+/*# ---------------------------------------------------------------------
+#
+# Copyright (c) CREATIS (Centre de Recherche en Acquisition et Traitement de l'Image
+# pour la Sant�)
+# Authors : Eduardo Davila, Frederic Cervenansky, Claire Mouton
+# Previous Authors : Laurent Guigues, Jean-Pierre Roux
+# CreaTools website : www.creatis.insa-lyon.fr/site/fr/creatools_accueil
+#
+# This software is governed by the CeCILL-B license under French law and
+# abiding by the rules of distribution of free software. You can use,
+# modify and/ or redistribute the software under the terms of the CeCILL-B
+# license as circulated by CEA, CNRS and INRIA at the following URL
+# http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html
+# or in the file LICENSE.txt.
+#
+# As a counterpart to the access to the source code and rights to copy,
+# modify and redistribute granted by the license, users are provided only
+# with a limited warranty and the software's author, the holder of the
+# economic rights, and the successive licensors have only limited
+# liability.
+#
+# The fact that you are presently reading this means that you have had
+# knowledge of the CeCILL-B license and that you accept its terms.
+# ------------------------------------------------------------------------ */
+
#include "wxMaracasRenderImageTransformation.h"
+#include "wxMaracasRendererView.h"
/**
** Class constructor
**/
-wxMaracasRenderImageTransformation::wxMaracasRenderImageTransformation(wxMaracasMultipleVolumeRendererManager* _vol, wxMaracasSurfaceRenderingManager* _surface1,
- wxMaracasSurfaceRenderingManager* _surface2, wxMaracasSurfaceRenderingManager* _surface3, int id)
+wxMaracasRenderImageTransformation::wxMaracasRenderImageTransformation(VolumeRendererManager* _vol, wxMaracasSurfaceRenderingManager* _surface1,
+ wxMaracasSurfaceRenderingManager* _surface2, wxMaracasSurfaceRenderingManager* _surface3, int id)
{
vol = _vol;
surface1 = _surface1;
surface2 = _surface2;
surface3 = _surface3;
-
+
+ propID = id;
transformV = vtkTransform::New();
transformS1 = vtkTransform::New();
transformS2 = vtkTransform::New();
transformS3 = vtkTransform::New();
-
}
/**
double volspX;
double volspY;
double volspZ;
-
vol->getImageData()->GetSpacing(volspX, volspY, volspZ);
-
+
double surfspX;
double surfspY;
double surfspZ;
surface1->getImageData()->GetSpacing(surfspX, surfspY, surfspZ);
+ int ext[6];
+ vol->getImageData()->GetExtent(ext);
+
transformV->Identity();
transformS1->Identity();
transformS2->Identity();
transformS3->Identity();
- transformV->Translate( tx/*volspX*/, ty/*volspY*/, tz/*volspZ*/ );
- transformS1->Translate( tx/*surfspX*/, ty/*surfspY*/, tz/*surfspZ*/ );
- transformS2->Translate( tx/*surfspX*/, ty/*surfspY*/, tz/*surfspZ*/ );
- transformS3->Translate( tx/*surfspX*/, ty/*surfspY*/, tz/*surfspZ*/ );
-
- transformV->RotateX( rx/*volspX*/ );
- transformS1->RotateX( rx/*surfspX*/ );
- transformS2->RotateX( rx/*surfspX*/ );
- transformS3->RotateX( rx/*surfspX*/ );
-
- transformV->RotateY( ry/*volspY*/ );
- transformS1->RotateY( ry/*surfspY*/ );
- transformS2->RotateY( ry/*surfspY*/ );
- transformS3->RotateY( ry/*surfspY*/ );
+ transformV->PostMultiply();
+ transformS1->PostMultiply();
+ transformS2->PostMultiply();
+ transformS3->PostMultiply();
+
+ printf("CPR: wxMaracasRenderImageTransformation::Translate-> %f\n", -(ext[1]-ext[0])*volspX );
+ printf("CPR: wxMaracasRenderImageTransformation::Translate-> %f\n", -(ext[3]-ext[2])*surfspY);
+ printf("CPR: wxMaracasRenderImageTransformation::Translate-> %f\n", -(ext[5]-ext[4])*surfspZ);
- transformV->RotateZ( rz/*volspZ*/ );
- transformS1->RotateZ( rz/*surfspZ*/ );
- transformS2->RotateZ( rz/*surfspZ*/ );
- transformS3->RotateZ( rz/*surfspZ*/ );
+ transformV ->Translate( -(ext[1]-ext[0])*volspX/2, -(ext[3]-ext[2])*volspY/2, -(ext[5]-ext[4])*volspZ/2 );
+ transformS1->Translate( -(ext[1]-ext[0])*surfspX/2, -(ext[3]-ext[2])*surfspY/2, -(ext[5]-ext[4])*surfspZ/2 );
+ transformS2->Translate( -(ext[1]-ext[0])*surfspX/2, -(ext[3]-ext[2])*surfspY/2, -(ext[5]-ext[4])*surfspZ/2 );
+ transformS3->Translate( -(ext[1]-ext[0])*surfspX/2, -(ext[3]-ext[2])*surfspY/2, -(ext[5]-ext[4])*surfspZ/2 );
- transformV->Scale( (sx/100.0), (sy/100.0), (sz/100.0) );
+ transformV ->Scale( (sx/100.0), (sy/100.0), (sz/100.0) );
transformS1->Scale( (sx/100.0), (sy/100.0), (sz/100.0) );
transformS2->Scale( (sx/100.0), (sy/100.0), (sz/100.0) );
transformS3->Scale( (sx/100.0), (sy/100.0), (sz/100.0) );
- Refresh();
-}
+ transformV ->RotateX( rx );
+ transformS1->RotateX( rx );
+ transformS2->RotateX( rx );
+ transformS3->RotateX( rx );
+ transformV ->RotateY( ry );
+ transformS1->RotateY( ry );
+ transformS2->RotateY( ry );
+ transformS3->RotateY( ry );
-/**
-** Scales a volume by the given value for the X axis
-*
-void wxMaracasRenderImageTransformation::Scale(int x, int y, int z)
-{
- float resultX = x/100.0;
- float resultY = y/100.0;
- float resultZ = z/100.0;
+ transformV ->RotateZ( rz );
+ transformS1->RotateZ( rz );
+ transformS2->RotateZ( rz );
+ transformS3->RotateZ( rz );
- //printf("wxMaracasRenderImageManagementPanel::Rotate int:scaleX = %d \n",x);
- //printf("wxMaracasRenderImageManagementPanel::Rotate int:scaleY = %d \n", y);
- //printf("wxMaracasRenderImageManagementPanel::Rotate int:scaleZ = %d \n", z);
+ transformV ->Translate( tx*volspX + (ext[1]-ext[0])*volspX/2, ty*volspY + (ext[3]-ext[2])*volspY/2, tz*volspZ + (ext[5]-ext[4])*volspZ/2 );
+ transformS1->Translate( tx*surfspX + (ext[1]-ext[0])*volspX/2, ty*surfspY + (ext[3]-ext[2])*volspY/2, tz*surfspZ + (ext[5]-ext[4])*volspZ/2 );
+ transformS2->Translate( tx*surfspX + (ext[1]-ext[0])*volspX/2, ty*surfspY + (ext[3]-ext[2])*volspY/2, tz*surfspZ + (ext[5]-ext[4])*volspZ/2 );
+ transformS3->Translate( tx*surfspX + (ext[1]-ext[0])*volspX/2, ty*surfspY + (ext[3]-ext[2])*volspY/2, tz*surfspZ + (ext[5]-ext[4])*volspZ/2 );
Refresh();
-}*/
+}
/**
** Updates each Matrix
transformS3->Update();
vol->getViewData(propID)->getProp3D()->SetUserMatrix(transformV->GetMatrix());
- //vol->getRenderer()->Render();
+ //vol->Update(propID);
surface1->getViewData(propID)->getProp3D()->SetUserMatrix(transformV->GetMatrix());
- //surface1->getRenderer()->Render();
+ //surface1->Update(propID);
surface2->getViewData(propID)->getProp3D()->SetUserMatrix(transformV->GetMatrix());
//surface2->getRenderer()->Render();