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/*
 * Project: S.Ha.R.K.
 *
 * Coordinators:
 *   Giorgio Buttazzo    <giorgio@sssup.it>
 *   Paolo Gai           <pj@gandalf.sssup.it>
 *
 * Authors     :
 *   Paolo Gai           <pj@gandalf.sssup.it>
 *   (see the web pages for full authors list)
 *
 * ReTiS Lab (Scuola Superiore S.Anna - Pisa - Italy)
 *
 * http://www.sssup.it
 * http://retis.sssup.it
 * http://shark.sssup.it
 */

/*
 ------------
 CVS :        $Id: orbit.c,v 1.1.1.1 2002-09-02 09:37:45 pj Exp $

 File:        $File$
 Revision:    $Revision: 1.1.1.1 $
 Last update: $Date: 2002-09-02 09:37:45 $
 ------------
*/

/*
 * Copyright (C) 2000 Giorgio Buttazzo and Paolo Gai
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program 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 General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 */

/****************************************************************/
/*              SIMULAZIONE DI MASSE CHE ORBITANO               */
/****************************************************************/

#include <kernel/kern.h>
#include <drivers/glib.h>
#include <drivers/keyb.h>
#include <semaphore.h>
#include <stdlib.h>
#include <math.h>

#define MAX     11              /* numero massimo pianeti       */
#define ESC     27              /* codice ASCII tasto ESCAPE    */
#define XMAX    639             /* valore massimo coordinata X  */
#define YMAX    479             /* valore massimo coordinata Y  */

struct  coord {
  double        x;
  double        y;
};

char    fbuf[1000];             // buffer for reading a file
int     flen;                   // file length

double  mass[MAX];              /* vettore masse pianeti        */
struct  coord pos[MAX];         /* vettore posizioni attuali    */
struct  coord vel[MAX];         /* vettore velocita' iniziali   */

int     XGS, YGS;               /* Coordinate centro spazio     */
int     RP, RT;                 /* raggio pianeta, raggio Terra */
int     np;                     /* numero attuale di pianeti    */
double  G;                      /* Gravitazione Universale      */
double  tick;                   /* tick di sistema              */
double  delta;                  /* incremento temporale         */
double  scala;                  /* fattore grafico di scala     */

// -------------------------------------------------------
// NOTA: %f o %lf significa double e %nf significa float
// -------------------------------------------------------

PID     pid;
int     period;                 /* task period                  */
int     wcet;                   /* task wcet                    */
sem_t   mutex;                  /* semaforo di mutua esclusione */


void    get_par(void);

/*--------------------------------------------------------------*/

void    my_fine(void *arg)
{
  grx_close();
}

/*--------------------------------------------------------------*/

int     inside(int x, int y)
{
  return ((x > RP) && (x < XMAX-RP) &&
          (y > RP) && (y < YMAX-RP));
}

/*--------------------------------------------------------------*/

TASK    massa(void *xxx)
{
  int   i = (int)xxx;           /* parametro del task */
  int   gx, gy;                 /* coordinate grafiche pallina  */
  int   ox, oy;                 /* vecchia posizione pallina    */
  int   j;
  int   r, col;                 /* raggio e colore pianeta      */
  double        dt;                     /* incremento temporale         */
  double        dist=0.0, dx, dy;       /* distanze pianeta-pianeta     */
  double        dist0=0.0;              /* distanze pianeta-Terra       */
  double        x, y;                   /* posizione del pianeta        */
  double        vx, vy;                 /* velocita' del pianeta        */
  double        ax, ay;                 /* accelerazione del pianeta    */
  double        k;                      /* variabile ausiliaria         */
  double        arg;                    /* variabile di appoggio        */

  x = pos[i].x; y = pos[i].y;
  vx = vel[i].x;        vy = vel[i].y;
  ox = XGS + x / scala;
  oy = YGS + y / scala;
  dt = delta;

  do {
    x = pos[i].x;
    y = pos[i].y;
    ax = ay = 0.0;
    for (j=0; j<np; j++) {
      if (j != i) {
        dx = pos[j].x - x;
        dy = pos[j].y - y;
        arg = dx*dx + dy*dy;
        dist = sqrt(arg);
        if (dist < RP*scala) dist = RP*scala;
        k = G * mass[j] / (dist*dist*dist);
        ax += k * dx;
        ay += k * dy;
      }
      if (j == 0) dist0 = dist - (RP+RT)*scala;
    }
    x += vx*dt + 0.5*ax*dt*dt;
    y += vy*dt + 0.5*ay*dt*dt;
    vx += ax * dt;
    vy += ay * dt;

    gx = XGS + x / scala;
    gy = YGS + y / scala;

    r = RP;
    col = i + 1;

    sem_wait(&mutex);
    grx_disc(ox,oy,r,0);
    grx_disc(gx,gy,r,col);
    sem_post(&mutex);

    pos[i].x = x;       pos[i].y = y;
    ox = gx;    oy = gy;

    task_endcycle();

  } while ((dist0 > 0) && inside(gx,gy));

  sem_wait(&mutex);
  grx_disc(ox,oy,r,0);
  grx_disc(XGS,YGS,RT,12);
  grx_circle(XGS,YGS,RT,14);
  sem_post(&mutex);

  return NULL;
}

/*--------------------------------------------------------------*/
/*                      MAIN                                    */
/*--------------------------------------------------------------*/

TASK    main()
{
  HARD_TASK_MODEL m;
  char  c;                      /* carattere letto da tastiera  */

  set_exchandler_grx();
  sys_atrunlevel(my_fine, NULL, RUNLEVEL_BEFORE_EXIT);

  sem_init(&mutex,0,1);

  get_par();
  keyb_getch(BLOCK);

  grx_init();
  grx_open(640, 480, 8);

  grx_disc(XGS,YGS,RT,12);
  grx_circle(XGS,YGS,RT,14);

  np = 0;

  do {
    if (np < MAX-1) {
      np++;
      hard_task_default_model(m);
      hard_task_def_arg      (m, (void *)np);
      hard_task_def_wcet     (m, wcet);
      hard_task_def_mit      (m, period);
      hard_task_def_usemath  (m);
      pid = task_create("massa", massa, &m, NULL);
      if (pid == NIL) {
        grx_close();
        perror("Could not create task");
        c = keyb_getch(BLOCK);
        sys_abort(1);
      }
      task_activate(pid);
    }
    c = keyb_getch(BLOCK);

  } while (c != ESC);

  sys_end();

  return 0;
}

/*------------------------------------------------------*/
/*              file reading                            */
/*------------------------------------------------------*/

void    read_file(void)
{
  int   err;
  DOS_FILE *fp;

  fp = DOS_fopen("orbit.dat","r");

  if (!fp) {
    err = DOS_error();
    cprintf("Error %d opening myfile.txt...\n", err);
    flen = 0;
    return;
  }

  flen = DOS_fread(&fbuf, 1, 1000, fp);
  cprintf("Read %d bytes from orbit.dat\n", flen);

  DOS_fclose(fp);
}

/*------------------------------------------------------*/
/*              get data from buffer                    */
/*------------------------------------------------------*/

void    get_par(void)
{
  int   x = 0;
  int   i;
  double        vx, vy;

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &period);
  cprintf("period = %d\n", period);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &wcet);
  cprintf("wcet = %d\n", wcet);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%f", &delta);
  cprintf("delta = %f\n", delta);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%f", &scala);
  cprintf("scala = %f\n", scala);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%f", &G);
  cprintf("G = %20.15f\n", G);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &RP);
  cprintf("RP = %d\n", RP);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &RT);
  cprintf("RT = %d\n", RT);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &XGS);
  cprintf("XGS = %d\n", XGS);

  while ((fbuf[x] != ':') && (x < flen)) x++;
  x++;
  sscanf(&fbuf[x], "%d", &YGS);
  cprintf("YGS = %d\n", YGS);

  for (i=0; i<MAX; i++) {
    while ((fbuf[x] != ':') && (x < flen)) x++;
    x++; x++;
    sscanf(&fbuf[x], "%f", &mass[i]);

    while ((fbuf[x] != '\t') && (x < flen)) x++;
    x++;
    sscanf(&fbuf[x], "%f", &vx);

    while ((fbuf[x] != '\t') && (x < flen)) x++;
    x++;
    sscanf(&fbuf[x], "%f", &vy);
    pos[i].x = vx; pos[i].y = vy;

    while ((fbuf[x] != '\t') && (x < flen)) x++;
    x++;
    sscanf(&fbuf[x], "%f", &vx);

    while ((fbuf[x] != '\t') && (x < flen)) x++;
    x++;
    sscanf(&fbuf[x], "%f", &vy);
    vel[i].x = vx; vel[i].y = vy;

    cprintf("mass[%d] = %f\t", i, mass[i]);
    cprintf("pos: %f, %f\t", pos[i].x, pos[i].y);
    cprintf("vel: %f, %f\n", vel[i].x, vel[i].y);
  }
}

/*--------------------------------------------------------------*/