Odometry.parse constructor
Odometry.parse(
- ByteData data_
Implementation
factory Odometry.parse(ByteData data_) {
if (data_.lengthInBytes < Odometry.mavlinkEncodedLength) {
var len = Odometry.mavlinkEncodedLength - data_.lengthInBytes;
var d = data_.buffer.asUint8List() + List<int>.filled(len, 0);
data_ = Uint8List.fromList(d).buffer.asByteData();
}
var timeUsec = data_.getUint64(0, Endian.little);
var x = data_.getFloat32(8, Endian.little);
var y = data_.getFloat32(12, Endian.little);
var z = data_.getFloat32(16, Endian.little);
var q = MavlinkMessage.asFloat32List(data_, 20, 4);
var vx = data_.getFloat32(36, Endian.little);
var vy = data_.getFloat32(40, Endian.little);
var vz = data_.getFloat32(44, Endian.little);
var rollspeed = data_.getFloat32(48, Endian.little);
var pitchspeed = data_.getFloat32(52, Endian.little);
var yawspeed = data_.getFloat32(56, Endian.little);
var poseCovariance = MavlinkMessage.asFloat32List(data_, 60, 21);
var velocityCovariance = MavlinkMessage.asFloat32List(data_, 144, 21);
var frameId = data_.getUint8(228);
var childFrameId = data_.getUint8(229);
var resetCounter = data_.getUint8(230);
var estimatorType = data_.getUint8(231);
var quality = data_.getInt8(232);
return Odometry(
timeUsec: timeUsec,
x: x,
y: y,
z: z,
q: q,
vx: vx,
vy: vy,
vz: vz,
rollspeed: rollspeed,
pitchspeed: pitchspeed,
yawspeed: yawspeed,
poseCovariance: poseCovariance,
velocityCovariance: velocityCovariance,
frameId: frameId,
childFrameId: childFrameId,
resetCounter: resetCounter,
estimatorType: estimatorType,
quality: quality);
}