Source code for metpy.plots.wx_symbols

# Copyright (c) 2016,2017,2019 MetPy Developers.
# Distributed under the terms of the BSD 3-Clause License.
# SPDX-License-Identifier: BSD-3-Clause
"""Simplify using the weather symbol font.

See WMO manual 485 Vol 1 for more info on the symbols.
"""

import matplotlib.font_manager as fm
import numpy as np
from pkg_resources import resource_filename

from ..package_tools import Exporter

exporter = Exporter(globals())

# Create a matplotlib font object pointing to our weather symbol font
wx_symbol_font = fm.FontProperties(fname=resource_filename('metpy.plots',
                                                           'fonts/wx_symbols.ttf'))


[docs]@exporter.export def wx_code_to_numeric(codes): """Determine the numeric weather symbol value from METAR code text. A robust method to identifies the numeric value for plotting the correct symbol from a decoded METAR current weather group. The METAR codes should be strings with no missing values or NaN strings (empty strings are okay). For example, if from a Pandas Dataframe sfc_df.wxcodes.fillna('') Parameters ---------- codes : Array like containing string values of METAR weather codes Returns ------- array of numeric codes of current weather symbols from the wx_code_map for use in plotting. """ wx_sym_list = [] for s in codes: wxcode = s.split()[0] if ' ' in s else s try: wx_sym_list.append(wx_code_map[wxcode]) except KeyError: if wxcode[0].startswith(('-', '+')): options = [slice(None, 7), slice(None, 5), slice(1, 5), slice(None, 3), slice(1, 3)] else: options = [slice(None, 6), slice(None, 4), slice(None, 2)] for opt in options: try: wx_sym_list.append(wx_code_map[wxcode[opt]]) break except KeyError: pass else: wx_sym_list.append(0) return np.array(wx_sym_list)
class CodePointMapping(object): """Map integer values to font code points.""" def __init__(self, num, font_start, font_jumps=None, char_jumps=None): """Initialize the instance. Parameters ---------- num : int The number of values that will be mapped font_start : int The first code point in the font to use in the mapping font_jumps : list[int, int], optional Sequence of code point jumps in the font. These are places where the next font code point does not correspond to a new input code. This is usually caused by there being multiple symbols for a single code. Defaults to :data:`None`, which indicates no jumps. char_jumps : list[int, int], optional Sequence of code jumps. These are places where the next code value does not have a valid code point in the font. This usually comes from place in the WMO table where codes have no symbol. Defaults to :data:`None`, which indicates no jumps. """ next_font_jump = self._safe_pop(font_jumps) next_char_jump = self._safe_pop(char_jumps) font_point = font_start self.chrs = [] code = 0 while code < num: if next_char_jump and code >= next_char_jump[0]: jump_len = next_char_jump[1] code += jump_len self.chrs.extend([''] * jump_len) next_char_jump = self._safe_pop(char_jumps) else: self.chrs.append(chr(font_point)) if next_font_jump and code >= next_font_jump[0]: font_point += next_font_jump[1] next_font_jump = self._safe_pop(font_jumps) code += 1 font_point += 1 @staticmethod def _safe_pop(lst): """Safely pop from a list. Returns None if list empty. """ return lst.pop(0) if lst else None def __call__(self, code): """Return the Unicode code point corresponding to `code`.""" return self.chrs[code] def __len__(self): """Return the number of codes supported by this mapping.""" return len(self.chrs) def alt_char(self, code, alt): """Get one of the alternate code points for a given value. In the WMO tables, some code have multiple symbols. This allows getting that symbol rather than main one. Parameters ---------- code : int The code for looking up the font code point alt : int The number of the alternate symbol Returns ------- int The appropriate code point in the font """ return chr(ord(self(code)) + alt) # # Set up mapping objects for various groups of symbols. The integer values follow from # the WMO. # with exporter: #: Current weather current_weather = CodePointMapping(100, 0xE9A2, [(7, 2), (93, 2), (94, 2), (95, 2), (97, 2)], [(0, 4)]) #: Current weather from an automated station current_weather_auto = CodePointMapping(100, 0xE94B, [(92, 2), (95, 2)], [(6, 4), (13, 5), (19, 1), (36, 4), (49, 1), (59, 1), (69, 1), (79, 1), (88, 1), (97, 2)]) #: Low clouds low_clouds = CodePointMapping(10, 0xE933, [(7, 1)], [(0, 1)]) #: Mid-altitude clouds mid_clouds = CodePointMapping(10, 0xE93D, char_jumps=[(0, 1)]) #: High clouds high_clouds = CodePointMapping(10, 0xE946, char_jumps=[(0, 1)]) #: Sky cover symbols sky_cover = CodePointMapping(12, 0xE90A) #: Pressure tendency pressure_tendency = CodePointMapping(10, 0xE900) ##################################################################### # This dictionary is for mapping METAR present weather text codes # to WMO codes for plotting wx symbols along with the station plots. # Pages II-4-3 and II-4-4 of this document describes the difference between # manned and automated stations: # https://github.com/Unidata/MetPy/files/1151142/485_Vol_I_en.pdf # It may become necessary to add automated station wx_codes in the future, # but that will also require knowing the status of all stations. wx_code_map = {'': 0, 'M': 0, 'TSNO': 0, 'VA': 4, 'FU': 4, 'HZ': 5, 'DU': 6, 'BLDU': 7, 'SA': 7, 'BLSA': 7, 'VCBLSA': 7, 'VCBLDU': 7, 'BLPY': 7, 'PO': 8, 'VCPO': 8, 'VCDS': 9, 'VCSS': 9, 'BR': 10, 'BCBR': 10, 'BC': 11, 'MIFG': 12, 'VCTS': 13, 'VIRGA': 14, 'VCSH': 16, 'TS': 17, 'THDR': 17, 'VCTSHZ': 17, 'TSFZFG': 17, 'TSBR': 17, 'TSDZ': 17, 'SQ': 18, 'FC': 19, '+FC': 19, 'DS': 31, 'SS': 31, 'DRSA': 31, 'DRDU': 31, 'TSUP': 32, '+DS': 34, '+SS': 34, '-BLSN': 36, 'BLSN': 36, '+BLSN': 36, 'VCBLSN': 36, 'DRSN': 38, '+DRSN': 38, 'VCFG': 40, 'BCFG': 41, 'PRFG': 44, 'FG': 45, 'FZFG': 49, '-VCTSDZ': 51, '-DZ': 51, '-DZBR': 51, 'VCTSDZ': 53, 'DZ': 53, '+VCTSDZ': 55, '+DZ': 55, '-FZDZ': 56, '-FZDZSN': 56, 'FZDZ': 57, '+FZDZ': 57, 'FZDZSN': 57, '-DZRA': 58, 'DZRA': 59, '+DZRA': 59, '-VCTSRA': 61, '-RA': 61, '-RABR': 61, 'VCTSRA': 63, 'RA': 63, 'RABR': 63, 'RAFG': 63, '+VCTSRA': 65, '+RA': 65, '-FZRA': 66, '-FZRASN': 66, '-FZRABR': 66, '-FZRAPL': 66, '-FZRASNPL': 66, 'TSFZRAPL': 67, '-TSFZRA': 67, 'FZRA': 67, '+FZRA': 67, 'FZRASN': 67, 'TSFZRA': 67, '-DZSN': 68, '-RASN': 68, '-SNRA': 68, '-SNDZ': 68, 'RASN': 69, '+RASN': 69, 'SNRA': 69, 'DZSN': 69, 'SNDZ': 69, '+DZSN': 69, '+SNDZ': 69, '-VCTSSN': 71, '-SN': 71, '-SNBR': 71, 'VCTSSN': 73, 'SN': 73, '+VCTSSN': 75, '+SN': 75, 'VCTSUP': 76, 'IN': 76, '-UP': 76, 'UP': 76, '+UP': 76, '-SNSG': 77, 'SG': 77, '-SG': 77, 'IC': 78, '-FZDZPL': 79, '-FZDZPLSN': 79, 'FZDZPL': 79, '-FZRAPLSN': 79, 'FZRAPL': 79, '+FZRAPL': 79, '-RAPL': 79, '-RASNPL': 79, '-RAPLSN': 79, '+RAPL': 79, 'RAPL': 79, '-SNPL': 79, 'SNPL': 79, '-PL': 79, 'PL': 79, '-PLSN': 79, '-PLRA': 79, 'PLRA': 79, '-PLDZ': 79, '+PL': 79, 'PLSN': 79, 'PLUP': 79, '+PLSN': 79, '-SH': 80, '-SHRA': 80, 'SH': 81, 'SHRA': 81, '+SH': 81, '+SHRA': 81, '-SHRASN': 83, '-SHSNRA': 83, '+SHRABR': 84, 'SHRASN': 84, '+SHRASN': 84, 'SHSNRA': 84, '+SHSNRA': 84, '-SHSN': 85, 'SHSN': 86, '+SHSN': 86, '-GS': 87, '-SHGS': 87, 'FZRAPLGS': 88, '-SNGS': 88, 'GSPLSN': 88, 'GSPL': 88, 'PLGSSN': 88, 'GS': 88, 'SHGS': 88, '+GS': 88, '+SHGS': 88, '-GR': 89, '-SHGR': 89, '-SNGR': 90, 'GR': 90, 'SHGR': 90, '+GR': 90, '+SHGR': 90, '-TSRA': 95, 'TSRA': 95, 'TSSN': 95, 'TSPL': 95, '-TSDZ': 95, '-TSSN': 95, '-TSPL': 95, 'TSPLSN': 95, 'TSSNPL': 95, '-TSSNPL': 95, 'TSRAGS': 96, 'TSGS': 96, 'TSGR': 96, '+TSRA': 97, '+TSSN': 97, '+TSPL': 97, '+TSPLSN': 97, 'TSSA': 98, 'TSDS': 98, 'TSDU': 98, '+TSGS': 99, '+TSGR': 99}