for (x = quadx-1; x <= quadx+1; x++) {
proutn(" ");
for (y = quady-1; y <= quady+1; y++) {
- if (x == 0 || x > GALSIZE || y == 0 || y > GALSIZE)
+ if (!VALID_QUADRANT(x, y))
proutn(" -1");
else {
- if (game.state.galaxy[x][y]<SUPERNOVA_PLACE) proutn(" %3d", game.state.galaxy[x][y]);
- else proutn("***");
- game.starch[x][y] = game.damage[DRADIO] > 0 ? game.state.galaxy[x][y]+SUPERNOVA_PLACE : 1;
+ if (!game.damage[DRADIO])
+ game.state.galaxy[x][y].charted = TRUE;
+ game.state.chart[x][y].klingons = game.state.galaxy[x][y].klingons;
+ game.state.chart[x][y].starbase = game.state.galaxy[x][y].starbase;
+ game.state.chart[x][y].stars = game.state.galaxy[x][y].stars;
+ if (game.state.galaxy[x][y].supernova)
+ proutn(" ***");
+ else
+ proutn(" %3d", game.state.chart[x][y].klingons*100 + game.state.chart[x][y].starbase * 10 + game.state.chart[x][y].stars);
}
}
prout(" ");
if (!jdam) prout("All devices functional.");
}
+void rechart(void)
+/* update the chart in the Enterprise's computer from galaxy data */
+{
+ int i, j;
+ stdamtim = game.state.date;
+ for_quadrants(i)
+ for_quadrants(j)
+ if (game.state.galaxy[i][j].charted) {
+ game.state.chart[i][j].klingons = game.state.galaxy[i][j].klingons;
+ game.state.chart[i][j].starbase = game.state.galaxy[i][j].starbase;
+ game.state.chart[i][j].stars = game.state.galaxy[i][j].stars;
+ }
+}
+
void chart(int nn)
{
int i,j;
if (stdamtim != 1e30) {
if (condit == IHDOCKED) {
/* We are docked, so restore chart from base information */
- stdamtim = game.state.date;
- for (i=1; i <= GALSIZE ; i++)
- for (j=1; j <= GALSIZE; j++)
- if (game.starch[i][j] == 1) game.starch[i][j] = game.state.galaxy[i][j]+SUPERNOVA_PLACE;
+ rechart();
}
- else {
- proutn("(Last surveillance update %d stardates ago.",
+ else if (game.state.date-stdamtim) {
+ prout("(Last surveillance update %d stardates ago).",
(int)(game.state.date-stdamtim));
}
}
+ else if (game.damage[DRADIO] == 0.0)
+ rechart();
prout(" 1 2 3 4 5 6 7 8");
- for (i = 1; i <= GALSIZE; i++) {
+ for_quadrants(i) {
proutn("%d |", i);
- for (j = 1; j <= GALSIZE; j++) {
+ for_quadrants(j) {
char buf[4];
proutn(" ");
- if (game.starch[i][j] == CHART_UNKNOWN)
- strcpy(buf, ".1.");
- else if (game.starch[i][j] == 0)
- strcpy(buf, "...");
- else if (game.state.galaxy[i][j]>=SUPERNOVA_PLACE)
+ if (game.state.galaxy[i][j].supernova)
strcpy(buf, "***");
+ else if (!game.state.galaxy[i][j].charted && game.state.galaxy[i][j].starbase)
+ strcpy(buf, ".1.");
+ else if (game.state.galaxy[i][j].charted)
+ sprintf(buf, "%d%d%d", game.state.chart[i][j].klingons, game.state.chart[i][j].starbase, game.state.chart[i][j].stars);
else
- sprintf(buf, "%03d", game.state.galaxy[i][j]);
+ strcpy(buf, "...");
for (cp = buf; cp < buf + sizeof(buf); cp++)
if (*cp == '0')
*cp = '.';
case 10:
attakreport(1);
break;
- /*
- * Note: attakreport() can in some cases produce two lines of
- * output. If that happens, and QUADSIZE is the normal 10, items
- * 11 and up will be printed past the bottom of the quadrant display.
- * Under the curses display logic they will get lost because they're
- * written outside the report window.
- */
- case 11: /* ESR */
- proutn("Bases Left %d", game.state.rembase);
- break;
}
}
int srscan(int l)
{
static char requests[][3] =
- {"","da","co","po","ls","wa","en","to","sh","kl","ti", "ba"};
+ {"","da","co","po","ls","wa","en","to","sh","kl","ti"};
int leftside=TRUE, rightside=TRUE, i, j, jj, req=0, nn=FALSE;
int goodScan=TRUE;
switch (l) {
prout(" [Using Base's sensors]");
}
else proutn(" Short-range scan\n\r");
- if (goodScan) game.starch[quadx][quady] = game.damage[DRADIO]>0.0 ? game.state.galaxy[quadx][quady]+SUPERNOVA_PLACE:1;
+ if (goodScan && !game.damage[DRADIO]) {
+ game.state.chart[quadx][quady].klingons = game.state.galaxy[quadx][quady].klingons;
+ game.state.chart[quadx][quady].starbase = game.state.galaxy[quadx][quady].starbase;
+ game.state.chart[quadx][quady].stars = game.state.galaxy[quadx][quady].stars;
+ game.state.galaxy[quadx][quady].charted = TRUE;
+ }
scan();
if (isit("chart")) nn = TRUE;
if (isit("no")) rightside = FALSE;
jj = (req!=0 ? req : i);
if (leftside && i <= QUADSIZE) {
proutn("%2d ", i);
- for (j = 1; j <= QUADSIZE; j++) {
+ for_sectors(j) {
sectscan(goodScan, i, j);
}
}
else iy2=QUADSIZE;
}
- if (ix1 > GALSIZE || ix1 < 1 || iy1 > GALSIZE || iy1 < 1 ||
- ix2 > QUADSIZE || ix2 < 1 || iy2 > QUADSIZE || iy2 < 1) {
+ if (!VALID_QUADRANT(ix1, iy1) || !VALID_SECTOR(ix2, iy2)) {
huh();
return;
}