/*# --------------------------------------------------------------------- # # 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. # ------------------------------------------------------------------------ */ /** * \file * \author Eduardo Davila and Claire Mouton. * \brief Class bbtk::ThresholdImageView. * \date September 2012 */ #include "ColorLayerImageView.h" #include #include #include #include //========================================================================= //========================================================================= //========================================================================= //========================================================================= ColorLayerImageView::ColorLayerImageView( ) { _z2 = 0; _fix_dynamic = true; _color_type = false; } //========================================================================= ColorLayerImageView::~ColorLayerImageView() { } //========================================================================= //---------------------------------------------------------------------------- void ColorLayerImageView::SetSliceFixDynamic(bool fix_dynamic) { _fix_dynamic = fix_dynamic; } //---------------------------------------------------------------------------- void ColorLayerImageView::SetX2(int x2) { _x2 = x2; } //---------------------------------------------------------------------------- void ColorLayerImageView::SetY2(int y2) { _y2 = y2; } //---------------------------------------------------------------------------- void ColorLayerImageView::SetZ2(int z2) { _z2 = z2; } //---------------------------------------------------------------------------- int ColorLayerImageView::GetX() // virtual { int result=0; if (_fix_dynamic==false) { result = _x2; } else { result = LayerImageBase::GetX(); } return result; } //---------------------------------------------------------------------------- int ColorLayerImageView::GetY() // virtual { int result=0; if (_fix_dynamic==false) { result = _y2; } else { result = LayerImageBase::GetY(); } return result; } //---------------------------------------------------------------------------- int ColorLayerImageView::GetZ() // virtual { int result=0; if (_fix_dynamic==false) { result = _z2; } else { result = LayerImageBase::GetZ(); } return result; } //---------------------------------------------------------------------------- void ColorLayerImageView::SetBaseColors(std::vector & base_color) { // The base color vector must be of a size multiple of 3, not null. if (base_color.size() != 0 && base_color.size() % 3 == 0) _base_color = base_color; // Otherwise, an exception should be thrown. else if (base_color.size() != 0) std::cout << "CM ColorLayerImageView::SetBaseColors : ERROR!!! The base color vector has an inconsistent size. It must be of a size multiple of 3, different from 0, but its size is: "<< base_color.size() << ". Therefore, the default values will be used as base colors." << std::endl; } //---------------------------------------------------------------------------- double ColorLayerImageView::GetBaseColors(unsigned int index) { if (_base_color.size() > index) return _base_color.at(index); // An exception should be thrown if the index does not exist in the color vector. else { std::cout << "CM ColorLayerImageView::GetBaseColors : ERROR!!! The index " << index << "is out of the base color vector range." << std ::endl; return -1.0; } } //---------------------------------------------------------------------------- void ColorLayerImageView::SetGreyLevelBoundaries(std::vector & grey_level_boundary) { // The size must be greater than or equal to 2 (at least min and max must exist). if ( grey_level_boundary.size() >= 2) { sort ( grey_level_boundary.begin(), grey_level_boundary.end() ); _grey_level_boundary = grey_level_boundary; } // Otherwise, an exception should be thrown. else if (grey_level_boundary.size() != 0) std::cout << "CM ColorLayerImageView::SetGreyLevelBoundaries : ERROR!!! The grey level boundaries vector has an inconsistent size. It must be of a size greater than or equal to 2 (at least min and max must exist), but its size is: " << grey_level_boundary.size() << ". Therefore, the histogram will be equally split." << std::endl; } //---------------------------------------------------------------------------- double ColorLayerImageView::GetGreyLevelBoundaries(unsigned int index) { if (_grey_level_boundary.size() > index) return _grey_level_boundary.at(index); // An exception should be thrown if the index does not exist in the grey level boundary vector. else { std::cout << "CM ColorLayerImageView::GetGreyLevelBoundaries : ERROR!!! The index " << index << "is out of the grey level boundaries vector range." << std ::endl; return -1.0; } } //---------------------------------------------------------------------------- void ColorLayerImageView::SetPlainOrGradientColor(bool color_type) { _color_type = color_type; } //---------------------------------------------------------------------------- int ColorLayerImageView::GetBaseColorNb() { return _base_color.size()/3; } //---------------------------------------------------------------------------- void ColorLayerImageView::SetDefaultGreyLevelBoundary() { // CM Sets the default behaviour concerning the lookup table keeping the base colors already set. _grey_level_boundary.clear(); // This avoids a potential division by 0 through delta during the lookup table configuration. if (_range[1]==0) { _range[1]=255; } // Grey level extrema are set by default to the image grey level extrema. int minTot = floor (_range[0]); int maxTot = ceil (_range[1]); _grey_level_boundary.push_back((double)minTot); // By default, the histogram is split into BaseColorNb areas of equal width. double delta = (maxTot - minTot)/GetBaseColorNb(); for (int i = 1; i <= GetBaseColorNb() ; i ++) { _grey_level_boundary.push_back((double)minTot + i * delta); } } //---------------------------------------------------------------------------- void ColorLayerImageView::SetDefaultBaseColorAndGreyLevelBoundary() { // CM Sets the default behaviour concerning the lookup table. _grey_level_boundary.clear(); _base_color.clear(); // Base colors are set to blue, yellow and red. // Blue. _base_color.push_back(0.0); _base_color.push_back(0.0); _base_color.push_back(1.0); // Yellow. _base_color.push_back(1.0); _base_color.push_back(1.0); _base_color.push_back(0.0); // Red. _base_color.push_back(1.0); _base_color.push_back(0.0); _base_color.push_back(0.0); // This avoids a potential division by 0 through delta during the lookup table configuration. if (_range[1]==0) { _range[1]=255; } int minTot = floor (_range[0]); int maxTot = ceil (_range[1]); _grey_level_boundary.push_back((double)minTot); // By default, the histogram is split into three areas of equal width. double delta = (maxTot - minTot)/3.0; _grey_level_boundary.push_back(minTot + delta); _grey_level_boundary.push_back(minTot + 2*delta); _grey_level_boundary.push_back((double)maxTot); } //---------------------------------------------------------------------------- void ColorLayerImageView::ConfigLookupTable() // virtual { // CM // Grey level extrema retrieved from the image grey level extrema. /* printf("ERROR: EED ColorLayerImageView::ConfigLookupTable ------_range----------------\n"); _range[0]=0; _range[1]=4000; */ GetImage()->GetScalarRange(_range); // ------------------ Setting Default Values // Checks the size consistency of vectors _base_color and _grey_level_boundary. // In case of inconsistency, an exception should be thrown. Instead, the default values are set. if (GetBaseColorNb() == 0) SetDefaultBaseColorAndGreyLevelBoundary(); // If at least one color has been set, set the grey level boundaries to build an equipartition of the image grey levels, keeping the base colors defined. else if (GetBaseColorNb() != (_grey_level_boundary.size() - 1) ) { std::cout << "CM ColorLayerImageView::ConfigLookupTable : ERROR!!! Inconsistency between the sizes of vectors _base_color and _grey_level_boundary. _base_color.size()/3 (=" <<_base_color.size()/3 << ") should be equal to _grey_level_boundary.size() - 1 (=" << _grey_level_boundary.size() - 1 << ")." << std::endl; std::cout << "CM The default values for the base colors and the grey level boundaries will be set." << std::endl; SetDefaultGreyLevelBoundary(); } // ------------------ End Of Setting Default Values // ------------------ Defining the Threshold Table vtkLookupTable* thresholdTable = GetThresholdTable(); // CM Number of table values consistent with the effective number of values (see loop below). double thresholdTable_range[2]; thresholdTable_range[1]= std::max( GetGreyLevelBoundaries( GetBaseColorNb() ), ceil(_range[1]) ); thresholdTable_range[0]= std::min( GetGreyLevelBoundaries(0), floor(_range[0]) ); thresholdTable->SetNumberOfTableValues(thresholdTable_range[1] - thresholdTable_range[0] + 1); thresholdTable->SetTableRange(thresholdTable_range); thresholdTable->SetAlphaRange(0, 1); thresholdTable->SetValueRange(0, 1); thresholdTable->SetSaturationRange(0, 0); thresholdTable->SetRampToLinear( ); // Defines the lookup table. // If the image has a degradation in one (or both) extremum (lower or higher), // sets the corresponding grey levels as transparent white in the lookup table. for (int i = floor(_range[0]); i <= GetGreyLevelBoundaries(0); i++) { thresholdTable -> SetTableValue( i, 0, 0, 0, 0); } for (int i = GetGreyLevelBoundaries( GetBaseColorNb() ) + 1 ; i <= ceil(_range[1]); i++) { thresholdTable -> SetTableValue( i, 0, 0, 0, 0); } int delta; // _color_type true, i.e. plain colors. // Sets the plain color for each grey level interval. if (_color_type) { for (int i = 0; i < GetBaseColorNb(); i++) { delta = GetGreyLevelBoundaries(i+1) - GetGreyLevelBoundaries(i); for (int ii = 1; ii <= delta; ii++) { thresholdTable->SetTableValue(GetGreyLevelBoundaries(i) + ii, GetBaseColors(i*3), GetBaseColors(i*3 + 1), GetBaseColors(i*3 + 2), 1); } } } // End Of if (_color_type) // _color_type false, i.e. gradient color else { // First color: // Creates a linear range from white to the first color. delta = GetGreyLevelBoundaries(1) - GetGreyLevelBoundaries(0); for (int ii = 1; ii <= delta ; ii++) { thresholdTable->SetTableValue( GetGreyLevelBoundaries(0) + ii, GetBaseColors(0) * ii/delta, GetBaseColors(1) * ii/delta, GetBaseColors(2) * ii/delta, 1); } // If other colors exist: // Creates linear ranges between one color and the following in the color vector. if (GetBaseColorNb() > 1) { for (int i = 1; i < GetBaseColorNb(); i++) { delta = GetGreyLevelBoundaries(i+1) - GetGreyLevelBoundaries(i); for (int ii = 1; ii <= delta; ii++) { // Color computation : previous_color + (current_color - previous_color)/delta * ii thresholdTable->SetTableValue(GetGreyLevelBoundaries(i) + ii, GetBaseColors((i-1)*3) + (GetBaseColors(i*3) - GetBaseColors((i-1)*3)) / delta * ii , GetBaseColors((i-1)*3 + 1) + (GetBaseColors(i*3 + 1) - GetBaseColors((i-1)*3 + 1)) / delta * ii , GetBaseColors((i-1)*3 + 2) + (GetBaseColors(i*3 + 2) - GetBaseColors((i-1)*3 + 2)) / delta * ii , 1); } } } } // End Of if (!_color_type) thresholdTable->Build( ); // ------------------ End Of Defining the Threshold Table //EO CM } // EOF