Just started using Golang. I think that it is idiomatic to declare an error variable and use it in your error structure to determine what went wrong, as is done in strconv.go. There, ErrRange and ErrSyntax is declared, and when appropriate, references to those are stored in NumError structs when they return. I think that the reason is because then the address of the reference to the error stored in NumError can be compared with the ErrRange and ErrSyntax variables to determine which type of error was returned.

Are there "standard" such declared error types? In Java, for example, you have things like java.lang.IllegalArgumentException. Is there, for instance, ErrArgument or ErrUnsupportedOperation that I can use in my own code instead of creating new error variables that mean the same thing every time?


No, there aren't. Just provide intelligible errors instead of generic ones. What information does a IllegalArgument transport? Not much, not enough.

  • Usually, even when I'm writing Python which has Java-like exception categories, my intent is to handle either a specific error I know I want a special path for (like a network error calling some outside API, say), or to catch anything at all (and, e.g., log and abort). So potentially-special-snowflake error values mostly work. The os package does provide functions that categorize its own errors (e.g., os.IsPermission(err error) bool), but that's sort of a different thing. – twotwotwo May 11 '15 at 22:23

There are a few common idiomatic ways for a package author to make error returns.

  1. Fixed error variables, usually named Err…

    var (
            ErrSomethingBad = errors.New("some string")
            ErrKindFoo      = errors.New("foo happened")
  2. Error types, usually named …Error

    type SomeError struct {
         // extra information, whatever might be useful to callers
         // (or for making a nice message in `Error()`)
         ExtraInfo int
    type OtherError string
    func (e SomeError) Error() string { /* … */ }
    func (e OtherError) Error() string {
            return fmt.Sprintf("failure doing something with %q", string(e))

    With Go 1.13 and later you may also want to implement a Unwrap() error method for use with errors.Unwrap.

  3. Ad hoc errors.New values as needed.

    func SomepackageFunction() error {
            return errors.New("not implemented")
  4. Using errors defined in the standard packages. Usually limited to a small set such as io.EOF; in most cases it's better to create your own via method 1 above.

    func SomeFunc() error {
            return io.EOF

    Note that sometimes when implementing an interface (such as a Read method to become an io.Reader) it is best to use matching errors (or "required" by the specification of the interface).

  5. Making an interface such as net.Error:

    type Error interface {
        Timeout() bool   // Is the error a timeout?
        Temporary() bool // Is the error temporary?
  6. With Go 1.13 or later, returning an existing error with simple context (for more complicated context, use a custom error type with an Unwrap() method):

    func SomepackageFunction() error {
        err := somethingThatCanFail()
        if err != nil {
                return fmt.Errorf("some context: %w", err)

    Note the new (to Go 1.13) formatting verb %w, it wraps the provided error so that callers can get at it with errors.Unwrap or error.Is.

Often you'll use a mix of all these ways.

The first, second, and fifth are preferred if you think any user of your package will ever want to test for specific errors. They allow things like:

err := somepkg.Function()
if err == somepkg.ErrSomethingBad {
        // …
// or for an error type, something like:
if e, ok := err.(somepkg.SomeError); ok && e.ExtraInfo > 42 {
        // use the fields/methods of `e` if needed

For Go 1.13 or later, the above can instead be written as:

err := somepkg.Function()
if errors.Is(err, somepkg.ErrSomethingBad) {
        // …
// or for an error type, something like:
var someErr somepkg.SomeError
if errors.As(err, &someErr) && someErr.ExtraInfo > 42 {
        // use the fields/methods of `someErr` if needed

the difference is that errors will be unwrapped as needed.

The fifth way (which is just an extension of the second) allows checking the error for behaviour/type like so (or using Go 1.13's errors.As):

if e, ok := err.(net.Error); ok && e.Timeout() {
        // it's a timeout, sleep and retry

The problem with the third way is it leaves no sane way for a user of the package to test for it. (Testing the contents of the string returned by err.Error() isn't a great idea). However, it's fine for the errors that you don't ever expect anyone to want to test for.

Further reading:


As you have seen, there are specific errors that specific packages use. For example, in the database/sql package, they define:

var ErrNoRows = errors.New("sql: no rows in result set")

So if you do QueryRow (which defers the error until Scan), and then Scan, you can do

if  err := row.Scan(&data); err != nil && err != sql.ErrNoRows {
    //something actually went wrong
} else if err != nil {
    //no results
} else {
    //we found it

os/exec has var ErrNotFound = errors.New("executable file not found in $PATH")

encoding/json has a type UnmarshalTypeError which is just a type that implements the error interface.

So no, while there is no "set of standard errors", you can (and most likely should) have specific error variables that you reuse.

You could have your own errorMsgs package that you use, where you can reuse common errors:

err := doSomething(); if err != nil {
    switch err {
        case errorMsgs.IllegalArgument:
           //do something
        case errorMsgs.CouldNotConnect:
           //do something else

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