Magick++/demo/piddle.cpp - platform/external/ImageMagick - Git at Google

 // This may look like C code, but it is really -*- C++ -*-
 //
 // Copyright Bob Friesenhahn, 1999, 2000, 2002, 2003
 //
 // PerlMagick "piddle" demo re-implemented using Magick++ methods.
 // The PerlMagick "piddle" demo is written by Cristy
 //

 #include <Magick++.h>
 #include <string>
 #include <iostream>

 using namespace std;

 using namespace Magick;

 int main( int /*argc*/, char ** argv)
 {

   // Initialize ImageMagick install location for Windows
   InitializeMagick(*argv);

   try {

     string srcdir("");
     if(getenv("SRCDIR") != 0)
       srcdir = getenv("SRCDIR");

     //
     // Create a 300x300 white canvas.
     //
     Image image( "300x300", "white" );

     // Drawing list
     std::vector<Magick::Drawable> drawList;

     // Start drawing by pushing a drawing context with specified
     // viewbox size
     drawList.push_back(DrawablePushGraphicContext());
     drawList.push_back(DrawableViewbox(0,0,image.columns(),image.rows()));

     //
     // Draw blue grid
     //
     drawList.push_back(DrawableStrokeColor("#ccf"));
     for ( int i=0; i < 300; i += 10 )
       {
         drawList.push_back(DrawableLine(i,0, i,300));
         drawList.push_back(DrawableLine(0,i, 300,i));
       }

     //
     // Draw rounded rectangle.
     //
     drawList.push_back(DrawableFillColor("blue"));
     drawList.push_back(DrawableStrokeColor("red"));
     drawList.push_back(DrawableRoundRectangle(15,15, 70,70, 10,10));

     drawList.push_back(DrawableFillColor("blue"));
     drawList.push_back(DrawableStrokeColor("maroon"));
     drawList.push_back(DrawableStrokeWidth(4));
     drawList.push_back(DrawableRoundRectangle(15,15, 70,70, 10,10));

     //
     // Draw curve.
     //
     {
       drawList.push_back(DrawableStrokeColor("black"));
       drawList.push_back(DrawableStrokeWidth(4));
       drawList.push_back(DrawableFillColor(Color()));

       std::vector<Magick::Coordinate> points;
       points.push_back(Coordinate(20,20));
       points.push_back(Coordinate(100,50));
       points.push_back(Coordinate(50,100));
       points.push_back(Coordinate(160,160));
       drawList.push_back(DrawableBezier(points));
     }

     //
     // Draw line
     //
     {
       const double dash_array[] = {4.0, 3.0, 0.0};
       drawList.push_back(DrawableStrokeDashArray(dash_array));
       drawList.push_back(DrawableStrokeColor("red"));
       drawList.push_back(DrawableStrokeWidth(1));
       drawList.push_back(DrawableLine(10,200, 54,182));
       drawList.push_back(DrawableStrokeDashArray((double *) 0));
     }

     //
     // Draw arc within a circle.
     //
     drawList.push_back(DrawableStrokeColor("black"));
     drawList.push_back(DrawableFillColor("yellow"));
     drawList.push_back(DrawableStrokeWidth(4));
     drawList.push_back(DrawableCircle(160,70, 200,70));

     drawList.push_back(DrawableStrokeColor("black"));
     drawList.push_back(DrawableFillColor("blue"));
     drawList.push_back(DrawableStrokeWidth(4));
     {
       std::vector<VPath> path;
       path.push_back(PathMovetoAbs(Coordinate(160,70)));
       path.push_back(PathLinetoVerticalRel(-40));
       path.push_back(PathArcRel(PathArcArgs(40,40, 0, 0, 0, -40,40)));
       path.push_back(PathClosePath());
       drawList.push_back(DrawablePath(path));
     }

     //
     // Draw pentogram.
     //
     {
       drawList.push_back(DrawableStrokeColor("red"));
       drawList.push_back(DrawableFillColor("LimeGreen"));
       drawList.push_back(DrawableStrokeWidth(3));

       std::vector<Magick::Coordinate> points;
       points.push_back(Coordinate(160,120));
       points.push_back(Coordinate(130,190));
       points.push_back(Coordinate(210,145));
       points.push_back(Coordinate(110,145));
       points.push_back(Coordinate(190,190));
       points.push_back(Coordinate(160,120));
       drawList.push_back(DrawablePolygon(points));
     }

     //
     // Draw rectangle.
     //
     drawList.push_back(DrawableStrokeWidth(5));
     drawList.push_back(DrawableFillColor(Color())); // No fill
     drawList.push_back(DrawableStrokeColor("yellow"));
     drawList.push_back(DrawableLine(200,260, 200,200));
     drawList.push_back(DrawableLine(200,200, 260,200));
     drawList.push_back(DrawableStrokeColor("red"));
     drawList.push_back(DrawableLine(260,200, 260,260));
     drawList.push_back(DrawableStrokeColor("green"));
     drawList.push_back(DrawableLine(200,260, 260,260));

     //
     // Draw text.
     //
 #if MAGICKCORE_FREETYPE_DELEGATE
     if (getenv("MAGICK_FONT") != 0)
       drawList.push_back(DrawableFont(string(getenv("MAGICK_FONT"))));
     drawList.push_back(DrawableFillColor("green"));
     drawList.push_back(DrawableStrokeColor(Color())); // unset color
     drawList.push_back(DrawablePointSize(24));
     drawList.push_back(DrawableTranslation(30,140));
     drawList.push_back(DrawableRotation(45.0));
     drawList.push_back(DrawableText(0,0,"This is a test!"));
 #endif

     // Finish drawing by popping back to base context.
     drawList.push_back(DrawablePopGraphicContext());

     // Draw everything using completed drawing list
     //    image.debug(true);
     image.draw(drawList);

     //     image.write( "piddle.mvg" );

     cout << "Writing image \"piddle_out.miff\" ..." << endl;
     image.depth( 8 );
     image.compressType( RLECompression );
     image.write( "piddle_out.miff" );
     cout << "Writing MVG metafile \"piddle_out.mvg\" ..." << endl;
     image.write( "piddle_out.mvg" );

     //     cout << "Display image..." << endl;
     //     image.display( );

   }
   catch( exception &error_ )
     {
       cout << "Caught exception: " << error_.what() << endl;
       return 1;
     }

   return 0;
 }
	// This may look like C code, but it is really -- C++ --
	//
	// Copyright Bob Friesenhahn, 1999, 2000, 2002, 2003
	//
	// PerlMagick "piddle" demo re-implemented using Magick++ methods.
	// The PerlMagick "piddle" demo is written by Cristy
	//

	#include <Magick++.h>
	#include <string>
	#include <iostream>

	using namespace std;

	using namespace Magick;

	int main( int /argc/, char ** argv)
	{

	// Initialize ImageMagick install location for Windows
	InitializeMagick(*argv);

	try {

	string srcdir("");
	if(getenv("SRCDIR") != 0)
	srcdir = getenv("SRCDIR");

	//
	// Create a 300x300 white canvas.
	//
	Image image( "300x300", "white" );

	// Drawing list
	std::vector<Magick::Drawable> drawList;

	// Start drawing by pushing a drawing context with specified
	// viewbox size
	drawList.push_back(DrawablePushGraphicContext());
	drawList.push_back(DrawableViewbox(0,0,image.columns(),image.rows()));

	//
	// Draw blue grid
	//
	drawList.push_back(DrawableStrokeColor("#ccf"));
	for ( int i=0; i < 300; i += 10 )
	{
	drawList.push_back(DrawableLine(i,0, i,300));
	drawList.push_back(DrawableLine(0,i, 300,i));
	}

	//
	// Draw rounded rectangle.
	//
	drawList.push_back(DrawableFillColor("blue"));
	drawList.push_back(DrawableStrokeColor("red"));
	drawList.push_back(DrawableRoundRectangle(15,15, 70,70, 10,10));

	drawList.push_back(DrawableFillColor("blue"));
	drawList.push_back(DrawableStrokeColor("maroon"));
	drawList.push_back(DrawableStrokeWidth(4));
	drawList.push_back(DrawableRoundRectangle(15,15, 70,70, 10,10));

	//
	// Draw curve.
	//
	{
	drawList.push_back(DrawableStrokeColor("black"));
	drawList.push_back(DrawableStrokeWidth(4));
	drawList.push_back(DrawableFillColor(Color()));

	std::vector<Magick::Coordinate> points;
	points.push_back(Coordinate(20,20));
	points.push_back(Coordinate(100,50));
	points.push_back(Coordinate(50,100));
	points.push_back(Coordinate(160,160));
	drawList.push_back(DrawableBezier(points));
	}

	//
	// Draw line
	//
	{
	const double dash_array[] = {4.0, 3.0, 0.0};
	drawList.push_back(DrawableStrokeDashArray(dash_array));
	drawList.push_back(DrawableStrokeColor("red"));
	drawList.push_back(DrawableStrokeWidth(1));
	drawList.push_back(DrawableLine(10,200, 54,182));
	drawList.push_back(DrawableStrokeDashArray((double *) 0));
	}

	//
	// Draw arc within a circle.
	//
	drawList.push_back(DrawableStrokeColor("black"));
	drawList.push_back(DrawableFillColor("yellow"));
	drawList.push_back(DrawableStrokeWidth(4));
	drawList.push_back(DrawableCircle(160,70, 200,70));

	drawList.push_back(DrawableStrokeColor("black"));
	drawList.push_back(DrawableFillColor("blue"));
	drawList.push_back(DrawableStrokeWidth(4));
	{
	std::vector<VPath> path;
	path.push_back(PathMovetoAbs(Coordinate(160,70)));
	path.push_back(PathLinetoVerticalRel(-40));
	path.push_back(PathArcRel(PathArcArgs(40,40, 0, 0, 0, -40,40)));
	path.push_back(PathClosePath());
	drawList.push_back(DrawablePath(path));
	}

	//
	// Draw pentogram.
	//
	{
	drawList.push_back(DrawableStrokeColor("red"));
	drawList.push_back(DrawableFillColor("LimeGreen"));
	drawList.push_back(DrawableStrokeWidth(3));

	std::vector<Magick::Coordinate> points;
	points.push_back(Coordinate(160,120));
	points.push_back(Coordinate(130,190));
	points.push_back(Coordinate(210,145));
	points.push_back(Coordinate(110,145));
	points.push_back(Coordinate(190,190));
	points.push_back(Coordinate(160,120));
	drawList.push_back(DrawablePolygon(points));
	}

	//
	// Draw rectangle.
	//
	drawList.push_back(DrawableStrokeWidth(5));
	drawList.push_back(DrawableFillColor(Color())); // No fill
	drawList.push_back(DrawableStrokeColor("yellow"));
	drawList.push_back(DrawableLine(200,260, 200,200));
	drawList.push_back(DrawableLine(200,200, 260,200));
	drawList.push_back(DrawableStrokeColor("red"));
	drawList.push_back(DrawableLine(260,200, 260,260));
	drawList.push_back(DrawableStrokeColor("green"));
	drawList.push_back(DrawableLine(200,260, 260,260));

	//
	// Draw text.
	//
	#if MAGICKCORE_FREETYPE_DELEGATE
	if (getenv("MAGICK_FONT") != 0)
	drawList.push_back(DrawableFont(string(getenv("MAGICK_FONT"))));
	drawList.push_back(DrawableFillColor("green"));
	drawList.push_back(DrawableStrokeColor(Color())); // unset color
	drawList.push_back(DrawablePointSize(24));
	drawList.push_back(DrawableTranslation(30,140));
	drawList.push_back(DrawableRotation(45.0));
	drawList.push_back(DrawableText(0,0,"This is a test!"));
	#endif

	// Finish drawing by popping back to base context.
	drawList.push_back(DrawablePopGraphicContext());

	// Draw everything using completed drawing list
	// image.debug(true);
	image.draw(drawList);

	// image.write( "piddle.mvg" );

	cout << "Writing image \"piddle_out.miff\" ..." << endl;
	image.depth( 8 );
	image.compressType( RLECompression );
	image.write( "piddle_out.miff" );
	cout << "Writing MVG metafile \"piddle_out.mvg\" ..." << endl;
	image.write( "piddle_out.mvg" );

	// cout << "Display image..." << endl;
	// image.display( );

	}
	catch( exception &error_ )
	{
	cout << "Caught exception: " << error_.what() << endl;
	return 1;
	}

	return 0;
	}