Jennifer is a code generator for Go.
package main
import (
"fmt"
. "github.com/dave/jennifer/jen"
)
func main() {
f := NewFile("main")
f.Func().Id("main").Params().Block(
Qual("fmt", "Println").Call(Lit("Hello, world")),
)
fmt.Printf("%#v", f)
}
Output:
package main
import "fmt"
func main() {
fmt.Println("Hello, world")
}
go get -u github.com/dave/jennifer/jen
If you get stuck, have a question, would like a code review, or just want a chat: I'm happy to help! Feel free to open an issue, email me or mention @dave in your PR.
Jennifer has a comprehensive suite of examples - see godoc for an index. Here's some examples of jennifer being used in the real-world:
- genjen (which generates much of jennifer, using data in data.go)
- zerogen
- go-contentful-generator
For testing, a File or Statement can be rendered with the fmt package using the %#v verb.
c := Id("a").Call(Lit("b"))
fmt.Printf("%#v", c)
// Output:
// a("b")
This is not recommended for use in production because any error will cause a panic. For production use, File.Render or File.Save are preferred.
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Id renders an identifier.
c := If(Id("i").Op("==").Id("j")).Block(
Return(Id("i")),
)
fmt.Printf("%#v", c)
// Output:
// if i == j {
// return i
// }
Dot renders a period followed by an identifier. Use for fields and selectors.
c := Qual("a.b/c", "Foo").Call().Dot("Bar").Index(Lit(0)).Dot("Baz")
fmt.Printf("%#v", c)
// Output:
// c.Foo().Bar[0].Baz
Qual renders a qualified identifier.
c := Qual("encoding/gob", "NewEncoder").Call()
fmt.Printf("%#v", c)
// Output:
// gob.NewEncoder()
Imports are automatically added when used with a File. If the path matches the local path, the package name is omitted. If package names conflict they are automatically renamed.
f := NewFilePath("a.b/c")
f.Func().Id("init").Params().Block(
Qual("a.b/c", "Foo").Call().Comment("Local package - name is omitted."),
Qual("d.e/f", "Bar").Call().Comment("Import is automatically added."),
Qual("g.h/f", "Baz").Call().Comment("Colliding package name is renamed."),
)
fmt.Printf("%#v", f)
// Output:
// package c
//
// import (
// f "d.e/f"
// f1 "g.h/f"
// )
//
// func init() {
// Foo() // Local package - name is omitted.
// f.Bar() // Import is automatically added.
// f1.Baz() // Colliding package name is renamed.
// }
Note that it is not possible to reliably determine the package name given an arbitrary package path, so a sensible name is guessed from the path and added as an alias. The names of all standard library packages are known so these do not need to be aliased. If more control is needed of the aliases, see File.ImportName or File.ImportAlias.
List renders a comma separated list. Use for multiple return functions.
c := List(Id("a"), Err()).Op(":=").Id("b").Call()
fmt.Printf("%#v", c)
// Output:
// a, err := b()
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Simple keywords, predeclared identifiers and built-in functions are self explanatory:
Construct | Name |
---|---|
Keywords | Break, Chan, Const, Continue, Default, Defer, Else, Fallthrough, Func, Go, Goto, Range, Select, Type, Var |
Functions | Append, Cap, Close, Complex, Copy, Delete, Imag, Len, Make, New, Panic, Print, Println, Real, Recover |
Types | Bool, Byte, Complex64, Complex128, Error, Float32, Float64, Int, Int8, Int16, Int32, Int64, Rune, String, Uint, Uint8, Uint16, Uint32, Uint64, Uintptr |
Constants | True, False, Iota, Nil |
Helpers | Err |
Built-in functions take a list of parameters and render them appropriately:
c := Id("a").Op("=").Append(Id("a"), Id("b").Op("..."))
fmt.Printf("%#v", c)
// Output:
// a = append(a, b...)
Special cases for If, For, Interface, Struct, Switch, Case, Return and Map are explained below.
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Op renders the provided operator / token.
c := Id("a").Op(":=").Id("b").Call()
fmt.Printf("%#v", c)
// Output:
// a := b()
c := Id("a").Op("=").Op("*").Id("b")
fmt.Printf("%#v", c)
// Output:
// a = *b
c := Id("a").Call(Id("b").Op("..."))
fmt.Printf("%#v", c)
// Output:
// a(b...)
c := If(Parens(Id("a").Op("||").Id("b")).Op("&&").Id("c")).Block()
fmt.Printf("%#v", c)
// Output:
// if (a || b) && c {
// }
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Several methods render curly braces, summarized below:
Name | Prefix | Separator | Example |
---|---|---|---|
Block | \n |
func a() { ... } or if a { ... } |
|
Interface | interface |
\n |
interface { ... } |
Struct | struct |
\n |
struct { ... } |
Values | , |
[]int{1, 2} or A{B: "c"} |
Block renders a statement list enclosed by curly braces. Use for code blocks.
c := Func().Id("foo").Params().String().Block(
Id("a").Op("=").Id("b"),
Id("b").Op("++"),
Return(Id("b")),
)
fmt.Printf("%#v", c)
// Output:
// func foo() string {
// a = b
// b++
// return b
// }
c := If(Id("a").Op(">").Lit(10)).Block(
Id("a").Op("=").Id("a").Op("/").Lit(2),
)
fmt.Printf("%#v", c)
// Output:
// if a > 10 {
// a = a / 2
// }
A special case applies when used directly after Case or Default, where the braces are omitted. This allows use in switch and select statements. See example.
Interface and Struct render the keyword followed by a statement list enclosed by curly braces.
c := Var().Id("a").Interface()
fmt.Printf("%#v", c)
// Output:
// var a interface{}
c := Type().Id("a").Interface(
Id("b").Params().String(),
)
fmt.Printf("%#v", c)
// Output:
// type a interface {
// b() string
// }
c := Id("c").Op(":=").Make(Chan().Struct())
fmt.Printf("%#v", c)
// Output:
// c := make(chan struct{})
c := Type().Id("foo").Struct(
List(Id("x"), Id("y")).Int(),
Id("u").Float32(),
)
fmt.Printf("%#v", c)
// Output:
// type foo struct {
// x, y int
// u float32
// }
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Several methods output parenthesis, summarized below:
Name | Prefix | Separator | Example |
---|---|---|---|
Call | , |
fmt.Println(b, c) |
|
Params | , |
func (a *A) Foo(i int) { ... } |
|
Defs | \n |
const ( ... ) |
|
Parens | []byte(s) or a / (b + c) |
||
Assert | . |
s, ok := i.(string) |
Call renders a comma separated list enclosed by parenthesis. Use for function calls.
c := Qual("fmt", "Printf").Call(
Lit("%#v: %T\n"),
Id("a"),
Id("b"),
)
fmt.Printf("%#v", c)
// Output:
// fmt.Printf("%#v: %T\n", a, b)
Params renders a comma separated list enclosed by parenthesis. Use for function parameters and method receivers.
c := Func().Params(
Id("a").Id("A"),
).Id("foo").Params(
Id("b"),
Id("c").String(),
).String().Block(
Return(Id("b").Op("+").Id("c")),
)
fmt.Printf("%#v", c)
// Output:
// func (a A) foo(b, c string) string {
// return b + c
// }
Defs renders a statement list enclosed in parenthesis. Use for definition lists.
c := Const().Defs(
Id("a").Op("=").Lit("a"),
Id("b").Op("=").Lit("b"),
)
fmt.Printf("%#v", c)
// Output:
// const (
// a = "a"
// b = "b"
// )
Parens renders a single item in parenthesis. Use for type conversion or to specify evaluation order.
c := Id("b").Op(":=").Index().Byte().Parens(Id("s"))
fmt.Printf("%#v", c)
// Output:
// b := []byte(s)
c := Id("a").Op("/").Parens(Id("b").Op("+").Id("c"))
fmt.Printf("%#v", c)
// Output:
// a / (b + c)
Assert renders a period followed by a single item enclosed by parenthesis. Use for type assertions.
c := List(Id("b"), Id("ok")).Op(":=").Id("a").Assert(Bool())
fmt.Printf("%#v", c)
// Output:
// b, ok := a.(bool)
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
If and For render the keyword followed by a semicolon separated list.
c := If(
Err().Op(":=").Id("a").Call(),
Err().Op("!=").Nil(),
).Block(
Return(Err()),
)
fmt.Printf("%#v", c)
// Output:
// if err := a(); err != nil {
// return err
// }
c := For(
Id("i").Op(":=").Lit(0),
Id("i").Op("<").Lit(10),
Id("i").Op("++"),
).Block(
Qual("fmt", "Println").Call(Id("i")),
)
fmt.Printf("%#v", c)
// Output:
// for i := 0; i < 10; i++ {
// fmt.Println(i)
// }
Switch, Select, Case and Block are used to build switch or select statements:
c := Switch(Id("value").Dot("Kind").Call()).Block(
Case(Qual("reflect", "Float32"), Qual("reflect", "Float64")).Block(
Return(Lit("float")),
),
Case(Qual("reflect", "Bool")).Block(
Return(Lit("bool")),
),
Case(Qual("reflect", "Uintptr")).Block(
Fallthrough(),
),
Default().Block(
Return(Lit("none")),
),
)
fmt.Printf("%#v", c)
// Output:
// switch value.Kind() {
// case reflect.Float32, reflect.Float64:
// return "float"
// case reflect.Bool:
// return "bool"
// case reflect.Uintptr:
// fallthrough
// default:
// return "none"
// }
Return renders the keyword followed by a comma separated list.
c := Return(Id("a"), Id("b"))
fmt.Printf("%#v", c)
// Output:
// return a, b
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Map renders the keyword followed by a single item enclosed by square brackets. Use for map definitions.
c := Id("a").Op(":=").Map(String()).String().Values()
fmt.Printf("%#v", c)
// Output:
// a := map[string]string{}
Index renders a colon separated list enclosed by square brackets. Use for array / slice indexes and definitions.
c := Var().Id("a").Index().String()
fmt.Printf("%#v", c)
// Output:
// var a []string
c := Id("a").Op(":=").Id("b").Index(Lit(0), Lit(1))
fmt.Printf("%#v", c)
// Output:
// a := b[0:1]
c := Id("a").Op(":=").Id("b").Index(Lit(1), Empty())
fmt.Printf("%#v", c)
// Output:
// a := b[1:]
Values renders a comma separated list enclosed by curly braces. Use for slice or composite literals.
c := Index().String().Values(Lit("a"), Lit("b"))
fmt.Printf("%#v", c)
// Output:
// []string{"a", "b"}
Dict renders as key/value pairs. Use with Values for map or composite literals.
c := Map(String()).String().Values(Dict{
Lit("a"): Lit("b"),
Lit("c"): Lit("d"),
})
fmt.Printf("%#v", c)
// Output:
// map[string]string{
// "a": "b",
// "c": "d",
// }
c := Op("&").Id("Person").Values(Dict{
Id("Age"): Lit(1),
Id("Name"): Lit("a"),
})
fmt.Printf("%#v", c)
// Output:
// &Person{
// Age: 1,
// Name: "a",
// }
DictFunc executes a func(Dict) to generate the value.
c := Id("a").Op(":=").Map(String()).String().Values(DictFunc(func(d Dict) {
d[Lit("a")] = Lit("b")
d[Lit("c")] = Lit("d")
}))
fmt.Printf("%#v", c)
// Output:
// a := map[string]string{
// "a": "b",
// "c": "d",
// }
Note: the items are ordered by key when rendered to ensure repeatable code.
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Lit renders a literal. Lit supports only built-in types (bool, string, int, complex128, float64, float32, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64, uintptr and complex64). Passing any other type will panic.
c := Id("a").Op(":=").Lit("a")
fmt.Printf("%#v", c)
// Output:
// a := "a"
c := Id("a").Op(":=").Lit(1.5)
fmt.Printf("%#v", c)
// Output:
// a := 1.5
LitFunc generates the value to render by executing the provided function.
c := Id("a").Op(":=").LitFunc(func() interface{} { return 1 + 1 })
fmt.Printf("%#v", c)
// Output:
// a := 2
For the default constant types (bool, int, float64, string, complex128), Lit will render the untyped constant.
Code | Output |
---|---|
Lit(true) |
true |
Lit(1) |
1 |
Lit(1.0) |
1.0 |
Lit("foo") |
"foo" |
Lit(0 + 1i) |
(0 + 1i) |
For all other built-in types (float32, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64, uintptr, complex64), Lit will also render the type.
Code | Output |
---|---|
Lit(float32(1)) |
float32(1) |
Lit(int16(1)) |
int16(1) |
Lit(uint8(0x1)) |
uint8(0x1) |
Lit(complex64(0 + 1i)) |
complex64(0 + 1i) |
The built-in alias types byte and rune need a special case. LitRune and LitByte render rune and byte literals.
Code | Output |
---|---|
LitRune('x') |
'x' |
LitByte(byte(0x1)) |
byte(0x1) |
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Comment adds a comment. If the provided string contains a newline, the comment is formatted in multiline style.
f := NewFile("a")
f.Comment("Foo returns the string \"foo\"")
f.Func().Id("Foo").Params().String().Block(
Return(Lit("foo")).Comment("return the string foo"),
)
fmt.Printf("%#v", f)
// Output:
// package a
//
// // Foo returns the string "foo"
// func Foo() string {
// return "foo" // return the string foo
// }
c := Comment("a\nb")
fmt.Printf("%#v", c)
// Output:
// /*
// a
// b
// */
If the comment string starts with "//" or "/*", the automatic formatting is disabled and the string is rendered directly.
c := Id("foo").Call(Comment("/* inline */")).Comment("//no-space")
fmt.Printf("%#v", c)
// Output:
// foo( /* inline */ ) //no-space
Commentf adds a comment, using a format string and a list of parameters.
name := "foo"
val := "bar"
c := Id(name).Op(":=").Lit(val).Commentf("%s is the string \"%s\"", name, val)
fmt.Printf("%#v", c)
// Output:
// foo := "bar" // foo is the string "bar"
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
It is hoped that with the introduction of generics with Go 1.18, the need to generate code
will be reduced. However, for the sake of completeness, we now support generics including
the any
and comparable
predeclared identifiers, and the Types
and Union
lists. To
emit the approximation (~
) token, use Op("~")
.
Types renders a comma separated list enclosed by square brackets. Use for type parameters and constraints.
Union renders a pipe separated list. Use for union type constraints.
c := Func().Id("Keys").Types(
Id("K").Comparable(),
Id("V").Any(),
).Params(
Id("m").Map(Id("K")).Id("V"),
).Index().Id("K").Block()
fmt.Printf("%#v", c)
// Output:
// func Keys[K comparable, V any](m map[K]V) []K {}
c := Return(Id("Keys").Types(Int(), String()).Call(Id("m")))
fmt.Printf("%#v", c)
// Output:
// return Keys[int, string](m)
c := Type().Id("PredeclaredSignedInteger").Interface(
Union(Int(), Int8(), Int16(), Int32(), Int64()),
)
fmt.Printf("%#v", c)
// Output:
// type PredeclaredSignedInteger interface {
// int | int8 | int16 | int32 | int64
// }
c := Type().Id("AnyString").Interface(
Op("~").String(),
)
fmt.Printf("%#v", c)
// Output:
// type AnyString interface {
// ~string
// }
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
All constructs that accept a variadic list of items are paired with GroupFunc functions that accept a func(*Group). Use for embedding logic.
c := Id("numbers").Op(":=").Index().Int().ValuesFunc(func(g *Group) {
for i := 0; i <= 5; i++ {
g.Lit(i)
}
})
fmt.Printf("%#v", c)
// Output:
// numbers := []int{0, 1, 2, 3, 4, 5}
increment := true
name := "a"
c := Func().Id("a").Params().BlockFunc(func(g *Group) {
g.Id(name).Op("=").Lit(1)
if increment {
g.Id(name).Op("++")
} else {
g.Id(name).Op("--")
}
})
fmt.Printf("%#v", c)
// Output:
// func a() {
// a = 1
// a++
// }
Add appends the provided items to the statement.
ptr := Op("*")
c := Id("a").Op("=").Add(ptr).Id("b")
fmt.Printf("%#v", c)
// Output:
// a = *b
a := Id("a")
i := Int()
c := Var().Add(a, i)
fmt.Printf("%#v", c)
// Output:
// var a int
Do calls the provided function with the statement as a parameter. Use for embedding logic.
f := func(name string, isMap bool) *Statement {
return Id(name).Op(":=").Do(func(s *Statement) {
if isMap {
s.Map(String()).String()
} else {
s.Index().String()
}
}).Values()
}
fmt.Printf("%#v\n%#v", f("a", true), f("b", false))
// Output:
// a := map[string]string{}
// b := []string{}
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
Tag renders a struct tag
c := Type().Id("foo").Struct(
Id("A").String().Tag(map[string]string{"json": "a"}),
Id("B").Int().Tag(map[string]string{"json": "b", "bar": "baz"}),
)
fmt.Printf("%#v", c)
// Output:
// type foo struct {
// A string `json:"a"`
// B int `bar:"baz" json:"b"`
// }
Note: the items are ordered by key when rendered to ensure repeatable code.
Null adds a null item. Null items render nothing and are not followed by a separator in lists.
In lists, nil will produce the same effect.
c := Func().Id("foo").Params(
nil,
Id("s").String(),
Null(),
Id("i").Int(),
).Block()
fmt.Printf("%#v", c)
// Output:
// func foo(s string, i int) {}
Empty adds an empty item. Empty items render nothing but are followed by a separator in lists.
c := Id("a").Op(":=").Id("b").Index(Lit(1), Empty())
fmt.Printf("%#v", c)
// Output:
// a := b[1:]
Line inserts a blank line.
Be careful when passing *Statement. Consider the following...
a := Id("a")
c := Block(
a.Call(),
a.Call(),
)
fmt.Printf("%#v", c)
// Output:
// {
// a()()
// a()()
// }
Id("a") returns a *Statement, which the Call() method appends to twice. To avoid this, use Clone. Clone makes a copy of the Statement, so further tokens can be appended without affecting the original.
a := Id("a")
c := Block(
a.Clone().Call(),
a.Clone().Call(),
)
fmt.Printf("%#v", c)
// Output:
// {
// a()
// a()
// }
The cgo "C" pseudo-package is a special case, and always renders without a package alias. The
import can be added with Qual
, Anon
or by supplying a preamble. The preamble is added with
File.CgoPreamble
which has the same semantics as Comment. If a preamble is provided,
the import is separated, and preceded by the preamble.
f := NewFile("a")
f.CgoPreamble(`#include <stdio.h>
#include <stdlib.h>
void myprint(char* s) {
printf("%s\n", s);
}
`)
f.Func().Id("init").Params().Block(
Id("cs").Op(":=").Qual("C", "CString").Call(Lit("Hello from stdio\n")),
Qual("C", "myprint").Call(Id("cs")),
Qual("C", "free").Call(Qual("unsafe", "Pointer").Parens(Id("cs"))),
)
fmt.Printf("%#v", f)
// Output:
// package a
//
// import "unsafe"
//
// /*
// #include <stdio.h>
// #include <stdlib.h>
//
// void myprint(char* s) {
// printf("%s\n", s);
// }
// */
// import "C"
//
// func init() {
// cs := C.CString("Hello from stdio\n")
// C.myprint(cs)
// C.free(unsafe.Pointer(cs))
// }
Identifiers Keywords Operators Braces Parentheses Control flow Collections Literals Comments Generics Helpers Misc File
File represents a single source file. Package imports are managed automaticaly by File.
NewFile Creates a new file, with the specified package name.
NewFilePath creates a new file while specifying the package path - the package name is inferred from the path.
NewFilePathName creates a new file with the specified package path and name.
f := NewFilePathName("a.b/c", "main")
f.Func().Id("main").Params().Block(
Qual("a.b/c", "Foo").Call(),
)
fmt.Printf("%#v", f)
// Output:
// package main
//
// func main() {
// Foo()
// }
Save renders the file and saves to the filename provided.
Render renders the file to the provided writer.
f := NewFile("a")
f.Func().Id("main").Params().Block()
buf := &bytes.Buffer{}
err := f.Render(buf)
if err != nil {
fmt.Println(err.Error())
} else {
fmt.Println(buf.String())
}
// Output:
// package a
//
// func main() {}
Anon adds an anonymous import.
f := NewFile("c")
f.Anon("a")
f.Func().Id("init").Params().Block()
fmt.Printf("%#v", f)
// Output:
// package c
//
// import _ "a"
//
// func init() {}
ImportName provides the package name for a path. If specified, the alias will be omitted from the import block. This is optional. If not specified, a sensible package name is used based on the path and this is added as an alias in the import block.
f := NewFile("main")
// package a should use name "a"
f.ImportName("github.com/foo/a", "a")
// package b is not used in the code so will not be included
f.ImportName("github.com/foo/b", "b")
f.Func().Id("main").Params().Block(
Qual("github.com/foo/a", "A").Call(),
)
fmt.Printf("%#v", f)
// Output:
// package main
//
// import "github.com/foo/a"
//
// func main() {
// a.A()
// }
ImportNames allows multiple names to be imported as a map. Use the gennames command to automatically generate a go file containing a map of a selection of package names.
ImportAlias provides the alias for a package path that should be used in the import block. A period can be used to force a dot-import.
f := NewFile("main")
// package a should be aliased to "b"
f.ImportAlias("github.com/foo/a", "b")
// package c is not used in the code so will not be included
f.ImportAlias("github.com/foo/c", "c")
f.Func().Id("main").Params().Block(
Qual("github.com/foo/a", "A").Call(),
)
fmt.Printf("%#v", f)
// Output:
// package main
//
// import b "github.com/foo/a"
//
// func main() {
// b.A()
// }
PackageComment adds a comment to the top of the file, above the package keyword.
HeaderComment adds a comment to the top of the file, above any package comments. A blank line is rendered below the header comments, ensuring header comments are not included in the package doc.
CanonicalPath adds a canonical import path annotation to the package clause.
f := NewFile("c")
f.CanonicalPath = "d.e/f"
f.HeaderComment("Code generated by...")
f.PackageComment("Package c implements...")
f.Func().Id("init").Params().Block()
fmt.Printf("%#v", f)
// Output:
// // Code generated by...
//
// // Package c implements...
// package c // import "d.e/f"
//
// func init() {}
CgoPreamble adds a cgo preamble comment that is rendered directly before the "C" pseudo-package import.
If you're worried about generated package aliases conflicting with local variable names, you can set a prefix here. Package foo becomes {prefix}_foo.
f := NewFile("a")
f.PackagePrefix = "pkg"
f.Func().Id("main").Params().Block(
Qual("b.c/d", "E").Call(),
)
fmt.Printf("%#v", f)
// Output:
// package a
//
// import pkg_d "b.c/d"
//
// func main() {
// pkg_d.E()
// }