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Orbitals for huge wave

This commit is contained in:
Edgar P. Burkhart 2022-04-04 11:55:23 +02:00
parent 9e29a30b42
commit 454655e430
Signed by: edpibu
GPG key ID: 9833D3C5A25BD227
4 changed files with 100 additions and 2 deletions

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@ -5,7 +5,7 @@ hires=bathyhires.dat
hstru=Hstru.dat
poro=Poro.dat
psize=Psize.dat
raw_ts=201702281700.raw,201702281730.raw
raw_ts=cerema/raw/201702281700.raw,cerema/raw/201702281730.raw
hires_step=0.5
[out]

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@ -1,2 +1,3 @@
*.xyz
*.raw
cerema

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@ -0,0 +1,97 @@
import argparse
import configparser
import logging
import pathlib
import matplotlib.pyplot as plt
import numpy as np
parser = argparse.ArgumentParser(description="Plot orbitals")
parser.add_argument("-v", "--verbose", action="count", default=0)
parser.add_argument("-c", "--config", default="config.ini")
args = parser.parse_args()
logging.basicConfig(level=max((10, 20 - 10 * args.verbose)))
log = logging.getLogger("bathy")
log.info("Starting time-series pre-processing")
config = configparser.ConfigParser()
config.read(args.config)
inp_root = pathlib.Path(config.get("inp", "root"))
out_root = pathlib.Path(config.get("out", "root"))
out_ts = out_root.joinpath("ts.dat")
raw_ts = []
for tsi in config.get("inp", "raw_ts").split(","):
raw_ts.append(
np.loadtxt(
inp_root.joinpath(tsi),
dtype=[("state", int), ("z", float), ("y", float), ("x", float)],
delimiter=",",
max_rows=2304,
)
)
n = len(raw_ts)
raw_ts = np.concatenate(raw_ts)
log.debug(f"{raw_ts=}")
if (errs := np.count_nonzero(raw_ts["state"])) != 0:
log.warning(f"{errs} transmission errors!")
log.debug(f"{dict(zip(*np.unique(raw_ts['state'], return_counts=True)))}")
t = np.linspace(0, 30 * 60 * n, 2304 * n + 1)[:-1]
log.debug(f"{t=}")
flt = (t > 1370) & (t < 1405)
figt, axt = plt.subplots(3)
axt[0].plot(t, raw_ts["x"])
axt[1].plot(t, raw_ts["y"])
axt[2].plot(t, raw_ts["z"])
for ax in axt:
ax.axvline(t[flt].min(), c="k")
ax.axvline(t[flt].max(), c="k")
ax.grid()
ax.set(xlim=(t.min(), t.max()))
ts_flt = raw_ts[flt]
z0 = ts_flt["z"]
figtz, axtz = plt.subplots(3)
axtz[0].plot(t[flt], ts_flt["x"])
axtz[1].plot(t[flt], ts_flt["y"])
axtz[2].plot(t[flt], z0)
for ax in axtz:
ax.grid()
ax.set(xlim=(t[flt].min(), t[flt].max()))
fig3d = plt.figure()
ax3d = fig3d.add_subplot(projection="3d")
ax3d.plot(ts_flt["x"], ts_flt["y"], z0, c="#0066ff")
ax3d.quiver3D(
ts_flt["x"][:-1],
ts_flt["y"][:-1],
z0[:-1],
np.diff(ts_flt["x"])[:],
np.diff(ts_flt["y"])[:],
np.diff(z0)[:],
color="#0066ff",
)
ax3d.set(xlabel="x (cm)", ylabel="y (cm)", zlabel="z (cm)")
theta = np.angle(raw_ts["x"] + 1j * raw_ts["y"]).mean()
fig2dv, ax2dv = plt.subplots()
x0 = ts_flt["x"] * np.cos(theta) + ts_flt["y"] * np.sin(theta)
ax2dv.plot(x0, z0, c="#0066ff", lw=1)
ax2dv.quiver(
x0[:-1],
z0[:-1],
np.diff(x0)[:],
np.diff(z0)[:],
color="#0066ff",
)
ax2dv.grid()
ax2dv.set(aspect="equal")
plt.show()

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@ -4,7 +4,7 @@
Vérification vague incidente possible avec digue et sans digue sur temps long (4h) avec spectre Jonswap
Tracer trajectoires bouées (3d, 2d) autour de vague 15m
* Tracer trajectoires bouées (3d, 2d) autour de vague 15m
Format rapport: Journal of Geophysical Research