lemon/eps.h
author athos
Mon, 17 Jul 2006 09:31:41 +0000
changeset 2147 63d293ff1bef
parent 2008 0820d8168cbb
child 2174 f9e43b5cc617
permissions -rw-r--r--
mip_test file went to mip_demo.
     1 /* -*- C++ -*-
     2  *
     3  * This file is a part of LEMON, a generic C++ optimization library
     4  *
     5  * Copyright (C) 2003-2006
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
     8  *
     9  * Permission to use, modify and distribute this software is granted
    10  * provided that this copyright notice appears in all copies. For
    11  * precise terms see the accompanying LICENSE file.
    12  *
    13  * This software is provided "AS IS" with no warranty of any kind,
    14  * express or implied, and with no claim as to its suitability for any
    15  * purpose.
    16  *
    17  */
    18 
    19 #ifndef LEMON_EPS_H
    20 #define LEMON_EPS_H
    21 
    22 #include<string>
    23 #include<iostream>
    24 #include<fstream>
    25 #include<sstream>
    26 #include<lemon/color.h>
    27 #include<lemon/xy.h>
    28 
    29   ///\ingroup eps_io
    30   ///\file
    31   ///\brief Simple tool to create \c .eps files
    32   ///
    33   ///\author Alpar Juttner
    34 
    35 namespace lemon {
    36   
    37   ///\ingroup eps_io
    38   ///\brief A simple tool to create \c .eps files
    39   ///
    40   ///A simple tool to create \c .eps files
    41   ///\author Alpar Juttner
    42   class EpsDrawer
    43   {
    44     void defMacros();
    45     void init(int x1,int y1,int x2,int y2);
    46     void init(double x1,double y1,double x2,double y2);
    47     bool local_stream;
    48   public:
    49     
    50     std::ostream &out;
    51     
    52     ///Node shapes
    53     ///
    54     enum NodeShapes { 
    55       /// = 0
    56       ///\image html nodeshape_0.png
    57       ///\image latex nodeshape_0.eps "CIRCLE shape (0)" width=2cm
    58       CIRCLE=0, 
    59       /// = 1
    60       ///\image html nodeshape_1.png
    61       ///\image latex nodeshape_1.eps "SQUARE shape (1)" width=2cm
    62       ///
    63       SQUARE=1, 
    64       /// = 2
    65       ///\image html nodeshape_2.png
    66       ///\image latex nodeshape_2.eps "DIAMOND shape (2)" width=2cm
    67       ///
    68       DIAMOND=2,
    69       /// = 3
    70       ///\image html nodeshape_3.png
    71       ///\image latex nodeshape_2.eps "MALE shape (4)" width=2cm
    72       ///
    73       ///\warning Not implemented
    74       MALE=3,
    75       /// = 4
    76       ///\image html nodeshape_4.png
    77       ///\image latex nodeshape_2.eps "FEMALE shape (4)" width=2cm
    78       ///
    79       ///\warning Not implemented
    80       FEMALE=4
    81     };
    82     ///\e 
    83 
    84     ///The generated file is put to \c os.
    85     ///
    86     /// \c x and \c y determine the upper
    87     ///right corner of the bounding box. The lower left corner is (0,0).
    88     EpsDrawer(std::ostream &os,int x,int y);
    89     ///\e
    90 
    91     ///The generated file is put to \c os.
    92     ///
    93     ///(x1,y1) and (x2,y2)
    94     /// determine the lower left and the upper right corners of
    95     ///the bounding box, respectively.
    96     EpsDrawer(std::ostream &os,int x1,int y1,int x2,int y2);
    97     ///\e
    98 
    99     ///The generated file is put to \c os.
   100     ///
   101     ///\c s determines the upper
   102     ///right corner of the bounding box. The lower left corner is (0,0).
   103     EpsDrawer(std::ostream &os,xy<double> s);
   104     ///\e
   105 
   106     ///The generated file is put to \c os.
   107     ///
   108     ///\c a and \c b
   109     /// determine the lower left and the upper right corners of
   110     ///the bounding box, respectively.
   111     EpsDrawer(std::ostream &os,xy<double> a, xy<double> b);
   112     ///\e
   113 
   114     ///The generated picture is put to the file \c name.
   115     ///
   116     ///\c x and \c y determine the upper
   117     ///right corner of the bounding box. The lower left corner is (0,0).
   118     EpsDrawer(const std::string &name,int x,int y);
   119     ///\e
   120 
   121     ///The generated picture is put to the file \c name.
   122     ///
   123     ///(x1,y1) and (x2,y2)
   124     /// determine the lower left and the upper right corners of
   125     ///the bounding box, respectively.
   126     EpsDrawer(const std::string &name,int x1,int y1,int x2,int y2);
   127     ///\e
   128 
   129     ///The generated picture is put to the file \c name.
   130     ///
   131     ///\c s determines the upper
   132     ///right corner of the bounding box. The lower left corner is (0,0).
   133     EpsDrawer(const std::string &name,xy<double> s);
   134     ///\e
   135 
   136     ///The generated picture is put to the file \c name.
   137     ///
   138     ///\c a and \c b
   139     /// determine the lower left and the upper right corners of
   140     ///the bounding box, respectively.
   141     EpsDrawer(const std::string &name,xy<double> a, xy<double> b);
   142 
   143 //     template<class T> EpsDrawer(std::ostream &os,BoundingBox<T> b) 
   144 //     template<class T> EpsDrawer(std::ostream &os,BoundingBox<T> b);
   145     
   146     ~EpsDrawer();
   147     
   148     ///Save the current graphic state.
   149 
   150     ///This function saves the current coordinate system, and the parameters
   151     ///set by \ref color(), \ref lineWidth() etc.
   152     ///The can be \ref restore "restore()"d later.
   153     ///
   154     ///The \ref save() - \ref restore() pairs can be nested.
   155     ///
   156     EpsDrawer &save();
   157     ///Restore the saves graphic state.
   158 
   159     EpsDrawer &restore();
   160     
   161     ///Draw a line
   162     EpsDrawer &line(double x1,double y1,double x2,double y2);
   163     ///Draw a line from the current point
   164     EpsDrawer &lineTo(double x1,double y1);
   165     ///Move the current point
   166     EpsDrawer &moveTo(double x1,double y1);
   167     ///Draw a circle
   168     EpsDrawer &circle(double x,double y, double r);
   169     
   170     ///Draw a line
   171     template<class T> EpsDrawer &line(xy<T> p1,xy<T> p2) 
   172     {
   173       return line(p1.x,p1.y,p2.x,p2.y);
   174     }
   175     ///Draw a line from the current point
   176     template<class T> EpsDrawer &lineTo(xy<T> p)
   177     {
   178       return lineTo(p.x,p.y);
   179     }
   180     ///Move the current point
   181     template<class T> EpsDrawer &moveTo(xy<T> p)
   182     {
   183       return moveTo(p.x,p.y);
   184     }
   185     ///Draw a circle
   186     template<class T> EpsDrawer &circle(xy<T> p, double r)
   187     {
   188       return circle(p.x,p.y,r);
   189     }
   190     
   191     ///Set the font size
   192     EpsDrawer &fontSize(double si);
   193     ///Set the fint type
   194     EpsDrawer &font(std::string );
   195     ///Sets whether text output is centerized of not
   196 
   197     ///Sets whether text output is centerized of not.
   198     ///
   199     ///\warning \ref save() doesn't save this setting.
   200     ///
   201     EpsDrawer &centerMode(bool m);
   202     ///Turn to collect mode.
   203 
   204     ///If you call this function, then the drawing operations like \ref line(),
   205     ///\ref lineTo(), \ref moveTo() will not take place immediately, but istead
   206     ///they
   207     ///are collected. These operations form a \e path.
   208     ///Then you can \ref stroke(), \ref fill(), \ref eofill(), \ref clip() or
   209     ///\ref eoclip() it.
   210     ///When drawing, you can also use \ref closePath() to - surprise - close the
   211     ///current path.
   212     ///
   213     ///This example draws a red filled diamond.
   214     ///\code
   215     ///  EpsDraw ed("diamond.eps",-1,-1,1,1);
   216     ///  ed.color(1,0,0,).collect().line(0,-1,1,0).lineTo(0,1)
   217     ///    .lineTo(-1,0).closePath().fill();
   218     ///\endcode
   219     EpsDrawer &collect();
   220     ///Close the current drawing path
   221     EpsDrawer &closePath();
   222     ///Stroke (draw) a path
   223 
   224     ///Stroke (draw) a path.
   225     ///\sa collect
   226     ///
   227     EpsDrawer &stroke();
   228     ///Fill a path
   229 
   230     ///Fill a path.
   231     ///\sa collect
   232     ///
   233     EpsDrawer &fill();
   234     ///Even-odd fill a path
   235 
   236     ///Even-odd fill a path.
   237     ///\sa collect
   238     ///
   239     EpsDrawer &eoFill();
   240     ///Set a clipping area.
   241 
   242     ///This function sets a clipping area. After that, the drawing operations
   243     ///will affect only this area.
   244     ///\sa collect
   245     ///
   246     EpsDrawer &clip();
   247     ///Set a clipping area using even-odd rule.
   248 
   249     ///This function sets a clipping area using even-odd rule.
   250     ///After that, the drawing operations
   251     ///will affect only this area.
   252     ///\sa collect
   253     ///
   254     EpsDrawer &eoClip();
   255     
   256     ///Set the line width.
   257     EpsDrawer &lineWidth(double w);
   258     ///Set the style of the line ends
   259 
   260     ///\param i It can be 0, 1 or 2
   261     ///
   262     EpsDrawer &lineCap(int i);
   263     ///Set the style of the line joins
   264 
   265     ///\param i It can be 0, 1 or 2
   266     ///
   267     EpsDrawer &lineJoin(int i);
   268     ///Set the cut length of near parallel joining lines.
   269     EpsDrawer &miterLimit(double w);
   270     
   271     ///Set the drawing color
   272     EpsDrawer &color(double r, double g, double b);
   273     ///Set the drawing color
   274     EpsDrawer &color(Color c)
   275     {
   276       return color(c.red(),c.green(),c.blue());
   277     }
   278     
   279     ///Draw a node shape
   280 
   281     ///Draw a node shape.
   282     ///
   283     ///\param t The shape of the drawn object
   284     ///\param x The \c x coordinate of the node
   285     ///\param y The \c y coordinate of the node
   286     ///\param col Color of the node. The default color is white
   287     ///\param brd Color of the node border. The default color is black
   288     EpsDrawer &node(NodeShapes t, double x, double y, double r,
   289 		    Color col=Color(1,1,1), Color brd=Color(0,0,0));
   290     ///Draw a node shape
   291     
   292     ///Draw a node shape.
   293     ///
   294     ///\param t The shape of the drawn object
   295     ///\param pos Position of the node
   296     ///\param col Color of the node. The default color is white
   297     ///\param brd Color of the node border. The default color is black
   298     template<class T>
   299     EpsDrawer &node(NodeShapes t, xy<T> pos, double r,
   300 		    Color col=Color(1,1,1), Color brd=Color(0,0,0))
   301     {
   302       return node(t,pos.x,pos.y,r,col,brd);
   303     }
   304 
   305     ///Translate the coordinate system
   306     EpsDrawer &translate(double x,double y);
   307     ///Translate the coordinate system
   308     template<class T> EpsDrawer &translate(xy<T> p)
   309     {
   310       return translate(p.x,p.y);
   311     }
   312     ///Rotate the coordinate system
   313     EpsDrawer &rotate(double r);
   314     ///Scale the coordinate system
   315     EpsDrawer &scale(double sx, double sy);
   316     ///Scale the coordinate system
   317     EpsDrawer &scale(double s) { return scale(s,s); }
   318     ///Scale the coordinate system
   319     template<class T> EpsDrawer &scale(xy<T> p)
   320     {
   321       return scale(p.x,p.y);
   322     }
   323     
   324     ///\e
   325     EpsDrawer &flush();
   326     ///Clear the image
   327     EpsDrawer &clear();
   328     
   329     ///Print a text at the current point
   330     EpsDrawer &operator<<(const std::string &s);
   331     ///Print a text at the current point
   332     EpsDrawer &operator<<(const char *s);
   333     ///Print a number at the current point
   334     EpsDrawer &operator<<(int i);
   335     ///Print a number at the current point
   336     EpsDrawer &operator<<(double d);
   337     ///Print a coordinate at the current point
   338     template<class T>
   339     EpsDrawer &operator<<(xy<T> p) 
   340     {
   341       out << "((" << p.x << ',' << p.y <<")) show\n";
   342       return *this;
   343     }
   344     
   345   };
   346   
   347 }
   348 
   349 #endif