CWE-ou-minkata/Sources/Tools/MaxConvert/plMaxLightContext.h

/*==LICENSE==*

CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011  Cyan Worlds, Inc.

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*==LICENSE==*/

#ifndef plMaxLightContext_inc
#define plMaxLightContext_inc

#include "hsGeometry3.h"

class plMaxLightContext : public ShadeContext
{
protected:
    TimeValue           fCurrentTime;

    Box3                fBounds;

    Point3              fPos;
    Point3              fNorm;
    Point3              fPertNorm;

public:
    plMaxLightContext(const Box3& b, TimeValue t=0) 
    { 
        fBounds = b; 
        fCurrentTime = t; 

        doMaps = true;
        filterMaps = true;
        backFace = false;
        xshadeID = 0;
        mtlNum = 0;
    }

    void SetPoint(const Point3& p, const Point3& n) { fPos = p; fNorm = fPertNorm = n; } // Must be world space coming in.
    void SetPoint(const hsPoint3& p, const hsVector3& n) { fPos = Point3(p.fX,p.fY,p.fZ); fNorm = fPertNorm = Point3(n.fX,n.fY,n.fZ); } // Must be world space coming in.

    virtual BOOL InMtlEditor() { return false; }    // is this rendering the mtl editor sample sphere?

    virtual LightDesc* Light(int n) { return nil; } // get the nth light. 

    virtual TimeValue CurTime() { return fCurrentTime; }        // current time value

    virtual int FaceNumber() { return 0; }
    virtual Point3 Normal() { return fPertNorm; }       // interpolated surface normal, in cameara coords: affected by SetNormal()
    virtual void SetNormal(Point3 p) { fPertNorm = p; } // used for perturbing normal
    virtual Point3 OrigNormal() { return fNorm; } // original surface normal: not affected by SetNormal();
    virtual Point3 GNormal() { return fNorm; }      // geometric (face) normal

    virtual Point3 V() { return Point3(0.f,1.f,0.f); }              // Unit view vector: from camera towards P 
    virtual void SetView(Point3 p) {  } // Set the view vector

    virtual Point3 ReflectVector() { return V(); }  // reflection vector
    virtual Point3 RefractVector(float ior) { return V(); } // refraction vector

    virtual Point3 CamPos() { return Point3(0,0,0); }           // camera position

    virtual Point3 P() { return fPos; }             // point to be shaded;
    virtual Point3 DP() { return Point3(0,0,0); }               // deriv of P, relative to pixel, for AA

    virtual Point3 PObj() { return P(); }               // point in obj coords
    virtual Point3 DPObj() { return DP(); }         // deriv of PObj, rel to pixel, for AA
    virtual Box3 ObjectBox() { return fBounds; }        // Object extents box in obj coords
    virtual Point3 PObjRelBox();        // Point rel to obj box [-1 .. +1 ] 
    virtual Point3 DPObjRelBox() { return Point3(0,0,0); }      // deriv of Point rel to obj box [-1 .. +1 ] 
    virtual void ScreenUV(Point2& uv, Point2 &duv) {uv.Set(0,0); duv.Set(0,0); } // screen relative uv (from lower left)
    virtual IPoint2 ScreenCoord() { return IPoint2(0,0); } // integer screen coordinate (from upper left)

    virtual Point3 UVW(int channel=0) { return Point3(0,0,0); }             // return UVW coords for point
    virtual Point3 DUVW(int channel=0) { return Point3(0,0,0); }            // return UVW derivs for point
    virtual void DPdUVW(Point3 dP[3],int channel=0) { dP[0] = dP[1] = dP[2] = Point3(0,0,0); } // Bump vectors for UVW (camera space)

    virtual void GetBGColor(Color &bgcol, Color& transp, BOOL fogBG=TRUE) { bgcol.Black(); transp.Black(); }   // returns Background color, bg transparency

    virtual Point3 PointTo(const Point3& p, RefFrame ito) { return p; } 
    virtual Point3 PointFrom(const Point3& p, RefFrame ifrom) { return p; }
    virtual Point3 VectorTo(const Point3& p, RefFrame ito) { return p; }
    virtual Point3 VectorFrom(const Point3& p, RefFrame ifrom) { return p; }
};

inline Point3 plMaxLightContext::PObjRelBox(void)
{
    Point3 q;
    Point3 p = PObj();
    Box3 b = ObjectBox(); 
    q.x = 2.0f*(p.x-b.pmin.x)/(b.pmax.x-b.pmin.x) - 1.0f;
    q.y = 2.0f*(p.y-b.pmin.y)/(b.pmax.y-b.pmin.y) - 1.0f;
    q.z = 2.0f*(p.z-b.pmin.z)/(b.pmax.z-b.pmin.z) - 1.0f;
    return q;
}

class plMaxRendContext : public RendContext 
{
public:
    Matrix3 WorldToCam() const { return Matrix3(1); }
    Color   GlobalLightLevel() const { return Color(1.f, 1.f, 1.f); }
    int Progress(int done, int total) const {
        return 1;
    }
};


#endif // plMaxLightContext_inc