##
-## This file is part of the sigrok project.
+## This file is part of the libsigrok project.
##
## Copyright (C) 2013 Martin Ling <martin-sigrok@earth.li>
##
import itertools
__all__ = ['Error', 'Context', 'Driver', 'Device', 'Session', 'Packet', 'Log',
- 'LogLevel', 'PacketType', 'Quantity', 'Unit', 'QuantityFlag']
+ 'LogLevel', 'PacketType', 'Quantity', 'Unit', 'QuantityFlag', 'ConfigKey',
+ 'ProbeType', 'Probe', 'ProbeGroup']
class Error(Exception):
if result != SR_OK:
raise Error(result)
-def config_key(name):
- if not name.lower() == name:
- raise AttributeError
- key_name = "SR_CONF_" + name.upper()
- return getattr(lowlevel, key_name)
-
def gvariant_to_python(value):
type_string = g_variant_get_type_string(value)
if type_string == 't':
return g_variant_new_string(value)
if isinstance(value, Fraction):
array = new_gvariant_ptr_array(2)
- gvariant_ptr_array_setitem(array, 0, value.numerator)
- gvariant_ptr_array_setitem(array, 1, value.denominator)
+ gvariant_ptr_array_setitem(array, 0,
+ g_variant_new_uint64(value.numerator))
+ gvariant_ptr_array_setitem(array, 1,
+ g_variant_new_uint64(value.denominator))
result = g_variant_new_tuple(array, 2)
delete_gvariant_ptr_array(array)
return result
def name(self):
return self.struct.name
- def scan(self):
+ def scan(self, **kwargs):
if not self._initialized:
check(sr_driver_init(self.context.struct, self.struct))
self._initialized = True
- devices = []
- device_list = sr_driver_scan(self.struct, None)
- device_list_item = device_list
- while device_list_item:
- ptr = device_list_item.data
- device_ptr = gpointer_to_sr_dev_inst_ptr(ptr)
- devices.append(Device(self, device_ptr))
- device_list_item = device_list_item.next
+ options = []
+ for name, value in kwargs.items():
+ key = getattr(ConfigKey, name.upper())
+ src = sr_config()
+ src.key = key.id
+ src.data = python_to_gvariant(value)
+ options.append(src.this)
+ option_list = python_to_gslist(options)
+ device_list = sr_driver_scan(self.struct, option_list)
+ g_slist_free(option_list)
+ devices = [Device(self, gpointer_to_sr_dev_inst_ptr(ptr))
+ for ptr in gslist_to_python(device_list)]
g_slist_free(device_list)
return devices
def __init__(self, driver, struct):
self.driver = driver
self.struct = struct
+ self._probes = None
+ self._probe_groups = None
def __getattr__(self, name):
- key = config_key(name)
+ key = getattr(ConfigKey, name.upper())
data = new_gvariant_ptr_ptr()
try:
- check(sr_config_get(self.driver.struct, key, data, self.struct))
+ check(sr_config_get(self.driver.struct, self.struct, None,
+ key, data))
except Error as error:
if error.errno == SR_ERR_NA:
raise NotImplementedError(
def __setattr__(self, name, value):
try:
- key = config_key(name)
+ key = getattr(ConfigKey, name.upper())
except AttributeError:
super(Device, self).__setattr__(name, value)
return
- check(sr_config_set(self.struct, key, python_to_gvariant(value)))
+ check(sr_config_set(self.struct, None, key, python_to_gvariant(value)))
@property
def vendor(self):
def version(self):
return self.struct.version
+ @property
+ def probes(self):
+ if self._probes is None:
+ self._probes = {}
+ probe_list = self.struct.probes
+ while (probe_list):
+ probe_ptr = void_ptr_to_sr_probe_ptr(probe_list.data)
+ self._probes[probe_ptr.name] = Probe(self, probe_ptr)
+ probe_list = probe_list.next
+ return self._probes
+
+ @property
+ def probe_groups(self):
+ if self._probe_groups is None:
+ self._probe_groups = {}
+ probe_group_list = self.struct.probe_groups
+ while (probe_group_list):
+ probe_group_ptr = void_ptr_to_sr_probe_group_ptr(
+ probe_group_list.data)
+ self._probe_groups[probe_group_ptr.name] = ProbeGroup(self,
+ probe_group_ptr)
+ probe_group_list = probe_group_list.next
+ return self._probe_groups
+
+class Probe(object):
+
+ def __init__(self, device, struct):
+ self.device = device
+ self.struct = struct
+
+ @property
+ def type(self):
+ return ProbeType(self.struct.type)
+
+ @property
+ def enabled(self):
+ return self.struct.enabled
+
+ @property
+ def name(self):
+ return self.struct.name
+
+class ProbeGroup(object):
+
+ def __init__(self, device, struct):
+ self.device = device
+ self.struct = struct
+ self._probes = None
+
+ def __iter__(self):
+ return iter(self.probes)
+
+ def __getattr__(self, name):
+ key = config_key(name)
+ data = new_gvariant_ptr_ptr()
+ try:
+ check(sr_config_get(self.device.driver.struct, self.device.struct,
+ self.struct, key, data))
+ except Error as error:
+ if error.errno == SR_ERR_NA:
+ raise NotImplementedError(
+ "Probe group does not implement %s" % name)
+ else:
+ raise AttributeError
+ value = gvariant_ptr_ptr_value(data)
+ return gvariant_to_python(value)
+
+ def __setattr__(self, name, value):
+ try:
+ key = config_key(name)
+ except AttributeError:
+ super(ProbeGroup, self).__setattr__(name, value)
+ return
+ check(sr_config_set(self.device.struct, self.struct,
+ key, python_to_gvariant(value)))
+
+ @property
+ def name(self):
+ return self.struct.name
+
+ @property
+ def probes(self):
+ if self._probes is None:
+ self._probes = []
+ probe_list = self.struct.probes
+ while (probe_list):
+ probe_ptr = void_ptr_to_sr_probe_ptr(probe_list.data)
+ self._probes.append(Probe(self, probe_ptr))
+ probe_list = probe_list.next
+ return self._probes
+
class Session(object):
def __init__(self, context):
def add_device(self, device):
check(sr_session_dev_add(device.struct))
+ def open_device(self, device):
+ check(sr_dev_open(device.struct))
+
def add_callback(self, callback):
wrapper = partial(callback_wrapper, self, callback)
check(sr_session_datafeed_python_callback_add(wrapper))
void_ptr_to_sr_datafeed_analog_ptr(pointer))
else:
raise NotImplementedError(
- "No Python mapping for packet type %ѕ" % self.struct.type)
+ "No Python mapping for packet type %s" % self.struct.type)
return self._payload
class Logic(object):
mask = new_mask
return result
+class ConfigKey(EnumValue):
+ pass
+
+class ProbeType(EnumValue):
+ pass
+
for symbol_name in dir(lowlevel):
for prefix, cls in [
('SR_LOG_', LogLevel),
('SR_DF_', PacketType),
('SR_MQ_', Quantity),
('SR_UNIT_', Unit),
- ('SR_MQFLAG_', QuantityFlag)]:
+ ('SR_MQFLAG_', QuantityFlag),
+ ('SR_CONF_', ConfigKey),
+ ('SR_PROBE_', ProbeType)]:
if symbol_name.startswith(prefix):
name = symbol_name[len(prefix):]
value = getattr(lowlevel, symbol_name)