Exemplo n.º 1
0
        fig = plt.figure(figsize=(width, height))

        avgp = []
        avgv = []

        provs = ["Churchill Province", "Superior Province", "Slave Province", "Grenville Province"]

        color = ["b", "g", "m", "y", "k", "c"]
        handles = ()
        labels = ()
        plt.subplots_adjust(left=None, bottom=None, right=0.75, top=None, wspace=None, hspace=0.05)

        for (ii, province) in enumerate(provs):

            d.reset()
            arg = Args()
            arg.addQuery("geoprov", "in", province)
            d2 = Params(stnfile, ["hk::H", "hk::R"], arg)
            d.sync(d2)

            prov = province.replace(" ", "")
            dk, avgdk, bins, ptype = getdata("kan", d, m, vdict, prov)
            avgp.append(avgdk)

            ax = plt.subplot(4, 1, ii + 1)

            n, bins, patches = plt.hist(
                dk, bins=bins, histtype="bar", color=color[ii], rwidth=1, alpha=0.6, label=province
            )
Exemplo n.º 2
0
    arg3 = Args()
    arg3.addQuery("hk::H", "lt", "35")
    arg4 = Args()

    fstns = os.environ['HOME'] + '/thesis/stations.json'

    a = Params(fstns, arg1, ["mb::H"])
    b = Params(fstns, arg2, ["mb::H"])
    c = Params(fstns, arg2, ["hk::H"])
    d = Params(fstns, arg3, ["hk::H"])
    e = Params(fstns, arg3, ["wm::H"])
    f = Params(fstns, arg4, ["wm::H"])

    lena = len(a.mb_H)
    a.sync(b)
    assert len(a.reset().mb_H) == lena

    assert np.equal(a.sync(b).mb_H, b.sync(a).mb_H).all()

    c.sync(d.sync(e.sync(f)))

    for ii in range(len(f.stns)):
        assert c.stns[ii] == f.stns[ii]
        assert c.hk_H[ii] == d.hk_H[ii]

    assert f.sync(d) == f.reset().sync(e)

    c.reset()
    d.reset()
    e.reset()
    f.reset()
Exemplo n.º 3
0
    arg3.addQuery("hk::H", "lt", "35")
    arg4 = Args()

    fstns = os.environ['HOME'] + '/thesis/stations.json'

    a = Params(fstns, arg1, ["mb::H"])
    b = Params(fstns, arg2, ["mb::H"])
    c = Params(fstns, arg2, ["hk::H"])
    d = Params(fstns, arg3, ["hk::H"])
    e = Params(fstns, arg3, ["wm::H"])
    f = Params(fstns, arg4, ["wm::H"])


    lena = len(a.mb_H)
    a.sync(b)
    assert len(a.reset().mb_H) == lena

    assert np.equal(a.sync(b).mb_H, b.sync(a).mb_H).all()

    c.sync(d.sync(e.sync(f)))

    for ii in range(len(f.stns)):
        assert c.stns[ii] == f.stns[ii]
        assert c.hk_H[ii] == d.hk_H[ii]

    assert f.sync(d) == f.reset().sync(e)

    c.reset()
    d.reset()
    e.reset()
    f.reset()
Exemplo n.º 4
0
        provs = [
            "Churchill Province",
            "Superior Province",
            "Slave Province",
            "Grenville Province"
            ]

        color = ['b', 'g', 'm', 'y', 'k', 'c']
        handles = ()
        labels = ()
        plt.subplots_adjust(left= None, bottom=None, right = 0.75, top=None,
                            wspace=None, hspace=0.05)

        for (ii, province) in enumerate(provs):

            d.reset()
            arg = Args()
            arg.addQuery("geoprov", "in", province)
            d2 = Params(stnfile,  ["hk::H","hk::R"], arg)
            d.sync(d2)

            prov = province.replace(" ", "")
            dk, avgdk, bins, ptype = getdata("kan", d, m, vdict, prov)
            avgp.append( avgdk )

            ax = ( plt.subplot(4,1,ii + 1) )

            n, bins, patches = plt.hist(dk, bins = bins, histtype = "bar",
                     color = color[ii], rwidth = 1, alpha = 0.6,
                     label = province)