""" This is a python interface to Adobe Font Metrics Files. Although a number of other python implementations exist, and may be more complete than this, it was decided not to go with them because they were either: 1) copyrighted or used a non-BSD compatible license 2) had too many dependencies and a free standing lib was needed 3) Did more than needed and it was easier to write afresh rather than figure out how to get just what was needed. It is pretty easy to use, and requires only built-in python libs: >>> from matplotlib import rcParams >>> import os.path >>> afm_fname = os.path.join(rcParams['datapath'], ... 'fonts', 'afm', 'ptmr8a.afm') >>> >>> from matplotlib.afm import AFM >>> afm = AFM(open(afm_fname)) >>> afm.string_width_height('What the heck?') (6220.0, 694) >>> afm.get_fontname() 'Times-Roman' >>> afm.get_kern_dist('A', 'f') 0 >>> afm.get_kern_dist('A', 'y') -92.0 >>> afm.get_bbox_char('!') [130, -9, 238, 676] """ from __future__ import (absolute_import, division, print_function, unicode_literals) from matplotlib.externals import six from matplotlib.externals.six.moves import map import sys import os import re from ._mathtext_data import uni2type1 # Convert string the a python type # some afm files have floats where we are expecting ints -- there is # probably a better way to handle this (support floats, round rather # than truncate). But I don't know what the best approach is now and # this change to _to_int should at least prevent mpl from crashing on # these JDH (2009-11-06) def _to_int(x): return int(float(x)) _to_float = float if six.PY3: def _to_str(x): return x.decode('utf8') else: _to_str = str def _to_list_of_ints(s): s = s.replace(b',', b' ') return [_to_int(val) for val in s.split()] def _to_list_of_floats(s): return [_to_float(val) for val in s.split()] def _to_bool(s): if s.lower().strip() in (b'false', b'0', b'no'): return False else: return True def _sanity_check(fh): """ Check if the file at least looks like AFM. If not, raise :exc:`RuntimeError`. """ # Remember the file position in case the caller wants to # do something else with the file. pos = fh.tell() try: line = fh.readline() finally: fh.seek(pos, 0) # AFM spec, Section 4: The StartFontMetrics keyword [followed by a # version number] must be the first line in the file, and the # EndFontMetrics keyword must be the last non-empty line in the # file. We just check the first line. if not line.startswith(b'StartFontMetrics'): raise RuntimeError('Not an AFM file') def _parse_header(fh): """ Reads the font metrics header (up to the char metrics) and returns a dictionary mapping *key* to *val*. *val* will be converted to the appropriate python type as necessary; e.g.: * 'False'->False * '0'->0 * '-168 -218 1000 898'-> [-168, -218, 1000, 898] Dictionary keys are StartFontMetrics, FontName, FullName, FamilyName, Weight, ItalicAngle, IsFixedPitch, FontBBox, UnderlinePosition, UnderlineThickness, Version, Notice, EncodingScheme, CapHeight, XHeight, Ascender, Descender, StartCharMetrics """ headerConverters = { b'StartFontMetrics': _to_float, b'FontName': _to_str, b'FullName': _to_str, b'FamilyName': _to_str, b'Weight': _to_str, b'ItalicAngle': _to_float, b'IsFixedPitch': _to_bool, b'FontBBox': _to_list_of_ints, b'UnderlinePosition': _to_int, b'UnderlineThickness': _to_int, b'Version': _to_str, b'Notice': _to_str, b'EncodingScheme': _to_str, b'CapHeight': _to_float, # Is the second version a mistake, or b'Capheight': _to_float, # do some AFM files contain 'Capheight'? -JKS b'XHeight': _to_float, b'Ascender': _to_float, b'Descender': _to_float, b'StdHW': _to_float, b'StdVW': _to_float, b'StartCharMetrics': _to_int, b'CharacterSet': _to_str, b'Characters': _to_int, } d = {} while 1: line = fh.readline() if not line: break line = line.rstrip() if line.startswith(b'Comment'): continue lst = line.split(b' ', 1) key = lst[0] if len(lst) == 2: val = lst[1] else: val = b'' try: d[key] = headerConverters[key](val) except ValueError: print('Value error parsing header in AFM:', key, val, file=sys.stderr) continue except KeyError: print('Found an unknown keyword in AFM header (was %r)' % key, file=sys.stderr) continue if key == b'StartCharMetrics': return d raise RuntimeError('Bad parse') def _parse_char_metrics(fh): """ Return a character metric dictionary. Keys are the ASCII num of the character, values are a (*wx*, *name*, *bbox*) tuple, where *wx* is the character width, *name* is the postscript language name, and *bbox* is a (*llx*, *lly*, *urx*, *ury*) tuple. This function is incomplete per the standard, but thus far parses all the sample afm files tried. """ ascii_d = {} name_d = {} while 1: line = fh.readline() if not line: break line = line.rstrip().decode('ascii') # Convert from byte-literal if line.startswith('EndCharMetrics'): return ascii_d, name_d # Split the metric line into a dictonary, keyed by metric identifiers vals = filter(lambda s: len(s) > 0, line.split(';')) vals = dict(map(lambda s: tuple(s.strip().split(' ', 1)), vals)) # There may be other metrics present, but only these are needed if any([id not in vals.keys() for id in ('C', 'WX', 'N', 'B')]): raise RuntimeError('Bad char metrics line: %s' % line) num = _to_int(vals['C']) wx = _to_float(vals['WX']) name = vals['N'] bbox = _to_list_of_floats(vals['B']) bbox = list(map(int, bbox)) # Workaround: If the character name is 'Euro', give it the # corresponding character code, according to WinAnsiEncoding (see PDF # Reference). if name == 'Euro': num = 128 if num != -1: ascii_d[num] = (wx, name, bbox) name_d[name] = (wx, bbox) raise RuntimeError('Bad parse') def _parse_kern_pairs(fh): """ Return a kern pairs dictionary; keys are (*char1*, *char2*) tuples and values are the kern pair value. For example, a kern pairs line like ``KPX A y -50`` will be represented as:: d[ ('A', 'y') ] = -50 """ line = fh.readline() if not line.startswith(b'StartKernPairs'): raise RuntimeError('Bad start of kern pairs data: %s' % line) d = {} while 1: line = fh.readline() if not line: break line = line.rstrip() if len(line) == 0: continue if line.startswith(b'EndKernPairs'): fh.readline() # EndKernData return d vals = line.split() if len(vals) != 4 or vals[0] != b'KPX': raise RuntimeError('Bad kern pairs line: %s' % line) c1, c2, val = _to_str(vals[1]), _to_str(vals[2]), _to_float(vals[3]) d[(c1, c2)] = val raise RuntimeError('Bad kern pairs parse') def _parse_composites(fh): """ Return a composites dictionary. Keys are the names of the composites. Values are a num parts list of composite information, with each element being a (*name*, *dx*, *dy*) tuple. Thus a composites line reading: CC Aacute 2 ; PCC A 0 0 ; PCC acute 160 170 ; will be represented as:: d['Aacute'] = [ ('A', 0, 0), ('acute', 160, 170) ] """ d = {} while 1: line = fh.readline() if not line: break line = line.rstrip() if len(line) == 0: continue if line.startswith(b'EndComposites'): return d vals = line.split(b';') cc = vals[0].split() name, numParts = cc[1], _to_int(cc[2]) pccParts = [] for s in vals[1:-1]: pcc = s.split() name, dx, dy = pcc[1], _to_float(pcc[2]), _to_float(pcc[3]) pccParts.append((name, dx, dy)) d[name] = pccParts raise RuntimeError('Bad composites parse') def _parse_optional(fh): """ Parse the optional fields for kern pair data and composites return value is a (*kernDict*, *compositeDict*) which are the return values from :func:`_parse_kern_pairs`, and :func:`_parse_composites` if the data exists, or empty dicts otherwise """ optional = { b'StartKernData': _parse_kern_pairs, b'StartComposites': _parse_composites, } d = {b'StartKernData': {}, b'StartComposites': {}} while 1: line = fh.readline() if not line: break line = line.rstrip() if len(line) == 0: continue key = line.split()[0] if key in optional: d[key] = optional[key](fh) l = (d[b'StartKernData'], d[b'StartComposites']) return l def parse_afm(fh): """ Parse the Adobe Font Metics file in file handle *fh*. Return value is a (*dhead*, *dcmetrics*, *dkernpairs*, *dcomposite*) tuple where *dhead* is a :func:`_parse_header` dict, *dcmetrics* is a :func:`_parse_composites` dict, *dkernpairs* is a :func:`_parse_kern_pairs` dict (possibly {}), and *dcomposite* is a :func:`_parse_composites` dict (possibly {}) """ _sanity_check(fh) dhead = _parse_header(fh) dcmetrics_ascii, dcmetrics_name = _parse_char_metrics(fh) doptional = _parse_optional(fh) return dhead, dcmetrics_ascii, dcmetrics_name, doptional[0], doptional[1] class AFM(object): def __init__(self, fh): """ Parse the AFM file in file object *fh* """ (dhead, dcmetrics_ascii, dcmetrics_name, dkernpairs, dcomposite) = \ parse_afm(fh) self._header = dhead self._kern = dkernpairs self._metrics = dcmetrics_ascii self._metrics_by_name = dcmetrics_name self._composite = dcomposite def get_bbox_char(self, c, isord=False): if not isord: c = ord(c) wx, name, bbox = self._metrics[c] return bbox def string_width_height(self, s): """ Return the string width (including kerning) and string height as a (*w*, *h*) tuple. """ if not len(s): return 0, 0 totalw = 0 namelast = None miny = 1e9 maxy = 0 for c in s: if c == '\n': continue wx, name, bbox = self._metrics[ord(c)] l, b, w, h = bbox # find the width with kerning try: kp = self._kern[(namelast, name)] except KeyError: kp = 0 totalw += wx + kp # find the max y thismax = b + h if thismax > maxy: maxy = thismax # find the min y thismin = b if thismin < miny: miny = thismin namelast = name return totalw, maxy - miny def get_str_bbox_and_descent(self, s): """ Return the string bounding box """ if not len(s): return 0, 0, 0, 0 totalw = 0 namelast = None miny = 1e9 maxy = 0 left = 0 if not isinstance(s, six.text_type): s = s.decode('ascii') for c in s: if c == '\n': continue name = uni2type1.get(ord(c), 'question') try: wx, bbox = self._metrics_by_name[name] except KeyError: name = 'question' wx, bbox = self._metrics_by_name[name] l, b, w, h = bbox if l < left: left = l # find the width with kerning try: kp = self._kern[(namelast, name)] except KeyError: kp = 0 totalw += wx + kp # find the max y thismax = b + h if thismax > maxy: maxy = thismax # find the min y thismin = b if thismin < miny: miny = thismin namelast = name return left, miny, totalw, maxy - miny, -miny def get_str_bbox(self, s): """ Return the string bounding box """ return self.get_str_bbox_and_descent(s)[:4] def get_name_char(self, c, isord=False): """ Get the name of the character, i.e., ';' is 'semicolon' """ if not isord: c = ord(c) wx, name, bbox = self._metrics[c] return name def get_width_char(self, c, isord=False): """ Get the width of the character from the character metric WX field """ if not isord: c = ord(c) wx, name, bbox = self._metrics[c] return wx def get_width_from_char_name(self, name): """ Get the width of the character from a type1 character name """ wx, bbox = self._metrics_by_name[name] return wx def get_height_char(self, c, isord=False): """ Get the height of character *c* from the bounding box. This is the ink height (space is 0) """ if not isord: c = ord(c) wx, name, bbox = self._metrics[c] return bbox[-1] def get_kern_dist(self, c1, c2): """ Return the kerning pair distance (possibly 0) for chars *c1* and *c2* """ name1, name2 = self.get_name_char(c1), self.get_name_char(c2) return self.get_kern_dist_from_name(name1, name2) def get_kern_dist_from_name(self, name1, name2): """ Return the kerning pair distance (possibly 0) for chars *name1* and *name2* """ try: return self._kern[(name1, name2)] except: return 0 def get_fontname(self): "Return the font name, e.g., 'Times-Roman'" return self._header[b'FontName'] def get_fullname(self): "Return the font full name, e.g., 'Times-Roman'" name = self._header.get(b'FullName') if name is None: # use FontName as a substitute name = self._header[b'FontName'] return name def get_familyname(self): "Return the font family name, e.g., 'Times'" name = self._header.get(b'FamilyName') if name is not None: return name # FamilyName not specified so we'll make a guess name = self.get_fullname() extras = (br'(?i)([ -](regular|plain|italic|oblique|bold|semibold|' br'light|ultralight|extra|condensed))+$') return re.sub(extras, '', name) def get_weight(self): "Return the font weight, e.g., 'Bold' or 'Roman'" return self._header[b'Weight'] def get_angle(self): "Return the fontangle as float" return self._header[b'ItalicAngle'] def get_capheight(self): "Return the cap height as float" return self._header[b'CapHeight'] def get_xheight(self): "Return the xheight as float" return self._header[b'XHeight'] def get_underline_thickness(self): "Return the underline thickness as float" return self._header[b'UnderlineThickness'] def get_horizontal_stem_width(self): """ Return the standard horizontal stem width as float, or *None* if not specified in AFM file. """ return self._header.get(b'StdHW', None) def get_vertical_stem_width(self): """ Return the standard vertical stem width as float, or *None* if not specified in AFM file. """ return self._header.get(b'StdVW', None)