sane-project-backends/backend/microtek.h

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C

/***************************************************************************
* SANE - Scanner Access Now Easy.
microtek.h
This file Copyright 2002 Matthew Marjanovic
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.
***************************************************************************
This file implements a SANE backend for Microtek scanners.
(feedback to: mtek-bugs@mir.com)
(for latest info: http://www.mir.com/mtek/)
***************************************************************************/
#ifndef microtek_h
#define microtek_h
#include <sys/types.h>
/*******************************************************************/
/***** enumeration of Option Descriptors *****/
/*******************************************************************/
enum Mtek_Option
{
OPT_NUM_OPTS = 0,
OPT_MODE_GROUP,
OPT_MODE, /* -a,b,c,g */
OPT_HALFTONE_PATTERN, /* -H */
OPT_RESOLUTION, /* -r */
OPT_EXP_RES,
OPT_NEGATIVE, /* -n */
OPT_SPEED, /* -v */
OPT_SOURCE, /* -t */
OPT_PREVIEW,
OPT_CALIB_ONCE,
OPT_GEOMETRY_GROUP, /* -f .... */
OPT_TL_X, /* top-left x */
OPT_TL_Y, /* top-left y */
OPT_BR_X, /* bottom-right x */
OPT_BR_Y, /* bottom-right y */
OPT_ENHANCEMENT_GROUP,
OPT_EXPOSURE,
OPT_BRIGHTNESS, /* -d */
OPT_CONTRAST, /* -k */
OPT_HIGHLIGHT, /* -l */
OPT_SHADOW, /* -s */
OPT_MIDTONE, /* -m */
OPT_GAMMA_GROUP,
OPT_CUSTOM_GAMMA,
OPT_ANALOG_GAMMA,
OPT_ANALOG_GAMMA_R,
OPT_ANALOG_GAMMA_G,
OPT_ANALOG_GAMMA_B,
/* "The gamma vectors MUST appear in the order gray, red, green, blue." */
OPT_GAMMA_VECTOR,
OPT_GAMMA_VECTOR_R,
OPT_GAMMA_VECTOR_G,
OPT_GAMMA_VECTOR_B,
OPT_GAMMA_BIND,
NUM_OPTIONS,
OPT_BACKTRACK, /* -B */
/* must come last: */
RNUM_OPTIONS
};
/*******************************************************************/
/***** scanner hardware information (as discovered by INQUIRY) *****/
/*******************************************************************/
typedef struct Microtek_Info {
char vendor_id[9];
char model_name[17];
char revision_num[5];
char vendor_string[21];
SANE_Byte device_type;
SANE_Byte SCSI_firmware_ver_major;
SANE_Byte SCSI_firmware_ver_minor;
SANE_Byte scanner_firmware_ver_major;
SANE_Byte scanner_firmware_ver_minor;
SANE_Byte response_data_format;
#define MI_RESSTEP_1PER 0x01
#define MI_RESSTEP_5PER 0x02
SANE_Byte res_step;
#define MI_MODES_LINEART 0x01
#define MI_MODES_HALFTONE 0x02
#define MI_MODES_GRAY 0x04 /* ??????? or "MultiBit"??? XXXXX*/
#define MI_MODES_COLOR 0x08
#define MI_MODES_TRANSMSV 0x20
#define MI_MODES_ONEPASS 0x40
#define MI_MODES_NEGATIVE 0x80
SANE_Byte modes;
SANE_Int pattern_count;
SANE_Byte pattern_dwnld;
#define MI_FEED_FLATBED 0x01
#define MI_FEED_EDGEFEED 0x02
#define MI_FEED_AUTOSUPP 0x04
SANE_Byte feed_type;
#define MI_COMPRSS_HUFF 0x10
#define MI_COMPRSS_RD 0x20
SANE_Byte compress_type;
#define MI_UNIT_8TH_INCH 0x40
#define MI_UNIT_PIXELS 0x80
SANE_Byte unit_type;
SANE_Byte doc_size_code;
SANE_Int max_x; /* pixels */
SANE_Int max_y; /* pixels */
SANE_Range doc_x_range; /* mm */
SANE_Range doc_y_range; /* mm */
SANE_Int cont_settings;
SANE_Int exp_settings;
SANE_Byte model_code;
SANE_Int base_resolution; /* dpi, guessed by backend, per model code */
#define MI_SRC_FEED_SUPP 0x01 /* support for feeder */
#define MI_SRC_FEED_BT 0x02 /* support for feed backtracking control */
#define MI_SRC_HAS_FEED 0x04 /* feeder installed */
#define MI_SRC_FEED_RDY 0x08 /* feeder ready */
#define MI_SRC_GET_FEED 0x10 /* if opaque: get from feeder */
#define MI_SRC_GET_TRANS 0x20 /* get transparency (not opaque) */
#define MI_SRC_HAS_TRANS 0x40 /* transparency adapter installed */
SANE_Byte source_options;
SANE_Byte expanded_resolution;
#define MI_ENH_CAP_SHADOW 0x01 /* can adjust shadow/highlight */
#define MI_ENH_CAP_MIDTONE 0x02 /* can adjust midtone */
SANE_Byte enhance_cap;
SANE_Int max_lookup_size; /* max. size of gamma LUT */
SANE_Int max_gamma_bit_depth; /* max. bits of a gamma LUT element */
SANE_Int gamma_size; /* size (bytes) of each LUT element */
SANE_Byte fast_color_preview; /* allows fast color preview? */
SANE_Byte xfer_format_select; /* allows select of transfer format? */
#define MI_COLSEQ_PLANE 0x00
#define MI_COLSEQ_PIXEL 0x01
#define MI_COLSEQ_RGB 0x02
#define MI_COLSEQ_NONRGB 0x03
#define MI_COLSEQ_2PIXEL 0x11 /* Agfa StudioStar */
SANE_Byte color_sequence; /* color sequence spec. code */
SANE_Byte does_3pass; /* allows 3-pass scanning? */
SANE_Byte does_mode1; /* allows MODE1 sense/select comm's? */
#define MI_FMT_CAP_4BPP 0x01
#define MI_FMT_CAP_10BPP 0x02
#define MI_FMT_CAP_12BPP 0x04
#define MI_FMT_CAP_16BPP 0x08
SANE_Byte bit_formats; /* output bit formats capabilities */
#define MI_EXCAP_OFF_CTL 0x01
#define MI_EXCAP_DIS_LNTBL 0x02
#define MI_EXCAP_DIS_RECAL 0x04
SANE_Byte extra_cap;
/* SANE_Int contrast_vals; rolled into cont_settings */
SANE_Int min_contrast;
SANE_Int max_contrast;
/* SANE_Int exposure_vals; rolled into exp_settings */
SANE_Int min_exposure;
SANE_Int max_exposure;
SANE_Byte does_expansion; /* does expanded-mode expansion internally? */
} Microtek_Info;
/*******************************************************************/
/***** device structure (one for each device discovered) *****/
/*******************************************************************/
typedef struct Microtek_Device {
struct Microtek_Device *next; /* next, for linked list */
SANE_Device sane; /* SANE generic device block */
Microtek_Info info; /* detailed scanner spec */
} Microtek_Device;
/*******************************************************************/
/***** ring buffer structure *****/
/***** ....image workspace during scan *****/
/*******************************************************************/
typedef struct ring_buffer {
size_t bpl; /* bytes per line */
size_t ppl; /* pixels per line */
uint8_t *base; /* base address of buffer */
size_t size; /* size (bytes) of ring buffer */
size_t initial_size; /* initial size of ring buffer */
size_t tail_blue; /* byte index, next blue line */
size_t tail_green; /* byte index, next green line */
size_t tail_red; /* byte index, next red line */
size_t blue_extra; /* unmatched blue bytes */
size_t green_extra; /* unmatched green bytes */
size_t red_extra; /* unmatched red bytes */
size_t complete_count;
size_t head_complete;
} ring_buffer;
/*******************************************************************/
/***** scanner structure (one for each device in use) *****/
/***** ....all the state needed to define a scan request *****/
/*******************************************************************/
typedef struct Microtek_Scanner {
struct Microtek_Scanner *next; /* for linked list */
Microtek_Device *dev; /* raw device info */
SANE_Option_Descriptor sod[RNUM_OPTIONS]; /* option list for session */
Option_Value val[RNUM_OPTIONS]; /* option values for session */
/* SANE_Int gamma_table[4][256];*/
SANE_Int *gray_lut;
SANE_Int *red_lut;
SANE_Int *green_lut;
SANE_Int *blue_lut;
SANE_Range res_range; /* range desc. for resolution */
SANE_Range exp_res_range; /* range desc. for exp. resolution */
/* scan parameters, ready to toss to SCSI commands*/
/* ...set by sane_open (i.e. general/default scanner parameters) */
#define MS_UNIT_PIXELS 0
#define MS_UNIT_18INCH 1
SANE_Byte unit_type; /* pixels or 1/8" */
#define MS_RES_1PER 0
#define MS_RES_5PER 1
SANE_Byte res_type; /* 1% or 5% */
SANE_Bool midtone_support;
SANE_Int paper_length; /* whatever unit */
SANE_Bool do_clever_precal; /* calibrate scanner once, via fake scan */
SANE_Bool do_real_calib; /* calibrate via magic commands */
SANE_Bool calib_once; /* ...only calibrate magically once */
SANE_Bool allow_calibrate;
SANE_Bool onepass;
SANE_Bool prescan, allowbacktrack;
SANE_Bool reversecolors;
SANE_Bool fastprescan;
SANE_Int bits_per_color;
SANE_Int gamma_entries;
SANE_Int gamma_entry_size;
SANE_Int gamma_bit_depth;
/* SANE_Int gamma_max_entry;*/
SANE_Range gamma_entry_range;
SANE_Range contrast_range;
SANE_Range exposure_range;
/* ...set by sane_get_parameters (i.e. parameters specified by options) */
SANE_Parameters params; /* format, lastframe, lines, depth, ppl, bpl */
SANE_Int x1; /* in 'units' */
SANE_Int y1;
SANE_Int x2;
SANE_Int y2;
#define MS_MODE_LINEART 0
#define MS_MODE_HALFTONE 1
#define MS_MODE_GRAY 2
#define MS_MODE_COLOR 3
SANE_Int mode;
#define MS_FILT_CLEAR 0
#define MS_FILT_RED 1
#define MS_FILT_GREEN 2
#define MS_FILT_BLUE 3
SANE_Byte filter;
SANE_Bool onepasscolor, transparency, useADF;
SANE_Bool threepasscolor, expandedresolution;
SANE_Int resolution;
SANE_Byte resolution_code;
SANE_Byte exposure, contrast;
SANE_Byte pattern;
SANE_Byte velocity;
SANE_Byte shadow, highlight, midtone;
SANE_Byte bright_r, bright_g, bright_b; /* ??? XXXXXXXX signed char */
SANE_Bool multibit;
SANE_Byte color_seq;
/* ...stuff needed while in mid-scan */
#define MS_LNFMT_FLAT 0
#define MS_LNFMT_SEQ_RGB 1
#define MS_LNFMT_GOOFY_RGB 2
#define MS_LNFMT_SEQ_2R2G2B 3
SANE_Int line_format; /* specify how we need to repackage scanlines */
SANE_Int pixel_bpl; /* bytes per line, pixels */
SANE_Int header_bpl; /* bytes per line, headers */
SANE_Int ppl; /* pixels per line */
SANE_Int planes; /* color planes */
SANE_Bool doexpansion;
double exp_aspect;
SANE_Int dest_pixel_bpl;
SANE_Int dest_ppl;
SANE_Int unscanned_lines; /* lines still to be read from scanner */
SANE_Int undelivered_bytes; /* bytes still to be returned to frontend */
SANE_Int max_scsi_lines; /* max number of lines that fit in SCSI buffer */
int sfd; /* SCSI device file descriptor, -1 when not opened */
int scanning; /* true == mid-pass (between sane_start & sane_read=EOF) */
int scan_started; /* true == start_scan has scanner going... */
int woe; /* Woe! */
int this_pass; /* non-zero => in midst of a multipass scan (1,2,3) */
int cancel;
/* we cleverly compare mode_sense results between scans to detect
if the scanner may have been reset/power-cycled in the meantime */
SANE_Byte mode_sense_cache[10];
#define MS_PRECAL_NONE 0
#define MS_PRECAL_GRAY 1
#define MS_PRECAL_COLOR 2
#define MS_PRECAL_EXP_COLOR 3
SANE_Byte precal_record; /* record what precalibrations have been done */
#define MS_SENSE_IGNORE 1
int sense_flags; /* flags passed to the sense handler */
uint8_t *scsi_buffer;
ring_buffer *rb;
} Microtek_Scanner;
#endif /* microtek_h */