I'm currently working on the base framework for my path tracer. I'm trying to create a simple binary model loader (reading and writing) but I've encountered a problem with reading back the file. To give a little more context:
Writing my data seems to be going fine i.e. no exceptions thrown and filesize seems to be good. When I start reading the data , it all seems to be going alright until some point (after reading all the vertex positions and some normals) when my data gets corrupted. When I debug all the numbers are right but it is clear that at some point I get #DEN instead of the correct float value. The same happens with all my meshes at some point, so it can be when reading UV's or triangles, etc.
(Image #DEN at 54th Normal (3rd float) ... not enough reputation)
I read all the Normals (for 1 sub-mesh) in one go. When I look at the ifstream, it resets back to the beginning of the file. When I start reading my triangle indices (a new stream.read()) the badbit is set.
I use Visual studio 2010 Ultimate and I'm running on Windows 7 Professional x64. I'm using C and C++.
I will try to show only the crucial code:
if(meshHeader.numberOfNormals > 0)
{
Normal* _normals = Read<Normal>(meshHeader.numberOfNormals);
if(_normals)
{
// Copy from array to vector
_normalsVec = new vector<Normal>(_normals, _normals + meshHeader.numberOfNormals);
// Cleanup
delete[] _normals;
}
else
{
// Cleanup
delete[] _normals;
throw runtime_error("Failed reading vertex normals");
}
}
Read method:
template <typename T>
T* BinaryModelIO::Read(unsigned int _size)
{
T* _data = new T[_size];
unsigned int _numberOfBytes = Read(sizeof(T) * _size, static_cast<void*>(_data));
if(_numberOfBytes != (sizeof(T) * _size))
{
delete[] _data;
_data = 0;
}
return _data;
}
(static_cast(_data) is not the cause) more read:
unsigned int BinaryModelIO::Read(unsigned int _numberOfBytes, void *_buffer)
{
if(isWriter)
return 0;
// no fail bit set?
if(!readStream->fail())
{
try
{
readStream->read((char*)_buffer, _numberOfBytes);
}
catch(exception &e)
{
cerr << e.what() << endl;
//return 0;
}
return _numberOfBytes;
}
else
{
if(readStream->badbit)
cerr << "badbit" << endl;
else if(readStream->eofbit)
cerr << "eofbit" << endl;
return 0;
}
}
Reading the Normals goes as expected but after some amount of floats (Normals) it goes wrong. I tried reading the whole array of Normals with a for loop and then copying all elements to the vector, but this was not the problem. When reading the Triangle data (done in similar way), the badbit is set (or somewhere before the Triangles are read). In the image below I was debugging while reading the triangles and badbit gets printed.
(Image showing print ... not enough reputation)
My data structures I'm trying to Read/Write do NOT contain virtual functions and all consist of floats (except for triangle which has 3 unsigned int's). Point(3 floats), UV(2 floats), Normal(3 floats), Triangle(3 unsigned int's).
edit: Here's the definition of the Normal
class Normal
{
public:
// Vector Public Methods
Normal(float _x = 0.0f, float _y = 0.0f, float _z = 0.0f) : x(_x), y(_y), z(_z) { }
explicit Normal(const Vector3& _vector);
explicit Normal(const Point& _point);
// Overloaded Operators
Normal operator+(const Normal& _norm) const
{
return Normal(x + _norm.x, y + _norm.y, z + _norm.z);
}
Normal& operator+=(const Normal& _norm)
{
x += _norm.x;
y += _norm.y;
z += _norm.z;
return *this;
}
Normal operator-(const Normal& _norm) const
{
return Normal(x - _norm.x, y - _norm.y, z - _norm.z);
}
Normal& operator-=(const Normal& _norm)
{
x -= _norm.x;
y -= _norm.y;
z -= _norm.z;
return *this;
}
bool operator==(const Normal& _norm) const
{
return x == _norm.x && y == _norm.y && z == _norm.z;
}
bool operator!=(const Normal& _norm) const
{
return x != _norm.x || y != _norm.y || z == _norm.z;
}
Normal operator*(float _f) const
{
return Normal(_f * x, _f * y, _f * z);
}
Normal &operator*=(float _f)
{
x *= _f;
y *= _f;
z *= _f;
return *this;
}
Normal operator/(float _f) const
{
// One division, 3 multiplications ^^
float _inverse = 1.f / _f;
return Normal(x * _inverse, y * _inverse, z * _inverse);
}
Normal &operator/=(float _f)
{
float _inverse = 1.f / _f;
x *= _inverse;
y *= _inverse;
z *= _inverse;
return *this;
}
Normal operator-() const
{
return Normal(-x, -y, -z);
}
float operator[](int _i) const
{
// Return x, y or z
return (&x)[_i];
}
float &operator[](int _i)
{
return (&x)[_i];
}
float LengthSquared() const
{
return x * x + y * y + z * z;
}
float Length() const
{
return sqrtf(LengthSquared());
}
// Public Variables
float x, y, z;
}; // 12 Byte
edit2: File opening (done when Loader object is created and destroyed)
bool AbstractStream::OpenFile()
{
bool _return = false;
// We should open file to write or to read
if(isWriter)
{
// Check if the file is already open
if(!writeStream->is_open())
writeStream->open(fileName, ios::in | ios::binary);
if(!writeStream->fail())
_return = true; // File could be opened
}
else
{
// Check if the file is already open
if(!readStream->is_open())
readStream->open(fileName, ios::in | ios::binary);
if(!readStream->fail())
_return = true; // File could be opened
}
return _return; // File could be opened
}
If I forgot something please tell me because this is my first question on stackoverflow ever.
I really hope someone can help me because I side stepped this problem for a while (working on other parts of the renderer).
Thanks in advance!