mirror of
https://github.com/MarlinFirmware/Marlin.git
synced 2024-11-26 21:36:21 +00:00
154 lines
5.2 KiB
Python
Executable File
154 lines
5.2 KiB
Python
Executable File
#!/usr/bin/env python3
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'''
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languageExport.py
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Export LCD language strings to CSV files for easier translation.
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Use importTranslations.py to import CSV into the language files.
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'''
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import re
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from pathlib import Path
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from languageUtil import namebyid
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LANGHOME = "Marlin/src/lcd/language"
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# Write multiple sheets if true, otherwise write one giant sheet
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MULTISHEET = True
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OUTDIR = 'out-csv'
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# Check for the path to the language files
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if not Path(LANGHOME).is_dir():
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print("Error: Couldn't find the '%s' directory." % LANGHOME)
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print("Edit LANGHOME or cd to the root of the repo before running.")
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exit(1)
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# A limit just for testing
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LIMIT = 0
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# A dictionary to contain strings for each language.
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# Init with 'en' so English will always be first.
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language_strings = { 'en': 0 }
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# A dictionary to contain all distinct LCD string names
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names = {}
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# Get all "language_*.h" files
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langfiles = sorted(list(Path(LANGHOME).glob('language_*.h')))
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# Read each language file
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for langfile in langfiles:
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# Get the language code from the filename
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langcode = langfile.name.replace('language_', '').replace('.h', '')
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# Skip 'test' and any others that we don't want
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if langcode in ['test']: continue
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# Open the file
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f = open(langfile, 'r', encoding='utf-8')
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if not f: continue
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# Flags to indicate a wide or tall section
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wideflag, tallflag = False, False
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# A counter for the number of strings in the file
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stringcount = 0
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# A dictionary to hold all the strings
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strings = { 'narrow': {}, 'wide': {}, 'tall': {} }
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# Read each line in the file
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for line in f:
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# Clean up the line for easier parsing
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line = line.split("//")[0].strip()
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if line.endswith(';'): line = line[:-1].strip()
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# Check for wide or tall sections, assume no complicated nesting
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if line.startswith("#endif") or line.startswith("#else"):
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wideflag, tallflag = False, False
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elif re.match(r'#if.*WIDTH\s*>=?\s*2[01].*', line): wideflag = True
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elif re.match(r'#if.*LCD_HEIGHT\s*>=?\s*4.*', line): tallflag = True
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# For string-defining lines capture the string data
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match = re.match(r'LSTR\s+([A-Z0-9_]+)\s*=\s*(.+)\s*', line)
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if match:
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# Name and quote-sanitized value
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name, value = match.group(1), match.group(2).replace('\\"', '$$$')
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# Remove all _UxGT wrappers from the value in a non-greedy way
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value = re.sub(r'_UxGT\((".*?")\)', r'\1', value)
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# Multi-line strings get one or more bars | for identification
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multiline = 0
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multimatch = re.match(r'.*MSG_(\d)_LINE\s*\(\s*(.+?)\s*\).*', value)
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if multimatch:
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multiline = int(multimatch.group(1))
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value = '|' + re.sub(r'"\s*,\s*"', '|', multimatch.group(2))
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# Wrap inline defines in parentheses
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value = re.sub(r' *([A-Z0-9]+_[A-Z0-9_]+) *', r'(\1)', value)
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# Remove quotes around strings
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value = re.sub(r'"(.*?)"', r'\1', value).replace('$$$', '""')
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# Store all unique names as dictionary keys
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names[name] = 1
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# Store the string as narrow or wide
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strings['tall' if tallflag else 'wide' if wideflag else 'narrow'][name] = value
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# Increment the string counter
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stringcount += 1
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# Break for testing
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if LIMIT and stringcount >= LIMIT: break
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# Close the file
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f.close()
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# Store the array in the dict
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language_strings[langcode] = strings
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# Get the language codes from the dictionary
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langcodes = list(language_strings.keys())
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# Print the array
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#print(language_strings)
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# Report the total number of unique strings
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print("Found %s distinct LCD strings." % len(names))
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# Write a single language entry to the CSV file with narrow, wide, and tall strings
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def write_csv_lang(f, strings, name):
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f.write(',')
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if name in strings['narrow']: f.write('"%s"' % strings['narrow'][name])
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f.write(',')
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if name in strings['wide']: f.write('"%s"' % strings['wide'][name])
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f.write(',')
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if name in strings['tall']: f.write('"%s"' % strings['tall'][name])
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if MULTISHEET:
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#
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# Export a separate sheet for each language
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#
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Path.mkdir(Path(OUTDIR), exist_ok=True)
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for lang in langcodes:
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with open("%s/language_%s.csv" % (OUTDIR, lang), 'w', encoding='utf-8') as f:
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lname = lang + ' ' + namebyid(lang)
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header = ['name', lname, lname + ' (wide)', lname + ' (tall)']
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f.write('"' + '","'.join(header) + '"\n')
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for name in names.keys():
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f.write('"' + name + '"')
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write_csv_lang(f, language_strings[lang], name)
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f.write('\n')
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else:
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#
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# Export one large sheet containing all languages
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#
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with open("languages.csv", 'w', encoding='utf-8') as f:
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header = ['name']
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for lang in langcodes:
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lname = lang + ' ' + namebyid(lang)
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header += [lname, lname + ' (wide)', lname + ' (tall)']
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f.write('"' + '","'.join(header) + '"\n')
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for name in names.keys():
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f.write('"' + name + '"')
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for lang in langcodes: write_csv_lang(f, language_strings[lang], name)
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f.write('\n')
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