#!/usr/bin/env python # # Copyright (C) 2014 Analog Devices, Inc. # Author: Paul Cercueil # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. from ctypes import Structure, c_char_p, c_uint, c_int, c_size_t, \ c_ssize_t, c_char, c_void_p, c_bool, create_string_buffer, \ POINTER as _POINTER, CDLL as _cdll, memmove as _memmove, byref as _byref from os import strerror as _strerror from platform import system as _system import weakref if 'Windows' in _system(): from ctypes import get_last_error else: from ctypes import get_errno def _checkNull(result, func, arguments): if result: return result else: err = get_last_error() if 'Windows' in _system() else get_errno() raise OSError(err, _strerror(err)) def _checkNegative(result, func, arguments): if result >= 0: return result else: raise OSError(-result, _strerror(-result)) class _ScanContext(Structure): pass class _ContextInfo(Structure): pass class _Context(Structure): pass class _Device(Structure): pass class _Channel(Structure): pass class _Buffer(Structure): pass _ScanContextPtr = _POINTER(_ScanContext) _ContextInfoPtr = _POINTER(_ContextInfo) _ContextPtr = _POINTER(_Context) _DevicePtr = _POINTER(_Device) _ChannelPtr = _POINTER(_Channel) _BufferPtr = _POINTER(_Buffer) _lib = _cdll('libiio.dll' if 'Windows' in _system() else 'libiio.so.0', use_errno = True, use_last_error = True) _get_backends_count = _lib.iio_get_backends_count _get_backends_count.restype = c_uint _get_backend = _lib.iio_get_backend _get_backend.argtypes = (c_uint, ) _get_backend.restype = c_char_p _get_backend.errcheck = _checkNull _create_scan_context = _lib.iio_create_scan_context _create_scan_context.argtypes = (c_char_p, c_uint) _create_scan_context.restype = _ScanContextPtr _create_scan_context.errcheck = _checkNull _destroy_scan_context = _lib.iio_scan_context_destroy _destroy_scan_context.argtypes = (_ScanContextPtr, ) _get_context_info_list = _lib.iio_scan_context_get_info_list _get_context_info_list.argtypes = (_ScanContextPtr, _POINTER(_POINTER(_ContextInfoPtr))) _get_context_info_list.restype = c_ssize_t _get_context_info_list.errcheck = _checkNegative _context_info_list_free = _lib.iio_context_info_list_free _context_info_list_free.argtypes = (_POINTER(_ContextInfoPtr), ) _context_info_get_description = _lib.iio_context_info_get_description _context_info_get_description.argtypes = (_ContextInfoPtr, ) _context_info_get_description.restype = c_char_p _context_info_get_uri = _lib.iio_context_info_get_uri _context_info_get_uri.argtypes = (_ContextInfoPtr, ) _context_info_get_uri.restype = c_char_p _new_local = _lib.iio_create_local_context _new_local.restype = _ContextPtr _new_local.errcheck = _checkNull _new_xml = _lib.iio_create_xml_context _new_xml.restype = _ContextPtr _new_xml.argtypes = (c_char_p, ) _new_xml.errcheck = _checkNull _new_network = _lib.iio_create_network_context _new_network.restype = _ContextPtr _new_network.argtypes = (c_char_p, ) _new_network.errcheck = _checkNull _new_default = _lib.iio_create_default_context _new_default.restype = _ContextPtr _new_default.errcheck = _checkNull _new_uri = _lib.iio_create_context_from_uri _new_uri.restype = _ContextPtr _new_uri.errcheck = _checkNull _destroy = _lib.iio_context_destroy _destroy.argtypes = (_ContextPtr, ) _get_name = _lib.iio_context_get_name _get_name.restype = c_char_p _get_name.argtypes = (_ContextPtr, ) _get_name.errcheck = _checkNull _get_description = _lib.iio_context_get_description _get_description.restype = c_char_p _get_description.argtypes = (_ContextPtr, ) _get_xml = _lib.iio_context_get_xml _get_xml.restype = c_char_p _get_xml.argtypes = (_ContextPtr, ) _get_library_version = _lib.iio_library_get_version _get_library_version.argtypes = (_POINTER(c_uint), _POINTER(c_uint), c_char_p, ) _get_version = _lib.iio_context_get_version _get_version.restype = c_int _get_version.argtypes = (_ContextPtr, _POINTER(c_uint), _POINTER(c_uint), c_char_p, ) _get_version.errcheck = _checkNegative _get_attrs_count = _lib.iio_context_get_attrs_count _get_attrs_count.restype = c_uint _get_attrs_count.argtypes = (_ContextPtr, ) _get_attr = _lib.iio_context_get_attr _get_attr.restype = c_int _get_attr.argtypes = (_ContextPtr, c_uint, _POINTER(c_char_p), _POINTER(c_char_p)) _get_attr.errcheck = _checkNegative _devices_count = _lib.iio_context_get_devices_count _devices_count.restype = c_uint _devices_count.argtypes = (_ContextPtr, ) _get_device = _lib.iio_context_get_device _get_device.restype = _DevicePtr _get_device.argtypes = (_ContextPtr, c_uint) _get_device.errcheck = _checkNull _set_timeout = _lib.iio_context_set_timeout _set_timeout.restype = c_int _set_timeout.argtypes = (_ContextPtr, c_uint, ) _set_timeout.errcheck = _checkNegative _clone = _lib.iio_context_clone _clone.restype = _ContextPtr _clone.argtypes = (_ContextPtr, ) _clone.errcheck = _checkNull _d_get_id = _lib.iio_device_get_id _d_get_id.restype = c_char_p _d_get_id.argtypes = (_DevicePtr, ) _d_get_id.errcheck = _checkNull _d_get_name = _lib.iio_device_get_name _d_get_name.restype = c_char_p _d_get_name.argtypes = (_DevicePtr, ) _d_attr_count = _lib.iio_device_get_attrs_count _d_attr_count.restype = c_uint _d_attr_count.argtypes = (_DevicePtr, ) _d_get_attr = _lib.iio_device_get_attr _d_get_attr.restype = c_char_p _d_get_attr.argtypes = (_DevicePtr, ) _d_get_attr.errcheck = _checkNull _d_read_attr = _lib.iio_device_attr_read _d_read_attr.restype = c_ssize_t _d_read_attr.argtypes = (_DevicePtr, c_char_p, c_char_p, c_size_t) _d_read_attr.errcheck = _checkNegative _d_write_attr = _lib.iio_device_attr_write _d_write_attr.restype = c_ssize_t _d_write_attr.argtypes = (_DevicePtr, c_char_p, c_char_p) _d_write_attr.errcheck = _checkNegative _d_debug_attr_count = _lib.iio_device_get_debug_attrs_count _d_debug_attr_count.restype = c_uint _d_debug_attr_count.argtypes = (_DevicePtr, ) _d_get_debug_attr = _lib.iio_device_get_debug_attr _d_get_debug_attr.restype = c_char_p _d_get_debug_attr.argtypes = (_DevicePtr, ) _d_get_debug_attr.errcheck = _checkNull _d_read_debug_attr = _lib.iio_device_debug_attr_read _d_read_debug_attr.restype = c_ssize_t _d_read_debug_attr.argtypes = (_DevicePtr, c_char_p, c_char_p, c_size_t) _d_read_debug_attr.errcheck = _checkNegative _d_write_debug_attr = _lib.iio_device_debug_attr_write _d_write_debug_attr.restype = c_ssize_t _d_write_debug_attr.argtypes = (_DevicePtr, c_char_p, c_char_p) _d_write_debug_attr.errcheck = _checkNegative _d_reg_write = _lib.iio_device_reg_write _d_reg_write.restype = c_int _d_reg_write.argtypes = (_DevicePtr, c_uint, c_uint) _d_reg_write.errcheck = _checkNegative _d_reg_read = _lib.iio_device_reg_read _d_reg_read.restype = c_int _d_reg_read.argtypes = (_DevicePtr, c_uint, _POINTER(c_uint)) _d_reg_read.errcheck = _checkNegative _channels_count = _lib.iio_device_get_channels_count _channels_count.restype = c_uint _channels_count.argtypes = (_DevicePtr, ) _get_channel = _lib.iio_device_get_channel _get_channel.restype = _ChannelPtr _get_channel.argtypes = (_DevicePtr, c_uint) _get_channel.errcheck = _checkNull _get_sample_size = _lib.iio_device_get_sample_size _get_sample_size.restype = c_int _get_sample_size.argtypes = (_DevicePtr, ) _get_sample_size.errcheck = _checkNegative _d_is_trigger = _lib.iio_device_is_trigger _d_is_trigger.restype = c_bool _d_is_trigger.argtypes = (_DevicePtr, ) _d_get_trigger = _lib.iio_device_get_trigger _d_get_trigger.restype = c_int _d_get_trigger.argtypes = (_DevicePtr, _DevicePtr, ) _d_get_trigger.errcheck = _checkNegative _d_set_trigger = _lib.iio_device_set_trigger _d_set_trigger.restype = c_int _d_set_trigger.argtypes = (_DevicePtr, _DevicePtr, ) _d_set_trigger.errcheck = _checkNegative _d_set_buffers_count = _lib.iio_device_set_kernel_buffers_count _d_set_buffers_count.restype = c_int _d_set_buffers_count.argtypes = (_DevicePtr, c_uint) _d_set_buffers_count.errcheck = _checkNegative _c_get_id = _lib.iio_channel_get_id _c_get_id.restype = c_char_p _c_get_id.argtypes = (_ChannelPtr, ) _c_get_id.errcheck = _checkNull _c_get_name = _lib.iio_channel_get_name _c_get_name.restype = c_char_p _c_get_name.argtypes = (_ChannelPtr, ) _c_is_output = _lib.iio_channel_is_output _c_is_output.restype = c_bool _c_is_output.argtypes = (_ChannelPtr, ) _c_is_scan_element = _lib.iio_channel_is_scan_element _c_is_scan_element.restype = c_bool _c_is_scan_element.argtypes = (_ChannelPtr, ) _c_attr_count = _lib.iio_channel_get_attrs_count _c_attr_count.restype = c_uint _c_attr_count.argtypes = (_ChannelPtr, ) _c_get_attr = _lib.iio_channel_get_attr _c_get_attr.restype = c_char_p _c_get_attr.argtypes = (_ChannelPtr, ) _c_get_attr.errcheck = _checkNull _c_get_filename = _lib.iio_channel_attr_get_filename _c_get_filename.restype = c_char_p _c_get_filename.argtypes = (_ChannelPtr, c_char_p, ) _c_get_filename.errcheck = _checkNull _c_read_attr = _lib.iio_channel_attr_read _c_read_attr.restype = c_ssize_t _c_read_attr.argtypes = (_ChannelPtr, c_char_p, c_char_p, c_size_t) _c_read_attr.errcheck = _checkNegative _c_write_attr = _lib.iio_channel_attr_write _c_write_attr.restype = c_ssize_t _c_write_attr.argtypes = (_ChannelPtr, c_char_p, c_char_p) _c_write_attr.errcheck = _checkNegative _c_enable = _lib.iio_channel_enable _c_enable.argtypes = (_ChannelPtr, ) _c_disable = _lib.iio_channel_disable _c_disable.argtypes = (_ChannelPtr, ) _c_is_enabled = _lib.iio_channel_is_enabled _c_is_enabled.restype = c_bool _c_is_enabled.argtypes = (_ChannelPtr, ) _c_read = _lib.iio_channel_read _c_read.restype = c_ssize_t _c_read.argtypes = (_ChannelPtr, _BufferPtr, c_void_p, c_size_t, ) _c_read_raw = _lib.iio_channel_read_raw _c_read_raw.restype = c_ssize_t _c_read_raw.argtypes = (_ChannelPtr, _BufferPtr, c_void_p, c_size_t, ) _c_write = _lib.iio_channel_write _c_write.restype = c_ssize_t _c_write.argtypes = (_ChannelPtr, _BufferPtr, c_void_p, c_size_t, ) _c_write_raw = _lib.iio_channel_write_raw _c_write_raw.restype = c_ssize_t _c_write_raw.argtypes = (_ChannelPtr, _BufferPtr, c_void_p, c_size_t, ) _create_buffer = _lib.iio_device_create_buffer _create_buffer.restype = _BufferPtr _create_buffer.argtypes = (_DevicePtr, c_size_t, c_bool, ) _create_buffer.errcheck = _checkNull _buffer_destroy = _lib.iio_buffer_destroy _buffer_destroy.argtypes = (_BufferPtr, ) _buffer_refill = _lib.iio_buffer_refill _buffer_refill.restype = c_ssize_t _buffer_refill.argtypes = (_BufferPtr, ) _buffer_refill.errcheck = _checkNegative _buffer_push_partial = _lib.iio_buffer_push_partial _buffer_push_partial.restype = c_ssize_t _buffer_push_partial.argtypes = (_BufferPtr, c_uint, ) _buffer_push_partial.errcheck = _checkNegative _buffer_start = _lib.iio_buffer_start _buffer_start.restype = c_void_p _buffer_start.argtypes = (_BufferPtr, ) _buffer_end = _lib.iio_buffer_end _buffer_end.restype = c_void_p _buffer_end.argtypes = (_BufferPtr, ) def _get_lib_version(): major = c_uint() minor = c_uint() buf = create_string_buffer(8) _get_library_version(_byref(major), _byref(minor), buf) return (major.value, minor.value, buf.value.decode('ascii') ) version = _get_lib_version() backends = [ _get_backend(x).decode('ascii') for x in range(0, _get_backends_count()) ] class _Attr(object): def __init__(self, name, filename = None): self._name = name self._name_ascii = name.encode('ascii') self._filename = name if filename is None else filename def __str__(self): return self._name name = property(lambda self: self._name, None, None, "The name of this attribute.\n\ttype=str") filename = property(lambda self: self._filename, None, None, "The filename in sysfs to which this attribute is bound.\n\ttype=str") value = property(lambda self: self.__read(), lambda self, x: self.__write(x), None, "Current value of this attribute.\n\ttype=str") class ChannelAttr(_Attr): """Represents an attribute of a channel.""" def __init__(self, channel, name): super(ChannelAttr, self).__init__(name, _c_get_filename(channel, name.encode('ascii')).decode('ascii')) self._channel = channel def _Attr__read(self): buf = create_string_buffer(1024) _c_read_attr(self._channel, self._name_ascii, buf, len(buf)) return buf.value.decode('ascii') def _Attr__write(self, value): _c_write_attr(self._channel, self._name_ascii, value.encode('ascii')) class DeviceAttr(_Attr): """Represents an attribute of an IIO device.""" def __init__(self, device, name): super(DeviceAttr, self).__init__(name) self._device = device def _Attr__read(self): buf = create_string_buffer(1024) _d_read_attr(self._device, self._name_ascii, buf, len(buf)) return buf.value.decode('ascii') def _Attr__write(self, value): _d_write_attr(self._device, self._name_ascii, value.encode('ascii')) class DeviceDebugAttr(DeviceAttr): """Represents a debug attribute of an IIO device.""" def __init__(self, device, name): super(DeviceDebugAttr, self).__init__(device, name) def _Attr__read(self): buf = create_string_buffer(1024) _d_read_debug_attr(self._device, self._name_ascii, buf, len(buf)) return buf.value.decode('ascii') def _Attr__write(self, value): _d_write_debug_attr(self._device, self._name_ascii, value.encode('ascii')) class Channel(object): def __init__(self, _channel): self._channel = _channel self._attrs = { name : ChannelAttr(_channel, name) for name in \ [_c_get_attr(_channel, x).decode('ascii') for x in range(0, _c_attr_count(_channel))] } self._id = _c_get_id(self._channel).decode('ascii') name_raw = _c_get_name(self._channel) self._name = name_raw.decode('ascii') if name_raw is not None else None self._output = _c_is_output(self._channel) self._scan_element = _c_is_scan_element(self._channel) def read(self, buf, raw = False): """ Extract the samples corresponding to this channel from the given iio.Buffer object. parameters: buf: type=iio.Buffer A valid instance of the iio.Buffer class raw: type=bool If set to True, the samples are not converted from their native format to their host format returns: type=bytearray An array containing the samples for this channel """ array = bytearray(buf._length) mytype = c_char * len(array) c_array = mytype.from_buffer(array) if raw: length = _c_read_raw(self._channel, buf._buffer, c_array, len(array)) else: length = _c_read(self._channel, buf._buffer, c_array, len(array)) return array[:length] def write(self, buf, array, raw = False): """ Write the specified array of samples corresponding to this channel into the given iio.Buffer object. parameters: buf: type=iio.Buffer A valid instance of the iio.Buffer class array: type=bytearray The array containing the samples to copy raw: type=bool If set to True, the samples are not converted from their host format to their native format returns: type=int The number of bytes written """ mytype = c_char * len(array) c_array = mytype.from_buffer(array) if raw: return _c_write_raw(self._channel, buf._buffer, c_array, len(array)) else: return _c_write(self._channel, buf._buffer, c_array, len(array)) id = property(lambda self: self._id, None, None, "An identifier of this channel.\n\tNote that it is possible that two channels have the same ID, if one is an input channel and the other is an output channel.\n\ttype=str") name = property(lambda self: self._name, None, None, "The name of this channel.\n\ttype=str") attrs = property(lambda self: self._attrs, None, None, "List of attributes for this channel.\n\ttype=dict of iio.ChannelAttr") output = property(lambda self: self._output, None, None, "Contains True if the channel is an output channel, False otherwise.\n\ttype=bool") scan_element = property(lambda self: self._scan_element, None, None, "Contains True if the channel is a scan element, False otherwise.\n\tIf a channel is a scan element, then it is possible to enable it and use it for I/O operations.\n\ttype=bool") enabled = property(lambda self: _c_is_enabled(self._channel), \ lambda self, x: _c_enable(self._channel) if x else _c_disable(self._channel), None, "Configured state of the channel\n\ttype=bool") class Buffer(object): """The class used for all I/O operations.""" def __init__(self, device, samples_count, cyclic = False): """ Initializes a new instance of the Buffer class. parameters: device: type=iio.Device The iio.Device object that represents the device where the I/O operations will be performed samples_count: type=int The size of the buffer, in samples circular: type=bool If set to True, the buffer is circular returns: type=iio.Buffer An new instance of this class """ try: self._buffer = _create_buffer(device._device, samples_count, cyclic) except: self._buffer = None raise self._length = samples_count * device.sample_size self._samples_count = samples_count self._ctx = device.ctx() # Holds a reference to the corresponding IIO Context. This ensures that # every iio.Buffer object is destroyed before its corresponding IIO Context. def __del__(self): if self._buffer is not None: _buffer_destroy(self._buffer) def __len__(self): """The size of this buffer, in bytes.""" return self._length def refill(self): """Fetch a new set of samples from the hardware.""" _buffer_refill(self._buffer) def push(self, samples_count = None): """ Submit the samples contained in this buffer to the hardware. parameters: samples_count: type=int The number of samples to submit, default = full buffer """ _buffer_push_partial(self._buffer, samples_count or self._samples_count) def read(self): """ Retrieve the samples contained inside the Buffer object. returns: type=bytearray An array containing the samples """ start = _buffer_start(self._buffer) end = _buffer_end(self._buffer) array = bytearray(end - start) mytype = c_char * len(array) c_array = mytype.from_buffer(array) _memmove(c_array, start, len(array)) return array def write(self, array): """ Copy the given array of samples inside the Buffer object. parameters: array: type=bytearray The array containing the samples to copy returns: type=int The number of bytes written into the buffer """ start = _buffer_start(self._buffer) end = _buffer_end(self._buffer) length = end - start if length > len(array): length = len(array) mytype = c_char * len(array) c_array = mytype.from_buffer(array) _memmove(start, c_array, length) return length class _DeviceOrTrigger(object): def __init__(self, _device): self._device = _device self._attrs = { name : DeviceAttr(_device, name) for name in \ [_d_get_attr(_device, x).decode('ascii') for x in range(0, _d_attr_count(_device))] } self._debug_attrs = { name: DeviceDebugAttr(_device, name) for name in \ [_d_get_debug_attr(_device, x).decode('ascii') for x in range(0, _d_debug_attr_count(_device))] } # TODO(pcercuei): Use a dictionary for the channels. chans = [ Channel(_get_channel(self._device, x)) for x in range(0, _channels_count(self._device)) ] self._channels = sorted(chans, key=lambda c: c.id) self._id = _d_get_id(self._device).decode('ascii') name_raw = _d_get_name(self._device) self._name = name_raw.decode('ascii') if name_raw is not None else None def reg_write(self, reg, value): """ Set a value to one register of this device. parameters: reg: type=int The register address value: type=int The value that will be used for this register """ _d_reg_write(self._device, reg, value) def reg_read(self, reg): """ Read the content of a register of this device. parameters: reg: type=int The register address returns: type=int The value of the register """ value = c_uint() _d_reg_read(self._device, reg, _byref(value)) return value.value def find_channel(self, name_or_id, is_output = False): """ Find a IIO channel by its name or ID. parameters: name_or_id: type=str The name or ID of the channel to find is_output: type=bool Set to True to search for an output channel returns: type=iio.Device or type=iio.Trigger The IIO Device """ return next((x for x in self.channels \ if name_or_id == x.name or name_or_id == x.id and \ x.output == is_output), None) def set_kernel_buffers_count(self, count): """ Set the number of kernel buffers to use with the specified device. parameters: count: type=int The number of kernel buffers """ return _d_set_buffers_count(self._device, count) @property def sample_size(self): """ Current sample size of this device. type: int The sample size varies each time channels get enabled or disabled.""" return _get_sample_size(self._device) id = property(lambda self: self._id, None, None, "An identifier of this device, only valid in this IIO context.\n\ttype=str") name = property(lambda self: self._name, None, None, "The name of this device.\n\ttype=str") attrs = property(lambda self: self._attrs, None, None, "List of attributes for this IIO device.\n\ttype=dict of iio.DeviceAttr") debug_attrs = property(lambda self: self._debug_attrs, None, None, "List of debug attributes for this IIO device.\n\ttype=dict of iio.DeviceDebugAttr") channels = property(lambda self: self._channels, None, None, "List of channels available with this IIO device.\n\ttype=list of iio.Channel objects") class Trigger(_DeviceOrTrigger): """Contains the representation of an IIO device that can act as a trigger.""" def __init__(self, _device): super(Trigger, self).__init__(_device) def _get_rate(self): return int(self._attrs['frequency'].value) def _set_rate(self, value): self._attrs['frequency'].value = str(value) frequency = property(_get_rate, _set_rate, None, "Configured frequency (in Hz) of this trigger\n\ttype=int") class Device(_DeviceOrTrigger): """Contains the representation of an IIO device.""" def __init__(self, ctx, _device): super(Device, self).__init__(_device) self.ctx = weakref.ref(ctx) def _set_trigger(self, trigger): _d_set_trigger(self._device, trigger._device if trigger else None) def _get_trigger(self): value = _Device() _d_get_trigger(self._device, _byref(value)) for dev in self.ctx()._devices: if value == dev._device: return dev return None trigger = property(_get_trigger, _set_trigger, None, \ "Contains the configured trigger for this IIO device.\n\ttype=iio.Trigger") class Context(object): """Contains the representation of an IIO context.""" def __init__(self, _context=None): """ Initializes a new instance of the Context class, using the local or the network backend of the IIO library. returns: type=iio.Context An new instance of this class This function will create a network context if the IIOD_REMOTE environment variable is set to the hostname where the IIOD server runs. If set to an empty string, the server will be discovered using ZeroConf. If the environment variable is not set, a local context will be created instead. """ self._context = None if(_context is None): self._context = _new_default() elif type(_context) is str or type(_context) is unicode: self._context = _new_uri(_context.encode('ascii')) else: self._context = _context self._attrs = {} for x in range(0, _get_attrs_count(self._context)): str1 = c_char_p() str2 = c_char_p() _get_attr(self._context, x, _byref(str1), _byref(str2)) self._attrs[str1.value.decode('ascii')] = str2.value.decode('ascii') # TODO(pcercuei): Use a dictionary for the devices. self._devices = [ Trigger(dev) if _d_is_trigger(dev) else Device(self, dev) for dev in \ [ _get_device(self._context, x) for x in range(0, _devices_count(self._context)) ]] self._name = _get_name(self._context).decode('ascii') self._description = _get_description(self._context).decode('ascii') self._xml = _get_xml(self._context).decode('ascii') major = c_uint() minor = c_uint() buf = create_string_buffer(8) _get_version(self._context, _byref(major), _byref(minor), buf) self._version = (major.value, minor.value, buf.value.decode('ascii') ) def __del__(self): if(self._context is not None): _destroy(self._context) def set_timeout(self, timeout): """ Set a timeout for I/O operations. parameters: timeout: type=int The timeout value, in milliseconds """ _set_timeout(self._context, timeout) def clone(self): """ Clone this instance. returns: type=iio.LocalContext An new instance of this class """ return Context(_clone(self._context)) def find_device(self, name_or_id): """ Find a IIO device by its name or ID. parameters: name_or_id: type=str The name or ID of the device to find returns: type=iio.Device or type=iio.Trigger The IIO Device """ return next((x for x in self.devices \ if name_or_id == x.name or name_or_id == x.id), None) name = property(lambda self: self._name, None, None, \ "Name of this IIO context.\n\ttype=str") description = property(lambda self: self._description, None, None, \ "Description of this IIO context.\n\ttype=str") xml = property(lambda self: self._xml, None, None, \ "XML representation of the current context.\n\ttype=str") version = property(lambda self: self._version, None, None, \ "Version of the backend.\n\ttype=(int, int, str)") attrs = property(lambda self: self._attrs, None, None, \ "List of context-specific attributes\n\ttype=dict of str objects") devices = property(lambda self: self._devices, None, None, \ "List of devices contained in this context.\n\ttype=list of iio.Device and iio.Trigger objects") class LocalContext(Context): def __init__(self): """ Initializes a new instance of the Context class, using the local backend of the IIO library. returns: type=iio.LocalContext An new instance of this class """ ctx = _new_local() super(LocalContext, self).__init__(ctx) class XMLContext(Context): def __init__(self, xmlfile): """ Initializes a new instance of the Context class, using the XML backend of the IIO library. parameters: xmlfile: type=str Filename of the XML file to build the context from returns: type=iio.XMLContext An new instance of this class """ ctx = _new_xml(xmlfile.encode('ascii')) super(XMLContext, self).__init__(ctx) class NetworkContext(Context): def __init__(self, hostname = None): """ Initializes a new instance of the Context class, using the network backend of the IIO library. parameters: hostname: type=str Hostname, IPv4 or IPv6 address where the IIO Daemon is running returns: type=iio.NetworkContext An new instance of this class """ ctx = _new_network(hostname.encode('ascii') if hostname is not None else None) super(NetworkContext, self).__init__(ctx) def scan_contexts(): d = dict() ptr = _POINTER(_ContextInfoPtr)() ctx = _create_scan_context(None, 0) nb = _get_context_info_list(ctx, _byref(ptr)); for i in range(0, nb): d[_context_info_get_uri(ptr[i]).decode('ascii')] = _context_info_get_description(ptr[i]).decode('ascii') _context_info_list_free(ptr) _destroy_scan_context(ctx) return d