With the continuous development of the Go programming language, more and more programmers choose Go as their main programming language. Starting from Go 1.17, a new go/doc
package has been added to the Go language standard library, which makes it easier and more convenient for Golang to obtain comments.
In this article, we will explore how to get comments in Golang source code using the go/doc
package. We will explain it from the following aspects:
go/doc
Basic use of packages1. go/doc
Basic use of packages
#go/doc package is a package that comes with the Go language standard library and can be used without installation. This package provides a very simple way to parse annotation information from Golang source code.
go/doc package and use
go/doc.
New(pak *ast.Package, importPath string, mode Mode ) function to create an object of type
go/doc.
Package. The first parameter of this function is a pointer of type
*ast.Package, which represents the Go package we want to get the annotation from; the second parameter is a string type, which represents the path to import the package. ;The third parameter is a
go/doc.
Mode type, used to specify the information we want to query.
package main import ( "go/ast" "go/doc" "go/parser" "go/token" ) func main() { // 从本地源码文件解析 Go 代码 fset := token.NewFileSet() astFile, _ := parser.ParseFile(fset, "example.go", nil, parser.ParseComments) packageName := "example" pkg := &ast.Package{ Name: packageName, Files: map[string]*ast.File { "example.go": astFile, }, } // 创建一个 go/doc.Package 对象 targetPkg := doc.New(pkg, packageName, 0) }
go/doc.Package object named
targetPkg, which contains all the information of the
example package. Below we will explain step by step how to use this object to obtain annotation information.
go/doc.
Package type, there is a function named
The Funcs field contains annotation information for all functions and methods. This field is a map with the function name as the key and the
go/doc.
Func type value as the value.
func Example() { targetPkg := ... // 获取函数的注释 f := targetPkg.Funcs["foo"] fmt.Println(f.Doc) // 输出函数 foo 的注释 }
foo function through
targetPkg.Funcs["foo"] and print it to the console.
Types field in the
go/doc.
Package type. Each
*go/doc.
Type object contains all annotation information related to it, including methods.
Name() method to get the name of the type, and then traverse its method list to get the annotation information of each method.
func Example() { targetPkg := ... // 获取结构体的注释和方法的注释 for _, t := range targetPkg.Types { fmt.Println(t.Doc) // 输出结构体的注释 for _, m := range t.Methods { fmt.Println(m.Doc) // 输出方法的注释 } } }
targetPkg.Types to obtain the annotations of all structures and methods. Traverse
targetPkg.Types, for each type, we can use
t.Doc to get its annotation information, and traverse
t.Methods to get the annotations of each method information.
go/doc.
Package type, there is a file named
Types field, which contains all structure and interface information. This field is a map with type names as keys and values of type
go/doc.
Type as values.
Doc field in the
go/doc.
Type type to obtain the annotation information of the structure.
func Example() { targetPkg := ... // 获取结构体的注释 typ := targetPkg.Types["MyStruct"] fmt.Println(typ.Doc) }
MyStruct through
targetPkg.Types["MyStruct"] and print it to console.
go/doc.Type
type The #Doc` field obtains the annotation information of the interface. <div class="code" style="position:relative; padding:0px; margin:0px;"><pre class='brush:go;toolbar:false;'>func Example() {
targetPkg := ...
// 获取接口的注释
typ := targetPkg.Types["MyInterface"]
fmt.Println(typ.Doc)
}</pre><div class="contentsignin">Copy after login</div></div>
In the above code, we obtain the annotation information of the interface named
through targetPkg.Types["MyInterface"]
and print it to the control tower. 4. Nesting and filtering of comments
In Golang, comments can be nested in other comments, which means that we can find nested comments by traversing the comments. Furthermore, sometimes we are only interested in annotations containing specific text. In this case, we can use regular expressions or other filters to filter comments.
Get nested comments.Package
type, the comment information is nested in in other notes. We can find nested comments by looping through them. The following example code demonstrates how to traverse annotation information to find nested annotations. <div class="code" style="position:relative; padding:0px; margin:0px;"><pre class='brush:go;toolbar:false;'>func Example() {
targetPkg := ...
// 遍历注释来查找嵌套的注释
for _, f := range targetPkg.Funcs {
ast.Inspect(f.Decl, func(node ast.Node) bool {
switch n := node.(type) {
case *ast.CommentGroup:
for _, c := range n.List {
if strings.Contains(c.Text, "TODO") {
fmt.Println(c)
}
}
}
return true
})
}
}</pre><div class="contentsignin">Copy after login</div></div><p>上述代码中,我们使用 <code>targetPkg.Funcs
获取所有函数和方法的注释。然后,我们使用 go/ast
.Inspect 函数将注释树作为根节点输入,并遍历树中的所有注释。如果找到了包含特定文本的注释,则将其打印到控制台。在上述示例中,我们打印了所有包含 TODO
的注释。
有时候我们只对包含特定文本的注释感兴趣。在这种情况下,我们可以使用正则表达式或其他过滤器来过滤注释。下面示例代码演示了如何使用正则表达式过滤注释。
func Example() { targetPkg := ... // 使用正则表达式过滤注释 pattern, _ := regexp.Compile(`@deprecated`) for _, f := range targetPkg.Funcs { if pattern.MatchString(f.Doc) { fmt.Printf("Function %s is deprecated: %s ", f.Name, f.Doc) } } }
上述代码中,我们创建了一个名为 pattern
的正则表达式。然后,我们遍历 targetPkg.Funcs
,并使用 pattern
过滤所有包含 @deprecated
的注释。对于匹配的注释,我们将其打印到控制台。
总结
在本文中,我们探讨了如何使用 go/doc
包获取 Golang 源代码中的注释。我们介绍了基本的使用方法,并讲解了如何获取函数和方法、结构体和接口的注释。此外,我们还讨论了如何遍历注释以查找嵌套的注释,以及如何使用正则表达式或其他过滤器来过滤注释。希望本文能够帮助你更好地理解 Golang 的注释机制,并在实践中发挥作用。
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