From e84711d8c308e5456eac24a1a7f91fcde46683a9 Mon Sep 17 00:00:00 2001 From: Jack Boyce Date: Mon, 1 Mar 2021 01:03:46 -0800 Subject: [PATCH] testing and cleanup --- 84 Super Star Trek/python/superstartrek.py | 361 +++++++++++---------- 1 file changed, 185 insertions(+), 176 deletions(-) diff --git a/84 Super Star Trek/python/superstartrek.py b/84 Super Star Trek/python/superstartrek.py index 9e254519..3182405d 100644 --- a/84 Super Star Trek/python/superstartrek.py +++ b/84 Super Star Trek/python/superstartrek.py @@ -22,14 +22,19 @@ from math import sqrt def fnd(i): + # Find distance between Enterprise and i'th Klingon warship. + global k, s1, s2 + return sqrt((k[i][0] - s1)**2 + (k[i][1] - s2)**2) def fnr(): + # Generate a random number from 0 to 7 inclusive. return int(random.random() * 7.98 + 0.01) 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', @@ -45,6 +50,8 @@ def quadrant_name(row, col, region_only=False): 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: @@ -56,6 +63,8 @@ def insert_marker(row, col, marker): def compare_marker(row, col, test_marker): + # Check whether the position in the current quadrant is occupied with a + # given marker. global qs pos = round(col) * 3 + round(row) * 24 @@ -63,9 +72,9 @@ def compare_marker(row, col, test_marker): def find_empty_place(): + # Find an empty location in the current quadrant. while True: - row = fnr() - col = fnr() + row, col = fnr(), fnr() if compare_marker(row, col, ' '): return row, col @@ -76,23 +85,25 @@ def find_empty_place(): def navigation(): + # Take navigation input and move the Enterprise. global d, s, e, k, s1, s2, qs, t8, t9, t, w1, c, q1, q2 - c1 = float(input("COURSE (1-9) ")) + c1 = float(input("COURSE (1-9)? ")) if c1 == 9: c1 = 1 if c1 < 1 or c1 >= 9: print(" LT. SULU REPORTS, 'INCORRECT COURSE DATA, SIR!'") return xs = '0.2' if d[0] < 0 else '8' - w1 = float(input(f"WARP FACTOR (0-{xs}) ")) + w1 = float(input(f"WARP FACTOR (0-{xs})? ")) if d[0] < 0 and w1 > 0.2: print("WARP ENGINES ARE DAMAGED. MAXIMUM SPEED = WARP 0.2") return if w1 == 0: return if w1 < 0 or w1 > 8: - print(f" CHIEF ENGINEER SCOTT REPORTS 'THE ENGINES WON'T TAKE WARP {w1}!'") + print(" CHIEF ENGINEER SCOTT REPORTS 'THE ENGINES WON'T TAKE " + f"WARP {w1}!'") return n = int(w1 * 8 + 0.5) @@ -133,10 +144,11 @@ def navigation(): r1 = fnr() if random.random() < 0.6: d[r1] -= random.random() * 5 + 1 - print(f'DAMAGE CONTROL REPORT: {devices[r1]} DAMAGED\n') + 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') + print(f"DAMAGE CONTROL REPORT: {devices[r1]} STATE OF " + "REPAIR IMPROVED\n") # begin moving starship insert_marker(int(s1), int(s2), ' ') @@ -178,10 +190,12 @@ def navigation(): q2 = s2 = 7 if x5 == 1: print("LT. UHURA REPORTS MESSAGE FROM STARFLEET COMMAND:") - print(" 'PERMISSION TO ATTEMPT CROSSING OF GALACTIC PERIMETER") + 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 {q1 + 1},{q2 + 1}.'") + print(f" AT SECTOR {s1 + 1} , {s2 + 1} OF QUADRANT " + f"{q1 + 1} , {q2 + 1}.'") if t > t0 + t9: end_game() if 8 * q1 + q2 == 8 * q4 + q5: @@ -195,10 +209,8 @@ def navigation(): if qs[s8:(s8 + 2)] != ' ': s1 = int(s1 - x1) s2 = int(s2 - x2) - print( - "WARP ENGINES SHUT DOWN AT SECTOR " - f"{s1 + 1},{s2 + 1} DUE TO BAD NAVAGATION" - ) + print("WARP ENGINES SHUT DOWN AT SECTOR " + f"{s1 + 1} , {s2 + 1} DUE TO BAD NAVAGATION") break else: s1, s2 = int(s1), int(s2) @@ -217,6 +229,7 @@ def navigation(): def maneuver_energy(n): + # Deduct the energy for navigation from energy/shields. global e, s e -= n + 10 @@ -231,7 +244,8 @@ def maneuver_energy(n): def short_range_scan(): - global d0, e, p, s + # Print a short range scan. + global d0, e, e0, p, p0, s d0 = 0 for i in (s1 - 1, s1, s1 + 1): @@ -242,7 +256,7 @@ def short_range_scan(): cs = 'DOCKED' e = e0 p = p0 - print('SHIELDS DROPPED FOR DOCKING PURPOSES') + print("SHIELDS DROPPED FOR DOCKING PURPOSES") s = 0 break else: @@ -257,7 +271,7 @@ def short_range_scan(): cs = 'GREEN' if d[1] < 0: - print('\n*** SHORT RANGE SENSORS ARE OUT ***\n') + print("\n*** SHORT RANGE SENSORS ARE OUT ***\n") return sep = '---------------------------------' @@ -269,13 +283,13 @@ def short_range_scan(): line = line + ' ' + qs[pos:(pos + 3)] if i == 0: - line += f' STARDATE {int(t * 10) * 0.1}' + 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}' + line += f' QUADRANT {q1 + 1} , {q2 + 1}' elif i == 3: - line += f' SECTOR {s1 + 1},{s2 + 1}' + line += f' SECTOR {s1 + 1} , {s2 + 1}' elif i == 4: line += f' PHOTON TORPEDOES {int(p)}' elif i == 5: @@ -290,19 +304,18 @@ def short_range_scan(): def long_range_scan(): + # Print a long range scan. global n, z if d[2] < 0: - print('LONG RANGE SENSORS ARE INOPERABLE') + print("LONG RANGE SENSORS ARE INOPERABLE") return - print(f'LONG RANGE SCAN FOR QUADRANT {q1 + 1},{q2 + 1}') + print(f"LONG RANGE SCAN FOR QUADRANT {q1 + 1} , {q2 + 1}") o1s = '-------------------' print(o1s) for i in (q1 - 1, q1, q1 + 1): - n[0] = -1 - n[1] = -2 - n[2] = -3 + n = [-1, -2, -3] for j in (q2 - 1, q2, q2 + 1): if 0 <= i <= 7 and 0 <= j <= 7: @@ -320,6 +333,7 @@ def long_range_scan(): def phaser_control(): + # Take phaser control input and fire phasers. global d, e, k, k3, k9, qs, g, z, q1, q2 if d[3] < 0: @@ -334,10 +348,10 @@ def phaser_control(): if d[7] < 0: print("COMPUTER FAILURE HAMPERS ACCURACY") - print(f"PHASERS LOCKED ON TARGET; ENERGY AVAILABLE = {e} UNITS") + print(f"PHASERS LOCKED ON TARGET; ENERGY AVAILABLE = {e} UNITS") x = 0 while True: - x = int(input("NUMBER OF UNITS TO FIRE ")) + x = int(input("NUMBER OF UNITS TO FIRE? ")) if x <= 0: return if e - x >= 0: @@ -355,10 +369,12 @@ def phaser_control(): h = int((h1 / fnd(i)) * (random.random() + 2)) if h <= 0.15 * k[i][2]: - print(f"SENSORS SHOW NO DAMAGE TO ENEMY AT {k[i][0] + 1},{k[i][1] + 1}") + print("SENSORS SHOW NO DAMAGE TO ENEMY AT " + f"{k[i][0] + 1} , {k[i][1] + 1}") else: k[i][2] -= h - print(f"UNIT HIT ON KLINGON AT SECTOR {k[i][0] + 1},{k[i][1] + 1}") + 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 @@ -370,12 +386,13 @@ def phaser_control(): if k9 <= 0: end_game(won=True) else: - print(f" (SENSORS SHOW {k[i][2]} UNITS REMAINING)") + 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 p, d, c, e, s1, s2, k3, k9, b3, b9, t, t0, t9, d0, g, z if p <= 0: @@ -385,7 +402,7 @@ def photon_torpedoes(): print("PHOTON TUBES ARE NOT OPERATIONAL") return - c1 = float(input("PHOTON TORPEDO COURSE (1-9) ")) + c1 = float(input("PHOTON TORPEDO COURSE (1-9)? ")) if c1 == 9: c1 = 1 if c1 < 1 or c1 >= 9: @@ -409,7 +426,7 @@ def photon_torpedoes(): print("TORPEDO MISSED") klingons_fire() return - print(f" {x3 + 1},{y3 + 1}") + print(f" {x3 + 1} , {y3 + 1}") if not compare_marker(x3, y3, ' '): break @@ -423,7 +440,7 @@ def photon_torpedoes(): 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.") + print(f"STAR AT {x3 + 1} , {y3 + 1} ABSORBED TORPEDO ENERGY.") klingons_fire() return elif compare_marker(x3, y3, '>!<'): @@ -446,6 +463,7 @@ def photon_torpedoes(): def klingons_fire(): + # Process nearby Klingons firing on Enterprise. global k3, s, k, d0, d if k3 <= 0: @@ -461,44 +479,47 @@ def klingons_fire(): 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 {k[i][0] + 1},{k[i][1] + 1}") + print(f" {h} UNIT HIT ON ENTERPRISE FROM SECTOR " + f"{k[i][0] + 1} , {k[i][1] + 1}") if s <= 0: end_game(enterprise_killed=True) print(f" ") 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'") + print(f"DAMAGE CONTROL REPORTS '{devices[r1]} DAMAGED " + "BY THE HIT'") def shield_control(): + # Raise or lower the shields. global e, s, d if d[6] < 0: - print('SHIELD CONTROL INOPERABLE') + print("SHIELD CONTROL INOPERABLE") return - x = input(f'ENERGY AVAILABLE = {e + s} NUMBER OF UNITS TO SHIELDS ') + x = input(f"ENERGY AVAILABLE = {e + s} NUMBER OF UNITS TO SHIELDS? ") x = int(x) if x < 0 or s == x: - print('') + print("") return if x > e + s: - print( - "SHIELD CONTROL REPORTS 'THIS IS NOT THE FEDERATION TREASURY.'\n" - "" - ) + print("SHIELD CONTROL REPORTS 'THIS IS NOT THE FEDERATION " + "TREASURY.'\n" + "") return e += s - x s = x - print('DEFLECTOR CONTROL ROOM REPORT:') + 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, d0, d4, t if d[5] < 0: @@ -506,7 +527,7 @@ def damage_control(): else: print('\nDEVICE STATE OF REPAIR') for r1 in range(8): - print(f"{devices[r1].ljust(25, ' ')}{int(d[r1] * 100) * 0.01}") + print(f"{devices[r1].ljust(26, ' ')}{int(d[r1] * 100) * 0.01:g}") print() if d0 == 0: @@ -521,7 +542,7 @@ def damage_control(): d3 = 0.9 print("\nTECHNICIANS STANDING BY TO EFFECT REPAIRS TO YOUR SHIP;") print(f"ESTIMATED TIME TO REPAIR: {0.01 * int(100 * d3)} STARDATES") - astr = input("WILL YOU AUTHORIZE THE REPAIR ORDER (Y/N) ").upper() + astr = input("WILL YOU AUTHORIZE THE REPAIR ORDER (Y/N)? ").upper() if astr != 'Y': return @@ -532,6 +553,7 @@ def damage_control(): def computer(): + # Perform the various functions of the library computer. global d, g5, z, k9, t0, t9, t, b9, s1, s2, b4, b5 if d[7] < 0: @@ -539,7 +561,7 @@ def computer(): return while True: - coms = input("COMPUTER ACTIVE AND AWAITING COMMAND ") + coms = input("COMPUTER ACTIVE AND AWAITING COMMAND? ") if len(coms) == 0: com = 6 else: @@ -548,34 +570,29 @@ def computer(): return print() - h8 = 1 if com == 0 or com == 5: if com == 5: - h8 = 0 + is_map = True g5 = 1 print(" THE GALAXY") else: - # hardcopy disabled: - # 7540 REM INPUT"DO YOU WANT A HARDCOPY? IS THE TTY ON (Y/N)";A$ - # 7542 REM IFA$="Y"THENPOKE1229,2:POKE1237,3:NULL1 - - print("\n "); - print(f"COMPUTER RECORD OF GALAXY FOR QUADRANT {q1 + 1},{q2 + 1}") - print() + is_map = False + 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) + ' ' + line = ' ' + str(i + 1) + ' ' - if h8 == 0: + if is_map: g2s = quadrant_name(i, 0, True) - line += (' ' * int(14 - 0.5 * len(g2s))) + g2s + line += (' ' * int(12 - 0.5 * len(g2s))) + g2s g2s = quadrant_name(i, 4, True) - line += (' ' * int(41 - 0.5 * len(g2s) - len(line))) + g2s + line += (' ' * int(39 - 0.5 * len(g2s) - len(line))) + g2s else: for j in range(8): line += ' ' @@ -587,35 +604,41 @@ def computer(): print(line) print(sep) + print() return elif com == 1: print(" STATUS REPORT:") print(f"KLINGON{'S' if k9 > 1 else ''} LEFT: {k9}") - print(f"MISSION MUST BE COMPLETED IN {0.1 * int((t0+t9-t) * 10)} STARDATES") + 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 ON IN") + 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} STARBASE{'S' if b9 > 1 else ''} IN THE GALAXY") + 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") - print(" IN THIS QUADRANT'") + print("SCIENCE OFFICER SPOCK REPORTS 'SENSORS SHOW NO ENEMY " + "SHIPS\n" + " IN THIS QUADRANT'") return - print(f"FROM ENTERPRISE TO KLINGON BATTLE CRUSER{'S' if k3 > 1 else ''}") - h8 = 0 + 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.'") + print("MR. SPOCK REPORTS, 'SENSORS SHOW NO STARBASES IN THIS " + "QUADRANT.'") return print("FROM ENTERPRISE TO STARBASE:") @@ -623,47 +646,49 @@ def computer(): return elif com == 4: print("DIRECTION/DISTANCE CALCULATOR:") - print(f"YOU ARE AT QUADRANT {q1},{q2} SECTOR {s1},{s2}") + print(f"YOU ARE AT QUADRANT {q1} , {q2} SECTOR {s1} , {s2}") print("PLEASE ENTER") while True: - ins = input(" INITIAL COORDINATES (X,Y)").split(',') + ins = input(" INITIAL COORDINATES (X,Y)? ").split(',') if len(ins) == 2: from1, from2 = int(ins[0]), int(ins[1]) break while True: - ins = input(" FINAL COORDINATES (X,Y)").split(',') + ins = input(" FINAL COORDINATES (X,Y)? ").split(',') if len(ins) == 2: to1, to2 = int(ins[0]), int(ins[1]) 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" - ) + 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 a direction and distance between two locations in the quadrant + # grid. to2 -= from2 from2 = from1 - to1 def f1(c1, a, x): if abs(a) >= abs(x): - print(f"DIRECTION = {c1 + (abs(x) / abs(a))}") + print(f"DIRECTION = {round(c1 + (abs(x)/abs(a)), 6)}") else: - print(f"DIRECTION = {c1 + (((abs(x) - abs(a)) + abs(x)) / abs(x))}") + print("DIRECTION = " + f"{round(c1 + (((abs(x)-abs(a))+abs(x))/abs(x)), 6)}") def f2(c1, a, x): if abs(a) <= abs(x): - print(f"DIRECTION = {c1 + (abs(a) / abs(x))}") + print(f"DIRECTION = {round(c1 + (abs(a)/abs(x)), 6)}") else: - print(f"DIRECTION = {c1 + (((abs(a) - abs(x)) + abs(a)) / abs(a))}") + print("DIRECTION = " + f"{round(c1 + (((abs(a)-abs(x))+abs(a))/abs(a)), 6)}") if to2 < 0: if from2 > 0: @@ -682,7 +707,7 @@ def print_direction(from1, from2, to1, to2): else: f2(1, from2, to2) - print(f"DISTANCE = {sqrt(to2 ** 2 + from2 ** 2)}") + print(f"DISTANCE = {round(sqrt(to2 ** 2 + from2 ** 2), 6)}") # ------------------------------------------------------------------------- @@ -691,50 +716,42 @@ def print_direction(from1, from2, to1, to2): def startup(): + # Initialize the game variables and map, and print startup messages. global g, c, k, n, z, d, t, t0, t9, d0, e, e0, p, p0, s9 - global s, b9, k7, k9, devices - global q1, q2, s1, s2 + global s, b9, k7, k9, devices, q1, q2, s1, s2 - 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\n" - ) + 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)] - c = [[0, 1], [-1, 1], [-1, 0], [-1, -1], [0, -1], [1, -1], [1, 0], [1, 1], - [0, 1]] + z = [[0] * 8 for _ in range(8)] k = [[0, 0, 0], [0, 0, 0], [0, 0, 0]] n = [0, 0, 0] - z = [[0] * 8 for _ in range(8)] d = [0] * 8 - t = 100 * random.randint(20, 39) - t0 = t + t = t0 = 100 * random.randint(20, 39) t9 = random.randint(25, 34) d0 = 0 - e = 3000 - e0 = e - p = 10 - p0 = p - s9 = 200 + e = e0 = 3000 + p = p0 = 10 s = 0 - b9 = 2 - k9 = 0 + k9, b9, s9 = 0, 2, 200 + + c = [[0, 1], [-1, 1], [-1, 0], [-1, -1], [0, -1], [1, -1], + [1, 0], [1, 1], [0, 1]] devices = ['WARP ENGINES', 'SHORT RANGE SENSORS', 'LONG RANGE SENSORS', 'PHASER CONTROL', 'PHOTON TUBES', 'DAMAGE CONTROL', 'SHIELD CONTROL', 'LIBRARY-COMPUTER'] # initialize Enterprise's position - q1 = fnr() - q2 = fnr() - s1 = fnr() - s2 = fnr() + q1, q2 = fnr(), fnr() + s1, s2 = fnr(), fnr() # initialize contents of galaxy for i in range(8): @@ -758,64 +775,59 @@ def startup(): if k9 > t9: t9 = k9 + 1 + if b9 == 0: if g[q1][q2] < 200: g[q1][q2] += 120 k9 += 1 b9 = 1 g[q1][q2] += 10 - q1 = fnr() - q2 = fnr() + q1, q2 = fnr(), fnr() k7 = k9 - 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 {'IS' if b9 == 1 else 'ARE'}\n" - f" {b9} STARBASE{'' if b9 == 1 else 'S'} IN THE GALAXY FOR RESUPPLYING YOUR SHIP.\n" - ) + + 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(): - global z4, z5, k3, b3, s3, g5, d4, qs, b4, b5 + # Enter a new quadrant: populate map and print a short range scan. + global k3, b3, s3, g5, d4, b4, b5, z, g, q1, q2, t, t0, k, qs, s1, s2, s9 - z4 = q1 - z5 = q2 - k3 = 0 - b3 = 0 - s3 = 0 + k3 = b3 = s3 = 0 g5 = 0 d4 = 0.5 * random.random() z[q1][q2] = g[q1][q2] if 0 <= q1 < 8 and 0 <= q2 < 8: - g2s = quadrant_name(z4, z5, False) + g2s = quadrant_name(q1, q2, False) if t == t0: - print('\nYOUR MISSION BEGINS WITH YOUR STARSHIP LOCATED') + print("\nYOUR MISSION BEGINS WITH YOUR STARSHIP LOCATED") print(f"IN THE GALACTIC QUADRANT, '{g2s}'.\n") else: - print(f'\nNOW ENTERING {g2s} QUADRANT . . .\n') + print(f"\nNOW ENTERING {g2s} QUADRANT . . .\n") - k3 = int(g[q1][q2] * 0.01) - b3 = int(g[q1][q2] * 0.1) - 10 * k3 + 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') - for i in range(3): - k[i][0] = k[i][1] = 0 + if k3 != 0: + print("COMBAT AREA CONDITION RED") + if s <= 200: + print(" SHIELDS DANGEROUSLY LOW") for i in range(3): - k[i][2] = 0 + k[i] = [0, 0, 0] qs = ' ' * 192 - z1 = s1 - z2 = s2 - insert_marker(z1, z2, '<*>') + # build quadrant string + insert_marker(s1, s2, '<*>') if k3 > 0: for i in range(k3): r1, r2 = find_empty_place() @@ -833,31 +845,31 @@ def new_quadrant(): def end_game(won=False, quit=False, enterprise_killed=False): - global k7, t, t0 + # Handle end-of-game situations. + global k7, t, t0, b9 if won: - print("CONGRULATION, CAPTAIN! THE LAST KLINGON BATTLE CRUISER") + print("CONGRATULATIONS, CAPTAIN! THE LAST KLINGON BATTLE CRUISER") print("MENACING THE FEDERATION HAS BEEN DESTROYED.\n") - print(f"YOUR EFFICIENCY RATING IS {1000 * (k7 / (t - t0))**2}") + 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. THEN FEDERATION WILL BE CONQUERED') + print("\nTHE ENTERPRISE HAS BEEN DESTROYED. THE FEDERATION " + "WILL BE CONQUERED.") + print(f"IT IS STARDATE {round(t, 1)}") - print(f'IT IS STARDATE {t}') - - print(f'THERE WERE {k9} KLINGON BATTLE CRUISERS LEFT AT') - print(f'THE END OF YOUR MISSION.\n\n') + 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,') - astr = input("LET HIM STEP FORWARD AND ENTER 'AYE' ") - if astr == 'AYE' or astr == 'aye': - return - 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() != 'AYE': + exit() # ------------------------------------------------------------------------- @@ -869,15 +881,14 @@ while True: startup() new_quadrant() - restart = False - - while not restart: + while True: if s + e <= 10 or (e <= 10 and d[6] != 0): - print("\n** FATAL ERROR ** YOU'VE JUST STRANDED YOUR SHIP IN SPACE") - print("YOU HAVE INSUFFICIENT MANEUVERING ENERGY, AND SHIELD CONTROL") - print("IS PRESENTLY INCAPABLE OF CROSS-CIRCUITING TO ENGINE ROOM!!") + 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() + command = input('COMMAND? ').upper() if command == 'NAV': navigation() @@ -896,18 +907,16 @@ while True: elif command == 'COM': computer() elif command == 'XXX': - end_game(quit=True) # only returns on restart - restart = True + end_game(quit=True) + break 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' - ) + 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")