/usr/lib/python2.7/dist-packages/PyTango/server.py is in python-pytango 8.1.1-1build3.
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# This file is part of PyTango (http://www.tinyurl.com/PyTango)
#
# Copyright 2006-2012 CELLS / ALBA Synchrotron, Bellaterra, Spain
# Copyright 2013-2014 European Synchrotron Radiation Facility, Grenoble, France
#
# Distributed under the terms of the GNU Lesser General Public License,
# either version 3 of the License, or (at your option) any later version.
# See LICENSE.txt for more info.
# ------------------------------------------------------------------------------
"""High Level API for writing Tango device servers.
.. _pytango-hlapi-datatypes:
.. rubric:: Data types
When declaring attributes, properties or commands, one of the most important
information is the data type. It is given by the keyword argument *dtype*.
In order to provide a more *pythonic* interface, this argument is not restricted
to the :obj:`~PyTango.CmdArgType` options.
For example, to define a *SCALAR* :obj:`~PyTango.CmdArgType.DevLong`
attribute you have several possibilities:
#. :obj:`int`
#. 'int'
#. 'int32'
#. 'integer'
#. :obj:`PyTango.CmdArgType.DevLong`
#. 'DevLong'
#. :obj:`numpy.int32`
To define a *SPECTRUM* attribute simply wrap the scalar data type in any
python sequence:
* using a *tuple*: ``(:obj:`int`,)`` or
* using a *list*: ``[:obj:`int`]`` or
* any other sequence type
To define an *IMAGE* attribute simply wrap the scalar data type in any
python sequence of sequences:
* using a *tuple*: ``((:obj:`int`,),)`` or
* using a *list*: ``[[:obj:`int`]]`` or
* any other sequence type
Below is the complete table of equivalences.
======================================== ========================================
type tango type
======================================== ========================================
``None`` ``DevVoid``
``DevVoid`` ``DevVoid``
``DevBoolean`` ``DevBoolean``
``DevShort`` ``DevShort``
``DevLong`` ``DevLong``
``DevFloat`` ``DevFloat``
``DevDouble`` ``DevDouble``
``DevUShort`` ``DevUShort``
``DevULong`` ``DevULong``
``DevString`` ``DevString``
``DevVarCharArray`` ``DevVarCharArray``
``DevVarShortArray`` ``DevVarShortArray``
``DevVarLongArray`` ``DevVarLongArray``
``DevVarFloatArray`` ``DevVarFloatArray``
``DevVarDoubleArray`` ``DevVarDoubleArray``
``DevVarUShortArray`` ``DevVarUShortArray``
``DevVarULongArray`` ``DevVarULongArray``
``DevVarStringArray`` ``DevVarStringArray``
``DevVarLongStringArray`` ``DevVarLongStringArray``
``DevVarDoubleStringArray`` ``DevVarDoubleStringArray``
``DevState`` ``DevState``
``DevVarBooleanArray`` ``DevVarBooleanArray``
``DevUChar`` ``DevUChar``
``DevLong64`` ``DevLong64``
``DevULong64`` ``DevULong64``
``DevVarLong64Array`` ``DevVarLong64Array``
``DevVarULong64Array`` ``DevVarULong64Array``
``DevInt`` ``DevInt``
``DevEncoded`` ``DevEncoded``
``chr`` ``DevUChar``
``'DevBoolean'`` ``DevBoolean``
``'DevDouble'`` ``DevDouble``
``'DevEncoded'`` ``DevEncoded``
``'DevFloat'`` ``DevFloat``
``'DevInt'`` ``DevInt``
``'DevLong'`` ``DevLong``
``'DevLong64'`` ``DevLong64``
``'DevShort'`` ``DevShort``
``'DevState'`` ``DevState``
``'DevString'`` ``DevString``
``'DevUChar'`` ``DevUChar``
``'DevULong'`` ``DevULong``
``'DevULong64'`` ``DevULong64``
``'DevUShort'`` ``DevUShort``
``'DevVarBooleanArray'`` ``DevVarBooleanArray``
``'DevVarCharArray'`` ``DevVarCharArray``
``'DevVarDoubleArray'`` ``DevVarDoubleArray``
``'DevVarDoubleStringArray'`` ``DevVarDoubleStringArray``
``'DevVarFloatArray'`` ``DevVarFloatArray``
``'DevVarLong64Array'`` ``DevVarLong64Array``
``'DevVarLongArray'`` ``DevVarLongArray``
``'DevVarLongStringArray'`` ``DevVarLongStringArray``
``'DevVarShortArray'`` ``DevVarShortArray``
``'DevVarStringArray'`` ``DevVarStringArray``
``'DevVarULong64Array'`` ``DevVarULong64Array``
``'DevVarULongArray'`` ``DevVarULongArray``
``'DevVarUShortArray'`` ``DevVarUShortArray``
``'DevVoid'`` ``DevVoid``
``'None'`` ``DevVoid``
``'bool'`` ``DevBoolean``
``'boolean'`` ``DevBoolean``
``'byte'`` ``DevUChar``
``'bytearray'`` ``DevEncoded``
``'bytes'`` ``DevEncoded``
``'char'`` ``DevUChar``
``'chr'`` ``DevUChar``
``'double'`` ``DevDouble``
``'float'`` ``DevDouble``
``'float32'`` ``DevFloat``
``'float64'`` ``DevDouble``
``'int'`` ``DevLong``
``'int16'`` ``DevShort``
``'int32'`` ``DevLong``
``'int64'`` ``DevLong64``
``'str'`` ``DevString``
``'string'`` ``DevString``
``'text'`` ``DevString``
``'uint'`` ``DevULong``
``'uint16'`` ``DevUShort``
``'uint32'`` ``DevULong``
``'uint64'`` ``DevULong64``
:py:obj:`float` ``DevDouble``
:py:obj:`int` ``DevLong``
:py:obj:`str` ``DevString``
:py:obj:`bool` ``DevBoolean``
:py:obj:`bytearray` ``DevEncoded``
:py:obj:`numpy.bool_` ``DevBoolean``
:py:obj:`numpy.int16` ``DevShort``
:py:obj:`numpy.int32` ``DevLong``
:py:obj:`numpy.int64` ``DevLong64``
:py:obj:`numpy.uint8` ``DevUChar``
:py:obj:`numpy.uint16` ``DevUShort``
:py:obj:`numpy.uint32` ``DevULong``
:py:obj:`numpy.uint64` ``DevULong64``
:py:obj:`numpy.float32` ``DevFloat``
:py:obj:`numpy.float64` ``DevDouble``
======================================== ========================================
"""
from __future__ import with_statement
from __future__ import print_function
__all__ = ["DeviceMeta", "Device", "LatestDeviceImpl", "attribute", "command",
"device_property", "class_property", "server_run"]
import __builtin__
import sys
import inspect
import functools
import traceback
from ._PyTango import DeviceImpl, Attribute, WAttribute, CmdArgType
from ._PyTango import AttrDataFormat, AttrWriteType, DispLevel, constants
from ._PyTango import DevFailed
from .attr_data import AttrData
from .device_class import DeviceClass
from .utils import get_tango_device_classes, is_seq, is_non_str_seq
from .utils import scalar_to_array_type
API_VERSION = 2
LatestDeviceImpl = get_tango_device_classes()[-1]
def __build_to_tango_type():
ret = \
{
int : CmdArgType.DevLong,
str : CmdArgType.DevString,
bool : CmdArgType.DevBoolean,
bytearray : CmdArgType.DevEncoded,
float : CmdArgType.DevDouble,
chr : CmdArgType.DevUChar,
None : CmdArgType.DevVoid,
'int' : CmdArgType.DevLong,
'int16' : CmdArgType.DevShort,
'int32' : CmdArgType.DevLong,
'int64' : CmdArgType.DevLong64,
'uint' : CmdArgType.DevULong,
'uint16' : CmdArgType.DevUShort,
'uint32' : CmdArgType.DevULong,
'uint64' : CmdArgType.DevULong64,
'str' : CmdArgType.DevString,
'string' : CmdArgType.DevString,
'text' : CmdArgType.DevString,
'bool' : CmdArgType.DevBoolean,
'boolean' : CmdArgType.DevBoolean,
'bytes' : CmdArgType.DevEncoded,
'bytearray' : CmdArgType.DevEncoded,
'float' : CmdArgType.DevDouble,
'float32' : CmdArgType.DevFloat,
'float64' : CmdArgType.DevDouble,
'double' : CmdArgType.DevDouble,
'byte' : CmdArgType.DevUChar,
'chr' : CmdArgType.DevUChar,
'char' : CmdArgType.DevUChar,
'None' : CmdArgType.DevVoid,
}
for key in dir(CmdArgType):
if key.startswith("Dev"):
value = getattr(CmdArgType, key)
ret[key] = ret[value] = value
if constants.NUMPY_SUPPORT:
import numpy
FROM_TANGO_TO_NUMPY_TYPE = { \
CmdArgType.DevBoolean : numpy.bool8,
CmdArgType.DevUChar : numpy.ubyte,
CmdArgType.DevShort : numpy.short,
CmdArgType.DevUShort : numpy.ushort,
CmdArgType.DevLong : numpy.int32,
CmdArgType.DevULong : numpy.uint32,
CmdArgType.DevLong64 : numpy.int64,
CmdArgType.DevULong64 : numpy.uint64,
CmdArgType.DevString : numpy.str,
CmdArgType.DevDouble : numpy.float64,
CmdArgType.DevFloat : numpy.float32,
}
for key,value in FROM_TANGO_TO_NUMPY_TYPE.items():
ret[value] = key
return ret
TO_TANGO_TYPE = __build_to_tango_type()
def get_tango_type_format(dtype=None, dformat=None):
if dformat is None:
dformat = AttrDataFormat.SCALAR
if is_non_str_seq(dtype):
dtype = dtype[0]
dformat = AttrDataFormat.SPECTRUM
if is_non_str_seq(dtype):
dtype = dtype[0]
dformat = AttrDataFormat.IMAGE
return TO_TANGO_TYPE[dtype], dformat
def from_typeformat_to_type(dtype, dformat):
if dformat == AttrDataFormat.SCALAR:
return dtype
elif dformat == AttrDataFormat.IMAGE:
raise TypeError("Cannot translate IMAGE to tango type")
return scalar_to_array_type(dtype)
def set_complex_value(attr, value):
is_tuple = isinstance(value, tuple)
dtype, fmt = attr.get_data_type(), attr.get_data_format()
if dtype == CmdArgType.DevEncoded:
if is_tuple and len(value) == 4:
attr.set_value_date_quality(*value)
elif is_tuple and len(value) == 3 and is_non_str_seq(value[0]):
attr.set_value_date_quality(value[0][0], value[0][1], *value[1:])
else:
attr.set_value(*value)
else:
if is_tuple:
if len(value) == 3:
if fmt == AttrDataFormat.SCALAR:
attr.set_value_date_quality(*value)
elif fmt == AttrDataFormat.SPECTRUM:
if is_seq(value[0]):
attr.set_value_date_quality(*value)
else:
attr.set_value(value)
else:
if is_seq(value[0]) and is_seq(value[0][0]):
attr.set_value_date_quality(*value)
else:
attr.set_value(value)
else:
attr.set_value(value)
else:
attr.set_value(value)
def check_tango_device_klass_attribute_read_method(tango_device_klass, method_name):
"""Checks if method given by it's name for the given DeviceImpl class has
the correct signature. If a read/write method doesn't have a parameter
(the traditional Attribute), then the method is wrapped into another method
which has correct parameter definition to make it work.
:param tango_device_klass: a DeviceImpl class
:type tango_device_klass: class
:param method_name: method to be cheched
:type attr_data: str"""
read_method = getattr(tango_device_klass, method_name)
@functools.wraps(read_method)
def read_attr(self, attr):
ret = read_method(self)
if not attr.get_value_flag() and ret is not None:
set_complex_value(attr, ret)
return ret
setattr(tango_device_klass, method_name, read_attr)
def check_tango_device_klass_attribute_write_method(tango_device_klass, method_name):
"""Checks if method given by it's name for the given DeviceImpl class has
the correct signature. If a read/write method doesn't have a parameter
(the traditional Attribute), then the method is wrapped into another method
which has correct parameter definition to make it work.
:param tango_device_klass: a DeviceImpl class
:type tango_device_klass: class
:param method_name: method to be cheched
:type attr_data: str"""
write_method = getattr(tango_device_klass, method_name)
@functools.wraps(write_method)
def write_attr(self, attr):
value = attr.get_write_value()
return write_method(self, value)
setattr(tango_device_klass, method_name, write_attr)
def check_tango_device_klass_attribute_methods(tango_device_klass, attr_data):
"""Checks if the read and write methods have the correct signature. If a
read/write method doesn't have a parameter (the traditional Attribute),
then the method is wrapped into another method to make this work
:param tango_device_klass: a DeviceImpl class
:type tango_device_klass: class
:param attr_data: the attribute data information
:type attr_data: AttrData"""
if attr_data.attr_write in (AttrWriteType.READ, AttrWriteType.READ_WRITE):
check_tango_device_klass_attribute_read_method(tango_device_klass, attr_data.read_method_name)
if attr_data.attr_write in (AttrWriteType.WRITE, AttrWriteType.READ_WRITE):
check_tango_device_klass_attribute_write_method(tango_device_klass, attr_data.write_method_name)
class _DeviceClass(DeviceClass):
def __init__(self, name):
DeviceClass.__init__(self, name)
self.set_type(name)
def dyn_attr(self, dev_list):
"""Invoked to create dynamic attributes for the given devices.
Default implementation calls
:meth:`TT.initialize_dynamic_attributes` for each device
:param dev_list: list of devices
:type dev_list: :class:`PyTango.DeviceImpl`"""
for dev in dev_list:
init_dyn_attrs = getattr(dev, "initialize_dynamic_attributes", None)
if init_dyn_attrs and callable(init_dyn_attrs):
try:
init_dyn_attrs()
except Exception:
import traceback
dev.warn_stream("Failed to initialize dynamic attributes")
dev.debug_stream("Details: " + traceback.format_exc())
def create_tango_deviceclass_klass(tango_device_klass, attrs=None):
klass_name = tango_device_klass.__name__
if not issubclass(tango_device_klass, (Device)):
msg = "{0} device must inherit from PyTango.server.Device".format(klass_name)
raise Exception(msg)
if attrs is None:
attrs = tango_device_klass.__dict__
attr_list = {}
class_property_list = {}
device_property_list = {}
cmd_list = {}
for attr_name, attr_obj in attrs.items():
if isinstance(attr_obj, attribute):
attr_obj._set_name(attr_name)
attr_list[attr_name] = attr_obj
check_tango_device_klass_attribute_methods(tango_device_klass, attr_obj)
elif isinstance(attr_obj, device_property):
device_property_list[attr_name] = [attr_obj.dtype, attr_obj.doc, attr_obj.default_value]
elif isinstance(attr_obj, class_property):
class_property_list[attr_name] = [attr_obj.dtype, attr_obj.doc, attr_obj.default_value]
elif inspect.isroutine(attr_obj):
if hasattr(attr_obj, "__tango_command__"):
cmd_name, cmd_info = attr_obj.__tango_command__
cmd_list[cmd_name] = cmd_info
devclass_name = klass_name + "Class"
devclass_attrs = dict(class_property_list=class_property_list,
device_property_list=device_property_list,
cmd_list=cmd_list, attr_list=attr_list)
return type(devclass_name, (_DeviceClass,), devclass_attrs)
def init_tango_device_klass(tango_device_klass, attrs=None, tango_class_name=None):
klass_name = tango_device_klass.__name__
tango_deviceclass_klass = create_tango_deviceclass_klass(tango_device_klass,
attrs=attrs)
if tango_class_name is None:
tango_klass_name = klass_name
tango_device_klass._DeviceClass = tango_deviceclass_klass
tango_device_klass._DeviceClassName = tango_klass_name
tango_device_klass._api = API_VERSION
return tango_device_klass
def create_tango_device_klass(name, bases, attrs):
klass_name = name
LatestDeviceImplMeta = type(LatestDeviceImpl)
klass = LatestDeviceImplMeta(klass_name, bases, attrs)
init_tango_device_klass(klass, attrs)
return klass
def DeviceMeta(name, bases, attrs):
"""The :py:data:`metaclass` callable for :class:`Device`. Every subclass of
:class:`Device` must have associated this metaclass to itself in order to
work properly (boost-python internal limitation).
Example (python 2.x)::
from PyTango.server import Device, DeviceMeta
class PowerSupply(Device):
__metaclass__ = DeviceMeta
Example (python 3.x)::
from PyTango.server import Device, DeviceMeta
class PowerSupply(Device, metaclass=DeviceMeta):
pass
"""
return create_tango_device_klass(name, bases, attrs)
class Device(LatestDeviceImpl):
"""High level DeviceImpl API. All Device specific classes should inherit
from this class."""
def __init__(self, cl, name):
LatestDeviceImpl.__init__(self, cl, name)
self.init_device()
def init_device(self):
"""Tango init_device method. Default implementation calls
:meth:`get_device_properties`"""
self.get_device_properties()
def always_executed_hook(self):
"""Tango always_executed_hook. Default implementation does nothing"""
pass
def initialize_dynamic_attributes(self):
"""Method executed at initializion phase to create dynamic attributes.
Default implementation does nothing. Overwrite when necessary."""
pass
class attribute(AttrData):
"""declares a new tango attribute in a :class:`Device`. To be used like
the python native :obj:`property` function. For example, to declare a
scalar, `PyTango.DevDouble`, read-only attribute called *voltage* in a
*PowerSupply* :class:`Device` do::
class PowerSupply(Device):
voltage = attribute()
def read_voltage(self):
self.voltage = 1.0
It receives multiple keyword arguments.
===================== ================================ ======================================= =======================================================================================
parameter type default value description
===================== ================================ ======================================= =======================================================================================
name :obj:`str` class member name alternative attribute name
dtype :obj:`object` :obj:`~PyTango.CmdArgType.DevDouble` data type (see :ref:`Data type equivalence <pytango-hlapi-datatypes>`)
dformat :obj:`~PyTango.AttrDataFormat` :obj:`~PyTango.AttrDataFormat.SCALAR` data format
max_dim_x :obj:`int` 1 maximum size for x dimension (ignored for SCALAR format)
max_dim_y :obj:`int` 0 maximum size for y dimension (ignored for SCALAR and SPECTRUM formats)
display_level :obj:`~PyTango.DispLevel` :obj:`~PyTango.DisLevel.OPERATOR` display level
polling_period :obj:`int` -1 polling period
memorized :obj:`bool` False attribute should or not be memorized
hw_memorized :obj:`bool` False write method should be called at startup when restoring memorize value (dangerous!)
access :obj:`~PyTango.AttrWriteType` :obj:`~PyTango.AttrWriteType.READ` read only/ read write / write only access
fget (or fread) :obj:`str` or :obj:`callable` 'read_<attr_name>' read method name or method object
fset (or fwrite) :obj:`str` or :obj:`callable` 'write_<attr_name>' write method name or method object
is_allowed :obj:`str` or :obj:`callable` 'is_<attr_name>_allowed' is allowed method name or method object
label :obj:`str` '<attr_name>' attribute label
doc (or description) :obj:`str` '' attribute description
unit :obj:`str` '' physical units the attribute value is in
standard_unit :obj:`str` '' physical standard unit
display_unit :obj:`str` '' physical display unit (hint for clients)
format :obj:`str` '6.2f' attribute representation format
min_value :obj:`str` None minimum allowed value
max_value :obj:`str` None maximum allowed value
min_alarm :obj:`str` None minimum value to trigger attribute alarm
max_alarm :obj:`str` None maximum value to trigger attribute alarm
min_warning :obj:`str` None minimum value to trigger attribute warning
max_warning :obj:`str` None maximum value to trigger attribute warning
delta_val :obj:`str` None
delta_t :obj:`str` None
abs_change :obj:`str` None minimum value change between events that causes event filter to send the event
rel_change :obj:`str` None minimum relative change between events that causes event filter to send the event (%)
period :obj:`str` None
archive_abs_change :obj:`str` None
archive_rel_change :obj:`str` None
archive_period :obj:`str` None
===================== ================================ ======================================= ======================================================================================="""
def __init__(self, **kwargs):
name = kwargs.pop("name", None)
class_name = kwargs.pop("class_name", None)
super(attribute, self).__init__(name, class_name)
if 'dtype' in kwargs:
kwargs['dtype'], kwargs['dformat'] = \
get_tango_type_format(kwargs['dtype'], kwargs.get('dformat'))
self.build_from_dict(kwargs)
def get_attribute(self, obj):
return obj.get_device_attr().get_attr_by_name(self.attr_name)
# --------------------
# descriptor interface
# --------------------
def __get__(self, obj, objtype):
return self.get_attribute(obj)
def __set__(self, obj, value):
attr = self.get_attribute(obj)
set_complex_value(attr, value)
def __delete__(self, obj):
obj.remove_attribute(self.attr_name)
def _attribute(**kwargs):
"""declares a new tango attribute in a :class:`Device`. To be used like
the python native :obj:`property` function. For example, to declare a
scalar, `PyTango.DevDouble`, read-only attribute called *voltage* in a
*PowerSupply* :class:`Device` do::
class PowerSupply(Device):
voltage = attribute()
def read_voltage(self):
self.voltage = 1.0
It receives multiple keyword arguments.
===================== ================================ ======================================= =======================================================================================
parameter type default value description
===================== ================================ ======================================= =======================================================================================
name :obj:`str` class member name alternative attribute name
dtype :obj:`object` :obj:`~PyTango.CmdArgType.DevDouble` data type (see :ref:`Data type equivalence <pytango-hlapi-datatypes>`)
dformat :obj:`~PyTango.AttrDataFormat` :obj:`~PyTango.AttrDataFormat.SCALAR` data format
max_dim_x :obj:`int` 1 maximum size for x dimension (ignored for SCALAR format)
max_dim_y :obj:`int` 0 maximum size for y dimension (ignored for SCALAR and SPECTRUM formats)
display_level :obj:`~PyTango.DispLevel` :obj:`~PyTango.DisLevel.OPERATOR` display level
polling_period :obj:`int` -1 polling period
memorized :obj:`bool` False attribute should or not be memorized
hw_memorized :obj:`bool` False write method should be called at startup when restoring memorize value (dangerous!)
access :obj:`~PyTango.AttrWriteType` :obj:`~PyTango.AttrWriteType.READ` read only/ read write / write only access
fget (or fread) :obj:`str` or :obj:`callable` 'read_<attr_name>' read method name or method object
fset (or fwrite) :obj:`str` or :obj:`callable` 'write_<attr_name>' write method name or method object
is_allowed :obj:`str` or :obj:`callable` 'is_<attr_name>_allowed' is allowed method name or method object
label :obj:`str` '<attr_name>' attribute label
doc (or description) :obj:`str` '' attribute description
unit :obj:`str` '' physical units the attribute value is in
standard_unit :obj:`str` '' physical standard unit
display_unit :obj:`str` '' physical display unit (hint for clients)
format :obj:`str` '6.2f' attribute representation format
min_value :obj:`str` None minimum allowed value
max_value :obj:`str` None maximum allowed value
min_alarm :obj:`str` None minimum value to trigger attribute alarm
max_alarm :obj:`str` None maximum value to trigger attribute alarm
min_warning :obj:`str` None minimum value to trigger attribute warning
max_warning :obj:`str` None maximum value to trigger attribute warning
delta_val :obj:`str` None
delta_t :obj:`str` None
abs_change :obj:`str` None minimum value change between events that causes event filter to send the event
rel_change :obj:`str` None minimum relative change between events that causes event filter to send the event (%)
period :obj:`str` None
archive_abs_change :obj:`str` None
archive_rel_change :obj:`str` None
archive_period :obj:`str` None
===================== ================================ ======================================= ======================================================================================="""
if 'dtype' in kwargs:
kwargs['dtype'], kwargs['dformat'] = \
get_tango_type_format(kwargs['dtype'], kwargs.get('dformat'))
return attribute.from_dict(kwargs)
def command(f=None, dtype_in=None, dformat_in=None, doc_in="",
dtype_out=None, dformat_out=None, doc_out="",):
"""declares a new tango command in a :class:`Device`.
To be used like a decorator in the methods you want to declare as tango
commands. For example, to declare a *ramp* command that receives a
`PyTango.DevDouble` parameter called *current*, do::
class PowerSupply(Device):
@command(dtype_in=float)
def ramp(self, current):
self.info_stream("Ramping on %f..." % current)
# Another more elaborate command
@command(dtype_in=float, doc_in="the pressure to be set",
dtype_out=(bool, doc_out="True if it worked, False otherwise")
def setPressure(self, pressure):
self.info_stream("Setting pressure on %f..." % pressure)
:param dtype_in: a :ref:`data type <pytango-hlapi-datatypes>`
describing the type of parameter. Default is None meaning
no parameter.
:param dformat_in: parameter data format. Default is None.
:type dformat_in: AttrDataFormat
:param doc_in: parameter documentation
:type doc_in: str
:param dtype_out: a :ref:`data type <pytango-hlapi-datatypes>`
describing the type of return value. Default is None
meaning no return value.
:param dformat_out: return value data format. Default is None.
:type dformat_out: AttrDataFormat
:param doc_out: return value documentation
:type doc_out: str
"""
if f is None:
return functools.partial(command,
dtype_in=dtype_in, dformat_in=dformat_in, doc_in=doc_in,
dtype_out=dtype_out, dformat_out=dformat_out, doc_out=doc_out)
name = f.__name__
dtype_in, dformat_in = get_tango_type_format(dtype_in, dformat_in)
dtype_out, dformat_out = get_tango_type_format(dtype_out, dformat_out)
din = [from_typeformat_to_type(dtype_in, dformat_in), doc_in]
dout = [from_typeformat_to_type(dtype_out, dformat_out), doc_out]
f.__tango_command__ = name, [din, dout]
return f
class _property(object):
def __init__(self, dtype, doc='', default_value=None):
self.__value = None
dtype = from_typeformat_to_type(*get_tango_type_format(dtype))
self.dtype = dtype
self.doc = doc
self.default_value = default_value
def __get__(self, obj, objtype):
return self.__value
def __set__(self, obj, value):
self.__value = value
def __delete__(self, obj):
del self.__value
class device_property(_property):
pass
class class_property(_property):
pass
def __server_run(classes, args=None, msg_stream=sys.stdout, util=None,
event_loop=None):
import PyTango
if msg_stream is None:
import io
msg_stream = io.BytesIO()
if args is None:
args = sys.argv
if util is None:
util = PyTango.Util(args)
if is_seq(classes):
for klass_info in classes:
if not hasattr(klass_info, '_api') or klass_info._api < 2:
raise Exception("When giving a single class, it must implement HLAPI (see PyTango.server)")
klass_klass = klass_info._DeviceClass
klass_name = klass_info._DeviceClassName
klass = klass_info
util.add_class(klass_klass, klass, klass_name)
else:
for klass_name, klass_info in classes.items():
if is_seq(klass_info):
klass_klass, klass = klass_info
else:
if not hasattr(klass_info, '_api') or klass_info._api < 2:
raise Exception("When giving a single class, it must implement HLAPI (see PyTango.server)")
klass_klass = klass_info._DeviceClass
klass_name = klass_info._DeviceClassName
klass = klass_info
util.add_class(klass_klass, klass, klass_name)
u_instance = PyTango.Util.instance()
if event_loop is not None:
u_instance.server_set_event_loop(event_loop)
u_instance.server_init()
msg_stream.write("Ready to accept request\n")
u_instance.server_run()
return util
def server_run(classes, args=None, msg_stream=sys.stdout,
verbose=False, util=None, event_loop=None):
"""Provides a simple way to run a tango server. It handles exceptions
by writting a message to the msg_stream.
The `classes` parameter can be either a sequence of :class:`~PyTango.server.Device`
classes or a dictionary where:
* key is the tango class name
* value is either:
#. a :class:`~PyTango.server.Device` class or
#. a a sequence of two elements :class:`~PyTango.DeviceClass`, :class:`~PyTango.DeviceImpl`
Example 1: registering and running a PowerSupply inheriting from :class:`~PyTango.server.Device`::
from PyTango import server_run
from PyTango.server import Device, DeviceMeta
class PowerSupply(Device):
__metaclass__ = DeviceMeta
server_run((PowerSupply,))
Example 2: registering and running a MyServer defined by tango classes
`MyServerClass` and `MyServer`::
import PyTango
class MyServer(PyTango.Device_4Impl):
pass
class MyServerClass(PyTango.DeviceClass):
pass
PyTango.server_run({"MyServer": (MyServerClass, MyServer)})
:param classes:
a sequence of :class:`~PyTango.server.Device` classes or
a dictionary where keyword is the tango class name and value is a
sequence of Tango Device Class python class, and Tango Device python class
:type classes: sequence or dict
:param args:
list of command line arguments [default: None, meaning use sys.argv]
:type args: list
:param msg_stream:
stream where to put messages [default: sys.stdout]
:param util:
PyTango Util object [default: None meaning create a Util instance]
:type util: :class:`~PyTango.Util`
:param event_loop: event_loop callable
:type event_loop: callable
:return: The Util singleton object
:rtype: :class:`~PyTango.Util`
.. versionadded:: 8.0.0
.. versionchanged:: 8.0.3
Added `util` keyword parameter.
Returns util object
.. versionchanged:: 8.1.1
Changed default msg_stream from *stderr* to *stdout*
Added `event_loop` keyword parameter.
Returns util object"""
if msg_stream is None:
import io
msg_stream = io.BytesIO()
write = msg_stream.write
try:
return __server_run(classes, args=args, util=util, event_loop=event_loop)
except KeyboardInterrupt:
write("Exiting: Keyboard interrupt\n")
except DevFailed as df:
write("Exiting: Server exited with PyTango.DevFailed:\n" + str(df) + "\n")
if verbose:
write(traceback.format_exc())
except Exception as e:
write("Exiting: Server exited with unforseen exception:\n" + str(e) + "\n")
if verbose:
write(traceback.format_exc())
write("\nExited\n")
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