Util¶
-
class
tango.
Util
¶ This class is a used to store TANGO device server process data and to provide the user with a set of utilities method.
This class is implemented using the singleton design pattern. Therefore a device server process can have only one instance of this class and its constructor is not public. Example:
util = tango.Util.instance() print(util.get_host_name())
-
add_Cpp_TgClass
(device_class_name, tango_device_class_name)¶ Register a new C++ tango class.
If there is a shared library file called MotorClass.so which contains a MotorClass class and a _create_MotorClass_class method. Example:
util.add_Cpp_TgClass('MotorClass', 'Motor')
Note
the parameter ‘device_class_name’ must match the shared library name.
Deprecated since version 7.1.2: Use
tango.Util.add_class()
instead.
-
add_TgClass
(klass_device_class, klass_device, device_class_name=None)¶ Register a new python tango class. Example:
util.add_TgClass(MotorClass, Motor) util.add_TgClass(MotorClass, Motor, 'Motor') # equivalent to previous line
Deprecated since version 7.1.2: Use
tango.Util.add_class()
instead.
-
add_class
(self, class<DeviceClass>, class<DeviceImpl>, language="python") → None¶ Register a new tango class (‘python’ or ‘c++’).
If language is ‘python’ then args must be the same as
tango.Util.add_TgClass()
. Otherwise, args should be the ones intango.Util.add_Cpp_TgClass()
. Example:util.add_class(MotorClass, Motor) util.add_class('CounterClass', 'Counter', language='c++')
New in PyTango 7.1.2
-
connect_db
(self) → None¶ Connect the process to the TANGO database. If the connection to the database failed, a message is displayed on the screen and the process is aborted
- Parameters
None
- Return
None
-
create_device
(self, klass_name, device_name, alias=None, cb=None) → None¶ Creates a new device of the given class in the database, creates a new DeviceImpl for it and calls init_device (just like it is done for existing devices when the DS starts up)
An optional parameter callback is called AFTER the device is registered in the database and BEFORE the init_device for the newly created device is called
- Throws tango.DevFailed:
the device name exists already or
the given class is not registered for this DS.
the cb is not a callable
New in PyTango 7.1.2
- Parameters
- klass_name
(
str
) the device class name- device_name
(
str
) the device name- alias
(
str
) optional alias. Default value is None meaning do not create device alias- cb
(
callable
) a callback that is called AFTER the device is registered in the database and BEFORE the init_device for the newly created device is called. Typically you may want to put device and/or attribute properties in the database here. The callback must receive a parameter: device name (str). Default value is None meaning no callback
- Return
None
-
delete_device
(self, klass_name, device_name) → None¶ Deletes an existing device from the database and from this running server
- Throws tango.DevFailed:
the device name doesn’t exist in the database
the device name doesn’t exist in this DS.
New in PyTango 7.1.2
-
get_class_list
(self) → seq<DeviceClass>¶ Returns a list of objects of inheriting from DeviceClass
- Parameters
None
- Return
(
seq
) a list of objects of inheriting from DeviceClass
-
get_database
(self) → Database¶ Get a reference to the TANGO database object
- Parameters
None
- Return
(
Database
) the database
New in PyTango 7.0.0
-
get_device_by_name
(self, dev_name) → DeviceImpl¶ Get a device reference from its name
- Parameters
- dev_name
(
str
) The TANGO device name
- Return
(
DeviceImpl
) The device reference
New in PyTango 7.0.0
-
get_device_list
(self) → sequence<DeviceImpl>¶ Get device list from name. It is possible to use a wild card (‘*’) in the name parameter (e.g. “*”, “/tango/tangotest/n*”, …)
- Parameters
None
- Return
(sequence<
DeviceImpl
>) the list of device objects
New in PyTango 7.0.0
-
get_device_list_by_class
(self, class_name) → sequence<DeviceImpl>¶ Get the list of device references for a given TANGO class. Return the list of references for all devices served by one implementation of the TANGO device pattern implemented in the process.
- Parameters
- class_name
(
str
) The TANGO device class name
- Return
(sequence<
DeviceImpl
>) The device reference list
New in PyTango 7.0.0
-
get_ds_exec_name
(self) → str¶ Get a COPY of the device server executable name.
- Parameters
None
- Return
(
str
) a COPY of the device server executable name.
New in PyTango 3.0.4
-
get_ds_inst_name
(self) → str¶ Get a COPY of the device server instance name.
- Parameters
None
- Return
(
str
) a COPY of the device server instance name.
New in PyTango 3.0.4
-
get_ds_name
(self) → str¶ Get the device server name. The device server name is the <device server executable name>/<the device server instance name>
- Parameters
None
- Return
(
str
) device server name
New in PyTango 3.0.4
-
get_dserver_device
(self) → DServer¶ Get a reference to the dserver device attached to the device server process
- Parameters
None
- Return
(
DServer
) A reference to the dserver device
New in PyTango 7.0.0
-
get_host_name
(self) → str¶ Get the host name where the device server process is running.
- Parameters
None
- Return
(
str
) the host name where the device server process is running
New in PyTango 3.0.4
-
get_pid
(self) → TangoSys_Pid¶ Get the device server process identifier.
- Parameters
None
- Return
(
int
) the device server process identifier
-
get_pid_str
(self) → str¶ Get the device server process identifier as a string.
- Parameters
None
- Return
(
str
) the device server process identifier as a string
New in PyTango 3.0.4
-
get_polling_threads_pool_size
(self) → int¶ Get the polling threads pool size.
- Parameters
None
- Return
(
int
) the maximun number of threads in the polling threads pool
-
get_serial_model
(self) → SerialModel¶ Get the serialization model.
- Parameters
None
- Return
(
SerialModel
) the serialization model
-
get_server_version
(self) → str¶ Get the device server version.
- Parameters
None
- Return
(
str
) the device server version.
-
get_sub_dev_diag
(self) → SubDevDiag¶ Get the internal sub device manager
- Parameters
None
- Return
(
SubDevDiag
) the sub device manager
New in PyTango 7.0.0
-
get_tango_lib_release
(self) → int¶ Get the TANGO library version number.
- Parameters
None
- Return
(
int
) The Tango library release number coded in 3 digits (for instance 550,551,552,600,….)
-
get_trace_level
(self) → int¶ Get the process trace level.
- Parameters
None
- Return
(
int
) the process trace level.
-
get_version_str
(self) → str¶ Get the IDL TANGO version.
- Parameters
None
- Return
(
str
) the IDL TANGO version.
New in PyTango 3.0.4
-
is_device_restarting
(self, (str)dev_name) → bool¶ Check if the device is actually restarted by the device server process admin device with its DevRestart command
- Parameters
dev_name : (str) device name
- Return
(
bool
) True if the device is restarting.
New in PyTango 8.0.0
-
is_svr_shutting_down
(self) → bool¶ Check if the device server process is in its shutting down sequence
- Parameters
None
- Return
(
bool
) True if the server is in its shutting down phase.
New in PyTango 8.0.0
-
is_svr_starting
(self) → bool¶ Check if the device server process is in its starting phase
- Parameters
None
- Return
(
bool
) True if the server is in its starting phase
New in PyTango 8.0.0
-
reset_filedatabase
(self) → None¶ Reread the file database
- Parameters
None
- Return
None
New in PyTango 7.0.0
-
server_init
(self, with_window=False) → None¶ Initialize all the device server pattern(s) embedded in a device server process.
-
server_run
(self) → None¶ Run the CORBA event loop. This method runs the CORBA event loop. For UNIX or Linux operating system, this method does not return. For Windows in a non-console mode, this method start a thread which enter the CORBA event loop.
- Parameters
None
- Return
None
-
server_set_event_loop
(self, event_loop) → None¶ This method registers an event loop function in a Tango server. This function will be called by the process main thread in an infinite loop The process will not use the classical ORB blocking event loop. It is the user responsability to code this function in a way that it implements some kind of blocking in order not to load the computer CPU. The following piece of code is an example of how you can use this feature:
_LOOP_NB = 1 def looping(): global _LOOP_NB print "looping", _LOOP_NB time.sleep(0.1) _LOOP_NB += 1 return _LOOP_NB > 100 def main(): py = tango.Util(sys.argv) # ... U = tango.Util.instance() U.server_set_event_loop(looping) U.server_init() U.server_run()
- Parameters
None
- Return
None
New in PyTango 8.1.0
-
set_polling_threads_pool_size
(self, thread_nb) → None¶ Set the polling threads pool size.
- Parameters
- thread_nb
(
int
) the maximun number of threads in the polling threads pool
- Return
None
New in PyTango 7.0.0
-
set_serial_model
(self, ser) → None¶ Set the serialization model.
- Parameters
- ser
(
SerialModel
) the new serialization model. The serialization model must be one of BY_DEVICE, BY_CLASS, BY_PROCESS or NO_SYNC
- Return
None
-
set_server_version
(self, vers) → None¶ Set the device server version.
- Parameters
- vers
(
str
) the device server version
- Return
None
-
set_trace_level
(self, level) → None¶ Set the process trace level.
- Parameters
- level
(
int
) the new process level
- Return
None
-
trigger_attr_polling
(self, dev, name) → None¶ Trigger polling for polled attribute. This method send the order to the polling thread to poll one object registered with an update period defined as “externally triggerred”
- Parameters
- dev
(
DeviceImpl
) the TANGO device- name
(
str
) the attribute name which must be polled
- Return
None
-