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The programming in many of your projects will consist of C# or VB.Net 100% managed code that is designed to run in the Microsoft .NET framework.
FactoryStudio now includes Python as a programming language you can use in Code Behind, Scripts, Tasks, and interactively via external Python code.
Python is an interpreted, high-level, general purpose language. It is a popular language for machine learning, which is useful for things like Predictive Maintenance algorithms.
Factory Studio can use any version of Python, 3.x or the older and past end-of-life 2.x.
Users can use Python in three different ways:
The first step to use Python programming is to include a link to the version of the Python interpreter you want to use for your project.
You can download Python here.
During the installation of the Python Engine, we strongly recommend choosing the option to “Install for all users”.
Now you need to add the interpreter to your project. Navigate to Info > Settings tab and search for the Python field. Click on the button, browse to find the installed Python Engine, and select the python.exe file.
Python for .NET is a package that gives Python programmers nearly seamless integration with the .NET Common Language Runtime (CLR) and provides a powerful application scripting tool for .NET developers.
Python for .NET allows Python code to interact with the CLR and may be used to embed Python into a .NET application. The installation files and documentation are available here.
Check to see whether your Python and Windows versions are 32-bit or 64-bit before you download Python for .NET. This is only required if you intend to use the Python namespace in Studio Scripts and Display CodeBehinds.
To create scripts based on the Python programming language, navigate to Scripts > Tasks, select a new, blank row, and double-click on the Code column. After clicking Code, a combobox will appear. Select Python from the combobox.
Once a new task is created, the language type cannot be altered through the Code column.
After creating a new script task, you need to edit it in the CodeEditor tab.
The configurations settings are detailed below:
After making any changes, click the Apply Changes button.
The Python namespace can be used in any script editor (Tasks, Classes, or CodeBehind) inside your project environment. To use the Python namespace, you simply need to install the Python.NET package, available on github.
The Python namespace provides several .Net methods that interact with Python codes and objects. See some of those methods below:
string ExecutePyFile(string pyFileName, Dictionary<string, object> locals = null, bool keepValuesAsPython = false) string pyFileName = Python file Dictionary<string, object> locals = Local variables inside Python code. Default is null. bool keepValuesAsPython = Keep retuned values as Python objects or convert to .NET objects. Default is false. string returns = If success return null else string contains error.
string ExecuteCode(string code, string workingDirectory = null, Dictionary<string, object> locals = null, bool keepValuesAsPython = false) string code = py file name string workingDirectory = Working directory. It will be added in 'sys.path' Dictionary<string, object> locals = Local variables inside Python code. Default is null. bool keepValuesAsPython = Keep retuned values as Python objects or convert to .NET objects. Default is false. string return = If success return null else string contains error.
public static object FromPython(object value) object value = Python value object returns = NET value
public static void CopyPythonObjectToTag(object source, string tagName) object source = Python object. string tagName = Tag Array or User Template.
public static void CopyTagToPythonObject(string tagName, object target) string tagName = Tag Array or User Template. object target = Python object.
public static object CreatePythonObjectFromPyFile(string pyFileName, string className, object[] parameters = null, string tagName = null) string pyFileName = Python file name containg the definition of Python class. string className = Python class name. object[] parameters = Parameters for Python class while creating Python object. string tagName = Tag name (Optional, Tag Array or User Template). If tag exists then copy all values to new Python object. object returns = Reference to new Python object.
public static IDictionary<string, object> GetAttributesPythonObject(object pythonObject, bool keepValuesAsPython = false) object pythonObject = Python object/ bool keepValuesAsPython = Keep retuned values as Python objects or convert to .NET objects. Default is false. IDictionary<string, object> = Dictionary contains attributes (name and value).
public static void SetAttributesPythonObject(object pythonObject, IDictionary<string, object> dic) object pythonObject = Python object. IDictionary<string, object> = Dictionary contains attributes (name and value) for setting.
public static string DumpPythonObjectToString(object pythonObject) object pythonObject = Python object. string returns = Dump information of object.
If you need to install other Python modules and libraries (such as numpy, pythonnet, matplotlib, etc.), you must install them in the same location as Python Engine (python.exe).
All of the methods listed above are disabled for Mono projects and HTML5 displays.
You can create code in the Python environment and use the TKDataAccess.py file to interact with the projects.
Tatsoft provides the TKDataAccess.py file. When you use it, you need to make sure it is installed in the same folder as FactoryStudio.
Below are some methods from TKDataAccess.py that you can use:
Connect(runtimeHostAddress, userName, password): runtimeHostAddress = IP address or server name userName = User name. password = Password
GetConnectionStatus ()
IsConnected ()
Disconnect()
SetSyncFlag(flag): flag = True wait value from server, false does not wait value from server.
GetObjectValue(name) name = TagName
SetObjectValue(name, newValue) name = TagName newValue = new value to set in the tag.
ExecuteClassMethodOnServer(className, methodName, parameters) className = name of the class in the remote project. methodName = name of the method in the remote class. parameters = if any, necessary to the invoke the remove method.
The sections below contain different ways to use Python in a project.
In this example, there are two input parameters called val1 and val2 that will be summarized and the result will be stored in the result variable.
The code that executes this action is presented below.
//Defining where locate the .py files that will use string pyDefinition = @Info.GetExecutionFolder() + @"\Calc\algorithm.py"; string pyWorkingFolder = @Info.GetExecutionFolder(); try { string error; Dictionary<string, object> param = new Dictionary<string, object>(); //Defining the used imports from Python string imports = ""; imports += "import sys" + Environment.NewLine; imports += "from Calc.algorithm import Algorithm" + Environment.NewLine; //Creating a .Net object from a Python object object algorithm =Python.CreatePythonObjectFromPyFile(pyDefinition, "Algorithm", null); //Creating a .Net object from a Python object object val1 = Python.ToPython(@Tag.val1); object val2 = Python.ToPython(@Tag.val2); //Setting the parameters with the .Net objects that will be used to execute the Python code param.Clear(); param.Add("algorithm", algorithm); param.Add("val1", val1); param.Add("val2", val2); //Call method to execute Python code error = Python.ExecuteCode("result = algorithm.Sum(val1, val2)", pyWorkingFolder, param, true); if (!string.IsNullOrEmpty(error)) throw new Exception(error); //Set .Net object with result Python object , return of algorithm.Sum Python method object result = param["result"]; //Copy .Net object to Tag Python.CopyPythonObjectToTag(result, @Tag.result.GetName()); } catch (Exception ex) { @Info.Trace("Python: " + (ex.InnerException == null ? ex.Message : ex.InnerException.Message)); }
In this scenario, we configure a task for the Python language. In the Python file name field, you need to set the Python file that will be executed. In this example, we used the Main2.py.
In the Standard Output field, we selected a tag called output. This tag type must be text. In the Arguments field, we selected another type of tag called script.
Using the print method, the Python file called Main2.py retrieves the input data and outputs its value inside a string. The sys.argv will receive the Tag.script and the output tag will receive all the values from the print() method.
import sys value = sys.argv[1] print("Value: " + value) print("That’s all folks!")
In this example, you need to call a file named Main.py, which contains code that copies the content from tag1 (source) to tag2 (target).
The Python code using the TKDataAccess.py module in Main.py is described below:
import sys from Extensions.TKDataAccess import TKDataAccess dataAccess = TKDataAccess() connectionStatus = dataAccess.Connect("127.0.0.1:3101", "guest", "") print("Connection: " + connectionStatus) if dataAccess.IsConnected() : ret = dataAccess.GetObjectValue("Tag.tag1") print("Value: " + str(ret)) dataAccess.SetObjectValue("Tag.tag2", ret) dataAccess.Disconnect()
Then, you need to create the code that is shown below or create a Python Script Task that executes the Main.py file, which contains the calling for TKDataAccess shown above. So here, we will use the Python namespace as previously described.
The code is shown below.
try { string error = Python.ExecutePyFile(@Info.GetExecutionFolder() + @"\Main.py", null, true); if (!string.IsNullOrEmpty(error)) throw new Exception(error); } catch (Exception ex) { @Info.Trace("Python: " + (ex.InnerException == null ? ex.Message : ex.InnerException.Message)); }
To use the Python namespace, you need to install Python for .NET.