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Cross Section 3D Parallel Wind Component Example
#Metview Macro
# **************************** LICENSE START ***********************************
#
# Copyright 2019 ECMWF. This software is distributed under the terms
# of the Apache License version 2.0. In applying this license, ECMWF does not
# waive the privileges and immunities granted to it by virtue of its status as
# an Intergovernmental Organization or submit itself to any jurisdiction.
#
# ***************************** LICENSE END ************************************
#
# read grib file - contains model level data with u, v, w, t and lnsp
fs = read("joachim_ml.grib")
# define cross section line
line = [48.32, 1.18, 40.43, 2.44]
# define vertical axis
vertical_axis = maxis(
axis_orientation : "vertical",
axis_type : "position_list",
axis_tick_position_list : [1000,925,850,700,500,400,300,250],
axis_tick_label_height: 0.4
)
# define cross section for 3D wind projected onto the cross section
# plane
# - log pressure axis from 1015 to 250 hPa
# - the vertical velocity in m/s is computed from w (=omega),
# then an additional scaling is applied to it (defined via w_wind_scaling_factor)
xs_view = mxsectview(
line : line,
wind_parallel: "on",
w_wind_scaling_factor_mode: "compute",
w_wind_scaling_factor: "50",
bottom_level : 1015,
top_level : 250,
vertical_scaling : "log",
vertical_axis: vertical_axis
)
# define wind plotting
wind_plotting = mwind(
wind_arrow_colour : "purplish_blue"
)
# define orography area
orog_graph = mgraph(
graph_type : "area",
graph_shade_colour : "charcoal"
)
# define title
title = mtext(text_lines: ["3D wind projected onto cross section plane"],
text_font_size : 0.4
)
# define the output plot file
setoutput(pdf_output(output_name : 'cross_section_wind_3d'))
# generate plot
plot(xs_view, fs, wind_plotting, orog_graph, title)
Cross Section 3D Parallel Wind Component Example
# **************************** LICENSE START ***********************************
#
# Copyright 2019 ECMWF. This software is distributed under the terms
# of the Apache License version 2.0. In applying this license, ECMWF does not
# waive the privileges and immunities granted to it by virtue of its status as
# an Intergovernmental Organization or submit itself to any jurisdiction.
#
# ***************************** LICENSE END ************************************
#
import metview as mv
# read grib file - contains model level data with u, v, w, t and lnsp
fs = mv.read("joachim_ml.grib")
# define cross section line
line = [48.32, 1.18, 40.43, 2.44]
# define vertical axis
vertical_axis = mv.maxis(
axis_orientation = "vertical",
axis_type = "position_list",
axis_tick_position_list = [1000,925,850,700,500,400,300,250],
axis_tick_label_height= 0.4
)
# define cross section for 3D wind projected onto the cross section
# plane
# - log pressure axis from 1015 to 250 hPa
# - the vertical velocity in m/s is computed from w (=omega),
# then an additional scaling is applied to it (defined via w_wind_scaling_factor)
xs_view = mv.mxsectview(
line = line,
wind_parallel= "on",
w_wind_scaling_factor_mode= "compute",
w_wind_scaling_factor= "50",
bottom_level = 1015,
top_level = 250,
vertical_scaling = "log",
vertical_axis= vertical_axis
)
# define wind plotting
wind_plotting = mv.mwind(
wind_arrow_colour = "purplish_blue"
)
# define orography area
orog_graph = mv.mgraph(
graph_type = "area",
graph_shade_colour = "charcoal"
)
# define title
title = mv.mtext(text_lines= ["3D wind projected onto cross section plane"],
text_font_size = 0.4
)
# define the output plot file
mv.setoutput(mv.pdf_output(output_name = 'cross_section_wind_3d'))
# generate plot
mv.plot(xs_view, fs, wind_plotting, orog_graph, title)