versions/v1_4_0/mynewt-core/hw/mcu/nordic/src/ext/nrfx/hal/nrf_gpiote.h - mynewt-documentation - Git at Google

 /**
  * Copyright (c) 2015 - 2018, Nordic Semiconductor ASA
  * All rights reserved.
  *
  * 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 the copyright holder 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.
  */

 #ifndef NRF_GPIOTE_H__
 #define NRF_GPIOTE_H__

 #include <nrfx.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
 * @defgroup nrf_gpiote_hal GPIOTE HAL
 * @{
 * @ingroup nrf_gpiote
 * @brief   Hardware access layer for managing the GPIOTE peripheral.
 */

 #ifdef GPIOTE_CONFIG_PORT_Msk
 #define GPIOTE_CONFIG_PORT_PIN_Msk (GPIOTE_CONFIG_PORT_Msk | GPIOTE_CONFIG_PSEL_Msk)
 #else
 #define GPIOTE_CONFIG_PORT_PIN_Msk GPIOTE_CONFIG_PSEL_Msk
 #endif

  /**
  * @enum nrf_gpiote_polarity_t
  * @brief Polarity for the GPIOTE channel.
  */
 typedef enum
 {
   NRF_GPIOTE_POLARITY_LOTOHI = GPIOTE_CONFIG_POLARITY_LoToHi,       ///<  Low to high.
   NRF_GPIOTE_POLARITY_HITOLO = GPIOTE_CONFIG_POLARITY_HiToLo,       ///<  High to low.
   NRF_GPIOTE_POLARITY_TOGGLE = GPIOTE_CONFIG_POLARITY_Toggle        ///<  Toggle.
 } nrf_gpiote_polarity_t;


  /**
  * @enum nrf_gpiote_outinit_t
  * @brief Initial output value for the GPIOTE channel.
  */
 typedef enum
 {
   NRF_GPIOTE_INITIAL_VALUE_LOW  = GPIOTE_CONFIG_OUTINIT_Low,       ///<  Low to high.
   NRF_GPIOTE_INITIAL_VALUE_HIGH = GPIOTE_CONFIG_OUTINIT_High       ///<  High to low.
 } nrf_gpiote_outinit_t;

 /**
  * @brief Tasks.
  */
 typedef enum /*lint -save -e30 -esym(628,__INTADDR__) */
 {
     NRF_GPIOTE_TASKS_OUT_0     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[0]), /**< Out task 0.*/
     NRF_GPIOTE_TASKS_OUT_1     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[1]), /**< Out task 1.*/
     NRF_GPIOTE_TASKS_OUT_2     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[2]), /**< Out task 2.*/
     NRF_GPIOTE_TASKS_OUT_3     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[3]), /**< Out task 3.*/
 #if (GPIOTE_CH_NUM > 4) || defined(__NRFX_DOXYGEN__)
     NRF_GPIOTE_TASKS_OUT_4     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[4]), /**< Out task 4.*/
     NRF_GPIOTE_TASKS_OUT_5     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[5]), /**< Out task 5.*/
     NRF_GPIOTE_TASKS_OUT_6     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[6]), /**< Out task 6.*/
     NRF_GPIOTE_TASKS_OUT_7     = offsetof(NRF_GPIOTE_Type, TASKS_OUT[7]), /**< Out task 7.*/
 #endif
 #if defined(GPIOTE_FEATURE_SET_PRESENT) || defined(__NRFX_DOXYGEN__)
     NRF_GPIOTE_TASKS_SET_0     = offsetof(NRF_GPIOTE_Type, TASKS_SET[0]), /**< Set task 0.*/
     NRF_GPIOTE_TASKS_SET_1     = offsetof(NRF_GPIOTE_Type, TASKS_SET[1]), /**< Set task 1.*/
     NRF_GPIOTE_TASKS_SET_2     = offsetof(NRF_GPIOTE_Type, TASKS_SET[2]), /**< Set task 2.*/
     NRF_GPIOTE_TASKS_SET_3     = offsetof(NRF_GPIOTE_Type, TASKS_SET[3]), /**< Set task 3.*/
     NRF_GPIOTE_TASKS_SET_4     = offsetof(NRF_GPIOTE_Type, TASKS_SET[4]), /**< Set task 4.*/
     NRF_GPIOTE_TASKS_SET_5     = offsetof(NRF_GPIOTE_Type, TASKS_SET[5]), /**< Set task 5.*/
     NRF_GPIOTE_TASKS_SET_6     = offsetof(NRF_GPIOTE_Type, TASKS_SET[6]), /**< Set task 6.*/
     NRF_GPIOTE_TASKS_SET_7     = offsetof(NRF_GPIOTE_Type, TASKS_SET[7]), /**< Set task 7.*/
 #endif
 #if defined(GPIOTE_FEATURE_CLR_PRESENT) || defined(__NRFX_DOXYGEN__)
     NRF_GPIOTE_TASKS_CLR_0     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[0]), /**< Clear task 0.*/
     NRF_GPIOTE_TASKS_CLR_1     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[1]), /**< Clear task 1.*/
     NRF_GPIOTE_TASKS_CLR_2     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[2]), /**< Clear task 2.*/
     NRF_GPIOTE_TASKS_CLR_3     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[3]), /**< Clear task 3.*/
     NRF_GPIOTE_TASKS_CLR_4     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[4]), /**< Clear task 4.*/
     NRF_GPIOTE_TASKS_CLR_5     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[5]), /**< Clear task 5.*/
     NRF_GPIOTE_TASKS_CLR_6     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[6]), /**< Clear task 6.*/
     NRF_GPIOTE_TASKS_CLR_7     = offsetof(NRF_GPIOTE_Type, TASKS_CLR[7]), /**< Clear task 7.*/
 #endif
     /*lint -restore*/
 } nrf_gpiote_tasks_t;

 /**
  * @brief Events.
  */
 typedef enum /*lint -save -e30 -esym(628,__INTADDR__) */
 {
     NRF_GPIOTE_EVENTS_IN_0     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[0]), /**< In event 0.*/
     NRF_GPIOTE_EVENTS_IN_1     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[1]), /**< In event 1.*/
     NRF_GPIOTE_EVENTS_IN_2     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[2]), /**< In event 2.*/
     NRF_GPIOTE_EVENTS_IN_3     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[3]), /**< In event 3.*/
 #if (GPIOTE_CH_NUM > 4) || defined(__NRFX_DOXYGEN__)
     NRF_GPIOTE_EVENTS_IN_4     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[4]), /**< In event 4.*/
     NRF_GPIOTE_EVENTS_IN_5     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[5]), /**< In event 5.*/
     NRF_GPIOTE_EVENTS_IN_6     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[6]), /**< In event 6.*/
     NRF_GPIOTE_EVENTS_IN_7     = offsetof(NRF_GPIOTE_Type, EVENTS_IN[7]), /**< In event 7.*/
 #endif
     NRF_GPIOTE_EVENTS_PORT     = offsetof(NRF_GPIOTE_Type, EVENTS_PORT), /**<  Port event.*/
     /*lint -restore*/
 } nrf_gpiote_events_t;

 /**
  * @enum nrf_gpiote_int_t
  * @brief GPIOTE interrupts.
  */
 typedef enum
 {
     NRF_GPIOTE_INT_IN0_MASK  = GPIOTE_INTENSET_IN0_Msk,  /**< GPIOTE interrupt from IN0. */
     NRF_GPIOTE_INT_IN1_MASK  = GPIOTE_INTENSET_IN1_Msk,  /**< GPIOTE interrupt from IN1. */
     NRF_GPIOTE_INT_IN2_MASK  = GPIOTE_INTENSET_IN2_Msk,  /**< GPIOTE interrupt from IN2. */
     NRF_GPIOTE_INT_IN3_MASK  = GPIOTE_INTENSET_IN3_Msk,  /**< GPIOTE interrupt from IN3. */
 #if (GPIOTE_CH_NUM > 4) || defined(__NRFX_DOXYGEN__)
     NRF_GPIOTE_INT_IN4_MASK  = GPIOTE_INTENSET_IN4_Msk,  /**< GPIOTE interrupt from IN4. */
     NRF_GPIOTE_INT_IN5_MASK  = GPIOTE_INTENSET_IN5_Msk,  /**< GPIOTE interrupt from IN5. */
     NRF_GPIOTE_INT_IN6_MASK  = GPIOTE_INTENSET_IN6_Msk,  /**< GPIOTE interrupt from IN6. */
     NRF_GPIOTE_INT_IN7_MASK  = GPIOTE_INTENSET_IN7_Msk,  /**< GPIOTE interrupt from IN7. */
 #endif
     NRF_GPIOTE_INT_PORT_MASK = (int)GPIOTE_INTENSET_PORT_Msk, /**< GPIOTE interrupt from PORT event. */
 } nrf_gpiote_int_t;

 #define NRF_GPIOTE_INT_IN_MASK (NRF_GPIOTE_INT_IN0_MASK | NRF_GPIOTE_INT_IN1_MASK |\
                                 NRF_GPIOTE_INT_IN2_MASK | NRF_GPIOTE_INT_IN3_MASK)
 #if (GPIOTE_CH_NUM > 4)
 #undef NRF_GPIOTE_INT_IN_MASK
 #define NRF_GPIOTE_INT_IN_MASK (NRF_GPIOTE_INT_IN0_MASK | NRF_GPIOTE_INT_IN1_MASK |\
                                 NRF_GPIOTE_INT_IN2_MASK | NRF_GPIOTE_INT_IN3_MASK |\
                                 NRF_GPIOTE_INT_IN4_MASK | NRF_GPIOTE_INT_IN5_MASK |\
                                 NRF_GPIOTE_INT_IN6_MASK | NRF_GPIOTE_INT_IN7_MASK)
 #endif

 /**
  * @brief Function for activating a specific GPIOTE task.
  *
  * @param[in]  task Task.
  */
 __STATIC_INLINE void nrf_gpiote_task_set(nrf_gpiote_tasks_t task);

 /**
  * @brief Function for getting the address of a specific GPIOTE task.
  *
  * @param[in] task Task.
  *
  * @returns Address.
  */
 __STATIC_INLINE uint32_t nrf_gpiote_task_addr_get(nrf_gpiote_tasks_t task);

 /**
  * @brief Function for getting the state of a specific GPIOTE event.
  *
  * @param[in] event Event.
  */
 __STATIC_INLINE bool nrf_gpiote_event_is_set(nrf_gpiote_events_t event);

 /**
  * @brief Function for clearing a specific GPIOTE event.
  *
  * @param[in] event Event.
  */
 __STATIC_INLINE void nrf_gpiote_event_clear(nrf_gpiote_events_t event);

 /**
  * @brief Function for getting the address of a specific GPIOTE event.
  *
  * @param[in] event Event.
  *
  * @return Address
  */
 __STATIC_INLINE uint32_t nrf_gpiote_event_addr_get(nrf_gpiote_events_t event);

 /**@brief Function for enabling interrupts.
  *
  * @param[in]  mask          Interrupt mask to be enabled.
  */
 __STATIC_INLINE void nrf_gpiote_int_enable(uint32_t mask);

 /**@brief Function for disabling interrupts.
  *
  * @param[in]  mask          Interrupt mask to be disabled.
  */
 __STATIC_INLINE void nrf_gpiote_int_disable(uint32_t mask);

 /**@brief Function for checking if interrupts are enabled.
  *
  * @param[in]  mask          Mask of interrupt flags to check.
  *
  * @return                   Mask with enabled interrupts.
  */
 __STATIC_INLINE uint32_t nrf_gpiote_int_is_enabled(uint32_t mask);

 /**@brief Function for enabling a GPIOTE event.
  *
  * @param[in]  idx        Task-Event index.
  */
 __STATIC_INLINE void nrf_gpiote_event_enable(uint32_t idx);

 /**@brief Function for disabling a GPIOTE event.
  *
  * @param[in]  idx        Task-Event index.
  */
 __STATIC_INLINE void nrf_gpiote_event_disable(uint32_t idx);

 /**@brief Function for configuring a GPIOTE event.
  *
  * @param[in]  idx        Task-Event index.
  * @param[in]  pin        Pin associated with event.
  * @param[in]  polarity   Transition that should generate an event.
  */
 __STATIC_INLINE void nrf_gpiote_event_configure(uint32_t idx, uint32_t pin,
                                                 nrf_gpiote_polarity_t polarity);

 /**@brief Function for getting the pin associated with a GPIOTE event.
  *
  * @param[in]  idx        Task-Event index.
  *
  * @return Pin number.
  */
 __STATIC_INLINE uint32_t nrf_gpiote_event_pin_get(uint32_t idx);

 /**@brief Function for getting the polarity associated with a GPIOTE event.
  *
  * @param[in]  idx        Task-Event index.
  *
  * @return Polarity.
  */
 __STATIC_INLINE nrf_gpiote_polarity_t nrf_gpiote_event_polarity_get(uint32_t idx);

 /**@brief Function for enabling a GPIOTE task.
  *
  * @param[in]  idx        Task-Event index.
  */
 __STATIC_INLINE void nrf_gpiote_task_enable(uint32_t idx);

 /**@brief Function for disabling a GPIOTE task.
  *
  * @param[in]  idx        Task-Event index.
  */
 __STATIC_INLINE void nrf_gpiote_task_disable(uint32_t idx);

 /**@brief Function for configuring a GPIOTE task.
  * @note  Function is not configuring mode field so task is disabled after this function is called.
  *
  * @param[in]  idx        Task-Event index.
  * @param[in]  pin        Pin associated with event.
  * @param[in]  polarity   Transition that should generate an event.
  * @param[in]  init_val   Initial value of the pin.
  */
 __STATIC_INLINE void nrf_gpiote_task_configure(uint32_t idx, uint32_t pin,
                                                nrf_gpiote_polarity_t polarity,
                                                nrf_gpiote_outinit_t  init_val);

 /**@brief Function for forcing a specific state on the pin connected to GPIOTE.
  *
  * @param[in]  idx        Task-Event index.
  * @param[in]  init_val   Pin state.
  */
 __STATIC_INLINE void nrf_gpiote_task_force(uint32_t idx, nrf_gpiote_outinit_t init_val);

 /**@brief Function for resetting a GPIOTE task event configuration to the default state.
  *
  * @param[in]  idx        Task-Event index.
  */
 __STATIC_INLINE void nrf_gpiote_te_default(uint32_t idx);

 #ifndef SUPPRESS_INLINE_IMPLEMENTATION
 __STATIC_INLINE void nrf_gpiote_task_set(nrf_gpiote_tasks_t task)
 {
     *(__IO uint32_t *)((uint32_t)NRF_GPIOTE + task) = 0x1UL;
 }

 __STATIC_INLINE uint32_t nrf_gpiote_task_addr_get(nrf_gpiote_tasks_t task)
 {
     return ((uint32_t)NRF_GPIOTE + task);
 }

 __STATIC_INLINE bool nrf_gpiote_event_is_set(nrf_gpiote_events_t event)
 {
     return (*(uint32_t *)nrf_gpiote_event_addr_get(event) == 0x1UL) ? true : false;
 }

 __STATIC_INLINE void nrf_gpiote_event_clear(nrf_gpiote_events_t event)
 {
     *(uint32_t *)nrf_gpiote_event_addr_get(event) = 0;
 #if __CORTEX_M == 0x04
     volatile uint32_t dummy = *((volatile uint32_t *)nrf_gpiote_event_addr_get(event));
     (void)dummy;
 #endif
 }

 __STATIC_INLINE uint32_t nrf_gpiote_event_addr_get(nrf_gpiote_events_t event)
 {
     return ((uint32_t)NRF_GPIOTE + event);
 }

 __STATIC_INLINE void nrf_gpiote_int_enable(uint32_t mask)
 {
     NRF_GPIOTE->INTENSET = mask;
 }

 __STATIC_INLINE void nrf_gpiote_int_disable(uint32_t mask)
 {
     NRF_GPIOTE->INTENCLR = mask;
 }

 __STATIC_INLINE uint32_t nrf_gpiote_int_is_enabled(uint32_t mask)
 {
     return (NRF_GPIOTE->INTENSET & mask);
 }

 __STATIC_INLINE void nrf_gpiote_event_enable(uint32_t idx)
 {
    NRF_GPIOTE->CONFIG[idx] |= GPIOTE_CONFIG_MODE_Event;
 }

 __STATIC_INLINE void nrf_gpiote_event_disable(uint32_t idx)
 {
    NRF_GPIOTE->CONFIG[idx] &= ~GPIOTE_CONFIG_MODE_Event;
 }

 __STATIC_INLINE void nrf_gpiote_event_configure(uint32_t idx, uint32_t pin, nrf_gpiote_polarity_t polarity)
 {
   NRF_GPIOTE->CONFIG[idx] &= ~(GPIOTE_CONFIG_PORT_PIN_Msk | GPIOTE_CONFIG_POLARITY_Msk);
   NRF_GPIOTE->CONFIG[idx] |= ((pin << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk) |
                               ((polarity << GPIOTE_CONFIG_POLARITY_Pos) & GPIOTE_CONFIG_POLARITY_Msk);
 }

 __STATIC_INLINE uint32_t nrf_gpiote_event_pin_get(uint32_t idx)
 {
     return ((NRF_GPIOTE->CONFIG[idx] & GPIOTE_CONFIG_PORT_PIN_Msk) >> GPIOTE_CONFIG_PSEL_Pos);
 }

 __STATIC_INLINE nrf_gpiote_polarity_t nrf_gpiote_event_polarity_get(uint32_t idx)
 {
     return (nrf_gpiote_polarity_t)((NRF_GPIOTE->CONFIG[idx] & GPIOTE_CONFIG_POLARITY_Msk) >> GPIOTE_CONFIG_POLARITY_Pos);
 }

 __STATIC_INLINE void nrf_gpiote_task_enable(uint32_t idx)
 {
     uint32_t final_config = NRF_GPIOTE->CONFIG[idx] | GPIOTE_CONFIG_MODE_Task;
 #ifdef NRF51
     /* Workaround for the OUTINIT PAN. When nrf_gpiote_task_config() is called a glitch happens
     on the GPIO if the GPIO in question is already assigned to GPIOTE and the pin is in the
     correct state in GPIOTE but not in the OUT register. */
     /* Configure channel to not existing, not connected to the pin, and configure as a tasks that will set it to proper level */
     NRF_GPIOTE->CONFIG[idx] = final_config | (((31) << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk);
     __NOP();
     __NOP();
     __NOP();
 #endif
     NRF_GPIOTE->CONFIG[idx] = final_config;
 }

 __STATIC_INLINE void nrf_gpiote_task_disable(uint32_t idx)
 {
     NRF_GPIOTE->CONFIG[idx] &= ~GPIOTE_CONFIG_MODE_Task;
 }

 __STATIC_INLINE void nrf_gpiote_task_configure(uint32_t idx, uint32_t pin,
                                                 nrf_gpiote_polarity_t polarity,
                                                 nrf_gpiote_outinit_t  init_val)
 {
   NRF_GPIOTE->CONFIG[idx] &= ~(GPIOTE_CONFIG_PORT_PIN_Msk |
                                GPIOTE_CONFIG_POLARITY_Msk |
                                GPIOTE_CONFIG_OUTINIT_Msk);

   NRF_GPIOTE->CONFIG[idx] |= ((pin << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk) |
                              ((polarity << GPIOTE_CONFIG_POLARITY_Pos) & GPIOTE_CONFIG_POLARITY_Msk) |
                              ((init_val << GPIOTE_CONFIG_OUTINIT_Pos) & GPIOTE_CONFIG_OUTINIT_Msk);
 }

 __STATIC_INLINE void nrf_gpiote_task_force(uint32_t idx, nrf_gpiote_outinit_t init_val)
 {
     NRF_GPIOTE->CONFIG[idx] = (NRF_GPIOTE->CONFIG[idx] & ~GPIOTE_CONFIG_OUTINIT_Msk)
                               | ((init_val << GPIOTE_CONFIG_OUTINIT_Pos) & GPIOTE_CONFIG_OUTINIT_Msk);
 }

 __STATIC_INLINE void nrf_gpiote_te_default(uint32_t idx)
 {
     NRF_GPIOTE->CONFIG[idx] = 0;
 }
 #endif //SUPPRESS_INLINE_IMPLEMENTATION

 /** @} */

 #ifdef __cplusplus
 }
 #endif

 #endif
	/**
	* Copyright (c) 2015 - 2018, Nordic Semiconductor ASA
	* All rights reserved.
	*
	* 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 the copyright holder 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.
	*/

	#ifndef NRF_GPIOTE_H__
	#define NRF_GPIOTE_H__

	#include <nrfx.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @defgroup nrf_gpiote_hal GPIOTE HAL
	* @{
	* @ingroup nrf_gpiote
	* @brief Hardware access layer for managing the GPIOTE peripheral.
	*/

	#ifdef GPIOTE_CONFIG_PORT_Msk
	#define GPIOTE_CONFIG_PORT_PIN_Msk (GPIOTE_CONFIG_PORT_Msk \| GPIOTE_CONFIG_PSEL_Msk)
	#else
	#define GPIOTE_CONFIG_PORT_PIN_Msk GPIOTE_CONFIG_PSEL_Msk
	#endif

	/**
	* @enum nrf_gpiote_polarity_t
	* @brief Polarity for the GPIOTE channel.
	*/
	typedef enum
	{
	NRF_GPIOTE_POLARITY_LOTOHI = GPIOTE_CONFIG_POLARITY_LoToHi, ///< Low to high.
	NRF_GPIOTE_POLARITY_HITOLO = GPIOTE_CONFIG_POLARITY_HiToLo, ///< High to low.
	NRF_GPIOTE_POLARITY_TOGGLE = GPIOTE_CONFIG_POLARITY_Toggle ///< Toggle.
	} nrf_gpiote_polarity_t;


	/**
	* @enum nrf_gpiote_outinit_t
	* @brief Initial output value for the GPIOTE channel.
	*/
	typedef enum
	{
	NRF_GPIOTE_INITIAL_VALUE_LOW = GPIOTE_CONFIG_OUTINIT_Low, ///< Low to high.
	NRF_GPIOTE_INITIAL_VALUE_HIGH = GPIOTE_CONFIG_OUTINIT_High ///< High to low.
	} nrf_gpiote_outinit_t;

	/**
	* @brief Tasks.
	*/
	typedef enum /lint -save -e30 -esym(628,__INTADDR__) /
	{
	NRF_GPIOTE_TASKS_OUT_0 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[0]), /*< Out task 0./
	NRF_GPIOTE_TASKS_OUT_1 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[1]), /*< Out task 1./
	NRF_GPIOTE_TASKS_OUT_2 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[2]), /*< Out task 2./
	NRF_GPIOTE_TASKS_OUT_3 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[3]), /*< Out task 3./
	#if (GPIOTE_CH_NUM > 4) \|\| defined(__NRFX_DOXYGEN__)
	NRF_GPIOTE_TASKS_OUT_4 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[4]), /*< Out task 4./
	NRF_GPIOTE_TASKS_OUT_5 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[5]), /*< Out task 5./
	NRF_GPIOTE_TASKS_OUT_6 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[6]), /*< Out task 6./
	NRF_GPIOTE_TASKS_OUT_7 = offsetof(NRF_GPIOTE_Type, TASKS_OUT[7]), /*< Out task 7./
	#endif
	#if defined(GPIOTE_FEATURE_SET_PRESENT) \|\| defined(__NRFX_DOXYGEN__)
	NRF_GPIOTE_TASKS_SET_0 = offsetof(NRF_GPIOTE_Type, TASKS_SET[0]), /*< Set task 0./
	NRF_GPIOTE_TASKS_SET_1 = offsetof(NRF_GPIOTE_Type, TASKS_SET[1]), /*< Set task 1./
	NRF_GPIOTE_TASKS_SET_2 = offsetof(NRF_GPIOTE_Type, TASKS_SET[2]), /*< Set task 2./
	NRF_GPIOTE_TASKS_SET_3 = offsetof(NRF_GPIOTE_Type, TASKS_SET[3]), /*< Set task 3./
	NRF_GPIOTE_TASKS_SET_4 = offsetof(NRF_GPIOTE_Type, TASKS_SET[4]), /*< Set task 4./
	NRF_GPIOTE_TASKS_SET_5 = offsetof(NRF_GPIOTE_Type, TASKS_SET[5]), /*< Set task 5./
	NRF_GPIOTE_TASKS_SET_6 = offsetof(NRF_GPIOTE_Type, TASKS_SET[6]), /*< Set task 6./
	NRF_GPIOTE_TASKS_SET_7 = offsetof(NRF_GPIOTE_Type, TASKS_SET[7]), /*< Set task 7./
	#endif
	#if defined(GPIOTE_FEATURE_CLR_PRESENT) \|\| defined(__NRFX_DOXYGEN__)
	NRF_GPIOTE_TASKS_CLR_0 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[0]), /*< Clear task 0./
	NRF_GPIOTE_TASKS_CLR_1 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[1]), /*< Clear task 1./
	NRF_GPIOTE_TASKS_CLR_2 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[2]), /*< Clear task 2./
	NRF_GPIOTE_TASKS_CLR_3 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[3]), /*< Clear task 3./
	NRF_GPIOTE_TASKS_CLR_4 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[4]), /*< Clear task 4./
	NRF_GPIOTE_TASKS_CLR_5 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[5]), /*< Clear task 5./
	NRF_GPIOTE_TASKS_CLR_6 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[6]), /*< Clear task 6./
	NRF_GPIOTE_TASKS_CLR_7 = offsetof(NRF_GPIOTE_Type, TASKS_CLR[7]), /*< Clear task 7./
	#endif
	/lint -restore/
	} nrf_gpiote_tasks_t;

	/**
	* @brief Events.
	*/
	typedef enum /lint -save -e30 -esym(628,__INTADDR__) /
	{
	NRF_GPIOTE_EVENTS_IN_0 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[0]), /*< In event 0./
	NRF_GPIOTE_EVENTS_IN_1 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[1]), /*< In event 1./
	NRF_GPIOTE_EVENTS_IN_2 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[2]), /*< In event 2./
	NRF_GPIOTE_EVENTS_IN_3 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[3]), /*< In event 3./
	#if (GPIOTE_CH_NUM > 4) \|\| defined(__NRFX_DOXYGEN__)
	NRF_GPIOTE_EVENTS_IN_4 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[4]), /*< In event 4./
	NRF_GPIOTE_EVENTS_IN_5 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[5]), /*< In event 5./
	NRF_GPIOTE_EVENTS_IN_6 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[6]), /*< In event 6./
	NRF_GPIOTE_EVENTS_IN_7 = offsetof(NRF_GPIOTE_Type, EVENTS_IN[7]), /*< In event 7./
	#endif
	NRF_GPIOTE_EVENTS_PORT = offsetof(NRF_GPIOTE_Type, EVENTS_PORT), /*< Port event./
	/lint -restore/
	} nrf_gpiote_events_t;

	/**
	* @enum nrf_gpiote_int_t
	* @brief GPIOTE interrupts.
	*/
	typedef enum
	{
	NRF_GPIOTE_INT_IN0_MASK = GPIOTE_INTENSET_IN0_Msk, /*< GPIOTE interrupt from IN0. /
	NRF_GPIOTE_INT_IN1_MASK = GPIOTE_INTENSET_IN1_Msk, /*< GPIOTE interrupt from IN1. /
	NRF_GPIOTE_INT_IN2_MASK = GPIOTE_INTENSET_IN2_Msk, /*< GPIOTE interrupt from IN2. /
	NRF_GPIOTE_INT_IN3_MASK = GPIOTE_INTENSET_IN3_Msk, /*< GPIOTE interrupt from IN3. /
	#if (GPIOTE_CH_NUM > 4) \|\| defined(__NRFX_DOXYGEN__)
	NRF_GPIOTE_INT_IN4_MASK = GPIOTE_INTENSET_IN4_Msk, /*< GPIOTE interrupt from IN4. /
	NRF_GPIOTE_INT_IN5_MASK = GPIOTE_INTENSET_IN5_Msk, /*< GPIOTE interrupt from IN5. /
	NRF_GPIOTE_INT_IN6_MASK = GPIOTE_INTENSET_IN6_Msk, /*< GPIOTE interrupt from IN6. /
	NRF_GPIOTE_INT_IN7_MASK = GPIOTE_INTENSET_IN7_Msk, /*< GPIOTE interrupt from IN7. /
	#endif
	NRF_GPIOTE_INT_PORT_MASK = (int)GPIOTE_INTENSET_PORT_Msk, /*< GPIOTE interrupt from PORT event. /
	} nrf_gpiote_int_t;

	#define NRF_GPIOTE_INT_IN_MASK (NRF_GPIOTE_INT_IN0_MASK \| NRF_GPIOTE_INT_IN1_MASK \|\
	NRF_GPIOTE_INT_IN2_MASK \| NRF_GPIOTE_INT_IN3_MASK)
	#if (GPIOTE_CH_NUM > 4)
	#undef NRF_GPIOTE_INT_IN_MASK
	#define NRF_GPIOTE_INT_IN_MASK (NRF_GPIOTE_INT_IN0_MASK \| NRF_GPIOTE_INT_IN1_MASK \|\
	NRF_GPIOTE_INT_IN2_MASK \| NRF_GPIOTE_INT_IN3_MASK \|\
	NRF_GPIOTE_INT_IN4_MASK \| NRF_GPIOTE_INT_IN5_MASK \|\
	NRF_GPIOTE_INT_IN6_MASK \| NRF_GPIOTE_INT_IN7_MASK)
	#endif

	/**
	* @brief Function for activating a specific GPIOTE task.
	*
	* @param[in] task Task.
	*/
	__STATIC_INLINE void nrf_gpiote_task_set(nrf_gpiote_tasks_t task);

	/**
	* @brief Function for getting the address of a specific GPIOTE task.
	*
	* @param[in] task Task.
	*
	* @returns Address.
	*/
	__STATIC_INLINE uint32_t nrf_gpiote_task_addr_get(nrf_gpiote_tasks_t task);

	/**
	* @brief Function for getting the state of a specific GPIOTE event.
	*
	* @param[in] event Event.
	*/
	__STATIC_INLINE bool nrf_gpiote_event_is_set(nrf_gpiote_events_t event);

	/**
	* @brief Function for clearing a specific GPIOTE event.
	*
	* @param[in] event Event.
	*/
	__STATIC_INLINE void nrf_gpiote_event_clear(nrf_gpiote_events_t event);

	/**
	* @brief Function for getting the address of a specific GPIOTE event.
	*
	* @param[in] event Event.
	*
	* @return Address
	*/
	__STATIC_INLINE uint32_t nrf_gpiote_event_addr_get(nrf_gpiote_events_t event);

	/**@brief Function for enabling interrupts.
	*
	* @param[in] mask Interrupt mask to be enabled.
	*/
	__STATIC_INLINE void nrf_gpiote_int_enable(uint32_t mask);

	/**@brief Function for disabling interrupts.
	*
	* @param[in] mask Interrupt mask to be disabled.
	*/
	__STATIC_INLINE void nrf_gpiote_int_disable(uint32_t mask);

	/**@brief Function for checking if interrupts are enabled.
	*
	* @param[in] mask Mask of interrupt flags to check.
	*
	* @return Mask with enabled interrupts.
	*/
	__STATIC_INLINE uint32_t nrf_gpiote_int_is_enabled(uint32_t mask);

	/**@brief Function for enabling a GPIOTE event.
	*
	* @param[in] idx Task-Event index.
	*/
	__STATIC_INLINE void nrf_gpiote_event_enable(uint32_t idx);

	/**@brief Function for disabling a GPIOTE event.
	*
	* @param[in] idx Task-Event index.
	*/
	__STATIC_INLINE void nrf_gpiote_event_disable(uint32_t idx);

	/**@brief Function for configuring a GPIOTE event.
	*
	* @param[in] idx Task-Event index.
	* @param[in] pin Pin associated with event.
	* @param[in] polarity Transition that should generate an event.
	*/
	__STATIC_INLINE void nrf_gpiote_event_configure(uint32_t idx, uint32_t pin,
	nrf_gpiote_polarity_t polarity);

	/**@brief Function for getting the pin associated with a GPIOTE event.
	*
	* @param[in] idx Task-Event index.
	*
	* @return Pin number.
	*/
	__STATIC_INLINE uint32_t nrf_gpiote_event_pin_get(uint32_t idx);

	/**@brief Function for getting the polarity associated with a GPIOTE event.
	*
	* @param[in] idx Task-Event index.
	*
	* @return Polarity.
	*/
	__STATIC_INLINE nrf_gpiote_polarity_t nrf_gpiote_event_polarity_get(uint32_t idx);

	/**@brief Function for enabling a GPIOTE task.
	*
	* @param[in] idx Task-Event index.
	*/
	__STATIC_INLINE void nrf_gpiote_task_enable(uint32_t idx);

	/**@brief Function for disabling a GPIOTE task.
	*
	* @param[in] idx Task-Event index.
	*/
	__STATIC_INLINE void nrf_gpiote_task_disable(uint32_t idx);

	/**@brief Function for configuring a GPIOTE task.
	* @note Function is not configuring mode field so task is disabled after this function is called.
	*
	* @param[in] idx Task-Event index.
	* @param[in] pin Pin associated with event.
	* @param[in] polarity Transition that should generate an event.
	* @param[in] init_val Initial value of the pin.
	*/
	__STATIC_INLINE void nrf_gpiote_task_configure(uint32_t idx, uint32_t pin,
	nrf_gpiote_polarity_t polarity,
	nrf_gpiote_outinit_t init_val);

	/**@brief Function for forcing a specific state on the pin connected to GPIOTE.
	*
	* @param[in] idx Task-Event index.
	* @param[in] init_val Pin state.
	*/
	__STATIC_INLINE void nrf_gpiote_task_force(uint32_t idx, nrf_gpiote_outinit_t init_val);

	/**@brief Function for resetting a GPIOTE task event configuration to the default state.
	*
	* @param[in] idx Task-Event index.
	*/
	__STATIC_INLINE void nrf_gpiote_te_default(uint32_t idx);

	#ifndef SUPPRESS_INLINE_IMPLEMENTATION
	__STATIC_INLINE void nrf_gpiote_task_set(nrf_gpiote_tasks_t task)
	{
	(__IO uint32_t )((uint32_t)NRF_GPIOTE + task) = 0x1UL;
	}

	__STATIC_INLINE uint32_t nrf_gpiote_task_addr_get(nrf_gpiote_tasks_t task)
	{
	return ((uint32_t)NRF_GPIOTE + task);
	}

	__STATIC_INLINE bool nrf_gpiote_event_is_set(nrf_gpiote_events_t event)
	{
	return ((uint32_t )nrf_gpiote_event_addr_get(event) == 0x1UL) ? true : false;
	}

	__STATIC_INLINE void nrf_gpiote_event_clear(nrf_gpiote_events_t event)
	{
	(uint32_t )nrf_gpiote_event_addr_get(event) = 0;
	#if __CORTEX_M == 0x04
	volatile uint32_t dummy = ((volatile uint32_t )nrf_gpiote_event_addr_get(event));
	(void)dummy;
	#endif
	}

	__STATIC_INLINE uint32_t nrf_gpiote_event_addr_get(nrf_gpiote_events_t event)
	{
	return ((uint32_t)NRF_GPIOTE + event);
	}

	__STATIC_INLINE void nrf_gpiote_int_enable(uint32_t mask)
	{
	NRF_GPIOTE->INTENSET = mask;
	}

	__STATIC_INLINE void nrf_gpiote_int_disable(uint32_t mask)
	{
	NRF_GPIOTE->INTENCLR = mask;
	}

	__STATIC_INLINE uint32_t nrf_gpiote_int_is_enabled(uint32_t mask)
	{
	return (NRF_GPIOTE->INTENSET & mask);
	}

	__STATIC_INLINE void nrf_gpiote_event_enable(uint32_t idx)
	{
	NRF_GPIOTE->CONFIG[idx] \|= GPIOTE_CONFIG_MODE_Event;
	}

	__STATIC_INLINE void nrf_gpiote_event_disable(uint32_t idx)
	{
	NRF_GPIOTE->CONFIG[idx] &= ~GPIOTE_CONFIG_MODE_Event;
	}

	__STATIC_INLINE void nrf_gpiote_event_configure(uint32_t idx, uint32_t pin, nrf_gpiote_polarity_t polarity)
	{
	NRF_GPIOTE->CONFIG[idx] &= ~(GPIOTE_CONFIG_PORT_PIN_Msk \| GPIOTE_CONFIG_POLARITY_Msk);
	NRF_GPIOTE->CONFIG[idx] \|= ((pin << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk) \|
	((polarity << GPIOTE_CONFIG_POLARITY_Pos) & GPIOTE_CONFIG_POLARITY_Msk);
	}

	__STATIC_INLINE uint32_t nrf_gpiote_event_pin_get(uint32_t idx)
	{
	return ((NRF_GPIOTE->CONFIG[idx] & GPIOTE_CONFIG_PORT_PIN_Msk) >> GPIOTE_CONFIG_PSEL_Pos);
	}

	__STATIC_INLINE nrf_gpiote_polarity_t nrf_gpiote_event_polarity_get(uint32_t idx)
	{
	return (nrf_gpiote_polarity_t)((NRF_GPIOTE->CONFIG[idx] & GPIOTE_CONFIG_POLARITY_Msk) >> GPIOTE_CONFIG_POLARITY_Pos);
	}

	__STATIC_INLINE void nrf_gpiote_task_enable(uint32_t idx)
	{
	uint32_t final_config = NRF_GPIOTE->CONFIG[idx] \| GPIOTE_CONFIG_MODE_Task;
	#ifdef NRF51
	/* Workaround for the OUTINIT PAN. When nrf_gpiote_task_config() is called a glitch happens
	on the GPIO if the GPIO in question is already assigned to GPIOTE and the pin is in the
	correct state in GPIOTE but not in the OUT register. */
	/* Configure channel to not existing, not connected to the pin, and configure as a tasks that will set it to proper level */
	NRF_GPIOTE->CONFIG[idx] = final_config \| (((31) << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk);
	__NOP();
	__NOP();
	__NOP();
	#endif
	NRF_GPIOTE->CONFIG[idx] = final_config;
	}

	__STATIC_INLINE void nrf_gpiote_task_disable(uint32_t idx)
	{
	NRF_GPIOTE->CONFIG[idx] &= ~GPIOTE_CONFIG_MODE_Task;
	}

	__STATIC_INLINE void nrf_gpiote_task_configure(uint32_t idx, uint32_t pin,
	nrf_gpiote_polarity_t polarity,
	nrf_gpiote_outinit_t init_val)
	{
	NRF_GPIOTE->CONFIG[idx] &= ~(GPIOTE_CONFIG_PORT_PIN_Msk \|
	GPIOTE_CONFIG_POLARITY_Msk \|
	GPIOTE_CONFIG_OUTINIT_Msk);

	NRF_GPIOTE->CONFIG[idx] \|= ((pin << GPIOTE_CONFIG_PSEL_Pos) & GPIOTE_CONFIG_PORT_PIN_Msk) \|
	((polarity << GPIOTE_CONFIG_POLARITY_Pos) & GPIOTE_CONFIG_POLARITY_Msk) \|
	((init_val << GPIOTE_CONFIG_OUTINIT_Pos) & GPIOTE_CONFIG_OUTINIT_Msk);
	}

	__STATIC_INLINE void nrf_gpiote_task_force(uint32_t idx, nrf_gpiote_outinit_t init_val)
	{
	NRF_GPIOTE->CONFIG[idx] = (NRF_GPIOTE->CONFIG[idx] & ~GPIOTE_CONFIG_OUTINIT_Msk)
	\| ((init_val << GPIOTE_CONFIG_OUTINIT_Pos) & GPIOTE_CONFIG_OUTINIT_Msk);
	}

	__STATIC_INLINE void nrf_gpiote_te_default(uint32_t idx)
	{
	NRF_GPIOTE->CONFIG[idx] = 0;
	}
	#endif //SUPPRESS_INLINE_IMPLEMENTATION

	/** @} */

	#ifdef __cplusplus
	}
	#endif

	#endif