/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS);
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) {
return; /* Parameter mismatch will be reported by Simulink */
}
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
ssSetInputPortWidth(S, 0, INPUT_0_WIDTH); /* */
ssSetInputPortDataType(S, 0, SS_UINT8);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
/*Input Port 1 */
ssSetInputPortWidth(S, 1, INPUT_1_WIDTH);
ssSetInputPortDataType(S, 1, SS_UINT8);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
/*Input Port 2 */
ssSetInputPortWidth(S, 2, INPUT_2_WIDTH); /* */
ssSetInputPortDataType(S, 2, SS_UINT8);
ssSetInputPortComplexSignal(S, 2, INPUT_2_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 2, INPUT_2_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 2, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
/* Output Port 0 */
ssSetOutputPortWidth(S, 0, OUTPUT_0_WIDTH);
ssSetOutputPortDataType(S, 0, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
/* Output Port 1 */
ssSetOutputPortWidth(S, 1, OUTPUT_1_WIDTH);
ssSetOutputPortDataType(S, 1, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 1, OUTPUT_1_COMPLEX);
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
ssSetSimulinkVersionGeneratedIn(S, "8.4");
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
static void mdlInitializeSizes(SimStruct *S)
{
ssSetNumSFcnParams(S, NUM_PARAMS);
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) return;
/* Inputs: */
if (!ssSetNumInputPorts(S, 2)) return;
ssSetInputPortDataType(S, 0, DYNAMICALLY_TYPED);
ssSetInputPortDataType(S, 1, DYNAMICALLY_TYPED);
if(!ssSetInputPortDimensionInfo(S, 0, DYNAMIC_DIMENSION)) return;
if(!ssSetInputPortDimensionInfo(S, 1, DYNAMIC_DIMENSION)) return;
ssSetInputPortFrameData(S, 0, FRAME_INHERITED);
ssSetInputPortFrameData(S, 1, FRAME_INHERITED);
ssSetInputPortComplexSignal(S, 0, COMPLEX_INHERITED);
ssSetInputPortComplexSignal(S, 1, COMPLEX_INHERITED);
ssSetInputPortDirectFeedThrough(S, 0, 1);
ssSetInputPortDirectFeedThrough(S, 1, 1);
ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetInputPortOptimOpts(S, 1, SS_REUSABLE_AND_LOCAL);
ssSetInputPortOverWritable(S, 0, 1);
ssSetInputPortOverWritable(S, 1, 1);
/* Outputs: */
if (!ssSetNumOutputPorts(S, 1)) return;
ssSetOutputPortDataType(S, 0, DYNAMICALLY_TYPED);
if(!ssSetOutputPortVectorDimension(S, 0, 1)) return;
ssSetOutputPortFrameData(S, 0, FRAME_NO);
ssSetOutputPortComplexSignal(S, 0, COMPLEX_INHERITED);
ssSetOutputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetNumSampleTimes(S, 1);
/* specify the sim state compliance to be same as a built-in block */
ssSetSimStateCompliance(S, USE_DEFAULT_SIM_STATE);
ssSetOptions(S,
SS_OPTION_WORKS_WITH_CODE_REUSE |
SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_CAN_BE_CALLED_CONDITIONALLY |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_NONVOLATILE);
}
/* Function: propPortComplexity ===========================================
*/
void propPortComplexity(SimStruct *S)
{
CSignal_T cY = ssGetOutputPortComplexSignal( S, 0);
CSignal_T cU = ssGetInputPortComplexSignal( S, 0);
/* if input is complex, then output must be complex
*/
if ( cU == COMPLEX_YES )
{
/* if output complexity is not known then set it
*/
if ( cY == COMPLEX_INHERITED )
{
ssSetOutputPortComplexSignal(S, 0, COMPLEX_YES);
}
/* if the output is real, then an error has occurred
*/
else if ( cY == COMPLEX_NO )
{
ssSetErrorStatus(S,"Output is REAL, but input is COMPLEX.");
return;
}
}
/* if input is real then output must be real
*/
else if( cU == COMPLEX_NO )
{
/* if output complexity is not known then set it
*/
if ( cY == COMPLEX_INHERITED )
{
ssSetOutputPortComplexSignal(S, 0, COMPLEX_NO);
}
/* if the output is complex, then an error has occurred
*/
else if ( cY == COMPLEX_YES )
{
ssSetErrorStatus(S,"Output is COMPLEX, but input is REAL.");
return;
}
}
else /* Input is COMPLEX_INHERITED) */
{
if ( cY == COMPLEX_NO )
{
ssSetInputPortComplexSignal(S, 0, COMPLEX_NO );
}
else if ( cY == COMPLEX_YES )
{
ssSetInputPortComplexSignal(S, 0, COMPLEX_YES );
}
}
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS);
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) {
return; /* Parameter mismatch will be reported by Simulink */
}
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
inputDimsInfo.width = INPUT_0_WIDTH;
ssSetInputPortDimensionInfo(S, 0, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 0, INPUT_0_WIDTH, INPUT_DIMS_0_COL);
ssSetInputPortFrameData(S, 0, IN_0_FRAME_BASED);
ssSetInputPortDataType(S, 0, SS_SINGLE);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
/*Input Port 1 */
inputDimsInfo.width = INPUT_1_WIDTH;
ssSetInputPortDimensionInfo(S, 1, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 1, INPUT_1_WIDTH, INPUT_DIMS_1_COL);
ssSetInputPortFrameData(S, 1, IN_1_FRAME_BASED);
ssSetInputPortDataType(S, 1, SS_INT32);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
static void mdlInitializeSizes( SimStruct *S )
/* ======================================================================== */
{
int_T port;
/* set number of expected parameters and check for a mismatch. */
ssSetNumSFcnParams( S, NUM_PARAMS );
#if defined(MATLAB_MEX_FILE)
if ( ssGetNumSFcnParams( S ) == ssGetSFcnParamsCount( S ) )
{
mdlCheckParameters( S );
if ( ssGetErrorStatus( S ) != NULL )
return;
}else {
return;
}
#endif
/* sampling */
ssSetNumSampleTimes( S, PORT_BASED_SAMPLE_TIMES );
/* Set number of input ports and tunability */
ssSetSFcnParamTunable( S, DEVICE_INDEX, SS_PRM_NOT_TUNABLE );
/* set the resulting number of ports */
if ( !ssSetNumInputPorts( S, 1 ) )
return;
port = 0;
{
const Frame_T inputsFrames = ( (double) mxGetScalar( ssGetSFcnParam( S, USE_FRAMES ) ) > 0.0) ? FRAME_YES : FRAME_NO;
double sample_time = 1 / mxGetScalar( ssGetSFcnParam( S, SAMPLE_RATE ) );
const int_T buf_length = (int_T) (double) mxGetScalar( ssGetSFcnParam( S, FRAME_LENGTH ) );
const time_T period = (time_T) (sample_time * buf_length);
ssSetInputPortMatrixDimensions( S, port, buf_length, 1 );
ssSetInputPortComplexSignal( S, port, COMPLEX_YES );
ssSetInputPortDataType( S, port, SS_DOUBLE );
ssSetInputPortFrameData( S, port, inputsFrames );
ssSetInputPortDirectFeedThrough( S, port, 1 );
ssSetInputPortSampleTime( S, port, period );
ssSetInputPortOffsetTime( S, port, 0.0 );
}
/* Set number of output ports */
if ( !ssSetNumOutputPorts( S, 0 ) )
return;
/* data port properties */
/* Prepare work Vectors */
ssSetNumPWork( S, P_WORK_LENGTH );
ssSetNumIWork( S, I_WORK_LENGTH );
ssSetNumRWork( S, R_WORK_LENGTH );
ssSetNumModes( S, 0 );
ssSetNumNonsampledZCs( S, 0 );
/* Specify the sim state compliance to be same as a built-in block */
ssSetSimStateCompliance( S, USE_DEFAULT_SIM_STATE );
ssSetOptions( S, 0 );
}
void mdlInitializeSizes(SimStruct *S)
/* ======================================================================== */
{
/* parameters */
ssSetNumSFcnParams(S, NUM_PARAMS);
#if defined(MATLAB_MEX_FILE)
if (ssGetNumSFcnParams(S) == ssGetSFcnParamsCount(S)) {
mdlCheckParameters(S);
if (ssGetErrorStatus(S) != NULL) return;
} else
return;
#endif
ssSetSFcnParamTunable(S, FREQUENCY, SS_PRM_SIM_ONLY_TUNABLE);
ssSetSFcnParamTunable(S, BANDWIDTH, SS_PRM_NOT_TUNABLE);
ssSetSFcnParamTunable(S, TXVGA_GAIN, SS_PRM_SIM_ONLY_TUNABLE);
/* ports */
ssSetNumSampleTimes(S, 1);
if (!ssSetNumOutputPorts(S, 0) || !ssSetNumInputPorts(S, 1)) return;
ssSetInputPortWidth(S, 0, DYNAMICALLY_SIZED);
ssSetInputPortComplexSignal(S, 0, COMPLEX_YES);
ssSetInputPortDataType(S, 0, SS_INT8);
ssSetInputPortDirectFeedThrough(S, 0, true);
ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
/* work Vectors */
ssSetNumPWork(S, P_WORK_LENGTH);
ssSetNumIWork(S, 0);
ssSetNumRWork(S, NUM_PARAMS);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
ssSetSimStateCompliance(S, USE_DEFAULT_SIM_STATE);
ssSetOptions(S, 0);
}
static void mdlSetInputPortComplexSignal(SimStruct *S,
int_T port,
int_T iPortComplexSignal)
{
int_T oPortComplexSignal = ssGetOutputPortComplexSignal(S,0);
/* Set the complex signal of the input ports */
ssSetInputPortComplexSignal(S, port, iPortComplexSignal);
if(iPortComplexSignal == COMPLEX_YES){
/* Output port must be a complex signal */
if(oPortComplexSignal == COMPLEX_INHERITED){
ssSetOutputPortComplexSignal(S, 0, COMPLEX_YES);
}else if(oPortComplexSignal == COMPLEX_NO){
ssSetErrorStatus(S, "Output port must be complex.");
}
}else if(oPortComplexSignal != COMPLEX_NO){
/*
* The current input port is a real signal. If the other input port
* is a real signal, the output port must be a real signal.
*/
int_T otherPort = (port == 0)? 1 : 0;
int_T otherPortComplexSignal =
ssGetInputPortComplexSignal(S, otherPort);
if(otherPortComplexSignal == COMPLEX_NO){
/* Both input ports are real signals */
if(oPortComplexSignal == COMPLEX_INHERITED){
ssSetOutputPortComplexSignal(S, 0, COMPLEX_NO);
}else if(oPortComplexSignal == COMPLEX_YES){
ssSetErrorStatus(S, "Output port must be real.");
}
}
}
}
/* Function: mdlSetInputPortComplexSignal ====================================
*/
static void mdlSetInputPortComplexSignal(SimStruct *S,
int portIndex,
CSignal_T cSignalSetting)
{
ssSetInputPortComplexSignal( S, portIndex, cSignalSetting);
propPortComplexity(S);
} /* mdlSetInputPortComplexSignal */
static void set_input_port (SimStruct *S, int_T num, DTypeId type)
{
ssSetInputPortWidth (S, num, 1);
ssSetInputPortDataType (S, num, type);
ssSetInputPortComplexSignal (S, num, COMPLEX_NO);
ssSetInputPortDirectFeedThrough (S, num, 1);
ssSetInputPortRequiredContiguous (S, num, 1); /*direct input signal access*/
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS); /* Number of expected parameters */
#if defined(MATLAB_MEX_FILE)
if (ssGetNumSFcnParams(S) == ssGetSFcnParamsCount(S)) {
mdlCheckParameters(S);
if (ssGetErrorStatus(S) != NULL) {
return;
}
} else {
return; /* Parameter mismatch will be reported by Simulink */
}
#endif
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
inputDimsInfo.width = INPUT_0_WIDTH;
ssSetInputPortDimensionInfo(S, 0, &inputDimsInfo);
ssSetInputPortFrameData(S, 0, IN_0_FRAME_BASED);
ssSetInputPortDataType(S, 0, SS_UINT32);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
outputDimsInfo.width = OUTPUT_0_WIDTH;
ssSetOutputPortDimensionInfo(S, 0, &outputDimsInfo);
ssSetOutputPortFrameData(S, 0, OUT_0_FRAME_BASED);
ssSetOutputPortDataType(S, 0, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Call mdlCheckParameters to verify that the parameters are okay,
* then setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
ssSetNumSFcnParams(S, 0); /* Number of expected parameters */
ssSetNumContStates(S, 0);
ssSetNumDiscStates(S, 0);
if (!ssSetNumInputPorts(S, 1)) return;
ssSetInputPortDirectFeedThrough(S, 0, 1);
if (!ssSetNumOutputPorts(S, 6)) return;
ssSetInputPortWidth (S, 0, DYNAMICALLY_SIZED);
ssSetInputPortComplexSignal(S, 0, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 0, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 0, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 1, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 1, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 2, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 2, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 3, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 3, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 4, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 4, COMPLEX_INHERITED);
ssSetOutputPortWidth (S, 5, DYNAMICALLY_SIZED);
ssSetOutputPortComplexSignal(S, 5, COMPLEX_INHERITED);
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* specify the sim state compliance to be same as a built-in block */
ssSetSimStateCompliance(S, USE_DEFAULT_SIM_STATE);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S,
SS_OPTION_WORKS_WITH_CODE_REUSE |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_EXCEPTION_FREE_CODE);
}
static void mdlSetOutputPortComplexSignal(SimStruct *S, int_T port,
int_T oPortComplexSignal)
{
/* Set the complex signal of the output ports */
ssSetOutputPortComplexSignal(S, 0, oPortComplexSignal);
if(oPortComplexSignal == COMPLEX_NO){
/* All inputs must be real */
int_T i;
for (i = 0; i < 2; i++) {
int_T iPortComplexSignal = ssGetInputPortComplexSignal(S, i);
if(iPortComplexSignal == COMPLEX_INHERITED){
ssSetInputPortComplexSignal(S, i, COMPLEX_NO);
} else if(iPortComplexSignal == COMPLEX_YES){
ssSetErrorStatus(S, "The output port is a 'real' signal. "
"All input ports must be 'real' signals.");
}
}
}else{
/*
* Output port is a complex signal. Report an error, if all
* inputs are real.
*/
int_T i;
boolean_T realInputs = true;
for (i = 0; i < 2; i++) {
if(ssGetInputPortComplexSignal(S, i) != COMPLEX_NO){
realInputs = false;
break;
}
}
if(realInputs){
ssSetErrorStatus(S, "Input port and output port complex signal "
"mismatch. All input ports are 'real' signal. "
"The output port must be a 'real' signal.");
}
}
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS);
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) {
return; /* Parameter mismatch will be reported by Simulink */
}
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
/* Register xref_bus datatype for Input port 0 */
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
{
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "xref_bus", &dataTypeIdReg);
if(dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetInputPortDataType(S,0, dataTypeIdReg);
}
#endif
ssSetInputPortWidth(S, 0, INPUT_0_WIDTH);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
ssSetBusInputAsStruct(S, 0,IN_0_BUS_BASED);
ssSetInputPortBusMode(S, 0, SL_BUS_MODE); /*Input Port 1 */
/* Register x_bus datatype for Input port 1 */
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
{
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "x_bus", &dataTypeIdReg);
if(dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetInputPortDataType(S,1, dataTypeIdReg);
}
#endif
ssSetInputPortWidth(S, 1, INPUT_1_WIDTH);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
ssSetBusInputAsStruct(S, 1,IN_1_BUS_BASED);
ssSetInputPortBusMode(S, 1, SL_BUS_MODE);
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
/* Register u_bus datatype for Output port 0 */
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY)
{
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "u_bus", &dataTypeIdReg);
if(dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetOutputPortDataType(S,0, dataTypeIdReg);
}
#endif
ssSetBusOutputObjectName(S, 0, (void *) "u_bus");
ssSetOutputPortWidth(S, 0, OUTPUT_0_WIDTH);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
ssSetBusOutputAsStruct(S, 0,OUT_0_BUS_BASED);
ssSetOutputPortBusMode(S, 0, SL_BUS_MODE);
if (ssRTWGenIsCodeGen(S)) {
isSimulationTarget = GetRTWEnvironmentMode(S);
if (isSimulationTarget==-1) {
ssSetErrorStatus(S, " Unable to determine a valid code generation environment mode");
return;
}
isSimulationTarget |= ssRTWGenIsModelReferenceSimTarget(S);
}
/* Set the number of dworks */
if (!isDWorkPresent) {
if (!ssSetNumDWork(S, 0)) return;
} else {
if (!ssSetNumDWork(S, 3)) return;
}
if (isDWorkPresent) {
/*
* Configure the dwork 0 (u0."BUS")
*/
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY) {
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "xref_bus", &dataTypeIdReg);
if (dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetDWorkDataType(S, 0, dataTypeIdReg);
}
#endif
ssSetDWorkUsageType(S, 0, SS_DWORK_USED_AS_DWORK);
ssSetDWorkName(S, 0, "u0BUS");
ssSetDWorkWidth(S, 0, DYNAMICALLY_SIZED);
ssSetDWorkComplexSignal(S, 0, COMPLEX_NO);
/*
* Configure the dwork 1 (u1."BUS")
*/
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY) {
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "x_bus", &dataTypeIdReg);
if (dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetDWorkDataType(S, 1, dataTypeIdReg);
}
#endif
ssSetDWorkUsageType(S, 1, SS_DWORK_USED_AS_DWORK);
ssSetDWorkName(S, 1, "u1BUS");
ssSetDWorkWidth(S, 1, DYNAMICALLY_SIZED);
ssSetDWorkComplexSignal(S, 1, COMPLEX_NO);
/*
* Configure the dwork 2 (y0BUS)
*/
#if defined(MATLAB_MEX_FILE)
if (ssGetSimMode(S) != SS_SIMMODE_SIZES_CALL_ONLY) {
DTypeId dataTypeIdReg;
ssRegisterTypeFromNamedObject(S, "u_bus", &dataTypeIdReg);
if (dataTypeIdReg == INVALID_DTYPE_ID) return;
ssSetDWorkDataType(S, 2, dataTypeIdReg);
}
#endif
ssSetDWorkUsageType(S, 2, SS_DWORK_USED_AS_DWORK);
ssSetDWorkName(S, 2, "y0BUS");
ssSetDWorkWidth(S, 2, DYNAMICALLY_SIZED);
ssSetDWorkComplexSignal(S, 2, COMPLEX_NO);
}
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
/* 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)
{
/* Number of expected parameters */
ssSetNumSFcnParams(S, 0);
/*
* Set the number of pworks.
*/
ssSetNumPWork(S, 0);
/*
* Set the number of dworks.
*/
if (!ssSetNumDWork(S, 0))
return;
/*
* Set the number of input ports.
*/
if (!ssSetNumInputPorts(S, 1))
return;
/*
* Configure the input port 1
*/
ssSetInputPortDataType(S, 0, SS_INT32);
ssSetInputPortWidth(S, 0, 1);
ssSetInputPortComplexSignal(S, 0, COMPLEX_NO);
ssSetInputPortDirectFeedThrough(S, 0, 1);
ssSetInputPortAcceptExprInRTW(S, 0, 1);
ssSetInputPortOverWritable(S, 0, 1);
ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetInputPortRequiredContiguous(S, 0, 1);
/*
* Set the number of output ports.
*/
if (!ssSetNumOutputPorts(S, 1))
return;
/*
* Configure the output port 1
*/
ssSetOutputPortDataType(S, 0, SS_INT32);
ssSetOutputPortWidth(S, 0, 1);
ssSetOutputPortComplexSignal(S, 0, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 0, 1);
/*
* Register reserved identifiers to avoid name conflict
*/
if (ssRTWGenIsCodeGen(S)) {
/*
* Register reserved identifier for StartFcnSpec
*/
ssRegMdlInfo(S, (char*)"createAdder", MDL_INFO_ID_RESERVED, 0, 0, (void*)
ssGetPath(S));
/*
* Register reserved identifier for OutputFcnSpec
*/
ssRegMdlInfo(S, (char*)"adderOutput", MDL_INFO_ID_RESERVED, 0, 0, (void*)
ssGetPath(S));
/*
* Register reserved identifier for TerminateFcnSpec
*/
ssRegMdlInfo(S, (char*)"deleteAdder", MDL_INFO_ID_RESERVED, 0, 0, (void*)
ssGetPath(S));
/*
* Register reserved identifier for wrappers
*/
if (ssRTWGenIsModelReferenceSimTarget(S)) {
/*
* Register reserved identifier for StartFcnSpec for SimulationTarget
*/
ssRegMdlInfo(S, (char*)"sldemo_sfun_adder_cpp_wrapper_start",
MDL_INFO_ID_RESERVED, 0, 0, (void*) ssGetPath(S));
/*
* Register reserved identifier for OutputFcnSpec for SimulationTarget
*/
ssRegMdlInfo(S, (char*)"sldemo_sfun_adder_cpp_wrapper_output",
MDL_INFO_ID_RESERVED, 0, 0, (void*) ssGetPath(S));
/*
* Register reserved identifier for TerminateFcnSpec for SimulationTarget
*/
ssRegMdlInfo(S, (char*)"sldemo_sfun_adder_cpp_wrapper_terminate",
MDL_INFO_ID_RESERVED, 0, 0, (void*) ssGetPath(S));
}
}
/*
* This S-function can be used in referenced model simulating in normal mode.
*/
ssSetModelReferenceNormalModeSupport(S, MDL_START_AND_MDL_PROCESS_PARAMS_OK);
/*
* Set the number of sample time.
*/
ssSetNumSampleTimes(S, 1);
/*
* All options have the form SS_OPTION_<name> and are documented in
* matlabroot/simulink/include/simstruc.h. The options should be
* bitwise or'd together as in
* ssSetOptions(S, (SS_OPTION_name1 | SS_OPTION_name2))
*/
ssSetOptions(S,
SS_OPTION_CAN_BE_CALLED_CONDITIONALLY |
SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_WORKS_WITH_CODE_REUSE |
SS_OPTION_SFUNCTION_INLINED_FOR_RTW |
SS_OPTION_DISALLOW_CONSTANT_SAMPLE_TIME);
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS); /* Number of expected parameters */
#if defined(MATLAB_MEX_FILE)
if (ssGetNumSFcnParams(S) == ssGetSFcnParamsCount(S)) {
mdlCheckParameters(S);
if (ssGetErrorStatus(S) != NULL) {
return;
}
} else {
return; /* Parameter mismatch will be reported by Simulink */
}
#endif
ssSetSimStateCompliance(S, USE_DEFAULT_SIM_STATE);
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
ssSetInputPortWidth(S, 0, INPUT_0_WIDTH); /* */
ssSetInputPortDataType(S, 0, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
/*Input Port 1 */
ssSetInputPortWidth(S, 1, INPUT_1_WIDTH); /* */
ssSetInputPortDataType(S, 1, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
/*Input Port 2 */
ssSetInputPortWidth(S, 2, INPUT_2_WIDTH); /* */
ssSetInputPortDataType(S, 2, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 2, INPUT_2_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 2, INPUT_2_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 2, 1); /*direct input signal access*/
/*Input Port 3 */
ssSetInputPortWidth(S, 3, INPUT_3_WIDTH); /* */
ssSetInputPortDataType(S, 3, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 3, INPUT_3_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 3, INPUT_3_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 3, 1); /*direct input signal access*/
/*Input Port 4 */
ssSetInputPortWidth(S, 4, INPUT_4_WIDTH); /* */
ssSetInputPortDataType(S, 4, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 4, INPUT_4_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 4, INPUT_4_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 4, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
/* Output Port 0 */
ssSetOutputPortWidth(S, 0, OUTPUT_0_WIDTH);
ssSetOutputPortDataType(S, 0, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS);
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) {
return; /* Parameter mismatch will be reported by Simulink */
}
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
inputDimsInfo.width = INPUT_0_WIDTH;
ssSetInputPortDimensionInfo(S, 0, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 0, INPUT_0_WIDTH, INPUT_DIMS_0_COL);
ssSetInputPortFrameData(S, 0, IN_0_FRAME_BASED);
ssSetInputPortDataType(S, 0, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
/*Input Port 1 */
inputDimsInfo.width = INPUT_1_WIDTH;
ssSetInputPortDimensionInfo(S, 1, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 1, INPUT_1_WIDTH, INPUT_DIMS_1_COL);
ssSetInputPortFrameData(S, 1, IN_1_FRAME_BASED);
ssSetInputPortDataType(S, 1, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
/*Input Port 2 */
inputDimsInfo.width = INPUT_2_WIDTH;
ssSetInputPortDimensionInfo(S, 2, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 2, INPUT_2_WIDTH, INPUT_DIMS_2_COL);
ssSetInputPortFrameData(S, 2, IN_2_FRAME_BASED);
ssSetInputPortDataType(S, 2, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 2, INPUT_2_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 2, INPUT_2_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 2, 1); /*direct input signal access*/
/*Input Port 3 */
inputDimsInfo.width = INPUT_3_WIDTH;
ssSetInputPortDimensionInfo(S, 3, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 3, INPUT_3_WIDTH, INPUT_DIMS_3_COL);
ssSetInputPortFrameData(S, 3, IN_3_FRAME_BASED);
ssSetInputPortDataType(S, 3, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 3, INPUT_3_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 3, INPUT_3_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 3, 1); /*direct input signal access*/
/*Input Port 4 */
inputDimsInfo.width = INPUT_4_WIDTH;
ssSetInputPortDimensionInfo(S, 4, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S , 4, INPUT_4_WIDTH, INPUT_DIMS_4_COL);
ssSetInputPortFrameData(S, 4, IN_4_FRAME_BASED);
ssSetInputPortDataType(S, 4, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 4, INPUT_4_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 4, INPUT_4_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 4, 1); /*direct input signal access*/
/*Input Port 5 */
ssSetInputPortWidth(S, 5, INPUT_5_WIDTH); /* */
ssSetInputPortDataType(S, 5, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 5, INPUT_5_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 5, INPUT_5_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 5, 1); /*direct input signal access*/
/*Input Port 6 */
ssSetInputPortWidth(S, 6, INPUT_6_WIDTH); /* */
ssSetInputPortDataType(S, 6, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 6, INPUT_6_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 6, INPUT_6_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 6, 1); /*direct input signal access*/
/*Input Port 7 */
inputDimsInfo.width = INPUT_7_WIDTH;
ssSetInputPortDimensionInfo(S, 7, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,7, INPUT_7_WIDTH, INPUT_DIMS_7_COL);
ssSetInputPortFrameData(S, 7, IN_7_FRAME_BASED);
ssSetInputPortDataType(S, 7, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 7, INPUT_7_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 7, INPUT_7_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 7, 1); /*direct input signal access*/
/*Input Port 8 */
inputDimsInfo.width = INPUT_8_WIDTH;
ssSetInputPortDimensionInfo(S, 8, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,8, INPUT_8_WIDTH, INPUT_DIMS_8_COL);
ssSetInputPortFrameData(S, 8, IN_8_FRAME_BASED);
ssSetInputPortDataType(S, 8, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 8, INPUT_8_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 8, INPUT_8_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 8, 1); /*direct input signal access*/
/*Input Port 9 */
inputDimsInfo.width = INPUT_9_WIDTH;
ssSetInputPortDimensionInfo(S, 9, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,9, INPUT_9_WIDTH, INPUT_DIMS_9_COL);
ssSetInputPortFrameData(S, 9, IN_9_FRAME_BASED);
ssSetInputPortDataType(S, 9, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 9, INPUT_9_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 9, INPUT_9_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 9, 1); /*direct input signal access*/
/*Input Port 10 */
inputDimsInfo.width = INPUT_10_WIDTH;
ssSetInputPortDimensionInfo(S, 10, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,10, INPUT_10_WIDTH, INPUT_DIMS_10_COL);
ssSetInputPortFrameData(S, 10, IN_10_FRAME_BASED);
ssSetInputPortDataType(S, 10, SS_UINT8);
ssSetInputPortComplexSignal(S, 10, INPUT_10_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 10, INPUT_10_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 10, 1); /*direct input signal access*/
/*Input Port 11 */
inputDimsInfo.width = INPUT_11_WIDTH;
ssSetInputPortDimensionInfo(S, 11, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,11, INPUT_11_WIDTH, INPUT_DIMS_11_COL);
ssSetInputPortFrameData(S, 11, IN_11_FRAME_BASED);
ssSetInputPortDataType(S, 11, SS_UINT8);
ssSetInputPortComplexSignal(S, 11, INPUT_11_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 11, INPUT_11_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 11, 1); /*direct input signal access*/
/*Input Port 12 */
inputDimsInfo.width = INPUT_12_WIDTH;
ssSetInputPortDimensionInfo(S, 12, &inputDimsInfo);
ssSetInputPortMatrixDimensions( S ,12, INPUT_12_WIDTH, INPUT_DIMS_12_COL);
ssSetInputPortFrameData(S, 12, IN_12_FRAME_BASED);
ssSetInputPortDataType(S, 12, SS_UINT8);
ssSetInputPortComplexSignal(S, 12, INPUT_12_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 12, INPUT_12_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 12, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
/* 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)
{
/* Number of expected parameters */
ssSetNumSFcnParams(S, 0);
/*
* Set the number of pworks.
*/
ssSetNumPWork(S, 0);
/*
* Set the number of dworks.
*/
if (!ssSetNumDWork(S, 0))
return;
/*
* Set the number of input ports.
*/
if (!ssSetNumInputPorts(S, 1))
return;
/*
* Configure the input port 1
*/
ssSetInputPortDataType(S, 0, SS_UINT32);
ssSetInputPortWidth(S, 0, 2);
ssSetInputPortComplexSignal(S, 0, COMPLEX_NO);
ssSetInputPortDirectFeedThrough(S, 0, 1);
ssSetInputPortAcceptExprInRTW(S, 0, 0);
ssSetInputPortOverWritable(S, 0, 0);
ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetInputPortRequiredContiguous(S, 0, 1);
/*
* Set the number of output ports.
*/
if (!ssSetNumOutputPorts(S, 22))
return;
/*
* Configure the output port 1
*/
ssSetOutputPortDataType(S, 0, SS_UINT32);
ssSetOutputPortWidth(S, 0, 1);
ssSetOutputPortComplexSignal(S, 0, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 0, 0);
/*
* Configure the output port 2
*/
ssSetOutputPortDataType(S, 1, SS_UINT32);
ssSetOutputPortWidth(S, 1, 1);
ssSetOutputPortComplexSignal(S, 1, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 1, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 1, 0);
/*
* Configure the output port 3
*/
ssSetOutputPortDataType(S, 2, SS_UINT32);
ssSetOutputPortWidth(S, 2, 1);
ssSetOutputPortComplexSignal(S, 2, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 2, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 2, 0);
/*
* Configure the output port 4
*/
ssSetOutputPortDataType(S, 3, SS_UINT32);
ssSetOutputPortWidth(S, 3, 1);
ssSetOutputPortComplexSignal(S, 3, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 3, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 3, 0);
/*
* Configure the output port 5
*/
ssSetOutputPortDataType(S, 4, SS_DOUBLE);
ssSetOutputPortWidth(S, 4, 1);
ssSetOutputPortComplexSignal(S, 4, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 4, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 4, 0);
/*
* Configure the output port 6
*/
ssSetOutputPortDataType(S, 5, SS_DOUBLE);
ssSetOutputPortWidth(S, 5, 1);
ssSetOutputPortComplexSignal(S, 5, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 5, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 5, 0);
/*
* Configure the output port 7
*/
ssSetOutputPortDataType(S, 6, SS_DOUBLE);
ssSetOutputPortWidth(S, 6, 1);
ssSetOutputPortComplexSignal(S, 6, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 6, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 6, 0);
/*
* Configure the output port 8
*/
ssSetOutputPortDataType(S, 7, SS_DOUBLE);
ssSetOutputPortWidth(S, 7, 1);
ssSetOutputPortComplexSignal(S, 7, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 7, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 7, 0);
/*
* Configure the output port 9
*/
ssSetOutputPortDataType(S, 8, SS_DOUBLE);
ssSetOutputPortWidth(S, 8, 1);
ssSetOutputPortComplexSignal(S, 8, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 8, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 8, 0);
/*
* Configure the output port 10
*/
ssSetOutputPortDataType(S, 9, SS_DOUBLE);
ssSetOutputPortWidth(S, 9, 1);
ssSetOutputPortComplexSignal(S, 9, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 9, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 9, 0);
/*
* Configure the output port 11
*/
ssSetOutputPortDataType(S, 10, SS_DOUBLE);
ssSetOutputPortWidth(S, 10, 1);
ssSetOutputPortComplexSignal(S, 10, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 10, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 10, 0);
/*
* Configure the output port 12
*/
ssSetOutputPortDataType(S, 11, SS_DOUBLE);
ssSetOutputPortWidth(S, 11, 1);
ssSetOutputPortComplexSignal(S, 11, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 11, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 11, 0);
/*
* Configure the output port 13
*/
ssSetOutputPortDataType(S, 12, SS_DOUBLE);
ssSetOutputPortWidth(S, 12, 1);
ssSetOutputPortComplexSignal(S, 12, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 12, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 12, 0);
/*
* Configure the output port 14
*/
ssSetOutputPortDataType(S, 13, SS_DOUBLE);
ssSetOutputPortWidth(S, 13, 1);
ssSetOutputPortComplexSignal(S, 13, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 13, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 13, 0);
/*
* Configure the output port 15
*/
ssSetOutputPortDataType(S, 14, SS_DOUBLE);
ssSetOutputPortWidth(S, 14, 1);
ssSetOutputPortComplexSignal(S, 14, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 14, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 14, 0);
/*
* Configure the output port 16
*/
ssSetOutputPortDataType(S, 15, SS_DOUBLE);
ssSetOutputPortWidth(S, 15, 1);
ssSetOutputPortComplexSignal(S, 15, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 15, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 15, 0);
/*
* Configure the output port 17
*/
ssSetOutputPortDataType(S, 16, SS_DOUBLE);
ssSetOutputPortWidth(S, 16, 1);
ssSetOutputPortComplexSignal(S, 16, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 16, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 16, 0);
/*
* Configure the output port 18
*/
ssSetOutputPortDataType(S, 17, SS_DOUBLE);
ssSetOutputPortWidth(S, 17, 1);
ssSetOutputPortComplexSignal(S, 17, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 17, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 17, 0);
/*
* Configure the output port 19
*/
ssSetOutputPortDataType(S, 18, SS_DOUBLE);
ssSetOutputPortWidth(S, 18, 1);
ssSetOutputPortComplexSignal(S, 18, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 18, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 18, 0);
/*
* Configure the output port 20
*/
ssSetOutputPortDataType(S, 19, SS_DOUBLE);
ssSetOutputPortWidth(S, 19, 1);
ssSetOutputPortComplexSignal(S, 19, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 19, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 19, 0);
/*
* Configure the output port 21
*/
ssSetOutputPortDataType(S, 20, SS_DOUBLE);
ssSetOutputPortWidth(S, 20, 1);
ssSetOutputPortComplexSignal(S, 20, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 20, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 20, 0);
/*
* Configure the output port 22
*/
ssSetOutputPortDataType(S, 21, SS_UINT32);
ssSetOutputPortWidth(S, 21, 1);
ssSetOutputPortComplexSignal(S, 21, COMPLEX_NO);
ssSetOutputPortOptimOpts(S, 21, SS_REUSABLE_AND_LOCAL);
ssSetOutputPortOutputExprInRTW(S, 21, 0);
/*
* Register reserved identifiers to avoid name conflict
*/
if (ssRTWGenIsCodeGen(S)) {
/*
* Register reserved identifier for StartFcnSpec
*/
ssRegMdlInfo(S, "openFile", MDL_INFO_ID_RESERVED, 0, 0, ssGetPath(S));
/*
* Register reserved identifier for OutputFcnSpec
*/
ssRegMdlInfo(S, "DrugLibraryReader", MDL_INFO_ID_RESERVED, 0, 0, ssGetPath(S));
/*
* Register reserved identifier for TerminateFcnSpec
*/
ssRegMdlInfo(S, "closeFile", MDL_INFO_ID_RESERVED, 0, 0, ssGetPath(S));
}
/*
* This S-function can be used in referenced model simulating in normal mode.
*/
ssSetModelReferenceNormalModeSupport(S, MDL_START_AND_MDL_PROCESS_PARAMS_OK);
/*
* Set the number of sample time.
*/
ssSetNumSampleTimes(S, 1);
/*
* All options have the form SS_OPTION_<name> and are documented in
* matlabroot/simulink/include/simstruc.h. The options should be
* bitwise or'd together as in
* ssSetOptions(S, (SS_OPTION_name1 | SS_OPTION_name2))
*/
ssSetOptions(S,
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_CAN_BE_CALLED_CONDITIONALLY |
SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_WORKS_WITH_CODE_REUSE |
SS_OPTION_SFUNCTION_INLINED_FOR_RTW |
SS_OPTION_DISALLOW_CONSTANT_SAMPLE_TIME);
}
/* 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)
{
int_T nInputPorts = 1; /* number of input ports */
int_T nOutputPorts = 1; /* number of output ports */
int_T needsInput = 1; /* direct feed through */
int_T inputPortIdx = 0;
int_T outputPortIdx = 0;
ssSetNumSFcnParams(S, 0); /* Number of expected parameters */
if (ssGetNumSFcnParams(S) != ssGetSFcnParamsCount(S)) {
return;
}
if (ssGetErrorStatus(S) != NULL) return;
/* Register the number and type of states the S-Function uses */
ssSetNumContStates( S, 0); /* number of continuous states */
ssSetNumDiscStates( S, 0); /* number of discrete states */
/*
* Configure the input ports. First set the number of input ports.
*/
if (!ssSetNumInputPorts(S, nInputPorts)) return;
if(!ssSetInputPortDimensionInfo(S, inputPortIdx, DYNAMIC_DIMENSION)) return;
ssSetInputPortWidth(S, inputPortIdx, DYNAMICALLY_SIZED);
ssSetInputPortRequiredContiguous(S, inputPortIdx, TRUE); /*direct input signal access*/
ssSetInputPortDataType(S, inputPortIdx,DYNAMICALLY_TYPED);
ssSetInputPortDirectFeedThrough(S, inputPortIdx,TRUE);
ssSetInputPortOverWritable(S, inputPortIdx, FALSE);
ssSetInputPortReusable(S, inputPortIdx,TRUE);
ssSetInputPortComplexSignal( S, inputPortIdx, COMPLEX_INHERITED);
/*
* Configure the output ports. First set the number of output ports.
*/
if (!ssSetNumOutputPorts(S, nOutputPorts)) return;
if(!ssSetOutputPortDimensionInfo(S,outputPortIdx,DYNAMIC_DIMENSION)) return;
ssSetOutputPortWidth(S, outputPortIdx, DYNAMICALLY_SIZED);
/* register data type
*/
ssSetOutputPortDataType( S, outputPortIdx, DYNAMICALLY_TYPED );
ssSetOutputPortReusable( S, outputPortIdx, TRUE);
ssSetOutputPortComplexSignal(S, outputPortIdx, COMPLEX_INHERITED );
ssSetNumSampleTimes( S, 1); /* number of sample times */
/*
* Set size of the work vectors.
*/
ssSetNumRWork( S, 0); /* number of real work vector elements */
ssSetNumIWork( S, 0); /* number of integer work vector elements*/
ssSetNumPWork( S, 0); /* number of pointer work vector elements*/
ssSetNumModes( S, 0); /* number of mode work vector elements */
ssSetNumNonsampledZCs( S, 0); /* number of nonsampled zero crossings */
ssSetOptions( S, 0); /* general options (SS_OPTION_xx) */
ssFxpSetU32BitRegionCompliant(S, 1);
} /* end mdlInitializeSizes */
static void mdlInitializeSizes(SimStruct *S)
{
int_T param;
int_T nports_in = 1;
int_T nports_out = 2;
int_T idxin_x0 = 0;
int_T idxin_params = 0;
int_T idxin_reset = 0;
int_T idxout_time = 0;
ssSetNumSFcnParams(S, NPARAMS); /* Number of expected parameters */
#if defined(MATLAB_MEX_FILE)
if (ssGetNumSFcnParams(S) == ssGetSFcnParamsCount(S))
{
mdlCheckParameters(S);
if (ssGetErrorStatus(S) != NULL) return;
}
else return; /* Parameter mismatch will be reported by Simulink */
#endif
for( param=0; param<NPARAMS; param++ )
{
ssSetSFcnParamTunable(S,param,false);
}
ssSetNumSampleTimes(S, 1);
ssSetNumContStates(S, 0);
ssSetNumDiscStates(S, 0);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, DYNAMICALLY_SIZED);
ssSetNumPWork(S, DYNAMICALLY_SIZED);
ssSetNumDWork(S, DYNAMICALLY_SIZED);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
if( intval(mxGetScalar(paramInitialConditionSource)) > 1 )
{
idxin_x0 = nports_in++;
}
if( intval(mxGetScalar(paramSpecificationsSource)) == 3 )
{
idxin_params = nports_in++;
}
if( intval(mxGetScalar(paramExternalReset)) > 1 )
{
idxin_reset = nports_in++;
}
if( intval(mxGetScalar(paramOutputTime)) > 0 )
{
idxout_time = nports_out++;
}
if( !ssSetNumInputPorts(S, nports_in) ) return;
if( !ssSetNumOutputPorts(S, nports_out) ) return;
ssSetInputPortWidth(S, 0, DYNAMICALLY_SIZED);
ssSetInputPortDataType(S, 0, SS_DOUBLE );
ssSetInputPortComplexSignal(S, 0, 0);
ssSetInputPortDirectFeedThrough(S, 0, 1);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
ssSetOutputPortWidth(S, 0, 1);
ssSetOutputPortWidth(S, 1, DYNAMICALLY_SIZED);
ssSetOutputPortDataType(S, 1, SS_DOUBLE);
if( idxin_x0 )
{
ssSetInputPortWidth(S, idxin_x0, DYNAMICALLY_SIZED);
ssSetInputPortDataType(S, idxin_x0, SS_DOUBLE );
ssSetInputPortComplexSignal(S, idxin_x0, 0);
ssSetInputPortDirectFeedThrough(S, idxin_x0, 1);
ssSetInputPortRequiredContiguous(S, idxin_x0, 1); /*direct input signal access*/
}
if( idxin_params )
{
ssSetInputPortWidth(S, idxin_params, 2);
ssSetInputPortDataType(S, idxin_params, SS_DOUBLE );
ssSetInputPortComplexSignal(S, idxin_params, 0);
ssSetInputPortDirectFeedThrough(S, idxin_params, 1);
}
if( idxin_reset )
{
ssSetInputPortWidth(S, idxin_reset, 1);
ssSetInputPortDataType(S, idxin_reset, SS_BOOLEAN );
ssSetInputPortComplexSignal(S, idxin_reset, 0);
ssSetInputPortDirectFeedThrough(S, idxin_reset, 1);
}
if( idxout_time )
{
ssSetOutputPortWidth(S, idxout_time, 1);
ssSetOutputPortDataType(S, idxout_time, SS_DOUBLE);
}
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
/* ssSetOptions(S, SS_OPTION_EXCEPTION_FREE_CODE | SS_OPTION_CALL_TERMINATE_ON_EXIT ); */
ssSetOptions(S, SS_OPTION_EXCEPTION_FREE_CODE );
}
/* Function: mdlInitializeSizes ===============================================
* Abstract:
* Setup sizes of the various vectors.
*/
static void mdlInitializeSizes(SimStruct *S)
{
DECL_AND_INIT_DIMSINFO(inputDimsInfo);
DECL_AND_INIT_DIMSINFO(outputDimsInfo);
ssSetNumSFcnParams(S, NPARAMS); /* Number of expected parameters */
#if defined(MATLAB_MEX_FILE)
if (ssGetNumSFcnParams(S) == ssGetSFcnParamsCount(S)) {
mdlCheckParameters(S);
if (ssGetErrorStatus(S) != NULL) {
return;
}
} else {
return; /* Parameter mismatch will be reported by Simulink */
}
#endif
ssSetNumContStates(S, NUM_CONT_STATES);
ssSetNumDiscStates(S, NUM_DISC_STATES);
if (!ssSetNumInputPorts(S, NUM_INPUTS)) return;
/*Input Port 0 */
ssSetInputPortWidth(S, 0, INPUT_0_WIDTH); /* */
ssSetInputPortDataType(S, 0, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 0, INPUT_0_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 0, INPUT_0_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 0, 1); /*direct input signal access*/
/*Input Port 1 */
ssSetInputPortWidth(S, 1, INPUT_1_WIDTH); /* */
ssSetInputPortDataType(S, 1, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 1, INPUT_1_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 1, INPUT_1_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 1, 1); /*direct input signal access*/
/*Input Port 2 */
ssSetInputPortWidth(S, 2, INPUT_2_WIDTH); /* */
ssSetInputPortDataType(S, 2, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 2, INPUT_2_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 2, INPUT_2_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 2, 1); /*direct input signal access*/
/*Input Port 3 */
ssSetInputPortWidth(S, 3, INPUT_3_WIDTH); /* */
ssSetInputPortDataType(S, 3, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 3, INPUT_3_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 3, INPUT_3_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 3, 1); /*direct input signal access*/
/*Input Port 4 */
ssSetInputPortWidth(S, 4, INPUT_4_WIDTH); /* */
ssSetInputPortDataType(S, 4, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 4, INPUT_4_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 4, INPUT_4_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 4, 1); /*direct input signal access*/
/*Input Port 5 */
ssSetInputPortWidth(S, 5, INPUT_5_WIDTH); /* */
ssSetInputPortDataType(S, 5, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 5, INPUT_5_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 5, INPUT_5_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 5, 1); /*direct input signal access*/
/*Input Port 6 */
ssSetInputPortWidth(S, 6, INPUT_6_WIDTH); /* */
ssSetInputPortDataType(S, 6, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 6, INPUT_6_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 6, INPUT_6_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 6, 1); /*direct input signal access*/
/*Input Port 7 */
ssSetInputPortWidth(S, 7, INPUT_7_WIDTH); /* */
ssSetInputPortDataType(S, 7, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 7, INPUT_7_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 7, INPUT_7_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 7, 1); /*direct input signal access*/
/*Input Port 8 */
ssSetInputPortWidth(S, 8, INPUT_8_WIDTH); /* */
ssSetInputPortDataType(S, 8, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 8, INPUT_8_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 8, INPUT_8_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 8, 1); /*direct input signal access*/
/*Input Port 9 */
ssSetInputPortWidth(S, 9, INPUT_9_WIDTH); /* */
ssSetInputPortDataType(S, 9, SS_DOUBLE);
ssSetInputPortComplexSignal(S, 9, INPUT_9_COMPLEX);
ssSetInputPortDirectFeedThrough(S, 9, INPUT_9_FEEDTHROUGH);
ssSetInputPortRequiredContiguous(S, 9, 1); /*direct input signal access*/
if (!ssSetNumOutputPorts(S, NUM_OUTPUTS)) return;
/* Output Port 0 */
ssSetOutputPortWidth(S, 0, OUTPUT_0_WIDTH);
ssSetOutputPortDataType(S, 0, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 0, OUTPUT_0_COMPLEX);
/* Output Port 1 */
ssSetOutputPortWidth(S, 1, OUTPUT_1_WIDTH);
ssSetOutputPortDataType(S, 1, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 1, OUTPUT_1_COMPLEX);
/* Output Port 2 */
ssSetOutputPortWidth(S, 2, OUTPUT_2_WIDTH);
ssSetOutputPortDataType(S, 2, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 2, OUTPUT_2_COMPLEX);
/* Output Port 3 */
ssSetOutputPortWidth(S, 3, OUTPUT_3_WIDTH);
ssSetOutputPortDataType(S, 3, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 3, OUTPUT_3_COMPLEX);
/* Output Port 4 */
ssSetOutputPortWidth(S, 4, OUTPUT_4_WIDTH);
ssSetOutputPortDataType(S, 4, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 4, OUTPUT_4_COMPLEX);
/* Output Port 5 */
ssSetOutputPortWidth(S, 5, OUTPUT_5_WIDTH);
ssSetOutputPortDataType(S, 5, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 5, OUTPUT_5_COMPLEX);
/* Output Port 6 */
ssSetOutputPortWidth(S, 6, OUTPUT_6_WIDTH);
ssSetOutputPortDataType(S, 6, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 6, OUTPUT_6_COMPLEX);
/* Output Port 7 */
ssSetOutputPortWidth(S, 7, OUTPUT_7_WIDTH);
ssSetOutputPortDataType(S, 7, SS_DOUBLE);
ssSetOutputPortComplexSignal(S, 7, OUTPUT_7_COMPLEX);
ssSetNumSampleTimes(S, 1);
ssSetNumRWork(S, 0);
ssSetNumIWork(S, 0);
ssSetNumPWork(S, 0);
ssSetNumModes(S, 0);
ssSetNumNonsampledZCs(S, 0);
/*initialzation of sizes related to DWork Vectors*/
ssSetNumDWork(S,NDWORKS);
/*DWork vector 1*/
ssSetDWorkWidth(S, 0, DWORK_0_WIDTH);
ssSetDWorkDataType(S, 0, SS_DOUBLE);
ssSetDWorkWidth(S, 1, DWORK_1_WIDTH);
ssSetDWorkDataType(S, 1, SS_DOUBLE);
ssSetDWorkWidth(S, 2, DWORK_2_WIDTH);
ssSetDWorkDataType(S, 2, SS_DOUBLE);
ssSetDWorkWidth(S, 3, DWORK_3_WIDTH);
ssSetDWorkDataType(S, 3, SS_DOUBLE);
ssSetDWorkWidth(S, 4, DWORK_4_WIDTH);
ssSetDWorkDataType(S, 4, SS_DOUBLE);
ssSetDWorkWidth(S, 5, DWORK_5_WIDTH);
ssSetDWorkDataType(S, 5, SS_DOUBLE);
ssSetDWorkWidth(S, 6, DWORK_6_WIDTH);
ssSetDWorkDataType(S, 6, SS_DOUBLE);
ssSetDWorkWidth(S, 7, DWORK_7_WIDTH);
ssSetDWorkDataType(S, 7, SS_DOUBLE);
ssSetDWorkWidth(S, 8, DWORK_8_WIDTH);
ssSetDWorkDataType(S, 8, SS_DOUBLE);
ssSetDWorkWidth(S, 9, DWORK_9_WIDTH);
ssSetDWorkDataType(S, 9, SS_DOUBLE);
ssSetDWorkWidth(S, 10, DWORK_10_WIDTH);
ssSetDWorkDataType(S, 10, SS_DOUBLE);
ssSetDWorkWidth(S, 11, DWORK_11_WIDTH);
ssSetDWorkDataType(S, 11, SS_DOUBLE);
ssSetDWorkWidth(S, 12, DWORK_12_WIDTH);
ssSetDWorkDataType(S, 12, SS_DOUBLE);
ssSetDWorkWidth(S, 13, DWORK_13_WIDTH);
ssSetDWorkDataType(S, 13, SS_DOUBLE);
ssSetDWorkWidth(S, 14, DWORK_14_WIDTH);
ssSetDWorkDataType(S, 14, SS_DOUBLE);
ssSetDWorkWidth(S, 15, DWORK_15_WIDTH);
ssSetDWorkDataType(S, 15, SS_DOUBLE);
ssSetDWorkWidth(S, 16, DWORK_16_WIDTH);
ssSetDWorkDataType(S, 16, SS_DOUBLE);
ssSetDWorkWidth(S, 17, DWORK_17_WIDTH);
ssSetDWorkDataType(S, 17, SS_DOUBLE);
ssSetDWorkWidth(S, 18, DWORK_18_WIDTH);
ssSetDWorkDataType(S, 18, SS_DOUBLE);
ssSetDWorkWidth(S, 19, DWORK_19_WIDTH);
ssSetDWorkDataType(S, 19, SS_DOUBLE);
ssSetDWorkWidth(S, 20, DWORK_20_WIDTH);
ssSetDWorkDataType(S, 20, SS_DOUBLE);
ssSetDWorkWidth(S, 21, DWORK_21_WIDTH);
ssSetDWorkDataType(S, 21, SS_DOUBLE);
ssSetDWorkWidth(S, 22, DWORK_22_WIDTH);
ssSetDWorkDataType(S, 22, SS_DOUBLE);
ssSetDWorkWidth(S, 23, DWORK_23_WIDTH);
ssSetDWorkDataType(S, 23, SS_DOUBLE);
/* Take care when specifying exception free code - see sfuntmpl_doc.c */
ssSetOptions(S, (SS_OPTION_EXCEPTION_FREE_CODE |
SS_OPTION_USE_TLC_WITH_ACCELERATOR |
SS_OPTION_WORKS_WITH_CODE_REUSE));
}
