Exemple #1
0
  void set( Senate::Status status, Picture pic, const Point& offset )
  {
    if( status >= pics.size() )
    {
      pics.resize( status+1 );
      offsets.resize( status+1 );
    }

    offsets[ status ] = offset;
    pics[ status ] = pic;
  }
void PathFinder::BuildPointPath(const float* startPoint, const float* endPoint)
{
    float pathPoints[MAX_POINT_PATH_LENGTH * VERTEX_SIZE];
    uint32 pointCount = 0;
    dtStatus dtResult = DT_FAILURE;
    if (m_useStraightPath)
    {
        dtResult = m_navMeshQuery->findStraightPath(
                startPoint,         // start position
                endPoint,           // end position
                m_pathPolyRefs,     // current path
                m_polyLength,       // lenth of current path
                pathPoints,         // [out] path corner points
                NULL,               // [out] flags
                NULL,               // [out] shortened path
                (int*)&pointCount,
                m_pointPathLimit);   // maximum number of points/polygons to use
    }
    else
    {
        dtResult = findSmoothPath(
                startPoint,         // start position
                endPoint,           // end position
                m_pathPolyRefs,     // current path
                m_polyLength,       // length of current path
                pathPoints,         // [out] path corner points
                (int*)&pointCount,
                m_pointPathLimit);    // maximum number of points
    }

    if (pointCount < 2 || dtStatusFailed(dtResult))
    {
        // only happens if pass bad data to findStraightPath or navmesh is broken
        // single point paths can be generated here
        // TODO : check the exact cases
        DEBUG_FILTER_LOG(LOG_FILTER_PATHFINDING, "++ PathFinder::BuildPointPath FAILED! path sized %d returned\n", pointCount);
        BuildShortcut();
        m_type = PATHFIND_NOPATH;
        return;
    }

    uint32 tempPointCounter = 2;
    uint8  cutLimit         = 0;

    PointsArray    tempPathPoints;
    tempPathPoints.resize(pointCount);

    for (uint32 i = 0; i < pointCount; ++i)
        tempPathPoints[i] = Vector3(pathPoints[i*VERTEX_SIZE+2], pathPoints[i*VERTEX_SIZE], pathPoints[i*VERTEX_SIZE+1]);

    // Optimize points
    for (uint32 i = 1; i < pointCount - 1; ++i)
    {
        G3D::Vector3 p  = tempPathPoints[i];     // Point        
        G3D::Vector3 p1 = tempPathPoints[i - 1]; // PrevPoint
        G3D::Vector3 p2 = tempPathPoints[i + 1]; // NextPoint

        float line = (p1.y - p2.y) * p.x + (p2.x - p1.x) * p.y + (p1.x * p2.y - p2.x * p1.y);

        if (fabs(line) < LINE_FAULT && cutLimit < SKIP_POINT_LIMIT)
        {
            tempPathPoints[i] = Vector3(0, 0, 0);
            ++cutLimit;
        }
        else
        {
            ++tempPointCounter;
            cutLimit = 0;
        }
    }

    m_pathPoints.resize(tempPointCounter);

    uint32 b = 0;
    for (uint32 i = 0; i < pointCount; ++i)
    {
        if (tempPathPoints[i] != Vector3(0, 0, 0))
        {
            m_pathPoints[b] = tempPathPoints[i];
            ++b;
        }
    }

    pointCount = tempPointCounter;

    // first point is always our current location - we need the next one
    setActualEndPosition(m_pathPoints[pointCount - 1]);

    // force the given destination, if needed
    if (m_forceDestination &&
        (!(m_type & PATHFIND_NORMAL) || !inRange(getEndPosition(), getActualEndPosition(), 1.0f, 1.0f)))
    {
        // we may want to keep partial subpath
        if (dist3DSqr(getActualEndPosition(), getEndPosition()) <
            0.3f * dist3DSqr(getStartPosition(), getEndPosition()))
        {
            setActualEndPosition(getEndPosition());
            m_pathPoints[m_pathPoints.size()-1] = getEndPosition();
        }
        else
        {
            setActualEndPosition(getEndPosition());
            BuildShortcut();
        }

        m_type = PathType(PATHFIND_NORMAL | PATHFIND_NOT_USING_PATH);
    }

    DEBUG_FILTER_LOG(LOG_FILTER_PATHFINDING, "++ PathFinder::BuildPointPath path type %d size %d poly-size %d\n", m_type, pointCount, m_polyLength);
}