def execute_turn_events():
print "Executing turn events for turn", fo.current_turn()
# creating fields
systems = fo.get_systems()
radius = fo.get_universe_width() / 2.0
if random() < max(0.0003 * radius, 0.03):
if random() < 0.4:
field_type = "FLD_MOLECULAR_CLOUD"
size = 5.0
else:
field_type = "FLD_ION_STORM"
size = 5.0
x = y = radius
dist_from_center = 0.0
while (dist_from_center < radius) or any(
hypot(fo.get_x(s) - x,
fo.get_y(s) - y) < 50.0 for s in systems):
angle = random() * 2.0 * pi
dist_from_center = radius + uniform(
min(max(radius * 0.02, 10), 50.0),
min(max(radius * 0.05, 20), 100.0))
x = radius + (dist_from_center * sin(angle))
y = radius + (dist_from_center * cos(angle))
print "...creating new", field_type, "field, at distance", dist_from_center, "from center"
if fo.create_field(field_type, x, y, size) == fo.invalid_object():
print >> sys.stderr, "Turn events: couldn't create new field"
return True
def execute_turn_events():
print "Executing turn events for turn", fo.current_turn()
# creating fields
systems = fo.get_systems()
radius = fo.get_universe_width() / 2.0
if random() < max(0.0003 * radius, 0.03):
if random() < 0.4:
field_type = "FLD_MOLECULAR_CLOUD"
size = 5.0
else:
field_type = "FLD_ION_STORM"
size = 5.0
x = y = radius
dist_from_center = 0.0
while (dist_from_center < radius) or any(hypot(fo.get_x(s) - x, fo.get_y(s) - y) < 50.0 for s in systems):
angle = random() * 2.0 * pi
dist_from_center = radius + uniform(min(max(radius * 0.02, 10), 50.0), min(max(radius * 0.05, 20), 100.0))
x = radius + (dist_from_center * sin(angle))
y = radius + (dist_from_center * cos(angle))
print "...creating new", field_type, "field, at distance", dist_from_center, "from center"
if fo.create_field(field_type, x, y, size) == fo.invalid_object():
print >> sys.stderr, "Turn events: couldn't create new field"
return True
def execute_turn_events():
print "Executing turn events for turn", fo.current_turn()
# creating fields
systems = fo.get_systems()
radius = fo.get_universe_width() / 2.0
if random() < max(0.0003 * radius, 0.03):
if random() < 0.4:
field_type = "FLD_MOLECULAR_CLOUD"
size = 5.0
else:
field_type = "FLD_ION_STORM"
size = 5.0
x = y = radius
dist_from_center = 0.0
while (dist_from_center < radius) or any(hypot(fo.get_x(s) - x, fo.get_y(s) - y) < 50.0 for s in systems):
angle = random() * 2.0 * pi
dist_from_center = radius + uniform(min(max(radius * 0.02, 10), 50.0), min(max(radius * 0.05, 20), 100.0))
x = radius + (dist_from_center * sin(angle))
y = radius + (dist_from_center * cos(angle))
print "...creating new", field_type, "field, at distance", dist_from_center, "from center"
if fo.create_field(field_type, x, y, size) == fo.invalid_object():
print >> sys.stderr, "Turn events: couldn't create new field"
# creating monsters
gsd = fo.get_galaxy_setup_data()
monster_freq = MONSTER_FREQUENCY[gsd.monsterFrequency]
# monster freq ranges from 30 (= one monster per 30 systems) to 3 (= one monster per 3 systems)
# (example: low monsters and 150 Systems results in 150 / 30 * 0.001 = 0.005)
if monster_freq > 0 and random() < len(systems) / monster_freq * 0.001:
#only spawn Krill at the moment, other monsters can follow in the future
if random() < 1:
monster_type = "SM_KRILL_1"
else:
monster_type = "SM_FLOATER"
# search for systems without planets or fleets
candidates = [s for s in systems if len(fo.sys_get_planets(s)) <= 0 and len(fo.sys_get_fleets(s)) <= 0]
if not candidates:
print >> sys.stderr, "Turn events: unable to find system for monster spawn"
else:
system = choice(candidates)
print "...creating new", monster_type, "at", fo.get_name(system)
# create monster fleet
monster_fleet = fo.create_monster_fleet(system)
# if fleet creation fails, report an error
if monster_fleet == fo.invalid_object():
print >> sys.stderr, "Turn events: unable to create new monster fleet"
else:
# create monster, if creation fails, report an error
monster = fo.create_monster(monster_type, monster_fleet)
if monster == fo.invalid_object():
print >> sys.stderr, "Turn events: unable to create monster in fleet"
return True
def execute_turn_events():
print "Executing turn events for turn", fo.current_turn()
# creating fields
systems = fo.get_systems()
radius = fo.get_universe_width() / 2.0
if random() < max(0.0003 * radius, 0.03):
if random() < 0.4:
field_type = "FLD_MOLECULAR_CLOUD"
size = 5.0
else:
field_type = "FLD_ION_STORM"
size = 5.0
x = y = radius
dist_from_center = 0.0
while (dist_from_center < radius) or any(
hypot(fo.get_x(s) - x,
fo.get_y(s) - y) < 50.0 for s in systems):
angle = random() * 2.0 * pi
dist_from_center = radius + uniform(
min(max(radius * 0.02, 10), 50.0),
min(max(radius * 0.05, 20), 100.0))
x = radius + (dist_from_center * sin(angle))
y = radius + (dist_from_center * cos(angle))
print "...creating new", field_type, "field, at distance", dist_from_center, "from center"
if fo.create_field(field_type, x, y, size) == fo.invalid_object():
print >> sys.stderr, "Turn events: couldn't create new field"
# creating monsters
gsd = fo.get_galaxy_setup_data()
monster_freq = MONSTER_FREQUENCY[gsd.monsterFrequency]
# monster freq ranges from 1/30 (= one monster per 30 systems) to 1/3 (= one monster per 3 systems)
# (example: low monsters and 150 Systems results in 150 / 30 * 0.01 = 0.05)
if monster_freq > 0 and random() < len(systems) * monster_freq * 0.01:
#only spawn Krill at the moment, other monsters can follow in the future
if random() < 1:
monster_type = "SM_KRILL_1"
else:
monster_type = "SM_FLOATER"
# search for systems without planets or fleets
candidates = [
s for s in systems if len(fo.sys_get_planets(s)) <= 0
and len(fo.sys_get_fleets(s)) <= 0
]
if not candidates:
print >> sys.stderr, "Turn events: unable to find system for monster spawn"
else:
system = choice(candidates)
print "...creating new", monster_type, "at", fo.get_name(system)
# create monster fleet
monster_fleet = fo.create_monster_fleet(system)
# if fleet creation fails, report an error
if monster_fleet == fo.invalid_object():
print >> sys.stderr, "Turn events: unable to create new monster fleet"
else:
# create monster, if creation fails, report an error
monster = fo.create_monster(monster_type, monster_fleet)
if monster == fo.invalid_object():
print >> sys.stderr, "Turn events: unable to create monster in fleet"
return True
def execute_turn_events():
print("Executing turn events for turn", fo.current_turn())
# creating fields
systems = fo.get_systems()
radius = fo.get_universe_width() / 2.0
field_types = [
"FLD_MOLECULAR_CLOUD", "FLD_ION_STORM", "FLD_NANITE_SWARM",
"FLD_METEOR_BLIZZARD", "FLD_VOID_RIFT"
]
if random() < max(0.00015 * radius, 0.03):
field_type = choice(field_types)
size = 5.0
x = y = radius
dist_from_center = uniform(0.35, 1.0) * radius
angle = random() * 2.0 * pi
x = radius + (dist_from_center * sin(angle))
y = radius + (dist_from_center * cos(angle))
print("...creating new", field_type, "field, at distance",
dist_from_center, "from center")
if fo.create_field(field_type, x, y, size) == fo.invalid_object():
print("Turn events: couldn't create new field", file=sys.stderr)
# creating monsters
gsd = fo.get_galaxy_setup_data()
monster_freq = MONSTER_FREQUENCY[gsd.monsterFrequency]
# monster freq ranges from 1/30 (= one monster per 30 systems) to 1/3 (= one monster per 3 systems)
# (example: low monsters and 150 Systems results in 150 / 30 * 0.01 = 0.05)
if monster_freq > 0 and random() < len(systems) * monster_freq * 0.01:
# only spawn Krill at the moment, other monsters can follow in the future
if random() < 1:
monster_type = "SM_KRILL_1"
else:
monster_type = "SM_FLOATER"
# search for systems without planets or fleets
candidates = [
s for s in systems if len(fo.sys_get_planets(s)) <= 0
and len(fo.sys_get_fleets(s)) <= 0
]
if not candidates:
print("Turn events: unable to find system for monster spawn",
file=sys.stderr)
else:
system = choice(candidates)
print("...creating new", monster_type, "at", fo.get_name(system))
# create monster fleet
monster_fleet = fo.create_monster_fleet(system)
# if fleet creation fails, report an error
if monster_fleet == fo.invalid_object():
print("Turn events: unable to create new monster fleet",
file=sys.stderr)
else:
# create monster, if creation fails, report an error
monster = fo.create_monster(monster_type, monster_fleet)
if monster == fo.invalid_object():
print("Turn events: unable to create monster in fleet",
file=sys.stderr)
return True