## Create Structures in MATLAB Function Blocks

You can create and use structures for input, output, local, persistent, or parameter variables in MATLAB Function blocks. Structures in MATLAB Function blocks can contain fields of any type and size, including mux signals, buses, and arrays of structures.

Before you create a structure, you must decide the scope of the MATLAB Function variable. See Create and Define MATLAB Function Block Variables.

### Input Variables

When you create structure for input variables, the MATLAB Function block determines the type, size, and complexity of the structure from the input signal. To define a structure for an input variable:

Create a

`Simulink.Bus`

object in the base workspace that defines the structure.Identify or add an input variable to the MATLAB Function block. Input variables have the

**Scope**property set to`Input`

.Set the variable

**Type**property to`Inherit: Same as Simulink`

or`Bus: <object name>`

. For`<object name>`

, enter the name of the`Simulink.Bus`

object that defines the structure properties.

Buses in a Simulink^{®} model appear inside MATLAB Function blocks as
structures.

### Output Variables

When you create structures for outputs variables, you create a
`Simulink.Bus`

object and then define the type, size, and complexity of the
variable in the MATLAB^{®} function code. The properties in the code and the object must match. To define
structures for outputs variables:

Create a

`Simulink.Bus`

object in the base workspace to define the structure.Identify or add output variables to the MATLAB Function block. Output variables have the

**Scope**property set to`Output`

.Set the

**Type**property to`Bus: <object name>`

. For`<object name>`

, enter the name of the`Simulink.Bus`

object that defines the structure.Initialize the output structure as a variable in the MATLAB function, as described in Structure Definition for Code Generation. Match the structure configuration of the output variable to the

`Simulink.Bus`

object, including the number, type, and sizes of each element.

Structure outputs from the MATLAB Function block appear as buses in Simulink models. MATLAB Function blocks support nonvirtual bus outputs but do not support virtual bus outputs.

### Local Variables

To define local variables that are structures, define the structure in the MATLAB function, as described in Structure Definition for Code Generation. You do not define
local variables in the **Symbols** pane, and you cannot modify the
properties in the Property Inspector. By default, MATLAB Function blocks
clear local variable values after each time step.

### Persistent Variables

To define persistent variables that are structures, declare the variable as persistent
in the function code. See `persistent`

and Initialize Persistent Variables in MATLAB Functions. For example, to
declare the persistent variable, `myVar`

, enter:

`persistent myVar`

Then define the variable structure in the MATLAB function. You do not define persistent variables in the
**Symbols** pane, and they do not have properties that you can modify in
the Property Inspector.

### Parameter Variables

To define parameter variables that are structures:

Create a structure variable in the base workspace, model workspace, or a masked subsystem that contains the MATLAB Function block.

Identify or add parameter variables to the MATLAB Function block. See Configure MATLAB Function Block Parameter Variables. Parameter variables have the

**Scope**property set to`Parameter`

. Match the names of the variables.

`fimath`

Properties of Nontunable Structure Parameters

The initial values of the structure determine the `fimath`

properties
for nontunable structure parameters that contain fixed-point values. The
`fimath`

properties of the MATLAB Function block that
you define in the Property Inspector do not specify these values.

### Global Variables

You can define global variables in MATLAB Function blocks to access
simulation data from `Simulink.Signal`

objects or Data Store
Memory blocks. See Use Global Data in MATLAB Function Blocks. To define global variables that are structures:

Create a

`Simulink.Bus`

object in the base workspace to define the structure.Identify or add global variables to the MATLAB Function block. Global variables have the

**Scope**property set to`Data Store Memory`

. Variables with this scope inherit their properties from the associated data in the Data Store Memory block or`Simulink.Signal`

object.Declare the global variable in the function code. For example, to declare the global variable

`myVar`

, enter:`global myVar`

For an example, see Write Buses From Data Store Memory to a MATLAB Function Block.

### Assign Values to Structures and Fields

After you define the structure, you can assign values to the structure, substructure, or field of the structure variable. Follow these guidelines:

Operation | Conditions |
---|---|

Assign one structure to another structure | You must define each structure with the same number, type, and size of
fields, either as `Simulink.Bus` objects in the base workspace or
locally as implicit structure declarations. |

Assign one structure to a substructure of a different structure | You must define the structure with the same number, type, and size of fields
as the substructure, either as `Simulink.Bus` objects in the base
workspace or locally as a structure declaration. |

Assign an element of one structure to an element of another structure | The elements must have the same type and size. |

For example, this table describes valid and invalid structure assignments based on the specifications for the model described in Read and Write Buses with a MATLAB Function Block:

Assignment | Valid or Invalid? | Rationale |
---|---|---|

`outbus = mystruct;` | Valid | The `Simulink.Bus` object `MainBus` defines
the structure `outbus` and the local definition of
`mystruct` matches the field properties of
`MainBus` . |

`outbus = inbus;` | Valid | The `Simulink.Bus` object, `MainBus` , defines
both `outbus` and `inbus` . |

`outbus1 = inbus.ele3;` | Valid | Because the `Simulink.Bus` object `SubBus`
defines both `outbus1` and `inbus.ele3` , they
have the same type and size. |

`outbus1 = inbus;` | Invalid | A different `Simulink.Bus` object defines structure
`outbus1` and `inbus` . |

### Limitations for Structures in MATLAB Function Blocks

You cannot use structures that contain cell arrays or classes for Simulink signals, parameters, or data store memory.

You cannot use variable-size data with arrays of buses. See Group Nonvirtual Buses in Arrays of Buses.