To generate C or C++ code from Simulink® models that include a Stateflow® chart, you must use Simulink Coder™. In addition to Simulink Coder, you may use Embedded Coder® to further enhance the generated code. Embedded Coder enhancements make your code more readable, more compact, and faster to execute.
When you generate code for a target, Stateflow automatically parses the Stateflow machine, which evaluates the graphical and nongraphical objects and data in each Stateflow machine against the supported chart notation and the action language syntax. For more information, see Detect Common Modeling Errors During Chart Simulation.
Simulink Coder allows you to generate C and C++ code from models that contain Stateflow charts. You can then use the generated code for real-time and non-real-time applications, including:
Hardware-in-the-loop (HIL) testing
Using Simulink Coder also allows you access to Classic Accelerator and Rapid Accelerator modes. Accelerator modes work by generating target code, which is then used for execution. For more information about these modes, see How Acceleration Modes Work.
HIL testing allows you to test your controller design and determine if your physical system (plant) model is valid. For more information about HIL testing, see What Is Hardware-In-The-Loop Simulation? (Simscape).
To get started setting up a model for code generation with Simulink Coder, see Configure Model and Generate Code (Simulink Coder).
With the addition of Embedded Coder you can generate C or C++ code that is more compact, easier to read, and faster to run. Embedded Coder additionally extends the abilities of Simulink Coder by allowing you control over generated functions, files, and data. Further, Embedded Coder enables easy integration for legacy code, data types, and calibration parameters. Embedded Coder supports software standards for:
Embedded Coder also provides support packages with advanced optimizations and device drivers for specific hardware.
To get started setting up a model for code generation with Embedded Coder, see Generate Code by Using the Quick Start Tool (Embedded Coder).
This restriction prevents long parameter lists from appearing in the code generated for a graphical function. You can access local data that resides in the same chart as the graphical function. For more information, see Reuse Logic Patterns by Defining Graphical Functions.
Additionally, Embedded Coder does not support the use of code replacement libraries for machine-parented data. For more information, see Code You Can Replace From Simulink Models (Embedded Coder).
When you use a graphical function in a Stateflow chart, select
Function for the property Function
Inline Option. Otherwise, the code generated for a graphical
function may not appear as you want. For more information, see Specify Properties of Graphical Functions.
If you use more than one trigger, you generate multiple code statements to handle rising or falling edge detections. If multiple triggers are required, use function-call events instead. For more information, see Activate a Stateflow Chart by Sending Input Events.
When you use a bus object, you reduce the number of parameters in the parameter list of a generated function. This guideline also applies to output signals of a chart. For more information, see Define Stateflow Structures.
The code generated for discrete charts that are not inside a triggered or enabled subsystem uses integer counters to track time instead of Simulink provided time. The generated code uses less memory, and enables code for use in Software-in-the-Loop (SIL) and Processor-in-the-Loop (PIL) simulation modes.
This table directs you to information about code generation based on your goals.
Simulink Coder Documentation
Embedded Coder Documentation
Generate C/C++ source code
Code Generation Basics (Simulink Coder)
Code Generation Basics (Embedded Coder)
Generate C/C++ source code and build executable
Build Process (Simulink Coder)
Build Process (Embedded Coder)
Integrate external code
External Code Integration (Simulink Coder)
Code Integration (Embedded Coder)
Include external code only for library charts in a portable, self-contained library for use in multiple models
Integrate External Code for Library Charts (Simulink Coder)
Integrate External Code for Library Charts (Embedded Coder)
Optimize generated code
Reduce Memory Usage for Boolean and State Configuration Variables (Simulink Coder)
Reduce Memory Usage for Boolean and State Configuration Variables (Embedded Coder)
Traceability comments provide a way to:
Verify generated code. You can identify which Stateflow object corresponds to a line of code and track code from different objects that you have or have not reviewed.
Include comments in code generated for large-scale models. You can identify objects in generated code and avoid manually entering comments or descriptions.
To enable traceability comments, you must have Embedded Coder or HDL Coder™ software. For C/C++ code generation, comments appear in the generated
code for embedded real-time (
ert) based targets only. For more
information, see Trace Stateflow Elements in Generated Code (Embedded Coder) and Navigate Between Simulink Model and HDL Code by Using Traceability (HDL Coder).