Call functions with special prefix/suffix

You can't get a function by its name, and that is what you're trying to do. The reason is that if the Go tool can detect that a function is not referred to explicitly (and thus unreachable), it may not even get compiled into the executable binary. For details see Splitting client/server code.

With a function registry

One way to do what you want is to build a "function registry" prior to calling them:

registry := map[string]func(){
    "MyFunc1": MyFunc1,
    "MyFunc2": MyFunc2,
    "MyFunc3": MyFunc3,
}
for k := 1; k <= 3; k++ {
    registry[fmt.Sprintf("MyFunc%d", k)]()
}

Output (try it on the Go Playground):

Hello MyFunc1
Hello MyFunc2
Hello MyFunc3

Manual "routing"

Similar to the registry is inspecting the name and manually routing to the function, for example:

func callByName(name string) {
    switch name {
    case "MyFunc1":
        MyFunc1()
    case "MyFunc2":
        MyFunc2()
    case "MyFunc3":
        MyFunc3()
    default:
        panic("Unknown function name")
    }
}

Using it:

for k := 1; k <= 3; k++ {
    callByName(fmt.Sprintf("MyFunc%d", k))
}

Try this on the Go Playground.

Note: It's up to you if you want to call the function identified by its name in the callByName() helper function, or you may choose to return a function value (of type func()) and have it called in the caller's place.

Transforming functions to methods

Also note that if your functions would actually be methods of some type, you could do it without a registry. Using reflection, you can get a method by name: Value.MethodByName(). You can also get / enumerate all methods without knowing their names using Value.NumMethod() and Value.Method() (also see Type.NumMethod() and Type.Method() if you need the name of the method or its parameter types).

This is how it could be done:

type MyType int

func (m MyType) MyFunc1() {
    fmt.Println("Hello MyFunc1")
}

func (m MyType) MyFunc2() {
    fmt.Println("Hello MyFunc2")
}

func (m MyType) MyFunc3() {
    fmt.Println("Hello MyFunc3")
}

func main() {
    v := reflect.ValueOf(MyType(0))
    for k := 1; k <= 3; k++ {
        v.MethodByName(fmt.Sprintf("MyFunc%d", k)).Call(nil)
    }
}

Output is the same. Try it on the Go Playground.


Another alternative would be to range over an array of your functions

package main

import (
    "fmt"
)

func MyFunc1() {
    fmt.Println("I am Masood")
}

func MyFunc2() {
    fmt.Println("I am a programmer")
}

func MyFunc3() {
    fmt.Println("I want to buy a car")
}


func main() {
   for _, fn := range []func(){MyFunc1, MyFunc2, MyFunc3} {
        fn()
    }
}