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{
"cells": [
{
"cell_type": "code",
2024-10-02 17:07:30 +00:00
"execution_count": 2,
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"metadata": {},
"outputs": [],
"source": [
"# Copyright (C) 2024 Richard Stiskalek\n",
"# This program is free software; you can redistribute it and/or modify it\n",
"# under the terms of the GNU General Public License as published by the\n",
"# Free Software Foundation; either version 3 of the License, or (at your\n",
"# option) any later version.\n",
"#\n",
"# This program is distributed in the hope that it will be useful, but\n",
"# WITHOUT ANY WARRANTY; without even the implied warranty of\n",
"# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General\n",
"# Public License for more details.\n",
"#\n",
"# You should have received a copy of the GNU General Public License along\n",
"# with this program; if not, write to the Free Software Foundation, Inc.,\n",
"# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.\n",
"from os.path import exists\n",
"import numpy as np\n",
"import matplotlib.pyplot as plt\n",
"from corner import corner\n",
"from getdist import plots\n",
"import scienceplots\n",
"from os.path import exists\n",
"import seaborn as sns\n",
"\n",
"\n",
"from reconstruction_comparison import *\n",
"\n",
"%load_ext autoreload\n",
"%autoreload 2\n",
"%matplotlib inline\n",
"\n",
"paths = csiborgtools.read.Paths(**csiborgtools.paths_glamdring)\n",
"fdir = \"/mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity\""
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Quick checks"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"catalogue = \"CF4_TFR_i\"\n",
"simname = \"IndranilVoid_exp\"\n",
"zcmb_max=0.05\n",
"sample_beta = None\n",
"no_Vext = True\n",
"\n",
"fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=sample_beta,\n",
" no_Vext=no_Vext, zcmb_max=zcmb_max)\n"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"X = samples_to_getdist(get_samples(fname, False), \"Test\")"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"params = [\"rLG\", \"sigma_v\"]\n",
"\n",
"\n",
"# params = [\"beta\", f\"a_{catalogue}\", f\"b_{catalogue}\", f\"e_mu_{catalogue}\"]\n",
"# params = [\"Vmag\", \"l\", \"b\", \"sigma_v\", \"beta\", f\"mag_cal_{catalogue}\", f\"alpha_cal_{catalogue}\", f\"beta_cal_{catalogue}\", f\"e_mu_{catalogue}\"]\n",
"\n",
"with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
" \n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(catalogue_to_pretty(catalogue), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" # plt.gcf().savefig(f\"../../plots/method_comparison_{simname}_{catalogue}.png\", dpi=500, bbox_inches='tight')"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"# catalogue = [\"LOSS\", \"Foundation\"]\n",
"catalogue = \"CF4_TFR_i\"\n",
"simname = \"IndranilVoid_exp\"\n",
"zcmb_max = 0.05\n",
"sample_alpha = False\n",
"\n",
"fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"mike\",\n",
" sample_mag_dipole=True,\n",
" sample_beta=False,\n",
" sample_alpha=sample_alpha, zcmb_max=zcmb_max)\n",
"\n",
"\n",
"samples = get_samples(fname, convert_Vext_to_galactic=True)\n",
"\n",
"samples, labels, keys = samples_for_corner(samples)\n",
"fig = corner(samples, labels=labels, show_titles=True,\n",
" title_kwargs={\"fontsize\": 12}, smooth=1)\n",
"# fig.savefig(\"../../plots/test.png\", dpi=250)\n",
"fig.show()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Paper plots"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### 1. No $V_{\\rm ext}$ and no $\\beta$"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"for simname in [\"IndranilVoid_exp\", \"IndranilVoid_gauss\", \"IndranilVoid_mb\"]:\n",
" X = []\n",
" for catalogue in [\"2MTF\", \"SFI_gals\", \"CF4_TFR_i\", \"CF4_TFR_w1\"]:\n",
"\n",
" fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=None,\n",
" no_Vext=True, zcmb_max=0.05)\n",
"\n",
" X_i = samples_to_getdist(get_samples(fname, False), catalogue_to_pretty(catalogue))\n",
" X.append(X_i)\n",
"\n",
" params = [\"rLG\", \"sigma_v\"]\n",
" with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
"\n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(simname_to_pretty(simname), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" plt.gcf().savefig(f\"../../plots/void_{simname}_noVext_nobeta.png\", dpi=500, bbox_inches='tight')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### 2. No $V_{\\rm ext}$ but sampling $\\beta$"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"for simname in [\"IndranilVoid_exp\", \"IndranilVoid_gauss\", \"IndranilVoid_mb\"]:\n",
" X = []\n",
" for catalogue in [\"2MTF\", \"SFI_gals\", \"CF4_TFR_i\", \"CF4_TFR_w1\"]:\n",
"\n",
" fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=True,\n",
" no_Vext=True, zcmb_max=0.05)\n",
"\n",
" X_i = samples_to_getdist(get_samples(fname, False), catalogue_to_pretty(catalogue))\n",
" X.append(X_i)\n",
"\n",
" params = [\"rLG\", \"sigma_v\", \"beta\"]\n",
" with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
"\n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(simname_to_pretty(simname), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" plt.gcf().savefig(f\"../../plots/void_{simname}_noVext_beta.png\", dpi=500, bbox_inches='tight')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### 3. Yes $V_{\\rm ext}$ and no $\\beta$ "
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"for simname in [\"IndranilVoid_exp\", \"IndranilVoid_gauss\", \"IndranilVoid_mb\"]:\n",
" X = []\n",
" for catalogue in [\"2MTF\", \"SFI_gals\", \"CF4_TFR_i\", \"CF4_TFR_w1\"]:\n",
"\n",
" fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=False,\n",
" no_Vext=None, zcmb_max=0.05)\n",
"\n",
" X_i = samples_to_getdist(get_samples(fname, False), catalogue_to_pretty(catalogue))\n",
" X.append(X_i)\n",
"\n",
" params = [\"rLG\", \"sigma_v\", \"Vx\", \"Vy\", \"Vz\"]\n",
" with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
"\n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(simname_to_pretty(simname), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" plt.gcf().savefig(f\"../../plots/void_{simname}_Vext_nobeta.png\", dpi=500, bbox_inches='tight')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### 4. Yes $V_{\\rm ext}$ and yes $\\beta$"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"for simname in [\"IndranilVoid_exp\", \"IndranilVoid_gauss\", \"IndranilVoid_mb\"]:\n",
" X = []\n",
" for catalogue in [\"2MTF\", \"SFI_gals\", \"CF4_TFR_i\", \"CF4_TFR_w1\"]:\n",
"\n",
" fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=True,\n",
" no_Vext=None, zcmb_max=0.05)\n",
"\n",
" X_i = samples_to_getdist(get_samples(fname, False), catalogue_to_pretty(catalogue))\n",
" X.append(X_i)\n",
"\n",
" params = [\"rLG\", \"sigma_v\", \"beta\", \"Vx\", \"Vy\", \"Vz\"]\n",
" with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
"\n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(simname_to_pretty(simname), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" plt.gcf().savefig(f\"../../plots/void_{simname}_Vext_beta.png\", dpi=500, bbox_inches='tight')"
]
},
{
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"cell_type": "markdown",
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"metadata": {},
2024-09-23 10:33:48 +00:00
"source": [
"### 5. $V_{\\rm ext}$ along the model axis and $\\beta = 1$"
]
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},
{
"cell_type": "code",
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"execution_count": 10,
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"metadata": {},
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"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_exp_2MTF_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 09:39:52\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_exp_SFI_gals_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:11:18\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_exp_CF4_TFR_i_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:01:14\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_exp_CF4_TFR_w1_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:01:20\n",
"Removed no burn in\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"/tmp/ipykernel_2151114/3148255757.py:36: UserWarning: This figure includes Axes that are not compatible with tight_layout, so results might be incorrect.\n",
" plt.gcf().tight_layout()\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_gauss_2MTF_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 09:46:13\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_gauss_SFI_gals_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:27:30\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_gauss_CF4_TFR_i_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:09:19\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_gauss_CF4_TFR_w1_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 09:56:52\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"WARNING:root:auto bandwidth for rLG very small or failed (h=0.0005439226807811613,N_eff=8994.407942602313). Using fallback (h=0.0028506479348732166)\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"Removed no burn in\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"/tmp/ipykernel_2151114/3148255757.py:36: UserWarning: This figure includes Axes that are not compatible with tight_layout, so results might be incorrect.\n",
" plt.gcf().tight_layout()\n"
]
},
{
"name": "stdout",
"output_type": "stream",
"text": [
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_mb_2MTF_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:01:37\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_mb_SFI_gals_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:18:28\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_mb_CF4_TFR_i_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:23:29\n",
"Removed no burn in\n",
"File: /mnt/extraspace/rstiskalek/csiborg_postprocessing/peculiar_velocity/samples_IndranilVoid_mb_CF4_TFR_w1_bayes_zcmb_max_0.05_no_Vext_sample_Vmag_vax.hdf5\n",
"Last modified: 27/09/2024 10:40:41\n",
"Removed no burn in\n"
]
},
{
"name": "stderr",
"output_type": "stream",
"text": [
"/tmp/ipykernel_2151114/3148255757.py:36: UserWarning: This figure includes Axes that are not compatible with tight_layout, so results might be incorrect.\n",
" plt.gcf().tight_layout()\n"
]
},
{
"data": {
"image/png": "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
"text/plain": [
"<Figure size 600x600 with 6 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"image/png": "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
"text/plain": [
"<Figure size 600x600 with 6 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"image/png": "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
"text/plain": [
"<Figure size 600x600 with 6 Axes>"
]
},
"metadata": {},
"output_type": "display_data"
}
],
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"source": [
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"def profile2vvoid(profile):\n",
" if \"mb\" in profile:\n",
" return 1586\n",
" elif \"gauss\" in profile:\n",
" return 2018\n",
" elif \"exp\" in profile:\n",
" return 2307\n",
" else:\n",
" raise ValueError(\"Invalid profile\")\n",
"\n",
"\n",
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"for simname in [\"IndranilVoid_exp\", \"IndranilVoid_gauss\", \"IndranilVoid_mb\"]:\n",
" X = []\n",
" for catalogue in [\"2MTF\", \"SFI_gals\", \"CF4_TFR_i\", \"CF4_TFR_w1\"]:\n",
"\n",
" fname = paths.flow_validation(\n",
" fdir, simname, catalogue, inference_method=\"bayes\",\n",
" sample_alpha=False, sample_beta=None,\n",
" no_Vext=True, zcmb_max=0.05, sample_Vmag_vax=True)\n",
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"\n",
" Xi = get_samples(fname, False)\n",
" Xi[\"Vvoid\"] = Xi[\"Vext_axis_mag\"] - profile2vvoid(simname)\n",
"\n",
" X_i = samples_to_getdist(Xi, catalogue_to_pretty(catalogue))\n",
"\n",
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" X.append(X_i)\n",
"\n",
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" params = [\"rLG\", \"sigma_v\", \"Vvoid\"]\n",
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" with plt.style.context(\"science\"):\n",
" g = plots.get_subplot_plotter()\n",
" g.settings.figure_legend_frame = False\n",
" g.settings.alpha_filled_add = 0.75\n",
"\n",
" g.triangle_plot(X, params=params, filled=True, legend_loc='upper right')\n",
" plt.gcf().suptitle(simname_to_pretty(simname), y=1.025)\n",
" plt.gcf().tight_layout()\n",
" plt.gcf().show()\n",
" plt.gcf().savefig(f\"../../plots/void_{simname}_Vext_along_axis_no_beta.png\", dpi=500, bbox_inches='tight')"
]
2024-09-23 09:24:07 +00:00
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": []
},
{
"cell_type": "markdown",
"metadata": {},
"source": []
}
],
"metadata": {
"kernelspec": {
"display_name": "venv_csiborg",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.11.4"
}
},
"nbformat": 4,
"nbformat_minor": 2
}
