func jCharValue(v interface{}) (C.jvalue, error) {
val, ok := intValue(v)
if !ok {
return errJValue, fmt.Errorf("%#v isn't char", v)
}
return C.jCharValue(C.jchar(val)), nil
}
// C callbacks actually start in the 'generifiedX' calls (see the .c files)
// Next, goCallbackNArgs is used to determine the number of variadic paramers to expect (
// java doesn't inform us of this, and we can't force any of the callback parameters.
//
// Finally, goCallback looks up the 'fId' - our internal function reference ID (the X in generified),
// un(re) marshalls all the parameters appropriately, calls our function, and returns
// any underlying value back to generified who will return it to the JVM.
// The initial jbool indicates success, and any failure should check for exceptions.
//
//export goCallback
func goCallback(envp, obj uintptr, fId int, nargs int, argp uintptr) (ok C.jboolean, val interface{}) {
args := C.ArgListPtr(unsafe.Pointer(argp))
env := AllEnvs.Find(envp)
if env == nil {
panic("Got a nil environment")
}
if env.jvm == nil {
panic("Environment pointer has no JVM")
}
var cd callbackDescriptor
var _ok bool
if cd, _ok = env.jvm.registered[fId]; !_ok {
print("Unknown callbackId: \t", fId, "\n")
return
}
// TODO: pack argp somehow...
if nargs != len(cd.Signature.Params) {
panic("callback/signature length mismatch")
}
inCall := []reflect.Value{reflect.ValueOf(env), reflect.ValueOf(newObject(C.jobject(unsafe.Pointer(obj))))}
var err error
for i := 0; i < nargs; i++ {
switch cd.Signature.Params[i].Kind() {
case types.BoolKind:
inCall = append(inCall, reflect.ValueOf(bool(0 != C.valBool(C.getArg(args, C.int(i))))))
case types.LongKind:
inCall = append(inCall, reflect.ValueOf(int64(C.valLong(C.getArg(args, C.int(i))))))
case types.IntKind:
inCall = append(inCall, reflect.ValueOf(int(C.valInt(C.getArg(args, C.int(i))))))
case types.ShortKind:
inCall = append(inCall, reflect.ValueOf(int16(C.valShort(C.getArg(args, C.int(i))))))
case types.FloatKind:
inCall = append(inCall, reflect.ValueOf(float32(C.valFloat(C.getArg(args, C.int(i))))))
case types.DoubleKind:
inCall = append(inCall, reflect.ValueOf(float64(C.valDouble(C.getArg(args, C.int(i))))))
case types.ClassKind:
inCall = append(inCall, reflect.ValueOf(newObject(C.valObject(C.getArg(args, C.int(i))))))
default:
err = errors.New("Couldn't reflect kind " + cd.Signature.Params[i].Kind().TypeString())
}
if err != nil {
break
}
}
if err != nil {
return
}
outCall := reflect.ValueOf(cd.F).Call(inCall)
switch cd.Signature.Return.Kind() {
case types.VoidKind:
return 1, nil
}
switch cd.Signature.Return.Kind() {
case types.BoolKind:
if outCall[0].Interface().(bool) {
return 1, C.jboolean(C.JNI_TRUE)
} else {
return 1, C.jboolean(C.JNI_FALSE)
}
case types.ByteKind:
return 1, C.jbyte(outCall[0].Interface().(byte))
case types.CharKind:
return 1, C.jchar(outCall[0].Interface().(int))
case types.IntKind:
return 1, C.jint(outCall[0].Interface().(int))
case types.ShortKind:
return 1, C.jshort(outCall[0].Interface().(int16))
case types.LongKind:
return 1, C.jint(outCall[0].Interface().(int64))
case types.FloatKind:
return 1, C.jfloat(outCall[0].Interface().(float32))
case types.DoubleKind:
return 1, C.jdouble(outCall[0].Interface().(float64))
case types.ClassKind:
klass := cd.Signature.Return.(types.Class).Klass
if klass.Cmp(types.JavaLangString) == 0 {
var obj *Object
str := outCall[0].Interface().(string)
obj, err = env.NewStringObject(str)
if err == nil {
return 1, C.jstring(obj.object)
} // else, exception occurred
// not needed as callbacks will reap their own refs.
// env.DeleteLocalRef(obj)
print("String Error\t", err.Error())
return 0, nil
}
return 1, C.jobject(outCall[0].Interface().(*Object).object)
default:
panic("array return type not yet supported")
}
panic("not reached")
}