Why is `time.Sleep()` Crucial for Proper Goroutine Execution?
Goroutines and the Importance of time.Sleep()
When working with goroutines, it's common to encounter the need for time.Sleep(). This article dives into the significance of time.Sleep() in goroutine execution, exploring the consequences of omitting it.
Understanding Goroutines
Goroutines are lightweight threads of execution in Go. Unlike threads, goroutines are managed by the Go runtime and share memory with other goroutines in the program.
The Role of time.Sleep()
In the example provided, the say() function is a goroutine responsible for printing "world" to the screen. The time.Sleep() statement artificially delays the goroutine's execution for 100 milliseconds per iteration.
Without time.Sleep()
If the time.Sleep() statement is removed, the say("world") goroutine never gets a chance to run. This is because the Go goroutine scheduler is non-preemptive. Goroutines voluntarily yield control, allowing other goroutines to execute.
The Primary Goroutine
The main() function in this example is the primary goroutine. When time.Sleep() is removed, the primary goroutine executes say("hello") 5 times without relinquishing control. As a result, the say("world") goroutine never gets to run, and only "hello" is printed to the screen.
Maintaining Program Execution
In the absence of time.Sleep(), the primary goroutine finishes executing and the program exits. This is because no other goroutines are running to keep the program alive. Conversely, when time.Sleep() is used, the say("world") goroutine yields control, allowing the primary goroutine to execute and the program to continue running.
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