static int randomSong(){
int song = 0;
song = random_max(songsLen);
//Serial.print("Song Notes: ");
//Serial.println(song);
return song;
}
static long random_min_max(long howsmall, long howbig)
{
if (howsmall >= howbig) return howsmall;
long diff = howbig - howsmall;
return random_max(diff) + howsmall;
}
/**
* Selects the new generation by mating two individuals selected
* probabilistically by their fitness.
* Point 3 of page 7 in paper by Mitchell.
*/
void make_new_generation() {
int i,j,k;
int totalFitness = calculateFitnesses();
rule_t* next_population = populations[1-p_buf];
if (generation % GENERATION_PRINT_SEQUENCE == 0) {
printGeneration();
}
// Create new generation
for (i=0; i<POPULATION_SIZE; i++) {
int index1 = 0, index2 = 0;
int map1 = (int) random_max(totalFitness);
int map2 = (int) random_max(totalFitness);
bool done1 = false;
bool done2 = false;
// Find individuals to mate
for (j=0, k=0; j < POPULATION_SIZE; j++) {
if (done1 && done2) break;
k += population[j].fitness;
if (!done1 && k >= map1) {
index1 = j;
done1 = true;
}
if (!done2 && k >= map2) {
index2 = j;
done2 = true;
}
}
rule_mate(population+index1, population+index2, next_population+i, next_population+i+1);
i++;
}
p_buf = 1-p_buf;
population = next_population;
}
static void create_cells( State *st )
{
int border = (int)(200.0 * st->screen_scale);
int i, foodcnt;
int w = st->width-2*border;
int h = st->height-2*border;
st->color[0] = 0.5 + random_max( 1000 ) * 0.0005;
st->color[1] = 0.5 + random_max( 1000 ) * 0.0005;
st->color[2] = 0.5 + random_max( 1000 ) * 0.0005;
st->color[3] = 1.0f;
/* allocate if startup */
if (!st->cell) {
st->cell = (Cell *) malloc( st->max_cells * sizeof(Cell));
}
/* fill the screen with random food for our little critters */
foodcnt = (st->width*st->height)/16;
for (i=0; i<foodcnt; ++i) {
st->food[i] = random_interval( st->minfood, st->maxfood );
}
/* create the requested seed-cells */
st->num_cells = st->num_seeds;
for (i=0; i<st->num_cells; ++i) {
st->cell[i].x = border + random_max( w );
st->cell[i].y = border + random_max( h );
st->cell[i].vx = 0.0;
st->cell[i].vy = 0.0;
st->cell[i].age = random_max( 0x0f );
st->cell[i].min_dist = 500.0;
st->cell[i].energy = random_interval( 5, 5+0x3f );
st->cell[i].rotation = ((double)random()/(double)RAND_MAX)*360.0;
st->cell[i].radius = st->radius;
st->cell[i].growth = 1.0;
}
}
int sysbef (char *befbuf)
//*************************************************************************
//
//*************************************************************************
{
static char shutdown_reason[23];
char xbuf[20];
static char *beftab[] =
{
"CONNECT", "LOGIN", "CALL", "OSHELL",
#ifdef __DOS16__
#ifdef _TNC
"TNC",
#endif
"W2", "UWIN", "TWIN",
#ifdef _AUTOTRCWIN
"TRWIN",
#endif
#endif
"RTEXT", "CAT", "RPRG", "WTEXT", "WPRG", "RBIN", "WBIN",
"SLR", "CLOG", "REORG",
"LIFETIME", "MKBOARD", "RMBOARD", "MVBOARD", "SHUTDOWN", "NEW",
"KILL", "TEST", "IMPORT", "DISABLE", "ENABLE",
#ifdef DIEBOX_UIMPORT
"UIMPORT",
#endif
#ifdef OLDMAILIMPORT
"OLDMAILIMPORT",
#endif
"SETUSER", "BEACON", "GREP", "TGREP", "TAIL", "BEGIN", "BATCH",
"EXPORT", "PWGEN", "POSTFWD", "MONITOR", "NOTE", "MACRO", "CFGFLEX",
"ORM", "OMV", "OCP", "OMD", "APPEND",
#ifdef DF3VI_EXTRACT
"EXTRACT",
#endif
"HOLD", "SETPW",
#ifdef FEATURE_YAPP
"WYAPP", "RYAPP",
#endif
#ifdef FEATURE_DIDADIT
"WDIDADIT", "RDIDADIT",
#endif
#if defined FEATURE_SERIAL || defined _TELEPHONE
"TTYINIT",
#endif
#ifdef _TELEPHONE // JJ
"TTYCMD", "TTYDIAL", "TTYHANGUP", "TTYSTATUS", "TTYWIN",
"TTYCOUNTERRESET",
#endif
#ifdef _AUTOFWD
"AFWDLIST",
#endif
#ifdef FEATURE_MDPW
"MD2SUM", "MD5SUM",
#endif
#ifdef FEATURE_EDITOR
"EDIT", "FEDIT", "REDIT",
#else
#ifdef DF3VI_FWD_EDIT
"FEDIT", "FWDEDIT",
#endif
#ifdef DF3VI_REJ_EDIT
"REDIT", "REJECTEDIT",
#endif
#ifdef DF3VI_CONV_EDIT
"CEDIT", "CONVEDIT",
#endif
#endif
#ifdef _FILEFWD
"FWDIMPORT", "FWDEXPORT",
#endif
"YMBTEST",
"SCMDLIST", // Dies ist immer das letzte Kommando!
NULL
};
enum befnum
{ unsinn, connect_, login, call_, oshell_,
#ifdef __DOS16__
#ifdef _TNC
tnc,
#endif
w2, uwin, twin,
#ifdef _AUTOTRCWIN
trwin,
#endif
#endif
rtext, rtext_, rprg, wtext, wprg, rbin, wbin,
slr, clog, reorg,
life_, mkb, rmb, mvb, shutdown_, new_,
kill_, test, import, disable_, enable_,
#ifdef DIEBOX_UIMPORT
uimport_,
#endif
#ifdef OLDMAILIMPORT
oldmailimport_,
#endif
setuser, beacon, grep_, tgrep, tail, begin, batch,
export_, pwgen, postfwd_, monitor_, note, macro, cfgflex_,
orm, omv, ocp, omd, _append,
#ifdef DF3VI_EXTRACT
extract_,
#endif
hold, setpw,
#ifdef FEATURE_YAPP
wyapp, ryapp,
#endif
#ifdef FEATURE_DIDADIT
wdidadit, rdidadit,
#endif
#if defined FEATURE_SERIAL || defined _TELEPHONE
ttyinit,
#endif
#ifdef _TELEPHONE // JJ
ttycmd, ttydial, ttyhangup, ttystatus, ttywin_,
ttycounterreset,
#endif
#ifdef _AUTOFWD
afwdlist_,
#endif
#ifdef FEATURE_MDPW
md2sum, md5sum,
#endif
#ifdef FEATURE_EDITOR
edit, fedit, redit,
#else
#ifdef DF3VI_FWD_EDIT
fedit, fwdedit,
#endif
#ifdef DF3VI_REJ_EDIT
redit, rejectedit,
#endif
#ifdef DF3VI_CONV_EDIT
cedit, convedit_,
#endif
#endif
#ifdef _FILEFWD
fwdimport, fwdexport,
#endif
ymbtest,
scmdlist // Dies ist immer das letzte Kommando!
} cmd = unsinn;
befbuf += blkill(befbuf);
cmd = (befnum) readcmd(beftab, &befbuf, 0);
switch (cmd)
{
#ifdef FEATURE_YAPP
case ryapp:
#endif
#ifdef FEATURE_DIDADIT
case rdidadit:
#endif
#if defined(FEATURE_YAPP) || defined(FEATURE_DIDADIT)
break;
#endif
default:
if (u->lf != 6)
putv(LF);
leerzeile(); // Sends the number of CRs stored in "ALTER LF"
}
switch (cmd)
{
case unsinn:
if ( mbinitbef(befbuf, 0)
#ifdef _TELEPHONE // JJ
|| ttyinitbef(befbuf, 0)
#endif
)
{
strcpy(xbuf, "^");
mbparsave();
#ifdef _TELEPHONE // JJ
ttyparsave();
#endif
strncpy(xbuf + 1, befbuf, 18);
xbuf[19] = 0;
subst1(xbuf, ' ', 0);
subst1(xbuf, '=', 0);
grep(MBINITNAME, xbuf, o_i);
#ifdef _TELEPHONE // JJ
grep(INITTTYNAME, xbuf, o_i);
#endif
return OK;
}
else return NO;
case note: trace(replog, "note", "%s", befbuf); break;
#ifdef DF3VI_EXTRACT
case extract_: mbchange(befbuf, w_extract, 1); break;
#endif
case hold: mbchange(befbuf, w_hold, 1); break;
case omv:
{
char f1[50], f2[50];
befbuf = nexttoken(befbuf, f1, 49);
befbuf = nexttoken(befbuf, f2, 49);
if (! *f1 || ! *f2 || xrename(f1, f2))
putf(ms(m_error));
else
{
putf(ms(m_moving));
putf(ms(m_nach), f1, f2);
}
break;
}
case ocp:
{
char f1[50], f2[50];
befbuf = nexttoken(befbuf, f1, 49);
befbuf = nexttoken(befbuf, f2, 49);
if (! *f1 || ! *f2 || filecopy(f1, f2))
putf(ms(m_error));
else
{
putf(ms(m_copying));
putf(ms(m_nach), f1, f2);
}
break;
}
case orm:
{
char f1[50];
befbuf = nexttoken(befbuf, f1, 49);
if (! *f1 || xunlink(f1))
putf(ms(m_filecantdeleted), f1);
else
putf(ms(m_filedeleted), f1);
break;
}
case omd:
{
char f1[50];
befbuf = nexttoken(befbuf, f1, 49);
killbackslash(f1);
if (! *f1 || xmkdir(f1))
putf(ms(m_directorycantcreated), f1);
else
putf(ms(m_directorycreated), f1);
break;
}
case _append:
{
char textline[LINELEN+1];
befbuf = nexttoken(befbuf, textline, LINELEN);
if (! *befbuf)
{
putf("Syntax: APPEND <textline> <filename>\n");
break;
}
FILE *f = s_fopen(befbuf, "sat");
if (f)
{
fprintf(f, "%s\n", textline);
s_fclose(f);
}
else putf(ms(m_filenotfound), befbuf);
} break;
case macro:
{
mk_start(befbuf);
} break;
case setuser:
{
char call[CALLEN+1];
befbuf = nexttoken(befbuf, call, CALLEN+1);
strupr(call);
if (mbcallok(call) && *befbuf)
{
trace(report, "setuser", "%s", befbuf);
{
if (! mbalter(NULL, befbuf, call))
putf(ms(m_isunknown), call);
b->msg_loadnum = 0; //reload msg
loaduser(b->logincall, u, 1);
}
}
else
putf("Syntax: SETUSER <call> <option> <value>\n");
} break;
case setpw: //automatisierte Passwort-Vergabe
{
char call[CALLEN+1];
char passwd[40];
int i, pwline = 0;
FILE *upwf;
befbuf = nexttoken(befbuf, call, CALLEN+1);
strupr(call);
pwline = atoi(befbuf);
if (! mbcallok(call) || ! pwline)
{
putf("Syntax: SETPW <call> <number>\n");
break;
}
if (! loaduser(call, u, 0))
{
putf(ms(m_isunknown), call);
break;
}
upwf = s_fopen("userpw.bcm", "sr");
if (! upwf)
{
putf(ms(m_filenotfound), "userpw.bcm");
break;
}
for (i = 0; i < pwline && ! feof(upwf); i++)
fgets(passwd, sizeof(passwd) - 1, upwf);
s_fclose(upwf);
if (i < pwline)
{
putf(ms(m_userpwlines), i - 1);
break;
}
strcpy(u->password, passwd);
saveuser(u);
pwline = strlen(u->password);
putf(ms(m_loginpw), pwtypestr(u->loginpwtype), pwtypestr(u->sfpwtype));
putf(" ");
putf(ms(m_pwdlength), pwline);
sprintf(passwd, "pw set to %i char", pwline);
pwlog(call, b->logincall, passwd);
b->msg_loadnum = 0; //reload msg
loaduser(b->logincall, u, 1);
} break;
#ifdef DIEBOX_UIMPORT
case uimport_:
{
putf(ms(m_dieboximport));
uimport();
} break;
#endif
#ifdef OLDMAILIMPORT
case oldmailimport_:
{
scanoptions(befbuf);
formoptions();
befbuf += blkill(befbuf);
if (isdir(befbuf))
{
putf(ms(m_omi_started), befbuf);
putflush();
oldmailimport(befbuf);
}
else
putf(ms(m_dirunknown), befbuf);
} break;
#endif
case disable_:
{
putf(ms(m_boxdisabled));
m.disable = 1;
mbparsave();
} break;
case enable_:
{
putf(ms(m_boxenabled));
m.disable = 0;
mbparsave();
} break;
case test:
{
if (*befbuf == 'W') { while (1); } // for testing watchdog
else if (*befbuf == 'S') { trace(fatal, "test", "abort"); }
else if (*befbuf == 'V') { *(char *)0 = 1; }
else mk_start(befbuf);
} break;
case batch:
{
runbatch(befbuf);
} break;
case rtext:
case rtext_:
{
fileio_text fio;
fio.usefile(befbuf);
fio.tx();
putf("\032\n"); // CTRL-Z
} break;
case wtext:
{
fileio_text fio;
fio.usefile(befbuf);
fio.rx();
} break;
case rbin:
case rprg:
{
fileio_abin fio;
fio.usefile(befbuf);
fio.tx();
} break;
case wbin:
case wprg:
{
fileio_abin fio;
fio.usefile(befbuf);
fio.rx();
} break;
#ifdef FEATURE_YAPP
case ryapp:
{
fileio_yapp fio;
fio.usefile(befbuf);
fio.tx();
} break;
case wyapp:
{
fileio_yapp fio;
fio.usefile(befbuf);
fio.rx();
} break;
#endif // FEATURE_YAPP
#ifdef FEATURE_DIDADIT
case rdidadit:
{
fileio_dida fio;
fio.usefile(befbuf);
fio.tx();
} break;
case wdidadit:
{
fileio_dida fio;
if (! *befbuf) fio.usefile("dummy");
else
{
if (befbuf[strlen(befbuf) - 1] != '/') strcat(befbuf, "/");
strcat(befbuf, "dummy");
fio.usefile(befbuf);
}
fio.rx();
} break;
#endif // FEATURE_DIDADIT
case slr:
{
scanoptions(befbuf);
putlog(TRACEPATH "/" SYSLOGRNAME, befbuf);
} break;
case clog:
{
scanoptions(befbuf);
putlog(TRACEPATH "/" CMDLOGNAME, befbuf);
} break;
case tail:
{
scanoptions(befbuf);
befbuf += blkill(befbuf);
if (b->optplus&o_f && *befbuf)
{
int a;
FILE *f = s_fopen(befbuf, "lrt");
if (f)
{
fseek(f, 0, SEEK_END);
do
{
while ((a = fgetc(f)) != EOF) putv(a);
wdelay(349);
}
while (! testabbruch());
s_fclose(f);
}
}
else
{
fileio_text fio;
fio.usefile(befbuf);
fio.settail(-2000);
fio.tx();
}
} break;
case begin:
{
fileio_text fio;
fio.usefile(befbuf);
fio.settail(2000);
fio.tx();
} break;
case monitor_:
{
if (*befbuf)
{
scanoptions(befbuf);
b->continous = 1;
monitor(atoi(befbuf), b->optplus);
}
else
putf("Syntax: MONITOR [-iords] <task-id>\n");
} break;
case tgrep:
{
char string[61];
char name[40];
scanoptions(befbuf);
if (b->optminus & o_i) b->optplus |= o_i;
//wenn nicht explizit "-i-", ist "-i" default
b->usermail = 0;
if (! *befbuf)
{
putf("Syntax: TGREP [pattern] <fwd-bbs>\n");
break;
}
befbuf = nexttoken(befbuf, string, 60);
if (*befbuf)
{
sprintf(name, TRACEPATH "/t_%s.bcm", befbuf);
grep(name, string, b->optplus);
}
else
{
sprintf(name, TRACEPATH "/t_%s.bcm", string);
putlog(name, "");
}
} break;
case grep_:
{
char string[61];
scanoptions(befbuf);
if (b->optminus & o_i) b->optplus |= o_i;
//wenn nicht explizit "-i-", ist "-i" default
b->usermail = 0;
befbuf = nexttoken(befbuf, string, 60);
grep(befbuf, string, b->optplus);
} break;
#ifdef _AUTOFWD
case afwdlist_:
{
afwdlist(befbuf);
} break;
#endif
case life_:
{
if (*befbuf)
{
strupr(befbuf);
char *life = skip(befbuf);
int board = finddir(befbuf, b->sysop);
if (board > 0)
{
board -= 1;
if (life && *life)
{
tree[board].lifetime_max = atoi(life);
tree[board].lifetime_min = 1;
if (tree[board].lifetime_max > 999)
tree[board].lifetime_max = 999;
if (tree[board].lifetime_max < 1)
tree[board].lifetime_max = 1;
char *life_min = skip(life);
if (life_min && *life_min)
{
tree[board].lifetime_min = atoi(life_min);
if (tree[board].lifetime_min > 999)
tree[board].lifetime_min = 999;
if (tree[board].lifetime_min < 1)
tree[board].lifetime_min = 1;
}
mbtreesave();
}
putf(ms(m_lifetimestat), b->boardfullname, tree[board].lifetime_max,
tree[board].lifetime_min);
}
else
putf(ms(m_notfound), befbuf);
}
else
putf("Syntax: LIFETIME <board> <days_maximum> [<days_minimum>]\n"
" (with 1 <= days_maximum/days_minimum <= 999)\n\n");
} break;
#ifdef _TNC
case tnc:
{
control_tnc(befbuf);
} break;
#endif
case connect_:
{
termqso(befbuf);
} break;
case login:
{
if (mbcallok(befbuf))
{
mblogin(befbuf, login_standard, b->uplink);
cmdlog("login changed");
putf(ms(m_loginchanged));
}
else
putf("Syntax: LOGIN <new logincall>\n");
} break;
case call_:
{
if (mbcallok(befbuf))
{
mblogin(befbuf, login_silent, b->uplink);
b->msg_loadnum--; //Sonst wird falsche Sprache benutzt
cmdlog("call changed");
}
else
putf("Syntax: CALL <new logincall>\n");
} break;
case oshell_:
{
if (t->input == io_file || t->output == io_file)
oshell(befbuf, sh_noinput);
else oshell(befbuf, m.dosinput ? sh_forceinput : sh_ifmultitask);
} break;
case reorg:
{
if (sema_test("purgereorg") == 1)
putf(ms(m_purgeallstarted));
else
{
putf(ms(m_reorginvoked));
fork(P_BACK | P_MAIL, 0, mbreorg, befbuf);
}
} break;
case postfwd_:
{
putf(ms(m_postfwdinvoked));
fork(P_BACK | P_MAIL, 0, postfwd, "Postfwd");
} break;
#ifdef FEATURE_EDITOR
case edit:
{
fork(P_WIND | P_KEYB, 0, editfile, befbuf);
} break;
case fedit:
{
fork(P_WIND | P_KEYB, 0, editfile, FWDLISTNAME);
} break;
case redit:
{
fork(P_WIND | P_KEYB, 0, editfile, REJECTNAME);
} break;
#else
#ifdef DF3VI_FWD_EDIT
case fedit: //wenn kein editor vorhanden remote-editor aufrufen
case fwdedit:
{
fwdlistedit(befbuf);
} break;
#endif
#ifdef DF3VI_REJ_EDIT
case redit:
case rejectedit:
{
rejectlistedit(befbuf);
} break;
#endif
#ifdef DF3VI_CONV_EDIT
case cedit:
case convedit_:
{
convedit(befbuf);
} break;
#endif
#endif
case new_:
{
scanoptions(befbuf);
mbinit();
initfwdlist();
#ifdef _AUTOFWD
initafwdlist();
#endif
if (! (b->optplus & o_q)) // skip statistics on "new -q"
{
b->optplus = o_s | o_f | o_c;
putf(ms(m_hadrstat));
browse_hadr("");
}
mbcvtload();
#ifdef RUNUTILS
read_runfile();
#endif
msg_dealloc(1);
mk_read_jobs();
} break;
case kill_:
{
if (atoi(befbuf))
{
while (atoi(befbuf))
{
if (! killtask(nextdez(&befbuf), 1))
putf(ms(m_cantkilltask));
}
}
else
putf("Syntax: KILL <task-id>\n");
} break;
#ifdef __DOS16__
case w2:
{
fork(P_WIND | P_KEYB|P_MAIL, 0, mbwin2, m.sysopcall);
} break;
case uwin:
{
fork(P_WIND | P_KEYB|P_MAIL, 0, userwin, "Users");
} break;
case twin:
{
fork(P_WIND | P_MAIL, 0, taskwin, befbuf);
} break;
#ifdef _AUTOTRCWIN
case trwin:
{
if (*befbuf) fork(P_WIND | P_MAIL, 0, trcwin, befbuf);
else putf("Syntax: TRWIN [-iords] <task-id>\n");
} break;
#endif
#endif //__DOS16__
case mkb:
{
char mainboard[30];
char newboard[20];
char *slash;
befbuf = nexttoken(befbuf, mainboard, 29);
befbuf = nexttoken(befbuf, newboard, 19);
slash = strchr(mainboard + 1, '/');
if (slash && (! *newboard))
{
*slash = 0;
strcpy(newboard, slash + 1);
}
if (! *newboard && *mainboard == '/')
{
strcpy(newboard, mainboard + 1);
mainboard[1] = 0;
}
if (*mainboard && *newboard)
{
switch (mkboard(mainboard, newboard, 0))
{
case 0: putf(ms(m_boardcreated)); break;
case 1: putf(ms(m_mainboardnotfound)); break;
case 2: putf(ms(m_toomanyboards)); break;
case 3: putf(ms(m_boardnameexist)); break;
case 4: putf(ms(m_invalidboardname)); break;
}
}
else
putf("Syntax: MKBOARD <mainboard> <subboard>\n");
} break;
case rmb:
{
if (*befbuf)
{
subst1(befbuf, ' ', '/');
if (*befbuf == '/' && befbuf[1] == '/') befbuf++;
switch (rmboard(befbuf))
{
case 0: putf(ms(m_boardremoved)); break;
case 1: putf(ms(m_boardnotfound)); break;
case 2: putf(ms(m_boardnotempty)); break;
}
}
else
putf("Syntax: RMBOARD <mainboard> <subboard>\n");
} break;
case mvb:
{
char oldboard[20];
char subboard[20];
char neuboard[20];
befbuf = nexttoken(befbuf, oldboard, 19);
befbuf = nexttoken(befbuf, subboard, 19);
befbuf = nexttoken(befbuf, neuboard, 19);
if (*oldboard && *subboard && *neuboard)
{
switch (mvboard(oldboard, subboard, neuboard))
{
case 0: putf(ms(m_boardmoved)); break;
case 1: putf(ms(m_newboardnotfound)); break;
case 2: putf(ms(m_toomanyboards)); break;
case 4: putf(ms(m_oldboardnotfound)); break;
}
}
else
putf("Syntax: MVBOARD <oldboard> <subboard> <newboard>\n");
} break;
case shutdown_:
{
scanoptions(befbuf);
#ifdef __DOS16__
if (b->optplus & o_r) atexit((void(*)()) MK_FP(0xffff, 0x0000));
#endif
runterfahren = 1;
sprintf(shutdown_reason, "shutdown by %s", b->logincall);
stopreason = shutdown_reason;
} break;
case cfgflex_:
{
if (*befbuf && file_isreg("cfgflex.bcm"))
{
putf(ms(m_flexstarted));
fork(P_BACK | P_MAIL, 0, cfgflex, befbuf);
}
else
putf("Syntax: CFGFLEX <flexcall> (cfgflex.bcm must exist)\n");
} break;
case import:
{
sysimport(befbuf);
} break;
case export_:
{
if (*befbuf)
{
if ((t->input != io_file || t->output == io_dummy)
&& t->output != io_file)
{
char fname[51];
scanoptions(befbuf);
befbuf = nexttoken(befbuf, fname, 50);
if (b->optplus & o_a) // neue Option -b fuer binaer
{
if (b->optplus & o_b) b->outputfile = s_fopen(fname, "sab");
else b->outputfile = s_fopen(fname, "sat");
}
else
{
if (b->optplus & o_b) b->outputfile = s_fopen(fname, "swb");
else b->outputfile = s_fopen(fname, "swt");
}
if (b->outputfile)
{
s_fsetopt(b->outputfile, 1);
b->oldinput = t->input;
b->oldoutput = t->output;
t->input = io_dummy;
t->output = io_file;
b->continous = 1;
if (b->optplus & o_u) b->sysop = 0;
if (*befbuf) mailbef(befbuf, 0);
b->sysop = 1;
}
else
putf(ms(m_filenotopen), fname);
}
}
else
putf("Syntax: EXPORT <filename> <box-command>\n");
} break;
case beacon:
{
if (*befbuf)
{
FILE *f = s_fopen(BEACONNAME, "srt");
unsigned int i = 0;
char s[LINELEN+1];
if (f)
{
while (fgets(s, LINELEN, f))
{
if (*s)
{
s[strlen(s) - 1] = 0;
putbeacon_tnc(s, befbuf);
i++;
}
}
s_fclose(f);
}
putf(ms(m_beaconframes), i);
}
else
{
fork(P_BACK | P_MAIL, 0, sendmailbake, "Beacon");
putf(ms(m_beaconstarted));
}
} break;
case pwgen:
{
FILE *f;
if (*befbuf && (f = s_fopen(befbuf, "swt")) != 0)
{
unsigned int i;
int upw;
upw = ! stricmp(befbuf, "userpw.bcm"); // file fuer setpw
for (i = 0; i < 1620; i++)
{
char c = 0;
while (! isalnum(c)) c = random_max('z');
fputc(c, f);
//pw-file fuer setpw erzeugen (81 Zeilen mit je 20 Zeichen)
if (upw && (i % 20) == 19) fputc(LF, f);
}
trace(report, "pwgen", "%s created", befbuf);
s_fclose(f);
}
else //ohne Parameter immer userpw.bcm erzeugen
if (! *befbuf && (f = s_fopen("userpw.bcm", "swt")) != 0)
{
unsigned int i;
for (i = 0; i < 1620; i++)
{
char c = 0;
while (! isalnum(c)) c = random_max('z');
fputc(c, f);
//pw-file fuer setpw erzeugen (81 Zeilen mit je 20 Zeichen)
if ((i % 20) == 19) fputc(LF, f);
}
trace(report, "pwgen", "userpw.bcm created");
s_fclose(f);
}
} break;
case scmdlist: // DH3MB
{
unsigned int i = 0;
while (beftab[i]) putf("(%02d) %s\n", ++i, beftab[i]);
} break;
#ifdef FEATURE_MDPW
case md2sum:
{
if (! *befbuf)
{
putf("Syntax: MD2SUM <filename>\n");
break;
}
if (! file_isreg(befbuf))
putf(ms(m_filenotfound), befbuf);
else
{
MD2 md2;
md2.readfile(befbuf, 0L);
md2.gethexdigest(b->line);
putf("%s %s\n", b->line, befbuf);
}
} break;
case md5sum:
{
if (! *befbuf)
{
putf("Syntax: MD5SUM <filename>\n");
break;
}
if (! file_isreg(befbuf))
putf(ms(m_filenotfound), befbuf);
else
{
MD5 md5;
md5.readfile(befbuf, 0L);
md5.gethexdigest(b->line);
putf("%s %s\n", b->line, befbuf);
}
} break;
#endif
#if defined FEATURE_SERIAL || defined _TELEPHONE
case ttyinit:
{
if (eingelogt("getty", 0, 0))
putf(ms(m_ttyactive));
else
init_tty();
} break;
#endif
#ifdef _TELEPHONE // JJ
case ttycmd:
{
if (*befbuf)
{
if (m.ttydevice > 1)
putf_tty("%s\r", befbuf);
else
putf(ms(m_nomodem));
}
else
putf("Syntax: TTYCMD <command>\n");
} break;
case ttydial:
{
strupr(befbuf);
char *nummer;
char call[8];
nummer = nexttoken(befbuf, call, 8);
if (*befbuf && mbcallok(call))
{
if (m.ttydevice
&& (get_ufwd(call)[0] || isforwardpartner(call) >= 0))
{
putf(ms(m_startphonefwd), call, nummer);
sprintf(befbuf, "%s TTY %s", call, nummer);
fork(P_BACK | P_MAIL, 0, fwdsend, befbuf);
}
else
putf(ms(m_nottyactive));
}
else
putf("Syntax: TTYDIAL <call> <number>\n");
} break;
case ttyhangup:
{
tty_hangup();
putf(ms(m_hangupmodem));
} break;
case ttystatus:
{
tty_statustext();
putv(LF);
} break;
case ttywin_:
{
fork(P_WIND | P_MAIL, 0, tty_win, befbuf);
} break;
case ttycounterreset:
{
tty_counterreset();
putv(LF);
} break;
#endif
#ifdef _FILEFWD
case fwdimport:
{
if (*befbuf) fwd_import(befbuf);
} break;
case fwdexport:
{
if (*befbuf) fwd_export(befbuf);
} break;
#endif
case ymbtest:
{
#ifdef _USERCOMP
if (u->comp == 1)
{
/*
char output[256] = { 0 };
char output2[256] = { 0 };
int i, il = 0;
*/
putf("//COMP 1\n\n");
putflush();
/*
il = comp_sp_stat_huff(befbuf, strlen(befbuf), output);
// printf("il: %d strlen: %d\n",il,strlen(befbuf));
// printf("befbuf:\n-%s-\nOut:\n-%s-\n",befbuf,output);
//putflush();
for (i = 1; i < il ; i++)
bputv(output[i]);
putv(LF);
putflush();
output[0] = '\0';
strcpy(befbuf, "dies ist noch ein laengerer text 2");
il = comp_sp_stat_huff(befbuf, strlen(befbuf), output);
for (i = 1; i < il ; i++)
bputv(output[i]);
putv(LF);
putflush();
output[0] = '\0';
strcpy(befbuf, "dies ist ein noch laengerer text 3");
il = comp_sp_stat_huff(befbuf, strlen(befbuf), output);
for (i = 1; i < il ; i++)
bputv(output[i]);
putv(LF);
putflush();
putf("\n");
il = decomp_sp_stat_huff(output, strlen(output), output2);
printf("il: %d strlen: %d\n",il,strlen(output));
printf("Out2:\n-%s-\n",output2);
*/
/*
#include "ahuf.h"
// TOP-Huffman
class AHUF;
AHUF *ahuf;
ahuf = new AHUF();
il = ahuf->Komprimieren(true, befbuf, output, strlen(befbuf) );
printf("il: %d strlen: %d\n",il,strlen(befbuf));
printf("befbuf:\n-%s-\nOut:\n-%s-\n",befbuf,output);
putflush();
putf("%s",output);
putflush();
putf("\n");
*/
}
#endif
} break;
}
return OK;
/* all this is rather expensive :( */
static void tick( State *st )
{
int new_num_cells, num_cells=0;
int b, j;
int x, y, w4=st->width/4, h4=st->height/4, offset;
double min_dist;
int min_index;
int num_living = 0;
const double check_dist = 0.75*st->move_dist;
const double grow_dist = 0.75*st->radius;
const double adult_radius = st->radius;
/* find number of cells capable of division
and count living cells
*/
for (b=0; b<st->num_cells; ++b) {
if (st->cell[b].energy > 0) num_living++;
if (can_divide( st, &st->cell[b] )) num_cells++;
}
new_num_cells = st->num_cells + num_cells;
/* end of simulation ? */
if (0 == num_living || new_num_cells >= st->max_cells) {
if (st->pause_counter > 0) st->pause_counter--;
if (st->pause_counter > 0) return;
create_cells( st );
st->pause_counter = st->pause;
} else if (num_cells) { /* any fertile candidates ? */
for (b=0, j=st->num_cells; b<st->num_cells; ++b) {
if (can_divide( st, &st->cell[b] )) {
st->cell[b].vx = random_interval( -50, 50 ) * 0.01;
st->cell[b].vy = random_interval( -50, 50 ) * 0.01;
st->cell[b].age = random_max( 0x0f );
/* half energy for both plus some bonus for forking */
st->cell[b].energy =
st->cell[b].energy/2 + random_max( 0x0f );
/* forking makes me shrink */
st->cell[b].growth = 0.995;
/* this one initially goes into the oposite direction */
st->cell[j].vx = -st->cell[b].vx;
st->cell[j].vy = -st->cell[b].vy;
/* same center */
st->cell[j].x = st->cell[b].x;
st->cell[j].y = st->cell[b].y;
st->cell[j].age = random_max( 0x0f );
st->cell[j].energy = (st->cell[b].energy);
st->cell[j].rotation =
((double)random()/(double)RAND_MAX)*360.0;
st->cell[j].growth = st->cell[b].growth;
st->cell[j].radius = st->cell[b].radius;
++j;
} else {
st->cell[b].vx = 0.0;
st->cell[b].vy = 0.0;
}
}
st->num_cells = new_num_cells;
}
/* for each find a direction to escape */
if (st->num_cells > 1) {
for (b=0; b<st->num_cells; ++b) {
if (st->cell[b].energy > 0) {
double vx;
double vy;
double len;
/* grow or shrink */
st->cell[b].radius *= st->cell[b].growth;
/* find closest neighbour */
min_dist = 100000.0;
min_index = 0;
for (j=0; j<st->num_cells; ++j) {
if (j!=b) {
const double dx = st->cell[b].x - st->cell[j].x;
const double dy = st->cell[b].y - st->cell[j].y;
if (fabs(dx) < check_dist || fabs(dy) < check_dist) {
const double dist = dx*dx+dy*dy;
/*const double dist = sqrt( dx*dx+dy*dy );*/
if (dist<min_dist) {
min_dist = dist;
min_index = j;
}
}
}
}
/* escape step is away from closest normalized with distance */
vx = st->cell[b].x - st->cell[min_index].x;
vy = st->cell[b].y - st->cell[min_index].y;
len = sqrt( vx*vx + vy*vy );
if (len > 0.0001) {
st->cell[b].vx = vx/len;
st->cell[b].vy = vy/len;
}
st->cell[b].min_dist = len;
/* if not adult (radius too small) */
if (st->cell[b].radius < adult_radius) {
/* if too small 60% stop shrinking */
if (st->cell[b].radius < adult_radius * 0.6) {
st->cell[b].growth = 1.0;
}
/* at safe distance we start growing again */
if (len > grow_dist) {
if (st->cell[b].energy > 30) {
st->cell[b].growth = 1.005;
}
}
} else { /* else keep size */
st->cell[b].growth = 1.0;
}
}
}
} else {
st->cell[0].min_dist = 2*st->move_dist;
}
/* now move em, snack and burn energy */
for (b=0; b<st->num_cells; ++b) {
/* if still alive */
if (st->cell[b].energy > 0) {
/* agility depends on amount of energy */
double fac = (double)st->cell[b].energy / 50.0;
if (fac < 0.0) fac = 0.0;
if (fac > 1.0) fac = 1.0;
st->cell[b].x += fac*(2.0 -
(4.0*(double)random() / (double)RAND_MAX) +
st->cell[b].vx);
st->cell[b].y += fac*(2.0 -
(4.0*(double)random() / (double)RAND_MAX) +
st->cell[b].vy);
/* get older and burn energy */
if (st->cell[b].energy > 0) {
st->cell[b].age++;
st->cell[b].energy--;
}
/* have a snack */
x = ((int)st->cell[b].x)/4;
if (x<0) x=0; if (x>=w4) x = w4-1;
y = ((int)st->cell[b].y)/4;
if (y<0) y=0; if (y>=h4) y = h4-1;
offset = x+y*w4;
/* don't eat if already satisfied */
if (st->cell[b].energy < 100 &&
st->food[offset] > 0) {
st->food[offset]--;
st->cell[b].energy++;
/* if you are hungry, eat more */
if (st->cell[b].energy < 50 &&
st->food[offset] > 0) {
st->food[offset]--;
st->cell[b].energy++;
}
}
}
}
}
