vcglib/wrap/qt/shot_qt.h

217 lines
9.2 KiB
C++

#ifndef SHOT_QT_H
#define SHOT_QT_H
/** This function read a shot from a parsed XML node.
*/
template <class ShotType>
bool ReadShotFromQDomNode(
ShotType &shot, /// the shot that will contain the read node
const QDomNode &node) /// The XML node to be read
{
typedef typename ShotType::ScalarType ScalarType;
typedef vcg::Point3<typename ShotType::ScalarType> Point3x;
if(QString::compare(node.nodeName(),"VCGCamera")==0)
{
QDomNamedNodeMap attr = node.attributes();
if (attr.contains("BinaryData") && attr.namedItem("BinaryData").nodeValue().toInt() == 1)
{
Point3x tra;
QString str = attr.namedItem("TranslationVector").nodeValue();
QByteArray value = QByteArray::fromBase64(str.toLocal8Bit());
memcpy(tra.V(), value.data(), sizeof(ScalarType) * 3);
shot.Extrinsics.SetTra(-tra);
vcg::Matrix44<ScalarType> rot;
str = attr.namedItem("RotationMatrix").nodeValue();
value = QByteArray::fromBase64(str.toLocal8Bit());
memcpy(rot.V(), value.data(), sizeof(ScalarType) * 16);
shot.Extrinsics.SetRot(rot);
vcg::Camera<ScalarType> &cam = shot.Intrinsics;
if (attr.contains("CameraType")) cam.cameraType = attr.namedItem("CameraType").nodeValue().toInt();
memcpy(&cam.FocalMm, QByteArray::fromBase64(attr.namedItem("FocalMm").nodeValue().toLocal8Bit()).data(), sizeof(ScalarType));
memcpy(&cam.ViewportPx, QByteArray::fromBase64(attr.namedItem("ViewportPx").nodeValue().toLocal8Bit()).data(), sizeof(int) * 2);
memcpy(&cam.CenterPx, QByteArray::fromBase64(attr.namedItem("CenterPx").nodeValue().toLocal8Bit()).data(), sizeof(ScalarType)*2);
memcpy(&cam.PixelSizeMm, QByteArray::fromBase64(attr.namedItem("PixelSizeMm").nodeValue().toLocal8Bit()).data(), sizeof(ScalarType) * 2);
memcpy(&cam.k, QByteArray::fromBase64(attr.namedItem("LensDistortion").nodeValue().toLocal8Bit()).data(), sizeof(ScalarType) * 2);
}
else
{
Point3x tra;
tra[0] = attr.namedItem("TranslationVector").nodeValue().section(' ', 0, 0).toDouble();
tra[1] = attr.namedItem("TranslationVector").nodeValue().section(' ', 1, 1).toDouble();
tra[2] = attr.namedItem("TranslationVector").nodeValue().section(' ', 2, 2).toDouble();
shot.Extrinsics.SetTra(-tra);
vcg::Matrix44<ScalarType> rot;
QStringList values = attr.namedItem("RotationMatrix").nodeValue().split(" ", QString::SkipEmptyParts);
for (int y = 0; y < 4; y++)
for (int x = 0; x < 4; x++)
rot[y][x] = values[x + 4 * y].toDouble();
shot.Extrinsics.SetRot(rot);
vcg::Camera<ScalarType> &cam = shot.Intrinsics;
if (attr.contains("CameraType")) cam.cameraType = attr.namedItem("CameraType").nodeValue().toInt();
cam.FocalMm = attr.namedItem("FocalMm").nodeValue().toDouble();
cam.ViewportPx.X() = attr.namedItem("ViewportPx").nodeValue().section(' ', 0, 0).toInt();
cam.ViewportPx.Y() = attr.namedItem("ViewportPx").nodeValue().section(' ', 1, 1).toInt();
cam.CenterPx[0] = attr.namedItem("CenterPx").nodeValue().section(' ', 0, 0).toDouble();
cam.CenterPx[1] = attr.namedItem("CenterPx").nodeValue().section(' ', 1, 1).toDouble();
cam.PixelSizeMm[0] = attr.namedItem("PixelSizeMm").nodeValue().section(' ', 0, 0).toDouble();
cam.PixelSizeMm[1] = attr.namedItem("PixelSizeMm").nodeValue().section(' ', 1, 1).toDouble();
cam.k[0] = attr.namedItem("LensDistortion").nodeValue().section(' ', 0, 0).toDouble();
cam.k[1] = attr.namedItem("LensDistortion").nodeValue().section(' ', 1, 1).toDouble();
}
// scale correction should no more exist !!!
// float scorr = attr.namedItem("ScaleCorr").nodeValue().toDouble();
// if(scorr != 0.0) {
// cam.PixelSizeMm[0] *= scorr;
// cam.PixelSizeMm[1] *= scorr;
// }
return true;
}
return false;
}
/// TEXALIGN VERSION
template <class ShotType>
bool ReadShotFromOLDXML( ShotType &shot, const QDomNode &node)
{
typedef typename ShotType::ScalarType ScalarType;
if(QString::compare(node.nodeName(),"CamParam")==0)
{
QDomNamedNodeMap attr = node.attributes();
vcg::Point3<ScalarType> tra;
tra[0] = attr.namedItem("SimTra").nodeValue().section(' ',0,0).toDouble();
tra[1] = attr.namedItem("SimTra").nodeValue().section(' ',1,1).toDouble();
tra[2] = attr.namedItem("SimTra").nodeValue().section(' ',2,2).toDouble();
shot.Extrinsics.SetTra(-tra);
vcg::Matrix44<ScalarType> rot;
QStringList values = attr.namedItem("SimRot").nodeValue().split(" ", QString::SkipEmptyParts);
for(int y = 0; y < 4; y++)
for(int x = 0; x < 4; x++)
rot[y][x] = values[x + 4*y].toDouble();
shot.Extrinsics.SetRot(rot);
vcg::Camera<ScalarType> &cam = shot.Intrinsics;
cam.FocalMm = attr.namedItem("Focal").nodeValue().toDouble();
cam.ViewportPx.X() = attr.namedItem("Viewport").nodeValue().section(' ',0,0).toInt();
cam.ViewportPx.Y() = attr.namedItem("Viewport").nodeValue().section(' ',1,1).toInt();
cam.CenterPx[0] = attr.namedItem("Center").nodeValue().section(' ',0,0).toInt();
cam.CenterPx[1] = attr.namedItem("Center").nodeValue().section(' ',1,1).toInt();
cam.PixelSizeMm[0] = attr.namedItem("ScaleF").nodeValue().section(' ',0,0).toDouble();
cam.PixelSizeMm[1] = attr.namedItem("ScaleF").nodeValue().section(' ',1,1).toDouble();
cam.k[0] = attr.namedItem("LensDist").nodeValue().section(' ',0,0).toDouble();
cam.k[1] = attr.namedItem("LensDist").nodeValue().section(' ',1,1).toDouble();
// scale correction
float scorr = attr.namedItem("ScaleCorr").nodeValue().toDouble();
if(scorr != 0.0) {
cam.PixelSizeMm[0] *= scorr;
cam.PixelSizeMm[1] *= scorr;
}
return true;
}
return false;
}
template <class ShotType>
QDomElement WriteShotToQDomNode(
const ShotType &shot, /// the shot to be written node
QDomDocument &doc) /// The XML node to be read
{
typedef typename ShotType::ScalarType ScalarType;
QDomElement shotElem = doc.createElement( "VCGCamera" );
vcg::Point3<ScalarType> tra = -(shot.Extrinsics.Tra());
QString str = QString("%1 %2 %3 1").arg(tra[0]).arg(tra[1]).arg(tra[2]);
shotElem.setAttribute("TranslationVector", str);
vcg::Matrix44<ScalarType> rot = shot.Extrinsics.Rot();
str = QString("%1 %2 %3 %4 %5 %6 %7 %8 %9 %10 %11 %12 %13 %14 %15 %16 ")
.arg(rot[0][0]).arg(rot[0][1]).arg(rot[0][2]).arg(rot[0][3])
.arg(rot[1][0]).arg(rot[1][1]).arg(rot[1][2]).arg(rot[1][3])
.arg(rot[2][0]).arg(rot[2][1]).arg(rot[2][2]).arg(rot[2][3])
.arg(rot[3][0]).arg(rot[3][1]).arg(rot[3][2]).arg(rot[3][3]);
shotElem.setAttribute( "RotationMatrix", str);
const vcg::Camera<ScalarType> &cam = shot.Intrinsics;
shotElem.setAttribute("CameraType", cam.cameraType);
shotElem.setAttribute("BinaryData", 0);
shotElem.setAttribute( "FocalMm", cam.FocalMm);
str = QString("%1 %2").arg(cam.k[0]).arg(cam.k[1]);
shotElem.setAttribute( "LensDistortion", str);
str = QString("%1 %2").arg(cam.PixelSizeMm[0]).arg(cam.PixelSizeMm[1]);
shotElem.setAttribute( "PixelSizeMm", str);
str = QString("%1 %2").arg(cam.ViewportPx[0]).arg(cam.ViewportPx[1]);
shotElem.setAttribute( "ViewportPx", str);
str = QString("%1 %2").arg(cam.CenterPx[0]).arg(cam.CenterPx[1]);
shotElem.setAttribute( "CenterPx", str);
//scale correction should no more exist !!!
//str = QString("%1").arg((double) 1);
//shotElem.setAttribute( "ScaleCorr", str);
return shotElem;
}
template <class ShotType>
QDomElement WriteShotToQDomNodeBinary(
const ShotType &shot, /// the shot to be written node
QDomDocument &doc) /// The XML node to be read
{
typedef typename ShotType::ScalarType ScalarType;
QDomElement shotElem = doc.createElement("VCGCamera");
vcg::Point3<ScalarType> tra = -(shot.Extrinsics.Tra());
QByteArray value = QByteArray::fromRawData((char *)tra.V(), sizeof(ScalarType) * 3).toBase64();
shotElem.setAttribute("TranslationVector", QString(value));
vcg::Matrix44<ScalarType> rot = shot.Extrinsics.Rot();
value = QByteArray::fromRawData((char *)rot.V(), sizeof(ScalarType) * 16).toBase64();
shotElem.setAttribute("RotationMatrix", QString(value));
const vcg::Camera<ScalarType> &cam = shot.Intrinsics;
shotElem.setAttribute("CameraType", cam.cameraType);
shotElem.setAttribute("BinaryData", 1);
value = QByteArray::fromRawData((char *)&cam.FocalMm, sizeof(ScalarType)).toBase64();
shotElem.setAttribute("FocalMm", QString(value));
value = QByteArray::fromRawData((char *)&cam.k, sizeof(ScalarType) * 2).toBase64();
shotElem.setAttribute("LensDistortion", QString(value));
value = QByteArray::fromRawData((char *)&cam.PixelSizeMm, sizeof(ScalarType) * 2).toBase64();
shotElem.setAttribute("PixelSizeMm", QString(value));
value = QByteArray::fromRawData((char *)&cam.ViewportPx, sizeof(int) * 2).toBase64();
shotElem.setAttribute("ViewportPx", QString(value));
//str = QString("%1 %2").arg(cam.CenterPx[0]).arg(cam.CenterPx[1]);
value = QByteArray::fromRawData((char *)&cam.CenterPx, sizeof(ScalarType) * 2).toBase64();
shotElem.setAttribute("CenterPx", QString(value));
//scale correction should no more exist !!!
//str = QString("%1").arg((double) 1);
//shotElem.setAttribute( "ScaleCorr", str);
return shotElem;
}
#endif // SHOT_QT_H