nfc_ctypes.py

'''Wrapper for nfc-emulation.h

Generated with:
ctypesgen.py -lnfc ./_nfc/nfc-emulation.h ./_nfc/nfc.h ./_nfc/nfc-types.h -o ./_nfc/nfc_ctypes.py

Do not modify this file.
'''

__docformat__ = 'restructuredtext'

# Begin preamble

import ctypes, os, sys
from ctypes import *

_int_types = (c_int16, c_int32)
if hasattr(ctypes, 'c_int64'):
    # Some builds of ctypes apparently do not have c_int64
    # defined; it's a pretty good bet that these builds do not
    # have 64-bit pointers.
    _int_types += (c_int64,)
for t in _int_types:
    if sizeof(t) == sizeof(c_size_t):
        c_ptrdiff_t = t
del t
del _int_types


class UserString:
    def __init__(self, seq):
        if isinstance(seq, basestring):
            self.data = seq
        elif isinstance(seq, UserString):
            self.data = seq.data[:]
        else:
            self.data = str(seq)

    def __str__(self):
        return str(self.data)

    def __repr__(self):
        return repr(self.data)

    def __int__(self):
        return int(self.data)

    def __long__(self):
        return long(self.data)

    def __float__(self):
        return float(self.data)

    def __complex__(self):
        return complex(self.data)

    def __hash__(self):
        return hash(self.data)

    def __cmp__(self, string):
        if isinstance(string, UserString):
            return cmp(self.data, string.data)
        else:
            return cmp(self.data, string)

    def __contains__(self, char):
        return char in self.data

    def __len__(self):
        return len(self.data)

    def __getitem__(self, index):
        return self.__class__(self.data[index])

    def __getslice__(self, start, end):
        start = max(start, 0);
        end = max(end, 0)
        return self.__class__(self.data[start:end])

    def __add__(self, other):
        if isinstance(other, UserString):
            return self.__class__(self.data + other.data)
        elif isinstance(other, basestring):
            return self.__class__(self.data + other)
        else:
            return self.__class__(self.data + str(other))

    def __radd__(self, other):
        if isinstance(other, basestring):
            return self.__class__(other + self.data)
        else:
            return self.__class__(str(other) + self.data)

    def __mul__(self, n):
        return self.__class__(self.data * n)

    __rmul__ = __mul__

    def __mod__(self, args):
        return self.__class__(self.data % args)

    # the following methods are defined in alphabetical order:
    def capitalize(self):
        return self.__class__(self.data.capitalize())

    def center(self, width, *args):
        return self.__class__(self.data.center(width, *args))

    def count(self, sub, start=0, end=sys.maxint):
        return self.data.count(sub, start, end)

    def decode(self, encoding=None, errors=None):  # XXX improve this?
        if encoding:
            if errors:
                return self.__class__(self.data.decode(encoding, errors))
            else:
                return self.__class__(self.data.decode(encoding))
        else:
            return self.__class__(self.data.decode())

    def encode(self, encoding=None, errors=None):  # XXX improve this?
        if encoding:
            if errors:
                return self.__class__(self.data.encode(encoding, errors))
            else:
                return self.__class__(self.data.encode(encoding))
        else:
            return self.__class__(self.data.encode())

    def endswith(self, suffix, start=0, end=sys.maxint):
        return self.data.endswith(suffix, start, end)

    def expandtabs(self, tabsize=8):
        return self.__class__(self.data.expandtabs(tabsize))

    def find(self, sub, start=0, end=sys.maxint):
        return self.data.find(sub, start, end)

    def index(self, sub, start=0, end=sys.maxint):
        return self.data.index(sub, start, end)

    def isalpha(self):
        return self.data.isalpha()

    def isalnum(self):
        return self.data.isalnum()

    def isdecimal(self):
        return self.data.isdecimal()

    def isdigit(self):
        return self.data.isdigit()

    def islower(self):
        return self.data.islower()

    def isnumeric(self):
        return self.data.isnumeric()

    def isspace(self):
        return self.data.isspace()

    def istitle(self):
        return self.data.istitle()

    def isupper(self):
        return self.data.isupper()

    def join(self, seq):
        return self.data.join(seq)

    def ljust(self, width, *args):
        return self.__class__(self.data.ljust(width, *args))

    def lower(self):
        return self.__class__(self.data.lower())

    def lstrip(self, chars=None):
        return self.__class__(self.data.lstrip(chars))

    def partition(self, sep):
        return self.data.partition(sep)

    def replace(self, old, new, maxsplit=-1):
        return self.__class__(self.data.replace(old, new, maxsplit))

    def rfind(self, sub, start=0, end=sys.maxint):
        return self.data.rfind(sub, start, end)

    def rindex(self, sub, start=0, end=sys.maxint):
        return self.data.rindex(sub, start, end)

    def rjust(self, width, *args):
        return self.__class__(self.data.rjust(width, *args))

    def rpartition(self, sep):
        return self.data.rpartition(sep)

    def rstrip(self, chars=None):
        return self.__class__(self.data.rstrip(chars))

    def split(self, sep=None, maxsplit=-1):
        return self.data.split(sep, maxsplit)

    def rsplit(self, sep=None, maxsplit=-1):
        return self.data.rsplit(sep, maxsplit)

    def splitlines(self, keepends=0):
        return self.data.splitlines(keepends)

    def startswith(self, prefix, start=0, end=sys.maxint):
        return self.data.startswith(prefix, start, end)

    def strip(self, chars=None):
        return self.__class__(self.data.strip(chars))

    def swapcase(self):
        return self.__class__(self.data.swapcase())

    def title(self):
        return self.__class__(self.data.title())

    def translate(self, *args):
        return self.__class__(self.data.translate(*args))

    def upper(self):
        return self.__class__(self.data.upper())

    def zfill(self, width):
        return self.__class__(self.data.zfill(width))


class MutableString(UserString):
    """mutable string objects

    Python strings are immutable objects.  This has the advantage, that
    strings may be used as dictionary keys.  If this property isn't needed
    and you insist on changing string values in place instead, you may cheat
    and use MutableString.

    But the purpose of this class is an educational one: to prevent
    people from inventing their own mutable string class derived
    from UserString and than forget thereby to remove (override) the
    __hash__ method inherited from UserString.  This would lead to
    errors that would be very hard to track down.

    A faster and better solution is to rewrite your program using lists."""

    def __init__(self, string=""):
        self.data = string

    def __hash__(self):
        raise TypeError("unhashable type (it is mutable)")

    def __setitem__(self, index, sub):
        if index < 0:
            index += len(self.data)
        if index < 0 or index >= len(self.data): raise IndexError
        self.data = self.data[:index] + sub + self.data[index + 1:]

    def __delitem__(self, index):
        if index < 0:
            index += len(self.data)
        if index < 0 or index >= len(self.data): raise IndexError
        self.data = self.data[:index] + self.data[index + 1:]

    def __setslice__(self, start, end, sub):
        start = max(start, 0);
        end = max(end, 0)
        if isinstance(sub, UserString):
            self.data = self.data[:start] + sub.data + self.data[end:]
        elif isinstance(sub, basestring):
            self.data = self.data[:start] + sub + self.data[end:]
        else:
            self.data = self.data[:start] + str(sub) + self.data[end:]

    def __delslice__(self, start, end):
        start = max(start, 0);
        end = max(end, 0)
        self.data = self.data[:start] + self.data[end:]

    def immutable(self):
        return UserString(self.data)

    def __iadd__(self, other):
        if isinstance(other, UserString):
            self.data += other.data
        elif isinstance(other, basestring):
            self.data += other
        else:
            self.data += str(other)
        return self

    def __imul__(self, n):
        self.data *= n
        return self


class String(MutableString, Union):
    _fields_ = [('raw', POINTER(c_char)),
                ('data', c_char_p)]

    def __init__(self, obj=""):
        if isinstance(obj, (str, unicode, UserString)):
            self.data = str(obj)
        else:
            self.raw = obj

    def __len__(self):
        return self.data and len(self.data) or 0

    def from_param(cls, obj):
        # Convert None or 0
        if obj is None or obj == 0:
            return cls(POINTER(c_char)())

        # Convert from String
        elif isinstance(obj, String):
            return obj

        # Convert from str
        elif isinstance(obj, str):
            return cls(obj)

        # Convert from c_char_p
        elif isinstance(obj, c_char_p):
            return obj

        # Convert from POINTER(c_char)
        elif isinstance(obj, POINTER(c_char)):
            return obj

        # Convert from raw pointer
        elif isinstance(obj, int):
            return cls(cast(obj, POINTER(c_char)))

        # Convert from c_char array
        elif isinstance(obj, c_char * len(obj)):
            return obj

        # Convert from object
        else:
            return String.from_param(obj._as_parameter_)

    from_param = classmethod(from_param)


def ReturnString(obj, func=None, arguments=None):
    return String.from_param(obj)


# As of ctypes 1.0, ctypes does not support custom error-checking
# functions on callbacks, nor does it support custom datatypes on
# callbacks, so we must ensure that all callbacks return
# primitive datatypes.
#
# Non-primitive return values wrapped with UNCHECKED won't be
# typechecked, and will be converted to c_void_p.
def UNCHECKED(type):
    if (hasattr(type, "_type_") and isinstance(type._type_, str)
            and type._type_ != "P"):
        return type
    else:
        return c_void_p


# ctypes doesn't have direct support for variadic functions, so we have to write
# our own wrapper class
class _variadic_function(object):
    def __init__(self, func, restype, argtypes, errcheck):
        self.func = func
        self.func.restype = restype
        self.argtypes = argtypes
        if errcheck:
            self.func.errcheck = errcheck

    def _as_parameter_(self):
        # So we can pass this variadic function as a function pointer
        return self.func

    def __call__(self, *args):
        fixed_args = []
        i = 0
        for argtype in self.argtypes:
            # Typecheck what we can
            fixed_args.append(argtype.from_param(args[i]))
            i += 1
        return self.func(*fixed_args + list(args[i:]))


# End preamble

_libs = {}
_libdirs = []

# Begin loader

# ----------------------------------------------------------------------------
# Copyright (c) 2008 David James
# Copyright (c) 2006-2008 Alex Holkner
# All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
#  * Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
#  * Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in
#    the documentation and/or other materials provided with the
#    distribution.
#  * Neither the name of pyglet nor the names of its
#    contributors may be used to endorse or promote products
#    derived from this software without specific prior written
#    permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
# BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
# LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
# CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
# LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
# ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
# ----------------------------------------------------------------------------

import os.path, re, sys, glob
import platform
import ctypes
import ctypes.util


def _environ_path(name):
    if name in os.environ:
        return os.environ[name].split(":")
    else:
        return []


class LibraryLoader(object):
    def __init__(self):
        self.other_dirs = []

    def load_library(self, libname):
        """Given the name of a library, load it."""
        paths = self.getpaths(libname)

        for path in paths:
            if os.path.exists(path):
                return self.load(path)

        raise ImportError("%s not found." % libname)

    def load(self, path):
        """Given a path to a library, load it."""
        try:
            # Darwin requires dlopen to be called with mode RTLD_GLOBAL instead
            # of the default RTLD_LOCAL.  Without this, you end up with
            # libraries not being loadable, resulting in "Symbol not found"
            # errors
            if sys.platform == 'darwin':
                return ctypes.CDLL(path, ctypes.RTLD_GLOBAL)
            else:
                return ctypes.cdll.LoadLibrary(path)
        except OSError, e:
            raise ImportError(e)

    def getpaths(self, libname):
        """Return a list of paths where the library might be found."""
        if os.path.isabs(libname):
            yield libname
        else:
            # FIXME / TODO return '.' and os.path.dirname(__file__)
            for path in self.getplatformpaths(libname):
                yield path

            path = ctypes.util.find_library(libname)
            if path: yield path

    def getplatformpaths(self, libname):
        return []


# Darwin (Mac OS X)

class DarwinLibraryLoader(LibraryLoader):
    name_formats = ["lib%s.dylib", "lib%s.so", "lib%s.bundle", "%s.dylib",
                    "%s.so", "%s.bundle", "%s"]

    def getplatformpaths(self, libname):
        if os.path.pathsep in libname:
            names = [libname]
        else:
            names = [format % libname for format in self.name_formats]

        for dir in self.getdirs(libname):
            for name in names:
                yield os.path.join(dir, name)

    def getdirs(self, libname):
        '''Implements the dylib search as specified in Apple documentation:

        http://developer.apple.com/documentation/DeveloperTools/Conceptual/
            DynamicLibraries/Articles/DynamicLibraryUsageGuidelines.html

        Before commencing the standard search, the method first checks
        the bundle's ``Frameworks`` directory if the application is running
        within a bundle (OS X .app).
        '''

        dyld_fallback_library_path = _environ_path("DYLD_FALLBACK_LIBRARY_PATH")
        if not dyld_fallback_library_path:
            dyld_fallback_library_path = [os.path.expanduser('~/lib'),
                                          '/usr/local/lib', '/usr/lib']

        dirs = []

        if '/' in libname:
            dirs.extend(_environ_path("DYLD_LIBRARY_PATH"))
        else:
            dirs.extend(_environ_path("LD_LIBRARY_PATH"))
            dirs.extend(_environ_path("DYLD_LIBRARY_PATH"))

        dirs.extend(self.other_dirs)
        dirs.append(".")
        dirs.append(os.path.dirname(__file__))

        if hasattr(sys, 'frozen') and sys.frozen == 'macosx_app':
            dirs.append(os.path.join(
                os.environ['RESOURCEPATH'],
                '..',
                'Frameworks'))

        dirs.extend(dyld_fallback_library_path)

        return dirs


# Posix

class PosixLibraryLoader(LibraryLoader):
    _ld_so_cache = None

    def _create_ld_so_cache(self):
        # Recreate search path followed by ld.so.  This is going to be
        # slow to build, and incorrect (ld.so uses ld.so.cache, which may
        # not be up-to-date).  Used only as fallback for distros without
        # /sbin/ldconfig.
        #
        # We assume the DT_RPATH and DT_RUNPATH binary sections are omitted.

        directories = []
        for name in ("LD_LIBRARY_PATH",
                     "SHLIB_PATH",  # HPUX
                     "LIBPATH",  # OS/2, AIX
                     "LIBRARY_PATH",  # BE/OS
                     ):
            if name in os.environ:
                directories.extend(os.environ[name].split(os.pathsep))
        directories.extend(self.other_dirs)
        directories.append(".")
        directories.append(os.path.dirname(__file__))

        try:
            directories.extend([dir.strip() for dir in open('/etc/ld.so.conf')])
        except IOError:
            pass

        unix_lib_dirs_list = ['/lib', '/usr/lib', '/lib64', '/usr/lib64']
        if sys.platform.startswith('linux'):
            # Try and support multiarch work in Ubuntu
            # https://wiki.ubuntu.com/MultiarchSpec
            bitage = platform.architecture()[0]
            if bitage.startswith('32'):
                # Assume Intel/AMD x86 compat
                unix_lib_dirs_list += ['/lib/i386-linux-gnu', '/usr/lib/i386-linux-gnu']
            elif bitage.startswith('64'):
                # Assume Intel/AMD x86 compat
                unix_lib_dirs_list += ['/lib/x86_64-linux-gnu', '/usr/lib/x86_64-linux-gnu']
            else:
                # guess...
                unix_lib_dirs_list += glob.glob('/lib/*linux-gnu')
        directories.extend(unix_lib_dirs_list)

        cache = {}
        lib_re = re.compile(r'lib(.*)\.s[ol]')
        ext_re = re.compile(r'\.s[ol]$')
        for dir in directories:
            try:
                for path in glob.glob("%s/*.s[ol]*" % dir):
                    file = os.path.basename(path)

                    # Index by filename
                    if file not in cache:
                        cache[file] = path

                    # Index by library name
                    match = lib_re.match(file)
                    if match:
                        library = match.group(1)
                        if library not in cache:
                            cache[library] = path
            except OSError:
                pass

        self._ld_so_cache = cache

    def getplatformpaths(self, libname):
        if self._ld_so_cache is None:
            self._create_ld_so_cache()

        result = self._ld_so_cache.get(libname)
        if result: yield result

        path = ctypes.util.find_library(libname)
        if path: yield os.path.join("/lib", path)


# Windows

class _WindowsLibrary(object):
    def __init__(self, path):
        self.cdll = ctypes.cdll.LoadLibrary(path)
        self.windll = ctypes.windll.LoadLibrary(path)

    def __getattr__(self, name):
        try:
            return getattr(self.cdll, name)
        except AttributeError:
            try:
                return getattr(self.windll, name)
            except AttributeError:
                raise


class WindowsLibraryLoader(LibraryLoader):
    name_formats = ["%s.dll", "lib%s.dll", "%slib.dll"]

    def load_library(self, libname):
        try:
            result = LibraryLoader.load_library(self, libname)
        except ImportError:
            result = None
            if os.path.sep not in libname:
                for name in self.name_formats:
                    try:
                        result = getattr(ctypes.cdll, name % libname)
                        if result:
                            break
                    except WindowsError:
                        result = None
            if result is None:
                try:
                    result = getattr(ctypes.cdll, libname)
                except WindowsError:
                    result = None
            if result is None:
                raise ImportError("%s not found." % libname)
        return result

    def load(self, path):
        return _WindowsLibrary(path)

    def getplatformpaths(self, libname):
        if os.path.sep not in libname:
            for name in self.name_formats:
                dll_in_current_dir = os.path.abspath(name % libname)
                if os.path.exists(dll_in_current_dir):
                    yield dll_in_current_dir
                path = ctypes.util.find_library(name % libname)
                if path:
                    yield path


# Platform switching

# If your value of sys.platform does not appear in this dict, please contact
# the Ctypesgen maintainers.

loaderclass = {
    "darwin": DarwinLibraryLoader,
    "cygwin": WindowsLibraryLoader,
    "win32": WindowsLibraryLoader
}

loader = loaderclass.get(sys.platform, PosixLibraryLoader)()


def add_library_search_dirs(other_dirs):
    """
    Add libraries to search paths.
    If library paths are relative, convert them to absolute with respect to this
    file's directory
    """
    THIS_DIR = os.path.dirname(__file__)
    for F in other_dirs:
        if not os.path.isabs(F):
            F = os.path.abspath(os.path.join(THIS_DIR, F))
        loader.other_dirs.append(F)


load_library = loader.load_library

del loaderclass

# End loader

add_library_search_dirs([])

# Begin libraries

_libs["nfc"] = load_library("nfc")


# 1 libraries
# End libraries

# No modules

# /usr/include/nfc/nfc-types.h: 47
class struct_nfc_context(Structure):
    pass


nfc_context = struct_nfc_context  # /usr/include/nfc/nfc-types.h: 47


# /usr/include/nfc/nfc-types.h: 52
class struct_nfc_device(Structure):
    pass


nfc_device = struct_nfc_device  # /usr/include/nfc/nfc-types.h: 52


# /usr/include/nfc/nfc-types.h: 57
class struct_nfc_driver(Structure):
    pass


nfc_driver = struct_nfc_driver  # /usr/include/nfc/nfc-types.h: 57

nfc_connstring = c_char * 1024  # /usr/include/nfc/nfc-types.h: 62

enum_anon_20 = c_int  # /usr/include/nfc/nfc-types.h: 142

NP_TIMEOUT_COMMAND = 0  # /usr/include/nfc/nfc-types.h: 142

NP_TIMEOUT_ATR = (NP_TIMEOUT_COMMAND + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_TIMEOUT_COM = (NP_TIMEOUT_ATR + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_HANDLE_CRC = (NP_TIMEOUT_COM + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_HANDLE_PARITY = (NP_HANDLE_CRC + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_ACTIVATE_FIELD = (NP_HANDLE_PARITY + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_ACTIVATE_CRYPTO1 = (NP_ACTIVATE_FIELD + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_INFINITE_SELECT = (NP_ACTIVATE_CRYPTO1 + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_ACCEPT_INVALID_FRAMES = (NP_INFINITE_SELECT + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_ACCEPT_MULTIPLE_FRAMES = (NP_ACCEPT_INVALID_FRAMES + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_AUTO_ISO14443_4 = (NP_ACCEPT_MULTIPLE_FRAMES + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_EASY_FRAMING = (NP_AUTO_ISO14443_4 + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_FORCE_ISO14443_A = (NP_EASY_FRAMING + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_FORCE_ISO14443_B = (NP_FORCE_ISO14443_A + 1)  # /usr/include/nfc/nfc-types.h: 142

NP_FORCE_SPEED_106 = (NP_FORCE_ISO14443_B + 1)  # /usr/include/nfc/nfc-types.h: 142

nfc_property = enum_anon_20  # /usr/include/nfc/nfc-types.h: 142

enum_anon_21 = c_int  # /usr/include/nfc/nfc-types.h: 155

NDM_UNDEFINED = 0  # /usr/include/nfc/nfc-types.h: 155

NDM_PASSIVE = (NDM_UNDEFINED + 1)  # /usr/include/nfc/nfc-types.h: 155

NDM_ACTIVE = (NDM_PASSIVE + 1)  # /usr/include/nfc/nfc-types.h: 155

nfc_dep_mode = enum_anon_21  # /usr/include/nfc/nfc-types.h: 155


# /usr/include/nfc/nfc-types.h: 179
class struct_anon_22(Structure):
    pass


struct_anon_22.__slots__ = [
    'abtNFCID3',
    'btDID',
    'btBS',
    'btBR',
    'btTO',
    'btPP',
    'abtGB',
    'szGB',
    'ndm',
]
struct_anon_22._fields_ = [
    ('abtNFCID3', c_uint8 * 10),
    ('btDID', c_uint8),
    ('btBS', c_uint8),
    ('btBR', c_uint8),
    ('btTO', c_uint8),
    ('btPP', c_uint8),
    ('abtGB', c_uint8 * 48),
    ('szGB', c_size_t),
    ('ndm', nfc_dep_mode),
]

nfc_dep_info = struct_anon_22  # /usr/include/nfc/nfc-types.h: 179


# /usr/include/nfc/nfc-types.h: 192
# class struct_anon_23(Structure):
#     pass
#
# struct_anon_23.__slots__ = [
#     'abtAtqa',
#     'btSak',
#     'szUidLen',
#     'abtUid',
#     'szAtsLen',
#     'abtAts',
# ]
# struct_anon_23._fields_ = [
class nfc_iso14443a_info(Structure):
    _pack_ = 1
    _fields_ = [
        # ('abtAtqa', c_uint8 * 2),
        # ('btSak', c_uint8),
        # ('szUidLen', c_size_t),
        # ('abtUid', ctypes.c_void_p),
        # ('szAtsLen', c_size_t),
        # ('abtAts', ctypes.c_void_p),
        # ('abtAtqa', c_uint8 * 2),
        # ('btSak', c_uint8),
        # ('szUidLen', c_size_t),
        # ('abtUid', c_uint8 * 10),
        # ('szAtsLen', c_size_t),
        # ('abtAts', c_uint8 * 254),
        ('abtAtqa', c_ubyte * 2),
        ('btSak', c_ubyte),
        ('szUidLen', c_size_t),
        ('abtUid', c_ubyte * 10),
        ('szAtsLen', c_size_t),
        ('abtAts', c_ubyte * 254),
    ]


# nfc_iso14443a_info = struct_anon_23 # /usr/include/nfc/nfc-types.h: 192

# /usr/include/nfc/nfc-types.h: 204
class struct_anon_24(Structure):
    pass


struct_anon_24.__slots__ = [
    'szLen',
    'btResCode',
    'abtId',
    'abtPad',
    'abtSysCode',
]
struct_anon_24._fields_ = [
    ('szLen', c_size_t),
    ('btResCode', c_uint8),
    ('abtId', c_uint8 * 8),
    ('abtPad', c_uint8 * 8),
    ('abtSysCode', c_uint8 * 2),
]

nfc_felica_info = struct_anon_24  # /usr/include/nfc/nfc-types.h: 204


# /usr/include/nfc/nfc-types.h: 219
class struct_anon_25(Structure):
    pass


struct_anon_25.__slots__ = [
    'abtPupi',
    'abtApplicationData',
    'abtProtocolInfo',
    'ui8CardIdentifier',
]
struct_anon_25._fields_ = [
    ('abtPupi', c_uint8 * 4),
    ('abtApplicationData', c_uint8 * 4),
    ('abtProtocolInfo', c_uint8 * 3),
    ('ui8CardIdentifier', c_uint8),
]

nfc_iso14443b_info = struct_anon_25  # /usr/include/nfc/nfc-types.h: 219


# /usr/include/nfc/nfc-types.h: 235
class struct_anon_26(Structure):
    pass


struct_anon_26.__slots__ = [
    'abtDIV',
    'btVerLog',
    'btConfig',
    'szAtrLen',
    'abtAtr',
]
struct_anon_26._fields_ = [
    ('abtDIV', c_uint8 * 4),
    ('btVerLog', c_uint8),
    ('btConfig', c_uint8),
    ('szAtrLen', c_size_t),
    ('abtAtr', c_uint8 * 33),
]

nfc_iso14443bi_info = struct_anon_26  # /usr/include/nfc/nfc-types.h: 235


# /usr/include/nfc/nfc-types.h: 243
class struct_anon_27(Structure):
    pass


struct_anon_27.__slots__ = [
    'abtUID',
]
struct_anon_27._fields_ = [
    ('abtUID', c_uint8 * 8),
]

nfc_iso14443b2sr_info = struct_anon_27  # /usr/include/nfc/nfc-types.h: 243


# /usr/include/nfc/nfc-types.h: 253
class struct_anon_28(Structure):
    pass


struct_anon_28.__slots__ = [
    'abtUID',
    'btProdCode',
    'btFabCode',
]
struct_anon_28._fields_ = [
    ('abtUID', c_uint8 * 4),
    ('btProdCode', c_uint8),
    ('btFabCode', c_uint8),
]

nfc_iso14443b2ct_info = struct_anon_28  # /usr/include/nfc/nfc-types.h: 253


# /usr/include/nfc/nfc-types.h: 262
class struct_anon_29(Structure):
    pass


struct_anon_29.__slots__ = [
    'btSensRes',
    'btId',
]
struct_anon_29._fields_ = [
    ('btSensRes', c_uint8 * 2),
    ('btId', c_uint8 * 4),
]

nfc_jewel_info = struct_anon_29  # /usr/include/nfc/nfc-types.h: 262


# /usr/include/nfc/nfc-types.h: 277
# class union_anon_30(Union):
#     pass
#
# union_anon_30.__slots__ = [
#     'nai',
#     'nfi',
#     'nbi',
#     'nii',
#     'nsi',
#     'nci',
#     'nji',
#     'ndi',
# ]
# union_anon_30._fields_ = [
#     ('nai', nfc_iso14443a_info),
#     ('nfi', nfc_felica_info),
#     ('nbi', nfc_iso14443b_info),
#     ('nii', nfc_iso14443bi_info),
#     ('nsi', nfc_iso14443b2sr_info),
#     ('nci', nfc_iso14443b2ct_info),
#     ('nji', nfc_jewel_info),
#     ('ndi', nfc_dep_info),
# ]
#
# nfc_target_info = union_anon_30 # /usr/include/nfc/nfc-types.h: 277
class nfc_target_info(ctypes.Union):
    _pack_ = 1
    # __slots__ = [
    #     'nai',
    #     'nfi',
    #     'nbi',
    #     'nii',
    #     'nsi',
    #     'nci',
    #     'nji',
    #     'ndi',]
    _fields_ = [
        ('nai', nfc_iso14443a_info),
        ('nfi', nfc_felica_info),
        ('nbi', nfc_iso14443b_info),
        ('nii', nfc_iso14443bi_info),
        ('nsi', nfc_iso14443b2sr_info),
        ('nci', nfc_iso14443b2ct_info),
        ('nji', nfc_jewel_info),
        ('ndi', nfc_dep_info), ]


enum_anon_31 = c_int  # /usr/include/nfc/nfc-types.h: 289

NBR_UNDEFINED = 0  # /usr/include/nfc/nfc-types.h: 289

NBR_106 = (NBR_UNDEFINED + 1)  # /usr/include/nfc/nfc-types.h: 289

NBR_212 = (NBR_106 + 1)  # /usr/include/nfc/nfc-types.h: 289

NBR_424 = (NBR_212 + 1)  # /usr/include/nfc/nfc-types.h: 289

NBR_847 = (NBR_424 + 1)  # /usr/include/nfc/nfc-types.h: 289

nfc_baud_rate = enum_anon_31  # /usr/include/nfc/nfc-types.h: 289

enum_anon_32 = c_int  # /usr/include/nfc/nfc-types.h: 304

NMT_ISO14443A = 1  # /usr/include/nfc/nfc-types.h: 304

NMT_JEWEL = (NMT_ISO14443A + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_ISO14443B = (NMT_JEWEL + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_ISO14443BI = (NMT_ISO14443B + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_ISO14443B2SR = (NMT_ISO14443BI + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_ISO14443B2CT = (NMT_ISO14443B2SR + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_FELICA = (NMT_ISO14443B2CT + 1)  # /usr/include/nfc/nfc-types.h: 304

NMT_DEP = (NMT_FELICA + 1)  # /usr/include/nfc/nfc-types.h: 304

nfc_modulation_type = enum_anon_32  # /usr/include/nfc/nfc-types.h: 304

enum_anon_33 = c_int  # /usr/include/nfc/nfc-types.h: 313

N_TARGET = 0  # /usr/include/nfc/nfc-types.h: 313

N_INITIATOR = (N_TARGET + 1)  # /usr/include/nfc/nfc-types.h: 313

nfc_mode = enum_anon_33  # /usr/include/nfc/nfc-types.h: 313


# /usr/include/nfc/nfc-types.h: 322
# class struct_anon_34(Structure):
#     pass
#
# struct_anon_34.__slots__ = [
#     'nmt',
#     'nbr',
# ]
# struct_anon_34._fields_ = [
#     ('nmt', nfc_modulation_type),
#     ('nbr', nfc_baud_rate),
# ]
#
# nfc_modulation = struct_anon_34 # /usr/include/nfc/nfc-types.h: 322
class nfc_modulation(ctypes.Structure):
    _pack_ = 1
    # __slots__ = [
    #     'nmt',
    #     'nbr',]
    _fields_ = [
        ('nmt', nfc_modulation_type),
        ('nbr', nfc_baud_rate), ]


# # /usr/include/nfc/nfc-types.h: 331
# class struct_anon_35(Structure):
#     pass
#
# struct_anon_35.__slots__ = [
#     'nti',
#     'nm',
# ]
# struct_anon_35._fields_ = [
#     ('nti', nfc_target_info),
#     ('nm', nfc_modulation),
# ]
#
# nfc_target = struct_anon_35 # /usr/include/nfc/nfc-types.h: 331

class nfc_target(ctypes.Structure):
    _pack_ = 1
    # __slots__ = ['nti',
    #             'nm',
    #              ]
    _fields_ = [('nti', nfc_target_info),
                ('nm', nfc_modulation),
                ]


# /usr/include/nfc/nfc.h: 86
if hasattr(_libs['nfc'], 'nfc_init'):
    nfc_init = _libs['nfc'].nfc_init
    nfc_init.argtypes = [POINTER(POINTER(nfc_context))]
    nfc_init.restype = None

# /usr/include/nfc/nfc.h: 87
if hasattr(_libs['nfc'], 'nfc_exit'):
    nfc_exit = _libs['nfc'].nfc_exit
    nfc_exit.argtypes = [POINTER(nfc_context)]
    nfc_exit.restype = None

# /usr/include/nfc/nfc.h: 88
if hasattr(_libs['nfc'], 'nfc_register_driver'):
    nfc_register_driver = _libs['nfc'].nfc_register_driver
    nfc_register_driver.argtypes = [POINTER(nfc_driver)]
    nfc_register_driver.restype = c_int

# /usr/include/nfc/nfc.h: 91
if hasattr(_libs['nfc'], 'nfc_open'):
    nfc_open = _libs['nfc'].nfc_open
    # nfc_open.argtypes = [POINTER(nfc_context), nfc_connstring]
    nfc_open.argtypes = [POINTER(nfc_context), ctypes.c_void_p]
    nfc_open.restype = POINTER(nfc_device)

# /usr/include/nfc/nfc.h: 92
if hasattr(_libs['nfc'], 'nfc_close'):
    nfc_close = _libs['nfc'].nfc_close
    nfc_close.argtypes = [POINTER(nfc_device)]
    nfc_close.restype = None

# /usr/include/nfc/nfc.h: 93
if hasattr(_libs['nfc'], 'nfc_abort_command'):
    nfc_abort_command = _libs['nfc'].nfc_abort_command
    nfc_abort_command.argtypes = [POINTER(nfc_device)]
    nfc_abort_command.restype = c_int

# /usr/include/nfc/nfc.h: 94
if hasattr(_libs['nfc'], 'nfc_list_devices'):
    nfc_list_devices = _libs['nfc'].nfc_list_devices
    # nfc_list_devices.argtypes = [POINTER(nfc_context), POINTER(nfc_connstring), c_size_t]
    nfc_list_devices.argtypes = [POINTER(nfc_context), ctypes.c_void_p, c_size_t]
    nfc_list_devices.restype = c_size_t

# /usr/include/nfc/nfc.h: 95
if hasattr(_libs['nfc'], 'nfc_idle'):
    nfc_idle = _libs['nfc'].nfc_idle
    nfc_idle.argtypes = [POINTER(nfc_device)]
    nfc_idle.restype = c_int

# /usr/include/nfc/nfc.h: 98
if hasattr(_libs['nfc'], 'nfc_initiator_init'):
    nfc_initiator_init = _libs['nfc'].nfc_initiator_init
    nfc_initiator_init.argtypes = [POINTER(nfc_device)]
    nfc_initiator_init.restype = c_int

# /usr/include/nfc/nfc.h: 99
if hasattr(_libs['nfc'], 'nfc_initiator_init_secure_element'):
    nfc_initiator_init_secure_element = _libs['nfc'].nfc_initiator_init_secure_element
    nfc_initiator_init_secure_element.argtypes = [POINTER(nfc_device)]
    nfc_initiator_init_secure_element.restype = c_int

# /usr/include/nfc/nfc.h: 100
if hasattr(_libs['nfc'], 'nfc_initiator_select_passive_target'):
    nfc_initiator_select_passive_target = _libs['nfc'].nfc_initiator_select_passive_target
    nfc_initiator_select_passive_target.argtypes = [POINTER(nfc_device), nfc_modulation, ctypes.c_void_p, c_size_t,
                                                    POINTER(nfc_target)]
    nfc_initiator_select_passive_target.restype = c_int

# /usr/include/nfc/nfc.h: 101
if hasattr(_libs['nfc'], 'nfc_initiator_list_passive_targets'):
    nfc_initiator_list_passive_targets = _libs['nfc'].nfc_initiator_list_passive_targets
    # nfc_initiator_list_passive_targets.argtypes = [POINTER(nfc_device), nfc_modulation, POINTER(nfc_target), c_size_t]
    nfc_initiator_list_passive_targets.argtypes = [POINTER(nfc_device), nfc_modulation, ctypes.c_void_p, c_size_t]
    nfc_initiator_list_passive_targets.restype = c_int

# /usr/include/nfc/nfc.h: 102
if hasattr(_libs['nfc'], 'nfc_initiator_poll_target'):
    nfc_initiator_poll_target = _libs['nfc'].nfc_initiator_poll_target
    nfc_initiator_poll_target.argtypes = [POINTER(nfc_device), POINTER(nfc_modulation), c_size_t, c_uint8, c_uint8,
                                          POINTER(nfc_target)]
    nfc_initiator_poll_target.restype = c_int

# /usr/include/nfc/nfc.h: 103
if hasattr(_libs['nfc'], 'nfc_initiator_select_dep_target'):
    nfc_initiator_select_dep_target = _libs['nfc'].nfc_initiator_select_dep_target
    nfc_initiator_select_dep_target.argtypes = [POINTER(nfc_device), nfc_dep_mode, nfc_baud_rate, POINTER(nfc_dep_info),
                                                POINTER(nfc_target), c_int]
    nfc_initiator_select_dep_target.restype = c_int

# /usr/include/nfc/nfc.h: 104
if hasattr(_libs['nfc'], 'nfc_initiator_poll_dep_target'):
    nfc_initiator_poll_dep_target = _libs['nfc'].nfc_initiator_poll_dep_target
    nfc_initiator_poll_dep_target.argtypes = [POINTER(nfc_device), nfc_dep_mode, nfc_baud_rate, POINTER(nfc_dep_info),
                                              POINTER(nfc_target), c_int]
    nfc_initiator_poll_dep_target.restype = c_int

# /usr/include/nfc/nfc.h: 105
if hasattr(_libs['nfc'], 'nfc_initiator_deselect_target'):
    nfc_initiator_deselect_target = _libs['nfc'].nfc_initiator_deselect_target
    nfc_initiator_deselect_target.argtypes = [POINTER(nfc_device)]
    nfc_initiator_deselect_target.restype = c_int

# /usr/include/nfc/nfc.h: 106
if hasattr(_libs['nfc'], 'nfc_initiator_transceive_bytes'):
    nfc_initiator_transceive_bytes = _libs['nfc'].nfc_initiator_transceive_bytes
    nfc_initiator_transceive_bytes.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, ctypes.c_void_p,
                                               c_size_t, c_int]
    # nfc_initiator_transceive_bytes.argtypes = [POINTER(nfc_device), POINTER(c_uint8), c_size_t, POINTER(c_uint8), c_size_t, c_int]
    nfc_initiator_transceive_bytes.restype = c_int

# /usr/include/nfc/nfc.h: 107
if hasattr(_libs['nfc'], 'nfc_initiator_transceive_bits'):
    nfc_initiator_transceive_bits = _libs['nfc'].nfc_initiator_transceive_bits
    nfc_initiator_transceive_bits.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, ctypes.c_void_p,
                                              ctypes.c_void_p, c_size_t, ctypes.c_void_p]
    nfc_initiator_transceive_bits.restype = c_int

# /usr/include/nfc/nfc.h: 108
if hasattr(_libs['nfc'], 'nfc_initiator_transceive_bytes_timed'):
    nfc_initiator_transceive_bytes_timed = _libs['nfc'].nfc_initiator_transceive_bytes_timed
    nfc_initiator_transceive_bytes_timed.argtypes = [POINTER(nfc_device), POINTER(c_uint8), c_size_t, POINTER(c_uint8),
                                                     c_size_t, POINTER(c_uint32)]
    nfc_initiator_transceive_bytes_timed.restype = c_int

# /usr/include/nfc/nfc.h: 109
if hasattr(_libs['nfc'], 'nfc_initiator_transceive_bits_timed'):
    nfc_initiator_transceive_bits_timed = _libs['nfc'].nfc_initiator_transceive_bits_timed
    nfc_initiator_transceive_bits_timed.argtypes = [POINTER(nfc_device), POINTER(c_uint8), c_size_t, POINTER(c_uint8),
                                                    POINTER(c_uint8), c_size_t, POINTER(c_uint8), POINTER(c_uint32)]
    nfc_initiator_transceive_bits_timed.restype = c_int

# /usr/include/nfc/nfc.h: 110
if hasattr(_libs['nfc'], 'nfc_initiator_target_is_present'):
    nfc_initiator_target_is_present = _libs['nfc'].nfc_initiator_target_is_present
    nfc_initiator_target_is_present.argtypes = [POINTER(nfc_device), POINTER(nfc_target)]
    nfc_initiator_target_is_present.restype = c_int

# /usr/include/nfc/nfc.h: 113
if hasattr(_libs['nfc'], 'nfc_target_init'):
    nfc_target_init = _libs['nfc'].nfc_target_init
    # nfc_target_init.argtypes = [POINTER(nfc_device), POINTER(nfc_target), POINTER(c_uint8), POINTER(c_size_t), c_int]
    nfc_target_init.argtypes = [POINTER(nfc_device), POINTER(nfc_target), ctypes.c_void_p, POINTER(c_size_t), c_int]
    nfc_target_init.restype = c_int

# /usr/include/nfc/nfc.h: 114
if hasattr(_libs['nfc'], 'nfc_target_send_bytes'):
    nfc_target_send_bytes = _libs['nfc'].nfc_target_send_bytes
    nfc_target_send_bytes.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, c_int]
    nfc_target_send_bytes.restype = c_int

# /usr/include/nfc/nfc.h: 115
if hasattr(_libs['nfc'], 'nfc_target_receive_bytes'):
    nfc_target_receive_bytes = _libs['nfc'].nfc_target_receive_bytes
    # nfc_target_receive_bytes.argtypes = [POINTER(nfc_device), POINTER(c_uint8), c_size_t, c_int]
    nfc_target_receive_bytes.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, c_int]
    nfc_target_receive_bytes.restype = c_int

# /usr/include/nfc/nfc.h: 116
if hasattr(_libs['nfc'], 'nfc_target_send_bits'):
    nfc_target_send_bits = _libs['nfc'].nfc_target_send_bits
    nfc_target_send_bits.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, ctypes.c_void_p]
    nfc_target_send_bits.restype = c_int

# /usr/include/nfc/nfc.h: 117
if hasattr(_libs['nfc'], 'nfc_target_receive_bits'):
    nfc_target_receive_bits = _libs['nfc'].nfc_target_receive_bits
    nfc_target_receive_bits.argtypes = [POINTER(nfc_device), ctypes.c_void_p, c_size_t, ctypes.c_void_p]
    nfc_target_receive_bits.restype = c_int

# /usr/include/nfc/nfc.h: 120
if hasattr(_libs['nfc'], 'nfc_strerror'):
    nfc_strerror = _libs['nfc'].nfc_strerror
    nfc_strerror.argtypes = [POINTER(nfc_device)]
    nfc_strerror.restype = c_char_p

# /usr/include/nfc/nfc.h: 121
if hasattr(_libs['nfc'], 'nfc_strerror_r'):
    nfc_strerror_r = _libs['nfc'].nfc_strerror_r
    nfc_strerror_r.argtypes = [POINTER(nfc_device), String, c_size_t]
    nfc_strerror_r.restype = c_int

# /usr/include/nfc/nfc.h: 122
if hasattr(_libs['nfc'], 'nfc_perror'):
    nfc_perror = _libs['nfc'].nfc_perror
    nfc_perror.argtypes = [POINTER(nfc_device), String]
    nfc_perror.restype = None

# /usr/include/nfc/nfc.h: 123
if hasattr(_libs['nfc'], 'nfc_device_get_last_error'):
    nfc_device_get_last_error = _libs['nfc'].nfc_device_get_last_error
    nfc_device_get_last_error.argtypes = [POINTER(nfc_device)]
    nfc_device_get_last_error.restype = c_int

# /usr/include/nfc/nfc.h: 126
if hasattr(_libs['nfc'], 'nfc_device_get_name'):
    nfc_device_get_name = _libs['nfc'].nfc_device_get_name
    nfc_device_get_name.argtypes = [POINTER(nfc_device)]
    nfc_device_get_name.restype = c_char_p

# /usr/include/nfc/nfc.h: 127
if hasattr(_libs['nfc'], 'nfc_device_get_connstring'):
    nfc_device_get_connstring = _libs['nfc'].nfc_device_get_connstring
    nfc_device_get_connstring.argtypes = [POINTER(nfc_device)]
    nfc_device_get_connstring.restype = c_char_p

# /usr/include/nfc/nfc.h: 128
if hasattr(_libs['nfc'], 'nfc_device_get_supported_modulation'):
    nfc_device_get_supported_modulation = _libs['nfc'].nfc_device_get_supported_modulation
    nfc_device_get_supported_modulation.argtypes = [POINTER(nfc_device), nfc_mode,
                                                    POINTER(POINTER(nfc_modulation_type))]
    nfc_device_get_supported_modulation.restype = c_int

# /usr/include/nfc/nfc.h: 129
if hasattr(_libs['nfc'], 'nfc_device_get_supported_baud_rate'):
    nfc_device_get_supported_baud_rate = _libs['nfc'].nfc_device_get_supported_baud_rate
    nfc_device_get_supported_baud_rate.argtypes = [POINTER(nfc_device), nfc_modulation_type,
                                                   POINTER(POINTER(nfc_baud_rate))]
    nfc_device_get_supported_baud_rate.restype = c_int

# /usr/include/nfc/nfc.h: 132
if hasattr(_libs['nfc'], 'nfc_device_set_property_int'):
    nfc_device_set_property_int = _libs['nfc'].nfc_device_set_property_int
    nfc_device_set_property_int.argtypes = [POINTER(nfc_device), nfc_property, c_int]
    nfc_device_set_property_int.restype = c_int

# /usr/include/nfc/nfc.h: 133
if hasattr(_libs['nfc'], 'nfc_device_set_property_bool'):
    nfc_device_set_property_bool = _libs['nfc'].nfc_device_set_property_bool
    nfc_device_set_property_bool.argtypes = [POINTER(nfc_device), nfc_property, c_bool]
    nfc_device_set_property_bool.restype = c_int

# /usr/include/nfc/nfc.h: 136
if hasattr(_libs['nfc'], 'iso14443a_crc'):
    iso14443a_crc = _libs['nfc'].iso14443a_crc
    iso14443a_crc.argtypes = [POINTER(c_uint8), c_size_t, POINTER(c_uint8)]
    iso14443a_crc.restype = None

# /usr/include/nfc/nfc.h: 137
if hasattr(_libs['nfc'], 'iso14443a_crc_append'):
    iso14443a_crc_append = _libs['nfc'].iso14443a_crc_append
    iso14443a_crc_append.argtypes = [POINTER(c_uint8), c_size_t]
    iso14443a_crc_append.restype = None

# /usr/include/nfc/nfc.h: 138
for _lib in _libs.itervalues():
    if not hasattr(_lib, 'iso14443b_crc'):
        continue
    iso14443b_crc = _lib.iso14443b_crc
    iso14443b_crc.argtypes = [POINTER(c_uint8), c_size_t, POINTER(c_uint8)]
    iso14443b_crc.restype = None
    break

# /usr/include/nfc/nfc.h: 139
for _lib in _libs.itervalues():
    if not hasattr(_lib, 'iso14443b_crc_append'):
        continue
    iso14443b_crc_append = _lib.iso14443b_crc_append
    iso14443b_crc_append.argtypes = [POINTER(c_uint8), c_size_t]
    iso14443b_crc_append.restype = None
    break

# /usr/include/nfc/nfc.h: 140
if hasattr(_libs['nfc'], 'iso14443a_locate_historical_bytes'):
    iso14443a_locate_historical_bytes = _libs['nfc'].iso14443a_locate_historical_bytes
    iso14443a_locate_historical_bytes.argtypes = [POINTER(c_uint8), c_size_t, POINTER(c_size_t)]
    iso14443a_locate_historical_bytes.restype = POINTER(c_uint8)

# /usr/include/nfc/nfc.h: 142
if hasattr(_libs['nfc'], 'nfc_free'):
    nfc_free = _libs['nfc'].nfc_free
    nfc_free.argtypes = [POINTER(None)]
    nfc_free.restype = None

# /usr/include/nfc/nfc.h: 143
if hasattr(_libs['nfc'], 'nfc_version'):
    nfc_version = _libs['nfc'].nfc_version
    nfc_version.argtypes = []
    nfc_version.restype = c_char_p

# /usr/include/nfc/nfc.h: 144
if hasattr(_libs['nfc'], 'nfc_device_get_information_about'):
    nfc_device_get_information_about = _libs['nfc'].nfc_device_get_information_about
    nfc_device_get_information_about.argtypes = [POINTER(nfc_device), POINTER(POINTER(c_char))]
    nfc_device_get_information_about.restype = c_int

# /usr/include/nfc/nfc.h: 147
if hasattr(_libs['nfc'], 'str_nfc_modulation_type'):
    str_nfc_modulation_type = _libs['nfc'].str_nfc_modulation_type
    str_nfc_modulation_type.argtypes = [nfc_modulation_type]
    str_nfc_modulation_type.restype = c_char_p

# /usr/include/nfc/nfc.h: 148
if hasattr(_libs['nfc'], 'str_nfc_baud_rate'):
    str_nfc_baud_rate = _libs['nfc'].str_nfc_baud_rate
    str_nfc_baud_rate.argtypes = [nfc_baud_rate]
    str_nfc_baud_rate.restype = c_char_p

# /usr/include/nfc/nfc.h: 149
if hasattr(_libs['nfc'], 'str_nfc_target'):
    str_nfc_target = _libs['nfc'].str_nfc_target
    str_nfc_target.argtypes = [POINTER(POINTER(c_char)), POINTER(nfc_target), c_bool]
    str_nfc_target.restype = c_int


# /home/pi/ctypesgen-master/_nfc/nfc-emulation.h: 49
class struct_nfc_emulator(Structure):
    pass


# /home/pi/ctypesgen-master/_nfc/nfc-emulation.h: 59
class struct_nfc_emulation_state_machine(Structure):
    pass


struct_nfc_emulator.__slots__ = [
    'target',
    'state_machine',
    'user_data',
]
struct_nfc_emulator._fields_ = [
    ('target', POINTER(nfc_target)),
    ('state_machine', POINTER(struct_nfc_emulation_state_machine)),
    ('user_data', POINTER(None)),
]

struct_nfc_emulation_state_machine.__slots__ = [
    'io',
    'data',
]
struct_nfc_emulation_state_machine._fields_ = [
    ('io',
     CFUNCTYPE(UNCHECKED(c_int), POINTER(struct_nfc_emulator), POINTER(c_uint8), c_size_t, POINTER(c_uint8), c_size_t)),
    ('data', POINTER(None)),
]

# /home/pi/ctypesgen-master/_nfc/nfc-emulation.h: 64
if hasattr(_libs['nfc'], 'nfc_emulate_target'):
    nfc_emulate_target = _libs['nfc'].nfc_emulate_target
    nfc_emulate_target.argtypes = [POINTER(nfc_device), POINTER(struct_nfc_emulator), c_int]
    nfc_emulate_target.restype = c_int

# /usr/include/nfc/nfc-types.h: 41
try:
    NFC_BUFSIZE_CONNSTRING = 1024
except:
    pass

# /usr/include/nfc/nfc.h: 72
try:
    __has_attribute_nonnull = 1
except:
    pass

NFC_SUCCESS = 0
NFC_EIO = (-1)
NFC_EINVARG = (-2)
NFC_EDEVNOTSUPP = (-3)
NFC_ENOTSUCHDEV = (-4)
NFC_EOVFLOW = (-5)
NFC_ETIMEOUT = (-6)
NFC_EOPABORTED = (-7)
NFC_ENOTIMPL = (-8)
NFC_ETGRELEASED = (-10)
NFC_ERFTRANS = (-20)
NFC_EMFCAUTHFAIL = (-30)
NFC_ESOFT = (-80)
NFC_ECHIP = (-90)

sErrorMessages = {
    # /* Chip-level errors (internal errors, RF errors, etc.) */
    NFC_SUCCESS: "Success",
    NFC_EIO: "Input / Output Error",
    NFC_EINVARG: "Invalid argument(s)",
    NFC_EDEVNOTSUPP: "Not Supported by Device",
    NFC_ENOTSUCHDEV: "No Such Device",
    NFC_EOVFLOW: "Buffer Overflow",
    NFC_ETIMEOUT: "Timeout",
    NFC_EOPABORTED: "Operation Aborted",
    NFC_ENOTIMPL: "Not (yet) Implemented",
    NFC_ETGRELEASED: "Target Released",
    NFC_EMFCAUTHFAIL: "Mifare Authentication Failed",
    NFC_ERFTRANS: "RF Transmission Error",
    NFC_ECHIP: "Device's Internal Chip Error",
}

nfc_context = struct_nfc_context  # /usr/include/nfc/nfc-types.h: 47

nfc_device = struct_nfc_device  # /usr/include/nfc/nfc-types.h: 52

nfc_driver = struct_nfc_driver  # /usr/include/nfc/nfc-types.h: 57

nfc_emulator = struct_nfc_emulator  # /home/pi/ctypesgen-master/_nfc/nfc-emulation.h: 49

nfc_emulation_state_machine = struct_nfc_emulation_state_machine  # /home/pi/ctypesgen-master/_nfc/nfc-emulation.h: 59

# No inserted files

lib_nfc = _libs['nfc']