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/*
* Generic Bit Block Transfer for frame buffers located in system RAM with
* packed pixels of any depth .
*
* Based almost entirely from cfbcopyarea . c ( which is based almost entirely
* on Geert Uytterhoeven ' s copyarea routine )
*
* Copyright ( C ) 2007 Antonino Daplas < adaplas @ pol . net >
*
* This file is subject to the terms and conditions of the GNU General Public
* License . See the file COPYING in the main directory of this archive for
* more details .
*
*/
# include <linux/module.h>
# include <linux/kernel.h>
# include <linux/string.h>
# include <linux/fb.h>
# include <asm/types.h>
# include <asm/io.h>
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# include "fb_draw.h"
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/*
* Generic bitwise copy algorithm
*/
static void
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bitcpy ( struct fb_info * p , unsigned long * dst , int dst_idx ,
const unsigned long * src , int src_idx , int bits , unsigned n )
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{
unsigned long first , last ;
int const shift = dst_idx - src_idx ;
int left , right ;
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first = FB_SHIFT_HIGH ( p , ~ 0UL , dst_idx ) ;
last = ~ ( FB_SHIFT_HIGH ( p , ~ 0UL , ( dst_idx + n ) % bits ) ) ;
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if ( ! shift ) {
/* Same alignment for source and dest */
if ( dst_idx + n < = bits ) {
/* Single word */
if ( last )
first & = last ;
* dst = comp ( * src , * dst , first ) ;
} else {
/* Multiple destination words */
/* Leading bits */
if ( first ! = ~ 0UL ) {
* dst = comp ( * src , * dst , first ) ;
dst + + ;
src + + ;
n - = bits - dst_idx ;
}
/* Main chunk */
n / = bits ;
while ( n > = 8 ) {
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
* dst + + = * src + + ;
n - = 8 ;
}
while ( n - - )
* dst + + = * src + + ;
/* Trailing bits */
if ( last )
* dst = comp ( * src , * dst , last ) ;
}
} else {
unsigned long d0 , d1 ;
int m ;
/* Different alignment for source and dest */
right = shift & ( bits - 1 ) ;
left = - shift & ( bits - 1 ) ;
if ( dst_idx + n < = bits ) {
/* Single destination word */
if ( last )
first & = last ;
if ( shift > 0 ) {
/* Single source word */
* dst = comp ( * src > > right , * dst , first ) ;
} else if ( src_idx + n < = bits ) {
/* Single source word */
* dst = comp ( * src < < left , * dst , first ) ;
} else {
/* 2 source words */
d0 = * src + + ;
d1 = * src ;
* dst = comp ( d0 < < left | d1 > > right , * dst ,
first ) ;
}
} else {
/* Multiple destination words */
/** We must always remember the last value read,
because in case SRC and DST overlap bitwise ( e . g .
when moving just one pixel in 1 bpp ) , we always
collect one full long for DST and that might
overlap with the current long from SRC . We store
this value in ' d0 ' . */
d0 = * src + + ;
/* Leading bits */
if ( shift > 0 ) {
/* Single source word */
* dst = comp ( d0 > > right , * dst , first ) ;
dst + + ;
n - = bits - dst_idx ;
} else {
/* 2 source words */
d1 = * src + + ;
* dst = comp ( d0 < < left | * dst > > right , * dst , first ) ;
d0 = d1 ;
dst + + ;
n - = bits - dst_idx ;
}
/* Main chunk */
m = n % bits ;
n / = bits ;
while ( n > = 4 ) {
d1 = * src + + ;
* dst + + = d0 < < left | d1 > > right ;
d0 = d1 ;
d1 = * src + + ;
* dst + + = d0 < < left | d1 > > right ;
d0 = d1 ;
d1 = * src + + ;
* dst + + = d0 < < left | d1 > > right ;
d0 = d1 ;
d1 = * src + + ;
* dst + + = d0 < < left | d1 > > right ;
d0 = d1 ;
n - = 4 ;
}
while ( n - - ) {
d1 = * src + + ;
* dst + + = d0 < < left | d1 > > right ;
d0 = d1 ;
}
/* Trailing bits */
if ( last ) {
if ( m < = right ) {
/* Single source word */
* dst = comp ( d0 < < left , * dst , last ) ;
} else {
/* 2 source words */
d1 = * src ;
* dst = comp ( d0 < < left | d1 > > right ,
* dst , last ) ;
}
}
}
}
}
/*
* Generic bitwise copy algorithm , operating backward
*/
static void
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bitcpy_rev ( struct fb_info * p , unsigned long * dst , int dst_idx ,
const unsigned long * src , int src_idx , int bits , unsigned n )
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{
unsigned long first , last ;
int shift ;
dst + = ( n - 1 ) / bits ;
src + = ( n - 1 ) / bits ;
if ( ( n - 1 ) % bits ) {
dst_idx + = ( n - 1 ) % bits ;
dst + = dst_idx > > ( ffs ( bits ) - 1 ) ;
dst_idx & = bits - 1 ;
src_idx + = ( n - 1 ) % bits ;
src + = src_idx > > ( ffs ( bits ) - 1 ) ;
src_idx & = bits - 1 ;
}
shift = dst_idx - src_idx ;
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first = FB_SHIFT_LOW ( p , ~ 0UL , bits - 1 - dst_idx ) ;
last = ~ ( FB_SHIFT_LOW ( p , ~ 0UL , bits - 1 - ( ( dst_idx - n ) % bits ) ) ) ;
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if ( ! shift ) {
/* Same alignment for source and dest */
if ( ( unsigned long ) dst_idx + 1 > = n ) {
/* Single word */
if ( last )
first & = last ;
* dst = comp ( * src , * dst , first ) ;
} else {
/* Multiple destination words */
/* Leading bits */
if ( first ! = ~ 0UL ) {
* dst = comp ( * src , * dst , first ) ;
dst - - ;
src - - ;
n - = dst_idx + 1 ;
}
/* Main chunk */
n / = bits ;
while ( n > = 8 ) {
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
* dst - - = * src - - ;
n - = 8 ;
}
while ( n - - )
* dst - - = * src - - ;
/* Trailing bits */
if ( last )
* dst = comp ( * src , * dst , last ) ;
}
} else {
/* Different alignment for source and dest */
int const left = - shift & ( bits - 1 ) ;
int const right = shift & ( bits - 1 ) ;
if ( ( unsigned long ) dst_idx + 1 > = n ) {
/* Single destination word */
if ( last )
first & = last ;
if ( shift < 0 ) {
/* Single source word */
* dst = comp ( * src < < left , * dst , first ) ;
} else if ( 1 + ( unsigned long ) src_idx > = n ) {
/* Single source word */
* dst = comp ( * src > > right , * dst , first ) ;
} else {
/* 2 source words */
* dst = comp ( * src > > right | * ( src - 1 ) < < left ,
* dst , first ) ;
}
} else {
/* Multiple destination words */
/** We must always remember the last value read,
because in case SRC and DST overlap bitwise ( e . g .
when moving just one pixel in 1 bpp ) , we always
collect one full long for DST and that might
overlap with the current long from SRC . We store
this value in ' d0 ' . */
unsigned long d0 , d1 ;
int m ;
d0 = * src - - ;
/* Leading bits */
if ( shift < 0 ) {
/* Single source word */
* dst = comp ( d0 < < left , * dst , first ) ;
} else {
/* 2 source words */
d1 = * src - - ;
* dst = comp ( d0 > > right | d1 < < left , * dst ,
first ) ;
d0 = d1 ;
}
dst - - ;
n - = dst_idx + 1 ;
/* Main chunk */
m = n % bits ;
n / = bits ;
while ( n > = 4 ) {
d1 = * src - - ;
* dst - - = d0 > > right | d1 < < left ;
d0 = d1 ;
d1 = * src - - ;
* dst - - = d0 > > right | d1 < < left ;
d0 = d1 ;
d1 = * src - - ;
* dst - - = d0 > > right | d1 < < left ;
d0 = d1 ;
d1 = * src - - ;
* dst - - = d0 > > right | d1 < < left ;
d0 = d1 ;
n - = 4 ;
}
while ( n - - ) {
d1 = * src - - ;
* dst - - = d0 > > right | d1 < < left ;
d0 = d1 ;
}
/* Trailing bits */
if ( last ) {
if ( m < = left ) {
/* Single source word */
* dst = comp ( d0 > > right , * dst , last ) ;
} else {
/* 2 source words */
d1 = * src ;
* dst = comp ( d0 > > right | d1 < < left ,
* dst , last ) ;
}
}
}
}
}
void sys_copyarea ( struct fb_info * p , const struct fb_copyarea * area )
{
u32 dx = area - > dx , dy = area - > dy , sx = area - > sx , sy = area - > sy ;
u32 height = area - > height , width = area - > width ;
unsigned long const bits_per_line = p - > fix . line_length * 8u ;
unsigned long * dst = NULL , * src = NULL ;
int bits = BITS_PER_LONG , bytes = bits > > 3 ;
int dst_idx = 0 , src_idx = 0 , rev_copy = 0 ;
if ( p - > state ! = FBINFO_STATE_RUNNING )
return ;
/* if the beginning of the target area might overlap with the end of
the source area , be have to copy the area reverse . */
if ( ( dy = = sy & & dx > sx ) | | ( dy > sy ) ) {
dy + = height ;
sy + = height ;
rev_copy = 1 ;
}
/* split the base of the framebuffer into a long-aligned address and
the index of the first bit */
dst = src = ( unsigned long * ) ( ( unsigned long ) p - > screen_base &
~ ( bytes - 1 ) ) ;
dst_idx = src_idx = 8 * ( ( unsigned long ) p - > screen_base & ( bytes - 1 ) ) ;
/* add offset of source and target area */
dst_idx + = dy * bits_per_line + dx * p - > var . bits_per_pixel ;
src_idx + = sy * bits_per_line + sx * p - > var . bits_per_pixel ;
if ( p - > fbops - > fb_sync )
p - > fbops - > fb_sync ( p ) ;
if ( rev_copy ) {
while ( height - - ) {
dst_idx - = bits_per_line ;
src_idx - = bits_per_line ;
dst + = dst_idx > > ( ffs ( bits ) - 1 ) ;
dst_idx & = ( bytes - 1 ) ;
src + = src_idx > > ( ffs ( bits ) - 1 ) ;
src_idx & = ( bytes - 1 ) ;
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bitcpy_rev ( p , dst , dst_idx , src , src_idx , bits ,
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width * p - > var . bits_per_pixel ) ;
}
} else {
while ( height - - ) {
dst + = dst_idx > > ( ffs ( bits ) - 1 ) ;
dst_idx & = ( bytes - 1 ) ;
src + = src_idx > > ( ffs ( bits ) - 1 ) ;
src_idx & = ( bytes - 1 ) ;
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bitcpy ( p , dst , dst_idx , src , src_idx , bits ,
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width * p - > var . bits_per_pixel ) ;
dst_idx + = bits_per_line ;
src_idx + = bits_per_line ;
}
}
}
EXPORT_SYMBOL ( sys_copyarea ) ;
MODULE_AUTHOR ( " Antonino Daplas <adaplas@pol.net> " ) ;
MODULE_DESCRIPTION ( " Generic copyarea (sys-to-sys) " ) ;
MODULE_LICENSE ( " GPL " ) ;