In the Symbols pane, you can view and manage data, events, and messages while working in the Stateflow® Editor. In the Modeling tab, select Symbols Pane.
From the Symbols pane you can:
Add and delete data, events, and messages.
Set the object type and scope.
Change the port number.
Edit the name of an object and update all instances of the object name in the chart.
Undo and redo changes in type, name, and port number.
Detect unused objects.
Detect and fix unresolved objects.
Trace between objects in the window and where the objects are used in the chart.
View and edit object properties in the Property Inspector.
The rows in the Symbols pane display object hierarchy. Expand an object in the window to see data, events, and messages parented by that object. By default, all the nongraphical objects in a chart are listed in the window. To view only the objects that are used at the current level of hierarchy and below, select the icon. To search for specific symbols, type in the Filter search box .
To add a nongraphical object to a Stateflow block, in the Symbols pane:
Select one of these icons.
In the row for the new object, under TYPE, choose the object type.
Edit the name of the object.
For input and output objects, under PORT, choose a port number.
To view the object in the Property Inspector, right-click the object and select
In the Property Inspector, modify the object properties.
After you add objects through the Symbols pane, the objects appear as unused until you reference them in your Stateflow design.
In the Symbols pane, you can modify the name, type, and port number of Stateflow objects.
Edit the name of objects in the NAME field. When you rename an object,
select Shift+Enter to rename all instances of the object throughout
the state machine. To change the type or port number of an object, click the corresponding field
and select from the available options. To delete an object from the state machine, right-click
the object and select
Symbols that appear in your chart but that you have not added as data, events, or messages are undefined or unresolved. The Symbols pane indicates unused data, messages, functions, and events with a yellow warning icon . You can resolve undefined symbols by using the Symbols pane or the Symbol Wizard.
The following types of unused data are not detected:
Inputs and outputs of MATLAB® functions
Data of parameter scope in a chart that contains atomic subcharts
For each undefined symbol, based on the symbol usage in the chart, Stateflow infers these properties:
To delete unused objects, right-click the object in the Symbols pane and select
Delete. By removing objects that have no effect on simulation, you
can reduce the size of your model. In this chart, after you add
first appears as unused. After you reference
data in the chart, the warning
As you edit your chart, Stateflow detects undefined symbols and marks them in the Symbols pane with a red error icon . For each undefined symbol, the TYPE column displays the class and scope inferred from the usage in the chart. You can resolve undefined symbols individually or collectively.
To define a symbol with the inferred class and scope, click the error icon and select Fix.
To define a symbol with a different class or scope, select another combination of class and scope from the TYPE drop-down list.
To resolve all of the undefined symbols with their inferred classes and scopes, click the Resolve undefined symbols button .
If your chart contains any undefined symbols when you update the chart, update the model, or simulate the model, the Symbol Wizard opens and lists the undefined symbols. For each undefined symbol, the Class and Scope columns display the class and scope inferred from the usage in the chart. You can accept, modify, or reject each symbol definition that the Symbol Wizard suggests.
To accept a definition with the inferred class and scope, select the check box in front of the symbol.
To modify a definition, select a different class or scope from the Class or Scope drop-down lists.
To reject a definition, clear the check box in front of the symbol.
After you edit the symbol definitions, add the symbols to the Stateflow hierarchy by clicking OK.
Detection of symbols defined in custom code depends on the model configuration parameter Import custom code.
If you select Import custom code, the Stateflow parser tries to find unresolved chart symbols in the custom code. If the custom code does not define these symbols, they appear in the Symbol Wizard.
If you do not select Import custom code, the Stateflow parser considers unresolved data symbols in the chart as defined in the custom code. If the custom code does not define these symbols, simulating and generating code from the model results in an error.
The Import custom code option is not available for charts that use MATLAB as the action language. For more information, see Import custom code (Simulink).
Stateflow provides traceability between the state machine and nongraphical symbols. When you select a symbol in the Symbols pane, Stateflow highlights sections of the chart that access that symbol. When you select an object in your chart, Stateflow highlights the symbols that the object uses.
To control when the objects and symbols are highlighted, select the preference button . A drop-down menu appears.
For Stateflow to highlight symbols in the Symbols pane that an object uses, select Highlight used symbols. If you want Stateflow to highlight objects in the chart that use an symbol, select Highlight uses on diagram. With Highlight uses on diagram, you can choose to highlight:
All uses of the symbol in your chart.
Objects from where the symbol is read.
Objects to where the symbol is written.
For example, open the model
sf_tetris2 and double-click the chart
TetrisLogic. In the Symbols pane, when you select constant
ARENA_HEIGHT, the states and functions that use
ARENA_HEIGHT are highlighted.
To see the uses of the constant
ARENA_HEIGHT, open the function
You can also select a graphical object such as a state, transition, or function in the
chart and view the symbols that the object uses. For example, in the chart
TetrisLogic, expand the symbol
MainArea in the Symbols
pane. If you select the state
FreezeShape in the chart, then the local data
shape and the function
freeze() are highlighted in the
Symbols pane. This highlighting indicates that those objects are used inside the state
When in debugging mode, the values of each data are displayed in the VALUE column of the Symbols pane. Stateflow updates the values periodically when the simulation is running. The value column highlights changes to data values as the changes occur. When the debugger is stopped at a breakpoint, you can update the initial value or change the value of a symbols in either the command prompt or the Symbols pane.
|Data or Message||Update Initial Value||Update During Debugging|
|Data Store Memory||No||Yes|
For bus elements, you can change the value of a symbols in either the command prompt or the Symbols pane.
|Bus Element||Update Initial Value||Update During Debugging|
|Data Store Memory||No||Yes|
In the Symbols pane multidimensional arrays appear as the data type and size of the array. If the array does not exceed more than 100 elements, hover over the symbol to view the elements. For arrays that contain more than 100 elements, view the elements by using the command prompt.
When simulation is paused, hover over messages in the canvas to view payloads in the queue. This is similar to the hover functionality on the canvas. For other non-scalar objects, the size and data type appear. To see these values, use the Watch window. See Inspect and Modify Data and Messages While Debugging and Track Data in the Watch List.
You cannot add data, events, or messages the Symbols pane if they are:
Parented by a state.
Inside a function.
Parented by a state machine.
Data and events parented by the state machine are also not visible in the Symbols pane. To add these types of objects, use the Model Explorer. As a best practice, avoid using machine-parented data.
When you modify the code in a MATLAB function, the changes are not updated in the Symbols pane until after you save the MATLAB function.
You cannot undo or redo changes to input and output for MATLAB functions.
You cannot recover deleted data, events, or messages from a state transition table.
You cannot undo scope changes to data parented by graphical functions, MATLAB functions, and truth tables.
You cannot undo renaming an object for truth tables.
When you delete data for objects contained in a Simulink based state, the object remains in your Simulink based state and the data symbol is shown as undefined in the Symbols pane.