root/Magick++/lib/Geometry.cpp

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DEFINITIONS

This source file includes following definitions.
  1. _limitPixels
  2. _limitPixels
  3. _limitPixels
  4. _limitPixels
  5. _limitPixels
  6. _limitPixels
  7. _y
  8. _y
  9. _y
  10. _y
  11. _y
  12. x
  13. y

// This may look like C code, but it is really -*- C++ -*-
//
// Copyright Bob Friesenhahn, 1999, 2000, 2001, 2002, 2003
// Copyright Dirk Lemstra 2014
//
// Geometry implementation
//

#define MAGICKCORE_IMPLEMENTATION  1
#define MAGICK_PLUSPLUS_IMPLEMENTATION 1

#include "Magick++/Include.h"
#include <string>
#include <ctype.h> // for isdigit
#if !defined(MAGICKCORE_WINDOWS_SUPPORT)
#include <strings.h>
#endif

using namespace std;

#include "Magick++/Geometry.h"
#include "Magick++/Exception.h"

MagickPPExport int Magick::operator == (const Magick::Geometry& left_,
  const Magick::Geometry& right_)
{
  return((left_.aspect() == right_.aspect()) &&
    (left_.fillArea() == right_.fillArea()) &&
    (left_.greater() == right_.greater()) &&
    (left_.height() == right_.height()) &&
    (left_.isValid() == right_.isValid()) &&
    (left_.less() == right_.less()) &&
    (left_.limitPixels() == right_.limitPixels()) &&
    (left_.percent() == right_.percent()) &&
    (left_.width() == right_.width()) &&
    (left_.xNegative() == right_.xNegative()) &&
    (left_.xOff() == right_.xOff()) &&
    (left_.yNegative() == right_.yNegative()) &&
    (left_.yOff() == right_.yOff()));
}

MagickPPExport int Magick::operator != (const Magick::Geometry& left_,
  const Magick::Geometry& right_)
{
  return(!(left_ == right_));
}

MagickPPExport int Magick::operator > (const Magick::Geometry& left_,
  const Magick::Geometry& right_)
{
  return(!(left_ < right_) && (left_ != right_));
}

MagickPPExport int Magick::operator < (const Magick::Geometry& left_,
  const Magick::Geometry& right_)
{
  return((left_.width()*left_.height()) < (right_.width()*right_.height()));
}

MagickPPExport int Magick::operator >= (const Magick::Geometry& left_,
  const Magick::Geometry& right_)
{
  return((left_ > right_) || (left_ == right_));
}

MagickPPExport int Magick::operator <= (const Magick::Geometry& left_,
  const Magick::Geometry& right_ )
{
  return((left_ < right_) || (left_ == right_));
}

Magick::Geometry::Geometry(void)
  : _width(0),
    _height(0),
    _xOff(0),
    _yOff(0),
    _xNegative(false),
    _yNegative(false),
    _isValid(false),
    _percent(false),
    _aspect(false),
    _greater(false),
    _less(false),
    _fillArea(false),
    _limitPixels(false)
{
}

Magick::Geometry::Geometry(const char *geometry_)
  : _width(0),
    _height(0),
    _xOff(0),
    _yOff(0),
    _xNegative(false),
    _yNegative(false),
    _isValid(false),
    _percent(false),
    _aspect(false),
    _greater(false),
    _less(false),
    _fillArea(false),
    _limitPixels(false)
{
  *this=geometry_; // Use assignment operator
}

Magick::Geometry::Geometry(const Geometry &geometry_)
  : _width(geometry_._width),
    _height(geometry_._height),
    _xOff(geometry_._xOff),
    _yOff(geometry_._yOff),
    _xNegative(geometry_._xNegative),
    _yNegative(geometry_._yNegative),
    _isValid(geometry_._isValid),
    _percent(geometry_._percent),
    _aspect(geometry_._aspect),
    _greater(geometry_._greater),
    _less(geometry_._less),
    _fillArea(geometry_._fillArea),
    _limitPixels(geometry_._limitPixels)
{
}

Magick::Geometry::Geometry(const std::string &geometry_)
  : _width(0),
    _height(0),
    _xOff(0),
    _yOff(0),
    _xNegative(false),
    _yNegative(false),
    _isValid(false),
    _percent(false),
    _aspect(false),
    _greater(false),
    _less(false),
    _fillArea(false),
    _limitPixels(false)
{
  *this=geometry_; // Use assignment operator
}

Magick::Geometry::Geometry(size_t width_,size_t height_,ssize_t xOff_,
  ssize_t yOff_,bool xNegative_,bool yNegative_)
  : _width(width_),
    _height(height_),
    _xOff(xOff_),
    _yOff(yOff_),
    _xNegative(xNegative_),
    _yNegative(yNegative_),
    _isValid(true),
    _percent(false),
    _aspect(false),
    _greater(false),
    _less(false),
    _fillArea(false),
    _limitPixels(false)
{
}

Magick::Geometry::~Geometry(void)
{
}

const Magick::Geometry& Magick::Geometry::operator=(const char * geometry_)
{
  *this=std::string(geometry_);
  return(*this);
}

Magick::Geometry& Magick::Geometry::operator=(const Geometry& geometry_)
{
  // If not being set to ourself
  if (this != &geometry_)
    {
      _width=geometry_._width;
      _height=geometry_._height;
      _xOff=geometry_._xOff;
      _yOff=geometry_._yOff;
      _xNegative=geometry_._xNegative;
      _yNegative=geometry_._yNegative;
      _isValid=geometry_._isValid;
      _percent=geometry_._percent;
      _aspect=geometry_._aspect;
      _greater=geometry_._greater;
      _less=geometry_._less;
      _fillArea=geometry_._fillArea;
      _limitPixels=geometry_._limitPixels;
    }
  return(*this);
}

const Magick::Geometry& Magick::Geometry::operator=(
  const std::string &geometry_)
{
  char
    geom[MaxTextExtent];

  char
    *pageptr;

  ssize_t
    flags,
    x = 0,
    y = 0;

  size_t
    height_val=0,
    width_val=0;

  // If argument does not start with digit, presume that it is a
  // page-size specification that needs to be converted to an
  // equivalent geometry specification using PostscriptGeometry()
  (void) CopyMagickString(geom,geometry_.c_str(),MaxTextExtent);
  if (geom[0] != '-' && geom[0] != '+' && geom[0] != 'x' &&
      !isdigit(static_cast<int>(geom[0])))
    {
      pageptr=GetPageGeometry(geom);
      if (pageptr != 0)
        {
          (void) CopyMagickString(geom,pageptr,MaxTextExtent);
          pageptr=(char *) RelinquishMagickMemory(pageptr);
        }
    }

  flags=GetGeometry(geom,&x,&y,&width_val,&height_val);

  if (flags == NoValue)
    {
      // Total failure!
      *this=Geometry();
      isValid(false);
      return(*this);
    }

  if ((flags & WidthValue) != 0)
    {
      _width=width_val;
      isValid(true);
    }

  if ((flags & HeightValue) != 0)
    {
      _height=height_val;
      isValid(true);
    }

  if ((flags & XValue) != 0)
    {
      _xOff=static_cast<ssize_t>(x);
      isValid(true);
    }

  if ((flags & YValue) != 0)
    {
      _yOff=static_cast<ssize_t>(y);
      isValid(true);
    }

  if ((flags & XNegative) != 0)
    _xNegative=true;

  if ((flags & YNegative) != 0)
    _yNegative=true;

  if ((flags & PercentValue) != 0)
    _percent=true;

  if ((flags & AspectValue) != 0)
    _aspect=true;

  if ((flags & LessValue) != 0)
    _less=true;

  if ((flags & GreaterValue) != 0)
    _greater=true;

  if ((flags & MinimumValue) != 0)
    _fillArea=true;

  if ((flags & AreaValue) != 0)
    _limitPixels=true;

  return(*this);
}

Magick::Geometry::operator std::string() const
{
  char
    buffer[MaxTextExtent];

  std::string
    geometry;

  if (!isValid())
    throwExceptionExplicit(OptionError,"Invalid geometry argument");

  if (_width)
    {
      FormatLocaleString(buffer,MaxTextExtent,"%.20g",(double) _width);
      geometry+=buffer;
    }

  if (_height)
    {
      FormatLocaleString(buffer,MaxTextExtent,"%.20g",(double) _height);
      geometry+='x';
      geometry+=buffer;
    }

  if (_xOff || _yOff)
    {
      if (_xNegative)
        geometry+='-';
      else
        geometry+='+';

      FormatLocaleString(buffer,MaxTextExtent,"%.20g",(double) _xOff);
      geometry+=buffer;

      if (_yNegative)
        geometry+='-';
      else
        geometry+='+';

      FormatLocaleString(buffer,MaxTextExtent,"%.20g",(double) _yOff);
      geometry+=buffer;
    }

  if (_percent)
    geometry+='%';

  if (_aspect)
    geometry+='!';

  if (_greater)
    geometry+='>';

  if (_less)
    geometry+='<';

  if (_fillArea)
    geometry+='^';

  if (_limitPixels)
    geometry+='@';

  return(geometry);
}

Magick::Geometry::Geometry(const MagickCore::RectangleInfo &rectangle_)
  : _width(static_cast<size_t>(rectangle_.width)),
    _height(static_cast<size_t>(rectangle_.height)),
    _xOff(static_cast<ssize_t>(rectangle_.x)),
    _yOff(static_cast<ssize_t>(rectangle_.y)),
    _xNegative(rectangle_.x < 0 ? true : false),
    _yNegative(rectangle_.y < 0 ? true : false),
    _isValid(true),
    _percent(false),
    _aspect(false),
    _greater(false),
    _less(false),
    _fillArea(false),
    _limitPixels(false)
{
}

const Magick::Geometry& Magick::Geometry::operator=(
  const MagickCore::RectangleInfo &rectangle_)
{
  _width=static_cast<size_t>(rectangle_.width),
  _height=static_cast<size_t>(rectangle_.height),
  _xOff=static_cast<ssize_t>(rectangle_.x),
  _yOff=static_cast<ssize_t>(rectangle_.y),
  _xNegative=rectangle_.x < 0 ? true : false,
  _yNegative=rectangle_.y < 0 ? true : false,
  _isValid=true;
  return(*this);
}

Magick::Geometry::operator MagickCore::RectangleInfo() const
{
  RectangleInfo rectangle;
  rectangle.width=_width;
  rectangle.height=_height;
  _xNegative ? rectangle.x=static_cast<ssize_t>(0-_xOff) :
    rectangle.x=static_cast<ssize_t>(_xOff);
  _yNegative ? rectangle.y=static_cast<ssize_t>(0-_yOff) :
    rectangle.y=static_cast<ssize_t>(_yOff);
  return(rectangle);
}

MagickPPExport int Magick::operator == (const Magick::Offset& left_,
  const Magick::Offset& right_)
{
  return((left_.x() == right_.x()) &&
    (left_.y() == right_.y()));
}

MagickPPExport int Magick::operator != (const Magick::Offset& left_,
  const Magick::Offset& right_)
{
  return(!(left_ == right_));
}

Magick::Offset::Offset(void)
  : _x(0),
    _y(0)
{
}

Magick::Offset::Offset(const char *offset_)
  : _x(0),
    _y(0)
{
  *this=offset_; // Use assignment operator
}

Magick::Offset::Offset(const Offset &offset_)
  : _x(offset_._x),
    _y(offset_._y)
{
}

Magick::Offset::Offset(const std::string &offset_)
  : _x(0),
    _y(0)
{
  *this=offset_; // Use assignment operator
}

Magick::Offset::Offset(ssize_t x_,ssize_t y_)
  : _x(x_),
    _y(y_)
{
}

Magick::Offset::~Offset(void)
{
}

const Magick::Offset& Magick::Offset::operator=(const char *offset_)
{
  MagickCore::GeometryInfo
    geometry_info;

  MagickCore::MagickStatusType
    flags;

  flags=ParseGeometry(offset_,&geometry_info);
  _x=geometry_info.rho;
  _y=geometry_info.sigma;
  if ((flags & MagickCore::SigmaValue) == 0)
    _y=_x;
  return(*this);
}

Magick::Offset& Magick::Offset::operator=(const Offset &offset_)
{
  // If not being set to ourself
  if (this != &offset_)
    {
      _x=offset_._x;
      _y=offset_._y;
    }
  return(*this);
}

const Magick::Offset& Magick::Offset::operator=(const std::string &offset_)
{
  *this=offset_.c_str();
  return(*this);
}

ssize_t Magick::Offset::x(void) const
{
  return(_x);
}

ssize_t Magick::Offset::y(void) const
{
  return(_y);
}

Magick::Offset::operator MagickCore::OffsetInfo() const
{
  OffsetInfo offset;
  offset.x=_x;
  offset.y=_y;
  return(offset);

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