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Format code according to conventions (#16419)

This commit is contained in:
QMK Bot 2022-02-21 09:44:27 -08:00 committed by GitHub
parent 3290377918
commit 2f0dc0fb6d
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GPG key ID: 4AEE18F83AFDEB23
6 changed files with 320 additions and 329 deletions

View file

@ -125,11 +125,10 @@ uint8_t ps2_host_recv_response(void) {
// Command may take 25ms/20ms at most([5]p.46, [3]p.21)
// 250 * 100us(wait for start bit in ps2_host_recv)
uint8_t data = 0;
uint8_t try
= 250;
uint8_t try = 250;
do {
data = ps2_host_recv();
} while (try --&&ps2_error);
} while (try-- && ps2_error);
return data;
}

View file

@ -834,10 +834,9 @@ void register_code(uint8_t code) {
}
#endif
else if
IS_KEY(code) {
// TODO: should push command_proc out of this block?
if (command_proc(code)) return;
else if IS_KEY (code) {
// TODO: should push command_proc out of this block?
if (command_proc(code)) return;
#ifndef NO_ACTION_ONESHOT
/* TODO: remove
@ -854,35 +853,33 @@ void register_code(uint8_t code) {
} else
*/
#endif
{
// Force a new key press if the key is already pressed
// without this, keys with the same keycode, but different
// modifiers will be reported incorrectly, see issue #1708
if (is_key_pressed(keyboard_report, code)) {
del_key(code);
send_keyboard_report();
}
add_key(code);
{
// Force a new key press if the key is already pressed
// without this, keys with the same keycode, but different
// modifiers will be reported incorrectly, see issue #1708
if (is_key_pressed(keyboard_report, code)) {
del_key(code);
send_keyboard_report();
}
}
else if
IS_MOD(code) {
add_mods(MOD_BIT(code));
add_key(code);
send_keyboard_report();
}
} else if IS_MOD (code) {
add_mods(MOD_BIT(code));
send_keyboard_report();
}
#ifdef EXTRAKEY_ENABLE
else if
IS_SYSTEM(code) { host_system_send(KEYCODE2SYSTEM(code)); }
else if
IS_CONSUMER(code) { host_consumer_send(KEYCODE2CONSUMER(code)); }
else if IS_SYSTEM (code) {
host_system_send(KEYCODE2SYSTEM(code));
} else if IS_CONSUMER (code) {
host_consumer_send(KEYCODE2CONSUMER(code));
}
#endif
#ifdef MOUSEKEY_ENABLE
else if
IS_MOUSEKEY(code) {
mousekey_on(code);
mousekey_send();
}
else if IS_MOUSEKEY (code) {
mousekey_on(code);
mousekey_send();
}
#endif
}
@ -927,26 +924,22 @@ void unregister_code(uint8_t code) {
}
#endif
else if
IS_KEY(code) {
del_key(code);
send_keyboard_report();
}
else if
IS_MOD(code) {
del_mods(MOD_BIT(code));
send_keyboard_report();
}
else if
IS_SYSTEM(code) { host_system_send(0); }
else if
IS_CONSUMER(code) { host_consumer_send(0); }
else if IS_KEY (code) {
del_key(code);
send_keyboard_report();
} else if IS_MOD (code) {
del_mods(MOD_BIT(code));
send_keyboard_report();
} else if IS_SYSTEM (code) {
host_system_send(0);
} else if IS_CONSUMER (code) {
host_consumer_send(0);
}
#ifdef MOUSEKEY_ENABLE
else if
IS_MOUSEKEY(code) {
mousekey_off(code);
mousekey_send();
}
else if IS_MOUSEKEY (code) {
mousekey_off(code);
mousekey_send();
}
#endif
}

View file

@ -88,7 +88,7 @@ extern bool disable_action_cache;
/* Code for handling one-handed key modifiers. */
#ifdef SWAP_HANDS_ENABLE
extern bool swap_hands;
extern bool swap_hands;
extern const keypos_t PROGMEM hand_swap_config[MATRIX_ROWS][MATRIX_COLS];
# if (MATRIX_COLS <= 8)
typedef uint8_t swap_state_row_t;

View file

@ -43,7 +43,7 @@
*/
#ifndef UTILS_COMPILER_H_INCLUDED
# define UTILS_COMPILER_H_INCLUDED
#define UTILS_COMPILER_H_INCLUDED
/**
* \defgroup group_sam0_utils Compiler abstraction layer and code utilities
@ -54,38 +54,38 @@
* @{
*/
# if (defined __ICCARM__)
# include <intrinsics.h>
# endif
#if (defined __ICCARM__)
# include <intrinsics.h>
#endif
# include <stddef.h>
#include <stddef.h>
//#include <parts.h>
//#include <status_codes.h>
//#include <preprocessor.h>
//#include <io.h>
# ifndef __ASSEMBLY__
#ifndef __ASSEMBLY__
# include <stdio.h>
# include <stdbool.h>
# include <stdint.h>
# include <stdlib.h>
# include <stdio.h>
# include <stdbool.h>
# include <stdint.h>
# include <stdlib.h>
/**
* \def UNUSED
* \brief Marking \a v as a unused parameter or value.
*/
# define UNUSED(v) (void)(v)
# define UNUSED(v) (void)(v)
/**
* \def barrier
* \brief Memory barrier
*/
# ifdef __GNUC__
# define barrier() asm volatile("" ::: "memory")
# else
# define barrier() asm("")
# endif
# ifdef __GNUC__
# define barrier() asm volatile("" ::: "memory")
# else
# define barrier() asm("")
# endif
/**
* \brief Emit the compiler pragma \a arg.
@ -93,37 +93,37 @@
* \param[in] arg The pragma directive as it would appear after \e \#pragma
* (i.e. not stringified).
*/
# define COMPILER_PRAGMA(arg) _Pragma(# arg)
# 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))
# 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())
# define COMPILER_PACK_RESET() COMPILER_PRAGMA(pack())
/**
* \brief Set aligned boundary.
*/
# if (defined __GNUC__) || (defined __CC_ARM)
# define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
# elif (defined __ICCARM__)
# define COMPILER_ALIGNED(a) COMPILER_PRAGMA(data_alignment = a)
# endif
# if (defined __GNUC__) || (defined __CC_ARM)
# define COMPILER_ALIGNED(a) __attribute__((__aligned__(a)))
# elif (defined __ICCARM__)
# define COMPILER_ALIGNED(a) COMPILER_PRAGMA(data_alignment = a)
# endif
/**
* \brief Set word-aligned boundary.
*/
# if (defined __GNUC__) || defined(__CC_ARM)
# define COMPILER_WORD_ALIGNED __attribute__((__aligned__(4)))
# elif (defined __ICCARM__)
# define COMPILER_WORD_ALIGNED COMPILER_PRAGMA(data_alignment = 4)
# endif
# if (defined __GNUC__) || defined(__CC_ARM)
# define COMPILER_WORD_ALIGNED __attribute__((__aligned__(4)))
# elif (defined __ICCARM__)
# define COMPILER_WORD_ALIGNED COMPILER_PRAGMA(data_alignment = 4)
# endif
/**
* \def __always_inline
@ -133,15 +133,15 @@
* heuristics and inline the function no matter how big it thinks it
* becomes.
*/
# if !defined(__always_inline)
# if defined(__CC_ARM)
# define __always_inline __forceinline
# elif (defined __GNUC__)
# define __always_inline __attribute__((__always_inline__))
# elif (defined __ICCARM__)
# define __always_inline _Pragma("inline=forced")
# endif
# if !defined(__always_inline)
# if defined(__CC_ARM)
# define __always_inline __forceinline
# elif (defined __GNUC__)
# define __always_inline __attribute__((__always_inline__))
# elif (defined __ICCARM__)
# define __always_inline _Pragma("inline=forced")
# endif
# endif
/**
* \def __no_inline
@ -151,13 +151,13 @@
* heuristics and not inline the function no matter how small it thinks it
* becomes.
*/
# if defined(__CC_ARM)
# define __no_inline __attribute__((noinline))
# elif (defined __GNUC__)
# define __no_inline __attribute__((noinline))
# elif (defined __ICCARM__)
# define __no_inline _Pragma("inline=never")
# endif
# if defined(__CC_ARM)
# define __no_inline __attribute__((noinline))
# elif (defined __GNUC__)
# define __no_inline __attribute__((noinline))
# elif (defined __ICCARM__)
# define __no_inline _Pragma("inline=never")
# endif
/** \brief This macro is used to test fatal errors.
*
@ -168,47 +168,47 @@
*
* \param[in] expr Expression to evaluate and supposed to be nonzero.
*/
# if defined(_ASSERT_ENABLE_)
# if defined(TEST_SUITE_DEFINE_ASSERT_MACRO)
# include "unit_test/suite.h"
# else
# undef TEST_SUITE_DEFINE_ASSERT_MACRO
# define Assert(expr) \
{ \
if (!(expr)) asm("BKPT #0"); \
}
# endif
# if defined(_ASSERT_ENABLE_)
# if defined(TEST_SUITE_DEFINE_ASSERT_MACRO)
# include "unit_test/suite.h"
# else
# define Assert(expr) ((void)0)
# undef TEST_SUITE_DEFINE_ASSERT_MACRO
# define Assert(expr) \
{ \
if (!(expr)) asm("BKPT #0"); \
}
# endif
# else
# define Assert(expr) ((void)0)
# endif
/* Define WEAK attribute */
# if defined(__CC_ARM)
# define WEAK __attribute__((weak))
# elif defined(__ICCARM__)
# define WEAK __weak
# elif defined(__GNUC__)
# define WEAK __attribute__((weak))
# endif
# if defined(__CC_ARM)
# define WEAK __attribute__((weak))
# elif defined(__ICCARM__)
# define WEAK __weak
# elif defined(__GNUC__)
# define WEAK __attribute__((weak))
# endif
/* Define NO_INIT attribute */
# if defined(__CC_ARM)
# define NO_INIT __attribute__((zero_init))
# elif defined(__ICCARM__)
# define NO_INIT __no_init
# elif defined(__GNUC__)
# define NO_INIT __attribute__((section(".no_init")))
# endif
# if defined(__CC_ARM)
# define NO_INIT __attribute__((zero_init))
# elif defined(__ICCARM__)
# define NO_INIT __no_init
# elif defined(__GNUC__)
# define NO_INIT __attribute__((section(".no_init")))
# endif
//#include "interrupt.h"
/** \name Usual Types
* @{ */
# ifndef __cplusplus
# if !defined(__bool_true_false_are_defined)
# ifndef __cplusplus
# if !defined(__bool_true_false_are_defined)
typedef unsigned char bool;
# endif
# endif
# endif
typedef uint16_t le16_t;
typedef uint16_t be16_t;
typedef uint32_t le32_t;
@ -347,22 +347,22 @@ typedef struct {
/** @} */
# endif /* #ifndef __ASSEMBLY__ */
#endif /* #ifndef __ASSEMBLY__ */
/** \name Usual Constants
* @{ */
// kmod #define DISABLE 0
// kmod #define ENABLE 1
# ifndef __cplusplus
# if !defined(__bool_true_false_are_defined)
# define false 0
# define true 1
# endif
#ifndef __cplusplus
# if !defined(__bool_true_false_are_defined)
# define false 0
# define true 1
# endif
#endif
/** @} */
# ifndef __ASSEMBLY__
#ifndef __ASSEMBLY__
/** \name Optimization Control
* @{ */
@ -371,17 +371,17 @@ typedef struct {
* \def likely(exp)
* \brief The expression \a exp is likely to be true
*/
# if !defined(likely) || defined(__DOXYGEN__)
# define likely(exp) (exp)
# endif
# if !defined(likely) || defined(__DOXYGEN__)
# define likely(exp) (exp)
# endif
/**
* \def unlikely(exp)
* \brief The expression \a exp is unlikely to be true
*/
# if !defined(unlikely) || defined(__DOXYGEN__)
# define unlikely(exp) (exp)
# endif
# if !defined(unlikely) || defined(__DOXYGEN__)
# define unlikely(exp) (exp)
# endif
/**
* \def is_constant(exp)
@ -391,11 +391,11 @@ typedef struct {
*
* \return true if \a exp is constant, false otherwise.
*/
# if (defined __GNUC__) || (defined __CC_ARM)
# define is_constant(exp) __builtin_constant_p(exp)
# else
# define is_constant(exp) (0)
# endif
# if (defined __GNUC__) || (defined __CC_ARM)
# define is_constant(exp) __builtin_constant_p(exp)
# else
# define is_constant(exp) (0)
# endif
/** @} */
@ -409,7 +409,7 @@ typedef struct {
*
* \return Read bits.
*/
# define Rd_bits(value, mask) ((value) & (mask))
# define Rd_bits(value, mask) ((value) & (mask))
/** \brief Writes the bits of a C lvalue specified by a given bit-mask.
*
@ -419,7 +419,7 @@ typedef struct {
*
* \return Resulting value with written bits.
*/
# define Wr_bits(lvalue, mask, bits) ((lvalue) = ((lvalue) & ~(mask)) | ((bits) & (mask)))
# define Wr_bits(lvalue, mask, bits) ((lvalue) = ((lvalue) & ~(mask)) | ((bits) & (mask)))
/** \brief Tests the bits of a value specified by a given bit-mask.
*
@ -428,7 +428,7 @@ typedef struct {
*
* \return \c 1 if at least one of the tested bits is set, else \c 0.
*/
# define Tst_bits(value, mask) (Rd_bits(value, mask) != 0)
# define Tst_bits(value, mask) (Rd_bits(value, mask) != 0)
/** \brief Clears the bits of a C lvalue specified by a given bit-mask.
*
@ -437,7 +437,7 @@ typedef struct {
*
* \return Resulting value with cleared bits.
*/
# define Clr_bits(lvalue, mask) ((lvalue) &= ~(mask))
# define Clr_bits(lvalue, mask) ((lvalue) &= ~(mask))
/** \brief Sets the bits of a C lvalue specified by a given bit-mask.
*
@ -446,7 +446,7 @@ typedef struct {
*
* \return Resulting value with set bits.
*/
# define Set_bits(lvalue, mask) ((lvalue) |= (mask))
# define Set_bits(lvalue, mask) ((lvalue) |= (mask))
/** \brief Toggles the bits of a C lvalue specified by a given bit-mask.
*
@ -455,7 +455,7 @@ typedef struct {
*
* \return Resulting value with toggled bits.
*/
# define Tgl_bits(lvalue, mask) ((lvalue) ^= (mask))
# define Tgl_bits(lvalue, mask) ((lvalue) ^= (mask))
/** \brief Reads the bit-field of a value specified by a given bit-mask.
*
@ -464,7 +464,7 @@ typedef struct {
*
* \return Read bit-field.
*/
# define Rd_bitfield(value, mask) (Rd_bits(value, mask) >> ctz(mask))
# define Rd_bitfield(value, mask) (Rd_bits(value, mask) >> ctz(mask))
/** \brief Writes the bit-field of a C lvalue specified by a given bit-mask.
*
@ -474,7 +474,7 @@ typedef struct {
*
* \return Resulting value with written bit-field.
*/
# define Wr_bitfield(lvalue, mask, bitfield) (Wr_bits(lvalue, mask, (uint32_t)(bitfield) << ctz(mask)))
# define Wr_bitfield(lvalue, mask, bitfield) (Wr_bits(lvalue, mask, (uint32_t)(bitfield) << ctz(mask)))
/** @} */
@ -498,11 +498,11 @@ typedef struct {
*
* \return The count of leading zero bits in \a u.
*/
# if (defined __GNUC__) || (defined __CC_ARM)
# define clz(u) ((u) ? __builtin_clz(u) : 32)
# 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
# if (defined __GNUC__) || (defined __CC_ARM)
# define clz(u) ((u) ? __builtin_clz(u) : 32)
# 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.
*
@ -510,11 +510,11 @@ typedef struct {
*
* \return The count of trailing zero bits in \a u.
*/
# if (defined __GNUC__) || (defined __CC_ARM)
# define ctz(u) ((u) ? __builtin_ctz(u) : 32)
# 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
# if (defined __GNUC__) || (defined __CC_ARM)
# define ctz(u) ((u) ? __builtin_ctz(u) : 32)
# 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
/** @} */
@ -527,7 +527,7 @@ typedef struct {
*
* \return Value resulting from \a u8 with reversed bits.
*/
# define bit_reverse8(u8) ((U8)(bit_reverse32((U8)(u8)) >> 24))
# define bit_reverse8(u8) ((U8)(bit_reverse32((U8)(u8)) >> 24))
/** \brief Reverses the bits of \a u16.
*
@ -535,7 +535,7 @@ typedef struct {
*
* \return Value resulting from \a u16 with reversed bits.
*/
# define bit_reverse16(u16) ((uint16_t)(bit_reverse32((uint16_t)(u16)) >> 16))
# define bit_reverse16(u16) ((uint16_t)(bit_reverse32((uint16_t)(u16)) >> 16))
/** \brief Reverses the bits of \a u32.
*
@ -543,7 +543,7 @@ typedef struct {
*
* \return Value resulting from \a u32 with reversed bits.
*/
# define bit_reverse32(u32) __RBIT(u32)
# define bit_reverse32(u32) __RBIT(u32)
/** \brief Reverses the bits of \a u64.
*
@ -551,7 +551,7 @@ typedef struct {
*
* \return Value resulting from \a u64 with reversed bits.
*/
# define bit_reverse64(u64) ((uint64_t)(((uint64_t)bit_reverse32((uint64_t)(u64) >> 32)) | ((uint64_t)bit_reverse32((uint64_t)(u64)) << 32)))
# define bit_reverse64(u64) ((uint64_t)(((uint64_t)bit_reverse32((uint64_t)(u64) >> 32)) | ((uint64_t)bit_reverse32((uint64_t)(u64)) << 32)))
/** @} */
@ -565,7 +565,7 @@ typedef struct {
*
* \return \c 1 if the number \a val is aligned with the \a n boundary, else \c 0.
*/
# define Test_align(val, n) (!Tst_bits(val, (n)-1))
# define Test_align(val, n) (!Tst_bits(val, (n)-1))
/** \brief Gets alignment of the number \a val with respect to the \a n boundary.
*
@ -574,7 +574,7 @@ typedef struct {
*
* \return Alignment of the number \a val with respect to the \a n boundary.
*/
# define Get_align(val, n) (Rd_bits(val, (n)-1))
# define Get_align(val, n) (Rd_bits(val, (n)-1))
/** \brief Sets alignment of the lvalue number \a lval to \a alg with respect to the \a n boundary.
*
@ -584,7 +584,7 @@ typedef struct {
*
* \return New value of \a lval resulting from its alignment set to \a alg with respect to the \a n boundary.
*/
# define Set_align(lval, n, alg) (Wr_bits(lval, (n)-1, alg))
# define Set_align(lval, n, alg) (Wr_bits(lval, (n)-1, alg))
/** \brief Aligns the number \a val with the upper \a n boundary.
*
@ -593,7 +593,7 @@ typedef struct {
*
* \return Value resulting from the number \a val aligned with the upper \a n boundary.
*/
# define Align_up(val, n) (((val) + ((n)-1)) & ~((n)-1))
# define Align_up(val, n) (((val) + ((n)-1)) & ~((n)-1))
/** \brief Aligns the number \a val with the lower \a n boundary.
*
@ -602,7 +602,7 @@ typedef struct {
*
* \return Value resulting from the number \a val aligned with the lower \a n boundary.
*/
# define Align_down(val, n) ((val) & ~((n)-1))
# define Align_down(val, n) ((val) & ~((n)-1))
/** @} */
@ -627,9 +627,9 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Abs(a) (((a) < 0) ? -(a) : (a))
# define Abs(a) (((a) < 0) ? -(a) : (a))
# ifndef __cplusplus
# ifndef __cplusplus
/** \brief Takes the minimal value of \a a and \a b.
*
* \param[in] a Input value.
@ -639,7 +639,7 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Min(a, b) (((a) < (b)) ? (a) : (b))
# define Min(a, b) (((a) < (b)) ? (a) : (b))
/** \brief Takes the maximal value of \a a and \a b.
*
@ -650,7 +650,7 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Max(a, b) (((a) > (b)) ? (a) : (b))
# define Max(a, b) (((a) > (b)) ? (a) : (b))
/** \brief Takes the minimal value of \a a and \a b.
*
@ -661,7 +661,7 @@ typedef struct {
*
* \note More optimized if only used with values unknown at compile time.
*/
# define min(a, b) Min(a, b)
# define min(a, b) Min(a, b)
/** \brief Takes the maximal value of \a a and \a b.
*
@ -672,8 +672,8 @@ typedef struct {
*
* \note More optimized if only used with values unknown at compile time.
*/
# define max(a, b) Max(a, b)
# endif
# define max(a, b) Max(a, b)
# endif
/** @} */
@ -688,34 +688,34 @@ typedef struct {
*
* \note It may be used as a long jump opcode in some special cases.
*/
# define Long_call(addr) ((*(void (*)(void))(addr))())
# define Long_call(addr) ((*(void (*)(void))(addr))())
/** \name MCU Endianism Handling
* ARM is MCU little endian.
*
* @{ */
# define BE16(x) swap16(x)
# define LE16(x) (x)
# define BE16(x) swap16(x)
# define LE16(x) (x)
# define le16_to_cpu(x) (x)
# define cpu_to_le16(x) (x)
# define LE16_TO_CPU(x) (x)
# define CPU_TO_LE16(x) (x)
# define le16_to_cpu(x) (x)
# define cpu_to_le16(x) (x)
# define LE16_TO_CPU(x) (x)
# define CPU_TO_LE16(x) (x)
# define be16_to_cpu(x) swap16(x)
# define cpu_to_be16(x) swap16(x)
# define BE16_TO_CPU(x) swap16(x)
# define CPU_TO_BE16(x) swap16(x)
# define be16_to_cpu(x) swap16(x)
# define cpu_to_be16(x) swap16(x)
# define BE16_TO_CPU(x) swap16(x)
# define CPU_TO_BE16(x) swap16(x)
# define le32_to_cpu(x) (x)
# define cpu_to_le32(x) (x)
# define LE32_TO_CPU(x) (x)
# define CPU_TO_LE32(x) (x)
# define le32_to_cpu(x) (x)
# define cpu_to_le32(x) (x)
# define LE32_TO_CPU(x) (x)
# define CPU_TO_LE32(x) (x)
# define be32_to_cpu(x) swap32(x)
# define cpu_to_be32(x) swap32(x)
# define BE32_TO_CPU(x) swap32(x)
# define CPU_TO_BE32(x) swap32(x)
# define be32_to_cpu(x) swap32(x)
# define cpu_to_be32(x) swap32(x)
# define BE32_TO_CPU(x) swap32(x)
# define CPU_TO_BE32(x) swap32(x)
/** @} */
/** \name Endianism Conversion
@ -738,7 +738,7 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Swap16(u16) ((uint16_t)(((uint16_t)(u16) >> 8) | ((uint16_t)(u16) << 8)))
# define Swap16(u16) ((uint16_t)(((uint16_t)(u16) >> 8) | ((uint16_t)(u16) << 8)))
/** \brief Toggles the endianism of \a u32 (by swapping its bytes).
*
@ -748,7 +748,7 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Swap32(u32) ((uint32_t)(((uint32_t)Swap16((uint32_t)(u32) >> 16)) | ((uint32_t)Swap16((uint32_t)(u32)) << 16)))
# define Swap32(u32) ((uint32_t)(((uint32_t)Swap16((uint32_t)(u32) >> 16)) | ((uint32_t)Swap16((uint32_t)(u32)) << 16)))
/** \brief Toggles the endianism of \a u64 (by swapping its bytes).
*
@ -758,7 +758,7 @@ typedef struct {
*
* \note More optimized if only used with values known at compile time.
*/
# define Swap64(u64) ((uint64_t)(((uint64_t)Swap32((uint64_t)(u64) >> 32)) | ((uint64_t)Swap32((uint64_t)(u64)) << 32)))
# define Swap64(u64) ((uint64_t)(((uint64_t)Swap32((uint64_t)(u64) >> 32)) | ((uint64_t)Swap32((uint64_t)(u64)) << 32)))
/** \brief Toggles the endianism of \a u16 (by swapping its bytes).
*
@ -768,7 +768,7 @@ typedef struct {
*
* \note More optimized if only used with values unknown at compile time.
*/
# define swap16(u16) Swap16(u16)
# define swap16(u16) Swap16(u16)
/** \brief Toggles the endianism of \a u32 (by swapping its bytes).
*
@ -778,11 +778,11 @@ typedef struct {
*
* \note More optimized if only used with values unknown at compile time.
*/
# if (defined __GNUC__)
# define swap32(u32) ((uint32_t)__builtin_bswap32((uint32_t)(u32)))
# else
# define swap32(u32) Swap32(u32)
# endif
# if (defined __GNUC__)
# define swap32(u32) ((uint32_t)__builtin_bswap32((uint32_t)(u32)))
# else
# define swap32(u32) Swap32(u32)
# endif
/** \brief Toggles the endianism of \a u64 (by swapping its bytes).
*
@ -792,11 +792,11 @@ typedef struct {
*
* \note More optimized if only used with values unknown at compile time.
*/
# if (defined __GNUC__)
# define swap64(u64) ((uint64_t)__builtin_bswap64((uint64_t)(u64)))
# else
# define swap64(u64) ((uint64_t)(((uint64_t)swap32((uint64_t)(u64) >> 32)) | ((uint64_t)swap32((uint64_t)(u64)) << 32)))
# endif
# if (defined __GNUC__)
# define swap64(u64) ((uint64_t)__builtin_bswap64((uint64_t)(u64)))
# else
# define swap64(u64) ((uint64_t)(((uint64_t)swap32((uint64_t)(u64) >> 32)) | ((uint64_t)swap32((uint64_t)(u64)) << 32)))
# endif
/** @} */
@ -804,16 +804,16 @@ typedef struct {
*
* @{ */
# define _GLOBEXT_ extern /**< extern storage-class specifier. */
# define _CONST_TYPE_ const /**< const type qualifier. */
# define _MEM_TYPE_SLOW_ /**< Slow memory type. */
# define _MEM_TYPE_MEDFAST_ /**< Fairly fast memory type. */
# define _MEM_TYPE_FAST_ /**< Fast memory type. */
# define _GLOBEXT_ extern /**< extern storage-class specifier. */
# define _CONST_TYPE_ const /**< const type qualifier. */
# define _MEM_TYPE_SLOW_ /**< Slow memory type. */
# define _MEM_TYPE_MEDFAST_ /**< Fairly fast memory type. */
# define _MEM_TYPE_FAST_ /**< Fast memory type. */
# define memcmp_ram2ram memcmp /**< Target-specific memcmp of RAM to RAM. */
# define memcmp_code2ram memcmp /**< Target-specific memcmp of RAM to NVRAM. */
# define memcpy_ram2ram memcpy /**< Target-specific memcpy from RAM to RAM. */
# define memcpy_code2ram memcpy /**< Target-specific memcpy from NVRAM to RAM. */
# define memcmp_ram2ram memcmp /**< Target-specific memcmp of RAM to RAM. */
# define memcmp_code2ram memcmp /**< Target-specific memcmp of RAM to NVRAM. */
# define memcpy_ram2ram memcpy /**< Target-specific memcpy from RAM to RAM. */
# define memcpy_code2ram memcpy /**< Target-specific memcpy from NVRAM to RAM. */
/** @} */
@ -826,51 +826,51 @@ typedef struct {
*
* \return (\a a / \a b) rounded up to the nearest integer.
*/
# define div_ceil(a, b) (((a) + (b)-1) / (b))
# define div_ceil(a, b) (((a) + (b)-1) / (b))
# endif /* #ifndef __ASSEMBLY__ */
# ifdef __ICCARM__
#endif /* #ifndef __ASSEMBLY__ */
#ifdef __ICCARM__
/** \name Compiler Keywords
*
* Port of some keywords from GCC to IAR Embedded Workbench.
*
* @{ */
# define __asm__ asm
# define __inline__ inline
# define __volatile__
# define __asm__ asm
# define __inline__ inline
# define __volatile__
/** @} */
# endif
#endif
# define FUNC_PTR void *
#define FUNC_PTR void *
/**
* \def unused
* \brief Marking \a v as a unused parameter or value.
*/
# define unused(v) \
do { \
(void)(v); \
} while (0)
#define unused(v) \
do { \
(void)(v); \
} while (0)
/* Define RAMFUNC attribute */
# if defined(__CC_ARM) /* Keil uVision 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
#if defined(__CC_ARM) /* Keil uVision 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
/* Define OPTIMIZE_HIGH attribute */
# if defined(__CC_ARM) /* Keil uVision 4 */
# define OPTIMIZE_HIGH _Pragma("O3")
# elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
# define OPTIMIZE_HIGH _Pragma("optimize=high")
# elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
# define OPTIMIZE_HIGH __attribute__((optimize("s")))
# endif
#if defined(__CC_ARM) /* Keil uVision 4 */
# define OPTIMIZE_HIGH _Pragma("O3")
#elif defined(__ICCARM__) /* IAR Ewarm 5.41+ */
# define OPTIMIZE_HIGH _Pragma("optimize=high")
#elif defined(__GNUC__) /* GCC CS3 2009q3-68 */
# define OPTIMIZE_HIGH __attribute__((optimize("s")))
#endif
// kmod #define PASS 0
// kmod #define FAIL 1
// kmod #define LOW 0
@ -887,101 +887,101 @@ typedef uint64_t U64; //!< 64-bit unsigned integer.
typedef float F32; //!< 32-bit floating-point number.
typedef double F64; //!< 64-bit floating-point number.
# define MSB(u16) (((U8 *)&(u16))[1]) //!< Most significant byte of \a u16.
# define LSB(u16) (((U8 *)&(u16))[0]) //!< Least significant byte of \a u16.
#define MSB(u16) (((U8 *)&(u16))[1]) //!< Most significant byte of \a u16.
#define LSB(u16) (((U8 *)&(u16))[0]) //!< Least significant byte of \a u16.
# define MSH(u32) (((U16 *)&(u32))[1]) //!< Most significant half-word of \a u32.
# define LSH(u32) (((U16 *)&(u32))[0]) //!< Least significant half-word of \a u32.
# define MSB0W(u32) (((U8 *)&(u32))[3]) //!< Most significant byte of 1st rank of \a u32.
# define MSB1W(u32) (((U8 *)&(u32))[2]) //!< Most significant byte of 2nd rank of \a u32.
# define MSB2W(u32) (((U8 *)&(u32))[1]) //!< Most significant byte of 3rd rank of \a u32.
# define MSB3W(u32) (((U8 *)&(u32))[0]) //!< Most significant byte of 4th rank of \a u32.
# define LSB3W(u32) MSB0W(u32) //!< Least significant byte of 4th rank of \a u32.
# define LSB2W(u32) MSB1W(u32) //!< Least significant byte of 3rd rank of \a u32.
# define LSB1W(u32) MSB2W(u32) //!< Least significant byte of 2nd rank of \a u32.
# define LSB0W(u32) MSB3W(u32) //!< Least significant byte of 1st rank of \a u32.
#define MSH(u32) (((U16 *)&(u32))[1]) //!< Most significant half-word of \a u32.
#define LSH(u32) (((U16 *)&(u32))[0]) //!< Least significant half-word of \a u32.
#define MSB0W(u32) (((U8 *)&(u32))[3]) //!< Most significant byte of 1st rank of \a u32.
#define MSB1W(u32) (((U8 *)&(u32))[2]) //!< Most significant byte of 2nd rank of \a u32.
#define MSB2W(u32) (((U8 *)&(u32))[1]) //!< Most significant byte of 3rd rank of \a u32.
#define MSB3W(u32) (((U8 *)&(u32))[0]) //!< Most significant byte of 4th rank of \a u32.
#define LSB3W(u32) MSB0W(u32) //!< Least significant byte of 4th rank of \a u32.
#define LSB2W(u32) MSB1W(u32) //!< Least significant byte of 3rd rank of \a u32.
#define LSB1W(u32) MSB2W(u32) //!< Least significant byte of 2nd rank of \a u32.
#define LSB0W(u32) MSB3W(u32) //!< Least significant byte of 1st rank of \a u32.
# define MSW(u64) (((U32 *)&(u64))[1]) //!< Most significant word of \a u64.
# define LSW(u64) (((U32 *)&(u64))[0]) //!< Least significant word of \a u64.
# define MSH0(u64) (((U16 *)&(u64))[3]) //!< Most significant half-word of 1st rank of \a u64.
# define MSH1(u64) (((U16 *)&(u64))[2]) //!< Most significant half-word of 2nd rank of \a u64.
# define MSH2(u64) (((U16 *)&(u64))[1]) //!< Most significant half-word of 3rd rank of \a u64.
# define MSH3(u64) (((U16 *)&(u64))[0]) //!< Most significant half-word of 4th rank of \a u64.
# define LSH3(u64) MSH0(u64) //!< Least significant half-word of 4th rank of \a u64.
# define LSH2(u64) MSH1(u64) //!< Least significant half-word of 3rd rank of \a u64.
# define LSH1(u64) MSH2(u64) //!< Least significant half-word of 2nd rank of \a u64.
# define LSH0(u64) MSH3(u64) //!< Least significant half-word of 1st rank of \a u64.
# define MSB0D(u64) (((U8 *)&(u64))[7]) //!< Most significant byte of 1st rank of \a u64.
# define MSB1D(u64) (((U8 *)&(u64))[6]) //!< Most significant byte of 2nd rank of \a u64.
# define MSB2D(u64) (((U8 *)&(u64))[5]) //!< Most significant byte of 3rd rank of \a u64.
# define MSB3D(u64) (((U8 *)&(u64))[4]) //!< Most significant byte of 4th rank of \a u64.
# define MSB4D(u64) (((U8 *)&(u64))[3]) //!< Most significant byte of 5th rank of \a u64.
# define MSB5D(u64) (((U8 *)&(u64))[2]) //!< Most significant byte of 6th rank of \a u64.
# define MSB6D(u64) (((U8 *)&(u64))[1]) //!< Most significant byte of 7th rank of \a u64.
# define MSB7D(u64) (((U8 *)&(u64))[0]) //!< Most significant byte of 8th rank of \a u64.
# define LSB7D(u64) MSB0D(u64) //!< Least significant byte of 8th rank of \a u64.
# define LSB6D(u64) MSB1D(u64) //!< Least significant byte of 7th rank of \a u64.
# define LSB5D(u64) MSB2D(u64) //!< Least significant byte of 6th rank of \a u64.
# define LSB4D(u64) MSB3D(u64) //!< Least significant byte of 5th rank of \a u64.
# define LSB3D(u64) MSB4D(u64) //!< Least significant byte of 4th rank of \a u64.
# define LSB2D(u64) MSB5D(u64) //!< Least significant byte of 3rd rank of \a u64.
# define LSB1D(u64) MSB6D(u64) //!< Least significant byte of 2nd rank of \a u64.
# define LSB0D(u64) MSB7D(u64) //!< Least significant byte of 1st rank of \a u64.
#define MSW(u64) (((U32 *)&(u64))[1]) //!< Most significant word of \a u64.
#define LSW(u64) (((U32 *)&(u64))[0]) //!< Least significant word of \a u64.
#define MSH0(u64) (((U16 *)&(u64))[3]) //!< Most significant half-word of 1st rank of \a u64.
#define MSH1(u64) (((U16 *)&(u64))[2]) //!< Most significant half-word of 2nd rank of \a u64.
#define MSH2(u64) (((U16 *)&(u64))[1]) //!< Most significant half-word of 3rd rank of \a u64.
#define MSH3(u64) (((U16 *)&(u64))[0]) //!< Most significant half-word of 4th rank of \a u64.
#define LSH3(u64) MSH0(u64) //!< Least significant half-word of 4th rank of \a u64.
#define LSH2(u64) MSH1(u64) //!< Least significant half-word of 3rd rank of \a u64.
#define LSH1(u64) MSH2(u64) //!< Least significant half-word of 2nd rank of \a u64.
#define LSH0(u64) MSH3(u64) //!< Least significant half-word of 1st rank of \a u64.
#define MSB0D(u64) (((U8 *)&(u64))[7]) //!< Most significant byte of 1st rank of \a u64.
#define MSB1D(u64) (((U8 *)&(u64))[6]) //!< Most significant byte of 2nd rank of \a u64.
#define MSB2D(u64) (((U8 *)&(u64))[5]) //!< Most significant byte of 3rd rank of \a u64.
#define MSB3D(u64) (((U8 *)&(u64))[4]) //!< Most significant byte of 4th rank of \a u64.
#define MSB4D(u64) (((U8 *)&(u64))[3]) //!< Most significant byte of 5th rank of \a u64.
#define MSB5D(u64) (((U8 *)&(u64))[2]) //!< Most significant byte of 6th rank of \a u64.
#define MSB6D(u64) (((U8 *)&(u64))[1]) //!< Most significant byte of 7th rank of \a u64.
#define MSB7D(u64) (((U8 *)&(u64))[0]) //!< Most significant byte of 8th rank of \a u64.
#define LSB7D(u64) MSB0D(u64) //!< Least significant byte of 8th rank of \a u64.
#define LSB6D(u64) MSB1D(u64) //!< Least significant byte of 7th rank of \a u64.
#define LSB5D(u64) MSB2D(u64) //!< Least significant byte of 6th rank of \a u64.
#define LSB4D(u64) MSB3D(u64) //!< Least significant byte of 5th rank of \a u64.
#define LSB3D(u64) MSB4D(u64) //!< Least significant byte of 4th rank of \a u64.
#define LSB2D(u64) MSB5D(u64) //!< Least significant byte of 3rd rank of \a u64.
#define LSB1D(u64) MSB6D(u64) //!< Least significant byte of 2nd rank of \a u64.
#define LSB0D(u64) MSB7D(u64) //!< Least significant byte of 1st rank of \a u64.
# define LSB0(u32) LSB0W(u32) //!< Least significant byte of 1st rank of \a u32.
# define LSB1(u32) LSB1W(u32) //!< Least significant byte of 2nd rank of \a u32.
# define LSB2(u32) LSB2W(u32) //!< Least significant byte of 3rd rank of \a u32.
# define LSB3(u32) LSB3W(u32) //!< Least significant byte of 4th rank of \a u32.
# define MSB3(u32) MSB3W(u32) //!< Most significant byte of 4th rank of \a u32.
# define MSB2(u32) MSB2W(u32) //!< Most significant byte of 3rd rank of \a u32.
# define MSB1(u32) MSB1W(u32) //!< Most significant byte of 2nd rank of \a u32.
# define MSB0(u32) MSB0W(u32) //!< Most significant byte of 1st rank of \a u32.
#define LSB0(u32) LSB0W(u32) //!< Least significant byte of 1st rank of \a u32.
#define LSB1(u32) LSB1W(u32) //!< Least significant byte of 2nd rank of \a u32.
#define LSB2(u32) LSB2W(u32) //!< Least significant byte of 3rd rank of \a u32.
#define LSB3(u32) LSB3W(u32) //!< Least significant byte of 4th rank of \a u32.
#define MSB3(u32) MSB3W(u32) //!< Most significant byte of 4th rank of \a u32.
#define MSB2(u32) MSB2W(u32) //!< Most significant byte of 3rd rank of \a u32.
#define MSB1(u32) MSB1W(u32) //!< Most significant byte of 2nd rank of \a u32.
#define MSB0(u32) MSB0W(u32) //!< Most significant byte of 1st rank of \a u32.
# if defined(__ICCARM__)
# define SHORTENUM __packed
# elif defined(__GNUC__)
# define SHORTENUM __attribute__((packed))
# endif
#if defined(__ICCARM__)
# define SHORTENUM __packed
#elif defined(__GNUC__)
# define SHORTENUM __attribute__((packed))
#endif
/* No operation */
# if defined(__ICCARM__)
# define nop() __no_operation()
# elif defined(__GNUC__)
# define nop() (__NOP())
# endif
#if defined(__ICCARM__)
# define nop() __no_operation()
#elif defined(__GNUC__)
# define nop() (__NOP())
#endif
# define FLASH_DECLARE(x) const x
# define FLASH_EXTERN(x) extern const x
# define PGM_READ_BYTE(x) *(x)
# define PGM_READ_WORD(x) *(x)
# define MEMCPY_ENDIAN memcpy
# define PGM_READ_BLOCK(dst, src, len) memcpy((dst), (src), (len))
#define FLASH_DECLARE(x) const x
#define FLASH_EXTERN(x) extern const x
#define PGM_READ_BYTE(x) *(x)
#define PGM_READ_WORD(x) *(x)
#define MEMCPY_ENDIAN memcpy
#define PGM_READ_BLOCK(dst, src, len) memcpy((dst), (src), (len))
/*Defines the Flash Storage for the request and response of MAC*/
# define CMD_ID_OCTET (0)
#define CMD_ID_OCTET (0)
/* Converting of values from CPU endian to little endian. */
# define CPU_ENDIAN_TO_LE16(x) (x)
# define CPU_ENDIAN_TO_LE32(x) (x)
# define CPU_ENDIAN_TO_LE64(x) (x)
#define CPU_ENDIAN_TO_LE16(x) (x)
#define CPU_ENDIAN_TO_LE32(x) (x)
#define CPU_ENDIAN_TO_LE64(x) (x)
/* Converting of values from little endian to CPU endian. */
# define LE16_TO_CPU_ENDIAN(x) (x)
# define LE32_TO_CPU_ENDIAN(x) (x)
# define LE64_TO_CPU_ENDIAN(x) (x)
#define LE16_TO_CPU_ENDIAN(x) (x)
#define LE32_TO_CPU_ENDIAN(x) (x)
#define LE64_TO_CPU_ENDIAN(x) (x)
/* Converting of constants from little endian to CPU endian. */
# define CLE16_TO_CPU_ENDIAN(x) (x)
# define CLE32_TO_CPU_ENDIAN(x) (x)
# define CLE64_TO_CPU_ENDIAN(x) (x)
#define CLE16_TO_CPU_ENDIAN(x) (x)
#define CLE32_TO_CPU_ENDIAN(x) (x)
#define CLE64_TO_CPU_ENDIAN(x) (x)
/* Converting of constants from CPU endian to little endian. */
# define CCPU_ENDIAN_TO_LE16(x) (x)
# define CCPU_ENDIAN_TO_LE32(x) (x)
# define CCPU_ENDIAN_TO_LE64(x) (x)
#define CCPU_ENDIAN_TO_LE16(x) (x)
#define CCPU_ENDIAN_TO_LE32(x) (x)
#define CCPU_ENDIAN_TO_LE64(x) (x)
# define ADDR_COPY_DST_SRC_16(dst, src) ((dst) = (src))
# define ADDR_COPY_DST_SRC_64(dst, src) ((dst) = (src))
#define ADDR_COPY_DST_SRC_16(dst, src) ((dst) = (src))
#define ADDR_COPY_DST_SRC_64(dst, src) ((dst) = (src))
/**
* @brief Converts a 64-Bit value into a 8 Byte array

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@ -89,14 +89,14 @@
*
* @{
*/
bool udi_cdc_comm_enable(void);
void udi_cdc_comm_disable(void);
bool udi_cdc_comm_setup(void);
bool udi_cdc_data_enable(void);
void udi_cdc_data_disable(void);
bool udi_cdc_data_setup(void);
uint8_t udi_cdc_getsetting(void);
void udi_cdc_data_sof_notify(void);
bool udi_cdc_comm_enable(void);
void udi_cdc_comm_disable(void);
bool udi_cdc_comm_setup(void);
bool udi_cdc_data_enable(void);
void udi_cdc_data_disable(void);
bool udi_cdc_data_setup(void);
uint8_t udi_cdc_getsetting(void);
void udi_cdc_data_sof_notify(void);
UDC_DESC_STORAGE udi_api_t udi_api_cdc_comm = {.enable = udi_cdc_comm_enable, .disable = udi_cdc_comm_disable, .setup = udi_cdc_comm_setup, .getsetting = udi_cdc_getsetting, .sof_notify = NULL};
UDC_DESC_STORAGE udi_api_t udi_api_cdc_data = {
.enable = udi_cdc_data_enable,

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@ -596,11 +596,10 @@ void udd_set_address(uint8_t address) { usb_device_set_address(&usb_device, addr
uint8_t udd_getaddress(void) { return usb_device_get_address(&usb_device); }
void udd_send_remotewakeup(void) {
uint32_t try
= 5;
uint32_t try = 5;
udd_wait_clock_ready();
udd_sleep_mode(UDD_STATE_IDLE);
while (2 != usb_get_state_machine_status(&usb_device) && try --) {
while (2 != usb_get_state_machine_status(&usb_device) && try--) {
usb_device_send_remote_wake_up(&usb_device);
}
}