/*
 * Copyright (c) 2011-2014, Wind River Systems, Inc.
 * Copyright (c) 2020, Nordic Semiconductor ASA
 *
 * SPDX-License-Identifier: Apache-2.0
 */

/**
 * @file
 * @brief Misc utilities
 *
 * Repetitive or obscure helper macros needed by sys/util.h.
 */

#ifndef ZEPHYR_INCLUDE_SYS_UTIL_INTERNAL_H_
#define ZEPHYR_INCLUDE_SYS_UTIL_INTERNAL_H_

#include "util_loops.h"

/* IS_ENABLED() helpers */

/* This is called from IS_ENABLED(), and sticks on a "_XXXX" prefix,
 * it will now be "_XXXX1" if config_macro is "1", or just "_XXXX" if it's
 * undefined.
 *   ENABLED:   Z_IS_ENABLED2(_XXXX1)
 *   DISABLED   Z_IS_ENABLED2(_XXXX)
 */
#define Z_IS_ENABLED1(config_macro) Z_IS_ENABLED2(_XXXX##config_macro)

/* Here's the core trick, we map "_XXXX1" to "_YYYY," (i.e. a string
 * with a trailing comma), so it has the effect of making this a
 * two-argument tuple to the preprocessor only in the case where the
 * value is defined to "1"
 *   ENABLED:    _YYYY,    <--- note comma!
 *   DISABLED:   _XXXX
 */
#define _XXXX1 _YYYY,

/* Then we append an extra argument to fool the gcc preprocessor into
 * accepting it as a varargs macro.
 *                         arg1   arg2  arg3
 *   ENABLED:   Z_IS_ENABLED3(_YYYY,    1,    0)
 *   DISABLED   Z_IS_ENABLED3(_XXXX 1,  0)
 */
#define Z_IS_ENABLED2(one_or_two_args) Z_IS_ENABLED3(one_or_two_args 1, 0)

/* And our second argument is thus now cooked to be 1 in the case
 * where the value is defined to 1, and 0 if not:
 */
#define Z_IS_ENABLED3(ignore_this, val, ...) val

/* Used internally by COND_CODE_1 and COND_CODE_0. */
#define Z_COND_CODE_1(_flag, _if_1_code, _else_code) \
	__COND_CODE(_XXXX##_flag, _if_1_code, _else_code)
#define Z_COND_CODE_0(_flag, _if_0_code, _else_code) \
	__COND_CODE(_ZZZZ##_flag, _if_0_code, _else_code)
#define _ZZZZ0 _YYYY,
#define __COND_CODE(one_or_two_args, _if_code, _else_code) \
	__GET_ARG2_DEBRACKET(one_or_two_args _if_code, _else_code)

/* Gets second argument and removes brackets around that argument. It
 * is expected that the parameter is provided in brackets/parentheses.
 */
#define __GET_ARG2_DEBRACKET(ignore_this, val, ...) __DEBRACKET val

/* Used to remove brackets from around a single argument. */
#define __DEBRACKET(...) __VA_ARGS__

/* Used by IS_EMPTY() */
#define Z_IS_EMPTY_(...) Z_IS_EMPTY__(__VA_ARGS__)
#define Z_IS_EMPTY__(a, ...) Z_IS_EMPTY___(_ZZ##a##ZZ0, __VA_ARGS__)
#define Z_IS_EMPTY___(...) GET_ARG_N(3, __VA_ARGS__)

/* Used by LIST_DROP_EMPTY() */
/* Adding ',' after each element would add empty element at the end of
 * list, which is hard to remove, so instead precede each element with ',',
 * this way first element is empty, and this one is easy to drop.
 */
#define Z_LIST_ADD_ELEM(e) EMPTY, e
#define Z_LIST_DROP_FIRST(...) GET_ARGS_LESS_N(1, __VA_ARGS__)
#define Z_LIST_NO_EMPTIES(e) \
	COND_CODE_1(IS_EMPTY(e), (), (Z_LIST_ADD_ELEM(e)))

#define UTIL_CAT(a, ...) UTIL_PRIMITIVE_CAT(a, __VA_ARGS__)
#define UTIL_PRIMITIVE_CAT(a, ...) a##__VA_ARGS__
#define UTIL_CHECK_N(x, n, ...) n
#define UTIL_CHECK(...) UTIL_CHECK_N(__VA_ARGS__, 0,)
#define UTIL_NOT(x) UTIL_CHECK(UTIL_PRIMITIVE_CAT(UTIL_NOT_, x))
#define UTIL_NOT_0 ~, 1,
#define UTIL_COMPL(b) UTIL_PRIMITIVE_CAT(UTIL_COMPL_, b)
#define UTIL_COMPL_0 1
#define UTIL_COMPL_1 0
#define UTIL_BOOL(x) UTIL_COMPL(UTIL_NOT(x))

#define UTIL_EVAL(...) __VA_ARGS__
#define UTIL_EXPAND(...) __VA_ARGS__
#define UTIL_REPEAT(...) UTIL_LISTIFY(__VA_ARGS__)

/* Implementation details for NUM_VA_ARGS_LESS_1 */
#define NUM_VA_ARGS_LESS_1_IMPL(				\
	_ignored,						\
	_0, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10,		\
	_11, _12, _13, _14, _15, _16, _17, _18, _19, _20,	\
	_21, _22, _23, _24, _25, _26, _27, _28, _29, _30,	\
	_31, _32, _33, _34, _35, _36, _37, _38, _39, _40,	\
	_41, _42, _43, _44, _45, _46, _47, _48, _49, _50,	\
	_51, _52, _53, _54, _55, _56, _57, _58, _59, _60,	\
	_61, _62, N, ...) N

/* Used by MACRO_MAP_CAT */
#define MACRO_MAP_CAT_(...)						\
	/* To make sure it works also for 2 arguments in total */	\
	MACRO_MAP_CAT_N(NUM_VA_ARGS_LESS_1(__VA_ARGS__), __VA_ARGS__)
#define MACRO_MAP_CAT_N_(N, ...) UTIL_CAT(MACRO_MC_, N)(__VA_ARGS__,)
#define MACRO_MC_0(...)
#define MACRO_MC_1(m, a, ...)  m(a)
#define MACRO_MC_2(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_1(m, __VA_ARGS__,))
#define MACRO_MC_3(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_2(m, __VA_ARGS__,))
#define MACRO_MC_4(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_3(m, __VA_ARGS__,))
#define MACRO_MC_5(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_4(m, __VA_ARGS__,))
#define MACRO_MC_6(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_5(m, __VA_ARGS__,))
#define MACRO_MC_7(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_6(m, __VA_ARGS__,))
#define MACRO_MC_8(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_7(m, __VA_ARGS__,))
#define MACRO_MC_9(m, a, ...)  UTIL_CAT(m(a), MACRO_MC_8(m, __VA_ARGS__,))
#define MACRO_MC_10(m, a, ...) UTIL_CAT(m(a), MACRO_MC_9(m, __VA_ARGS__,))
#define MACRO_MC_11(m, a, ...) UTIL_CAT(m(a), MACRO_MC_10(m, __VA_ARGS__,))
#define MACRO_MC_12(m, a, ...) UTIL_CAT(m(a), MACRO_MC_11(m, __VA_ARGS__,))
#define MACRO_MC_13(m, a, ...) UTIL_CAT(m(a), MACRO_MC_12(m, __VA_ARGS__,))
#define MACRO_MC_14(m, a, ...) UTIL_CAT(m(a), MACRO_MC_13(m, __VA_ARGS__,))
#define MACRO_MC_15(m, a, ...) UTIL_CAT(m(a), MACRO_MC_14(m, __VA_ARGS__,))

#endif /* ZEPHYR_INCLUDE_SYS_UTIL_INTERNAL_H_ */