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#include <cyg/infra/diag.h>
#ifndef CYGONCE_IO_FRAMEBUF_INL
#define CYGONCE_IO_FRAMEBUF_INL
//=============================================================================
//
// framebuf.inl
//
// Inline functions for manipulating linear framebuffers
//
//=============================================================================
// ####ECOSGPLCOPYRIGHTBEGIN####
// -------------------------------------------
// This file is part of eCos, the Embedded Configurable Operating System.
// Copyright (C) 2008 Free Software Foundation, 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.,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, 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 v2.
//
// This exception does not invalidate any other reasons why a work based
// on this file might be covered by the GNU General Public License.
// -------------------------------------------
// ####ECOSGPLCOPYRIGHTEND####
//=============================================================================
//####DESCRIPTIONBEGIN####
//
// Author(s): bartv
// Date: 2005-03-29
//####DESCRIPTIONEND####
//=============================================================================
// There are numerous ways of implementing the functions in this file.
// For example for depths >= 8 many operations can be performed using
// memset()/memcpy()/memmove(), or
// __builtin_memset()/__builtin_memcpy()/ memmove(), or by explicit
// direct accesses to framebuffer memory. The first of these can be
// discarded because the builtins are never worse than explicit
// function calls. The choice between the builtins and direct accesses
// is not so clear. On the one hand the library functions may well
// involve architecture-specific optimizations. On the other hand
// function calls are not free. This decision really needs to be taken
// on a per-architecture basis after careful measurements.
//
// A similar question arises regarding the handling of row numbers.
// One implementation involves multiplying by the width. Another
// involves keeping a table of pointers to the start of each row,
// avoiding a multiplication but adding a memory access. Again the
// trade off is not immediately obvious.
//
// For direct accesses the bus width is an issue. Typically the frame
// buffer will not be cached so the framebuffer memory accesses will
// account for much of the inner loop. For now 32-bit accesses are
// preferred. If the target has h/w support for 64-bit accesses that
// would improve performance, at the cost of extra code to handle
// alignments. If the video device is accessed via a 16-bit bus then
// it is assumed that the h/w will fix up 32->16 bit accesses faster
// than any s/w workaround.
//
// For now the code prefers builtins and multiplies.
#ifdef __cplusplus
extern "C" {
#endif
// ----------------------------------------------------------------------------
// Macro definitions for the pixel manipulation.
// Little-endian means pixel 0 occupies bit 0 within a byte
// Big-endian means pixel 0 occupies bit 7
#define CYG_FB_PIXELx_VARx_1LE( _fb_, _id_)
#define CYG_FB_PIXELx_SETx_1LE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_1LE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDx_1LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDx_1LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_1LE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_1LE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_1LE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_1LE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
#define CYG_FB_PIXELx_VARx_1BE( _fb_, _id_)
#define CYG_FB_PIXELx_SETx_1BE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_1BE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDXx_1BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDYx_1BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_1BE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_1BE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_1BE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_1BE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
#define CYG_FB_PIXELx_VARx_2LE( _fb_, _id_, _which_)
#define CYG_FB_PIXELx_SETx_2LE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_2LE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDx_2LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDx_2LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_2LE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_2LE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_2LE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_2LE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
#define CYG_FB_PIXELx_VARx_2BE( _fb_, _id_)
#define CYG_FB_PIXELx_SETx_2BE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_2BE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDXx_2BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDYx_2BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_2BE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_2BE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_2BE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_2BE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
#define CYG_FB_PIXELx_VARx_4LE( _fb_, _id_, _which_)
#define CYG_FB_PIXELx_SETx_4LE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_4LE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDx_4LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDx_4LE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_4LE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_4LE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_4LE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_4LE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
#define CYG_FB_PIXELx_VARx_4BE( _fb_, _id_)
#define CYG_FB_PIXELx_SETx_4BE( _fb_, _id_, _fbaddr_, _stride_, _x_, _y_)
#define CYG_FB_PIXELx_GETx_4BE( _fb_, _id_, _fbaddr_, _stride_, _x_ ,_y_)
#define CYG_FB_PIXELx_ADDXx_4BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_ADDYx_4BE( _fb_, _id_, _stride_, _incr_)
#define CYG_FB_PIXELx_WRITEx_4BE(_fb_, _id_, _colour_)
#define CYG_FB_PIXELx_READx_4BE( _fb_, _id_)
#define CYG_FB_PIXELx_FLUSHABS_4BE(_fb_, _which_, _x0_, _y0_, _x1_, _y1_)
#define CYG_FB_PIXELx_FLUSHREL_4BE(_fb_, _which_, _x0_, _y0_, _dx_, _dy_)
// ----------------------------------------------------------------------------
#define CYG_FB_PIXELx_VAR_8(_fb_, _which_) cyg_uint8* _cyg_fb_pixelpos8_ ## _fb_ ## _which_
#define CYG_FB_PIXELx_SET_8(_fb_, _which_, _fbaddr_, _stride_, _x_, _y_) \
CYG_MACRO_START \
_cyg_fb_pixelpos8_ ## _fb_ ## _which_ = (cyg_uint8*)_fbaddr_; \
_cyg_fb_pixelpos8_ ## _fb_ ## _which_ += ((_stride_) * (_y_)); \
_cyg_fb_pixelpos8_ ## _fb_ ## _which_ += (_x_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_GET_8(_fb_, _which_, _fbaddr_, _stride_, _x_ ,_y_) \
CYG_MACRO_START \
cyg_uint32 _offset_; \
_offset_ = (_cyg_fb_pixelpos8_ ## _fb_ ## _which_) - (cyg_uint8*)(_fbaddr_); \
_y_ = _offset_ / (_stride_); \
_x_ = _offset_ % (_stride_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDX_8(_fb_, _which_, _stride_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos8_ ## _fb_ ## _which_ += (_incr_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDY_8(_fb_, _which_, _stride_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos8_ ## _fb_ ## _which_ += ((_incr_) * (_stride_)); \
CYG_MACRO_END
#define CYG_FB_PIXELx_WRITE_8(_fb_, _which_, _colour_) \
CYG_MACRO_START \
* _cyg_fb_pixelpos8_ ## _fb_ ## _which_ = (_colour_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_READ_8(_fb_, _which_) ({ * _cyg_fb_pixelpos8_ ## _fb_ ## _which_; })
#define CYG_FB_PIXELx_FLUSHABS_8(_fb_, _which_, _x0_, _y0_, _x1_, _y1_) \
CYG_MACRO_START \
CYG_MACRO_END
#define CYG_FB_PIXELx_FLUSHREL_8(_fb_, _which_, _x0_, _y0_, _dx_, _dy_) \
CYG_MACRO_START \
CYG_MACRO_END
// ----------------------------------------------------------------------------
#define CYG_FB_PIXELx_VAR_16(_fb_, _which_) cyg_uint16* _cyg_fb_pixelpos16_ ## _fb_ ## _which_
#define CYG_FB_PIXELx_SET_16(_fb_, _which_, _fbaddr_, _stride8_, _x_, _y_) \
CYG_MACRO_START \
_cyg_fb_pixelpos16_ ## _fb_ ## _which_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + ((_stride8_) * (_y_)))) + (_x_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_GET_16(_fb_, _which_, _fbaddr_, _stride8_, _x_ ,_y_) \
CYG_MACRO_START \
cyg_ucount16 _stride_ = (_stride8_) >> 1; \
cyg_uint32 _offset_; \
_offset_ = (_cyg_fb_pixelpos16_ ## _fb_ ## _which_) - (cyg_uint16*)(_fbaddr_); \
_y_ = _offset_ / (_stride_); \
_x_ = _offset_ % (_stride_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDX_16(_fb_, _which_, _stride8_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos16_ ## _fb_ ## _which_ += (_incr_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDY_16(_fb_, _which_, _stride8_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos16_ ## _fb_ ## _which_ += ((_incr_) * ((_stride8_) >> 1)); \
CYG_MACRO_END
#define CYG_FB_PIXELx_WRITE_16(_fb_, _which_, _colour_) \
CYG_MACRO_START \
* _cyg_fb_pixelpos16_ ## _fb_ ## _which_ = (_colour_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_READ_16(_fb_, _which_) \
({ * _cyg_fb_pixelpos16_ ## _fb_ ## _which_; })
#define CYG_FB_PIXELx_FLUSHABS_16(_fb_, _which_, _x0_, _y0_, _x1_, _y1_) \
CYG_MACRO_START \
CYG_MACRO_END
#define CYG_FB_PIXELx_FLUSHREL_16(_fb_, _which_, _x0_, _y0_, _dx_, _dy_) \
CYG_MACRO_START \
CYG_MACRO_END
// ----------------------------------------------------------------------------
#define CYG_FB_PIXELx_VAR_32(_fb_, _which_) cyg_uint32* _cyg_fb_pixelpos32_ ## _fb_ ## _which_
#define CYG_FB_PIXELx_SET_32(_fb_, _which_, _fbaddr_, _stride8_, _x_, _y_) \
CYG_MACRO_START \
_cyg_fb_pixelpos32_ ## _fb_ ## _which_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + ((_stride8_) * (_y_)))) + (_x_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_GET_32(_fb_, _which_, _fbaddr_, _stride8_, _x_ ,_y_) \
CYG_MACRO_START \
cyg_ucount16 _stride_ = (_stride8_) >> 2; \
cyg_uint32 _offset_; \
_offset_ = (_cyg_fb_pixelpos32_ ## _fb_ ## _which_) - (cyg_uint32*)(_fbaddr_); \
_y_ = _offset_ / (_stride_); \
_x_ = _offset_ % (_stride_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDX_32(_fb_, _which_, _stride8_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos32_ ## _fb_ ## _which_ += (_incr_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_ADDY_32(_fb_, _which_, _stride8_, _incr_) \
CYG_MACRO_START \
_cyg_fb_pixelpos32_ ## _fb_ ## _which_ += ((_incr_) * ((_stride8_) >> 2)); \
CYG_MACRO_END
#define CYG_FB_PIXELx_WRITE_32(_fb_, _which_, _colour_) \
CYG_MACRO_START \
* _cyg_fb_pixelpos32_ ## _fb_ ## _which_ = (_colour_); \
CYG_MACRO_END
#define CYG_FB_PIXELx_READ_32(_fb_, _which_) ({ * _cyg_fb_pixelpos32_ ## _fb_ ## _which_; })
#define CYG_FB_PIXELx_FLUSHABS_32(_fb_, _which_, _x0_, _y0_, _x1_, _y1_) \
CYG_MACRO_START \
CYG_MACRO_END
#define CYG_FB_PIXELx_FLUSHREL_32(_fb_, _which_, _x0_, _y0_, _dx_, _dy_) \
CYG_MACRO_START \
CYG_MACRO_END
// ----------------------------------------------------------------------------
// Some of the functions could be speeded up by using 32-bit accesses
// instead of byte accesses, but that would introduce another endianness
// complication.
// The always_inline attribute must be a applied to a declaration, not a
// definition, so combine the two via a single macro.
#define CYG_FB_LINEAR_INLINE_FN(_type_, _name_, _args_) \
static __inline__ _type_ _name_ _args_ __attribute__((__always_inline__)); \
static __inline__ _type_ _name_ _args_
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_1LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0001 << (_x_ & 0x07);
if (_colour_) {
*_ptr8_ |= _mask_;
} else {
*_ptr8_ &= ~_mask_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_1BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0080 >> (_x_ & 0x07);
if (_colour_) {
*_ptr8_ |= _mask_;
} else {
*_ptr8_ &= ~_mask_;
}
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_1LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0001 << (_x_ & 0x07);
return (*_ptr8_ & _mask_) ? 1 : 0;
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_1BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0080 >> (_x_ & 0x07);
return (*_ptr8_ & _mask_) ? 1 : 0;
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_1LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0001 << (_x_ & 0x07);
if (_colour_) {
for ( ; _len_; _len_--) {
*_ptr8_ |= _mask_;
_ptr8_ += _stride_;
}
} else {
_mask_ = ~_mask_;
for ( ; _len_; _len_--) {
*_ptr8_ &= _mask_;
_ptr8_ += _stride_;
}
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_1BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 3);
cyg_uint8 _mask_ = 0x0080 >> (_x_ & 0x07);
if (_colour_) {
for ( ; _len_; _len_--) {
*_ptr8_ |= _mask_;
_ptr8_ += _stride_;
}
} else {
_mask_ = ~_mask_;
for ( ; _len_; _len_--) {
*_ptr8_ &= _mask_;
_ptr8_ += _stride_;
}
}
}
// ----------------------------------------------------------------------------
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_2LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = (_x_ & 0x03) << 1;
*_ptr8_ = (*_ptr8_ & ~(0x03 << _shift_)) | (_colour_ << _shift_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_2BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = 6 - ((_x_ & 0x03) << 1);
*_ptr8_ = (*_ptr8_ & ~(0x03 << _shift_)) | (_colour_ << _shift_);
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_2LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = (_x_ & 0x03) << 1;
return (*_ptr8_ >> _shift_) & 0x03;
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_2BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = 6 - ((_x_ & 0x03) << 1);
return (*_ptr8_ >> _shift_) & 0x03;
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_2LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = (_x_ & 0x03) << 1;
cyg_uint8 _mask_ = ~(0x03 << _shift_);
_colour_ <<= _shift_;
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & _mask_) | _colour_;
_ptr8_ += _stride_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_2BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
cyg_uint8 _shift_ = 6 - ((_x_ & 0x03) << 1);
cyg_uint8 _mask_ = ~(0x03 << _shift_);
_colour_ <<= _shift_;
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & _mask_) | _colour_;
_ptr8_ += _stride_;
}
}
// ----------------------------------------------------------------------------
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_4LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 1);
if (_x_ & 0x01) {
*_ptr8_ = (*_ptr8_ & 0x000F) | (_colour_ << 4);
} else {
*_ptr8_ = (*_ptr8_ & 0x00F0) | _colour_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_4BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 1);
if (_x_ & 0x01) {
*_ptr8_ = (*_ptr8_ & 0x00F0) | _colour_;
} else {
*_ptr8_ = (*_ptr8_ & 0x000F) | (_colour_ << 4);
}
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_4LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 1);
if (_x_ & 0x01) {
return (*_ptr8_ >> 4) & 0x000F;
} else {
return *_ptr8_ & 0x000F;
}
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_4BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 1);
if (_x_ & 0x01) {
return *_ptr8_ & 0x000F;
} else {
return (*_ptr8_ >> 4) & 0x000F;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_4LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
if (_x_ & 0x01) {
_colour_ <<= 4;
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & 0x000F) | _colour_;
_ptr8_ += _stride_;
}
} else {
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & 0x00F0) | _colour_;
}
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_4BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + (_x_ >> 2);
if (_x_ & 0x01) {
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & 0x00F0) | _colour_;
}
} else {
_colour_ <<= 4;
for ( ; _len_; _len_--) {
*_ptr8_ = (*_ptr8_ & 0x000F) | _colour_;
_ptr8_ += _stride_;
}
}
}
// ----------------------------------------------------------------------------
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
*_ptr8_ = _colour_;
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
return *_ptr8_;
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_hline_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
__builtin_memset(_ptr8_, _colour_, _len_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
for ( ; _len_; _len_--) {
*_ptr8_ = _colour_;
_ptr8_ += _stride_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_fill_block_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_, cyg_fb_colour _colour_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
for ( ; _height_; _height_--) {
__builtin_memset(_ptr8_, _colour_, _width_);
_ptr8_ += _stride_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_block_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
const void* _source_,
cyg_ucount16 _offset_, cyg_ucount16 _source_stride_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
cyg_uint8* _src8_ = ((cyg_uint8*) _source_) + _offset_;
for ( ; _height_; _height_--) {
__builtin_memcpy(_ptr8_, _src8_, _width_);
_ptr8_ += _stride_;
_src8_ += _source_stride_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_read_block_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
void* _dest_,
cyg_ucount16 _offset_, cyg_ucount16 _dest_stride_))
{
cyg_uint8* _ptr8_ = ((cyg_uint8*)_fbaddr_) + (_stride_ * _y_) + _x_;
cyg_uint8* _dst8_ = ((cyg_uint8*)_dest_) + _offset_;
for ( ; _height_; _height_--) {
__builtin_memcpy(_dst8_, _ptr8_, _width_);
_ptr8_ += _stride_;
_dst8_ += _dest_stride_;
}
}
// ----------------------------------------------------------------------------
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
*_ptr16_ = _colour_;
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
return *_ptr16_;
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_hline_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_uint32* _ptr32_;
cyg_bool _right_;
if (_x_ & 0x01) {
*_ptr16_++ = _colour_;
_len_ -= 1;
}
_ptr32_ = (cyg_uint32*) _ptr16_;
_colour_ |= (_colour_ << 16);
_right_ = (_len_ & 0x01);
for ( _len_ >>= 1; _len_; _len_--) {
*_ptr32_++ = _colour_;
}
if (_right_) {
*((cyg_uint16*)_ptr32_) = _colour_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
for ( ; _len_; _len_--) {
*_ptr16_ = _colour_;
_ptr16_ = (cyg_uint16*)(((cyg_uint8*)_ptr16_) + _stride8_);
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_fill_block_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_, cyg_fb_colour _colour_))
{
cyg_bool _left_, _right_;
cyg_uint16* _ptr16_;
cyg_uint32* _ptr32_;
cyg_ucount16 _stride32_;
_ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
_left_ = (_x_ & 0x01);
if (_left_) {
_width_ -= 1;
}
_right_ = (_width_ & 0x01);
if (_left_) {
_ptr32_ = (cyg_uint32*) &(_ptr16_[1]);
for (_y_ = _height_; _y_; _y_--) {
*_ptr16_ = _colour_;
_ptr16_ = (cyg_uint16*)(((cyg_uint8*)_ptr16_) + _stride8_);
}
} else {
_ptr32_ = (cyg_uint32*) _ptr16_;
}
_width_ >>= 1;
_stride32_ = _stride8_ - (_width_ << 2);
_colour_ |= (_colour_ << 16);
_ptr16_ = (cyg_uint16*) &(_ptr32_[_width_]);
for ( _y_ = _height_; _y_; _y_--) {
for ( _x_ = _width_; _x_; _x_--) {
*_ptr32_++ = _colour_;
}
_ptr32_ = (cyg_uint32*)(((cyg_uint8*)_ptr32_) + _stride32_);
}
if (_right_) {
for (_y_ = _height_; _y_; _y_--) {
*_ptr16_ = _colour_;
_ptr16_ = (cyg_uint16*)(((cyg_uint8*)_ptr16_) + _stride8_);
}
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_block_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
const void* _source_,
cyg_ucount16 _offset_, cyg_ucount16 _source_stride8_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_uint16* _src16_ = ((cyg_uint16*) _source_) + _offset_;
_width_ <<= 1;
for ( ; _height_; _height_--) {
__builtin_memcpy(_ptr16_, _src16_, _width_);
_ptr16_ = (cyg_uint16*)(((cyg_uint8*)_ptr16_) + _stride8_);
_src16_ = (cyg_uint16*)(((cyg_uint8*)_src16_) + _source_stride8_);
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_read_block_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
void* _dest_,
cyg_ucount16 _offset_, cyg_ucount16 _dest_stride8_))
{
cyg_uint16* _ptr16_ = ((cyg_uint16*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_uint16* _dst16_ = ((cyg_uint16*)_dest_) + _offset_;
_width_ <<= 1;
for ( ; _height_; _height_--) {
__builtin_memcpy(_dst16_, _ptr16_, _width_);
_ptr16_ = (cyg_uint16*)(((cyg_uint8*)_ptr16_) + _stride8_);
_dst16_ = (cyg_uint16*)(((cyg_uint8*)_dst16_) + _dest_stride8_);
}
}
// ----------------------------------------------------------------------------
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_pixel_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_fb_colour _colour_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
*_ptr32_ = _colour_;
}
CYG_FB_LINEAR_INLINE_FN(cyg_fb_colour,
cyg_fb_linear_read_pixel_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
return *_ptr32_;
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_hline_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
while (_len_--) {
*_ptr32_++ = _colour_;
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_vline_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_, cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _len_, cyg_fb_colour _colour_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
while (_len_--) {
*_ptr32_ = _colour_;
_ptr32_ = (cyg_uint32*)(((cyg_uint8*)_ptr32_) + _stride8_);
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_fill_block_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_, cyg_fb_colour _colour_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_ucount16 _len_;
_stride8_ -= (_width_ << 2);
for ( ; _height_; _height_--) {
for (_len_ = _width_; _len_; _len_--) {
*_ptr32_++ = _colour_;
}
_ptr32_ = (cyg_uint32*)(((cyg_uint8*)_ptr32_) + _stride8_);
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_write_block_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
const void* _source_,
cyg_ucount16 _offset_, cyg_ucount16 _source_stride8_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_uint32* _src32_ = ((cyg_uint32*) _source_) + _offset_;
_width_ <<= 2;
for ( ; _height_; _height_--) {
__builtin_memcpy(_ptr32_, _src32_, _width_);
_ptr32_ = (cyg_uint32*)(((cyg_uint8*)_ptr32_) + _stride8_);
_src32_ = (cyg_uint32*)(((cyg_uint8*)_src32_) + _source_stride8_);
}
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_read_block_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride8_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
void* _dest_,
cyg_ucount16 _offset_, cyg_ucount16 _dest_stride8_))
{
cyg_uint32* _ptr32_ = ((cyg_uint32*)(((cyg_uint8*)_fbaddr_) + (_stride8_ * _y_))) + _x_;
cyg_uint32* _dst32_ = ((cyg_uint32*)_dest_) + _offset_;
_width_ <<= 2;
for ( ; _height_; _height_--) {
__builtin_memcpy(_dst32_, _ptr32_, _width_);
_ptr32_ = (cyg_uint32*)(((cyg_uint8*)_ptr32_) + _stride8_);
_dst32_ = (cyg_uint32*)(((cyg_uint8*)_dst32_) + _dest_stride8_);
}
}
// ----------------------------------------------------------------------------
// The actual move block functions are not inlined, but it is convenient to
// have dummy _inl functions anyway.
extern void cyg_fb_linear_move_block_1LE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_1BE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_2LE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_2BE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_4LE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_4BE_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_8_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_16_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
extern void cyg_fb_linear_move_block_32_impl(void*, cyg_ucount16 /* stride */,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16,
cyg_ucount16, cyg_ucount16);
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_1LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_1LE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_1BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_1BE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_2LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_2LE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_2BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_2BE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_4LE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_4LE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_4BE_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_4BE_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_8_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_8_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_16_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_16_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
CYG_FB_LINEAR_INLINE_FN(void,
cyg_fb_linear_move_block_32_inl,
(void* _fbaddr_, cyg_ucount16 _stride_,
cyg_ucount16 _x_, cyg_ucount16 _y_, cyg_ucount16 _width_, cyg_ucount16 _height_,
cyg_ucount16 _new_x_, cyg_ucount16 _new_y_))
{
cyg_fb_linear_move_block_32_impl(_fbaddr_, _stride_, _x_, _y_, _width_, _height_, _new_x_, _new_y_);
}
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif // ifndef CYGONCE_IO_FRAMEBUF_H
// End of framebuf.h
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