コード例 #1
0
    #nc.close()
    print('load px,py,pz.................', tm.time() - tstart)
    tstart = tm.time()

    coord = part.subsection(px,
                            py,
                            ny=simul.coordmax[1],
                            nx=simul.coordmax[3],
                            offset=10)

    ###################################################################################
    # Get depth (z_w) from simulation file
    ###################################################################################
    [_, z_w] = part.get_depths(simul,
                               coord=coord,
                               x_periodic=x_periodic,
                               y_periodic=y_periodic,
                               ng=ng)
    del _

    if not meanflow and alpha_time != 0:
        simul.update(np.ceil(filetime))
        [_, z_w2] = part.get_depths(simul,
                                    coord=coord,
                                    x_periodic=x_periodic,
                                    y_periodic=y_periodic,
                                    ng=ng)
        del _
        simul.update(np.floor(filetime))

        z_w = linear(z_w, z_w2, alpha_time)
コード例 #2
0
ファイル: Pyticles.py プロジェクト: wangpengphd/Pyticles
                                   x,
                                   y,
                                   z,
                                   z_w,
                                   ng=ng)

    ##############################
    # Release particles on iso-surfaces of a variable
    # Typically isopycnals
    if initial_surf:
        [temp, salt] = part.get_ts_io(simul,
                                      x_periodic=x_periodic,
                                      y_periodic=y_periodic,
                                      ng=ng)
        [z_r, z_w] = part.get_depths(simul,
                                     x_periodic=x_periodic,
                                     y_periodic=y_periodic,
                                     ng=ng)
        roms_rho0 = simul.rho0
        rho = rho1_eos(temp, salt, z_r, z_w, roms_rho0)
        ## temporary box used for sigma-interpolation onto surf0
        lev1 = rho.shape[2]  #  Needed to get all levels
        if preserved_meter:
            z, y, x = seeding_part.seed_meter(ic=ic,
                                              jc=jc,
                                              lev0=lev0,
                                              lev1=lev1,
                                              nnlev=nnlev,
                                              nx_box=nx_box,
                                              ny_box=ny_box,
                                              dx_box=dx_box,
                                              simul=simul,
コード例 #3
0
ファイル: Pyticles.py プロジェクト: wangpengphd/Pyticles
def plot_selection(alldomain=True):

    plt.figure(figsize=(6.0, 4.0))
    ax1 = plt.subplot(1, 1, 1)

    nc = Dataset(simul.ncfile, 'r')
    if alldomain:
        if adv3d or advdepth == 0:
            sst = np.squeeze(
                simul.Forder(nc.variables['temp'][simul.infiletime, -1, :, :]))
        else:
            [z_r, z_w] = part.get_depths(simul)
            temp = simul.Forder(
                np.squeeze(nc.variables['temp'][simul.infiletime, :, :, :]))
            sst = part.vinterp(temp, [advdepth], z_r, z_w)[:, :, 0]
            sst[sst == 0.] = np.nan
        sst *= simul.mask
        topo = simul.topo
    else:
        [ny1, ny2, nx1, nx2] = np.array(coord) - ng

        if adv3d or advdepth == 0:
            sst = np.squeeze(
                simul.Forder(nc.variables['temp'][simul.infiletime, -1,
                                                  ny1:ny2, nx1:nx2]))
        else:
            [z_r, z_w] = part.get_depths(simul, coord=[ny1, ny2, nx1, nx2])
            temp = simul.Forder(
                np.squeeze(nc.variables['temp'][simul.infiletime, :, ny1:ny2,
                                                nx1:nx2]))
            sst = part.vinterp(temp, [advdepth], z_r, z_w)[:, :, 0]
            sst[sst == 0.] = np.nan
        sst *= simul.mask[nx1:nx2, ny1:ny2]
        topo = simul.topo[nx1:nx2, ny1:ny2]
    nc.close()

    sst[sst < 0] = 0.
    #plt.imshow(sst[:,::1].T); plt.colorbar(shrink=0.25);
    plt.pcolormesh(ma.masked_invalid(sst[:, :].T), cmap='jet', rasterized=True)
    plt.colorbar(shrink=0.25)

    if not adv3d and advdepth < -topo.min():
        plt.contourf(topo.T, [0, -advdepth],
                     cmap=col.LinearSegmentedColormap.from_list(
                         'my_colormap', ['white', 'lightgray'], 256))
        plt.contourf(topo.T, [0, topo.min()],
                     cmap=col.LinearSegmentedColormap.from_list(
                         'my_colormap', ['Gainsboro', 'gray'], 256))
        plt.contour(topo.T, [topo.min()], colors=('k', ), linewidths=(0.5, ))
        plt.contour(topo.T, [-advdepth], colors=('k', ), linewidths=(0.2, ))

    if alldomain:
        plt.plot(px[::1] + 0.5, (py[::1] + 0.5),
                 'o',
                 markersize=2,
                 markeredgecolor='k',
                 markerfacecolor='k')
        plt.axis([0, sst.shape[0] - 1, 0, sst.shape[1] - 1])
    else:
        plt.plot(px[::1] - coord[2] + 0.5, (py[::1] - coord[0] + 0.5),
                 'o',
                 markersize=1,
                 markerfacecolor='white')
        #plt.axis('scaled');
        #plt.axis([nx1-coord[2]+0.5,nx2-coord[2]+0.5,ny1-coord[0]+0.5,ny2-coord[0]+0.5]);
    '''
    for isub,jsub in product(range(nsub_x),range(nsub_y)):
        try:
            plot_rect(subtightcoord_saves[jsub+isub*nsub_y],'r')
            plot_rect(subcoord_saves[jsub+isub*nsub_y],'k--')
        except:
            print 'no subdomains to plot'
    '''

    color = 'w'
    box = 'round,pad=0.1'
    props = dict(boxstyle=box, fc=color, ec='k', lw=1, alpha=1.)
    #JC  ax1.text(0.95,0.05,simul.date[:-8], horizontalalignment='right', verticalalignment='bottom', bbox=props, transform=ax1.transAxes)

    plt.title(format(np.sum(px > 0)) + ' pyticles ')
    plt.savefig(folderout + simulname + '_' + format(nproc) + '_' +
                '{0:04}'.format(time + dfile) + '.png',
                size=None,
                figure=None,
                magnification='auto',
                dpi=150,
                bbox_inches='tight')
    plt.clf()
コード例 #4
0
simul = load(simul=parameters)
depths = simul.coord[4]

###################################################################################
# get depth, lon, lat
###################################################################################
coord = simul.coord[:
                    4]  #= part.subsection(px,py,ny=simul.coordmax[1],nx=simul.coordmax[3],offset=10)

#simul.VertCoordType='OLD'
#[z_r,z_w] = part.get_depths(simul,coord=coord,x_periodic=x_periodic,y_periodic=y_periodic,ng=ng)

simul.VertCoordType = 'NEW'
[z_r_new, z_w_new] = part.get_depths(simul,
                                     coord=coord,
                                     x_periodic=x_periodic,
                                     y_periodic=y_periodic,
                                     ng=ng)

#simul.VertCoordType='OLD'
'''
#--------------------------del sys.modules["-
plt.subplot(1,2,1)
plt.plot(z_w_old[480,213,:].T); 
plt.subplot(1,2,2)
plt.plot(z_w_new[480,213,:].T); 

plt.savefig('test.png'); plt.clf()

#---------------------------
'''