init -1 python: # Import commonly used python modules import time import datetime import math import random import pygame import colorsys import fnmatch import posixpath import re import string from bisect import bisect from operator import itemgetter from operator import add as _add from collections import OrderedDict get_volume_preference = renpy.game.preferences.get_volume def num_to_word(n, readable=True): """Transcript numbers (integers) into readable words.""" n = int(n) units = ("","one","two","three","four","five","six","seven","eight","nine") teens = ("","eleven","twelve","thirteen","fourteen","fifteen","sixteen","seventeen","eighteen","nineteen") tens = ("","ten","twenty","thirty","forty","fifty","sixty","seventy","eighty","ninety") thousands = ("","thousand","million","billion","trillion","quadrillion","quintillion","sextillion","septillion","octillion","nonillion","decillion","undecillion","duodecillion","tredecillion","quattuordecillion","sexdecillion","septendecillion","octodecillion","novemdecillion","vigintillion") output = [] if n == 0: output.append("zero") else: s = str(n) groups = (len(s)+2)/3 s = s.zfill(groups*3) for i in xrange(0, groups*3, 3): h,t,u = int(s[i]), int(s[i+1]), int(s[i+2]) g = groups-(i/3+1) if h > 0: output.append(units[h]+" hundred") if t > 1: if u > 0: output.append(tens[t]+"-"+units[u]) else: output.append(tens[t]) elif t == 1: if u > 0: output.append(teens[u]) else: output.append(tens[t]) else: if u > 0: output.append(units[u]) if g > 0 and (h+t+u) > 0: if i == (groups*3)-6: output.append(thousands[g]+" and") else: output.append(thousands[g]+",") if readable: output = " ".join(output) return output def clamp(n, smallest, largest): return max(smallest, min(n, largest)) def white_tint(image): return Transform( image, matrixcolor=TintMatrix((1.1, 1.1, 1.1)) ) def gray_tint(image): return Transform( image, matrixcolor=SaturationMatrix(0.0) ) def yellow_tint(image): return Transform( image, matrixcolor=TintMatrix((1.2, 1.1, 0.7)) ) def image_hover(image, brightness=0.12): """Returns slightly brighter image used during hover events""" return Transform( image, matrixcolor=BrightnessMatrix(brightness) ) def image_alpha(image, alpha=0.5): """Returns an image with changed alpha 0 - fully transparent 1 - fully visible""" return Transform( image, matrixcolor=OpacityMatrix(alpha) ) def set_clipboard(txt): txt = str(txt) pygame.scrap.put(pygame.scrap.SCRAP_TEXT, txt.encode("utf-8")) def get_clipboard(): clipboard = pygame.scrap.get(pygame.scrap.SCRAP_TEXT) if clipboard: return clipboard return None def evaluate(txt): return __import__('ast').literal_eval(txt) def reset_variables(*args): """Resets the given variables to their default values.""" # Refer to renpy.ast.Default.set_default for implementation details defaults_set = renpy.store._defaults_set changed_set = renpy.store.__dict__.ever_been_changed for arg in args: if arg in defaults_set: if arg in changed_set: defaults_set.remove(arg) changed_set.remove(arg) elif config.developer: raise Exception("The variable `{}` was not previously set with a default value.".format(arg)) renpy.execute_default_statement(False) def disable_game_menu(): setattr(renpy.store, "_game_menu_screen", None) def enable_game_menu(): setattr(renpy.store, "_game_menu_screen", "save_screen") def make_revertable(obj): if isinstance(obj, _list): return [make_revertable(x) for x in obj] elif isinstance(obj, _dict): return dict([(make_revertable(k), make_revertable(v)) for (k,v) in obj.iteritems()]) else: return obj def is_integer(s): def zero(s): return (len(s) > 1 and s.startswith("0")) s = str(s) if s and s[0] in ("-", "+"): return (not zero(s[1:]) and s[1:].isdigit()) return (not zero(s) and s.isdigit()) def timeit(func, loops=10000, args=(), kwargs={}): start = time.time() for i in xrange(loops): func(*args, **kwargs) end = time.time() print("The task has taken {} seconds to finish".format(end-start)) def list_swap_values(l, val1, val2): """Mutates the original list.""" l[val1], l[val2] = l[val2], l[val1] def random_choices(population, weights=None, cum_weights=None, k=1): """Backported from python 3.6 Return a k sized list of population elements chosen with replacement. If the relative weights or cumulative weights are not specified, the selections are made with equal probability. """ def accumulate(iterable, func=_add, initial=None): it = iter(iterable) total = initial if initial is None: try: total = next(it) except StopIteration: return yield total for element in it: total = func(total, element) yield total random = renpy.random.random if cum_weights is None: if weights is None: _int = int total = len(population) return [population[_int(random() * total)] for i in range(k)] cum_weights = list(accumulate(weights)) elif weights is not None: raise TypeError('Cannot specify both weights and cumulative weights') if len(cum_weights) != len(population): raise ValueError('The number of weights does not match the population') #bisect = _bisect.bisect total = cum_weights[-1] hi = len(cum_weights) - 1 return [population[bisect(cum_weights, random() * total, 0, hi)] for i in range(k)] def natsort_key(s, pattern=re.compile("([0-9]+)")): return [int(t) if t.isdigit() else t.lower() for t in pattern.split(str(s))] def tts(s): renpy.display.tts.tts(str(s)) def is_in_lead(house): if isinstance(house, basestring): house = getattr(renpy.store, house) return (house == max(gryffindor, slytherin, ravenclaw, hufflepuff)) def play_potion_return(who): if game.daytime: return for i in inventory.get_instances_of_type("potion"): if not who in i.usable_on: continue if not i.in_progress[who]: continue i.ret(who) def strip(s): # We need a custom strip implementation because we cannot tell # if the raw argument isn't encapsulated in double, or triple quotes if s.startswith(('"', "'")) and s.endswith(('"', "'")): return s[1:-1] return s def matches(s1, s2, filter=" "): return s1.replace(filter, "") == s2.replace(filter, "") class IntLike(python_object): # Does not support rollback def __init__(self, callable): self._callable = callable def __call__(self): return self._callable() def __repr__(self): return repr(self()) def __add__(self, value): raise Exception("IntLike does not support add") def __eq__(self, value): return self._callable() == value def __gt__(self, value): return self._callable() > value def __lt__(self, value): return self._callable() < value def __ge__(self, value): return self.__gt__(value) or self.__eq__(value) def __le__(self, value): return self.__lt__(value) or self.__eq__(value) def __len__(self): return len(self._callable())