Go 前端速查表

Getting started

Hello world

hello.go

package main

import "fmt"

func main() {
  message := greetMe("world")
  fmt.Println(message)
}

func greetMe(name string) (string) {
  return "Hello, " + name + "!"
}

$ go build

Or try it out in the Go repl, or A Tour of Go.

Variables

Variable declaration

var msg string
msg = "Hello"

Shortcut of above (Infers type)

msg := "Hello"

Constants

const Phi = 1.618

Constants can be character, string, boolean, or numeric values.

See: Constants

Basic types

Strings

str := "Hello"

str := `Multiline
string`

Strings are of type string.

Numbers

Typical types

num := 3          // int
num := 3.         // float64
num := 3 + 4i     // complex128
num := byte('a')  // byte (alias for uint8)

Other types

var u uint = 7        // uint (unsigned)
var p float32 = 22.7  // 32-bit float

Arrays

// var numbers [5]int
numbers := [...]int{0, 0, 0, 0, 0}

Arrays have a fixed size.

Slices

slice := []int{2, 3, 4}

slice := []byte("Hello")

Slices have a dynamic size, unlike arrays.

Pointers

func main () {
  b := *getPointer()
  fmt.Println("Value is", b)
}

func getPointer () (myPointer *int) {
  a := 234
  return &a
}

Pointers point to a memory location of a variable. Go is fully garbage-collected.

See: Pointers

Type conversions

i := 2
f := float64(i)
u := uint(i)

See: Type conversions

Flow control

Conditional

if day == "sunday" || day == "saturday" {
  rest()
} else if day == "monday" && isTired() {
  groan()
} else {
  work()
}

See: If

Statements in if

if _, err := getResult(); err != nil {
  fmt.Println("Uh oh")
}

A condition in an if statement can be preceeded with a statement before a ;.

See: If with a short statement

Switch

switch day {
  case "sunday":
    // cases don't "fall through" by default!
    fallthrough

  case "saturday":
    rest()

  default:
    work()
}

See: Switch

Functions

Lambdas

myfunc := func() bool {
  return x > 10000
}

Functions are first class objects.

Multiple return types

a, b := getMessage()

func getMessage() (a string, b string) {
  return "Hello", "World"
}

Named return values

func split(sum int) (x, y int) {
  x := sum * 4 / 9
  y := sum - x
  return
}

By defining the return value names in the signature, a return (no args) will return variables with those names.

See: Named return values

Packages

Importing

import "fmt"
import "math/rand"

import (
  "fmt"        // gives fmt.Println
  "math/rand"  // gives rand.Intn
)

Both are the same.

See: Importing

Aliases

import r "math/rand"

r.Intn()

Exporting names

func Hello () {
  ···
}

Exported names begin with capital letters.

See: Exported names

Packages

package hello

Every package file has to start with package.

Concurrency

Goroutines

func main() {
  // A "channel"
  ch := make(chan string)

  // Start concurrent routines
  go push("Moe", ch)
  go push("Larry", ch)
  go push("Curly", ch)

  // Read 3 results
  // (Since our goroutines are concurrent,
  // the order isn't guaranteed!)
  fmt.Println(<-ch, <-ch, <-ch)
}

func push(name string, ch chan string) {
  msg := "Hey, " + name
  ch <- msg
}

Channels are concurrency-safe communication objects, used in goroutines.

See: Goroutines, Channels

Buffered channels

ch := make(chan int, 2)
ch <- 1
ch <- 2
ch <- 3
// fatal error:
// all goroutines are asleep - deadlock!

Buffered channels limit the amount of messages it can keep.

See: Buffered channels

Closing channels

Closes a channel

ch <- 1
ch <- 2
ch <- 3
close(ch)

Iterates across a channel until its closed

for i := range ch {
  ···
}

Closed if ok == false

v, ok := <- ch

See: Range and close

Error control

Defer

func main() {
  defer fmt.Println("Done")
  fmt.Println("Working...")
}

Defers running a function until the surrounding function returns. The arguments are evaluated immediately, but the function call is not ran until later.

See: Defer, panic and recover

Deferring functions

func main() {
  defer func() {
    fmt.Println("Done")
  }()
  fmt.Println("Working...")
}

Lambdas are better suited for defer blocks.

Structs

Defining

type Vertex struct {
  X int
  Y int
}

func main() {
  v := Vertex{1, 2}
  v.X = 4
  fmt.Println(v.X, v.Y)
}

See: Structs

Literals

v := Vertex{X: 1, Y: 2}

// Field names can be omitted
v := Vertex{1, 2}

// Y is implicit
v := Vertex{X: 1}

You can also put field names.

Pointers to structs

v := &Vertex{1, 2}
v.X = 2

Doing v.X is the same as doing (*v).X, when v is a pointer.

Methods

Receivers

type Vertex struct {
  X, Y float64
}

func (v Vertex) Abs() float64 {
  return math.Sqrt(v.X * v.X + v.Y * v.Y)
}

v: = Vertex{1, 2}
v.Abs()

There are no classes, but you can define functions with receivers.

See: Methods

Mutation

func (v *Vertex) Scale(f float64) {
  v.X = v.X * f
  v.y = v.Y * f
}

v := Vertex{6, 12}
v.Scale(0.5)
// `v` is updated

By defining your receiver as a pointer (*Vertex), you can do mutations.

See: Pointer receivers

References

• A tour of Go (tour.golang.org)
• Golang wiki (github.com)