Home >Backend Development >Golang >Research on error handling methods of Golang functions
Golang is a strongly typed and statically typed programming language, which is characterized by high concurrency and high efficiency. Because Golang is a brand new language, the problems and solutions encountered when using Golang will be different from other languages. This article mainly explores the error handling methods of Golang functions to help developers better understand Golang.
1. History of error handling methods
In early programming, error problems were often solved by returning values or global variables. But this approach will make the code complex and difficult to understand. Later, the emergence of some languages provided better solutions for error handling. For example, Java is implemented through exception handling.
In Golang, error handling is also handled through a special type. Common names for this type end in err or error. This processing method takes into account the readability of the former method and the stability of the latter method. In Golang, the program outputs an error value, which means not only that the function has an error, but also that the error must be passed to the superior function for processing.
2. Detailed explanation of error types
In Golang, error types exist in the errors package in the standard library. The errors package provides a structure used to describe errors. This structure is defined as follows:
type error interface { Error() string }
The keyword 'error' indicates that this is an interface type. Among them, the method Error() returns a string representing error information. We can output the error content through the Println() function of the fmt package. For example:
err := DoSomething() if err != nil { fmt.Println("Error:", err.Error()) }
During error checking, we can determine whether the error is equal to nil (that is, the default value of the error type is nil). If it is nil, it means there is no error; if it is not nil, it means an error has occurred. And you can get detailed error information by calling the Error() method.
In Golang, there are two ways of error handling: one is to return an error value, indicating that the function has an error; the other is to return multiple values, including normal return values and error values. Let's look at these two methods separately.
3. Return an error value
In the Go language, the return value of a function can be one or more. If the type of the return value contains error, then the return value must be the last return value, otherwise an error will occur during compilation. An example is to use the os.Open() function to open a file:
func Open(name string) (*File, error)
In this example, the return value of the function is a *File type and an error type. If an error occurs in this function, an instance of type error that is not nil will be returned.
We can use the following method for error handling when using the Open() function:
file, err := os.Open("/path/to/file") if err != nil { log.Fatal(err) }
As you can see, if the Open function returns an error, then the error will be recorded. and exit the program. This is a common way to ensure that the error is handled and that the program does not continue execution.
4. Return multiple values
In Go language, functions can not only return a single value, but also return multiple values. This is useful for certain operations such as returning more state information or avoiding double calculations. When we need a function to return multiple values, we can pass them by wrapping them in a structure. However, in Go language, our more common way is to return a primitive type and an error type value.
For example, when using the io.ReadFull() function, we can see this return value:
func ReadFull(r Reader, buf []byte) (n int, err error)
The function here returns the number of bytes read (n) and a error(err). The usual way to check if the operation was successful is the same as described before:
_, err := io.ReadFull(conn, buf) if err != nil { log.Fatal(err) }
In this example, we ignore the actual number of bytes read and only check if an error occurred.
5. Best practices for error handling
In the Go language, there are some best practices for error handling to help us handle errors better.
For any possible error, do not ignore it. Not only will this cause the program to crash, but it may also result in data loss.
When calling other functions, you should consider passing errors that may occur in the function call to the upper layer. There is no need to handle errors inside the function.
If the function needs to perform all input validation before being able to handle the error, then reporting errors as early as possible is very necessary.
Do not define global error variables. This can make the code complex and difficult to understand. Instead, use a return value to pass error information.
Although semicolons are optional in Go, errors should be handled using appropriate semicolons. Otherwise it is easy to encounter unexpected syntax errors.
6. Conclusion
In error handling in Go language, we can handle errors by returning a value or returning multiple values. Regardless of which approach you take, there are some best practices you should follow. Understanding these best practices can be very helpful in building more stable and reliable programs. I hope this article will be helpful to your Golang programming journey.
The above is the detailed content of Research on error handling methods of Golang functions. For more information, please follow other related articles on the PHP Chinese website!