static cint16_T c9_e_emlrt_marshallIn(SFc9_QPSK_Transmit_v12dInstanceStruct *chartInstance, const mxArray *c9_u, const emlrtMsgIdentifier *c9_parentId) { cint16_T c9_y; const mxArray *c9_mxFi = NULL; const mxArray *c9_mxInt = NULL; cint16_T c9_ic1; sf_mex_check_fi(c9_parentId, c9_u, 1, 0U, 0, c9_c_eml_mx, c9_b_eml_mx); sf_mex_assign(&c9_mxFi, sf_mex_dup(c9_u), FALSE); sf_mex_assign(&c9_mxInt, sf_mex_call("simulinkarray", 1U, 1U, 14, sf_mex_dup (c9_mxFi)), FALSE); sf_mex_import(c9_parentId, sf_mex_dup(c9_mxInt), &c9_ic1, 1, 4, 1U, 0, 0U, 0); sf_mex_destroy(&c9_mxFi); sf_mex_destroy(&c9_mxInt); c9_y = c9_ic1; sf_mex_destroy(&c9_u); return c9_y; }
const mxArray *sf_c6_DemoGazeFollowWaveIdleRand_get_eml_resolved_functions_info (void) { const mxArray *c6_nameCaptureInfo = NULL; c6_nameCaptureInfo = NULL; sf_mex_assign(&c6_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c6_nameCaptureInfo; }
const mxArray *sf_c2_Pedal_Interpretation_exe_get_eml_resolved_functions_info (void) { const mxArray *c2_nameCaptureInfo = NULL; c2_nameCaptureInfo = NULL; sf_mex_assign(&c2_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1)); return c2_nameCaptureInfo; }
const mxArray *sf_c8_AtomicGloveBradImitateSmile_get_eml_resolved_functions_info (void) { const mxArray *c8_nameCaptureInfo = NULL; c8_nameCaptureInfo = NULL; sf_mex_assign(&c8_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c8_nameCaptureInfo; }
static void sf_c2_linearproto(SFc2_linearprotoInstanceStruct *chartInstance) { real_T c2_hoistedGlobal; real_T c2_x; uint32_T c2_debug_family_var_map[4]; real_T c2_nargin = 1.0; real_T c2_nargout = 1.0; real_T c2_y; real_T c2_b; real_T c2_b_y; real_T c2_u; const mxArray *c2_c_y = NULL; real_T *c2_b_x; real_T *c2_d_y; c2_d_y = (real_T *)ssGetOutputPortSignal(chartInstance->S, 1); c2_b_x = (real_T *)ssGetInputPortSignal(chartInstance->S, 0); _sfTime_ = (real_T)ssGetT(chartInstance->S); _SFD_CC_CALL(CHART_ENTER_SFUNCTION_TAG, 0U, chartInstance->c2_sfEvent); _SFD_DATA_RANGE_CHECK(*c2_b_x, 0U); _SFD_DATA_RANGE_CHECK(*c2_d_y, 1U); chartInstance->c2_sfEvent = CALL_EVENT; _SFD_CC_CALL(CHART_ENTER_DURING_FUNCTION_TAG, 0U, chartInstance->c2_sfEvent); c2_hoistedGlobal = *c2_b_x; c2_x = c2_hoistedGlobal; _SFD_SYMBOL_SCOPE_PUSH_EML(0U, 4U, 4U, c2_debug_family_names, c2_debug_family_var_map); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c2_nargin, 0U, c2_sf_marshallOut, c2_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c2_nargout, 1U, c2_sf_marshallOut, c2_sf_marshallIn); _SFD_SYMBOL_SCOPE_ADD_EML(&c2_x, 2U, c2_sf_marshallOut); _SFD_SYMBOL_SCOPE_ADD_EML_IMPORTABLE(&c2_y, 3U, c2_sf_marshallOut, c2_sf_marshallIn); CV_EML_FCN(0, 0); _SFD_EML_CALL(0U, chartInstance->c2_sfEvent, 4); if (CV_EML_IF(0, 1, 0, c2_x < 0.9)) { _SFD_EML_CALL(0U, chartInstance->c2_sfEvent, 6); c2_b = c2_x; c2_b_y = 13.8125 * c2_b; c2_y = c2_b_y - 9.93; sf_mex_printf("%s =\\n", "y"); c2_u = c2_y; c2_c_y = NULL; sf_mex_assign(&c2_c_y, sf_mex_create("y", &c2_u, 0, 0U, 0U, 0U, 0), FALSE); sf_mex_call_debug("disp", 0U, 1U, 14, c2_c_y); } else { _SFD_EML_CALL(0U, chartInstance->c2_sfEvent, 9); c2_y = 2.5; } _SFD_EML_CALL(0U, chartInstance->c2_sfEvent, -9); _SFD_SYMBOL_SCOPE_POP(); *c2_d_y = c2_y; _SFD_CC_CALL(EXIT_OUT_OF_FUNCTION_TAG, 0U, chartInstance->c2_sfEvent); _SFD_CHECK_FOR_STATE_INCONSISTENCY(_linearprotoMachineNumber_, chartInstance->chartNumber, chartInstance->instanceNumber); }
const mxArray *sf_c4_MON_sl_after_replacement3_get_eml_resolved_functions_info (void) { const mxArray *c4_nameCaptureInfo = NULL; c4_nameCaptureInfo = NULL; sf_mex_assign(&c4_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c4_nameCaptureInfo; }
const mxArray *sf_c1_Engine_Vehicle_CVT_RS_System2_get_eml_resolved_functions_info(void) { const mxArray *c1_nameCaptureInfo = NULL; c1_nameCaptureInfo = NULL; sf_mex_assign(&c1_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c1_nameCaptureInfo; }
const mxArray *sf_c14_ARP_02_RPSs_Bdr_GK_BIS5_get_eml_resolved_functions_info (void) { const mxArray *c14_nameCaptureInfo = NULL; c14_nameCaptureInfo = NULL; sf_mex_assign(&c14_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c14_nameCaptureInfo; }
static const mxArray *c2_c_sf_marshall(void *chartInstanceVoid, void *c2_u) { const mxArray *c2_y = NULL; int32_T c2_i20; real_T c2_b_u[3]; const mxArray *c2_b_y = NULL; SFc2_car_modelInstanceStruct *chartInstance; chartInstance = (SFc2_car_modelInstanceStruct *)chartInstanceVoid; c2_y = NULL; for (c2_i20 = 0; c2_i20 < 3; c2_i20 = c2_i20 + 1) { c2_b_u[c2_i20] = (*((real_T (*)[3])c2_u))[c2_i20]; } c2_b_y = NULL; sf_mex_assign(&c2_b_y, sf_mex_create("y", &c2_b_u, 0, 0U, 1U, 0U, 1, 3)); sf_mex_assign(&c2_y, c2_b_y); return c2_y; }
static const mxArray *c61_i_emlrt_marshallIn(SFc61_heart_modelInstanceStruct *chartInstance, const mxArray *c61_u, const emlrtMsgIdentifier *c61_parentId) { const mxArray *c61_y = NULL; c61_y = NULL; sf_mex_assign(&c61_y, sf_mex_duplicatearraysafe(&c61_u), FALSE); sf_mex_destroy(&c61_u); return c61_y; }
static const mxArray *c2_d_emlrt_marshallIn(SFc2_sf_newtons_cradleInstanceStruct *chartInstance, const mxArray *c2_u, const emlrtMsgIdentifier *c2_parentId) { const mxArray *c2_y = NULL; c2_y = NULL; sf_mex_assign(&c2_y, sf_mex_duplicatearraysafe(&c2_u), FALSE); sf_mex_destroy(&c2_u); return c2_y; }
const mxArray *sf_c39_Demo_KinectWaveWalkInvade_get_eml_resolved_functions_info (void) { const mxArray *c39_nameCaptureInfo = NULL; c39_nameCaptureInfo = NULL; sf_mex_assign(&c39_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c39_nameCaptureInfo; }
static const mxArray *c3_b_sf_marshallOut(void *chartInstanceVoid, void *c3_inData) { const mxArray *c3_mxArrayOutData = NULL; int32_T c3_u; const mxArray *c3_y = NULL; SFc3_ARP_02_RPSsmile_GloveAtomicRachelImitateSmileInstanceStruct *chartInstance; chartInstance = (SFc3_ARP_02_RPSsmile_GloveAtomicRachelImitateSmileInstanceStruct *) chartInstanceVoid; c3_mxArrayOutData = NULL; c3_u = *(int32_T *)c3_inData; c3_y = NULL; sf_mex_assign(&c3_y, sf_mex_create("y", &c3_u, 6, 0U, 0U, 0U, 0), false); sf_mex_assign(&c3_mxArrayOutData, c3_y, false); return c3_mxArrayOutData; }
const mxArray *sf_c3_ARP_02_RPSsmile_Glove_atomicError_get_eml_resolved_functions_info(void) { const mxArray *c3_nameCaptureInfo = NULL; c3_nameCaptureInfo = NULL; sf_mex_assign(&c3_nameCaptureInfo, sf_mex_create("nameCaptureInfo", NULL, 0, 0U, 1U, 0U, 2, 0, 1), false); return c3_nameCaptureInfo; }
static const mxArray *c4_b_sf_marshallOut(void *chartInstanceVoid, void *c4_inData) { const mxArray *c4_mxArrayOutData = NULL; int32_T c4_i4; uint8_T c4_u[2]; const mxArray *c4_b_y = NULL; SFc4_DisplayCANMsgInstanceStruct *chartInstance; chartInstance = (SFc4_DisplayCANMsgInstanceStruct *)chartInstanceVoid; c4_mxArrayOutData = NULL; for (c4_i4 = 0; c4_i4 < 2; c4_i4++) { c4_u[c4_i4] = (*(uint8_T (*)[2])c4_inData)[c4_i4]; } c4_b_y = NULL; sf_mex_assign(&c4_b_y, sf_mex_create("y", c4_u, 3, 0U, 1U, 0U, 1, 2), false); sf_mex_assign(&c4_mxArrayOutData, c4_b_y, false); return c4_mxArrayOutData; }
static const mxArray *c1_sf_marshallOut(void *chartInstanceVoid, void *c1_inData) { const mxArray *c1_mxArrayOutData = NULL; real_T c1_u; const mxArray *c1_y = NULL; SFc1_my_demo_refInstanceStruct *chartInstance; chartInstance = (SFc1_my_demo_refInstanceStruct *)chartInstanceVoid; c1_mxArrayOutData = NULL; c1_u = *(real_T *)c1_inData; c1_y = NULL; if (!chartInstance->c1_i_not_empty) { sf_mex_assign(&c1_y, sf_mex_create("y", NULL, 0, 0U, 1U, 0U, 2, 0, 0), FALSE); } else { sf_mex_assign(&c1_y, sf_mex_create("y", &c1_u, 0, 0U, 0U, 0U, 0), FALSE); } sf_mex_assign(&c1_mxArrayOutData, c1_y, FALSE); return c1_mxArrayOutData; }
const mxArray *sf_c10_hybridSysSim_get_eml_resolved_functions_info(void) { const mxArray *c10_nameCaptureInfo = NULL; c10_nameCaptureInfo = NULL; sf_mex_assign(&c10_nameCaptureInfo, sf_mex_createstruct("structure", 2, 7, 1), false); c10_info_helper(&c10_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c10_nameCaptureInfo); return c10_nameCaptureInfo; }
const mxArray *sf_c7_aircraft_simplex_get_eml_resolved_functions_info(void) { const mxArray *c7_nameCaptureInfo = NULL; c7_nameCaptureInfo = NULL; sf_mex_assign(&c7_nameCaptureInfo, sf_mex_createstruct("structure", 2, 4, 1), false); c7_info_helper(&c7_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c7_nameCaptureInfo); return c7_nameCaptureInfo; }
static const mxArray *c2_sf_marshall(void *chartInstanceVoid, void *c2_u) { const mxArray *c2_y = NULL; real_T c2_b_u; const mxArray *c2_b_y = NULL; SFc2_SATestInstanceStruct *chartInstance; chartInstance = (SFc2_SATestInstanceStruct *)chartInstanceVoid; c2_y = NULL; c2_b_u = *((real_T *)c2_u); c2_b_y = NULL; if (!chartInstance->c2_j_not_empty) { sf_mex_assign(&c2_b_y, sf_mex_create("y", NULL, 0, 0U, 1U, 0U, 2, 0, 0)); } else { sf_mex_assign(&c2_b_y, sf_mex_create("y", &c2_b_u, 0, 0U, 0U, 0U, 0)); } sf_mex_assign(&c2_y, c2_b_y); return c2_y; }
const mxArray *sf_c2_DSHMHittingSecondORder_get_eml_resolved_functions_info(void) { const mxArray *c2_nameCaptureInfo = NULL; c2_nameCaptureInfo = NULL; sf_mex_assign(&c2_nameCaptureInfo, sf_mex_createstruct("structure", 2, 5, 1), FALSE); c2_info_helper(&c2_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c2_nameCaptureInfo); return c2_nameCaptureInfo; }
const mxArray *sf_c3_Ensayos_Friccion_get_eml_resolved_functions_info(void) { const mxArray *c3_nameCaptureInfo = NULL; c3_nameCaptureInfo = NULL; sf_mex_assign(&c3_nameCaptureInfo, sf_mex_createstruct("structure", 2, 7, 1), false); c3_info_helper(&c3_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c3_nameCaptureInfo); return c3_nameCaptureInfo; }
static const mxArray *get_sim_state_c10_adcs_v15_integral_Power_nom(void) { const mxArray *c10_st = NULL; const mxArray *c10_y = NULL; int32_T c10_i0; real_T c10_u[3]; const mxArray *c10_b_y = NULL; int32_T c10_i1; real_T c10_b_u[3]; const mxArray *c10_c_y = NULL; uint8_T c10_c_u; const mxArray *c10_d_y = NULL; uint8_T *c10_is_active_c10_adcs_v15_integral_Power_nom; real_T (*c10_dB)[3]; real_T (*c10_B)[3]; c10_is_active_c10_adcs_v15_integral_Power_nom = (uint8_T *)ssGetDWork (chartInstance.S, 2); c10_B = (real_T (*)[3])ssGetOutputPortSignal(chartInstance.S, 1); c10_dB = (real_T (*)[3])ssGetOutputPortSignal(chartInstance.S, 2); c10_st = NULL; c10_y = NULL; sf_mex_assign(&c10_y, sf_mex_createcellarray(3)); for (c10_i0 = 0; c10_i0 < 3; c10_i0 = c10_i0 + 1) { c10_u[c10_i0] = (*c10_B)[c10_i0]; } c10_b_y = NULL; sf_mex_assign(&c10_b_y, sf_mex_create("y", &c10_u, 0, 0U, 1U, 0U, 1, 3)); sf_mex_setcell(c10_y, 0, c10_b_y); for (c10_i1 = 0; c10_i1 < 3; c10_i1 = c10_i1 + 1) { c10_b_u[c10_i1] = (*c10_dB)[c10_i1]; } c10_c_y = NULL; sf_mex_assign(&c10_c_y, sf_mex_create("y", &c10_b_u, 0, 0U, 1U, 0U, 1, 3)); sf_mex_setcell(c10_y, 1, c10_c_y); c10_c_u = *c10_is_active_c10_adcs_v15_integral_Power_nom; c10_d_y = NULL; sf_mex_assign(&c10_d_y, sf_mex_create("y", &c10_c_u, 3, 0U, 0U, 0U, 0)); sf_mex_setcell(c10_y, 2, c10_d_y); sf_mex_assign(&c10_st, c10_y); return c10_st; }
const mxArray *sf_c2_Expriment_Pose_get_eml_resolved_functions_info(void) { const mxArray *c2_nameCaptureInfo = NULL; c2_nameCaptureInfo = NULL; sf_mex_assign(&c2_nameCaptureInfo, sf_mex_createstruct("structure", 2, 1, 1), false); c2_info_helper(&c2_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c2_nameCaptureInfo); return c2_nameCaptureInfo; }
const mxArray *sf_c6_CSE1_DP_get_eml_resolved_functions_info(void) { const mxArray *c6_nameCaptureInfo = NULL; c6_nameCaptureInfo = NULL; sf_mex_assign(&c6_nameCaptureInfo, sf_mex_createstruct("structure", 2, 11, 1), false); c6_info_helper(&c6_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c6_nameCaptureInfo); return c6_nameCaptureInfo; }
const mxArray *sf_c40_Demo_Glove_get_eml_resolved_functions_info(void) { const mxArray *c40_nameCaptureInfo = NULL; c40_nameCaptureInfo = NULL; sf_mex_assign(&c40_nameCaptureInfo, sf_mex_createstruct("structure", 2, 3, 1), false); c40_info_helper(&c40_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c40_nameCaptureInfo); return c40_nameCaptureInfo; }
const mxArray *sf_c3_V2A1_2_get_eml_resolved_functions_info(void) { const mxArray *c3_nameCaptureInfo = NULL; c3_nameCaptureInfo = NULL; sf_mex_assign(&c3_nameCaptureInfo, sf_mex_createstruct("structure", 2, 11, 1), FALSE); c3_info_helper(&c3_nameCaptureInfo); sf_mex_emlrtNameCapturePostProcessR2012a(&c3_nameCaptureInfo); return c3_nameCaptureInfo; }
static const mxArray *c1_sf_marshallOut(void *chartInstanceVoid, void *c1_inData) { const mxArray *c1_mxArrayOutData = NULL; int32_T c1_i15; real_T c1_b_u[128]; const mxArray *c1_b_y = NULL; SFc1_VrSubsystemInstanceStruct *chartInstance; chartInstance = (SFc1_VrSubsystemInstanceStruct *)chartInstanceVoid; c1_mxArrayOutData = NULL; for (c1_i15 = 0; c1_i15 < 128; c1_i15++) { c1_b_u[c1_i15] = (*(real_T (*)[128])c1_inData)[c1_i15]; } c1_b_y = NULL; sf_mex_assign(&c1_b_y, sf_mex_create("y", c1_b_u, 0, 0U, 1U, 0U, 2, 1, 128), false); sf_mex_assign(&c1_mxArrayOutData, c1_b_y, false); return c1_mxArrayOutData; }
static const mxArray *get_sim_state_c2_Serial(SFc2_SerialInstanceStruct *chartInstance) { const mxArray *c2_st; const mxArray *c2_y = NULL; int32_T c2_i0; uint8_T c2_u[256]; const mxArray *c2_b_y = NULL; int32_T c2_hoistedGlobal; int32_T c2_b_u; const mxArray *c2_c_y = NULL; uint8_T c2_b_hoistedGlobal; uint8_T c2_c_u; const mxArray *c2_d_y = NULL; int32_T *c2_length; uint8_T (*c2_data)[256]; c2_length = (int32_T *)ssGetOutputPortSignal(chartInstance->S, 2); c2_data = (uint8_T (*)[256])ssGetOutputPortSignal(chartInstance->S, 1); c2_st = NULL; c2_st = NULL; c2_y = NULL; sf_mex_assign(&c2_y, sf_mex_createcellmatrix(3, 1), false); for (c2_i0 = 0; c2_i0 < 256; c2_i0++) { c2_u[c2_i0] = (*c2_data)[c2_i0]; } c2_b_y = NULL; sf_mex_assign(&c2_b_y, sf_mex_create("y", c2_u, 3, 0U, 1U, 0U, 1, 256), false); sf_mex_setcell(c2_y, 0, c2_b_y); c2_hoistedGlobal = *c2_length; c2_b_u = c2_hoistedGlobal; c2_c_y = NULL; sf_mex_assign(&c2_c_y, sf_mex_create("y", &c2_b_u, 6, 0U, 0U, 0U, 0), false); sf_mex_setcell(c2_y, 1, c2_c_y); c2_b_hoistedGlobal = chartInstance->c2_is_active_c2_Serial; c2_c_u = c2_b_hoistedGlobal; c2_d_y = NULL; sf_mex_assign(&c2_d_y, sf_mex_create("y", &c2_c_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c2_y, 2, c2_d_y); sf_mex_assign(&c2_st, c2_y, false); return c2_st; }
const mxArray *sf_c26_HIL_model_experiments2_get_eml_resolved_functions_info (void) { const mxArray *c26_nameCaptureInfo; c26_ResolvedFunctionInfo c26_info[14]; const mxArray *c26_m0 = NULL; int32_T c26_i38; c26_ResolvedFunctionInfo *c26_r0; c26_nameCaptureInfo = NULL; c26_nameCaptureInfo = NULL; c26_info_helper(c26_info); sf_mex_assign(&c26_m0, sf_mex_createstruct("nameCaptureInfo", 1, 14), FALSE); for (c26_i38 = 0; c26_i38 < 14; c26_i38++) { c26_r0 = &c26_info[c26_i38]; sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", c26_r0->context, 15, 0U, 0U, 0U, 2, 1, strlen(c26_r0->context)), "context", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", c26_r0->name, 15, 0U, 0U, 0U, 2, 1, strlen(c26_r0->name)), "name", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", c26_r0->dominantType, 15, 0U, 0U, 0U, 2, 1, strlen(c26_r0->dominantType)), "dominantType", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", c26_r0->resolved, 15, 0U, 0U, 0U, 2, 1, strlen(c26_r0->resolved)), "resolved", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", &c26_r0->fileTimeLo, 7, 0U, 0U, 0U, 0), "fileTimeLo", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", &c26_r0->fileTimeHi, 7, 0U, 0U, 0U, 0), "fileTimeHi", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", &c26_r0->mFileTimeLo, 7, 0U, 0U, 0U, 0), "mFileTimeLo", "nameCaptureInfo", c26_i38); sf_mex_addfield(c26_m0, sf_mex_create("nameCaptureInfo", &c26_r0->mFileTimeHi, 7, 0U, 0U, 0U, 0), "mFileTimeHi", "nameCaptureInfo", c26_i38); } sf_mex_assign(&c26_nameCaptureInfo, c26_m0, FALSE); sf_mex_emlrtNameCapturePostProcessR2012a(&c26_nameCaptureInfo); return c26_nameCaptureInfo; }
static const mxArray *get_sim_state_c2_Expriment_Pose (SFc2_Expriment_PoseInstanceStruct *chartInstance) { const mxArray *c2_st; const mxArray *c2_y = NULL; uint8_T c2_hoistedGlobal; uint8_T c2_u; const mxArray *c2_b_y = NULL; c2_st = NULL; c2_st = NULL; c2_y = NULL; sf_mex_assign(&c2_y, sf_mex_createcellmatrix(1, 1), false); c2_hoistedGlobal = chartInstance->c2_is_active_c2_Expriment_Pose; c2_u = c2_hoistedGlobal; c2_b_y = NULL; sf_mex_assign(&c2_b_y, sf_mex_create("y", &c2_u, 3, 0U, 0U, 0U, 0), false); sf_mex_setcell(c2_y, 0, c2_b_y); sf_mex_assign(&c2_st, c2_y, false); return c2_st; }