''' Copyright (C) 2014-2019, Johannes Pekkilae, Miikka Vaeisalae. This file is part of Astaroth. Astaroth is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Astaroth is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Astaroth. If not, see . ''' import astar.data as ad import astar.visual as vis import pylab as plt import numpy as np import sys ##mesh = ad.read.Mesh(500, fdir="/tiara/home/mvaisala/astaroth-code/astaroth_2.0/build/") ## ##print(np.shape(mesh.uu)) ##print(np.shape(mesh.lnrho)) ## ##uu_tot = np.sqrt(mesh.uu[0]**2.0 + mesh.uu[1]**2.0 + mesh.uu[2]**2.0) ##vis.slices.plot_3(mesh, uu_tot, title = r'$|u|$', bitmap = True, fname = 'uutot') ## ##vis.slices.plot_3(mesh, mesh.lnrho, title = r'$\ln \rho$', bitmap = True, fname = 'lnrho') ## ##print(mesh.minfo.contents) AC_unit_density = 1e-17 AC_unit_velocity = 1e5 AC_unit_length = 1.496e+13 print("sys.argv", sys.argv) #meshdir = "/tiara/home/mvaisala/astaroth-code/astaroth_2.0/build/" #meshdir = "/tiara/ara/data/mvaisala/tmp/astaroth-code/astaroth_2.0/build/" #meshdir = "/tiara/ara/data/mvaisala/asth_testbed_double/" meshdir = "/scratch/data/mvaisala/forcingtest/" if "xtopbound" in sys.argv: for i in range(0, 171): mesh = ad.read.Mesh(i, fdir=meshdir) if mesh.ok: np.set_printoptions(precision=4, linewidth=150) uu_tot = np.sqrt(mesh.uu[0]**2.0 + mesh.uu[1]**2.0 + mesh.uu[2]**2.0) print(mesh.lnrho.shape) print(range((mesh.lnrho.shape[0]-7),mesh.lnrho.shape[0])) print('lnrho', i, mesh.lnrho[(mesh.lnrho.shape[0]-7):mesh.lnrho.shape[0], 20, 100]) print('uux', i, mesh.uu[0][(mesh.lnrho.shape[0]-7):mesh.lnrho.shape[0], 20, 100]) print('uuy', i, mesh.uu[1][(mesh.lnrho.shape[0]-7):mesh.lnrho.shape[0], 20, 100]) print('uuz', i, mesh.uu[2][(mesh.lnrho.shape[0]-7):mesh.lnrho.shape[0], 20, 100]) print('uu_tot', i, uu_tot[ (mesh.lnrho.shape[0]-7):mesh.lnrho.shape[0], 20, 100]) if "single" in sys.argv: mesh = ad.read.Mesh(1, fdir=meshdir) print(mesh.lnrho.shape) print( mesh.lnrho[1, 50, 100], 0.0) print( mesh.lnrho[197, 50, 100], 0.0) print( mesh.lnrho[100, 50, 1], 0.0) print( mesh.lnrho[100, 50, 197], 0.0) print( mesh.lnrho[100, 1, 100], "periodic") print( mesh.lnrho[100, 101, 00], "periodic") angle = 0.78 UUXX = -0.25 * np.cos(angle) zorig = 4.85965 zz = [0.0490874*1.0 - zorig, 0.0490874*100.0 - zorig, 0.0490874*197.0 - zorig] print (zz) zz = np.array(zz) UUZZ = - 0.25*np.sin(angle)*np.tanh(zz/0.2) #plt.plot(np.linspace(-5.0, 5.0, num=100),- (0.25*np.sin(angle))*np.tanh(np.linspace(-5.0, 5.0, num=100)/0.2)) #plt.show() print("---- UUX") print( mesh.uu[0][1, 50, 100], 0.0) print( mesh.uu[0][197, 50, 100], UUXX) print( mesh.uu[0][100, 50, 1], UUXX) print( mesh.uu[0][100, 50, 197], UUXX) print( mesh.uu[0][100, 1, 100], "periodic") print( mesh.uu[0][100, 101, 00], "periodic") print("---- UUY") print( mesh.uu[1][1, 50, 100], 0.0) print( mesh.uu[1][197, 50, 100], 0.0) print( mesh.uu[1][100, 50, 1], 0.0) print( mesh.uu[1][100, 50, 197], 0.0) print( mesh.uu[1][100, 1, 100], "periodic") print( mesh.uu[1][100, 101, 00], "periodic") print("---- UUZ") print( mesh.uu[2][1, 50, 100], 0.0) print( mesh.uu[2][197, 50, 100], UUZZ[1]) print( mesh.uu[2][100, 50, 1], UUZZ[0]) print( mesh.uu[2][100, 50, 197], UUZZ[2]) print( mesh.uu[2][100, 1, 100], "periodic") print( mesh.uu[2][100, 101, 00], "periodic") if 'xline' in sys.argv: mesh = ad.read.Mesh(0, fdir=meshdir) plt.figure() plt.plot(mesh.uu[0][100, 50, :] , label="z") plt.plot(mesh.uu[0][100, :, 100], label="x") plt.plot(mesh.uu[0][:, 50, 100] , label="y") plt.legend() plt.figure() plt.plot(mesh.uu[0][197, 50, :] , label="z edge") plt.figure() plt.plot(mesh.uu[1][100, 50, :] , label="z") plt.plot(mesh.uu[1][100, :, 100], label="x") plt.plot(mesh.uu[1][:, 50, 100] , label="y") plt.legend() plt.figure() plt.plot(mesh.uu[2][100, 50, :] , label="z") plt.plot(mesh.uu[2][100, :, 100], label="x") plt.plot(mesh.uu[2][:, 50, 100] , label="y") plt.legend() plt.show() if 'check' in sys.argv: mesh = ad.read.Mesh(0, fdir=meshdir) vis.slices.plot_3(mesh, mesh.lnrho, title = r'$\ln \rho$', bitmap = False, fname = 'lnrho', contourplot = True) plt.show() if 'diff' in sys.argv: mesh0 = ad.read.Mesh(1, fdir=meshdir) mesh1 = ad.read.Mesh(2, fdir=meshdir) vis.slices.plot_3(mesh1, mesh1.lnrho - mesh0.lnrho, title = r'$\ln \rho$', bitmap = True, fname = 'lnrho') vis.slices.plot_3(mesh1, mesh1.uu[0] - mesh0.uu[0], title = r'$u_x$', bitmap = True, fname = 'uux') vis.slices.plot_3(mesh1, mesh1.uu[1] - mesh0.uu[1], title = r'$u_y$', bitmap = True, fname = 'uuy') vis.slices.plot_3(mesh1, mesh1.uu[2] - mesh0.uu[2], title = r'$u_z$', bitmap = True, fname = 'uuz') if '1d' in sys.argv: plt.figure() for i in range(0, 100001, 1000): mesh = ad.read.Mesh(i, fdir=meshdir) if mesh.ok: if 'lnrho' in sys.argv: plt.plot(mesh.lnrho[:, 20, 100], label=i) elif 'uux' in sys.argv: plt.plot(mesh.uu[0][:, 20, 100], label=i) elif 'uuy' in sys.argv: plt.plot(mesh.uu[1][:, 20, 100], label=i) elif 'uuz' in sys.argv: plt.plot(mesh.uu[2][:, 20, 100], label=i) elif 'uutot' in sys.argv: uu_tot = np.sqrt(mesh.uu[0]**2.0 + mesh.uu[1]**2.0 + mesh.uu[2]**2.0) plt.plot(uu_tot[:, 20, 100], label=i) plt.legend() plt.show() if 'sl' in sys.argv: #maxfiles = 200002 #stride = 10000 maxfiles = 5001 stride = 100 for i in range(0, maxfiles, stride): mesh = ad.read.Mesh(i, fdir=meshdir) print(" %i / %i" % (i, maxfiles)) if mesh.ok: uu_tot = np.sqrt(mesh.uu[0]**2.0 + mesh.uu[1]**2.0 + mesh.uu[2]**2.0) if 'lim' in sys.argv: vis.slices.plot_3(mesh, mesh.lnrho, title = r'$\ln \rho$', bitmap = True, fname = 'lnrho', colrange=[-0.02, 0.0]) vis.slices.plot_3(mesh, np.exp(mesh.lnrho), title = r'$\rho$', bitmap = True, fname = 'rho', colrange=[0.97, 1.0]) vis.slices.plot_3(mesh, mesh.uu[0], title = r'$u_x$', bitmap = True, fname = 'uux', colrange=[-0.002, 0.002]) vis.slices.plot_3(mesh, mesh.uu[1], title = r'$u_y$', bitmap = True, fname = 'uuy', colrange=[-1.0e-20, 1.0e-20]) vis.slices.plot_3(mesh, mesh.uu[2], title = r'$u_z$', bitmap = True, fname = 'uuz', colrange=[-0.002, 0.002]) vis.slices.plot_3(mesh, np.exp(mesh.lnrho), title = r'$N_\mathrm{col}$', bitmap = True, fname = 'colden', slicetype = 'sum', colrange=[0.0, 100.0]) vis.slices.plot_3(mesh, uu_tot, title = r'$|u|$', bitmap = True, fname = 'uutot', colrange=[0.00, 0.004]) else: vis.slices.plot_3(mesh, mesh.lnrho, title = r'$\ln \rho$', bitmap = True, fname = 'lnrho') vis.slices.plot_3(mesh, np.exp(mesh.lnrho), title = r'$\rho$', bitmap = True, fname = 'rho') #vis.slices.plot_3(mesh, mesh.ss, title = r'$s$', bitmap = True, fname = 'ss') vis.slices.plot_3(mesh, mesh.uu[0], title = r'$u_x$', bitmap = True, fname = 'uux') vis.slices.plot_3(mesh, mesh.uu[1], title = r'$u_y$', bitmap = True, fname = 'uuy') vis.slices.plot_3(mesh, mesh.uu[2], title = r'$u_z$', bitmap = True, fname = 'uuz') vis.slices.plot_3(mesh, np.exp(mesh.lnrho), title = r'$N_\mathrm{col}$', bitmap = True, fname = 'colden', slicetype = 'sum') vis.slices.plot_3(mesh, uu_tot, title = r'$|u|$', bitmap = True, fname = 'uutot') if 'ts' in sys.argv: ts = ad.read.TimeSeries(fdir=meshdir) vis.lineplot.plot_ts(ts, lnrho=1, uutot=1, uux=1, ss=1)