sane-project-backends/backend/gt68xx_mid.c

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C
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/* sane - Scanner Access Now Easy.
Copyright (C) 2002 Sergey Vlasov <vsu@altlinux.ru>
Copyright (C) 2002 Henning Meier-Geinitz <henning@meier-geinitz.de>
This file is part of the SANE package.
This program 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 of the
License, or (at your option) any later version.
This program 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 this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston,
MA 02111-1307, USA.
As a special exception, the authors of SANE give permission for
additional uses of the libraries contained in this release of SANE.
The exception is that, if you link a SANE library with other files
to produce an executable, this does not by itself cause the
resulting executable to be covered by the GNU General Public
License. Your use of that executable is in no way restricted on
account of linking the SANE library code into it.
This exception does not, however, invalidate any other reasons why
the executable file might be covered by the GNU General Public
License.
If you submit changes to SANE to the maintainers to be included in
a subsequent release, you agree by submitting the changes that
those changes may be distributed with this exception intact.
If you write modifications of your own for SANE, it is your choice
whether to permit this exception to apply to your modifications.
If you do not wish that, delete this exception notice.
*/
#include "gt68xx_mid.h"
#include "gt68xx_low.c"
/** @file
* @brief Image data unpacking.
*/
static SANE_Status
gt68xx_delay_buffer_init (GT68xx_Delay_Buffer * delay,
SANE_Int pixels_per_line, SANE_Int delay_count)
{
SANE_Int bytes_per_line;
SANE_Int line_count, i;
if (pixels_per_line <= 0)
{
DBG (3, "gt68xx_delay_buffer_init: BUG: pixels_per_line=%d\n",
pixels_per_line);
return SANE_STATUS_INVAL;
}
if (delay_count < 0)
{
DBG (3, "gt68xx_delay_buffer_init: BUG: delay_count=%d\n", delay_count);
return SANE_STATUS_INVAL;
}
bytes_per_line = pixels_per_line * sizeof (unsigned int);
delay->line_count = line_count = delay_count + 1;
delay->read_index = 0;
delay->write_index = delay_count;
delay->mem_block = (SANE_Byte *) malloc (bytes_per_line * line_count);
if (!delay->mem_block)
{
DBG (3, "gt68xx_delay_buffer_init: no memory for delay block\n");
return SANE_STATUS_NO_MEM;
}
/* make sure that we will see if one of the unitialized lines get displayed */
for (i = 0; i < bytes_per_line * line_count; i++)
delay->mem_block[i] = i % 256;
delay->lines =
(unsigned int **) malloc (sizeof (unsigned int *) * line_count);
if (!delay->lines)
{
free (delay->mem_block);
DBG (3, "gt68xx_delay_buffer_init: no memory for delay line pointers\n");
return SANE_STATUS_NO_MEM;
}
for (i = 0; i < line_count; ++i)
delay->lines[i] =
(unsigned int *) (delay->mem_block + i * bytes_per_line);
return SANE_STATUS_GOOD;
}
static SANE_Status
gt68xx_delay_buffer_done (GT68xx_Delay_Buffer * delay)
{
if (delay->lines)
{
free (delay->lines);
delay->lines = NULL;
}
if (delay->mem_block)
{
free (delay->mem_block);
delay->mem_block = NULL;
}
return SANE_STATUS_GOOD;
}
#define DELAY_BUFFER_WRITE_PTR(delay) ( (delay)->lines[(delay)->write_index] )
#define DELAY_BUFFER_SELECT_PTR(delay,dist) \
((delay)->lines[((delay)->read_index + (dist)) % (delay)->line_count])
#define DELAY_BUFFER_READ_PTR(delay) ( (delay)->lines[(delay)->read_index ] )
#define DELAY_BUFFER_STEP(delay) \
do \
{ \
(delay)->read_index = ((delay)->read_index + 1) % (delay)->line_count; \
(delay)->write_index = ((delay)->write_index + 1) % (delay)->line_count; \
} \
while (SANE_FALSE)
static inline void
unpack_8_mono (SANE_Byte * src, unsigned int *dst, SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; ++src, ++dst, --pixels_per_line)
{
*dst = (((unsigned int) *src) << 8) | *src;
}
}
static inline void
unpack_8_rgb (SANE_Byte * src, unsigned int *dst, SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; src += 3, ++dst, --pixels_per_line)
{
*dst = (((unsigned int) *src) << 8) | *src;
}
}
/* 12-bit routines use the fact that pixels_per_line is aligned */
static inline void
unpack_12_le_mono (SANE_Byte * src, unsigned int *dst,
SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; src += 3, dst += 2, pixels_per_line -= 2)
{
dst[0] = ((((unsigned int) (src[1] & 0x0f)) << 12)
| (((unsigned int) src[0]) << 4) | (src[1] & 0x0f));
dst[1] = ((((unsigned int) src[2]) << 8)
| (src[1] & 0xf0) | (((unsigned int) src[2]) >> 0x04));
}
}
static inline void
unpack_12_le_rgb (SANE_Byte * src,
unsigned int *dst1,
unsigned int *dst2,
unsigned int *dst3, SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; pixels_per_line -= 2)
{
*dst1++ = ((((unsigned int) (src[1] & 0x0f)) << 12)
| (((unsigned int) src[0]) << 4) | (src[1] & 0x0f));
*dst2++ = ((((unsigned int) src[2]) << 8)
| (src[1] & 0xf0) | (((unsigned int) src[2]) >> 0x04));
src += 3;
*dst3++ = ((((unsigned int) (src[1] & 0x0f)) << 12)
| (((unsigned int) src[0]) << 4) | (src[1] & 0x0f));
*dst1++ = ((((unsigned int) src[2]) << 8)
| (src[1] & 0xf0) | (((unsigned int) src[2]) >> 0x04));
src += 3;
*dst2++ = ((((unsigned int) (src[1] & 0x0f)) << 12)
| (((unsigned int) src[0]) << 4) | (src[1] & 0x0f));
*dst3++ = ((((unsigned int) src[2]) << 8)
| (src[1] & 0xf0) | (((unsigned int) src[2]) >> 0x04));
src += 3;
}
}
static inline void
unpack_16_le_mono (SANE_Byte * src, unsigned int *dst,
SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; src += 2, dst++, --pixels_per_line)
{
*dst = (((unsigned int) src[1]) << 8) | src[0];
}
}
static inline void
unpack_16_le_rgb (SANE_Byte * src, unsigned int *dst,
SANE_Int pixels_per_line)
{
for (; pixels_per_line > 0; src += 6, ++dst, --pixels_per_line)
{
*dst = (((unsigned int) src[1]) << 8) | src[0];
}
}
static SANE_Status
line_read_gray_8 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[0] = buffer;
unpack_8_mono (reader->pixel_buffer, buffer, reader->pixels_per_line);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_gray_double_8 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
int i;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
unpack_8_mono (reader->pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
reader->pixels_per_line);
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
buffer[i] = DELAY_BUFFER_WRITE_PTR (&reader->g_delay)[i];
buffer_pointers_return[0] = buffer;
DELAY_BUFFER_STEP (&reader->g_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_gray_12 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[0] = buffer;
unpack_12_le_mono (reader->pixel_buffer, buffer, reader->pixels_per_line);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_gray_double_12 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
int i;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
unpack_12_le_mono (reader->pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
reader->pixels_per_line);
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
buffer[i] = DELAY_BUFFER_WRITE_PTR (&reader->g_delay)[i];
buffer_pointers_return[0] = buffer;
DELAY_BUFFER_STEP (&reader->g_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_gray_16 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[0] = buffer;
unpack_16_le_mono (reader->pixel_buffer, buffer, reader->pixels_per_line);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_gray_double_16 (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
unsigned int *buffer;
int i;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, reader->pixel_buffer, &size));
unpack_16_le_mono (reader->pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
reader->pixels_per_line);
buffer = DELAY_BUFFER_READ_PTR (&reader->g_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
buffer[i] = DELAY_BUFFER_WRITE_PTR (&reader->g_delay)[i];
buffer_pointers_return[0] = buffer;
DELAY_BUFFER_STEP (&reader->g_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_8_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay), pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_double_8_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
int i;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay), pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
{
DELAY_BUFFER_READ_PTR (&reader->r_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->r_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->g_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->g_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->b_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->b_delay,
reader->params.ld_shift_double)[i];
}
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_8_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay), pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_8_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay), pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_12_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_double_12_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
int i;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
{
DELAY_BUFFER_READ_PTR (&reader->r_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->r_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->g_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->g_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->b_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->b_delay,
reader->params.ld_shift_double)[i];
}
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_16_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_double_16_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
int i;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
for (i = reader->params.double_column; i < reader->pixels_per_line; i += 2)
{
DELAY_BUFFER_READ_PTR (&reader->r_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->r_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->g_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->g_delay,
reader->params.ld_shift_double)[i];
DELAY_BUFFER_READ_PTR (&reader->b_delay)[i] =
DELAY_BUFFER_SELECT_PTR (&reader->b_delay,
reader->params.ld_shift_double)[i];
}
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_12_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_12_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_16_line_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl * 3;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += reader->params.scan_bpl;
unpack_16_le_mono (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_8_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay), pixels_per_line);
++pixel_buffer;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay), pixels_per_line);
++pixel_buffer;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay), pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_12_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
unpack_12_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
reader->pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_rgb_16_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
pixel_buffer += 2;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += 2;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_8_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay), pixels_per_line);
++pixel_buffer;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay), pixels_per_line);
++pixel_buffer;
unpack_8_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay), pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_12_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
unpack_12_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
reader->pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
line_read_bgr_16_pixel_mode (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
size_t size;
SANE_Int pixels_per_line;
SANE_Byte *pixel_buffer = reader->pixel_buffer;
size = reader->params.scan_bpl;
RIE (gt68xx_device_read (reader->dev, pixel_buffer, &size));
pixels_per_line = reader->pixels_per_line;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->b_delay),
pixels_per_line);
pixel_buffer += 2;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->g_delay),
pixels_per_line);
pixel_buffer += 2;
unpack_16_le_rgb (pixel_buffer,
DELAY_BUFFER_WRITE_PTR (&reader->r_delay),
pixels_per_line);
buffer_pointers_return[0] = DELAY_BUFFER_READ_PTR (&reader->r_delay);
buffer_pointers_return[1] = DELAY_BUFFER_READ_PTR (&reader->g_delay);
buffer_pointers_return[2] = DELAY_BUFFER_READ_PTR (&reader->b_delay);
DELAY_BUFFER_STEP (&reader->r_delay);
DELAY_BUFFER_STEP (&reader->g_delay);
DELAY_BUFFER_STEP (&reader->b_delay);
return SANE_STATUS_GOOD;
}
static SANE_Status
gt68xx_line_reader_init_delays (GT68xx_Line_Reader * reader)
{
SANE_Status status;
if (reader->params.color)
{
status = gt68xx_delay_buffer_init (&reader->r_delay,
reader->params.scan_xs,
reader->params.ld_shift_r +
reader->params.ld_shift_double);
if (status != SANE_STATUS_GOOD)
return status;
status = gt68xx_delay_buffer_init (&reader->g_delay,
reader->params.scan_xs,
reader->params.ld_shift_g +
reader->params.ld_shift_double);
if (status != SANE_STATUS_GOOD)
{
gt68xx_delay_buffer_done (&reader->r_delay);
return status;
}
status = gt68xx_delay_buffer_init (&reader->b_delay,
reader->params.scan_xs,
reader->params.ld_shift_b +
reader->params.ld_shift_double);
if (status != SANE_STATUS_GOOD)
{
gt68xx_delay_buffer_done (&reader->g_delay);
gt68xx_delay_buffer_done (&reader->r_delay);
return status;
}
}
else
{
status = gt68xx_delay_buffer_init (&reader->g_delay,
reader->params.scan_xs,
reader->params.ld_shift_double);
if (status != SANE_STATUS_GOOD)
return status;
}
reader->delays_initialized = SANE_TRUE;
return SANE_STATUS_GOOD;
}
static void
gt68xx_line_reader_free_delays (GT68xx_Line_Reader * reader)
{
if (reader->delays_initialized)
{
if (reader->params.color)
{
gt68xx_delay_buffer_done (&reader->b_delay);
gt68xx_delay_buffer_done (&reader->g_delay);
gt68xx_delay_buffer_done (&reader->r_delay);
}
else
{
gt68xx_delay_buffer_done (&reader->g_delay);
}
reader->delays_initialized = SANE_FALSE;
}
}
SANE_Status
gt68xx_line_reader_new (GT68xx_Device * dev,
GT68xx_Scan_Parameters * params,
SANE_Bool final_scan,
GT68xx_Line_Reader ** reader_return)
{
SANE_Status status;
GT68xx_Line_Reader *reader;
SANE_Int image_size;
SANE_Int scan_bpl_full;
DBG (6, "gt68xx_line_reader_new: enter\n");
*reader_return = NULL;
reader = (GT68xx_Line_Reader *) malloc (sizeof (GT68xx_Line_Reader));
if (!reader)
{
DBG (3, "gt68xx_line_reader_new: cannot allocate GT68xx_Line_Reader\n");
return SANE_STATUS_NO_MEM;
}
memset (reader, 0, sizeof (GT68xx_Line_Reader));
reader->dev = dev;
memcpy (&reader->params, params, sizeof (GT68xx_Scan_Parameters));
reader->pixel_buffer = 0;
reader->delays_initialized = SANE_FALSE;
reader->read = NULL;
status = gt68xx_line_reader_init_delays (reader);
if (status != SANE_STATUS_GOOD)
{
DBG (3, "gt68xx_line_reader_new: cannot allocate line buffers: %s\n",
sane_strstatus (status));
free (reader);
return status;
}
reader->pixels_per_line = reader->params.pixel_xs;
if (!reader->params.color)
{
if (reader->params.depth == 8)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_gray_double_8;
else
reader->read = line_read_gray_8;
}
else if (reader->params.depth == 12)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_gray_double_12;
else
reader->read = line_read_gray_12;
}
else if (reader->params.depth == 16)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_gray_double_16;
else
reader->read = line_read_gray_16;
}
}
else if (reader->params.line_mode)
{
if (reader->params.depth == 8)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_rgb_double_8_line_mode;
else
reader->read = line_read_rgb_8_line_mode;
}
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_8_line_mode;
}
else if (reader->params.depth == 12)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_rgb_double_12_line_mode;
else
reader->read = line_read_rgb_12_line_mode;
}
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_12_line_mode;
}
else if (reader->params.depth == 16)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
{
if (reader->params.ld_shift_double > 0)
reader->read = line_read_rgb_double_16_line_mode;
else
reader->read = line_read_rgb_16_line_mode;
}
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_16_line_mode;
}
}
else
{
if (reader->params.depth == 8)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
reader->read = line_read_rgb_8_pixel_mode;
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_8_pixel_mode;
}
else if (reader->params.depth == 12)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
reader->read = line_read_rgb_12_pixel_mode;
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_12_pixel_mode;
}
else if (reader->params.depth == 16)
{
if (dev->model->line_mode_color_order == COLOR_ORDER_RGB)
reader->read = line_read_rgb_16_pixel_mode;
else if (dev->model->line_mode_color_order == COLOR_ORDER_BGR)
reader->read = line_read_bgr_16_pixel_mode;
}
}
if (reader->read == NULL)
{
DBG (3, "gt68xx_line_reader_new: unsupported bit depth (%d)\n",
reader->params.depth);
gt68xx_line_reader_free_delays (reader);
free (reader);
return SANE_STATUS_UNSUPPORTED;
}
scan_bpl_full = reader->params.scan_bpl;
if (reader->params.color && reader->params.line_mode)
scan_bpl_full *= 3;
reader->pixel_buffer = malloc (scan_bpl_full);
if (!reader->pixel_buffer)
{
DBG (3, "gt68xx_line_reader_new: cannot allocate pixel buffer\n");
gt68xx_line_reader_free_delays (reader);
free (reader);
return SANE_STATUS_NO_MEM;
}
gt68xx_device_set_read_buffer_size (reader->dev,
scan_bpl_full /* * 200 */ );
image_size = reader->params.scan_bpl * reader->params.scan_ys;
status = gt68xx_device_read_prepare (reader->dev, image_size, final_scan);
if (status != SANE_STATUS_GOOD)
{
DBG (3, "gt68xx_line_reader_new: gt68xx_device_read_prepare failed: %s\n",
sane_strstatus (status));
free (reader->pixel_buffer);
gt68xx_line_reader_free_delays (reader);
free (reader);
return status;
}
DBG (6, "gt68xx_line_reader_new: leave: ok\n");
*reader_return = reader;
return SANE_STATUS_GOOD;
}
SANE_Status
gt68xx_line_reader_free (GT68xx_Line_Reader * reader)
{
SANE_Status status;
DBG (6, "gt68xx_line_reader_free: enter\n");
gt68xx_line_reader_free_delays (reader);
if (reader->pixel_buffer)
{
free (reader->pixel_buffer);
reader->pixel_buffer = NULL;
}
status = gt68xx_device_read_finish (reader->dev);
if (status != SANE_STATUS_GOOD)
{
DBG (3, "gt68xx_line_reader_free: gt68xx_device_read_finish failed: %s\n",
sane_strstatus (status));
}
free (reader);
DBG (6, "gt68xx_line_reader_free: leave\n");
return status;
}
SANE_Status
gt68xx_line_reader_read (GT68xx_Line_Reader * reader,
unsigned int **buffer_pointers_return)
{
SANE_Status status;
status = (*reader->read) (reader, buffer_pointers_return);
return status;
}
/* vim: set sw=2 cino=>2se-1sn-1s{s^-1st0(0u0 smarttab expandtab: */