/* * File: ert_main.c * * Code generated for Simulink model 'SIL'. * * Model version : 1.150 * Simulink Coder version : 9.0 (R2018b) 24-May-2018 * C/C++ source code generated on : Wed Sep 30 08:44:27 2020 * * Target selection: ert_shrlib.tlc * Embedded hardware selection: Intel->x86-64 (Windows64) * Code generation objectives: Unspecified * Validation result: Not run */ #include #include /* This ert_main.c example uses printf/fflush */ #include "SIL.h" /* Model's header file */ #include "rtwtypes.h" #include "builtin_typeid_types.h" /* * Associating rt_OneStep with a real-time clock or interrupt service routine * is what makes the generated code "real-time". The function rt_OneStep is * always associated with the base rate of the model. Subrates are managed * by the base rate from inside the generated code. Enabling/disabling * interrupts and floating point context switches are target specific. This * example code indicates where these should take place relative to executing * the generated code step function. Overrun behavior should be tailored to * your application needs. This example simply sets an error status in the * real-time model and returns from rt_OneStep. */ void rt_OneStep(void); void rt_OneStep(void) { static boolean_T OverrunFlag = false; /* Disable interrupts here */ /* Check for overrun */ if (OverrunFlag) { rtmSetErrorStatus(SIL_M, "Overrun"); return; } OverrunFlag = true; /* Save FPU context here (if necessary) */ /* Re-enable timer or interrupt here */ /* Set model inputs here */ /* Step the model for base rate */ SIL_step(); /* Get model outputs here */ /* Indicate task complete */ OverrunFlag = false; /* Disable interrupts here */ /* Restore FPU context here (if necessary) */ /* Enable interrupts here */ } /* * The example "main" function illustrates what is required by your * application code to initialize, execute, and terminate the generated code. * Attaching rt_OneStep to a real-time clock is target specific. This example * illustrates how you do this relative to initializing the model. */ int_T main(int_T argc, const char *argv[]) { /* Unused arguments */ (void)(argc); (void)(argv); /* Initialize model */ SIL_initialize(); /* Simulating the model step behavior (in non real-time) to * simulate model behavior at stop time. */ while ((rtmGetErrorStatus(SIL_M) == (NULL)) && !rtmGetStopRequested(SIL_M)) { rt_OneStep(); } /* Disable rt_OneStep() here */ /* Terminate model */ SIL_terminate(); return 0; } /* * File trailer for generated code. * * [EOF] */