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Simulated Satellite Image 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 simulated satellite image g = read("sim_ir9.grib") # define automatic contour shading shading = mcont( contour_automatic_setting : "ecmwf", legend : "on" ) # define coastlines coastlines = mcoast( map_coastline_colour : "cream", map_coastline_thickness : 2, map_grid_line_style : "dot", map_grid_colour : "cream" ) # define map projection view = geoview( map_projection : "geos", map_vertical_longitude : -20, subpage_x_position : 20, subpage_y_position : 3, subpage_x_length : 86, subpage_y_length : 86, coastlines : coastlines ) # define legend legend = mlegend( legend_text_font_size : 0.25, legend_label_frequency : 3 ) # define title title = mtext(text_font_size : 0.4) # define the output plot file setoutput(pdf_output(output_name : 'simulated_sat_img')) # generate plot plot(view, g, shading, legend, title)
Simulated Satellite Image 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 simulated satellite image g = mv.read("sim_ir9.grib") # define automatic contour shading shading = mv.mcont( contour_automatic_setting = "ecmwf", legend = "on" ) # define coastlines coastlines = mv.mcoast( map_coastline_colour = "cream", map_coastline_thickness = 2, map_grid_line_style = "dot", map_grid_colour = "cream" ) # define map projection view = mv.geoview( map_projection = "geos", map_vertical_longitude = -20, subpage_x_position = 20, subpage_y_position = 3, subpage_x_length = 86, subpage_y_length = 86, coastlines = coastlines ) # define legend legend = mv.mlegend( legend_text_font_size = 0.25, legend_label_frequency = 3 ) # define title title = mv.mtext(text_font_size = 0.4) # define the output plot file mv.setoutput(mv.pdf_output(output_name = 'simulated_sat_img')) # generate plot mv.plot(view, g, shading, legend, title)