def get_color(self, b):
test.record()
outputs = [b.outputs[0,0] + 0, b.outputs[0,1] + 0]
for i in range(2):
outputs[i] = (outputs[i] - self.min[i]) * self.scaling[i]
color = [outputs[0], outputs[1], outputs[1] - outputs[0]]
for i, x in enumerate(color):
if math.isnan(x):
color[i] = 1
color = [int(50 + i * 205) for i in color]
color = [min(i, 255) for i in color]
color = [max(i, 0) for i in color]
test.record("palette")
return color
#except ValueError as e:
# print "Met a ValueError while getting color"
# test.record("palette")
# return (255, 255, 255)
def repel(self, other = None, circle = None, radius = -1, corners = 0):
prefix = "bee:update:physics:project:push:repel_loop:repel"
'''
returns the minimum displacement, if any,
required to push the other convex out.
bool circle: - tells you whether it's a circle or a polygon
int radius: - tells you the radius for collision
- if negative, use the object's own radius
other: - does... nothing?
bool corners: - tells you whether or not to spend extra time and
push using corners too.
'''
'''the basic way that this works is you
look at each potential separating axis
find the shadow of both guys on each one
and push the guy out out as quickly as possible.'''
test.add_sticky(prefix+":normals")
'''set the normals to consider'''
my_ns = [k for k in self.shadowDict]
other_ns = []
if radius < 0 and circle:
radius = circle.radius
if circle:
if corners:
for p in self.points:
if self.use[p]:
disp = (circle.xy - p).astype(float)
dist = linalg.norm(disp)
if dist == 0:
continue
disp /= dist
other_ns.append(disp)
else:
other_ns = [k for k in other.shadowDict]
ns_to_consider = my_ns + other_ns
#ns_to_consider = no_parallels2(my_ns + other_ns, vector_slope)
test.remove_sticky(prefix+":normals")
test.add_sticky(prefix+":displacements")
'''find all possible displacements'''
disps = []
for n in ns_to_consider:
if n in self.shadowDict:
my_sh = self.shadowDict[n]
else:
my_sh = find_shadows([n], self.points)[n]
my_l, my_r = my_sh
if circle:
center_sh = find_shadows(([n]), [circle.xy])[n]
other_sh = (center_sh[0] - radius, center_sh[0] + radius)
else:
if n in other_sh:
other_sh = self.shadowDict[n]
else:
other_sh = find_shadows([n], other.points)[n]
other_l, other_r = other_sh
if my_r <= other_l or my_l >= other_r:
test.remove_sticky(prefix+":displacements")
return matrix([0,0])
else:
move_it_left = my_l - other_r
move_it_right = my_r - other_l
if move_it_right < abs(move_it_left):
disps.append((n, move_it_right))
else:
disps.append((n, move_it_left))
test.remove_sticky(prefix+":displacements")
'''pick the shortest displacement'''
disps = filter(lambda (normal, distance): abs(distance) != float('infinity'), disps)
if disps:
for n,m in disps:
push = m * n
#test.lines.append(((circle.xy[0,0], circle.xy[0,1]), ((circle.xy + push)[0,0], (circle.xy + push)[0,1])))
best_n, best_move = min(disps, key = lambda (n, m): abs(m))
#best_n = best_n / linalg.norm(best_n)
push = best_move * best_n
#test.lines.append(((circle.xy[0,0], circle.xy[0,1]), ((circle.xy + push)[0,0], (circle.xy + push)[0,1])))
direction = best_n*rotation
#if (best_n*vdir.T)[0,0] > 0:
circle.vxy = (circle.vxy * direction.T)[0,0] * direction
test.record(prefix+":shortest")
return best_move * best_n
else:
"no collision 2"
x = matrix([0,0])
test.record(prefix+":no collision")
return x
def update(self, dt, key_states, key_presses, allow_randomize=1):
'''physics, thinking, moving'''
try:
self.lifetime += 1
except:
print "temporary transition error"
if self.skipupdate:
self.skipupdate = 0
return
'''This is where you cruise without physics and without thinking'''
if not self.slow:
self.dt = dt
self.xy += self.vxy * self.dt
return
test.add_sticky('bee:update')
test.add_sticky("bee:update:start")
self.prevpos = self.xy * 1
fullname = self.name + str(self.ancestry)
super(Bee, self).update(dt, key_states, key_presses)
test.remove_sticky("bee:update:start")
test.add_sticky("bee:update:health,birth,eating")
self.timesincelastshot += dt
# for b in self.bullets:
# b.update(dt, key_states, key_presses)
if not self.room.stasis:
self.update_health(dt)
self.considergivingbirth()
self.friends *= 0.9
self.friendsrelpos *= 0.9
for p in self.objectsinview:
if p.kind == "bullet":
p.hit_bee(self)
elif p.name != self.name and settings[SWARMING_PEER_PRESSURE] and p.kind == "bee":
othervel = p.vxy - self.vxy
self.friendsrelpos = p.xy - self.xy
self.vxy += settings[SWARMING_PEER_PRESSURE] * othervel
elif p.kind == "player" and not self.room.stasis:
self.eat_player()
self.timesincelastthought += dt
test.remove_sticky("bee:update:health,birth,eating")
test.add_sticky("bee:update:thinking")
if self.timesincelastthought > self.responsetime:
test.add_sticky("bee:update:thinking:inputs")
test.add_sticky("bee:update:thinking:inputs:collection")
test.record()
self.timesincelastthought -= self.responsetime
infoz = None
LIDAR = 1
POINTCHECK = 2
TILES = 3
vision_mode = LIDAR
if vision_mode == LIDAR:
c = int(self.xy[0, 0] / bw)
r = int(self.xy[0, 1] / bw)
infoz = self.room.visiondirectory[
c % graphics.world_tw][r % graphics.world_th]
self.wallproximities = infoz
test.record("bee:update:thinking:inputs:vision")
elif vision_mode == POINTCHECK:
test.record()
a = int(self.xy[0, 0])
b = int(self.xy[0, 1])
infoz = [self.room.pointcheck(
(a + eye_x, b + eye_y)) for eye_x, eye_y in self.eyepoints]
test.record("bee:update:thinking:inputs:pointchecks")
else:
infoz = []
test.record()
a = int(self.xy[0, 0])
b = int(self.xy[0, 1])
points_to_check = ((a + eye_x, b + eye_y)
for eye_x, eye_y in self.eyepoints)
self.see_bullet = False
for i, (x, y) in enumerate(points_to_check):
c = int(x / bw)
r = int(y / bh)
objects = self.room.object_directory[
c % graphics.world_tw][r % graphics.world_th]
g = i % 2
if g == 0:
infoz.append(
any(other.kind == "bullet" for other in objects))
if infoz[-1]:
self.see_bullet = True
else:
infoz.append(self.room.pointcheck((x, y)))
# walls
test.record("bee:update:thinking:inputs:tiles")
# go = time.time()
# t = [math.sin(go), math.sin(go/2.3), math.sin(go)%1.5]
test.remove_sticky("bee:update:thinking:inputs:collection")
test.add_sticky("bee:update:thinking:inputs:actually wraparound")
# center = matrix([graphics.world_w/2, graphics.world_h/2])
if STALK_CAMERA:
self.stalkcamera()
disp_to_p = self.player.xy - self.xy
if settings[WRAPAROUND_TRACKING]:
disp_to_p += graphics.world_center
disp_to_p[0, 0] %= graphics.world_w
disp_to_p[0, 1] %= graphics.world_h
disp_to_p -= graphics.world_center
test.remove_sticky(
"bee:update:thinking:inputs:actually wraparound")
test.add_sticky("bee:update:thinking:inputs:player offset")
player_sight_scale = 0.02
disp_to_p *= player_sight_scale
dist = linalg.norm(disp_to_p)
sharpness = 1
radius = 2
if dist > 0:
disp_to_p *= settings[SENSITIVITY_TO_PLAYER] / \
(dist * (1 + 2 ** (sharpness * (dist - radius))))
# tweaked_disp *= self.sensitivity
# dispx, dispy = tuple(array(disp_to_p)[0])
# BE REALLY CAREFUL WHEN DIVIDING THIS BY STUFF THEY ARE INTEGERS
test.remove_sticky("bee:update:thinking:inputs:player offset")
test.add_sticky(
"bee:update:thinking:inputs:packaging and nodetags")
disps = [disp_to_p[0, 0], disp_to_p[0, 1]]
# dvx = self.player.vxy[0, 0] - self.vxy[0, 0]
# dvy = self.player.vxy[0, 1] - self.vxy[0, 1]
inputs = disps + [1 - distance for distance in infoz] + [self.health / settings[
MAX_HEALTH]] + [expit(self.vxy[0, 0]), expit(self.vxy[0, 1])] # 1
# self.brain.nodetags[(0, 0)] = "verbatim", "player x"
# self.brain.nodetags[(0, 1)] = "verbatim", "player y"
# i = 2
# for vector in self.eyepoints:
# self.brain.nodetags[(0,i)] = "vector", vector
# i+=1
# self.brain.nodetags[(0,i)] = "verbatim", "health"
# i+=1
# self.brain.nodetags[(0,i)] = "verbatim", "x velocity"
# i+=1
# self.brain.nodetags[(0,i)] = "verbatim", "y velocity"
# i+=1
test.remove_sticky(
"bee:update:thinking:inputs:packaging and nodetags")
# inputs += [self.friends[0, 0], self.friends[0, 1],
# self.friendsrelpos[0, 0], self.friendsrelpos[0, 1]] # 4
test.remove_sticky("bee:update:thinking:inputs")
test.add_sticky("bee:update:thinking:compute")
# Note: output is now a matrix!
# print inputs
# self.brain.set_inputs(matrix(inputs))
self.brain.compute(inputs)
outputs = matrix([0.0, 0.0])
self.brain.get_outputs(outputs)
self.outputs = outputs[:, :] + 0
# self.outputs = outputs = self.brain.compute(inputs)
test.remove_sticky("bee:update:thinking:compute")
test.add_sticky("bee:update:thinking:outputs")
self.up = 2 * outputs[0, 0] - 1
# down = outputs[1]
self.leftright = 2 * outputs[0, 1] - 1
# print linalg.norm(self.vxy)
self.color = self.room.painter.get_color(self)
'''self.color = [outputs[0]*3, (outputs[1] - 0.75)*4, (self.leftright + 0.7) / 2]
self.color = [int(i*255) for i in self.color]
self.color = [max(a, 0) for a in self.color]
self.color = [min(a,255) for a in self.color]'''
'''
if outputs[2] > 0 and self.timesincelastshot > 1000:
self.timesincelastshot = 0
direction = matrix([outputs[3],outputs[4]])
direction = disp_to_p
direction /= linalg.norm(direction)
b = bullet.Bullet(self, self.player, self.room, direction * outputs[2] * 2)
b.xy = self.xy + matrix([0, 0])
self.room.bullets.append(b)
self.health -= 0.05'''
test.remove_sticky("bee:update:thinking:outputs")
test.remove_sticky("bee:update:thinking")
test.add_sticky("bee:update:physics")
test.add_sticky("bee:update:physics:basicmovement")
if settings[CREATURE_MODE] == 0:
'''bees'''
self.vxy += gravity * dt
self.dvxy = self.up * jumpvel * dt + \
self.leftright * yogroundacc * dt
self.vxy += dt * self.dvxy
self.vxy *= speed_decay**dt
else:
'''fleas'''
self.vxy += 2 * gravity * dt
if self.grounded:
self.vxy[0, 0] = self.leftright * 0.3
if self.up > 0.5:
self.dvy = self.up * jumpvel * 20000
self.vxy += self.dvy
self.health -= settings[COST_OF_JUMP]
else:
self.vxy[0, 0] += self.leftright * 0.01
self.vxy *= speed_decay**dt
# if abs(self.vxy[0, 0]) > maxvelx:
# print self.vxy, "has too much horizontal"
# self.vxy[0, 0] *= maxvelx / abs(self.vxy[0, 0])
# if linalg.norm(self.vxy) > maxvel:
# self.vxy /= linalg.norm(self.vxy)
# self.vxy *= maxvel
# collision testing and further modification of position and velocity
self.grounded = 0
# num_deflections = 0
del self.normals[:]
test.remove_sticky("bee:update:physics:basicmovement")
self.project() # This will consume dt
test.add_sticky("bee:update:physics:worldwrap")
# stay in the box
self.xy[0, 0] = self.xy[0, 0] % graphics.world_w
self.xy[0, 1] = self.xy[0, 1] % graphics.world_h
test.remove_sticky("bee:update:physics:worldwrap")
test.add_sticky("bee:update:physics:teleport")
# maybe teleport back
if allow_randomize and self.room.pointcheck((int(self.xy[0, 0]), int(self.xy[0, 1]))):
if (self.lastnonwall[0, 0] < 0):
self.randomize_position()
else:
self.xy = self.lastnonwall * 1
self.health -= 0.1
self.vxy *= -1
else:
self.lastnonwall = self.xy * 1
# if linalg.norm(self.prevpos - self.xy) < 200:
# test.lines.append( ( (int(self.prevpos[0, 0]), int(self.prevpos[0, 1]) ), (int(self.xy[0, 0]), int(self.xy[0, 1]) ) ) )
c = int(self.xy[0, 0] / bw)
r = int(self.xy[0, 1] / bh)
if self.room.tiles[c][r].name == "bounce":
self.vxy[0, 1] += -0.001 * dt
test.remove_sticky("bee:update:physics:teleport")
test.remove_sticky("bee:update:physics")
self.age()
test.remove_sticky('bee:update')
def look2(room, my_x, my_y, vx, vy, dt=1.0, bw=graphics.bw, bh=graphics.bh):
'''returns ALL tiles that cover the path, even by just an edge or point.'''
# Trivial case where either vx or vy is zero
if vx == 0 or vy == 0:
for x, y in collision.find_tiles_rect(my_x, my_y, vx, vy, dt, bw, bh):
# Life
if 0 <= x < graphics.world_w / bw and 0 <= y < graphics.world_h / bh and room.object_directory[x][y]:
return (x, y), room.object_directory[x][y]
# Wall
elif 0 <= x < graphics.world_w / bw and 0 <= y < graphics.world_h / bh and room.tiles[x][y].name != 'empty':
return (x, y), -1
else:
return 0
# If the above if statement is false we may assume vx != 0 and vy != 0
# Find the starting position
x = int(math.floor(my_x / bw))
y = int(math.floor(my_y / bh))
coordlist = [] # Include everthing touching the starting point.
xstep = int(math.copysign(1, vx))
ystep = int(math.copysign(1, vy))
newtiles = []
# and 0 <= my_x <= graphics.world_w and 0 <= my_y <= graphics.world_h:
while dt >= 0 and len(newtiles) < 100:
# my_x %= graphics.world_w
# my_y %= graphics.world_h
# Set x to next
if xstep > 0:
x_to_next = (x + 1) * bw - my_x
else:
x_to_next = x * bw - my_x
# With current setting this is never going to happen, so this really is
# optional.
if vx == 0:
t_next_x = float('infinity')
print "Hey, vx isn't supposed to be zero"
else:
t_next_x = x_to_next / vx
if ystep > 0:
y_to_next = (y + 1) * bw - my_y
else:
y_to_next = y * bw - my_y
# With current setting this is never going to happen, so this really is
# optional.
if vy == 0:
t_next_y = float('infinity')
print "Hey, vy isn't supposed to be zero"
else:
t_next_y = y_to_next / vy
if t_next_x < 0 or t_next_y < 0:
print "hmm, interesting", t_next_x, t_next_y
# Comparing time
if t_next_x < t_next_y:
x += xstep
dt -= t_next_x
my_x += vx * t_next_x # This might sometimes create a nan.
my_y += vy * t_next_x
# elif t_next_x > t_next_y:
else:
y += ystep
dt -= t_next_y
my_y += vy * t_next_y
my_x += vx * t_next_y
# Life
x0 = x % (graphics.world_w / bw)
y0 = y % (graphics.world_h / bh)
x0 = int(x0)
y0 = int(y0)
if (x0, y0) in newtiles:
print "hey, this tile is already here"
break
newtiles.append((x0, y0))
#test.tiles.append((x0, y0))
if room.object_directory[x0][y0]:
return (x0, y0), room.object_directory[x0][y0]
# Wall
elif room.tiles[x0][y0].name != 'empty':
if len(newtiles) > 1:
return (x0, y0), -1
return 0
test.record('blah')
def handle_player_input(key_presses, key_ups, key_states, gameobjects):
time_gap = False
try:
r = gameobjects["room"]
p = gameobjects["player"]
c = gameobjects["camera"]
world = gameobjects["world"]
h = gameobjects["hive"]
screen = gameobjects["screen"]
except:
raise Exception("Missing gameobjects. Have following keys:", [key for key in gameobjects])
clicks.get_more_clicks()
global time_to_quit
# Handle player input
if key_ups[pygame.K_e]:
if r.bees:
# for x in r.bees + r.food + [p] + r.bullets:
# x.draw(world)
# c.draw()
# pygame.display.flip()
"""this is for picking the closest bee"""
"""minbee = r.bees[0]
for b in r.bees:
if linalg.norm(b.xy - p.xy) < linalg.norm(minbee.xy - p.xy):
minbee = b"""
minbee = random.choice(r.bees)
messages.say("Loading", down=1)
pygame.display.flip()
minbee.visualize_intelligence(world, c)
p.displaycolor = [255, 255, 255]
pygame.draw.circle(world, [0, 0, 0], array(p.xy.astype(int))[0], int(p.forcefield))
pygame.draw.circle(world, [255, 255, 255], array(p.xy.astype(int))[0], int(p.forcefield), 1)
p.draw(world)
# c.xy = minbee.xy * 1
# c.updatesight()
c.draw()
pygame.display.flip()
minbee.sample_path(world)
c.draw()
pygame.display.flip()
waitForKey(pygame.K_w)
time_gap = True
if time_to_quit:
game_progress.save_game(r)
return
test.record()
world.blit(r.background, (0, 0))
test.record("blitting background")
togglers = {pygame.K_r: SHOW_EYES, pygame.K_h: SHOW_HELP, pygame.K_t: GENERATE_RANDOM_MAP, pygame.K_n: SHOW_NAMES}
for key, variable in togglers.iteritems():
if key_ups[key]:
settings[variable] = not settings[variable]
if key_ups[pygame.K_m]:
print framecount
r.madness += 1
r.madness %= 5
for b in r.bees:
b.madness = r.madness
if key_ups[pygame.K_a]:
if key_states[pygame.K_UP]:
p.shoot("up")
else:
p.shoot()
if key_ups[pygame.K_x]:
r.stasis = not r.stasis
if key_ups[pygame.K_z]:
print pygame.mouse.get_pos()
# gameobjects["info_panel"].handle_event(pygame.mouse.get_pos(), "mouseover")
"""All mouse click stuff"""
if clicks.mouseups[0]:
event_taken = False
if gameobjects["info_panel"].rect.collidepoint(pygame.mouse.get_pos()):
mx, my = pygame.mouse.get_pos()
x, y = mx - gameobjects["info_panel"].rect.x, my - gameobjects["info_panel"].rect.y
event_taken = gameobjects["info_panel"].handle_event((x, y), "click")
if not event_taken:
for b in r.bees:
b.skipupdate = True
options = [
"Move to another map",
"Random 60 x 25",
"Random 35 x 35",
"Random 60 x 60",
"Examine bee",
"Save bees",
"Extinction",
"Load bees",
"Delete bees",
"Tweak variables",
"Modify map",
"View Shortcuts",
"quit",
]
choice = getChoiceUnbounded("select option", options, allowcancel=1)
if choice != "cancel":
if choice == "quit":
time_to_quit = True
elif choice in ["Move to another map", "Random 60 x 25", "Random 35 x 35", "Random 60 x 60"]:
level = choice
if choice == "Move to another map":
level = enteredlevel()
if level == "quit":
time_to_quit = True
if level != "cancel":
print "MAGIC LEVEL MOVE WHOA"
gameobjects2 = {}
gameobjects2["room"] = r
gameobjects2["player"] = p
gameobjects2["hive"] = h
gameobjects2["camera"] = c
gameobjects2["world"] = world
gameobjects2["screen"] = screen
move_to_level(level, gameobjects2)
try:
r = gameobjects2["room"]
p = gameobjects2["player"]
c = gameobjects2["camera"]
world = gameobjects2["world"]
h = gameobjects2["hive"]
screen = gameobjects2["screen"]
except:
raise Exception("Missing gameobjects. Have following keys:", [key for key in gameobjects])
elif choice == "Extinction":
if getChoiceUnbounded("Kill all bees?", ["no", "yes"], allowcancel=1) == "yes":
for b in r.bees:
b.health = -20
for b in r.bees + r.deadbees:
b.dead = 2
t.data = []
elif choice == "Examine bee":
"""this thing lets you examine the closest bee to you"""
if r.bees:
minbee = r.bees[0]
for b in r.bees:
if linalg.norm(b.xy - p.xy) < linalg.norm(minbee.xy - p.xy):
minbee = b
for x in r.bees + r.food + [p] + r.bullets:
x.draw(world)
c.draw()
pygame.display.flip()
while not time_to_quit: # quit should work fine here
choice = getChoiceUnbounded(
"Examining nearest bee...what feature?",
["Neural Network", "Movement"],
allowcancel=True,
)
if choice == "Neural Network":
command = minbee.show_brain(world)
if command:
return
elif choice == "Movement":
c.draw()
messages.say("Loading", down=1)
pygame.display.flip()
minbee.visualize_intelligence(world, c)
minbee.sample_path(world)
c.draw()
pygame.display.flip()
elif choice == "cancel":
done = 1
break
elif choice == "quit":
time_to_quit = True
elif choice == "Save bees":
beemap = {}
beenames = []
for b in r.bees:
label = b.firstname + " " + b.name
beemap[label] = b
beenames.append(label)
choice = getChoiceUnbounded("Pick a bee", beenames, allowcancel=True)
if choice == "quit":
time_to_quit = True
elif choice != "cancel":
b = beemap[choice]
# messages.colorBackground()
# messages.say("Pick a new name for the bee", down = 4)
rename = b.name
"""loop is for error checks"""
while not time_to_quit:
rename = getString(string=b.name, message="Pick a new name for the bee")
# quit
if rename == -1:
break
# cancel
elif rename == 0:
break
elif any(specimen[0] == rename for specimen in h.specimens):
messages.colorBackground()
messages.say("Name taken. Pick a new name for the bee", down=4)
continue
else:
b.name = rename
break
h.save_bee(b)
h.savedata()
elif choice == "Load bees":
loadedbeenames = []
for b in h.specimens:
loadedbeenames.append(b[0])
loadedbeenames.append("done")
loadedbeenames = loadedbeenames[-1::-1]
i = 0
while not time_to_quit:
name = getChoiceUnbounded("Loaded " + str(i) + " bees", loadedbeenames, allowcancel=True)
if name in ["done", "quit", "cancel"]:
break
else:
i += 1
b = h.make_bee(name, r, p)
r.bees.append(b)
b.flash = 50
b.xy[0, 0] = p.xy[0, 0]
elif choice == "Delete bees":
i = 0
message = "Choose a bee to delete"
while not time_to_quit:
indexfromname = {}
loadedbeenames = []
for index, b in enumerate(h.specimens):
name = b[0]
loadedbeenames.append(name)
indexfromname[name] = index
loadedbeenames.append("done")
loadedbeenames = loadedbeenames[-1::-1]
if i:
message = "Deleted " + str(i) + " bees"
name = getChoiceUnbounded(message, loadedbeenames, allowcancel=True)
if name in ["quit", "done", "cancel"]:
break
else:
confirm = getChoiceUnbounded("Delete %s?" % name, ["no", "yes"], allowcancel=True)
if confirm != "yes":
continue
i += 1
indextoremove = indexfromname[name]
h.specimens = h.specimens[:indextoremove] + h.specimens[(indextoremove + 1) :]
elif choice == "Tweak variables":
families = game_settings.families
"""picking kinds of variables"""
while not time_to_quit:
family = getChoiceUnbounded("What kind of variable?", families.keys(), allowcancel=1)
if family == "cancel":
break
"""picking variable"""
while not time_to_quit:
"""takes "name: value" string to "name"."""
label_to_key = {key + ": " + str(settings[key]): key for key in families[family]}
"""this is a bunch of informative labels"""
options = [x for x in sorted(label_to_key.keys())]
toChange = getChoiceUnbounded("Pick a variable to modify", options, allowcancel=1)
if toChange == "cancel":
break
toChange = label_to_key[toChange]
if toChange in want_bools:
settings[toChange] = not settings[toChange]
continue
elif toChange in want_ints and toChange in max_val and toChange in min_val:
settings[toChange] += 1
if settings[toChange] > max_val[toChange]:
settings[toChange] = min_val[toChange]
continue
else:
"""we have the name of the variable we want to change now"""
usedindex = 0
for i, entry in enumerate(options):
if entry == toChange:
usedindex = i
# messages.colorBackground()
# messages.say("Pick a new value", down = 4)
allowed_keys = range(pygame.K_0, pygame.K_9 + 1)
allowed_keys += [pygame.K_PERIOD]
allowed_keys += [pygame.K_e]
allowed_keys += [pygame.K_MINUS]
"""loop is for error checking"""
while not time_to_quit:
# message = messages.smallfont.render("Set new value for '%s'" % toChange, 1, [255, 255, 255])
# pygame.display.get_surface().blit(message, (600, 15 * (usedindex + 3)))
m = "Set new value for '%s'" % toChange
position = pygame.Rect(0, 0, 290, 30)
# position.x = 600 #Leaning right
position.centerx = graphics.screen_w / 2
# position.y = 15 * (usedindex + 4.3)
# Leaning up
position.centery = graphics.screen_h / 2
out = getString(allowed_keys, str(settings[toChange]), textpos=position, message=m)
# out = getString(allowed_keys, str(settings[toChange]))
# quit
if out == -1:
break
# cancel
elif out == 0:
break
try:
val = 0
if "." in out:
val = float(out)
else:
val = int(out)
problems = problem_with_setting(toChange, val)
if problems:
messages.colorBackground()
messages.say(problems, down=4)
continue
settings[toChange] = val
break
except:
messages.colorBackground()
messages.say("Error. Pick a new value", down=4)
save_settings()
# for key, value in settings.iteritems():
# print key + ":", str(value)
if family == "quit" or time_to_quit:
time_to_quit = True
break
elif choice == "Modify map":
messages.colorBackground()
messages.say("This is where I would modify the map", 500)
elif choice == "View Shortcuts":
messages.colorBackground()
messagecount = 2
if settings[SHOW_EYES]:
messagecount = messages.say("[r]: Hide eyes", down=messagecount)
else:
messagecount = messages.say("[r]: Show eyes", down=messagecount)
if r.madness:
messagecount = messages.say("[m]: Don't draw trails", down=messagecount)
else:
messagecount = messages.say("[m]: Draw trails", down=messagecount)
if settings[GENERATE_RANDOM_MAP]:
messagecount = messages.say("[t]: Don't randomize maps when loading", down=messagecount)
else:
messagecount = messages.say("[t]: Randomize maps when loading", down=messagecount)
if r.stasis:
messagecount = messages.say("[a]: Resume deaths and births", down=messagecount)
else:
messagecount = messages.say("[a]: Pause deaths and births", down=messagecount)
messagecount = messages.say("[e]: Examine a random bee", down=messagecount)
messagecount = messages.say("Click anywhere to continue", down=messagecount)
waitForEnter(hidemessage=1)
if time_to_quit:
print "Saving game very rapidly, whee"
game_progress.save_game(r)
return
screen.fill(graphics.background)
# This is to trick the computer into thinking no time has passed
time_gap = True
gameobjects["player"] = p
gameobjects["room"] = r
gameobjects["world"] = world
gameobjects["camera"] = c
gameobjects["screen"] = screen
gameobjects["hive"] = h
return time_gap
