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passport-firmware/lib/asf4/samd21/hal/utils/include/utils.h

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/**
* \file
*
* \brief Different macros.
*
* Copyright (C) 2014-2016 Atmel Corporation. All rights reserved.
*
* \asf_license_start
*
* \page License
*
* 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. The name of Atmel may not be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* 4. This software may only be redistributed and used in connection with an
* Atmel microcontroller product.
*
* THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED
* WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
* EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL 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.
*
* \asf_license_stop
*
*/
#ifndef UTILS_H_INCLUDED
#define UTILS_H_INCLUDED
#ifdef __cplusplus
extern "C" {
#endif
/**
* \addtogroup doc_driver_hal_utils_macro
*
* @{
*/
/**
* \brief Retrieve pointer to parent structure
*/
#define CONTAINER_OF(ptr, type, field_name) ((type *)(((uint8_t *)ptr) - offsetof(type, field_name)))
/**
* \brief Retrieve array size
*/
#define ARRAY_SIZE(a) (sizeof(a) / sizeof((a)[0]))
/**
* \brief Emit the compiler pragma \a arg.
*
* \param[in] arg The pragma directive as it would appear after \e \#pragma
* (i.e. not stringified).
*/
#define COMPILER_PRAGMA(arg) _Pragma(#arg)
/**
* \def COMPILER_PACK_SET(alignment)
* \brief Set maximum alignment for subsequent struct and union definitions to \a alignment.
*/
#define COMPILER_PACK_SET(alignment) COMPILER_PRAGMA(pack(alignment))
/**
* \def COMPILER_PACK_RESET()
* \brief Set default alignment for subsequent struct and union definitions.
*/
#define COMPILER_PACK_RESET() COMPILER_PRAGMA(pack())
/**
* \brief Set aligned boundary.
*/
#if defined __GNUC__
#define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
#elif defined __ICCARM__
#define COMPILER_ALIGNED(a) COMPILER_PRAGMA(data_alignment = a)
#elif defined __CC_ARM
#define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
#endif
/**
* \brief Flash located data macros
*/
#if defined __GNUC__
#define PROGMEM_DECLARE(type, name) const type name
#define PROGMEM_T const
#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
#define PROGMEM_PTR_T const *
#define PROGMEM_STRING_T const uint8_t *
#elif defined __ICCARM__
#define PROGMEM_DECLARE(type, name) const type name
#define PROGMEM_T const
#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
#define PROGMEM_PTR_T const *
#define PROGMEM_STRING_T const uint8_t *
#elif defined __CC_ARM
#define PROGMEM_DECLARE(type, name) const type name
#define PROGMEM_T const
#define PROGMEM_READ_BYTE(x) *((uint8_t *)(x))
#define PROGMEM_PTR_T const *
#define PROGMEM_STRING_T const uint8_t *
#endif
/**
* \brief Optimization
*/
#if defined __GNUC__
#define OPTIMIZE_HIGH __attribute__((optimize(s)))
#elif defined __CC_ARM
#define OPTIMIZE_HIGH _Pragma("O3")
#elif defined __ICCARM__
#define OPTIMIZE_HIGH _Pragma("optimize=high")
#endif
/**
* \brief RAM located function attribute
*/
#if defined(__CC_ARM) /* Keil ?Vision 4 */
#define RAMFUNC __attribute__((section(".ramfunc")))
#elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
#define RAMFUNC __ramfunc
#elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
#define RAMFUNC __attribute__((section(".ramfunc")))
#endif
/**
* \brief No-init section.
* Place a data object or a function in a no-init section.
*/
#if defined(__CC_ARM)
#define NO_INIT(a) __attribute__((zero_init))
#elif defined(__ICCARM__)
#define NO_INIT(a) __no_init
#elif defined(__GNUC__)
#define NO_INIT(a) __attribute__((section(".no_init")))
#endif
/**
* \brief Set user-defined section.
* Place a data object or a function in a user-defined section.
*/
#if defined(__CC_ARM)
#define COMPILER_SECTION(a) __attribute__((__section__(a)))
#elif defined(__ICCARM__)
#define COMPILER_SECTION(a) COMPILER_PRAGMA(location = a)
#elif defined(__GNUC__)
#define COMPILER_SECTION(a) __attribute__((__section__(a)))
#endif
/**
* \brief Define WEAK attribute.
*/
#if defined(__CC_ARM) /* Keil ?Vision 4 */
#define WEAK __attribute__((weak))
#elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
#define WEAK __weak
#elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
#define WEAK __attribute__((weak))
#endif
/**
* \brief Pointer to function
*/
typedef void (*FUNC_PTR)(void);
#define LE_BYTE0(a) ((uint8_t)(a))
#define LE_BYTE1(a) ((uint8_t)((a) >> 8))
#define LE_BYTE2(a) ((uint8_t)((a) >> 16))
#define LE_BYTE3(a) ((uint8_t)((a) >> 24))
#define LE_2_U16(p) ((p)[0] + ((p)[1] << 8))
#define LE_2_U32(p) ((p)[0] + ((p)[1] << 8) + ((p)[2] << 16) + ((p)[3] << 24))
/** \name Zero-Bit Counting
*
* Under GCC, __builtin_clz and __builtin_ctz behave like macros when
* applied to constant expressions (values known at compile time), so they are
* more optimized than the use of the corresponding assembly instructions and
* they can be used as constant expressions e.g. to initialize objects having
* static storage duration, and like the corresponding assembly instructions
* when applied to non-constant expressions (values unknown at compile time), so
* they are more optimized than an assembly periphrasis. Hence, clz and ctz
* ensure a possible and optimized behavior for both constant and non-constant
* expressions.
*
* @{ */
/** \brief Counts the leading zero bits of the given value considered as a 32-bit integer.
*
* \param[in] u Value of which to count the leading zero bits.
*
* \return The count of leading zero bits in \a u.
*/
#if (defined __GNUC__) || (defined __CC_ARM)
#define clz(u) __builtin_clz(u)
#else
#define clz(u) \
(((u) == 0) \
? 32 \
: ((u) & (1ul << 31)) ? 0 : ((u) & (1ul << 30)) ? 1 : ((u) & (1ul << 29)) \
? 2 \
: ((u) & (1ul << 28)) \
? 3 \
: ((u) & (1ul << 27)) \
? 4 \
: ((u) & (1ul << 26)) \
? 5 \
: ((u) & (1ul << 25)) ? 6 \
: ((u) & (1ul << 24)) ? 7 : ((u) & (1ul << 23)) ? 8 : ((u) & (1ul << 22)) ? 9 : ((u) & (1ul << 21)) ? 10 : ((u) & (1ul << 20)) ? 11 : (( \
u) \
& (1ul \
<< 19)) \
? 12 \
: ((u) \
& (1ul \
<< 18)) \
? 13 \
: ( \
(u) \
& (1ul \
<< 17)) \
? 14 \
: ((u) & (1ul << 16)) ? 15 \
: ((u) \
& (1ul \
<< 15)) \
? 16 \
: ((u) & (1ul << 14)) ? 17 \
: ((u) & (1ul << 13)) ? 18 : ((u) & (1ul << 12)) ? 19 : ((u) & (1ul << 11)) ? 20 \
: ((u) \
& (1ul \
<< 10)) \
? 21 \
: ((u) & (1ul << 9)) ? 22 \
: ((u) & (1ul << 8)) ? 23 : ((u) \
& (1ul \
<< 7)) \
? 24 \
: ((u) & (1ul << 6)) ? 25 : ((u) & (1ul << 5)) ? 26 : ((u) & (1ul << 4)) ? 27 : ((u) & (1ul << 3)) ? 28 : ((u) \
& (1ul \
<< 2)) \
? 29 \
: ((u) & (1ul << 1)) ? 30 \
: 31)
#endif
/** \brief Counts the trailing zero bits of the given value considered as a 32-bit integer.
*
* \param[in] u Value of which to count the trailing zero bits.
*
* \return The count of trailing zero bits in \a u.
*/
#if (defined __GNUC__) || (defined __CC_ARM)
#define ctz(u) __builtin_ctz(u)
#else
#define ctz(u) \
( \
(u) & (1ul << 0) \
? 0 \
: (u) & (1ul << 1) \
? 1 \
: (u) & (1ul << 2) \
? 2 \
: (u) & (1ul << 3) \
? 3 \
: (u) & (1ul << 4) \
? 4 \
: (u) & (1ul << 5) \
? 5 \
: (u) & (1ul << 6) \
? 6 \
: (u) & (1ul << 7) \
? 7 \
: (u) & (1ul << 8) \
? 8 \
: (u) & (1ul << 9) ? 9 \
: (u) & (1ul << 10) \
? 10 \
: (u) & (1ul << 11) \
? 11 \
: (u) & (1ul << 12) \
? 12 \
: (u) & (1ul << 13) \
? 13 \
: (u) & (1ul \
<< 14) \
? 14 \
: (u) & (1ul \
<< 15) \
? 15 \
: (u) & (1ul << 16) ? 16 : (u) & (1ul << 17) ? 17 : (u) & (1ul << 18) ? 18 : (u) & (1ul << 19) ? 19 : (u) & (1ul << 20) ? 20 : (u) \
& (1ul \
<< 21) \
? 21 \
: (u) & (1ul << 22) ? 22 : (u) \
& (1ul << 23) \
? 23 \
: (u) & (1ul << 24) ? 24 \
: (u) & (1ul << 25) ? 25 \
: (u) & (1ul << 26) ? 26 : (u) & (1ul \
<< 27) \
? 27 \
: (u) & (1ul \
<< 28) \
? 28 \
: (u) & (1ul << 29) ? 29 \
: (u) & (1ul << 30) ? 30 : ( \
u) & (1ul << 31) \
? 31 \
: 32)
#endif
/** @} */
/**
* \brief Counts the number of bits in a mask (no more than 32 bits)
* \param[in] mask Mask of which to count the bits.
*/
#define size_of_mask(mask) (32 - clz(mask) - ctz(mask))
/**
* \brief Retrieve the start position of bits mask (no more than 32 bits)
* \param[in] mask Mask of which to retrieve the start position.
*/
#define pos_of_mask(mask) ctz(mask)
/**
* \brief Return division result of a/b and round up the result to the closest
* number divisible by "b"
*/
#define round_up(a, b) (((a)-1) / (b) + 1)
/**
* \brief Get the minimum of x and y
*/
#define min(x, y) ((x) > (y) ? (y) : (x))
/**
* \brief Get the maximum of x and y
*/
#define max(x, y) ((x) > (y) ? (x) : (y))
/**@}*/
#ifdef __cplusplus
}
#endif
#endif /* UTILS_H_INCLUDED */