X-Git-Url: https://jxself.org/git/?p=super-star-trek.git;a=blobdiff_plain;f=sst.py;h=b2067e965cfa4863bf58e7a9f9a03cf647363a6b;hp=63f1f31499db4cc84ea01304bd2a93735aa53e99;hb=a55789a881356bff9acdfe48b5acae8c3b136ddf;hpb=908ad209e0f0269d760e68f4d57457d42a49983c diff --git a/sst.py b/sst.py index 63f1f31..b2067e9 100755 --- a/sst.py +++ b/sst.py @@ -31,7 +31,7 @@ try: except NameError: my_input = input -version = "2.4" +version = "2.5" docpath = (".", "doc/", "/usr/share/doc/sst/") @@ -44,7 +44,7 @@ def _(st): class randomizer: # LCG PRNG parameters tested against - # Knuth vol. 2. by the authors of ADVENT + # Knuth vol. 2. by the authors of ADVENT LCG_A = 1093 LCG_C = 221587 LCG_M = 1048576 @@ -53,7 +53,7 @@ class randomizer: def random(): old_x = game.lcg_x game.lcg_x = (randomizer.LCG_A * game.lcg_x + randomizer.LCG_C) % randomizer.LCG_M - return old_x / randomizer.LCG_M; + return old_x / randomizer.LCG_M @staticmethod def withprob(p): @@ -196,8 +196,8 @@ class Coord: return self.roundtogrid() % QUADSIZE def scatter(self): s = Coord() - s.i = self.i + rnd.range(-1, 2) - s.j = self.j + rnd.range(-1, 2) + s.i = self.i + rnd.integer(-1, 2) + s.j = self.j + rnd.integer(-1, 2) return s def __str__(self): if self.i is None or self.j is None: @@ -309,6 +309,7 @@ OPTION_CLOAK = 0x80004000 # Enable BSD-Trek capture (Almy, 2013). OPTION_PLAIN = 0x01000000 # user chose plain game OPTION_ALMY = 0x02000000 # user chose Almy variant OPTION_COLOR = 0x04000000 # enable color display (ESR, 2010) +OPTION_DOTFILL = 0x08000000 # fix dotfill glitch in chart (ESR, 2019) # Define devices DSRSENS = 0 @@ -5324,6 +5325,8 @@ def chart(): show = ".1." elif game.state.galaxy[i][j].charted: show = "%3d" % (game.state.chart[i][j].klingons*100 + game.state.chart[i][j].starbase * 10 + game.state.chart[i][j].stars) + if (game.options & OPTION_DOTFILL): + show = show.replace(" ", ".") else: show = "..." proutn(show) @@ -5353,6 +5356,9 @@ def sectscan(goodScan, i, j): 'C':LIGHTRED, 'R':LIGHTRED, 'T':LIGHTRED, + '@':LIGHTGREEN, + 'P':LIGHTGREEN, + '?':MAGENTA, }.get(game.quad[i][j], DEFAULT)) proutn("%c " % game.quad[i][j]) textcolor(DEFAULT) @@ -5986,11 +5992,11 @@ def choose(): scanner.nexttok() if scanner.sees("plain"): # Approximates the UT FORTRAN version. - game.options &=~ (OPTION_THOLIAN | OPTION_PLANETS | OPTION_THINGY | OPTION_PROBE | OPTION_RAMMING | OPTION_MVBADDY | OPTION_BLKHOLE | OPTION_BASE | OPTION_WORLDS | OPTION_COLOR | OPTION_CAPTURE | OPTION_CLOAK) + game.options &=~ (OPTION_THOLIAN | OPTION_PLANETS | OPTION_THINGY | OPTION_PROBE | OPTION_RAMMING | OPTION_MVBADDY | OPTION_BLKHOLE | OPTION_BASE | OPTION_WORLDS | OPTION_COLOR | OPTION_CAPTURE | OPTION_CLOAK | OPTION_DOTFILL) game.options |= OPTION_PLAIN elif scanner.sees("almy"): # Approximates Tom Almy's version. - game.options &=~ (OPTION_THINGY | OPTION_BLKHOLE | OPTION_BASE | OPTION_WORLDS | OPTION_COLOR) + game.options &=~ (OPTION_THINGY | OPTION_BLKHOLE | OPTION_BASE | OPTION_WORLDS | OPTION_COLOR | OPTION_DOTFILL) game.options |= OPTION_ALMY elif scanner.sees("fancy") or scanner.sees("\n"): pass @@ -6054,6 +6060,7 @@ def newqad(): game.iplnet = None game.neutz = game.inorbit = game.landed = False game.ientesc = game.iseenit = game.isviolreported = False + game.tholian = None # Create a blank quadrant game.quad = fill2d(QUADSIZE, lambda i, j: '.') if game.iscate: