I needed to get this working as well. It makes sense why GSON does it this way when de-serializing from a JSON string to a Map, since a Double is the largest container for a number.
In my case it is very inconvenient if the types change so I implemented what could be considered a hack, but it works so here it is.
The starting point is a function to take the JSON string and guess if it is a List, Map or a plain String
public static Object parseJson(String json) {
if (json == null || json.isBlank()) {
return null;
}
var input = json.trim();
if (input.startsWith("[")) {
var list = GSON.fromJson(input, List.class);
for (Object o : list) {
if (o instanceof Map) {
visit((Map)o);
}
}
return list;
} else if (input.startsWith("{")) {
var map = GSON.fromJson(input, Map.class);
visit(map);
return map;
} else {
return GSON.fromJson(input, String.class);
}
}
I then implemented a visitor pattern (I used Java 11 in this case). It is a recursive function that visits every property in the map and if the property is Iterable or another Map it will visit those properties as well.
public static void visit(Map<String, Object> map) {
for (var entry : map.entrySet()) {
var value = entry.getValue();
if (value == null) {
continue;
}
if (value instanceof Map) {
visit((Map<String, Object>)value);
}
if (value instanceof Iterable) {
var it = (Iterable)value;
visit(it, o -> {
if (o instanceof Map) {
visit((Map<String, Object>)o);
}
});
}
if (value instanceof Double) {
var d = (Double) value;
var bigDecimal = new BigDecimal(d);
long longValue = bigDecimal.longValue();
var integerPart = String.valueOf(longValue);
var decimalPart = String.valueOf(bigDecimal.subtract(
new BigDecimal(longValue)));
if (decimalPart.matches("^0+$")) {
if (longValue > Integer.MAX_VALUE || longValue < Integer.MIN_VALUE) {
entry.setValue(d.longValue());
} else {
entry.setValue(d.intValue());
}
}
}
}
}
public static void visit(Iterable it, Consumer consumer) {
it.forEach(o -> {
if (o instanceof Iterable) {
visit((Iterable) o, consumer);
} else {
consumer.accept(o);
}
});
}
Each time a Double type is encountered, it tries to determine if it has a decimal point. If it has one it remains a double. Otherwise it checks if the integer part should be a Long or Integer type by comparing Integer.MAX_VALUE and Integer.MIN_VALUE respectively.
If a type change was detected, then the map entry value is replaced with the new primitive type.