Ejemplo n.º 1
0
void FoliageBase::reloadAtPosition(const WFMath::Point<2>& worldPosition)
{
	if (mPagedGeometry) {
		mPagedGeometry->reloadGeometryPage(Ogre::Vector3(worldPosition.x(), 0, -worldPosition.y()), true);
	}
}
Ejemplo n.º 2
0
	WFMath::Point<3> SoundEntity::getPosition() const
	{
		WFMath::Point<3> pos = mParentEntity.getViewPosition();
		return pos.isValid() ? pos : WFMath::Point<3>::ZERO();
	}
Ejemplo n.º 3
0
//helper function for ray terrain intersection
static bool cellIntersect(float h1, float h2, float h3, float h4, float X, float Y, 
                   const WFMath::Vector<3> &nDir, float dirLen,
                   const WFMath::Point<3> &sPt, WFMath::Point<3> &intersection,
                   WFMath::Vector<3> &normal, float &par)
{
    //ray plane intersection roughly using the following:
    //parametric ray eqn:  p=po + par V
    //plane eqn: p dot N + d = 0
    //
    //intersection:
    // -par = (po dot N + d ) / (V dot N)
    // 
    //
    // effectively we calculate the ray parametric variable for the
    // intersection of the plane corresponding to each triangle
    // then clip them by endpints of the ray, and by the sides of the square
    // and by the diagonal
    //
    // if they both still intersect, then we choose the earlier intersection
    
   
    //intersection points for top and bottom triangles
    WFMath::Point<3> topInt, botInt;
    
    //point to use in plane equation for both triangles
    WFMath::Vector<3> p0 = WFMath::Vector<3>(X, Y, h1);

    // square is broken into two triangles
    // top triangle |/
    bool topIntersected = false;
    WFMath::Vector<3> topNormal(h2-h3, h1-h2, 1.0);
    topNormal.normalize();
    float t = Dot(nDir, topNormal);

    float topP=0.0;

    if ((t > 1e-7) || (t < -1e-7)) {
        topP = - (Dot((sPt-WFMath::Point<3>(0.,0.,0.)), topNormal) 
               - Dot(topNormal, p0)) / t; 
        topInt = sPt + nDir*topP;
        //check the intersection is inside the triangle, and within the ray extents
        if ((topP <= dirLen) && (topP > 0.0) &&
            (topInt[0] >= X ) && (topInt[1] <= Y + 1 ) &&
            ((topInt[0] - topInt[1]) <= (X - Y)) ) {
                topIntersected=true;
        }
    }

    // bottom triangle /|
    bool botIntersected = false;
    WFMath::Vector<3> botNormal(h1-h4, h4-h3, 1.0);
    botNormal.normalize();
    float b = Dot(nDir, botNormal);
    float botP=0.0;

    if ((b > 1e-7) || (b < -1e-7)) {
        botP = - (Dot((sPt-WFMath::Point<3>(0.,0.,0.)), botNormal) 
               - Dot(botNormal, p0)) / b; 
        botInt = sPt + nDir*botP;
        //check the intersection is inside the triangle, and within the ray extents
        if ((botP <= dirLen) && (botP > 0.0) &&
            (botInt[0] <= X + 1 ) && (botInt[1] >= Y ) && 
            ((botInt[0] - botInt[1]) >= (X - Y)) ) {
                botIntersected = true;
        }
    }

    if (topIntersected && botIntersected) { //intersection with both
        if (botP <= topP) {
            intersection = botInt;
            normal = botNormal; 
            par=botP/dirLen;
            if (botP == topP) {
                normal += topNormal;
                normal.normalize();
            }
            return true;    
        }
        else {
            intersection = topInt;
            normal = topNormal; 
            par=topP/dirLen;
            return true;
        }
    }
    else if (topIntersected) { //intersection with top
        intersection = topInt;
        normal = topNormal; 
        par=topP/dirLen;
        return true;
    }
    else if (botIntersected) { //intersection with bot
        intersection = botInt;
        normal = botNormal; 
        par=botP/dirLen;
        return true;
    }

    return false;
}