Buildings.Utilities.IO.Python_3_8.UsersGuide
User's Guide
Information
This package contains classes that call Python functions. The classes can be used to send data to Python functions, and to obtain data from Python functions. This allows for example to use Python to communicate with web services, with hardware, or to do other computations inside a Python module.
The code has been tested with Python 3.8 on Linux 64 bit and Windows 64 bit.
Software configuration to use classes from this package
To use classes from this package, a Python 3.8
runtime environment must be installed.
Also, the system environment variable
PYTHONPATH
may need to be set in order for Python
to find the modules that contain the functions.
These modules are stored in the directory
Buildings/Resources/Python-Sources
.
In addition, an environment variable (LD_LIBRARY_PATH
on Linux
and PATH
on Windows) may need to be set in order for a simulation
environment to find the dynamically linked libraries.
The table below gives hints if there are problems running models that use Python code.
System | Settings |
---|---|
Linux 64 bit |
If the examples do not translate or simulate, enter on a console the commands export PYTHONPATH=${PYTHONPATH}:"Path_To_Buildings_Library"/Resources/Python-Sources export LD_LIBRARY_PATH=${LD_LIBRARY_PATH}:"Path_To_Buildings_Library"/Resources/Library/linux64 and restart the Modelica environment.
If this does not help, make sure whereis libpython3.8m.so On Ubuntu 20.04, this library can be installed with sudo apt-get install libpython3.8-dev |
Windows with Anaconda |
On Windows with Ananconda, prior to starting Dymola, you may need to set the PYTHONPATH using set PYTHONPATH=E:\modelica-buildings\Buildings\Resources\Python-Sources;C:\ProgramData\Anaconda3\lib
For Dymola, if the Python examples hang during simulation, you may want to run |
Dymola |
Because the Python libraries link to compiled C code, Dymola needs to be configured to generate code for 64-bit. This can be done by entering on the Dymola command line the assignment Advanced.CompileWith64=2 |
Type of Python functions
Two different types of Python functions are supported: Functions that do not need to pass Python objects between one invocation to another, and functions that need to pass a Python object from one invocation to another. For the first case, a Python function may be
def returnTwiceTheInput(xR): return 2.*xR
For the second case, a Python function may be
def incrementAndReturnACounter(i, obj): if obj == None: # Initialize the Python object obj = {'counter': i} else: # Use the python object obj['counter'] = obj['counter'] + i return [i, obj]
For the first case, set in the function
Buildings.Utilities.IO.Python_3_8.Functions.exchange
the input argument passPythonObject = false
,
and for the second case, set passPythonObject = true
.
The second case
allows for example to build up a Python data structure (or to instantiate a Python object),
and do computations on this object at each function invocation. For example,
a Model Predictive Control algorithm or a machine learning algorithm,
implemented in Python, could be fed with data at each time step.
It could then store this data
and use the current and its historical data to feed its algorithm.
Based on this algorithm, it could output a control signal for use in another Modelica model.
Number of values to read to Python and write from Python
The parameters nDblWri
(or nIntWri
or nStrWri
)
and nDblRea
(or nIntRea
) declare
how many double (integer or string) values should be written to, or read from, the Python function.
These values can be zero, in which case the Python function receives no
arguments for this data type, or it must return a list with zero elements.
However, because Modelica does not allow arrays with
zero elements, the arrays
dblWri
and dblRea
, respectively, must contain exactly one element
if nDblWri=0
or nDblRea=0
.
In this situation, dblWri
is a dummy argument that will not be written to Python,
and dblRea
contains a number that must not be used in any model.
Arguments of the Python function
The arguments of the python functions are, in this order,
floats, integers and strings (and the Python object if passPythonObject = true
).
If there is only one element of each data type, then a single value is passed.
If there are multiple elements of each data type, then they are stored in a list.
If there is no value of a data type (such as if nDblWri=0
), then the argument is not present.
Thus, if a data type is not present, then the function will not receive an empty list of this data type.
If there are no arguments at all, then the function takes no arguments
(except if passPythonObject = true
, in which case the only argument is the Python object).
The table below shows the list of arguments for various combinations where no, one or two double values, integers and strings are passed as an argument to a Python function.
- If
passPythonObject = false
:
nDblWri nIntWri nStrWri Arguments 1 0 0 1. 0 1 1 1, "a" 2 0 2 [1.0, 2.0], ["a", "b"] 1 1 1 1.0, 2, "a" 1 2 0 1.0 , [1, 2] 2 1 0 [1.0, 2.0], 1 2 2 2 [1.0, 2.0], [1, 2], ["a", "b"] - If
passPythonObject = true
:
nDblWri nIntWri nStrWri Arguments 1 0 0 1., pytObj 0 1 1 1, "a", pytObj 2 0 2 [1.0, 2.0], ["a", "b"], pytObj 1 1 1 1.0, 2, "a", pytObj 1 2 0 1.0 , [1, 2], pytObj 2 1 0 [1.0, 2.0], 1, pytObj 2 2 2 [1.0, 2.0], [1, 2], ["a", "b"], pytObj
wherepytObj
is the Python object.
Returns values of the Python function
The Python function must return their values in the following order:
-
If the function returns one or multiple double values, then the first return
value must be a double (if
nDblRea=1
) or a list of doubles (ifnDblRea > 1
). -
If the function returns one or multiple integer values, then the next return
value must be an integer (if
nIntRea=1
) or a list of integers (ifnIntRea > 1
). -
If
nDblRea = nIntRea = 0
, then the return values of the function, if any, are ignored.
The table below shows valid return types for various combinations where no, one or two double values and integer values are returned.
- If
passPythonObject = false
:
nDblRea nIntRea Return value 1 0 1. 0 1 1 2 0 [1.0, 2.0] 1 1 1.0, 2 1 2 1.0 , [1, 2] 2 1 [1.0, 2.0], 1 2 2 [1.0, 2.0], [1, 2] - If
passPythonObject = true
:
nDblRea nIntRea Return value 1 0 1., pytObj 0 1 1, pytObj 2 0 [1.0, 2.0], pytObj 1 1 1.0, 2, pytObj 1 2 1.0 , [1, 2], pytObj 2 1 [1.0, 2.0], 1, pytObj 2 2 [1.0, 2.0], [1, 2], pytObj
wherepytObj
is the Python object.
Pure Modelica functions (functions without side effects)
The functions that exchange data with Python are implemented as pure
Modelica functions.
Pure functions always return the same value if called repeatedly.
If these functions are used to call hardware sensors or web services,
they need to be called from a when
-equation.
See the Modelica language specification for an explanation of pure and impure functions.
Examples
Various examples are provided, and for each of these, the Python functions are stored in the directory
Buildings/Resources/Python-Sources
.
The examples Buildings.Utilities.IO.Python_3_8.Functions.Examples.Exchange and Buildings.Utilities.IO.Python_3_8.Functions.Examples.ExchangeWithPassPythonObject contains various calls to different Python functions without and with memory.
The example Buildings.Utilities.IO.Python_3_8.Examples.KalmanFilter shows how to implement in a Modelica block a call to a Python function. This Python function stores its memory on disk between invocations (which, in general, is not recommended).
The example Buildings.Utilities.IO.Python_3_8.Examples.SimpleRoom shows a similiar example. However, rather than using a file to store the room temperature and energy between invocations, the function returns an object with this information, and receives this object again in the next invocation.
Implementation notes
String values cannot be returned from a Python function.
The reason is that Dymola 2013 FD01 generates a compile time error
if a Modelica function returns (Real[nR], Integer[nI], String)
.
This will be fixed in Dymola 2014.
(Support request #14983.)
Extends from Modelica.Icons.Information (Icon for general information packages).