internship/olaflow/processing/animate.py

import argparse
import gzip
import logging
import multiprocessing as mp
import pathlib
import pickle

import matplotlib.pyplot as plt
import matplotlib.animation as animation
from matplotlib.gridspec import GridSpec
import numpy as np
from scipy import interpolate

from .olaflow import OFModel

parser = argparse.ArgumentParser(description="Post-process olaflow results")
parser.add_argument("-v", "--verbose", action="count", default=0)
parser.add_argument(
    "-o",
    "--output",
    type=pathlib.Path,
    help="Output directory for pickled data",
    required=True,
)
args = parser.parse_args()

logging.basicConfig(level=max((10, 20 - 10 * args.verbose)))
log = logging.getLogger("ola_post")

log.info("Animating olaFlow output")
out = args.output
out.mkdir(parents=True, exist_ok=True)

with (
    path.open("rb")
    if (path := out.joinpath("pickle")).exists()
    else gzip.open(path.with_suffix(".gz"), "rb")
) as f:
    model = pickle.load(f)

x0, idx0 = np.unique(model.x.astype(np.half), return_inverse=True)
z0, idz0 = np.unique(model.z.astype(np.half), return_inverse=True)

X, Z = np.meshgrid(x0, z0)

P = np.full((model.t.size, *X.shape), np.nan)
P[:, idz0, idx0] = model.fields["porosity"]

AW = np.full((model.t.size, *X.shape), np.nan)
AW[:, idz0, idx0] = model.fields["alpha.water"]

U = np.full((model.t.size, *X.shape), np.nan)
U[:, idz0, idx0] = np.linalg.norm(model.fields["U"], axis=1)

fig = plt.figure(figsize=(19.2, 10.8), dpi=100)
gs = GridSpec(3, 1, figure=fig, height_ratios=[1, 0.05, 0.05])
ax = fig.add_subplot(gs[0])
cax1 = fig.add_subplot(gs[1])
cax2 = fig.add_subplot(gs[2])
tit = ax.text(
    0.5,
    0.95,
    f"t={model.t[0]}s",
    horizontalalignment="center",
    verticalalignment="top",
    transform=ax.transAxes,
)
aw_m = ax.pcolormesh(X, Z, AW[0], vmin=0, vmax=1, cmap="Blues", zorder=1)
p_m = ax.pcolormesh(
    X,
    Z,
    P[1],
    vmin=0,
    vmax=1,
    cmap="Greys_r",
    alpha=(np.nan_to_num(1 - P[1]) / 2).clip(0, 1),
    zorder=1.1,
)
ax.axhline(4.5, ls="-.", lw=1, c="k", alpha=0.2, zorder=1.2)


fig.colorbar(aw_m, label=r"$\alpha_w$", cax=cax1, shrink=0.6, orientation="horizontal")
fig.colorbar(p_m, label=r"Porosity", cax=cax2, shrink=0.6, orientation="horizontal")
ax.set(xlabel="x (m)", ylabel="z (m)", aspect="equal", facecolor="#000000")
ax.grid(c="k", alpha=0.2)


def anim(i):
    tit.set_text(f"t={model.t[i]}s")
    aw_m.set_array(AW[i])


figU = plt.figure(figsize=(19.2, 10.8), dpi=100)
gsU = GridSpec(3, 1, figure=figU, height_ratios=[1, 0.05, 0.05])
axU = figU.add_subplot(gsU[0])
caxu1 = figU.add_subplot(gsU[1])
caxu2 = figU.add_subplot(gsU[2])
u_m = axU.pcolormesh(
    X,
    Z,
    U[0],
    cmap="BuPu",
    vmin=0,
    vmax=np.nanquantile(U, 0.99),
    zorder=1,
    alpha=np.nan_to_num(AW[0]).clip(0, 1),
)
ur_m = axU.pcolormesh(
    X,
    Z,
    U[0],
    cmap="YlOrBr",
    vmin=0,
    vmax=np.nanquantile(U, 0.99),
    zorder=1,
    alpha=1 - np.nan_to_num(AW[0]).clip(0, 1),
)
# aw_u = axU.contour(X, Z, AW[0], levels=(.5,))
axU.set(xlabel="x (m)", ylabel="z (m)", aspect="equal", facecolor="#bebebe")
axU.grid(c="k", alpha=0.2)
titU = axU.text(
    0.5,
    0.95,
    f"t={model.t[0]}s",
    horizontalalignment="center",
    verticalalignment="top",
    transform=axU.transAxes,
)

figU.colorbar(u_m, label=r"$U_w$", cax=caxu1, shrink=0.6, orientation="horizontal")
figU.colorbar(ur_m, label=r"$U_a$", cax=caxu2, shrink=0.6, orientation="horizontal")


def animU(i):
    titU.set_text(f"t={model.t[i]}s")
    u_m.set_array(U[i])
    u_m.set_alpha(np.nan_to_num(AW[i]).clip(0, 1))
    ur_m.set_array(U[i])
    ur_m.set_alpha(1 - np.nan_to_num(AW[i]).clip(0, 1))


ani = animation.FuncAnimation(fig, anim, frames=model.t.size, interval=1 / 24)
aniU = animation.FuncAnimation(figU, animU, frames=model.t.size, interval=1 / 24)

ani.save(out.joinpath("anim.mp4"), fps=24)
aniU.save(out.joinpath("animU.mp4"), fps=24)
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`import argparse`
Compress pickled object 2022-04-14 12:37:42 +02:00			`import gzip`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`import logging`
Animate U 2022-04-13 15:10:41 +02:00			`import multiprocessing as mp`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`import pathlib`
			`import pickle`

			`import matplotlib.pyplot as plt`
			`import matplotlib.animation as animation`
Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`from matplotlib.gridspec import GridSpec`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`import numpy as np`
			`from scipy import interpolate`

			`from .olaflow import OFModel`

			`parser = argparse.ArgumentParser(description="Post-process olaflow results")`
			`parser.add_argument("-v", "--verbose", action="count", default=0)`
Update arguments for animate + black reformat 2022-05-04 10:52:40 +02:00			`parser.add_argument(`
			`"-o",`
			`"--output",`
			`type=pathlib.Path,`
			`help="Output directory for pickled data",`
			`required=True,`
			`)`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`args = parser.parse_args()`

			`logging.basicConfig(level=max((10, 20 - 10 * args.verbose)))`
			`log = logging.getLogger("ola_post")`

Update logging in animate 2022-04-14 12:38:49 +02:00			`log.info("Animating olaFlow output")`
Update arguments for animate + black reformat 2022-05-04 10:52:40 +02:00			`out = args.output`
Compress pickled object 2022-04-14 12:37:42 +02:00			`out.mkdir(parents=True, exist_ok=True)`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00
Black reformat + favor non gzip pickle 2022-04-15 10:31:55 +02:00			`with (`
			`path.open("rb")`
			`if (path := out.joinpath("pickle")).exists()`
			`else gzip.open(path.with_suffix(".gz"), "rb")`
			`) as f:`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`model = pickle.load(f)`

Highly improved efficiency in processing.animate to find grid 2022-04-15 11:22:36 +02:00			`x0, idx0 = np.unique(model.x.astype(np.half), return_inverse=True)`
			`z0, idz0 = np.unique(model.z.astype(np.half), return_inverse=True)`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00
Highly improved efficiency in processing.animate to find grid 2022-04-15 11:22:36 +02:00			`X, Z = np.meshgrid(x0, z0)`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00
			`P = np.full((model.t.size, *X.shape), np.nan)`
Highly improved efficiency in processing.animate to find grid 2022-04-15 11:22:36 +02:00			`P[:, idz0, idx0] = model.fields["porosity"]`
Animate U 2022-04-13 15:10:41 +02:00
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`AW = np.full((model.t.size, *X.shape), np.nan)`
Highly improved efficiency in processing.animate to find grid 2022-04-15 11:22:36 +02:00			`AW[:, idz0, idx0] = model.fields["alpha.water"]`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00
Animate U 2022-04-13 15:10:41 +02:00			`U = np.full((model.t.size, *X.shape), np.nan)`
Highly improved efficiency in processing.animate to find grid 2022-04-15 11:22:36 +02:00			`U[:, idz0, idx0] = np.linalg.norm(model.fields["U"], axis=1)`
Animate U 2022-04-13 15:10:41 +02:00
Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`fig = plt.figure(figsize=(19.2, 10.8), dpi=100)`
Update arguments for animate + black reformat 2022-05-04 10:52:40 +02:00			`gs = GridSpec(3, 1, figure=fig, height_ratios=[1, 0.05, 0.05])`
Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`ax = fig.add_subplot(gs[0])`
			`cax1 = fig.add_subplot(gs[1])`
			`cax2 = fig.add_subplot(gs[2])`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`tit = ax.text(`
			`0.5,`
			`0.95,`
			`f"t={model.t[0]}s",`
			`horizontalalignment="center",`
			`verticalalignment="top",`
			`transform=ax.transAxes,`
			`)`
			`aw_m = ax.pcolormesh(X, Z, AW[0], vmin=0, vmax=1, cmap="Blues", zorder=1)`
Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`p_m = ax.pcolormesh(`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`X,`
			`Z,`
			`P[1],`
			`vmin=0,`
			`vmax=1,`
			`cmap="Greys_r",`
Animate U 2022-04-13 15:10:41 +02:00			`alpha=(np.nan_to_num(1 - P[1]) / 2).clip(0, 1),`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`zorder=1.1,`
			`)`
			`ax.axhline(4.5, ls="-.", lw=1, c="k", alpha=0.2, zorder=1.2)`


Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`fig.colorbar(aw_m, label=r"$\alpha_w$", cax=cax1, shrink=0.6, orientation="horizontal")`
			`fig.colorbar(p_m, label=r"Porosity", cax=cax2, shrink=0.6, orientation="horizontal")`
			`ax.set(xlabel="x (m)", ylabel="z (m)", aspect="equal", facecolor="#000000")`
Animate U 2022-04-13 15:10:41 +02:00			`ax.grid(c="k", alpha=0.2)`


Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00			`def anim(i):`
Save water animation 2022-04-13 14:18:40 +02:00			`tit.set_text(f"t={model.t[i]}s")`
			`aw_m.set_array(AW[i])`
Olaflow output pickling and animating 2022-04-13 14:08:55 +02:00

Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`figU = plt.figure(figsize=(19.2, 10.8), dpi=100)`
Update arguments for animate + black reformat 2022-05-04 10:52:40 +02:00			`gsU = GridSpec(3, 1, figure=figU, height_ratios=[1, 0.05, 0.05])`
Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`axU = figU.add_subplot(gsU[0])`
			`caxu1 = figU.add_subplot(gsU[1])`
			`caxu2 = figU.add_subplot(gsU[2])`
Animate U 2022-04-13 15:10:41 +02:00			`u_m = axU.pcolormesh(`
Black reformat + favor non gzip pickle 2022-04-15 10:31:55 +02:00			`X,`
			`Z,`
			`U[0],`
			`cmap="BuPu",`
			`vmin=0,`
			`vmax=np.nanquantile(U, 0.99),`
			`zorder=1,`
			`alpha=np.nan_to_num(AW[0]).clip(0, 1),`
Animate U 2022-04-13 15:10:41 +02:00			`)`
			`ur_m = axU.pcolormesh(`
Black reformat + favor non gzip pickle 2022-04-15 10:31:55 +02:00			`X,`
			`Z,`
			`U[0],`
			`cmap="YlOrBr",`
			`vmin=0,`
			`vmax=np.nanquantile(U, 0.99),`
			`zorder=1,`
			`alpha=1 - np.nan_to_num(AW[0]).clip(0, 1),`
Animate U 2022-04-13 15:10:41 +02:00			`)`
			`# aw_u = axU.contour(X, Z, AW[0], levels=(.5,))`
			`axU.set(xlabel="x (m)", ylabel="z (m)", aspect="equal", facecolor="#bebebe")`
			`axU.grid(c="k", alpha=0.2)`
			`titU = axU.text(`
			`0.5,`
			`0.95,`
			`f"t={model.t[0]}s",`
			`horizontalalignment="center",`
			`verticalalignment="top",`
			`transform=axU.transAxes,`
			`)`

Updated colorbars for animation 2022-04-15 11:42:12 +02:00			`figU.colorbar(u_m, label=r"$U_w$", cax=caxu1, shrink=0.6, orientation="horizontal")`
			`figU.colorbar(ur_m, label=r"$U_a$", cax=caxu2, shrink=0.6, orientation="horizontal")`

Animate U 2022-04-13 15:10:41 +02:00
			`def animU(i):`
			`titU.set_text(f"t={model.t[i]}s")`
			`u_m.set_array(U[i])`
			`u_m.set_alpha(np.nan_to_num(AW[i]).clip(0, 1))`
			`ur_m.set_array(U[i])`
Black reformat + favor non gzip pickle 2022-04-15 10:31:55 +02:00			`ur_m.set_alpha(1 - np.nan_to_num(AW[i]).clip(0, 1))`
Animate U 2022-04-13 15:10:41 +02:00

Update arguments for animate + black reformat 2022-05-04 10:52:40 +02:00			`ani = animation.FuncAnimation(fig, anim, frames=model.t.size, interval=1 / 24)`
			`aniU = animation.FuncAnimation(figU, animU, frames=model.t.size, interval=1 / 24)`
Updated colorbars for animation 2022-04-15 11:42:12 +02:00
			`ani.save(out.joinpath("anim.mp4"), fps=24)`
			`aniU.save(out.joinpath("animU.mp4"), fps=24)`