protected virtual void ProcessChildNode(NodeRecord parentNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
//this is where you process a child node
var childNode = GenerateChildNodeRecord(parentNode, connectionEdge);
NodeRecord childOpen = Open.SearchInOpen(childNode);
NodeRecord childClose = Closed.SearchInClosed(childNode);
if (childOpen == null && childClose == null)
{
Open.AddToOpen(childNode);
if (this.MaxOpenNodes < Open.CountOpen())
{
this.MaxOpenNodes = Open.CountOpen();
}
// childOpen.status = NodeStatus.Open;
}
else if (childOpen != null && childOpen.fValue > childNode.fValue)
{
Open.Replace(childOpen, childNode);
}
else if (childClose != null && childClose.fValue > childNode.fValue)
{
Closed.RemoveFromClosed(childClose);
Open.AddToOpen(childNode);
//childOpen.status = NodeStatus.Open;
}
}
public void Initialize(List <IInfluenceUnit> units)
{
this.Open.Initialize();
this.Closed.Initialize();
this.Units = units;
foreach (var unit in units)
{
//I need to do this because in Recast NavMesh graph, the edges of polygons are considered to be nodes and not the connections.
//Theoretically the Quantize method should then return the appropriate edge, but instead it returns a polygon
//Therefore, we need to create one explicit connection between the polygon and each edge of the corresponding polygon for the search algorithm to work
((NavMeshPoly)unit.Location).AddConnectedPoly(unit.Location.Position);
var locationRecord = new LocationRecord
{
Influence = unit.DirectInfluence,
StrongestInfluenceUnit = unit,
Location = unit.Location
};
Open.AddToOpen(locationRecord);
}
this.InProgress = true;
}
protected void ProcessChildNode(NodeRecord parent, NavigationGraphEdge connectionEdge, int connectionIndex)
{
//TODO: Implement this method that processes a child node. Then you can use it in the Search method above.
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
//Distribute initial colors throughout startNode children:
int startIndex = parent.StartNodeOutConnectionIndex;
if (startIndex == -1)
{
startIndex = connectionIndex;
}
float g = parent.gValue + (childNode.LocalPosition - parent.node.LocalPosition).magnitude;
NodeRecord nodeInOpen = Open.SearchInOpen(childNodeRecord);
NodeRecord nodeInClosed = Closed.SearchInClosed(childNodeRecord);
if (nodeInOpen == null && nodeInClosed == null)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.fValue = g;
childNodeRecord.StartNodeOutConnectionIndex = startIndex;
Open.AddToOpen(childNodeRecord);
}
else if (nodeInOpen != null && nodeInOpen.gValue > g)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.fValue = g;
childNodeRecord.StartNodeOutConnectionIndex = startIndex;
Open.Replace(nodeInOpen, childNodeRecord);
}
}
protected virtual void ProcessChildNode(NodeRecord parentNode, NavigationGraphEdge connectionEdge, int connectionIndex)
{
//this is where you process a child node
var childNode = GenerateChildNodeRecord(parentNode, connectionEdge);
NodeRecord openNode = Open.SearchInOpen(childNode);
NodeRecord closeNode = Closed.SearchInClosed(childNode);
if (openNode == null && closeNode == null)
{
this.Open.AddToOpen(childNode);
}
else if (openNode != null && childNode.fValue < openNode.fValue)
{
Open.Replace(openNode, childNode);
}
else if (openNode != null && childNode.fValue == openNode.fValue)
{
if (childNode.hValue < openNode.hValue)
{
Open.Replace(openNode, childNode);
}
}
else if (closeNode != null && childNode.fValue < closeNode.fValue)
{
Closed.RemoveFromClosed(closeNode);
Open.AddToOpen(childNode);
}
}
public void Search(NavigationGraphNode startNode, NodeGoalBounds nodeGoalBounds)
{
//TODO: Implement the algorithm that calculates the goal bounds using a dijkstra
//Given that the nodes in the graph correspond to the edges of a polygon, we won't be able to use the vertices of the polygon to update the bounding boxes
this.Open.Initialize();
this.Closed.Initialize();
NodeRecord StartNode = NodeRecordArray.GetNodeRecord(startNode);
StartNode.StartNodeOutConnectionIndex = -1;
Open.AddToOpen(StartNode);
int OpenSize = Open.All().Count;
while (OpenSize > 0)
{
NodeRecord currentNode = Open.GetBestAndRemove();
Open.RemoveFromOpen(currentNode);
Closed.AddToClosed(currentNode);
if (currentNode.StartNodeOutConnectionIndex != -1)
{
nodeGoalBounds.connectionBounds[currentNode.StartNodeOutConnectionIndex].UpdateBounds(currentNode.node.Position);
}
//Initialize start node edge colors:
var outConnections = currentNode.node.OutEdgeCount;
for (int i = 0; i < outConnections; i++)
{
this.ProcessChildNode(currentNode, currentNode.node.EdgeOut(i), i);
}
OpenSize = Open.All().Count;
}
}
protected virtual void ProcessChildNode(NodeRecord parentNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
//this is where you process a child node
var childNode = GenerateChildNodeRecord(parentNode, connectionEdge);
//TODO: implement the rest of the code here
var nodeOpen = Open.SearchInOpen(childNode);
var nodeClose = Closed.SearchInClosed(childNode);
if (nodeOpen != null)
{
if (nodeOpen.fValue >= childNode.fValue)
{
Open.RemoveFromOpen(nodeOpen);
Open.AddToOpen(childNode);
}
return;
}
else if (nodeClose != null)
{
if (nodeClose.fValue > childNode.fValue)
{
Closed.RemoveFromClosed(nodeClose);
Open.AddToOpen(childNode);
}
return;
}
Open.AddToOpen(childNode);
}
protected virtual void ProcessChildNode(NodeRecord parent, NavigationGraphEdge connectionEdge)
{
var childNode = connectionEdge.ToNode;
var childNodeRecord = new NodeRecord
{
node = childNode,
parent = parent,
gValue = parent.gValue + connectionEdge.Cost,
hValue = this.Heuristic.H(childNode, this.GoalNode)
};
childNodeRecord.fValue = F(childNodeRecord);
NodeRecord openNode = Open.SearchInOpen(childNodeRecord);
NodeRecord closedNode = Closed.SearchInClosed(childNodeRecord);
if (openNode == null && closedNode == null)
{
Open.AddToOpen(childNodeRecord);
}
else if (openNode != null && openNode.fValue > childNodeRecord.fValue)
{
Open.Replace(openNode, childNodeRecord);
}
else if (closedNode != null && closedNode.fValue > childNodeRecord.fValue)
{
Closed.RemoveFromClosed(closedNode);
Open.AddToOpen(childNodeRecord);
}
}
protected void ProcessChildNode(NodeRecord parent, NavigationGraphEdge connectionEdge, int connectionIndex)
{
NavigationGraphNode childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
var open = Open.SearchInOpen(childNodeRecord);
var close = Closed.SearchInClosed(childNodeRecord);
if (open == null && close == null)
{
float g = parent.gValue + (childNodeRecord.node.LocalPosition - parent.node.LocalPosition).magnitude;
UpdateNode(parent, childNodeRecord, g, 0, g, connectionIndex);
Open.AddToOpen(childNodeRecord);
}
else if (open != null)
{
var g = parent.gValue + (childNodeRecord.node.LocalPosition - parent.node.LocalPosition).magnitude;
if (g < childNodeRecord.gValue)
{
UpdateNode(parent, childNodeRecord, g, 0, g, connectionIndex);
Open.Replace(childNodeRecord, childNodeRecord);
}
}
}
public void Search(NavigationGraphNode startNode, NodeGoalBounds nodeGoalBounds)
{
this.Open.Initialize();
this.Closed.Initialize();
NodeRecord startNodeRecord = this.NodeRecordArray.GetNodeRecord(startNode);
startNodeRecord.gValue = 0;
startNodeRecord.fValue = 0;
startNodeRecord.parent = null;
startNodeRecord.StartNodeOutConnectionIndex = 0;
Open.AddToOpen(startNodeRecord);
while (true)
{
if (this.Open.CountOpen() == 0)
{
return;
}
NodeRecord currNode = this.Open.GetBestAndRemove();
this.Closed.AddToClosed(currNode);
nodeGoalBounds.connectionBounds[currNode.StartNodeOutConnectionIndex].UpdateBounds(currNode.node.Position);
int nOutConnections = currNode.node.OutEdgeCount;
for (int i = 0; i < nOutConnections; i++)
{
this.ProcessChildNode(currNode, currNode.node.EdgeOut(i), i);
}
}
//TODO: Implement the algorithm that calculates the goal bounds using a dijkstra
//Given that the nodes in the graph correspond to the edges of a polygon, we won't be able to use the vertices of the polygon to update the bounding boxes
}
protected override void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
float f;
float g;
float h;
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or your algorithm will not work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
return;
}
g = bestNode.gValue + (childNodeRecord.node.LocalPosition - bestNode.node.LocalPosition).magnitude;
h = this.Heuristic.H(childNodeRecord.node, this.GoalNode);
f = F(g, h);
//childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
var childOpen = this.Open.SearchInOpen(childNodeRecord);
var childClosed = this.Closed.SearchInClosed(childNodeRecord);
if (childNodeRecord.status == NodeStatus.Unvisited)
{
childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
Open.AddToOpen(childNodeRecord);
int count = Open.CountOpen();
if (this.MaxOpenNodes < count)
{
this.MaxOpenNodes = count;
}
}
else if (childNodeRecord.status == NodeStatus.Open && childOpen != null && childOpen.fValue > childNodeRecord.fValue)
{
childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
this.Open.Replace(childOpen, childNodeRecord);
}
else if (childNodeRecord.status == NodeStatus.Closed && childClosed != null && childClosed.fValue > childNodeRecord.fValue)
{
childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
this.Closed.RemoveFromClosed(childClosed);
this.Open.AddToOpen(childNodeRecord);
}
}
protected override void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge)
{
float f;
float g;
float h;
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or you algorithm wont work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
g = bestNode.gValue + connectionEdge.Cost;
h = this.Heuristic.H(childNode, this.GoalNode);
f = g + h;
var ChildNodeOpen = Open.SearchInOpen(childNodeRecord);
var ChildNodeClosed = Closed.SearchInClosed(childNodeRecord);
if ((ChildNodeClosed == null) && (ChildNodeOpen == null))
{
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
else if ((ChildNodeOpen != null) && f < childNodeRecord.fValue)
{
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.Replace(ChildNodeOpen, childNodeRecord);
}
else if ((ChildNodeClosed != null) && f < childNodeRecord.fValue)
{
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
}
protected void ProcessChildNode(NodeRecord parent, NavigationGraphEdge connectionEdge, int connectionIndex)
{
//TODO: Implement this method that processes a child node. Then you can use it in the Search method above.
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or your algorithm will not work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = parent,
StartNodeOutConnectionIndex = parent.StartNodeOutConnectionIndex,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
//Distribute initial colors throughout startNode children:
int color = parent.StartNodeOutConnectionIndex;
if (color == -1)
{
color = connectionIndex;
}
NodeRecord parentNode = parent;
float g = parentNode.gValue + (childNode.LocalPosition - parentNode.node.LocalPosition).magnitude;
NodeRecord nodeInOpen = Open.SearchInOpen(childNodeRecord);
NodeRecord nodeInClosed = Closed.SearchInClosed(childNodeRecord);
if (nodeInOpen == null && nodeInClosed == null)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.StartNodeOutConnectionIndex = color;
Open.AddToOpen(childNodeRecord);
}
else if (nodeInOpen != null && childNodeRecord.gValue > g)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.StartNodeOutConnectionIndex = color;
Open.Replace(nodeInOpen, childNodeRecord);
}
}
protected override void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or your algorithm will not work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
//this is where you process a child node
var parent = bestNode;
var g = bestNode.gValue + (childNode.LocalPosition - bestNode.node.LocalPosition).magnitude;
var h = this.Heuristic.H(childNode, this.GoalNode);
//var h = this.Heuristic.Fast_H(childNode.Position, this.GoalNode.Position);
var f = F(g, h);
NodeRecord nodeInOpen = Open.SearchInOpen(childNodeRecord);
NodeRecord nodeInClosed = Closed.SearchInClosed(childNodeRecord);
if (nodeInOpen == null && nodeInClosed == null)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
else if (nodeInOpen != null && nodeInOpen.fValue > f)
{
childNodeRecord.parent = parent;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.Replace(nodeInOpen, childNodeRecord);
}
}
protected virtual void ProcessChildNode(NodeRecord parentNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
//this is where you process a child node
var childNode = GenerateChildNodeRecord(parentNode, connectionEdge);
NodeRecord nodeInOpen = Open.SearchInOpen(childNode);
NodeRecord nodeInClosed = Closed.SearchInClosed(childNode);
if (nodeInOpen == null && nodeInClosed == null)
{
Open.AddToOpen(childNode);
}
else if (nodeInOpen != null && childNode.fValue < nodeInOpen.fValue)
{
Open.Replace(nodeInOpen, childNode);
}
}
protected override void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
float f;
float g;
float h;
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or your algorithm will not work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
//TODO: implement the rest of your code here
//this is where you process a child node
childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
var openChildNode = Open.SearchInOpen(childNodeRecord);
var closedChildNode = Closed.SearchInClosed(childNodeRecord);
if (openChildNode == null && closedChildNode == null)
{
Open.AddToOpen(childNodeRecord);
}
else if (openChildNode != null && openChildNode.fValue > childNodeRecord.fValue)
{
Open.Replace(openChildNode, childNodeRecord);
}
else if (closedChildNode != null && closedChildNode.fValue > childNodeRecord.fValue)
{
//Closed.RemoveFromClosed(closedChildNode);
Open.AddToOpen(childNodeRecord);
}
}
public void Search(NavigationGraphNode startNode, NodeGoalBounds nodeGoalBounds)
{
//TODO: Implement the algorithm that calculates the goal bounds using a dijkstra
//Given that the nodes in the graph correspond to the edges of a polygon, we won't be able to use the vertices of the polygon to update the bounding boxes
this.Open.Initialize();
this.Closed.Initialize();
//Initialize starting node for Dijkstra
NodeRecord StartNode = NodeRecordArray.GetNodeRecord(startNode);
StartNode.gValue = 0;
StartNode.StartNodeOutConnectionIndex = -1; // -1 corresponds to not having a "color". Valid indices will start at 0
Open.AddToOpen(StartNode);
//Dijkstra
while (Open.CountOpen() > 0)
{
NodeRecord currentNode = Open.GetBestAndRemove();
Open.RemoveFromOpen(currentNode);
Closed.AddToClosed(currentNode);
//We don't fill out the starting position as it is colorless
if (currentNode.StartNodeOutConnectionIndex != -1)
{
var outFillConnections = currentNode.node.OutEdgeCount;
Vector3 edgePosition;
//Update the bounding box with all positions of EdgeOuts of the current Node
for (int i = 0; i < outFillConnections; i++)
{
edgePosition = currentNode.node.EdgeOut(i).ToNode.Position;
nodeGoalBounds.connectionBounds[currentNode.StartNodeOutConnectionIndex].UpdateBounds(edgePosition); //update only the bound corresponding to the ConnectionIndex
}
}
//Process Child Nodes
var outConnections = currentNode.node.OutEdgeCount;
for (int i = 0; i < outConnections; i++)
{
this.ProcessChildNode(currentNode, currentNode.node.EdgeOut(i), i);
}
}
}
protected virtual void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge)
{
var childNodeRecord = GenerateChildNodeRecord(bestNode, connectionEdge);
var oldChildNodeOpen = Open.SearchInOpen(childNodeRecord);
var oldChildNodeClosed = Closed.SearchInClosed(childNodeRecord);
if ((oldChildNodeClosed == null) && (oldChildNodeOpen == null))
{
Open.AddToOpen(childNodeRecord);
}
else if ((oldChildNodeOpen != null) && oldChildNodeOpen.fValue > childNodeRecord.fValue)
{
Open.Replace(oldChildNodeOpen, childNodeRecord);
}
else if ((oldChildNodeClosed != null) && oldChildNodeClosed.fValue > childNodeRecord.fValue)
{
Closed.RemoveFromClosed(oldChildNodeClosed);
Open.AddToOpen(childNodeRecord);
}
}
//don't forget to add the override keyword here if you define a ProcessChildNode method in the base class
protected void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge)
{
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or you algorithm wont work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
childNodeRecord.gValue = bestNode.gValue + connectionEdge.Cost;
childNodeRecord.hValue = this.Heuristic.H(childNode, this.GoalNode);
childNodeRecord.fValue = F(childNodeRecord);
NodeRecord openNode = Open.SearchInOpen(childNodeRecord);
NodeRecord closedNode = Closed.SearchInClosed(childNodeRecord);
if (openNode == null && closedNode == null)
{
Open.AddToOpen(childNodeRecord);
}
else if (openNode != null && openNode.fValue > childNodeRecord.fValue)
{
Open.Replace(openNode, childNodeRecord);
}
else if (closedNode != null && closedNode.fValue > childNodeRecord.fValue)
{
Closed.RemoveFromClosed(closedNode);
Open.AddToOpen(childNodeRecord);
}
}
protected virtual void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge)
{
//this is where you process a child node
var ChildNode = GenerateChildNodeRecord(bestNode, connectionEdge);
var ChildNodeOpen = Open.SearchInOpen(ChildNode);
var ChildNodeClosed = Closed.SearchInClosed(ChildNode);
if ((ChildNodeClosed == null) && (ChildNodeOpen == null))
{
Open.AddToOpen(ChildNode);
}
else if ((ChildNodeOpen != null) && ChildNodeOpen.fValue >= ChildNode.fValue)
{
Open.Replace(ChildNodeOpen, ChildNode);
}
else if ((ChildNodeClosed != null) && ChildNodeClosed.fValue > ChildNode.fValue)
{
Closed.RemoveFromClosed(ChildNodeClosed);
Open.AddToOpen(ChildNode);
}
}
protected void ProcessChildNode(NodeRecord parent, NavigationGraphEdge connectionEdge, int connectionIndex)
{
var childNode = connectionEdge.ToNode;
//TODO: implement the rest of your code here
//this is where you process a child node
var gValue = parent.gValue + (childNode.LocalPosition - parent.node.LocalPosition).magnitude;
var childNodeRecord = new NodeRecord
{
node = childNode,
parent = parent,
gValue = gValue,
fValue = gValue
};
if (parent.parent == null)
{
childNodeRecord.StartNodeOutConnectionIndex = connectionIndex;
}
else
{
childNodeRecord.StartNodeOutConnectionIndex = parent.StartNodeOutConnectionIndex;
}
var openChildNode = Open.SearchInOpen(childNodeRecord);
var closedChildNode = Closed.SearchInClosed(childNodeRecord);
if (openChildNode == null && closedChildNode == null)
{
Open.AddToOpen(childNodeRecord);
}
else if (openChildNode != null && openChildNode.fValue > childNodeRecord.fValue)
{
Open.Replace(openChildNode, childNodeRecord);
}
//TODO: Implement this method that processes a child node. Then you can use it in the Search method above.
}
public void Search(NavigationGraphNode startNode, NodeGoalBounds nodeGoalBounds)
{
//TODO: Implement the algorithm that calculates the goal bounds using a dijkstra
//Given that the nodes in the graph correspond to the edges of a polygon, we won't be able to use the vertices of the polygon to update the bounding boxes
startNodeRecord = this.NodeRecordArray.GetNodeRecord(startNode);
startNodeIndex = startNodeRecord.node.NodeIndex;
startNodeRecord.startNodeIndex = startNodeIndex;
bool first = true;
Open.AddToOpen(startNodeRecord);
while (this.Open.CountOpen() > 0)
{
bestNode = this.Open.GetBestAndRemove();
if (!first)
{
nodeGoalBounds.connectionBounds[bestNode.StartNodeOutConnectionIndex].UpdateBounds(bestNode.node.Position);
}
this.Closed.AddToClosed(bestNode);
for (int i = 0; i < bestNode.node.OutEdgeCount; i++)
{
if (first)
{
this.ProcessChildNode(bestNode, bestNode.node.EdgeOut(i), i, nodeGoalBounds);
}
else
{
this.ProcessChildNode(bestNode, bestNode.node.EdgeOut(i), bestNode.StartNodeOutConnectionIndex, nodeGoalBounds);
}
}
first = false;
}
}
protected virtual void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge)
{
//this is where you process a child node
NodeRecord childNode = GenerateChildNodeRecord(bestNode, connectionEdge);
NodeRecord openNode = Open.SearchInOpen(childNode);
NodeRecord closedNode = Closed.SearchInClosed(childNode);
bool inOpen = openNode != null ? true : false;
bool inClosed = closedNode != null ? true : false;
if (!inOpen && !inClosed)
{
Open.AddToOpen(childNode);
}
else if (inOpen && childNode.fValue < openNode.fValue)
{
Open.RemoveFromOpen(openNode);
Open.AddToOpen(childNode);
}
else if (inClosed && childNode.fValue < closedNode.fValue)
{
Closed.RemoveFromClosed(closedNode);
Open.AddToOpen(childNode);
}
}
public void AddToOpen(NodeRecord nodeRecord)
{
Open.AddToOpen(nodeRecord);
NodeRecords[nodeRecord.node.NodeIndex].status = NodeStatus.Open;
}
protected override void ProcessChildNode(NodeRecord bestNode, NavigationGraphEdge connectionEdge, int edgeIndex)
{
float f;
float g;
float h;
var childNode = connectionEdge.ToNode;
var childNodeRecord = this.NodeRecordArray.GetNodeRecord(childNode);
#region do not look into this
if (childNodeRecord == null)
{
//this piece of code is used just because of the special start nodes and goal nodes added to the RAIN Navigation graph when a new search is performed.
//Since these special goals were not in the original navigation graph, they will not be stored in the NodeRecordArray and we will have to add them
//to a special structure
//it's ok if you don't understand this, this is a hack and not part of the NodeArrayA* algorithm, just do NOT CHANGE THIS, or your algorithm will not work
childNodeRecord = new NodeRecord
{
node = childNode,
parent = bestNode,
status = NodeStatus.Unvisited
};
this.NodeRecordArray.AddSpecialCaseNode(childNodeRecord);
}
#endregion
h = this.Heuristic.H(childNode, this.GoalNode);
g = bestNode.gValue + connectionEdge.Cost;
f = g + h;
NodeRecord nodeOpen = this.Open.SearchInOpen(childNodeRecord);
NodeRecord closedNode = this.Closed.SearchInClosed(childNodeRecord);
if (nodeOpen != null)
{
if (nodeOpen.fValue >= f)
{
Open.RemoveFromOpen(nodeOpen);
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
return;
}
else if (closedNode != null)
{
if (closedNode.fValue > f)
{
Closed.RemoveFromClosed(closedNode);
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
return;
}
childNodeRecord.parent = bestNode;
childNodeRecord.gValue = g;
childNodeRecord.hValue = h;
childNodeRecord.fValue = f;
Open.AddToOpen(childNodeRecord);
}
//this method should return true if it finished processing, and false if it still needs to continue
public bool MapFloodDijkstra()
{
var processedNodes = 0;
while (Open.CountOpen() > 0)
{
processedNodes++;
if (processedNodes > NodesPerFlood)
{
return(false);
}
LocationRecord currentRecord = Open.GetBestAndRemove();
Closed.AddToClosed(currentRecord);
int outConnections = currentRecord.Location.OutEdgeCount;
for (int i = 0; i < outConnections; i++)
{
var location = GenerateChildNodeRecord(currentRecord, currentRecord.Location.EdgeOut(i));
float influence = InfluenceFunction.DetermineInfluence(currentRecord.StrongestInfluenceUnit, location.Location.Position);
if (InfluenceThreshold.CompareTo(influence) > 0)
{
continue;
}
LocationRecord neighborRecord = Closed.SearchInClosed(location);
if (neighborRecord != null)
{
if (neighborRecord.Influence >= influence)
{
continue;
}
else
{
Closed.RemoveFromClosed(neighborRecord);
}
}
else
{
neighborRecord = Open.SearchInOpen(location);
if (neighborRecord != null)
{
if (neighborRecord.Influence < influence)
{
neighborRecord.StrongestInfluenceUnit = currentRecord.StrongestInfluenceUnit;
neighborRecord.Influence = influence;
}
continue;
}
else //we found a new record not in open or closed
{
neighborRecord = new LocationRecord();
neighborRecord.Location = location.Location;
}
}
neighborRecord.StrongestInfluenceUnit = currentRecord.StrongestInfluenceUnit;
neighborRecord.Influence = influence;
Open.AddToOpen(neighborRecord);
}
}
this.InProgress = false;
//this.CleanUp();
return(true);
}
