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/*
* vim: ts=4 sw=4 et tw=0 wm=0
*
* libcola - A library providing force-directed network layout using the
* stress-majorization method subject to separation constraints.
*
* Copyright (C) 2014 Monash University
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
* See the file LICENSE.LGPL distributed with the library.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*
* Author(s): Michael Wybrow
*
*/
#include "libcola/box.h"
namespace cola {
Box::Box(double xMin, double xMax, double yMin, double yMax)
{
m_min[vpsc::XDIM] = nonNegative(xMin);
m_max[vpsc::XDIM] = nonNegative(xMax);
m_min[vpsc::YDIM] = nonNegative(yMin);
m_max[vpsc::YDIM] = nonNegative(yMax);
}
Box::Box(double all)
{
double value = nonNegative(all);
m_min[vpsc::XDIM] = value;
m_max[vpsc::XDIM] = value;
m_min[vpsc::YDIM] = value;
m_max[vpsc::YDIM] = value;
}
Box::Box()
{
m_min[vpsc::XDIM] = 0;
m_max[vpsc::XDIM] = 0;
m_min[vpsc::YDIM] = 0;
m_max[vpsc::YDIM] = 0;
}
Box::~Box()
{
}
bool Box::empty(void) const
{
// values will be nonnegative so can sum to check if empty.
int total = m_min[vpsc::XDIM] + m_max[vpsc::XDIM] +
m_min[vpsc::YDIM] + m_max[vpsc::YDIM];
return (total == 0);
}
void Box::outputCode(FILE *fp) const
{
if ((m_min[vpsc::XDIM] == m_max[vpsc::XDIM]) &&
(m_min[vpsc::XDIM] == m_min[vpsc::YDIM]) &&
(m_min[vpsc::XDIM] == m_max[vpsc::YDIM]))
{
fprintf(fp, "Box(%g)", m_min[vpsc::XDIM]);
}
else
{
fprintf(fp, "Box(%g, %g, %g, %g)", m_min[vpsc::XDIM],
m_max[vpsc::XDIM], m_min[vpsc::YDIM], m_max[vpsc::YDIM]);
}
}
vpsc::Rectangle Box::rectangleByApplyingBox(
const vpsc::Rectangle rectangle) const
{
if (!rectangle.isValid())
{
return rectangle;
}
return vpsc::Rectangle(
rectangle.getMinX() - m_min[vpsc::XDIM],
rectangle.getMaxX() + m_max[vpsc::XDIM],
rectangle.getMinY() - m_min[vpsc::YDIM],
rectangle.getMaxY() + m_max[vpsc::YDIM]);
}
double Box::nonNegative(double value)
{
return (value >= 0) ? value: 0;
}
double Box::min(size_t dim) const
{
return (dim < 2) ? m_min[dim] : 0;
}
double Box::max(size_t dim) const
{
return (dim < 2) ? m_max[dim] : 0;
}
}
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