"""Implementation of JSONEncoder """ from __future__ import absolute_import import re from operator import itemgetter # Do not import Decimal directly to avoid reload issues import decimal from .compat import u, unichr, binary_type, string_types, integer_types, PY3 def _import_speedups(): try: from . import _speedups return _speedups.encode_basestring_ascii, _speedups.make_encoder except ImportError: return None, None c_encode_basestring_ascii, c_make_encoder = _import_speedups() from simplejson.decoder import PosInf #ESCAPE = re.compile(ur'[\x00-\x1f\\"\b\f\n\r\t\u2028\u2029]') # This is required because u() will mangle the string and ur'' isn't valid # python3 syntax ESCAPE = re.compile(u'[\\x00-\\x1f\\\\"\\b\\f\\n\\r\\t\u2028\u2029]') ESCAPE_ASCII = re.compile(r'([\\"]|[^\ -~])') HAS_UTF8 = re.compile(r'[\x80-\xff]') ESCAPE_DCT = { '\\': '\\\\', '"': '\\"', '\b': '\\b', '\f': '\\f', '\n': '\\n', '\r': '\\r', '\t': '\\t', } for i in range(0x20): #ESCAPE_DCT.setdefault(chr(i), '\\u{0:04x}'.format(i)) ESCAPE_DCT.setdefault(chr(i), '\\u%04x' % (i,)) for i in [0x2028, 0x2029]: ESCAPE_DCT.setdefault(unichr(i), '\\u%04x' % (i,)) FLOAT_REPR = repr def encode_basestring(s, _PY3=PY3, _q=u('"')): """Return a JSON representation of a Python string """ if _PY3: if isinstance(s, binary_type): s = s.decode('utf-8') else: if isinstance(s, str) and HAS_UTF8.search(s) is not None: s = s.decode('utf-8') def replace(match): return ESCAPE_DCT[match.group(0)] return _q + ESCAPE.sub(replace, s) + _q def py_encode_basestring_ascii(s, _PY3=PY3): """Return an ASCII-only JSON representation of a Python string """ if _PY3: if isinstance(s, binary_type): s = s.decode('utf-8') else: if isinstance(s, str) and HAS_UTF8.search(s) is not None: s = s.decode('utf-8') def replace(match): s = match.group(0) try: return ESCAPE_DCT[s] except KeyError: n = ord(s) if n < 0x10000: #return '\\u{0:04x}'.format(n) return '\\u%04x' % (n,) else: # surrogate pair n -= 0x10000 s1 = 0xd800 | ((n >> 10) & 0x3ff) s2 = 0xdc00 | (n & 0x3ff) #return '\\u{0:04x}\\u{1:04x}'.format(s1, s2) return '\\u%04x\\u%04x' % (s1, s2) return '"' + str(ESCAPE_ASCII.sub(replace, s)) + '"' encode_basestring_ascii = ( c_encode_basestring_ascii or py_encode_basestring_ascii) class JSONEncoder(object): """Extensible JSON encoder for Python data structures. Supports the following objects and types by default: +-------------------+---------------+ | Python | JSON | +===================+===============+ | dict, namedtuple | object | +-------------------+---------------+ | list, tuple | array | +-------------------+---------------+ | str, unicode | string | +-------------------+---------------+ | int, long, float | number | +-------------------+---------------+ | True | true | +-------------------+---------------+ | False | false | +-------------------+---------------+ | None | null | +-------------------+---------------+ To extend this to recognize other objects, subclass and implement a ``.default()`` method with another method that returns a serializable object for ``o`` if possible, otherwise it should call the superclass implementation (to raise ``TypeError``). """ item_separator = ', ' key_separator = ': ' def __init__(self, skipkeys=False, ensure_ascii=True, check_circular=True, allow_nan=True, sort_keys=False, indent=None, separators=None, encoding='utf-8', default=None, use_decimal=True, namedtuple_as_object=True, tuple_as_array=True, bigint_as_string=False, item_sort_key=None, for_json=False, ignore_nan=False, int_as_string_bitcount=None): """Constructor for JSONEncoder, with sensible defaults. If skipkeys is false, then it is a TypeError to attempt encoding of keys that are not str, int, long, float or None. If skipkeys is True, such items are simply skipped. If ensure_ascii is true, the output is guaranteed to be str objects with all incoming unicode characters escaped. If ensure_ascii is false, the output will be unicode object. If check_circular is true, then lists, dicts, and custom encoded objects will be checked for circular references during encoding to prevent an infinite recursion (which would cause an OverflowError). Otherwise, no such check takes place. If allow_nan is true, then NaN, Infinity, and -Infinity will be encoded as such. This behavior is not JSON specification compliant, but is consistent with most JavaScript based encoders and decoders. Otherwise, it will be a ValueError to encode such floats. If sort_keys is true, then the output of dictionaries will be sorted by key; this is useful for regression tests to ensure that JSON serializations can be compared on a day-to-day basis. If indent is a string, then JSON array elements and object members will be pretty-printed with a newline followed by that string repeated for each level of nesting. ``None`` (the default) selects the most compact representation without any newlines. For backwards compatibility with versions of simplejson earlier than 2.1.0, an integer is also accepted and is converted to a string with that many spaces. If specified, separators should be an (item_separator, key_separator) tuple. The default is (', ', ': ') if *indent* is ``None`` and (',', ': ') otherwise. To get the most compact JSON representation, you should specify (',', ':') to eliminate whitespace. If specified, default is a function that gets called for objects that can't otherwise be serialized. It should return a JSON encodable version of the object or raise a ``TypeError``. If encoding is not None, then all input strings will be transformed into unicode using that encoding prior to JSON-encoding. The default is UTF-8. If use_decimal is true (not the default), ``decimal.Decimal`` will be supported directly by the encoder. For the inverse, decode JSON with ``parse_float=decimal.Decimal``. If namedtuple_as_object is true (the default), objects with ``_asdict()`` methods will be encoded as JSON objects. If tuple_as_array is true (the default), tuple (and subclasses) will be encoded as JSON arrays. If bigint_as_string is true (not the default), ints 2**53 and higher or lower than -2**53 will be encoded as strings. This is to avoid the rounding that happens in Javascript otherwise. If int_as_string_bitcount is a positive number (n), then int of size greater than or equal to 2**n or lower than or equal to -2**n will be encoded as strings. If specified, item_sort_key is a callable used to sort the items in each dictionary. This is useful if you want to sort items other than in alphabetical order by key. If for_json is true (not the default), objects with a ``for_json()`` method will use the return value of that method for encoding as JSON instead of the object. If *ignore_nan* is true (default: ``False``), then out of range :class:`float` values (``nan``, ``inf``, ``-inf``) will be serialized as ``null`` in compliance with the ECMA-262 specification. If true, this will override *allow_nan*. """ self.skipkeys = skipkeys self.ensure_ascii = ensure_ascii self.check_circular = check_circular self.allow_nan = allow_nan self.sort_keys = sort_keys self.use_decimal = use_decimal self.namedtuple_as_object = namedtuple_as_object self.tuple_as_array = tuple_as_array self.bigint_as_string = bigint_as_string self.item_sort_key = item_sort_key self.for_json = for_json self.ignore_nan = ignore_nan self.int_as_string_bitcount = int_as_string_bitcount if indent is not None and not isinstance(indent, string_types): indent = indent * ' ' self.indent = indent if separators is not None: self.item_separator, self.key_separator = separators elif indent is not None: self.item_separator = ',' if default is not None: self.default = default self.encoding = encoding def default(self, o): """Implement this method in a subclass such that it returns a serializable object for ``o``, or calls the base implementation (to raise a ``TypeError``). For example, to support arbitrary iterators, you could implement default like this:: def default(self, o): try: iterable = iter(o) except TypeError: pass else: return list(iterable) return JSONEncoder.default(self, o) """ raise TypeError(repr(o) + " is not JSON serializable") def encode(self, o): """Return a JSON string representation of a Python data structure. >>> from simplejson import JSONEncoder >>> JSONEncoder().encode({"foo": ["bar", "baz"]}) '{"foo": ["bar", "baz"]}' """ # This is for extremely simple cases and benchmarks. if isinstance(o, binary_type): _encoding = self.encoding if (_encoding is not None and not (_encoding == 'utf-8')): o = o.decode(_encoding) if isinstance(o, string_types): if self.ensure_ascii: return encode_basestring_ascii(o) else: return encode_basestring(o) # This doesn't pass the iterator directly to ''.join() because the # exceptions aren't as detailed. The list call should be roughly # equivalent to the PySequence_Fast that ''.join() would do. chunks = self.iterencode(o, _one_shot=True) if not isinstance(chunks, (list, tuple)): chunks = list(chunks) if self.ensure_ascii: return ''.join(chunks) else: return u''.join(chunks) def iterencode(self, o, _one_shot=False): """Encode the given object and yield each string representation as available. For example:: for chunk in JSONEncoder().iterencode(bigobject): mysocket.write(chunk) """ if self.check_circular: markers = {} else: markers = None if self.ensure_ascii: _encoder = encode_basestring_ascii else: _encoder = encode_basestring if self.encoding != 'utf-8': def _encoder(o, _orig_encoder=_encoder, _encoding=self.encoding): if isinstance(o, binary_type): o = o.decode(_encoding) return _orig_encoder(o) def floatstr(o, allow_nan=self.allow_nan, ignore_nan=self.ignore_nan, _repr=FLOAT_REPR, _inf=PosInf, _neginf=-PosInf): # Check for specials. Note that this type of test is processor # and/or platform-specific, so do tests which don't depend on # the internals. if o != o: text = 'NaN' elif o == _inf: text = 'Infinity' elif o == _neginf: text = '-Infinity' else: if type(o) != float: # See #118, do not trust custom str/repr o = float(o) return _repr(o) if ignore_nan: text = 'null' elif not allow_nan: raise ValueError( "Out of range float values are not JSON compliant: " + repr(o)) return text key_memo = {} int_as_string_bitcount = ( 53 if self.bigint_as_string else self.int_as_string_bitcount) if (_one_shot and c_make_encoder is not None and self.indent is None): _iterencode = c_make_encoder( markers, self.default, _encoder, self.indent, self.key_separator, self.item_separator, self.sort_keys, self.skipkeys, self.allow_nan, key_memo, self.use_decimal, self.namedtuple_as_object, self.tuple_as_array, int_as_string_bitcount, self.item_sort_key, self.encoding, self.for_json, self.ignore_nan, decimal.Decimal) else: _iterencode = _make_iterencode( markers, self.default, _encoder, self.indent, floatstr, self.key_separator, self.item_separator, self.sort_keys, self.skipkeys, _one_shot, self.use_decimal, self.namedtuple_as_object, self.tuple_as_array, int_as_string_bitcount, self.item_sort_key, self.encoding, self.for_json, Decimal=decimal.Decimal) try: return _iterencode(o, 0) finally: key_memo.clear() class JSONEncoderForHTML(JSONEncoder): """An encoder that produces JSON safe to embed in HTML. To embed JSON content in, say, a script tag on a web page, the characters &, < and > should be escaped. They cannot be escaped with the usual entities (e.g. &) because they are not expanded within