for (l = 1; l <= n; l++) {
ix = (x += deltax) + 0.5;
iy = (y += deltay) + 0.5;
- if (ix < 1 || ix > QUADSIZE || iy < 1 || iy > QUADSIZE) {
+ if (!VALID_SECTOR(ix, iy)) {
/* Leaving quadrant -- allow final enemy attack */
/* Don't do it if being pushed by Nova */
if (nenhere != 0 && iattak != 2) {
newcnd();
- for (l = 1; l <= nenhere; l++) {
+ for_local_enemies(l) {
finald = sqrt((ix-game.kx[l])*(double)(ix-game.kx[l]) +
(iy-game.ky[l])*(double)(iy-game.ky[l]));
game.kavgd[l] = 0.5 * (finald+game.kdist[l]);
* that attacks only happen if Klingons
* are present and your skill is good.
*/
- if (skill > SKILL_GOOD && klhere > 0 && game.state.galaxy[quadx][quady] != SUPERNOVA_PLACE)
+ if (skill > SKILL_GOOD && klhere > 0 && !game.state.galaxy[quadx][quady].supernova)
attack(0);
if (alldone) return;
}
finish(FNEG3);
return;
}
- prout("\n\rYOU HAVE ATTEMPTED TO CROSS THE NEGATIVE ENERGY BARRIER\n\r"
- "AT THE EDGE OF THE GALAXY. THE THIRD TIME YOU TRY THIS,\n\r"
- "YOU WILL BE DESTROYED.\n\r");
+ skip(1);
+ prout("YOU HAVE ATTEMPTED TO CROSS THE NEGATIVE ENERGY BARRIER");
+ prout("AT THE EDGE OF THE GALAXY. THE THIRD TIME YOU TRY THIS,");
+ prout("YOU WILL BE DESTROYED.");
}
/* Compute final position in new quadrant */
if (trbeam) return; /* Don't bother if we are to be beamed */
quady = (iy+(QUADSIZE-1))/QUADSIZE;
sectx = ix - QUADSIZE*(quadx-1);
secty = iy - QUADSIZE*(quady-1);
- prout("\n\rEntering %s.",
+ skip(1);
+ prout("Entering %s.",
cramlc(quadrant, quadx, quady));
game.quad[sectx][secty] = ship;
newqad(0);
* possibility that you'll get timewarped instead.
*/
n=0;
- for (l=1;l<=NDEVICES+1;l++)
- if (game.damage[l]>0) n++;
- probf=pow(1.4,(energy+shield)/5000.0-1.0)*
- pow(1.3,1.0/(n+1)-1.0);
+ for (l=0;l<NDEVICES;l++)
+ if (game.damage[l]>0)
+ n++;
+ probf=pow(1.4,(energy+shield)/5000.0-1.0)*pow(1.3,1.0/(n+1)-1.0);
if (Rand()>probf)
timwrp();
else
/* No quadrant change -- compute new avg enemy distances */
game.quad[sectx][secty] = ship;
if (nenhere) {
- for (l = 1; l <= nenhere; l++) {
+ for_local_enemies(l) {
finald = sqrt((ix-game.kx[l])*(double)(ix-game.kx[l]) +
(iy-game.ky[l])*(double)(iy-game.ky[l]));
game.kavgd[l] = 0.5 * (finald+game.kdist[l]);
game.kdist[l] = finald;
}
sortkl();
- if (game.state.galaxy[quadx][quady] != SUPERNOVA_PLACE && iattak == 0)
+ if (!game.state.galaxy[quadx][quady].supernova && iattak == 0)
attack(0);
- for (l = 1 ; l <= nenhere; l++) game.kavgd[l] = game.kdist[l];
+ for_local_enemies(l) game.kavgd[l] = game.kdist[l];
}
newcnd();
iattak = 0;
shield = inshld;
torps = intorps;
lsupres = inlsr;
- if (stdamtim != 1e30 &&
- (game.future[FCDBAS] < 1e30 || isatb == 1) && iseenit == 0) {
+ if (game.damage[DRADIO] == 0.0 &&
+ (game.future[FCDBAS] < FOREVER || isatb == 1) && iseenit == 0) {
/* get attack report from base */
prout("Lt. Uhura- \"Captain, an important message from the starbase:\"");
attakreport(0);
if (landed == 1 && !isprobe) {
prout("Dummy! You can't leave standard orbit until you");
- proutn("are back abourt the ");
+ proutn("are back aboard the ");
crmshp();
prout(".");
chew();
}
itemp = 1;
}
- if (irowq<1 || irowq > GALSIZE || icolq<1 || icolq > GALSIZE ||
- irows<1 || irows > QUADSIZE || icols<1 || icols > QUADSIZE) {
- huh();
- return;
- }
+ if (!VALID_QUADRANT(icolq,irowq)||!VALID_SECTOR(icols,irows)) {
+ huh();
+ return;
+ }
skip(1);
if (!isprobe) {
if (itemp) {
for (l = 1; l <= n; l++) {
x += deltax;
ix = x + 0.5;
- if (ix < 1 || ix > QUADSIZE) break;
y += deltay;
iy = y +0.5;
- if (iy < 1 || iy > QUADSIZE) break;
+ if (!VALID_SECTOR(ix, iy)) break;
if (game.quad[ix][iy] != IHDOT) {
blooey = 0;
twarp = 0;
return;
}
if (game.damage[DWARPEN] > 0.0 && aaitem > 4.0) {
- prout("Engineer Scott- \"I'm doing my best, Captain,\n"
- " but right now we can only go warp 4.\"");
+ prout("Engineer Scott- \"I'm doing my best, Captain,");
+ prout(" but right now we can only go warp 4.\"");
return;
}
if (aaitem > 10.0) {
crmshp();
skip(1);
prout("safely out of quadrant.");
- game.starch[quadx][quady] = game.damage[DRADIO] > 0.0 ? game.state.galaxy[quadx][quady]+SUPERNOVA_PLACE:1;
-
+ if (game.damage[DRADIO] == 0.0)
+ game.state.galaxy[quadx][quady].charted = TRUE;
/* Try to use warp engines */
if (game.damage[DWARPEN]) {
skip(1);
finish(FSNOVAED);
return;
}
+ } while
/* Repeat if another snova */
- } while (game.state.galaxy[quadx][quady] == SUPERNOVA_PLACE);
- if (game.state.remkl==0) finish(FWON); /* Snova killed remaining enemy. */
+ (game.state.galaxy[quadx][quady].supernova);
+ if (game.state.remkl==0)
+ finish(FWON); /* Snova killed remaining enemy. */
}
void timwrp()
{
- int l, ll, gotit;
+ int l, gotit;
prout("***TIME WARP ENTERED.");
if (game.state.snap && Rand() < 0.5) {
/* Go back in time */
be sooner */
if (game.state.nscrem) game.future[FSCMOVE] = 0.2777;
isatb = 0;
- game.future[FCDBAS] = game.future[FSCDBAS] = 1e30;
+ game.future[FCDBAS] = game.future[FSCDBAS] = FOREVER;
batx = baty = 0;
/* Make sure Galileo is consistant -- Snapshot may have been taken
prout("Checkov- \"Security reports the Galileo has reappeared in the dock!\"");
iscraft = 1;
}
-
- /* Revert star chart to earlier era, if it was known then*/
- if (game.damage[DRADIO]==0.0 || stdamtim > game.state.date) {
- for (l = 1; l <= GALSIZE; l++)
- for (ll = 1; ll <= GALSIZE; ll++)
- if (game.starch[l][ll] > 1)
- game.starch[l][ll]=game.damage[DRADIO]>0.0 ? game.state.galaxy[l][ll]+SUPERNOVA_PLACE :1;
- prout("Spock has reconstructed a correct star chart from memory");
- if (game.damage[DRADIO] > 0.0) stdamtim = game.state.date;
- }
+ /*
+ * There used to be code to do the actual reconstrction here,
+ * but the starchart is now part of the snapshotted galaxy state.
+ */
+ prout("Spock has reconstructed a correct star chart from memory");
}
else {
/* Go forward in time */
prout("Engineer Scott- \"The probe launcher is damaged, Sir.\"");
return;
}
- if (game.future[FDSPROB] != 1e30) {
+ if (game.future[FDSPROB] != FOREVER) {
chew();
skip(1);
if (game.damage[DRADIO] != 0 && condit != IHDOCKED) {
ddist = sqrt(square(basex-sectx)+square(basey-secty));
}
else {
- ddist = 1e30;
- for (l = 1; l <= game.state.rembase; l++) {
+ ddist = FOREVER;
+ for_starbases(l) {
xdist=10.0*sqrt(square(game.state.baseqx[l]-quadx)+square(game.state.baseqy[l]-quady));
if (xdist < ddist) {
ddist = xdist;
for (l = 1; l <= 5; l++) {
ix = basex+3.0*Rand()-1;
iy = basey+3.0*Rand()-1;
- if (ix>=1 && ix<=QUADSIZE && iy>=1 && iy<=QUADSIZE && game.quad[ix][iy]==IHDOT) {
+ if (VALID_SECTOR(ix,iy) && game.quad[ix][iy]==IHDOT) {
/* found one -- finish up */
sectx=ix;
secty=iy;
- game.quad[ix][iy]=IHMATER0;
break;
}
}
}
proutn(" attempt to re-materialize ");
crmshp();
- warble();
- if (Rand() > probf) break;
switch (l){
- case 1: game.quad[ix][iy]=IHMATER1;
+ case 1: game.quad[ix][iy]=IHMATER0;
break;
- case 2: game.quad[ix][iy]=IHMATER2;
+ case 2: game.quad[ix][iy]=IHMATER1;
break;
- case 3: game.quad[ix][iy]=IHQUEST;
+ case 3: game.quad[ix][iy]=IHMATER2;
break;
}
textcolor(RED);
+ warble();
+ if (Rand() > probf) break;
prout("fails.");
delay(500);
textcolor(DEFAULT);
}
if (l > 3) {
+ game.quad[ix][iy]=IHQUEST;
+ alive = 0;
+ drawmaps(1);
+ setwnd(message_window);
finish(FMATERIALIZE);
return;
}