def generate( self, game ):
### systems ###
for s in xrange( self.nSystems ):
if s == 0:
## first sun
pos = ( randint(-1*universeWidth+self.distBetweenSuns, universeWidth-self.distBetweenSuns),
randint(-1*universeHeight+self.distBetweenSuns, universeHeight-self.distBetweenSuns) )
else:
## others
## find another spot
pos, orbitable = self.getPosition( self.suns, self.distBetweenSuns, self.distBetweenSunsMod, self.suns, self.distBetweenSuns-self.distBetweenSunsMod, self.distBetweenSunsMod/2 )
sun = Sun( game.stats.S_SOL, pos[0], pos[1] )
self.suns.append( sun )
game.astres.append( sun )
### planets ###
for p in xrange( self.nPlanets ):
pos, sun = self.getPosition( self.suns, self.planetDistFromSun, self.planetDistFromSunMod, self.planets, self.minDistBetweenPlanets, self.minDistBetweenPlanets )
planet = Planet( choice( game.stats.planets ), pos[0], pos[1] )
self.planets.append( planet )
game.astres.append( planet )
### asteroids fields ###
for af in xrange( self.nAsteroidFields ):
if randint( 0, 4 ) == 0:
## around planet
orbited = choice( self.planets )
radius = orbited.stats.radius*2.5
radiusMod = orbited.stats.radius/3
count = 20
minAngle = 0
maxAngle = 2*pi
else:
## around a sun / in a system
orbited = choice( self.suns )
radius = randint( self.planetDistFromSun-self.planetDistFromSunMod,
self.planetDistFromSun+self.planetDistFromSunMod )
radiusMod = randint( 100, 300 )
size = randint( 10, 70 ) # %!
count = size*3
minAngle = random()*2*pi
maxAngle = minAngle + 2*pi*size/100
self.fillAsteroidField( game, orbited, radius, radiusMod, count, minAngle, maxAngle )
game.astres = self.planets + self.suns
def __init__(self, game):
Scenario.__init__(self, game)
self.harvestersAtSpawn = 4
self.wantedBadGuys = 10
self.sol = Sun(game.stats.S_SOL, 0, 0)
self.mercury = Planet(game.stats.P_MERCURY, -4100, 1400) # 4332
self.venus = Planet(game.stats.P_VENUS, 5000, 2200) # 5462
self.earth = Planet(game.stats.P_EARTH, -3100, 6700) # 7382
self.mars = Planet(game.stats.P_MARS_1, -7800, -2200) # 8104
self.moon = Planet(game.stats.P_MOON, -3900, 6400)
self.jupiter = Planet(game.stats.P_JUPITER, -12000, -4800) # 12924
self.saturn = Planet(game.stats.P_SATURN, 13000, 2500) # 13238
self.neptune = Planet(game.stats.P_NEPTUNE, 15000, 7000) # 16552
self.moon.zp = -50
self.moon.yi = 0.1
self.moon.orbiting = self.earth
self.blackHole = BlackHole(game.stats.BH_0, 10000, -10000)
for i in xrange(10): # civilians around self.earth
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
for i in range(60): # asteroids between self.saturn and self.neptune
dist = 15000
angle = (1 - 2 * random()) * pi / 10 + pi / 7
asteroid = Asteroid(game, self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle), 300)
game.harvestables.append(asteroid)
for i in range(50): # asteroids outer self.mars
dist = 9000
angle = (1 - 2 * random()) * pi / 8 + pi * 9 / 8 # 2*random()*pi #
asteroid = Asteroid(game, self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle), 200)
game.harvestables.append(asteroid)
game.astres = [
self.sol, self.mercury, self.venus, self.earth, self.moon,
self.mars, self.jupiter, self.saturn, self.neptune, self.moon,
self.blackHole
]
for i in xrange(self.wantedBadGuys):
self.addRandomNpc(game)
def __init__(self, game, steps=None, name=None, description=None, year=0):
stats = Stats()
# stats.R_HUMAN.turrets = [ stats.T_SOLAR_0 ]
# stats.R_HUMAN.missiles = []
# stats.R_HUMAN.ships = []
stats.PlayableShips = {}
steps = []
for i in xrange(8):
steps.append(
Step(goal=lambda self, game: not filter(
lambda ship: ship.alive, self.ennemyShips),
onBegin=lambda self, game, stepNbr=i + 1: self.
stepFunction(game, stepNbr),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[(1, "Clear the area.")]))
Scenario.__init__(self, game, steps=steps, stats=stats)
self.sol = Sun(game.stats.S_SOL, 4000, 0)
for i in range(75): # asteroids
asteroid = Asteroid(game, -2000, 0, 800)
game.harvestables.append(asteroid)
game.astres = [self.sol]
self.player = None
self.startingPoint = (-1000, 0)
self.ennemyPosition = (-2000, 0)
self.ennemy = Faction(game.stats.R_EXTRA, "Unknown")
game.addPlayer(self.ennemy)
self.infestedAsteroid = Asteroid(game, self.ennemyPosition[0],
self.ennemyPosition[1], 0)
game.harvestables.append(self.infestedAsteroid)
self.ennemyShips = []
def __init__(self, game):
Scenario.__init__(self, game)
self.harvestersAtSpawn = 4
self.wantedBadGuys = 5
sol = Sun(game.stats.S_SOL, 0, 0)
mercury = Planet(game.stats.P_MERCURY, -4100, 1400)
venus = Planet(game.stats.P_VENUS, 5000, 2200)
self.earth = Planet(game.stats.P_EARTH, -3100, 6700)
self.mars = Planet(game.stats.P_MARS, -7800, -2200)
moon = Planet(game.stats.P_MOON, -3900, 6400)
jupiter = Planet(game.stats.P_JUPITER, -12000, -4800)
saturn = Planet(game.stats.P_SATURN, 13000, 2500)
neptune = Planet(game.stats.P_NEPTUNE, 15000, 7000)
moon.zp = -50
moon.yi = 0.1
moon.orbiting = self.earth
for i in xrange(20): # civilians around self.earth
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
for i in range(60): # asteroids between saturn and neptune
dist = 15000
angle = (1 - 2 * random()) * pi / 10 + pi / 7
asteroid = Asteroid(game, sol.xp + dist * cos(angle),
sol.yp + dist * sin(angle), 300)
game.harvestables.append(asteroid)
for i in range(30): # asteroids outer self.mars
dist = 9000
angle = (1 - 2 * random()) * pi / 8 + pi * 9 / 8
asteroid = Asteroid(game, sol.xp + dist * cos(angle),
sol.yp + dist * sin(angle), 200)
game.harvestables.append(asteroid)
nebula = Nebula(game.stats.A_NEBULA, 4800, 500)
for i in range(15): # asteroids in nebula
asteroid = Asteroid(game, 4800, 800, 800)
game.harvestables.append(asteroid)
self.alphaCentaury = [
Sun(game.stats.S_SOL, -32000, 16000),
Planet(game.stats.P_MARS_2, -28300, 12000),
Planet(game.stats.P_SATURN_1, -39000, 8000)
]
for i in range(40): # asteroids around self.alphaCentaury
dist = 4600
#angle = 2*pi*i/50
angle = (1 - 2 * random()) * pi / 4 - pi / 8
asteroid = Asteroid(game,
self.alphaCentaury[0].xp + dist * cos(angle),
self.alphaCentaury[0].yp + dist * sin(angle),
200)
game.harvestables.append(asteroid)
self.beta = [
Sun(game.stats.S_SOL, 8000, -24000),
Planet(game.stats.P_MARS_1, 12000, -22000),
Planet(game.stats.P_X, 500, -21000),
Planet(game.stats.P_JUPITER_1, 17000, -24700)
]
for i in range(20): # asteroids around self.beta[1]
dist = 600
angle = 2 * pi * random()
asteroid = Asteroid(game, self.beta[1].xp + dist * cos(angle),
self.beta[1].yp + dist * sin(angle), 80)
game.harvestables.append(asteroid)
self.gamma = [
Sun(game.stats.S_SOL, 40000, 4000),
Planet(game.stats.P_MERCURY_1, 39000, -2200),
Planet(game.stats.P_X_1, 38000, 11500)
]
for i in range(20): # asteroids around self.gamma[1]
dist = 750
angle = 2 * pi * random()
asteroid = Asteroid(game, self.gamma[1].xp + dist * cos(angle),
self.gamma[1].yp + dist * sin(angle), 80)
game.harvestables.append(asteroid)
for i in range(100): # asteroids around self.gamma
area = choice([(7000, 300, 5 * pi / 8, pi / 9),
(10000, 400, 6 * pi / 8, pi / 8),
(12000, 500, 5 * pi / 8, pi / 11)]) # , 3000
dist = area[0] #randint( area[0]-area[1], area[0]+area[1] )
angle = area[2] + area[3] * (1 - 2 * random())
asteroid = Asteroid(game, self.gamma[0].xp + dist * cos(angle),
self.gamma[0].yp + dist * sin(angle), area[1])
game.harvestables.append(asteroid)
nebula2 = Nebula(game.stats.A_NEBULA, 8000, -16000)
blackHole0 = BlackHole(game.stats.BH_0, -30000, -20000)
# for i in range( 15 ):
# asteroid = Asteroid( game, -7000, -3200, 800 )
# game.objects.append( asteroid )
# for i in range( 15 ):
# asteroid = Asteroid( game, 8500, 6800, 800 )
# game.objects.append( asteroid )
self.sol = [
sol, mercury, venus, self.earth, moon, self.mars, jupiter, saturn,
neptune, nebula, nebula2
]
game.astres = [
sol, mercury, venus, self.earth, moon, self.mars, jupiter, saturn,
neptune, nebula, nebula2, blackHole0
] + self.alphaCentaury + self.beta + self.gamma
# game.objects = game.objects # + [sol, mercury, venus, self.earth, moon, self.mars, jupiter, saturn, neptune, nebula, nebula2 ] + self.alphaCentaury + self.beta
for i in range(5):
self.addRandomNpc(game)
spots = []
for o in game.astres:
if isinstance(o, Planet) and not isinstance(o, Sun):
spots.append(o)
for i in xrange(30): # random civilians
spot = choice(spots)
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (spot.xp + dist * cos(angle), spot.yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
self.marsDefense = Faction(game.stats.R_HUMAN, "Mars Defenses")
obase = OrbitalBase(self.marsDefense, game.stats.HUMAN_BASE,
AiGovernor(self.marsDefense),
self.mars.xp + self.mars.stats.maxRadius * 1.5,
self.mars.yp + self.mars.stats.maxRadius * 1.5, 0,
0, 0.0, 0.0, 0.0, 0)
for t in obase.turrets:
t.install = TurretInstall(game.stats.T_MASS_SR_0)
t.weapon = MassWeaponTurret(game.stats.W_MASS_SR_0)
t.ai = AiWeaponTurret()
obase.orbiting = self.mars
obase.yi = 1
obase.ore = obase.stats.maxOre
obase.ri = -0.008
game.objects.append(obase)
for i in xrange(20):
radius = self.mars.stats.maxRadius * (2.5)
dist = self.mars.stats.maxRadius * (1.5 + 1 * random())
angle = 2 * pi * random() # AiPilotDefense
fighter = ShipSingleWeapon(self.marsDefense,
game.stats.HUMAN_FIGHTER,
AiPilotDefense(self.mars, radius),
self.mars.xp + dist * cos(angle),
self.mars.yp + dist * sin(angle), 0, 4,
0.0, 0.0, 0.0, 0)
game.objects.append(fighter)
self.marsDefense.ships.append(fighter)
self.marsDefense.bases.append(obase)
game.addPlayer(self.marsDefense)
self.earthDefense = Faction(game.stats.R_HUMAN, "Earth Defenses")
nbrBases = 3
for i in xrange(nbrBases):
dist = self.earth.stats.maxRadius * 1.8 #(1.8+0.4*random())
angle = pi * i * 2 / nbrBases
obase = OrbitalBase(self.earthDefense, game.stats.HUMAN_BASE,
AiGovernor(self.earthDefense),
self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle), 0, 0, 0.0,
0.0, 0.0, 0)
for t in obase.turrets:
t.install = TurretInstall(game.stats.T_MASS_MR_0)
t.weapon = MassWeaponTurret(game.stats.W_MASS_MR)
t.ai = AiWeaponTurret()
obase.ori = angle + pi / 2
obase.orbiting = self.earth
obase.xi = cos(obase.ori)
obase.yi = sin(obase.ori)
obase.ore = obase.stats.maxOre
obase.ri = -0.008
game.objects.append(obase)
self.earthDefense.bases.append(obase)
for i in xrange(20):
radius = self.earth.stats.maxRadius * (2.5)
dist = self.earth.stats.maxRadius * (1.5 + 1 * random())
angle = 2 * pi * random() # AiPilotDefense
fighter = ShipSingleWeapon(self.earthDefense,
game.stats.HUMAN_FIGHTER,
AiPilotPolice(self.earth, radius),
self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle), 0, 4,
0.0, 0.0, 0.0, 0)
game.objects.append(fighter)
self.earthDefense.ships.append(fighter)
# self.earthDefense.bases.append( obase )
game.addPlayer(self.earthDefense)
## ai forces
self.addAiBase(game, "Neptune base", neptune)
self.addAiBase(game, "Saturn base", saturn)
self.addAiBase(game, "Jupiter base", jupiter, 2)
## Evolved
self.evolvedSwarm0 = Faction(
game.stats.R_EVOLVED,
"First Swarm",
territories=[
Territory((self.alphaCentaury[1].xp, self.alphaCentaury[1].yp),
500),
Territory((self.alphaCentaury[1].xp - 1000,
self.alphaCentaury[1].yp - 500), 500)
])
(x, y) = self.alphaCentaury[1].xp - self.alphaCentaury[
1].stats.maxRadius * 1.5, self.alphaCentaury[
1].yp + self.alphaCentaury[1].stats.maxRadius * 1.5
flagship = FlagShip(self.evolvedSwarm0, game.stats.EVOLVED_FS_1,
AiCaptain(self.evolvedSwarm0), x, y, 0, 0, 0.0,
0.0, 0.0, 0)
flagship.ore = flagship.stats.maxOre
for t in flagship.turrets[:-2]:
t.install = TurretInstall(game.stats.T_MASS_MR_0)
t.weapon = MassWeaponTurret(game.stats.W_MASS_MR)
t.ai = AiWeaponTurret()
for t in flagship.turrets[-2:]:
t.install = TurretInstall(game.stats.T_LASER_SR_0)
t.weapon = LaserWeaponTurret(game.stats.W_LASER_SR)
t.ai = AiWeaponTurret()
for i in range(4):
harvester = HarvesterShip(self.evolvedSwarm0,
self.evolvedSwarm0.race.defaultHarvester,
AiPilotHarvester(flagship), 0, 0, 0, 4,
0.0, 0.0, 0.0, 0)
flagship.shipyards[harvester.stats.img].docked.append(harvester)
for i in xrange(5):
if i >= 3:
fighter = ShipSingleWeapon(self.evolvedSwarm0,
game.stats.EVOLVED_BOMBER,
AiPilotFighter(flagship), 0, 0, 0,
4, 0.0, 0.0, 0.0, 0)
else:
fighter = ShipSingleWeapon(self.evolvedSwarm0,
game.stats.EVOLVED_FIGHTER,
AiPilotFighter(flagship), 0, 0, 0,
4, 0.0, 0.0, 0.0, 0)
for i in xrange(10):
fighter = ShipSingleWeapon(self.evolvedSwarm0,
game.stats.EVOLVED_FIGHTER,
AiPilotDefense(flagship, 500), 0, 0, 0,
4, 0.0, 0.0, 0.0, 0)
(fighter.xp, fighter.yp) = (flagship.xp, flagship.yp)
game.objects.append(fighter)
self.evolvedSwarm0.ships.append(fighter)
# flagship.shipyards[ fighter.stats.img ].docked.append( fighter )
game.objects.append(flagship)
self.evolvedSwarm0.flagships.append(flagship)
game.addPlayer(self.evolvedSwarm0)
## Extra TODO remove section
self.extraRock0 = Faction(game.stats.R_EXTRA, "Rocks")
for i in xrange(0): # 4 ):
angle = 2 * pi * random()
dist = 750 # self.gamma[ 1 ].stats.maxRadius*
(x, y) = self.gamma[1].xp - dist * cos(
angle), self.gamma[1].yp + dist * sin(angle)
if i % 4 == 0:
flagship = FlagShip(self.extraRock0, game.stats.EXTRA_BASE,
AiCaptain(self.extraRock0), x, y, 0, 0,
0.0, 0.0, 0.0, 0)
for k, t in enumerate(flagship.turrets):
t.install = TurretInstall(game.stats.T_ROCK_THROWER_1)
t.weapon = MassWeaponTurret(game.stats.W_ROCK_THROWER_1)
t.ai = AiWeaponTurret()
elif i % 4 == 1:
flagship = FlagShip(self.extraRock0, game.stats.EXTRA_FS_1,
AiCaptain(self.extraRock0), x, y, 0, 0,
0.0, 0.0, 0.0, 0)
for k, t in enumerate(flagship.turrets):
t.install = TurretInstall(game.stats.T_DRAGON_0)
t.weapon = MassWeaponTurret(game.stats.W_DRAGON_0)
t.ai = AiWeaponTurret()
elif i % 4 == 2:
flagship = FlagShip(self.extraRock0, game.stats.EXTRA_BASE,
AiCaptain(self.extraRock0), x, y, 0, 0,
0.0, 0.0, 0.0, 0)
for k, t in enumerate(flagship.turrets):
t.install = TurretInstall(game.stats.T_LARVA_0)
t.weapon = MissileWeaponTurret(game.stats.W_LARVA_0)
t.ai = AiWeaponTurret()
else:
flagship = FlagShip(self.extraRock0, game.stats.EXTRA_FS_2,
AiCaptain(self.extraRock0), x, y, 0, 0,
0.0, 0.0, 0.0, 0)
for i in xrange(8):
fighter = ShipSingleWeapon(self.extraRock0,
game.stats.EXTRA_FIGHTER,
AiPilotFighter(flagship), 0, 0,
0, 4, 0.0, 0.0, 0.0, 0)
flagship.shipyards[fighter.stats.img].docked.append(
fighter)
flagship.ore = flagship.stats.maxOre
game.objects.append(flagship)
self.extraRock0.flagships.append(flagship)
flagship.missiles[ids.M_LARVA].amount = 100
for i in xrange(16):
self.addRandomExtra(game)
def __init__(self, game, steps=None, name=None, description=None, year=0):
stats = Stats()
stats.R_HUMAN.turrets = [
stats.T_LASER_SR_1, stats.T_LASER_SR_0, stats.T_MASS_SR_1,
stats.T_MASS_SR_0, stats.T_MASS_MR_0
]
stats.R_HUMAN.missiles = []
stats.R_HUMAN.ships = [stats.HARVESTER]
stats.PlayableShips = {}
steps = [
Step(
goal=lambda self, game: utils.distLowerThanObjects(
self.player.flagship, self.asteroid, 300),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
# onBegin=lambda self, game: self.player.flagship.ore = 500,
texts=[(0, "We need some materials."),
(4 * config.fps,
"There is an asteroid close to the Moon."),
(8 * config.fps, "Get close to it.")]),
Step(
goal=lambda self, game: self.player.flagship.ai.launching[
self.player.race.defaultHarvester.img],
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0, "Begin collecting raw ore."),
(4 * config.fps,
"To do so, launch your harvester by pressing the blue arrow button at the bottom of the screen."
)]),
Step(
goal=lambda self, game: self.player.flagship.oreProcess,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0, "Now wait for them to bring back the ore."),
(6 * config.fps,
"Don't worry about the ships following you around."),
(10 * config.fps,
"They are civilian and while they are under your protection they speed up building processes."
)]),
Step(
goal=lambda self, game: self.player.flagship.ore >= 100,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=[
(0,
"They have now added the raw ore to the processing queue."
),
(4 * config.fps,
"Wait a little while and it will be transformed into usable materials."
),
(8 * config.fps,
"Keep harvesting and processing the ore until you reach 100 material."
),
(12 * config.fps,
"Notice the moving bars at the bottom right corner of the screen..."
),
(14 * config.fps,
"they represents the ore being processed."),
(18 * config.fps,
"once they reach the right, they are usable!"),
(22 * config.fps,
"They will then be added to the ore stock indicated by the blue gage in the bottom right corner."
),
]),
Step(
goal=lambda self, game: self.player.flagship.shipyards[
self.player.race.defaultHarvester.img].getCount() >= 4,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
"You now have enough material to build a new harvester and speed it up!"
),
(2 * config.fps,
"To do so, click on the icon of the harvester at the bottom of the screen, under the launch button."
)]),
Step(
goal=lambda self, game: self.player.flagship.ore >= 300,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
"Keep harvesting and processing ore util you reach 300 material."
),
(4 * config.fps,
"It will follow the orders the others already received."),
(8 * config.fps,
"Notice the blue bar in the upper right corner and the green one in the bottm right..."
),
(12 * config.fps,
"the blue one represents your shield and the green one your hull."
)]),
Step(
goal=lambda self, game: len(
filter(lambda turret: turret.install, self.player.flagship.
turrets)) >= 3,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=[
(0, "There are rumors of pirates in the area."),
(4 * config.fps,
"Build one more mass cannon turret on your ship."),
(8 * config.fps,
"To do so, click on an empty slot on the right of the screen and select an affordable turret."
),
]),
Step(
goal=lambda self, game: not self.ennemyShip.alive,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
onBegin=lambda self, game: (self.addAttackingEnnemy(
game, (self.moon.xp - 1500, self.moon.yp
- 800), self.player.flagship, "Pirate lambda"
), game.setRelationBetween(self.player, self.ennemy, 1)),
texts=
[(0, "Defend yourself from the incoming pirate ship."),
(4 * config.fps,
"To attack it, simply left-click on it once."),
(8 * config.fps,
"Your crew will aim and fire the turrets."),
(12 * config.fps,
"You can still help them by manoeuvering the ship so that the ennemy is in range of the turrets."
)]),
Step(goal=lambda self, game: utils.distLowerThanObjects(
self.player.flagship, self.orbitalbase, 100),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[
(0, "Well done!"),
(2 * config.fps,
"Recall your harvester and return to the orbital base.")
]),
]
Scenario.__init__(self, game, steps=steps, stats=stats)
### redefining stats, dangerous
self.sol = Sun(game.stats.S_SOL, 0, 0)
self.mercury = Planet(game.stats.P_MERCURY, -4100, 1400)
self.venus = Planet(game.stats.P_VENUS, 5000, 2300)
self.earth = Planet(game.stats.P_EARTH, -3100, 6700)
self.mars = Planet(game.stats.P_MARS_1, -7800, -2300)
self.moon = Planet(game.stats.P_MOON, -3900, 6400)
self.jupiter = Planet(game.stats.P_JUPITER, -13000, -4800)
self.saturn = Planet(game.stats.P_SATURN, 13000, 2500)
self.neptune = Planet(game.stats.P_NEPTUNE, 15000, 7000)
self.moon.zp = -50
self.moon.yi = 0.1
self.moon.orbiting = self.earth
# asteroids over the moon, vital to scenario
for i in xrange(1):
self.asteroid = Asteroid(game, self.moon.xp - 200,
self.moon.yp + 150, 10)
game.harvestables.append(self.asteroid)
for i in xrange(3): # civilians around self.earth
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
for i in range(50): # asteroids outer self.mars
dist = 9000
angle = (1 - 2 * random()) * pi / 8 + pi * 9 / 8
asteroid = Asteroid(game, self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle), 300)
game.harvestables.append(asteroid)
game.astres = [
self.sol, self.mercury, self.venus, self.earth, self.moon,
self.mars, self.jupiter, self.saturn, self.neptune, self.moon
]
dist = self.earth.stats.maxRadius * 1.5
angle = 5 * pi / 8
self.orbitalbase = OrbitalBase(None, game.stats.HUMAN_BASE_MINING,
None, self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle))
self.orbitalbase.ri = -0.013
game.objects.append(self.orbitalbase)
self.player = None
def forRun( self ):
yield self.verbose( "Commons", 0 )
yield self.verbose( "ids integrity", level=1 )
from common import ids
#TODO compare unique ids to detect repetition, not vital but may be useful for debugging
if self.testClient:
yield self.verbose( "Client", 0 )
yield self.verbose( "Client sound mixer", level=1 )
from client.mixer import Mixer
mixer = Mixer()
yield self.verbose( "Setting volume to mute", level=2 )
mixer.setVolume(0)
yield self.verbose( "Client displays", level=1 )
for name in self.displayNames:
yield self.verbose( name.capitalize(), level=2 )
exec( "from client.displays.%s import %s as Display"%( name, name.capitalize() ) )
#from client.display import Display
display = Display( resolution=(100,100) )
yield self.verbose( "Clearing", level=3 )
display.beginDraw()
display.clear( (0,255,0) )
display.finalizeDraw()
yield self.verbose( "Text", level=3 )
display.beginDraw()
display.drawText( "test", (4,4) )
display.finalizeDraw()
yield self.verbose( "Line", level=3 )
display.beginDraw()
display.drawLine( (255,255,255), (0,100), (100,0) )
display.drawLine( (255,255,255), (0,0), (100,100) )
display.finalizeDraw()
yield self.verbose( "Circle", level=3 )
display.beginDraw()
display.drawCircle( (255,255,255), (50,50), 45 )
display.finalizeDraw()
yield self.verbose( "Loading image", level=3 )
img = display.load( self.testImgPath )
yield self.verbose( "Drawing image", level=3 )
img = display.load( self.testImgPath )
display.beginDraw()
display.draw( img, (0,0) )
display.finalizeDraw()
yield self.verbose( "Drawing image rotated", level=3 )
img = display.load( self.testImgPath )
display.beginDraw()
display.drawRo( img, (0,0), pi/3 )
display.finalizeDraw()
yield self.verbose( "Client resources", level=1 )
yield self.verbose( "Images", level=2 )
from client.imgs import Imgs, Image, Animation
imgs = Imgs( display )
yield self.verbose( "Loading images", level=3 )
for p in imgs.loadAll( display ):
pass
yield self.verbose( "Drawing images", level=3 )
import pygame # To be removed for other implementation
for k, v in imgs.__dict__.items():
if isinstance( v, Image ) or isinstance( v, pygame.Surface ):
display.beginDraw()
if isinstance( v, Image ):
display.draw( imgs[k], (0,0) )
if isinstance( v, pygame.Surface ):
display.draw( v, (0,0) )
display.finalizeDraw()
yield self.verbose( "Drawing animations", level=3 )
for k, v in imgs.__dict__.items():
if isinstance( v, Animation ):
for j in xrange( 0, 500 ):
imgs.updateAnimations()
display.beginDraw()
display.draw( v, (0,0) )
display.finalizeDraw()
yield self.verbose( "Sounds", level=2 )
from client.snds import Snds
yield self.verbose( "Loading sounds", level=3 )
snds = Snds( mixer )
for p in snds.loadAll( mixer ):
pass
yield self.verbose( "Playing sounds", level=3 )
for k, v in snds.__dict__.items():
if isinstance( v, pygame.mixer.Sound ):
mixer.play( v )
yield self.verbose( "Texts", level=2 )
from client.texts import Texts
texts = Texts()
for p in texts.loadAll():
pass
if self.testServer:
yield self.verbose( "Server", 0 )
yield self.verbose( "Server stats", level=1 )
from server.stats import Stats
stats = Stats()
yield self.verbose( "Game from Scenarios", level=1 )
from server.game import Game
games = []
yield self.verbose( "Scenarios", level=1 )
yield self.verbose( "Loading empty scenario", level=2 )
exec( "from scenarios import Scenario as Scenario" )
games.append( Game( Scenario ) )
for name in self.scenarioNames:
yield self.verbose( "Loading scenario %s"%name, level=2 )
exec( "from scenarios.%s import %s as Scenario"%( name, name.capitalize() ) )
games.append( Game( Scenario ) )
# yield self.verbose( "Game from Sol", level=1 )
# from server.game import Game
# game = Game( Scenario )
yield self.verbose( "Players", level=1 )
from server.players import Player
yield self.verbose( "Computer", level=2 )
from server.players import Computer
playerComputer0 = Computer( stats.R_HUMAN, "computer human" )
yield self.verbose( "Faction", level=2 )
from server.players import Faction
playerFaction0 = Faction( stats.R_AI, "faction ai" )
yield self.verbose( "Human players", level=2 )
from server.players import Human
playerHuman0 = Human( stats.R_NOMAD, "human nomad" )
yield self.verbose( "Objects", level=1 )
from server.objects import Object
yield self.verbose( "Asteroid", level=2 )
from server.objects import Asteroid
asteroids = []
while len( asteroids ) < 100:
asteroids.append( Asteroid( games[0], 0, 0, 100 ) )
yield self.verbose( "Planet", level=2 )
from server.objects import Planet
planet0 = Planet( stats.P_EARTH, 100, 0 )
yield self.verbose( "Sun", level=2 )
from server.objects import Sun
sun0 = Sun( stats.S_SOL, 5000, 0 )
yield self.verbose( "Nebula", level=2 )
from server.objects import Nebula
nebula0 = Nebula( stats.A_NEBULA, -1000, 0 )
yield self.verbose( "Blackhole", level=2 )
from server.objects import BlackHole
blackhole0 = BlackHole( stats.BH_0, 0, 10000 )
yield self.verbose( "Ships", level=2 )
yield self.verbose( "Simple ship", level=3 )
from server.ships import Ship
ship0 = Ship( stats.HUMAN_FIGHTER, None, 0, 0 )
yield self.verbose( "ShipWithTurrets", level=3 )
from server.ships import ShipWithTurrets
ship0 = ShipWithTurrets( None, stats.HARVESTER, None, 0, 0 )
# yield self.verbose( "Turret instanciation", level=1 )
# yield self.verbose( "Turret building", level=1 )
# yield self.verbose( "Turret fire", level=1 )
# yield self.verbose( "AIs", level=1 )
yield self.verbose( "Server", level=1 )
from server.server import Server
server = Server( scenarioName="Sol", force=True, adminPassword="******" )
yield True
def __init__(self, game, steps=None, name=None, description=None, year=0):
stats = Stats()
stats.R_HUMAN.turrets = [stats.T_SOLAR_0]
stats.R_HUMAN.missiles = []
stats.R_HUMAN.ships = []
stats.PlayableShips = {}
steps = [
Step(goal=lambda self, game: game.tick - 9 * config.fps >= self.
lastStepAt and self.player.inputs.xc and not utils.
distLowerThan((self.player.inputs.xc + self.player.inputs.wc /
2, self.player.inputs.yc + self.player.inputs.
hc / 2), self.player.flagship.pos, 200),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[
(0, _("Look around your ship a bit.")),
(config.fps * 3,
_("To move the camera, either use the arrow keys...")),
(config.fps * 6,
_("or click on the radar in the upper left corner."))
]),
Step(goal=lambda self, game: game.tick - 6 * config.fps >= self.
lastStepAt and utils.distLowerThan(
(self.player.inputs.xc + self.player.inputs.wc / 2, self.
player.inputs.yc + self.player.inputs.hc / 2), self.
player.flagship.pos, 2),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[
(0, _("Good, now stick the camera to your ship.")),
(config.fps * 3,
_("To do so, click on the center of the radar.")),
]),
Step(
goal=lambda self, game: game.tick - 9 * config.fps >= self.
lastStepAt and not utils.distLowerThan(
self.startingPoint, self.player.flagship.pos, 100),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0, _("Now move away from the orbital station.")),
(3 * config.fps,
_("To move the ship, left-click on the destination and your crew will manoeuver towards there."
)),
(6 * config.fps,
_("To give the order to stop, left-click on the ship."))]),
Step(
goal=lambda self, game: filter(
lambda turret: turret.building == stats.T_SOLAR_0, self.
player.flagship.turrets),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
_("Let's prepare ourselves before going out to explore.")),
(3 * config.fps,
_("Jumping uses a lot of energy, so first build 2 solar arrays on your ship."
)),
(6 * config.fps,
_("To do so, left-click on one of the black circle at the right of the screen."
)),
(9 * config.fps,
_("Then select the solar array from the list."))]),
Step(
goal=lambda self, game: filter(
lambda turret: turret.install and turret.install.stats ==
stats.T_SOLAR_0, self.player.flagship.turrets),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
_("Well done, it will take a little while for it to be completed."
)),
(3 * config.fps,
_("Begin building the second one right away.")),
(9 * config.fps,
_("Notice the green bar in the top right corner...")),
(12 * config.fps,
_("it indicates the proportion of energy in your battery.")),
(15 * config.fps,
_("The quantity is indicated in green text next to it.."))]),
Step(
goal=lambda self, game: len(
filter(
lambda turret: turret.install and turret.install.stats
== stats.T_SOLAR_0, self.player.flagship.turrets)
) >= 2 and game.tick - 6 * config.fps >= self.lastStepAt,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
_("Every ship benefits from solar energy the closer they are to a sun."
)),
(3 * config.fps,
_("A solar array will capture even more solar energy but will consume a little when in deep space."
))]),
Step(
goal=lambda self, game: self.player.flagship.jumping,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=[
(0,
_("We still need to fill the battery before jumping.")),
(3 * config.fps,
_("Use the long-range sensor in fullscreen mode to see our destination."
)),
(6 * config.fps,
_("Left-click on the Radar button in the upper-left corner."
)),
(12 * config.fps,
_("Notice your poition over Earth. It will be useful to come back."
)),
(15 * config.fps,
_("Mars is the 4th planet from the sun.")),
(18 * config.fps,
_("You can see it on the right of the asteroid field down left from you."
)),
(21 * config.fps,
_("To execute the jump, left-click on the blue button at the top of the screen"
)),
(24 * config.fps,
_("the left-click on the destination, the planet Mars.")),
]),
Step(
goal=lambda self, game: not self.player.flagship.jumping,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
onBegin=lambda self, game: self.addEnnemyShip(
game, self.ennemyPosition),
texts=[
(0,
_("Know that you can change the destination of the jump while it charges."
)),
(3 * config.fps,
_("Go back to normal view by clicking on the radar button again."
)),
]),
Step(
goal=lambda self, game: utils.distLowerThan(
self.ennemyPosition, self.player.flagship.pos, 500),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(config.fps, _("Now head for the asteroid field.")),
(4 * config.fps,
_("Reports are that there is a anormal rotating asteroid towards the bottom of the field."
)), (7 * config.fps, _("Investigate it."))]),
Step(goal=lambda self, game: utils.distLowerThan(
self.ennemyPosition, self.player.flagship.pos, 200),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[
(0,
_("It may be dangerous but get closer to gather data."))
]),
Step(goal=lambda self, game: self.player.flagship.jumping,
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[(0, _("What ever it is. It is hostile!")),
(1 * config.fps, _("Enough data collected.")),
(2 * config.fps, _("Jump away now!"))]),
Step(
goal=lambda self, game: not self.player.flagship.jumping,
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0,
_("Don't worry, your shield and hull should be able to handle the hits for a little longer."
))]),
Step(goal=lambda self, game: utils.distLowerThanObjects(
self.player.flagship, self.orbitalbase, 2000),
failure=lambda self, game: not self.player.flagship or
not self.player.flagship.alive,
texts=[(1, _("Head back to Earth."))]),
Step(
goal=lambda self, game: utils.distLowerThanObjects(
self.player.flagship, self.orbitalbase, 100),
failure=lambda self, game: not self.player.flagship or not self
.player.flagship.alive,
texts=
[(0, _("Return to the orbital station.")),
(3 * config.fps,
_("Collected data will be useful if they ever try to get closer to Earth."
))]),
]
Scenario.__init__(self, game, steps=steps, stats=stats)
### redefining stats, dangerous
self.sol = Sun(game.stats.S_SOL, 0, 0)
self.mercury = Planet(game.stats.P_MERCURY, -4100, 1400)
self.venus = Planet(game.stats.P_VENUS, 5000, 2300)
self.earth = Planet(game.stats.P_EARTH, -3100, 6700)
self.mars = Planet(game.stats.P_MARS_1, -7800, -2300)
self.moon = Planet(game.stats.P_MOON, -3900, 6400)
self.jupiter = Planet(game.stats.P_JUPITER, -13000, -4800)
self.saturn = Planet(game.stats.P_SATURN, 13000, 2500)
self.neptune = Planet(game.stats.P_NEPTUNE, 15000, 7000)
self.moon.zp = -50
self.moon.yi = 0.1
self.moon.orbiting = self.earth
for i in range(50): # asteroids outer self.mars
dist = 9000
angle = (1 - 2 * random()) * pi / 8 + pi * 9 / 8
asteroid = Asteroid(game, self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle), 300)
game.harvestables.append(asteroid)
for i in range(60): # asteroids between self.saturn and self.neptune
dist = 15000
angle = (1 - 2 * random()) * pi / 10 + pi / 7
asteroid = Asteroid(game, self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle), 300)
game.harvestables.append(asteroid)
game.astres = [
self.sol, self.mercury, self.venus, self.earth, self.moon,
self.mars, self.jupiter, self.saturn, self.neptune, self.moon
]
dist = self.earth.stats.maxRadius * 1.5
angle = 5 * pi / 8
self.orbitalbase = OrbitalBase(None, game.stats.HUMAN_BASE_MINING,
None, self.earth.xp + dist * cos(angle),
self.earth.yp + dist * sin(angle))
self.orbitalbase.ri = -0.013
game.objects.append(self.orbitalbase)
self.player = None
self.startingPoint = (self.orbitalbase.xp + 50,
self.orbitalbase.yp + 60)
dist = 9000
angle = pi * 9 / 8 + pi / 8 * 2 / 3
self.ennemyPosition = (self.sol.xp + dist * cos(angle),
self.sol.yp + dist * sin(angle))
def __init__(self, game):
self.player = None
self.harvestersAtSpawn = 4
self.wantedBadGuys = 9
steps = [
Step(goal=lambda self, game: not filter(lambda ship: ship.alive,
self.ennemyShips),
onBegin=lambda self, game: self.addExtrasInFields(
game, count=self.wantedBadGuys),
failure=lambda self, game: False,
texts=[(config.fps * 10,
"You are at the Human outpost over Gamma 1."),
(config.fps * 20,
"There is hostile life forms in the system."),
(config.fps * 30,
"Clear the asteroids fields above the star Gamma.")]),
Step(goal=lambda self, game: not filter(lambda ship: ship.alive,
self.ennemyShips),
onBegin=lambda self, game: self.addAttackingExtras(
game, count=self.wantedBadGuys),
failure=lambda self, game: False,
texts=[
(0, "The human outpost above Gamma 1 is under attack!"),
(config.fps * 10, "Jump to their help in 10s..."),
(config.fps * 17, "3s"), (config.fps * 18, "2s"),
(config.fps * 19, "1s"), (config.fps * 20, "Jump!")
]),
Step(goal=lambda self, game: game.tick - 20 * config.fps >= self.
lastStepAt,
onBegin=lambda self, game: False,
failure=lambda self, game: False,
texts=[
(0, "The alien's attack has been succesfully repelled!"),
(config.fps * 10, "Congratulations ;)")
])
]
Scenario.__init__(self, game, steps=steps)
self.ennemyShips = []
self.gamma = [
Sun(game.stats.S_SOL, 1000, 4000),
Planet(game.stats.P_MERCURY_1, 0, -2200),
Planet(game.stats.P_X_1, -1000, 11500)
]
for i in range(20): # asteroids around self.gamma[1]
dist = 750
angle = 2 * pi * random()
asteroid = Asteroid(game, self.gamma[1].xp + dist * cos(angle),
self.gamma[1].yp + dist * sin(angle), 80)
game.harvestables.append(asteroid)
for i in range(100): # asteroids around self.gamma
area = choice([(7000, 300, 5 * pi / 8, pi / 9),
(10000, 400, 6 * pi / 8, pi / 8),
(12000, 500, 5 * pi / 8, pi / 11)]) # , 3000
dist = area[0] #randint( area[0]-area[1], area[0]+area[1] )
angle = area[2] + area[3] * (1 - 2 * random())
asteroid = Asteroid(game, self.gamma[0].xp + dist * cos(angle),
self.gamma[0].yp + dist * sin(angle), area[1])
game.harvestables.append(asteroid)
for i in xrange(10): # civilians around self.gamma[1]
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (self.gamma[1].xp + dist * cos(angle),
self.gamma[1].yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
game.astres = self.gamma
# for i in range( 5 ):
# self.addExtrasInFields( game )
spots = []
for o in game.astres:
if isinstance(o, Planet) and not isinstance(o, Sun):
spots.append(o)
for i in xrange(30): # random civilians
spot = choice(spots)
dist = randint(100, 800)
angle = 2 * pi * random()
(x, y) = (spot.xp + dist * cos(angle), spot.yp + dist * sin(angle))
s = Ship(game.stats.CIVILIAN_0, AiCivilian(), x, y, -20)
game.objects.append(s)
self.humanDefense = Faction(game.stats.R_HUMAN, "Human Defenses")
nbrBases = 3
for i in xrange(nbrBases):
dist = self.gamma[1].stats.maxRadius * 1.8 #(1.8+0.4*random())
angle = pi * i * 2 / nbrBases
obase = OrbitalBase(self.humanDefense, game.stats.HUMAN_BASE,
AiGovernor(self.humanDefense),
self.gamma[1].xp + dist * cos(angle),
self.gamma[1].yp + dist * sin(angle), 0, 0,
0.0, 0.0, 0.0, 0)
for t in obase.turrets:
if i % 2 == 0:
t.install = TurretInstall(game.stats.T_MASS_SR_1)
t.weapon = MassWeaponTurret(game.stats.W_MASS_SR_1)
else:
t.install = TurretInstall(game.stats.T_MASS_MR_1)
t.weapon = MassWeaponTurret(game.stats.W_MASS_MR)
t.ai = AiWeaponTurret()
obase.ori = angle + pi / 2
obase.orbiting = self.gamma[1]
obase.xi = cos(obase.ori)
obase.yi = sin(obase.ori)
obase.ore = obase.stats.maxOre
obase.ri = -0.008
game.objects.append(obase)
self.humanDefense.bases.append(obase)
for i in xrange(10):
radius = self.gamma[1].stats.maxRadius * (2.5)
dist = self.gamma[1].stats.maxRadius * (1.5 + 1 * random())
angle = 2 * pi * random() # AiPilotDefense
fighter = ShipSingleWeapon(self.humanDefense,
game.stats.HUMAN_FIGHTER,
AiPilotPolice(self.gamma[1], radius),
self.gamma[1].xp + dist * cos(angle),
self.gamma[1].yp + dist * sin(angle), 0,
4, 0.0, 0.0, 0.0, 0)
game.objects.append(fighter)
self.humanDefense.ships.append(fighter)
# self.humanDefense.bases.append( obase )
game.addPlayer(self.humanDefense)
## Extra
self.extraRock0 = Faction(game.stats.R_EXTRA, "Rocks")
game.addPlayer(self.extraRock0)
def __init__(self, game, steps=None, name=None, description=None, year=0):
stats = Stats()
stats.R_HUMAN.turrets = [ stats.T_LASER_SR_1, stats.T_LASER_SR_0, stats.T_LASER_MR_0,
stats.T_MASS_SR_1, stats.T_MASS_SR_0, stats.T_MASS_LR, stats.T_MASS_MR_0,
stats.T_MISSILE_1, stats.T_MISSILE_0,
stats.T_PULSE, stats.T_MINER,
stats.T_SOLAR_0, ]
stats.R_HUMAN.missiles = [ids.M_NORMAL, ids.M_PULSE, ids.M_MINER]
stats.R_HUMAN.ships = [ stats.HARVESTER, stats.HUMAN_FIGHTER ]
stats.PlayableShips = {}
steps = []
### missiles
steps.append( Step(
goal=lambda self, game: filter( lambda turret: turret.install and turret.install.stats==stats.T_MISSILE_0, self.player.flagship.turrets ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: self.addEnnemyShip( game, (self.player.flagship.xp+stats.T_MASS_MR_0.weapon.maxRange+100, self.player.flagship.yp), None ),
texts = [(0,"There's an ennemy ship on the other side of Earth, directly to your right."),
(config.fps*4, "It is too far away to reach with your current weapons."),
(config.fps*8, "Select an empty turret, on the right of the screen, and build a missile launcher."),
(config.fps*16, "It would also be a good idea to begin harvesting the asteroid close by."),
(config.fps*20, "Build more harvester if you feel that it's necessary." )] ) )
steps.append( Step(
goal=lambda self, game: self.player.flagship.missiles[ids.M_NORMAL].amount >= 10,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
texts = [(0,"Now that the launcher is ready you will need some missiles!"),
(config.fps*4, "Click on the missile icon at the botom of the screen to start building them."),
(config.fps*8, "10 should be enough to initiate the combat.") ] ) )
steps.append( Step(
goal=lambda self, game: not self.ennemyShip.alive,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: (game.setRelationBetween( self.player, self.ennemy, 1 ), game.setRelationBetween( self.ennemy, self.player, 1 )),
texts = [(0,"Now attack it!"),
(config.fps*4, "It is the blue dot on the radar screen, left-click on it to begin the attack." ) ] ) )
### mass turret / upgrading
steps.append( Step(
goal=lambda self, game: filter( lambda turret: turret.install and turret.install.stats==stats.T_MASS_LR, self.player.flagship.turrets ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: self.addEnnemyShip( game, (self.player.flagship.xp+stats.T_MASS_LR.weapon.maxRange-400, self.player.flagship.yp), None ),
texts = [(0,"One appeared even further away!"),
(config.fps*4, "Upgrade at least one of your mass cannon to a mass driver turret." ) ] ) )
steps.append( Step(
goal=lambda self, game: not self.ennemyShip.alive,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: (game.setRelationBetween( self.player, self.ennemy, 1 ), game.setRelationBetween( self.ennemy, self.player, 1 )),
text = "Now that you can reach it, attack it!" ) )
### fighters
steps.append( Step(
goal=lambda self, game: self.player.flagship.shipyards[ ids.S_HUMAN_FIGHTER ].getCount() >= 5,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: self.addEnnemyShips( game, (self.player.flagship.xp+stats.T_MASS_LR.weapon.maxRange+1000, self.player.flagship.yp), 200, count=2 ),
texts = [(0,"There's another one too far away for your turrets."),
(config.fps*4, "You need to build at leats 5 fighters."),
(config.fps*8, "To do so, click on the fighter icon, at the bottom of the screen next to the harvester." )] ) )
steps.append( Step(
goal=lambda self, game: self.player.flagship.ai.launching[ ids.S_HUMAN_FIGHTER ],
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
texts = [(0,"Launch your fighters."),
(config.fps*4, "To do so, press the blue arrow button at the bottom of the screen." )] ) )
steps.append( Step(
goal=lambda self, game: not self.ennemy.flagships,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: (game.setRelationBetween( self.player, self.ennemy, 1 ), game.setRelationBetween( self.ennemy, self.player, 1 )),
text = "Now order your fighters to attack it by left-clicking on it." ) )
### mines
steps.append( Step(
goal=lambda self, game: filter( lambda turret: turret.install and turret.install.stats==stats.T_MINER, self.player.flagship.turrets ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
texts = [(0, "The pirates always come from the same direction."),
(config.fps*4, "Let's think ahead and build a mine field."),
(config.fps*8, "First, build a mine layer turret."),
(config.fps*12, "It would be a good idea to recall your fighters before laying the mine field."),
(config.fps*16, "To do so, press onthe green arrow over the fighter icon." )] ) )
steps.append( Step(
goal=lambda self, game: self.player.flagship.missiles[ids.M_MINER].amount >= 1,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
text = "Build 8 or more miner missiles.\nThe button appeared next to the missile button." ) )
steps.append( Step(
goal=lambda self, game: filter( lambda obj: isinstance( obj, MinerMissile ), game.objects.objects ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
text = "A missile is ready.\nShoot it by clicking on the red targetting button over its icon.",
texts= [
(config.fps*4,"Then click on the target, in this case target at a little distance to the right of the station."),
(config.fps*8,"You can always cancel the launch of a missile by right clicking on the screen when targetting.")
] ) )
steps.append( Step(
goal=lambda self, game: len( filter( lambda obj: isinstance( obj, Mine ), game.objects.objects ) ) >= stats.T_MINER.specialValue[1]*8,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
text = "Build and deploy a total of at least 8 missiles." ) )
### pulse
steps.append( Step(
goal=lambda self, game: filter( lambda turret: turret.install and turret.install.stats==stats.T_PULSE, self.player.flagship.turrets ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: self.addEnnemyShips( game, (self.player.flagship.xp+stats.T_MASS_LR.weapon.maxRange+200, self.player.flagship.yp), 200, count=4 ),
texts = [(0, "A group of pirates can now be seen far away."),
(config.fps*4, "To trap them and give us a head start let's hit them with an EMP weapon first!"),
(config.fps*8, "Build a pulse launcher.") ] ) )
steps.append( Step(
goal=lambda self, game: self.player.flagship.missiles[ids.M_PULSE].amount >= 1,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
text = "Build at least one pulse missile." ) )
steps.append( Step(
goal=lambda self, game: filter( lambda obj: isinstance( obj, PulseMissile ), game.objects.objects ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
text = "A missile is ready.\nShoot it in the middle of the pirates." ) )
steps.append( Step(
goal=lambda self, game: not filter( lambda obj: isinstance( obj, PulseMissile ), game.objects.objects ),
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
onBegin=lambda self, game: (game.setRelationBetween( self.player, self.ennemy, 1 ), game.setRelationBetween( self.ennemy, self.player, 1 )),
texts = [(0,"Wait for them to get hit."),
(config.fps*4, "Every ship caught in the explosion will have its engines disabled for a few seconds..."),
(config.fps*8, "its shield will also be badly hit.")] ) )
steps.append( Step(
goal=lambda self, game: not self.ennemy.flagships,
failure=lambda self, game: not self.player.flagship or not self.player.flagship.alive,
texts = [(0,"Wait for them to recover from the EMP and to get caught in the mine field!"),
(config.fps*4, "Then finish them.")] ) )
Scenario.__init__(self, game, steps=steps, stats=stats )
self.sol = Sun( game.stats.S_SOL, 0, 0 )
self.mercury = Planet( game.stats.P_MERCURY, -4100, 1400 )
self.venus = Planet( game.stats.P_VENUS, 5000, 2300 )
self.earth = Planet( game.stats.P_EARTH, -3100, 6700 )
self.mars = Planet( game.stats.P_MARS_1, -7800, -2300 )
self.moon = Planet( game.stats.P_MOON, -3900, 6400 )
self.jupiter = Planet( game.stats.P_JUPITER, -13000, -4800 )
self.saturn = Planet( game.stats.P_SATURN, 13000, 2500 )
self.neptune = Planet( game.stats.P_NEPTUNE, 15000, 7000 )
self.moon.zp = -50
self.moon.yi = 0.1
self.moon.orbiting = self.earth
# asteroids near the station
for i in xrange( 1 ):
asteroid = Asteroid( game, self.moon.xp+200, self.moon.yp+430, 0 )
game.harvestables.append( asteroid )
for i in xrange( 10 ): # civilians around self.earth
dist = randint( 100, 800 )
angle = 2*pi*random()
(x,y) = (self.earth.xp+dist*cos(angle), self.earth.yp+dist*sin(angle))
s = Ship( game.stats.CIVILIAN_0, AiCivilian(), x, y, -20 )
game.objects.append( s )
for i in range( 50 ): # asteroids outer self.mars
dist = 9000
angle = (1-2*random())*pi/8+pi*9/8
asteroid = Asteroid( game, self.sol.xp+dist*cos(angle), self.sol.yp+dist*sin(angle), 300 )
game.harvestables.append( asteroid )
game.astres = [self.sol, self.mercury, self.venus, self.earth, self.moon, self.mars, self.jupiter, self.saturn, self.neptune, self.moon ]
# dist = self.earth.stats.maxRadius*1.2
# angle = 7/8*pi
# self.orbitalbase = OrbitalBase( None, game.stats.HUMAN_BASE, None, self.earth.xp+dist*cos(angle),self.earth.yp+dist*sin(angle))
# self.orbitalbase.ri = -0.013
# game.objects.append( self.orbitalbase )
self.player = None