In Go language, will using two fmt.Println() printing functions cause deadlock? This is a common question, let’s answer it. First, we must understand the concept of deadlock. A deadlock is a situation where two or more processes wait for each other to complete, causing the program to be unable to continue executing. In the Go language, if you use the fmt.Println() printing function in two routines at the same time, since the standard output is thread-safe, no deadlock will occur. Therefore, you can safely use multiple fmt.Println() functions in your go routine without worrying about deadlock issues.
Question content
I'm trying to learn go and I'm experimenting on the playground. I have a very simple code. I'm trying to use structs and slices together in a go routine. I'm not sure if this would be something I'd use in production, but it seems a little off, so here it goes:
func main() {
routinemsg := make(chan []Person)
routinemsg2 := make(chan []Person)
// create the person records
p1 := newPerson("john doe", 25)
p2 := newPerson("dohn joe", 52)
p3 := newPerson("bohn joo", 30)
// send a slice of Person to the first routine
go func() { routinemsg <- []Person{p1, p2} }()
// retrieve the slice from the first routine[in the append]
// append p3 to the slice retrieved from the first routine
// send the new slice to the second routine
go func() { routinemsg2 <- append(<-routinemsg, p3) }()
// I am able to see the first Println but when I insert the second one I get a deadlock error
// also, same error if I use one Println with 2 arguments.
fmt.Println(<-routinemsg)
fmt.Println(<-routinemsg2)
}
I've heard of waiting groups, but don't know about them yet! So, be nice to me :D, thank you for your time
WORKAROUND
routinemsg There is only one send operation on you, but you have 2 receive operations: one on In the started goroutine, the other one is in the main goroutine. The value sent can only be received once by a receiver.
If the started goroutine first receives from routinemsg, then a deadlock will occur: reception in main will be blocked forever.
If the main goroutine receives first, then the started goroutine will block forever (trying to receive from it), so it can never send anything on routinemsg2, so main Receiving from routinemsg2 will also block forever: deadlock again.
Remove the fmt.println( line in <code>main(), then the final receive from routinemsg2 can (eventually) continue and Print slice phpcnp3 containing p1, p2 and phpcnc:
[{john doe 25} {dohn joe 52} {bohn joo 30}]
Try it on go playground.
The above is the detailed content of Is there a deadlock when using two fmt.println in a go routine?. For more information, please follow other related articles on the PHP Chinese website!
Implementing Mutexes and Locks in Go for Thread SafetyMay 05, 2025 am 12:18 AMIn Go, using mutexes and locks is the key to ensuring thread safety. 1) Use sync.Mutex for mutually exclusive access, 2) Use sync.RWMutex for read and write operations, 3) Use atomic operations for performance optimization. Mastering these tools and their usage skills is essential to writing efficient and reliable concurrent programs.
Benchmarking and Profiling Concurrent Go CodeMay 05, 2025 am 12:18 AMHow to optimize the performance of concurrent Go code? Use Go's built-in tools such as getest, gobench, and pprof for benchmarking and performance analysis. 1) Use the testing package to write benchmarks to evaluate the execution speed of concurrent functions. 2) Use the pprof tool to perform performance analysis and identify bottlenecks in the program. 3) Adjust the garbage collection settings to reduce its impact on performance. 4) Optimize channel operation and limit the number of goroutines to improve efficiency. Through continuous benchmarking and performance analysis, the performance of concurrent Go code can be effectively improved.
Error Handling in Concurrent Go Programs: Avoiding Common PitfallsMay 05, 2025 am 12:17 AMThe common pitfalls of error handling in concurrent Go programs include: 1. Ensure error propagation, 2. Processing timeout, 3. Aggregation errors, 4. Use context management, 5. Error wrapping, 6. Logging, 7. Testing. These strategies help to effectively handle errors in concurrent environments.
Implicit Interface Implementation in Go: The Power of Duck TypingMay 05, 2025 am 12:14 AMImplicitinterfaceimplementationinGoembodiesducktypingbyallowingtypestosatisfyinterfaceswithoutexplicitdeclaration.1)Itpromotesflexibilityandmodularitybyfocusingonbehavior.2)Challengesincludeupdatingmethodsignaturesandtrackingimplementations.3)Toolsli
Go Error Handling: Best Practices and PatternsMay 04, 2025 am 12:19 AMIn Go programming, ways to effectively manage errors include: 1) using error values instead of exceptions, 2) using error wrapping techniques, 3) defining custom error types, 4) reusing error values for performance, 5) using panic and recovery with caution, 6) ensuring that error messages are clear and consistent, 7) recording error handling strategies, 8) treating errors as first-class citizens, 9) using error channels to handle asynchronous errors. These practices and patterns help write more robust, maintainable and efficient code.
How do you implement concurrency in Go?May 04, 2025 am 12:13 AMImplementing concurrency in Go can be achieved by using goroutines and channels. 1) Use goroutines to perform tasks in parallel, such as enjoying music and observing friends at the same time in the example. 2) Securely transfer data between goroutines through channels, such as producer and consumer models. 3) Avoid excessive use of goroutines and deadlocks, and design the system reasonably to optimize concurrent programs.
Building Concurrent Data Structures in GoMay 04, 2025 am 12:09 AMGooffersmultipleapproachesforbuildingconcurrentdatastructures,includingmutexes,channels,andatomicoperations.1)Mutexesprovidesimplethreadsafetybutcancauseperformancebottlenecks.2)Channelsofferscalabilitybutmayblockiffullorempty.3)Atomicoperationsareef
Comparing Go's Error Handling to Other Programming LanguagesMay 04, 2025 am 12:09 AMGo'serrorhandlingisexplicit,treatingerrorsasreturnedvaluesratherthanexceptions,unlikePythonandJava.1)Go'sapproachensureserrorawarenessbutcanleadtoverbosecode.2)PythonandJavauseexceptionsforcleanercodebutmaymisserrors.3)Go'smethodpromotesrobustnessand
Hot AI Tools
Undresser.AI Undress
AI-powered app for creating realistic nude photos
AI Clothes Remover
Online AI tool for removing clothes from photos.
Undress AI Tool
Undress images for free
Clothoff.io
AI clothes remover
Video Face Swap
Swap faces in any video effortlessly with our completely free AI face swap tool!
Hot Article
Hot Tools
mPDF
mPDF is a PHP library that can generate PDF files from UTF-8 encoded HTML. The original author, Ian Back, wrote mPDF to output PDF files "on the fly" from his website and handle different languages. It is slower than original scripts like HTML2FPDF and produces larger files when using Unicode fonts, but supports CSS styles etc. and has a lot of enhancements. Supports almost all languages, including RTL (Arabic and Hebrew) and CJK (Chinese, Japanese and Korean). Supports nested block-level elements (such as P, DIV),
Dreamweaver CS6
Visual web development tools
DVWA
Damn Vulnerable Web App (DVWA) is a PHP/MySQL web application that is very vulnerable. Its main goals are to be an aid for security professionals to test their skills and tools in a legal environment, to help web developers better understand the process of securing web applications, and to help teachers/students teach/learn in a classroom environment Web application security. The goal of DVWA is to practice some of the most common web vulnerabilities through a simple and straightforward interface, with varying degrees of difficulty. Please note that this software
SublimeText3 Mac version
God-level code editing software (SublimeText3)
VSCode Windows 64-bit Download
A free and powerful IDE editor launched by Microsoft
