/* $Id: x14c.c,v 1.26 2004/06/14 21:51:54 rlaboiss Exp $

	Demo of multiple stream/window capability (requires Tk or Tcl-DP).

	Maurice LeBrun
	IFS, University of Texas at Austin

   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 General Library Public License as published
   by the Free Software Foundation; either version 2 of the License, or
   (at your option) any later version.

   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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA

*/

#include "plcdemos.h"

static PLFLT x[101], y[101];
static PLFLT xscale, yscale, xoff, yoff, xs[6], ys[6];
static PLINT space0 = 0, mark0 = 0, space1 = 1500, mark1 = 1500;

void plot1();
void plot2();
void plot3();
void plot4();
void plot5();

/*--------------------------------------------------------------------------*\
 * main
 *
 * Plots several simple functions from other example programs.
 *
 * This version sends the output of the first 4 plots (one page) to two
 * independent streams.  
\*--------------------------------------------------------------------------*/

int
main(int argc, char *argv[])
{
    int i, digmax;
    int xleng0 = 400, yleng0 = 300, xoff0 = 200, yoff0 = 200;
    int xleng1 = 400, yleng1 = 300, xoff1 = 500, yoff1 = 500;

/* Select either TK or DP driver and use a small window */
/* Using DP results in a crash at the end due to some odd cleanup problems */
/* The geometry strings MUST be in writable memory */

    char geometry_master[] = "500x410+100+200";
    char geometry_slave[]  = "500x410+650+200";

    char driver[80];

/* plplot initialization */
/* Parse and process command line arguments */

    (void) plParseOpts(&argc, argv, PL_PARSE_FULL);

    plgdev(driver);

    printf("Demo of multiple output streams via the %s driver.\n", driver);
    printf("Running with the second stream as slave to the first.\n");
    printf("\n");

/* Set up first stream */

    plsetopt("geometry", geometry_master);

    plsdev(driver);
    plssub(2, 2);
    plinit();

/* Start next stream */

    plsstrm(1);

/* Turn off pause to make this a slave (must follow master) */

    plsetopt("geometry", geometry_slave);
    plspause(0);
    plsdev(driver);
    plinit();

/* Set up the data & plot */
/* Original case */

    plsstrm(0);

    xscale = 6.;
    yscale = 1.;
    xoff = 0.;
    yoff = 0.;
    plot1();

/* Set up the data & plot */

    xscale = 1.;
    yscale = 1.e+6;
    plot1();

/* Set up the data & plot */

    xscale = 1.;
    yscale = 1.e-6;
    digmax = 2;
    plsyax(digmax, 0);
    plot1();

/* Set up the data & plot */

    xscale = 1.;
    yscale = 0.0014;
    yoff = 0.0185;
    digmax = 5;
    plsyax(digmax, 0);
    plot1();

/* To slave */
/* The pleop() ensures the eop indicator gets lit. */

    plsstrm(1);
    plot4();
    pleop();

/* Back to master */

    plsstrm(0);
    plot2();
    plot3();

/* To slave */

    plsstrm(1);
    plot5();
    pleop();

/* Back to master to wait for user to advance */

    plsstrm(0);
    pleop();

/* Call plend to finish off. */

    plend();
    exit(0);
}

 /* =============================================================== */

void
plot1(void)
{
    int i;
    PLFLT xmin, xmax, ymin, ymax;

    for (i = 0; i < 60; i++) {
	x[i] = xoff + xscale * (i + 1) / 60.0;
	y[i] = yoff + yscale * pow(x[i], 2.);
    }

    xmin = x[0];
    xmax = x[59];
    ymin = y[0];
    ymax = y[59];

    for (i = 0; i < 6; i++) {
	xs[i] = x[i * 10 + 3];
	ys[i] = y[i * 10 + 3];
    }

/* Set up the viewport and window using PLENV. The range in X is */
/* 0.0 to 6.0, and the range in Y is 0.0 to 30.0. The axes are */
/* scaled separately (just = 0), and we just draw a labelled */
/* box (axis = 0). */

    plcol0(1);
    plenv(xmin, xmax, ymin, ymax, 0, 0);
    plcol0(6);
    pllab("(x)", "(y)", "#frPLplot Example 1 - y=x#u2");

/* Plot the data points */

    plcol0(9);
    plpoin(6, xs, ys, 9);

/* Draw the line through the data */

    plcol0(4);
    plline(60, x, y);
    plflush();
}


 /* =============================================================== */

void
plot2(void)
{
    int i;

/* Set up the viewport and window using PLENV. The range in X is -2.0 to
       10.0, and the range in Y is -0.4 to 2.0. The axes are scaled separately
       (just = 0), and we draw a box with axes (axis = 1). */

    plcol0(1);
    plenv(-2.0, 10.0, -0.4, 1.2, 0, 1);
    plcol0(2);
    pllab("(x)", "sin(x)/x", "#frPLplot Example 1 - Sinc Function");

/* Fill up the arrays */

    for (i = 0; i < 100; i++) {
	x[i] = (i - 19.0) / 6.0;
	y[i] = 1.0;
	if (x[i] != 0.0)
	    y[i] = sin(x[i]) / x[i];
    }

/* Draw the line */

    plcol0(3);
    plline(100, x, y);
    plflush();
}

 /* =============================================================== */

void
plot3(void)
{
    int i;

/* For the final graph we wish to override the default tick intervals, and
       so do not use PLENV */

    pladv(0);

/* Use standard viewport, and define X range from 0 to 360 degrees, Y range
       from -1.2 to 1.2. */

    plvsta();
    plwind(0.0, 360.0, -1.2, 1.2);

    /* Draw a box with ticks spaced 60 degrees apart in X, and 0.2 in Y. */

    plcol0(1);
    plbox("bcnst", 60.0, 2, "bcnstv", 0.2, 2);

    /* Superimpose a dashed line grid, with 1.5 mm marks and spaces. plstyl
       expects a pointer!! */

    plstyl(1, &mark1, &space1);
    plcol0(2);
    plbox("g", 30.0, 0, "g", 0.2, 0);
    plstyl(0, &mark0, &space0);

    plcol0(3);
    pllab("Angle (degrees)", "sine", "#frPLplot Example 1 - Sine function");

    for (i = 0; i < 101; i++) {
	x[i] = 3.6 * i;
	y[i] = sin(x[i] * PI / 180.0);
    }

    plcol0(4);
    plline(101, x, y);
    plflush();
}

 /* =============================================================== */

void
plot4(void)
{
    int i, j;
    PLFLT dtr, theta, dx, dy, r;
    char text[3];
    PLFLT x0[361], y0[361];
    PLFLT x[361], y[361];

    dtr = PI / 180.0;
    for (i = 0; i <= 360; i++) {
	x0[i] = cos(dtr * i);
	y0[i] = sin(dtr * i);
    }

/* Set up viewport and window, but do not draw box */

    plenv(-1.3, 1.3, -1.3, 1.3, 1, -2);
    for (i = 1; i <= 10; i++) {
	for (j = 0; j <= 360; j++) {
	    x[j] = 0.1 * i * x0[j];
	    y[j] = 0.1 * i * y0[j];
	}

/* Draw circles for polar grid */

	plline(361, x, y);
    }

    plcol0(2);
    for (i = 0; i <= 11; i++) {
	theta = 30.0 * i;
	dx = cos(dtr * theta);
	dy = sin(dtr * theta);

/* Draw radial spokes for polar grid */

	pljoin(0.0, 0.0, dx, dy);
	sprintf(text, "%d", ROUND(theta));

/* Write labels for angle */

/* Slightly off zero to avoid floating point logic flips at 90 and 270 deg. */
	if (dx >= -0.00001)
	    plptex(dx, dy, dx, dy, -0.15, text);
	else
	    plptex(dx, dy, -dx, -dy, 1.15, text);
    }

/* Draw the graph */

    for (i = 0; i <= 360; i++) {
	r = sin(dtr * (5 * i));
	x[i] = x0[i] * r;
	y[i] = y0[i] * r;
    }
    plcol0(3);
    plline(361, x, y);

    plcol0(4);
    plmtex("t", 2.0, 0.5, 0.5,
	   "#frPLplot Example 3 - r(#gh)=sin 5#gh");
    plflush();
}

 /* =============================================================== */

/* Demonstration of contour plotting */

#define XPTS      35
#define YPTS      46
#define XSPA      2./(XPTS-1)
#define YSPA      2./(YPTS-1)

PLFLT tr[6] =
{XSPA, 0.0, -1.0, 0.0, YSPA, -1.0};

void
mypltr(PLFLT x, PLFLT y, PLFLT *tx, PLFLT *ty, void *pltr_data)
{
    *tx = tr[0] * x + tr[1] * y + tr[2];
    *ty = tr[3] * x + tr[4] * y + tr[5];
}

static PLFLT clevel[11] =
{-1., -.8, -.6, -.4, -.2, 0, .2, .4, .6, .8, 1.};

void
plot5(void)
{
    int i, j;
    PLFLT xx, yy;
    PLFLT **z, **w;
    static PLINT mark = 1500, space = 1500;

/* Set up function arrays */

    plAlloc2dGrid(&z, XPTS, YPTS);
    plAlloc2dGrid(&w, XPTS, YPTS);

    for (i = 0; i < XPTS; i++) {
	xx = (double) (i - (XPTS / 2)) / (double) (XPTS / 2);
	for (j = 0; j < YPTS; j++) {
	    yy = (double) (j - (YPTS / 2)) / (double) (YPTS / 2) - 1.0;
	    z[i][j] = xx * xx - yy * yy;
	    w[i][j] = 2 * xx * yy;
	}
    }

    plenv(-1.0, 1.0, -1.0, 1.0, 0, 0);
    plcol0(2);
    plcont(z, XPTS, YPTS, 1, XPTS, 1, YPTS, clevel, 11, mypltr, NULL);
    plstyl(1, &mark, &space);
    plcol0(3);
    plcont(w, XPTS, YPTS, 1, XPTS, 1, YPTS, clevel, 11, mypltr, NULL);
    plcol0(1);
    pllab("X Coordinate", "Y Coordinate", "Streamlines of flow");
    plflush();

/* Clean up */
    plFree2dGrid(z, XPTS, YPTS);
    plFree2dGrid(w, XPTS, YPTS);

}