setRepeats(true);
}
// Start the Timer to set the turnout
value = getMillisecondValue(action);
if (value < 0) {
break;
}
timer.setInitialDelay(value);
action.setTimer(timer);
action.startTimer();
actionCount++;
} else {
log.warn("timer already active on request to start delayed turnout action - " + devName);
}
break;
case Conditional.ACTION_CANCEL_TURNOUT_TIMERS:
ConditionalManager cmg = jmri.InstanceManager.getDefault(jmri.ConditionalManager.class);
java.util.Iterator<String> iter = cmg.getSystemNameList().iterator();
while (iter.hasNext()) {
String sname = iter.next();
if (sname == null) {
errorList.add("Conditional system name null during cancel turnout timers for " + action.getDeviceName());
}
Conditional c = cmg.getBySystemName(sname);
if (c == null) {
errorList.add("Conditional null during cancel turnout timers for " + action.getDeviceName());
} else {
c.cancelTurnoutTimer(devName);
actionCount++;
}
}
break;
case Conditional.ACTION_LOCK_TURNOUT:
Turnout tl = (Turnout) nb;
if (tl == null) {
errorList.add("invalid turnout name in action - " + action.getDeviceName());
} else {
act = action.getActionData();
if (act == Route.TOGGLE) {
if (tl.getLocked(Turnout.CABLOCKOUT)) {
act = Turnout.UNLOCKED;
} else {
act = Turnout.LOCKED;
}
}
if (act == Turnout.LOCKED) {
tl.setLocked(Turnout.CABLOCKOUT + Turnout.PUSHBUTTONLOCKOUT, true);
} else if (act == Turnout.UNLOCKED) {
tl.setLocked(Turnout.CABLOCKOUT + Turnout.PUSHBUTTONLOCKOUT, false);
}
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNAL_APPEARANCE:
h = (SignalHead) nb;
if (h == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
h.setAppearance(action.getActionData());
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNAL_HELD:
h = (SignalHead) nb;
if (h == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
h.setHeld(true);
actionCount++;
}
break;
case Conditional.ACTION_CLEAR_SIGNAL_HELD:
h = (SignalHead) nb;
if (h == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
h.setHeld(false);
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNAL_DARK:
h = (SignalHead) nb;
if (h == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
h.setLit(false);
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNAL_LIT:
h = (SignalHead) nb;
if (h == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
h.setLit(true);
actionCount++;
}
break;
case Conditional.ACTION_TRIGGER_ROUTE:
Route r = (Route) nb;
if (r == null) {
errorList.add("invalid Route name in action - " + action.getDeviceName());
} else {
r.setRoute();
actionCount++;
}
break;
case Conditional.ACTION_SET_SENSOR:
Sensor sn = (Sensor) nb;
if (sn == null) {
errorList.add("invalid Sensor name in action - " + action.getDeviceName());
} else {
act = action.getActionData();
if (act == Route.TOGGLE) {
state = sn.getState();
if (state == Sensor.ACTIVE) {
act = Sensor.INACTIVE;
} else {
act = Sensor.ACTIVE;
}
}
try {
sn.setKnownState(act);
actionCount++;
} catch (JmriException e) {
log.warn("Exception setting Sensor " + devName + " in action");
}
}
break;
case Conditional.ACTION_RESET_DELAYED_SENSOR:
action.stopTimer();
// fall through
case Conditional.ACTION_DELAYED_SENSOR:
if (!action.isTimerActive()) {
// Create a timer if one does not exist
timer = action.getTimer();
if (timer == null) {
action.setListener(new TimeSensor(i));
timer = new Timer(2000, action.getListener());
timer.setRepeats(true);
}
// Start the Timer to set the turnout
value = getMillisecondValue(action);
if (value < 0) {
break;
}
timer.setInitialDelay(value);
action.setTimer(timer);
action.startTimer();
actionCount++;
} else {
log.warn("timer already active on request to start delayed sensor action - " + devName);
}
break;
case Conditional.ACTION_CANCEL_SENSOR_TIMERS:
ConditionalManager cm = jmri.InstanceManager.getDefault(jmri.ConditionalManager.class);
java.util.Iterator<String> itr = cm.getSystemNameList().iterator();
while (itr.hasNext()) {
String sname = itr.next();
if (sname == null) {
errorList.add("Conditional system name null during cancel sensor timers for " + action.getDeviceName());
}
Conditional c = cm.getBySystemName(sname);
if (c == null) {
errorList.add("Conditional null during cancel sensor timers for " + action.getDeviceName());
} else {
c.cancelSensorTimer(devName);
actionCount++;
}
}
break;
case Conditional.ACTION_SET_LIGHT:
lgt = (Light) nb;
if (lgt == null) {
errorList.add("invalid light name in action - " + action.getDeviceName());
} else {
act = action.getActionData();
if (act == Route.TOGGLE) {
state = lgt.getState();
if (state == Light.ON) {
act = Light.OFF;
} else {
act = Light.ON;
}
}
lgt.setState(act);
actionCount++;
}
break;
case Conditional.ACTION_SET_LIGHT_INTENSITY:
lgt = (Light) nb;
if (lgt == null) {
errorList.add("invalid light name in action - " + action.getDeviceName());
} else {
try {
value = getIntegerValue(action);
if (value < 0) {
break;
}
lgt.setTargetIntensity((value) / 100.0);
actionCount++;
} catch (IllegalArgumentException e) {
errorList.add("Exception in set light intensity action - " + action.getDeviceName());
}
}
break;
case Conditional.ACTION_SET_LIGHT_TRANSITION_TIME:
lgt = (Light) nb;
if (lgt == null) {
errorList.add("invalid light name in action - " + action.getDeviceName());
} else {
try {
value = getIntegerValue(action);
if (value < 0) {
break;
}
lgt.setTransitionTime(value);
actionCount++;
} catch (IllegalArgumentException e) {
errorList.add("Exception in set light transition time action - " + action.getDeviceName());
}
}
break;
case Conditional.ACTION_SET_MEMORY:
Memory m = (Memory) nb;
if (m == null) {
errorList.add("invalid memory name in action - " + action.getDeviceName());
} else {
m.setValue(action.getActionString());
actionCount++;
}
break;
case Conditional.ACTION_COPY_MEMORY:
Memory mFrom = (Memory) nb;
if (mFrom == null) {
errorList.add("invalid memory name in action - " + action.getDeviceName());
} else {
Memory mTo = getMemory(action.getActionString());
if (mTo == null) {
errorList.add("invalid memory name in action - " + action.getActionString());
} else {
mTo.setValue(mFrom.getValue());
actionCount++;
}
}
break;
case Conditional.ACTION_ENABLE_LOGIX:
x = InstanceManager.getDefault(jmri.LogixManager.class).getLogix(devName);
if (x == null) {
errorList.add("invalid logix name in action - " + action.getDeviceName());
} else {
x.setEnabled(true);
actionCount++;
}
break;
case Conditional.ACTION_DISABLE_LOGIX:
x = InstanceManager.getDefault(jmri.LogixManager.class).getLogix(devName);
if (x == null) {
errorList.add("invalid logix name in action - " + action.getDeviceName());
} else {
x.setEnabled(false);
actionCount++;
}
break;
case Conditional.ACTION_PLAY_SOUND:
String path = getActionString(action);
if (!path.equals("")) {
Sound sound = action.getSound();
if (sound == null) {
try {
sound = new Sound(path);
} catch (NullPointerException ex) {
errorList.add("invalid path to sound: " + path);
}
}
if (sound != null) {
sound.play();
}
actionCount++;
}
break;
case Conditional.ACTION_RUN_SCRIPT:
if (!(getActionString(action).equals(""))) {
JmriScriptEngineManager.getDefault().runScript(new File(jmri.util.FileUtil.getExternalFilename(getActionString(action))));
actionCount++;
}
break;
case Conditional.ACTION_SET_FAST_CLOCK_TIME:
Date date = InstanceManager.getDefault(jmri.Timebase.class).getTime();
date.setHours(action.getActionData() / 60);
date.setMinutes(action.getActionData() - ((action.getActionData() / 60) * 60));
date.setSeconds(0);
InstanceManager.getDefault(jmri.Timebase.class).userSetTime(date);
actionCount++;
break;
case Conditional.ACTION_START_FAST_CLOCK:
InstanceManager.getDefault(jmri.Timebase.class).setRun(true);
actionCount++;
break;
case Conditional.ACTION_STOP_FAST_CLOCK:
InstanceManager.getDefault(jmri.Timebase.class).setRun(false);
actionCount++;
break;
case Conditional.ACTION_CONTROL_AUDIO:
Audio audio = InstanceManager.getDefault(jmri.AudioManager.class).getAudio(devName);
if (audio.getSubType() == Audio.SOURCE) {
AudioSource audioSource = (AudioSource) audio;
switch(action.getActionData()) {
case Audio.CMD_PLAY:
audioSource.play();
break;
case Audio.CMD_STOP:
audioSource.stop();
break;
case Audio.CMD_PLAY_TOGGLE:
audioSource.togglePlay();
break;
case Audio.CMD_PAUSE:
audioSource.pause();
break;
case Audio.CMD_RESUME:
audioSource.resume();
break;
case Audio.CMD_PAUSE_TOGGLE:
audioSource.togglePause();
break;
case Audio.CMD_REWIND:
audioSource.rewind();
break;
case Audio.CMD_FADE_IN:
audioSource.fadeIn();
break;
case Audio.CMD_FADE_OUT:
audioSource.fadeOut();
break;
case Audio.CMD_RESET_POSITION:
audioSource.resetCurrentPosition();
break;
default:
break;
}
} else if (audio.getSubType() == Audio.LISTENER) {
AudioListener audioListener = (AudioListener) audio;
switch(action.getActionData()) {
case Audio.CMD_RESET_POSITION:
audioListener.resetCurrentPosition();
break;
default:
// nothing needed for others
break;
}
}
break;
case Conditional.ACTION_JYTHON_COMMAND:
if (!(getActionString(action).isEmpty())) {
// add the text to the output frame
ScriptOutput.writeScript(getActionString(action));
// and execute
try {
JmriScriptEngineManager.getDefault().eval(getActionString(action), JmriScriptEngineManager.getDefault().getEngine(JmriScriptEngineManager.PYTHON));
} catch (ScriptException ex) {
log.error("Error executing script:", ex);
}
actionCount++;
}
break;
case Conditional.ACTION_ALLOCATE_WARRANT_ROUTE:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
String msg = w.allocateRoute(null);
if (msg != null) {
log.info("Warrant " + action.getDeviceName() + " - " + msg);
}
actionCount++;
}
break;
case Conditional.ACTION_DEALLOCATE_WARRANT_ROUTE:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
w.deAllocate();
actionCount++;
}
break;
case Conditional.ACTION_SET_ROUTE_TURNOUTS:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
String msg = w.setRoute(0, null);
if (msg != null) {
log.info("Warrant " + action.getDeviceName() + " unable to Set Route - " + msg);
}
actionCount++;
}
break;
case Conditional.ACTION_THROTTLE_FACTOR:
log.info("Set warrant Throttle Factor deprecated - Use Warrrant Preferences");
break;
case Conditional.ACTION_SET_TRAIN_ID:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
if (!w.setTrainId(getActionString(action))) {
String s = "Unable to find train Id " + getActionString(action) + " in Roster - " + action.getDeviceName();
log.info(s);
// could be serious - display error to UI
errorList.add(s);
}
actionCount++;
}
break;
case Conditional.ACTION_SET_TRAIN_NAME:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
w.setTrainName(getActionString(action));
actionCount++;
}
break;
case Conditional.ACTION_AUTO_RUN_WARRANT:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
jmri.jmrit.logix.WarrantTableFrame frame = jmri.jmrit.logix.WarrantTableFrame.getDefault();
String err = frame.runTrain(w, Warrant.MODE_RUN);
if (err != null) {
w.stopWarrant(true);
}
if (err != null) {
errorList.add("runAutoTrain error - " + err);
w.stopWarrant(true);
}
actionCount++;
}
break;
case Conditional.ACTION_MANUAL_RUN_WARRANT:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
String err = w.setRoute(0, null);
if (err == null) {
err = w.setRunMode(Warrant.MODE_MANUAL, null, null, null, false);
}
if (err != null) {
errorList.add("runManualTrain error - " + err);
}
actionCount++;
}
break;
case Conditional.ACTION_CONTROL_TRAIN:
w = (Warrant) nb;
if (w == null) {
errorList.add("invalid Warrant name in action - " + action.getDeviceName());
} else {
if (!w.controlRunTrain(action.getActionData())) {
log.info("Train " + w.getTrainId() + " not running - " + devName);
}
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNALMAST_ASPECT:
f = (SignalMast) nb;
if (f == null) {
errorList.add("invalid Signal Mast name in action - " + action.getDeviceName());
} else {
f.setAspect(getActionString(action));
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNALMAST_HELD:
f = (SignalMast) nb;
if (f == null) {
errorList.add("invalid Signal Mast name in action - " + action.getDeviceName());
} else {
f.setHeld(true);
actionCount++;
}
break;
case Conditional.ACTION_CLEAR_SIGNALMAST_HELD:
f = (SignalMast) nb;
if (f == null) {
errorList.add("invalid Signal Mast name in action - " + action.getDeviceName());
} else {
f.setHeld(false);
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNALMAST_DARK:
f = (SignalMast) nb;
if (f == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
f.setLit(false);
actionCount++;
}
break;
case Conditional.ACTION_SET_SIGNALMAST_LIT:
f = (SignalMast) nb;
if (f == null) {
errorList.add("invalid Signal Head name in action - " + action.getDeviceName());
} else {
f.setLit(true);
actionCount++;
}
break;
case Conditional.ACTION_SET_BLOCK_VALUE:
OBlock b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.setValue(getActionString(action));
actionCount++;
}
break;
case Conditional.ACTION_SET_BLOCK_ERROR:
b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.setError(true);
actionCount++;
}
break;
case Conditional.ACTION_CLEAR_BLOCK_ERROR:
b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.setError(false);
}
break;
case ACTION_DEALLOCATE_BLOCK:
b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.deAllocate(null);
actionCount++;
}
break;
case ACTION_SET_BLOCK_OUT_OF_SERVICE:
b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.setOutOfService(true);
actionCount++;
}
break;
case ACTION_SET_BLOCK_IN_SERVICE:
b = (OBlock) nb;
if (b == null) {
errorList.add("invalid Block name in action - " + action.getDeviceName());
} else {
b.setOutOfService(false);
actionCount++;
}
break;
default:
log.warn("takeActionIfNeeded drops through switch statement for action " + i + " of " + getSystemName());
break;
}
}
if (PARKS_DEBUG) {
System.out.println("Global state= " + _currentState + " Local state= " + currentState + " - Action " + (actionNeeded > neededAction ? "WAS" : "NOT") + " taken for action = " + action.getTypeString() + " " + action.getActionString() + " for device " + action.getDeviceName());
}
}
if (errorList.size() > 0) {
for (int i = 0; i < errorList.size(); i++) {
log.error(getDisplayName() + " - " + errorList.get(i));
}
if (!GraphicsEnvironment.isHeadless()) {
java.awt.Toolkit.getDefaultToolkit().beep();
if (!_skipErrorDialog) {
new ErrorDialog(errorList, this);
}
}
}
if (log.isDebugEnabled()) {
log.debug("Conditional \"" + getUserName() + "\" (" + getSystemName() + " has " + _actionList.size() + " actions and has executed " + actionCount + " actions of " + actionNeeded + " actions needed on state change to " + currentState);
}
if (PARKS_DEBUG) {
System.out.println("Conditional \"" + getUserName() + "\" (" + getSystemName() + " has " + _actionList.size() + " actions and has executed " + actionCount + " actions of " + actionNeeded + " actions needed on state change to " + currentState);
}
}
use of edu.umd.cs.findbugs.annotations.SuppressFBWarnings in project JMRI by JMRI.
the class MemoryFrameAction method actionPerformed.
@Override
public void actionPerformed(ActionEvent e) {
nf = java.text.NumberFormat.getInstance();
nf.setMinimumFractionDigits(3);
nf.setMaximumFractionDigits(3);
nf.setGroupingUsed(false);
JmriJFrame f = new JmriJFrame(Bundle.getMessage("Memory_Usage_Monitor"));
Container p = f.getContentPane();
p.setLayout(new GridLayout(5, 3));
p.add(new JLabel(Bundle.getMessage("used_(MB)")));
p.add(new JLabel(Bundle.getMessage("free_(MB)")));
p.add(new JLabel(Bundle.getMessage("total_(MB,_of_") + " " + nf.format(Runtime.getRuntime().maxMemory() / (1024. * 1024.)) + "MB)"));
p.add(used3);
p.add(free3);
p.add(total3);
p.add(used2);
p.add(free2);
p.add(total2);
p.add(used1);
p.add(free1);
p.add(total1);
p.add(updateButton);
p.add(gcButton);
p.add(testButton);
updateButton.addActionListener(new ActionListener() {
@Override
public void actionPerformed(ActionEvent event) {
updateDisplay();
}
});
gcButton.addActionListener(new ActionListener() {
// Garbage collection OK here
@SuppressFBWarnings(value = "DM_GC")
@Override
public void actionPerformed(ActionEvent event) {
Runtime.getRuntime().gc();
updateDisplay();
}
});
testButton.addActionListener(new ActionListener() {
@Override
public void actionPerformed(ActionEvent event) {
Roster.getDefault();
DecoderIndexFile.instance();
updateDisplay();
}
});
f.addHelpMenu("package.jmri.jmrit.MemoryFrameAction", true);
f.pack();
f.setVisible(true);
}
use of edu.umd.cs.findbugs.annotations.SuppressFBWarnings in project JMRI by JMRI.
the class AutoTrainAction method executeAction.
// this method is called to execute the action, when the "When" event has happened.
// it is "public" because it may be called from a TransitSectionAction.
// djd debugging - need to check this out - probably useless, but harmless
@SuppressFBWarnings(value = "SWL_SLEEP_WITH_LOCK_HELD", justification = "used only by thread that can be stopped, no conflict with other threads expected")
public synchronized void executeAction(TransitSectionAction tsa) {
if (tsa == null) {
log.error("executeAction called with null TransitSectionAction");
return;
}
Sensor s = null;
float temp = 0.0f;
switch(tsa.getWhatCode()) {
case TransitSectionAction.PAUSE:
// pause for a number of fast minutes--e.g. station stop
if (_autoActiveTrain.getCurrentAllocatedSection().getNextSection() != null) {
// pause train if this is not the last Section
Thread tPause = _autoActiveTrain.pauseTrain(tsa.getDataWhat1());
tsa.setWaitingThread(tPause);
}
break;
case TransitSectionAction.SETMAXSPEED:
// set maximum train speed to value
temp = tsa.getDataWhat1();
_autoActiveTrain.setMaxSpeed(temp * 0.01f);
completedAction(tsa);
break;
case TransitSectionAction.SETCURRENTSPEED:
// set current speed either higher or lower than current value
temp = tsa.getDataWhat1();
float spd = temp * 0.01f;
if (spd > _autoActiveTrain.getMaxSpeed()) {
spd = _autoActiveTrain.getMaxSpeed();
}
_autoActiveTrain.setTargetSpeed(spd * _autoActiveTrain.getSpeedFactor());
if ((_autoActiveTrain.getRampRate() != AutoActiveTrain.RAMP_NONE) && (_autoActiveTrain.getAutoEngineer() != null)) {
// temporarily turn ramping off
_autoActiveTrain.setCurrentRampRate(AutoActiveTrain.RAMP_NONE);
// wait for train to achieve speed in a separate thread which will complete action
Runnable monTrainSpeed = new MonitorTrainSpeed(tsa);
Thread tMonTrainSpeed = new Thread(monTrainSpeed);
tsa.setWaitingThread(tMonTrainSpeed);
tMonTrainSpeed.start();
} else {
completedAction(tsa);
}
break;
case TransitSectionAction.RAMPTRAINSPEED:
// set current speed to target using specified ramp rate
temp = tsa.getDataWhat1();
float spdx = temp * 0.01f;
if (spdx > _autoActiveTrain.getMaxSpeed()) {
spdx = _autoActiveTrain.getMaxSpeed();
}
_autoActiveTrain.setTargetSpeed(spdx * _autoActiveTrain.getSpeedFactor());
completedAction(tsa);
break;
case TransitSectionAction.TOMANUALMODE:
// drop out of automated mode and allow manual throttle control
_autoActiveTrain.initiateWorking();
if ((tsa.getStringWhat() != null) && (!tsa.getStringWhat().equals(""))) {
// optional Done sensor was provided, listen to it
listenToDoneSensor(tsa);
}
completedAction(tsa);
break;
case TransitSectionAction.SETLIGHT:
// set light on or off
if (_autoActiveTrain.getAutoEngineer() != null) {
log.debug("{}: setting light (F0) to {}", _activeTrain.getTrainName(), tsa.getStringWhat());
if (tsa.getStringWhat().equals("On")) {
_autoActiveTrain.getAutoEngineer().setFunction(0, true);
} else if (tsa.getStringWhat().equals("Off")) {
_autoActiveTrain.getAutoEngineer().setFunction(0, false);
} else {
log.error("Incorrect Light ON/OFF setting *" + tsa.getStringWhat() + "*");
}
}
completedAction(tsa);
break;
case TransitSectionAction.STARTBELL:
// start bell (only works with sound decoder)
if (_autoActiveTrain.getSoundDecoder() && (_autoActiveTrain.getAutoEngineer() != null)) {
log.debug("{}: starting bell (F1)", _activeTrain.getTrainName());
_autoActiveTrain.getAutoEngineer().setFunction(1, true);
}
completedAction(tsa);
break;
case TransitSectionAction.STOPBELL:
// stop bell (only works with sound decoder)
if (_autoActiveTrain.getSoundDecoder() && (_autoActiveTrain.getAutoEngineer() != null)) {
log.debug("{}: stopping bell (F1)", _activeTrain.getTrainName());
_autoActiveTrain.getAutoEngineer().setFunction(1, false);
}
completedAction(tsa);
break;
case TransitSectionAction.SOUNDHORN:
// sound horn for specified number of milliseconds - done in separate thread
case TransitSectionAction.SOUNDHORNPATTERN:
// sound horn according to specified pattern - done in separate thread
if (_autoActiveTrain.getSoundDecoder()) {
log.debug("{}: sounding horn as specified in action", _activeTrain.getTrainName());
Runnable rHorn = new HornExecution(tsa);
Thread tHorn = new Thread(rHorn);
tsa.setWaitingThread(tHorn);
tHorn.start();
} else {
completedAction(tsa);
}
break;
case TransitSectionAction.LOCOFUNCTION:
// execute the specified decoder function
if (_autoActiveTrain.getAutoEngineer() != null) {
log.debug("{}: setting function {} to {}", _activeTrain.getTrainName(), tsa.getDataWhat1(), tsa.getStringWhat());
int fun = tsa.getDataWhat1();
if (tsa.getStringWhat().equals("On")) {
_autoActiveTrain.getAutoEngineer().setFunction(fun, true);
} else if (tsa.getStringWhat().equals("Off")) {
_autoActiveTrain.getAutoEngineer().setFunction(fun, false);
}
}
completedAction(tsa);
break;
case TransitSectionAction.SETSENSORACTIVE:
// set specified sensor active
s = InstanceManager.sensorManagerInstance().getSensor(tsa.getStringWhat());
if (s != null) {
// if sensor is already active, set it to inactive first
if (s.getKnownState() == Sensor.ACTIVE) {
try {
s.setState(Sensor.INACTIVE);
} catch (jmri.JmriException reason) {
log.error("Exception when toggling Sensor " + tsa.getStringWhat() + " Inactive - " + reason);
}
}
try {
s.setState(Sensor.ACTIVE);
} catch (jmri.JmriException reason) {
log.error("Exception when setting Sensor " + tsa.getStringWhat() + " Active - " + reason);
}
} else if ((tsa.getStringWhat() != null) && (!tsa.getStringWhat().equals(""))) {
log.error("Could not find Sensor " + tsa.getStringWhat());
} else {
log.error("Sensor not specified for Action");
}
break;
case TransitSectionAction.SETSENSORINACTIVE:
// set specified sensor inactive
s = InstanceManager.sensorManagerInstance().getSensor(tsa.getStringWhat());
if (s != null) {
if (s.getKnownState() == Sensor.ACTIVE) {
try {
s.setState(Sensor.ACTIVE);
} catch (jmri.JmriException reason) {
log.error("Exception when toggling Sensor " + tsa.getStringWhat() + " Active - " + reason);
}
}
try {
s.setState(Sensor.INACTIVE);
} catch (jmri.JmriException reason) {
log.error("Exception when setting Sensor " + tsa.getStringWhat() + " Inactive - " + reason);
}
} else if ((tsa.getStringWhat() != null) && (!tsa.getStringWhat().equals(""))) {
log.error("Could not find Sensor " + tsa.getStringWhat());
} else {
log.error("Sensor not specified for Action");
}
break;
case TransitSectionAction.HOLDSIGNAL:
// set specified signalhead or signalmast to HELD
SignalMast sm = null;
SignalHead sh = null;
String sName = tsa.getStringWhat();
sm = InstanceManager.getDefault(SignalMastManager.class).getSignalMast(sName);
if (sm == null) {
sh = InstanceManager.getDefault(SignalHeadManager.class).getSignalHead(sName);
if (sh == null) {
log.error("{}: Could not find SignalMast or SignalHead named '{}'", _activeTrain.getTrainName(), sName);
} else {
log.debug("{}: setting signalHead '{}' to HELD", _activeTrain.getTrainName(), sName);
sh.setHeld(true);
}
} else {
log.debug("{}: setting signalMast '{}' to HELD", _activeTrain.getTrainName(), sName);
sm.setHeld(true);
}
break;
case TransitSectionAction.RELEASESIGNAL:
// set specified signalhead or signalmast to NOT HELD
sm = null;
sh = null;
sName = tsa.getStringWhat();
sm = InstanceManager.getDefault(SignalMastManager.class).getSignalMast(sName);
if (sm == null) {
sh = InstanceManager.getDefault(SignalHeadManager.class).getSignalHead(sName);
if (sh == null) {
log.error("{}: Could not find SignalMast or SignalHead named '{}'", _activeTrain.getTrainName(), sName);
} else {
log.debug("{}: setting signalHead '{}' to NOT HELD", _activeTrain.getTrainName(), sName);
sh.setHeld(false);
}
} else {
log.debug("{}: setting signalMast '{}' to NOT HELD", _activeTrain.getTrainName(), sName);
sm.setHeld(false);
}
break;
default:
log.error("illegal What code - " + tsa.getWhatCode() + " - in call to executeAction");
break;
}
}
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