Inc/stm32l0xx_ll_crc.h - third_party/github/STMicroelectronics/stm32l0xx_hal_driver - Git at Google

 /**
   ******************************************************************************
   * @file    stm32l0xx_ll_crc.h
   * @author  MCD Application Team
   * @brief   Header file of CRC LL module.
   ******************************************************************************
   * @attention
   *
   * <h2><center>&copy; Copyright (c) 2016 STMicroelectronics.
   * All rights reserved.</center></h2>
   *
   * This software component is licensed by ST under BSD 3-Clause license,
   * the "License"; You may not use this file except in compliance with the
   * License. You may obtain a copy of the License at:
   *                        opensource.org/licenses/BSD-3-Clause
   *
   ******************************************************************************
   */

 /* Define to prevent recursive inclusion -------------------------------------*/
 #ifndef STM32L0xx_LL_CRC_H
 #define STM32L0xx_LL_CRC_H

 #ifdef __cplusplus
 extern "C" {
 #endif

 /* Includes ------------------------------------------------------------------*/
 #include "stm32l0xx.h"

 /** @addtogroup STM32L0xx_LL_Driver
   * @{
   */

 #if defined(CRC)

 /** @defgroup CRC_LL CRC
   * @{
   */

 /* Private types -------------------------------------------------------------*/
 /* Private variables ---------------------------------------------------------*/
 /* Private constants ---------------------------------------------------------*/
 /* Private macros ------------------------------------------------------------*/

 /* Exported types ------------------------------------------------------------*/
 /* Exported constants --------------------------------------------------------*/
 /** @defgroup CRC_LL_Exported_Constants CRC Exported Constants
   * @{
   */

 /** @defgroup CRC_LL_EC_POLYLENGTH Polynomial length
   * @{
   */
 #define LL_CRC_POLYLENGTH_32B              0x00000000U                              /*!< 32 bits Polynomial size */
 #define LL_CRC_POLYLENGTH_16B              CRC_CR_POLYSIZE_0                        /*!< 16 bits Polynomial size */
 #define LL_CRC_POLYLENGTH_8B               CRC_CR_POLYSIZE_1                        /*!< 8 bits Polynomial size */
 #define LL_CRC_POLYLENGTH_7B               (CRC_CR_POLYSIZE_1 | CRC_CR_POLYSIZE_0)  /*!< 7 bits Polynomial size */
 /**
   * @}
   */

 /** @defgroup CRC_LL_EC_INDATA_REVERSE Input Data Reverse
   * @{
   */
 #define LL_CRC_INDATA_REVERSE_NONE         0x00000000U                              /*!< Input Data bit order not affected */
 #define LL_CRC_INDATA_REVERSE_BYTE         CRC_CR_REV_IN_0                          /*!< Input Data bit reversal done by byte */
 #define LL_CRC_INDATA_REVERSE_HALFWORD     CRC_CR_REV_IN_1                          /*!< Input Data bit reversal done by half-word */
 #define LL_CRC_INDATA_REVERSE_WORD         (CRC_CR_REV_IN_1 | CRC_CR_REV_IN_0)      /*!< Input Data bit reversal done by word */
 /**
   * @}
   */

 /** @defgroup CRC_LL_EC_OUTDATA_REVERSE Output Data Reverse
   * @{
   */
 #define LL_CRC_OUTDATA_REVERSE_NONE        0x00000000U                               /*!< Output Data bit order not affected */
 #define LL_CRC_OUTDATA_REVERSE_BIT         CRC_CR_REV_OUT                            /*!< Output Data bit reversal done by bit */
 /**
   * @}
   */

 /** @defgroup CRC_LL_EC_Default_Polynomial_Value    Default CRC generating polynomial value
   * @brief    Normal representation of this polynomial value is
   *           X^32 + X^26 + X^23 + X^22 + X^16 + X^12 + X^11 + X^10 +X^8 + X^7 + X^5 + X^4 + X^2 + X + 1 .
   * @{
   */
 #define LL_CRC_DEFAULT_CRC32_POLY          0x04C11DB7U                               /*!< Default CRC generating polynomial value */
 /**
   * @}
   */

 /** @defgroup CRC_LL_EC_Default_InitValue    Default CRC computation initialization value
   * @{
   */
 #define LL_CRC_DEFAULT_CRC_INITVALUE       0xFFFFFFFFU                               /*!< Default CRC computation initialization value */
 /**
   * @}
   */

 /**
   * @}
   */

 /* Exported macro ------------------------------------------------------------*/
 /** @defgroup CRC_LL_Exported_Macros CRC Exported Macros
   * @{
   */

 /** @defgroup CRC_LL_EM_WRITE_READ Common Write and read registers Macros
   * @{
   */

 /**
   * @brief  Write a value in CRC register
   * @param  __INSTANCE__ CRC Instance
   * @param  __REG__ Register to be written
   * @param  __VALUE__ Value to be written in the register
   * @retval None
   */
 #define LL_CRC_WriteReg(__INSTANCE__, __REG__, __VALUE__) WRITE_REG(__INSTANCE__->__REG__, __VALUE__)

 /**
   * @brief  Read a value in CRC register
   * @param  __INSTANCE__ CRC Instance
   * @param  __REG__ Register to be read
   * @retval Register value
   */
 #define LL_CRC_ReadReg(__INSTANCE__, __REG__) READ_REG(__INSTANCE__->__REG__)
 /**
   * @}
   */

 /**
   * @}
   */


 /* Exported functions --------------------------------------------------------*/
 /** @defgroup CRC_LL_Exported_Functions CRC Exported Functions
   * @{
   */

 /** @defgroup CRC_LL_EF_Configuration CRC Configuration functions
   * @{
   */

 /**
   * @brief  Reset the CRC calculation unit.
   * @note   If Programmable Initial CRC value feature
   *         is available, also set the Data Register to the value stored in the
   *         CRC_INIT register, otherwise, reset Data Register to its default value.
   * @rmtoll CR           RESET         LL_CRC_ResetCRCCalculationUnit
   * @param  CRCx CRC Instance
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_ResetCRCCalculationUnit(CRC_TypeDef *CRCx)
 {
   SET_BIT(CRCx->CR, CRC_CR_RESET);
 }

 /**
   * @brief  Configure size of the polynomial.
   * @rmtoll CR           POLYSIZE      LL_CRC_SetPolynomialSize
   * @param  CRCx CRC Instance
   * @param  PolySize This parameter can be one of the following values:
   *         @arg @ref LL_CRC_POLYLENGTH_32B
   *         @arg @ref LL_CRC_POLYLENGTH_16B
   *         @arg @ref LL_CRC_POLYLENGTH_8B
   *         @arg @ref LL_CRC_POLYLENGTH_7B
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_SetPolynomialSize(CRC_TypeDef *CRCx, uint32_t PolySize)
 {
   MODIFY_REG(CRCx->CR, CRC_CR_POLYSIZE, PolySize);
 }

 /**
   * @brief  Return size of the polynomial.
   * @rmtoll CR           POLYSIZE      LL_CRC_GetPolynomialSize
   * @param  CRCx CRC Instance
   * @retval Returned value can be one of the following values:
   *         @arg @ref LL_CRC_POLYLENGTH_32B
   *         @arg @ref LL_CRC_POLYLENGTH_16B
   *         @arg @ref LL_CRC_POLYLENGTH_8B
   *         @arg @ref LL_CRC_POLYLENGTH_7B
   */
 __STATIC_INLINE uint32_t LL_CRC_GetPolynomialSize(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_POLYSIZE));
 }

 /**
   * @brief  Configure the reversal of the bit order of the input data
   * @rmtoll CR           REV_IN        LL_CRC_SetInputDataReverseMode
   * @param  CRCx CRC Instance
   * @param  ReverseMode This parameter can be one of the following values:
   *         @arg @ref LL_CRC_INDATA_REVERSE_NONE
   *         @arg @ref LL_CRC_INDATA_REVERSE_BYTE
   *         @arg @ref LL_CRC_INDATA_REVERSE_HALFWORD
   *         @arg @ref LL_CRC_INDATA_REVERSE_WORD
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_SetInputDataReverseMode(CRC_TypeDef *CRCx, uint32_t ReverseMode)
 {
   MODIFY_REG(CRCx->CR, CRC_CR_REV_IN, ReverseMode);
 }

 /**
   * @brief  Return type of reversal for input data bit order
   * @rmtoll CR           REV_IN        LL_CRC_GetInputDataReverseMode
   * @param  CRCx CRC Instance
   * @retval Returned value can be one of the following values:
   *         @arg @ref LL_CRC_INDATA_REVERSE_NONE
   *         @arg @ref LL_CRC_INDATA_REVERSE_BYTE
   *         @arg @ref LL_CRC_INDATA_REVERSE_HALFWORD
   *         @arg @ref LL_CRC_INDATA_REVERSE_WORD
   */
 __STATIC_INLINE uint32_t LL_CRC_GetInputDataReverseMode(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_REV_IN));
 }

 /**
   * @brief  Configure the reversal of the bit order of the Output data
   * @rmtoll CR           REV_OUT       LL_CRC_SetOutputDataReverseMode
   * @param  CRCx CRC Instance
   * @param  ReverseMode This parameter can be one of the following values:
   *         @arg @ref LL_CRC_OUTDATA_REVERSE_NONE
   *         @arg @ref LL_CRC_OUTDATA_REVERSE_BIT
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_SetOutputDataReverseMode(CRC_TypeDef *CRCx, uint32_t ReverseMode)
 {
   MODIFY_REG(CRCx->CR, CRC_CR_REV_OUT, ReverseMode);
 }

 /**
   * @brief  Configure the reversal of the bit order of the Output data
   * @rmtoll CR           REV_OUT       LL_CRC_GetOutputDataReverseMode
   * @param  CRCx CRC Instance
   * @retval Returned value can be one of the following values:
   *         @arg @ref LL_CRC_OUTDATA_REVERSE_NONE
   *         @arg @ref LL_CRC_OUTDATA_REVERSE_BIT
   */
 __STATIC_INLINE uint32_t LL_CRC_GetOutputDataReverseMode(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_REV_OUT));
 }

 /**
   * @brief  Initialize the Programmable initial CRC value.
   * @note   If the CRC size is less than 32 bits, the least significant bits
   *         are used to write the correct value
   * @note   LL_CRC_DEFAULT_CRC_INITVALUE could be used as value for InitCrc parameter.
   * @rmtoll INIT         INIT          LL_CRC_SetInitialData
   * @param  CRCx CRC Instance
   * @param  InitCrc Value to be programmed in Programmable initial CRC value register
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_SetInitialData(CRC_TypeDef *CRCx, uint32_t InitCrc)
 {
   WRITE_REG(CRCx->INIT, InitCrc);
 }

 /**
   * @brief  Return current Initial CRC value.
   * @note   If the CRC size is less than 32 bits, the least significant bits
   *         are used to read the correct value
   * @rmtoll INIT         INIT          LL_CRC_GetInitialData
   * @param  CRCx CRC Instance
   * @retval Value programmed in Programmable initial CRC value register
   */
 __STATIC_INLINE uint32_t LL_CRC_GetInitialData(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_REG(CRCx->INIT));
 }

 /**
   * @brief  Initialize the Programmable polynomial value
   *         (coefficients of the polynomial to be used for CRC calculation).
   * @note   LL_CRC_DEFAULT_CRC32_POLY could be used as value for PolynomCoef parameter.
   * @note   Please check Reference Manual and existing Errata Sheets,
   *         regarding possible limitations for Polynomial values usage.
   *         For example, for a polynomial of degree 7, X^7 + X^6 + X^5 + X^2 + 1 is written 0x65
   * @rmtoll POL          POL           LL_CRC_SetPolynomialCoef
   * @param  CRCx CRC Instance
   * @param  PolynomCoef Value to be programmed in Programmable Polynomial value register
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_SetPolynomialCoef(CRC_TypeDef *CRCx, uint32_t PolynomCoef)
 {
   WRITE_REG(CRCx->POL, PolynomCoef);
 }

 /**
   * @brief  Return current Programmable polynomial value
   * @note   Please check Reference Manual and existing Errata Sheets,
   *         regarding possible limitations for Polynomial values usage.
   *         For example, for a polynomial of degree 7, X^7 + X^6 + X^5 + X^2 + 1 is written 0x65
   * @rmtoll POL          POL           LL_CRC_GetPolynomialCoef
   * @param  CRCx CRC Instance
   * @retval Value programmed in Programmable Polynomial value register
   */
 __STATIC_INLINE uint32_t LL_CRC_GetPolynomialCoef(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_REG(CRCx->POL));
 }

 /**
   * @}
   */

 /** @defgroup CRC_LL_EF_Data_Management Data_Management
   * @{
   */

 /**
   * @brief  Write given 32-bit data to the CRC calculator
   * @rmtoll DR           DR            LL_CRC_FeedData32
   * @param  CRCx CRC Instance
   * @param  InData value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFFFFFFFF
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_FeedData32(CRC_TypeDef *CRCx, uint32_t InData)
 {
   WRITE_REG(CRCx->DR, InData);
 }

 /**
   * @brief  Write given 16-bit data to the CRC calculator
   * @rmtoll DR           DR            LL_CRC_FeedData16
   * @param  CRCx CRC Instance
   * @param  InData 16 bit value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFFFF
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_FeedData16(CRC_TypeDef *CRCx, uint16_t InData)
 {
   __IO uint16_t *pReg;

   pReg = (__IO uint16_t *)(__IO void *)(&CRCx->DR);
   *pReg = InData;
 }

 /**
   * @brief  Write given 8-bit data to the CRC calculator
   * @rmtoll DR           DR            LL_CRC_FeedData8
   * @param  CRCx CRC Instance
   * @param  InData 8 bit value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFF
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_FeedData8(CRC_TypeDef *CRCx, uint8_t InData)
 {
   *(uint8_t __IO *)(&CRCx->DR) = (uint8_t) InData;
 }

 /**
   * @brief  Return current CRC calculation result. 32 bits value is returned.
   * @rmtoll DR           DR            LL_CRC_ReadData32
   * @param  CRCx CRC Instance
   * @retval Current CRC calculation result as stored in CRC_DR register (32 bits).
   */
 __STATIC_INLINE uint32_t LL_CRC_ReadData32(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_REG(CRCx->DR));
 }

 /**
   * @brief  Return current CRC calculation result. 16 bits value is returned.
   * @note   This function is expected to be used in a 16 bits CRC polynomial size context.
   * @rmtoll DR           DR            LL_CRC_ReadData16
   * @param  CRCx CRC Instance
   * @retval Current CRC calculation result as stored in CRC_DR register (16 bits).
   */
 __STATIC_INLINE uint16_t LL_CRC_ReadData16(CRC_TypeDef *CRCx)
 {
   return (uint16_t)READ_REG(CRCx->DR);
 }

 /**
   * @brief  Return current CRC calculation result. 8 bits value is returned.
   * @note   This function is expected to be used in a 8 bits CRC polynomial size context.
   * @rmtoll DR           DR            LL_CRC_ReadData8
   * @param  CRCx CRC Instance
   * @retval Current CRC calculation result as stored in CRC_DR register (8 bits).
   */
 __STATIC_INLINE uint8_t LL_CRC_ReadData8(CRC_TypeDef *CRCx)
 {
   return (uint8_t)READ_REG(CRCx->DR);
 }

 /**
   * @brief  Return current CRC calculation result. 7 bits value is returned.
   * @note   This function is expected to be used in a 7 bits CRC polynomial size context.
   * @rmtoll DR           DR            LL_CRC_ReadData7
   * @param  CRCx CRC Instance
   * @retval Current CRC calculation result as stored in CRC_DR register (7 bits).
   */
 __STATIC_INLINE uint8_t LL_CRC_ReadData7(CRC_TypeDef *CRCx)
 {
   return (uint8_t)(READ_REG(CRCx->DR) & 0x7FU);
 }

 /**
   * @brief  Return data stored in the Independent Data(IDR) register.
   * @note   This register can be used as a temporary storage location for one byte.
   * @rmtoll IDR          IDR           LL_CRC_Read_IDR
   * @param  CRCx CRC Instance
   * @retval Value stored in CRC_IDR register (General-purpose 8-bit data register).
   */
 __STATIC_INLINE uint32_t LL_CRC_Read_IDR(CRC_TypeDef *CRCx)
 {
   return (uint32_t)(READ_REG(CRCx->IDR));
 }

 /**
   * @brief  Store data in the Independent Data(IDR) register.
   * @note   This register can be used as a temporary storage location for one byte.
   * @rmtoll IDR          IDR           LL_CRC_Write_IDR
   * @param  CRCx CRC Instance
   * @param  InData value to be stored in CRC_IDR register (8-bit) between Min_Data=0 and Max_Data=0xFF
   * @retval None
   */
 __STATIC_INLINE void LL_CRC_Write_IDR(CRC_TypeDef *CRCx, uint32_t InData)
 {
   *((uint8_t __IO *)(&CRCx->IDR)) = (uint8_t) InData;
 }
 /**
   * @}
   */

 #if defined(USE_FULL_LL_DRIVER)
 /** @defgroup CRC_LL_EF_Init Initialization and de-initialization functions
   * @{
   */

 ErrorStatus LL_CRC_DeInit(CRC_TypeDef *CRCx);

 /**
   * @}
   */
 #endif /* USE_FULL_LL_DRIVER */

 /**
   * @}
   */

 /**
   * @}
   */

 #endif /* defined(CRC) */

 /**
   * @}
   */

 #ifdef __cplusplus
 }
 #endif

 #endif /* STM32L0xx_LL_CRC_H */

 /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/
	/**
	******************************************************************************
	* @file stm32l0xx_ll_crc.h
	* @author MCD Application Team
	* @brief Header file of CRC LL module.
	******************************************************************************
	* @attention
	*
	* <h2><center>© Copyright (c) 2016 STMicroelectronics.
	* All rights reserved.</center></h2>
	*
	* This software component is licensed by ST under BSD 3-Clause license,
	* the "License"; You may not use this file except in compliance with the
	* License. You may obtain a copy of the License at:
	* opensource.org/licenses/BSD-3-Clause
	*
	******************************************************************************
	*/

	/* Define to prevent recursive inclusion -------------------------------------*/
	#ifndef STM32L0xx_LL_CRC_H
	#define STM32L0xx_LL_CRC_H

	#ifdef __cplusplus
	extern "C" {
	#endif

	/* Includes ------------------------------------------------------------------*/
	#include "stm32l0xx.h"

	/** @addtogroup STM32L0xx_LL_Driver
	* @{
	*/

	#if defined(CRC)

	/** @defgroup CRC_LL CRC
	* @{
	*/

	/* Private types -------------------------------------------------------------*/
	/* Private variables ---------------------------------------------------------*/
	/* Private constants ---------------------------------------------------------*/
	/* Private macros ------------------------------------------------------------*/

	/* Exported types ------------------------------------------------------------*/
	/* Exported constants --------------------------------------------------------*/
	/** @defgroup CRC_LL_Exported_Constants CRC Exported Constants
	* @{
	*/

	/** @defgroup CRC_LL_EC_POLYLENGTH Polynomial length
	* @{
	*/
	#define LL_CRC_POLYLENGTH_32B 0x00000000U /!< 32 bits Polynomial size /
	#define LL_CRC_POLYLENGTH_16B CRC_CR_POLYSIZE_0 /!< 16 bits Polynomial size /
	#define LL_CRC_POLYLENGTH_8B CRC_CR_POLYSIZE_1 /!< 8 bits Polynomial size /
	#define LL_CRC_POLYLENGTH_7B (CRC_CR_POLYSIZE_1 \| CRC_CR_POLYSIZE_0) /!< 7 bits Polynomial size /
	/**
	* @}
	*/

	/** @defgroup CRC_LL_EC_INDATA_REVERSE Input Data Reverse
	* @{
	*/
	#define LL_CRC_INDATA_REVERSE_NONE 0x00000000U /!< Input Data bit order not affected /
	#define LL_CRC_INDATA_REVERSE_BYTE CRC_CR_REV_IN_0 /!< Input Data bit reversal done by byte /
	#define LL_CRC_INDATA_REVERSE_HALFWORD CRC_CR_REV_IN_1 /!< Input Data bit reversal done by half-word /
	#define LL_CRC_INDATA_REVERSE_WORD (CRC_CR_REV_IN_1 \| CRC_CR_REV_IN_0) /!< Input Data bit reversal done by word /
	/**
	* @}
	*/

	/** @defgroup CRC_LL_EC_OUTDATA_REVERSE Output Data Reverse
	* @{
	*/
	#define LL_CRC_OUTDATA_REVERSE_NONE 0x00000000U /!< Output Data bit order not affected /
	#define LL_CRC_OUTDATA_REVERSE_BIT CRC_CR_REV_OUT /!< Output Data bit reversal done by bit /
	/**
	* @}
	*/

	/** @defgroup CRC_LL_EC_Default_Polynomial_Value Default CRC generating polynomial value
	* @brief Normal representation of this polynomial value is
	* X^32 + X^26 + X^23 + X^22 + X^16 + X^12 + X^11 + X^10 +X^8 + X^7 + X^5 + X^4 + X^2 + X + 1 .
	* @{
	*/
	#define LL_CRC_DEFAULT_CRC32_POLY 0x04C11DB7U /!< Default CRC generating polynomial value /
	/**
	* @}
	*/

	/** @defgroup CRC_LL_EC_Default_InitValue Default CRC computation initialization value
	* @{
	*/
	#define LL_CRC_DEFAULT_CRC_INITVALUE 0xFFFFFFFFU /!< Default CRC computation initialization value /
	/**
	* @}
	*/

	/**
	* @}
	*/

	/* Exported macro ------------------------------------------------------------*/
	/** @defgroup CRC_LL_Exported_Macros CRC Exported Macros
	* @{
	*/

	/** @defgroup CRC_LL_EM_WRITE_READ Common Write and read registers Macros
	* @{
	*/

	/**
	* @brief Write a value in CRC register
	* @param __INSTANCE__ CRC Instance
	* @param __REG__ Register to be written
	* @param __VALUE__ Value to be written in the register
	* @retval None
	*/
	#define LL_CRC_WriteReg(__INSTANCE__, __REG__, __VALUE__) WRITE_REG(__INSTANCE__->__REG__, __VALUE__)

	/**
	* @brief Read a value in CRC register
	* @param __INSTANCE__ CRC Instance
	* @param __REG__ Register to be read
	* @retval Register value
	*/
	#define LL_CRC_ReadReg(__INSTANCE__, __REG__) READ_REG(__INSTANCE__->__REG__)
	/**
	* @}
	*/

	/**
	* @}
	*/


	/* Exported functions --------------------------------------------------------*/
	/** @defgroup CRC_LL_Exported_Functions CRC Exported Functions
	* @{
	*/

	/** @defgroup CRC_LL_EF_Configuration CRC Configuration functions
	* @{
	*/

	/**
	* @brief Reset the CRC calculation unit.
	* @note If Programmable Initial CRC value feature
	* is available, also set the Data Register to the value stored in the
	* CRC_INIT register, otherwise, reset Data Register to its default value.
	* @rmtoll CR RESET LL_CRC_ResetCRCCalculationUnit
	* @param CRCx CRC Instance
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_ResetCRCCalculationUnit(CRC_TypeDef *CRCx)
	{
	SET_BIT(CRCx->CR, CRC_CR_RESET);
	}

	/**
	* @brief Configure size of the polynomial.
	* @rmtoll CR POLYSIZE LL_CRC_SetPolynomialSize
	* @param CRCx CRC Instance
	* @param PolySize This parameter can be one of the following values:
	* @arg @ref LL_CRC_POLYLENGTH_32B
	* @arg @ref LL_CRC_POLYLENGTH_16B
	* @arg @ref LL_CRC_POLYLENGTH_8B
	* @arg @ref LL_CRC_POLYLENGTH_7B
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_SetPolynomialSize(CRC_TypeDef *CRCx, uint32_t PolySize)
	{
	MODIFY_REG(CRCx->CR, CRC_CR_POLYSIZE, PolySize);
	}

	/**
	* @brief Return size of the polynomial.
	* @rmtoll CR POLYSIZE LL_CRC_GetPolynomialSize
	* @param CRCx CRC Instance
	* @retval Returned value can be one of the following values:
	* @arg @ref LL_CRC_POLYLENGTH_32B
	* @arg @ref LL_CRC_POLYLENGTH_16B
	* @arg @ref LL_CRC_POLYLENGTH_8B
	* @arg @ref LL_CRC_POLYLENGTH_7B
	*/
	__STATIC_INLINE uint32_t LL_CRC_GetPolynomialSize(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_POLYSIZE));
	}

	/**
	* @brief Configure the reversal of the bit order of the input data
	* @rmtoll CR REV_IN LL_CRC_SetInputDataReverseMode
	* @param CRCx CRC Instance
	* @param ReverseMode This parameter can be one of the following values:
	* @arg @ref LL_CRC_INDATA_REVERSE_NONE
	* @arg @ref LL_CRC_INDATA_REVERSE_BYTE
	* @arg @ref LL_CRC_INDATA_REVERSE_HALFWORD
	* @arg @ref LL_CRC_INDATA_REVERSE_WORD
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_SetInputDataReverseMode(CRC_TypeDef *CRCx, uint32_t ReverseMode)
	{
	MODIFY_REG(CRCx->CR, CRC_CR_REV_IN, ReverseMode);
	}

	/**
	* @brief Return type of reversal for input data bit order
	* @rmtoll CR REV_IN LL_CRC_GetInputDataReverseMode
	* @param CRCx CRC Instance
	* @retval Returned value can be one of the following values:
	* @arg @ref LL_CRC_INDATA_REVERSE_NONE
	* @arg @ref LL_CRC_INDATA_REVERSE_BYTE
	* @arg @ref LL_CRC_INDATA_REVERSE_HALFWORD
	* @arg @ref LL_CRC_INDATA_REVERSE_WORD
	*/
	__STATIC_INLINE uint32_t LL_CRC_GetInputDataReverseMode(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_REV_IN));
	}

	/**
	* @brief Configure the reversal of the bit order of the Output data
	* @rmtoll CR REV_OUT LL_CRC_SetOutputDataReverseMode
	* @param CRCx CRC Instance
	* @param ReverseMode This parameter can be one of the following values:
	* @arg @ref LL_CRC_OUTDATA_REVERSE_NONE
	* @arg @ref LL_CRC_OUTDATA_REVERSE_BIT
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_SetOutputDataReverseMode(CRC_TypeDef *CRCx, uint32_t ReverseMode)
	{
	MODIFY_REG(CRCx->CR, CRC_CR_REV_OUT, ReverseMode);
	}

	/**
	* @brief Configure the reversal of the bit order of the Output data
	* @rmtoll CR REV_OUT LL_CRC_GetOutputDataReverseMode
	* @param CRCx CRC Instance
	* @retval Returned value can be one of the following values:
	* @arg @ref LL_CRC_OUTDATA_REVERSE_NONE
	* @arg @ref LL_CRC_OUTDATA_REVERSE_BIT
	*/
	__STATIC_INLINE uint32_t LL_CRC_GetOutputDataReverseMode(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_BIT(CRCx->CR, CRC_CR_REV_OUT));
	}

	/**
	* @brief Initialize the Programmable initial CRC value.
	* @note If the CRC size is less than 32 bits, the least significant bits
	* are used to write the correct value
	* @note LL_CRC_DEFAULT_CRC_INITVALUE could be used as value for InitCrc parameter.
	* @rmtoll INIT INIT LL_CRC_SetInitialData
	* @param CRCx CRC Instance
	* @param InitCrc Value to be programmed in Programmable initial CRC value register
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_SetInitialData(CRC_TypeDef *CRCx, uint32_t InitCrc)
	{
	WRITE_REG(CRCx->INIT, InitCrc);
	}

	/**
	* @brief Return current Initial CRC value.
	* @note If the CRC size is less than 32 bits, the least significant bits
	* are used to read the correct value
	* @rmtoll INIT INIT LL_CRC_GetInitialData
	* @param CRCx CRC Instance
	* @retval Value programmed in Programmable initial CRC value register
	*/
	__STATIC_INLINE uint32_t LL_CRC_GetInitialData(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_REG(CRCx->INIT));
	}

	/**
	* @brief Initialize the Programmable polynomial value
	* (coefficients of the polynomial to be used for CRC calculation).
	* @note LL_CRC_DEFAULT_CRC32_POLY could be used as value for PolynomCoef parameter.
	* @note Please check Reference Manual and existing Errata Sheets,
	* regarding possible limitations for Polynomial values usage.
	* For example, for a polynomial of degree 7, X^7 + X^6 + X^5 + X^2 + 1 is written 0x65
	* @rmtoll POL POL LL_CRC_SetPolynomialCoef
	* @param CRCx CRC Instance
	* @param PolynomCoef Value to be programmed in Programmable Polynomial value register
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_SetPolynomialCoef(CRC_TypeDef *CRCx, uint32_t PolynomCoef)
	{
	WRITE_REG(CRCx->POL, PolynomCoef);
	}

	/**
	* @brief Return current Programmable polynomial value
	* @note Please check Reference Manual and existing Errata Sheets,
	* regarding possible limitations for Polynomial values usage.
	* For example, for a polynomial of degree 7, X^7 + X^6 + X^5 + X^2 + 1 is written 0x65
	* @rmtoll POL POL LL_CRC_GetPolynomialCoef
	* @param CRCx CRC Instance
	* @retval Value programmed in Programmable Polynomial value register
	*/
	__STATIC_INLINE uint32_t LL_CRC_GetPolynomialCoef(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_REG(CRCx->POL));
	}

	/**
	* @}
	*/

	/** @defgroup CRC_LL_EF_Data_Management Data_Management
	* @{
	*/

	/**
	* @brief Write given 32-bit data to the CRC calculator
	* @rmtoll DR DR LL_CRC_FeedData32
	* @param CRCx CRC Instance
	* @param InData value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFFFFFFFF
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_FeedData32(CRC_TypeDef *CRCx, uint32_t InData)
	{
	WRITE_REG(CRCx->DR, InData);
	}

	/**
	* @brief Write given 16-bit data to the CRC calculator
	* @rmtoll DR DR LL_CRC_FeedData16
	* @param CRCx CRC Instance
	* @param InData 16 bit value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFFFF
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_FeedData16(CRC_TypeDef *CRCx, uint16_t InData)
	{
	__IO uint16_t *pReg;

	pReg = (__IO uint16_t )(__IO void )(&CRCx->DR);
	*pReg = InData;
	}

	/**
	* @brief Write given 8-bit data to the CRC calculator
	* @rmtoll DR DR LL_CRC_FeedData8
	* @param CRCx CRC Instance
	* @param InData 8 bit value to be provided to CRC calculator between between Min_Data=0 and Max_Data=0xFF
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_FeedData8(CRC_TypeDef *CRCx, uint8_t InData)
	{
	(uint8_t __IO )(&CRCx->DR) = (uint8_t) InData;
	}

	/**
	* @brief Return current CRC calculation result. 32 bits value is returned.
	* @rmtoll DR DR LL_CRC_ReadData32
	* @param CRCx CRC Instance
	* @retval Current CRC calculation result as stored in CRC_DR register (32 bits).
	*/
	__STATIC_INLINE uint32_t LL_CRC_ReadData32(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_REG(CRCx->DR));
	}

	/**
	* @brief Return current CRC calculation result. 16 bits value is returned.
	* @note This function is expected to be used in a 16 bits CRC polynomial size context.
	* @rmtoll DR DR LL_CRC_ReadData16
	* @param CRCx CRC Instance
	* @retval Current CRC calculation result as stored in CRC_DR register (16 bits).
	*/
	__STATIC_INLINE uint16_t LL_CRC_ReadData16(CRC_TypeDef *CRCx)
	{
	return (uint16_t)READ_REG(CRCx->DR);
	}

	/**
	* @brief Return current CRC calculation result. 8 bits value is returned.
	* @note This function is expected to be used in a 8 bits CRC polynomial size context.
	* @rmtoll DR DR LL_CRC_ReadData8
	* @param CRCx CRC Instance
	* @retval Current CRC calculation result as stored in CRC_DR register (8 bits).
	*/
	__STATIC_INLINE uint8_t LL_CRC_ReadData8(CRC_TypeDef *CRCx)
	{
	return (uint8_t)READ_REG(CRCx->DR);
	}

	/**
	* @brief Return current CRC calculation result. 7 bits value is returned.
	* @note This function is expected to be used in a 7 bits CRC polynomial size context.
	* @rmtoll DR DR LL_CRC_ReadData7
	* @param CRCx CRC Instance
	* @retval Current CRC calculation result as stored in CRC_DR register (7 bits).
	*/
	__STATIC_INLINE uint8_t LL_CRC_ReadData7(CRC_TypeDef *CRCx)
	{
	return (uint8_t)(READ_REG(CRCx->DR) & 0x7FU);
	}

	/**
	* @brief Return data stored in the Independent Data(IDR) register.
	* @note This register can be used as a temporary storage location for one byte.
	* @rmtoll IDR IDR LL_CRC_Read_IDR
	* @param CRCx CRC Instance
	* @retval Value stored in CRC_IDR register (General-purpose 8-bit data register).
	*/
	__STATIC_INLINE uint32_t LL_CRC_Read_IDR(CRC_TypeDef *CRCx)
	{
	return (uint32_t)(READ_REG(CRCx->IDR));
	}

	/**
	* @brief Store data in the Independent Data(IDR) register.
	* @note This register can be used as a temporary storage location for one byte.
	* @rmtoll IDR IDR LL_CRC_Write_IDR
	* @param CRCx CRC Instance
	* @param InData value to be stored in CRC_IDR register (8-bit) between Min_Data=0 and Max_Data=0xFF
	* @retval None
	*/
	__STATIC_INLINE void LL_CRC_Write_IDR(CRC_TypeDef *CRCx, uint32_t InData)
	{
	((uint8_t __IO )(&CRCx->IDR)) = (uint8_t) InData;
	}
	/**
	* @}
	*/

	#if defined(USE_FULL_LL_DRIVER)
	/** @defgroup CRC_LL_EF_Init Initialization and de-initialization functions
	* @{
	*/

	ErrorStatus LL_CRC_DeInit(CRC_TypeDef *CRCx);

	/**
	* @}
	*/
	#endif /* USE_FULL_LL_DRIVER */

	/**
	* @}
	*/

	/**
	* @}
	*/

	#endif /* defined(CRC) */

	/**
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif

	#endif /* STM32L0xx_LL_CRC_H */

	/********************** (C) COPYRIGHT STMicroelectronics *END OF FILE**/