from random import * import sys,os,math,shutil,json def ex_sql(db_name,request,replace=""): conn = sqlite3.connect(db_name) conn.row_factory=sqlite3.Row # La fonction retourne des dicos et pas des listes cur = conn.cursor() if not replace=="": cur.execute(request,replace) else: cur.execute(request) conn.commit() a = None if "SELECT" in request.upper(): a = cur.fetchall() for i in range(len(a)): a[i] = dict(a[i]) # Convertir les dicos sqlite3 en dico classiques python cur.close() conn.close() return a def drawcenter(game,surface,posx,posy): # Dessine une surface depuis son centre, et non son coin en haut à gauche game.window.blit(surface,(round(posx-surface.get_width()/2),round(posy-surface.get_height()/2))) def blit_text(pygame,surface, text, pos, font, color=[255]*4,center=False): words = [word.split(' ') for word in text.splitlines()] # Liste qui contient tout les mots colors = {"[orange]":[202,67,0],"[violet]":[202,0,202], "[vert]":[33,202,0],"[rouge]":[246,0,0],"[bleu]":[0,0,255], "[cyan]":[0,200,200] } ''' contact : Orange distance : Violet taunt : Bleu soin : Vert attaque : Rouge joueur : Cyan ''' space = font.size(' ')[0] # La largeur d'un espace max_width, max_height = surface.get_size() x, y = pos linebreak = False linesurf = pygame.Surface(surface.get_size(),pygame.SRCALPHA) for line in words: if linebreak: px = 0 if center: px = (surface.get_width()-x+space)//2 surface.blit(linesurf,(px,0)) linesurf.fill([0]*4) x=pos[0] y+=font.size(' ')[1] linebreak = False for word in line: col = color for j in colors.keys(): if word.find(j)==0: col = colors[j] word = word[word.find(j)+len(j):] word_surface = font.render(word,False,col) word_width = word_surface.get_width() if x+word_width>surface.get_width(): px = 0 if center: px = (surface.get_width()-x+space)//2 surface.blit(linesurf,(px,0)) linesurf.fill([0]*4) x=pos[0] y+=font.size(' ')[1] linesurf.blit(word_surface,(x,y)) x+=word_width+space linebreak = True px = 0 if center: px = (surface.get_width()-x+space)//2 surface.blit(linesurf,(px,0)) linesurf.fill([0]*4) x=pos[0] y+=font.size(' ')[1] class Timer(): # Mannière de gerer les timers pour des espaces de temps flottants def __init__(self,maxcount): self.maxcount = maxcount self.timer = maxcount self.loops = 0 def tick(self,avancement): result = self.timer<=0 self.timer-=avancement if result: self.timer+=self.maxcount self.loops+=1 return result def getloops(self): return self.loops def getmax(self): return self.maxcount def getratio(self): return max(min(1,self.timer/self.maxcount),0) def add(self,amount): self.timer+=amount self.maxcount+=amount def get_save_dir(dirname): path = "" p = sys.platform if p=="linux": path = os.environ["HOME"]+"/.local/share/"+dirname if p=="win32": path = os.getenv('APPDATA')+"\\"+dirname # Je crée le dossier s'il n'existe pas try: os.mkdir(path) except: pass return path