//===========================================================================// // File: point.tst // // Project: MUNGA Brick: Math Library // // Contents: test code for point class // //---------------------------------------------------------------------------// // Date Who Modification // // -------- --- ---------------------------------------------------------- // // 11/19/94 JMA Initial coding. // //---------------------------------------------------------------------------// // Copyright (C) 1994-1995, Virtual World Entertainment, Inc. // // All Rights reserved worldwide // // This unpublished sourcecode is PROPRIETARY and CONFIDENTIAL // //===========================================================================// #if !defined(ORIGIN_HPP) #include #endif // //########################################################################### //########################################################################### // Logical Point3D::TestClass() { DEBUG_STREAM << "Starting Point3D test...\n"; const Point3D a(Identity); Point3D b; const Point3D c(1.0f,2.0f,3.0f); Point3D d(2.0f,3.0f,1.0f); Test(!a.x && !a.y && !a.z); Test(c.x == 1.0f && c.y == 2.0f && c.z == 3.0f); Test(c[2] == c.z); Test(a[1] == a.y); Test(Small_Enough(a)); Test(!a); b = c; Test(b.x == c.x && b.y == c.y && b.z == c.z); Test(Close_Enough(b,c)); Test(b == c); Test(a != b); b.Negate(c); Test(b == Point3D(-c.x,-c.y,-c.z)); b.Add(c,d); Test(b == Point3D(c.x+d.x,c.y+d.y,c.z+d.z)); b = c; b += d; Test(b == Point3D(c.x+d.x,c.y+d.y,c.z+d.z)); b.Subtract(d,c); Test(b == Point3D(d.x-c.x,d.y-c.y,d.z-c.z)); b = d; b -= c; Test(b == Point3D(d.x-c.x,d.y-c.y,d.z-c.z)); Scalar f = c*d; Test(f == c.x*d.x + c.y*d.y + c.z*d.z); b.Cross(c,d); Test(b == Point3D(c.y*d.z-c.z*d.y,c.z*d.x-c.x*d.z,c.x*d.y-c.y*d.x)); f = 2.0f; b.Multiply(c,f); Test(b == Point3D(f*c.x,f*c.y,f*c.z)); b = c; b *= f; Test(b == Point3D(f*c.x,f*c.y,f*c.z)); b.Multiply(c,d); Test(b == Point3D(c.x*d.x,c.y*d.y,c.z*d.z)); b = c; b *= d; Test(b == Point3D(c.x*d.x,c.y*d.y,c.z*d.z)); b.Divide(c,f); Test(b == Point3D(c.x/f,c.y/f,c.z/f)); b = c; b /= f; Test(b == Point3D(c.x/f,c.y/f,c.z/f)); b.Divide(c,d); Test(b == Point3D(c.x/d.x,c.y/d.y,c.z/d.z)); b = c; b /= d; Test(b == Point3D(c.x/d.x,c.y/d.y,c.z/d.z)); AffineMatrix m; EulerAngles r(PI_OVER_4,0.0f,0.0f); m = r; m = c; b = m; Test(b == c); b.Multiply(c,m); Test(b == Point3D(c.x+m(3,0),c.y*m(1,1)+c.z*m(2,1)+m(3,1),c.y*m(1,2)+c.z*m(2,2)+m(3,2))); b = c; b *= m; Test(b == Point3D(c.x+m(3,0),c.y*m(1,1)+c.z*m(2,1)+m(3,1),c.y*m(1,2)+c.z*m(2,2)+m(3,2))); Test(!a.LengthSquared()); f = c.LengthSquared(); Test(f == c.x*c.x + c.y*c.y + c.z*c.z); f = c.Length(); Test(Close_Enough(f,Sqrt(c.x*c.x + c.y*c.y + c.z*c.z))); b.Normalize(c); Test(b == Point3D(c.x/f, c.y/f, c.z/f)); b.Combine(c,2.0f,d,2.0f); Test(b == Point3D(2.0f*(c.x+d.x),2.0f*(c.y+d.y),2.0f*(c.z+d.z))); b.Lerp(c,d,0.5f); Test(b == Point3D(0.5f*(c.x+d.x),0.5f*(c.y+d.y),0.5f*(c.z+d.z))); Vector4D v(2.0f,4.0f,6.0f,2.0f); b = v; Test(b == Point3D(v.x/v.w, v.y/v.w, v.z/v.w)); Origin t; t.linearPosition = Point3D(2.0f,3.0f,4.0f); t.angularPosition = EulerAngles(0.0f,0.0f,0.0f); b = t; Test(b == Point3D(t.linearPosition.x,t.linearPosition.y,t.linearPosition.z)); return True; }