本文整理汇总了C++中PathNode::getScoreG方法的典型用法代码示例。如果您正苦于以下问题:C++ PathNode::getScoreG方法的具体用法?C++ PathNode::getScoreG怎么用?C++ PathNode::getScoreG使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类PathNode的用法示例。
在下文中一共展示了PathNode::getScoreG方法的2个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: update
void PathFinder::update(double aDelta)
{
if(m_SearchDelay > 0.0)
{
m_SearchDelay -= aDelta;
if(m_SearchDelay <= 0.0)
{
m_SearchDelay = 0.0;
}
return;
}
while(isSearchingPath() == true && m_DestinationTileIndex != -1)
{
//Safety check that there is actually something in the openlist
if(m_PathNodeOpen.size() == 0)
{
//set the state to error
m_State = StateError;
//notify the listener
if(m_Listener != NULL)
{
m_Listener->pathFinderFinishedSearching(this, false);
}
return;
}
//Get the first node with the lowest f score
//it should be the first element in the open list
PathNode* currentNode = m_PathNodeOpen.front();
//add the node tot he closed list and remove it foem the openlist
m_PathNodeClosed.push_back(currentNode);
m_PathNodeOpen.erase(m_PathNodeOpen.begin());
//check to see if the node is at the destination tile
int currentNodeTileIndex = m_Level->getTileIndexForTile(currentNode->getTile());
if(currentNodeTileIndex == m_DestinationTileIndex)
{
// build the final node path, this will use the current nodes parent node
//to track back through the path nodes all the way back to the start
buildFinalNodePath(currentNode);
//set the state ti path found
m_State = StateFoundPath;
//notify the listener
if(m_Listener != NULL)
{
m_Listener->pathFinderFinishedSearching(this,true);
}
return;
}
//if it is we stop searching and build our final path
//if we get here that eamn we haven't reached out destination tile we need
//to get the adjecent tiles from the node and add them to the open list
std::vector<Tile*> adjacentTiles;
//check the tile above, is it walkable
addAdjacentTile(adjacentTiles, currentNode->getTile(), 0, -1);
// check the tile below, is it walkable
addAdjacentTile(adjacentTiles, currentNode->getTile(),0,1);
//check the tile tot he left, is it walkable
addAdjacentTile(adjacentTiles, currentNode->getTile(),-1,0);
//check the tile to the right, is it walkable
addAdjacentTile(adjacentTiles, currentNode->getTile(),1,0);
//cycle throug the adjacent tiles that are walkable
for(int i = 0; i < adjacentTiles.size(); i++)
{
Tile* adjacentTile = adjacentTiles.at(i);
//does the tile exist in the closed list
if(doesTileExistInClosedList(adjacentTile) == true)
{
//if it does disregard
continue;
}
//does the tile exist in the open list
if(doesTileExistInOpenList(adjacentTile) == false)
{
//if it doesn't creat a new path node for the tile
PathNode* adjacentNode = new PathNode(adjacentTile);
//set the parent node
adjacentNode->setParentNode(currentNode);
// calculate the g and h scores
adjacentNode->setScoreG(currentNode->getScoreG() + adjacentTile->getMovemnetCost());
//.........这里部分代码省略.........
示例2: update
void PathFinder::update(double aDelta)
{
//Make sure we are in the seaching path state.
while(isSearchingPath() == true)
{
//Next make sure there is at least 1 path node in the open list.
//If there isn't it's possible that the destination can not be reached.
if(m_OpenList.size() == 0)
{
m_State = StateError;
return;
}
//Get the first path node from the Open List, because Open List is sorted,
//we know this is the Path Node with the lowest F score.
PathNode* currentNode = m_OpenList.front();
//Next add it to the closed list.
m_ClosedList.push_back(currentNode);
//Lastly remove it from the Open List
m_OpenList.erase(m_OpenList.begin());
//Next get the current node's tile's index from the level.
int currentNodeTileIndex = m_Level->getTileIndexForTile(currentNode->getTile());
if(currentNodeTileIndex == m_DestinationTileIndex)
{
//If the current node's tile index is the same as the destination tile, the we
//have reached out destination tile and now know the shortest path.
do
{
//If the parent node doesn't equal NULL, and the current node to the final path list.
if(currentNode->getParentNode() != NULL)
{
m_FinalPath.insert(m_FinalPath.begin(), currentNode);
}
//Set the node's tile isPath flag to true
currentNode->getTile()->setIsPath(true);
//Set the current node to the parent node.
currentNode = currentNode->getParentNode();
}
while(currentNode != NULL);
//Set the state to the PathFound
m_State = StatePathFound;
return;
}
//Now, if we got here, it means we haven't reached the destination, we need to
// get the current node's adjacent tiles and calculate their path scores.
std::vector<Tile*> adjacentTiles;
addAdjacentTile(adjacentTiles, currentNode->getTile(), -1, 0); //Left
addAdjacentTile(adjacentTiles, currentNode->getTile(), 1, 0); //Right
addAdjacentTile(adjacentTiles, currentNode->getTile(), 0, -1); //Up
addAdjacentTile(adjacentTiles, currentNode->getTile(), 0, 1); //Down
//Cycle through the adjacent tiles
for(int i = 0; i < adjacentTiles.size(); i++)
{
Tile* adjacentTile = adjacentTiles.at(i);
//Next we need to check if the adjacent tile is already in the close list,
//if it is, then we can ignore this tile.
if(isTileInClosedList(adjacentTile) == true)
{
continue;
}
//Then we need to check if the adjacent tile is already in the Open List
if(isTileInOpenList(adjacentTile) == true)
{
//If we got here, then the tile is in the Open list alreadu and we have to determine
//if the existing tile's score is lower or the adjacent tile.
PathNode* existingNode = getPathNodeFromOpenList(adjacentTile);
//Check to see if the adjacent node has a higher G Score
//(since the h scores will be identical)
//than the existing node's G score.
if(existingNode->getScoreG() > currentNode->getScoreG() +1)
{
//Update the existing node's parent.
existingNode->setParentNode(currentNode);
//Set the lower G score
existingNode->setScoreG(currentNode->getScoreG() +1);
//Sort the OpenList
sortOpenList();
}
}
else
{
//If we got here then the tile doesn't exist in the Open or Closed list.
//Let's make a new PathNode object and calculate it's tile score.
PathNode* adjacentNode = new PathNode(adjacentTile);
//.........这里部分代码省略.........