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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: mix.c,v 1.7 2005-01-08 14:33:10 pj Exp $
File: $File$
Revision: $Revision: 1.7 $
Last update: $Date: 2005-01-08 14:33:10 $
------------
*/
/*
* 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
*
*/
/*--------------------------------------------------------------*/
/* DEMO with 9 INDEPENDENT TASKS */
/*--------------------------------------------------------------*/
#include <kernel/kern.h>
#include <drivers/shark_fb26.h>
#include <drivers/shark_keyb26.h>
#include <semaphore.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#define PIG 3.1415
#define DURATA 10000 /* counter duration in tick */
#define LW 200 /* window length */
#define HW 150 /* window height */
#define HLOAD 30 /* Y level for the max load */
#define LLOAD (HW-HLOAD-5) /* length for the max load */
#define XWL 10 /* left X of LEFT window */
#define XWM 220 /* left X of MIDDLE window */
#define XWR 430 /* left X RIGHT window */
#define YWH 5 /* top Y of HIGH window */
#define YWM 165 /* top Y of MIDDLE window */
#define YWL 325 /* top Y of LOW window */
int flen
= 0; /* file length */
int fine
= 0; /* ending flag */
sem_t mx_mat
, mx_grf
; /* mutex semaphores */
int wcet
[10]; /* array of task wcets */
int period
[10]; /* array of task periods */
double load
(long); /* load evaluation function */
PID ptas
;
char talk
[5][25] = {" SHARK Demonstration ",
" RETIS Lab -- Scuola ",
" Superiore S. Anna ",
" HARD REAL-TIME DEMO ",
" June 5, 2001 "};
char fbuf
[1000] = "\
TASK NAME PERIOD WCET\n\
------------------------------------------\n\
task1 watch: 1000000 200\n\
task2 tasto: 2000 200\n\
task3 palla: 2000 200\n\
task4 mosca: 20000 200\n\
task5 infor: 20000 300\n\
task6 ruota: 5000 400\n\
task7 color: 2000 200\n\
task8 pendo: 5000 400\n\
------------------------------------------\n";
extern int vga16color
[16];
/*------------------------------------------------------*/
/* file reading */
/*------------------------------------------------------*/
void read_file
(void)
{
int err
;
DOS_FILE
*fp
;
fp
= DOS_fopen
("mix.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 file\n", flen
);
DOS_fclose
(fp
);
}
/*------------------------------------------------------*/
/* get data from buffer */
/*------------------------------------------------------*/
void get_par
(void)
{
int x
= 0;
int i
;
flen
= strlen(fbuf
);
for (i
=1; i
<=8; i
++) {
while ((fbuf
[x
] != ':') && (x
< flen
)) x
++;
x
++;
sscanf(&fbuf
[x
], "%d %d", &period
[i
], &wcet
[i
]);
}
}
/*--------------------------------------------------------------*/
void finish1
()
{
exit(1);
}
/*--------------------------------------------------------------*/
void finish2
()
{
fine
= 1;
}
/****************************************************************/
/* PROCESSO OROLOGIO */
/****************************************************************/
#define LLAN 40 /* length of watch stick */
TASK watch
()
{
int x0
= XWL
+ LW
/2;
int y0
= YWH
+ HW
/2;
int grad
;
int xg
, yg
;
int xt
, yt
, d
;
int sec
, min
;
char s
[5];
double rad
, x
, y
;
xg
= x0
;
yg
= y0
- LLAN
;
xt
= XWL
+ 78;
yt
= YWH
+ 12;
sec
= min
= 0;
while (1) {
sec
= (sec
+ 1) % 60;
if (sec
== 0) min
++;
grad
= 90 - sec
* 6;
rad
= (double)grad
* PIG
/ 180.
;
sem_wait
(&mx_mat
);
x
= (double)x0
+ (double)LLAN
* cos(rad
);
y
= (double)y0
- (double)LLAN
* sin(rad
);
sem_post
(&mx_mat
);
sem_wait
(&mx_grf
);
grx_line
(x0
, y0
, xg
, yg
, vga16color
[0]);
sem_post
(&mx_grf
);
xg
= x
;
yg
= y
;
sem_wait
(&mx_grf
);
grx_line
(x0
, y0
, xg
, yg
, vga16color
[14]);
sem_post
(&mx_grf
);
sem_wait
(&mx_grf
);
grx_text
("0 :0 ", xt
, yt
, vga16color
[14], vga16color
[0]);
sprintf(s
, "%d", min
);
grx_text
(s
, xt
+8, yt
, vga16color
[14], vga16color
[0]);
sprintf(s
, "%d", sec
);
if (sec
> 9) d
= 24; else d
= 32;
grx_text
(s
, xt
+d
, yt
, vga16color
[14], vga16color
[0]);
sem_post
(&mx_grf
);
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO DI RIEMPIMENTO */
/****************************************************************/
#define CIMA (YWH+5) /* fondo del recipiente */
#define FONDO (YWH+HW-5) /* cima del recipiente */
#define LREC (XWM+75) /* lato sinistro recipiente */
#define DREC 50 /* diametro del recipiente */
TASK tasto
()
{
int x
, y
;
int x0
; /* coord. sinistra recipiente */
int col
, cliq
, bkg
;
int i
;
int liv
; /* livello del liquido */
cliq
= 9;
bkg
= 14;
x0
= LREC
;
x
= x0
+ DREC
/2;
y
= CIMA
;
liv
= FONDO
;
while (1) {
col
= cliq
;
for (i
=0; i
<2; i
++) { /* disegna goccia */
while (y
< liv
) {
sem_wait
(&mx_grf
);
grx_plot
(x
,y
,vga16color
[col
]);
sem_post
(&mx_grf
);
y
++;
}
y
= CIMA
;
col
= bkg
;
}
liv
--;
sem_wait
(&mx_grf
);
grx_line
(x0
+1, liv
, x0
+DREC
-1, liv
, vga16color
[cliq
]);
sem_post
(&mx_grf
);
if (liv
<= CIMA
+1) { /* swap colors */
i
= bkg
; bkg
= cliq
; cliq
= i
;
liv
= FONDO
;
}
task_endcycle
();
}
}
/****************************************************************/
void kboar
()
{
task_activate
(ptas
);
}
/****************************************************************/
/* PROCESSO PALLA */
/****************************************************************/
#define VMIN 11. /* velocitÂ… minima per suono */
#define LP 3 /* lato della pallina */
TASK palla
()
{
int ox
, oy
; /* vecchia posizione pallina */
int x0
; /* posizione iniziale pallina */
int xmin
, xmax
;
int base
, top
;
int xg
, yg
; /* coordinate grafiche pallina */
double x
, y
; /* coordinate pallina */
double G
= 9.8;
double vx
, vy
, v0
; /* velocitÂ… della pallina */
double t
, tx
; /* variabile temporale */
double dt
; /* incremento temporale */
double arg
; /* variabile di appoggio */
xmin
= XWR
+LP
+1;
xmax
= XWR
+LW
-LP
-1;
base
= YWH
+HW
-LP
-1;
top
= HW
-10-LP
;
x
= ox
= x0
= xmin
;
y
= oy
= top
;
arg
= 2.
*G
*(double)top
;
vy
= v0
= sqrt(arg
);
vx
= 15.
;
tx
= 0.0;
t
= vy
/ G
;
dt
= .02;
while (1) {
x
= x0
+ vx
*tx
;
y
= base
- vy
*t
+ .5*G
*t
*t
;
if (y
>= base
) {
t
= 0.0;
vy
= v0
;
y
= base
- vy
*t
+ .5*G
*t
*t
;
}
if (x
>= xmax
) {
tx
= 0.0;
x0
= xmax
;
vx
= -vx
;
x
= x0
+ vx
*tx
;
}
if (x
<= xmin
) {
tx
= 0.0;
x0
= xmin
;
vx
= -vx
;
x
= x0
+ vx
*tx
;
}
xg
= x
; yg
= y
;
sem_wait
(&mx_grf
);
grx_disc
(ox
,oy
,LP
,vga16color
[0]);
grx_disc
(xg
,yg
,LP
,vga16color
[10]);
sem_post
(&mx_grf
);
oy
= yg
; ox
= xg
;
t
+= dt
;
tx
+= dt
;
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO MOSCA */
/****************************************************************/
TASK mosca
()
{
int x
, y
, Ax
, Ay
, h
;
int x0
, y0
, tet
;
int xmax
,ymax
;
double A
, B
;
double r
;
double rnd
;
xmax
= LW
/2-1; ymax
= HW
/2-1;
x
= 0; y
= 0; tet
= 0;
x0
= XWL
+LW
/2; y0
= YWM
+HW
/2;
A
= 5.
; B
= 30.
;
while (1) {
rnd
= (rand()%100)/100.
; /* rnd = [0,1] */
h
= (2.
* B
* rnd
) - B
; /* h = [-B,B] */
tet
= tet
+ h
;
if (tet
> 360) tet
= tet
- 360;
if (tet
< 0) tet
= tet
+ 360;
r
= tet
* PIG
/ 180.
;
sem_wait
(&mx_mat
);
Ax
= (double)(A
* cos(r
));
Ay
= (double)(A
* sin(r
));
sem_post
(&mx_mat
);
x
= x
+ Ax
;
y
= y
+ Ay
;
if ((x
>= xmax
) || (x
<= -xmax
) ||
(y
>= ymax
) || (y
<= -ymax
)) {
x
= x
- Ax
;
y
= y
- Ay
;
tet
= tet
- 180;
if (tet
> 360) tet
= tet
- 360;
if (tet
< 0) tet
= tet
+ 360;
r
= tet
* PIG
/ 180.
;
sem_wait
(&mx_mat
);
Ax
= (double)(A
* cos(r
));
Ay
= (double)(A
* sin(r
));
sem_post
(&mx_mat
);
x
= x
+ Ax
;
y
= y
+ Ay
;
}
sem_wait
(&mx_grf
);
grx_plot
(x
+x0
, y
+y0
, vga16color
[10]);
sem_post
(&mx_grf
);
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO INFORMAZIONI */
/****************************************************************/
TASK infor
()
{
char s
[2];
int x
, y
;
int r
;
int i
= 0;
int leng
;
int col
= 0;
r
= 0;
x
= XWM
+ 16;
y
= YWM
+ 40;
s
[1] = 0;
leng
= 0;
while (talk
[0][leng
] != 0) leng
++;
while (1) {
s
[0] = talk
[r
][i
];
sem_wait
(&mx_grf
);
grx_text
(s
,x
+i
*8,y
+r
*8,vga16color
[col
+10],vga16color
[1]);
sem_post
(&mx_grf
);
i
++;
if (i
== leng
) {
i
= 0;
r
= (r
+ 1) % 5;
if (r
== 0) col
= (col
+ 1) % 6;
}
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO RUOTA */
/****************************************************************/
TASK ruota
()
{
int x0
= XWR
+ LW
/2;
int y0
= YWM
+ HW
/2;
int grad
= 90;
int xg
, yg
;
double rad
, x
, y
;
xg
= x0
;
yg
= y0
+ LLAN
;
while (1) {
rad
= (double)grad
* PIG
/ 180.
;
sem_wait
(&mx_mat
);
x
= (double)x0
+ (double)LLAN
* cos(rad
);
y
= (double)y0
+ (double)LLAN
* sin(rad
);
sem_post
(&mx_mat
);
sem_wait
(&mx_grf
);
grx_disc
(xg
, yg
, 4, vga16color
[0]);
sem_post
(&mx_grf
);
xg
= x
; yg
= y
;
sem_wait
(&mx_grf
);
grx_disc
(xg
, yg
, 4, vga16color
[13]);
sem_post
(&mx_grf
);
grad
= (grad
+ 1) % 360;
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO COLORI */
/****************************************************************/
TASK color
()
{
int xx0
= XWL
+5;
int yy0
= YWL
+5;
int n
, col
;
int x
, y
;
x
= 0; y
= 0;
while (1) {
n
= 19.
* ((rand()%100)/100.
);
x
= xx0
+ n
* 10;
n
= 14.
* ((rand()%100)/100.
);
y
= yy0
+ n
* 10;
col
= 16.
* ((rand()%100)/100.
);
/* xg = xx0 + x;
yg = yy0 + y;
x = (x + 10)%(LW-10);
y = (y + 10)%(HW-10);
*/
sem_wait
(&mx_grf
);
grx_box
(x
, y
, x
+9, y
+9, vga16color
[col
]);
sem_post
(&mx_grf
);
task_endcycle
();
}
}
/****************************************************************/
/* PROCESSO PENDOLO */
/****************************************************************/
TASK pendo
()
{
int x0
= XWM
+LW
/2;
int y0
= YWL
+10;
int xg
, yg
;
int col
= 11;
double x
, y
, teta
;
double v
, a
, dt
;
double g
, l
;
g
= 9.8;
l
= 80.
;
dt
= 0.1;
teta
= 40.
* PIG
/ 180.
;
v
= 0.
;
sem_wait
(&mx_mat
);
x
= l
* sin((double)teta
);
y
= l
* cos((double)teta
);
a
= -(g
/l
) * sin((double)teta
);
sem_post
(&mx_mat
);
xg
= x0
+ x
;
yg
= y0
+ y
;
while (1) {
v
+= a
* dt
;
teta
+= v
* dt
;
sem_wait
(&mx_mat
);
x
= l
* sin((double)teta
);
y
= l
* cos((double)teta
);
a
= -(g
/l
) * sin((double)teta
);
sem_post
(&mx_mat
);
sem_wait
(&mx_grf
);
grx_line
(x0
, y0
, xg
, yg
, vga16color
[0]);
grx_circle
(xg
, yg
, 5, vga16color
[0]);
grx_disc
(xg
, yg
, 4, vga16color
[0]);
sem_post
(&mx_grf
);
xg
= x0
+x
; yg
= y0
+y
;
sem_wait
(&mx_grf
);
grx_line
(x0
, y0
, xg
, yg
, vga16color
[col
]);
grx_circle
(xg
, yg
, 5, vga16color
[col
+2]);
grx_disc
(xg
, yg
, 4, vga16color
[col
+1]);
sem_post
(&mx_grf
);
task_endcycle
();
}
}
/****************************** gener ******************************/
TASK gener
()
{
HARD_TASK_MODEL m
;
SOFT_TASK_MODEL am
;
PID pid
;
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[1]);
hard_task_def_mit
(m
, period
[1]);
hard_task_def_usemath
(m
);
pid
= task_create
("watch", watch
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
soft_task_default_model
(am
);
soft_task_def_met
(am
, wcet
[2]);
soft_task_def_period
(am
, period
[2]);
soft_task_def_aperiodic
(am
);
soft_task_def_usemath
(am
);
ptas
= task_create
("tasto", tasto
, &am
, NULL
);
task_activate
(ptas
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[3]);
hard_task_def_mit
(m
, period
[3]);
hard_task_def_usemath
(m
);
pid
= task_create
("palla", palla
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[4]);
hard_task_def_mit
(m
, period
[4]);
hard_task_def_usemath
(m
);
pid
= task_create
("mosca", mosca
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[5]);
hard_task_def_mit
(m
, period
[5]);
hard_task_def_usemath
(m
);
pid
= task_create
("infor", infor
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[6]);
hard_task_def_mit
(m
, period
[6]);
hard_task_def_usemath
(m
);
pid
= task_create
("ruota", ruota
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[7]);
hard_task_def_mit
(m
, period
[7]);
hard_task_def_usemath
(m
);
pid
= task_create
("color", color
, &m
, NULL
);
task_activate
(pid
);
keyb_getch
(BLOCK
);
//---------------------------------------------
hard_task_default_model
(m
);
hard_task_def_wcet
(m
, wcet
[8]);
hard_task_def_mit
(m
, period
[8]);
hard_task_def_usemath
(m
);
pid
= task_create
("pendo", pendo
, &m
, NULL
);
task_activate
(pid
);
//---------------------------------------------
return NULL
;
}
/****************************** MAIN ******************************/
int main
()
{
char s
[20]; /* carattere letto da tastiera */
int x0
, y0
;
int x
, y
;
TIME t1
, count
; /* contatori valutazione carico */
double car
; /* valore del carico corrente */
TIME seme
;
PID pid
;
NRT_TASK_MODEL m2
;
KEY_EVT eva
, evx
, evs
;
/* set the keyboard handler */
eva.
ascii = 'a';
eva.
scan = KEY_A
;
eva.
flag = 0;
eva.
status = KEY_PRESSED
;
keyb_hook
(eva
,kboar
,FALSE
);
evx.
ascii = 'x';
evx.
scan = KEY_X
;
evx.
flag = ALTL_BIT
;
evx.
status = KEY_PRESSED
;
keyb_hook
(evx
,finish1
,FALSE
);
evs.
ascii = ESC
;
evs.
scan = KEY_ESC
;
evs.
flag = 0;
evs.
status = KEY_PRESSED
;
keyb_hook
(evs
,finish2
,FALSE
);
sem_init
(&mx_mat
,0,1);
sem_init
(&mx_grf
,0,1);
seme
= sys_gettime
(NULL
);
srand(seme
);
get_par
();
grx_rect
(XWL
,YWH
,XWL
+LW
,YWH
+HW
,vga16color
[14]);
grx_rect
(XWM
,YWH
,XWM
+LW
,YWH
+HW
,vga16color
[14]);
grx_rect
(XWR
,YWH
,XWR
+LW
,YWH
+HW
,vga16color
[14]);
grx_rect
(XWL
,YWM
,XWL
+LW
,YWM
+HW
,vga16color
[14]);
grx_rect
(XWM
,YWM
,XWM
+LW
,YWM
+HW
,vga16color
[14]);
grx_rect
(XWR
,YWM
,XWR
+LW
,YWM
+HW
,vga16color
[14]);
grx_rect
(XWL
,YWL
,XWL
+LW
,YWL
+HW
,vga16color
[14]);
grx_rect
(XWM
,YWL
,XWM
+LW
,YWL
+HW
,vga16color
[14]);
grx_rect
(XWR
,YWL
,XWR
+LW
,YWL
+HW
,vga16color
[14]);
x0
= XWL
+ LW
/2;
y0
= YWH
+ HW
/2;
grx_circle
(x0
, y0
, LLAN
+3, vga16color
[12]);
grx_rect
(XWL
+74, YWH
+7, XWL
+120, YWH
+22, vga16color
[12]);
x0
= LREC
;
grx_line
(x0
, CIMA
, x0
, FONDO
, vga16color
[15]);
grx_line
(x0
+DREC
, CIMA
, x0
+DREC
, FONDO
, vga16color
[15]);
grx_line
(x0
, FONDO
, x0
+DREC
, FONDO
, vga16color
[15]);
grx_box
(x0
+1, CIMA
, x0
+DREC
-1, FONDO
-1, vga16color
[14]);
grx_text
("Press A", XWM
+16, YWH
+48, vga16color
[10], vga16color
[0]);
grx_text
("to fill", XWM
+16, YWH
+64, vga16color
[10], vga16color
[0]);
grx_text
("Press:", XWM
+18, YWM
+HW
-50, vga16color
[10], vga16color
[0]);
grx_text
("ESC to exit", XWM
+18, YWM
+HW
-40, vga16color
[10], vga16color
[0]);
grx_text
("SPACE to create", XWM
+18, YWM
+HW
-30, vga16color
[10], vga16color
[0]);
x0
= XWR
+ LW
/2;
y0
= YWM
+ HW
/2;
grx_circle
(x0
, y0
, LLAN
/3, vga16color
[14]);
grx_disc
(x0
, y0
, LLAN
/3-1, vga16color
[12]);
x0
= XWR
+5;
y0
= YWL
+HW
-5;
grx_line
(x0
, YWL
+HLOAD
, x0
+LW
-10, YWL
+HLOAD
, vga16color
[12]);
grx_text
("SYSTEM WORKLOAD:", x0
+5, YWL
+HLOAD
-10, vga16color
[10], vga16color
[0]);
count
= 0;
t1
= sys_gettime
(NULL
);
do count
++; while (sys_gettime
(NULL
) < (t1
+ DURATA
));
nrt_task_default_model
(m2
);
pid
= task_create
("gener", gener
, &m2
, NULL
);
task_activate
(pid
);
x
= 0;
while (!fine
) {
car
= load
(count
);
y
= (double)LLOAD
*car
;
sem_wait
(&mx_grf
);
grx_line
(x0
+x
, y0
-LLOAD
+1, x0
+x
, y0
, vga16color
[0]);
grx_line
(x0
+x
, y0
-y
, x0
+x
, y0
, vga16color
[15]);
grx_text
(" ", x0
+LW
-60, YWL
+HLOAD
-10, vga16color
[0], vga16color
[0]);
sprintf(s
, "%.3f", car
);
grx_text
(s
, x0
+LW
-50, YWL
+HLOAD
-10, vga16color
[15], vga16color
[0]);
sem_post
(&mx_grf
);
x
= (x
+ 1) % (LW
-10);
}
exit(1);
return 0;
}
/****************************************************************/
double load
(long n
)
{
TIME i
, t1
;
double carico
;
i
= 0;
t1
= sys_gettime
(NULL
);
do i
++; while (sys_gettime
(NULL
) < (t1
+ DURATA
));
carico
= 1.
- (double)i
/ (double)n
;
return(carico
);
}
/****************************************************************/