📄 c8_mysin4.c
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{
}
/* SFunction Glue Code */
void sf_c8_mysin4_get_check_sum(mxArray *plhs[])
{
((real_T *)mxGetPr((plhs[0])))[0] = (real_T)(3085497818U);
((real_T *)mxGetPr((plhs[0])))[1] = (real_T)(4066097987U);
((real_T *)mxGetPr((plhs[0])))[2] = (real_T)(4177408004U);
((real_T *)mxGetPr((plhs[0])))[3] = (real_T)(2857949842U);
}
mxArray *sf_c8_mysin4_get_autoinheritance_info(void)
{
const char *autoinheritanceFields[] =
{"checksum","inputs","parameters","outputs"};
mxArray *mxAutoinheritanceInfo =
mxCreateStructMatrix(1,1,4,autoinheritanceFields);
{
mxArray *mxChecksum = mxCreateDoubleMatrix(4,1,mxREAL);
double *pr = mxGetPr(mxChecksum);
pr[0] = (double)(3383457944U);
pr[1] = (double)(3616475205U);
pr[2] = (double)(3821924049U);
pr[3] = (double)(1104917015U);
mxSetField(mxAutoinheritanceInfo,0,"checksum",mxChecksum);
}
{
const char *dataFields[] = {"size","type","complexity"};
mxArray *mxData = mxCreateStructMatrix(1,1,3,dataFields);
{
mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL);
double *pr = mxGetPr(mxSize);
pr[0] = (double)(1);
pr[1] = (double)(1);
mxSetField(mxData,0,"size",mxSize);
}
{
const char *typeFields[] = {"base","aliasId","fixpt"};
mxArray *mxType = mxCreateStructMatrix(1,1,3,typeFields);
mxSetField(mxType,0,"base",mxCreateDoubleScalar(1));
mxSetField(mxType,0,"aliasId",mxCreateDoubleScalar(0));
mxSetField(mxType,0,"fixpt",mxCreateDoubleMatrix(0,0,mxREAL));
mxSetField(mxData,0,"type",mxType);
}
mxSetField(mxData,0,"complexity",mxCreateDoubleScalar(0));
mxSetField(mxAutoinheritanceInfo,0,"inputs",mxData);
}
{
mxSetField(mxAutoinheritanceInfo,0,"parameters",mxCreateDoubleMatrix(0,0,mxREAL));
}
{
const char *dataFields[] = {"size","type","complexity"};
mxArray *mxData = mxCreateStructMatrix(1,1,3,dataFields);
{
mxArray *mxSize = mxCreateDoubleMatrix(1,2,mxREAL);
double *pr = mxGetPr(mxSize);
pr[0] = (double)(1);
pr[1] = (double)(1);
mxSetField(mxData,0,"size",mxSize);
}
{
const char *typeFields[] = {"base","aliasId","fixpt"};
mxArray *mxType = mxCreateStructMatrix(1,1,3,typeFields);
mxSetField(mxType,0,"base",mxCreateDoubleScalar(11));
mxSetField(mxType,0,"aliasId",mxCreateDoubleScalar(0));
{
const char *fixptFields[] =
{"isSigned","wordLength","bias","slope","exponent"};
mxArray *mxFixpt = mxCreateStructMatrix(1,1,5,fixptFields);
mxSetField(mxFixpt,0,"isSigned",mxCreateDoubleScalar(0));
mxSetField(mxFixpt,0,"wordLength",mxCreateDoubleScalar(5));
mxSetField(mxFixpt,0,"bias",mxCreateDoubleScalar(0));
mxSetField(mxFixpt,0,"slope",mxCreateDoubleScalar(1));
mxSetField(mxFixpt,0,"exponent",mxCreateDoubleScalar(0));
mxSetField(mxType,0,"fixpt",mxFixpt);
}
mxSetField(mxData,0,"type",mxType);
}
mxSetField(mxData,0,"complexity",mxCreateDoubleScalar(0));
mxSetField(mxAutoinheritanceInfo,0,"outputs",mxData);
}
return(mxAutoinheritanceInfo);
}
static void chart_debug_initialization(SimStruct *S, unsigned int
fullDebuggerInitialization)
{
if(ssIsFirstInitCond(S) && fullDebuggerInitialization==1) {
/* do this only if simulation is starting */
if(!sim_mode_is_rtw_gen(S)) {
{
unsigned int chartAlreadyPresent;
chartAlreadyPresent = sf_debug_initialize_chart(_mysin4MachineNumber_,
8,
1,
1,
2,
0,
0,
0,
0,
&(chartInstance.chartNumber),
&(chartInstance.instanceNumber),
ssGetPath(S),
(void *)S);
if(chartAlreadyPresent==0) {
/* this is the first instance */
sf_debug_set_chart_disable_implicit_casting(_mysin4MachineNumber_,chartInstance.chartNumber,1);
sf_debug_set_chart_event_thresholds(_mysin4MachineNumber_,
chartInstance.chartNumber,
0,
0,
0);
_SFD_SET_DATA_PROPS(0,1,1,0,SF_UINT8,0,NULL,0,0,0,0.0,1.0,0,"preset",0,c8_sf_marshall);
_SFD_SET_DATA_PROPS(1,2,0,1,SF_UINT8,0,NULL,1,0,5,0,1,0,"counter",0,c8_b_sf_marshall);
_SFD_STATE_INFO(0,0,2);
_SFD_CH_SUBSTATE_COUNT(0);
_SFD_CH_SUBSTATE_DECOMP(0);
}
_SFD_CV_INIT_CHART(0,0,0,0);
{
_SFD_CV_INIT_STATE(0,0,0,0,0,0,NULL,NULL);
}
_SFD_CV_INIT_TRANS(0,0,NULL,NULL,0,NULL);
/* Initialization of EML Model Coverage */
_SFD_CV_INIT_EML(0,1,2,0,0,0,0,0);
_SFD_CV_INIT_EML_FCN(0,0,"eML_blk_kernel",0,-1,529);
_SFD_CV_INIT_EML_IF(0,0,331,348,-1,374);
_SFD_CV_INIT_EML_IF(0,1,376,385,408,510);
_SFD_TRANS_COV_WTS(0,0,0,1,0);
if(chartAlreadyPresent==0)
{
_SFD_TRANS_COV_MAPS(0,
0,NULL,NULL,
0,NULL,NULL,
1,NULL,NULL,
0,NULL,NULL);
}
_SFD_SET_DATA_VALUE_PTR(0U, c8_preset());
_SFD_SET_DATA_VALUE_PTR(1U, c8_counter());
}
}
} else {
sf_debug_reset_current_state_configuration(_mysin4MachineNumber_,chartInstance.chartNumber,chartInstance.instanceNumber);
}
}
static void sf_opaque_initialize_c8_mysin4(void *chartInstanceVar)
{
chart_debug_initialization(chartInstance.S,0);
initialize_params_c8_mysin4();
initialize_c8_mysin4();
}
static void sf_opaque_enable_c8_mysin4(void *chartInstanceVar)
{
enable_c8_mysin4();
}
static void sf_opaque_disable_c8_mysin4(void *chartInstanceVar)
{
disable_c8_mysin4();
}
static void sf_opaque_gateway_c8_mysin4(void *chartInstanceVar)
{
sf_c8_mysin4();
}
static void sf_opaque_terminate_c8_mysin4(void *chartInstanceVar)
{
if (sim_mode_is_rtw_gen(chartInstance.S)) {
sf_clear_rtw_identifier(chartInstance.S);
}
finalize_c8_mysin4();
}
static void mdlProcessParameters_c8_mysin4(SimStruct *S)
{
int i;
for(i=0;i<ssGetNumRunTimeParams(S);i++) {
if(ssGetSFcnParamTunable(S,i)) {
ssUpdateDlgParamAsRunTimeParam(S,i);
}
}
initialize_params_c8_mysin4();
}
static void mdlSetWorkWidths_c8_mysin4(SimStruct *S)
{
if(sim_mode_is_rtw_gen(S)) {
int_T chartIsInlinable =
(int_T)sf_is_chart_inlinable("mysin4",8);
ssSetStateflowIsInlinable(S,chartIsInlinable);
ssSetEnableFcnIsTrivial(S,1);
ssSetDisableFcnIsTrivial(S,1);
ssSetNotMultipleInlinable(S,sf_rtw_info_uint_prop("mysin4",8,"gatewayCannotBeInlinedMultipleTimes"));
if(chartIsInlinable) {
ssSetInputPortOptimOpts(S, 0, SS_REUSABLE_AND_LOCAL);
sf_mark_chart_expressionable_inputs(S,"mysin4",8,1);
sf_mark_chart_reusable_outputs(S,"mysin4",8,1);
}
if (!sf_is_chart_instance_optimized_out("mysin4",8)) {
int dtId;
char *chartInstanceTypedefName =
sf_chart_instance_typedef_name("mysin4",8);
dtId = ssRegisterDataType(S, chartInstanceTypedefName);
if (dtId == INVALID_DTYPE_ID ) return;
/* Register the size of the udt */
if (!ssSetDataTypeSize(S, dtId, 8)) return;
if(!ssSetNumDWork(S,1)) return;
ssSetDWorkDataType(S, 0, dtId);
ssSetDWorkWidth(S, 0, 1);
ssSetDWorkName(S, 0, "ChartInstance"); /*optional name, less than 16 chars*/
sf_set_rtw_identifier(S);
}
ssSetHasSubFunctions(S,!(chartIsInlinable));
ssSetOptions(S,ssGetOptions(S)|SS_OPTION_WORKS_WITH_CODE_REUSE);
}
ssSetChecksum0(S,(2934648135U));
ssSetChecksum1(S,(435137755U));
ssSetChecksum2(S,(3249323862U));
ssSetChecksum3(S,(663559237U));
ssSetExplicitFCSSCtrl(S,1);
}
static void mdlRTW_c8_mysin4(SimStruct *S)
{
if(sim_mode_is_rtw_gen(S)) {
sf_write_symbol_mapping(S, "mysin4", 8);
ssWriteRTWStrParam(S, "StateflowChartType", "Embedded MATLAB");
}
}
static void mdlStart_c8_mysin4(SimStruct *S)
{
chartInstance.chartInfo.chartInstance = NULL;
chartInstance.chartInfo.isEMLChart = 1;
chartInstance.chartInfo.chartInitialized = 0;
chartInstance.chartInfo.sFunctionGateway = sf_opaque_gateway_c8_mysin4;
chartInstance.chartInfo.initializeChart = sf_opaque_initialize_c8_mysin4;
chartInstance.chartInfo.terminateChart = sf_opaque_terminate_c8_mysin4;
chartInstance.chartInfo.enableChart = sf_opaque_enable_c8_mysin4;
chartInstance.chartInfo.disableChart = sf_opaque_disable_c8_mysin4;
chartInstance.chartInfo.mdlRTW = mdlRTW_c8_mysin4;
chartInstance.chartInfo.mdlStart = mdlStart_c8_mysin4;
chartInstance.chartInfo.mdlSetWorkWidths = mdlSetWorkWidths_c8_mysin4;
chartInstance.chartInfo.restoreLastMajorStepConfiguration = NULL;
chartInstance.chartInfo.restoreBeforeLastMajorStepConfiguration = NULL;
chartInstance.chartInfo.storeCurrentConfiguration = NULL;
chartInstance.S = S;
ssSetUserData(S,(void *)(&(chartInstance.chartInfo))); /* register the chart instance with simstruct */
if(!sim_mode_is_rtw_gen(S)) {
init_dsm_address_info();
}
chart_debug_initialization(S,1);
}
void c8_mysin4_method_dispatcher(SimStruct *S, int_T method, void *data)
{
switch (method) {
case SS_CALL_MDL_START:
mdlStart_c8_mysin4(S);
break;
case SS_CALL_MDL_SET_WORK_WIDTHS:
mdlSetWorkWidths_c8_mysin4(S);
break;
case SS_CALL_MDL_PROCESS_PARAMETERS:
mdlProcessParameters_c8_mysin4(S);
break;
default:
/* Unhandled method */
sf_mex_error_message("Stateflow Internal Error:\n"
"Error calling c8_mysin4_method_dispatcher.\n"
"Can't handle method %d.\n", method);
break;
}
}
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