📄 maswitch.c
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/*
* sfuntmpl_basic.c: Basic 'C' template for a level 2 S-function.
*
* -------------------------------------------------------------------------
* | See matlabroot/simulink/src/sfuntmpl_doc.c for a more detailed template |
* -------------------------------------------------------------------------
*
* Copyright 1990-2002 The MathWorks, Inc.
* $Revision: 1.27 $
*/
/*
* You must specify the S_FUNCTION_NAME as the name of your S-function
* (i.e. replace sfuntmpl_basic with the name of your S-function).
*/
#define S_FUNCTION_NAME MASwitch
#define S_FUNCTION_LEVEL 2
#include "simstruc.h"
#define maswitchs_macro *mxGetPr(ssGetSFcnParam(S,0))
#define manual_macro *mxGetPr(ssGetSFcnParam(S,1))
/* Error handling
* --------------
*
* You should use the following technique to report errors encountered within
* an S-function:
*
* ssSetErrorStatus(S,"Error encountered due to ...");
* return;
*
* Note that the 2nd argument to ssSetErrorStatus must be persistent memory.
* It cannot be a local variable. For example the following will cause
* unpredictable errors:
*
* mdlOutputs()
* {
* char msg[256]; {ILLEGAL: to fix use "static char msg[256];"}
* sprintf(msg,"Error due to %s", string);
* ssSetErrorStatus(S,msg);
* return;
* }
*
* See matlabroot/simulink/src/sfuntmpl_doc.c for more details.
*/
/*====================*
* S-function methods *
*====================*/
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* The sizes information is used by Simulink to determine the S-function
* block's characteristics (number of inputs, outputs, states, etc.).
*/
static void mdlInitializeSizes(SimStruct *S)
{ /* See sfuntmpl_doc.c for more details on the macros below */
ssSetNumContStates(S, 0);
ssSetNumDiscStates(S, 0);
if (!ssSetNumInputPorts(S, 1)) return;
ssSetInputPortWidth(S, 0, 1);
ssSetInputPortRequiredContiguous(S, 0, true);
ssSetInputPortDirectFeedThrough(S, 0, 1);
if (!ssSetNumOutputPorts(S, 1)) return;
ssSetOutputPortWidth(S, 0, 1);
ssSetNumSampleTimes(S, 1);
ssSetNumSFcnParams(S, 2);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
ssSetOptions(S, 0);
}
/* Function: mdlInitializeSampleTimes =========================================
* Abstract:
* This function is used to specify the sample time(s) for your
* S-function. You must register the same number of sample times as
* specified in ssSetNumSampleTimes.
*/
static void mdlInitializeSampleTimes(SimStruct *S)
{
ssSetSampleTime(S, 0, INHERITED_SAMPLE_TIME);
ssSetOffsetTime(S, 0, 0.0);
}
#define MDL_INITIALIZE_CONDITIONS /* Change to #undef to remove function */
#if defined(MDL_INITIALIZE_CONDITIONS)
/* Function: mdlInitializeConditions ========================================
* Abstract:
* In this function, you should initialize the continuous and discrete
* states for your S-function block. The initial states are placed
* in the state vector, ssGetContStates(S) or ssGetRealDiscStates(S).
* You can also perform any other initialization activities that your
* S-function may require. Note, this routine will be called at the
* start of simulation and if it is present in an enabled subsystem
* configured to reset states, it will be call when the enabled subsystem
* restarts execution to reset the states.
*/
static void mdlInitializeConditions(SimStruct *S)
{
}
#endif /* MDL_INITIALIZE_CONDITIONS */
#define MDL_START /* Change to #undef to remove function */
#if defined(MDL_START)
/* Function: mdlStart =======================================================
* Abstract:
* This function is called once at start of model execution. If you
* have states that should be initialized once, this is the place
* to do it.
*/
static void mdlStart(SimStruct *S)
{
real_T *y = ssGetOutputPortSignal(S,0);
*y=0;
}
#endif /* MDL_START */
static void mdlOutputs(SimStruct *S, int_T tid)
{
real_T *y = ssGetOutputPortRealSignal(S,0);
const real_T *automatic = ssGetInputPortRealSignal(S,0); /* automatic control signal */
int_T maswitchs;
real_T manual;
maswitchs = maswitchs_macro;
manual = manual_macro;
if((maswitchs)==0)
{
*y=(manual);
}
else if ((maswitchs)==1)
{
*y=(*automatic);
}
}
#define MDL_UPDATE /* Change to #undef to remove function */
#if defined(MDL_UPDATE)
/* Function: mdlUpdate ======================================================
* Abstract:
* This function is called once for every major integration time step.
* Discrete states are typically updated here, but this function is useful
* for performing any tasks that should only take place once per
* integration step.
*/
static void mdlUpdate(SimStruct *S, int_T tid)
{
}
#endif /* MDL_UPDATE */
#define MDL_DERIVATIVES /* Change to #undef to remove function */
#if defined(MDL_DERIVATIVES)
/* Function: mdlDerivatives =================================================
* Abstract:
* In this function, you compute the S-function block's derivatives.
* The derivatives are placed in the derivative vector, ssGetdX(S).
*/
static void mdlDerivatives(SimStruct *S)
{
}
#endif /* MDL_DERIVATIVES */
/* Function: mdlTerminate =====================================================
* Abstract:
* In this function, you should perform any actions that are necessary
* at the termination of a simulation. For example, if memory was
* allocated in mdlStart, this is the place to free it.
*/
static void mdlTerminate(SimStruct *S)
{
}
/*======================================================*
* See sfuntmpl_doc.c for the optional S-function methods *
*======================================================*/
/*=============================*
* Required S-function trailer *
*=============================*/
#ifdef MATLAB_MEX_FILE /* Is this file being compiled as a MEX-file? */
#include "simulink.c" /* MEX-file interface mechanism */
#else
#include "cg_sfun.h" /* Code generation registration function */
#endif
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