K74B/app_Indie/drivers/hdf/sfrs/uart0_sfr.h

/**
 * @copyright 2022 indie Semiconductor
 *
 * This file is proprietary to indie Semiconductor.
 * All rights reserved. Reproduction or distribution, in whole
 * or in part, is forbidden except by express written permission
 * of indie Semiconductor.
 *
 * @file uart0_sfr.h
 */

#ifndef UART0_SFR_H__
#define UART0_SFR_H__

#include <stdint.h>

/* -------  Start of section using anonymous unions and disabling warnings  ------- */
#if   defined (__CC_ARM)
  #pragma push
  #pragma anon_unions
#elif defined (__ICCARM__)
  #pragma language=extended
#elif defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050)
  #pragma clang diagnostic push
  #pragma clang diagnostic ignored "-Wc11-extensions"
  #pragma clang diagnostic ignored "-Wreserved-id-macro"
#elif defined (__GNUC__)
  /* anonymous unions are enabled by default */
#elif defined (__TMS470__)
  /* anonymous unions are enabled by default */
#elif defined (__TASKING__)
  #pragma warning 586
#elif defined (__CSMC__)
  /* anonymous unions are enabled by default */
#else
  #warning Not supported compiler type
#endif

/**
 * @brief A structure to represent Special Function Registers for UART0.
 */
typedef struct {

  union {
    struct {
      uint8_t  BYTE                     :  8; /*!< Data */
      uint8_t  DUMMY0                   :  8; /*!< Data */
      uint8_t  DUMMY1                   :  8; /*!< Data */
      uint8_t  DUMMY2                   :  8; /*!< Data */
    };
    uint32_t WORD;
  } DATA; /* +0x000 */

  union {
    struct {
      uint8_t  FRAMEERROR               :  1; /*!< Framing Error */
      uint8_t  PARITYERROR              :  1; /*!< Parity Error */
      uint8_t  BREAKERROR               :  1; /*!< Break Error */
      uint8_t                           :  5; /*   (reserved) */
      uint32_t                          : 24; /*   (reserved) */
    };
    uint32_t WORD;
  } UARTDATARECEIVESTATUS; /* +0x004 */

  union {
    struct {
      uint8_t  ENABLE                   :  1;
      uint8_t  ENABLE_STS               :  1; /*!< Enable status */
      uint8_t  UFIFOSOFTRESET           :  1; /*!< FIFO SOFT RESET */
      uint8_t  RXXFERCNTCLR             :  1; /*!< RX Transfer Counter Clear */
      uint8_t  TXXFERCNTCLR             :  1; /*!< TX Transfer Counter Clear */
      uint8_t                           :  3; /*   (reserved) */
      uint8_t  SIZE                     :  2; /*!< Transmission word size */
      uint8_t  STOP                     :  1; /*!< Stop bit control */
      uint8_t  PARENA                   :  1; /*!< Parity enable */
      uint8_t  PARODD                   :  1; /*!< Odd parity */
      uint8_t  STICKENA                 :  1; /*!< Sticky parity enable */
      uint8_t                           :  2; /*   (reserved) */
      uint8_t                           :  6; /*   (reserved) */
      uint8_t  BREAKENA                 :  1; /*!< Break enable */
      uint8_t  LOOPENA                  :  1; /*!< Loopback enable */
      uint8_t                           :  8; /*   (reserved) */
    };
    uint32_t WORD;
  } MSGCTRL; /* +0x008 */

  union {
    struct {
      union {
        struct {
          uint8_t  RXDONE               :  1; /*!< Rx Data ready Interrupt Enable */
          uint8_t  OVRUNERR             :  1; /*!< RX FIFO overflow error Interrupt Enable */
          uint8_t  FRMERR               :  1; /*!< Framing error Interrupt Enable */
          uint8_t  PRTYERR              :  1; /*!< Parity Error Interrupt Enable */
          uint8_t  BREAKKERR            :  1; /*!< Break Error Interrupt Enable */
          uint8_t  TXDONE               :  1; /*!< Transmission done Interrupt Enable */
          uint8_t  RXMULTDONE           :  1; /*!< Multiple Receive Transactions Done Interrupt Enable */
          uint8_t  TXMULTDONE           :  1; /*!< Multiple Transmit Transactions Done Interrupt Enable */
        };
        uint8_t BYTE;
      } ENABLE;
      union {
        struct {
          uint8_t  RXDONE               :  1; /*!< Rx Data ready Interrupt Clear */
          uint8_t  OVRUNERR             :  1; /*!< RX FIFO overflow error Interrupt Clear */
          uint8_t  FRMERR               :  1; /*!< Framing error Interrupt Clear */
          uint8_t  PRTYERR              :  1; /*!< Parity Error Interrupt Clear */
          uint8_t  BREAKKERR            :  1; /*!< Break Error Interrupt  Clear */
          uint8_t  TXDONE               :  1; /*!< Transmission done Interrupt Clear */
          uint8_t  RXMULTDONE           :  1; /*!< Multiple Receive Transactions Done Interrupt Clear */
          uint8_t  TXMULTDONE           :  1; /*!< Multiple Transmit Transactions Done Interrupt Clear */
        };
        uint8_t BYTE;
      } CLEAR;
      union {
        struct {
          uint8_t  RXDONE               :  1; /*!< Rx Data ready */
          uint8_t  OVRUNERR             :  1; /*!< RX FIFO overflow error */
          uint8_t  FRMERR               :  1; /*!< Framing error */
          uint8_t  PRTYERR              :  1; /*!< Parity Error */
          uint8_t  BREAKKERR            :  1; /*!< Break IRQ */
          uint8_t  TXDONE               :  1; /*!< Transmission is done */
          uint8_t  RXMULTDONE           :  1; /*!< Multiple Receive Transactions Done */
          uint8_t  TXMULTDONE           :  1; /*!< Multiple Transmit Transactions Done */
        };
        uint8_t BYTE;
      } STATUS;
      union {
        struct {
          uint8_t  RXDONE               :  1; /*!< Rx Data ready Interrupt */
          uint8_t  OVRUNERR             :  1; /*!< RX FIFO overflow error Interrupt */
          uint8_t  FRMERR               :  1; /*!< Framing error Interrupt */
          uint8_t  PRTYERR              :  1; /*!< Parity Error Interrupt */
          uint8_t  BREAKKERR            :  1; /*!< Break Error Interrupt */
          uint8_t  TXDONE               :  1; /*!< Transmission done Interrupt */
          uint8_t  RXMULTDONE           :  1; /*!< Multiple Receive Transactions Done Interrupt */
          uint8_t  TXMULTDONE           :  1; /*!< Multiple Transmit Transactions Done Interrupt */
        };
        uint8_t BYTE;
      } IRQ;
    };
    uint32_t WORD;
  } UARTINT; /* +0x00C */

  union {
    struct {
      union {
        struct {
          uint8_t  RXTOUT               :  1; /*!< Rx Time-out Interrupt Enable */
          uint8_t  UNRUNERR             :  1; /*!< RX FIFO underflow error Interrupt Enable */
          uint8_t  OVERRUNERR           :  1; /*!< TX FIFO overflow error Interrupt Enable */
          uint8_t                       :  5; /*   (reserved) */
        };
        uint8_t BYTE;
      } ENABLE;
      union {
        struct {
          uint8_t  RXTOUT               :  1; /*!< Rx Time-out Interrupt Clear */
          uint8_t  UNRUNERR             :  1; /*!< RX FIFO underflow error Interrupt Clear */
          uint8_t  OVERRUNERR           :  1; /*!< TX FIFO overflow error Interrupt Clear */
          uint8_t                       :  5; /*   (reserved) */
        };
        uint8_t BYTE;
      } CLEAR;
      union {
        struct {
          uint8_t  RXTOUT               :  1; /*!< Rx Time-out */
          uint8_t  UNRUNERR             :  1; /*!< RX FIFO underflow error */
          uint8_t  OVERRUNERR           :  1; /*!< TX FIFO overflow error */
          uint8_t                       :  5; /*   (reserved) */
        };
        uint8_t BYTE;
      } STATUS;
      union {
        struct {
          uint8_t  RXTOUT               :  1; /*!< Rx Time-out Interrupt */
          uint8_t  UNRUNERR             :  1; /*!< RX FIFO underflow error Interrupt */
          uint8_t  OVERRUNERR           :  1; /*!< TX FIFO overflow error Interrupt */
          uint8_t                       :  5; /*   (reserved) */
        };
        uint8_t BYTE;
      } IRQ;
    };
    uint32_t WORD;
  } UARTINT2; /* +0x010 */

  union {
    struct {
      uint8_t  FDIV                     :  3; /*!< Fractional divider */
      uint32_t BAUDDIV                  : 16; /*!< Baud rate divider !!misaligned!! */
      uint8_t                           :  5; /*   (reserved) */
      uint8_t  OSR                      :  5; /*!< Over-sampling ratio */
      uint8_t  UADVANCE                 :  1; /*!< Advance Register */
      uint8_t  URETARD                  :  1; /*!< Retard Register */
      uint8_t                           :  1; /*   (reserved) */
    };
    uint32_t WORD;
  } UARTBAUD; /* +0x014 */

  union {
    struct {
      uint8_t                           :  1; /*   (reserved) */
      uint8_t  RXEMPTY                  :  1; /*!< Reception FIFO empty */
      uint8_t  RXFULL                   :  1; /*!< Reception FIFO full */
      uint8_t  RXCOUNT                  :  5; /*!< Reception FIFO current count */
      uint8_t                           :  1; /*   (reserved) */
      uint8_t  TXEMPTY                  :  1; /*!< Transmit FIFO empty */
      uint8_t  TXFULL                   :  1; /*!< Transmit FIFO full */
      uint8_t  TXCOUNT                  :  5; /*!< Transmit FIFO current count */
      uint8_t  RXMULTIPLEXFERDONECNT    :  8; /*!< Receive Data Count Interrupt */
      uint8_t  TXMULTIPLEXFERDONECNT    :  8; /*!< Transmit Data Count Interrupt */
    };
    uint32_t WORD;
  } UARTFIFO; /* +0x018 */

} UART0_SFRS_t;

/* --------  End of section using anonymous unions and disabling warnings  -------- */
#if   defined (__CC_ARM)
  #pragma pop
#elif defined (__ICCARM__)
  /* leave anonymous unions enabled */
#elif (__ARMCC_VERSION >= 6010050)
  #pragma clang diagnostic pop
#elif defined (__GNUC__)
  /* anonymous unions are enabled by default */
#elif defined (__TMS470__)
  /* anonymous unions are enabled by default */
#elif defined (__TASKING__)
  #pragma warning restore
#elif defined (__CSMC__)
  /* anonymous unions are enabled by default */
#else
  #warning Not supported compiler type
#endif

/**
 * @brief The starting address of UART0 SFRS.
 */
#define UART0_SFRS ((__IO UART0_SFRS_t *)0x40015400)

#endif /* end of __UART0_SFR_H__ section */