X-Git-Url: https://jxself.org/git/?a=blobdiff_plain;f=src%2Fsst.py;h=3e7f2c2a94f4de890e9624e57917445909e53624;hb=63a85c0b15819cc85d8acf7a6ee6e067ff6c4362;hp=68d87a1840e8ee8c296647550d68af202f7cba60;hpb=11ee6e5e6b8a75bcfe2c2fdda71e2ac23072beb5;p=super-star-trek.git

diff --git a/src/sst.py b/src/sst.py
index 68d87a1..3e7f2c2 100644
--- a/src/sst.py
+++ b/src/sst.py
@@ -2,10 +2,9 @@
 """
 sst.py =-- Super Star Trek in Python
 
-This code is a Python translation of a C translation of a FORTRAN original.
-The FORTRANness still shows in many ways, notably the use of a lot of
-parallel arrays where a more modern language would use structures
-or objects.  (However, 1-origin array indexing was fixed.)
+This code is a Python translation of a C translation of a FORTRAN
+original dating back to 1973.  Beautiful Python it is not.  But it
+works.
 
 Dave Matuszek says:
 
@@ -46,11 +45,11 @@ however mine had some feature it didn't have. So I merged its
 features that I liked. I also took a peek at the DECUS version (a
 port, less sources, to the PDP-10), and some other variations.
 
-1, Compared to the original UT version, I've changed the "help" command to
-"call" and the "terminate" command to "quit" to better match
-user expectations. The DECUS version apparently made those changes
-as well as changing "freeze" to "save". However I like "freeze".
-(Both "freeze" and "save" work in SST2K.)
+1, Compared to the original UT version, I've changed the "help"
+command to "call" and the "terminate" command to "quit" to better
+match user expectations. The DECUS version apparently made those
+changes as well as changing "freeze" to "save". However I like
+"freeze".  (Both "freeze" and "save" work in SST2K.)
 
 2. The experimental deathray originally had only a 5% chance of
 success, but could be used repeatedly. I guess after a couple
@@ -180,7 +179,7 @@ more:
 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
+import os, sys, math, curses, time, readline, cPickle, random, copy
 
 SSTDOC  	= "/usr/share/doc/sst/sst.doc"
 DOC_NAME	= "sst.doc"
@@ -336,9 +335,9 @@ class snapshot:
         self.baseq = [] 	# Base quadrant coordinates
         self.kcmdr = [] 	# Commander quadrant coordinates
 	self.kscmdr = coord()	# Supercommander quadrant coordinates
-        # the galaxy (subscript 0 not used)
+        # the galaxy
         self.galaxy = fill2d(GALSIZE, lambda i, j: quadrant())
-        # the starchart (subscript 0 not used)
+        # the starchart
     	self.chart = fill2d(GALSIZE, lambda i, j: page())
 
 class event:
@@ -525,10 +524,8 @@ class gamestate:
         self.damfac = 0.0	# damage factor
         self.lastchart = 0.0	# time star chart was last updated
         self.cryprob = 0.0	# probability that crystal will work
-        self.probex = 0.0	# location of probe
-        self.probey = 0.0	#
-        self.probeinx = 0.0	# probe x,y increment
-        self.probeiny = 0.0	#
+        self.probe = None	# location of probe
+        self.probein = None	# probe i,j increment
         self.height = 0.0	# height of orbit around planet
     def recompute(self):
         # Stas thinks this should be (C expression): 
@@ -538,7 +535,7 @@ class gamestate:
         # after killing the last klingon when score is shown -- perhaps also
         # if the only remaining klingon is SCOM.
         game.state.remtime = game.state.remres/(game.state.remkl + 4*len(game.state.kcmdr))
-# From enumerated type 'feature'
+
 IHR = 'R'
 IHK = 'K'
 IHC = 'C'
@@ -558,8 +555,6 @@ IHMATER0 = '-'
 IHMATER1 = 'o'
 IHMATER2 = '0'
 
-
-# From enumerated type 'FINTYPE'
 FWON = 0
 FDEPLETE = 1
 FLIFESUP = 2
@@ -583,10 +578,6 @@ FTRIBBLE = 19
 FHOLE = 20
 FCREW = 21
 
-# Log the results of pulling random numbers so we can check determinism.
-
-import traceback
-
 def withprob(p):
     v = random.random()
     #logfp.write("# withprob(%s) -> %f (%s) at %s\n" % (p, v, v<p, traceback.extract_stack()[-2][1:]))
@@ -2466,21 +2457,20 @@ def events():
 		supercommander()
 	elif evcode == FDSPROB: # Move deep space probe 
 	    schedule(FDSPROB, 0.01)
-	    game.probex += game.probeinx
-	    game.probey += game.probeiny
-	    i = (int)(game.probex/QUADSIZE +0.05)
-	    j = (int)(game.probey/QUADSIZE + 0.05)
+	    game.probe += game.probein
+	    i = int(round(game.probe.i/float(QUADSIZE)))
+	    j = int(round(game.probe.j/float(QUADSIZE)))
 	    if game.probec.i != i or game.probec.j != j:
 		game.probec.i = i
 		game.probec.j = j
 		if not VALID_QUADRANT(i, j) or \
 		    game.state.galaxy[game.probec.i][game.probec.j].supernova:
 		    # Left galaxy or ran into supernova
-                    if comunicating():
+                    if communicating():
 			announce()
 			skip(1)
 			proutn(_("Lt. Uhura-  \"The deep space probe "))
-			if not VALID_QUADRANT(j, i):
+			if not VALID_QUADRANT(i, j):
 			    proutn(_("has left the galaxy"))
 			else:
 			    proutn(_("is no longer transmitting"))
@@ -2501,8 +2491,7 @@ def events():
 		pdest.charted = True
 	    game.proben -= 1 # One less to travel
 	    if game.proben == 0 and game.isarmed and pdest.stars:
-		# lets blow the sucker! 
-		supernova(game.probec)
+		supernova(game.probec)		# fire in the hole!
 		unschedule(FDSPROB)
 		if game.state.galaxy[game.quadrant.i][game.quadrant.j].supernova: 
 		    return
@@ -2653,13 +2642,6 @@ def wait():
     game.resting = False
     game.optime = 0
 
-# A nova occurs.  It is the result of having a star hit with a
-# photon torpedo, or possibly of a probe warhead going off.
-# Stars that go nova cause stars which surround them to undergo
-# the same probabilistic process.  Klingons next to them are
-# destroyed.  And if the starship is next to it, it gets zapped.
-# If the zap is too much, it gets destroyed.
-        
 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)
@@ -3350,11 +3332,12 @@ def iostart():
 	setwnd(fullscreen_window)
 
 def ioend():
-    "Wrap up I/O.  Presently a stub."
-    stdscr.keypad(False)
-    curses.echo()
-    curses.nocbreak()
-    curses.endwin()
+    "Wrap up I/O."
+    if game.options & OPTION_CURSES:
+        stdscr.keypad(False)
+        curses.echo()
+        curses.nocbreak()
+        curses.endwin()
 
 def waitfor():
     "Wait for user action -- OK to do nothing if on a TTY"
@@ -3818,7 +3801,7 @@ def dock(verbose):
 # because it involves giving x and y motions, yet the coordinates
 # are always displayed y - x, where +y is downward!
 
-def getcourse(isprobe, akey):
+def getcourse(isprobe):
     "Get a course and distance from the user."
     key = 0
     dquad = copy.copy(game.quadrant)
@@ -3841,12 +3824,7 @@ def getcourse(isprobe, akey):
 	    navmode = "manual"
 	    key = "IHEOL"
 	    break
-	if isprobe and akey != -1:
-	    # For probe launch, use pre-scanned value first time 
-	    key = akey
-	    akey = -1
-	else: 
-	    key = scanner.next()
+        key = scanner.next()
 	if key == "IHEOL":
 	    proutn(_("Manual or automatic- "))
 	    iprompt = True
@@ -3968,7 +3946,7 @@ def impulse():
 	prout(_("Engineer Scott- \"The impulse engines are damaged, Sir.\""))
 	return
     if game.energy > 30.0:
-        if not getcourse(isprobe=False, akey=0):
+        if not getcourse(isprobe=False):
 	    return
 	power = 20.0 + 100.0*game.dist
     else:
@@ -4023,7 +4001,7 @@ def warp(timewarp):
 	    prout(_("  is repaired, I can only give you warp 4.\""))
 	    return
        	# Read in course and distance 
-        if not getcourse(isprobe=False, akey=0):
+        if not getcourse(isprobe=False):
 	    return
 	# Make sure starship has enough energy for the trip 
 	power = (game.dist+0.05)*game.warpfac*game.warpfac*game.warpfac*(game.shldup+1)
@@ -4202,8 +4180,7 @@ def atover(igrab):
 	    proutn(_("The %s has stopped in a quadrant containing") % crmshp())
 	    prouts(_("   a supernova."))
 	    skip(2)
-	prout(_("***Emergency automatic override attempts to hurl ")+crmshp())
-	skip(1)
+	proutn(_("***Emergency automatic override attempts to hurl ")+crmshp())
 	prout(_("safely out of quadrant."))
 	if not damaged(DRADIO):
 	    game.state.galaxy[game.quadrant.i][game.quadrant.j].charted = True
@@ -4316,7 +4293,6 @@ def probe():
 	return
     key = scanner.next()
     if key == "IHEOL":
-	# slow mode, so let Kirk know how many probes there are left
         if game.nprobes == 1:
             prout(_("1 probe left."))
         else:
@@ -4331,44 +4307,24 @@ def probe():
     elif key == "IHEOL":
 	proutn(_("Arm NOVAMAX warhead? "))
 	game.isarmed = ja()
-    if not getcourse(isprobe=True, akey=key):
+    elif key == "IHREAL":		# first element of course
+        scanner.push(scanner.token)
+    if not getcourse(isprobe=True):
 	return
     game.nprobes -= 1
     angle = ((15.0 - game.direc) * 0.5235988)
-    game.probeinx = -math.sin(angle)
-    game.probeiny = math.cos(angle)
-    if math.fabs(game.probeinx) > math.fabs(game.probeiny):
-	bigger = math.fabs(game.probeinx)
-    else:
-	bigger = math.fabs(game.probeiny)
-    game.probeiny /= bigger
-    game.probeinx /= bigger
+    game.probein = coord(-math.sin(angle), math.cos(angle))
+    bigger = max(abs(game.probein.i), abs(game.probein.j))
+    game.probein /= bigger
     game.proben = 10.0*game.dist*bigger +0.5
-    game.probex = game.quadrant.i*QUADSIZE + game.sector.i - 1	# We will use better packing than original
-    game.probey = game.quadrant.j*QUADSIZE + game.sector.j - 1
-    game.probec = game.quadrant
+    game.probe = coord(game.quadrant.i*QUADSIZE + game.sector.i, 
+                       game.quadrant.j*QUADSIZE + game.sector.j)
+    game.probec = copy.copy(game.quadrant)
     schedule(FDSPROB, 0.01) # Time to move one sector
     prout(_("Ensign Chekov-  \"The deep space probe is launched, Captain.\""))
     game.ididit = True
     return
 
-# Here's how the mayday code works:
-# 
-# First, the closest starbase is selected.  If there is a a starbase
-# in your own quadrant, you are in good shape.  This distance takes
-# quadrant distances into account only.
-#
-# A magic number is computed based on the distance which acts as the
-# probability that you will be rematerialized.  You get three tries.
-#
-# When it is determined that you should be able to be rematerialized
-# (i.e., when the probability thing mentioned above comes up
-# positive), you are put into that quadrant (anywhere).  Then, we try
-# to see if there is a spot adjacent to the star- base.  If not, you
-# can't be rematerialized!!!  Otherwise, it drops you there.  It only
-# tries five times to find a spot to drop you.  After that, it's your
-# problem.
-
 def mayday():
     "Yell for help from nearest starbase."
     # There's more than one way to move in this game! 
@@ -4445,24 +4401,6 @@ def mayday():
     skip(1)
     prout(_("Lt. Uhura-  \"Captain, we made it!\""))
 
-# Abandon Ship (the BSD-Trek description)
-# 
-# The ship is abandoned.  If your current ship is the Faire
-# Queene, or if your shuttlecraft is dead, you're out of
-# luck.  You need the shuttlecraft in order for the captain
-# (that's you!!) to escape.
-# 
-# Your crew can beam to an inhabited starsystem in the
-# quadrant, if there is one and if the transporter is working.
-# If there is no inhabited starsystem, or if the transporter
-# is out, they are left to die in outer space.
-# 
-# If there are no starbases left, you are captured by the
-# Klingons, who torture you mercilessly.  However, if there
-# is at least one starbase, you are returned to the
-# Federation in a prisoner of war exchange.  Of course, this
-# can't happen unless you have taken some prisoners.
-
 def abandon():
     "Abandon ship."
     scanner.chew()
@@ -6517,6 +6455,7 @@ def debugme():
 	atover(True)
 
 if __name__ == '__main__':
+    import getopt, socket
     try:
         global line, thing, game, idebug
         game = None
@@ -6568,6 +6507,8 @@ if __name__ == '__main__':
         if logfp:
             logfp.write("# seed %s\n" % seed)
             logfp.write("# options %s\n" % " ".join(arguments))
+            logfp.write("# recorded by %s@%s on %s\n" % \
+                    (os.getenv("LOGNAME"),socket.gethostname(),time.ctime()))
         random.seed(seed)
         scanner = sstscanner()
         map(scanner.append, arguments)