def setup_class(cls): res2 = Holder() #> np = pwr.2p.test(h=0.01,n=80,sig.level=0.05,alternative="less") #> cat_items(np, "res2.") res2.h = 0.01 res2.n = 80 res2.sig_level = 0.05 res2.power = 0.0438089705093578 res2.alternative = 'less' res2.method = ('Difference of proportion power calculation for' + ' binomial distribution (arcsine transformation)') res2.note = 'same sample sizes' cls.res2 = res2 cls.kwds = {'effect_size': res2.h, 'nobs1': res2.n, 'alpha': res2.sig_level, 'power':res2.power, 'ratio': 1} cls.kwds_extra = {'alternative':'smaller'} cls.cls = smp.NormalIndPower
def __init__(self): res2 = Holder() #> np = pwr.2p.test(h=0.01,n=80,sig.level=0.05,alternative="less") #> cat_items(np, "res2.") res2.h = 0.01 res2.n = 80 res2.sig_level = 0.05 res2.power = 0.0438089705093578 res2.alternative = 'less' res2.method = ('Difference of proportion power calculation for' + ' binomial distribution (arcsine transformation)') res2.note = 'same sample sizes' self.res2 = res2 self.kwds = {'effect_size': res2.h, 'nobs1': res2.n, 'alpha': res2.sig_level, 'power':res2.power, 'ratio': 1} self.kwds_extra = {'alternative':'smaller'} self.cls = smp.NormalIndPower