return math.sqrt((self.i - other.i)**2 + (self.j - other.j)**2)
def bearing(self, other=None):
if not other: other = coord(0, 0)
- return 1.90985*math.atan2(self.i-other.i, self.j-other.j)
+ return 1.90985*math.atan2(self.j-other.j, self.i-other.i)
def sgn(self):
s = coord()
if self.i == 0:
for i in range(QUADSIZE):
if game.quad[0][i]!=IHWEB and game.quad[0][i]!=IHT:
return
- if game.quad[QUADSIZE][i]!=IHWEB and game.quad[QUADSIZE][i]!=IHT:
+ if game.quad[QUADSIZE-1][i]!=IHWEB and game.quad[QUADSIZE-1][i]!=IHT:
return
if game.quad[i][0]!=IHWEB and game.quad[i][0]!=IHT:
return
- if game.quad[i][QUADSIZE]!=IHWEB and game.quad[i][QUADSIZE]!=IHT:
+ if game.quad[i][QUADSIZE-1]!=IHWEB and game.quad[i][QUADSIZE-1]!=IHT:
return
# All plugged up -- Tholian splits
game.quad[game.tholian.kloc.i][game.tholian.kloc.j]=IHWEB
shoved = True
elif iquad in (IHC, IHS, IHR, IHK): # Hit a regular enemy
# find the enemy
- if withprob(0.05):
+ if iquad in (IHC, IHS) and withprob(0.05):
prout(crmena(True, iquad, "sector", w) + _(" uses anti-photon device;"))
prout(_(" torpedo neutralized."))
return None
prout(_(" the Captain's psychological profile.\""))
scanner.chew()
return None
- return 1.90985932*math.atan2(delta.j, delta.i)
+ return delta.bearing()
def photon():
"Launch photon torpedo."
pause_game()
clrscr()
else:
- proutn("\n")
+ try:
+ curwnd.move(y+1, 0)
+ except curses.error:
+ pass
else:
global linecount
linecount += 1
time.sleep(0.03)
proutn(c)
if game.options & OPTION_CURSES:
- wrefresh(curwnd)
+ curwnd.refresh()
else:
sys.stdout.flush()
if not replayfp or replayfp.closed:
prout(_("Ensign Chekov- \"Course laid in, Captain.\""))
# the actual deltas get computed here
delta = coord()
- delta.i = dquad.j-game.quadrant.j + 0.1*(dsect.j-game.sector.j)
- delta.j = game.quadrant.i-dquad.i + 0.1*(game.sector.i-dsect.i)
+ delta.j = dquad.j-game.quadrant.j + 0.1*(dsect.j-game.sector.j)
+ delta.i = game.quadrant.i-dquad.i + 0.1*(game.sector.i-dsect.i)
else: # manual
while key == "IHEOL":
proutn(_("X and Y displacements- "))
for j in range(QUADSIZE):
sectscan(goodScan, i, j)
skip(1)
-
+
def eta():
"Use computer to get estimated time of arrival for a warp jump."
w1 = coord(); w2 = coord()
def listCommands():
"Generate a list of legal commands."
- proutn(_("LEGAL COMMANDS ARE:"))
- for (k, key) in enumerate(commands):
+ prout(_("LEGAL COMMANDS ARE:"))
+ emitted = 0
+ for key in commands:
if not commands[key] or (commands[key] & game.options):
- if k % 5 == 0:
+ proutn("%-12s " % key)
+ emitted += 1
+ if emitted % 5 == 4:
skip(1)
- proutn("%-12s " % key)
skip(1)
def helpme():