示例#1
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def test_unique_order():
    for x, y in [(np.array([1, 2, 3, 4, 5, 6]), np.array([1, 3, -3, -7, -8])),
                 (rand(12), rand(222))]:

        d1 = mpl.Data2D(x=x, y=y)
        d2 = mpl.Data2D(xx=d1.xx, yy=d1.yy)

        # test Data2D._unique()
        #
        # with np.unique()
        #   d1.y = array([1,  3,  -3, -7, -8])
        #   d2.y = np.unique(d1.yy)
        #        = array([-8, -7, -3,  1,  3])
        # instead of
        #   d2.y = Data2D._unique(d1.yy)
        #        = array([1,  3,  -3, -7, -8])
        #        = d1.y
        assert_equal(d1, d2)
示例#2
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def get_data():
    x = np.linspace(-5, 5, 20)
    y = x
    X, Y = np.meshgrid(x, y)
    X = X.T
    Y = Y.T
    Z = (X + 3)**2 + (Y + 4)**2 + 5
    dd = mpl.Data2D(X=X, Y=Y, Z=Z)
    tgt = np.array([5.0, 30])
    return dd, tgt
示例#3
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def test_copy():
    d1 = mpl.Data2D(x=rand(10), y=rand(12), zz=rand(10 * 12))
    d2 = d1.copy()
    assert_equal(d1, d2)
    assert d1.zz is not None
    assert d2.zz is not None
    assert d1.Z is not None
    assert d2.Z is not None

    # zz and Z is None
    d1 = mpl.Data2D(x=rand(10), y=rand(12))
    d2 = d1.copy()
    assert_equal(d1, d2)
    assert d1.zz is None
    assert d2.zz is None
    assert d1.Z is None
    assert d2.Z is None

    # arrays are not views, changing d2.<attr> will not alter d1.<attr>
    d2.xx *= 2.0
    assert (d1.xx * 2.0 == d2.xx).all()
示例#4
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def test_update():
    x1 = rand(10)
    y1 = rand(12)
    d1 = mpl.Data2D(x=x1, y=y1)
    assert d1.zz is None
    assert d1.Z is None
    d1.update(Z=rand(10, 12))
    assert d1.zz is not None
    assert d1.Z is not None
    d2 = d1.copy()
    d2.update(x=rand(10), y=rand(12))
    assert (d1.xx != d2.xx).all()
    assert (d1.yy != d2.yy).all()
    assert (d1.X != d2.X).all()
    assert (d1.Y != d2.Y).all()
    assert (d1.Z == d2.Z).all()
    assert (d1.zz == d2.zz).all()
示例#5
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def test_input():
    d1 = mpl.get_2d_testdata()
    for k in [d1.x, d1.y, d1.xx, d1.yy, d1.zz, d1.X, d1.Y, d1.Z, d1.XY]:
        assert k is not None

    XY = np.array([k for k in itertools.product(d1.x, d1.y)])
    zz = np.empty(np.prod(d1.Z.shape))
    nx = d1.Z.shape[0]
    ny = d1.Z.shape[1]
    for ix in range(nx):
        zz[ix * ny:(ix + 1) * ny] = d1.Z[ix, :]
    xx = XY[:, 0]
    yy = XY[:, 1]
    assert nx == d1.nx
    assert ny == d1.ny
    assert (d1.xx == xx).all()
    assert (d1.yy == yy).all()
    assert (d1.XY == XY).all()
    assert (d1.zz == d1.Z.flatten()).all()
    assert (d1.zz == zz).all()

    # test various forms of x-y input
    d2 = mpl.Data2D(x=d1.x, y=d1.y, zz=d1.zz)
    assert_equal(d1, d2)
    d2 = mpl.Data2D(x=d1.x, y=d1.y, Z=d1.Z)
    assert_equal(d1, d2)
    d2 = mpl.Data2D(xx=d1.xx, yy=d1.yy, Z=d1.Z)
    assert_equal(d1, d2)
    d2 = mpl.Data2D(X=d1.X, Y=d1.Y, Z=d1.Z)
    assert_equal(d1, d2)
    d2 = mpl.Data2D(XY=d1.XY, Z=d1.Z)
    assert_equal(d1, d2)

    # Z data is optional
    d2 = mpl.Data2D(XY=d1.XY)
    assert_equal(d1, d2, keys=['x', 'y', 'xx', 'yy', 'X', 'Y', 'XY'])
示例#6
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    rnd = np.random.RandomState(seed=1234)
    for name in ['gauss', 'multi', 'inv_multi']:
        print(name)
        fig,ax = mpl.fig_ax()
        ax.set_title(name)
        x = np.linspace(0, 10, npoints)
        y = np.sin(x) + rnd.rand(len(x))
        fe = rbf.FitError(x[:,None], y, cv_kwds=dict(ns=5, nr=1),
                          rbf_kwds=dict(rbf=name))
        p = np.linspace(0.01, 15, nsample)
        r = np.logspace(-10, 2, nsample)
        g = np.array(list(itertools.product(p,r)))
        zz = np.array([np.median(fe.err_cv(params)) for params in g])
        zz[zz > zmax] = zmax
        dd = mpl.Data2D(xx=g[:,0], yy=np.log10(g[:,1]), zz=zz)
        pl = ax.contourf(dd.X, dd.Y, dd.Z, cmap=cm.jet)
        plt.colorbar(pl) 
        ax.set_xlabel('p')
        ax.set_ylabel('log10(r)')
##        fig.savefig(f'/tmp/crossval_pr_{name}.png')
        
##        f = rbf.fit_opt(x[:,None], y, method='de', what='pr', 
##                        opt_kwds=dict(disp=True, 
##                                      maxiter=20,
##                                      popsize=20,
##                                      bounds=[(p.min(),p.max()),(r.min(),r.max())],
##                                      mutation=1.5,
##                                      polish=True), 
##                        rbf_kwds=dict(rbf=name))
##        popt = f.get_params()