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3dbase/example/lesson500-摄像机的实.../Raster.cpp

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#include "Raster.h"
#include "FreeImage.h"
namespace CELL
{
Image* Image::loadFromFile(const char* fileName)
{
//1 获取图片格式
FREE_IMAGE_FORMAT fifmt = FreeImage_GetFileType(fileName, 0);
if (fifmt == FIF_UNKNOWN)
{
return 0;
}
//2 加载图片
FIBITMAP *dib = FreeImage_Load(fifmt, fileName,0);
FREE_IMAGE_COLOR_TYPE type = FreeImage_GetColorType(dib);
//! 获取数据指针
FIBITMAP* temp = dib;
dib = FreeImage_ConvertTo32Bits(dib);
FreeImage_Unload(temp);
BYTE* pixels = (BYTE*)FreeImage_GetBits(dib);
int width = FreeImage_GetWidth(dib);
int height = FreeImage_GetHeight(dib);
int pitch = width*4;
BYTE* row = new BYTE[width*4];
for(int j = 0; j < height / 2; j++)
{
memcpy(row,pixels + j * pitch,pitch );
memcpy(pixels + j * pitch,pixels + (height - j - 1) * pitch,pitch );
memcpy(pixels + (height - j - 1) * pitch,row,pitch );
}
delete []row;
Image* image = new Image(width,height,pixels);
FreeImage_Unload(dib);
return image;
}
Raster::Raster( int w,int h,void* buffer )
{
_texture = 0;
_width = w;
_height = h;
_buffer = (uint*)buffer;
memset(&_poitionPointer,0, sizeof(_poitionPointer));
memset(&_colorPointer, 0, sizeof(_colorPointer));
memset(&_uvPointer, 0, sizeof(_uvPointer));
_defaultColorPointer._size = 4;
_defaultColorPointer._type = DT_BYTE;
_defaultColorPointer._stride= sizeof(Rgba);
_defaultColorPointer._data = _defaultColorArray;
_defaultUVPointer._size = 2;
_defaultUVPointer._type = DT_FLOAT;
_defaultUVPointer._stride = sizeof(float2);
_defaultUVPointer._data = _detaultUVArray;
_matModel = CELL::matrix4(1);
_matView = CELL::matrix4(1);
_matProj = CELL::matrix4(1);
}
Raster::~Raster( void )
{
}
void Raster::clear()
{
memset(_buffer,0,_width * _height * sizeof(Rgba));
}
void Raster::drawImage( int startX,int startY,const Image* image )
{
int left = tmax<int>(startX,0);
int top = tmax<int>(startY,0);
int right = tmin<int>(startX + image->width(),_width);
int bottom = tmin<int>(startY + image->height(),_height);
for (int x = left ; x < right ; ++ x)
{
for (int y = top ; y < bottom ; ++ y)
{
Rgba color = image->pixelAt(x - left,y - top);
setPixelEx(x,y,color);
}
}
}
void Raster::drawArrays( DRAWMODE pri,int start,int count )
{
if (_poitionPointer._data == 0)
{
return;
}
DateElementDes colorPointerdesc = _colorPointer;
DateElementDes uvPointerdesc = _uvPointer;
if (colorPointerdesc._data == 0)
{
colorPointerdesc = _defaultColorPointer;
}
if (uvPointerdesc._data == 0)
{
uvPointerdesc = _defaultUVPointer;
}
char* posData = (char*)_poitionPointer._data;
char* cData = (char*)colorPointerdesc._data;
char* uvData = (char*)uvPointerdesc._data;
_matProjView = _matProj * _matView;
matrix4 matPVT = _matProjView.transpose();
_frust.loadFrustum(matPVT);
for(int i = start ;i < start + count; i += 3)
{
float* fData = (float*)posData;
float3 p01 (fData[0],fData[1],fData[2]);
posData += _poitionPointer._stride;
fData = (float*)(posData);
float3 p11 (fData[0],fData[1],fData[2]);
posData += _poitionPointer._stride;
fData = (float*)(posData);
float3 p21 (fData[0],fData[1],fData[2]);
posData += _poitionPointer._stride;
p01 = p01 * _matModel;
p11 = p11 * _matModel;
p21 = p21 * _matModel;
if ( _frust.pointInFrustum(p01)
|| _frust.pointInFrustum(p11)
|| _frust.pointInFrustum(p21)
)
{
p01 = piplineTransform(p01);
p11 = piplineTransform(p11);
p21 = piplineTransform(p21);
//! 转化为屏幕坐标
int2 p0(p01.x,p01.y);
int2 p1(p11.x,p11.y);
int2 p2(p21.x,p21.y);
Rgba c0 (*(Rgba*)cData);
cData += _colorPointer._stride;
Rgba c1 (*(Rgba*)cData);
cData += _colorPointer._stride;
Rgba c2 (*(Rgba*)cData);
cData += _colorPointer._stride;
float* pUV = (float*)uvData;
float2 uv0 (pUV[0],pUV[1]);
uvData += _uvPointer._stride;
pUV = (float*)uvData;
float2 uv1(pUV[0],pUV[1]);
uvData += _uvPointer._stride;
pUV = (float*)uvData;
float2 uv2(pUV[0],pUV[1]);
uvData += _uvPointer._stride;
Ege eges[3] =
{
Ege(p0.x,p0.y,c0, uv0, p1.x,p1.y,c1, uv1),
Ege(p1.x,p1.y,c1, uv1, p2.x,p2.y,c2, uv2),
Ege(p2.x,p2.y,c2, uv2, p0.x,p0.y,c0, uv0),
};
drawTrianle(eges);
if (_colorPointer._data == 0)
{
cData = (char*)colorPointerdesc._data;
}
if (_uvPointer._data == 0 )
{
uvData = (char*)uvPointerdesc._data;
}
}
}
}
void Raster::bindTexture( Image* image )
{
_texture = image;
}
void Raster::textureCoordPointer( int size,DATETYPE type,int stride,const void* data )
{
_uvPointer._size = size;
_uvPointer._type = type;
_uvPointer._stride = stride;
_uvPointer._data = data;
}
void Raster::colorPointer( int size,DATETYPE type,int stride,const void* data )
{
_colorPointer._size = size;
_colorPointer._type = type;
_colorPointer._stride = stride;
_colorPointer._data = data;
}
void Raster::vertexPointer( int size,DATETYPE type,int stride,const void* data )
{
_poitionPointer._size = size;
_poitionPointer._type = type;
_poitionPointer._stride = stride;
_poitionPointer._data = data;
}
void Raster::loadMatrix( const CELL::matrix4& mat )
{
_matModel = mat;
}
void Raster::loadIdentity()
{
_matModel = CELL::matrix4(1);
}
void Raster::loadProjMatrix( const CELL::matrix4& mat )
{
_matProj = mat;
}
void Raster::loadProjIdentity( const CELL::matrix4& mat )
{
_matProj = CELL::matrix4(1);
}
void Raster::loadViewMatrix( const CELL::matrix4& mat )
{
_matView = mat;
}
void Raster::loadViewIdentity( const CELL::matrix4& mat )
{
_matView = CELL::matrix4(1);
}
void Raster::setPerspective( float fovy, float aspect, float zNear, float zFar )
{
_matProj = CELL::perspective<float>(fovy,aspect,zNear,zFar);
}
void Raster::lookat( float3 const & eye,float3 const & center,float3 const & up )
{
_matView = CELL::lookAt(eye,center,up);
}
void Raster::setViewPort( int x,int y,int w,int h )
{
_viewPort.x = w;
_viewPort.y = h;
}
}