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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);
}
}
/*--------------------------------------------------------------*/