/usr/share/doc/libplplot12/examples/c++/x20.cc is in libplplot-dev 5.10.0+dfsg2-0.1ubuntu2.
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// $Id: x20.cc 12176 2012-02-24 20:33:39Z andrewross $
//--------------------------------------------------------------------------
//
//--------------------------------------------------------------------------
// Copyright (C) 2004 Andrew Ross
// Copyright (C) 2004 Alan W. Irwin
//
// This file is part of PLplot.
//
// PLplot is free software; you can redistribute it and/or modify
// it under the terms of the GNU Library General Public License as published by
// the Free Software Foundation; version 2 of the License.
//
// PLplot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Library General Public License for more details.
//
// You should have received a copy of the GNU Library General Public License
// along with PLplot; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
//--------------------------------------------------------------------------
//
//--------------------------------------------------------------------------
// Implementation of PLplot example 20 in C++.
//--------------------------------------------------------------------------
#include "plc++demos.h"
#include "plevent.h"
#include <fstream>
#ifdef PL_USE_NAMESPACE
using namespace std;
#endif
class x20 {
public:
x20( int, const char ** );
void save_plot( const char * );
void gray_cmap( PLINT );
int read_img( const char *, PLFLT ***, int *, int *, int * );
int get_clip( PLFLT *, PLFLT *, PLFLT *, PLFLT * );
private:
// Class data
plstream *pls;
static const int XDIM;
static const int YDIM;
static int dbg;
static int nosombrero;
static int nointeractive;
static char *f_name;
static PLOptionTable options[];
};
const int x20::XDIM = 260;
const int x20::YDIM = 220;
int x20:: dbg = 0;
int x20:: nosombrero = 0;
int x20:: nointeractive = 0;
char *x20:: f_name = NULL;
struct stretch_data
{
PLFLT xmin, xmax, ymin, ymax;
PLFLT stretch;
};
PLOptionTable x20::options[] = {
{
"dbg", // extra debugging plot
NULL,
NULL,
&dbg,
PL_OPT_BOOL,
"-dbg",
"Extra debugging plot"
},
{
"nosombrero", // Turns on test of xor function
NULL,
NULL,
&nosombrero,
PL_OPT_BOOL,
"-nosombrero",
"No sombrero plot"
},
{
"nointeractive", // Turns on test of xor function
NULL,
NULL,
&nointeractive,
PL_OPT_BOOL,
"-nointeractive",
"No interactive selection"
},
{
"save", // For saving in postscript
NULL,
NULL,
&f_name,
PL_OPT_STRING,
"-save filename",
"Save sombrero plot in color postscript `filename'"
},
{
NULL, // option
NULL, // handler
NULL, // client data
NULL, // address of variable to set
0, // mode flag
NULL, // short syntax
NULL
} // long syntax
};
// Transformation function
static void
mypltr( PLFLT x, PLFLT y, PLFLT *tx, PLFLT *ty, PLPointer pltr_data )
{
struct stretch_data *s = (struct stretch_data *) pltr_data;
PLFLT x0, y0, dy;
x0 = ( s->xmin + s->xmax ) * 0.5;
y0 = ( s->ymin + s->ymax ) * 0.5;
dy = ( s->ymax - s->ymin ) * 0.5;
*tx = x0 + ( x0 - x ) * ( 1.0 - s->stretch * cos( ( y - y0 ) / dy * M_PI * 0.5 ) );
*ty = y;
}
x20::x20( int argc, const char ** argv )
{
PLFLT *x = new PLFLT[XDIM];
PLFLT *y = new PLFLT[YDIM];
PLFLT **z, **r;
PLFLT xi, yi, xe, ye;
int i, j, width, height, num_col;
PLFLT **img_f;
PLFLT img_min;
PLFLT img_max;
struct stretch_data stretch;
PLcGrid2 cgrid2;
PLFLT xx, yy;
//
// Bugs in plimage():
// -at high magnifications, the left and right edge are ragged, try
// ./x20c -dev xwin -wplt 0.3,0.3,0.6,0.6 -ori 0.5
//
// Bugs in x20c.c:
// -if the window is resized after a selection is made on "lena", when
// making a new selection the old one will re-appear.
//
// plplot initialization
pls = new plstream();
// Parse and process command line arguments.
pls->MergeOpts( options, "x20c options", NULL );
pls->parseopts( &argc, argv, PL_PARSE_FULL );
// Initialize PLplot.
pls->init();
pls->Alloc2dGrid( &z, XDIM, YDIM );
// view image border pixels
if ( dbg )
{
pls->env( 1., (PLFLT) XDIM, 1., (PLFLT) YDIM, 1, 1 ); // no plot box
// build a one pixel square border, for diagnostics
for ( i = 0; i < XDIM; i++ )
z[i][YDIM - 1] = 1.; // right
for ( i = 0; i < XDIM; i++ )
z[i][0] = 1.; // left
for ( i = 0; i < YDIM; i++ )
z[0][i] = 1.; // top
for ( i = 0; i < YDIM; i++ )
z[XDIM - 1][i] = 1.; // botton
pls->lab( "...around a blue square.", " ", "A red border should appear..." );
pls->image( z, XDIM, YDIM,
1., (PLFLT) XDIM, 1., (PLFLT) YDIM, 0., 0.,
1., (PLFLT) XDIM, 1., (PLFLT) YDIM );
}
// sombrero-like demo
if ( !nosombrero )
{
pls->Alloc2dGrid( &r, XDIM, YDIM );
pls->col0( 2 ); // draw a yellow plot box, useful for diagnostics! :(
pls->env( 0., 2. * M_PI, 0, 3. * M_PI, 1, -1 );
for ( i = 0; i < XDIM; i++ )
x[i] = i * 2. * M_PI / ( XDIM - 1 );
for ( i = 0; i < YDIM; i++ )
y[i] = i * 3. * M_PI / ( YDIM - 1 );
for ( i = 0; i < XDIM; i++ )
for ( j = 0; j < YDIM; j++ )
{
r[i][j] = sqrt( x[i] * x[i] + y[j] * y[j] ) + 1e-3;
z[i][j] = sin( r[i][j] ) / ( r[i][j] );
}
pls->lab( "No, an amplitude clipped \"sombrero\"", "", "Saturn?" );
pls->ptex( 2., 2., 3., 4., 0., "Transparent image" );
pls->image( z, XDIM, YDIM, 0., 2. * M_PI, 0, 3. * M_PI, 0.05, 1.,
0., 2. * M_PI, 0, 3. * M_PI );
pls->Free2dGrid( r, XDIM, YDIM );
// save the plot
if ( f_name )
save_plot( f_name );
}
pls->Free2dGrid( z, XDIM, YDIM );
// read Lena image
if ( read_img( "lena.pgm", &img_f, &width, &height, &num_col ) )
{
if ( read_img( "../lena.pgm", &img_f, &width, &height, &num_col ) )
{
cout << "No such file - aborting" << endl;
delete pls;
exit( 1 );
}
}
// set gray colormap
gray_cmap( num_col );
// display Lena
pls->env( 1., width, 1., height, 1, -1 );
if ( !nointeractive )
pls->lab( "Set and drag Button 1 to (re)set selection, Button 2 to finish.", " ", "Lena..." );
else
pls->lab( "", " ", "Lena..." );
pls->image( img_f, width, height, 1., width, 1., height, 0., 0.,
1., width, 1., height );
// selection/expansion demo
if ( !nointeractive )
{
xi = 200.; xe = 330.;
yi = 280.; ye = 220.;
if ( get_clip( &xi, &xe, &yi, &ye ) ) // get selection rectangle
{
delete pls;
exit( 0 );
}
//
// I'm unable to continue, clearing the plot and advancing to the next
// one, without hiting the enter key, or pressing the button... help!
//
// Forcing the xwin driver to leave locate mode and destroying the
// xhairs (in GetCursorCmd()) solves some problems, but I still have
// to press the enter key or press Button-2 to go to next plot, even
// if a pladv() is not present! Using plbop() solves the problem, but
// it shouldn't be needed!
//
// pls->bop();
//
// spause(false), adv(0), spause(true), also works,
// but the above question remains.
// With this approach, the previous pause state is lost,
// as there is no API call to get its current state.
//
pls->spause( false );
pls->adv( 0 );
// display selection only
pls->image( img_f, width, height, 1., width, 1., height, 0., 0., xi, xe, ye, yi );
pls->spause( true );
// zoom in selection
pls->env( xi, xe, ye, yi, 1, -1 );
pls->image( img_f, width, height, 1., width, 1., height, 0., 0., xi, xe, ye, yi );
}
// Base the dynamic range on the image contents.
pls->MinMax2dGrid( img_f, width, height, &img_max, &img_min );
// Draw a saturated version of the original image. Only use the middle 50%
// of the image's full dynamic range.
pls->col0( 2 );
pls->env( 0, width, 0, height, 1, -1 );
pls->lab( "", "", "Reduced dynamic range image example" );
pls->imagefr( img_f, width, height, 0., width, 0., height, 0., 0., img_min + img_max * 0.25, img_max - img_max * 0.25, NULL, NULL );
// Draw a distorted version of the original image, showing its full dynamic range.
pls->env( 0, width, 0, height, 1, -1 );
pls->lab( "", "", "Distorted image example" );
stretch.xmin = 0;
stretch.xmax = width;
stretch.ymin = 0;
stretch.ymax = height;
stretch.stretch = 0.5;
// In C / C++ the following would work, with plimagefr directly calling
// mypltr. For compatibilty with other language bindings the same effect
// can be achieved by generating the transformed grid first and then
// using pltr2.
//
// plimagefr(img_f, width, height, 0., width, 0., height, 0., 0., img_min, img_max, mypltr, (PLPointer) &stretch);
pls->Alloc2dGrid( &cgrid2.xg, width + 1, height + 1 );
pls->Alloc2dGrid( &cgrid2.yg, width + 1, height + 1 );
cgrid2.nx = width + 1;
cgrid2.ny = height + 1;
for ( i = 0; i <= width; i++ )
{
for ( j = 0; j <= height; j++ )
{
mypltr( i, j, &xx, &yy, ( PLPointer ) & stretch );
cgrid2.xg[i][j] = xx;
cgrid2.yg[i][j] = yy;
}
}
pls->imagefr( img_f, width, height, 0., width, 0., height, 0., 0., img_min, img_max, pls->tr2, &cgrid2 );
pls->Free2dGrid( cgrid2.xg, width + 1, height + 1 );
pls->Free2dGrid( cgrid2.yg, width + 1, height + 1 );
pls->Free2dGrid( img_f, width, height );
delete pls;
delete[] y;
delete[] x;
}
// read image from file in binary ppm format
int x20::read_img( const char *fname, PLFLT ***img_f, int *width, int *height, int *num_col )
{
ifstream ifs( fname, ios::out | ios::binary );
unsigned char *img;
char ver[80];
char c;
int i, j, w, h;
PLFLT **imf;
// naive grayscale binary ppm reading. If you know how to, improve it
if ( !ifs.is_open() )
return 1;
ifs.getline( ver, 80 );
//cout << "version: " << ver << endl;
if ( strcmp( ver, "P5" ) ) // I only understand this!
return 1;
ifs.read( &c, 1 );
while ( c == '#' )
{
ifs.getline( ver, 80 ); // comments
//cout << ver << endl;
ifs.read( &c, 1 );
}
ifs.putback( c );
ifs >> w >> h >> *num_col;
ifs.getline( ver, 80 );
//cout << "width=" << w << " height=" << h << " num_col=" << *num_col << endl;
img = new unsigned char[w * h];
pls->Alloc2dGrid( &imf, w, h );
ifs.read( (char *) img, w * h );
ifs.close();
for ( i = 0; i < w; i++ )
for ( j = 0; j < h; j++ )
imf[i][j] = img[( h - 1 - j ) * w + i];
// flip image up-down
delete[] img;
*width = w;
*height = h;
*img_f = imf;
return 0;
}
// save plot
void x20::save_plot( const char *fname )
{
plstream *pls2;
pls2 = new plstream(); // create a new one
pls2->sdev( "psc" ); // new device type. Use a known existing driver
pls2->sfnam( fname ); // file name
pls2->cpstrm( *pls, false ); // copy old stream parameters to new stream
pls2->replot(); // do the save
delete pls2; // close new device
}
// get selection square interactively
int x20::get_clip( PLFLT *xi, PLFLT *xe, PLFLT *yi, PLFLT *ye )
{
PLGraphicsIn gin;
PLFLT xxi = *xi, yyi = *yi, xxe = *xe, yye = *ye, t;
PLINT start = 0;
bool st;
pls->xormod( true, &st ); // enter xor mode to draw a selection rectangle
if ( st ) // driver has xormod capability, continue
{
while ( 1 )
{
PLFLT sx[5], sy[5];
pls->xormod( false, &st );
pls->GetCursor( &gin );
pls->xormod( true, &st );
if ( gin.button == 1 )
{
xxi = gin.wX; yyi = gin.wY;
if ( start )
pls->line( 5, sx, sy ); // clear previous rectangle
start = 0;
sx[0] = xxi; sy[0] = yyi;
sx[4] = xxi; sy[4] = yyi;
}
if ( gin.state & 0x100 )
{
xxe = gin.wX; yye = gin.wY;
if ( start )
pls->line( 5, sx, sy ); // clear previous rectangle
start = 1;
sx[2] = xxe; sy[2] = yye;
sx[1] = xxe; sy[1] = yyi;
sx[3] = xxi; sy[3] = yye;
pls->line( 5, sx, sy ); // draw new rectangle
}
if ( gin.button == 3 || gin.keysym == PLK_Return || gin.keysym == 'Q' )
{
if ( start )
pls->line( 5, sx, sy ); // clear previous rectangle
break;
}
}
pls->xormod( false, &st ); // leave xor mod
if ( xxe < xxi )
{
t = xxi; xxi = xxe; xxe = t;
}
if ( yyi < yye )
{
t = yyi; yyi = yye; yye = t;
}
*xe = xxe; *xi = xxi;
*ye = yye; *yi = yyi;
return ( gin.keysym == 'Q' );
}
else // driver has no xormod capability, just do nothing
return 0;
}
// set gray colormap
void x20::gray_cmap( PLINT num_col )
{
PLFLT r[2], g[2], b[2], pos[2];
r[0] = g[0] = b[0] = 0.0;
r[1] = g[1] = b[1] = 1.0;
pos[0] = 0.0;
pos[1] = 1.0;
pls->scmap1n( num_col );
pls->scmap1l( true, 2, pos, r, g, b, NULL );
}
int main( int argc, const char ** argv )
{
x20 *x = new x20( argc, argv );
delete x;
}
//--------------------------------------------------------------------------
// End of x20.cc
//--------------------------------------------------------------------------
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