185 lines
5.8 KiB
Python
185 lines
5.8 KiB
Python
import argparse
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import gzip
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from itertools import starmap
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import logging
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from multiprocessing import pool
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import pathlib
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import pickle
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import sys
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from cycler import cycler
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import matplotlib.pyplot as plt
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from matplotlib.ticker import MultipleLocator
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import numpy as np
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from scipy import interpolate
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from .olaflow import OFModel
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parser = argparse.ArgumentParser(description="Post-process olaflow results")
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parser.add_argument("-v", "--verbose", action="count", default=0)
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parser.add_argument(
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"-o",
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"--output",
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action="append",
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type=pathlib.Path,
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help="Post-processing directory",
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required=True,
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)
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parser.add_argument(
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"-t",
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"--timestep",
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type=float,
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help="Time-step to compare",
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)
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parser.add_argument(
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"-f",
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"--func",
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type=str,
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help="Post-process function to compare",
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default="graphUniform",
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choices=("graphUniform", "graphUniform2"),
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)
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parser.add_argument(
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"-y",
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"--field",
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type=str,
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help="Field to compare",
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default="alpha.water",
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choices=("alpha.water", "U"),
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)
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args = parser.parse_args()
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logging.basicConfig(level=max((10, 20 - 10 * args.verbose)))
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log = logging.getLogger("ola_post")
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log.info("Plotting comparison of model output")
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def get_pickle(out):
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with (
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path.open("rb")
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if (path := out.joinpath("pickle")).exists()
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else gzip.open(path.with_suffix(".gz"), "rb")
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) as f:
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return pickle.load(f)
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models = list(map(get_pickle, args.output))
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figsize = 15 / 2.54, 4 / 2.54 * len(models)
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fig, ax_ = plt.subplots(
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len(models),
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figsize=figsize,
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dpi=200,
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constrained_layout=True,
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squeeze=False,
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)
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ax = ax_[:, 0]
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if args.timestep is None:
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match args.field:
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case "alpha.water":
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for i, (_ax, _model) in enumerate(zip(ax, models)):
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_ax.contour(
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_model.t,
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_model.post_fields[args.func][f"x_{args.field}"],
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_model.post_fields[args.func][args.field].T,
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(0.5,),
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colors="k",
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)
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case "U":
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for i, (_ax, _model) in enumerate(zip(ax, models)):
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v = np.nanmax(np.abs(np.where(
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_model.post_fields[args.func]["alpha.water"] > 0.5,
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#np.linalg.norm(_model.post_fields[args.func][args.field], axis=2),
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_model.post_fields[args.func][args.field][..., 0],
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np.nan,
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)))
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v150 = np.nanmax(np.abs(np.where(
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(_model.post_fields[args.func]["alpha.water"] > 0.5) & (_model.t[:, None] > 170) & (_model.t[:, None] < 200),
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#np.linalg.norm(_model.post_fields[args.func][args.field], axis=2),
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_model.post_fields[args.func][args.field][..., 0],
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np.nan,
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)))
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_data = _model.post_fields[args.func][args.field][..., 0].T
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#_c = _ax.contourf(
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# _model.t,
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# _model.post_fields[args.func][f"x_{args.field}"],
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# _data,
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# cmap="PiYG",
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# #levels=[-15, -10, -5, -2, -1, 0, 1, 2, 5, 10, 15],
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# vmin=-np.nanmax(np.abs(_data)),
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# vmax=np.nanmax(np.abs(_data)),
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# extend="both",
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#)
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_c = _ax.imshow(
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_data[::-1],
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cmap="PiYG",
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alpha=np.clip(_model.post_fields[args.func]["alpha.water"], 0, 1).T[::-1],
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extent=(
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_model.t.min(),
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_model.t.max(),
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_model.post_fields[args.func][f"x_{args.field}"].min(),
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_model.post_fields[args.func][f"x_{args.field}"].max(),
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),
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vmin=-v150,
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vmax=v150,
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aspect="auto",
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)
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_ax.set(xlim=(100, 300))
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_ax.set(facecolor="k")
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_ax.xaxis.set_minor_locator(MultipleLocator(5))
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_ax.yaxis.set_minor_locator(MultipleLocator(1))
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fig.colorbar(_c, label=f"{args.field} (m/s)", ax=_ax)
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log.info(f"Vitesse max: {v}m/s")
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log.info(f"Vitesse max [170,200]: {v150}m/s")
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log.info(f"Écart: {abs(np.nanmax(_data)-17.7)/17.7:%}")
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case _:
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log.error(f"Cannot plot field {args.field} from {args.func}")
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sys.exit(1)
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for i, (_ax, _model) in enumerate(zip(ax, models)):
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_ax.set(xlabel="t (s)", ylabel="z (m)")
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if len(models) > 1:
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_ax.set(title=f"Case {i}")
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#_ax.grid(color="#797979", alpha=0.5)
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fig.savefig(
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args.output[0].joinpath(
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f"diff_{args.func}_{args.field}_{'_'.join([o.name for o in args.output])}.pdf"
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)
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)
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fig.savefig(
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args.output[0].joinpath(
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f"diff_{args.func}_{args.field}_{'_'.join([o.name for o in args.output])}.jpg"
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)
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)
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else:
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match args.field:
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case "alpha.water":
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for i, (_ax, _model) in enumerate(zip(ax, models)):
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_ax.tricontour(
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_model.x,
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_model.z,
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_model.fields[args.field][np.where(_model.t == args.timestep)[0]][
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0
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],
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levels=(0.5,),
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colors="k",
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)
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case _:
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log.error(f"Cannot plot field {args.field} from {args.func} at timestep")
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sys.exit(1)
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for i, (_ax, _model) in enumerate(zip(ax, models)):
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_ax.set(xlabel="x (m)", ylabel="z (m)", title=f"Case {i}")
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_ax.grid()
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fig.savefig(
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args.output[0].joinpath(
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f"diff_t{args.timestep}_{'_'.join([o.name for o in args.output])}.pdf"
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)
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)
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