public abstract class AbstractMemoryMonitor extends Object implements MemoryMonitor, MemoryMonitor.Test
MemoryMonitor
. Base class
for different memory monitoring strategies.MemoryMonitor.Listener, MemoryMonitor.Test
Modifier | Constructor and Description |
---|---|
protected |
AbstractMemoryMonitor()
Constructor of this base class.
|
Modifier and Type | Method and Description |
---|---|
boolean |
addListener(MemoryMonitor.Listener listener)
Adds a
Listener using the default threshold percentage. |
boolean |
addListener(MemoryMonitor.Listener listener,
int percentage)
Adds a
Listener to the MemoryMonitor with
a given threshold percentage. |
protected long |
convertPercentageToThreshold(int percentage)
Converts a percentage threshold to its corresponding memory value,
(percentage * maximum-memory / 100).
|
protected int |
convertThresholdToPercentage(long threshold)
Converts a memory value to its percentage.
|
protected long |
generateLowThreshold()
Returns the lowest threshold from the list of
Listener s. |
int |
getDefaultThresholdPercentage()
Returns the default memory notification percentage.
|
protected abstract org.apache.log4j.Logger |
getLogger()
Returns the
Logger . |
protected long |
getLowThreshold()
Returns the current lowest threshold of all registered
Listener s. |
protected void |
notifyListeners(long usedMemory,
long maxMemory)
Notifies all
Listener s that memory is running short. |
protected void |
notifyNewLowThreshold(long newLowThreshold)
Derived classes implement this method if they wish to be notified
when there is a new lowest threshold.
|
void |
removeAllListener()
Clear out all
Listener s and turnoff JVM
memory notification. |
boolean |
removeListener(MemoryMonitor.Listener listener)
Removes a
Listener from the MemoryMonitor . |
void |
resetFromTest()
This should only be called when one is switching from a
test
MemoryMonitor back to the default system
MemoryMonitor . |
void |
updateListenerThreshold(MemoryMonitor.Listener listener,
int percentage)
Changes the threshold percentage of a given
Listener . |
protected int |
usagePercentage()
Returns how much memory is currently being used as a percentage.
|
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
getMaxMemory, getUsedMemory
protected AbstractMemoryMonitor()
protected abstract org.apache.log4j.Logger getLogger()
Logger
.Logger
.protected long getLowThreshold()
Listener
s.public int getDefaultThresholdPercentage()
This is the value of the Mondrian
MondrianProperties.MemoryMonitorThreshold
property.
public boolean addListener(MemoryMonitor.Listener listener)
MemoryMonitor
Listener
using the default threshold percentage.
If the threshold is below the Java5 memory managment system's threshold, then the Listener is notified from within this method.
addListener
in interface MemoryMonitor
listener
- the Listener
to be added.true
if the Listener
was
added and false
otherwise.public boolean addListener(MemoryMonitor.Listener listener, int percentage)
MemoryMonitor
Listener
to the MemoryMonitor
with
a given threshold percentage.
If the threshold is below the Java5 memory managment system's threshold, then the Listener is notified from within this method.
addListener
in interface MemoryMonitor
listener
- the Listener
to be added.percentage
- the threshold percentage for this
Listener
.true
if the Listener
was
added and false
otherwise.public void updateListenerThreshold(MemoryMonitor.Listener listener, int percentage)
MemoryMonitor
Listener
.
If the new value is below the system's current value, then the
Listener
will have its notification callback called
while in this method - so a client should always check if its
notification method was called immediately after calling this
method.
This method can be used if, for example, an algorithm has different approaches that result in different memory usage profiles; one, large memory but fast and a second which is low-memory but slow. The algorithm starts with the large memory approach, receives a low memory notification, switches to the low memory approach and changes when it should be notified for this new approach. The first approach need to be notified at a lower percentage because it uses lots of memory, possibly quickly; while the second approach, possibly a file based algorithm, has smaller memory requirements and uses memory less quickly thus one can live with a higher notification threshold percentage.
updateListenerThreshold
in interface MemoryMonitor
listener
- the Listener
being updated.percentage
- new percentage threshold.public boolean removeListener(MemoryMonitor.Listener listener)
MemoryMonitor
Listener
from the MemoryMonitor
.
Returns true
if listener was removed and
false
otherwise.removeListener
in interface MemoryMonitor
listener
- the listener to be removedtrue
if listener was removed.public void removeAllListener()
MemoryMonitor
Listener
s and turnoff JVM
memory notification.removeAllListener
in interface MemoryMonitor
protected long generateLowThreshold()
Listener
s.
If there are no Listener
s, then return the maximum
memory usage. Returns Long.MAX_VALUE
if there
are no Listener
sLong.MAX_VALUE
protected void notifyListeners(long usedMemory, long maxMemory)
Listener
s that memory is running short.usedMemory
- the current memory used.maxMemory
- the maximum memory.protected void notifyNewLowThreshold(long newLowThreshold)
newLowThreshold
- the new low threshold.protected long convertPercentageToThreshold(int percentage)
percentage
- the threshold.protected int convertThresholdToPercentage(long threshold)
threshold
- the memory value.protected int usagePercentage()
public void resetFromTest()
MemoryMonitor.Test
MemoryMonitor
back to the default system
MemoryMonitor
. In particular, look at
the MemoryMonitorFactory
's
clearThreadLocalClassName()
method for its
usage.resetFromTest
in interface MemoryMonitor.Test
Copyright © 2020 Hitachi Vantara. All rights reserved.