Esempio n. 1
0
 # Read in rdisc.1 file
 #
 hasharr_app, n_accr, r_d_kep, r_d_sigALMA, \
    m_s, m_mri_d, m_d_kep, m_d_piv, m_d_sigALMA, = \
    r1_r.read(dat_dir_tmp, plotdir, ea_run[i], \
    snaparr, v_K[k], inclin[j])
 #
 # DE05.sink file(s) read (Planet sink data vs. radius vs. time)
 #
 pmass, pradius, timearr = \
    sink_r.read(arch_dir, dat_dir_tmp, ic_dir, plotdir, ea_run[i], snaparr, pcAU)
 #
 # pdisc read (Disc parameters vs. radius for defined time)
 #
 r, vkep, col_arr = pdisc_r.read(arch_dir, dat_dir_tmp, plotdir, ea_run[i], \
    snaparr, snaparr_IA, snapcore, EA_timeref, EA_lenref, pmass, pradius, \
    hasharr_app, n_accr, r_limit, r_d_kep, r_d_sigALMA,
    timearr, v_K[k], inclin[j])
 #
 # rdisc read (Disc parameters vs. time for defined radius)
 #
 rdisc_r.read(dat_dir_tmp, plotdir, ea_run[i], hasharr_app, \
    n_accr, r_inspec, v_K[k], inclin[j])
 #
 if ((pv == "TRUE")):  # and (inclin[j] != "0")):
     #
     # Position-Velocity diagram plot
     #
     pv_mass, kep_fit, raw_fit = pv_diag.pv(dat_dir_tmp, plotdir, \
        ea_run[i], snaparr, snapcore, v_K[k], inclin[j], r, vkep, \
        pmass, EA_lenref, EA_timeref, pcAU, AUm, G, Msol_kg)
     #
Esempio n. 2
0
	# Read in rdisc.1 file
#
			hasharr_app, n_accr, r_d_kep, r_d_sigALMA, \
			   m_s, m_mri_d, m_d_kep, m_d_sigALMA, m_d_piv = \
			   r1_r.read(arch_dir_tmp, plotdir, ea_run[i], \
			   snaparr, v_K[k], inclin[j])
#
	# DE05.sink file(s) read (Planet sink data vs. radius vs. time)
#
			pmass, pradius, timearr = \
			   sink_r.read(arch_dir_tmp, plotdir, ea_run[i], snaparr, pcAU)
#
	# pdisc read (Disc parameters vs. radius for defined time)
#
			r, vkep = pdisc_r.read(arch_dir_tmp, plotdir, ea_run[i], \
			   snaparr, EA_timeref, EA_lenref, pmass, pradius, \
			   hasharr_app, n_accr, r_limit, spline, r_d_kep, r_d_sigALMA,
			   timearr, v_K[k])
#
	# rdisc read (Disc parameters vs. time for defined radius)
#
			rdisc_r.read(arch_dir_tmp, plotdir, ea_run[i], hasharr_app, \
			   n_accr, r_inspec, v_K[k], inclin[j])
#
			if ((pv == "TRUE") and (inclin[j] != "0")):
#
	# Position-Velocity diagram plot
#
				pv_mass, raw_fit = pv_diag.pv(arch_dir_tmp, plotdir, ea_run[i], \
				   snaparr, v_K[k], inclin[j], r, vkep, EA_lenref, EA_timeref, \
				   pcAU, AUm, G, Msol_kg)	
#
Esempio n. 3
0
 # DE05.sink file(s) read (Planet sink data vs. radius vs. time)
 #
 pmass, pradius, timearr = sink_r.read(arch_dir, dat_dir_tmp, plotdir, ea_run[i], snaparr, pcAU)
 #
 # pdisc read (Disc parameters vs. radius for defined time)
 #
 r, vkep, col_arr = pdisc_r.read(
     dat_dir_tmp,
     plotdir,
     ea_run[i],
     snaparr,
     snapcore,
     EA_timeref,
     EA_lenref,
     pmass,
     pradius,
     hasharr_app,
     n_accr,
     r_limit,
     r_d_kep,
     r_d_sigALMA,
     timearr,
     v_K[k],
     inclin[j],
 )
 #
 # rdisc read (Disc parameters vs. time for defined radius)
 #
 rdisc_r.read(dat_dir_tmp, plotdir, ea_run[i], hasharr_app, n_accr, r_inspec, v_K[k], inclin[j])
 #
 if (pv == "TRUE") and (inclin[j] != "0"):