source: sasview/park-1.2.1/park/serial.py @ b4293d2

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Last change on this file since b4293d2 was 3570545, checked in by Mathieu Doucet <doucetm@…>, 13 years ago

Adding park Part 2

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1# This program is public domain
2"""
3Service to handle serialization and deserialization of fit objects.
4
5Object serialization is useful for long term storage, interlanguage
6communication and network transmission.  In all cases, the process
7involves an initial encode() followed by a later decode().
8
9We need the following properties for serialization/deserialization:
10
111. human readable so that disaster recovery is possible
122. readable/writable by other languages and environments
133. support for numerics: complex, nan, inf, arrays, full precision
144. version support: load object into newer versions of the
15   program even if the class structure has changed
165. refactoring support: load object into newer versions of the
17   program even if the classes have been moved or renamed
18
19A complete solution would also support self referential data structures,
20but that is beyond our needs.
21
22Python's builtin serialization, pickle/cPickle, cannot meet these
23needs.  It is python specific, and not friendly to human readers
24or readers from other environments such as IDL which may want to
25load or receive data from a python program.  Pickle inf/nan doesn't
26work on windows --- some of our models may use inf data, and some of
27our results may be nan.  pickle has minimal support for versioning:
28users can write __setstate__ which accepts a dictionary and adjusts
29it accordingly.  Beware though that version must be an instance
30variable rather than a class variable, since class variables are not
31seen by pickle.  If the class is renamed, then pickle can do nothing
32to recover it.
33
34Instead of pickle, we break the problem into steps: structucture and
35encoding.  A pair of functions deconstruct() and reconstruct() work
36directly with the structure.  Deconstruct extracts the state of the
37python object defined using a limited set of python primitives. 
38Reconstruct takes an extracted state and rebuilds the complete python
39object.  See documentation on the individual functions for details.
40
41For serial encoding we will use json.  The json format is human
42readable and easily parsed. json iteself does not define support
43of Inf/NaN, though some json tools support it using the native
44javascript values of Infinity and Nan. Various xml encodings are
45also possible, though somewhat more difficult to work with.
46
47Object persistence for long term storage places particular burdens
48on the serialization protocol.  In particular, the class may have
49changed since the instance was serialized.  To aid the process of
50maintaining classes over the long term, the class definition can
51contain the following magic names:
52
53__version__
54    Strict version number of the class.  See isnewer() for
55    details, or distutils.version.StrictVersion.
56__factory__
57    Name of a factory function to return a new instance of
58    the class.  This will be stored as the class name, and
59    should include the complete path so that it can be
60    imported by python.
61__reconstruct__
62    Method which takes a structure tree and rebuilds the object.
63    This is different from __setstate__ in that __setstate__
64    assumes its children have already been reconstructed.  This
65    is the difference between top-down and bottom-up
66    interpretation.  Bottom-up is usually easiear and sufficient,
67    but top-down is required for radical restructuring of the
68    object representation.
69
70
71Example
72=======
73
74The following example shows how to use reconstruct and factory to get
75maximum flexibility when restoring an object::
76
77    from danse.common.serial import isnewer, reconstruct, setstate
78    def data():
79        from data import Data
80        return Data()
81    class Data(object):
82        __version__ = '1.2'
83        __factory__ = 'danse.builder.data'
84        def __reconstruct__(self,instance):
85            '''
86            Reconstruct the state from
87            '''
88            if isnewer('1.0',instance['version']):
89                raise RuntimeError('pre-1.0 data objects no longer supported')
90            if isnewer('1.1',instance['version']):
91                # Version 1.1 added uncertainty; default it to zero
92                instance['state']['uncertainty'] = 0
93            setstate(self,reconstruct(instance['state']))
94"""
95
96import types
97import sys
98import demjson
99
100def encode(obj):
101    """
102    Convert structure to a string.
103   
104    Basic python types (list, string, dictionary, numbers, boolean, None)
105    are converted directly to the corresponding string representation.
106    tuples and sets are converted to lists, and str is converted to unicode.
107   
108    Python objects are represented by::
109   
110        {
111            '.class': 'module.classname',
112            '.version': 'versionstring',
113            '.state': { object state }
114        }
115   
116    where state comes from the object __getstate__, the object __dict__ or
117    the object __slots__.  See the pickle documentation for details.
118
119    Python functions are represented by::
120   
121        {
122            '.function': 'module.functionname'
123        }
124       
125    """
126    return demjson.encode(deconstruct(obj))
127
128def decode(string):
129    """
130    Convert string to structure, reconstructing classes as needed.  See
131    pickle documentation for details.  This function will fail with a
132    RuntimeError if the version of the class in the string is newer
133    than the version of the class in the python path.
134    """
135    return reconstruct(demjson.decode(string))
136
137
138def deconstruct(obj):
139    """
140    Convert an object hierarchy into python primitives.
141   
142    The primitives used are int, float, str, unicode, bool, None,
143    list, tuple, and dict.
144   
145    Classes are encoded as a dict with keys '.class', '.version', and '.state'. 
146    Version is copied from the attribute __version__ if it exists.
147   
148    Functions are encoded as a dict with key '.function'.
149   
150    Raises RuntimeError if object cannot be deconstructed.  For example,
151    deconstruct on deconstruct will cause problems since '.class' will
152    be in the dictionary of a deconstructed object.
153    """
154    if type(obj) in [int, float, str, unicode, bool] or obj is None:
155        return obj
156    elif type(obj) in [list, tuple, set]:
157        return type(obj)(deconstruct(el) for el in obj)
158    elif type(obj) == dict:
159        # Check for errors
160        for name in ['.class', '.function']:
161            if name in obj:
162                raise RuntimeError("Cannot deconstruct dict containing "+name)
163        return dict((k,deconstruct(v)) for k,v in obj.items())
164    elif type(obj) == types.FunctionType:
165        return {
166            '.function'  : obj.__module__+'.'+obj.__name__
167        }
168    else:
169        cls = _getclass(obj)
170        version = _getversion(obj)
171        return { 
172            '.class'   : _getclass(obj), 
173            '.version' : _getversion(obj), 
174            '.state'   : deconstruct(_getstate(obj))
175        }
176 
177def reconstruct(tree):
178    """
179    Reconstruct an object hierarchy from a tree of primitives.
180   
181    The tree is generated by deconstruct from python primitives
182    (list, dict, string, number, boolean, None) with classes
183    encoded as a particular kind of dict.
184   
185    Unlike pickle, we do not make an exact copy of the original
186    object.  In particular, the serialization format may not
187    distinguish between list and tuples, or str and unicode.  We
188    also have no support for self-referential structures.
189   
190    Raises RuntimeError if could not reconstruct
191    """
192    if type(tree) in [int, float, str, unicode, bool] or tree is None:
193        return tree
194    elif type(tree) in [list, tuple, set]:
195        return type(tree)(reconstruct(el) for el in tree)
196    elif type(tree) == dict:
197        if '.class' in tree:
198            # Chain if program version is newer than stored version (too cold)
199            fn = _lookup_refactor(tree['.class'],tree['.version'])
200            if fn is not None: return fn(tree)
201
202            # Fail if program version is older than stored version (too hot)
203            obj = _createobj(tree['.class'])
204            if isnewer(tree['.version'],_getversion(obj)):
205                raise RuntimeError('Version of %s is out of date'%tree['.class'])
206            # Reconstruct if program version matches stored version (just right)
207            if hasattr(obj, '__reconstruct__'):
208                obj.__reconstruct__(tree['.state'])
209            else:
210                _setstate(obj,reconstruct(tree['.state']))
211            return obj
212        elif '.function' in tree:
213            return _import_symbol(tree['.function'])
214        else:
215            return dict((k,reconstruct(v)) for k,v in tree.items())
216    else:
217        raise RuntimeError('Could not reconstruct '+type(obj).__name__)
218
219def _getversion(obj):
220    version = getattr(obj,'__version__','0.0')
221    try:
222        # Force parsing of version number to check format
223        isnewer(version,'0.0')
224    except ValueError,msg:
225        raise ValueError("%s for class %s"%(msg,obj.__class__.__name__))
226    return version
227
228def _getclass(obj):
229    if hasattr(obj,'__factory__'): return obj.__factory__
230    return obj.__class__.__module__+'.'+obj.__class__.__name__
231
232def _getstate(obj):
233    if hasattr(obj,'__getinitargs__') or hasattr(obj,'__getnewargs__'):
234        # Laziness: we could fetch the initargs and store them, but until
235        # we need to do so, I'm not going to add the complexity.
236        raise RuntimeError('Cannot serialize a class with initialization arguments')
237    elif hasattr(obj,'__getstate__'):
238        state = obj.__getstate__()
239    elif hasattr(obj,'__slots__'):
240        state = dict((s,getattr(obj,s)) for s in obj.__slots__ if hasattr(obj,s))
241    elif hasattr(obj,'__dict__'):
242        state = obj.__dict__
243    else:
244        state = {}
245    return state
246
247def _setstate(obj,kw):
248    if hasattr(obj,'__setstate__'):
249        obj.__setstate__(kw)
250    elif hasattr(obj,'__slots__'):
251        for k,v in kw.items(): setattr(obj,k,v)
252    elif hasattr(obj,'__dict__'):
253        obj.__dict__ = kw
254    else:
255        pass
256    return obj
257
258def _lookup_refactor(cls,ver):
259    return None
260
261class _EmptyClass: pass
262def _import_symbol(path):
263    """
264    Recover symbol from path.
265    """
266    parts = path.split('.')
267    module_name = ".".join(parts[:-1])
268    symbol_name = parts[-1]
269    __import__(module_name)
270    module = sys.modules[module_name]
271    symbol = getattr(module,symbol_name)
272    return symbol
273
274def _createobj(path):
275    """
276    Create an empty object which we can update with __setstate__
277    """
278    factory = _import_symbol(path)
279    if type(factory) is types.FunctionType:
280        # Factory method to return an empty class instance
281        obj = factory()
282    elif type(factory) is types.ClassType:
283        # Old-style class: create an empty class and override its __class__
284        obj = _EmptyClass()
285        obj.__class__ = factory
286    elif type(factory) is types.TypeType:
287        obj = factory.__new__(factory)
288    else:
289        raise RuntimeError('%s should be a function, class or type'%path)
290    return obj
291
292def isnewer(version,target):
293    """
294    Version comparison function.  Returns true if version is at least
295    as new as the target version.
296
297    A version number consists of two or three dot-separated numeric
298    components, with an optional "pre-release" tag on the end.  The
299    pre-release tag consists of the letter 'a' or 'b' followed by
300    a number.  If the numeric components of two version numbers
301    are equal, then one with a pre-release tag will always
302    be deemed earlier (lesser) than one without.
303
304    The following will be true for version numbers::
305
306      8.2 < 8.19a1 < 8.19 == 8.19.0
307
308   
309    You should follow the rule of incrementing the minor version number
310    if you add attributes to your models, and the major version number
311    if you remove attributes.  Then assuming you are working with
312    e.g., version 2.2, your model loading code will look like::
313   
314        if isnewer(version, Model.__version__):
315            raise IOError('software is older than model')
316        elif isnewer(xml.version, '2.0'):
317            instantiate current model from xml
318        elif isnewer(xml.version, '1.0'):
319            instantiate old model from xml
320            copy old model format to new model format
321        else:
322            raise IOError('pre-1.0 models not supported')
323
324    Based on distutils.version.StrictVersion
325    """
326    from distutils.version import StrictVersion as Version
327    return Version(version) > Version(target)
328
329class _RefactoringRegistry(object):
330    """
331    Directory of renamed classes.
332   
333    """
334    registry = {}
335   
336    @classmethod
337    def register(cls,oldname,newname,asof_version):
338        """
339        As of the target version, references to the old name are no
340        longer valid (e.g., when reconstructing stored objects), and
341        should be resolved by the new name (or None if they should
342        just raise an error.)  The old name can then be reused for
343        new objects or abandoned.
344        """
345        # Insert (asof_version,newname) in the right place in the
346        # list of rename targets for the object.  This list will
347        # be empty unless the name is reused.
348        if name not in cls.registry: cls.registry[name] = []
349        for idx,(version,name) in cls.registry[name]:
350            if isnewer(asof_version, version):
351                cls.registry[name].insert(idx,(asof_version, newname))
352                break
353        else:
354            cls.registry[name].append((asof_version, newname))
355   
356    @classmethod
357    def redirect(cls, oldname, newname, version):
358        if oldname not in cls.registry[oldname]: return None
359        for idx,(target_version,newname) in cls.registry[name]:
360            if isnewer(target_version, version):
361                return target_version
362        # error conditions at this point
363
364def refactor(oldname,newname,asof_version):
365    """
366    Register the renaming of a class. 
367   
368    As code is developed and maintained over time, it is sometimes
369    beneficial to restructure the source to support new features. 
370    However, the structure and location of particular objects is
371    encoded in the saved file format.
372
373    When you move a class that may be stored in a model,
374    be sure to put an entry into the registry saying where
375    the model was moved, or None if the model is no longer
376    supported.
377   
378    reconstructor as a function to build a python object from
379    a particular class/version, presumably older than the current
380    version.  This is necessary, e.g., to set default values for new
381    fields or to modify components of the model which are now
382    represented differently.
383   
384    The reconstructor function takes the structure above as
385    its argument and returns a python instance.  You are free
386    to restructure the state and version fields as needed to
387    bring the object in line with the next version, then call
388    setstate(tree) to build the return object.  Indeed this
389    technique will chain, and you can morph an ancient version
390    of your models into the latest version.
391    """
392
393    return _RefactoringRegistry.redirect(oldname, newname, asof_version)
394
395# Test classes need to be at the top level for reconstruct to find them
396class _Simple: x = 5
397class _SimpleNew(object): x = 5
398class _Slotted(object): __slots__ = ['a','b']
399class _Controlled:
400    def __getstate__(self): return ["mystate",self.__dict__]
401    def __setstate__(self, state):
402        if state[0] != "mystate": raise RuntimeError("didn't get back my state")
403        self.__dict__ = state[1]
404class _Factory: __factory__ = __name__ + "._factory"
405def _factory():
406    obj =  _Factory()
407    # Note: can't modify obj because state will be overridden
408    _Factory.fromfactory = True
409    return obj
410class _VersionError:
411    __version__ = "3.5."
412def _hello():
413    return 'hello'
414def test():
415    primitives = ['list',1,{'of':'dict',2:'really'},True,None]
416    assert deconstruct(primitives) == primitives
417    # Hmmm... dicts with non-string keys are not permitted by strict json
418    # I'm not sure we care for our purposes, but it would be best to avoid
419    # them and instead have a list of tuples which can be converted to and
420    # from a dict if the need arises
421    assert encode(primitives) == '["list",1,{"of":"dict",2:"really"},true,null]'
422
423    h = _Simple()
424    h.a = 2
425    #print encode(deconstruct(h))
426    assert decode(encode(h)).a == h.a
427   
428    assert decode(encode(_hello))() == 'hello'
429
430    h = _SimpleNew()
431    h.a = 2
432    #print encode(deconstruct(h))
433    assert decode(encode(h)).a == h.a
434
435    h = _Slotted()
436    h.a = 2
437    #print encode(deconstruct(h))
438    assert decode(encode(h)).a == h.a
439
440    h = _Controlled()
441    h.a = 2
442    #print encode(deconstruct(h))
443    assert decode(encode(h)).a == h.a
444
445    h = _Factory()
446    h.a = 2
447    #print encode(deconstruct(h))
448    assert decode(encode(h)).a == h.a
449    assert hasattr(h,'fromfactory')
450   
451    try:
452        deconstruct(_VersionError())
453        raise RuntimeError("should have raised a version error")
454    except ValueError,msg:
455        assert "_VersionError" in str(msg)
456
457if __name__ == "__main__": test()
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