X-Git-Url: https://jxself.org/git/?p=super-star-trek.git;a=blobdiff_plain;f=src%2Fsst.py;h=76fa31a6a911303b02f8141927cdd6907b4730fd;hp=aa025c8814d12d0dbbab311df96888e2ee963513;hb=c16dbbf0caf5f0c5f1a7fb9059db7953d9616d0e;hpb=15abf5a55ca05af3c953793d704868508aa026de diff --git a/src/sst.py b/src/sst.py index aa025c8..76fa31a 100644 --- a/src/sst.py +++ b/src/sst.py @@ -172,6 +172,13 @@ your score. Docking at a starbase replenishes your crew. Also, the nav subsystem (enabling automatic course setting) can be damaged separately from the main computer (which handles weapons targeting, ETA calculation, and self-destruct). + +After these features were added, I translated this into Python and added +more: + +9. A long-range scan is done silently whenever you call CHART; thus +the LRSCAN command is no longer needed. (Controlled by OPTION_AUTOSCAN +and turned off if game type is "plain" or "almy".) """ import os,sys,math,curses,time,atexit,readline,cPickle,random,getopt,copy @@ -262,6 +269,8 @@ class coord: def __hash__(self): return hash((x, y)) def __str__(self): + if self.x == None or self.y == None: + return "Nowhere" return "%s - %s" % (self.x+1, self.y+1) __repr__ = __str__ @@ -342,15 +351,16 @@ OPTION_TTY = 0x00000001 # old interface OPTION_CURSES = 0x00000002 # new interface OPTION_IOMODES = 0x00000003 # cover both interfaces OPTION_PLANETS = 0x00000004 # planets and mining -OPTION_THOLIAN = 0x00000008 # Tholians and their webs -OPTION_THINGY = 0x00000010 # Space Thingy can shoot back -OPTION_PROBE = 0x00000020 # deep-space probes +OPTION_THOLIAN = 0x00000008 # Tholians and their webs (UT 1979 version) +OPTION_THINGY = 0x00000010 # Space Thingy can shoot back (Stas, 2005) +OPTION_PROBE = 0x00000020 # deep-space probes (DECUS version, 1980) OPTION_SHOWME = 0x00000040 # bracket Enterprise in chart -OPTION_RAMMING = 0x00000080 # enemies may ram Enterprise -OPTION_MVBADDY = 0x00000100 # more enemies can move -OPTION_BLKHOLE = 0x00000200 # black hole may timewarp you -OPTION_BASE = 0x00000400 # bases have good shields -OPTION_WORLDS = 0x00000800 # logic for inhabited worlds +OPTION_RAMMING = 0x00000080 # enemies may ram Enterprise (Almy) +OPTION_MVBADDY = 0x00000100 # more enemies can move (Almy) +OPTION_BLKHOLE = 0x00000200 # black hole may timewarp you (Stas, 2005) +OPTION_BASE = 0x00000400 # bases have good shields (Stas, 2005) +OPTION_WORLDS = 0x00000800 # logic for inhabited worlds (ESR, 2006) +OPTION_AUTOSCAN = 0x00001000 # automatic LRSCAN before CHART (ESR, 2006) OPTION_PLAIN = 0x01000000 # user chose plain game OPTION_ALMY = 0x02000000 # user chose Almy variant @@ -405,24 +415,43 @@ NEVENTS = 12 # def findevent(evtype): return game.future[evtype] +class enemy: + def __init__(self, type=None, loc=None, power=None): + self.type = type + self.kloc = coord() + if loc: + self.move(loc) + self.kpower = power # enemy energy level + game.enemies.append(self) + def move(self, loc): + if self.kloc.x is not None and self.kloc.y is not None: + game.quad[self.kloc.x][self.kloc.y] = IHDOT + if loc: + self.kloc = loc + game.quad[self.kloc.x][self.kloc.y] = self.type + self.kdist = self.kavgd = distance(game.sector, loc) + else: + self.kloc = coord() # enemy sector location + self.kdist = self.kavgd = None + game.enemies.remove(self) + def __repr__(self): + return "<%s=%f>" % (self.kloc, self.kpower) # For debugging + class gamestate: def __init__(self): self.options = None # Game options self.state = snapshot() # A snapshot structure self.snapsht = snapshot() # Last snapshot taken for time-travel purposes self.quad = fill2d(QUADSIZE, lambda i, j: IHDOT) # contents of our quadrant - self.kpower = fill2d(QUADSIZE, lambda i, j: 0.0) # enemy energy levels - self.kdist = fill2d(QUADSIZE, lambda i, j: 0.0) # enemy distances - self.kavgd = fill2d(QUADSIZE, lambda i, j: 0.0) # average distances self.damage = [0.0] * NDEVICES # damage encountered self.future = [] # future events for i in range(NEVENTS): self.future.append(event()) self.passwd = None; # Self Destruct password - self.ks = fill2d(QUADSIZE, lambda i, j: coord()) # enemy sector locations + self.enemies = [] self.quadrant = None # where we are in the large self.sector = None # where we are in the small - self.tholian = None # coordinates of Tholian + self.tholian = None # Tholian enemy object self.base = None # position of base in current quadrant self.battle = None # base coordinates being attacked self.plnet = None # location of planet in quadrant @@ -468,10 +497,9 @@ class gamestate: self.nkinks = 0 # count of energy-barrier crossings self.iplnet = None # planet # in quadrant self.inplan = 0 # initial planets - self.nenhere = 0 # number of enemies in quadrant self.irhere = 0 # Romulans in quadrant self.isatb = 0 # =1 if super commander is attacking base - self.tourn = 0 # tournament number + self.tourn = None # tournament number self.proben = 0 # number of moves for probe self.nprobes = 0 # number of probes available self.inresor = 0.0 # initial resources @@ -575,12 +603,12 @@ import traceback def withprob(p): v = random.random() - logfp.write("# withprob(%s) -> %f (%s) at %s\n" % (p, v, v %f (%s) at %s\n" % (p, v, v %s at %s\n" % (args, v, traceback.extract_stack()[-2][1:])) + #logfp.write("# randrange%s -> %s at %s\n" % (args, v, traceback.extract_stack()[-2][1:])) return v def randreal(*args): @@ -589,12 +617,12 @@ def randreal(*args): v *= args[0] # returns from [0, a1) elif len(args) == 2: v = args[0] + v*args[1] # returns from [a1, a2) - logfp.write("# randreal%s -> %s at %s\n" % (args, v, traceback.extract_stack()[-2][1:])) + #logfp.write("# randreal%s -> %s at %s\n" % (args, v, traceback.extract_stack()[-2][1:])) return v # Code from ai.c begins here -def tryexit(look, ienm, loccom, irun): +def tryexit(enemy, look, irun): # a bad guy attempts to bug out iq = coord() iq.x = game.quadrant.x+(look.x+(QUADSIZE-1))/QUADSIZE - 1 @@ -603,11 +631,11 @@ def tryexit(look, ienm, loccom, irun): game.state.galaxy[iq.x][iq.y].supernova or \ game.state.galaxy[iq.x][iq.y].klingons > MAXKLQUAD-1: return False; # no can do -- neg energy, supernovae, or >MAXKLQUAD-1 Klingons - if ienm == IHR: + if enemy.type == IHR: return False; # Romulans cannot escape! if not irun: # avoid intruding on another commander's territory - if ienm == IHC: + if enemy.type == IHC: for n in range(game.state.remcom): if game.state.kcmdr[n] == iq: return False @@ -615,28 +643,23 @@ def tryexit(look, ienm, loccom, irun): if game.battle == game.quadrant: return False # don't leave if over 1000 units of energy - if game.kpower[loccom] > 1000.0: + if enemy.kpower > 1000.0: return False # print escape message and move out of quadrant. # we know this if either short or long range sensors are working if not damaged(DSRSENS) or not damaged(DLRSENS) or \ - game.condition == docked: - crmena(True, ienm, "sector", game.ks[loccom]) + game.condition == "docked": + crmena(True, enemy.type, "sector", enemy.kloc) prout(_(" escapes to Quadrant %s (and regains strength).") % q) - # handle local matters related to escape - game.quad[game.ks[loccom].x][game.ks[loccom].y] = IHDOT - game.ks[loccom] = game.ks[game.nenhere] - game.kavgd[loccom] = game.kavgd[game.nenhere] - game.kpower[loccom] = game.kpower[game.nenhere] - game.kdist[loccom] = game.kdist[game.nenhere] + # handle local matters related to escape + enemy.move(None) game.klhere -= 1 - game.nenhere -= 1 - if game.condition != docked: + if game.condition != "docked": newcnd() # Handle global matters related to escape game.state.galaxy[game.quadrant.x][game.quadrant.y].klingons -= 1 game.state.galaxy[iq.x][iq.y].klingons += 1 - if ienm==IHS: + if enemy.type==IHS: game.ishere = False game.iscate = False game.ientesc = False @@ -692,7 +715,7 @@ def tryexit(look, ienm, loccom, irun): # 5. Motion is limited to skill level, except for SC hi-tailing it out. # -def movebaddy(com, loccom, ienm): +def movebaddy(enemy): # tactical movement for the bad guys next = coord(); look = coord() irun = False @@ -701,18 +724,16 @@ def movebaddy(com, loccom, ienm): nbaddys = ((game.comhere*2 + game.ishere*2+game.klhere*1.23+game.irhere*1.5)/2.0) else: nbaddys = game.comhere + game.ishere - - dist1 = game.kdist[loccom] + dist1 = enemy.kdist mdist = int(dist1 + 0.5); # Nearest integer distance - # If SC, check with spy to see if should hi-tail it - if ienm==IHS and \ - (game.kpower[loccom] <= 500.0 or (game.condition=="docked" and not damaged(DPHOTON))): + if enemy.type==IHS and \ + (enemy.kpower <= 500.0 or (game.condition=="docked" and not damaged(DPHOTON))): irun = True motion = -QUADSIZE else: # decide whether to advance, retreat, or hold position - forces = game.kpower[loccom]+100.0*game.nenhere+400*(nbaddys-1) + forces = enemy.kpower+100.0*len(game.enemies)+400*(nbaddys-1) if not game.shldup: forces += 1000; # Good for enemy if shield is down! if not damaged(DPHASER) or not damaged(DPHOTON): @@ -748,9 +769,9 @@ def movebaddy(com, loccom, ienm): motion = game.skill # calculate preferred number of steps if motion < 0: - msteps = -motion + nsteps = -motion else: - msteps = motion + nsteps = motion if motion > 0 and nsteps > mdist: nsteps = mdist; # don't overshoot if nsteps > QUADSIZE: @@ -760,11 +781,11 @@ def movebaddy(com, loccom, ienm): if idebug: proutn("NSTEPS = %d:" % nsteps) # Compute preferred values of delta X and Y - mx = game.sector.x - com.x - my = game.sector.y - com.y + mx = game.sector.x - enemy.kloc.x + my = game.sector.y - enemy.kloc.y if 2.0 * abs(mx) < abs(my): mx = 0 - if 2.0 * abs(my) < abs(game.sector.x-com.x): + if 2.0 * abs(my) < abs(game.sector.x-enemy.kloc.x): my = 0 if mx != 0: if mx*motion < 0: @@ -776,7 +797,7 @@ def movebaddy(com, loccom, ienm): my = -1 else: my = 1 - next = com + next = enemy.kloc # main move loop for ll in range(nsteps): if idebug: @@ -797,24 +818,24 @@ def movebaddy(com, loccom, ienm): while attempts < 20 and not success: attempts += 1 if look.x < 0 or look.x >= QUADSIZE: - if motion < 0 and tryexit(look, ienm, loccom, irun): + if motion < 0 and tryexit(enemy, look, irun): return if krawlx == mx or my == 0: break look.x = next.x + krawlx krawlx = -krawlx elif look.y < 0 or look.y >= QUADSIZE: - if motion < 0 and tryexit(look, ienm, loccom, irun): + if motion < 0 and tryexit(enemy, look, irun): return if krawly == my or mx == 0: break look.y = next.y + krawly krawly = -krawly elif (game.options & OPTION_RAMMING) and game.quad[look.x][look.y] != IHDOT: - # See if we should ram ship + # See if enemy should ram ship if game.quad[look.x][look.y] == game.ship and \ - (ienm == IHC or ienm == IHS): - ram(True, ienm, com) + (enemy.type == IHC or enemy.type == IHS): + collision(rammed=True, enemy=enemy) return if krawlx != mx and my != 0: look.x = next.x + krawlx @@ -832,21 +853,20 @@ def movebaddy(com, loccom, ienm): proutn(`next`) else: break; # done early - if idebug: skip(1) # Put commander in place within same quadrant - game.quad[com.x][com.y] = IHDOT - game.quad[next.x][next.y] = ienm - if next != com: + game.quad[enemy.kloc.x][enemy.kloc.y] = IHDOT + game.quad[next.x][next.y] = enemy.type + if next != enemy.kloc: # it moved - game.ks[loccom] = next - game.kdist[loccom] = game.kavgd[loccom] = distance(game.sector, next) - if not damaged(DSRSENS) or game.condition == docked: + enemy.kloc = next + enemy.kdist = enemy.kavgd = distance(game.sector, next) + if not damaged(DSRSENS) or game.condition == "docked": proutn("***") - cramen(ienm) - proutn(_(" from Sector %s") % com) - if game.kdist[loccom] < dist1: + cramen(enemy.type) + proutn(_(" from Sector %s") % enemy.kloc) + if enemy.kdist < dist1: proutn(_(" advances to ")) else: proutn(_(" retreats to ")) @@ -859,26 +879,22 @@ def moveklings(): # Figure out which Klingon is the commander (or Supercommander) # and do move if game.comhere: - for i in range(game.nenhere): - w = game.ks[i] - if game.quad[w.x][w.y] == IHC: - movebaddy(w, i, IHC) - break + for enemy in game.enemies: + if enemy.type == IHC: + movebaddy(enemy) if game.ishere: - for i in range(game.nenhere): - w = game.ks[i] - if game.quad[w.x][w.y] == IHS: - movebaddy(w, i, IHS) + for enemy in game.enemies: + if enemy.type == IHS: + movebaddy(enemy) break # If skill level is high, move other Klingons and Romulans too! # Move these last so they can base their actions on what the # commander(s) do. if game.skill >= SKILL_EXPERT and (game.options & OPTION_MVBADDY): - for i in range(game.nenhere): - w = game.ks[i] - if game.quad[w.x][w.y] == IHK or game.quad[w.x][w.y] == IHR: - movebaddy(w, i, game.quad[w.x][w.y]) - sortklings(); + for enemy in game.enemies: + if enemy.type in (IHK, IHR): + movebaddy(enemy) + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) def movescom(iq, avoid): # commander movement helper @@ -904,19 +920,14 @@ def movescom(iq, avoid): game.ishere = False game.ientesc = False unschedule(FSCDBAS) - for i in range(game.nenhere): - if game.quad[game.ks[i].x][game.ks[i].y] == IHS: + for enemy in game.enemies: + if enemy.type == IHS: break - game.quad[game.ks[i].x][game.ks[i].y] = IHDOT - game.ks[i] = game.ks[game.nenhere] - game.kdist[i] = game.kdist[game.nenhere] - game.kavgd[i] = game.kavgd[game.nenhere] - game.kpower[i] = game.kpower[game.nenhere] + enemy.move(None) game.klhere -= 1 - game.nenhere -= 1 - if game.condition!=docked: + if game.condition != "docked": newcnd() - sortklings() + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) # check for a helpful planet for i in range(game.inplan): if game.state.planets[i].w == game.state.kscmdr and \ @@ -981,7 +992,7 @@ def supercommander(): iwhichb = i break if ifindit==0: - return; # Nothing suitable -- wait until next time + return # Nothing suitable -- wait until next time ibq = game.state.baseq[iwhichb] # decide how to move toward base idelta = ibq - game.state.kscmdr @@ -1021,14 +1032,14 @@ def supercommander(): if ibq == game.state.kscmdr and game.state.kscmdr == game.battle: # attack the base if avoid: - return; # no, don't attack base! + return # no, don't attack base! game.iseenit = False game.isatb = 1 schedule(FSCDBAS, randreal(1.0, 3.0)) if is_scheduled(FCDBAS): postpone(FSCDBAS, scheduled(FCDBAS)-game.state.date) if not communicating(): - return; # no warning + return # no warning game.iseenit = True announce() prout(_("Lt. Uhura- \"Captain, the starbase in Quadrant %s") \ @@ -1053,45 +1064,44 @@ def supercommander(): announce() prout(_("Lt. Uhura- \"Captain, Starfleet Intelligence reports")) proutn(_(" the Super-commander is in Quadrant %s,") % game.state.kscmdr) - return; + return def movetholian(): # move the Tholian if not game.tholian or game.justin: return - if game.tholian.x == 0 and game.tholian.y == 0: + if game.tholian.kloc.x == 0 and game.tholian.kloc.y == 0: idx = 0; idy = QUADSIZE-1 - elif game.tholian.x == 0 and game.tholian.y == QUADSIZE-1: + elif game.tholian.kloc.x == 0 and game.tholian.kloc.y == QUADSIZE-1: idx = QUADSIZE-1; idy = QUADSIZE-1 - elif game.tholian.x == QUADSIZE-1 and game.tholian.y == QUADSIZE-1: + elif game.tholian.kloc.x == QUADSIZE-1 and game.tholian.kloc.y == QUADSIZE-1: idx = QUADSIZE-1; idy = 0 - elif game.tholian.x == QUADSIZE-1 and game.tholian.y == 0: + elif game.tholian.kloc.x == QUADSIZE-1 and game.tholian.kloc.y == 0: idx = 0; idy = 0 else: # something is wrong! - game.ithere = False + game.tholian = None return # do nothing if we are blocked if game.quad[idx][idy]!= IHDOT and game.quad[idx][idy]!= IHWEB: return - game.quad[game.tholian.x][game.tholian.y] = IHWEB - if game.tholian.x != idx: + game.quad[game.tholian.kloc.x][game.tholian.kloc.y] = IHWEB + if game.tholian.kloc.x != idx: # move in x axis - im = math.fabs(idx - game.tholian.x)*1.0/(idx - game.tholian.x) - while game.tholian.x != idx: - game.tholian.x += im - if game.quad[game.tholian.x][game.tholian.y]==IHDOT: - game.quad[game.tholian.x][game.tholian.y] = IHWEB - elif game.tholian.y != idy: + im = math.fabs(idx - game.tholian.kloc.x)*1.0/(idx - game.tholian.kloc.x) + while game.tholian.kloc.x != idx: + game.tholian.kloc.x += im + if game.quad[game.tholian.kloc.x][game.tholian.kloc.y]==IHDOT: + game.quad[game.tholian.kloc.x][game.tholian.kloc.y] = IHWEB + elif game.tholian.kloc.y != idy: # move in y axis - im = math.fabs(idy - game.tholian.y)*1.0/(idy - game.tholian.y) - while game.tholian.y != idy: - game.tholian.y += im - if game.quad[game.tholian.x][game.tholian.y]==IHDOT: - game.quad[game.tholian.x][game.tholian.y] = IHWEB - game.quad[game.tholian.x][game.tholian.y] = IHT - game.ks[game.nenhere] = game.tholian - + im = math.fabs(idy - game.tholian.kloc.y)*1.0/(idy - game.tholian.kloc.y) + while game.tholian.kloc.y != idy: + game.tholian.kloc.y += im + if game.quad[game.tholian.kloc.x][game.tholian.kloc.y]==IHDOT: + game.quad[game.tholian.kloc.x][game.tholian.kloc.y] = IHWEB + game.quad[game.tholian.kloc.x][game.tholian.kloc.y] = IHT + #game.enemies[-1].kloc = game.tholian #FIXME # check to see if all holes plugged for i in range(QUADSIZE): if game.quad[0][i]!=IHWEB and game.quad[0][i]!=IHT: @@ -1103,12 +1113,11 @@ def movetholian(): if game.quad[i][QUADSIZE]!=IHWEB and game.quad[i][QUADSIZE]!=IHT: return # All plugged up -- Tholian splits - game.quad[game.tholian.x][game.tholian.y]=IHWEB + game.quad[game.tholian.kloc.x][game.tholian.kloc.y]=IHWEB dropin(IHBLANK) crmena(True, IHT, "sector", game.tholian) prout(_(" completes web.")) - game.tholian = None - game.nenhere -= 1 + game.tholian.move(None) return # Code from battle.c begins here @@ -1272,24 +1281,24 @@ def randdevice(): return i return None; # we should never get here -def ram(ibumpd, ienm, w): - # make our ship ram something +def collision(rammed, enemy): + # collision handling prouts(_("***RED ALERT! RED ALERT!")) skip(1) prout(_("***COLLISION IMMINENT.")) skip(2) proutn("***") crmshp() - hardness = {IHR:1.5, IHC:2.0, IHS:2.5, IHT:0.5, IHQUEST:4.0}.get(ienm, 1.0) - if ibumpd: + hardness = {IHR:1.5, IHC:2.0, IHS:2.5, IHT:0.5, IHQUEST:4.0}.get(enemy.type, 1.0) + if rammed: proutn(_(" rammed by ")) else: proutn(_(" rams ")) - crmena(False, ienm, sector, w) - if ibumpd: + crmena(False, enemy.type, "sector", enemy.kloc) + if rammed: proutn(_(" (original position)")) skip(1) - deadkl(w, ienm, game.sector) + deadkl(enemy.kloc, enemy.type, game.sector) proutn("***") crmshp() prout(_(" heavily damaged.")) @@ -1317,7 +1326,7 @@ def ram(ibumpd, ienm, w): damagereport() else: finish(FWON) - return; + return def torpedo(course, r, incoming, i, n): # let a photon torpedo fly @@ -1341,9 +1350,9 @@ def torpedo(course, r, incoming, i, n): # Loop to move a single torpedo for l in range(1, 15+1): x += deltax - w.x = x + 0.5 + w.x = int(x + 0.5) y += deltay - w.y = y + 0.5 + w.y = int(y + 0.5) if not VALID_SECTOR(w.x, w.y): break iquad=game.quad[w.x][w.y] @@ -1371,8 +1380,8 @@ def torpedo(course, r, incoming, i, n): temp = math.fabs(math.cos(ang)) xx = -math.sin(ang)/temp yy = math.cos(ang)/temp - jw.x=w.x+xx+0.5 - jw.y=w.y+yy+0.5 + jw.x = int(w.x+xx+0.5) + jw.y = int(w.y+yy+0.5) if not VALID_SECTOR(jw.x, jw.y): return hit if game.quad[jw.x][jw.y]==IHBLANK: @@ -1386,26 +1395,26 @@ def torpedo(course, r, incoming, i, n): shoved = True elif iquad in (IHC, IHS): # Hit a commander if withprob(0.05): - crmena(True, iquad, sector, w) + crmena(True, iquad, "sector", w) prout(_(" uses anti-photon device;")) prout(_(" torpedo neutralized.")) return None elif iquad in (IHR, IHK): # Hit a regular enemy # find the enemy - for ll in range(game.nenhere): - if w == game.ks[ll]: + for enemy in game.enemies: + if w == game.enemies[ll].kloc: break - kp = math.fabs(game.kpower[ll]) + kp = math.fabs(e.kpower) h1 = 700.0 + randrange(100) - \ 1000.0 * distance(w, incoming) * math.fabs(math.sin(bullseye-angle)) h1 = math.fabs(h1) if kp < h1: h1 = kp - if game.kpower[ll] < 0: - game.kpower[ll] -= -h1 + if enemy.kpower < 0: + enemy.kpower -= -h1 else: - game.kpower[ll] -= h1 - if game.kpower[ll] == 0: + enemy.kpower -= h1 + if enemy.kpower == 0: deadkl(w, iquad, w) return None crmena(True, iquad, "sector", w) @@ -1430,7 +1439,7 @@ def torpedo(course, r, incoming, i, n): prout(_(" damaged but not destroyed.")) return None proutn(_(" damaged--")) - game.ks[ll] = jw + enemy.kloc = jw shoved = True break elif iquad == IHB: # Hit a base @@ -1449,7 +1458,7 @@ def torpedo(course, r, incoming, i, n): newcnd() return None elif iquad == IHP: # Hit a planet - crmena(True, iquad, sector, w) + crmena(True, iquad, "sector", w) prout(_(" destroyed.")) game.state.nplankl += 1 game.state.galaxy[game.quadrant.x][game.quadrant.y].planet = None @@ -1462,7 +1471,7 @@ def torpedo(course, r, incoming, i, n): finish(FDPLANET) return None elif iquad == IHW: # Hit an inhabited world -- very bad! - crmena(True, iquad, sector, w) + crmena(True, iquad, "sector", w) prout(_(" destroyed.")) game.state.nworldkl += 1 game.state.galaxy[game.quadrant.x][game.quadrant.y].planet = None @@ -1480,7 +1489,7 @@ def torpedo(course, r, incoming, i, n): if withprob(0.9): nova(w) else: - crmena(True, IHSTAR, sector, w) + crmena(True, IHSTAR, "sector", w) prout(_(" unaffected by photon blast.")) return None elif iquad == IHQUEST: # Hit a thingy @@ -1500,13 +1509,12 @@ def torpedo(course, r, incoming, i, n): # you can shove the Thingy and piss it off. # It then becomes an enemy and may fire at you. # - global iqengry - iqengry = True + thing.angry = True shoved = True return None elif iquad == IHBLANK: # Black hole skip(1) - crmena(True, IHBLANK, sector, w) + crmena(True, IHBLANK, "sector", w) prout(_(" swallows torpedo.")) return None elif iquad == IHWEB: # hit the web @@ -1519,24 +1527,23 @@ def torpedo(course, r, incoming, i, n): h1 = math.fabs(h1) if h1 >= 600: game.quad[w.x][w.y] = IHDOT - game.tholian = None deadkl(w, iquad, w) + game.tholian = None return None skip(1) - crmena(True, IHT, sector, w) + crmena(True, IHT, "sector", w) if withprob(0.05): prout(_(" survives photon blast.")) return None prout(_(" disappears.")) + game.tholian.move(None) game.quad[w.x][w.y] = IHWEB - game.tholian = None - game.nenhere -= 1 dropin(IHBLANK) return None else: # Problem! skip(1) proutn("Don't know how to handle torpedo collision with ") - crmena(True, iquad, sector, w) + crmena(True, iquad, "sector", w) skip(1) return None break @@ -1546,9 +1553,9 @@ def torpedo(course, r, incoming, i, n): game.quad[w.x][w.y]=IHDOT game.quad[jw.x][jw.y]=iquad prout(_(" displaced by blast to Sector %s ") % jw) - for ll in range(game.nenhere): - game.kdist[ll] = game.kavgd[ll] = distance(game.sector,game.ks[ll]) - sortklings() + for ll in range(len(game.enemies)): + game.enemies[ll].kdist = game.enemies[ll].kavgd = distance(game.sector,game.enemies[ll].kloc) + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) return None skip(1) prout(_("Torpedo missed.")) @@ -1556,8 +1563,6 @@ def torpedo(course, r, incoming, i, n): def fry(hit): # critical-hit resolution - ktr=1 - # a critical hit occured if hit < (275.0-25.0*game.skill)*randreal(1.0, 1.5): return ncrit = int(1.0 + hit/(500.0+randreal(100))) @@ -1573,17 +1578,14 @@ def fry(hit): cdam.append(j) extradm = (hit*game.damfac)/(ncrit*randreal(75, 100)) game.damage[j] += extradm - if loop1 > 0: - for loop2 in range(loop1): - if j == cdam[loop2]: - break - if loop2 < loop1: - continue - ktr += 1 - if ktr==3: - skip(1) - proutn(_(" and ")) + skipcount = 0 + for (i, j) in enumerate(cdam): proutn(device[j]) + if skipcount % 3 == 2 and i < len(cdam)-1: + skip() + skipcount += 1 + if i < len(cdam)-1: + proutn(_(" and ")) prout(_(" damaged.")) if damaged(DSHIELD) and game.shldup: prout(_("***Shields knocked down.")) @@ -1591,10 +1593,9 @@ def fry(hit): def attack(torps_ok): # bad guy attacks us - # torps_ok == false forces use of phasers in an attack - atackd = False; attempt = False; ihurt = False; + # torps_ok == False forces use of phasers in an attack + attempt = False; ihurt = False; hitmax=0.0; hittot=0.0; chgfac=1.0 - jay = coord() where = "neither" # game could be over at this point, check if game.alldone: @@ -1612,7 +1613,7 @@ def attack(torps_ok): if (((game.comhere or game.ishere) and not game.justin) or game.skill == SKILL_EMERITUS) and torps_ok: moveklings() # if no enemies remain after movement, we're done - if game.nenhere==0 or (game.nenhere==1 and thing == game.quadrant and not iqengry): + if len(game.enemies)==0 or (len(game.enemies)==1 and thing == game.quadrant and not thing.angry): return # set up partial hits if attack happens during shield status change pfac = 1.0/game.inshld @@ -1622,50 +1623,48 @@ def attack(torps_ok): # message verbosity control if game.skill <= SKILL_FAIR: where = "sector" - for loop in range(game.nenhere): - if game.kpower[loop] < 0: + for enemy in game.enemies: + if enemy.kpower < 0: continue; # too weak to attack # compute hit strength and diminish shield power r = randreal() - # Increase chance of photon torpedos if docked or enemy energy low + # Increase chance of photon torpedos if docked or enemy energy is low if game.condition == "docked": r *= 0.25 - if game.kpower[loop] < 500: + if enemy.kpower < 500: r *= 0.25; - jay = game.ks[loop] - iquad = game.quad[jay.x][jay.y] - if iquad==IHT or (iquad==IHQUEST and not iqengry): + if enemy.type==IHT or (enemy.type==IHQUEST and not thing.angry): continue # different enemies have different probabilities of throwing a torp usephasers = not torps_ok or \ - (iquad == IHK and r > 0.0005) or \ - (iquad==IHC and r > 0.015) or \ - (iquad==IHR and r > 0.3) or \ - (iquad==IHS and r > 0.07) or \ - (iquad==IHQUEST and r > 0.05) + (enemy.type == IHK and r > 0.0005) or \ + (enemy.type==IHC and r > 0.015) or \ + (enemy.type==IHR and r > 0.3) or \ + (enemy.type==IHS and r > 0.07) or \ + (enemy.type==IHQUEST and r > 0.05) if usephasers: # Enemy uses phasers if game.condition == "docked": continue; # Don't waste the effort! attempt = True; # Attempt to attack dustfac = 0.8 + randreal(0.5) - hit = game.kpower[loop]*math.pow(dustfac,game.kavgd[loop]) - game.kpower[loop] *= 0.75 + hit = enemy.kpower*math.pow(dustfac,enemy.kavgd) + enemy.kpower *= 0.75 else: # Enemy uses photon torpedo - course = 1.90985*math.atan2(game.sector.y-jay.y, jay.x-game.sector.x) + course = 1.90985*math.atan2(game.sector.y-enemy.kloc.y, enemy.kloc.x-game.sector.x) hit = 0 proutn(_("***TORPEDO INCOMING")) if not damaged(DSRSENS): proutn(_(" From ")) - crmena(False, iquad, where, jay) + crmena(False, enemy.type, where, enemy.kloc) attempt = True prout(" ") r = (randreal()+randreal())*0.5 - 0.5 - r += 0.002*game.kpower[loop]*r - hit = torpedo(course, r, jay, 1, 1) + r += 0.002*enemy.kpower*r + hit = torpedo(course, r, enemy.kloc, 1, 1) if (game.state.remkl + game.state.remcom + game.state.nscrem)==0: finish(FWON); # Klingons did themselves in! if game.state.galaxy[game.quadrant.x][game.quadrant.y].supernova or game.alldone: - return; # Supernova or finished + return # Supernova or finished if hit == None: continue # incoming phaser or torpedo, shields may dissipate it @@ -1696,7 +1695,7 @@ def attack(torps_ok): crmshp() if not damaged(DSRSENS) and usephasers: proutn(_(" from ")) - crmena(False, iquad, where, jay) + crmena(False, enemy.type, where, enemy.kloc) skip(1) # Decide if hit is critical if hit > hitmax: @@ -1710,8 +1709,6 @@ def attack(torps_ok): return if not attempt and game.condition == "docked": prout(_("***Enemies decide against attacking your ship.")) - if not atackd: - return percent = 100.0*pfac*game.shield+0.5 if not ihurt: # Shields fully protect ship @@ -1737,80 +1734,66 @@ def attack(torps_ok): game.casual += icas game.state.crew -= icas # After attack, reset average distance to enemies - for loop in range(game.nenhere): - game.kavgd[loop] = game.kdist[loop] - sortklings() - return; + for enemy in game.enemies: + enemy.kavgd = enemy.kdist + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) + return def deadkl(w, type, mv): # kill a Klingon, Tholian, Romulan, or Thingy # Added mv to allow enemy to "move" before dying - crmena(True, type, sector, mv) + crmena(True, type, "sector", mv) # Decide what kind of enemy it is and update appropriately if type == IHR: - # chalk up a Romulan - game.state.galaxy[game.quadrant.x][game.quadrant.y].romulans -= 1 - game.irhere -= 1 - game.state.nromrem -= 1 + # chalk up a Romulan + game.state.galaxy[game.quadrant.x][game.quadrant.y].romulans -= 1 + game.irhere -= 1 + game.state.nromrem -= 1 elif type == IHT: - # Killed a Tholian - game.tholian = None + # Killed a Tholian + game.tholian = None elif type == IHQUEST: - # Killed a Thingy - global iqengry - iqengry = False - invalidate(thing) + # Killed a Thingy + global thing + thing = None else: - # Some type of a Klingon - game.state.galaxy[game.quadrant.x][game.quadrant.y].klingons -= 1 - game.klhere -= 1 - if type == IHC: - game.comhere = False - for i in range(game.state.remcom): - if game.state.kcmdr[i] == game.quadrant: - break - game.state.kcmdr[i] = game.state.kcmdr[game.state.remcom] - game.state.kcmdr[game.state.remcom].x = 0 - game.state.kcmdr[game.state.remcom].y = 0 - game.state.remcom -= 1 - unschedule(FTBEAM) - if game.state.remcom != 0: - schedule(FTBEAM, expran(1.0*game.incom/game.state.remcom)) - elif type == IHK: - game.state.remkl -= 1 - elif type == IHS: - game.state.nscrem -= 1 - game.ishere = False - game.state.kscmdr.x = game.state.kscmdr.y = game.isatb = 0 - game.iscate = False - unschedule(FSCMOVE) - unschedule(FSCDBAS) - else: - prout("*** Internal error, deadkl() called on %s\n" % type) + # Some type of a Klingon + game.state.galaxy[game.quadrant.x][game.quadrant.y].klingons -= 1 + game.klhere -= 1 + if type == IHC: + game.comhere = False + for i in range(game.state.remcom): + if game.state.kcmdr[i] == game.quadrant: + break + game.state.kcmdr[i] = game.state.kcmdr[game.state.remcom] + game.state.kcmdr[game.state.remcom].x = 0 + game.state.kcmdr[game.state.remcom].y = 0 + game.state.remcom -= 1 + unschedule(FTBEAM) + if game.state.remcom != 0: + schedule(FTBEAM, expran(1.0*game.incom/game.state.remcom)) + if is_scheduled(FCDBAS) and game.battle == game.quadrant: + unschedule(FCDBAS) + elif type == IHK: + game.state.remkl -= 1 + elif type == IHS: + game.state.nscrem -= 1 + game.ishere = False + game.state.kscmdr.x = game.state.kscmdr.y = game.isatb = 0 + game.iscate = False + unschedule(FSCMOVE) + unschedule(FSCDBAS) # For each kind of enemy, finish message to player prout(_(" destroyed.")) - game.quad[w.x][w.y] = IHDOT if (game.state.remkl + game.state.remcom + game.state.nscrem)==0: return game.recompute() - # Remove enemy ship from arrays describing local conditions - if is_scheduled(FCDBAS) and game.battle == game.quadrant and type==IHC: - unschedule(FCDBAS) - for i in range(game.nenhere): - if game.ks[i] == w: - for j in range(i, game.nenhere): - game.ks[j] = game.ks[j+1] - game.kpower[j] = game.kpower[j+1] - game.kavgd[j] = game.kdist[j] = game.kdist[j+1] - game.ks[game.nenhere].x = 0 - game.ks[game.nenhere].y = 0 - game.kdist[game.nenhere] = 0 - game.kavgd[game.nenhere] = 0 - game.kpower[game.nenhere] = 0 - game.nenhere -= 1 + # Remove enemy ship from arrays describing local conditions + for e in game.enemies: + if e.kloc == w: + e.move(None) break - break - return; + return def targetcheck(x, y): # Return None if target is invalid @@ -1978,26 +1961,25 @@ def checkshctrl(rpow): return True; def hittem(hits): - # register a phaser hit on Klingons and Romulans - nenhr2 = game.nenhere; kk=1 + # register a phaser hit on Klingons and Romulans + nenhr2 = game.nenhere; kk=0 w = coord() skip(1) - for k in range(nenhr2): - wham = hits[k] + for (k, wham) in enumerate(hits): if wham==0: continue dustfac = randreal(0.9, 1.0) - hit = wham*math.pow(dustfac,game.kdist[kk]) - kpini = game.kpower[kk] + hit = wham*math.pow(dustfac,game.enemies[kk].kdist) + kpini = game.enemies[kk].kpower kp = math.fabs(kpini) if PHASEFAC*hit < kp: kp = PHASEFAC*hit - if game.kpower[kk] < 0: - game.kpower[kk] -= -kp + if game.enemies[kk].kpower < 0: + game.enemies[kk].kpower -= -kp else: - game.kpower[kk] -= kp - kpow = game.kpower[kk] - w = game.ks[kk] + game.enemies[kk].kpower -= kp + kpow = game.enemies[kk].kpower + w = game.enemies[kk].kloc if hit > 0.005: if not damaged(DSRSENS): boom(w) @@ -2006,8 +1988,7 @@ def hittem(hits): proutn(_("Very small hit on ")) ienm = game.quad[w.x][w.y] if ienm==IHQUEST: - global iqengry - iqengry = True + thing.angry = True crmena(False, ienm, "sector", w) skip(1) if kpow == 0: @@ -2016,14 +1997,15 @@ def hittem(hits): finish(FWON); if game.alldone: return - kk -= 1; # don't do the increment + kk -= 1 # don't do the increment + continue else: # decide whether or not to emasculate klingon if kpow>0 and withprob(0.9) and kpow <= randreal(0.4, 0.8)*kpini: prout(_("***Mr. Spock- \"Captain, the vessel at Sector %s")%w) prout(_(" has just lost its firepower.\"")) - game.kpower[kk] = -kpow + game.enemies[kk].kpower = -kpow kk += 1 - return; + return def phasers(): # fire phasers @@ -2114,7 +2096,7 @@ def phasers(): chew() if not kz: for i in range(game.nenhere): - irec += math.fabs(game.kpower[i])/(PHASEFAC*math.pow(0.90,game.kdist[i]))*randreal(1.01, 1.06) + 1.0 + irec += math.fabs(game.enemies[i].kpower)/(PHASEFAC*math.pow(0.90,game.enemies[i].kdist))*randreal(1.01, 1.06) + 1.0 kz=1 proutn(_("%d units required. ") % irec) chew() @@ -2150,7 +2132,7 @@ def phasers(): hits.append(0.0) if powrem <= 0: continue - hits[i] = math.fabs(game.kpower[i])/(PHASEFAC*math.pow(0.90,game.kdist[i])) + hits[i] = math.fabs(game.enemies[i].kpower)/(PHASEFAC*math.pow(0.90,game.enemies[i].kdist)) over = randreal(1.01, 1.06) * hits[i] temp = powrem powrem -= hits[i] + over @@ -2187,7 +2169,7 @@ def phasers(): elif automode == "MANUAL": rpow = 0.0 for k in range(game.nenhere): - aim = game.ks[k] + aim = game.enemies[k].kloc ienm = game.quad[aim.x][aim.y] if msgflag: proutn(_("Energy available= %.2f") % (avail-0.006)) @@ -2206,7 +2188,7 @@ def phasers(): if key == IHEOL: chew() if itarg and k > kz: - irec=(abs(game.kpower[k])/(PHASEFAC*math.pow(0.9,game.kdist[k]))) * randreal(1.01, 1.06) + 1.0 + irec=(abs(game.enemies[k].kpower)/(PHASEFAC*math.pow(0.9,game.enemies[k].kdist))) * randreal(1.01, 1.06) + 1.0 kz = k proutn("(") if not damaged(DCOMPTR): @@ -2215,7 +2197,7 @@ def phasers(): proutn("??") proutn(") ") proutn(_("units to fire at ")) - crmena(False, ienm, sector, aim) + crmena(False, ienm, "sector", aim) proutn("- ") key = scan() if key == IHALPHA and isit("no"): @@ -2554,10 +2536,9 @@ def events(): game.iseenit = True announce() skip(1) - proutn(_("Lt. Uhura- \"Captain, the starbase in Quadrant %s") % game.battle) + prout(_("Lt. Uhura- \"Captain, the starbase in Quadrant %s") % game.battle) prout(_(" reports that it is under attack and that it can")) - proutn(_(" hold out only until stardate %d") % (int(scheduled(FCDBAS)))) - prout(".\"") + prout(_(" hold out only until stardate %d.\"") % (int(scheduled(FCDBAS)))) if cancelrest(): return elif evcode == FSCDBAS: # Supercommander destroys base @@ -2712,7 +2693,7 @@ def events(): q.klingons += 1 if game.quadrant == w: game.klhere += 1 - newkling(game.klhere) + game.enemies.append(newkling()) # recompute time left game.recompute() # report the disaster if we can @@ -2787,144 +2768,129 @@ def wait(): def nova(nov): # star goes nova course = (0.0, 10.5, 12.0, 1.5, 9.0, 0.0, 3.0, 7.5, 6.0, 4.5) - newc = coord(); scratch = coord() + newc = coord(); neighbor = coord(); bump = coord(0, 0) if withprob(0.05): # Wow! We've supernova'ed supernova(False, nov) return # handle initial nova game.quad[nov.x][nov.y] = IHDOT - crmena(False, IHSTAR, sector, nov) + crmena(False, IHSTAR, "sector", nov) prout(_(" novas.")) game.state.galaxy[game.quadrant.x][game.quadrant.y].stars -= 1 game.state.starkl += 1 - - # Set up stack to recursively trigger adjacent stars - bot = top = top2 = 1 + # Set up queue to recursively trigger adjacent stars + hits = [nov] kount = 0 - icx = icy = 0 - hits[1][1] = nov.x - hits[1][2] = nov.y - while True: - for mm in range(bot, top+1): - for nn in range(1, 3+1): # nn,j represents coordinates around current - for j in range(1, 3+1): - if j==2 and nn== 2: - continue - scratch.x = hits[mm][1]+nn-2 - scratch.y = hits[mm][2]+j-2 - if not VALID_SECTOR(scratch.y, scratch.x): - continue - iquad = game.quad[scratch.x][scratch.y] - # Empty space ends reaction - if iquad in (IHDOT, IHQUEST, IHBLANK, IHT, IHWEB): - break - elif iquad == IHSTAR: # Affect another star - if wthprob(0.05): - # This star supernovas - scratch = supernova(False) - return - top2 += 1 - hits[top2][1]=scratch.x - hits[top2][2]=scratch.y + while hits: + offset = coord() + start = hits.pop() + for offset.x in range(-1, 1+1): + for offset.y in range(-1, 1+1): + if offset.y==0 and offset.x==0: + continue + neighbor = start + offset + if not VALID_SECTOR(neighbor.y, neighbor.x): + continue + iquad = game.quad[neighbor.x][neighbor.y] + # Empty space ends reaction + if iquad in (IHDOT, IHQUEST, IHBLANK, IHT, IHWEB): + pass + elif iquad == IHSTAR: # Affect another star + if withprob(0.05): + # This star supernovas + supernova(False) + return + else: + hits.append(neighbor) game.state.galaxy[game.quadrant.x][game.quadrant.y].stars -= 1 game.state.starkl += 1 - crmena(True, IHSTAR, sector, scratch) + crmena(True, IHSTAR, "sector", neighbor) prout(_(" novas.")) - game.quad[scratch.x][scratch.y] = IHDOT - elif iquad == IHP: # Destroy planet - game.state.galaxy[game.quadrant.x][game.quadrant.y].planet = None - game.state.nplankl += 1 - crmena(True, IHP, sector, scratch) - prout(_(" destroyed.")) - game.iplnet.pclass = "destroyed" - game.iplnet = None - invalidate(game.plnet) - if game.landed: - finish(FPNOVA) - return - game.quad[scratch.x][scratch.y] = IHDOT - elif iquad == IHB: # Destroy base - game.state.galaxy[game.quadrant.x][game.quadrant.y].starbase = False - for i in range(game.state.rembase): - if game.state.baseq[i] == game.quadrant: - break - game.state.baseq[i] = game.state.baseq[game.state.rembase] - game.state.rembase -= 1 - invalidate(game.base) - game.state.basekl += 1 - newcnd() - crmena(True, IHB, sector, scratch) - prout(_(" destroyed.")) - game.quad[scratch.x][scratch.y] = IHDOT - elif iquad in (IHE, IHF): # Buffet ship - prout(_("***Starship buffeted by nova.")) - if game.shldup: - if game.shield >= 2000.0: - game.shield -= 2000.0 - else: - diff = 2000.0 - game.shield - game.energy -= diff - game.shield = 0.0 - game.shldup = False - prout(_("***Shields knocked out.")) - game.damage[DSHIELD] += 0.005*game.damfac*randreal()*diff - else: - game.energy -= 2000.0 - if game.energy <= 0: - finish(FNOVA) - return - # add in course nova contributes to kicking starship - icx += game.sector.x-hits[mm][1] - icy += game.sector.y-hits[mm][2] - kount += 1 - elif iquad == IHK: # kill klingon - deadkl(scratch,iquad, scratch) - elif iquad in (IHC,IHS,IHR): # Damage/destroy big enemies - for ll in range(game.nenhere): - if game.ks[ll] == scratch: - break - game.kpower[ll] -= 800.0 # If firepower is lost, die - if game.kpower[ll] <= 0.0: - deadkl(scratch, iquad, scratch) - break - newc.x = scratch.x + scratch.x - hits[mm][1] - newc.y = scratch.y + scratch.y - hits[mm][2] - crmena(True, iquad, sector, scratch) - proutn(_(" damaged")) - if not VALID_SECTOR(newc.x, newc.y): - # can't leave quadrant - skip(1) - break - iquad1 = game.quad[newc.x][newc.y] - if iquad1 == IHBLANK: - proutn(_(", blasted into ")) - crmena(False, IHBLANK, sector, newc) - skip(1) - deadkl(scratch, iquad, newc) - break - if iquad1 != IHDOT: - # can't move into something else - skip(1) - break - proutn(_(", buffeted to Sector %s") % newc) - game.quad[scratch.x][scratch.y] = IHDOT - game.quad[newc.x][newc.y] = iquad - game.ks[ll] = newc - game.kdist[ll] = game.kavgd[ll] = distance(game.sector, newc) - skip(1) - if top == top2: - break - bot = top + 1 - top = top2 - if kount==0: - return - + game.quad[neighbor.x][neighbor.y] = IHDOT + kount += 1 + elif iquad in (IHP, IHW): # Destroy planet + game.state.galaxy[game.quadrant.x][game.quadrant.y].planet = None + if iquad == IHP: + game.state.nplankl += 1 + else: + game.state.worldkl += 1 + crmena(True, iquad, "sector", neighbor) + prout(_(" destroyed.")) + game.iplnet.pclass = "destroyed" + game.iplnet = None + invalidate(game.plnet) + if game.landed: + finish(FPNOVA) + return + game.quad[neighbor.x][neighbor.y] = IHDOT + elif iquad == IHB: # Destroy base + game.state.galaxy[game.quadrant.x][game.quadrant.y].starbase = False + for i in range(game.state.rembase): + if game.state.baseq[i] == game.quadrant: + break + game.state.baseq[i] = game.state.baseq[game.state.rembase] + game.state.rembase -= 1 + invalidate(game.base) + game.state.basekl += 1 + newcnd() + crmena(True, IHB, "sector", neighbor) + prout(_(" destroyed.")) + game.quad[neighbor.x][neighbor.y] = IHDOT + elif iquad in (IHE, IHF): # Buffet ship + prout(_("***Starship buffeted by nova.")) + if game.shldup: + if game.shield >= 2000.0: + game.shield -= 2000.0 + else: + diff = 2000.0 - game.shield + game.energy -= diff + game.shield = 0.0 + game.shldup = False + prout(_("***Shields knocked out.")) + game.damage[DSHIELD] += 0.005*game.damfac*randreal()*diff + else: + game.energy -= 2000.0 + if game.energy <= 0: + finish(FNOVA) + return + # add in course nova contributes to kicking starship + bump += (game.sector-hits[mm]).sgn() + elif iquad == IHK: # kill klingon + deadkl(neighbor, iquad, neighbor) + elif iquad in (IHC,IHS,IHR): # Damage/destroy big enemies + for ll in range(game.nenhere): + if game.enemies[ll].kloc == neighbor: + break + game.enemies[ll].kpower -= 800.0 # If firepower is lost, die + if game.enemies[ll].kpower <= 0.0: + deadkl(neighbor, iquad, neighbor) + break + newc = neighbor + neighbor - hits[mm] + crmena(True, iquad, "sector", neighbor) + proutn(_(" damaged")) + if not VALID_SECTOR(newc.x, newc.y): + # can't leave quadrant + skip(1) + break + iquad1 = game.quad[newc.x][newc.y] + if iquad1 == IHBLANK: + proutn(_(", blasted into ")) + crmena(False, IHBLANK, "sector", newc) + skip(1) + deadkl(neighbor, iquad, newc) + break + if iquad1 != IHDOT: + # can't move into something else + skip(1) + break + proutn(_(", buffeted to Sector %s") % newc) + game.quad[neighbor.x][neighbor.y] = IHDOT + game.quad[newc.x][newc.y] = iquad + game.enemies[ll].move(newc) # Starship affected by nova -- kick it away. game.dist = kount*0.1 - icx = sgn(icx) - icy = sgn(icy) - game.direc = course[3*(icx+1)+icy+2] + game.direc = course[3*(bump.x+1)+bump.y+2] if game.direc == 0.0: game.dist = 0.0 if game.dist == 0.0: @@ -3109,8 +3075,8 @@ def kaboom(): whammo = 25.0 * game.energy l=1 while l <= game.nenhere: - if game.kpower[l]*game.kdist[l] <= whammo: - deadkl(game.ks[l], game.quad[game.ks[l].x][game.ks[l].y], game.ks[l]) + if game.enemies[l].kpower*game.enemies[l].kdist <= whammo: + deadkl(game.enemies[l].kloc, game.quad[game.enemies[l].kloc.x][game.enemies[l].kloc.y], game.enemies[l].kloc) l += 1 finish(FDILITHIUM) @@ -3232,7 +3198,7 @@ def finish(ifin): elif ifin == FBATTLE: proutn(_("The ")) crmshp() - prout(_("has been destroyed in battle.")) + prout(_(" has been destroyed in battle.")) skip(1) prout(_("Dulce et decorum est pro patria mori.")) elif ifin == FNEG3: @@ -3631,13 +3597,15 @@ def prout(line): def prouts(line): "print slowly!" for c in line: - time.sleep(0.03) + if not replayfp or replayfp.closed: # Don't slow down replays + time.sleep(0.03) proutn(c) if game.options & OPTION_CURSES: wrefresh(curwnd) else: sys.stdout.flush() - time.sleep(0.03) + if not replayfp or replayfp.closed: + time.sleep(0.03) def cgetline(): "Get a line of input." @@ -3648,6 +3616,7 @@ def cgetline(): if replayfp and not replayfp.closed: while True: line = replayfp.readline() + proutn(line) if line == '': prout("*** Replay finished") replayfp.close() @@ -3655,9 +3624,9 @@ def cgetline(): elif line[0] != "#": break else: - line = raw_input("COMMAND> ") + line = raw_input() + "\n" if logfp: - logfp.write(line + "\n") + logfp.write(line) return line def setwnd(wnd): @@ -3748,7 +3717,7 @@ def drawmaps(mode): setwnd(lrscan_window) lrscan_window.clear() lrscan_window.move(0, 0) - lrscan() + lrscan(silent=False) def put_srscan_sym(w, sym): "Emit symbol for short-range scan." @@ -3853,14 +3822,14 @@ def imove(novapush): game.quad[game.sector.x][game.sector.y] = game.ship if game.nenhere: for m in range(game.nenhere): - finald = distance(w, game.ks[m]) - game.kavgd[m] = 0.5 * (finald+game.kdist[m]) - game.kdist[m] = finald - sortklings() + finald = distance(w, game.enemies[m].kloc) + game.enemies[m].kavgd = 0.5 * (finald+game.enemies[m].kdist) + game.enemies[m].kdist = finald + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) if not game.state.galaxy[game.quadrant.x][game.quadrant.y].supernova: attack(False) for m in range(game.nenhere): - game.kavgd[m] = game.kdist[m] + game.enemies[m].kavgd = game.enemies[m].kdist newcnd() drawmaps(0) setwnd(message_window) @@ -3900,8 +3869,8 @@ def imove(novapush): if game.nenhere != 0 and not novapush: newcnd() for m in range(game.nenhere): - finald = distance(w, game.ks[m]) - game.kavgd[m] = 0.5 * (finald + game.kdist[m]) + finald = distance(w, game.enemies[m].kloc) + game.enemies[m].kavgd = 0.5 * (finald + game.enemies[m].kdist) # # Stas Sergeev added the condition # that attacks only happen if Klingons @@ -3967,7 +3936,10 @@ def imove(novapush): game.dist = distance(game.sector, w) / (QUADSIZE * 1.0) if iquad in (IHT, IHK, IHC, IHS, IHR, IHQUEST): game.sector = w - ram(False, iquad, game.sector) + for enemy in game.enemies: + if enemy.kloc == game.sector: + break + collision(rammed=False, enemy=enemy) final = game.sector elif iquad == IHBLANK: skip(1) @@ -5211,7 +5183,7 @@ def deathray(): prouts(_("Sulu- \"Captain! It's working!\"")) skip(2) while game.nenhere > 0: - deadkl(game.ks[1], game.quad[game.ks[1].x][game.ks[1].y],game.ks[1]) + deadkl(game.enemies[1].kloc, game.quad[game.enemies[1].kloc.x][game.enemies[1].kloc.y],game.enemies[1].kloc) prout(_("Ensign Chekov- \"Congratulations, Captain!\"")) if (game.state.remkl + game.state.remcom + game.state.nscrem) == 0: finish(FWON) @@ -5363,30 +5335,34 @@ def report(): (i, (_("s"), "")[i==1])) skip(1) -def lrscan(): +def lrscan(silent): # long-range sensor scan if damaged(DLRSENS): # Now allow base's sensors if docked if game.condition != "docked": - prout(_("LONG-RANGE SENSORS DAMAGED.")) + if not silent: + prout(_("LONG-RANGE SENSORS DAMAGED.")) return - prout(_("Starbase's long-range scan")) - else: + if not silent: + prout(_("Starbase's long-range scan")) + elif not silent: prout(_("Long-range scan")) for x in range(game.quadrant.x-1, game.quadrant.x+2): - proutn(" ") + if not silent: + proutn(" ") for y in range(game.quadrant.y-1, game.quadrant.y+2): if not VALID_QUADRANT(x, y): - proutn(" -1") + if not silent: + proutn(" -1") else: if not damaged(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: + if not silent and game.state.galaxy[x][y].supernova: proutn(" ***") - else: + elif not silent: proutn(" %3d" % (game.state.chart[x][y].klingons*100 + game.state.chart[x][y].starbase * 10 + game.state.chart[x][y].stars)) prout(" ") @@ -5420,6 +5396,8 @@ def rechart(): def chart(): # display the star chart chew() + if (game.options & OPTION_AUTOSCAN): + lrscan(silent=True) if not damaged(DRADIO): rechart() if game.lastchart < game.state.date and game.condition == "docked": @@ -5979,10 +5957,10 @@ def setup(needprompt): break game.state.kscmdr = w game.state.galaxy[w.x][w.y].klingons += 1 - # Place thing (in tournament game, thingx == -1, don't want one!) + # Place thing (in tournament game, we don't want one!) global thing - if thing == None: - thing = randplace(GALSIZE) + if game.tourn is None: + thing = randplace(GALSIZE) skip(2) game.state.snap = False if game.skill == SKILL_NOVICE: @@ -6134,14 +6112,15 @@ def choose(needprompt): game.inbase = game.state.rembase return False -def dropin(iquad): +def dropin(iquad=None): # drop a feature on a random dot in the current quadrant w = coord() while True: w = randplace(QUADSIZE) if game.quad[w.x][w.y] == IHDOT: break - game.quad[w.x][w.y] = iquad + if iquad is not None: + game.quad[w.x][w.y] = iquad return w def newcnd(): @@ -6154,13 +6133,9 @@ def newcnd(): if not game.alive: game.condition="dead" -def newkling(i): - # drop new Klingon into current quadrant - pi = dropin(IHK) - game.ks[i] = pi - game.kdist[i] = game.kavgd[i] = distance(game.sector, pi) - game.kpower[i] = randreal(300, 450) + 25.0*game.skill - return pi +def newkling(): + # drop new Klingon into current quadrant + return enemy(IHK, loc=dropin(), power=randreal(300,450)+25.0*game.skill) def newqad(shutup): # set up a new state of quadrant, for when we enter or re-enter it @@ -6176,8 +6151,6 @@ def newqad(shutup): game.inorbit = False game.landed = False game.ientesc = False - global iqengry - iqengry = False game.iseenit = False if game.iscate: # Attempt to escape Super-commander, so tbeam back! @@ -6192,32 +6165,29 @@ def newqad(shutup): game.nenhere = game.klhere + game.irhere # Position Starship game.quad[game.sector.x][game.sector.y] = game.ship + game.enemies = [] if q.klingons: - w.x = w.y = 0 # quiet a gcc warning # Position ordinary Klingons for i in range(game.klhere): - w = newkling(i) + newkling() # If we need a commander, promote a Klingon for i in range(game.state.remcom): if game.state.kcmdr[i] == game.quadrant: - break - - if i <= game.state.remcom: - game.quad[w.x][w.y] = IHC - game.kpower[game.klhere] = randreal(950, 1350) + 50.0*game.skill - game.comhere = True + e = game.enemies[game.klhere-1] + game.quad[e.kloc.x][e.kloc.y] = IHC + e.kpower = randreal(950,1350) + 50.0*game.skill + game.comhere = True + break # If we need a super-commander, promote a Klingon if game.quadrant == game.state.kscmdr: - game.quad[game.ks[0].x][game.ks[0].y] = IHS - game.kpower[0] = randreal(1175.0, 1575.0) + 125.0*game.skill + e = game.enemies[0] + game.quad[e.kloc.x][e.kloc.y] = IHS + e.kpower = randreal(1175.0, 1575.0) + 125.0*game.skill game.iscate = (game.state.remkl > 1) game.ishere = True # Put in Romulans if needed for i in range(game.klhere, game.nenhere): - w = dropin(IHR) - game.ks[i] = w - game.kdist[i] = game.kavgd[i] = distance(game.sector, w) - game.kpower[i] = randreal(400.0, 850.0) + 50.0*game.skill + enemy(IHR, loc=dropin(), power=randreal(400.0,850.0)+50.0*game.skill) # If quadrant needs a starbase, put it in if q.starbase: game.base = dropin(IHB) @@ -6230,10 +6200,6 @@ def newqad(shutup): game.plnet = dropin(IHW) # Check for condition newcnd() - # And finally the stars - for i in range(q.stars): - dropin(IHSTAR) - # Check for RNZ if game.irhere > 0 and game.klhere == 0: game.neutz = True @@ -6246,15 +6212,9 @@ def newqad(shutup): prout(_("LEAVE AT ONCE, OR YOU WILL BE DESTROYED!")) if shutup==0: # Put in THING if needed - global thing if thing == game.quadrant: - w = dropin(IHQUEST) - thing = randplace(GALSIZE) - game.nenhere += 1 - game.ks[game.nenhere] = w - game.kdist[game.nenhere] = game.kavgd[game.nenhere] = \ - distance(game.sector, w) - game.kpower[game.nenhere] = randreal(6000,6500.0)+250.0*game.skill + enemy(symbol=IHQUEST, loc=dropin(), + power=randreal(6000,6500.0)+250.0*game.skill) if not damaged(DSRSENS): skip(1) prout(_("Mr. Spock- \"Captain, this is most unusual.")) @@ -6264,18 +6224,14 @@ def newqad(shutup): if (game.skill < SKILL_GOOD and withprob(0.02)) or \ (game.skill == SKILL_GOOD and withprob(0.05)) or \ (game.skill > SKILL_GOOD and withprob(0.08)): - game.tholian = coord() + w = coord() while True: - game.tholian.x = withprob(0.5) * (QUADSIZE-1) - game.tholian.y = withprob(0.5) * (QUADSIZE-1) - if game.quad[game.tholian.x][game.tholian.y] == IHDOT: + w.x = withprob(0.5) * (QUADSIZE-1) + w.y = withprob(0.5) * (QUADSIZE-1) + if game.quad[w.x][w.y] == IHDOT: break - game.quad[game.tholian.x][game.tholian.y] = IHT - game.nenhere += 1 - game.ks[game.nenhere] = game.tholian - game.kdist[game.nenhere] = game.kavgd[game.nenhere] = \ - distance(game.sector, game.tholian) - game.kpower[game.nenhere] = randrange(100, 500) + 25.0*game.skill + game.tholian = enemy(symbol=IHT, loc=w, + power=randrange(100, 500) + 25.0*game.skill) # Reserve unoccupied corners if game.quad[0][0]==IHDOT: game.quad[0][0] = 'X' @@ -6285,7 +6241,10 @@ def newqad(shutup): game.quad[QUADSIZE-1][0] = 'X' if game.quad[QUADSIZE-1][QUADSIZE-1]==IHDOT: game.quad[QUADSIZE-1][QUADSIZE-1] = 'X' - sortklings() + game.enemies.sort(lambda x, y: cmp(x.kdist, y.kdist)) + # And finally the stars + for i in range(q.stars): + dropin(IHSTAR) # Put in a few black holes for i in range(1, 3+1): if withprob(0.5): @@ -6301,34 +6260,6 @@ def newqad(shutup): if game.quad[QUADSIZE-1][QUADSIZE-1]=='X': game.quad[QUADSIZE-1][QUADSIZE-1] = IHDOT -def sortklings(): - # sort Klingons by distance from us - # The author liked bubble sort. So we will use it. :-( - if game.nenhere-(thing==game.quadrant)-(game.tholian!=None) < 2: - return - while True: - sw = False - for j in range(game.nenhere): - if game.kdist[j] > game.kdist[j+1]: - sw = True - t = game.kdist[j] - game.kdist[j] = game.kdist[j+1] - game.kdist[j+1] = t - t = game.kavgd[j] - game.kavgd[j] = game.kavgd[j+1] - game.kavgd[j+1] = t - k = game.ks[j].x - game.ks[j].x = game.ks[j+1].x - game.ks[j+1].x = k - k = game.ks[j].y - game.ks[j].y = game.ks[j+1].y - game.ks[j+1].y = k - t = game.kpower[j] - game.kpower[j] = game.kpower[j+1] - game.kpower[j+1] = t - if not sw: - break - def setpassword(): # set the self-destruct password if game.options & OPTION_PLAIN: @@ -6475,6 +6406,7 @@ def makemoves(): chew() setwnd(prompt_window) clrscr() + proutn("COMMAND> ") if scan() == IHEOL: if game.options & OPTION_CURSES: makechart() @@ -6500,7 +6432,7 @@ def makemoves(): elif cmd == "REQUEST": # status request request() elif cmd == "LRSCAN": # long range scan - lrscan() + lrscan(silent=False) elif cmd == "PHASERS": # phasers phasers() if game.ididit: @@ -6829,81 +6761,88 @@ def debugme(): atover(True) if __name__ == '__main__': - global line, thing, game, idebug, iqengry - game = citem = aaitem = inqueue = None - line = '' - thing = coord() - iqengry = False - game = gamestate() - idebug = 0 - game.options = OPTION_ALL &~ (OPTION_IOMODES | OPTION_SHOWME | OPTION_PLAIN | OPTION_ALMY) - # Disable curses mode until the game logic is working. - # if os.getenv("TERM"): - # game.options |= OPTION_CURSES | OPTION_SHOWME - # else: - game.options |= OPTION_TTY - seed = time.time() - (options, arguments) = getopt.getopt(sys.argv[1:], "r:tx") - for (switch, val) in options: - if switch == '-r': - try: - replayfp = open(val, "r") - except IOError: - sys.stderr.write("sst: can't open replay file %s\n" % val) - raise SystemExit, 1 - line = replayfp.readline().strip() - try: - (leader, key, seed) = line.split() - seed = eval(seed) - sys.stderr.write("sst2k: seed set to %s\n" % seed) - except ValueError: - sys.stderr.write("sst: replay file %s is ill-formed\n"% val) - os.exit(1) - game.options |= OPTION_TTY - game.options &=~ OPTION_CURSES - elif switch == '-t': - game.options |= OPTION_TTY - game.options &=~ OPTION_CURSES - elif switch == '-x': - idebug = True - else: - sys.stderr.write("usage: sst [-t] [-x] [startcommand...].\n") - os.exit(0) - # where to save the input in case of bugs try: - logfp = open("/usr/tmp/sst-input.log", "w") - except IOError: - sys.stderr.write("sst: warning, can't open logfile\n") - if logfp: - logfp.write("# seed %s\n" % seed) - random.seed(seed) - iostart() - if arguments: - inqueue = arguments - else: - inqueue = None - while True: # Play a game - setwnd(fullscreen_window) - clrscr() - prelim() - setup(needprompt=not inqueue) - if game.alldone: - score() - game.alldone = False - else: - makemoves() - skip(1) - stars() - skip(1) - if game.tourn and game.alldone: - proutn(_("Do you want your score recorded?")) - if ja() == True: - chew2() - freeze(False) - chew() - proutn(_("Do you want to play again? ")) - if not ja(): - break - skip(1) - prout(_("May the Great Bird of the Galaxy roost upon your home planet.")) - raise SystemExit, 0 + global line, thing, game, idebug + game = citem = aaitem = inqueue = None + line = '' + thing = coord() + thing.angry = False + game = gamestate() + idebug = 0 + game.options = OPTION_ALL &~ (OPTION_IOMODES | OPTION_PLAIN | OPTION_ALMY) + # Disable curses mode until the game logic is working. + # if os.getenv("TERM"): + # game.options |= OPTION_CURSES | OPTION_SHOWME + # else: + game.options |= OPTION_TTY + seed = int(time.time()) + (options, arguments) = getopt.getopt(sys.argv[1:], "r:tx") + for (switch, val) in options: + if switch == '-r': + try: + replayfp = open(val, "r") + except IOError: + sys.stderr.write("sst: can't open replay file %s\n" % val) + raise SystemExit, 1 + try: + line = replayfp.readline().strip() + (leader, key, seed) = line.split() + seed = eval(seed) + sys.stderr.write("sst2k: seed set to %s\n" % seed) + line = replayfp.readline().strip() + arguments += line.split()[2:] + except ValueError: + sys.stderr.write("sst: replay file %s is ill-formed\n"% val) + raise SystemExit(1) + game.options |= OPTION_TTY + game.options &=~ OPTION_CURSES + elif switch == '-t': + game.options |= OPTION_TTY + game.options &=~ OPTION_CURSES + elif switch == '-x': + idebug = True + else: + sys.stderr.write("usage: sst [-t] [-x] [startcommand...].\n") + raise SystemExit, 1 + # where to save the input in case of bugs + try: + logfp = open("/usr/tmp/sst-input.log", "w") + except IOError: + sys.stderr.write("sst: warning, can't open logfile\n") + if logfp: + logfp.write("# seed %s\n" % seed) + logfp.write("# options %s\n" % " ".join(arguments)) + random.seed(seed) + iostart() + if arguments: + inqueue = arguments + else: + inqueue = None + while True: # Play a game + setwnd(fullscreen_window) + clrscr() + prelim() + setup(needprompt=not inqueue) + if game.alldone: + score() + game.alldone = False + else: + makemoves() + skip(1) + stars() + skip(1) + if game.tourn and game.alldone: + proutn(_("Do you want your score recorded?")) + if ja() == True: + chew2() + freeze(False) + chew() + proutn(_("Do you want to play again? ")) + if not ja(): + break + skip(1) + prout(_("May the Great Bird of the Galaxy roost upon your home planet.")) + raise SystemExit, 0 + except KeyboardInterrupt: + print"" + pass