Why do you have to pass the address of the pointer instead of the pointer itself when using the Viper library in Go?-Golang-php.cn

Home

Backend Development

Golang

Why do you have to pass the address of the pointer instead of the pointer itself when using the Viper library in Go?

Barbara Streisand

Apr 02, 2025 am 11:15 AM

go languageaiWhy

Detailed explanation of the UnmarshalKey function of the Go language Viper library and pointer address transfer

This article discusses why the UnmarshalKey function needs to pass the address of the pointer instead of the pointer itself when using the Viper library in Go. We will analyze this problem in combination with code examples and Viper library source code.

The root cause of the problem lies in the reflection mechanism inside the UnmarshalKey function. This function requires an addressable pointer to ungroup the data from the configuration file into the target structure. Although the pointer is a pointer type, it is not an addressable memory address and cannot be modified.

Code examples and problem analysis:

The code examples provided in the article clearly show this problem. Although global.serversetting is of type *setting.serversettings (pointer), it points to an allocated memory address. What the UnmarshalKey function requires is the address of this pointer in order to modify the value in the memory area it points to. Passing global.serversetting directly is equivalent to passing the value of the pointer (i.e., the memory address), rather than the address itself. This makes UnmarshalKey unable to modify the content of the structure pointed to by serversetting .

Viper library source code analysis:

The newdecoder function fragment of the Viper library:

 func newdecoder(config *decoderconfig) (*decoder, error) {
    val := reflect.ValueOf(config.result)
    if val.Kind() != reflect.Ptr {
        return nil, errors.New("result must be a pointer")
    }

    val = val.Elem()
    if !val.CanAddr() {
        return nil, errors.New("result must be addressable (a pointer)")
    }
    // ...
}

This code explains why addressable pointers are needed:

val.Kind() != reflect.Ptr : Check whether the passed parameter is a pointer type.
val = val.Elem() : Gets the value pointed to by the pointer.
!val.CanAddr() : This is the key point. CanAddr() checks whether the value is addressable. If you pass the pointer directly, val.Elem() gets the structure itself, and the structure itself is not addressable because it is not a pointer. Only the address of the pointer is addressable, because the address itself represents a memory location and can be modified.

Verification code and results:

The verification code provided in the article:

 package main

import (
    "fmt"
    "reflect"
)

var a *db

type db struct {
}

func main() {
    val := reflect.ValueOf(a)
    val = val.Elem()
    fmt.Println(val.CanAddr()) // false

    val = reflect.ValueOf(&a)
    val = val.Elem()
    fmt.Println(val.CanAddr()) // true
}

This code verifies that the results returned by CanAddr() method of reflect.ValueOf(a) (pointer itself) and reflect.ValueOf(&a) (pointer's address). Only the address of the pointer can be addressed.

in conclusion:

In order to correctly use the UnmarshalKey function of the Viper library, the address of the pointer to the target structure ( &global.serversetting ) must be passed, rather than the pointer itself ( global.serversetting ). This ensures that the Viper library can correctly ungroup the configuration file data into the target structure. This is not a problem unique to the Viper library, but a reflection of the Go language reflection mechanism and pointer semantics. Understanding Go language pointer and reflection mechanism is crucial to solving such problems. Why do you have to pass the address of the pointer instead of the pointer itself when using the Viper library in Go?

The above is the detailed content of Why do you have to pass the address of the pointer instead of the pointer itself when using the Viper library in Go?. For more information, please follow other related articles on the PHP Chinese website!

Statement

The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn

String Manipulation in Go: Mastering the 'strings' PackageMay 14, 2025 am 12:19 AM

Mastering the strings package in Go language can improve text processing capabilities and development efficiency. 1) Use the Contains function to check substrings, 2) Use the Index function to find the substring position, 3) Join function efficiently splice string slices, 4) Replace function to replace substrings. Be careful to avoid common errors, such as not checking for empty strings and large string operation performance issues.

Go 'strings' package tips and tricksMay 14, 2025 am 12:18 AM

You should care about the strings package in Go because it simplifies string manipulation and makes the code clearer and more efficient. 1) Use strings.Join to efficiently splice strings; 2) Use strings.Fields to divide strings by blank characters; 3) Find substring positions through strings.Index and strings.LastIndex; 4) Use strings.ReplaceAll to replace strings; 5) Use strings.Builder to efficiently splice strings; 6) Always verify input to avoid unexpected results.

'strings' Package in Go: Your Go-To for String OperationsMay 14, 2025 am 12:17 AM

ThestringspackageinGoisessentialforefficientstringmanipulation.1)Itofferssimpleyetpowerfulfunctionsfortaskslikecheckingsubstringsandjoiningstrings.2)IthandlesUnicodewell,withfunctionslikestrings.Fieldsforwhitespace-separatedvalues.3)Forperformance,st

Go bytes package vs strings package: Which should I use?May 14, 2025 am 12:12 AM

WhendecidingbetweenGo'sbytespackageandstringspackage,usebytes.Bufferforbinarydataandstrings.Builderforstringoperations.1)Usebytes.Bufferforworkingwithbyteslices,binarydata,appendingdifferentdatatypes,andwritingtoio.Writer.2)Usestrings.Builderforstrin

How to use the 'strings' package to manipulate strings in Go step by stepMay 13, 2025 am 12:12 AM

Go's strings package provides a variety of string manipulation functions. 1) Use strings.Contains to check substrings. 2) Use strings.Split to split the string into substring slices. 3) Merge strings through strings.Join. 4) Use strings.TrimSpace or strings.Trim to remove blanks or specified characters at the beginning and end of a string. 5) Replace all specified substrings with strings.ReplaceAll. 6) Use strings.HasPrefix or strings.HasSuffix to check the prefix or suffix of the string.

Go strings package: how to improve my code?May 13, 2025 am 12:10 AM

Using the Go language strings package can improve code quality. 1) Use strings.Join() to elegantly connect string arrays to avoid performance overhead. 2) Combine strings.Split() and strings.Contains() to process text and pay attention to case sensitivity issues. 3) Avoid abuse of strings.Replace() and consider using regular expressions for a large number of substitutions. 4) Use strings.Builder to improve the performance of frequently splicing strings.

What are the most useful functions in the GO bytes package?May 13, 2025 am 12:09 AM

Go's bytes package provides a variety of practical functions to handle byte slicing. 1.bytes.Contains is used to check whether the byte slice contains a specific sequence. 2.bytes.Split is used to split byte slices into smallerpieces. 3.bytes.Join is used to concatenate multiple byte slices into one. 4.bytes.TrimSpace is used to remove the front and back blanks of byte slices. 5.bytes.Equal is used to compare whether two byte slices are equal. 6.bytes.Index is used to find the starting index of sub-slices in largerslices.

Mastering Binary Data Handling with Go's 'encoding/binary' Package: A Comprehensive GuideMay 13, 2025 am 12:07 AM

Theencoding/binarypackageinGoisessentialbecauseitprovidesastandardizedwaytoreadandwritebinarydata,ensuringcross-platformcompatibilityandhandlingdifferentendianness.ItoffersfunctionslikeRead,Write,ReadUvarint,andWriteUvarintforprecisecontroloverbinary

See all articles