I have been trying to resolve the access violation in the program for bounding volume hierarchy. I get an access violation error while running it. I have used SDL and lib3d packages.

Error: Unhandled exception at 0x00fa2e80 in bvh.exe: 0xC0000005: Access violation reading location 0x00000004.

Call Stack :> `bvh.exe!Triangle::Triangle(const Vertex * vertexA, const Vertex * vertexB, const Vertex * vertexC, unsigned int r, unsigned int g, unsigned int b, bool twosided, bool triNormalProvided, Float3 triNormal)`

Line 393 + 0x150 bytes C++

I have defined my structures in the following manner:

```
struct Float3
{
float X, Y Z;
Float3(float x=0, float y=0, float z=0)
:
X(x), Y(y), Z(z){}
Float3(const Float3& rhs)
:
X(rhs.X), Y(rhs.Y), Z(rhs.Z){}
inline Float3& operator+=(const Float3& rhs)
{
X += rhs.X; Y += rhs.Y; Z += rhs.Z; return *this;
}
// similar for the other operators
void assignSmaller(const Float3& rhs)
{
X = min(X, rhs.X);
Y = min(Y, rhs.Y);
Z = min(Z, rhs.Z);
}
void assignBigger(const Float3& rhs)
{
X = max(X, rhs.X);
Y = max(Y, rhs.Y);
Z = max(Z, rhs.Z);
}
float length()
{
return sqrt(X*X +Y*Y + Z*Z);
}
inline float lengthsq()
{
return X*X +Y*Y + Z*Z;
}
inline void Normalize()
{
float norm = length();
X/= norm; Y/= norm; Z/= norm;
}
};
struct Vertex : public Float3
{
Float3 n;
unsigned _ambientOcclusionCoeff;
Vertex(float x, float y, float z, float nx, float ny, float nz, unsigned char amb=60)
:
Float3(x,y,z), n(nx,ny,nz), _ambientOcclusionCoeff(amb){}
};
struct Pixel {
float _b, _g, _r;
Pixel(float r=0.f, float g=0.f, float b=0.f)
:
_b(b), _g(g), _r(r) {}
Pixel& operator+=(const Pixel& rhs) { _b += rhs._b; _g += rhs._g; _r += rhs._r; return *this; }
// similar for the other operators
};
struct Triangle
{
const Vertex *_vertexA, *_vertexB, *_vertexC;
Float3 centroid, n;
// Color:
Pixel _colorf;
// precomputed for SDL surface
Uint32 _color;
// Should we backface cull this triangle?
bool _twoSided;
// Raytracing intersection pre-computed cache:
float _d, _d1, _d2, _d3;
Float3 _e1, _e2, _e3, _bottom, _top;
Triangle(
const Vertex *vertexA,
const Vertex *vertexB,
const Vertex *vertexC,
unsigned r, unsigned g, unsigned b,
bool twosided = false, bool triNormalProvided=false,
Float3 triNormal=Float3(0.0f,0.0f,0.0f))
:
_vertexA(vertexA), _vertexB(vertexB), _vertexC(vertexC),
centroid((vertexA->X + vertexB->X + vertexC->X)/3.0f,
(vertexA->Y + vertexB->Y + vertexC->Y)/3.0f,
(vertexA->Z + vertexB->Z + vertexC->Z)/3.0f),
_colorf((float)r,(float)g,(float)b), // For use in all other cases
_color(SDL_MapRGB(Screen::_surface->format, r,g,b)), // For use with DrawPixel
_twoSided(twosided),
_bottom(FLT_MAX,FLT_MAX, FLT_MAX), // Will be updated after centering in Loader
_top(-FLT_MAX, -FLT_MAX,-FLT_MAX) // Will be updated after centering in Loader
{
// this is where the debugger points to with an access violation error.
if (!triNormalProvided)
{
n = Float3((vertexA->n.X + vertexB->n.X + vertexC->n.X)/3.0f,
(vertexA->n.Y + vertexB->n.Y + vertexC->n.Y)/3.0f,
(vertexA->n.Z + vertexB->n.Z + vertexC->n.Z)/3.0f);
n.Normalize();
}
else {n = triNormal;}
}
};
```