Ejemplo n.º 1
0
def MakeFigures(df):
    """Generates CDFs and normal prob plots for weights and log weights."""
    weights = df.wtkg2.dropna()
    log_weights = np.log10(weights)

    # plot weights on linear and log scales
    thinkplot.PrePlot(cols=2)
    MakeNormalModel(weights)
    thinkplot.Config(xlabel='adult weight (kg)', ylabel='CDF')

    thinkplot.SubPlot(2)
    MakeNormalModel(log_weights)
    thinkplot.Config(xlabel='adult weight (log10 kg)')

    thinkplot.Save(root='brfss_weight')

    # make normal probability plots on linear and log scales
    thinkplot.PrePlot(cols=2)
    MakeNormalPlot(weights)
    thinkplot.Config(xlabel='z', ylabel='weights (kg)')

    thinkplot.SubPlot(2)
    MakeNormalPlot(log_weights)
    thinkplot.Config(xlabel='z', ylabel='weights (log10 kg)')

    thinkplot.Save(root='brfss_weight_normal')
Ejemplo n.º 2
0
def main(filename='mystery0.dat'):
    data = ReadFile(filename)
    cdf = thinkstats2.Cdf(data)

    thinkplot.PrePlot(rows=2, cols=3)
    thinkplot.SubPlot(1)
    thinkplot.Cdf(cdf)
    thinkplot.Config(title='linear')

    thinkplot.SubPlot(2)
    scale = thinkplot.Cdf(cdf, xscale='log')
    thinkplot.Config(title='logx', **scale)

    thinkplot.SubPlot(3)
    scale = thinkplot.Cdf(cdf, transform='exponential')
    thinkplot.Config(title='expo', **scale)

    thinkplot.SubPlot(4)
    xs, ys = thinkstats2.NormalProbability(data)
    thinkplot.Plot(xs, ys)
    thinkplot.Config(title='normal')

    thinkplot.SubPlot(5)
    scale = thinkplot.Cdf(cdf, transform='pareto')
    thinkplot.Config(title='pareto', **scale)

    thinkplot.SubPlot(6)
    scale = thinkplot.Cdf(cdf, transform='weibull')
    thinkplot.Config(title='weibull', **scale)

    thinkplot.Show(legend=False)
Ejemplo n.º 3
0
def MakeBabyBoom():
    """Plot CDF of interarrival time on log and linear scales.
    """
    # compute the interarrival times
    df = ReadBabyBoom()
    diffs = df.minutes.diff()
    cdf = thinkstats2.Cdf(diffs, label='actual')

    thinkplot.PrePlot(cols=2)
    thinkplot.Cdf(cdf)
    thinkplot.Config(xlabel='minutes', ylabel='CDF', legend=False)

    thinkplot.SubPlot(2)
    thinkplot.Cdf(cdf, complement=True)
    thinkplot.Config(xlabel='minutes',
                     ylabel='CCDF',
                     yscale='log',
                     legend=False)

    thinkplot.Save(root='analytic_interarrivals', legend=False)
Ejemplo n.º 4
0
def PlotMarriageData(resp):
    """Plots hazard and survival functions.

    resp: DataFrame of respondents
    """
    hf, sf = EstimateMarriageSurvival(resp)

    thinkplot.PrePlot(rows=2)
    thinkplot.Plot(hf)
    thinkplot.Config(ylabel='hazard', legend=False)

    thinkplot.SubPlot(2)
    thinkplot.Plot(sf)
    thinkplot.Save(root='survival2',
                   xlabel='age (years)',
                   ylabel='prob unmarried',
                   ylim=[0, 1],
                   legend=False,
                   formats=FORMATS)
    return sf
Ejemplo n.º 5
0
def PlotSurvival(complete):
    """Plots survival and hazard curves.

    complete: list of complete lifetimes
    """
    thinkplot.PrePlot(3, rows=2)

    cdf = thinkstats2.Cdf(complete, label='cdf')
    sf = MakeSurvivalFromCdf(cdf, label='survival')
    print(cdf[13])
    print(sf[13])

    thinkplot.Plot(sf)
    thinkplot.Cdf(cdf, alpha=0.2)
    thinkplot.Config()

    thinkplot.SubPlot(2)
    hf = sf.MakeHazardFunction(label='hazard')
    print(hf[39])
    thinkplot.Plot(hf)
    thinkplot.Config(ylim=[0, 0.75])
Ejemplo n.º 6
0
def PlotRemainingLifetime(sf1, sf2):
    """Plots remaining lifetimes for pregnancy and age at first marriage.

    sf1: SurvivalFunction for pregnancy length
    sf2: SurvivalFunction for age at first marriage
    """
    thinkplot.PrePlot(cols=2)
    rem_life1 = sf1.RemainingLifetime()
    thinkplot.Plot(rem_life1)
    thinkplot.Config(title='remaining pregnancy length',
                     xlabel='weeks',
                     ylabel='mean remaining weeks')

    thinkplot.SubPlot(2)
    func = lambda pmf: pmf.Percentile(50)
    rem_life2 = sf2.RemainingLifetime(filler=np.inf, func=func)
    thinkplot.Plot(rem_life2)
    thinkplot.Config(title='years until first marriage',
                     ylim=[0, 15],
                     xlim=[11, 31],
                     xlabel='age (years)',
                     ylabel='median remaining years')

    thinkplot.Save(root='survival6', formats=FORMATS)