imagemagick/Magick++/lib/ChannelMoments.cpp

188 lines
5.0 KiB
C++
Raw Permalink Normal View History

2023-02-03 21:16:55 +08:00
// This may look like C code, but it is really -*- C++ -*-
//
// Copyright Dirk Lemstra 2014-2015
//
// Implementation of channel moments.
//
#define MAGICKCORE_IMPLEMENTATION 1
#define MAGICK_PLUSPLUS_IMPLEMENTATION 1
#include "Magick++/Include.h"
#include "Magick++/ChannelMoments.h"
#include "Magick++/Exception.h"
#include "Magick++/Image.h"
using namespace std;
Magick::ChannelMoments::ChannelMoments(void)
: _huInvariants(8),
_channel(UndefinedChannel),
_centroidX(0.0),
_centroidY(0.0),
_ellipseAxisX(0.0),
_ellipseAxisY(0.0),
_ellipseAngle(0.0),
_ellipseEccentricity(0.0),
_ellipseIntensity(0.0)
{
}
Magick::ChannelMoments::ChannelMoments(const ChannelMoments &channelMoments_)
: _huInvariants(channelMoments_._huInvariants),
_channel(channelMoments_._channel),
_centroidX(channelMoments_._centroidX),
_centroidY(channelMoments_._centroidY),
_ellipseAxisX(channelMoments_._ellipseAxisX),
_ellipseAxisY(channelMoments_._ellipseAxisY),
_ellipseAngle(channelMoments_._ellipseAngle),
_ellipseEccentricity(channelMoments_._ellipseEccentricity),
_ellipseIntensity(channelMoments_._ellipseIntensity)
{
}
Magick::ChannelMoments::~ChannelMoments(void)
{
}
Magick::ChannelMoments::ChannelMoments(const ChannelType channel_,
const MagickCore::ChannelMoments *channelMoments_)
: _huInvariants(),
_channel(channel_),
_centroidX(channelMoments_->centroid.x),
_centroidY(channelMoments_->centroid.y),
_ellipseAxisX(channelMoments_->ellipse_axis.x),
_ellipseAxisY(channelMoments_->ellipse_axis.y),
_ellipseAngle(channelMoments_->ellipse_angle),
_ellipseEccentricity(channelMoments_->ellipse_eccentricity),
_ellipseIntensity(channelMoments_->ellipse_intensity)
{
size_t
i;
for (i=0; i<8; i++)
_huInvariants.push_back(channelMoments_->I[i]);
}
double Magick::ChannelMoments::centroidX(void) const
{
return(_centroidX);
}
double Magick::ChannelMoments::centroidY(void) const
{
return(_centroidY);
}
Magick::ChannelType Magick::ChannelMoments::channel(void) const
{
return(_channel);
}
double Magick::ChannelMoments::ellipseAxisX(void) const
{
return(_ellipseAxisX);
}
double Magick::ChannelMoments::ellipseAxisY(void) const
{
return(_ellipseAxisY);
}
double Magick::ChannelMoments::ellipseAngle(void) const
{
return(_ellipseAngle);
}
double Magick::ChannelMoments::ellipseEccentricity(void) const
{
return(_ellipseEccentricity);
}
double Magick::ChannelMoments::ellipseIntensity(void) const
{
return(_ellipseIntensity);
}
double Magick::ChannelMoments::huInvariants(const size_t index_) const
{
if (index_ > 7)
throw ErrorOption("Valid range for index is 0-7");
return(_huInvariants.at(index_));
}
Magick::ImageMoments::ImageMoments(void)
: _channels()
{
}
Magick::ImageMoments::ImageMoments(const ImageMoments &imageMoments_)
: _channels(imageMoments_._channels)
{
}
Magick::ImageMoments::~ImageMoments(void)
{
}
Magick::ChannelMoments Magick::ImageMoments::channel(
const ChannelType channel_) const
{
for (std::vector<ChannelMoments>::const_iterator it = _channels.begin();
it != _channels.end(); ++it)
{
if (it->channel() == channel_)
return(*it);
}
return(ChannelMoments());
}
Magick::ImageMoments::ImageMoments(const Image &image_)
: _channels()
{
MagickCore::ChannelMoments*
channel_moments;
GetPPException;
channel_moments=GetImageChannelMoments(image_.constImage(),exceptionInfo);
if (channel_moments != (MagickCore::ChannelMoments *) NULL)
{
switch(image_.constImage()->colorspace)
{
case RGBColorspace:
default:
_channels.push_back(Magick::ChannelMoments(RedChannel,
&channel_moments[RedChannel]));
_channels.push_back(Magick::ChannelMoments(GreenChannel,
&channel_moments[GreenChannel]));
_channels.push_back(Magick::ChannelMoments(BlueChannel,
&channel_moments[BlueChannel]));
break;
case CMYKColorspace:
_channels.push_back(Magick::ChannelMoments(CyanChannel,
&channel_moments[CyanChannel]));
_channels.push_back(Magick::ChannelMoments(MagentaChannel,
&channel_moments[MagentaChannel]));
_channels.push_back(Magick::ChannelMoments(YellowChannel,
&channel_moments[YellowChannel]));
_channels.push_back(Magick::ChannelMoments(BlackChannel,
&channel_moments[BlackChannel]));
break;
case GRAYColorspace:
_channels.push_back(Magick::ChannelMoments(GrayChannel,
&channel_moments[GrayChannel]));
break;
}
if (image_.constImage()->matte != MagickFalse)
_channels.push_back(Magick::ChannelMoments(AlphaChannel,
&channel_moments[AlphaChannel]));
if (image_.constImage()->colorspace != GRAYColorspace)
_channels.push_back(Magick::ChannelMoments(CompositeChannels,
&channel_moments[CompositeChannels]));
channel_moments=(MagickCore::ChannelMoments *) RelinquishMagickMemory(
channel_moments);
}
ThrowPPException(image_.quiet());
}