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DEFINITIONS
This source file includes following definitions.
- Usage
- ParseError
- main
// This may look like C code, but it is really -*- C++ -*-
//
// Copyright Bob Friesenhahn, 2001, 2002, 2003
//
// Resize image using specified resize algorithm with Magick++ API
//
// Usage: zoom [-density resolution] [-filter algorithm] [-geometry geometry]
// [-resample resolution] input_file output_file
//
#include <Magick++.h>
#include <iostream>
#include <string>
using namespace std;
using namespace Magick;
static void Usage ( char **argv )
{
cout << "Usage: " << argv[0]
<< " [-density resolution] [-filter algorithm] [-geometry geometry]"
<< " [-resample resolution] input_file output_file" << endl
<< " algorithm - bessel blackman box catrom cubic gaussian hamming hanning" << endl
<< " hermite lanczos mitchell point quadratic sample scale sinc triangle" << endl;
exit(1);
}
static void ParseError (int position, char **argv)
{
cout << "Argument \"" << argv[position] << "\" at position" << position
<< "incorrect" << endl;
Usage(argv);
}
int main(int argc,char **argv)
{
// Initialize ImageMagick install location for Windows
InitializeMagick(*argv);
if ( argc < 2 )
Usage(argv);
enum ResizeAlgorithm
{
Zoom,
Scale,
Sample
};
{
Geometry density;
Geometry geometry;
Geometry resample;
Magick::FilterTypes filter(LanczosFilter);
ResizeAlgorithm resize_algorithm=Zoom;
int argv_index=1;
while ((argv_index < argc - 2) && (*argv[argv_index] == '-'))
{
std::string command(argv[argv_index]);
if (command.compare("-density") == 0)
{
argv_index++;
try {
density=Geometry(argv[argv_index]);
}
catch( exception &/* error_ */)
{
ParseError(argv_index,argv);
}
argv_index++;
continue;
}
else if (command.compare("-filter") == 0)
{
argv_index++;
std::string algorithm(argv[argv_index]);
if (algorithm.compare("point") == 0)
filter=PointFilter;
else if (algorithm.compare("box") == 0)
filter=BoxFilter;
else if (algorithm.compare("triangle") == 0)
filter=TriangleFilter;
else if (algorithm.compare("hermite") == 0)
filter=HermiteFilter;
else if (algorithm.compare("hanning") == 0)
filter=HanningFilter;
else if (algorithm.compare("hamming") == 0)
filter=HammingFilter;
else if (algorithm.compare("blackman") == 0)
filter=BlackmanFilter;
else if (algorithm.compare("gaussian") == 0)
filter=GaussianFilter;
else if (algorithm.compare("quadratic") == 0)
filter=QuadraticFilter;
else if (algorithm.compare("cubic") == 0)
filter=CubicFilter;
else if (algorithm.compare("catrom") == 0)
filter=CatromFilter;
else if (algorithm.compare("mitchell") == 0)
filter=MitchellFilter;
else if (algorithm.compare("lanczos") == 0)
filter=LanczosFilter;
else if (algorithm.compare("bessel") == 0)
filter=BesselFilter;
else if (algorithm.compare("sinc") == 0)
filter=SincFilter;
else if (algorithm.compare("sample") == 0)
resize_algorithm=Sample;
else if (algorithm.compare("scale") == 0)
resize_algorithm=Scale;
else
ParseError(argv_index,argv);
argv_index++;
continue;
}
else if (command.compare("-geometry") == 0)
{
argv_index++;
try {
geometry=Geometry(argv[argv_index]);
}
catch( exception &/* error_ */)
{
ParseError(argv_index,argv);
}
argv_index++;
continue;
}
else if (command.compare("-resample") == 0)
{
argv_index++;
try {
resample=Geometry(argv[argv_index]);
}
catch( exception &/* error_ */)
{
ParseError(argv_index,argv);
}
argv_index++;
continue;
}
ParseError(argv_index,argv);
}
if (argv_index>argc-1)
ParseError(argv_index,argv);
std::string input_file(argv[argv_index]);
argv_index++;
if (argv_index>argc)
ParseError(argv_index,argv);
std::string output_file(argv[argv_index]);
try {
Image image(input_file);
if (density.isValid())
image.density(density);
density=image.density();
if (resample.isValid())
{
geometry =
Geometry(static_cast<size_t>
(image.columns()*((double)resample.width()/density.width())+0.5),
static_cast<size_t>
(image.rows()*((double)resample.height()/density.height())+0.5));
image.density(resample);
}
switch (resize_algorithm)
{
case Sample:
image.sample(geometry);
break;
case Scale:
image.scale(geometry);
break;
case Zoom:
image.filterType(filter);
image.zoom(geometry);
break;
}
image.write(output_file);
}
catch( exception &error_ )
{
cout << "Caught exception: " << error_.what() << endl;
return 1;
}
}
return 0;
}