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/**
  ******************************************************************************
  * @file    stm32f4xx_hal_adc.c
  * @author  MCD Application Team
  * @version V1.4.1
  * @date    09-October-2015
  * @brief   This file provides firmware functions to manage the following 
  *          functionalities of the Analog to Digital Convertor (ADC) peripheral:
  *           + Initialization and de-initialization functions
  *           + IO operation functions
  *           + State and errors functions
  *         
  @verbatim
  ==============================================================================
                    ##### ADC Peripheral features #####
  ==============================================================================
  [..] 
  (#) 12-bit, 10-bit, 8-bit or 6-bit configurable resolution.
  (#) Interrupt generation at the end of conversion, end of injected conversion,  
      and in case of analog watchdog or overrun events
  (#) Single and continuous conversion modes.
  (#) Scan mode for automatic conversion of channel 0 to channel x.
  (#) Data alignment with in-built data coherency.
  (#) Channel-wise programmable sampling time.
  (#) External trigger option with configurable polarity for both regular and 
      injected conversion.
  (#) Dual/Triple mode (on devices with 2 ADCs or more).
  (#) Configurable DMA data storage in Dual/Triple ADC mode. 
  (#) Configurable delay between conversions in Dual/Triple interleaved mode.
  (#) ADC conversion type (refer to the datasheets).
  (#) ADC supply requirements: 2.4 V to 3.6 V at full speed and down to 1.8 V at 
      slower speed.
  (#) ADC input range: VREF(minus) = VIN = VREF(plus).
  (#) DMA request generation during regular channel conversion.


                     ##### How to use this driver #####
  ==============================================================================
  [..]
  (#)Initialize the ADC low level resources by implementing the HAL_ADC_MspInit():
       (##) Enable the ADC interface clock using __HAL_RCC_ADC_CLK_ENABLE()
       (##) ADC pins configuration
             (+++) Enable the clock for the ADC GPIOs using the following function:
                   __HAL_RCC_GPIOx_CLK_ENABLE()  
             (+++) Configure these ADC pins in analog mode using HAL_GPIO_Init() 
       (##) In case of using interrupts (e.g. HAL_ADC_Start_IT())
             (+++) Configure the ADC interrupt priority using HAL_NVIC_SetPriority()
             (+++) Enable the ADC IRQ handler using HAL_NVIC_EnableIRQ()
             (+++) In ADC IRQ handler, call HAL_ADC_IRQHandler()
       (##) In case of using DMA to control data transfer (e.g. HAL_ADC_Start_DMA())
             (+++) Enable the DMAx interface clock using __HAL_RCC_DMAx_CLK_ENABLE()
             (+++) Configure and enable two DMA streams stream for managing data
                 transfer from peripheral to memory (output stream)
             (+++) Associate the initialized DMA handle to the CRYP DMA handle
                 using  __HAL_LINKDMA()
             (+++) Configure the priority and enable the NVIC for the transfer complete
                 interrupt on the two DMA Streams. The output stream should have higher
                 priority than the input stream.
                       
    *** Configuration of ADC, groups regular/injected, channels parameters ***
  ==============================================================================
  [..]
  (#) Configure the ADC parameters (resolution, data alignment, ...)
      and regular group parameters (conversion trigger, sequencer, ...)
      using function HAL_ADC_Init().

  (#) Configure the channels for regular group parameters (channel number, 
      channel rank into sequencer, ..., into regular group)
      using function HAL_ADC_ConfigChannel().

  (#) Optionally, configure the injected group parameters (conversion trigger, 
      sequencer, ..., of injected group)
      and the channels for injected group parameters (channel number, 
      channel rank into sequencer, ..., into injected group)
      using function HAL_ADCEx_InjectedConfigChannel().

  (#) Optionally, configure the analog watchdog parameters (channels
      monitored, thresholds, ...) using function HAL_ADC_AnalogWDGConfig().

  (#) Optionally, for devices with several ADC instances: configure the 
      multimode parameters using function HAL_ADCEx_MultiModeConfigChannel().

                       *** Execution of ADC conversions ***
  ==============================================================================
  [..]  
  (#) ADC driver can be used among three modes: polling, interruption,
      transfer by DMA.    

     *** Polling mode IO operation ***
     =================================
     [..]    
       (+) Start the ADC peripheral using HAL_ADC_Start() 
       (+) Wait for end of conversion using HAL_ADC_PollForConversion(), at this stage
           user can specify the value of timeout according to his end application      
       (+) To read the ADC converted values, use the HAL_ADC_GetValue() function.
       (+) Stop the ADC peripheral using HAL_ADC_Stop()
       
     *** Interrupt mode IO operation ***    
     ===================================
     [..]    
       (+) Start the ADC peripheral using HAL_ADC_Start_IT() 
       (+) Use HAL_ADC_IRQHandler() called under ADC_IRQHandler() Interrupt subroutine
       (+) At ADC end of conversion HAL_ADC_ConvCpltCallback() function is executed and user can 
           add his own code by customization of function pointer HAL_ADC_ConvCpltCallback 
       (+) In case of ADC Error, HAL_ADC_ErrorCallback() function is executed and user can 
           add his own code by customization of function pointer HAL_ADC_ErrorCallback
       (+) Stop the ADC peripheral using HAL_ADC_Stop_IT()     

     *** DMA mode IO operation ***    
     ==============================
     [..]    
       (+) Start the ADC peripheral using HAL_ADC_Start_DMA(), at this stage the user specify the length 
           of data to be transferred at each end of conversion 
       (+) At The end of data transfer by HAL_ADC_ConvCpltCallback() function is executed and user can 
           add his own code by customization of function pointer HAL_ADC_ConvCpltCallback 
       (+) In case of transfer Error, HAL_ADC_ErrorCallback() function is executed and user can 
           add his own code by customization of function pointer HAL_ADC_ErrorCallback
       (+) Stop the ADC peripheral using HAL_ADC_Stop_DMA()
                    
     *** ADC HAL driver macros list ***
     ============================================= 
     [..]
       Below the list of most used macros in ADC HAL driver.
       
      (+) __HAL_ADC_ENABLE : Enable the ADC peripheral
      (+) __HAL_ADC_DISABLE : Disable the ADC peripheral
      (+) __HAL_ADC_ENABLE_IT: Enable the ADC end of conversion interrupt
      (+) __HAL_ADC_DISABLE_IT: Disable the ADC end of conversion interrupt
      (+) __HAL_ADC_GET_IT_SOURCE: Check if the specified ADC interrupt source is enabled or disabled
      (+) __HAL_ADC_CLEAR_FLAG: Clear the ADC's pending flags
      (+) __HAL_ADC_GET_FLAG: Get the selected ADC's flag status
      (+) ADC_GET_RESOLUTION: Return resolution bits in CR1 register 
      
     [..] 
       (@) You can refer to the ADC HAL driver header file for more useful macros 

                      *** Deinitialization of ADC ***
  ==============================================================================
  [..]
  (#) Disable the ADC interface
     (++) ADC clock can be hard reset and disabled at RCC top level.
     (++) Hard reset of ADC peripherals
          using macro __HAL_RCC_ADC_FORCE_RESET(), __HAL_RCC_ADC_RELEASE_RESET().
     (++) ADC clock disable using the equivalent macro/functions as configuration step.
               (+++) Example:
                   Into HAL_ADC_MspDeInit() (recommended code location) or with
                   other device clock parameters configuration:
               (+++) HAL_RCC_GetOscConfig(&RCC_OscInitStructure);
               (+++) RCC_OscInitStructure.OscillatorType = RCC_OSCILLATORTYPE_HSI;
               (+++) RCC_OscInitStructure.HSIState = RCC_HSI_OFF; (if not used for system clock)
               (+++) HAL_RCC_OscConfig(&RCC_OscInitStructure);

  (#) ADC pins configuration
     (++) Disable the clock for the ADC GPIOs using macro __HAL_RCC_GPIOx_CLK_DISABLE()

  (#) Optionally, in case of usage of ADC with interruptions:
     (++) Disable the NVIC for ADC using function HAL_NVIC_DisableIRQ(ADCx_IRQn)

  (#) Optionally, in case of usage of DMA:
        (++) Deinitialize the DMA using function HAL_DMA_DeInit().
        (++) Disable the NVIC for DMA using function HAL_NVIC_DisableIRQ(DMAx_Channelx_IRQn)   

    @endverbatim
  ******************************************************************************
  * @attention
  *
  * <h2><center>&copy; COPYRIGHT(c) 2015 STMicroelectronics</center></h2>
  *
  * Redistribution and use in source and binary forms, with or without modification,
  * are permitted provided that the following conditions are met:
  *   1. Redistributions of source code must retain the above copyright notice,
  *      this list of conditions and the following disclaimer.
  *   2. Redistributions in binary form must reproduce the above copyright notice,
  *      this list of conditions and the following disclaimer in the documentation
  *      and/or other materials provided with the distribution.
  *   3. Neither the name of STMicroelectronics nor the names of its contributors
  *      may be used to endorse or promote products derived from this software
  *      without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
  * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  ******************************************************************************
  */ 

/* Includes ------------------------------------------------------------------*/
#include "stm32f4xx_hal.h"

/** @addtogroup STM32F4xx_HAL_Driver
  * @{
  */

/** @defgroup ADC ADC
  * @brief ADC driver modules
  * @{
  */ 

#ifdef HAL_ADC_MODULE_ENABLED
    
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
/** @addtogroup ADC_Private_Functions
  * @{
  */
/* Private function prototypes -----------------------------------------------*/
static void ADC_Init(ADC_HandleTypeDef* hadc);
static void ADC_DMAConvCplt(DMA_HandleTypeDef *hdma);
static void ADC_DMAError(DMA_HandleTypeDef *hdma);
static void ADC_DMAHalfConvCplt(DMA_HandleTypeDef *hdma);
/**
  * @}
  */
/* Exported functions --------------------------------------------------------*/
/** @defgroup ADC_Exported_Functions ADC Exported Functions
  * @{
  */

/** @defgroup ADC_Exported_Functions_Group1 Initialization and de-initialization functions 
 *  @brief    Initialization and Configuration functions 
 *
@verbatim    
 ===============================================================================
              ##### Initialization and de-initialization functions #####
 ===============================================================================
    [..]  This section provides functions allowing to:
      (+) Initialize and configure the ADC. 
      (+) De-initialize the ADC. 
         
@endverbatim
  * @{
  */

/**
  * @brief  Initializes the ADCx peripheral according to the specified parameters 
  *         in the ADC_InitStruct and initializes the ADC MSP.
  *           
  * @note   This function is used to configure the global features of the ADC ( 
  *         ClockPrescaler, Resolution, Data Alignment and number of conversion), however,
  *         the rest of the configuration parameters are specific to the regular
  *         channels group (scan mode activation, continuous mode activation,
  *         External trigger source and edge, DMA continuous request after the  
  *         last transfer and End of conversion selection).
  *             
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.  
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_Init(ADC_HandleTypeDef* hadc)
{
  /* Check ADC handle */
  if(hadc == NULL)
  {
     return HAL_ERROR;
  }
  
  /* Check the parameters */
  assert_param(IS_ADC_ALL_INSTANCE(hadc->Instance));
  assert_param(IS_ADC_CLOCKPRESCALER(hadc->Init.ClockPrescaler));
  assert_param(IS_ADC_RESOLUTION(hadc->Init.Resolution));
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ScanConvMode));
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ContinuousConvMode));
  assert_param(IS_ADC_EXT_TRIG(hadc->Init.ExternalTrigConv));
  assert_param(IS_ADC_DATA_ALIGN(hadc->Init.DataAlign));
  assert_param(IS_ADC_REGULAR_LENGTH(hadc->Init.NbrOfConversion));
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.DMAContinuousRequests));
  assert_param(IS_ADC_EOCSelection(hadc->Init.EOCSelection));
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.DiscontinuousConvMode));
      
  if(hadc->Init.ExternalTrigConv != ADC_SOFTWARE_START)
  {
    assert_param(IS_ADC_EXT_TRIG_EDGE(hadc->Init.ExternalTrigConvEdge));
  }
  
  if(hadc->State == HAL_ADC_STATE_RESET)
  {
    /* Allocate lock resource and initialize it */
    hadc->Lock = HAL_UNLOCKED;
    /* Init the low level hardware */
    HAL_ADC_MspInit(hadc);
  }
  
  /* Initialize the ADC state */
  hadc->State = HAL_ADC_STATE_BUSY;
  
  /* Set ADC parameters */
  ADC_Init(hadc);
  
  /* Set ADC error code to none */
  hadc->ErrorCode = HAL_ADC_ERROR_NONE;
  
  /* Initialize the ADC state */
  hadc->State = HAL_ADC_STATE_READY;

  /* Release Lock */
  __HAL_UNLOCK(hadc);

  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Deinitializes the ADCx peripheral registers to their default reset values. 
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.  
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_DeInit(ADC_HandleTypeDef* hadc)
{
  /* Check ADC handle */
  if(hadc == NULL)
  {
     return HAL_ERROR;
  } 
  
  /* Check the parameters */
  assert_param(IS_ADC_ALL_INSTANCE(hadc->Instance));
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_BUSY;
  
  /* DeInit the low level hardware */
  HAL_ADC_MspDeInit(hadc);
  
  /* Set ADC error code to none */
  hadc->ErrorCode = HAL_ADC_ERROR_NONE;
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_RESET;
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Initializes the ADC MSP.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.  
  * @retval None
  */
__weak void HAL_ADC_MspInit(ADC_HandleTypeDef* hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_MspInit could be implemented in the user file
   */ 
}

/**
  * @brief  DeInitializes the ADC MSP.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.  
  * @retval None
  */
__weak void HAL_ADC_MspDeInit(ADC_HandleTypeDef* hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_MspDeInit could be implemented in the user file
   */ 
}

/**
  * @}
  */

/** @defgroup ADC_Exported_Functions_Group2 IO operation functions
 *  @brief    IO operation functions 
 *
@verbatim   
 ===============================================================================
             ##### IO operation functions #####
 ===============================================================================  
    [..]  This section provides functions allowing to:
      (+) Start conversion of regular channel.
      (+) Stop conversion of regular channel.
      (+) Start conversion of regular channel and enable interrupt.
      (+) Stop conversion of regular channel and disable interrupt.
      (+) Start conversion of regular channel and enable DMA transfer.
      (+) Stop conversion of regular channel and disable DMA transfer.
      (+) Handle ADC interrupt request. 
               
@endverbatim
  * @{
  */

/**
  * @brief  Enables ADC and starts conversion of the regular channels.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_Start(ADC_HandleTypeDef* hadc)
{
  __IO uint32_t counter = 0;
  
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ContinuousConvMode));
  assert_param(IS_ADC_EXT_TRIG_EDGE(hadc->Init.ExternalTrigConvEdge)); 
  
  /* Process locked */
  __HAL_LOCK(hadc);
  
  /* Check if an injected conversion is ongoing */
  if(hadc->State == HAL_ADC_STATE_BUSY_INJ)
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_BUSY_INJ_REG;  
  }
  else
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_BUSY_REG;
  } 
    
  /* Check if ADC peripheral is disabled in order to enable it and wait during 
  Tstab time the ADC's stabilization */
  if((hadc->Instance->CR2 & ADC_CR2_ADON) != ADC_CR2_ADON)
  {  
    /* Enable the Peripheral */
    __HAL_ADC_ENABLE(hadc);
    
    /* Delay for ADC stabilization time */
    /* Compute number of CPU cycles to wait for */
    counter = (ADC_STAB_DELAY_US * (SystemCoreClock / 1000000));
    while(counter != 0)
    {
      counter--;
    }
  }
  
  /* Process unlocked */
  __HAL_UNLOCK(hadc);
  
  /* Check if Multimode enabled */
  if(HAL_IS_BIT_CLR(ADC->CCR, ADC_CCR_MULTI))
  {
    /* if no external trigger present enable software conversion of regular channels */
    if((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET) 
    {
      /* Enable the selected ADC software conversion for regular group */
      hadc->Instance->CR2 |= (uint32_t)ADC_CR2_SWSTART;
    }
  }
  else
  {
    /* if instance of handle correspond to ADC1 and  no external trigger present enable software conversion of regular channels */
    if((hadc->Instance == ADC1) && ((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET))
    {
      /* Enable the selected ADC software conversion for regular group */
        hadc->Instance->CR2 |= (uint32_t)ADC_CR2_SWSTART;
    }
  }
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Disables ADC and stop conversion of regular channels.
  * 
  * @note   Caution: This function will stop also injected channels.  
  *
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  *
  * @retval HAL status.
  */
HAL_StatusTypeDef HAL_ADC_Stop(ADC_HandleTypeDef* hadc)
{
  /* Disable the Peripheral */
  __HAL_ADC_DISABLE(hadc);
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_READY;
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Poll for regular conversion complete
  * @note   ADC conversion flags EOS (end of sequence) and EOC (end of
  *         conversion) are cleared by this function.
  * @note   This function cannot be used in a particular setup: ADC configured 
  *         in DMA mode and polling for end of each conversion (ADC init
  *         parameter "EOCSelection" set to ADC_EOC_SINGLE_CONV).
  *         In this case, DMA resets the flag EOC and polling cannot be
  *         performed on each conversion. Nevertheless, polling can still 
  *         be performed on the complete sequence.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @param  Timeout: Timeout value in millisecond.  
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_PollForConversion(ADC_HandleTypeDef* hadc, uint32_t Timeout)
{
  uint32_t tickstart = 0;
 
  /* Verification that ADC configuration is compliant with polling for      */
  /* each conversion:                                                       */
  /* Particular case is ADC configured in DMA mode and ADC sequencer with   */
  /* several ranks and polling for end of each conversion.                  */
  /* For code simplicity sake, this particular case is generalized to       */
  /* ADC configured in DMA mode and polling for end of each conversion.     */
  if (HAL_IS_BIT_SET(hadc->Instance->CR2, ADC_CR2_EOCS) &&
      HAL_IS_BIT_SET(hadc->Instance->CR2, ADC_CR2_DMA)    )
  {
    /* Update ADC state machine to error */
    hadc->State = HAL_ADC_STATE_ERROR;
    
    /* Process unlocked */
    __HAL_UNLOCK(hadc);
    
    return HAL_ERROR;
  }

  /* Get tick */ 
  tickstart = HAL_GetTick();

  /* Check End of conversion flag */
  while(!(__HAL_ADC_GET_FLAG(hadc, ADC_FLAG_EOC)))
  {
    /* Check for the Timeout */
    if(Timeout != HAL_MAX_DELAY)
    {
      if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout))
      {
        hadc->State= HAL_ADC_STATE_TIMEOUT;
        /* Process unlocked */
        __HAL_UNLOCK(hadc);
        return HAL_TIMEOUT;
      }
    }
  }
  
  /* Check if an injected conversion is ready */
  if(hadc->State == HAL_ADC_STATE_EOC_INJ)
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_EOC_INJ_REG;  
  }
  else
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_EOC_REG;
  }
  
  /* Return ADC state */
  return HAL_OK;
}

/**
  * @brief  Poll for conversion event
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @param  EventType: the ADC event type.
  *          This parameter can be one of the following values:
  *            @arg ADC_AWD_EVENT: ADC Analog watch Dog event.
  *            @arg ADC_OVR_EVENT: ADC Overrun event.
  * @param  Timeout: Timeout value in millisecond.   
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_PollForEvent(ADC_HandleTypeDef* hadc, uint32_t EventType, uint32_t Timeout)
{
  uint32_t tickstart = 0;
  
  /* Check the parameters */
  assert_param(IS_ADC_EVENT_TYPE(EventType));

  /* Get tick */
  tickstart = HAL_GetTick();

  /* Check selected event flag */
  while(!(__HAL_ADC_GET_FLAG(hadc,EventType)))
  {
    /* Check for the Timeout */
    if(Timeout != HAL_MAX_DELAY)
    {
      if((Timeout == 0)||((HAL_GetTick() - tickstart ) > Timeout))
      {
        hadc->State= HAL_ADC_STATE_TIMEOUT;
        /* Process unlocked */
        __HAL_UNLOCK(hadc);
        return HAL_TIMEOUT;
      }
    }
  }
  
  /* Check analog watchdog flag */
  if(EventType == ADC_AWD_EVENT)
  {
     /* Change ADC state */
     hadc->State = HAL_ADC_STATE_AWD;
      
     /* Clear the ADCx's analog watchdog flag */
     __HAL_ADC_CLEAR_FLAG(hadc, ADC_FLAG_AWD);
  }
  else
  {
     /* Change ADC state */
     hadc->State = HAL_ADC_STATE_ERROR;
     
     /* Clear the ADCx's Overrun flag */
     __HAL_ADC_CLEAR_FLAG(hadc, ADC_FLAG_OVR);
  }
  
  /* Return ADC state */
  return HAL_OK;
}


/**
  * @brief  Enables the interrupt and starts ADC conversion of regular channels.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval HAL status.
  */
HAL_StatusTypeDef HAL_ADC_Start_IT(ADC_HandleTypeDef* hadc)
{
  __IO uint32_t counter = 0;
  
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ContinuousConvMode));
  assert_param(IS_ADC_EXT_TRIG_EDGE(hadc->Init.ExternalTrigConvEdge));
  
  /* Process locked */
  __HAL_LOCK(hadc);
  
  /* Check if an injected conversion is ongoing */
  if(hadc->State == HAL_ADC_STATE_BUSY_INJ)
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_BUSY_INJ_REG;  
  }
  else
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_BUSY_REG;
  } 
  
  /* Set ADC error code to none */
  hadc->ErrorCode = HAL_ADC_ERROR_NONE;
  
  /* Check if ADC peripheral is disabled in order to enable it and wait during 
     Tstab time the ADC's stabilization */
  if((hadc->Instance->CR2 & ADC_CR2_ADON) != ADC_CR2_ADON)
  {  
    /* Enable the Peripheral */
    __HAL_ADC_ENABLE(hadc);
    
    /* Delay for ADC stabilization time */
    /* Compute number of CPU cycles to wait for */
    counter = (ADC_STAB_DELAY_US * (SystemCoreClock / 1000000));
    while(counter != 0)
    {
      counter--;
    }
  }
  
  /* Enable the ADC overrun interrupt */
  __HAL_ADC_ENABLE_IT(hadc, ADC_IT_OVR);
  
  /* Enable the ADC end of conversion interrupt for regular group */
  __HAL_ADC_ENABLE_IT(hadc, ADC_IT_EOC);
  
  /* Process unlocked */
  __HAL_UNLOCK(hadc);
  
  /* Check if Multimode enabled */
  if(HAL_IS_BIT_CLR(ADC->CCR, ADC_CCR_MULTI))
  {
    /* if no external trigger present enable software conversion of regular channels */
    if((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET) 
    {
      /* Enable the selected ADC software conversion for regular group */
      hadc->Instance->CR2 |= (uint32_t)ADC_CR2_SWSTART;
    }
  }
  else
  {
    /* if instance of handle correspond to ADC1 and  no external trigger present enable software conversion of regular channels */
    if((hadc->Instance == (ADC_TypeDef*)0x40012000) && ((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET))
    {
      /* Enable the selected ADC software conversion for regular group */
        hadc->Instance->CR2 |= (uint32_t)ADC_CR2_SWSTART;
    }
  }

  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Disables the interrupt and stop ADC conversion of regular channels.
  * 
  * @note   Caution: This function will stop also injected channels.  
  *
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval HAL status.
  */
HAL_StatusTypeDef HAL_ADC_Stop_IT(ADC_HandleTypeDef* hadc)
{
  /* Disable the ADC end of conversion interrupt for regular group */
  __HAL_ADC_DISABLE_IT(hadc, ADC_IT_EOC);
  
  /* Disable the ADC end of conversion interrupt for injected group */
  __HAL_ADC_DISABLE_IT(hadc, ADC_CR1_JEOCIE);
  
  /* Enable the Peripheral */
  __HAL_ADC_DISABLE(hadc);
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_READY;
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Handles ADC interrupt request  
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval None
  */
void HAL_ADC_IRQHandler(ADC_HandleTypeDef* hadc)
{
  uint32_t tmp1 = 0, tmp2 = 0;
  
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ContinuousConvMode));
  assert_param(IS_ADC_REGULAR_LENGTH(hadc->Init.NbrOfConversion));
  assert_param(IS_ADC_EOCSelection(hadc->Init.EOCSelection));
  
  tmp1 = __HAL_ADC_GET_FLAG(hadc, ADC_FLAG_EOC);
  tmp2 = __HAL_ADC_GET_IT_SOURCE(hadc, ADC_IT_EOC);
  /* Check End of conversion flag for regular channels */
  if(tmp1 && tmp2)
  {
    /* Check if an injected conversion is ready */
    if(hadc->State == HAL_ADC_STATE_EOC_INJ)
    {
      /* Change ADC state */
      hadc->State = HAL_ADC_STATE_EOC_INJ_REG;  
    }
    else
    {
      /* Change ADC state */
      hadc->State = HAL_ADC_STATE_EOC_REG;
    }
  
    if((hadc->Init.ContinuousConvMode == DISABLE) && ((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET))
    {
      if(hadc->Init.EOCSelection == ADC_EOC_SEQ_CONV)
      {   
        /* DISABLE the ADC end of conversion interrupt for regular group */
        __HAL_ADC_DISABLE_IT(hadc, ADC_IT_EOC);
        
        /* DISABLE the ADC overrun interrupt */
        __HAL_ADC_DISABLE_IT(hadc, ADC_IT_OVR);
      }
      else
      {
        if (hadc->NbrOfCurrentConversionRank == 0)
        {
          hadc->NbrOfCurrentConversionRank = hadc->Init.NbrOfConversion;
        }
        
        /* Decrement the number of conversion when an interrupt occurs */
        hadc->NbrOfCurrentConversionRank--;
        
        /* Check if all conversions are finished */
        if(hadc->NbrOfCurrentConversionRank == 0)
        {
          /* DISABLE the ADC end of conversion interrupt for regular group */
          __HAL_ADC_DISABLE_IT(hadc, ADC_IT_EOC);
          
          /* DISABLE the ADC overrun interrupt */
          __HAL_ADC_DISABLE_IT(hadc, ADC_IT_OVR);
        }
      }
    }
    
    /* Conversion complete callback */ 
    HAL_ADC_ConvCpltCallback(hadc);
    
   /* Clear the ADCx flag for regular end of conversion */
    __HAL_ADC_CLEAR_FLAG(hadc,ADC_FLAG_EOC);
  }
  
  tmp1 = __HAL_ADC_GET_FLAG(hadc, ADC_FLAG_JEOC);
  tmp2 = __HAL_ADC_GET_IT_SOURCE(hadc, ADC_IT_JEOC);                               
  /* Check End of conversion flag for injected channels */
  if(tmp1 && tmp2)
  {
    /* Check if a regular conversion is ready */
    if(hadc->State == HAL_ADC_STATE_EOC_REG)
    {
      /* Change ADC state */
      hadc->State = HAL_ADC_STATE_EOC_INJ_REG;  
    }
    else
    {
      /* Change ADC state */
      hadc->State = HAL_ADC_STATE_EOC_INJ;
    }
    
    tmp1 = HAL_IS_BIT_CLR(hadc->Instance->CR1, ADC_CR1_JAUTO);
    tmp2 = HAL_IS_BIT_CLR(hadc->Instance->CR2, ADC_CR2_JEXTEN);
    if(((hadc->Init.ContinuousConvMode == DISABLE) || tmp1) && tmp2)
    {
      /* DISABLE the ADC end of conversion interrupt for injected group */
      __HAL_ADC_DISABLE_IT(hadc, ADC_IT_JEOC);
    }
    
    /* Conversion complete callback */ 
    HAL_ADCEx_InjectedConvCpltCallback(hadc);
    
   /* Clear the ADCx flag for injected end of conversion */
    __HAL_ADC_CLEAR_FLAG(hadc,ADC_FLAG_JEOC);
  }
  
  tmp1 = __HAL_ADC_GET_FLAG(hadc, ADC_FLAG_AWD);
  tmp2 = __HAL_ADC_GET_IT_SOURCE(hadc, ADC_IT_AWD);                          
  /* Check Analog watchdog flag */
  if(tmp1 && tmp2)
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_AWD;
      
    /* Clear the ADCx's Analog watchdog flag */
    __HAL_ADC_CLEAR_FLAG(hadc,ADC_FLAG_AWD);
    
    /* Level out of window callback */ 
    HAL_ADC_LevelOutOfWindowCallback(hadc);
  }
  
  tmp1 = __HAL_ADC_GET_FLAG(hadc, ADC_FLAG_OVR);
  tmp2 = __HAL_ADC_GET_IT_SOURCE(hadc, ADC_IT_OVR);
  /* Check Overrun flag */
  if(tmp1 && tmp2)
  {
    /* Change ADC state to overrun state */
    hadc->State = HAL_ADC_STATE_ERROR;
    
    /* Set ADC error code to overrun */
    hadc->ErrorCode |= HAL_ADC_ERROR_OVR;
    
    /* Clear the Overrun flag */
    __HAL_ADC_CLEAR_FLAG(hadc,ADC_FLAG_OVR);
    
    /* Error callback */ 
    HAL_ADC_ErrorCallback(hadc);
  }
}

/**
  * @brief  Enables ADC DMA request after last transfer (Single-ADC mode) and enables ADC peripheral  
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @param  pData: The destination Buffer address.
  * @param  Length: The length of data to be transferred from ADC peripheral to memory.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_Start_DMA(ADC_HandleTypeDef* hadc, uint32_t* pData, uint32_t Length)
{
  __IO uint32_t counter = 0;
  
  /* Check the parameters */
  assert_param(IS_FUNCTIONAL_STATE(hadc->Init.ContinuousConvMode));
  assert_param(IS_ADC_EXT_TRIG_EDGE(hadc->Init.ExternalTrigConvEdge));
  
  /* Process locked */
  __HAL_LOCK(hadc);
  
  /* Enable ADC overrun interrupt */
  __HAL_ADC_ENABLE_IT(hadc, ADC_IT_OVR);
  
  /* Enable ADC DMA mode */
  hadc->Instance->CR2 |= ADC_CR2_DMA;
  
  /* Set the DMA transfer complete callback */
  hadc->DMA_Handle->XferCpltCallback = ADC_DMAConvCplt;
  
  /* Set the DMA half transfer complete callback */
  hadc->DMA_Handle->XferHalfCpltCallback = ADC_DMAHalfConvCplt;
     
  /* Set the DMA error callback */
  hadc->DMA_Handle->XferErrorCallback = ADC_DMAError ;
  
  /* Enable the DMA Stream */
  HAL_DMA_Start_IT(hadc->DMA_Handle, (uint32_t)&hadc->Instance->DR, (uint32_t)pData, Length);
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_BUSY_REG;
  
  /* Process unlocked */
  __HAL_UNLOCK(hadc);
  
  /* Check if ADC peripheral is disabled in order to enable it and wait during 
     Tstab time the ADC's stabilization */
  if((hadc->Instance->CR2 & ADC_CR2_ADON) != ADC_CR2_ADON)
  {  
    /* Enable the Peripheral */
    __HAL_ADC_ENABLE(hadc);
    
    /* Delay for ADC stabilization time */
    /* Compute number of CPU cycles to wait for */
    counter = (ADC_STAB_DELAY_US * (SystemCoreClock / 1000000));
    while(counter != 0)
    {
      counter--;
    }
  }
  
  /* if no external trigger present enable software conversion of regular channels */
  if((hadc->Instance->CR2 & ADC_CR2_EXTEN) == RESET)
  {
    /* Enable the selected ADC software conversion for regular group */
    hadc->Instance->CR2 |= ADC_CR2_SWSTART;
  }
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Disables ADC DMA (Single-ADC mode) and disables ADC peripheral    
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_Stop_DMA(ADC_HandleTypeDef* hadc)
{
  /* Disable the Peripheral */
  __HAL_ADC_DISABLE(hadc);
  
  /* Disable ADC overrun interrupt */
  __HAL_ADC_DISABLE_IT(hadc, ADC_IT_OVR);
  
  /* Disable the selected ADC DMA mode */
  hadc->Instance->CR2 &= ~ADC_CR2_DMA;
  
  /* Disable the ADC DMA Stream */
  HAL_DMA_Abort(hadc->DMA_Handle);
  
  /* Change ADC state */
  hadc->State = HAL_ADC_STATE_READY;
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Gets the converted value from data register of regular channel.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval Converted value
  */
uint32_t HAL_ADC_GetValue(ADC_HandleTypeDef* hadc)
{       
  /* Return the selected ADC converted value */ 
  return hadc->Instance->DR;
}

/**
  * @brief  Regular conversion complete callback in non blocking mode 
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval None
  */
__weak void HAL_ADC_ConvCpltCallback(ADC_HandleTypeDef* hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_ConvCpltCallback could be implemented in the user file
   */
}

/**
  * @brief  Regular conversion half DMA transfer callback in non blocking mode 
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval None
  */
__weak void HAL_ADC_ConvHalfCpltCallback(ADC_HandleTypeDef* hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_ConvHalfCpltCallback could be implemented in the user file
   */
}

/**
  * @brief  Analog watchdog callback in non blocking mode 
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval None
  */
__weak void HAL_ADC_LevelOutOfWindowCallback(ADC_HandleTypeDef* hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_LevelOoutOfWindowCallback could be implemented in the user file
   */
}

/**
  * @brief  Error ADC callback.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval None
  */
__weak void HAL_ADC_ErrorCallback(ADC_HandleTypeDef *hadc)
{
  /* NOTE : This function Should not be modified, when the callback is needed,
            the HAL_ADC_ErrorCallback could be implemented in the user file
   */
}

/**
  * @}
  */
  
/** @defgroup ADC_Exported_Functions_Group3 Peripheral Control functions
 *  @brief   	Peripheral Control functions 
 *
@verbatim   
 ===============================================================================
             ##### Peripheral Control functions #####
 ===============================================================================  
    [..]  This section provides functions allowing to:
      (+) Configure regular channels. 
      (+) Configure injected channels.
      (+) Configure multimode.
      (+) Configure the analog watch dog.
      
@endverbatim
  * @{
  */

  /**
  * @brief  Configures for the selected ADC regular channel its corresponding
  *         rank in the sequencer and its sample time.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @param  sConfig: ADC configuration structure. 
  * @retval HAL status
  */
HAL_StatusTypeDef HAL_ADC_ConfigChannel(ADC_HandleTypeDef* hadc, ADC_ChannelConfTypeDef* sConfig)
{
  __IO uint32_t counter = 0;
  
  /* Check the parameters */
  assert_param(IS_ADC_CHANNEL(sConfig->Channel));
  assert_param(IS_ADC_REGULAR_RANK(sConfig->Rank));
  assert_param(IS_ADC_SAMPLE_TIME(sConfig->SamplingTime));
  
  /* Process locked */
  __HAL_LOCK(hadc);
    
  /* if ADC_Channel_10 ... ADC_Channel_18 is selected */
  if (sConfig->Channel > ADC_CHANNEL_9)
  {
    /* Clear the old sample time */
    hadc->Instance->SMPR1 &= ~ADC_SMPR1(ADC_SMPR1_SMP10, sConfig->Channel);
    
    /* Set the new sample time */
    hadc->Instance->SMPR1 |= ADC_SMPR1(sConfig->SamplingTime, sConfig->Channel);
  }
  else /* ADC_Channel include in ADC_Channel_[0..9] */
  {
    /* Clear the old sample time */
    hadc->Instance->SMPR2 &= ~ADC_SMPR2(ADC_SMPR2_SMP0, sConfig->Channel);
    
    /* Set the new sample time */
    hadc->Instance->SMPR2 |= ADC_SMPR2(sConfig->SamplingTime, sConfig->Channel);
  }
  
  /* For Rank 1 to 6 */
  if (sConfig->Rank < 7)
  {
    /* Clear the old SQx bits for the selected rank */
    hadc->Instance->SQR3 &= ~ADC_SQR3_RK(ADC_SQR3_SQ1, sConfig->Rank);
    
    /* Set the SQx bits for the selected rank */
    hadc->Instance->SQR3 |= ADC_SQR3_RK(sConfig->Channel, sConfig->Rank);
  }
  /* For Rank 7 to 12 */
  else if (sConfig->Rank < 13)
  {
    /* Clear the old SQx bits for the selected rank */
    hadc->Instance->SQR2 &= ~ADC_SQR2_RK(ADC_SQR2_SQ7, sConfig->Rank);
    
    /* Set the SQx bits for the selected rank */
    hadc->Instance->SQR2 |= ADC_SQR2_RK(sConfig->Channel, sConfig->Rank);
  }
  /* For Rank 13 to 16 */
  else
  {
    /* Clear the old SQx bits for the selected rank */
    hadc->Instance->SQR1 &= ~ADC_SQR1_RK(ADC_SQR1_SQ13, sConfig->Rank);
    
    /* Set the SQx bits for the selected rank */
    hadc->Instance->SQR1 |= ADC_SQR1_RK(sConfig->Channel, sConfig->Rank);
  }
  
  /* if ADC1 Channel_18 is selected enable VBAT Channel */
  if ((hadc->Instance == ADC1) && (sConfig->Channel == ADC_CHANNEL_VBAT))
  {
    /* Enable the VBAT channel*/
    ADC->CCR |= ADC_CCR_VBATE;
  }
  
  /* if ADC1 Channel_16 or Channel_17 is selected enable TSVREFE Channel(Temperature sensor and VREFINT) */
  if ((hadc->Instance == ADC1) && ((sConfig->Channel == ADC_CHANNEL_TEMPSENSOR) || (sConfig->Channel == ADC_CHANNEL_VREFINT)))
  {
    /* Enable the TSVREFE channel*/
    ADC->CCR |= ADC_CCR_TSVREFE;
    
    if((sConfig->Channel == ADC_CHANNEL_TEMPSENSOR))
    {
      /* Delay for temperature sensor stabilization time */
      /* Compute number of CPU cycles to wait for */
      counter = (ADC_TEMPSENSOR_DELAY_US * (SystemCoreClock / 1000000));
      while(counter != 0)
      {
        counter--;
      }
    }
  }
  
  /* Process unlocked */
  __HAL_UNLOCK(hadc);
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @brief  Configures the analog watchdog.
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @param  AnalogWDGConfig : pointer to an ADC_AnalogWDGConfTypeDef structure 
  *         that contains the configuration information of ADC analog watchdog.
  * @retval HAL status	  
  */
HAL_StatusTypeDef HAL_ADC_AnalogWDGConfig(ADC_HandleTypeDef* hadc, ADC_AnalogWDGConfTypeDef* AnalogWDGConfig)
{
#ifdef USE_FULL_ASSERT  
  uint32_t tmp = 0;
#endif /* USE_FULL_ASSERT  */  
  
  /* Check the parameters */
  assert_param(IS_ADC_ANALOG_WATCHDOG(AnalogWDGConfig->WatchdogMode));
  assert_param(IS_ADC_CHANNEL(AnalogWDGConfig->Channel));
  assert_param(IS_FUNCTIONAL_STATE(AnalogWDGConfig->ITMode));

#ifdef USE_FULL_ASSERT  
  tmp = ADC_GET_RESOLUTION(hadc);
  assert_param(IS_ADC_RANGE(tmp, AnalogWDGConfig->HighThreshold));
  assert_param(IS_ADC_RANGE(tmp, AnalogWDGConfig->LowThreshold));
#endif /* USE_FULL_ASSERT  */
  
  /* Process locked */
  __HAL_LOCK(hadc);
  
  if(AnalogWDGConfig->ITMode == ENABLE)
  {
    /* Enable the ADC Analog watchdog interrupt */
    __HAL_ADC_ENABLE_IT(hadc, ADC_IT_AWD);
  }
  else
  {
    /* Disable the ADC Analog watchdog interrupt */
    __HAL_ADC_DISABLE_IT(hadc, ADC_IT_AWD);
  }
  
  /* Clear AWDEN, JAWDEN and AWDSGL bits */
  hadc->Instance->CR1 &=  ~(ADC_CR1_AWDSGL | ADC_CR1_JAWDEN | ADC_CR1_AWDEN);
  
  /* Set the analog watchdog enable mode */
  hadc->Instance->CR1 |= AnalogWDGConfig->WatchdogMode;
  
  /* Set the high threshold */
  hadc->Instance->HTR = AnalogWDGConfig->HighThreshold;
  
  /* Set the low threshold */
  hadc->Instance->LTR = AnalogWDGConfig->LowThreshold;
  
  /* Clear the Analog watchdog channel select bits */
  hadc->Instance->CR1 &= ~ADC_CR1_AWDCH;
  
  /* Set the Analog watchdog channel */
  hadc->Instance->CR1 |= (uint32_t)((uint16_t)(AnalogWDGConfig->Channel));
  
  /* Process unlocked */
  __HAL_UNLOCK(hadc);
  
  /* Return function status */
  return HAL_OK;
}

/**
  * @}
  */

/** @defgroup ADC_Exported_Functions_Group4 ADC Peripheral State functions
 *  @brief   ADC Peripheral State functions 
 *
@verbatim   
 ===============================================================================
            ##### Peripheral State and errors functions #####
 ===============================================================================  
    [..]
    This subsection provides functions allowing to
      (+) Check the ADC state
      (+) Check the ADC Error
         
@endverbatim
  * @{
  */
  
/**
  * @brief  return the ADC state
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval HAL state
  */
HAL_ADC_StateTypeDef HAL_ADC_GetState(ADC_HandleTypeDef* hadc)
{
  /* Return ADC state */
  return hadc->State;
}

/**
  * @brief  Return the ADC error code
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.
  * @retval ADC Error Code
  */
uint32_t HAL_ADC_GetError(ADC_HandleTypeDef *hadc)
{
  return hadc->ErrorCode;
}

/**
  * @}
  */

/** @addtogroup ADC_Private_Functions
  * @{
  */

/**
  * @brief  Initializes the ADCx peripheral according to the specified parameters 
  *         in the ADC_InitStruct without initializing the ADC MSP.       
  * @param  hadc: pointer to a ADC_HandleTypeDef structure that contains
  *         the configuration information for the specified ADC.  
  * @retval None
  */
static void ADC_Init(ADC_HandleTypeDef* hadc)
{
  /* Set ADC parameters */
  /* Set the ADC clock prescaler */
  ADC->CCR &= ~(ADC_CCR_ADCPRE);
  ADC->CCR |=  hadc->Init.ClockPrescaler;
  
  /* Set ADC scan mode */
  hadc->Instance->CR1 &= ~(ADC_CR1_SCAN);
  hadc->Instance->CR1 |=  ADC_CR1_SCANCONV(hadc->Init.ScanConvMode);
  
  /* Set ADC resolution */
  hadc->Instance->CR1 &= ~(ADC_CR1_RES);
  hadc->Instance->CR1 |=  hadc->Init.Resolution;
  
  /* Set ADC data alignment */
  hadc->Instance->CR2 &= ~(ADC_CR2_ALIGN);
  hadc->Instance->CR2 |= hadc->Init.DataAlign;
  
  /* Enable external trigger if trigger selection is different of software  */
  /* start.                                                                 */
  /* Note: This configuration keeps the hardware feature of parameter       */
  /*       ExternalTrigConvEdge "trigger edge none" equivalent to           */
  /*       software start.                                                  */
  if(hadc->Init.ExternalTrigConv != ADC_SOFTWARE_START)
  {
    /* Select external trigger to start conversion */
    hadc->Instance->CR2 &= ~(ADC_CR2_EXTSEL);
    hadc->Instance->CR2 |= hadc->Init.ExternalTrigConv;
    
    /* Select external trigger polarity */
    hadc->Instance->CR2 &= ~(ADC_CR2_EXTEN);
    hadc->Instance->CR2 |= hadc->Init.ExternalTrigConvEdge;
  }
  else
  {
    /* Reset the external trigger */
    hadc->Instance->CR2 &= ~(ADC_CR2_EXTSEL);
    hadc->Instance->CR2 &= ~(ADC_CR2_EXTEN);
  }
  
  /* Enable or disable ADC continuous conversion mode */
  hadc->Instance->CR2 &= ~(ADC_CR2_CONT);
  hadc->Instance->CR2 |= ADC_CR2_CONTINUOUS(hadc->Init.ContinuousConvMode);
  
  if(hadc->Init.DiscontinuousConvMode != DISABLE)
  {
    assert_param(IS_ADC_REGULAR_DISC_NUMBER(hadc->Init.NbrOfDiscConversion));
  
    /* Enable the selected ADC regular discontinuous mode */
    hadc->Instance->CR1 |= (uint32_t)ADC_CR1_DISCEN;
    
    /* Set the number of channels to be converted in discontinuous mode */
    hadc->Instance->CR1 &= ~(ADC_CR1_DISCNUM);
    hadc->Instance->CR1 |=  ADC_CR1_DISCONTINUOUS(hadc->Init.NbrOfDiscConversion);
  }
  else
  {
    /* Disable the selected ADC regular discontinuous mode */
    hadc->Instance->CR1 &= ~(ADC_CR1_DISCEN);
  }
  
  /* Set ADC number of conversion */
  hadc->Instance->SQR1 &= ~(ADC_SQR1_L);
  hadc->Instance->SQR1 |=  ADC_SQR1(hadc->Init.NbrOfConversion);
  
  /* Enable or disable ADC DMA continuous request */
  hadc->Instance->CR2 &= ~(ADC_CR2_DDS);
  hadc->Instance->CR2 |= ADC_CR2_DMAContReq(hadc->Init.DMAContinuousRequests);
  
  /* Enable or disable ADC end of conversion selection */
  hadc->Instance->CR2 &= ~(ADC_CR2_EOCS);
  hadc->Instance->CR2 |= ADC_CR2_EOCSelection(hadc->Init.EOCSelection);
}

/**
  * @brief  DMA transfer complete callback. 
  * @param  hdma: pointer to a DMA_HandleTypeDef structure that contains
  *                the configuration information for the specified DMA module.
  * @retval None
  */
static void ADC_DMAConvCplt(DMA_HandleTypeDef *hdma)   
{
  ADC_HandleTypeDef* hadc = ( ADC_HandleTypeDef* )((DMA_HandleTypeDef* )hdma)->Parent;
    
  /* Check if an injected conversion is ready */
  if(hadc->State == HAL_ADC_STATE_EOC_INJ)
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_EOC_INJ_REG;  
  }
  else
  {
    /* Change ADC state */
    hadc->State = HAL_ADC_STATE_EOC_REG;
  }
    
  HAL_ADC_ConvCpltCallback(hadc); 
}

/**
  * @brief  DMA half transfer complete callback. 
  * @param  hdma: pointer to a DMA_HandleTypeDef structure that contains
  *                the configuration information for the specified DMA module.
  * @retval None
  */
static void ADC_DMAHalfConvCplt(DMA_HandleTypeDef *hdma)   
{
  ADC_HandleTypeDef* hadc = ( ADC_HandleTypeDef* )((DMA_HandleTypeDef* )hdma)->Parent;
  /* Conversion complete callback */
  HAL_ADC_ConvHalfCpltCallback(hadc); 
}

/**
  * @brief  DMA error callback 
  * @param  hdma: pointer to a DMA_HandleTypeDef structure that contains
  *                the configuration information for the specified DMA module.
  * @retval None
  */
static void ADC_DMAError(DMA_HandleTypeDef *hdma)   
{
  ADC_HandleTypeDef* hadc = ( ADC_HandleTypeDef* )((DMA_HandleTypeDef* )hdma)->Parent;
  hadc->State= HAL_ADC_STATE_ERROR;
  /* Set ADC error code to DMA error */
  hadc->ErrorCode |= HAL_ADC_ERROR_DMA;
  HAL_ADC_ErrorCallback(hadc); 
}

/**
  * @}
  */

/**
  * @}
  */

#endif /* HAL_ADC_MODULE_ENABLED */
/**
  * @}
  */ 

/**
  * @}
  */ 

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