blender-archive/source/blender/freestyle/intern/stroke/AdvancedFunctions1D.cpp

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/** \file blender/freestyle/intern/stroke/AdvancedFunctions1D.cpp
 *  \ingroup freestyle
 *  \brief Functions taking 1D input
 *  \author Stephane Grabli
 *  \author Emmanuel Turquin
 *  \date 01/07/2003
 */

#include "AdvancedFunctions1D.h"
#include "Canvas.h"

#include "../view_map/SteerableViewMap.h"

// FIXME
namespace Functions1D {

int GetSteerableViewMapDensityF1D::operator()(Interface1D& inter)
{
	SteerableViewMap * svm = Canvas::getInstance()->getSteerableViewMap();
	Interface0DIterator it = inter.pointsBegin(_sampling);
	Interface0DIterator itnext = it;
	++itnext;
	FEdge *fe;
	unsigned nSVM;
	vector<float> values;

	while (!itnext.isEnd()) {
		Interface0D& i0D = (*it);
		Interface0D& i0Dnext = (*itnext);
		fe = i0D.getFEdge(i0Dnext);
		if (fe == 0) {
			cerr << "GetSteerableViewMapDensityF1D warning: no FEdge between " << i0D.getId() << " and "
			     << i0Dnext.getId() << endl;
			// compute the direction between these two ???
			Vec2f dir = i0Dnext.getPoint2D() - i0D.getPoint2D();
			nSVM = svm->getSVMNumber(dir);
		}
		else {
			nSVM = svm->getSVMNumber(fe->getId().getFirst());
		}
		Vec2r m((i0D.getProjectedX() + i0Dnext.getProjectedX()) / 2.0,
		        (i0D.getProjectedY() + i0Dnext.getProjectedY()) / 2.0);
		values.push_back(svm->readSteerableViewMapPixel(nSVM, _level, (int)m[0], (int)m[1]));
		++it;
		++itnext;
	}

	float res, res_tmp;
	vector<float>::iterator v = values.begin(), vend = values.end();
	unsigned size = 1;
	switch (_integration) {
		case MIN:
			res = *v;
			++v;
			for (; v != vend; ++v) {
				res_tmp = *v;
				if (res_tmp < res)
					res = res_tmp;
			}
			break;
		case MAX:
			res = *v;
			++v;
			for (; v != vend; ++v) {
				res_tmp = *v;
				if (res_tmp > res)
					res = res_tmp;
			}
			break;
		case FIRST:
			res = *v;
			break;
		case LAST:
			--vend;
			res = *vend;
			break;
		case MEAN:
		default:
			res = *v;
			++v;
			for (; v != vend; ++v, ++size)
				res += *v;
			res /= (size ? size : 1);
			break;
	}
	result = res;
	return 0;
}

int GetDirectionalViewMapDensityF1D::operator()(Interface1D& inter)
{
	//soc unsigned size;
	result = integrate(_fun, inter.pointsBegin(_sampling), inter.pointsEnd(_sampling), _integration);
	return 0;
} 

int GetCompleteViewMapDensityF1D::operator()(Interface1D& inter)
{
	//soc unsigned size;
	Id id = inter.getId();
	result = integrate(_fun, inter.pointsBegin(_sampling), inter.pointsEnd(_sampling), _integration);
	return 0;
}

int GetViewMapGradientNormF1D::operator()(Interface1D& inter)
{
	result = integrate(_func, inter.pointsBegin(_sampling), inter.pointsEnd(_sampling), _integration);
	return 0;
}

}  // Functions1D namespace