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ErrorValueFAQ
The Go 2 error values proposal adds functionality to the errors
and fmt
packages of the standard library for Go 1.13. There is also a compatibility package, golang.org/x/xerrors
, for earlier Go versions.
We suggest using the xerrors
package for backwards compatibility. When you no longer wish to support Go versions before 1.13, use the corresponding standard library functions. This FAQ uses the errors
and fmt
packages from Go 1.13.
You need to be prepared that errors you get may be wrapped.
-
If you currently compare errors using
==
, useerrors.Is
instead. Example:if err == io.ErrUnexpectedEOF
becomes
if errors.Is(err, io.ErrUnexpectedEOF)
- Checks of the form
if err != nil
need not be changed. - Comparisons to
io.EOF
need not be changed, becauseio.EOF
should never be wrapped.
- Checks of the form
-
If you check for an error type using a type assertion or type switch, use
errors.As
instead. Example:if e, ok := err.(*os.PathError); ok
becomes
var e *os.PathError if errors.As(err, &e)
- Also use this pattern to check whether an error implements an interface. (This is one of those rare cases when a pointer to an interface is appropriate.)
- Rewrite a type switch as a sequence of if-elses.
I am already using fmt.Errorf
with %v
or %s
to provide context for an error. When should I switch to %w
?
It's common to see code like
if err := frob(thing); err != nil {
return fmt.Errorf("while frobbing: %v", err)
}
With the new error features, that code continues to work exactly as before, constructing a string that includes the text of err
. Changing from %v
to %w
doesn't change that string, but it does wrap err
, allowing the caller to access it using errors.Unwrap
, errors.Is
or errors.As
.
So use %w
if you want to expose the underlying error to your callers. Keep in mind that doing so may be exposing implementation detail that can constrain the evolution of your code. Callers can depend on the type and value of the error you're wrapping, so changing that error can now break them. For example, if the AccessDatabase
function of your package pkg
uses Go's database/sql
package, then it may encounter a sql.ErrTxDone
error. If you return that error with fmt.Errorf("accessing DB: %v", err)
then callers won't see that sql.ErrTxtDone
is part of the error you return. But if you instead return fmt.Errorf("accessing DB: %w", err)
, then a caller could reasonably write
err := pkg.AccessDatabase(...)
if errors.Is(err, sql.ErrTxDone) ...
At that point, you must always return sql.ErrTxDone
if you don't want to break your clients, even if you switch to a different database package.
Say your code now looks like
return err
and you decide that you want to add more information to err
before you return it. If you write
return fmt.Errorf("more info: %v", err)
then you might break your clients, because the identity of err
is lost; only its message remains.
You could instead wrap the error by using %w
, writing
return fmt.Errorf("more info: %w", err)
This will still break clients who use ==
or type assertion to test errors. But as we discussed in the first question of this FAQ, consumers of errors should migrate to the errors.Is
and errors.As
functions. If you can be sure that your clients have done so, then it is not a breaking change to switch from
return err
to
return fmt.Errorf("more info: %w", err)
Since you have no clients, you aren't constrained by backwards compatibility. But you still need to balance two opposing considerations:
- Giving client code access to underlying errors can help it make decisions, which can lead to better software.
- Every error you expose becomes part of your API: your clients may come to rely on it, so you can't change it.
For each error you return, you have to weigh the choice between helping your clients and locking yourself in. Of course, this choice is not unique to errors; as a package author, you make many decisions about whether a feature of your code is important for clients to know or an implementation detail.
With errors, though, there is an intermediate choice: you can expose error details to people reading your code's error messages without exposing the errors themselves to client code. One way to do that is to put the details in a string using fmt.Errorf
with %s
or %v
. Another is to write a custom error type, add the details to the string returned by its Error
method, and avoid defining an Unwrap
method.
I maintain a package that exports an error-checking predicate function. How should I adapt to the new features?
Your package has a function or method IsX(error) bool
that reports whether an error has some property. Your situation is like that of the standard os
package, which has several such functions. We recommend the approach we took there. The os
package has several predicates, but we treated them all the same. For concreteness, we'll look at os.IsExist
.
A natural thought would be to modify the predicate to unwrap the error it is passed, checking the property for each error in the chain of wrapped errors. We decided not to do this. A change in the behavior of os.IsExist
for Go 1.13 would make it incompatible with earlier Go versions. You should likewise consider that a change to your IsX
could break your users.
Instead, we made errors.Is(err, os.ErrExist)
behave like os.IsExist
, except that Is
unwraps. (We did this by having some internal error types implement an Is
method, as described in the documentation for errors.Is
.) Using errors.Is
will always work correctly, because it only will exist in Go versions 1.13 and higher. For older version of Go, you should recursively unwrap the error yourself, calling os.IsExist
on each underlying error.
This technique only works if you have control of the errors being wrapped, so you can add Is
methods to them.
So in that case, we recommend:
- Don't change your
IsX(error) bool
function. - If you don't already have one, add a global variable whose type implements
error
that represents the condition that your function tests:var ErrX = errors.New("has property X")
- Add an
Is
method to the types for whichIsX
returns true. TheIs
method should return true if its argument equalsErrX
.
If you don't have control of all the errors that can have property X, you'll instead need to add another function that tests for property X while unwrapping. Or you could leave things as they are, and explain to your users (preferably in the documentation for IsX
) that IsX
does not unwrap, and they must do so themselves. Either way, the unwrapping loop is simple:
for e := err; e != nil; e = errors.Unwrap(e) {
if IsX(e) {
return true
}
}
return false
I have a type that implements error
and holds a nested error. How should I adapt it to the new features?
If your type already exposes the error, write an Unwrap
method.
For example, perhaps your type looks like
type MyError struct {
Err error
// other fields
}
func (e *MyError) Error() string { return ... }
Then you should add
func (e *MyError) Unwrap() error { return e.Err }
Your type will then work correctly with the Is
and As
functions of errors
and xerrors
.
We've done that for os.PathError
and other, similar types in the standard library.
It's clear that writing an Unwrap
method is the right choice if the nested error is exported, or otherwise visible to code outside your package, such as via a method like Unwrap
. But if the nested error is not exposed to outside code, you probably should keep it that way. Making the error visible by returning it from Unwrap
will enable your clients to depend on the type of the nested error, which can expose implementation details and constrain the evolution of your package. See the discussion of %w
above for more.