def __init__(self, g, winSurfObj):
self.g = g
self.windowSurfaceObj = winSurfObj
self.myFontRenderer = FontRenderer()
self.loadGraphics()
# Load sound effects
self.soundPlayerShoot = pygame.mixer.Sound('playershoot.wav')
self.playerFrame = 0
self.playerShootFrame = 0
self.playerAnimationCounter = 0
def __init__(self, game):
self.game = game
self.sceneArea = pygame.Surface(SCENEAREA, pygame.HWSURFACE, 32)
self.messageArea = pygame.Surface(MESSAGEAREA, pygame.HWSURFACE, 32)
flags = pygame.HWSURFACE
self.screen = pygame.display.set_mode(RESOLUTION, flags, 32)
self.screen.blit(self.sceneArea, (0, 0))
self.screen.blit(self.messageArea, (0, SCENEAREA[1]))
self.screen.fill(cBlack)
self.fontCache = FontRenderer()
def __init__(self, g, winSurfObj):
self.g = g
self.windowSurfaceObj = winSurfObj
self.myFontRenderer = FontRenderer()
self.loadGraphics()
# Load sound effects
self.soundPlayerShoot = pygame.mixer.Sound('playershoot.wav')
self.playerFrame = 0
self.playerShootFrame = 0
self.playerAnimationCounter = 0
class GameScreen:
def __init__(self, g, winSurfObj):
self.g = g
self.windowSurfaceObj = winSurfObj
self.myFontRenderer = FontRenderer()
self.loadGraphics()
# Load sound effects
self.soundPlayerShoot = pygame.mixer.Sound('playershoot.wav')
self.playerFrame = 0
self.playerShootFrame = 0
self.playerAnimationCounter = 0
def drawIcon(self,surf,x,y):
"Shorthand for blitting icons onto the screen."
self.windowSurfaceObj.blit(surf,(x*ICON_SIZE,y*ICON_SIZE))
def getSurfaceFromIcons(self,x,y):
"Shorhand for creating subsurfaces for the icons"
return self.iconsSurfaceObj.subsurface(pygame.Rect(x*ICON_SIZE,y*ICON_SIZE,ICON_SIZE,ICON_SIZE))
def loadGraphics(self):
"Load and scale graphics."
tempSurfaceObj = pygame.image.load('icons2.png')
(iconsSizex,iconsSizey) = tempSurfaceObj.get_size()
self.iconsSurfaceObj = pygame.transform.scale(tempSurfaceObj,(SCALE_FACTOR*iconsSizex,SCALE_FACTOR*iconsSizey))
self.sandyWalkSurfObj = []
self.sandyShootSurfObj = []
self.sandyWalkSurfObj.append(pygame.transform.scale(pygame.image.load('sandy0.png'),(ICON_SIZE,ICON_SIZE)))
self.sandyWalkSurfObj.append(pygame.transform.scale(pygame.image.load('sandy1.png'),(ICON_SIZE,ICON_SIZE)))
self.sandyShootSurfObj.append(pygame.transform.scale(pygame.image.load('sandy2.png'),(ICON_SIZE,ICON_SIZE)))
self.sandyShootSurfObj.append(pygame.transform.scale(pygame.image.load('sandy3.png'),(ICON_SIZE,ICON_SIZE)))
self.insectoidSurfObj = [self.getSurfaceFromIcons(0,0),
self.getSurfaceFromIcons(1,0),
self.getSurfaceFromIcons(2,0)]
self.sandyBigShotSurfObj = self.getSurfaceFromIcons(3,1)
self.sandySmallShotSurfObj = self.getSurfaceFromIcons(3,2)
self.skullSurfaceObj = self.getSurfaceFromIcons(4,0)
self.dirtSurfaceObj = self.getSurfaceFromIcons(0,2)
self.brickSurfObjs = []
self.brickSurfObjs.append(self.getSurfaceFromIcons(0,5))
self.brickSurfObjs.append(self.getSurfaceFromIcons(1,4))
self.derpBossSurfObj = []
self.derpBossSurfObj.append(pygame.transform.scale(pygame.image.load('derpboss0.png'),(ICON_SIZE*2,ICON_SIZE*2)))
self.derpBossSurfObj.append(pygame.transform.scale(pygame.image.load('derpboss1.png'),(ICON_SIZE*2,ICON_SIZE*2)))
def animate(self):
self.playerAnimationCounter = (self.playerAnimationCounter + 1) % 600
if self.g.player.isWalking:
if (self.playerAnimationCounter % 6 == 0):
self.playerFrame = 1 - self.playerFrame
else:
self.playerFrame = 0
if (self.playerAnimationCounter % 5 == 0):
self.playerShootFrame = 1- self.playerShootFrame
for i in self.g.currentRoom.monsterList:
i.animCounter = (i.animCounter + 1) % 60
i.frameNumber = (i.animCounter % (i.numberOfFrames * 4)) /4
def render(self):
offsetx = SCREEN_WIDTH/2 - self.g.player.rect.centerx
offsety = SCREEN_HEIGHT/2 - self.g.player.rect.centery
#want to require that
#0 >= xoffs >= SCREEN_WIDTH - self.g.currentRoom.width
#0 >= yoffs >= SCREEN_HEIGHT - self.g.currentRoom.height
offsetx = min(offsetx, 0)
offsetx = max(SCREEN_WIDTH - self.g.currentRoom.width, offsetx)
offsety = min(offsety, 0)
offsety = max(SCREEN_HEIGHT -self.g.currentRoom.height, offsety)
self.offset = (offsetx, offsety)
self.animate()
self.drawScene()
self.drawObjects()
self.drawPlayer()
self.displayScore()
def drawObjects(self):
for i in self.g.currentRoom.monsterList:
if isinstance(i,Insectoid):
self.windowSurfaceObj.blit(self.insectoidSurfObj[i.frameNumber], i.rect.move(self.offset))
elif isinstance(i,DerpBoss):
self.windowSurfaceObj.blit(self.derpBossSurfObj[i.frameNumber], i.rect.move(self.offset))
for s in self.g.currentRoom.playerShotList:
if self.g.player.hasBigWeapon:
srf = self.sandyBigShotSurfObj
else:
srf = self.sandySmallShotSurfObj
if s.dir == -1:
srf = pygame.transform.flip(srf, True, False)
self.windowSurfaceObj.blit(srf, s.rect.move(self.offset))
def drawPlayer(self):
p = self.g.player
if p.isShooting and self.playerShootFrame == 1 and self.playerAnimationCounter % 5 == 0:
self.soundPlayerShoot.stop()
self.soundPlayerShoot.play()
self.g.spawnShot(p.rect.copy(), p.dir)
if (not p.canBeHurt) and (self.playerAnimationCounter % 4 < 2):
return
if p.isShooting:
if p.dir == -1:
self.windowSurfaceObj.blit(self.sandyShootSurfObj[self.playerShootFrame], p.rect.move(self.offset))
else:
self.windowSurfaceObj.blit(pygame.transform.flip(self.sandyShootSurfObj[self.playerShootFrame],True,False), p.rect.move(self.offset))
else:
if p.dir == -1:
self.windowSurfaceObj.blit(self.sandyWalkSurfObj[self.playerFrame], p.rect.move(self.offset))
else:
self.windowSurfaceObj.blit(pygame.transform.flip(self.sandyWalkSurfObj[self.playerFrame],True,False), p.rect.move(self.offset))
def drawScene(self):
# fill background
self.windowSurfaceObj.fill(pygame.Color(25,5,5)) #68,124,209))
#if outside, draw tap and update falling items
#if isOutside:
for y in range(0,len(self.g.currentRoom)):
for x in range(0,len(self.g.currentRoom[0])):
rect = pygame.Rect((x*ICON_SIZE,y*ICON_SIZE), (ICON_SIZE,ICON_SIZE)).move(self.offset)
if rect.bottom<0 or rect.top >= SCREEN_HEIGHT or rect.left >= SCREEN_WIDTH or rect.right < 0:
continue
if self.g.currentRoom[y][x] == "1":
self.windowSurfaceObj.blit(self.brickSurfObjs[0], rect)
if self.g.currentRoom[y][x] == "2":
self.windowSurfaceObj.blit(self.skullSurfaceObj, rect)
if self.g.currentRoom[y][x] == "3":
self.windowSurfaceObj.blit(self.dirtSurfaceObj, rect)
def displayScore(self):
charSize = 16
#print health at top of screen
self.windowSurfaceObj.fill(pygame.Color(0,0,0),Rect(0,0,16*ICON_SIZE, ICON_SIZE))
#print health
scoreTextx = ((16*ICON_SIZE/2)-6*charSize)/2
scoreTexty = 0
self.myFontRenderer.render(self.windowSurfaceObj,(scoreTextx,scoreTexty),"HEALTH")
scoreWidth = charSize * len(str(self.g.player.health))
scorex = ((16*ICON_SIZE/2)-scoreWidth)/2
scorey = scoreTexty+charSize
self.myFontRenderer.render(self.windowSurfaceObj,(scorex,scorey),str(self.g.player.health))
#
#print FPS
timeTextx = (16*ICON_SIZE - 3*charSize)/2
timeTexty = 0
self.myFontRenderer.render(self.windowSurfaceObj,(timeTextx,timeTexty),"FPS")
ms = self.g.msSinceUpdate
FPS = str(int(round(1000.0/ms)))
timeWidth = charSize * len(FPS)
timeLeftx = (16*ICON_SIZE-timeWidth)/2
timeLefty = charSize
self.myFontRenderer.render(self.windowSurfaceObj,(timeLeftx,timeLefty),FPS)
#
##print hiscore
#hiscoreTextx = 16*ICON_SIZE/2 + ((16*ICON_SIZE/2)-7*charSize)/2
#hiscoreTexty =0
#myFontRenderer.render(self.windowSurfaceObj,(hiscoreTextx,hiscoreTexty),"HISCORE")
#
#hiscoreWidth = charSize * len(str(hiscore))
#hiscorex = 16*ICON_SIZE/2+((16*ICON_SIZE/2)-hiscoreWidth)/2
#hiscorey = hiscoreTexty+charSize
#myFontRenderer.render(self.windowSurfaceObj,(hiscorex,hiscorey),str(hiscore))
#
#draw water bar
#waterBarx = charSize
#waterBary = charSize * 2
#waterBarMaxLength = 16*ICON_SIZE-2*charSize
#waterBarLength = int(round(waterBarMaxLength * self.player.water/MAX_WATER))
#waterBarRect = Rect(waterBarx,waterBary, waterBarLength, charSize)
#windowSurfaceObj.fill(pygame.Color(20,20,240),waterBarRect)
#pygame.draw.rect(windowSurfaceObj,(210,210,210),Rect(waterBarx,waterBary,waterBarMaxLength,charSize),2)
#draw pellets
#pelletsPosx = (16*ICON_SIZE-6*charSize)/2
#pelletsPosy = charSize * 3
#windowSurfaceObj.blit(pelletSurfaceObj,(pelletsPosx,pelletsPosy-charSize))
#myFontRenderer.render(windowSurfaceObj,(pelletsPosx+ICON_SIZE,pelletsPosy),"="+str(self.player.pellets))
def showTitleScreen(self):
"Show title screen and wait for player to press space."
# fill background black
self.windowSurfaceObj.fill(pygame.Color(0,0,0))
# print some text
self.myFontRenderer.render(self.windowSurfaceObj, (20,20), " Sandy returns")
self.myFontRenderer.render(self.windowSurfaceObj, (20,40), " in ")
self.myFontRenderer.render(self.windowSurfaceObj, (20,80), " :: Project Planetoid ::")
self.myFontRenderer.render(self.windowSurfaceObj, (20,120), " Keys: Left Right Up Space")
self.myFontRenderer.render(self.windowSurfaceObj, (20,140)," Press space to play!")
# msgSurfaceObj = fontObj.render("Sandy's Sunflowers",False,pygame.Color(20,200,20))
# msgRectObj = msgSurfaceObj.get_rect()
# msgRectObj.centerx = windowSurfaceObj.get_rect().centerx
# msgRectObj.centery = 20
# windowSurfaceObj.blit(msgSurfaceObj, msgRectObj)
# msgSurfaceObj = fontObj.render("Press space to play",False,pygame.Color(20,200,20))
# msgRectObj = msgSurfaceObj.get_rect()
# msgRectObj.centerx = windowSurfaceObj.get_rect().centerx
# msgRectObj.centery = 50
# windowSurfaceObj.blit(msgSurfaceObj, msgRectObj)
isWaiting = True
waitClock = pygame.time.Clock()
while isWaiting:
for event in pygame.event.get():
if event.type == QUIT or event.type==KEYDOWN and event.key==K_ESCAPE:
pygame.quit()
sys.exit()
elif event.type==KEYDOWN:
if event.key==K_SPACE:
isWaiting = False
pygame.display.update()
waitClock.tick(30)
def showGameOverScreen(self):
isWaiting = True
waitClock = pygame.time.Clock()
counter = 0
while isWaiting:
self.drawScene()
self.displayScore()
msg="GAME OVER!"
self.myFontRenderer.render(self.windowSurfaceObj,((SCREEN_WIDTH-len(msg)*16)/2, SCREEN_HEIGHT/2-8), msg)
counter = min(counter + 1, 120)
for event in pygame.event.get():
if event.type == QUIT or event.type == KEYDOWN and event.key == K_ESCAPE:
pygame.quit()
sys.exit()
elif event.type==KEYDOWN:
if event.key==K_SPACE and counter>=120:
isWaiting=False
pygame.display.update()
waitClock.tick(FPS)
class GameScreen:
def __init__(self, g, winSurfObj):
self.g = g
self.windowSurfaceObj = winSurfObj
self.myFontRenderer = FontRenderer()
self.loadGraphics()
# Load sound effects
self.soundPlayerShoot = pygame.mixer.Sound('playershoot.wav')
self.playerFrame = 0
self.playerShootFrame = 0
self.playerAnimationCounter = 0
def drawIcon(self, surf, x, y):
"Shorthand for blitting icons onto the screen."
self.windowSurfaceObj.blit(surf, (x * ICON_SIZE, y * ICON_SIZE))
def getSurfaceFromIcons(self, x, y):
"Shorhand for creating subsurfaces for the icons"
return self.iconsSurfaceObj.subsurface(
pygame.Rect(x * ICON_SIZE, y * ICON_SIZE, ICON_SIZE, ICON_SIZE))
def loadGraphics(self):
"Load and scale graphics."
tempSurfaceObj = pygame.image.load('icons2.png')
(iconsSizex, iconsSizey) = tempSurfaceObj.get_size()
self.iconsSurfaceObj = pygame.transform.scale(
tempSurfaceObj,
(SCALE_FACTOR * iconsSizex, SCALE_FACTOR * iconsSizey))
self.sandyWalkSurfObj = []
self.sandyShootSurfObj = []
self.sandyWalkSurfObj.append(
pygame.transform.scale(pygame.image.load('sandy0.png'),
(ICON_SIZE, ICON_SIZE)))
self.sandyWalkSurfObj.append(
pygame.transform.scale(pygame.image.load('sandy1.png'),
(ICON_SIZE, ICON_SIZE)))
self.sandyShootSurfObj.append(
pygame.transform.scale(pygame.image.load('sandy2.png'),
(ICON_SIZE, ICON_SIZE)))
self.sandyShootSurfObj.append(
pygame.transform.scale(pygame.image.load('sandy3.png'),
(ICON_SIZE, ICON_SIZE)))
self.insectoidSurfObj = [
self.getSurfaceFromIcons(0, 0),
self.getSurfaceFromIcons(1, 0),
self.getSurfaceFromIcons(2, 0)
]
self.sandyBigShotSurfObj = self.getSurfaceFromIcons(3, 1)
self.sandySmallShotSurfObj = self.getSurfaceFromIcons(3, 2)
self.skullSurfaceObj = self.getSurfaceFromIcons(4, 0)
self.dirtSurfaceObj = self.getSurfaceFromIcons(0, 2)
self.brickSurfObjs = []
self.brickSurfObjs.append(self.getSurfaceFromIcons(0, 5))
self.brickSurfObjs.append(self.getSurfaceFromIcons(1, 4))
self.derpBossSurfObj = []
self.derpBossSurfObj.append(
pygame.transform.scale(pygame.image.load('derpboss0.png'),
(ICON_SIZE * 2, ICON_SIZE * 2)))
self.derpBossSurfObj.append(
pygame.transform.scale(pygame.image.load('derpboss1.png'),
(ICON_SIZE * 2, ICON_SIZE * 2)))
def animate(self):
self.playerAnimationCounter = (self.playerAnimationCounter + 1) % 600
if self.g.player.isWalking:
if (self.playerAnimationCounter % 6 == 0):
self.playerFrame = 1 - self.playerFrame
else:
self.playerFrame = 0
if (self.playerAnimationCounter % 5 == 0):
self.playerShootFrame = 1 - self.playerShootFrame
for i in self.g.currentRoom.monsterList:
i.animCounter = (i.animCounter + 1) % 60
i.frameNumber = (i.animCounter % (i.numberOfFrames * 4)) / 4
def render(self):
offsetx = SCREEN_WIDTH / 2 - self.g.player.rect.centerx
offsety = SCREEN_HEIGHT / 2 - self.g.player.rect.centery
#want to require that
#0 >= xoffs >= SCREEN_WIDTH - self.g.currentRoom.width
#0 >= yoffs >= SCREEN_HEIGHT - self.g.currentRoom.height
offsetx = min(offsetx, 0)
offsetx = max(SCREEN_WIDTH - self.g.currentRoom.width, offsetx)
offsety = min(offsety, 0)
offsety = max(SCREEN_HEIGHT - self.g.currentRoom.height, offsety)
self.offset = (offsetx, offsety)
self.animate()
self.drawScene()
self.drawObjects()
self.drawPlayer()
self.displayScore()
def drawObjects(self):
for i in self.g.currentRoom.monsterList:
if isinstance(i, Insectoid):
self.windowSurfaceObj.blit(
self.insectoidSurfObj[i.frameNumber],
i.rect.move(self.offset))
elif isinstance(i, DerpBoss):
self.windowSurfaceObj.blit(self.derpBossSurfObj[i.frameNumber],
i.rect.move(self.offset))
for s in self.g.currentRoom.playerShotList:
if self.g.player.hasBigWeapon:
srf = self.sandyBigShotSurfObj
else:
srf = self.sandySmallShotSurfObj
if s.dir == -1:
srf = pygame.transform.flip(srf, True, False)
self.windowSurfaceObj.blit(srf, s.rect.move(self.offset))
def drawPlayer(self):
p = self.g.player
if p.isShooting and self.playerShootFrame == 1 and self.playerAnimationCounter % 5 == 0:
self.soundPlayerShoot.stop()
self.soundPlayerShoot.play()
self.g.spawnShot(p.rect.copy(), p.dir)
if (not p.canBeHurt) and (self.playerAnimationCounter % 4 < 2):
return
if p.isShooting:
if p.dir == -1:
self.windowSurfaceObj.blit(
self.sandyShootSurfObj[self.playerShootFrame],
p.rect.move(self.offset))
else:
self.windowSurfaceObj.blit(
pygame.transform.flip(
self.sandyShootSurfObj[self.playerShootFrame], True,
False), p.rect.move(self.offset))
else:
if p.dir == -1:
self.windowSurfaceObj.blit(
self.sandyWalkSurfObj[self.playerFrame],
p.rect.move(self.offset))
else:
self.windowSurfaceObj.blit(
pygame.transform.flip(
self.sandyWalkSurfObj[self.playerFrame], True, False),
p.rect.move(self.offset))
def drawScene(self):
# fill background
self.windowSurfaceObj.fill(pygame.Color(25, 5, 5)) #68,124,209))
#if outside, draw tap and update falling items
#if isOutside:
for y in range(0, len(self.g.currentRoom)):
for x in range(0, len(self.g.currentRoom[0])):
rect = pygame.Rect((x * ICON_SIZE, y * ICON_SIZE),
(ICON_SIZE, ICON_SIZE)).move(self.offset)
if rect.bottom < 0 or rect.top >= SCREEN_HEIGHT or rect.left >= SCREEN_WIDTH or rect.right < 0:
continue
if self.g.currentRoom[y][x] == "1":
self.windowSurfaceObj.blit(self.brickSurfObjs[0], rect)
if self.g.currentRoom[y][x] == "2":
self.windowSurfaceObj.blit(self.skullSurfaceObj, rect)
if self.g.currentRoom[y][x] == "3":
self.windowSurfaceObj.blit(self.dirtSurfaceObj, rect)
def displayScore(self):
charSize = 16
#print health at top of screen
self.windowSurfaceObj.fill(pygame.Color(0, 0, 0),
Rect(0, 0, 16 * ICON_SIZE, ICON_SIZE))
#print health
scoreTextx = ((16 * ICON_SIZE / 2) - 6 * charSize) / 2
scoreTexty = 0
self.myFontRenderer.render(self.windowSurfaceObj,
(scoreTextx, scoreTexty), "HEALTH")
scoreWidth = charSize * len(str(self.g.player.health))
scorex = ((16 * ICON_SIZE / 2) - scoreWidth) / 2
scorey = scoreTexty + charSize
self.myFontRenderer.render(self.windowSurfaceObj, (scorex, scorey),
str(self.g.player.health))
#
#print FPS
timeTextx = (16 * ICON_SIZE - 3 * charSize) / 2
timeTexty = 0
self.myFontRenderer.render(self.windowSurfaceObj,
(timeTextx, timeTexty), "FPS")
ms = self.g.msSinceUpdate
FPS = str(int(round(1000.0 / ms)))
timeWidth = charSize * len(FPS)
timeLeftx = (16 * ICON_SIZE - timeWidth) / 2
timeLefty = charSize
self.myFontRenderer.render(self.windowSurfaceObj,
(timeLeftx, timeLefty), FPS)
#
##print hiscore
#hiscoreTextx = 16*ICON_SIZE/2 + ((16*ICON_SIZE/2)-7*charSize)/2
#hiscoreTexty =0
#myFontRenderer.render(self.windowSurfaceObj,(hiscoreTextx,hiscoreTexty),"HISCORE")
#
#hiscoreWidth = charSize * len(str(hiscore))
#hiscorex = 16*ICON_SIZE/2+((16*ICON_SIZE/2)-hiscoreWidth)/2
#hiscorey = hiscoreTexty+charSize
#myFontRenderer.render(self.windowSurfaceObj,(hiscorex,hiscorey),str(hiscore))
#
#draw water bar
#waterBarx = charSize
#waterBary = charSize * 2
#waterBarMaxLength = 16*ICON_SIZE-2*charSize
#waterBarLength = int(round(waterBarMaxLength * self.player.water/MAX_WATER))
#waterBarRect = Rect(waterBarx,waterBary, waterBarLength, charSize)
#windowSurfaceObj.fill(pygame.Color(20,20,240),waterBarRect)
#pygame.draw.rect(windowSurfaceObj,(210,210,210),Rect(waterBarx,waterBary,waterBarMaxLength,charSize),2)
#draw pellets
#pelletsPosx = (16*ICON_SIZE-6*charSize)/2
#pelletsPosy = charSize * 3
#windowSurfaceObj.blit(pelletSurfaceObj,(pelletsPosx,pelletsPosy-charSize))
#myFontRenderer.render(windowSurfaceObj,(pelletsPosx+ICON_SIZE,pelletsPosy),"="+str(self.player.pellets))
def showTitleScreen(self):
"Show title screen and wait for player to press space."
# fill background black
self.windowSurfaceObj.fill(pygame.Color(0, 0, 0))
# print some text
self.myFontRenderer.render(self.windowSurfaceObj, (20, 20),
" Sandy returns")
self.myFontRenderer.render(self.windowSurfaceObj, (20, 40),
" in ")
self.myFontRenderer.render(self.windowSurfaceObj, (20, 80),
" :: Project Planetoid ::")
self.myFontRenderer.render(self.windowSurfaceObj, (20, 120),
" Keys: Left Right Up Space")
self.myFontRenderer.render(self.windowSurfaceObj, (20, 140),
" Press space to play!")
# msgSurfaceObj = fontObj.render("Sandy's Sunflowers",False,pygame.Color(20,200,20))
# msgRectObj = msgSurfaceObj.get_rect()
# msgRectObj.centerx = windowSurfaceObj.get_rect().centerx
# msgRectObj.centery = 20
# windowSurfaceObj.blit(msgSurfaceObj, msgRectObj)
# msgSurfaceObj = fontObj.render("Press space to play",False,pygame.Color(20,200,20))
# msgRectObj = msgSurfaceObj.get_rect()
# msgRectObj.centerx = windowSurfaceObj.get_rect().centerx
# msgRectObj.centery = 50
# windowSurfaceObj.blit(msgSurfaceObj, msgRectObj)
isWaiting = True
waitClock = pygame.time.Clock()
while isWaiting:
for event in pygame.event.get():
if event.type == QUIT or event.type == KEYDOWN and event.key == K_ESCAPE:
pygame.quit()
sys.exit()
elif event.type == KEYDOWN:
if event.key == K_SPACE:
isWaiting = False
pygame.display.update()
waitClock.tick(30)
def showGameOverScreen(self):
isWaiting = True
waitClock = pygame.time.Clock()
counter = 0
while isWaiting:
self.drawScene()
self.displayScore()
msg = "GAME OVER!"
self.myFontRenderer.render(
self.windowSurfaceObj,
((SCREEN_WIDTH - len(msg) * 16) / 2, SCREEN_HEIGHT / 2 - 8),
msg)
counter = min(counter + 1, 120)
for event in pygame.event.get():
if event.type == QUIT or event.type == KEYDOWN and event.key == K_ESCAPE:
pygame.quit()
sys.exit()
elif event.type == KEYDOWN:
if event.key == K_SPACE and counter >= 120:
isWaiting = False
pygame.display.update()
waitClock.tick(FPS)
class GameScreen(object):
def __init__(self, game):
self.game = game
self.sceneArea = pygame.Surface(SCENEAREA, pygame.HWSURFACE, 32)
self.messageArea = pygame.Surface(MESSAGEAREA, pygame.HWSURFACE, 32)
flags = pygame.HWSURFACE
self.screen = pygame.display.set_mode(RESOLUTION, flags, 32)
self.screen.blit(self.sceneArea, (0, 0))
self.screen.blit(self.messageArea, (0, SCENEAREA[1]))
self.screen.fill(cBlack)
self.fontCache = FontRenderer()
def createTileSurface(self, tile):
s = pygame.Surface((TILESIZE, TILESIZE), pygame.HWSURFACE, 32)
sText = self.fontCache.render(tile.char, tile.color)
rectText = sText.get_rect()
rectText.center = s.get_rect().center
s.fill((tile.bgcolor))
s.blit(sText, rectText)
return s
def drawTiles(self,screen, worldmap, cameraPosition):
for row in xrange(len(worldmap)):
for column in xrange(len(worldmap[0])):
tile = worldmap[row][column]
absolute_pos = self.getAbsolutposition(tile.position, cameraPosition)
surfTile = self.createTileSurface(tile)
screen.blit(surfTile, absolute_pos)
def drawItems(self,screen, items,cameraPosition):
if items:
self.drawObject(screen,items,cameraPosition)
def drawObject(self,screen,objToDisplay,cameraPosition):
for obj in objToDisplay:
s = pygame.Surface((TILESIZE, TILESIZE), pygame.HWSURFACE, 32)
sText = self.fontCache.render(obj.char, obj.color)
rectText = sText.get_rect()
rectText.center = s.get_rect().center
s.blit(sText, rectText)
screen.blit(s, self.getAbsolutposition(obj.position, cameraPosition))
def drawPlayers(self, screen, movingObj, player, cameraPosition):
if len(movingObj) > 0:
objToDisplay = movingObj[:]
objToDisplay.append(player)
else:
objToDisplay = [player]
self.drawObject(screen,objToDisplay,cameraPosition)
def redraw(self):
# redraw messageArea = Inventory / Message / etc.
# redraw Tiles and Objects
cameraPosition = self.game.player.position
self.drawTiles(self.screen,self.game.worldmap, self.game.player.position)
self.drawItems(self.screen,self.game.items, self.game.player.position)
self.drawPlayers(self.screen, self.game.movingObject, self.game.player, cameraPosition)
def getAbsolutposition(self, position, centerPosition):
x, y = position
ox,oy = centerPosition
return (x - ox + MAPWIDTH / 2) * TILESIZE, (y - oy + MAPHEIGHT / 2) * TILESIZE
