internship/swash/processing/post.py

import configparser
import pathlib
import argparse
import logging

import numpy as np
import pandas as pd
import matplotlib.pyplot as plt
import scipy.signal as sgl

from .read_swash import *


parser = argparse.ArgumentParser(description="Post-process swash output")
parser.add_argument("-v", "--verbose", action="count", default=0)
args = parser.parse_args()

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

log.info("Starting post-processing")
config = configparser.ConfigParser()
config.read("config.ini")

cache = pathlib.Path(config.get("data", "out"))
root = pathlib.Path(config.get("swash", "out"))

log.info(f"Reading bathymetry from '{cache}'")
bathy = pd.read_hdf(cache.joinpath("bathy.h5"), "bathy")
data = np.load(pathlib.Path(config.get("post", "inp")).joinpath("sws.npz"))
x, t = data["x"], data["t"]

# Cospectral calculations
x0 = config.getint("post", "x0")
t0 = config.getfloat("post", "t0")
dt = config.getfloat("post", "dt")
f = 1 / dt
log.info(f"Computing reflection coefficient at x={x0}")

eta = data["dep"][t > t0, x0] - data["botl"][x0]
u = data["vel"][t > t0, 0, x0]

phi_eta = np.abs(sgl.csd(eta, eta, f))
phi_u = np.abs(sgl.csd(u, u, f))
phi_eta_u = np.abs(sgl.csd(eta, u, f))

R = np.sqrt(
    (phi_eta[1] + phi_u[1] - 2 * phi_eta_u[1])
    / (phi_eta[1] + phi_u[1] + 2 * phi_eta_u[1])
)

# Plotting
log.info("Plotting results")
fig, (ax_dep, ax_vel) = plt.subplots(2)

ax_dep.plot(t, data["dep"][:, x0] - data["botl"][x0], label="dep")
ax_dep.set(xlabel="t (s)", ylabel="z (m)")
ax_dep.autoscale(axis="x", tight=True)
ax_dep.grid()
ax_dep.axvline(t0, c="k", alpha=0.2)

ax_vel.plot(t, data["vel"][:, 0, x0], label="vel")
ax_vel.set(xlabel="t (s)", ylabel="U (m/s)")
ax_vel.autoscale(axis="x", tight=True)
ax_vel.grid()
ax_vel.axvline(t0, c="k", alpha=0.2)

fig.tight_layout()

fig_r, ax_r = plt.subplots()

ax_r.plot(phi_eta[0], R)
ax_r.autoscale(axis="x", tight=True)
ax_r.set(ylim=(0, 1), xlabel="f (Hz)", ylabel="R")
ax_r.grid()

fig_x, ax_x = plt.subplots()
ax_x.plot(-data["botl"], color="k")
ax_x.plot(data["dep"][t == t0, :] - data["botl"])
ax_x.axvline(x0, c="k", alpha=0.2)
ax_x.set(xlabel="x (m)", ylabel="z (m)")
ax_x.autoscale(axis="x", tight=True)
ax_x.grid()

out = pathlib.Path(config.get("post", "out"))
log.info(f"Saving plots in '{out}'")
out.mkdir(exist_ok=True)

fig.savefig(out.joinpath(f"t{x0}.png"))
fig_r.savefig(out.joinpath(f"R{x0}.png"))
fig_x.savefig(out.joinpath(f"x{t0}.png"))

log.info("Finished post-processing")
Black reformat post-process 2022-03-03 15:51:51 +01:00			`import configparser`
			`import pathlib`
			`import argparse`
			`import logging`

			`import numpy as np`
			`import pandas as pd`
			`import matplotlib.pyplot as plt`
			`import scipy.signal as sgl`

			`from .read_swash import *`


			`parser = argparse.ArgumentParser(description="Post-process swash output")`
			`parser.add_argument("-v", "--verbose", action="count", default=0)`
			`args = parser.parse_args()`

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

			`log.info("Starting post-processing")`
			`config = configparser.ConfigParser()`
			`config.read("config.ini")`

			`cache = pathlib.Path(config.get("data", "out"))`
			`root = pathlib.Path(config.get("swash", "out"))`

			`log.info(f"Reading bathymetry from '{cache}'")`
			`bathy = pd.read_hdf(cache.joinpath("bathy.h5"), "bathy")`
Use npz in post 2022-03-03 16:02:52 +01:00			`data = np.load(pathlib.Path(config.get("post", "inp")).joinpath("sws.npz"))`
			`x, t = data["x"], data["t"]`
Black reformat post-process 2022-03-03 15:51:51 +01:00
			`# Cospectral calculations`
			`x0 = config.getint("post", "x0")`
Use npz in post 2022-03-03 16:02:52 +01:00			`t0 = config.getfloat("post", "t0")`
			`dt = config.getfloat("post", "dt")`
Black reformat post-process 2022-03-03 15:51:51 +01:00			`f = 1 / dt`
			`log.info(f"Computing reflection coefficient at x={x0}")`

Fixed post 2022-03-03 16:03:44 +01:00			`eta = data["dep"][t > t0, x0] - data["botl"][x0]`
Use npz in post 2022-03-03 16:02:52 +01:00			`u = data["vel"][t > t0, 0, x0]`
Black reformat post-process 2022-03-03 15:51:51 +01:00
			`phi_eta = np.abs(sgl.csd(eta, eta, f))`
			`phi_u = np.abs(sgl.csd(u, u, f))`
			`phi_eta_u = np.abs(sgl.csd(eta, u, f))`

			`R = np.sqrt(`
			`(phi_eta[1] + phi_u[1] - 2 * phi_eta_u[1])`
			`/ (phi_eta[1] + phi_u[1] + 2 * phi_eta_u[1])`
			`)`

			`# Plotting`
			`log.info("Plotting results")`
			`fig, (ax_dep, ax_vel) = plt.subplots(2)`

Use npz in post 2022-03-03 16:02:52 +01:00			`ax_dep.plot(t, data["dep"][:, x0] - data["botl"][x0], label="dep")`
Black reformat post-process 2022-03-03 15:51:51 +01:00			`ax_dep.set(xlabel="t (s)", ylabel="z (m)")`
			`ax_dep.autoscale(axis="x", tight=True)`
			`ax_dep.grid()`
			`ax_dep.axvline(t0, c="k", alpha=0.2)`

Use npz in post 2022-03-03 16:02:52 +01:00			`ax_vel.plot(t, data["vel"][:, 0, x0], label="vel")`
Black reformat post-process 2022-03-03 15:51:51 +01:00			`ax_vel.set(xlabel="t (s)", ylabel="U (m/s)")`
			`ax_vel.autoscale(axis="x", tight=True)`
			`ax_vel.grid()`
			`ax_vel.axvline(t0, c="k", alpha=0.2)`

			`fig.tight_layout()`

			`fig_r, ax_r = plt.subplots()`

			`ax_r.plot(phi_eta[0], R)`
			`ax_r.autoscale(axis="x", tight=True)`
			`ax_r.set(ylim=(0, 1), xlabel="f (Hz)", ylabel="R")`
			`ax_r.grid()`

			`fig_x, ax_x = plt.subplots()`
Use npz in post 2022-03-03 16:02:52 +01:00			`ax_x.plot(-data["botl"], color="k")`
			`ax_x.plot(data["dep"][t == t0, :] - data["botl"])`
Black reformat post-process 2022-03-03 15:51:51 +01:00			`ax_x.axvline(x0, c="k", alpha=0.2)`
			`ax_x.set(xlabel="x (m)", ylabel="z (m)")`
			`ax_x.autoscale(axis="x", tight=True)`
			`ax_x.grid()`

			`out = pathlib.Path(config.get("post", "out"))`
			`log.info(f"Saving plots in '{out}'")`
			`out.mkdir(exist_ok=True)`

			`fig.savefig(out.joinpath(f"t{x0}.png"))`
			`fig_r.savefig(out.joinpath(f"R{x0}.png"))`
			`fig_x.savefig(out.joinpath(f"x{t0}.png"))`

			`log.info("Finished post-processing")`