예제 #1
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def viz_mean_excitability(sid, rid):
    regpos, w, obsmask, surfaces, contacts = read_structural_data(sid, rid)
    vlines, vmeshes, vcontacts = viz_structure(regpos, w, surfaces, contacts)

    # Load results
    nreg = regpos.shape[0]
    res = io.parse_csv([
        f"run/solo/INC/vep/id{sid:03d}/output/r{rid:02d}_all/chain_{chain}.csv"
        for chain in [1, 2]
    ])
    cinf = res['c']
    # cmean = np.mean(cinf, axis=0)
    # pexc = np.mean(cinf > 2.0, axis=0)
    scalar = np.percentile(cinf, 50, axis=0)

    # Regions
    cmap = 'plasma'
    # vmin = np.min(scalar)
    # vmax = np.max(scalar)
    vmin, vmax = -2, 2

    vpoints = []
    for i in range(nreg):
        if not obsmask[i]:
            vpoints.append(
                vp.Sphere(regpos[i],
                          r=4,
                          c=vp.colorMap(scalar[i], cmap, vmin, vmax)))
        else:
            vpoints.append(
                vp.Cube(regpos[i],
                        side=6,
                        c=vp.colorMap(scalar[i], cmap, vmin, vmax)))

    vbar = vp.Points(regpos, r=0.01).pointColors(scalar,
                                                 cmap=cmap,
                                                 vmin=vmin,
                                                 vmax=vmax)
    vbar.addScalarBar(horizontal=True, pos=(0.8, 0.02))

    def slider(widget, event):
        percentile = widget.GetRepresentation().GetValue()
        scalar = np.percentile(cinf, percentile, axis=0)
        for i in range(nreg):
            vpoints[i].color(vp.colorMap(scalar[i], cmap, vmin, vmax))

    vplotter = vp.Plotter(axes=0)
    vplotter.addSlider2D(slider,
                         0.,
                         100.,
                         value=50.0,
                         pos=3,
                         title="Percentile")
    vplotter.show(vpoints, vlines, vmeshes, vcontacts, vbar)
예제 #2
0
파일: plot3d.py 프로젝트: ins-amu/ddmisp
def viz_network_scalar(centres,
                       scalars,
                       weights,
                       obsmask,
                       surfs,
                       view='topdown',
                       size=(1000, 1000),
                       cmap='viridis',
                       vmin=None,
                       vmax=None):
    vp.embedWindow(False)

    if vmin is None:
        vmin = np.min(scalars)
    if vmax is None:
        vmax = np.max(scalars)

    vlines, vmeshes = viz_structure(centres, weights, surfs, w_perc=3)
    nreg = centres.shape[0]

    # Regions
    vpoints = []
    for i in range(nreg):
        if not obsmask[i]:
            vpoints.append(
                vp.Sphere(centres[i],
                          r=4,
                          c=vp.colorMap(scalars[i], cmap, vmin, vmax)))
        else:
            vpoints.append(
                vp.Cube(centres[i],
                        side=6,
                        c=vp.colorMap(scalars[i], cmap, vmin, vmax)))

    if view == 'topdown':
        args = dict(elevation=0, azimuth=0, roll=0, zoom=1.4)
    elif view == 'leftright':
        args = dict(elevation=0, azimuth=270, roll=90, zoom=1.4)
    elif view == 'rightleft':
        args = dict(elevation=0, azimuth=90, roll=270, zoom=1.4)
    else:
        raise ValueError(f"Unexpected view: {view}")

    vplotter = vp.Plotter(axes=0, offscreen=True, size=size)
    vplotter.show(vpoints, vlines, vmeshes, N=1, **args)
    img = vp.screenshot(None, scale=1, returnNumpy=True)
    vp.clear()
    vp.closePlotter()

    return img
예제 #3
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def viz_excitability(sid, rid):
    regpos, w, obsmask, surfaces, contacts = read_structural_data(sid, rid)
    vlines, vmeshes, vcontacts = viz_structure(regpos, w, surfaces, contacts)

    # Load results
    nreg = regpos.shape[0]
    res = io.parse_csv([
        f"run/solo/INC/vep/id{sid:03d}/output/r{rid:02d}_all/chain_{chain}.csv"
        for chain in [1, 2]
    ])
    cinf = res['c']

    ctr = 2.0
    pexc = np.mean(cinf > ctr, axis=0)

    # Regions
    cmap = 'Reds'
    vmin, vmax = 0, 0.15
    # vmin, vmax = -2, 0

    vpoints = []
    for i in range(nreg):
        if not obsmask[i]:
            vpoints.append(
                vp.Sphere(regpos[i],
                          r=4,
                          c=vp.colorMap(pexc[i], cmap, vmin, vmax)))
        else:
            vpoints.append(
                vp.Cube(regpos[i],
                        side=6,
                        c=vp.colorMap(pexc[i], cmap, vmin, vmax)))

    vbar = vp.Points(regpos, r=0.01).pointColors(pexc,
                                                 cmap=cmap,
                                                 vmin=vmin,
                                                 vmax=vmax)
    vbar.addScalarBar(horizontal=True, pos=(0.8, 0.02))

    def cslider(widget, event):
        ctr = widget.GetRepresentation().GetValue()
        pexc = np.mean(cinf > ctr, axis=0)
        for i in range(nreg):
            vpoints[i].color(vp.colorMap(pexc[i], cmap, vmin, vmax))

    vplotter = vp.Plotter(axes=0)
    vplotter.addSlider2D(cslider, -3.0, 3.0, value=2.0, pos=3, title="c")
    vplotter.show(vpoints, vlines, vmeshes, vcontacts, vbar)
예제 #4
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def video_timestep(vplotter, video, vpoints, vtext, vobjects, tfrom, tto,
                   nframes, tinf, cmap, cam):
    print("Run...")

    for t in np.linspace(tfrom, tto, nframes):
        pszs = np.mean(tinf < t, axis=0)
        for vpoint, psz in zip(vpoints, pszs):
            vpoint.color(vp.colorMap(psz, cmap, 0, 1))

        # vtext.SetText(1, f"t = {t:4.1f} s")
        # vtext.SetNonlinearFontScaleFactor(2.0/2.7)

        # Recreate vtext
        # print(vtext.s)

        # vplotter.remove(vtext)
        # vtext = vp.Text2D(f"t = {t:4.1f} s", pos=(0.1, 0.1), s=3, c='black')
        # vtext = vp.Text2D(f"t = {t:4.1f} s", pos=(0.1, 0.1), s=3, c='black')

        # vplotter.show(vpoints, vtext, *vobjects, camera={'pos':cam['pos'], 'focalPoint':cam['focalPoint'], 'viewup':cam['viewup']})
        # vplotter.clear()
        # vplotter.show(vpoints, vtext, *vobjects, camera={'pos':cam['pos'], 'focalPoint':cam['focalPoint'], 'viewup':cam['viewup']})
        vtext = vp.Text2D(f"t = {t:4.1f} s", (10, 10), s=6, c='black')
        vplotter += vtext
        vplotter.show(
            camera={
                'pos': cam['pos'],
                'focalPoint': cam['focalPoint'],
                'viewup': cam['viewup']
            })
        video.addFrame()
        vplotter -= vtext
예제 #5
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def viz_seizure(sid, rid):
    regpos, w, obsmask, surfaces, contacts = read_structural_data(sid, rid)
    vlines, vmeshes, vcontacts = viz_structure(regpos, w, surfaces, contacts)

    # Load results
    nreg = regpos.shape[0]
    res = io.parse_csv([
        f"run/solo/INC/vep/id{sid:03d}/output/r{rid:02d}_all/chain_{chain}.csv"
        for chain in [1, 2]
    ])
    tinf = res['t']

    t = 0.0
    psz = np.mean(tinf < t, axis=0)

    # Regions
    cmap = 'bwr'
    vmin, vmax = 0, 1

    vpoints = []
    for i in range(nreg):
        if not obsmask[i]:
            vpoints.append(
                vp.Sphere(regpos[i],
                          r=4,
                          c=vp.colorMap(psz[i], cmap, vmin, vmax)))
        else:
            vpoints.append(
                vp.Cube(regpos[i],
                        side=6,
                        c=vp.colorMap(psz[i], cmap, vmin, vmax)))

    vbar = vp.Points(regpos, r=0.01).pointColors(psz,
                                                 cmap=cmap,
                                                 vmin=vmin,
                                                 vmax=vmax)
    vbar.addScalarBar(horizontal=True, pos=(0.8, 0.02))

    def tslider(widget, event):
        t = widget.GetRepresentation().GetValue()
        psz = np.mean(tinf < t, axis=0)
        for i in range(nreg):
            vpoints[i].color(vp.colorMap(psz[i], cmap, vmin, vmax))

    vplotter = vp.Plotter(axes=0)
    vplotter.addSlider2D(tslider, 0, 90.0, value=0.0, pos=3, title="t")
    vplotter.show(vpoints, vlines, vmeshes, vcontacts, vbar)
예제 #6
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def get_color_map(controller,
                  scalar_map,
                  nan_color=[0.0, 0.0, 0.0],
                  nan_alpha=1.0):
    """
    Get a color map
    :param controller: IBLViewer.AtlasController
    :param scalar_map: Dictionary that maps scalar values in the dictionary to your custom values
    :param nan_color: Default color for unspecified values
    :param nan_alpha: Default alpha for unspecified values
    :param seed: Random seed to fake a time series
    :return: Color map and alpha map
    """
    rgb = []
    alpha = []

    # Init all to clear gray (90% white)
    #c = np.ones((self.metadata.id.size, 4)).astype(np.float32) * 0.9
    #c[:, -1] = 0.0 if only_custom_data else alpha_factor
    #print('Assigning', values.size, 'to atlas ids', self.metadata.id.size)

    for r_id in range(len(controller.model.metadata)):
        rgb.append([r_id, nan_color])
        a = nan_alpha if r_id > 0 else 0.0
        alpha.append([r_id, a])

    values = scalar_map.values()
    min_p = min(values)
    max_p = max(values)
    rng_p = max_p - min_p
    """
    # Another way to compute colors with matplotlib cm. You will need to import matplotlib
    norm = matplotlib.colors.Normalize(vmin=min_p, vmax=max_p, clip=True)
    mapper = matplotlib.cm.ScalarMappable(norm=norm, cmap=cm.viridis)
    """

    for row_id in scalar_map:
        value = scalar_map[row_id]
        """
        # Another way to compute colors with matplotlib cm
        # (yields the same result as vedo, except you get alpha on top)
        r, g, b, a = mapper.to_rgba(value)
        rgb[row_id] = [row_id, [r, g, b]]
        """
        rgb[row_id] = [
            row_id,
            list(vedo.colorMap(value, 'viridis', min_p, max_p))
        ]
        alpha[row_id] = [row_id, 1.0]

    return rgb, alpha
예제 #7
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def get_color_map(controller,
                  scalar_map,
                  color_map_func='viridis',
                  nan_color=[0.0, 0.0, 0.0],
                  nan_alpha=0.0,
                  seed=None):
    """
    Generate a color map with the scalar map.
    Simply put, we assign colors to the values.
    """
    if seed is not None:
        random.seed(seed)
    rgb = []
    alpha = []
    for r_id in range(controller.model.atlas.regions.id.size):
        rand_val = np.random.uniform(0, 0.35)
        rgb.append([r_id, np.array([rand_val] * 3) + nan_color])
        a = nan_alpha if r_id > 0 else 0.0
        alpha.append([r_id, a])

    values = sorted(scalar_map.values())

    min_p = min(values)
    max_p = max(values)
    rng_p = max_p - min_p
    #cmap = vedo.colorMap(values, cmap_name, min_p, max_p)
    for row_id in scalar_map:
        value = scalar_map[row_id]
        if seed is not None and seed > 0:
            value = value + random.random() * rng_p / 2
        #rgb[row_id] = [row_id, list(vedo.colorMap(value, cmap_name, min_p, max_p))]
        if isinstance(color_map_func, str):
            rgb[row_id][1] = list(
                vedo.colorMap(value, color_map_func, min_p, max_p))
        else:
            # Here we assume you provided a function that is called with these values
            rgb[row_id][1] = color_map_func(value, min_p, max_p)

        alpha[row_id] = [row_id, 1.0]
    return rgb, alpha
예제 #8
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def animate(vplotter,
            video,
            nframes,
            vpoints,
            tinf,
            prange=(0., 1.),
            time=0.0,
            pos=(1, 0, 0),
            foc=(0, 0, 0),
            viewup=(0, 1, 0),
            startpoint=True,
            endpoint=True):

    cmap = 'bwr'

    if startpoint and endpoint:
        params = np.linspace(prange[0], prange[1], nframes)
    elif startpoint and not endpoint:
        params = np.linspace(prange[0], prange[1], nframes + 1)[:-1]
    elif not startpoint and endpoint:
        params = np.linspace(prange[0], prange[1], nframes + 1)[1:]
    else:
        params = np.linspace(prange[0], prange[1], nframes + 2)[1:-1]

    for param in params:
        p = pos if not callable(pos) else pos(param)
        f = foc if not callable(foc) else foc(param)
        v = viewup if not callable(viewup) else viewup(param)
        t = time if not callable(time) else time(param)

        pszs = np.mean(tinf < t, axis=0)
        for vpoint, psz in zip(vpoints, pszs):
            vpoint.color(vp.colorMap(psz, cmap, 0, 1))

        vtext = vp.Text2D(f"t = {t:4.1f} s", (10, 10), s=6, c='black')
        vplotter += vtext
        vplotter.show(camera=dict(pos=p, focalpoint=f, viewup=v))
        video.addFrame()
        vplotter -= vtext
예제 #9
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# A plot(mode="bars") example. Useful to plot categories.
from vedo import precision, Text3D, colorMap, settings
from vedo.pyplot import plot

settings.defaultFont = "Meson"

counts = [1946, 8993, 3042, 1190, 1477, 0, 0]
percent = [11.68909178, 54.01850072, 18.27246516, 7.14800577, 8.87193657, 0, 0]
labels = [
    '<100', '100-250', '250-500', '500-750', '750-1000', '1000-2000', '>2000'
]
colors = colorMap(range(len(counts)), "hot")

plt = plot(
    [counts, labels, colors],
    mode="bars",
    ylim=(0, 10500),
    aspect=4 / 3,
    axes=dict(
        htitle="Clusters in lux range",
        hTitleItalic=False,
        xLabelRotation=35,
        xLabelSize=0.02,
        tipSize=0,  # axes arrow tip size
    ),
)

for i in range(len(percent)):
    val = precision(percent[i], 3) + '%'
    txt = Text3D(val,
                 pos=(plt.centers[i], counts[i]),
예제 #10
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"""Elliptic Fourier Descriptors
parametrizing a closed countour (in red)"""
import vedo, pyefd

shapes = vedo.load(vedo.dataurl+'timecourse1d.npy')

sh = shapes[55]
sr = vedo.Line(sh).mirror('x').reverse()
sm = vedo.merge(sh, sr).c('red5').lw(3)
pts = sm.points()[:,(0,1)]

rlines = []
for order in range(5,30, 5):
    coeffs = pyefd.elliptic_fourier_descriptors(pts, order=order, normalize=False)
    a0, c0 = pyefd.calculate_dc_coefficients(pts)
    rpts = pyefd.reconstruct_contour(coeffs, locus=(a0,c0), num_points=400)
    color = vedo.colorMap(order, "Blues", 5,30)
    rline = vedo.Line(rpts).lw(3).c(color)
    rlines.append(rline)

sm.z(0.1) # move it on top so it's visible
vedo.show(sm, *rlines, __doc__, axes=1, bg='k', size=(1190, 630), zoom=1.8)
예제 #11
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            continue
        if row_id == 0:  #or value.isnull().values.any():
            # We ignore void acronym and nan values
            continue
        scalars_map[int(row_id)] = value

rgb = []
alpha = []
for r_id in range(controller.model.atlas.regions.id.size):
    rand_val = np.random.uniform(0, 0.35)
    rgb.append([r_id, np.array([rand_val] * 3) + nan_color])
    a = nan_alpha if r_id > 0 else 0.0
    alpha.append([r_id, a])

values = sorted(scalars_map.values())

min_p = VMIN
max_p = VMAX
rng_p = max_p - min_p
#cmap = vedo.colorMap(values, cmap_name, min_p, max_p)
for row_id in scalars_map:
    value = scalars_map[row_id]
    rgb[row_id][1] = list(vedo.colorMap(value, COLOR_MAP, min_p, max_p))
    alpha[row_id] = [row_id, 1.0]

controller.add_transfer_function(scalars_map,
                                 rgb,
                                 alpha,
                                 COLOR_MAP,
                                 make_current=False)
controller.render()
예제 #12
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
 def tslider(widget, event):
     t = widget.GetRepresentation().GetValue()
     psz = np.mean(tinf < t, axis=0)
     for i in range(nreg):
         vpoints[i].color(vp.colorMap(psz[i], cmap, vmin, vmax))
예제 #13
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
def make_video(sid, rid, video_file):
    regpos, w, obsmask, surfaces, contacts = read_structural_data(sid, rid)
    vlines, vmeshes, vcontacts = viz_structure(regpos, w, surfaces, contacts)

    # Load results
    res = io.parse_csv([
        f"run/solo/INC/vep/id{sid:03d}/output/r{rid:02d}_all/chain_{chain}.csv"
        for chain in [1, 2]
    ])
    tinf = res['t']

    t = 0.0
    psz = np.mean(tinf < t, axis=0)
    nreg = regpos.shape[0]

    # Regions
    cmap = 'bwr'
    vpoints = []
    for i in range(nreg):
        if not obsmask[i]:
            vpoints.append(
                vp.Sphere(regpos[i], r=4, c=vp.colorMap(psz[i], cmap, 0, 1)))
        else:
            vpoints.append(
                vp.Cube(regpos[i], side=6, c=vp.colorMap(psz[i], cmap, 0, 1)))

    vbar = vp.Points(regpos, r=0.01).pointColors(psz,
                                                 cmap=cmap,
                                                 vmin=0,
                                                 vmax=1)
    vbar.addScalarBar(horizontal=True, pos=(0.8, 0.02))
    vtext = vp.Text2D(f"t = {t:4.1f} s", pos=0, s=2, c='black')

    center = np.mean(regpos, axis=0)
    dist = 2.5 * (np.max(regpos[:, 1]) - np.min(regpos[:, 1]))

    # Video -------------------------------------------------------
    vplotter = vp.Plotter(axes=0,
                          interactive=0,
                          offscreen=True,
                          size=(1800, 1800))
    nframes = 3000

    vplotter += vpoints
    vplotter += vlines
    vplotter += vmeshes

    video = vp.Video(name=video_file, duration=90)
    ratios = np.array([30, 3, 5, 30, 5, 3, 30, 10])
    frames = (nframes * ratios / np.sum(ratios)).astype(int)

    # Run and pause
    animate(vplotter,
            video,
            frames[0],
            vpoints,
            tinf,
            pos=center + dist * np.r_[0, 0, 1],
            foc=center,
            viewup=(0, 1, 1),
            prange=(0, 45),
            time=lambda p: p)
    animate(vplotter,
            video,
            frames[1],
            vpoints,
            tinf,
            pos=center + dist * np.r_[0, 0, 1],
            foc=center,
            viewup=(0, 1, 1),
            time=45.)

    ## Fly around
    pos = lambda angle: center + dist * np.array(
        [0, -np.sin(angle), np.cos(angle)])
    animate(vplotter,
            video,
            frames[2],
            vpoints,
            tinf,
            pos=pos,
            foc=center,
            viewup=(0, 1, 1),
            prange=(0, np.pi / 2),
            time=45.,
            endpoint=False)

    pos = lambda angle: center + dist * np.array(
        [-np.sin(angle), -np.cos(angle), 0])
    animate(vplotter,
            video,
            frames[3],
            vpoints,
            tinf,
            pos=pos,
            foc=center,
            viewup=(0, 0, 1),
            prange=(0, 2 * np.pi),
            time=45.)

    pos = lambda angle: center + dist * np.array(
        [0, -np.sin(angle), np.cos(angle)])
    animate(vplotter,
            video,
            frames[4],
            vpoints,
            tinf,
            pos=pos,
            foc=center,
            viewup=(0, 1, 1),
            prange=(np.pi / 2, 0),
            time=45.,
            startpoint=False)

    # Pause + run + pause
    animate(vplotter,
            video,
            frames[5],
            vpoints,
            tinf,
            pos=center + dist * np.r_[0, 0, 1],
            foc=center,
            viewup=(0, 1, 1),
            time=45.)
    animate(vplotter,
            video,
            frames[6],
            vpoints,
            tinf,
            pos=center + dist * np.r_[0, 0, 1],
            foc=center,
            viewup=(0, 1, 1),
            prange=(45, 90),
            time=lambda p: p)
    animate(vplotter,
            video,
            frames[7],
            vpoints,
            tinf,
            pos=center + dist * np.r_[0, 0, 1],
            foc=center,
            viewup=(0, 1, 1),
            time=90.)

    video.close()
예제 #14
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
 def cslider(widget, event):
     ctr = widget.GetRepresentation().GetValue()
     pexc = np.mean(cinf > ctr, axis=0)
     for i in range(nreg):
         vpoints[i].color(vp.colorMap(pexc[i], cmap, vmin, vmax))
예제 #15
0
파일: viz3d.py 프로젝트: ins-amu/ddmisp
 def slider(widget, event):
     percentile = widget.GetRepresentation().GetValue()
     scalar = np.percentile(cinf, percentile, axis=0)
     for i in range(nreg):
         vpoints[i].color(vp.colorMap(scalar[i], cmap, vmin, vmax))
예제 #16
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    sinr, cosr = np.sin(r), np.cos(r)
    sinlat, coslat = np.sin(lat), np.cos(lat)
    for phi in np.linspace(0, 2*np.pi, num=res, endpoint=False):
        clat = np.arcsin(sinlat * cosr + coslat * sinr * np.cos(phi))
        clng = lon + np.arctan2(np.sin(phi) * sinr * coslat, cosr - sinlat * np.sin(clat))
        coords.append([clng/np.pi + 1, clat*2/np.pi + 1, 0])
    return Polygon(nsides=res).points(coords)  # warp polygon points to match geo projection


centers = []
pb = ProgressBar(0, len(data))
for i, d in data.iterrows():
    pb.print("Parsing USGS data..")
    M = d['mag']                                       # earthquake estimated magnitude
    E = np.sqrt(np.exp(5.24+1.44*M) * scale[0])/10000  # empirical formula for sqrt(energy_release(M))
    rgb = colorMap(E, name='Reds', vmin=0, vmax=7)     # map energy to color
    lat, lon = np.deg2rad(d['latitude']), np.deg2rad(d['longitude'])
    ce = GeoCircle(lat, lon, E/50).scale(scale).z(num/M).c(rgb).lw(0.1).useBounds(False)
    ce.time = i
    ce.info = '\n'.join(str(d).split('\n')[:-1])       # remove of the last line in string d
    #if M > 6.5: ce.alpha(0.8)                         # make the big ones slightly transparent
    if i < len(data)-num: ce.off()                     # switch off older ones: make circles invisible
    centers.append(ce)


def sliderfunc(widget, event):
    value = widget.GetRepresentation().GetValue()      # get the slider current value
    widget.GetRepresentation().SetTitleText(f"{data['time'][int(value)][:10]}")
    for ce in centers:
        isinside = abs(value-ce.time) < num            # switch on if inside of time window
        ce.on() if isinside else ce.off()