def __init__(self, numbers_to_use, **options): super().setup("minimal", **options) super().setup("numbers", nb=numbers_to_use, **options) super().setup("nb_variants", nb=numbers_to_use, **options) the_sum = Sum([self.nb1, self.nb2]) self.sum_str = the_sum.printed self.result = the_sum.evaluate() if self.context == 'mini_problem': super().setup("mini_problem_wording", q_id=os.path.splitext(os.path.basename(__file__))[0], **options)
def __init__(self, numbers_to_use, **options): super().setup("minimal", **options) super().setup("numbers", nb=numbers_to_use, **options) super().setup("nb_variants", nb=numbers_to_use, **options) ## # @todo Leave it possible to have negative results (relative nb) self.nb1, self.nb2 = max(self.nb1, self.nb2), min(self.nb1, self.nb2) the_diff = Sum([self.nb1, -self.nb2]) self.diff_str = the_diff.printed self.result = the_diff.evaluate() if self.context == 'mini_problem': super().setup("mini_problem_wording", q_id=os.path.splitext(os.path.basename(__file__))[0], **options)
def __init__(self, build_data, **options): super().setup("minimal", **options) super().setup("numbers", nb=build_data, **options) super().setup("nb_variants", nb=build_data, **options) self.transduration = 8 if (self.nb1 > 20 and self.nb2 > 20 and abs(self.nb1 - self.nb2) > 10 and abs(self.nb1 - self.nb2) % 10 != 0): self.transduration = 12 elif abs(self.nb1 - self.nb2) % 1 != 0: self.transduration = 10 if self.subvariant == 'only_positive': self.nb1, self.nb2 = max(self.nb1, self.nb2), min(self.nb1, self.nb2) if (options.get('nb_source', 'default').startswith('complement') and self.nb_variant.startswith('decimal')): self.nb1 //= 10 if (options.get('nb_source', 'default').startswith('complement') and random.choice([True, False])): self.nb2 = self.nb1 - self.nb2 the_diff = Sum([self.nb1, -self.nb2]) self.diff_str = the_diff.printed self.result = the_diff.evaluate() if self.context == 'mini_problem': self.transduration = 25 super().setup('mini_problem_wording', q_id=os.path.splitext(os.path.basename(__file__))[0], **options) elif self.context.startswith('complement_wording'): self.transduration = 12 super().setup('complement_wording', q_id=os.path.splitext(os.path.basename(__file__))[0], **options) elif self.context == 'angles': self.transduration = 25 deg = r'\textdegree' from mathmakerlib.geometry import AngleDecoration self.result = Number(self.nb1 - self.nb2) self.hint = deg required.package['xcolor'] = True required.options['xcolor'].add('dvipsnames') extra_deco = {'0:1': AngleDecoration(label='?', thickness='ultra thick', color='BrickRed', radius=Number('0.5', unit='cm')), } extra_deco2 = {} if self.nb1 != 90: extra_deco.update({'0:2': AngleDecoration(label=None, thickness='ultra thick', color='NavyBlue', radius=Number('1.6', unit='cm'), eccentricity=2, arrow_tips='<->')}) extra_deco2.update({'1:2': AngleDecoration(label=Number(self.nb1, unit=deg), do_draw=False, color='NavyBlue', radius=Number('1.6', unit='cm'))}) else: extra_deco.update({'0:2': AngleDecoration(label=None, radius=Number('0.25', unit='cm'))}) super().setup('angles_bunch', extra_deco=extra_deco, extra_deco2=extra_deco2, labels=nndist([self.nb1, self.nb2])[::-1], subvariant_nb=options.get('subvariant_nb', None), variant=options.get('variant', None), subtr_shapes=True) self.hint = r'\si{\degree}'