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Removed spaces from top-level directory names.

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Spaces tend to cause annoyances in a Unix-style shell environment.
This change fixes that.
This commit is contained in:
Chris Reuter
2021-11-21 18:30:21 -05:00
parent df2e7426eb
commit d26dbf036a
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84_Super_Star_Trek/python/superstartrek.py Normal file
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# **** **** STAR TREK **** ****
# **** SIMULATION OF A MISSION OF THE STARSHIP ENTERPRISE,
# **** AS SEEN ON THE STAR TREK TV SHOW.
# **** ORIGINAL PROGRAM BY MIKE MAYFIELD, MODIFIED VERSION
# **** PUBLISHED IN DEC'S "101 BASIC GAMES", BY DAVE AHL.
# **** MODIFICATIONS TO THE LATTER (PLUS DEBUGGING) BY BOB
# **** LEEDOM - APRIL & DECEMBER 1974,
# **** WITH A LITTLE HELP FROM HIS FRIENDS . . .
#
# Python translation by Jack Boyce - February 2021
# Output is identical to BASIC version except for a few
# fixes (as noted, search `bug`) and minor cleanup.
import random
from math import sqrt
# -------------------------------------------------------------------------
# Utility functions
# -------------------------------------------------------------------------
def fnr():
# Generate a random integer from 0 to 7 inclusive.
return random.randint(0, 7)
def quadrant_name(row, col, region_only=False):
# Return quadrant name visible on scans, etc.
region1 = ['ANTARES', 'RIGEL', 'PROCYON', 'VEGA', 'CANOPUS', 'ALTAIR',
'SAGITTARIUS', 'POLLUX']
region2 = ['SIRIUS', 'DENEB', 'CAPELLA', 'BETELGEUSE', 'ALDEBARAN',
'REGULUS', 'ARCTURUS', 'SPICA']
modifier = ['I', 'II', 'III', 'IV']
quadrant = region1[row] if col < 4 else region2[row]
if not region_only:
quadrant += ' ' + modifier[col % 4]
return quadrant
def insert_marker(row, col, marker):
# Insert a marker into a given position in the quadrant string `qs`. The
# contents of a quadrant (Enterprise, stars, etc.) are stored in `qs`.
global qs
if len(marker) != 3:
print('ERROR')
exit()
pos = round(col) * 3 + round(row) * 24
qs = qs[0:pos] + marker + qs[(pos + 3):192]
def compare_marker(row, col, test_marker):
# Check whether the position in the current quadrant is occupied with a
# given marker.
pos = round(col) * 3 + round(row) * 24
return qs[pos:(pos + 3)] == test_marker
def find_empty_place():
# Find an empty location in the current quadrant.
while True:
row, col = fnr(), fnr()
if compare_marker(row, col, ' '):
return row, col
# -------------------------------------------------------------------------
# Functions for individual player commands
# -------------------------------------------------------------------------
def navigation():
# Take navigation input and move the Enterprise.
global d, s, e, k, qs, t, q1, q2, s1, s2
while True:
c1s = input("COURSE (1-9)? ")
if len(c1s) > 0:
c1 = float(c1s)
break
if c1 == 9:
c1 = 1
if c1 < 1 or c1 >= 9:
print(" LT. SULU REPORTS, 'INCORRECT COURSE DATA, SIR!'")
return
while True:
warps = input(f"WARP FACTOR (0-{'0.2' if d[0] < 0 else '8'})? ")
if len(warps) > 0:
warp = float(warps)
break
if d[0] < 0 and warp > 0.2:
print("WARP ENGINES ARE DAMAGED. MAXIMUM SPEED = WARP 0.2")
return
if warp == 0:
return
if warp < 0 or warp > 8:
print(" CHIEF ENGINEER SCOTT REPORTS 'THE ENGINES WON'T TAKE "
f"WARP {warp}!'")
return
n = round(warp * 8)
if e < n:
print("ENGINEERING REPORTS 'INSUFFICIENT ENERGY AVAILABLE")
print(f" FOR MANEUVERING AT WARP {warp}!'")
if s >= n - e and d[6] >= 0:
print(f"DEFLECTOR CONTROL ROOM ACKNOWLEDGES {s} UNITS OF ENERGY")
print(" PRESENTLY DEPLOYED TO SHIELDS.")
return
# klingons move and fire
for i in range(3):
if k[i][2] != 0:
insert_marker(k[i][0], k[i][1], ' ')
k[i][0], k[i][1] = find_empty_place()
insert_marker(k[i][0], k[i][1], '+K+')
klingons_fire()
# repair damaged devices and print damage report
line = ''
for i in range(8):
if d[i] < 0:
d[i] += min(warp, 1)
if -0.1 < d[i] < 0:
d[i] = -0.1
elif d[i] >= 0:
if len(line) == 0:
line = "DAMAGE CONTROL REPORT:"
line += ' ' + devices[i] + ' REPAIR COMPLETED\n'
if len(line) > 0:
print(line)
if random.random() <= 0.2:
r1 = fnr()
if random.random() < 0.6:
d[r1] -= random.random() * 5 + 1
print(f"DAMAGE CONTROL REPORT: {devices[r1]} DAMAGED\n")
else:
d[r1] += random.random() * 3 + 1
print(f"DAMAGE CONTROL REPORT: {devices[r1]} STATE OF "
"REPAIR IMPROVED\n")
# begin moving starship
insert_marker(int(s1), int(s2), ' ')
ic1 = int(c1)
x1 = c[ic1 - 1][0] + (c[ic1][0] - c[ic1 - 1][0]) * (c1 - ic1)
x2 = c[ic1 - 1][1] + (c[ic1][1] - c[ic1 - 1][1]) * (c1 - ic1)
q1_start, q2_start = q1, q2
x, y = s1, s2
for _ in range(n):
s1 += x1
s2 += x2
if s1 < 0 or s1 > 7 or s2 < 0 or s2 > 7:
# exceeded quadrant limits; calculate final position
x += 8 * q1 + n * x1
y += 8 * q2 + n * x2
q1, q2 = int(x / 8), int(y / 8)
s1, s2 = int(x - q1 * 8), int(y - q2 * 8)
if s1 < 0:
q1 -= 1
s1 = 7
if s2 < 0:
q2 -= 1
s2 = 7
hit_edge = False
if q1 < 0:
hit_edge = True
q1 = s1 = 0
if q1 > 7:
hit_edge = True
q1 = s1 = 7
if q2 < 0:
hit_edge = True
q2 = s2 = 0
if q2 > 7:
hit_edge = True
q2 = s2 = 7
if hit_edge:
print("LT. UHURA REPORTS MESSAGE FROM STARFLEET COMMAND:")
print(" 'PERMISSION TO ATTEMPT CROSSING OF GALACTIC "
"PERIMETER")
print(" IS HEREBY *DENIED*. SHUT DOWN YOUR ENGINES.'")
print("CHIEF ENGINEER SCOTT REPORTS 'WARP ENGINES SHUT DOWN")
print(f" AT SECTOR {s1 + 1} , {s2 + 1} OF QUADRANT "
f"{q1 + 1} , {q2 + 1}.'")
if t > t0 + t9:
end_game(won=False, quit=False)
return
if q1 == q1_start and q2 == q2_start:
break
t += 1
maneuver_energy(n)
new_quadrant()
return
else:
pos = int(s1) * 24 + int(s2) * 3
if qs[pos:(pos + 2)] != ' ':
s1, s2 = int(s1 - x1), int(s2 - x2)
print("WARP ENGINES SHUT DOWN AT SECTOR "
f"{s1 + 1} , {s2 + 1} DUE TO BAD NAVAGATION")
break
else:
s1, s2 = int(s1), int(s2)
insert_marker(int(s1), int(s2), '<*>')
maneuver_energy(n)
t += 0.1 * int(10 * warp) if warp < 1 else 1
if t > t0 + t9:
end_game(won=False, quit=False)
return
short_range_scan()
def maneuver_energy(n):
# Deduct the energy for navigation from energy/shields.
global e, s
e -= n + 10
if e <= 0:
print("SHIELD CONTROL SUPPLIES ENERGY TO COMPLETE THE MANEUVER.")
s += e
e = 0
s = max(0, s)
def short_range_scan():
# Print a short range scan.
global docked, e, p, s
docked = False
for i in (s1 - 1, s1, s1 + 1):
for j in (s2 - 1, s2, s2 + 1):
if 0 <= i <= 7 and 0 <= j <= 7:
if compare_marker(i, j, '>!<'):
docked = True
cs = 'DOCKED'
e, p = e0, p0
print("SHIELDS DROPPED FOR DOCKING PURPOSES")
s = 0
break
else:
continue
break
else:
if k3 > 0:
cs = '*RED*'
elif e < e0 * 0.1:
cs = 'YELLOW'
else:
cs = 'GREEN'
if d[1] < 0:
print("\n*** SHORT RANGE SENSORS ARE OUT ***\n")
return
sep = '---------------------------------'
print(sep)
for i in range(8):
line = ''
for j in range(8):
pos = i * 24 + j * 3
line = line + ' ' + qs[pos:(pos + 3)]
if i == 0:
line += f' STARDATE {round(int(t * 10) * 0.1, 1)}'
elif i == 1:
line += f' CONDITION {cs}'
elif i == 2:
line += f' QUADRANT {q1 + 1} , {q2 + 1}'
elif i == 3:
line += f' SECTOR {s1 + 1} , {s2 + 1}'
elif i == 4:
line += f' PHOTON TORPEDOES {int(p)}'
elif i == 5:
line += f' TOTAL ENERGY {int(e + s)}'
elif i == 6:
line += f' SHIELDS {int(s)}'
else:
line += f' KLINGONS REMAINING {k9}'
print(line)
print(sep)
def long_range_scan():
# Print a long range scan.
global z
if d[2] < 0:
print("LONG RANGE SENSORS ARE INOPERABLE")
return
print(f"LONG RANGE SCAN FOR QUADRANT {q1 + 1} , {q2 + 1}")
sep = '-------------------'
print(sep)
for i in (q1 - 1, q1, q1 + 1):
n = [-1, -2, -3]
for j in (q2 - 1, q2, q2 + 1):
if 0 <= i <= 7 and 0 <= j <= 7:
n[j - q2 + 1] = g[i][j]
z[i][j] = g[i][j]
line = ': '
for l in range(3):
if n[l] < 0:
line += '*** : '
else:
line += str(n[l] + 1000).rjust(4, ' ')[-3:] + ' : '
print(line)
print(sep)
def phaser_control():
# Take phaser control input and fire phasers.
global e, k, g, z, k3, k9
if d[3] < 0:
print("PHASERS INOPERATIVE")
return
if k3 <= 0:
print("SCIENCE OFFICER SPOCK REPORTS 'SENSORS SHOW NO ENEMY SHIPS")
print(" IN THIS QUADRANT'")
return
if d[7] < 0:
print("COMPUTER FAILURE HAMPERS ACCURACY")
print(f"PHASERS LOCKED ON TARGET; ENERGY AVAILABLE = {e} UNITS")
x = 0
while True:
while True:
xs = input("NUMBER OF UNITS TO FIRE? ")
if len(xs) > 0:
x = int(xs)
break
if x <= 0:
return
if e >= x:
break
print(f"ENERGY AVAILABLE = {e} UNITS")
e -= x
if d[7] < 0: # bug in original, was d[6]
x *= random.random()
h1 = int(x / k3)
for i in range(3):
if k[i][2] <= 0:
continue
h = int((h1 / fnd(i)) * (random.random() + 2))
if h <= 0.15 * k[i][2]:
print("SENSORS SHOW NO DAMAGE TO ENEMY AT "
f"{k[i][0] + 1} , {k[i][1] + 1}")
else:
k[i][2] -= h
print(f" {h} UNIT HIT ON KLINGON AT SECTOR "
f"{k[i][0] + 1} , {k[i][1] + 1}")
if k[i][2] <= 0:
print("*** KLINGON DESTROYED ***")
k3 -= 1
k9 -= 1
insert_marker(k[i][0], k[i][1], ' ')
k[i][2] = 0
g[q1][q2] -= 100
z[q1][q2] = g[q1][q2]
if k9 <= 0:
end_game(won=True, quit=False)
return
else:
print(f" (SENSORS SHOW {round(k[i][2],6)} UNITS REMAINING)")
klingons_fire()
def photon_torpedoes():
# Take photon torpedo input and process firing of torpedoes.
global e, p, k3, k9, k, b3, b9, docked, g, z
if p <= 0:
print("ALL PHOTON TORPEDOES EXPENDED")
return
if d[4] < 0:
print("PHOTON TUBES ARE NOT OPERATIONAL")
return
while True:
c1s = input("PHOTON TORPEDO COURSE (1-9)? ")
if len(c1s) > 0:
c1 = float(c1s)
break
if c1 == 9:
c1 = 1
if c1 < 1 or c1 >= 9:
print("ENSIGN CHEKOV REPORTS, 'INCORRECT COURSE DATA, SIR!'")
return
ic1 = int(c1)
x1 = c[ic1 - 1][0] + (c[ic1][0] - c[ic1 - 1][0]) * (c1 - ic1)
e -= 2
p -= 1
x2 = c[ic1 - 1][1] + (c[ic1][1] - c[ic1 - 1][1]) * (c1 - ic1)
x, y = s1, s2
x3, y3 = x, y
print("TORPEDO TRACK:")
while True:
x += x1
y += x2
x3, y3 = round(x), round(y)
if x3 < 0 or x3 > 7 or y3 < 0 or y3 > 7:
print("TORPEDO MISSED")
klingons_fire()
return
print(f" {x3 + 1} , {y3 + 1}")
if not compare_marker(x3, y3, ' '):
break
if compare_marker(x3, y3, '+K+'):
print("*** KLINGON DESTROYED ***")
k3 -= 1
k9 -= 1
if k9 <= 0:
end_game(won=True, quit=False)
return
for i in range(3):
if x3 == k[i][0] and y3 == k[i][1]:
k[i][2] = 0
elif compare_marker(x3, y3, ' * '):
print(f"STAR AT {x3 + 1} , {y3 + 1} ABSORBED TORPEDO ENERGY.")
klingons_fire()
return
elif compare_marker(x3, y3, '>!<'):
print("*** STARBASE DESTROYED ***")
b3 -= 1
b9 -= 1
if b9 == 0 and k9 <= t - t0 - t9:
print("THAT DOES IT, CAPTAIN!! YOU ARE HEREBY RELIEVED OF COMMAND")
print("AND SENTENCED TO 99 STARDATES AT HARD LABOR ON CYGNUS 12!!")
end_game(won=False)
return
else:
print("STARFLEET COMMAND REVIEWING YOUR RECORD TO CONSIDER")
print("COURT MARTIAL!")
docked = False
insert_marker(x3, y3, ' ')
g[q1][q2] = k3 * 100 + b3 * 10 + s3
z[q1][q2] = g[q1][q2]
klingons_fire()
def fnd(i):
# Find distance between Enterprise and i'th Klingon warship.
return sqrt((k[i][0] - s1)**2 + (k[i][1] - s2)**2)
def klingons_fire():
# Process nearby Klingons firing on Enterprise.
global s, k, d
if k3 <= 0:
return
if docked:
print("STARBASE SHIELDS PROTECT THE ENTERPRISE")
return
for i in range(3):
if k[i][2] <= 0:
continue
h = int((k[i][2] / fnd(i)) * (random.random() + 2))
s -= h
k[i][2] /= (random.random() + 3)
print(f" {h} UNIT HIT ON ENTERPRISE FROM SECTOR "
f"{k[i][0] + 1} , {k[i][1] + 1}")
if s <= 0:
end_game(won=False, quit=False, enterprise_killed=True)
return
print(f" <SHIELDS DOWN TO {s} UNITS>")
if h >= 20 and random.random() < 0.60 and h / s > 0.02:
r1 = fnr()
d[r1] -= h / s + 0.5 * random.random()
print(f"DAMAGE CONTROL REPORTS '{devices[r1]} DAMAGED "
"BY THE HIT'")
def shield_control():
# Raise or lower the shields.
global e, s
if d[6] < 0:
print("SHIELD CONTROL INOPERABLE")
return
while True:
xs = input(f"ENERGY AVAILABLE = {e + s} NUMBER OF UNITS TO SHIELDS? ")
if len(xs) > 0:
x = int(xs)
break
if x < 0 or s == x:
print("<SHIELDS UNCHANGED>")
return
if x > e + s:
print("SHIELD CONTROL REPORTS 'THIS IS NOT THE FEDERATION "
"TREASURY.'\n"
"<SHIELDS UNCHANGED>")
return
e += s - x
s = x
print("DEFLECTOR CONTROL ROOM REPORT:")
print(f" 'SHIELDS NOW AT {s} UNITS PER YOUR COMMAND.'")
def damage_control():
# Print a damage control report.
global d, t
if d[5] < 0:
print('DAMAGE CONTROL REPORT NOT AVAILABLE')
else:
print('\nDEVICE STATE OF REPAIR')
for r1 in range(8):
print(f"{devices[r1].ljust(26, ' ')}{int(d[r1] * 100) * 0.01:g}")
print()
if not docked:
return
d3 = sum(0.1 for i in range(8) if d[i] < 0)
if d3 == 0:
return
d3 += d4
if d3 >= 1:
d3 = 0.9
print("\nTECHNICIANS STANDING BY TO EFFECT REPAIRS TO YOUR SHIP;")
print("ESTIMATED TIME TO REPAIR: "
f"{round(0.01 * int(100 * d3), 2)} STARDATES")
if input("WILL YOU AUTHORIZE THE "
"REPAIR ORDER (Y/N)? ").upper().strip() != 'Y':
return
for i in range(8):
if d[i] < 0:
d[i] = 0
t += d3 + 0.1
def computer():
# Perform the various functions of the library computer.
global d, z, k9, t0, t9, t, b9, s1, s2, b4, b5
if d[7] < 0:
print("COMPUTER DISABLED")
return
while True:
coms = input("COMPUTER ACTIVE AND AWAITING COMMAND? ")
if len(coms) == 0:
com = 6
else:
com = int(coms)
if com < 0:
return
print()
if com == 0 or com == 5:
if com == 5:
print(" THE GALAXY")
else:
print("\n COMPUTER RECORD OF GALAXY FOR "
f"QUADRANT {q1 + 1} , {q2 + 1}\n")
print(" 1 2 3 4 5 6 7 8")
sep = " ----- ----- ----- ----- ----- ----- ----- -----"
print(sep)
for i in range(8):
line = ' ' + str(i + 1) + ' '
if com == 5:
g2s = quadrant_name(i, 0, True)
line += (' ' * int(12 - 0.5 * len(g2s))) + g2s
g2s = quadrant_name(i, 4, True)
line += (' ' * int(39 - 0.5 * len(g2s) - len(line))) + g2s
else:
for j in range(8):
line += ' '
if z[i][j] == 0:
line += '***'
else:
line += str(z[i][j] + 1000)[-3:]
print(line)
print(sep)
print()
return
elif com == 1:
print(" STATUS REPORT:")
print(f"KLINGON{'S' if k9 > 1 else ''} LEFT: {k9}")
print("MISSION MUST BE COMPLETED IN "
f"{round(0.1 * int((t0+t9-t) * 10), 1)} STARDATES")
if b9 == 0:
print("YOUR STUPIDITY HAS LEFT YOU ON YOUR OWN IN")
print(" THE GALAXY -- YOU HAVE NO STARBASES LEFT!")
else:
print(f"THE FEDERATION IS MAINTAINING {b9} "
f"STARBASE{'S' if b9 > 1 else ''} IN THE GALAXY")
damage_control()
return
elif com == 2:
if k3 <= 0:
print("SCIENCE OFFICER SPOCK REPORTS 'SENSORS SHOW NO ENEMY "
"SHIPS\n"
" IN THIS QUADRANT'")
return
print("FROM ENTERPRISE TO KLINGON BATTLE "
f"CRUISER{'S' if k3 > 1 else ''}")
for i in range(3):
if k[i][2] > 0:
print_direction(s1, s2, k[i][0], k[i][1])
return
elif com == 3:
if b3 == 0:
print("MR. SPOCK REPORTS, 'SENSORS SHOW NO STARBASES IN THIS "
"QUADRANT.'")
return
print("FROM ENTERPRISE TO STARBASE:")
print_direction(s1, s2, b4, b5)
return
elif com == 4:
print("DIRECTION/DISTANCE CALCULATOR:")
print(f"YOU ARE AT QUADRANT {q1+1} , {q2+1} SECTOR "
f"{s1+1} , {s2+1}")
print("PLEASE ENTER")
while True:
ins = input(" INITIAL COORDINATES (X,Y)? ").split(',')
if len(ins) == 2:
from1, from2 = int(ins[0]) - 1, int(ins[1]) - 1
if 0 <= from1 <= 7 and 0 <= from2 <= 7:
break
while True:
ins = input(" FINAL COORDINATES (X,Y)? ").split(',')
if len(ins) == 2:
to1, to2 = int(ins[0]) - 1, int(ins[1]) - 1
if 0 <= to1 <= 7 and 0 <= to2 <= 7:
break
print_direction(from1, from2, to1, to2)
return
else:
print("FUNCTIONS AVAILABLE FROM LIBRARY-COMPUTER:\n"
" 0 = CUMULATIVE GALACTIC RECORD\n"
" 1 = STATUS REPORT\n"
" 2 = PHOTON TORPEDO DATA\n"
" 3 = STARBASE NAV DATA\n"
" 4 = DIRECTION/DISTANCE CALCULATOR\n"
" 5 = GALAXY 'REGION NAME' MAP\n")
def print_direction(from1, from2, to1, to2):
# Print direction and distance between two locations in the grid.
delta1 = -(to1 - from1) # flip so positive is up (heading = 3)
delta2 = to2 - from2
if delta2 > 0:
if delta1 < 0:
base = 7
else:
base = 1
delta1, delta2 = delta2, delta1
else:
if delta1 > 0:
base = 3
else:
base = 5
delta1, delta2 = delta2, delta1
delta1, delta2 = abs(delta1), abs(delta2)
if delta1 > 0 or delta2 > 0: # bug in original; no check for divide by 0
if delta1 >= delta2:
print(f"DIRECTION = {round(base + delta2 / delta1, 6)}")
else:
print(f"DIRECTION = {round(base + 2 - delta1 / delta2, 6)}")
print(f"DISTANCE = {round(sqrt(delta1 ** 2 + delta2 ** 2), 6)}")
# -------------------------------------------------------------------------
# Game transitions
# -------------------------------------------------------------------------
def startup():
# Initialize the game variables and map, and print startup messages.
global g, z, d, t, t0, t9, docked, e, e0, p, p0, s, k9, b9, s9, c
global devices, q1, q2, s1, s2, k7
print("\n\n\n\n\n\n\n\n\n\n\n"
" ,------*------,\n"
" ,------------- '--- ------'\n"
" '-------- --' / /\n"
" ,---' '-------/ /--,\n"
" '----------------'\n\n"
" THE USS ENTERPRISE --- NCC-1701\n"
"\n\n\n\n")
# set up global game variables
g = [[0] * 8 for _ in range(8)] # galaxy map
z = [[0] * 8 for _ in range(8)] # charted galaxy map
d = [0] * 8 # damage stats for devices
t = t0 = 100 * random.randint(20, 39) # stardate (current, initial)
t9 = random.randint(25, 34) # mission duration (stardates)
docked = False # true when docked at starbase
e = e0 = 3000 # energy (current, initial)
p = p0 = 10 # torpedoes (current, initial)
s = 0 # shields
k9, b9 = 0, 0 # total Klingons, bases in galaxy
# ^ bug in original, was b9 = 2
s9 = 200 # avg. Klingon shield strength
c = [[0, 1], [-1, 1], [-1, 0], [-1, -1], [0, -1], [1, -1],
[1, 0], [1, 1], [0, 1]] # vectors in cardinal directions
devices = ['WARP ENGINES', 'SHORT RANGE SENSORS', 'LONG RANGE SENSORS',
'PHASER CONTROL', 'PHOTON TUBES', 'DAMAGE CONTROL',
'SHIELD CONTROL', 'LIBRARY-COMPUTER']
# initialize Enterprise's position
q1, q2 = fnr(), fnr() # Enterprise's quadrant
s1, s2 = fnr(), fnr() # ...and sector
# initialize contents of galaxy
for i in range(8):
for j in range(8):
k3 = 0
r1 = random.random()
if r1 > 0.98:
k3 = 3
elif r1 > 0.95:
k3 = 2
elif r1 > 0.80:
k3 = 1
k9 += k3
b3 = 0
if random.random() > 0.96:
b3 = 1
b9 += 1
g[i][j] = k3 * 100 + b3 * 10 + fnr() + 1
if k9 > t9:
t9 = k9 + 1
if b9 == 0: # original has buggy extra code here
b9 = 1
g[q1][q2] += 10
q1, q2 = fnr(), fnr()
k7 = k9 # Klingons at start of game
print("YOUR ORDERS ARE AS FOLLOWS:\n"
f" DESTROY THE {k9} KLINGON WARSHIPS WHICH HAVE INVADED\n"
" THE GALAXY BEFORE THEY CAN ATTACK FEDERATION HEADQUARTERS\n"
f" ON STARDATE {t0+t9}. THIS GIVES YOU {t9} DAYS. THERE "
f"{'IS' if b9 == 1 else 'ARE'}\n"
f" {b9} STARBASE{'' if b9 == 1 else 'S'} IN THE GALAXY FOR "
"RESUPPLYING YOUR SHIP.\n")
def new_quadrant():
# Enter a new quadrant: populate map and print a short range scan.
global z, k3, b3, s3, d4, k, qs, b4, b5
k3 = b3 = s3 = 0 # Klingons, bases, stars in quad.
d4 = 0.5 * random.random() # extra delay in repairs at base
z[q1][q2] = g[q1][q2]
if 0 <= q1 <= 7 and 0 <= q2 <= 7:
quad = quadrant_name(q1, q2, False)
if t == t0:
print("\nYOUR MISSION BEGINS WITH YOUR STARSHIP LOCATED")
print(f"IN THE GALACTIC QUADRANT, '{quad}'.\n")
else:
print(f"\nNOW ENTERING {quad} QUADRANT . . .\n")
k3 = g[q1][q2] // 100
b3 = g[q1][q2] // 10 - 10 * k3
s3 = g[q1][q2] - 100 * k3 - 10 * b3
if k3 != 0:
print("COMBAT AREA CONDITION RED")
if s <= 200:
print(" SHIELDS DANGEROUSLY LOW")
k = [[0, 0, 0], [0, 0, 0], [0, 0, 0]] # Klingons in current quadrant
qs = ' ' * 192 # quadrant string
# build quadrant string
insert_marker(s1, s2, '<*>')
for i in range(k3):
r1, r2 = find_empty_place()
insert_marker(r1, r2, '+K+')
k[i] = [r1, r2, s9 * (0.5 + random.random())]
if b3 > 0:
b4, b5 = find_empty_place() # position of starbase (sector)
insert_marker(b4, b5, '>!<')
for i in range(s3):
r1, r2 = find_empty_place()
insert_marker(r1, r2, ' * ')
short_range_scan()
def end_game(won=False, quit=True, enterprise_killed=False):
# Handle end-of-game situations.
global restart
if won:
print("CONGRATULATIONS, CAPTAIN! THE LAST KLINGON BATTLE CRUISER")
print("MENACING THE FEDERATION HAS BEEN DESTROYED.\n")
print("YOUR EFFICIENCY RATING IS "
f"{round(1000 * (k7 / (t - t0))**2, 4)}\n\n")
else:
if not quit:
if enterprise_killed:
print("\nTHE ENTERPRISE HAS BEEN DESTROYED. THE FEDERATION "
"WILL BE CONQUERED.")
print(f"IT IS STARDATE {round(t, 1)}")
print(f"THERE WERE {k9} KLINGON BATTLE CRUISERS LEFT AT")
print(f"THE END OF YOUR MISSION.\n\n")
if b9 == 0:
exit()
print("THE FEDERATION IS IN NEED OF A NEW STARSHIP COMMANDER")
print("FOR A SIMILAR MISSION -- IF THERE IS A VOLUNTEER,")
if input("LET HIM STEP FORWARD AND "
"ENTER 'AYE'? ").upper().strip() != 'AYE':
exit()
restart = True
# -------------------------------------------------------------------------
# Entry point and main game loop
# -------------------------------------------------------------------------
def main():
global restart
f = {'NAV': navigation, 'SRS': short_range_scan, 'LRS': long_range_scan,
'PHA': phaser_control, 'TOR': photon_torpedoes, 'SHE': shield_control,
'DAM': damage_control, 'COM': computer, 'XXX': end_game}
while True:
startup()
new_quadrant()
restart = False
while not restart:
if s + e <= 10 or (e <= 10 and d[6] != 0):
print("\n** FATAL ERROR ** YOU'VE JUST STRANDED YOUR SHIP "
"IN SPACE.\nYOU HAVE INSUFFICIENT MANEUVERING ENERGY, "
"AND SHIELD CONTROL\nIS PRESENTLY INCAPABLE OF CROSS-"
"CIRCUITING TO ENGINE ROOM!!")
command = input('COMMAND? ').upper().strip()
if command in f:
f[command]()
else:
print("ENTER ONE OF THE FOLLOWING:\n"
" NAV (TO SET COURSE)\n"
" SRS (FOR SHORT RANGE SENSOR SCAN)\n"
" LRS (FOR LONG RANGE SENSOR SCAN)\n"
" PHA (TO FIRE PHASERS)\n"
" TOR (TO FIRE PHOTON TORPEDOES)\n"
" SHE (TO RAISE OR LOWER SHIELDS)\n"
" DAM (FOR DAMAGE CONTROL REPORTS)\n"
" COM (TO CALL ON LIBRARY-COMPUTER)\n"
" XXX (TO RESIGN YOUR COMMAND)\n")
if __name__ == "__main__":
main()