Does an object always see its latest internal state irrespective of thread?Does a finally block always get executed in Java?Java: serial thread confinement questionJava difference between fixed threadpool and scheduled threadpoolJackrabbit and concurrent modificationHow to stop a Runnable scheduled for repeated execution after a certain number of executionsMultiple threads accessing inner classHow can a loop be completed by two thread? say loop from count=1 to count=4 by ist thread and count =5 to 8 by 2nd thread?If I keep a reference to a Runnable, when does the Thread it ran on get released?How to stop a schedule ScheduledExecutorServiceHow to implement a singleThreadedScheduledExcecutor in wildfly

I'm flying to France today and my passport expires in less than 2 months

If human space travel is limited by the G force vulnerability, is there a way to counter G forces?

A case of the sniffles

Alternative to sending password over mail?

What defenses are there against being summoned by the Gate spell?

Arrow those variables!

How is the claim "I am in New York only if I am in America" the same as "If I am in New York, then I am in America?

What's the output of a record needle playing an out-of-speed record

Maximum likelihood parameters deviate from posterior distributions

Codimension of non-flat locus

tikz convert color string to hex value

Cross compiling for RPi - error while loading shared libraries

Theorems that impeded progress

"You are your self first supporter", a more proper way to say it

Why is Minecraft giving an OpenGL error?

Is it unprofessional to ask if a job posting on GlassDoor is real?

Perform and show arithmetic with LuaLaTeX

How do I deal with an unproductive colleague in a small company?

Add text to same line using sed

Was any UN Security Council vote triple-vetoed?

How is it possible to have an ability score that is less than 3?

meaning of に in 本当に?

Today is the Center

Has there ever been an airliner design involving reducing generator load by installing solar panels?



Does an object always see its latest internal state irrespective of thread?


Does a finally block always get executed in Java?Java: serial thread confinement questionJava difference between fixed threadpool and scheduled threadpoolJackrabbit and concurrent modificationHow to stop a Runnable scheduled for repeated execution after a certain number of executionsMultiple threads accessing inner classHow can a loop be completed by two thread? say loop from count=1 to count=4 by ist thread and count =5 to 8 by 2nd thread?If I keep a reference to a Runnable, when does the Thread it ran on get released?How to stop a schedule ScheduledExecutorServiceHow to implement a singleThreadedScheduledExcecutor in wildfly






.everyoneloves__top-leaderboard:empty,.everyoneloves__mid-leaderboard:empty,.everyoneloves__bot-mid-leaderboard:empty height:90px;width:728px;box-sizing:border-box;








9















Let's say I have a runnable with a simple integer count variable which is incremented every time runnable runs. One instance of this object is submitted to run periodically in a scheduled executor service.



class Counter implements Runnable 
 private int count = 0;

 @Override
 public void run() 
 count++;
 


Counter counter = new Counter();
ScheduledExecutorService executorService = Executors.newScheduledThreadPool(5);
executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


Here, the object is accessing its own internal state inside of different threads (reading and incrementing). Is this code thread-safe or is it possible that we lose updates to the count variable when it's scheduled in a different thread?






java multithreading concurrency







share|improve this question
























  • Nope; most definitely not.

    – Boris the Spider
    7 hours ago






  • 3





    Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

    – Solomon Slow
    7 hours ago


















9















Let's say I have a runnable with a simple integer count variable which is incremented every time runnable runs. One instance of this object is submitted to run periodically in a scheduled executor service.



class Counter implements Runnable 
 private int count = 0;

 @Override
 public void run() 
 count++;
 


Counter counter = new Counter();
ScheduledExecutorService executorService = Executors.newScheduledThreadPool(5);
executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


Here, the object is accessing its own internal state inside of different threads (reading and incrementing). Is this code thread-safe or is it possible that we lose updates to the count variable when it's scheduled in a different thread?






java multithreading concurrency







share|improve this question
























  • Nope; most definitely not.

    – Boris the Spider
    7 hours ago






  • 3





    Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

    – Solomon Slow
    7 hours ago














9












9








9


2






Let's say I have a runnable with a simple integer count variable which is incremented every time runnable runs. One instance of this object is submitted to run periodically in a scheduled executor service.



class Counter implements Runnable 
 private int count = 0;

 @Override
 public void run() 
 count++;
 


Counter counter = new Counter();
ScheduledExecutorService executorService = Executors.newScheduledThreadPool(5);
executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


Here, the object is accessing its own internal state inside of different threads (reading and incrementing). Is this code thread-safe or is it possible that we lose updates to the count variable when it's scheduled in a different thread?






java multithreading concurrency







share|improve this question
















Let's say I have a runnable with a simple integer count variable which is incremented every time runnable runs. One instance of this object is submitted to run periodically in a scheduled executor service.



class Counter implements Runnable 
 private int count = 0;

 @Override
 public void run() 
 count++;
 


Counter counter = new Counter();
ScheduledExecutorService executorService = Executors.newScheduledThreadPool(5);
executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


Here, the object is accessing its own internal state inside of different threads (reading and incrementing). Is this code thread-safe or is it possible that we lose updates to the count variable when it's scheduled in a different thread?






java multithreading concurrency




java multithreading concurrency






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 2 hours ago









Peter Mortensen

13.9k1987113




13.9k1987113










asked 7 hours ago









RandomQuestionRandomQuestion

3,057144579




3,057144579












  • Nope; most definitely not.

    – Boris the Spider
    7 hours ago






  • 3





    Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

    – Solomon Slow
    7 hours ago


















  • Nope; most definitely not.

    – Boris the Spider
    7 hours ago






  • 3





    Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

    – Solomon Slow
    7 hours ago

















Nope; most definitely not.

– Boris the Spider
7 hours ago





Nope; most definitely not.

– Boris the Spider
7 hours ago




3




3





Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

– Solomon Slow
7 hours ago






Just to be clear: When the answers below say "...no happens-before..." what they're saying is, Suppose count==N. Then along comes worker thread A, which sets count = N+1. Then one whole second later, worker thread B is chosen to call the run() method, and worker thread B looks at count. It is possible at that point for worker thread B to still see count == N.

– Solomon Slow
7 hours ago













3 Answers
3






active

oldest

votes


















3














Does an object always see its latest internal state irrespective of thread?



Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.



This isn't specified in the javadoc, but



Executors.newScheduledThreadPool(5);


returns a ScheduledThreadPoolExecutor.



Your code is using



executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states




Submits a periodic action that becomes enabled first after the given
initial delay, and subsequently with the given delay between the
termination of one execution and the commencement of the next.




The class javadoc further clarifies




Successive executions of a periodic task scheduled via
scheduleAtFixedRate or scheduleWithFixedDelay do not overlap.
While different executions may be performed by different threads, the
effects of prior executions happen-before those of subsequent ones.




As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.



You don't need volatile or any other additional synchronization mechanism for this specific use case.






share|improve this answer

























  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

    – RandomQuestion
    3 hours ago


















5














No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.



To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.



UPDATE:



As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.






share|improve this answer

























  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

    – Ivan
    7 hours ago












  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

    – Sotirios Delimanolis
    6 hours ago











  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

    – Edwin Dalorzo
    6 hours ago











  • @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

    – Ivan
    6 hours ago











  • To reiterate, the code they have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago


















2














No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.






share|improve this answer




















  • 1





    Even then it's not thread safe, because ++ isn't atomic.

    – Andy Turner
    7 hours ago






  • 1





    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

    – Yug Singh
    7 hours ago






  • 1





    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

    – RandomQuestion
    7 hours ago












  • @RandomQuestion yes. Because visibility.

    – Boris the Spider
    7 hours ago







  • 1





    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago











Your Answer






StackExchange.ifUsing("editor", function ()
StackExchange.using("externalEditor", function ()
StackExchange.using("snippets", function ()
StackExchange.snippets.init();
);
);
, "code-snippets");

StackExchange.ready(function()
var channelOptions =
tags: "".split(" "),
id: "1"
;
initTagRenderer("".split(" "), "".split(" "), channelOptions);

StackExchange.using("externalEditor", function()
// Have to fire editor after snippets, if snippets enabled
if (StackExchange.settings.snippets.snippetsEnabled)
StackExchange.using("snippets", function()
createEditor();
);

else
createEditor();

);

function createEditor()
StackExchange.prepareEditor(
heartbeatType: 'answer',
autoActivateHeartbeat: false,
convertImagesToLinks: true,
noModals: true,
showLowRepImageUploadWarning: true,
reputationToPostImages: 10,
bindNavPrevention: true,
postfix: "",
imageUploader:
brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
allowUrls: true
,
onDemand: true,
discardSelector: ".discard-answer"
,immediatelyShowMarkdownHelp:true
);



);













draft saved

draft discarded


















StackExchange.ready(
function ()
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fstackoverflow.com%2fquestions%2f55542189%2fdoes-an-object-always-see-its-latest-internal-state-irrespective-of-thread%23new-answer', 'question_page');

);

Post as a guest















Required, but never shown

























3 Answers
3






active

oldest

votes








3 Answers
3






active

oldest

votes









active

oldest

votes






active

oldest

votes









3














Does an object always see its latest internal state irrespective of thread?



Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.



This isn't specified in the javadoc, but



Executors.newScheduledThreadPool(5);


returns a ScheduledThreadPoolExecutor.



Your code is using



executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states




Submits a periodic action that becomes enabled first after the given
initial delay, and subsequently with the given delay between the
termination of one execution and the commencement of the next.




The class javadoc further clarifies




Successive executions of a periodic task scheduled via
scheduleAtFixedRate or scheduleWithFixedDelay do not overlap.
While different executions may be performed by different threads, the
effects of prior executions happen-before those of subsequent ones.




As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.



You don't need volatile or any other additional synchronization mechanism for this specific use case.






share|improve this answer

























  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

    – RandomQuestion
    3 hours ago















3














Does an object always see its latest internal state irrespective of thread?



Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.



This isn't specified in the javadoc, but



Executors.newScheduledThreadPool(5);


returns a ScheduledThreadPoolExecutor.



Your code is using



executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states




Submits a periodic action that becomes enabled first after the given
initial delay, and subsequently with the given delay between the
termination of one execution and the commencement of the next.




The class javadoc further clarifies




Successive executions of a periodic task scheduled via
scheduleAtFixedRate or scheduleWithFixedDelay do not overlap.
While different executions may be performed by different threads, the
effects of prior executions happen-before those of subsequent ones.




As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.



You don't need volatile or any other additional synchronization mechanism for this specific use case.






share|improve this answer

























  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

    – RandomQuestion
    3 hours ago













3












3








3







Does an object always see its latest internal state irrespective of thread?



Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.



This isn't specified in the javadoc, but



Executors.newScheduledThreadPool(5);


returns a ScheduledThreadPoolExecutor.



Your code is using



executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states




Submits a periodic action that becomes enabled first after the given
initial delay, and subsequently with the given delay between the
termination of one execution and the commencement of the next.




The class javadoc further clarifies




Successive executions of a periodic task scheduled via
scheduleAtFixedRate or scheduleWithFixedDelay do not overlap.
While different executions may be performed by different threads, the
effects of prior executions happen-before those of subsequent ones.




As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.



You don't need volatile or any other additional synchronization mechanism for this specific use case.






share|improve this answer















Does an object always see its latest internal state irrespective of thread?



Just to be clear for the purposes of this question and its answers, an object doesn't do anything; it's just memory. Threads are the executing entity. It's misleading to say does an object see whatever. It's the thread that's doing the seeing/reading of object state.



This isn't specified in the javadoc, but



Executors.newScheduledThreadPool(5);


returns a ScheduledThreadPoolExecutor.



Your code is using



executorService.scheduleWithFixedDelay(counter, 1, 1, TimeUnit.SECONDS);


The javadoc for ScheduledThreadPoolExecutor#scheduledWithFixedDelay states




Submits a periodic action that becomes enabled first after the given
initial delay, and subsequently with the given delay between the
termination of one execution and the commencement of the next.




The class javadoc further clarifies




Successive executions of a periodic task scheduled via
scheduleAtFixedRate or scheduleWithFixedDelay do not overlap.
While different executions may be performed by different threads, the
effects of prior executions happen-before those of subsequent ones.




As such, each execution of Counter#run is guaranteed to see the value of count after it's been incremented by the previous execution. For example, the third execution will read a count value of 2 before it performs its increment.



You don't need volatile or any other additional synchronization mechanism for this specific use case.







share|improve this answer














share|improve this answer



share|improve this answer








edited 2 hours ago









Peter Mortensen

13.9k1987113




13.9k1987113










answered 6 hours ago









Sotirios DelimanolisSotirios Delimanolis

213k41500590




213k41500590












  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

    – RandomQuestion
    3 hours ago

















  • Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

    – RandomQuestion
    3 hours ago
















Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

– RandomQuestion
3 hours ago





Thank you for pointing out this happens-before guarantee about ScheduledThreadPoolExecutor.

– RandomQuestion
3 hours ago













5














No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.



To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.



UPDATE:



As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.






share|improve this answer

























  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

    – Ivan
    7 hours ago












  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

    – Sotirios Delimanolis
    6 hours ago











  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

    – Edwin Dalorzo
    6 hours ago











  • @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

    – Ivan
    6 hours ago











  • To reiterate, the code they have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago















5














No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.



To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.



UPDATE:



As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.






share|improve this answer

























  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

    – Ivan
    7 hours ago












  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

    – Sotirios Delimanolis
    6 hours ago











  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

    – Edwin Dalorzo
    6 hours ago











  • @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

    – Ivan
    6 hours ago











  • To reiterate, the code they have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago













5












5








5







No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.



To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.



UPDATE:



As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.






share|improve this answer















No, this code is not thread-safe because there isn't any happens-before relation between increments made in different threads started with ScheduledExecutorService.



To fix it, you need to either mark the variable as volatile or switch to AtomicInteger or AtomicLong.



UPDATE:



As @BoristheSpider mentioned, in general in case of increment/decrement making a variable volatile is not enough since increment/decrement is not atomic itself and calling it from several threads concurrently will cause race conditions and missed updates. However, in this particular case scheduleWithFixedDelay() guarantees (according to Javadoc) that there will be overlapping executions of scheduled task, so volatile will also work in this particular case even with increment.







share|improve this answer














share|improve this answer



share|improve this answer








edited 2 hours ago









Peter Mortensen

13.9k1987113




13.9k1987113










answered 7 hours ago









IvanIvan

5,70411022




5,70411022












  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

    – Ivan
    7 hours ago












  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

    – Sotirios Delimanolis
    6 hours ago











  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

    – Edwin Dalorzo
    6 hours ago











  • @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

    – Ivan
    6 hours ago











  • To reiterate, the code they have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago

















  • @BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

    – Ivan
    7 hours ago












  • There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

    – Sotirios Delimanolis
    6 hours ago











  • How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

    – Edwin Dalorzo
    6 hours ago











  • @EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

    – Ivan
    6 hours ago











  • To reiterate, the code they have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago
















@BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

– Ivan
7 hours ago






@BoristheSpider taking into account how scheduleWithFixedDelay work there will be no overlapped calls to counter++ in that particular scenario. So volatile should be OK.

– Ivan
7 hours ago














There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

– Sotirios Delimanolis
6 hours ago





There is a happens-before relation introduced between subsequent execution of a task scheduled with scheduleWithFixedDelay.

– Sotirios Delimanolis
6 hours ago













How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

– Edwin Dalorzo
6 hours ago





How come volatile is not enough? The semantics of volatile should hold in every case and it would solve this problem. In the past, the writing of doubles and longs could have been more difficult to do atomically since those occupied more than one 32-bit register. However, as far as I can tell, that should not affect the semantics of volatile. Or am I missing something?

– Edwin Dalorzo
6 hours ago













@EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

– Ivan
6 hours ago





@EdwinDalorzo in this particular case volatile is enough. But in general case not because increment is effectively translated into 3 operations: read, add, write and is prone to race condition in multithreaded environment

– Ivan
6 hours ago













To reiterate, the code they have posted is thread-safe. This answer is wrong.

– Sotirios Delimanolis
5 hours ago





To reiterate, the code they have posted is thread-safe. This answer is wrong.

– Sotirios Delimanolis
5 hours ago











2














No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.






share|improve this answer




















  • 1





    Even then it's not thread safe, because ++ isn't atomic.

    – Andy Turner
    7 hours ago






  • 1





    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

    – Yug Singh
    7 hours ago






  • 1





    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

    – RandomQuestion
    7 hours ago












  • @RandomQuestion yes. Because visibility.

    – Boris the Spider
    7 hours ago







  • 1





    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago















2














No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.






share|improve this answer




















  • 1





    Even then it's not thread safe, because ++ isn't atomic.

    – Andy Turner
    7 hours ago






  • 1





    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

    – Yug Singh
    7 hours ago






  • 1





    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

    – RandomQuestion
    7 hours ago












  • @RandomQuestion yes. Because visibility.

    – Boris the Spider
    7 hours ago







  • 1





    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago













2












2








2







No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.






share|improve this answer















No, this code is not thread-safe since there isn't any happens before relation between different threads accessing count.







share|improve this answer














share|improve this answer



share|improve this answer








edited 2 hours ago









Peter Mortensen

13.9k1987113




13.9k1987113










answered 7 hours ago









michidmichid

5,54921938




5,54921938







  • 1





    Even then it's not thread safe, because ++ isn't atomic.

    – Andy Turner
    7 hours ago






  • 1





    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

    – Yug Singh
    7 hours ago






  • 1





    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

    – RandomQuestion
    7 hours ago












  • @RandomQuestion yes. Because visibility.

    – Boris the Spider
    7 hours ago







  • 1





    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago












  • 1





    Even then it's not thread safe, because ++ isn't atomic.

    – Andy Turner
    7 hours ago






  • 1





    @michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

    – Yug Singh
    7 hours ago






  • 1





    Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

    – RandomQuestion
    7 hours ago












  • @RandomQuestion yes. Because visibility.

    – Boris the Spider
    7 hours ago







  • 1





    @RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

    – Sotirios Delimanolis
    5 hours ago







1




1





Even then it's not thread safe, because ++ isn't atomic.

– Andy Turner
7 hours ago





Even then it's not thread safe, because ++ isn't atomic.

– Andy Turner
7 hours ago




1




1





@michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

– Yug Singh
7 hours ago





@michid please correct me if I am wrong but shouldn't counter++ be synchronized too as increment operation is not atomic.

– Yug Singh
7 hours ago




1




1





Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

– RandomQuestion
7 hours ago






Does counter++ need to be synchronized even if it's guaranteed that only one thread will be running this runnable at a time (like in the code in the question)?

– RandomQuestion
7 hours ago














@RandomQuestion yes. Because visibility.

– Boris the Spider
7 hours ago






@RandomQuestion yes. Because visibility.

– Boris the Spider
7 hours ago





1




1





@RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

– Sotirios Delimanolis
5 hours ago





@RandomQuestion To reiterate, the code you have posted is thread-safe. This answer is wrong.

– Sotirios Delimanolis
5 hours ago

















draft saved

draft discarded
















































Thanks for contributing an answer to Stack Overflow!


  • Please be sure to answer the question. Provide details and share your research!

But avoid


  • Asking for help, clarification, or responding to other answers.

  • Making statements based on opinion; back them up with references or personal experience.

To learn more, see our tips on writing great answers.




draft saved


draft discarded














StackExchange.ready(
function ()
StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fstackoverflow.com%2fquestions%2f55542189%2fdoes-an-object-always-see-its-latest-internal-state-irrespective-of-thread%23new-answer', 'question_page');

);

Post as a guest















Required, but never shown





















































Required, but never shown














Required, but never shown












Required, but never shown







Required, but never shown

































Required, but never shown














Required, but never shown












Required, but never shown







Required, but never shown







-

Popular posts from this blog

Can not update quote_id field of “quote_item” table magento 2Magento 2.1 - We can't remove the item. (Shopping Cart doesnt allow us to remove items before becomes empty)Add value for custom quote item attribute using REST apiREST API endpoint v1/carts/cartId/items always returns error messageCorrect way to save entries to databaseHow to remove all associated quote objects of a customer completelyMagento 2 - Save value from custom input field to quote_itemGet quote_item data using quote id and product id filter in Magento 2How to set additional data to quote_item table from controller in Magento 2?What is the purpose of additional_data column in quote_item table in magento2Set Custom Price to Quote item magento2 from controller

Image
What's the in-universe reasoning behind sorcerers needing material components? What killed these X2 caps? Why is consensus so controversial in Britain? CAST throwing error when run in stored procedure but not when run as raw query Assassin's bullet with mercury Why do bosons tend to occupy the same state? Ambiguity in the definition of entropy What does the expression "A Mann!" means Is it logically or scientifically possible to artificially send energy to the body? Do scales need to be in alphabetical order? Is there an expression that means doing something right before you will need it rather than doing it in case you might need it? Is it possible to create a QR code using text? Should I tell management that I intend to leave due to bad software development practices? Why no variance term in Bayesian logistic regression? How badly should I try to prevent a user from XSSing themselves? I would say: "You are another teacher", bu
Read more

Magento 2 disable Secret Key on URL's from terminal The Next CEO of Stack OverflowMagento 2 Shortcut/GUI tool to perform commandline tasks for windowsIn menu add configuration linkMagento oAuth : Generating access token and access secretMagento 2 security key issue in Third-Party API redirect URIPublic actions in admin controllersHow to Disable Cache in Custom WidgetURL Key not changing in Magento 2Product URL Key gets deleted when importing custom options - Magento 2Problem with reindex terminalMagento 2 - bin/magento Commands not working in Cpanel Terminal

Image
How to travel Japan while expressing milk? Is it correct to say moon starry nights? What exactly is ineptocracy? Is it a bad idea to plug the other end of ESD strap to wall ground? Is it OK to decorate a log book cover? logical reads on global temp table, but not on session-level temp table What did the word "leisure" mean in late 18th Century usage? How can I separate the number from the unit in argument? Is it possible to make a 9x9 table fit within the default margins? Can a PhD from a non-TU9 German university become a professor in a TU9 university? A hang glider, sudden unexpected lift to 25,000 feet altitude, what could do this? Does int main() need a declaration on C++? Is there a rule of thumb for determining the amount one should accept for a settlement offer? Why did early computer designers eschew integers? Early programmable calculators with RS-232 What does this strange code stamp on my passport mean? Why does the freezing point ma
Read more

Aasi (pallopeli) Navigointivalikko

PallopelitLeikit pallolla Aasi on yksinkertainen pallolla pelattava pallopeli, joka toimii lasten ja nuorten ajanvietteenä. Peliin tarvitaan pallo ja kolme pelaajaa. Kaksi pelaajaa ovat kaukana toisistaan (noin 10m) ja kolmas pelaaja on heidän keskellään. Kaukaisimmat pelaajat heittelevät palloa keskenään, ja keskimmäinen pelaaja, aasi, yrittää siepata pallon itselleen. Jos aasi saa pallon kiinni, hän pääsee sen pelaajan paikalle joka heitti pallon. Tämä peli esiintyy myös nimillä Piimä , Mummonkiusaus ja Kala . lähde? Aasi on myös nimitys toiselle pallopelille. Peliin tarvitaan vähintään kaksi pelaajaa sekä pallo. Pelaajat päättävät järjestyksen, jossa pelaajat potkaisevat palloa jotain päin (esim. seinää). Kukin pelaaja potkaisee vuorollaan palloa, ja häviäjä on se, joka saa ensin sanan AASI. Kirjaimia saa sillä, että osuu palloon potkaisun jälkeen. Esim. Ville, Heikki ja Kalle pelaavat aasia. Ville potkaisee palloa, ja sitten on Heikin vuoro, mutta Ville osuu palloon ennen kuin
Read more