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Ilkka Seppälä
4108f86177
* Changed database implementation. Removed static objects. * Fix Logs * Fix 40 errors from checkstyle plugin run. 139 left)) * Fix CacheStore errors from checkstyle plugin 107 left * Fix last errors in checkstyle. * Fix sonar issues * Fix issues in VALIDATE phase * Fix Bug with mongo connection. Used "Try with resources" * Add test * Added docker-compose for mongo db. MongoDb db work fixed. * Provided missing tests * Comments to start Application with mongo. * Fix some broken links * Remove extra space * Update filename * Fix some links in localization folders * Fix link * Update frontmatters * Work on patterns index page * Work on index page * Fixes according PR comments. Mainly Readme edits. * fix frontmatter * add missing png * Update pattern index.md * Add index.md for Chinese translation * update image paths * update circuit breaker image paths * Update image paths for localizations * add generated puml * Add missing image * Update img file extensions * Update the rest of the EN and ZH patterns to conform with the new website Co-authored-by: Victor Zalevskii <zvictormail@gmail.com>
69 lines
2.3 KiB
Markdown
69 lines
2.3 KiB
Markdown
---
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title: Monitor
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category: Concurrency
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language: en
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tags:
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- Performance
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---
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## Intent
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Monitor pattern is used to create thread-safe objects and prevent conflicts between threads in concurrent applications.
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## Explanation
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In plain words
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> Monitor pattern is used to enforce single-threaded access to data. Only one thread at a time is allowed to execute code within the monitor object.
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Wikipedia says
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> In concurrent programming (also known as parallel programming), a monitor is a synchronization construct that allows threads to have both mutual exclusion and the ability to wait (block) for a certain condition to become false. Monitors also have a mechanism for signaling other threads that their condition has been met.
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**Programmatic Examples**
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Consider there is a bank that transfers money from an account to another account with transfer method . it is `synchronized` mean just one thread can access to this method because if many threads access to it and transfer money from an account to another account in same time balance changed !
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```
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class Bank {
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private int[] accounts;
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Logger logger;
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public Bank(int accountNum, int baseAmount, Logger logger) {
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this.logger = logger;
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accounts = new int[accountNum];
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Arrays.fill(accounts, baseAmount);
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}
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public synchronized void transfer(int accountA, int accountB, int amount) {
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if (accounts[accountA] >= amount) {
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accounts[accountB] += amount;
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accounts[accountA] -= amount;
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logger.info("Transferred from account :" + accountA + " to account :" + accountB + " , amount :" + amount + " . balance :" + getBalance());
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}
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}
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```
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getBalance always return total amount and the total amount should be same after each transfers
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```
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private synchronized int getBalance() {
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int balance = 0;
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for (int account : accounts) {
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balance += account;
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}
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return balance;
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}
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}
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```
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## Class diagram
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## Applicability
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Use the Monitor pattern when
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* we have a shared resource and there is critical section .
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* you want to create thread-safe objects .
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* you want to achieve mutual exclusion in high level programming language .
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