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#ifndef CYGONCE_HAL_IO_H
#define CYGONCE_HAL_IO_H
 
//=============================================================================
//
//      hal_io.h
//
//      HAL device IO register support.
//
//=============================================================================
//####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
// This file is part of eCos, the Embedded Configurable Operating System.
// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
//
// eCos is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free
// Software Foundation; either version 2 or (at your option) any later version.
//
// eCos is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or
// FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
// for more details.
//
// You should have received a copy of the GNU General Public License along
// with eCos; if not, write to the Free Software Foundation, Inc.,
// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
//
// As a special exception, if other files instantiate templates or use macros
// or inline functions from this file, or you compile this file and link it
// with other works to produce a work based on this file, this file does not
// by itself cause the resulting work to be covered by the GNU General Public
// License. However the source code for this file must still be made available
// in accordance with section (3) of the GNU General Public License.
//
// This exception does not invalidate any other reasons why a work based on
// this file might be covered by the GNU General Public License.
//
// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
// at http://sources.redhat.com/ecos/ecos-license/
// -------------------------------------------
//####ECOSGPLCOPYRIGHTEND####
//=============================================================================
//#####DESCRIPTIONBEGIN####
//
// Author(s):    nickg, gthomas
// Contributors: Fabrice Gautier
// Date:         1998-09-11
// Purpose:      Define IO register support
// Description:  The macros defined here provide the HAL APIs for handling
//               device IO control registers.
//              
// Usage:
//               #include <cyg/hal/hal_io.h>
//               ...
//              
//
//####DESCRIPTIONEND####
//
//=============================================================================
 
#include <pkgconf/system.h>
#include <cyg/infra/cyg_type.h>
 
#include <cyg/hal/basetype.h>
 
//-----------------------------------------------------------------------------
// Include plf_io.h for platforms. Either via var_io.h or directly.
#ifdef CYGBLD_HAL_ARM_VAR_IO_H
#include <cyg/hal/var_io.h>
#else
#include <cyg/hal/plf_io.h>
#endif
 
 
//-----------------------------------------------------------------------------
// IO Register address.
// This type is for recording the address of an IO register.
 
typedef volatile CYG_ADDRWORD HAL_IO_REGISTER;
 
//-----------------------------------------------------------------------------
// HAL IO macros.
#ifndef HAL_IO_MACROS_DEFINED
 
//-----------------------------------------------------------------------------
// BYTE Register access.
// Individual and vectorized access to 8 bit registers.
 
// Little-endian version
#if (CYG_BYTEORDER == CYG_LSBFIRST)
 
#define HAL_READ_UINT8( _register_, _value_ ) \
        ((_value_) = *((volatile CYG_BYTE *)(_register_)))
 
#define HAL_WRITE_UINT8( _register_, _value_ ) \
        (*((volatile CYG_BYTE *)(_register_)) = (_value_))
 
#define HAL_READ_UINT8_VECTOR( _register_, _buf_, _count_, _step_ )     \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        (_buf_)[_i_] = ((volatile CYG_BYTE *)(_register_))[_j_];        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT8_VECTOR( _register_, _buf_, _count_, _step_ )    \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        ((volatile CYG_BYTE *)(_register_))[_j_] = (_buf_)[_i_];        \
    CYG_MACRO_END
 
#define HAL_READ_UINT8_STRING( _register_, _buf_, _count_ )             \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        (_buf_)[_i_] = ((volatile CYG_BYTE *)(_register_))[_i_];        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT8_STRING( _register_, _buf_, _count_ )            \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        ((volatile CYG_BYTE *)(_register_)) = (_buf_)[_i_];             \
    CYG_MACRO_END
 
#else // Big-endian version
 
#define HAL_READ_UINT8( _register_, _value_ ) \
        ((_value_) = *((volatile CYG_BYTE *)((CYG_ADDRWORD)(_register_)^3)))
 
#define HAL_WRITE_UINT8( _register_, _value_ ) \
        (*((volatile CYG_BYTE *)((CYG_ADDRWORD)(_register_)^3)) = (_value_))
 
#define HAL_READ_UINT8_VECTOR( _register_, _buf_, _count_, _step_ )     \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3);            \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        (_buf_)[_i_] = _r_[_j_];                                        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT8_VECTOR( _register_, _buf_, _count_, _step_ )    \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3);            \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        _r_[_j_] = (_buf_)[_i_];                                        \
    CYG_MACRO_END
 
#define HAL_READ_UINT8_STRING( _register_, _buf_, _count_ )             \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3);            \
    for( _i_ = 0; _i_ < (_count_); _i_++;                               \
        (_buf_)[_i_] = _r_[_i_];                                        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT8_STRING( _register_, _buf_, _count_ )            \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3);            \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        _r_[_i_] = (_buf_)[_i_];                                        \
    CYG_MACRO_END
 
#endif // Big-endian
 
//-----------------------------------------------------------------------------
// 16 bit access.
// Individual and vectorized access to 16 bit registers.
 
// Little-endian version
#if (CYG_BYTEORDER == CYG_LSBFIRST)
 
#define HAL_READ_UINT16( _register_, _value_ ) \
        ((_value_) = *((volatile CYG_WORD16 *)(_register_)))
 
#define HAL_WRITE_UINT16( _register_, _value_ ) \
        (*((volatile CYG_WORD16 *)(_register_)) = (_value_))
 
#define HAL_READ_UINT16_VECTOR( _register_, _buf_, _count_, _step_ )    \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        (_buf_)[_i_] = ((volatile CYG_WORD16 *)(_register_))[_j_];      \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT16_VECTOR( _register_, _buf_, _count_, _step_ )   \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        ((volatile CYG_WORD16 *)(_register_))[_j_] = (_buf_)[_i_];      \
    CYG_MACRO_END
 
#define HAL_READ_UINT16_STRING( _register_, _buf_, _count_)             \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        (_buf_)[_i_] = ((volatile CYG_WORD16 *)(_register_))[_i_];      \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT16_STRING( _register_, _buf_, _count_)            \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        ((volatile CYG_WORD16 *)(_register_))[_i_] = (_buf_)[_i_];      \
    CYG_MACRO_END
 
 
#else // Big-endian version
 
#define HAL_READ_UINT16( _register_, _value_ ) \
        ((_value_) = *((volatile CYG_WORD16 *)((CYG_ADDRWORD)(_register_)^3)))
 
#define HAL_WRITE_UINT16( _register_, _value_ ) \
        (*((volatile CYG_WORD16 *)((CYG_ADDRWORD)(_register_)^3)) = (_value_))
 
#define HAL_READ_UINT16_VECTOR( _register_, _buf_, _count_, _step_ )    \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3);          \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        (_buf_)[_i_] = _r_[_j_];                                        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT16_VECTOR( _register_, _buf_, _count_, _step_ )   \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3);          \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        _r_[_j_] = (_buf_)[_i_];                                        \
    CYG_MACRO_END
 
#define HAL_READ_UINT16_STRING( _register_, _buf_, _count_)             \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3);          \
    for( _i_ = 0 = 0; _i_ < (_count_); _i_++)                           \
        (_buf_)[_i_] = _r_[_i_];                                        \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT16_STRING( _register_, _buf_, _count_)            \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3);          \
    for( _i_ = 0 = 0; _i_ < (_count_); _i_++)                           \
        _r_[_i_] = (_buf_)[_i_];                                        \
    CYG_MACRO_END
 
 
#endif // Big-endian
 
//-----------------------------------------------------------------------------
// 32 bit access.
// Individual and vectorized access to 32 bit registers.
 
// Note: same macros for little- and big-endian systems.
 
#define HAL_READ_UINT32( _register_, _value_ ) \
        ((_value_) = *((volatile CYG_WORD32 *)(_register_)))
 
#define HAL_WRITE_UINT32( _register_, _value_ ) \
        (*((volatile CYG_WORD32 *)(_register_)) = (_value_))
 
#define HAL_READ_UINT32_VECTOR( _register_, _buf_, _count_, _step_ )    \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        (_buf_)[_i_] = ((volatile CYG_WORD32 *)(_register_))[_j_];      \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT32_VECTOR( _register_, _buf_, _count_, _step_ )   \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_,_j_;                                                \
    for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_))     \
        ((volatile CYG_WORD32 *)(_register_))[_j_] = (_buf_)[_i_];      \
    CYG_MACRO_END
 
#define HAL_READ_UINT32_STRING( _register_, _buf_, _count_)             \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        (_buf_)[_i_] = ((volatile CYG_WORD32 *)(_register_))[_i_];      \
    CYG_MACRO_END
 
#define HAL_WRITE_UINT32_STRING( _register_, _buf_, _count_)            \
    CYG_MACRO_START                                                     \
    cyg_count32 _i_;                                                    \
    for( _i_ = 0; _i_ < (_count_); _i_++)                               \
        ((volatile CYG_WORD32 *)(_register_))[_i_] = (_buf_)[_i_];      \
    CYG_MACRO_END
 
 
#define HAL_IO_MACROS_DEFINED
 
#endif // !HAL_IO_MACROS_DEFINED
 
// Enforce a flow "barrier" to prevent optimizing compiler from reordering 
// operations.
#define HAL_IO_BARRIER()
 
//-----------------------------------------------------------------------------
#endif // ifndef CYGONCE_HAL_IO_H
// End of hal_io.h

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[/] [openrisc/] [trunk/] [rtos/] [ecos-2.0/] [packages/] [hal/] [arm/] [arch/] [v2_0/] [include/] [hal_io.h] - Blame information for rev 174

Line No.	Rev	Author	Line
1	27	unneback	`#ifndef CYGONCE_HAL_IO_H`
2			`#define CYGONCE_HAL_IO_H`
3
4			`//=============================================================================`
5			`//`
6			`// hal_io.h`
7			`//`
8			`// HAL device IO register support.`
9			`//`
10			`//=============================================================================`
11			`//####ECOSGPLCOPYRIGHTBEGIN####`
12			`// -------------------------------------------`
13			`// This file is part of eCos, the Embedded Configurable Operating System.`
14			`// Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.`
15			`//`
16			`// eCos is free software; you can redistribute it and/or modify it under`
17			`// the terms of the GNU General Public License as published by the Free`
18			`// Software Foundation; either version 2 or (at your option) any later version.`
19			`//`
20			`// eCos is distributed in the hope that it will be useful, but WITHOUT ANY`
21			`// WARRANTY; without even the implied warranty of MERCHANTABILITY or`
22			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
23			`// for more details.`
24			`//`
25			`// You should have received a copy of the GNU General Public License along`
26			`// with eCos; if not, write to the Free Software Foundation, Inc.,`
27			`// 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.`
28			`//`
29			`// As a special exception, if other files instantiate templates or use macros`
30			`// or inline functions from this file, or you compile this file and link it`
31			`// with other works to produce a work based on this file, this file does not`
32			`// by itself cause the resulting work to be covered by the GNU General Public`
33			`// License. However the source code for this file must still be made available`
34			`// in accordance with section (3) of the GNU General Public License.`
35			`//`
36			`// This exception does not invalidate any other reasons why a work based on`
37			`// this file might be covered by the GNU General Public License.`
38			`//`
39			`// Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.`
40			`// at http://sources.redhat.com/ecos/ecos-license/`
41			`// -------------------------------------------`
42			`//####ECOSGPLCOPYRIGHTEND####`
43			`//=============================================================================`
44			`//#####DESCRIPTIONBEGIN####`
45			`//`
46			`// Author(s): nickg, gthomas`
47			`// Contributors: Fabrice Gautier`
48			`// Date: 1998-09-11`
49			`// Purpose: Define IO register support`
50			`// Description: The macros defined here provide the HAL APIs for handling`
51			`// device IO control registers.`
52			`//`
53			`// Usage:`
54			`// #include <cyg/hal/hal_io.h>`
55			`// ...`
56			`//`
57			`//`
58			`//####DESCRIPTIONEND####`
59			`//`
60			`//=============================================================================`
61
62			`#include <pkgconf/system.h>`
63			`#include <cyg/infra/cyg_type.h>`
64
65			`#include <cyg/hal/basetype.h>`
66
67			`//-----------------------------------------------------------------------------`
68			`// Include plf_io.h for platforms. Either via var_io.h or directly.`
69			`#ifdef CYGBLD_HAL_ARM_VAR_IO_H`
70			`#include <cyg/hal/var_io.h>`
71			`#else`
72			`#include <cyg/hal/plf_io.h>`
73			`#endif`
74
75
76			`//-----------------------------------------------------------------------------`
77			`// IO Register address.`
78			`// This type is for recording the address of an IO register.`
79
80			`typedef volatile CYG_ADDRWORD HAL_IO_REGISTER;`
81
82			`//-----------------------------------------------------------------------------`
83			`// HAL IO macros.`
84			`#ifndef HAL_IO_MACROS_DEFINED`
85
86			`//-----------------------------------------------------------------------------`
87			`// BYTE Register access.`
88			`// Individual and vectorized access to 8 bit registers.`
89
90			`// Little-endian version`
91			`#if (CYG_BYTEORDER == CYG_LSBFIRST)`
92
93			`#define HAL_READ_UINT8( _register_, _value_ ) \`
94			`((_value_) = ((volatile CYG_BYTE )(_register_)))`
95
96			`#define HAL_WRITE_UINT8( _register_, _value_ ) \`
97			`(((volatile CYG_BYTE )(_register_)) = (_value_))`
98
99			`#define HAL_READ_UINT8_VECTOR( _register_, _buf_, _count_, _step_ ) \`
100			`CYG_MACRO_START \`
101			`cyg_count32 _i_,_j_; \`
102			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
103			`(_buf_)[_i_] = ((volatile CYG_BYTE *)(_register_))[_j_]; \`
104			`CYG_MACRO_END`
105
106			`#define HAL_WRITE_UINT8_VECTOR( _register_, _buf_, _count_, _step_ ) \`
107			`CYG_MACRO_START \`
108			`cyg_count32 _i_,_j_; \`
109			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
110			`((volatile CYG_BYTE *)(_register_))[_j_] = (_buf_)[_i_]; \`
111			`CYG_MACRO_END`
112
113			`#define HAL_READ_UINT8_STRING( _register_, _buf_, _count_ ) \`
114			`CYG_MACRO_START \`
115			`cyg_count32 _i_; \`
116			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
117			`(_buf_)[_i_] = ((volatile CYG_BYTE *)(_register_))[_i_]; \`
118			`CYG_MACRO_END`
119
120			`#define HAL_WRITE_UINT8_STRING( _register_, _buf_, _count_ ) \`
121			`CYG_MACRO_START \`
122			`cyg_count32 _i_; \`
123			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
124			`((volatile CYG_BYTE *)(_register_)) = (_buf_)[_i_]; \`
125			`CYG_MACRO_END`
126
127			`#else // Big-endian version`
128
129			`#define HAL_READ_UINT8( _register_, _value_ ) \`
130			`((_value_) = ((volatile CYG_BYTE )((CYG_ADDRWORD)(_register_)^3)))`
131
132			`#define HAL_WRITE_UINT8( _register_, _value_ ) \`
133			`(((volatile CYG_BYTE )((CYG_ADDRWORD)(_register_)^3)) = (_value_))`
134
135			`#define HAL_READ_UINT8_VECTOR( _register_, _buf_, _count_, _step_ ) \`
136			`CYG_MACRO_START \`
137			`cyg_count32 _i_,_j_; \`
138			`volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
139			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
140			`(_buf_)[_i_] = _r_[_j_]; \`
141			`CYG_MACRO_END`
142
143			`#define HAL_WRITE_UINT8_VECTOR( _register_, _buf_, _count_, _step_ ) \`
144			`CYG_MACRO_START \`
145			`cyg_count32 _i_,_j_; \`
146			`volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
147			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
148			`_r_[_j_] = (_buf_)[_i_]; \`
149			`CYG_MACRO_END`
150
151			`#define HAL_READ_UINT8_STRING( _register_, _buf_, _count_ ) \`
152			`CYG_MACRO_START \`
153			`cyg_count32 _i_; \`
154			`volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
155			`for( _i_ = 0; _i_ < (_count_); _i_++; \`
156			`(_buf_)[_i_] = _r_[_i_]; \`
157			`CYG_MACRO_END`
158
159			`#define HAL_WRITE_UINT8_STRING( _register_, _buf_, _count_ ) \`
160			`CYG_MACRO_START \`
161			`cyg_count32 _i_; \`
162			`volatile CYG_BYTE* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
163			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
164			`_r_[_i_] = (_buf_)[_i_]; \`
165			`CYG_MACRO_END`
166
167			`#endif // Big-endian`
168
169			`//-----------------------------------------------------------------------------`
170			`// 16 bit access.`
171			`// Individual and vectorized access to 16 bit registers.`
172
173			`// Little-endian version`
174			`#if (CYG_BYTEORDER == CYG_LSBFIRST)`
175
176			`#define HAL_READ_UINT16( _register_, _value_ ) \`
177			`((_value_) = ((volatile CYG_WORD16 )(_register_)))`
178
179			`#define HAL_WRITE_UINT16( _register_, _value_ ) \`
180			`(((volatile CYG_WORD16 )(_register_)) = (_value_))`
181
182			`#define HAL_READ_UINT16_VECTOR( _register_, _buf_, _count_, _step_ ) \`
183			`CYG_MACRO_START \`
184			`cyg_count32 _i_,_j_; \`
185			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
186			`(_buf_)[_i_] = ((volatile CYG_WORD16 *)(_register_))[_j_]; \`
187			`CYG_MACRO_END`
188
189			`#define HAL_WRITE_UINT16_VECTOR( _register_, _buf_, _count_, _step_ ) \`
190			`CYG_MACRO_START \`
191			`cyg_count32 _i_,_j_; \`
192			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
193			`((volatile CYG_WORD16 *)(_register_))[_j_] = (_buf_)[_i_]; \`
194			`CYG_MACRO_END`
195
196			`#define HAL_READ_UINT16_STRING( _register_, _buf_, _count_) \`
197			`CYG_MACRO_START \`
198			`cyg_count32 _i_; \`
199			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
200			`(_buf_)[_i_] = ((volatile CYG_WORD16 *)(_register_))[_i_]; \`
201			`CYG_MACRO_END`
202
203			`#define HAL_WRITE_UINT16_STRING( _register_, _buf_, _count_) \`
204			`CYG_MACRO_START \`
205			`cyg_count32 _i_; \`
206			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
207			`((volatile CYG_WORD16 *)(_register_))[_i_] = (_buf_)[_i_]; \`
208			`CYG_MACRO_END`
209
210
211			`#else // Big-endian version`
212
213			`#define HAL_READ_UINT16( _register_, _value_ ) \`
214			`((_value_) = ((volatile CYG_WORD16 )((CYG_ADDRWORD)(_register_)^3)))`
215
216			`#define HAL_WRITE_UINT16( _register_, _value_ ) \`
217			`(((volatile CYG_WORD16 )((CYG_ADDRWORD)(_register_)^3)) = (_value_))`
218
219			`#define HAL_READ_UINT16_VECTOR( _register_, _buf_, _count_, _step_ ) \`
220			`CYG_MACRO_START \`
221			`cyg_count32 _i_,_j_; \`
222			`volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
223			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
224			`(_buf_)[_i_] = _r_[_j_]; \`
225			`CYG_MACRO_END`
226
227			`#define HAL_WRITE_UINT16_VECTOR( _register_, _buf_, _count_, _step_ ) \`
228			`CYG_MACRO_START \`
229			`cyg_count32 _i_,_j_; \`
230			`volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
231			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
232			`_r_[_j_] = (_buf_)[_i_]; \`
233			`CYG_MACRO_END`
234
235			`#define HAL_READ_UINT16_STRING( _register_, _buf_, _count_) \`
236			`CYG_MACRO_START \`
237			`cyg_count32 _i_; \`
238			`volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
239			`for( _i_ = 0 = 0; _i_ < (_count_); _i_++) \`
240			`(_buf_)[_i_] = _r_[_i_]; \`
241			`CYG_MACRO_END`
242
243			`#define HAL_WRITE_UINT16_STRING( _register_, _buf_, _count_) \`
244			`CYG_MACRO_START \`
245			`cyg_count32 _i_; \`
246			`volatile CYG_WORD16* _r_ = ((CYG_ADDRWORD)(_register_)^3); \`
247			`for( _i_ = 0 = 0; _i_ < (_count_); _i_++) \`
248			`_r_[_i_] = (_buf_)[_i_]; \`
249			`CYG_MACRO_END`
250
251
252			`#endif // Big-endian`
253
254			`//-----------------------------------------------------------------------------`
255			`// 32 bit access.`
256			`// Individual and vectorized access to 32 bit registers.`
257
258			`// Note: same macros for little- and big-endian systems.`
259
260			`#define HAL_READ_UINT32( _register_, _value_ ) \`
261			`((_value_) = ((volatile CYG_WORD32 )(_register_)))`
262
263			`#define HAL_WRITE_UINT32( _register_, _value_ ) \`
264			`(((volatile CYG_WORD32 )(_register_)) = (_value_))`
265
266			`#define HAL_READ_UINT32_VECTOR( _register_, _buf_, _count_, _step_ ) \`
267			`CYG_MACRO_START \`
268			`cyg_count32 _i_,_j_; \`
269			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
270			`(_buf_)[_i_] = ((volatile CYG_WORD32 *)(_register_))[_j_]; \`
271			`CYG_MACRO_END`
272
273			`#define HAL_WRITE_UINT32_VECTOR( _register_, _buf_, _count_, _step_ ) \`
274			`CYG_MACRO_START \`
275			`cyg_count32 _i_,_j_; \`
276			`for( _i_ = 0, _j_ = 0; _i_ < (_count_); _i_++, _j_ += (_step_)) \`
277			`((volatile CYG_WORD32 *)(_register_))[_j_] = (_buf_)[_i_]; \`
278			`CYG_MACRO_END`
279
280			`#define HAL_READ_UINT32_STRING( _register_, _buf_, _count_) \`
281			`CYG_MACRO_START \`
282			`cyg_count32 _i_; \`
283			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
284			`(_buf_)[_i_] = ((volatile CYG_WORD32 *)(_register_))[_i_]; \`
285			`CYG_MACRO_END`
286
287			`#define HAL_WRITE_UINT32_STRING( _register_, _buf_, _count_) \`
288			`CYG_MACRO_START \`
289			`cyg_count32 _i_; \`
290			`for( _i_ = 0; _i_ < (_count_); _i_++) \`
291			`((volatile CYG_WORD32 *)(_register_))[_i_] = (_buf_)[_i_]; \`
292			`CYG_MACRO_END`
293
294
295			`#define HAL_IO_MACROS_DEFINED`
296
297			`#endif // !HAL_IO_MACROS_DEFINED`
298
299			`// Enforce a flow "barrier" to prevent optimizing compiler from reordering`
300			`// operations.`
301			`#define HAL_IO_BARRIER()`
302
303			`//-----------------------------------------------------------------------------`
304			`#endif // ifndef CYGONCE_HAL_IO_H`
305			`// End of hal_io.h`