Test program for master controller
Dependencies: Controller_Master mbed
Diff: Controller_Master.c
- Revision:
- 0:ae1df001727e
--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/Controller_Master.c Sat Jun 04 16:58:50 2016 +0000 @@ -0,0 +1,581 @@ +/* + * Academic License - for use in teaching, academic research, and meeting + * course requirements at degree granting institutions only. Not for + * government, commercial, or other organizational use. + * + * File: Controller_Master.c + * + * Code generated for Simulink model 'Controller_Master'. + * + * Model version : 1.0 + * Simulink Coder version : 8.10 (R2016a) 10-Feb-2016 + * C/C++ source code generated on : Sat Jun 04 17:59:52 2016 + * + * Target selection: ert.tlc + * Embedded hardware selection: NXP->Cortex-M4 + * Code generation objectives: Unspecified + * Validation result: Not run + */ + +#include "Controller_Master.h" + +/* Named constants for Chart: '<S1>/AEB' */ +#define Controller_M_IN_NO_ACTIVE_CHILD ((uint8_T)0U) +#define Controller_Master_IN_ACTIVE ((uint8_T)1U) +#define Controller_Master_IN_BRAKE ((uint8_T)1U) +#define Controller_Master_IN_ERR ((uint8_T)1U) +#define Controller_Master_IN_IDLE ((uint8_T)2U) +#define Controller_Master_IN_OK ((uint8_T)2U) +#define Controller_Master_IN_READY ((uint8_T)2U) +#define Controller_Master_IN_WARNING ((uint8_T)3U) + +/* Named constants for Chart: '<S1>/select_command' */ +#define Controller_Master_IN_BLINK ((uint8_T)1U) +#define Controller_Master_IN_BLINK_OFF ((uint8_T)1U) +#define Controller_Master_IN_BLINK_ON ((uint8_T)2U) +#define Controller_Master_IN_OFF1 ((uint8_T)2U) +#define Controller_Master_IN_ON ((uint8_T)3U) + +/*===========* + * Constants * + *===========*/ +#define RT_PI 3.14159265358979323846 +#define RT_PIF 3.1415927F +#define RT_LN_10 2.30258509299404568402 +#define RT_LN_10F 2.3025851F +#define RT_LOG10E 0.43429448190325182765 +#define RT_LOG10EF 0.43429449F +#define RT_E 2.7182818284590452354 +#define RT_EF 2.7182817F + +/* + * UNUSED_PARAMETER(x) + * Used to specify that a function parameter (argument) is required but not + * accessed by the function body. + */ +#ifndef UNUSED_PARAMETER +# if defined(__LCC__) +# define UNUSED_PARAMETER(x) /* do nothing */ +# else + +/* + * This is the semi-ANSI standard way of indicating that an + * unused function parameter is required. + */ +# define UNUSED_PARAMETER(x) (void) (x) +# endif +#endif + +/* Model step function */ +void Controller_Master_step(RT_MODEL_Controller_Master_T *const + Controller_Master_M, real_T Controller_Master_U_V, real_T + Controller_Master_U_D_M, uint8_T Controller_Master_U_Slave, uint8_T + *Controller_Master_Y_BRAKE, uint8_T *Controller_Master_Y_LED_BLUE, uint8_T + *Controller_Master_Y_LED_RED, uint8_T *Controller_Master_Y_MASTER) +{ + B_Controller_Master_T *Controller_Master_B = ((B_Controller_Master_T *) + Controller_Master_M->ModelData.blockIO); + DW_Controller_Master_T *Controller_Master_DW = ((DW_Controller_Master_T *) + Controller_Master_M->ModelData.dwork); + real_T K; + + /* Outputs for Atomic SubSystem: '<Root>/Controller_Master' */ + /* Chart: '<S1>/AEB' incorporates: + * Inport: '<Root>/D_M' + * Inport: '<Root>/V' + * Memory: '<S1>/Memory' + */ + /* Gateway: Controller_Master/AEB */ + /* During: Controller_Master/AEB */ + if (Controller_Master_DW->is_active_c3_Controller_Master == 0U) { + /* Entry: Controller_Master/AEB */ + Controller_Master_DW->is_active_c3_Controller_Master = 1U; + + /* Entry Internal: Controller_Master/AEB */ + /* Entry Internal 'AEB': '<S2>:35' */ + /* Entry Internal 'ERRORS_CHECK_THREAD': '<S2>:33' */ + /* Transition: '<S2>:38' */ + Controller_Master_DW->is_ERRORS_CHECK_THREAD = Controller_Master_IN_OK; + + /* Outport: '<Root>/LED_RED' */ + /* Entry 'OK': '<S2>:37' */ + /* '<S2>:37:1' Led_Red =uint8(0); */ + *Controller_Master_Y_LED_RED = 0U; + + /* Outport: '<Root>/MASTER' */ + /* '<S2>:37:1' Master = uint8(1); */ + *Controller_Master_Y_MASTER = 1U; + + /* Entry Internal 'APPLICATION_THREAD': '<S2>:32' */ + /* Transition: '<S2>:27' */ + Controller_Master_DW->is_APPLICATION_THREAD = Controller_Master_IN_READY; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'READY': '<S2>:21' */ + /* '<S2>:21:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:21:1' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } else { + /* During 'AEB': '<S2>:35' */ + /* During 'ERRORS_CHECK_THREAD': '<S2>:33' */ + if (Controller_Master_DW->is_ERRORS_CHECK_THREAD != Controller_Master_IN_ERR) + { + /* During 'OK': '<S2>:37' */ + /* '<S2>:46:1' sf_internal_predicateOutput = ... */ + /* '<S2>:46:1' V > 180 || D > 200 || D < 0; */ + if ((Controller_Master_U_V > 180.0) || (Controller_Master_U_D_M > 200.0) || + (Controller_Master_U_D_M < 0.0)) { + /* Transition: '<S2>:46' */ + Controller_Master_DW->is_ERRORS_CHECK_THREAD = Controller_Master_IN_ERR; + + /* Outport: '<Root>/LED_RED' */ + /* Entry 'ERR': '<S2>:42' */ + /* '<S2>:42:1' Led_Red = uint8(1); */ + *Controller_Master_Y_LED_RED = 1U; + + /* Outport: '<Root>/MASTER' */ + /* Entry 'SENSOR_ERR': '<S2>:39' */ + /* '<S2>:39:1' Master = uint8(0) ; */ + /* '<S2>:39:1' En = false; */ + /* '<S2>:39:1' Brake = uint8(0); */ + /* '<S2>:39:3' Led_Blue = 0; */ + /* Entry 'MCU_ERR': '<S2>:40' */ + /* '<S2>:40:1' Master = uint8(0) ; */ + *Controller_Master_Y_MASTER = 0U; + + /* '<S2>:40:1' En = false; */ + Controller_Master_DW->En = false; + + /* Outport: '<Root>/BRAKE' */ + /* '<S2>:40:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:40:3' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } else { + /* '<S2>:43:1' sf_internal_predicateOutput = ... */ + /* '<S2>:43:1' D == 0; */ + if (Controller_Master_U_D_M == 0.0) { + /* Transition: '<S2>:43' */ + Controller_Master_DW->is_ERRORS_CHECK_THREAD = + Controller_Master_IN_ERR; + + /* Outport: '<Root>/LED_RED' */ + /* Entry 'ERR': '<S2>:42' */ + /* '<S2>:42:1' Led_Red = uint8(1); */ + *Controller_Master_Y_LED_RED = 1U; + + /* Outport: '<Root>/MASTER' */ + /* Entry 'SENSOR_ERR': '<S2>:39' */ + /* '<S2>:39:1' Master = uint8(0) ; */ + /* '<S2>:39:1' En = false; */ + /* '<S2>:39:1' Brake = uint8(0); */ + /* '<S2>:39:3' Led_Blue = 0; */ + /* Entry 'MCU_ERR': '<S2>:40' */ + /* '<S2>:40:1' Master = uint8(0) ; */ + *Controller_Master_Y_MASTER = 0U; + + /* '<S2>:40:1' En = false; */ + Controller_Master_DW->En = false; + + /* Outport: '<Root>/BRAKE' */ + /* '<S2>:40:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:40:3' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } else { + /* '<S2>:45:1' sf_internal_predicateOutput = ... */ + /* '<S2>:45:1' Slave ~= 1; */ + if (Controller_Master_DW->Memory_PreviousInput != 1) { + /* Transition: '<S2>:45' */ + Controller_Master_DW->is_ERRORS_CHECK_THREAD = + Controller_Master_IN_ERR; + + /* Outport: '<Root>/LED_RED' */ + /* Entry 'ERR': '<S2>:42' */ + /* '<S2>:42:1' Led_Red = uint8(1); */ + *Controller_Master_Y_LED_RED = 1U; + + /* Outport: '<Root>/MASTER' */ + /* Entry 'SENSOR_ERR': '<S2>:39' */ + /* '<S2>:39:1' Master = uint8(0) ; */ + /* '<S2>:39:1' En = false; */ + /* '<S2>:39:1' Brake = uint8(0); */ + /* '<S2>:39:3' Led_Blue = 0; */ + /* Entry 'MCU_ERR': '<S2>:40' */ + /* '<S2>:40:1' Master = uint8(0) ; */ + *Controller_Master_Y_MASTER = 0U; + + /* '<S2>:40:1' En = false; */ + Controller_Master_DW->En = false; + + /* Outport: '<Root>/BRAKE' */ + /* '<S2>:40:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:40:3' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } + } + } + } else { + /* During 'ERR': '<S2>:42' */ + /* During 'SENSOR_ERR': '<S2>:39' */ + /* During 'MCU_ERR': '<S2>:40' */ + /* During 'SLAVE_ERR': '<S2>:41' */ + } + + /* During 'APPLICATION_THREAD': '<S2>:32' */ + if (Controller_Master_DW->is_APPLICATION_THREAD == + Controller_Master_IN_ACTIVE) { + /* During 'ACTIVE': '<S2>:1' */ + /* '<S2>:26:1' sf_internal_predicateOutput = ... */ + /* '<S2>:26:1' En == false; */ + if (!Controller_Master_DW->En) { + /* Transition: '<S2>:26' */ + /* Exit Internal 'ACTIVE': '<S2>:1' */ + Controller_Master_DW->is_ACTIVE = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_APPLICATION_THREAD = Controller_Master_IN_READY; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'READY': '<S2>:21' */ + /* '<S2>:21:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:21:1' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } else { + /* '<S2>:1:1' K = (V^2)/D; */ + K = Controller_Master_U_V * Controller_Master_U_V / + Controller_Master_U_D_M; + switch (Controller_Master_DW->is_ACTIVE) { + case Controller_Master_IN_BRAKE: + /* During 'BRAKE': '<S2>:3' */ + /* '<S2>:10:1' sf_internal_predicateOutput = ... */ + /* '<S2>:10:1' K < 100; */ + if (K < 100.0) { + /* Transition: '<S2>:10' */ + Controller_Master_DW->is_ACTIVE = Controller_Master_IN_WARNING; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'WARNING': '<S2>:5' */ + /* '<S2>:5:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + } + break; + + case Controller_Master_IN_IDLE: + /* During 'IDLE': '<S2>:6' */ + /* '<S2>:12:1' sf_internal_predicateOutput = ... */ + /* '<S2>:12:1' K >= 70; */ + if (K >= 70.0) { + /* Transition: '<S2>:12' */ + Controller_Master_DW->is_ACTIVE = Controller_Master_IN_WARNING; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'WARNING': '<S2>:5' */ + /* '<S2>:5:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + } + break; + + default: + /* During 'WARNING': '<S2>:5' */ + /* '<S2>:9:1' sf_internal_predicateOutput = ... */ + /* '<S2>:9:1' K >= 100; */ + if (K >= 100.0) { + /* Transition: '<S2>:9' */ + Controller_Master_DW->is_ACTIVE = Controller_Master_IN_BRAKE; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'BRAKE': '<S2>:3' */ + /* '<S2>:3:1' Brake = uint8(1); */ + *Controller_Master_Y_BRAKE = 1U; + + /* '<S2>:3:1' Led_Blue = 1; */ + Controller_Master_B->Led_Blue = 1.0; + } else { + /* '<S2>:11:1' sf_internal_predicateOutput = ... */ + /* '<S2>:11:1' K < 70; */ + if (K < 70.0) { + /* Transition: '<S2>:11' */ + Controller_Master_DW->is_ACTIVE = Controller_Master_IN_IDLE; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'IDLE': '<S2>:6' */ + /* '<S2>:6:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:6:1' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } else { + /* '<S2>:5:1' Led_Blue = (K-70)/30; */ + Controller_Master_B->Led_Blue = (K - 70.0) / 30.0; + } + } + break; + } + } + } else { + /* During 'READY': '<S2>:21' */ + /* '<S2>:23:1' sf_internal_predicateOutput = ... */ + /* '<S2>:23:1' En == true; */ + if (Controller_Master_DW->En) { + /* Transition: '<S2>:23' */ + Controller_Master_DW->is_APPLICATION_THREAD = + Controller_Master_IN_ACTIVE; + + /* Entry 'ACTIVE': '<S2>:1' */ + /* '<S2>:1:1' K = (V^2)/D; */ + /* Entry Internal 'ACTIVE': '<S2>:1' */ + /* Transition: '<S2>:51' */ + Controller_Master_DW->is_ACTIVE = Controller_Master_IN_IDLE; + + /* Outport: '<Root>/BRAKE' */ + /* Entry 'IDLE': '<S2>:6' */ + /* '<S2>:6:1' Brake = uint8(0); */ + *Controller_Master_Y_BRAKE = 0U; + + /* '<S2>:6:1' Led_Blue = 0; */ + Controller_Master_B->Led_Blue = 0.0; + } + } + } + + /* End of Chart: '<S1>/AEB' */ + + /* Chart: '<S1>/select_command' */ + if (Controller_Master_DW->temporalCounter_i1 < MAX_uint32_T) { + Controller_Master_DW->temporalCounter_i1++; + } + + /* Gateway: Controller_Master/select_command */ + /* During: Controller_Master/select_command */ + if (Controller_Master_DW->is_active_c2_Controller_Master == 0U) { + /* Entry: Controller_Master/select_command */ + Controller_Master_DW->is_active_c2_Controller_Master = 1U; + + /* Entry Internal: Controller_Master/select_command */ + /* Transition: '<S3>:2' */ + Controller_Master_DW->is_c2_Controller_Master = Controller_Master_IN_OFF1; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'OFF1': '<S3>:3' */ + /* '<S3>:3:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } else { + switch (Controller_Master_DW->is_c2_Controller_Master) { + case Controller_Master_IN_BLINK: + /* During 'BLINK': '<S3>:20' */ + /* '<S3>:7:1' sf_internal_predicateOutput = ... */ + /* '<S3>:7:1' enable == 1; */ + if (Controller_Master_B->Led_Blue == 1.0) { + /* Transition: '<S3>:7' */ + /* Exit Internal 'BLINK': '<S3>:20' */ + Controller_Master_DW->is_BLINK = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_c2_Controller_Master = Controller_Master_IN_ON; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'ON': '<S3>:6' */ + /* '<S3>:6:1' led = uint8(1); */ + *Controller_Master_Y_LED_BLUE = 1U; + } else { + /* '<S3>:21:1' sf_internal_predicateOutput = ... */ + /* '<S3>:21:1' enable == 0; */ + if (Controller_Master_B->Led_Blue == 0.0) { + /* Transition: '<S3>:21' */ + /* Exit Internal 'BLINK': '<S3>:20' */ + Controller_Master_DW->is_BLINK = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_c2_Controller_Master = + Controller_Master_IN_OFF1; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'OFF1': '<S3>:3' */ + /* '<S3>:3:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } else if (Controller_Master_DW->is_BLINK == + Controller_Master_IN_BLINK_OFF) { + /* During 'BLINK_OFF': '<S3>:11' */ + /* '<S3>:14:1' sf_internal_predicateOutput = ... */ + /* '<S3>:14:1' after(1-enable,sec); */ + if (Controller_Master_DW->temporalCounter_i1 >= (uint32_T)ceil((1.0 - + Controller_Master_B->Led_Blue) / 0.2 - 2.0E-9)) { + /* Transition: '<S3>:14' */ + Controller_Master_DW->is_BLINK = Controller_Master_IN_BLINK_ON; + Controller_Master_DW->temporalCounter_i1 = 0U; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'BLINK_ON': '<S3>:13' */ + /* '<S3>:13:1' led = uint8(1); */ + *Controller_Master_Y_LED_BLUE = 1U; + } + } else { + /* During 'BLINK_ON': '<S3>:13' */ + /* '<S3>:15:1' sf_internal_predicateOutput = ... */ + /* '<S3>:15:1' after(0.1,sec); */ + if (Controller_Master_DW->temporalCounter_i1 >= 1U) { + /* Transition: '<S3>:15' */ + Controller_Master_DW->is_BLINK = Controller_Master_IN_BLINK_OFF; + Controller_Master_DW->temporalCounter_i1 = 0U; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'BLINK_OFF': '<S3>:11' */ + /* '<S3>:11:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } + } + } + break; + + case Controller_Master_IN_OFF1: + /* During 'OFF1': '<S3>:3' */ + /* '<S3>:22:1' sf_internal_predicateOutput = ... */ + /* '<S3>:22:1' enable == 1; */ + if (Controller_Master_B->Led_Blue == 1.0) { + /* Transition: '<S3>:22' */ + Controller_Master_DW->is_c2_Controller_Master = Controller_Master_IN_ON; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'ON': '<S3>:6' */ + /* '<S3>:6:1' led = uint8(1); */ + *Controller_Master_Y_LED_BLUE = 1U; + } else { + /* '<S3>:12:1' sf_internal_predicateOutput = ... */ + /* '<S3>:12:1' enable >0 && enable <1; */ + if ((Controller_Master_B->Led_Blue > 0.0) && + (Controller_Master_B->Led_Blue < 1.0)) { + /* Transition: '<S3>:12' */ + Controller_Master_DW->is_c2_Controller_Master = + Controller_Master_IN_BLINK; + + /* Entry Internal 'BLINK': '<S3>:20' */ + /* Transition: '<S3>:24' */ + Controller_Master_DW->is_BLINK = Controller_Master_IN_BLINK_OFF; + Controller_Master_DW->temporalCounter_i1 = 0U; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'BLINK_OFF': '<S3>:11' */ + /* '<S3>:11:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } + } + break; + + default: + /* During 'ON': '<S3>:6' */ + /* '<S3>:4:1' sf_internal_predicateOutput = ... */ + /* '<S3>:4:1' enable == 0; */ + if (Controller_Master_B->Led_Blue == 0.0) { + /* Transition: '<S3>:4' */ + Controller_Master_DW->is_c2_Controller_Master = + Controller_Master_IN_OFF1; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'OFF1': '<S3>:3' */ + /* '<S3>:3:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } else { + /* '<S3>:23:1' sf_internal_predicateOutput = ... */ + /* '<S3>:23:1' enable >0 && enable <1; */ + if ((Controller_Master_B->Led_Blue > 0.0) && + (Controller_Master_B->Led_Blue < 1.0)) { + /* Transition: '<S3>:23' */ + Controller_Master_DW->is_c2_Controller_Master = + Controller_Master_IN_BLINK; + + /* Entry Internal 'BLINK': '<S3>:20' */ + /* Transition: '<S3>:24' */ + Controller_Master_DW->is_BLINK = Controller_Master_IN_BLINK_OFF; + Controller_Master_DW->temporalCounter_i1 = 0U; + + /* Outport: '<Root>/LED_BLUE' */ + /* Entry 'BLINK_OFF': '<S3>:11' */ + /* '<S3>:11:1' led = uint8(0); */ + *Controller_Master_Y_LED_BLUE = 0U; + } + } + break; + } + } + + /* End of Chart: '<S1>/select_command' */ + + /* Update for Memory: '<S1>/Memory' incorporates: + * Update for Inport: '<Root>/SLAVE' + */ + Controller_Master_DW->Memory_PreviousInput = Controller_Master_U_Slave; + + /* End of Outputs for SubSystem: '<Root>/Controller_Master' */ +} + +/* Model initialize function */ +void Controller_Master_initialize(RT_MODEL_Controller_Master_T *const + Controller_Master_M, real_T *Controller_Master_U_V, real_T + *Controller_Master_U_D_M, uint8_T *Controller_Master_U_Slave, uint8_T + *Controller_Master_Y_BRAKE, uint8_T *Controller_Master_Y_LED_BLUE, uint8_T + *Controller_Master_Y_LED_RED, uint8_T *Controller_Master_Y_MASTER) +{ + DW_Controller_Master_T *Controller_Master_DW = ((DW_Controller_Master_T *) + Controller_Master_M->ModelData.dwork); + B_Controller_Master_T *Controller_Master_B = ((B_Controller_Master_T *) + Controller_Master_M->ModelData.blockIO); + + /* Registration code */ + + /* block I/O */ + (void) memset(((void *) Controller_Master_B), 0, + sizeof(B_Controller_Master_T)); + + /* states (dwork) */ + (void) memset((void *)Controller_Master_DW, 0, + sizeof(DW_Controller_Master_T)); + + /* external inputs */ + (*Controller_Master_U_V) = 0.0; + (*Controller_Master_U_D_M) = 0.0; + (*Controller_Master_U_Slave) = 0U; + + /* external outputs */ + (*Controller_Master_Y_BRAKE) = 0U; + (*Controller_Master_Y_LED_BLUE) = 0U; + (*Controller_Master_Y_LED_RED) = 0U; + (*Controller_Master_Y_MASTER) = 0U; + + /* SystemInitialize for Atomic SubSystem: '<Root>/Controller_Master' */ + /* InitializeConditions for Memory: '<S1>/Memory' */ + Controller_Master_DW->Memory_PreviousInput = 1U; + + /* SystemInitialize for Chart: '<S1>/AEB' */ + Controller_Master_DW->is_APPLICATION_THREAD = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_ACTIVE = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_ERRORS_CHECK_THREAD = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->is_active_c3_Controller_Master = 0U; + Controller_Master_DW->En = true; + + /* SystemInitialize for Chart: '<S1>/select_command' */ + Controller_Master_DW->is_BLINK = Controller_M_IN_NO_ACTIVE_CHILD; + Controller_Master_DW->temporalCounter_i1 = 0U; + Controller_Master_DW->is_active_c2_Controller_Master = 0U; + Controller_Master_DW->is_c2_Controller_Master = + Controller_M_IN_NO_ACTIVE_CHILD; + + /* End of SystemInitialize for SubSystem: '<Root>/Controller_Master' */ +} + +/* Model terminate function */ +void Controller_Master_terminate(RT_MODEL_Controller_Master_T *const + Controller_Master_M) +{ + /* (no terminate code required) */ + UNUSED_PARAMETER(Controller_Master_M); +} + +/* + * File trailer for generated code. + * + * [EOF] + */ +