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Is there a way to clean up this (IMO) horrific-looking code?

    aJson, err1 := json.Marshal(a)
bJson, err2 := json.Marshal(b)
cJson, err3 := json.Marshal(c)
dJson, err4 := json.Marshal(d)
eJson, err5 := json.Marshal(e)
fJson, err6 := json.Marshal(f)
gJson, err4 := json.Marshal(g)
if err1 != nil {
    return err1
} else if err2 != nil {
    return err2
} else if err3 != nil {
    return err3
} else if err4 != nil {
    return err4
} else if err5 != nil {
    return err5
} else if err5 != nil {
    return err5
} else if err6 != nil {
    return err6

Specifically, I'm talking about the error handling. It would be nice to be able to handle all the errors in one go.

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The title is about error handling, but you seem to be returning them instead of going panic(), is there a reason why? And also for not returning immediatly as soon as 1 Marshall has failed ? –  Ripounet Mar 13 '13 at 23:39
Why would I use panic() rather than returning the errors? From the docs you linked to: "The usual way to report an error to a caller is to return an error as an extra return value. " I feel that this is a "usual" case. It's not an error of such severity that using panic() feels justified. (Please correct me if I'm misunderstanding the use cases for the panic function.) –  Matthew H Mar 13 '13 at 23:54
i know you got upvoted for stating what every gopher will agree with, not using/abusing panic, but the code sample above is just really bad/vague. Marshal everything but only return the first error we see afterwards? But then you clarify "handling all errors in one go", mostly nullifying the code sample. Again it's dependent on what your doing, and panic/recover might be appropriate. Personally, I'd error out immediately on a failed marshal and be more descriptive that cJson failed, attached with the err. But even that depends on the context of where this is being ran. –  dskinner Mar 14 '13 at 14:02
Good points. The code I gave was ambiguous. I would've checked for an error after each marshall — the only thing that stopped me was that I thought it looked neater to group together the marshall calls. IMO, it doesn't really matter that not all of the errors will be returned. The behaviour I was after was "return the first non-nil error." –  Matthew H Mar 14 '13 at 16:50

4 Answers 4

up vote 10 down vote accepted
var err error
f := func(dest *D, src S) bool {
    *dest, err = json.Marshal(src)
    return err == nil
} // EDIT: removed ()

f(&aJson, a) &&
    f(&bJson, b) &&
    f(&cJson, c) &&
    f(&dJson, d) &&
    f(&eJson, e) &&
    f(&fJson, f) &&
    f(&gJson, g)
return err
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edit requires a min of 6 characters so can't touch it, but the () need to be removed when declaring f. –  dskinner Mar 13 '13 at 23:14
@dskinner: Fixed, thanks. –  zzzz Mar 14 '13 at 7:03

Put the result in a slice instead of variables, put the intial values in another slice to iterate and return during the iteration if there's an error.

var result [][]byte
for _, item := range []interface{}{a, b, c, d, e, f, g} {
    res, err := json.Marshal(item)
    if err != nil {
        return err
    result = append(result, res)

You could even reuse an array instead of having two slices.

var values, err = [...]interface{}{a, b, c, d, e, f, g}, error(nil)
for i, item := range values {
    if values[i], err = json.Marshal(item); err != nil {
        return err

Of course, this'll require a type assertion to use the results.

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define a function.

func marshalMany(vals ...interface{}) ([][]byte, error) {
    out := make([][]byte, 0, len(vals))
    for i := range vals {
        b, err := json.Marshal(vals[i])
        if err != nil {
            return nil, err
        out = append(out, b)
    return out, nil

you didn't say anything about how you'd like your error handling to work. Fail one, fail all? First to fail? Collect successes or toss them?

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I believe the other answers here are correct for your specific problem, but more generally, panic can be used to shorten error handling while still being a well-behaving library. (i.e., not panicing across package boundaries.)


func mustMarshal(v interface{}) []byte {
    bs, err := json.Marshal(v)
    if err != nil {
    return bs

func encodeAll() (err error) {
    defer func() {
        if r := recover(); r != nil {
            var ok bool
            if err, ok = r.(error); ok {

    ea := mustMarshal(a)    
    eb := mustMarshal(b)
    ec := mustMarshal(c)

    return nil

This code uses mustMarshal to panic whenever there is a problem marshaling a value. But the encodeAll function will recover from the panic and return it as a normal error value. The client in this case is never exposed to the panic.

But this comes with a warning: using this approach everywhere is not idiomatic. It can also be worse since it doesn't lend itself well to handling each individual error specially, but more or less treating each error the same. But it has its uses when there are tons of errors to handle. As an example, I use this kind of approach in a web application, where a top-level handler can catch different kinds of errors and display them appropriately to the user (or a log file) depending on the kind of error.

It makes for terser code when there is a lot of error handling, but at the loss of idiomatic Go and handling each error specially. Another down-side is that it could prevent something that should panic from actually panicing. (But this can be trivially solved by using your own error type.)

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