public string JointValueDebug(bool isNormalised, Joint joint)
{
if (isNormalised)
{
return("BODY:: " +
Index +
" | TRACKING ID:: " +
BodyClass.TrackingId +
" | JOINT TYPE:: " +
joint.JointType +
" | JOINT POSITION:: " +
NormaliseBodyCoords.Normalise(GetAllJointPositions(), (int)joint.JointType));
}
else
{
return("BODY:: " +
Index +
" | TRACKING ID:: " +
BodyClass.TrackingId +
" | JOINT TYPE:: " +
joint.JointType +
" | JOINT POSITION:: " +
GetJointPosition(joint.JointType));
}
}
private bool System2(List <Vector3> liveInput, IEnumerable <Vector3> target)
{
var i = 0;
liveInput = NormaliseBodyCoords.Normalise(liveInput);
foreach (var joint in target)
{
// compare x
// compare y
// continues going through the list of bones till one is off
//once it goes through the whole list then it its true
// or else it returns false
if (!CheckIfVectorIsApproxEqual(liveInput[i], joint))
{
Debug.Log(false);
return(false);
}
i++;
}
Debug.Log(true);
return(true);
}
private void System3(List <Vector3> liveInput, IEnumerable <Vector3> bodyTarget)
{
/*
* Compares each joint within the live input to the corresponding joint within the target body
* and checks how far close the 2 directions are to each other
*/
var i = 0;
liveInput = NormaliseBodyCoords.Normalise(liveInput);
foreach (var joint in bodyTarget)
{
var dirDif = CompareVectorDir(liveInput[i], joint);
if (dirDif < DirCompareTolerance)
{
Debug.Log(" joint " + (JointType)i + " is off by a direction product of: " + (DirCompareTolerance - dirDif));
}
i++;
}
}
private Characters?System4(List <Vector3> liveInput, IList <List <Vector3> > targets)
{
/* take in an input of a list of Vector3 lists called A and a single vector3 list called B
* compare each value in B to every value in each list of A
* by Using the System2 function to say whether the joints are close or not
*
* if it is a match return
*/
liveInput = NormaliseBodyCoords.Normalise(liveInput);
foreach (var targetBody in targets)
{
// ReSharper disable once PossibleMultipleEnumeration
if (System2(targetBody, liveInput))
{
return((Characters)targets.IndexOf(targetBody));
}
}
return(null);
}
public void GetAndSaveValues()
{
var normalizedPositions = new List <Vector3>();
var positions = new List <string>();
var debug = new List <string>();
if (BodyWrappers == null)
{
return;
}
foreach (var body in BodyWrappers)
{
normalizedPositions.Clear();
positions.Clear();
debug.Clear();
foreach (var joint in body.BodyClass.Joints)
{
normalizedPositions = NormaliseBodyCoords.Normalise(body.GetAllJointPositions());
positions.Add(body.GetJointPosition(joint.Key).ToString());
// checks between normalised values or normal values.
debug.Add(normDebug
? body.JointValueDebug(true, joint.Value)
: body.JointValueDebug(false, joint.Value)
);
}
switch (typeToPrint)
{
case TypeToPrint.FullDebug:
{
Print(TypeToPrint.FullDebug, debug);
//var readText = File.ReadAllText(dataFile.path + dataFile.debugFileName);
//Debug.Log(readText);
break;
}
case TypeToPrint.Vectors:
{
Print(TypeToPrint.Vectors, positions);
//var readText = File.ReadAllText(dataFile.path + dataFile.vectorFileName);
//Debug.Log(readText);
break;
}
case TypeToPrint.VectorsNormalised:
{
Print(TypeToPrint.VectorsNormalised, normalizedPositions);
//var readText = File.ReadAllText(dataFile.path + dataFile.normVecFileName);
//Debug.Log(readText);
break;
}
case TypeToPrint.All:
{
Print(TypeToPrint.VectorsNormalised, normalizedPositions);
Print(TypeToPrint.Vectors, positions);
Print(TypeToPrint.FullDebug, debug);
break;
}
case TypeToPrint.NewCharacter:
Print(TypeToPrint.NewCharacter, normalizedPositions);
break;
default:
{
Debug.LogError("NO PRINT TYPE SET");
break;
}
}
}
}