/* sane - Scanner Access Now Easy. Copyright (C) 2019 Povilas Kanapickas 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. */ #ifndef BACKEND_GENESYS_ENUMS_H #define BACKEND_GENESYS_ENUMS_H #include #include "serialize.h" namespace genesys { enum class ScanMethod : unsigned { // normal scan method FLATBED = 0, // scan using transparency adaptor TRANSPARENCY = 1, // scan using transparency adaptor via infrared channel TRANSPARENCY_INFRARED = 2 }; inline std::ostream& operator<<(std::ostream& out, ScanMethod mode) { switch (mode) { case ScanMethod::FLATBED: out << "FLATBED"; return out; case ScanMethod::TRANSPARENCY: out << "TRANSPARENCY"; return out; case ScanMethod::TRANSPARENCY_INFRARED: out << "TRANSPARENCY_INFRARED"; return out; } return out; } inline void serialize(std::istream& str, ScanMethod& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, ScanMethod& x) { unsigned value = static_cast(x); serialize(str, value); } const char* scan_method_to_option_string(ScanMethod method); ScanMethod option_string_to_scan_method(const std::string& str); enum class ScanColorMode : unsigned { LINEART = 0, HALFTONE, GRAY, COLOR_SINGLE_PASS }; inline std::ostream& operator<<(std::ostream& out, ScanColorMode mode) { switch (mode) { case ScanColorMode::LINEART: out << "LINEART"; return out; case ScanColorMode::HALFTONE: out << "HALFTONE"; return out; case ScanColorMode::GRAY: out << "GRAY"; return out; case ScanColorMode::COLOR_SINGLE_PASS: out << "COLOR_SINGLE_PASS"; return out; } return out; } inline void serialize(std::istream& str, ScanColorMode& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, ScanColorMode& x) { unsigned value = static_cast(x); serialize(str, value); } const char* scan_color_mode_to_option_string(ScanColorMode mode); ScanColorMode option_string_to_scan_color_mode(const std::string& str); enum class ScanHeadId : unsigned { NONE = 0, PRIMARY = 1 << 0, SECONDARY = 1 << 1, ALL = PRIMARY | SECONDARY, }; inline ScanHeadId operator|(ScanHeadId left, ScanHeadId right) { return static_cast(static_cast(left) | static_cast(right)); } inline ScanHeadId operator&(ScanHeadId left, ScanHeadId right) { return static_cast(static_cast(left) & static_cast(right)); } enum class ColorFilter : unsigned { RED = 0, GREEN, BLUE, NONE }; std::ostream& operator<<(std::ostream& out, ColorFilter mode); inline void serialize(std::istream& str, ColorFilter& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, ColorFilter& x) { unsigned value = static_cast(x); serialize(str, value); } enum class ColorOrder { RGB, GBR, BGR, }; /* Enum value naming conventions: Full name must be included with the following exceptions: Canon scanners omit "Canoscan" if present */ enum class ModelId : unsigned { UNKNOWN = 0, CANON_4400F, CANON_5600F, CANON_8400F, CANON_8600F, CANON_IMAGE_FORMULA_101, CANON_LIDE_50, CANON_LIDE_60, CANON_LIDE_80, CANON_LIDE_90, CANON_LIDE_100, CANON_LIDE_110, CANON_LIDE_120, CANON_LIDE_200, CANON_LIDE_210, CANON_LIDE_220, CANON_LIDE_700F, DCT_DOCKETPORT_487, HP_SCANJET_2300C, HP_SCANJET_2400C, HP_SCANJET_3670, HP_SCANJET_4850C, HP_SCANJET_G4010, HP_SCANJET_G4050, HP_SCANJET_N6310, MEDION_MD5345, PANASONIC_KV_SS080, PENTAX_DSMOBILE_600, PLUSTEK_OPTICBOOK_3800, PLUSTEK_OPTICFILM_7200, PLUSTEK_OPTICFILM_7200I, PLUSTEK_OPTICFILM_7300, PLUSTEK_OPTICFILM_7400, PLUSTEK_OPTICFILM_7500I, PLUSTEK_OPTICFILM_8200I, PLUSTEK_OPTICPRO_3600, PLUSTEK_OPTICPRO_ST12, PLUSTEK_OPTICPRO_ST24, SYSCAN_DOCKETPORT_465, SYSCAN_DOCKETPORT_467, SYSCAN_DOCKETPORT_485, SYSCAN_DOCKETPORT_665, SYSCAN_DOCKETPORT_685, UMAX_ASTRA_4500, VISIONEER_7100, VISIONEER_ROADWARRIOR, VISIONEER_STROBE_XP100_REVISION3, VISIONEER_STROBE_XP200, VISIONEER_STROBE_XP300, XEROX_2400, XEROX_TRAVELSCANNER_100, }; inline void serialize(std::istream& str, ModelId& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, ModelId& x) { unsigned value = static_cast(x); serialize(str, value); } std::ostream& operator<<(std::ostream& out, ModelId id); enum class SensorId : unsigned { UNKNOWN = 0, CCD_5345, CCD_CANON_4400F, CCD_CANON_5600F, CCD_CANON_8400F, CCD_CANON_8600F, CCD_DP665, CCD_DP685, CCD_DSMOBILE600, CCD_DOCKETPORT_487, CCD_G4050, CCD_HP2300, CCD_HP2400, CCD_HP3670, CCD_HP_N6310, CCD_HP_4850C, CCD_IMG101, CCD_KVSS080, CCD_PLUSTEK_OPTICBOOK_3800, CCD_PLUSTEK_OPTICFILM_7200, CCD_PLUSTEK_OPTICFILM_7200I, CCD_PLUSTEK_OPTICFILM_7300, CCD_PLUSTEK_OPTICFILM_7400, CCD_PLUSTEK_OPTICFILM_7500I, CCD_PLUSTEK_OPTICFILM_8200I, CCD_PLUSTEK_OPTICPRO_3600, CCD_ROADWARRIOR, CCD_ST12, // SONY ILX548: 5340 Pixel ??? CCD_ST24, // SONY ILX569: 10680 Pixel ??? CCD_UMAX, CCD_XP300, CIS_CANON_LIDE_35, CIS_CANON_LIDE_60, CIS_CANON_LIDE_80, CIS_CANON_LIDE_90, CIS_CANON_LIDE_100, CIS_CANON_LIDE_110, CIS_CANON_LIDE_120, CIS_CANON_LIDE_200, CIS_CANON_LIDE_210, CIS_CANON_LIDE_220, CIS_CANON_LIDE_700F, CIS_XP200, }; inline void serialize(std::istream& str, SensorId& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, SensorId& x) { unsigned value = static_cast(x); serialize(str, value); } std::ostream& operator<<(std::ostream& out, SensorId id); enum class AdcId : unsigned { UNKNOWN = 0, AD_XP200, CANON_LIDE_35, CANON_LIDE_80, CANON_LIDE_90, CANON_LIDE_110, CANON_LIDE_120, CANON_LIDE_200, CANON_LIDE_700F, CANON_4400F, CANON_5600F, CANON_8400F, CANON_8600F, G4050, IMG101, KVSS080, PLUSTEK_OPTICBOOK_3800, PLUSTEK_OPTICFILM_7200, PLUSTEK_OPTICFILM_7200I, PLUSTEK_OPTICFILM_7300, PLUSTEK_OPTICFILM_7400, PLUSTEK_OPTICFILM_7500I, PLUSTEK_OPTICFILM_8200I, PLUSTEK_OPTICPRO_3600, WOLFSON_5345, WOLFSON_DSM600, WOLFSON_HP2300, WOLFSON_HP2400, WOLFSON_HP3670, WOLFSON_ST12, WOLFSON_ST24, WOLFSON_UMAX, WOLFSON_XP300, }; inline void serialize(std::istream& str, AdcId& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, AdcId& x) { unsigned value = static_cast(x); serialize(str, value); } std::ostream& operator<<(std::ostream& out, AdcId id); enum class GpioId : unsigned { UNKNOWN = 0, CANON_LIDE_35, CANON_LIDE_80, CANON_LIDE_90, CANON_LIDE_110, CANON_LIDE_120, CANON_LIDE_200, CANON_LIDE_210, CANON_LIDE_700F, CANON_4400F, CANON_5600F, CANON_8400F, CANON_8600F, DP665, DP685, G4050, HP2300, HP2400, HP3670, HP_N6310, IMG101, KVSS080, MD_5345, PLUSTEK_OPTICBOOK_3800, PLUSTEK_OPTICFILM_7200, PLUSTEK_OPTICFILM_7200I, PLUSTEK_OPTICFILM_7300, PLUSTEK_OPTICFILM_7400, PLUSTEK_OPTICFILM_7500I, PLUSTEK_OPTICFILM_8200I, PLUSTEK_OPTICPRO_3600, ST12, ST24, UMAX, XP200, XP300, }; std::ostream& operator<<(std::ostream& out, GpioId id); enum class MotorId : unsigned { UNKNOWN = 0, CANON_LIDE_100, CANON_LIDE_110, CANON_LIDE_120, CANON_LIDE_200, CANON_LIDE_210, CANON_LIDE_35, CANON_LIDE_60, CANON_LIDE_700, CANON_LIDE_80, CANON_LIDE_90, CANON_4400F, CANON_5600F, CANON_8400F, CANON_8600F, DP665, DSMOBILE_600, G4050, HP2300, HP2400, HP3670, IMG101, KVSS080, MD_5345, PLUSTEK_OPTICBOOK_3800, PLUSTEK_OPTICFILM_7200, PLUSTEK_OPTICFILM_7200I, PLUSTEK_OPTICFILM_7300, PLUSTEK_OPTICFILM_7400, PLUSTEK_OPTICFILM_7500I, PLUSTEK_OPTICFILM_8200I, PLUSTEK_OPTICPRO_3600, ROADWARRIOR, ST24, UMAX, XP200, XP300, }; std::ostream& operator<<(std::ostream& out, MotorId id); enum class StepType : unsigned { FULL = 0, HALF = 1, QUARTER = 2, EIGHTH = 3, }; std::ostream& operator<<(std::ostream& out, StepType type); inline bool operator<(StepType lhs, StepType rhs) { return static_cast(lhs) < static_cast(rhs); } inline bool operator<=(StepType lhs, StepType rhs) { return static_cast(lhs) <= static_cast(rhs); } inline bool operator>(StepType lhs, StepType rhs) { return static_cast(lhs) > static_cast(rhs); } inline bool operator>=(StepType lhs, StepType rhs) { return static_cast(lhs) >= static_cast(rhs); } enum class AsicType : unsigned { UNKNOWN = 0, GL646, GL841, GL842, GL843, GL845, GL846, GL847, GL124, }; enum class ModelFlag : unsigned { // no flags NONE = 0, // scanner is not tested, print a warning as it's likely it won't work UNTESTED = 1 << 0, // use 14-bit gamma table instead of 12-bit GAMMA_14BIT = 1 << 1, // perform lamp warmup WARMUP = 1 << 4, // whether to disable offset and gain calibration DISABLE_ADC_CALIBRATION = 1 << 5, // whether to disable exposure calibration (this currently is only done on CIS // scanners) DISABLE_EXPOSURE_CALIBRATION = 1 << 6, // whether to disable shading calibration completely DISABLE_SHADING_CALIBRATION = 1 << 7, // do dark calibration DARK_CALIBRATION = 1 << 8, // host-side calibration uses a complete scan HOST_SIDE_CALIBRATION_COMPLETE_SCAN = 1 << 9, // whether scanner must wait for the head while parking MUST_WAIT = 1 << 10, // use zeroes for dark calibration USE_CONSTANT_FOR_DARK_CALIBRATION = 1 << 11, // do dark and white calibration in one run DARK_WHITE_CALIBRATION = 1 << 12, // allow custom gamma tables CUSTOM_GAMMA = 1 << 13, // disable fast feeding mode on this scanner DISABLE_FAST_FEEDING = 1 << 14, // the scanner uses multi-segment sensors that must be handled during calibration SIS_SENSOR = 1 << 16, // the head must be reparked between shading scans SHADING_REPARK = 1 << 18, // the scanner outputs inverted pixel data INVERT_PIXEL_DATA = 1 << 19, // the scanner outputs 16-bit data that is byte-inverted SWAP_16BIT_DATA = 1 << 20, // the scanner has transparency, but it's implemented using only one motor UTA_NO_SECONDARY_MOTOR = 1 << 21, // the scanner has transparency, but it's implemented using only one lamp TA_NO_SECONDARY_LAMP = 1 << 22, }; inline ModelFlag operator|(ModelFlag left, ModelFlag right) { return static_cast(static_cast(left) | static_cast(right)); } inline ModelFlag& operator|=(ModelFlag& left, ModelFlag right) { left = left | right; return left; } inline ModelFlag operator&(ModelFlag left, ModelFlag right) { return static_cast(static_cast(left) & static_cast(right)); } inline bool has_flag(ModelFlag flags, ModelFlag which) { return (flags & which) == which; } enum class ScanFlag : unsigned { NONE = 0, SINGLE_LINE = 1 << 0, DISABLE_SHADING = 1 << 1, DISABLE_GAMMA = 1 << 2, DISABLE_BUFFER_FULL_MOVE = 1 << 3, // if this flag is set the sensor will always be handled ignoring staggering of multiple // sensors to achieve high resolution. IGNORE_STAGGER_OFFSET = 1 << 4, // if this flag is set the sensor will always be handled as if the components that scan // different colors are at the same position. IGNORE_COLOR_OFFSET = 1 << 5, DISABLE_LAMP = 1 << 6, CALIBRATION = 1 << 7, FEEDING = 1 << 8, USE_XPA = 1 << 9, ENABLE_LEDADD = 1 << 10, REVERSE = 1 << 12, // the scanner should return head to home position automatically after scan. AUTO_GO_HOME = 1 << 13, }; inline ScanFlag operator|(ScanFlag left, ScanFlag right) { return static_cast(static_cast(left) | static_cast(right)); } inline ScanFlag& operator|=(ScanFlag& left, ScanFlag right) { left = left | right; return left; } inline ScanFlag operator&(ScanFlag left, ScanFlag right) { return static_cast(static_cast(left) & static_cast(right)); } inline bool has_flag(ScanFlag flags, ScanFlag which) { return (flags & which) == which; } inline void serialize(std::istream& str, ScanFlag& x) { unsigned value; serialize(str, value); x = static_cast(value); } inline void serialize(std::ostream& str, ScanFlag& x) { unsigned value = static_cast(x); serialize(str, value); } std::ostream& operator<<(std::ostream& out, ScanFlag flags); enum class Direction : unsigned { FORWARD = 0, BACKWARD = 1 }; enum class MotorMode : unsigned { PRIMARY = 0, PRIMARY_AND_SECONDARY, SECONDARY, }; } // namespace genesys #endif // BACKEND_GENESYS_ENUMS_H