move_xrobot/User/device/ai.c

/*
  AI
*/

/* Includes ----------------------------------------------------------------- */
#include "ai.h"

#include <string.h>

#include "bsp\delay.h"
#include "bsp\uart.h"
#include "component\crc16.h"
#include "component\crc8.h"
#include "component\user_math.h"

/* Private define ----------------------------------------------------------- */
/* Private macro ------------------------------------------------------------ */
/* Private typedef ---------------------------------------------------------- */
/* Private variables -------------------------------------------------------- */
static volatile uint32_t drop_message = 0;

static osThreadId_t thread_alert;

static bool inited = false;

/* Private function  -------------------------------------------------------- */

static void Ai_RxCpltCallback(void) {
  osThreadFlagsSet(thread_alert, SIGNAL_AI_RAW_REDY);
}

/* Exported functions ------------------------------------------------------- */
int8_t AI_Init(AI_t *ai) {
  if (ai == NULL) return DEVICE_ERR_NULL;
  if (inited) return DEVICE_ERR_INITED;
  if ((thread_alert = osThreadGetId()) == NULL) return DEVICE_ERR_NULL;

  BSP_UART_RegisterCallback(BSP_UART_AI, BSP_UART_RX_CPLT_CB,
                            Ai_RxCpltCallback);
  inited = true;

  ai->ai_online = false;
  return 0;
}

int8_t AI_Restart(void) {
  __HAL_UART_DISABLE(BSP_UART_GetHandle(BSP_UART_AI));
  __HAL_UART_ENABLE(BSP_UART_GetHandle(BSP_UART_AI));
  return DEVICE_OK;
}

int8_t AI_StartReceiving(AI_t *ai) {
  if (HAL_UART_Receive_DMA(BSP_UART_GetHandle(BSP_UART_AI),
                           ai->form_host.rx_buffer,
                           sizeof(ai->form_host.rx_buffer)) == HAL_OK)
    return DEVICE_OK;
  return DEVICE_ERR;
}

bool AI_WaitDmaCplt(void) {
  return (osThreadFlagsWait(SIGNAL_AI_RAW_REDY, osFlagsWaitAll, 0) ==
          SIGNAL_AI_RAW_REDY);
}

int8_t AI_ParseHost(AI_t *ai, CMD_Host_t *cmd_host) {
  (void)cmd_host;
  ai->ai_online = true;
  if (!CRC16_Verify(ai->form_host.rx_buffer, sizeof(ai->form_host.rx_buffer)))
    goto error;
  memcpy(&(ai->form_host.data), ai->form_host.rx_buffer, sizeof(ai->form_host.data));
  // cmd_host->gimbal_delta.pit = ai->form_host.data.gimbal.pit;
  // cmd_host->gimbal_delta.yaw = ai->form_host.data.gimbal.yaw;
  // cmd_host->gimbal_delta.rol = ai->form_host.data.gimbal.rol;
  // cmd_host->fire = (ai->form_host.data.notice & AI_NOTICE_FIRE);
  // cmd_host->chassis_move_vec.vx = ai->form_host.data.chassis_move_vec.vx;
  // cmd_host->chassis_move_vec.vy = ai->form_host.data.chassis_move_vec.vy;
  // cmd_host->chassis_move_vec.wz = ai->form_host.data.chassis_move_vec.wz;
  cmd_host->gimbal_delta.pit = ai->form_host.data.data.gimbal.pit;
  cmd_host->gimbal_delta.yaw = ai->form_host.data.data.gimbal.yaw;
  cmd_host->gimbal_delta.rol = ai->form_host.data.data.gimbal.rol;
  cmd_host->fire = (ai->form_host.data.data.notice & AI_NOTICE_FIRE);
  cmd_host->chassis_move_vec.vx = ai->form_host.data.data.chassis_move_vec.vx;
  cmd_host->chassis_move_vec.vy = ai->form_host.data.data.chassis_move_vec.vy;
  cmd_host->chassis_move_vec.wz = ai->form_host.data.data.chassis_move_vec.wz;

  return DEVICE_OK;

error:
  drop_message++;
  return DEVICE_ERR;
}

int8_t AI_HandleOffline(AI_t *ai, CMD_Host_t *cmd_host) {
  if (ai == NULL) return DEVICE_ERR_NULL;
  if (cmd_host == NULL) return DEVICE_ERR_NULL;
  ai->ai_online = false;
  memset(ai->form_host.rx_buffer, 0, sizeof(ai->form_host.rx_buffer));
  memset(&(ai->form_host.data), 0, sizeof(ai->form_host.data));
  memset(cmd_host, 0, sizeof(*cmd_host));
  return 0;
}

int8_t AI_PackMCU(AI_t *ai, const AHRS_Quaternion_t *quat) {
  ai->to_host.mcu.id = AI_ID_MCU;
  memcpy((void *)&(ai->to_host.mcu.package.data.quat), (const void *)quat,
         sizeof(*quat));
  ai->to_host.mcu.package.data.notice = 0;
  if (ai->status == AI_STATUS_AUTOAIM)
    ai->to_host.mcu.package.data.notice |= AI_NOTICE_AUTOAIM;
  else if (ai->status == AI_STATUS_HITSWITCH)
    ai->to_host.mcu.package.data.notice |= AI_NOTICE_HITBUFF;
  else if (ai->status == AI_STATUS_AUTOMATIC)
    ai->to_host.mcu.package.data.notice |= AI_NOTICE_AUTOMATIC;

  ai->to_host.mcu.package.crc16 = CRC16_Calc(
      (const uint8_t *)&(ai->to_host.mcu.package),
      sizeof(ai->to_host.mcu.package) - sizeof(uint16_t), CRC16_INIT);
  return DEVICE_OK;
}

int8_t AI_PackRef(AI_t *ai, const Referee_ForAI_t *ref) {
  (void)ref;
  ai->to_host.ref.id = AI_ID_REF;
  ai->to_host.ref.package.crc16 = CRC16_Calc(
      (const uint8_t *)&(ai->to_host.ref.package),
      sizeof(ai->to_host.ref.package) - sizeof(uint16_t), CRC16_INIT);
  return DEVICE_OK;
}

int8_t AI_StartSend(AI_t *ai, bool ref_update) {
  if (ref_update) {
    if (HAL_UART_Transmit_DMA(
            BSP_UART_GetHandle(BSP_UART_AI), (uint8_t *)&(ai->to_host),
            sizeof(ai->to_host.ref) + sizeof(ai->to_host.mcu)) == HAL_OK)
      return DEVICE_OK;
    else
      return DEVICE_ERR;
  } else {
    if (HAL_UART_Transmit_DMA(BSP_UART_GetHandle(BSP_UART_AI),
                              (uint8_t *)&(ai->to_host.mcu),
                              sizeof(ai->to_host.mcu)) == HAL_OK)
      return DEVICE_OK;
    else
      return DEVICE_ERR;
  }
}
初始化 2025-01-14 10:35:04 +08:00			`/*`
			`AI`
			`*/`

			`/* Includes ----------------------------------------------------------------- */`
			`#include "ai.h"`

			`#include <string.h>`

			`#include "bsp\delay.h"`
			`#include "bsp\uart.h"`
			`#include "component\crc16.h"`
			`#include "component\crc8.h"`
			`#include "component\user_math.h"`

			`/* Private define ----------------------------------------------------------- */`
			`/* Private macro ------------------------------------------------------------ */`
			`/* Private typedef ---------------------------------------------------------- */`
			`/* Private variables -------------------------------------------------------- */`
			`static volatile uint32_t drop_message = 0;`

			`static osThreadId_t thread_alert;`

			`static bool inited = false;`

			`/* Private function -------------------------------------------------------- */`

			`static void Ai_RxCpltCallback(void) {`
			`osThreadFlagsSet(thread_alert, SIGNAL_AI_RAW_REDY);`
			`}`

			`/* Exported functions ------------------------------------------------------- */`
			`int8_t AI_Init(AI_t *ai) {`
			`if (ai == NULL) return DEVICE_ERR_NULL;`
			`if (inited) return DEVICE_ERR_INITED;`
			`if ((thread_alert = osThreadGetId()) == NULL) return DEVICE_ERR_NULL;`

			`BSP_UART_RegisterCallback(BSP_UART_AI, BSP_UART_RX_CPLT_CB,`
			`Ai_RxCpltCallback);`
			`inited = true;`
只能烧饼用 2025-01-14 22:57:05 +08:00
			`ai->ai_online = false;`
初始化 2025-01-14 10:35:04 +08:00			`return 0;`
			`}`

			`int8_t AI_Restart(void) {`
			`__HAL_UART_DISABLE(BSP_UART_GetHandle(BSP_UART_AI));`
			`__HAL_UART_ENABLE(BSP_UART_GetHandle(BSP_UART_AI));`
			`return DEVICE_OK;`
			`}`

			`int8_t AI_StartReceiving(AI_t *ai) {`
			`if (HAL_UART_Receive_DMA(BSP_UART_GetHandle(BSP_UART_AI),`
只能烧饼用 2025-01-14 22:57:05 +08:00			`ai->form_host.rx_buffer,`
			`sizeof(ai->form_host.rx_buffer)) == HAL_OK)`
初始化 2025-01-14 10:35:04 +08:00			`return DEVICE_OK;`
			`return DEVICE_ERR;`
			`}`

			`bool AI_WaitDmaCplt(void) {`
			`return (osThreadFlagsWait(SIGNAL_AI_RAW_REDY, osFlagsWaitAll, 0) ==`
			`SIGNAL_AI_RAW_REDY);`
			`}`

			`int8_t AI_ParseHost(AI_t ai, CMD_Host_t cmd_host) {`
			`(void)cmd_host;`
只能烧饼用 2025-01-14 22:57:05 +08:00			`ai->ai_online = true;`
			`if (!CRC16_Verify(ai->form_host.rx_buffer, sizeof(ai->form_host.rx_buffer)))`
初始化 2025-01-14 10:35:04 +08:00			`goto error;`
只能烧饼用 2025-01-14 22:57:05 +08:00			`memcpy(&(ai->form_host.data), ai->form_host.rx_buffer, sizeof(ai->form_host.data));`
			`// cmd_host->gimbal_delta.pit = ai->form_host.data.gimbal.pit;`
			`// cmd_host->gimbal_delta.yaw = ai->form_host.data.gimbal.yaw;`
			`// cmd_host->gimbal_delta.rol = ai->form_host.data.gimbal.rol;`
			`// cmd_host->fire = (ai->form_host.data.notice & AI_NOTICE_FIRE);`
			`// cmd_host->chassis_move_vec.vx = ai->form_host.data.chassis_move_vec.vx;`
			`// cmd_host->chassis_move_vec.vy = ai->form_host.data.chassis_move_vec.vy;`
			`// cmd_host->chassis_move_vec.wz = ai->form_host.data.chassis_move_vec.wz;`
			`cmd_host->gimbal_delta.pit = ai->form_host.data.data.gimbal.pit;`
			`cmd_host->gimbal_delta.yaw = ai->form_host.data.data.gimbal.yaw;`
			`cmd_host->gimbal_delta.rol = ai->form_host.data.data.gimbal.rol;`
			`cmd_host->fire = (ai->form_host.data.data.notice & AI_NOTICE_FIRE);`
			`cmd_host->chassis_move_vec.vx = ai->form_host.data.data.chassis_move_vec.vx;`
			`cmd_host->chassis_move_vec.vy = ai->form_host.data.data.chassis_move_vec.vy;`
			`cmd_host->chassis_move_vec.wz = ai->form_host.data.data.chassis_move_vec.wz;`

初始化 2025-01-14 10:35:04 +08:00			`return DEVICE_OK;`

			`error:`
			`drop_message++;`
			`return DEVICE_ERR;`
			`}`

			`int8_t AI_HandleOffline(AI_t ai, CMD_Host_t cmd_host) {`
			`if (ai == NULL) return DEVICE_ERR_NULL;`
			`if (cmd_host == NULL) return DEVICE_ERR_NULL;`
只能烧饼用 2025-01-14 22:57:05 +08:00			`ai->ai_online = false;`
			`memset(ai->form_host.rx_buffer, 0, sizeof(ai->form_host.rx_buffer));`
			`memset(&(ai->form_host.data), 0, sizeof(ai->form_host.data));`
初始化 2025-01-14 10:35:04 +08:00			`memset(cmd_host, 0, sizeof(*cmd_host));`
			`return 0;`
			`}`

			`int8_t AI_PackMCU(AI_t ai, const AHRS_Quaternion_t quat) {`
			`ai->to_host.mcu.id = AI_ID_MCU;`
			`memcpy((void )&(ai->to_host.mcu.package.data.quat), (const void )quat,`
			`sizeof(*quat));`
			`ai->to_host.mcu.package.data.notice = 0;`
			`if (ai->status == AI_STATUS_AUTOAIM)`
			`ai->to_host.mcu.package.data.notice \|= AI_NOTICE_AUTOAIM;`
			`else if (ai->status == AI_STATUS_HITSWITCH)`
			`ai->to_host.mcu.package.data.notice \|= AI_NOTICE_HITBUFF;`
			`else if (ai->status == AI_STATUS_AUTOMATIC)`
			`ai->to_host.mcu.package.data.notice \|= AI_NOTICE_AUTOMATIC;`

			`ai->to_host.mcu.package.crc16 = CRC16_Calc(`
			`(const uint8_t *)&(ai->to_host.mcu.package),`
			`sizeof(ai->to_host.mcu.package) - sizeof(uint16_t), CRC16_INIT);`
			`return DEVICE_OK;`
			`}`

			`int8_t AI_PackRef(AI_t ai, const Referee_ForAI_t ref) {`
			`(void)ref;`
			`ai->to_host.ref.id = AI_ID_REF;`
			`ai->to_host.ref.package.crc16 = CRC16_Calc(`
			`(const uint8_t *)&(ai->to_host.ref.package),`
			`sizeof(ai->to_host.ref.package) - sizeof(uint16_t), CRC16_INIT);`
			`return DEVICE_OK;`
			`}`

			`int8_t AI_StartSend(AI_t *ai, bool ref_update) {`
			`if (ref_update) {`
			`if (HAL_UART_Transmit_DMA(`
			`BSP_UART_GetHandle(BSP_UART_AI), (uint8_t *)&(ai->to_host),`
			`sizeof(ai->to_host.ref) + sizeof(ai->to_host.mcu)) == HAL_OK)`
			`return DEVICE_OK;`
			`else`
			`return DEVICE_ERR;`
			`} else {`
			`if (HAL_UART_Transmit_DMA(BSP_UART_GetHandle(BSP_UART_AI),`
			`(uint8_t *)&(ai->to_host.mcu),`
			`sizeof(ai->to_host.mcu)) == HAL_OK)`
			`return DEVICE_OK;`
			`else`
			`return DEVICE_ERR;`
			`}`
			`}`