else/Dodgy/dodgy.py
2014-10-14 00:34:59 -07:00

434 lines
No EOL
12 KiB
Python

#14 October 12:33
import tkinter
from tkinter import Tk, Label, Frame
import random
class tgame:
def __init__(self):
tkvar = Tk()
tkvar.wm_title("Dodgy")
tkvar.iconbitmap('Excl.ico')
arenasize = 40
self.xpos = int((arenasize-1)/2)
self.ypos = int((arenasize-1)/2)
self.data = ['#'*arenasize, '#'*arenasize]
for x in range(arenasize-2):
self.data[1:1] = ['#' + '.'*(arenasize-2) + '#']
self.labelframe = Frame(tkvar)
self.labelframe.grid(row=1, column=0, columnspan=100)
#Allows me to center the gui units
self.datalabel = Label(tkvar, text='\n'.join(self.data), font=('Terminal', 10))
self.datalabel.grid(row=0, column=0, columnspan=100)
self.stepslabel = Label(self.labelframe, text='0', font=('Consolas', 10))
self.stepslabel.grid(row=0, column=0)
self.collectlabel = Label(self.labelframe, text='0', font=('Consolas', 10), bg="#ccc")
self.collectlabel.grid(row=0, column=1)
self.bomblabel = Label(self.labelframe, text='0', font=('Consolas', 10))
self.bomblabel.grid(row=0, column=2)
self.phantlabel = Label(self.labelframe, text='0',font=('Consolas', 10), bg="#ccc")
self.phantlabel.grid(row=0, column=3)
self.poslabel = Label(self.labelframe, text=str(self.xpos) + " " + str(self.ypos), font=('Consolas', 10))
self.poslabel.grid(row=0, column=4)
self.helplabel = Label(tkvar, text="Press H for help ->", font=('Consolas', 8))
self.helplabel.grid(row=2, column=0, columnspan=100)
tkvar.bind('w', lambda data=self.data: mfresh(ymove=-1))
tkvar.bind('<Up>', lambda data=self.data: mfresh(ymove=-1))
tkvar.bind('s', lambda data=self.data: mfresh(ymove=1))
tkvar.bind('<Down>', lambda data=self.data: mfresh(ymove=1))
tkvar.bind('a', lambda data=self.data: mfresh(xmove=-1))
tkvar.bind('<Left>', lambda data=self.data: mfresh(xmove=-1))
tkvar.bind('d', lambda data=self.data: mfresh(xmove=1))
tkvar.bind('<Right>', lambda data=self.data: mfresh(xmove=1))
#tkvar.bind('c', lambda data=self.data: spawncandy())
tkvar.bind('j', lambda data=self.data: spawnbomb())
tkvar.bind('z', lambda data=self.data: spawnbomb())
tkvar.bind('k', lambda data=self.data: spawnphantom())
tkvar.bind('x', lambda data=self.data: spawnphantom())
tkvar.bind('r', lambda data=self.data: restart())
tkvar.bind('h', lambda data=self.data: helpreel())
tkvar.bind('<Control-w>', quit)
self.candylist = []
self.enemylist = []
self.bomblist = []
self.phantomlist = []
self.entlist = []
self.symbols = {'char':'H', 'wall':'#', 'floor':' '}
self.stepstaken = 0
self.collections = 0
self.bombs = 0
self.enemyspawnrate = 50
self.enemyspawnmindist = 6
self.enemydocollide = False
self.candyspawnrate = 4
self.isdeath = False
self.bombcost = 4
self.phantomcost = 100
self.helplabelindex = -1
self.helplabeltexts = [
"<WASD>=Movement <J>=Bomb <K>=Phantom <R>=Restart ->",
"<UDLR>=Movement <Z>=Bomb <X>=Phantom <R>=Restart ->",
"<LMB>=Movement <RMB>=Bomb <MMB>=Phantom/Restart ->",
self.symbols['char'] + " = You ->",
enemy.symbol + " = Exclamator ->",
candy.symbol + " = Candy ->",
bomb.symbol + " = Bomb ->",
"Avoid the Exclamators ->",
"Collect candy to earn bombs ->",
"Drop bombs to snare Exclamators ->",
"Deploy phantoms to distract Exclamators ->",
"Deploying phantom will consume all candy ->",
"More candy consumed = longer phantom lifespan ->",
"Enjoy •"]
def mfresh(xmove=0, ymove=0):
if not self.isdeath:
#print(self.xpos, self.ypos, "==> ", end="")
hasmoved = False
if xmove != 0:
if (self.xpos > 1 or xmove > 0) and (self.xpos < (arenasize -2) or xmove < 0):
self.xpos += xmove
if self.phantomlist != []:
ph = self.phantomlist[0]
ph.x -= xmove
if ph.x < 1:
ph.x = 1
if ph.x > (arenasize-2):
ph.x = arenasize-2
hasmoved = True
if ymove != 0:
if (self.ypos > 1 or ymove > 0) and (self.ypos < (arenasize -2) or ymove < 0):
self.ypos += ymove
if self.phantomlist != []:
ph = self.phantomlist[0]
ph.y -= ymove
if ph.y < 1:
ph.y = 1
if ph.y > (arenasize-2):
ph.y = arenasize-2
hasmoved = True
if hasmoved:
if self.phantomlist != []:
ph = self.phantomlist[0]
ph.lifespan -= 1
if ph.lifespan <= 0:
self.phantomlist.remove(ph)
self.entlist.remove(ph)
del ph
#print(self.xpos, self.ypos, '|', self.stepstaken)
self.data = [self.symbols['wall']*arenasize, self.symbols['wall']*arenasize]
for x in range(arenasize-2):
self.data[1:1] = [self.symbols['wall'] + self.symbols['floor']*(arenasize-2) + self.symbols['wall']]
for candies in self.candylist:
if candies.x == self.xpos and candies.y == self.ypos:
#print('Collection')
collect(1)
self.candylist.remove(candies)
self.entlist.remove(candies)
del candies
for enemies in self.enemylist:
if enemies.x == self.xpos and enemies.y == self.ypos:
print('[ ' + self.symbols['char'] + ' ] Death')
self.isdeath = True
self.datalabel.configure(fg='Red')
if hasmoved:
self.stepstaken += 1
if self.stepstaken % self.candyspawnrate == 0:
spawncandy()
if self.stepstaken % self.enemyspawnrate == 0:
spawnenemy()
for x in range(self.stepstaken // 200):
spawnenemy()
for en in self.enemylist:
oldx = en.x
oldy = en.y
if self.phantomlist == []:
en.approach(self.xpos, self.ypos)
else:
ph = self.phantomlist[0]
en.approach(ph.x, ph.y)
if self.enemydocollide:
for otheren in self.enemylist:
if en != otheren:
if en.x == otheren.x and en.y == otheren.y:
print('[ ' + enemy.symbol + ' ] Enemy collision at', en.x, en.y)
en.x = oldx
en.y = oldy
#print(dist(en.x, en.y, self.xpos, self.ypos))
if en.x < 1:
en.x = 1
if en.x > (arenasize-2):
en.x = arenasize-2
if en.y < 1:
en.y = 1
if en.y > (arenasize-2):
en.y = arenasize-2
mfresh()
for bombs in self.bomblist:
for enemies in self.enemylist:
if enemies.x == bombs.x and enemies.y == bombs.y:
self.bomblist.remove(bombs)
self.enemylist.remove(enemies)
self.entlist.remove(bombs)
self.entlist.remove(enemies)
print('[ ' + bomb.symbol + ' ] Bang')
mfresh()
for ycoord in range(len(self.data)):
yl = self.data[ycoord]
if ycoord == self.ypos:
#print(ycoord)
yl = yl[:self.xpos] + self.symbols['char'] + yl[self.xpos+1:]
#print(yl)
self.entlist.sort(key=lambda p: p.x)
for entities in self.entlist:
if entities.y == ycoord:
yl = yl[:entities.x] + entities.symbol + yl[entities.x+1:]
self.data[ycoord] = yl
self.datalabel.configure(text='\n'.join(self.data))
self.stepslabel.configure(text=str(self.stepstaken) + " steps")
self.collectlabel.configure(text=str(self.collections) + " candy")
self.bomblabel.configure(text=str(self.bombs) + " bombs")
self.poslabel.configure(text=str(self.xpos) + " " + str(self.ypos))
if self.collections >= self.phantomcost:
self.phantlabel.configure(text='1 phantom')
else:
self.phantlabel.configure(text='0 phantom')
def translatemouse(event, middlemouse=False):
event.x -= 9
event.y -= 9
#485
event.x /= 8
event.y /= 12
#spawncandy(round(event.x), round(event.y))
#print(event.x, event.y)
xdif = event.x - self.xpos
ydif = event.y - self.ypos
if abs(xdif) >= 0.5 or abs(ydif) >= 0.5:
if abs(xdif) >= abs(ydif):
xdif /= abs(xdif)
xdif = int(xdif)
mfresh(xmove= xdif)
else:
ydif /= abs(ydif)
ydif = int(ydif)
mfresh(ymove= ydif)
def middlemouse():
if self.isdeath:
restart()
else:
spawnphantom()
tkvar.bind('<Button-1>', translatemouse)
tkvar.bind('<Button-2>', lambda data=self.data: middlemouse())
tkvar.bind('<Button-3>', lambda data=self.data: spawnbomb())
def helpreel():
self.helplabelindex += 1
if self.helplabelindex > (len(self.helplabeltexts) - 1):
self.helplabelindex = 0
self.helplabel.configure(text=self.helplabeltexts[self.helplabelindex])
def collect(score):
for x in range(score):
self.collections += 1
if self.collections % self.bombcost == 0:
self.bombs += 1
def spawnbomb():
goodtogo = True
for bombs in self.bomblist:
if bombs.x == self.xpos and bombs.y == self.ypos:
goodtogo = False
if goodtogo:
if self.bombs > 0:
self.bombs -= 1
newbomb = bomb(self.xpos, self.ypos)
self.bomblist.append(newbomb)
self.entlist.append(newbomb)
mfresh()
def spawnphantom():
goodtogo = True
if self.collections < self.phantomcost:
print('[ ] Not enough Candy. ' + str(self.collections) + '/' + str(self.phantomcost) + '. -' + str(self.phantomcost-self.collections))
goodtogo = False
if self.phantomlist != []:
goodtogo = False
if goodtogo:
life = 15
self.collections = 0
life += round(self.collections / 3)
print('[ ' + self.symbols['char'] + ' ] New phantom with ' + str(life) + ' life')
newphantom = phantom(self.xpos, self.ypos, life)
self.phantomlist.append(newphantom)
self.entlist.append(newphantom)
mfresh()
def spawncandy(forcex=None, forcey=None):
goodtogo = True
if forcex == None or forcey == None:
newx = random.randint(1, arenasize-2)
newy = random.randint(1, arenasize-2)
else:
newx = forcex
newy = forcey
if self.xpos == newx and self.ypos == newy:
goodtogo = False
if goodtogo:
for candies in self.candylist:
if candies.x == newx and candies.y == newy:
goodtogo = False
if goodtogo:
print('[ ' + candy.symbol + ' ] New candy at', newx, newy)
newcan = candy(newx, newy)
self.candylist.append(newcan)
self.entlist.append(newcan)
mfresh()
def spawnenemy():
newx = random.randint(1, arenasize-2)
newy = random.randint(1, arenasize-2)
goodtogo = True
spawntries = 0
while (dist(self.xpos, self.ypos, newx, newy) < self.enemyspawnmindist):
newx = random.randint(1, arenasize-2)
newy = random.randint(1, arenasize-2)
spawntries += 1
print('Rerolling from', newx, newy)
if spawntries == 10:
print('Could not spawn enemy')
goodtogo = False
break
if goodtogo:
for ens in self.enemylist:
if ens.x == newx and ens.y == newy:
goodtogo = False
if goodtogo:
print('[ ' + enemy.symbol + ' ] New enemy at', newx, newy)
newen = enemy(newx, newy, 1)
self.enemylist.append(newen)
self.entlist.append(newen)
mfresh()
def restart():
print('Resetting game.')
self.xpos = int((arenasize-1)/2)
self.ypos = int((arenasize-1)/2)
while self.entlist != []:
del self.entlist[0]
self.candylist = []
self.enemylist = []
self.bomblist = []
self.phantomlist = []
self.entlist = []
self.stepstaken = 0
self.collections = 0
self.bombs = 0
self.isdeath = False
spawncandy()
self.datalabel.configure(fg='Black')
mfresh()
def dist(xa, ya, xb, yb):
#distance formula
result = (xa - xb) **2
result += (ya - yb) ** 2
result = result ** 0.5
result = int(result)
return result
mfresh()
spawncandy()
tkvar.mainloop()
class candy:
symbol = "@"
def __init__(self, x, y):
self.x = x
self.y = y
self.symbol = candy.symbol
class enemy:
symbol = "!"
def __init__(self, x, y, anger):
self.symbol = enemy.symbol
self.x = x
self.y = y
self.anger = anger
self.movementx = 0
self.movementy = 0
def approach(self, targx, targy):
hasmoved = False
xdif = abs(targx - self.x)
ydif = abs(targy - self.y)
if xdif > ydif:
if targx != self.x and hasmoved == False:
self.movementx += int(((targx-self.x) / (abs(targx-self.x))))
if self.movementx > 1:
self.movementx = 1
if self.movementx < -1:
self.movementx = -1
else:
if targy != self.y and hasmoved == False:
self.movementy += int(((targy-self.y) / (abs(targy-self.y))))
if self.movementy > 1:
self.movementy = 1
if self.movementy < -1:
self.movementy = -1
if not hasmoved:
self.x += self.movementx
if not hasmoved:
self.y += self.movementy
class bomb:
symbol = "X"
def __init__(self, x, y):
self.x = x
self.y = y
self.symbol = bomb.symbol
class phantom:
symbol = "H"
def __init__(self, x, y, lifespan):
self.x = x
self.y = y
self.lifespan = lifespan
self.symbol = phantom.symbol
t = tgame()