import os import argparse import logging import shutil import multiprocessing as mp from contextlib import closing from functools import partial import fontTools from .ufo import font_to_quadratic, fonts_to_quadratic ufo_module = None try: import ufoLib2 as ufo_module except ImportError: try: import defcon as ufo_module except ImportError as e: pass logger = logging.getLogger("fontTools.cu2qu") def _cpu_count(): try: return mp.cpu_count() except NotImplementedError: # pragma: no cover return 1 def open_ufo(path): if hasattr(ufo_module.Font, "open"): # ufoLib2 return ufo_module.Font.open(path) return ufo_module.Font(path) # defcon def _font_to_quadratic(input_path, output_path=None, **kwargs): ufo = open_ufo(input_path) logger.info("Converting curves for %s", input_path) if font_to_quadratic(ufo, **kwargs): logger.info("Saving %s", output_path) if output_path: ufo.save(output_path) else: ufo.save() # save in-place elif output_path: _copytree(input_path, output_path) def _samepath(path1, path2): # TODO on python3+, there's os.path.samefile path1 = os.path.normcase(os.path.abspath(os.path.realpath(path1))) path2 = os.path.normcase(os.path.abspath(os.path.realpath(path2))) return path1 == path2 def _copytree(input_path, output_path): if _samepath(input_path, output_path): logger.debug("input and output paths are the same file; skipped copy") return if os.path.exists(output_path): shutil.rmtree(output_path) shutil.copytree(input_path, output_path) def main(args=None): """Convert a UFO font from cubic to quadratic curves""" parser = argparse.ArgumentParser(prog="cu2qu") parser.add_argument("--version", action="version", version=fontTools.__version__) parser.add_argument( "infiles", nargs="+", metavar="INPUT", help="one or more input UFO source file(s).", ) parser.add_argument("-v", "--verbose", action="count", default=0) parser.add_argument( "-e", "--conversion-error", type=float, metavar="ERROR", default=None, help="maxiumum approximation error measured in EM (default: 0.001)", ) parser.add_argument( "-m", "--mixed", default=False, action="store_true", help="whether to used mixed quadratic and cubic curves", ) parser.add_argument( "--keep-direction", dest="reverse_direction", action="store_false", help="do not reverse the contour direction", ) mode_parser = parser.add_mutually_exclusive_group() mode_parser.add_argument( "-i", "--interpolatable", action="store_true", help="whether curve conversion should keep interpolation compatibility", ) mode_parser.add_argument( "-j", "--jobs", type=int, nargs="?", default=1, const=_cpu_count(), metavar="N", help="Convert using N multiple processes (default: %(default)s)", ) output_parser = parser.add_mutually_exclusive_group() output_parser.add_argument( "-o", "--output-file", default=None, metavar="OUTPUT", help=( "output filename for the converted UFO. By default fonts are " "modified in place. This only works with a single input." ), ) output_parser.add_argument( "-d", "--output-dir", default=None, metavar="DIRECTORY", help="output directory where to save converted UFOs", ) options = parser.parse_args(args) if ufo_module is None: parser.error("Either ufoLib2 or defcon are required to run this script.") if not options.verbose: level = "WARNING" elif options.verbose == 1: level = "INFO" else: level = "DEBUG" logging.basicConfig(level=level) if len(options.infiles) > 1 and options.output_file: parser.error("-o/--output-file can't be used with multile inputs") if options.output_dir: output_dir = options.output_dir if not os.path.exists(output_dir): os.mkdir(output_dir) elif not os.path.isdir(output_dir): parser.error("'%s' is not a directory" % output_dir) output_paths = [ os.path.join(output_dir, os.path.basename(p)) for p in options.infiles ] elif options.output_file: output_paths = [options.output_file] else: # save in-place output_paths = [None] * len(options.infiles) kwargs = dict( dump_stats=options.verbose > 0, max_err_em=options.conversion_error, reverse_direction=options.reverse_direction, all_quadratic=False if options.mixed else True, ) if options.interpolatable: logger.info("Converting curves compatibly") ufos = [open_ufo(infile) for infile in options.infiles] if fonts_to_quadratic(ufos, **kwargs): for ufo, output_path in zip(ufos, output_paths): logger.info("Saving %s", output_path) if output_path: ufo.save(output_path) else: ufo.save() else: for input_path, output_path in zip(options.infiles, output_paths): if output_path: _copytree(input_path, output_path) else: jobs = min(len(options.infiles), options.jobs) if options.jobs > 1 else 1 if jobs > 1: func = partial(_font_to_quadratic, **kwargs) logger.info("Running %d parallel processes", jobs) with closing(mp.Pool(jobs)) as pool: pool.starmap(func, zip(options.infiles, output_paths)) else: for input_path, output_path in zip(options.infiles, output_paths): _font_to_quadratic(input_path, output_path, **kwargs)