simmel-bootloader/lib/sdk/components/drivers_nrf/hal/nrf_gpio.h

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/**
* Copyright (c) 2015 - 2017, 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, except as embedded into a Nordic
* Semiconductor ASA integrated circuit in a product or a software update for
* such product, 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 Nordic Semiconductor ASA nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* 4. This software, with or without modification, must only be used with a
* Nordic Semiconductor ASA integrated circuit.
*
* 5. Any software provided in binary form under this license must not be reverse
* engineered, decompiled, modified and/or disassembled.
*
* THIS SOFTWARE IS PROVIDED BY NORDIC SEMICONDUCTOR ASA "AS IS" AND ANY EXPRESS
* OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY, NONINFRINGEMENT, AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL NORDIC SEMICONDUCTOR ASA 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_GPIO_H__
#define NRF_GPIO_H__
#include "nrf.h"
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#include "nrf_peripherals.h"
#include "nrf_assert.h"
#include <stdbool.h>
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#include <stdlib.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @defgroup nrf_gpio GPIO abstraction
* @{
* @ingroup nrf_drivers
* @brief GPIO pin abstraction and port abstraction for reading and writing byte-wise to GPIO ports.
*/
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#if (GPIO_COUNT == 1)
#define NUMBER_OF_PINS (P0_PIN_NUM)
#define GPIO_REG_LIST {NRF_GPIO}
#elif (GPIO_COUNT == 2)
#define NUMBER_OF_PINS (P0_PIN_NUM + P1_PIN_NUM)
#define GPIO_REG_LIST {NRF_P0, NRF_P1}
#else
#error "Not supported."
#endif
/**
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* @brief Macro for mapping port and pin numbers to values understandable for nrf_gpio functions.
*/
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#define NRF_GPIO_PIN_MAP(port, pin) ((port << 5) | (pin & 0x1F))
/**
* @brief Pin direction definitions.
*/
typedef enum
{
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NRF_GPIO_PIN_DIR_INPUT = GPIO_PIN_CNF_DIR_Input, ///< Input.
NRF_GPIO_PIN_DIR_OUTPUT = GPIO_PIN_CNF_DIR_Output ///< Output.
} nrf_gpio_pin_dir_t;
/**
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* @brief Connection of input buffer.
*/
typedef enum
{
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NRF_GPIO_PIN_INPUT_CONNECT = GPIO_PIN_CNF_INPUT_Connect, ///< Connect input buffer.
NRF_GPIO_PIN_INPUT_DISCONNECT = GPIO_PIN_CNF_INPUT_Disconnect ///< Disconnect input buffer.
} nrf_gpio_pin_input_t;
/**
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* @brief Enumerator used for selecting the pin to be pulled down or up at the time of pin configuration.
*/
typedef enum
{
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NRF_GPIO_PIN_NOPULL = GPIO_PIN_CNF_PULL_Disabled, ///< Pin pull-up resistor disabled.
NRF_GPIO_PIN_PULLDOWN = GPIO_PIN_CNF_PULL_Pulldown, ///< Pin pull-down resistor enabled.
NRF_GPIO_PIN_PULLUP = GPIO_PIN_CNF_PULL_Pullup, ///< Pin pull-up resistor enabled.
} nrf_gpio_pin_pull_t;
/**
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* @brief Enumerator used for selecting output drive mode.
*/
typedef enum
{
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NRF_GPIO_PIN_S0S1 = GPIO_PIN_CNF_DRIVE_S0S1, ///< !< Standard '0', standard '1'.
NRF_GPIO_PIN_H0S1 = GPIO_PIN_CNF_DRIVE_H0S1, ///< !< High-drive '0', standard '1'.
NRF_GPIO_PIN_S0H1 = GPIO_PIN_CNF_DRIVE_S0H1, ///< !< Standard '0', high-drive '1'.
NRF_GPIO_PIN_H0H1 = GPIO_PIN_CNF_DRIVE_H0H1, ///< !< High drive '0', high-drive '1'.
NRF_GPIO_PIN_D0S1 = GPIO_PIN_CNF_DRIVE_D0S1, ///< !< Disconnect '0' standard '1'.
NRF_GPIO_PIN_D0H1 = GPIO_PIN_CNF_DRIVE_D0H1, ///< !< Disconnect '0', high-drive '1'.
NRF_GPIO_PIN_S0D1 = GPIO_PIN_CNF_DRIVE_S0D1, ///< !< Standard '0', disconnect '1'.
NRF_GPIO_PIN_H0D1 = GPIO_PIN_CNF_DRIVE_H0D1, ///< !< High-drive '0', disconnect '1'.
} nrf_gpio_pin_drive_t;
/**
* @brief Enumerator used for selecting the pin to sense high or low level on the pin input.
*/
typedef enum
{
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NRF_GPIO_PIN_NOSENSE = GPIO_PIN_CNF_SENSE_Disabled, ///< Pin sense level disabled.
NRF_GPIO_PIN_SENSE_LOW = GPIO_PIN_CNF_SENSE_Low, ///< Pin sense low level.
NRF_GPIO_PIN_SENSE_HIGH = GPIO_PIN_CNF_SENSE_High, ///< Pin sense high level.
} nrf_gpio_pin_sense_t;
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#if (__LINT__ != 1)
/**
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* @brief Function for configuring the GPIO pin range as output pins with normal drive strength.
* This function can be used to configure pin range as simple output with gate driving GPIO_PIN_CNF_DRIVE_S0S1 (normal cases).
*
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* @param pin_range_start Specifies the start number (inclusive) in the range of pin numbers to be configured (allowed values 0-30).
*
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* @param pin_range_end Specifies the end number (inclusive) in the range of pin numbers to be configured (allowed values 0-30).
*
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* @note For configuring only one pin as output, use @ref nrf_gpio_cfg_output.
* Sense capability on the pin is disabled and input is disconnected from the buffer as the pins are configured as output.
*/
__STATIC_INLINE void nrf_gpio_range_cfg_output(uint32_t pin_range_start, uint32_t pin_range_end);
/**
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* @brief Function for configuring the GPIO pin range as input pins with given initial value set, hiding inner details.
* This function can be used to configure pin range as simple input.
*
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* @param pin_range_start Specifies the start number (inclusive) in the range of pin numbers to be configured (allowed values 0-30).
*
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* @param pin_range_end Specifies the end number (inclusive) in the range of pin numbers to be configured (allowed values 0-30).
*
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* @param pull_config State of the pin range pull resistor (no pull, pulled down, or pulled high).
*
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* @note For configuring only one pin as input, use @ref nrf_gpio_cfg_input.
* Sense capability on the pin is disabled and input is connected to buffer so that the GPIO->IN register is readable.
*/
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__STATIC_INLINE void nrf_gpio_range_cfg_input(uint32_t pin_range_start,
uint32_t pin_range_end,
nrf_gpio_pin_pull_t pull_config);
/**
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* @brief Pin configuration function.
*
* The main pin configuration function.
* This function allows to set any aspect in PIN_CNF register.
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* @param pin_number Specifies the pin number.
* @param dir Pin direction.
* @param input Connect or disconnect the input buffer.
* @param pull Pull configuration.
* @param drive Drive configuration.
* @param sense Pin sensing mechanism.
*/
__STATIC_INLINE void nrf_gpio_cfg(
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uint32_t pin_number,
nrf_gpio_pin_dir_t dir,
nrf_gpio_pin_input_t input,
nrf_gpio_pin_pull_t pull,
nrf_gpio_pin_drive_t drive,
nrf_gpio_pin_sense_t sense);
/**
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* @brief Function for configuring the given GPIO pin number as output, hiding inner details.
* This function can be used to configure a pin as simple output with gate driving GPIO_PIN_CNF_DRIVE_S0S1 (normal cases).
*
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* @param pin_number Specifies the pin number.
*
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* @note Sense capability on the pin is disabled and input is disconnected from the buffer as the pins are configured as output.
*/
__STATIC_INLINE void nrf_gpio_cfg_output(uint32_t pin_number);
/**
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* @brief Function for configuring the given GPIO pin number as input, hiding inner details.
* This function can be used to configure a pin as simple input.
*
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* @param pin_number Specifies the pin number.
* @param pull_config State of the pin range pull resistor (no pull, pulled down, or pulled high).
*
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* @note Sense capability on the pin is disabled and input is connected to buffer so that the GPIO->IN register is readable.
*/
__STATIC_INLINE void nrf_gpio_cfg_input(uint32_t pin_number, nrf_gpio_pin_pull_t pull_config);
/**
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* @brief Function for resetting pin configuration to its default state.
*
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* @param pin_number Specifies the pin number.
*/
__STATIC_INLINE void nrf_gpio_cfg_default(uint32_t pin_number);
/**
* @brief Function for configuring the given GPIO pin number as a watcher. Only input is connected.
*
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* @param pin_number Specifies the pin number.
*
*/
__STATIC_INLINE void nrf_gpio_cfg_watcher(uint32_t pin_number);
/**
* @brief Function for disconnecting input for the given GPIO.
*
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* @param pin_number Specifies the pin number.
*
*/
__STATIC_INLINE void nrf_gpio_input_disconnect(uint32_t pin_number);
/**
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* @brief Function for configuring the given GPIO pin number as input, hiding inner details.
* This function can be used to configure pin range as simple input.
* Sense capability on the pin is configurable and input is connected to buffer so that the GPIO->IN register is readable.
*
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* @param pin_number Specifies the pin number.
* @param pull_config State of the pin pull resistor (no pull, pulled down, or pulled high).
* @param sense_config Sense level of the pin (no sense, sense low, or sense high).
*/
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__STATIC_INLINE void nrf_gpio_cfg_sense_input(uint32_t pin_number,
nrf_gpio_pin_pull_t pull_config,
nrf_gpio_pin_sense_t sense_config);
/**
* @brief Function for configuring sense level for the given GPIO.
*
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* @param pin_number Specifies the pin number.
* @param sense_config Sense configuration.
*
*/
__STATIC_INLINE void nrf_gpio_cfg_sense_set(uint32_t pin_number, nrf_gpio_pin_sense_t sense_config);
/**
* @brief Function for setting the direction for a GPIO pin.
*
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* @param pin_number Specifies the pin number for which to set the direction.
*
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* @param direction Specifies the direction.
*/
__STATIC_INLINE void nrf_gpio_pin_dir_set(uint32_t pin_number, nrf_gpio_pin_dir_t direction);
/**
* @brief Function for setting a GPIO pin.
*
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* Note that the pin must be configured as an output for this function to have any effect.
*
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* @param pin_number Specifies the pin number to set.
*/
__STATIC_INLINE void nrf_gpio_pin_set(uint32_t pin_number);
/**
* @brief Function for clearing a GPIO pin.
*
* Note that the pin must be configured as an output for this
* function to have any effect.
*
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* @param pin_number Specifies the pin number to clear.
*/
__STATIC_INLINE void nrf_gpio_pin_clear(uint32_t pin_number);
/**
* @brief Function for toggling a GPIO pin.
*
* Note that the pin must be configured as an output for this
* function to have any effect.
*
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* @param pin_number Specifies the pin number to toggle.
*/
__STATIC_INLINE void nrf_gpio_pin_toggle(uint32_t pin_number);
/**
* @brief Function for writing a value to a GPIO pin.
*
* Note that the pin must be configured as an output for this
* function to have any effect.
*
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* @param pin_number Specifies the pin number to write.
*
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* @param value Specifies the value to be written to the pin.
* @arg 0 Clears the pin.
* @arg >=1 Sets the pin.
*/
__STATIC_INLINE void nrf_gpio_pin_write(uint32_t pin_number, uint32_t value);
/**
* @brief Function for reading the input level of a GPIO pin.
*
* Note that the pin must have input connected for the value
* returned from this function to be valid.
*
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* @param pin_number Specifies the pin number to read.
*
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* @return 0 if the pin input level is low. Positive value if the pin is high.
*/
__STATIC_INLINE uint32_t nrf_gpio_pin_read(uint32_t pin_number);
/**
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* @brief Function for reading the output level of a GPIO pin.
*
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* @param pin_number Specifies the pin number to read.
*
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* @return 0 if the pin output level is low. Positive value if pin output is high.
*/
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__STATIC_INLINE uint32_t nrf_gpio_pin_out_read(uint32_t pin_number);
/**
* @brief Function for reading the sense configuration of a GPIO pin.
*
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* @param pin_number Specifies the pin number to read.
*
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* @retval Sense configuration.
*/
__STATIC_INLINE nrf_gpio_pin_sense_t nrf_gpio_pin_sense_get(uint32_t pin_number);
/**
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* @brief Function for setting output direction on selected pins on a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
* @param out_mask Mask specifying the pins to set as output.
*
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*/
__STATIC_INLINE void nrf_gpio_port_dir_output_set(NRF_GPIO_Type * p_reg, uint32_t out_mask);
/**
* @brief Function for setting input direction on selected pins on a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
* @param in_mask Mask specifying the pins to set as input.
*
*/
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__STATIC_INLINE void nrf_gpio_port_dir_input_set(NRF_GPIO_Type * p_reg, uint32_t in_mask);
/**
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* @brief Function for writing the direction configuration of GPIO pins in a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
* @param dir_mask Mask specifying the direction of pins. Bit set means that the given pin is configured as output.
*
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*/
__STATIC_INLINE void nrf_gpio_port_dir_write(NRF_GPIO_Type * p_reg, uint32_t dir_mask);
/**
* @brief Function for reading the direction configuration of a GPIO port.
*
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* @param p_reg Pointer to the peripheral registers structure.
*
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* @retval Pin configuration of the current direction settings. Bit set means that the given pin is configured as output.
*/
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__STATIC_INLINE uint32_t nrf_gpio_port_dir_read(NRF_GPIO_Type const * p_reg);
/**
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* @brief Function for reading the input signals of GPIO pins on a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
*
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* @retval Port input values.
*/
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__STATIC_INLINE uint32_t nrf_gpio_port_in_read(NRF_GPIO_Type const * p_reg);
/**
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* @brief Function for reading the output signals of GPIO pins of a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
*
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* @retval Port output values.
*/
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__STATIC_INLINE uint32_t nrf_gpio_port_out_read(NRF_GPIO_Type const * p_reg);
/**
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* @brief Function for writing the GPIO pins output on a given port.
*
* @param p_reg Pointer to the peripheral registers structure.
* @param value Output port mask.
*
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*/
__STATIC_INLINE void nrf_gpio_port_out_write(NRF_GPIO_Type * p_reg, uint32_t value);
/**
* @brief Function for setting high level on selected GPIO pins of a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
* @param set_mask Mask with pins to set as logical high level.
*
*/
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__STATIC_INLINE void nrf_gpio_port_out_set(NRF_GPIO_Type * p_reg, uint32_t set_mask);
/**
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* @brief Function for setting low level on selected GPIO pins of a given port.
*
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* @param p_reg Pointer to the peripheral registers structure.
* @param clr_mask Mask with pins to set as logical low level.
*
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*/
__STATIC_INLINE void nrf_gpio_port_out_clear(NRF_GPIO_Type * p_reg, uint32_t clr_mask);
/**
* @brief Function for reading pins state of multiple consecutive ports.
*
* @param start_port Index of the first port to read.
* @param length Number of ports to read.
* @param p_masks Pointer to output array where port states will be stored.
*/
__STATIC_INLINE void nrf_gpio_ports_read(uint32_t start_port, uint32_t length, uint32_t * p_masks);
#ifdef GPIO_DETECTMODE_DETECTMODE_LDETECT
/**
* @brief Function for reading latch state of multiple consecutive ports.
*
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* @param start_port Index of the first port to read.
* @param length Number of ports to read.
* @param p_masks Pointer to output array where latch states will be stored.
*/
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__STATIC_INLINE void nrf_gpio_latches_read(uint32_t start_port, uint32_t length,
uint32_t * p_masks);
/**
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* @brief Function for reading latch state of single pin.
*
* @param pin_number Pin number.
* @return 0 if latch is not set. Positive value otherwise.
*
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*/
__STATIC_INLINE uint32_t nrf_gpio_pin_latch_get(uint32_t pin_number);
/**
* @brief Function for clearing latch state of a single pin.
*
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* @param pin_number Pin number.
*
*/
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__STATIC_INLINE void nrf_gpio_pin_latch_clear(uint32_t pin_number);
#endif
#endif // #ifndef (__LINT__ != 1)
#ifndef SUPPRESS_INLINE_IMPLEMENTATION
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/**
* @brief Function for extracting port and relative pin number from absolute pin number.
*
* @param[inout] Pointer to absolute pin number which is overriden by relative to port pin number.
*
* @return Pointer to port register set.
*
*/
__STATIC_INLINE NRF_GPIO_Type * nrf_gpio_pin_port_decode(uint32_t * p_pin)
{
ASSERT(*p_pin < NUMBER_OF_PINS);
#if (GPIO_COUNT == 1)
// The oldest definition case
return NRF_GPIO;
#else
if (*p_pin < P0_PIN_NUM)
{
return NRF_P0;
}
else
{
*p_pin = *p_pin & (P0_PIN_NUM - 1);
return NRF_P1;
}
#endif
}
__STATIC_INLINE void nrf_gpio_range_cfg_output(uint32_t pin_range_start, uint32_t pin_range_end)
{
/*lint -e{845} // A zero has been given as right argument to operator '|'" */
for (; pin_range_start <= pin_range_end; pin_range_start++)
{
nrf_gpio_cfg_output(pin_range_start);
}
}
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__STATIC_INLINE void nrf_gpio_range_cfg_input(uint32_t pin_range_start,
uint32_t pin_range_end,
nrf_gpio_pin_pull_t pull_config)
{
/*lint -e{845} // A zero has been given as right argument to operator '|'" */
for (; pin_range_start <= pin_range_end; pin_range_start++)
{
nrf_gpio_cfg_input(pin_range_start, pull_config);
}
}
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__STATIC_INLINE void nrf_gpio_cfg(
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uint32_t pin_number,
nrf_gpio_pin_dir_t dir,
nrf_gpio_pin_input_t input,
nrf_gpio_pin_pull_t pull,
nrf_gpio_pin_drive_t drive,
nrf_gpio_pin_sense_t sense)
{
NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
reg->PIN_CNF[pin_number] = ((uint32_t)dir << GPIO_PIN_CNF_DIR_Pos)
| ((uint32_t)input << GPIO_PIN_CNF_INPUT_Pos)
| ((uint32_t)pull << GPIO_PIN_CNF_PULL_Pos)
| ((uint32_t)drive << GPIO_PIN_CNF_DRIVE_Pos)
| ((uint32_t)sense << GPIO_PIN_CNF_SENSE_Pos);
}
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__STATIC_INLINE void nrf_gpio_cfg_output(uint32_t pin_number)
{
nrf_gpio_cfg(
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pin_number,
NRF_GPIO_PIN_DIR_OUTPUT,
NRF_GPIO_PIN_INPUT_DISCONNECT,
NRF_GPIO_PIN_NOPULL,
NRF_GPIO_PIN_S0S1,
NRF_GPIO_PIN_NOSENSE);
}
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__STATIC_INLINE void nrf_gpio_cfg_input(uint32_t pin_number, nrf_gpio_pin_pull_t pull_config)
{
nrf_gpio_cfg(
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pin_number,
NRF_GPIO_PIN_DIR_INPUT,
NRF_GPIO_PIN_INPUT_CONNECT,
pull_config,
NRF_GPIO_PIN_S0S1,
NRF_GPIO_PIN_NOSENSE);
}
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__STATIC_INLINE void nrf_gpio_cfg_default(uint32_t pin_number)
{
nrf_gpio_cfg(
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pin_number,
NRF_GPIO_PIN_DIR_INPUT,
NRF_GPIO_PIN_INPUT_DISCONNECT,
NRF_GPIO_PIN_NOPULL,
NRF_GPIO_PIN_S0S1,
NRF_GPIO_PIN_NOSENSE);
}
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__STATIC_INLINE void nrf_gpio_cfg_watcher(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
/*lint -e{845} // A zero has been given as right argument to operator '|'" */
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uint32_t cnf = reg->PIN_CNF[pin_number] & ~GPIO_PIN_CNF_INPUT_Msk;
reg->PIN_CNF[pin_number] = cnf | (GPIO_PIN_CNF_INPUT_Connect << GPIO_PIN_CNF_INPUT_Pos);
}
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__STATIC_INLINE void nrf_gpio_input_disconnect(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
/*lint -e{845} // A zero has been given as right argument to operator '|'" */
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uint32_t cnf = reg->PIN_CNF[pin_number] & ~GPIO_PIN_CNF_INPUT_Msk;
reg->PIN_CNF[pin_number] = cnf | (GPIO_PIN_CNF_INPUT_Disconnect << GPIO_PIN_CNF_INPUT_Pos);
}
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__STATIC_INLINE void nrf_gpio_cfg_sense_input(uint32_t pin_number,
nrf_gpio_pin_pull_t pull_config,
nrf_gpio_pin_sense_t sense_config)
{
nrf_gpio_cfg(
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pin_number,
NRF_GPIO_PIN_DIR_INPUT,
NRF_GPIO_PIN_INPUT_CONNECT,
pull_config,
NRF_GPIO_PIN_S0S1,
sense_config);
}
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__STATIC_INLINE void nrf_gpio_cfg_sense_set(uint32_t pin_number, nrf_gpio_pin_sense_t sense_config)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
/*lint -e{845} // A zero has been given as right argument to operator '|'" */
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reg->PIN_CNF[pin_number] &= ~GPIO_PIN_CNF_SENSE_Msk;
reg->PIN_CNF[pin_number] |= (sense_config << GPIO_PIN_CNF_SENSE_Pos);
}
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__STATIC_INLINE void nrf_gpio_pin_dir_set(uint32_t pin_number, nrf_gpio_pin_dir_t direction)
{
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if (direction == NRF_GPIO_PIN_DIR_INPUT)
{
nrf_gpio_cfg(
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pin_number,
NRF_GPIO_PIN_DIR_INPUT,
NRF_GPIO_PIN_INPUT_CONNECT,
NRF_GPIO_PIN_NOPULL,
NRF_GPIO_PIN_S0S1,
NRF_GPIO_PIN_NOSENSE);
}
else
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
reg->DIRSET = (1UL << pin_number);
}
}
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__STATIC_INLINE void nrf_gpio_pin_set(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
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nrf_gpio_port_out_set(reg, 1UL << pin_number);
}
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__STATIC_INLINE void nrf_gpio_pin_clear(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
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nrf_gpio_port_out_clear(reg, 1UL << pin_number);
}
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__STATIC_INLINE void nrf_gpio_pin_toggle(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
uint32_t pins_state = reg->OUT;
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reg->OUTSET = (~pins_state & (1UL << pin_number));
reg->OUTCLR = (pins_state & (1UL << pin_number));
}
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__STATIC_INLINE void nrf_gpio_pin_write(uint32_t pin_number, uint32_t value)
{
if (value == 0)
{
nrf_gpio_pin_clear(pin_number);
}
else
{
nrf_gpio_pin_set(pin_number);
}
}
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__STATIC_INLINE uint32_t nrf_gpio_pin_read(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
return ((nrf_gpio_port_in_read(reg) >> pin_number) & 1UL);
}
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__STATIC_INLINE uint32_t nrf_gpio_pin_out_read(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
return ((nrf_gpio_port_out_read(reg) >> pin_number) & 1UL);
}
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__STATIC_INLINE nrf_gpio_pin_sense_t nrf_gpio_pin_sense_get(uint32_t pin_number)
{
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NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
return (nrf_gpio_pin_sense_t)((reg->PIN_CNF[pin_number] &
GPIO_PIN_CNF_SENSE_Msk) >> GPIO_PIN_CNF_SENSE_Pos);
}
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__STATIC_INLINE void nrf_gpio_port_dir_output_set(NRF_GPIO_Type * p_reg, uint32_t out_mask)
{
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p_reg->DIRSET = out_mask;
}
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__STATIC_INLINE void nrf_gpio_port_dir_input_set(NRF_GPIO_Type * p_reg, uint32_t in_mask)
{
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p_reg->DIRCLR = in_mask;
}
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__STATIC_INLINE void nrf_gpio_port_dir_write(NRF_GPIO_Type * p_reg, uint32_t value)
{
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p_reg->DIR = value;
}
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__STATIC_INLINE uint32_t nrf_gpio_port_dir_read(NRF_GPIO_Type const * p_reg)
{
return p_reg->DIR;
}
__STATIC_INLINE uint32_t nrf_gpio_port_in_read(NRF_GPIO_Type const * p_reg)
{
return p_reg->IN;
}
__STATIC_INLINE uint32_t nrf_gpio_port_out_read(NRF_GPIO_Type const * p_reg)
{
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return p_reg->OUT;
}
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__STATIC_INLINE void nrf_gpio_port_out_write(NRF_GPIO_Type * p_reg, uint32_t value)
{
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p_reg->OUT = value;
}
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__STATIC_INLINE void nrf_gpio_port_out_set(NRF_GPIO_Type * p_reg, uint32_t set_mask)
{
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p_reg->OUTSET = set_mask;
}
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__STATIC_INLINE void nrf_gpio_port_out_clear(NRF_GPIO_Type * p_reg, uint32_t clr_mask)
{
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p_reg->OUTCLR = clr_mask;
}
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__STATIC_INLINE void nrf_gpio_ports_read(uint32_t start_port, uint32_t length, uint32_t * p_masks)
{
NRF_GPIO_Type * gpio_regs[GPIO_COUNT] = GPIO_REG_LIST;
ASSERT(start_port + length <= GPIO_COUNT);
uint32_t i;
for (i = start_port; i < (start_port + length); i++)
{
*p_masks = nrf_gpio_port_in_read(gpio_regs[i]);
p_masks++;
}
}
#ifdef GPIO_DETECTMODE_DETECTMODE_LDETECT
__STATIC_INLINE void nrf_gpio_latches_read(uint32_t start_port, uint32_t length, uint32_t * p_masks)
{
NRF_GPIO_Type * gpio_regs[GPIO_COUNT] = GPIO_REG_LIST;
uint32_t i;
for (i = start_port; i < (start_port + length); i++)
{
*p_masks = gpio_regs[i]->LATCH;
p_masks++;
}
}
__STATIC_INLINE uint32_t nrf_gpio_pin_latch_get(uint32_t pin_number)
{
NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
return (reg->LATCH & (1 << pin_number)) ? 1 : 0;
}
__STATIC_INLINE void nrf_gpio_pin_latch_clear(uint32_t pin_number)
{
NRF_GPIO_Type * reg = nrf_gpio_pin_port_decode(&pin_number);
reg->LATCH = (1 << pin_number);
}
#endif
#endif // SUPPRESS_INLINE_IMPLEMENTATION
/** @} */
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#ifdef __cplusplus
}
#endif
#endif