In this lesson, we will learn about concurrency which is one of the most powerful features of Go.
So, let's start by asking What is "concurrency"?
Concurrency, by definition, is the ability to break down a computer program or algorithm into individual parts, which can be executed independently.
The final outcome of a concurrent program is the same as that of a program that has been executed sequentially.
Using concurrency, we can achieve the same results in lesser time, thus increasing the overall performance and efficiency of our programs.
A lot of people confuse concurrency with parallelism because they both somewhat imply executing code simultaneously, but they are two completely different concepts.
Concurrency is the task of running and managing multiple computations at the same time, while parallelism is the task of running multiple computations simultaneously.
A simple quote from Rob Pike pretty much sums it up.
"Concurrency is about dealing with lots of things at once. Parallelism is about doing lots of things at once"
But concurrency in Go is more than just syntax. In order to harness the power of Go, we need to first understand how Go approaches concurrent execution of code. Go relies on a concurrency model called CSP (Communicating Sequential Processes).
Communicating Sequential Processes (CSP) is a model put forth by Tony Hoare in 1978 which describes interactions between concurrent processes. It made a breakthrough in Computer Science, especially in the field of concurrency.
Languages like Go and Erlang have been highly inspired by the concept of communicating sequential processes (CSP).
Concurrency is hard, but CSP allows us to give a better structure to our concurrent code and provides a model for thinking about concurrency in a way that makes it a little easier. Here, processes are independent and they communicate by sharing channels between them.
We'll learn how Golang implements it using goroutines and channels later in the course.
Now, let's get familiar with some basic concurrency concepts
A data race occurs when processes have to access the same resource concurrently.
For example, one process reads while another simultaneously writes to the exact same resource.
A race condition occurs when the timing or order of events affects the correctness of a piece of code.
A deadlock occurs when all processes are blocked while waiting for each other and the program cannot proceed further.
There are four conditions, known as the Coffman conditions, all of them must be satisfied for a deadlock to occur.
- Mutual Exclusion
A concurrent process holds at least one resource at any one time making it non-sharable.
In the diagram below, there is a single instance of Resource 1 and it is held by Process 1 only.
- Hold and wait
A concurrent process holds a resource and is waiting for an additional resource.
In the diagram given below, Process 2 holds Resource 2 and Resource 3 and is requesting the Resource 1 which is held by Process 1.
- No preemption
A resource held by a concurrent process cannot be taken away by the system. It can only be freed by the process holding it.
In the diagram below, Process 2 cannot preempt Resource 1 from Process 1. It will only be released when Process 1 relinquishes it voluntarily after its execution is complete.
- Circular wait
A process is waiting for the resource held by the second process, which is waiting for the resource held by the third process, and so on, till the last process is waiting for a resource held by the first process. Hence, forming a circular chain.
In the diagram below, Process 1 is allocated Resource2 and it is requesting Resource 1. Similarly, Process 2 is allocated Resource 1 and it is requesting Resource 2. This forms a circular wait loop.
Livelocks are processes that are actively performing concurrent operations, but these operations do nothing to move the state of the program forward.
Starvation happens when a process is deprived of necessary resources and is unable to complete its function.
Starvation can happen because of deadlocks or inefficient scheduling algorithms for processes. In order to solve starvation, we need to employ better resource-allotment algorithms that make sure that every process gets its fair share of resources.
This article is part of my open source Go Course available on Github.
Master the fundamentals and advanced features of the Go programming language
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Table of contents
What is Go?
Go (also known as Golang) is a programming language developed at Google in 2007 and open-sourced in 2009.
It focuses on simplicity, reliability, and efficiency. It was designed to combine the efficacy, speed, and safety of a statically typed and compiled language with the ease…