# coding: utf-8 #cython: embedsignature=True from cpython cimport * from libc.stdlib cimport * from libc.string cimport * from libc.limits cimport * from libc.stdint cimport int8_t from msgpack.exceptions import PackValueError from msgpack import ExtType cdef extern from "pack.h": struct msgpack_packer: char* buf size_t length size_t buf_size bint use_bin_type int msgpack_pack_int(msgpack_packer* pk, int d) int msgpack_pack_nil(msgpack_packer* pk) int msgpack_pack_true(msgpack_packer* pk) int msgpack_pack_false(msgpack_packer* pk) int msgpack_pack_long(msgpack_packer* pk, long d) int msgpack_pack_long_long(msgpack_packer* pk, long long d) int msgpack_pack_unsigned_long_long(msgpack_packer* pk, unsigned long long d) int msgpack_pack_float(msgpack_packer* pk, float d) int msgpack_pack_double(msgpack_packer* pk, double d) int msgpack_pack_array(msgpack_packer* pk, size_t l) int msgpack_pack_map(msgpack_packer* pk, size_t l) int msgpack_pack_raw(msgpack_packer* pk, size_t l) int msgpack_pack_bin(msgpack_packer* pk, size_t l) int msgpack_pack_raw_body(msgpack_packer* pk, char* body, size_t l) int msgpack_pack_ext(msgpack_packer* pk, int8_t typecode, size_t l) cdef int DEFAULT_RECURSE_LIMIT=511 cdef class Packer(object): """ MessagePack Packer usage:: packer = Packer() astream.write(packer.pack(a)) astream.write(packer.pack(b)) Packer's constructor has some keyword arguments: :param callable default: Convert user type to builtin type that Packer supports. See also simplejson's document. :param str encoding: Convert unicode to bytes with this encoding. (default: 'utf-8') :param str unicode_errors: Error handler for encoding unicode. (default: 'strict') :param bool use_single_float: Use single precision float type for float. (default: False) :param bool autoreset: Reset buffer after each pack and return it's content as `bytes`. (default: True). If set this to false, use `bytes()` to get content and `.reset()` to clear buffer. :param bool use_bin_type: Use bin type introduced in msgpack spec 2.0 for bytes. It also enable str8 type for unicode. """ cdef msgpack_packer pk cdef object _default cdef object _bencoding cdef object _berrors cdef char *encoding cdef char *unicode_errors cdef bool use_float cdef bint autoreset def __cinit__(self): cdef int buf_size = 1024*1024 self.pk.buf = malloc(buf_size); if self.pk.buf == NULL: raise MemoryError("Unable to allocate internal buffer.") self.pk.buf_size = buf_size self.pk.length = 0 def __init__(self, default=None, encoding='utf-8', unicode_errors='strict', use_single_float=False, bint autoreset=1, bint use_bin_type=0): """ """ self.use_float = use_single_float self.autoreset = autoreset self.pk.use_bin_type = use_bin_type if default is not None: if not PyCallable_Check(default): raise TypeError("default must be a callable.") self._default = default if encoding is None: self.encoding = NULL self.unicode_errors = NULL else: if isinstance(encoding, unicode): self._bencoding = encoding.encode('ascii') else: self._bencoding = encoding self.encoding = PyBytes_AsString(self._bencoding) if isinstance(unicode_errors, unicode): self._berrors = unicode_errors.encode('ascii') else: self._berrors = unicode_errors self.unicode_errors = PyBytes_AsString(self._berrors) def __dealloc__(self): free(self.pk.buf); cdef int _pack(self, object o, int nest_limit=DEFAULT_RECURSE_LIMIT) except -1: cdef long long llval cdef unsigned long long ullval cdef long longval cdef float fval cdef double dval cdef char* rawval cdef int ret cdef dict d cdef size_t L cdef int default_used = 0 if nest_limit < 0: raise PackValueError("recursion limit exceeded.") while True: if o is None: ret = msgpack_pack_nil(&self.pk) elif isinstance(o, bool): if o: ret = msgpack_pack_true(&self.pk) else: ret = msgpack_pack_false(&self.pk) elif PyLong_Check(o): # PyInt_Check(long) is True for Python 3. # Sow we should test long before int. if o > 0: ullval = o ret = msgpack_pack_unsigned_long_long(&self.pk, ullval) else: llval = o ret = msgpack_pack_long_long(&self.pk, llval) elif PyInt_Check(o): longval = o ret = msgpack_pack_long(&self.pk, longval) elif PyFloat_Check(o): if self.use_float: fval = o ret = msgpack_pack_float(&self.pk, fval) else: dval = o ret = msgpack_pack_double(&self.pk, dval) elif PyBytes_Check(o): L = len(o) if L > (2**32)-1: raise ValueError("bytes is too large") rawval = o ret = msgpack_pack_bin(&self.pk, L) if ret == 0: ret = msgpack_pack_raw_body(&self.pk, rawval, L) elif PyUnicode_Check(o): if not self.encoding: raise TypeError("Can't encode unicode string: no encoding is specified") o = PyUnicode_AsEncodedString(o, self.encoding, self.unicode_errors) L = len(o) if L > (2**32)-1: raise ValueError("dict is too large") rawval = o ret = msgpack_pack_raw(&self.pk, len(o)) if ret == 0: ret = msgpack_pack_raw_body(&self.pk, rawval, len(o)) elif PyDict_CheckExact(o): d = o L = len(d) if L > (2**32)-1: raise ValueError("dict is too large") ret = msgpack_pack_map(&self.pk, L) if ret == 0: for k, v in d.iteritems(): ret = self._pack(k, nest_limit-1) if ret != 0: break ret = self._pack(v, nest_limit-1) if ret != 0: break elif PyDict_Check(o): L = len(o) if L > (2**32)-1: raise ValueError("dict is too large") ret = msgpack_pack_map(&self.pk, L) if ret == 0: for k, v in o.items(): ret = self._pack(k, nest_limit-1) if ret != 0: break ret = self._pack(v, nest_limit-1) if ret != 0: break elif isinstance(o, ExtType): # This should be before Tuple because ExtType is namedtuple. longval = o.code rawval = o.data L = len(o.data) if L > (2**32)-1: raise ValueError("EXT data is too large") ret = msgpack_pack_ext(&self.pk, longval, L) ret = msgpack_pack_raw_body(&self.pk, rawval, L) elif PyTuple_Check(o) or PyList_Check(o): L = len(o) if L > (2**32)-1: raise ValueError("list is too large") ret = msgpack_pack_array(&self.pk, L) if ret == 0: for v in o: ret = self._pack(v, nest_limit-1) if ret != 0: break elif not default_used and self._default: o = self._default(o) default_used = 1 continue else: raise TypeError("can't serialize %r" % (o,)) return ret cpdef pack(self, object obj): cdef int ret ret = self._pack(obj, DEFAULT_RECURSE_LIMIT) if ret == -1: raise MemoryError elif ret: # should not happen. raise TypeError if self.autoreset: buf = PyBytes_FromStringAndSize(self.pk.buf, self.pk.length) self.pk.length = 0 return buf def pack_ext_type(self, typecode, data): msgpack_pack_ext(&self.pk, typecode, len(data)) msgpack_pack_raw_body(&self.pk, data, len(data)) def pack_array_header(self, size_t size): if size > (2**32-1): raise ValueError cdef int ret = msgpack_pack_array(&self.pk, size) if ret == -1: raise MemoryError elif ret: # should not happen raise TypeError if self.autoreset: buf = PyBytes_FromStringAndSize(self.pk.buf, self.pk.length) self.pk.length = 0 return buf def pack_map_header(self, size_t size): if size > (2**32-1): raise ValueError cdef int ret = msgpack_pack_map(&self.pk, size) if ret == -1: raise MemoryError elif ret: # should not happen raise TypeError if self.autoreset: buf = PyBytes_FromStringAndSize(self.pk.buf, self.pk.length) self.pk.length = 0 return buf def pack_map_pairs(self, object pairs): """ Pack *pairs* as msgpack map type. *pairs* should sequence of pair. (`len(pairs)` and `for k, v in pairs:` should be supported.) """ cdef int ret = msgpack_pack_map(&self.pk, len(pairs)) if ret == 0: for k, v in pairs: ret = self._pack(k) if ret != 0: break ret = self._pack(v) if ret != 0: break if ret == -1: raise MemoryError elif ret: # should not happen raise TypeError if self.autoreset: buf = PyBytes_FromStringAndSize(self.pk.buf, self.pk.length) self.pk.length = 0 return buf def reset(self): """Clear internal buffer.""" self.pk.length = 0 def bytes(self): """Return buffer content.""" return PyBytes_FromStringAndSize(self.pk.buf, self.pk.length)