private PVWriter<T> create(boolean syncWrite) {
checkDataSourceAndThreadSwitch();
// Create PVReader and connect
PVWriterImpl<T> pvWriter =
new PVWriterImpl<T>(syncWrite, Executors.localThread() == notificationExecutor);
for (PVWriterListener<T> pVWriterListener : writeListeners) {
pvWriter.addPVWriterListener(pVWriterListener);
}
WriteFunction<T> writeFunction = writeExpression.getWriteFunction();
// TODO: we are ignoring the exception handler for now
if (timeoutMessage == null) timeoutMessage = "Write timeout";
PVWriterDirector<T> writerDirector =
new PVWriterDirector<T>(
pvWriter,
writeFunction,
dataSource,
PVManager.getAsyncWriteExecutor(),
notificationExecutor,
PVManager.getReadScannerExecutorService(),
timeout,
timeoutMessage);
writerDirector.connectExpression(writeExpression);
writerDirector.startScan(TimeDuration.ofMillis(100));
pvWriter.setWriteDirector(writerDirector);
return pvWriter;
}
/**
* Entry point for the library, manages the defaults and allows to create {@link PVReader}, {@link
* PVWriter} and {@link PV } from an read or write expression.
*
* <p><b>NotificationExecutor</b> - This is used for all notifications. By default this uses {@link
* org.epics.pvmanager.util.Executors#localThread()} so that the notification are done on whatever
* current thread needs to notify. This means that new read notifications are run on threads managed
* by the ReadScannerExecutorService, write notifications are run on threads managed by the
* DataSource and exceptions notification are run on the thread where the exception is done. This
* can be changed to make all notifications routed to single threaded sub-systems, such as UI
* environments like SWING, SWT or similar. This can be changed on a PV by PV basis.
*
* <p><b>AsynchWriteExecutor</b> - This is used for asynchronous writes, to return right away, and
* for running timeouts on each write. By default this uses the internal PVManager work pool. The
* work submitted here is the calculation of the corresponding {@link WriteExpression} and
* submission to the {@link DataSource}. The DataSource itself typically has asynchronous work,
* which is executed in the DataSource specific threads. Changing this to {@link
* org.epics.pvmanager.util.Executors#localThread()} will make that preparation task on the thread
* that calls {@link PVWriter#write(java.lang.Object) } but it will not transform the call in a
* synchronous call.
*
* <p><b>ReadScannerExecutorService</b> - This is used to run the periodic scan for new values. By
* default this uses the internal PVManager work pool. The work submitted here is the calculation of
* the corresponding {@link DesiredRateExpression} and submission to the NotificationExecutor.
*
* @author carcassi
*/
public class PVManager {
private static volatile Executor defaultNotificationExecutor =
org.epics.pvmanager.util.Executors.localThread();
private static volatile DataSource defaultDataSource = null;
private static final ScheduledExecutorService workerPool =
Executors.newScheduledThreadPool(
Math.max(1, Runtime.getRuntime().availableProcessors() - 1),
org.epics.pvmanager.util.Executors.namedPool("PVMgr Worker "));
private static ScheduledExecutorService readScannerExecutorService = workerPool;
private static ScheduledExecutorService asyncWriteExecutor = workerPool;
/**
* Changes the default executor on which all notifications are going to be posted.
*
* @param notificationExecutor the new notification executor
*/
public static void setDefaultNotificationExecutor(Executor notificationExecutor) {
defaultNotificationExecutor = notificationExecutor;
}
/**
* Returns the current default executor that will execute all notifications.
*
* @return the default executor
*/
public static Executor getDefaultNotificationExecutor() {
return defaultNotificationExecutor;
}
/**
* Changes the default source for data.
*
* @param dataSource the data source
*/
public static void setDefaultDataSource(DataSource dataSource) {
PVManager.defaultDataSource = dataSource;
}
/**
* Returns the current default data source.
*
* @return a data source or null if it was not set
*/
public static DataSource getDefaultDataSource() {
return defaultDataSource;
}
/**
* Reads the given expression, and returns an object to configure the parameters for the read. At
* each notification it will return the latest value, even if more had been received from the last
* notification.
*
* @param <T> type of the read payload
* @param pvExpression the expression to read
* @return the read configuration
*/
public static <T> PVReaderConfiguration<T> read(SourceRateExpression<T> pvExpression) {
return new PVReaderConfiguration<T>(ExpressionLanguage.latestValueOf(pvExpression));
}
/**
* Reads the given expression, and returns an object to configure the parameters for the read.
*
* @param <T> type of the read payload
* @param pvExpression the expression to read
* @return the read configuration
*/
public static <T> PVReaderConfiguration<T> read(DesiredRateExpression<T> pvExpression) {
return new PVReaderConfiguration<T>(pvExpression);
}
/**
* Writes the given expression, and returns an object to configure the parameters for the write.
*
* @param <T> type of the write payload
* @param writeExpression the expression to write
* @return the write configuration
*/
public static <T> PVWriterConfiguration<T> write(WriteExpression<T> writeExpression) {
return new PVWriterConfiguration<T>(writeExpression);
}
/**
* Both reads and writes the given expression, and returns an object to configure the parameters
* for the both read and write. It's similar to use both {@link
* #read(org.epics.pvmanager.expression.SourceRateExpression) } and {@link
* #write(org.epics.pvmanager.expression.WriteExpression) } at the same time.
*
* @param <R> type of the read payload
* @param <W> type of the write payload
* @param readWriteExpression the expression to read and write
* @return the read and write configuration
*/
public static <R, W> PVConfiguration<R, W> readAndWrite(
SourceRateReadWriteExpression<R, W> readWriteExpression) {
return readAndWrite(ExpressionLanguage.latestValueOf(readWriteExpression));
}
/**
* Both reads and writes the given expression, and returns an object to configure the parameters
* for the both read and write. It's similar to use both {@link
* #read(org.epics.pvmanager.expression.SourceRateExpression) } and {@link
* #write(org.epics.pvmanager.expression.WriteExpression) } at the same time.
*
* @param <R> type of the read payload
* @param <W> type of the write payload
* @param readWriteExpression the expression to read and write
* @return the read and write configuration
*/
public static <R, W> PVConfiguration<R, W> readAndWrite(
DesiredRateReadWriteExpression<R, W> readWriteExpression) {
return new PVConfiguration<R, W>(readWriteExpression);
}
/**
* Returns the current executor on which the asynchronous calls are executed.
*
* @return the current executor
*/
public static ScheduledExecutorService getAsyncWriteExecutor() {
return asyncWriteExecutor;
}
/**
* Changes the executor used for the asynchronous write calls.
*
* @param asyncWriteExecutor the new executor
*/
public static void setAsyncWriteExecutor(ScheduledExecutorService asyncWriteExecutor) {
PVManager.asyncWriteExecutor = asyncWriteExecutor;
}
/**
* Returns the executor service used to schedule and run the periodic reading scan for new values.
*
* @return the service for the read operations
*/
public static ScheduledExecutorService getReadScannerExecutorService() {
return readScannerExecutorService;
}
/**
* Changes the executor service to use for executing the periodic read scan.
*
* @param readScannerExecutorService the new service for the read operations
*/
public static void setReadScannerExecutorService(
ScheduledExecutorService readScannerExecutorService) {
PVManager.readScannerExecutorService = readScannerExecutorService;
}
}
