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How to use Go language for code internationalization practice
Introduction:
With the development of the Internet, internationalization has become an indispensable part of modern software development. During the development process, if internationalization issues are not properly handled, it may result in poor user experience. As a fast and efficient programming language, Go language also provides many tools and methods for code internationalization. This article will introduce how to use Go language for code internationalization practice, with code examples.
gettext
package to get the localized string. First, we need to define a gettext
domain in the code, and then use the gettext.Gettext
function to get the localized string. package main import ( "fmt" "golang.org/x/text/language" "golang.org/x/text/message" "golang.org/x/text/message/catalog" "golang.org/x/text/message/pipeline" ) func main() { // 定义本地化字符串域 lang := language.Chinese // 获取本地化字符串 p := message.NewPrinter(lang) str := p.Sprintf("Hello, %s!", "World") fmt.Println(str) }
go-i18n
package to load localized resource files. First, we need to create a localization resource file in JSON format and save it in a directory, such as the locale
directory. Suppose there is an English localization resource file en.json
with the following content:
{ "HelloWorld": { "one": "Hello, World!", "other": "Hello, %s!" } }
Next, we need to use the go-i18n
package to load the localization resource file . You can use the following code to load English localization resource files.
package main import ( "fmt" "golang.org/x/text/language" "golang.org/x/text/message" "golang.org/x/text/message/catalog" "golang.org/x/text/message/pipeline" "go-i18n/i18n" ) func main() { // 加载本地化资源文件 bundle := i18n.NewBundle(language.English) bundle.RegisterUnmarshalFunc("json", json.Unmarshal) bundle.MustLoadMessageFile("locale/en.json") // 获取本地化字符串 p := message.NewPrinter(bundle.Message(language.English)) str := p.Sprintf("HelloWorld", "World") fmt.Println(str) }
acceptlanguage
package and pass it to the gettext
package or the go-i18n
package. The following is a sample code that demonstrates how to dynamically switch the language of a localized string based on the user's language settings:
package main import ( "fmt" "golang.org/x/text/language" "golang.org/x/text/message" "golang.org/x/text/message/catalog" "golang.org/x/text/message/pipeline" "go-i18n/i18n" acceptlanguage "github.com/klauspost/acceptlanguage" ) func main() { // 获取用户的语言设置 r := &http.Request{} tags, _, _ := acceptlanguage.Parse(r.Header.Get("Accept-Language")) // 根据用户的语言设置加载本地化资源文件 lang := tags[0].Tag.String() bundle := i18n.NewBundle(language.Make(lang)) bundle.RegisterUnmarshalFunc("json", json.Unmarshal) bundle.MustLoadMessageFile(fmt.Sprintf("locale/%s.json", lang)) // 获取本地化字符串 p := message.NewPrinter(bundle.Message(language.Make(lang))) str := p.Sprintf("HelloWorld", "World") fmt.Println(str) }
Summary:
This article introduces how to use Go Language for code internationalization practice. By using the gettext
and go-i18n
packages, we can easily obtain and load localized string resources to support software development in different language environments. Additionally, we demonstrated how to dynamically switch languages to serve localized strings based on the user's language settings. By correctly handling internationalization issues, we can improve the user experience of the software and meet the needs of users in different regions.
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