static uint8_T c11_e_emlrt_marshallIn(SFc11_kinematicsInstanceStruct *chartInstance, const mxArray *c11_b_is_active_c11_kinematics, const char_T *c11_identifier) { uint8_T c11_y; emlrtMsgIdentifier c11_thisId; c11_thisId.fIdentifier = c11_identifier; c11_thisId.fParent = NULL; c11_y = c11_f_emlrt_marshallIn(chartInstance, sf_mex_dup (c11_b_is_active_c11_kinematics), &c11_thisId); sf_mex_destroy(&c11_b_is_active_c11_kinematics); return c11_y; }
static void set_sim_state_c11_Batman_Code(SFc11_Batman_CodeInstanceStruct *chartInstance, const mxArray *c11_st) { const mxArray *c11_u; uint16_T c11_uv0[12]; int32_T c11_i1; uint16_T (*c11_cell_temperatures_out)[12]; c11_cell_temperatures_out = (uint16_T (*)[12])ssGetOutputPortSignal (chartInstance->S, 1); chartInstance->c11_doneDoubleBufferReInit = TRUE; c11_u = sf_mex_dup(c11_st); c11_emlrt_marshallIn(chartInstance, sf_mex_dup(sf_mex_getcell(c11_u, 0)), "cell_temperatures_out", c11_uv0); for (c11_i1 = 0; c11_i1 < 12; c11_i1++) { (*c11_cell_temperatures_out)[c11_i1] = c11_uv0[c11_i1]; } chartInstance->c11_is_active_c11_Batman_Code = c11_f_emlrt_marshallIn (chartInstance, sf_mex_dup(sf_mex_getcell(c11_u, 1)), "is_active_c11_Batman_Code"); sf_mex_destroy(&c11_u); c11_update_debugger_state_c11_Batman_Code(chartInstance); sf_mex_destroy(&c11_st); }