writeValue method

@override void writeValue(WriteBuffer buffer, Object? value)

Writes value to buffer by first writing a type discriminator byte, then the value itself.

This method may be called recursively to serialize container values.

Type discriminators 0 through 127 inclusive are reserved for use by the base class, as follows:

• null = 0
• true = 1
• false = 2
• 32 bit integer = 3
• 64 bit integer = 4
• larger integers = 5 (see below)
• 64 bit floating-point number = 6
• String = 7
• Uint8List = 8
• Int32List = 9
• Int64List = 10
• Float64List = 11
• List = 12
• Map = 13
• Float32List = 14
• Reserved for future expansion: 15..127

The codec can be extended by overriding this method, calling super for values that the extension does not handle. Type discriminators used by extensions must be greater than or equal to 128 in order to avoid clashes with any later extensions to the base class.

The "larger integers" type, 5, is never used by writeValue. A subclass could represent big integers from another package using that type. The format is first the type byte (0x05), then the actual number as an ASCII string giving the hexadecimal representation of the integer, with the string's length as encoded by writeSize followed by the string bytes. On Android, that would get converted to a java.math.BigInteger object. On iOS, the string representation is returned.

Implementation

@override
void writeValue(WriteBuffer buffer, Object? value) {
  if (value is int) {
    buffer.putUint8(4);
    buffer.putInt64(value);
  } else if (value is _ViewportTransitionType) {
    buffer.putUint8(129);
    writeValue(buffer, value.index);
  } else if (value is _FollowPuckViewportStateBearing) {
    buffer.putUint8(130);
    writeValue(buffer, value.index);
  } else if (value is _ViewportStateType) {
    buffer.putUint8(131);
    writeValue(buffer, value.index);
  } else if (value is MbxEdgeInsets) {
    buffer.putUint8(132);
    writeValue(buffer, value.encode());
  } else if (value is ScreenCoordinate) {
    buffer.putUint8(133);
    writeValue(buffer, value.encode());
  } else if (value is CameraOptions) {
    buffer.putUint8(134);
    writeValue(buffer, value.encode());
  } else if (value is Point) {
    buffer.putUint8(135);
    writeValue(buffer, value.encode());
  } else if (value is _DefaultViewportTransitionOptions) {
    buffer.putUint8(136);
    writeValue(buffer, value.encode());
  } else if (value is _FlyViewportTransitionOptions) {
    buffer.putUint8(137);
    writeValue(buffer, value.encode());
  } else if (value is _EasingViewportTransitionOptions) {
    buffer.putUint8(138);
    writeValue(buffer, value.encode());
  } else if (value is _ViewportTransitionStorage) {
    buffer.putUint8(139);
    writeValue(buffer, value.encode());
  } else if (value is _OverviewViewportStateOptions) {
    buffer.putUint8(140);
    writeValue(buffer, value.encode());
  } else if (value is _FollowPuckViewportStateOptions) {
    buffer.putUint8(141);
    writeValue(buffer, value.encode());
  } else if (value is _ViewportStateStorage) {
    buffer.putUint8(142);
    writeValue(buffer, value.encode());
  } else {
    super.writeValue(buffer, value);
  }
}