I'm new to golang generics and have the following setup.

  1. I've gathered loads of different kinds of reports.
  2. Each report has enclosing fields
  3. So I wrapped it in a ReportContainerImpl

I've used a type argument of [T Reportable] where the Reportable is defined as follows

type Reportable interface {
    ExportDataPointReport | ImportDataPointReport | MissingDataPointReport | SensorThresoldReport

Each of the type in the type constraint is structs that is to be embedded in the container.

type ReportContainerImpl[T Reportable] struct {
    LocationID string `json:"lid"`
    Provider string `json:"pn"`
    ReportType ReportType `json:"m"`
    Body T `json:"body"`

I use a discriminator ReportType to determine the concrete type when Unmarshal.

type ReportType string

const (
    ReportTypeExportDataPointReport ReportType = "ExportDataPointReport"
    ReportTypeImportDataPointReport ReportType = "ImportDataPointReport"
    ReportTypeMissingDataPointReport ReportType = "MissingDataPointReport"
    ReportTypeSensorThresoldReport ReportType = "SensorThresoldReport"

Since go does not support type assertion for struct (only interfaces) it is not possible to cast the type when Unmarshal. Also go does not support pointer to the "raw" generic type. Hence, I've created a interface that the ReportContainerImpl implements.

type ReportContainer interface {
    GetLocationID() string
    GetProvider() string
    GetReportType() ReportType
    GetBody() interface{}

The problem I then get is that I cannot do type constrains on the return type in any form or shape and am back at "freetext semantics" on the GetBody() function to allow for type assertion when Unmarshal is done.

    container, err := UnmarshalReportContainer(data)

    if rep, ok := container.GetBody().(ExportDataPointReport); ok {
      // Use the ReportContainerImpl[ExportDataPointReport] here...

Maybe I'm getting this wrong? - but however I do this, I always end up with somewhere needs a interface{} or to know the exact type before Unmarshal

  • Do you have a better suggestion how to solve this in a type (safer) way?

Cheers, Mario :)

For completeness I add the UnmarshalReportContainer here

func UnmarshalReportContainer(data []byte) (ReportContainer, error) {

    type Temp struct {
        LocationID string `json:"lid"`
        Provider string `json:"pn"`
        ReportType ReportType `json:"m"`
        Body *json.RawMessage `json:"body"`

    var temp Temp
    err := json.Unmarshal(data, &temp)
    if err != nil {
        return nil, err

    switch temp.ReportType {
    case ReportTypeExportDataPointReport:
        var report ExportDataPointReport
        err := json.Unmarshal(*temp.Body, &report)
        return &ReportContainerImpl[ExportDataPointReport]{
            LocationID: temp.LocationID,
            Provider:   temp.Provider,
            ReportType: temp.ReportType,
            Body:       report,
        }, err

      // ...
  • 2
    This looks like a mis-application of generics. Generics do not replace the use of interfaces: When To Use Generics may have some useful guidance.
    – JimB
    Apr 21, 2022 at 13:16

1 Answer 1


but however I do this, I always end up with somewhere needs a interface{} or to know the exact type before Unmarshal


The concrete types needed to instantiate some generic type or function like ReportContainerImpl or UnmarshalReportContainer must be known at compile time, when you write the code. JSON unmarshalling instead occurs at run-time, when you have the byte slice populated with the actual data.

To unmarshal dynamic JSON based on some discriminatory value, you still need a switch.

Do you have a better suggestion how to solve this in a type (safer) way?

Just forgo parametric polymorphism. It's not a good fit here. Keep the code you have now with json.RawMessage, unmarshal the dynamic data conditionally in the switch and return the concrete structs that implement ReportContainer interface.

As a general solution — if, and only if, you can overcome this chicken-and-egg problem and make type parameters known at compile time, you can write a minimal generic unmarshal function like this:

func unmarshalAny[T any](bytes []byte) (*T, error) {
    out := new(T)
    if err := json.Unmarshal(bytes, out); err != nil {
        return nil, err
    return out, nil

This is only meant to illustrate the principle. Note that json.Unmarshal already accepts any type, so if your generic function actually does nothing except new(T) and return, like in my example, it is no different than "inlining" the entire thing as if unmarshalAny didn't exist.

v, err := unmarshalAny[SomeType](src)

functionally equivalent as

out := &SomeType{}
err := json.Unmarshal(bytes, out)

If you plan to put more logic in unmarshalAny, its usage may be warranted. Your mileage may vary; in general, don't use type parameters when it's not actually necessary.

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