"""sstruct.py -- SuperStruct Higher level layer on top of the struct module, enabling to bind names to struct elements. The interface is similar to struct, except the objects passed and returned are not tuples (or argument lists), but dictionaries or instances. Just like struct, we use fmt strings to describe a data structure, except we use one line per element. Lines are separated by newlines or semi-colons. Each line contains either one of the special struct characters ('@', '=', '<', '>' or '!') or a 'name:formatchar' combo (eg. 'myFloat:f'). Repetitions, like the struct module offers them are not useful in this context, except for fixed length strings (eg. 'myInt:5h' is not allowed but 'myString:5s' is). The 'x' fmt character (pad byte) is treated as 'special', since it is by definition anonymous. Extra whitespace is allowed everywhere. The sstruct module offers one feature that the "normal" struct module doesn't: support for fixed point numbers. These are spelled as "n.mF", where n is the number of bits before the point, and m the number of bits after the point. Fixed point numbers get converted to floats. pack(fmt, object): 'object' is either a dictionary or an instance (or actually anything that has a __dict__ attribute). If it is a dictionary, its keys are used for names. If it is an instance, it's attributes are used to grab struct elements from. Returns a string containing the data. unpack(fmt, data, object=None) If 'object' is omitted (or None), a new dictionary will be returned. If 'object' is a dictionary, it will be used to add struct elements to. If it is an instance (or in fact anything that has a __dict__ attribute), an attribute will be added for each struct element. In the latter two cases, 'object' itself is returned. unpack2(fmt, data, object=None) Convenience function. Same as unpack, except data may be longer than needed. The returned value is a tuple: (object, leftoverdata). calcsize(fmt) like struct.calcsize(), but uses our own fmt strings: it returns the size of the data in bytes. """ from __future__ import print_function, division, absolute_import from fontTools.misc.py23 import * from fontTools.misc.fixedTools import fixedToFloat as fi2fl, floatToFixed as fl2fi import struct import re __version__ = "1.2" __copyright__ = "Copyright 1998, Just van Rossum " class Error(Exception): pass def pack(fmt, obj): formatstring, names, fixes = getformat(fmt) elements = [] if not isinstance(obj, dict): obj = obj.__dict__ for name in names: value = obj[name] if name in fixes: # fixed point conversion value = fl2fi(value, fixes[name]) elif isinstance(value, basestring): value = tobytes(value) elements.append(value) data = struct.pack(*(formatstring,) + tuple(elements)) return data def unpack(fmt, data, obj=None): if obj is None: obj = {} data = tobytes(data) formatstring, names, fixes = getformat(fmt) if isinstance(obj, dict): d = obj else: d = obj.__dict__ elements = struct.unpack(formatstring, data) for i in range(len(names)): name = names[i] value = elements[i] if name in fixes: # fixed point conversion value = fi2fl(value, fixes[name]) elif isinstance(value, bytes): try: value = tostr(value) except UnicodeDecodeError: pass d[name] = value return obj def unpack2(fmt, data, obj=None): length = calcsize(fmt) return unpack(fmt, data[:length], obj), data[length:] def calcsize(fmt): formatstring, names, fixes = getformat(fmt) return struct.calcsize(formatstring) # matches "name:formatchar" (whitespace is allowed) _elementRE = re.compile( "\s*" # whitespace "([A-Za-z_][A-Za-z_0-9]*)" # name (python identifier) "\s*:\s*" # whitespace : whitespace "([cbBhHiIlLqQfd]|[0-9]+[ps]|" # formatchar... "([0-9]+)\.([0-9]+)(F))" # ...formatchar "\s*" # whitespace "(#.*)?$" # [comment] + end of string ) # matches the special struct fmt chars and 'x' (pad byte) _extraRE = re.compile("\s*([x@=<>!])\s*(#.*)?$") # matches an "empty" string, possibly containing whitespace and/or a comment _emptyRE = re.compile("\s*(#.*)?$") _fixedpointmappings = { 8: "b", 16: "h", 32: "l"} _formatcache = {} def getformat(fmt): fmt = tostr(fmt, encoding="ascii") try: formatstring, names, fixes = _formatcache[fmt] except KeyError: lines = re.split("[\n;]", fmt) formatstring = "" names = [] fixes = {} for line in lines: if _emptyRE.match(line): continue m = _extraRE.match(line) if m: formatchar = m.group(1) if formatchar != 'x' and formatstring: raise Error("a special fmt char must be first") else: m = _elementRE.match(line) if not m: raise Error("syntax error in fmt: '%s'" % line) name = m.group(1) names.append(name) formatchar = m.group(2) if m.group(3): # fixed point before = int(m.group(3)) after = int(m.group(4)) bits = before + after if bits not in [8, 16, 32]: raise Error("fixed point must be 8, 16 or 32 bits long") formatchar = _fixedpointmappings[bits] assert m.group(5) == "F" fixes[name] = after formatstring = formatstring + formatchar _formatcache[fmt] = formatstring, names, fixes return formatstring, names, fixes def _test(): fmt = """ # comments are allowed > # big endian (see documentation for struct) # empty lines are allowed: ashort: h along: l abyte: b # a byte achar: c astr: 5s afloat: f; adouble: d # multiple "statements" are allowed afixed: 16.16F """ print('size:', calcsize(fmt)) class foo(object): pass i = foo() i.ashort = 0x7fff i.along = 0x7fffffff i.abyte = 0x7f i.achar = "a" i.astr = "12345" i.afloat = 0.5 i.adouble = 0.5 i.afixed = 1.5 data = pack(fmt, i) print('data:', repr(data)) print(unpack(fmt, data)) i2 = foo() unpack(fmt, data, i2) print(vars(i2)) if __name__ == "__main__": _test()