350 lines
10 KiB
C
350 lines
10 KiB
C
/** @file hal/micro/generic/compiler/platform-common.h
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* See @ref platform_common for detailed documentation.
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*
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* <!--(C) COPYRIGHT 2010 STMicroelectronics. All rights reserved. -->
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*/
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/** @addtogroup platform_common
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* @brief Compiler and Platform specific definitions and typedefs common to
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* all platforms.
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*
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* platform-common.h provides PLATFORM_HEADER defaults and common definitions.
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* This head should never be included directly, it should only be included
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* by the specific PLATFORM_HEADER used by your platform.
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*
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* See platform-common.h for source code.
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*@{
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*/
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#ifndef PLATCOMMONOKTOINCLUDE
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// This header should only be included by a PLATFORM_HEADER
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#error platform-common.h should not be included directly
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#endif
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#ifndef __PLATFORMCOMMON_H__
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#define __PLATFORMCOMMON_H__
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////////////////////////////////////////////////////////////////////////////////
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// Many of the common definitions must be explicitly enabled by the
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// particular PLATFORM_HEADER being used
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////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////
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#ifdef _HAL_USE_COMMON_PGM_
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/** \name Master Program Memory Declarations
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* These are a set of defines for simple declarations of program memory.
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*/
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//@{
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/**
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* @brief Standard program memory delcaration.
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*/
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#define PGM const
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/**
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* @brief Char pointer to program memory declaration.
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*/
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#define PGM_P const char *
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/**
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* @brief Unsigned char pointer to program memory declaration.
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*/
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#define PGM_PU const unsigned char *
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/**
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* @brief Sometimes a second PGM is needed in a declaration. Having two
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* 'const' declarations generates a warning so we have a second PGM that turns
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* into nothing under gcc.
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*/
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#define PGM_NO_CONST
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//@} \\END MASTER PROGRAM MEMORY DECLARATIONS
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#endif //_HAL_USE_COMMON_PGM_
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////////////////////////////////////////////////////////////////////////////////
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#ifdef _HAL_USE_COMMON_DIVMOD_
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/** \name Divide and Modulus Operations
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* Some platforms can perform divide and modulus operations on 32 bit
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* quantities more efficiently when the divisor is only a 16 bit quantity.
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* C compilers will always promote the divisor to 32 bits before performing the
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* operation, so the following utility functions are instead required to take
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* advantage of this optimisation.
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*/
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//@{
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/**
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* @brief Provide a portable name for the int32u by int16u division
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* library function (which can perform the division with only a single
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* assembly instruction on some platforms)
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*/
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#define halCommonUDiv32By16(x, y) ((int16u) (((int32u) (x)) / ((int16u) (y))))
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/**
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* @brief Provide a portable name for the int32s by int16s division
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* library function (which can perform the division with only a single
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* assembly instruction on some platforms)
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*/
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#define halCommonSDiv32By16(x, y) ((int16s) (((int32s) (x)) / ((int16s) (y))))
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/**
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* @brief Provide a portable name for the int32u by int16u modulo
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* library function (which can perform the division with only a single
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* assembly instruction on some platforms)
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*/
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#define halCommonUMod32By16(x, y) ((int16u) (((int32u) (x)) % ((int16u) (y))))
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/**
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* @brief Provide a portable name for the int32s by int16s modulo
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* library function (which can perform the division with only a single
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* assembly instruction on some platforms)
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*/
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#define halCommonSMod32By16(x, y) ((int16s) (((int32s) (x)) % ((int16s) (y))))
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//@} \\END DIVIDE and MODULUS OPERATIONS
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#endif //_HAL_USE_COMMON_DIVMOD_
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////////////////////////////////////////////////////////////////////////////////
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#ifdef _HAL_USE_COMMON_MEMUTILS_
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/** \name C Standard Library Memory Utilities
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* These should be used in place of the standard library functions.
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*
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* These functions have the same parameters and expected results as their C
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* Standard Library equivalents but may take advantage of certain implementation
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* optimizations.
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*
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* Unless otherwise noted, these functions are utilized by the StStack and are
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* therefore required to be implemented in the HAL. Additionally, unless otherwise
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* noted, applications that find these functions useful may utilze them.
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*/
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//@{
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/**
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* @brief Refer to the C stdlib memcpy().
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*/
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void halCommonMemCopy(void *dest, const void *src, int8u bytes);
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/**
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* @brief Refer to the C stdlib memset().
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*/
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void halCommonMemSet(void *dest, int8u val, int16u bytes);
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/**
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* @brief Refer to the C stdlib memcmp().
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*/
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int8s halCommonMemCompare(const void *source0, const void *source1, int8u bytes);
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/**
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* @brief Friendly convenience macro pointing to the full HAL function.
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*/
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#define MEMSET(d,v,l) halCommonMemSet(d,v,l)
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#define MEMCOPY(d,s,l) halCommonMemCopy(d,s,l)
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#define MEMCOMPARE(s0,s1,l) halCommonMemCompare(s0, s1, l)
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#define MEMPGMCOMPARE(s0,s1,l) halCommonMemPGMCompare(s0, s1, l)
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//@} // end of C Standard Library Memory Utilities
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#endif //_HAL_USE_COMMON_MEMUTILS_
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////////////////////////////////////////////////////////////////////////////////
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// The following sections are common on all platforms
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////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////
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/**
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* @name Generic Types
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*@{
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*/
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/**
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* @brief An alias for one, used for clarity.
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*/
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#define TRUE 1
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/**
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* @brief An alias for zero, used for clarity.
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*/
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#define FALSE 0
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#ifndef NULL
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/**
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* @brief The null pointer.
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*/
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#define NULL ((void *)0)
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#endif
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//@} \\END Generic Types
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/**
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* @name Bit Manipulation Macros
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*/
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//@{
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/**
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* @brief Useful to reference a single bit of a byte.
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*/
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#define BIT(x) (1U << (x)) // Unsigned avoids compiler warnings re BIT(15)
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/**
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* @brief Useful to reference a single bit of an int32u type.
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*/
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#define BIT32(x) (((int32u) 1) << (x))
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/**
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* @brief Sets \c bit in the \c reg register or byte.
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* @note Assuming \c reg is an IO register, some platforms
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* can implement this in a single atomic operation.
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*/
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#define SETBIT(reg, bit) reg |= BIT(bit)
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/**
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* @brief Sets the bits in the \c reg register or the byte
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* as specified in the bitmask \c bits.
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* @note This is never a single atomic operation.
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*/
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#define SETBITS(reg, bits) reg |= (bits)
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/**
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* @brief Clears a bit in the \c reg register or byte.
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* @note Assuming \c reg is an IO register, some platforms (such as the AVR)
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* can implement this in a single atomic operation.
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*/
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#define CLEARBIT(reg, bit) reg &= ~(BIT(bit))
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/**
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* @brief Clears the bits in the \c reg register or byte
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* as specified in the bitmask \c bits.
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* @note This is never a single atomic operation.
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*/
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#define CLEARBITS(reg, bits) reg &= ~(bits)
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/**
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* @brief Returns the value of \c bit within the register or byte \c reg.
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*/
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#define READBIT(reg, bit) (reg & (BIT(bit)))
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/**
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* @brief Returns the value of the bitmask \c bits within
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* the register or byte \c reg.
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*/
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#define READBITS(reg, bits) (reg & (bits))
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//@} \\END Bit Manipulation Macros
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////////////////////////////////////////////////////////////////////////////////
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/**
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* @name Byte Manipulation Macros
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*/
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//@{
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/**
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* @brief Returns the low byte of the 16-bit value \c n as an \c int8u.
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*/
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#define LOW_BYTE(n) ((int8u)((n) & 0xFF))
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/**
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* @brief Returns the high byte of the 16-bit value \c n as an \c int8u.
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*/
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#define HIGH_BYTE(n) ((int8u)(LOW_BYTE((n) >> 8)))
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/**
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* @brief Returns the value built from the two \c int8u
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* values \c high and \c low.
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*/
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#define HIGH_LOW_TO_INT(high, low) ( \
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(( (int16u) (high) ) << 8) + \
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( (int16u) ( (low) & 0xFF)) \
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)
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/**
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* @brief Returns the low byte of the 32-bit value \c n as an \c int8u.
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*/
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#define BYTE_0(n) ((int8u)((n) & 0xFF))
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/**
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* @brief Returns the second byte of the 32-bit value \c n as an \c int8u.
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*/
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#define BYTE_1(n) ((int8u)(BYTE_0((n) >> 8)))
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/**
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* @brief Returns the third byte of the 32-bit value \c n as an \c int8u.
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*/
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#define BYTE_2(n) ((int8u)(BYTE_0((n) >> 16)))
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/**
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* @brief Returns the high byte of the 32-bit value \c n as an \c int8u.
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*/
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#define BYTE_3(n) ((int8u)(BYTE_0((n) >> 24)))
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//@} \\END Byte manipulation macros
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////////////////////////////////////////////////////////////////////////////////
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/**
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* @name Time Manipulation Macros
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*/
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//@{
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/**
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* @brief Returns the elapsed time between two 8 bit values.
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* Result may not be valid if the time samples differ by more than 127
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*/
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#define elapsedTimeInt8u(oldTime, newTime) \
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((int8u) ((int8u)(newTime) - (int8u)(oldTime)))
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/**
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* @brief Returns the elapsed time between two 16 bit values.
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* Result may not be valid if the time samples differ by more than 32767
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*/
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#define elapsedTimeInt16u(oldTime, newTime) \
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((int16u) ((int16u)(newTime) - (int16u)(oldTime)))
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/**
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* @brief Returns the elapsed time between two 32 bit values.
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* Result may not be valid if the time samples differ by more than 2147483647
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*/
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#define elapsedTimeInt32u(oldTime, newTime) \
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((int32u) ((int32u)(newTime) - (int32u)(oldTime)))
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/**
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* @brief Returns TRUE if t1 is greater than t2. Can only account for 1 wrap
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* around of the variable before it is wrong.
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*/
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#define MAX_INT8U_VALUE 0xFF
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#define timeGTorEqualInt8u(t1, t2) \
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(elapsedTimeInt8u(t2, t1) <= ((MAX_INT8U_VALUE + 1) / 2))
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/**
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* @brief Returns TRUE if t1 is greater than t2. Can only account for 1 wrap
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* around of the variable before it is wrong.
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*/
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#define MAX_INT16U_VALUE 0xFFFF
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#define timeGTorEqualInt16u(t1, t2) \
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(elapsedTimeInt16u(t2, t1) <= ((MAX_INT16U_VALUE + 1) / 2))
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/**
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* @brief Returns TRUE if t1 is greater than t2. Can only account for 1 wrap
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* around of the variable before it is wrong.
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*/
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#define MAX_INT32U_VALUE 0xFFFFFFFF
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#define timeGTorEqualInt32u(t1, t2) \
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(elapsedTimeInt32u(t2, t1) <= ((MAX_INT32U_VALUE + 1) / 2))
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//@} \\END Time manipulation macros
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#endif //__PLATFORMCOMMON_H__
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/** @} END addtogroup */
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