halo_comparison/halo_plot.py

from pathlib import Path
from sys import argv
from typing import List

import h5py
import numpy as np
from matplotlib import pyplot as plt
from matplotlib.axes import Axes
from matplotlib.colors import LogNorm
from matplotlib.figure import Figure
from matplotlib.patches import Circle
from mpl_toolkits.axes_grid1.anchored_artists import AnchoredSizeBar

from halo_vis import Coords
from paths import base_dir, vis_datafile, has_1024_simulations
from read_vr_files import read_velo_halos
from utils import figsize_from_page_fraction, rowcolumn_labels, waveforms


def coord_to_2d_extent(coords: Coords):
    radius, X, Y, Z = coords
    return X - radius, X + radius, Y - radius, Y + radius


def in_area(coords: Coords, xobj, yobj, zobj, factor=1.3) -> bool:
    radius, xcenter, ycenter, zcenter = coords
    radius *= factor
    return (
            (xcenter - radius < xobj < xcenter + radius)
            and (ycenter - radius < yobj < ycenter + radius)
            and (zcenter - radius < zobj < zcenter + radius)
    )


def main():
    offset = 2
    resolutions = [128, 256, 512]
    if argv[1] == "box":
        initial_halo_id = 0
    else:
        initial_halo_id = int(argv[1])
    is_box = not initial_halo_id
    if has_1024_simulations:
        resolutions.append(1024)
    fig: Figure = plt.figure(
        figsize=figsize_from_page_fraction(columns=2, height_to_width=1.05), layout="constrained"
    )
    axes: List[List[Axes]] = fig.subplots(
        len(waveforms), 4, sharex="row", sharey="row"
    )
    with h5py.File(vis_datafile) as vis_out:
        halo_group = vis_out[str(initial_halo_id)]

        vmin, vmax = halo_group["vmin_vmax"]
        print(vmin, vmax)
        for i, waveform in enumerate(waveforms):
            for j, resolution in enumerate(resolutions):
                dir = base_dir / f"{waveform}_{resolution}_100"
                halos = read_velo_halos(dir)
                ax = axes[i][j]
                dataset_group = halo_group[f"{waveform}_{resolution}"]
                rho = np.asarray(dataset_group["rho"])
                # radius, X, Y, Z
                coords: Coords = tuple(dataset_group["coords"])
                radius, X, Y, Z = coords
                mass = dataset_group["mass"][()]  # get scalar value from Dataset
                main_halo_id = dataset_group["halo_id"][()] if initial_halo_id else None
                vmin_scaled = (vmin + offset) * mass
                vmax_scaled = (vmax + offset) * mass
                rho = (rho + offset) * mass
                extent = coord_to_2d_extent(coords)
                img = ax.imshow(
                    rho.T.T,
                    norm=LogNorm(vmin=vmin_scaled, vmax=vmax_scaled),
                    extent=extent,
                    origin="lower",
                    cmap="Greys",
                    interpolation="none"
                )  # ax.set_axis_off()
                ax.set_xticks([])
                ax.set_yticks([])
                if j == 0:
                    scalebar = AnchoredSizeBar(
                        ax.transData,
                        1,
                        "1 Mpc",
                        "lower left",
                        # pad=0.1,
                        color="black",
                        frameon=False,
                        # size_vertical=1
                    )
                    ax.add_artist(scalebar)

                if not is_box:
                    found_main_halo = False
                    for halo_id, halo in halos.iterrows():
                        if halo["Vmax"] > 50:
                            if in_area(coords, halo.X, halo.Y, halo.Z):
                                if halo_id == main_halo_id:
                                    color = "C2"
                                elif halo["Structuretype"] > 10:
                                    color = "C1"
                                else:
                                    color = "C0"
                                if halo_id == main_halo_id:
                                    found_main_halo = True
                                    print("plotting main halo")
                                circle = Circle(
                                    (halo.Y - Y + X, halo.X - X + Y),
                                    halo["R_200crit"],
                                    zorder=10,
                                    linewidth=1,
                                    edgecolor=color,
                                    fill=None,
                                    alpha=0.2,
                                )
                                ax.add_artist(circle)

                    assert found_main_halo
                print(img)

            #     break
            # break
    ylabels = waveforms
    rowcolumn_labels(axes, ylabels, isrow=True)
    rowcolumn_labels(axes, resolutions, isrow=False)

    fig.tight_layout()
    fig.subplots_adjust(wspace=0, hspace=0)

    fig.savefig(Path(f"~/tmp/halo_plot_{initial_halo_id}.pdf").expanduser())
    fig.savefig(Path(f"~/tmp/halo_plot_{initial_halo_id}.png").expanduser(), dpi=300)

    plt.show()


if __name__ == "__main__":
    main()
better halo_vis 2022-07-14 15:14:26 +02:00			`from pathlib import Path`
			`from sys import argv`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`from typing import List`

			`import h5py`
			`import numpy as np`
			`from matplotlib import pyplot as plt`
fix pyvista 2022-06-01 12:12:45 +02:00			`from matplotlib.axes import Axes`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`from matplotlib.colors import LogNorm`
			`from matplotlib.figure import Figure`
some minor changes 2022-06-01 11:31:42 +02:00			`from matplotlib.patches import Circle`
better halo_vis 2022-07-14 15:14:26 +02:00			`from mpl_toolkits.axes_grid1.anchored_artists import AnchoredSizeBar`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00
correct halo plots 2022-07-05 15:40:17 +02:00			`from halo_vis import Coords`
better halo_vis 2022-07-14 15:14:26 +02:00			`from paths import base_dir, vis_datafile, has_1024_simulations`
some minor changes 2022-06-01 11:31:42 +02:00			`from read_vr_files import read_velo_halos`
unify waveforms order 2022-07-21 12:34:57 +02:00			`from utils import figsize_from_page_fraction, rowcolumn_labels, waveforms`
some minor changes 2022-06-01 11:31:42 +02:00

correct halo plots 2022-07-05 15:40:17 +02:00			`def coord_to_2d_extent(coords: Coords):`
			`radius, X, Y, Z = coords`
			`return X - radius, X + radius, Y - radius, Y + radius`
some minor changes 2022-06-01 11:31:42 +02:00

correct halo plots 2022-07-05 15:40:17 +02:00			`def in_area(coords: Coords, xobj, yobj, zobj, factor=1.3) -> bool:`
			`radius, xcenter, ycenter, zcenter = coords`
			`radius *= factor`
			`return (`
improve halo plots 2022-08-18 14:21:47 +02:00			`(xcenter - radius < xobj < xcenter + radius)`
			`and (ycenter - radius < yobj < ycenter + radius)`
			`and (zcenter - radius < zobj < zcenter + radius)`
correct halo plots 2022-07-05 15:40:17 +02:00			`)`
some minor changes 2022-06-01 11:31:42 +02:00
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00
			`def main():`
minor changes 2022-05-31 17:22:57 +02:00			`offset = 2`
quick rename 2022-07-21 12:35:25 +02:00			`resolutions = [128, 256, 512]`
improve halo plots 2022-08-18 14:21:47 +02:00			`if argv[1] == "box":`
			`initial_halo_id = 0`
			`else:`
			`initial_halo_id = int(argv[1])`
			`is_box = not initial_halo_id`
better halo_vis 2022-07-14 15:14:26 +02:00			`if has_1024_simulations:`
quick rename 2022-07-21 12:35:25 +02:00			`resolutions.append(1024)`
Changed layout of comparison figures: introduced sup(x/y)label but kept old structure, changed size of rowcolumn_labels to fit other labels, changed position of comp information Formatted everything with black 2022-08-10 16:26:30 +02:00			`fig: Figure = plt.figure(`
improve halo plots 2023-01-10 17:49:14 +01:00			`figsize=figsize_from_page_fraction(columns=2, height_to_width=1.05), layout="constrained"`
Changed layout of comparison figures: introduced sup(x/y)label but kept old structure, changed size of rowcolumn_labels to fit other labels, changed position of comp information Formatted everything with black 2022-08-10 16:26:30 +02:00			`)`
			`axes: List[List[Axes]] = fig.subplots(`
improve halo plots 2023-01-10 17:49:14 +01:00			`len(waveforms), 4, sharex="row", sharey="row"`
Changed layout of comparison figures: introduced sup(x/y)label but kept old structure, changed size of rowcolumn_labels to fit other labels, changed position of comp information Formatted everything with black 2022-08-10 16:26:30 +02:00			`)`
some minor changes 2022-06-01 11:31:42 +02:00			`with h5py.File(vis_datafile) as vis_out:`
better halo_vis 2022-07-14 15:14:26 +02:00			`halo_group = vis_out[str(initial_halo_id)]`

			`vmin, vmax = halo_group["vmin_vmax"]`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`print(vmin, vmax)`
unify waveforms order 2022-07-21 12:34:57 +02:00			`for i, waveform in enumerate(waveforms):`
quick rename 2022-07-21 12:35:25 +02:00			`for j, resolution in enumerate(resolutions):`
some minor changes 2022-06-01 11:31:42 +02:00			`dir = base_dir / f"{waveform}_{resolution}_100"`
			`halos = read_velo_halos(dir)`
improve halo plots 2023-01-10 17:49:14 +01:00			`ax = axes[i][j]`
better halo_vis 2022-07-14 15:14:26 +02:00			`dataset_group = halo_group[f"{waveform}_{resolution}"]`
			`rho = np.asarray(dataset_group["rho"])`
correct halo plots 2022-07-05 15:40:17 +02:00			`# radius, X, Y, Z`
better halo_vis 2022-07-14 15:14:26 +02:00			`coords: Coords = tuple(dataset_group["coords"])`
improve halo plots 2022-08-18 14:21:47 +02:00			`radius, X, Y, Z = coords`
better halo_vis 2022-07-14 15:14:26 +02:00			`mass = dataset_group["mass"][()] # get scalar value from Dataset`
improve halo plots 2022-08-18 14:21:47 +02:00			`main_halo_id = dataset_group["halo_id"][()] if initial_halo_id else None`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`vmin_scaled = (vmin + offset) * mass`
			`vmax_scaled = (vmax + offset) * mass`
			`rho = (rho + offset) * mass`
correct halo plots 2022-07-05 15:40:17 +02:00			`extent = coord_to_2d_extent(coords)`
improve halo plots 2023-01-10 17:49:14 +01:00			`img = ax.imshow(`
			`rho.T.T,`
			`norm=LogNorm(vmin=vmin_scaled, vmax=vmax_scaled),`
			`extent=extent,`
			`origin="lower",`
			`cmap="Greys",`
			`interpolation="none"`
			`) # ax.set_axis_off()`
			`ax.set_xticks([])`
			`ax.set_yticks([])`
			`if j == 0:`
			`scalebar = AnchoredSizeBar(`
			`ax.transData,`
			`1,`
			`"1 Mpc",`
			`"lower left",`
			`# pad=0.1,`
			`color="black",`
			`frameon=False,`
			`# size_vertical=1`
			`)`
			`ax.add_artist(scalebar)`
improve halo plots 2022-08-18 14:21:47 +02:00
			`if not is_box:`
			`found_main_halo = False`
			`for halo_id, halo in halos.iterrows():`
improve halo plots 2023-01-10 17:49:14 +01:00			`if halo["Vmax"] > 50:`
improve halo plots 2022-08-18 14:21:47 +02:00			`if in_area(coords, halo.X, halo.Y, halo.Z):`
			`if halo_id == main_halo_id:`
			`color = "C2"`
			`elif halo["Structuretype"] > 10:`
			`color = "C1"`
improve halo plots 2023-01-10 17:49:14 +01:00			`else:`
			`color = "C0"`
improve halo plots 2022-08-18 14:21:47 +02:00			`if halo_id == main_halo_id:`
			`found_main_halo = True`
			`print("plotting main halo")`
			`circle = Circle(`
			`(halo.Y - Y + X, halo.X - X + Y),`
improve halo plots 2023-01-10 17:49:14 +01:00			`halo["R_200crit"],`
improve halo plots 2022-08-18 14:21:47 +02:00			`zorder=10,`
			`linewidth=1,`
			`edgecolor=color,`
			`fill=None,`
			`alpha=0.2,`
			`)`
improve halo plots 2023-01-10 17:49:14 +01:00			`ax.add_artist(circle)`
fix ylabels 2023-01-11 12:22:07 +01:00
			`assert found_main_halo`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`print(img)`
better halo_vis 2022-07-14 15:14:26 +02:00
some minor changes 2022-06-01 11:31:42 +02:00			`# break`
			`# break`
fix ylabels 2023-01-11 12:22:07 +01:00			`ylabels = waveforms`
improve halo plots 2022-08-18 14:21:47 +02:00			`rowcolumn_labels(axes, ylabels, isrow=True)`
quick rename 2022-07-21 12:35:25 +02:00			`rowcolumn_labels(axes, resolutions, isrow=False)`
better halo_vis 2022-07-14 15:14:26 +02:00
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`fig.tight_layout()`
improve halo plots 2022-08-18 14:21:47 +02:00			`fig.subplots_adjust(wspace=0, hspace=0)`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00
better halo_vis 2022-07-14 15:14:26 +02:00			`fig.savefig(Path(f"~/tmp/halo_plot_{initial_halo_id}.pdf").expanduser())`
improve halo-plots 2022-07-28 00:43:05 +02:00			`fig.savefig(Path(f"~/tmp/halo_plot_{initial_halo_id}.png").expanduser(), dpi=300)`
better halo_vis 2022-07-14 15:14:26 +02:00
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`plt.show()`


Changed layout of comparison figures: introduced sup(x/y)label but kept old structure, changed size of rowcolumn_labels to fit other labels, changed position of comp information Formatted everything with black 2022-08-10 16:26:30 +02:00			`if __name__ == "__main__":`
clean up a lot of code and better halo visualisation 2022-05-25 17:17:24 +02:00			`main()`