ZBar bar code reader . http://zbar.sourceforge.net/ ZBar is licensed under the GNU LGPL 2.1 to enable development of both open source and commercial projects.
Dependents: GR-PEACH_Camera_in_barcode levkov_ov7670
LICENSE
The ZBar Bar Code Reader is Copyright (C) 2007-2009 Jeff Brown <spadix@users.sourceforge.net> The QR Code reader is Copyright (C) 1999-2009 Timothy B. Terriberry <tterribe@xiph.org>
You can redistribute this library and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version.
This library 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
ISAAC is based on the public domain implementation by Robert J. Jenkins Jr., and is itself public domain.
Portions of the bit stream reader are copyright (C) The Xiph.Org Foundation 1994-2008, and are licensed under a BSD-style license.
The Reed-Solomon decoder is derived from an implementation (C) 1991-1995 Henry Minsky (hqm@ua.com, hqm@ai.mit.edu), and is licensed under the LGPL with permission.
zbar/zbar.h
- Committer:
- RyoheiHagimoto
- Date:
- 2016-04-19
- Revision:
- 1:500d42699c34
- Parent:
- 0:56c5742b9e2b
File content as of revision 1:500d42699c34:
/*------------------------------------------------------------------------ * Copyright 2007-2009 (c) Jeff Brown <spadix@users.sourceforge.net> * * This file is part of the ZBar Bar Code Reader. * * The ZBar Bar Code Reader is free software; you can redistribute it * and/or modify it under the terms of the GNU Lesser Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * The ZBar Bar Code Reader 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 Lesser Public License for more details. * * You should have received a copy of the GNU Lesser Public License * along with the ZBar Bar Code Reader; if not, write to the Free * Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301 USA * * http://sourceforge.net/projects/zbar *------------------------------------------------------------------------*/ #ifndef _ZBAR_H_ #define _ZBAR_H_ /** @file * ZBar Barcode Reader C API definition */ /** @mainpage * * interface to the barcode reader is available at several levels. * most applications will want to use the high-level interfaces: * * @section high-level High-Level Interfaces * * these interfaces wrap all library functionality into an easy-to-use * package for a specific toolkit: * - the "GTK+ 2.x widget" may be used with GTK GUI applications. a * Python wrapper is included for PyGtk * - the @ref zbar::QZBar "Qt4 widget" may be used with Qt GUI * applications * - the Processor interface (in @ref c-processor "C" or @ref * zbar::Processor "C++") adds a scanning window to an application * with no GUI. * * @section mid-level Intermediate Interfaces * * building blocks used to construct high-level interfaces: * - the ImageScanner (in @ref c-imagescanner "C" or @ref * zbar::ImageScanner "C++") looks for barcodes in a library defined * image object * - the Window abstraction (in @ref c-window "C" or @ref * zbar::Window "C++") sinks library images, displaying them on the * platform display * - the Video abstraction (in @ref c-video "C" or @ref zbar::Video * "C++") sources library images from a video device * * @section low-level Low-Level Interfaces * * direct interaction with barcode scanning and decoding: * - the Scanner (in @ref c-scanner "C" or @ref zbar::Scanner "C++") * looks for barcodes in a linear intensity sample stream * - the Decoder (in @ref c-decoder "C" or @ref zbar::Decoder "C++") * extracts barcodes from a stream of bar and space widths */ #ifdef __cplusplus /** C++ namespace for library interfaces */ namespace zbar { extern "C" { #endif /** @name Global library interfaces */ /*@{*/ /** "color" of element: bar or space. */ typedef enum zbar_color_e { ZBAR_SPACE = 0, /**< light area or space between bars */ ZBAR_BAR = 1, /**< dark area or colored bar segment */ } zbar_color_t; /** decoded symbol type. */ typedef enum zbar_symbol_type_e { ZBAR_NONE = 0, /**< no symbol decoded */ ZBAR_PARTIAL = 1, /**< intermediate status */ ZBAR_EAN8 = 8, /**< EAN-8 */ ZBAR_UPCE = 9, /**< UPC-E */ ZBAR_ISBN10 = 10, /**< ISBN-10 (from EAN-13). @since 0.4 */ ZBAR_UPCA = 12, /**< UPC-A */ ZBAR_EAN13 = 13, /**< EAN-13 */ ZBAR_ISBN13 = 14, /**< ISBN-13 (from EAN-13). @since 0.4 */ ZBAR_I25 = 25, /**< Interleaved 2 of 5. @since 0.4 */ ZBAR_CODE39 = 39, /**< Code 39. @since 0.4 */ ZBAR_PDF417 = 57, /**< PDF417. @since 0.6 */ ZBAR_QRCODE = 64, /**< QR Code. @since 0.10 */ ZBAR_CODE128 = 128, /**< Code 128 */ ZBAR_SYMBOL = 0x00ff, /**< mask for base symbol type */ ZBAR_ADDON2 = 0x0200, /**< 2-digit add-on flag */ ZBAR_ADDON5 = 0x0500, /**< 5-digit add-on flag */ ZBAR_ADDON = 0x0700, /**< add-on flag mask */ } zbar_symbol_type_t; /** error codes. */ typedef enum zbar_error_e { ZBAR_OK = 0, /**< no error */ ZBAR_ERR_NOMEM, /**< out of memory */ ZBAR_ERR_INTERNAL, /**< internal library error */ ZBAR_ERR_UNSUPPORTED, /**< unsupported request */ ZBAR_ERR_INVALID, /**< invalid request */ ZBAR_ERR_SYSTEM, /**< system error */ ZBAR_ERR_LOCKING, /**< locking error */ ZBAR_ERR_BUSY, /**< all resources busy */ ZBAR_ERR_XDISPLAY, /**< X11 display error */ ZBAR_ERR_XPROTO, /**< X11 protocol error */ ZBAR_ERR_CLOSED, /**< output window is closed */ ZBAR_ERR_WINAPI, /**< windows system error */ ZBAR_ERR_NUM /**< number of error codes */ } zbar_error_t; /** decoder configuration options. * @since 0.4 */ typedef enum zbar_config_e { ZBAR_CFG_ENABLE = 0, /**< enable symbology/feature */ ZBAR_CFG_ADD_CHECK, /**< enable check digit when optional */ ZBAR_CFG_EMIT_CHECK, /**< return check digit when present */ ZBAR_CFG_ASCII, /**< enable full ASCII character set */ ZBAR_CFG_NUM, /**< number of boolean decoder configs */ ZBAR_CFG_MIN_LEN = 0x20, /**< minimum data length for valid decode */ ZBAR_CFG_MAX_LEN, /**< maximum data length for valid decode */ ZBAR_CFG_POSITION = 0x80, /**< enable scanner to collect position data */ ZBAR_CFG_X_DENSITY = 0x100, /**< image scanner vertical scan density */ ZBAR_CFG_Y_DENSITY, /**< image scanner horizontal scan density */ } zbar_config_t; /** retrieve runtime library version information. * @param major set to the running major version (unless NULL) * @param minor set to the running minor version (unless NULL) * @returns 0 */ extern int zbar_version(unsigned *major, unsigned *minor); /** set global library debug level. * @param verbosity desired debug level. higher values create more spew */ extern void zbar_set_verbosity(int verbosity); /** increase global library debug level. * eg, for -vvvv */ extern void zbar_increase_verbosity(void); /** retrieve string name for symbol encoding. * @param sym symbol type encoding * @returns the static string name for the specified symbol type, * or "UNKNOWN" if the encoding is not recognized */ extern const char *zbar_get_symbol_name(zbar_symbol_type_t sym); /** retrieve string name for addon encoding. * @param sym symbol type encoding * @returns static string name for any addon, or the empty string * if no addons were decoded */ extern const char *zbar_get_addon_name(zbar_symbol_type_t sym); /** parse a configuration string of the form "[symbology.]config[=value]". * the config must match one of the recognized names. * the symbology, if present, must match one of the recognized names. * if symbology is unspecified, it will be set to 0. * if value is unspecified it will be set to 1. * @returns 0 if the config is parsed successfully, 1 otherwise * @since 0.4 */ extern int zbar_parse_config(const char *config_string, zbar_symbol_type_t *symbology, zbar_config_t *config, int *value); /** @internal type unsafe error API (don't use) */ extern int _zbar_error_spew(const void *object, int verbosity); extern const char *_zbar_error_string(const void *object, int verbosity); extern zbar_error_t _zbar_get_error_code(const void *object); /*@}*/ struct zbar_symbol_s; typedef struct zbar_symbol_s zbar_symbol_t; struct zbar_symbol_set_s; typedef struct zbar_symbol_set_s zbar_symbol_set_t; /*------------------------------------------------------------*/ /** @name Symbol interface * decoded barcode symbol result object. stores type, data, and image * location of decoded symbol. all memory is owned by the library */ /*@{*/ /** @typedef zbar_symbol_t * opaque decoded symbol object. */ /** symbol reference count manipulation. * increment the reference count when you store a new reference to the * symbol. decrement when the reference is no longer used. do not * refer to the symbol once the count is decremented and the * containing image has been recycled or destroyed. * @note the containing image holds a reference to the symbol, so you * only need to use this if you keep a symbol after the image has been * destroyed or reused. * @since 0.9 */ extern void zbar_symbol_ref(const zbar_symbol_t *symbol, int refs); /** retrieve type of decoded symbol. * @returns the symbol type */ extern zbar_symbol_type_t zbar_symbol_get_type(const zbar_symbol_t *symbol); /** retrieve data decoded from symbol. * @returns the data string */ extern const char *zbar_symbol_get_data(const zbar_symbol_t *symbol); /** retrieve length of binary data. * @returns the length of the decoded data */ extern unsigned int zbar_symbol_get_data_length(const zbar_symbol_t *symbol); /** retrieve a symbol confidence metric. * @returns an unscaled, relative quantity: larger values are better * than smaller values, where "large" and "small" are application * dependent. * @note expect the exact definition of this quantity to change as the * metric is refined. currently, only the ordered relationship * between two values is defined and will remain stable in the future * @since 0.9 */ extern int zbar_symbol_get_quality(const zbar_symbol_t *symbol); /** retrieve current cache count. when the cache is enabled for the * image_scanner this provides inter-frame reliability and redundancy * information for video streams. * @returns < 0 if symbol is still uncertain. * @returns 0 if symbol is newly verified. * @returns > 0 for duplicate symbols */ extern int zbar_symbol_get_count(const zbar_symbol_t *symbol); /** retrieve the number of points in the location polygon. the * location polygon defines the image area that the symbol was * extracted from. * @returns the number of points in the location polygon * @note this is currently not a polygon, but the scan locations * where the symbol was decoded */ extern unsigned zbar_symbol_get_loc_size(const zbar_symbol_t *symbol); /** retrieve location polygon x-coordinates. * points are specified by 0-based index. * @returns the x-coordinate for a point in the location polygon. * @returns -1 if index is out of range */ extern int zbar_symbol_get_loc_x(const zbar_symbol_t *symbol, unsigned index); /** retrieve location polygon y-coordinates. * points are specified by 0-based index. * @returns the y-coordinate for a point in the location polygon. * @returns -1 if index is out of range */ extern int zbar_symbol_get_loc_y(const zbar_symbol_t *symbol, unsigned index); /** iterate the set to which this symbol belongs (there can be only one). * @returns the next symbol in the set, or * @returns NULL when no more results are available */ extern const zbar_symbol_t *zbar_symbol_next(const zbar_symbol_t *symbol); /** retrieve components of a composite result. * @returns the symbol set containing the components * @returns NULL if the symbol is already a physical symbol * @since 0.10 */ extern const zbar_symbol_set_t* zbar_symbol_get_components(const zbar_symbol_t *symbol); /** iterate components of a composite result. * @returns the first physical component symbol of a composite result * @returns NULL if the symbol is already a physical symbol * @since 0.10 */ extern const zbar_symbol_t* zbar_symbol_first_component(const zbar_symbol_t *symbol); /** print XML symbol element representation to user result buffer. * @see http://zbar.sourceforge.net/2008/barcode.xsd for the schema. * @param symbol is the symbol to print * @param buffer is the inout result pointer, it will be reallocated * with a larger size if necessary. * @param buflen is inout length of the result buffer. * @returns the buffer pointer * @since 0.6 */ extern char *zbar_symbol_xml(const zbar_symbol_t *symbol, char **buffer, unsigned *buflen); /*@}*/ /*------------------------------------------------------------*/ /** @name Symbol Set interface * container for decoded result symbols associated with an image * or a composite symbol. * @since 0.10 */ /*@{*/ /** @typedef zbar_symbol_set_t * opaque symbol iterator object. * @since 0.10 */ /** reference count manipulation. * increment the reference count when you store a new reference. * decrement when the reference is no longer used. do not refer to * the object any longer once references have been released. * @since 0.10 */ extern void zbar_symbol_set_ref(const zbar_symbol_set_t *symbols, int refs); /** retrieve set size. * @returns the number of symbols in the set. * @since 0.10 */ extern int zbar_symbol_set_get_size(const zbar_symbol_set_t *symbols); /** set iterator. * @returns the first decoded symbol result in a set * @returns NULL if the set is empty * @since 0.10 */ extern const zbar_symbol_t* zbar_symbol_set_first_symbol(const zbar_symbol_set_t *symbols); /*@}*/ /*------------------------------------------------------------*/ /** @name Image interface * stores image data samples along with associated format and size * metadata */ /*@{*/ struct zbar_image_s; /** opaque image object. */ typedef struct zbar_image_s zbar_image_t; /** cleanup handler callback function. * called to free sample data when an image is destroyed. */ typedef void (zbar_image_cleanup_handler_t)(zbar_image_t *image); /** data handler callback function. * called when decoded symbol results are available for an image */ typedef void (zbar_image_data_handler_t)(zbar_image_t *image, const void *userdata); /** new image constructor. * @returns a new image object with uninitialized data and format. * this image should be destroyed (using zbar_image_destroy()) as * soon as the application is finished with it */ extern zbar_image_t *zbar_image_create(void); /** image destructor. all images created by or returned to the * application should be destroyed using this function. when an image * is destroyed, the associated data cleanup handler will be invoked * if available * @note make no assumptions about the image or the data buffer. * they may not be destroyed/cleaned immediately if the library * is still using them. if necessary, use the cleanup handler hook * to keep track of image data buffers */ extern void zbar_image_destroy(zbar_image_t *image); /** image reference count manipulation. * increment the reference count when you store a new reference to the * image. decrement when the reference is no longer used. do not * refer to the image any longer once the count is decremented. * zbar_image_ref(image, -1) is the same as zbar_image_destroy(image) * @since 0.5 */ extern void zbar_image_ref(zbar_image_t *image, int refs); /** image format conversion. refer to the documentation for supported * image formats * @returns a @em new image with the sample data from the original image * converted to the requested format. the original image is * unaffected. * @note the converted image size may be rounded (up) due to format * constraints */ extern zbar_image_t *zbar_image_convert(const zbar_image_t *image, unsigned long format); /** image format conversion with crop/pad. * if the requested size is larger than the image, the last row/column * are duplicated to cover the difference. if the requested size is * smaller than the image, the extra rows/columns are dropped from the * right/bottom. * @returns a @em new image with the sample data from the original * image converted to the requested format and size. * @note the image is @em not scaled * @see zbar_image_convert() * @since 0.4 */ extern zbar_image_t *zbar_image_convert_resize(const zbar_image_t *image, unsigned long format, unsigned width, unsigned height); /** retrieve the image format. * @returns the fourcc describing the format of the image sample data */ extern unsigned long zbar_image_get_format(const zbar_image_t *image); /** retrieve a "sequence" (page/frame) number associated with this image. * @since 0.6 */ extern unsigned zbar_image_get_sequence(const zbar_image_t *image); /** retrieve the width of the image. * @returns the width in sample columns */ extern unsigned zbar_image_get_width(const zbar_image_t *image); /** retrieve the height of the image. * @returns the height in sample rows */ extern unsigned zbar_image_get_height(const zbar_image_t *image); /** return the image sample data. the returned data buffer is only * valid until zbar_image_destroy() is called */ extern const void *zbar_image_get_data(const zbar_image_t *image); /** return the size of image data. * @since 0.6 */ extern unsigned long zbar_image_get_data_length(const zbar_image_t *img); /** retrieve the decoded results. * @returns the (possibly empty) set of decoded symbols * @returns NULL if the image has not been scanned * @since 0.10 */ extern const zbar_symbol_set_t* zbar_image_get_symbols(const zbar_image_t *image); /** associate the specified symbol set with the image, replacing any * existing results. use NULL to release the current results from the * image. * @see zbar_image_scanner_recycle_image() * @since 0.10 */ extern void zbar_image_set_symbols(zbar_image_t *image, const zbar_symbol_set_t *symbols); /** image_scanner decode result iterator. * @returns the first decoded symbol result for an image * or NULL if no results are available */ extern const zbar_symbol_t* zbar_image_first_symbol(const zbar_image_t *image); /** specify the fourcc image format code for image sample data. * refer to the documentation for supported formats. * @note this does not convert the data! * (see zbar_image_convert() for that) */ extern void zbar_image_set_format(zbar_image_t *image, unsigned long format); /** associate a "sequence" (page/frame) number with this image. * @since 0.6 */ extern void zbar_image_set_sequence(zbar_image_t *image, unsigned sequence_num); /** specify the pixel size of the image. * @note this does not affect the data! */ extern void zbar_image_set_size(zbar_image_t *image, unsigned width, unsigned height); /** specify image sample data. when image data is no longer needed by * the library the specific data cleanup handler will be called * (unless NULL) * @note application image data will not be modified by the library */ extern void zbar_image_set_data(zbar_image_t *image, const void *data, unsigned long data_byte_length, zbar_image_cleanup_handler_t *cleanup_hndlr); /** built-in cleanup handler. * passes the image data buffer to free() */ extern void zbar_image_free_data(zbar_image_t *image); /** associate user specified data value with an image. * @since 0.5 */ extern void zbar_image_set_userdata(zbar_image_t *image, void *userdata); /** return user specified data value associated with the image. * @since 0.5 */ extern void *zbar_image_get_userdata(const zbar_image_t *image); /** dump raw image data to a file for debug. * the data will be prefixed with a 16 byte header consisting of: * - 4 bytes uint = 0x676d697a ("zimg") * - 4 bytes format fourcc * - 2 bytes width * - 2 bytes height * - 4 bytes size of following image data in bytes * this header can be dumped w/eg: * @verbatim od -Ax -tx1z -N16 -w4 [file] @endverbatim * for some formats the image can be displayed/converted using * ImageMagick, eg: * @verbatim display -size 640x480+16 [-depth ?] [-sampling-factor ?x?] \ {GRAY,RGB,UYVY,YUV}:[file] @endverbatim * * @param image the image object to dump * @param filebase base filename, appended with ".XXXX.zimg" where * XXXX is the format fourcc * @returns 0 on success or a system error code on failure */ extern int zbar_image_write(const zbar_image_t *image, const char *filebase); /** read back an image in the format written by zbar_image_write() * @note TBD */ extern zbar_image_t *zbar_image_read(char *filename); /*@}*/ /*------------------------------------------------------------*/ /** @name Processor interface * @anchor c-processor * high-level self-contained image processor. * processes video and images for barcodes, optionally displaying * images to a library owned output window */ /*@{*/ struct zbar_processor_s; /** opaque standalone processor object. */ typedef struct zbar_processor_s zbar_processor_t; /** constructor. * if threaded is set and threading is available the processor * will spawn threads where appropriate to avoid blocking and * improve responsiveness */ extern zbar_processor_t *zbar_processor_create(int threaded); /** destructor. cleans up all resources associated with the processor */ extern void zbar_processor_destroy(zbar_processor_t *processor); /** (re)initialization. * opens a video input device and/or prepares to display output */ extern int zbar_processor_init(zbar_processor_t *processor, const char *video_device, int enable_display); /** request a preferred size for the video image from the device. * the request may be adjusted or completely ignored by the driver. * @note must be called before zbar_processor_init() * @since 0.6 */ extern int zbar_processor_request_size(zbar_processor_t *processor, unsigned width, unsigned height); /** request a preferred video driver interface version for * debug/testing. * @note must be called before zbar_processor_init() * @since 0.6 */ extern int zbar_processor_request_interface(zbar_processor_t *processor, int version); /** request a preferred video I/O mode for debug/testing. You will * get errors if the driver does not support the specified mode. * @verbatim 0 = auto-detect 1 = force I/O using read() 2 = force memory mapped I/O using mmap() 3 = force USERPTR I/O (v4l2 only) @endverbatim * @note must be called before zbar_processor_init() * @since 0.7 */ extern int zbar_processor_request_iomode(zbar_processor_t *video, int iomode); /** force specific input and output formats for debug/testing. * @note must be called before zbar_processor_init() */ extern int zbar_processor_force_format(zbar_processor_t *processor, unsigned long input_format, unsigned long output_format); /** setup result handler callback. * the specified function will be called by the processor whenever * new results are available from the video stream or a static image. * pass a NULL value to disable callbacks. * @param processor the object on which to set the handler. * @param handler the function to call when new results are available. * @param userdata is set as with zbar_processor_set_userdata(). * @returns the previously registered handler */ extern zbar_image_data_handler_t* zbar_processor_set_data_handler(zbar_processor_t *processor, zbar_image_data_handler_t *handler, const void *userdata); /** associate user specified data value with the processor. * @since 0.6 */ extern void zbar_processor_set_userdata(zbar_processor_t *processor, void *userdata); /** return user specified data value associated with the processor. * @since 0.6 */ extern void *zbar_processor_get_userdata(const zbar_processor_t *processor); /** set config for indicated symbology (0 for all) to specified value. * @returns 0 for success, non-0 for failure (config does not apply to * specified symbology, or value out of range) * @see zbar_decoder_set_config() * @since 0.4 */ extern int zbar_processor_set_config(zbar_processor_t *processor, zbar_symbol_type_t symbology, zbar_config_t config, int value); /** parse configuration string using zbar_parse_config() * and apply to processor using zbar_processor_set_config(). * @returns 0 for success, non-0 for failure * @see zbar_parse_config() * @see zbar_processor_set_config() * @since 0.4 */ static inline int zbar_processor_parse_config (zbar_processor_t *processor, const char *config_string) { zbar_symbol_type_t sym; zbar_config_t cfg; int val; return(zbar_parse_config(config_string, &sym, &cfg, &val) || zbar_processor_set_config(processor, sym, cfg, val)); } /** retrieve the current state of the ouput window. * @returns 1 if the output window is currently displayed, 0 if not. * @returns -1 if an error occurs */ extern int zbar_processor_is_visible(zbar_processor_t *processor); /** show or hide the display window owned by the library. * the size will be adjusted to the input size */ extern int zbar_processor_set_visible(zbar_processor_t *processor, int visible); /** control the processor in free running video mode. * only works if video input is initialized. if threading is in use, * scanning will occur in the background, otherwise this is only * useful wrapping calls to zbar_processor_user_wait(). if the * library output window is visible, video display will be enabled. */ extern int zbar_processor_set_active(zbar_processor_t *processor, int active); /** retrieve decode results for last scanned image/frame. * @returns the symbol set result container or NULL if no results are * available * @note the returned symbol set has its reference count incremented; * ensure that the count is decremented after use * @since 0.10 */ extern const zbar_symbol_set_t* zbar_processor_get_results(const zbar_processor_t *processor); /** wait for input to the display window from the user * (via mouse or keyboard). * @returns >0 when input is received, 0 if timeout ms expired * with no input or -1 in case of an error */ extern int zbar_processor_user_wait(zbar_processor_t *processor, int timeout); /** process from the video stream until a result is available, * or the timeout (in milliseconds) expires. * specify a timeout of -1 to scan indefinitely * (zbar_processor_set_active() may still be used to abort the scan * from another thread). * if the library window is visible, video display will be enabled. * @note that multiple results may still be returned (despite the * name). * @returns >0 if symbols were successfully decoded, * 0 if no symbols were found (ie, the timeout expired) * or -1 if an error occurs */ extern int zbar_process_one(zbar_processor_t *processor, int timeout); /** process the provided image for barcodes. * if the library window is visible, the image will be displayed. * @returns >0 if symbols were successfully decoded, * 0 if no symbols were found or -1 if an error occurs */ extern int zbar_process_image(zbar_processor_t *processor, zbar_image_t *image); /** display detail for last processor error to stderr. * @returns a non-zero value suitable for passing to exit() */ static inline int zbar_processor_error_spew (const zbar_processor_t *processor, int verbosity) { return(_zbar_error_spew(processor, verbosity)); } /** retrieve the detail string for the last processor error. */ static inline const char* zbar_processor_error_string (const zbar_processor_t *processor, int verbosity) { return(_zbar_error_string(processor, verbosity)); } /** retrieve the type code for the last processor error. */ static inline zbar_error_t zbar_processor_get_error_code (const zbar_processor_t *processor) { return(_zbar_get_error_code(processor)); } /*@}*/ /*------------------------------------------------------------*/ /** @name Video interface * @anchor c-video * mid-level video source abstraction. * captures images from a video device */ /*@{*/ struct zbar_video_s; /** opaque video object. */ typedef struct zbar_video_s zbar_video_t; /** constructor. */ extern zbar_video_t *zbar_video_create(void); /** destructor. */ extern void zbar_video_destroy(zbar_video_t *video); /** open and probe a video device. * the device specified by platform specific unique name * (v4l device node path in *nix eg "/dev/video", * DirectShow DevicePath property in windows). * @returns 0 if successful or -1 if an error occurs */ extern int zbar_video_open(zbar_video_t *video, const char *device); /** retrieve file descriptor associated with open *nix video device * useful for using select()/poll() to tell when new images are * available (NB v4l2 only!!). * @returns the file descriptor or -1 if the video device is not open * or the driver only supports v4l1 */ extern int zbar_video_get_fd(const zbar_video_t *video); /** request a preferred size for the video image from the device. * the request may be adjusted or completely ignored by the driver. * @returns 0 if successful or -1 if the video device is already * initialized * @since 0.6 */ extern int zbar_video_request_size(zbar_video_t *video, unsigned width, unsigned height); /** request a preferred driver interface version for debug/testing. * @note must be called before zbar_video_open() * @since 0.6 */ extern int zbar_video_request_interface(zbar_video_t *video, int version); /** request a preferred I/O mode for debug/testing. You will get * errors if the driver does not support the specified mode. * @verbatim 0 = auto-detect 1 = force I/O using read() 2 = force memory mapped I/O using mmap() 3 = force USERPTR I/O (v4l2 only) @endverbatim * @note must be called before zbar_video_open() * @since 0.7 */ extern int zbar_video_request_iomode(zbar_video_t *video, int iomode); /** retrieve current output image width. * @returns the width or 0 if the video device is not open */ extern int zbar_video_get_width(const zbar_video_t *video); /** retrieve current output image height. * @returns the height or 0 if the video device is not open */ extern int zbar_video_get_height(const zbar_video_t *video); /** initialize video using a specific format for debug. * use zbar_negotiate_format() to automatically select and initialize * the best available format */ extern int zbar_video_init(zbar_video_t *video, unsigned long format); /** start/stop video capture. * all buffered images are retired when capture is disabled. * @returns 0 if successful or -1 if an error occurs */ extern int zbar_video_enable(zbar_video_t *video, int enable); /** retrieve next captured image. blocks until an image is available. * @returns NULL if video is not enabled or an error occurs */ extern zbar_image_t *zbar_video_next_image(zbar_video_t *video); /** display detail for last video error to stderr. * @returns a non-zero value suitable for passing to exit() */ static inline int zbar_video_error_spew (const zbar_video_t *video, int verbosity) { return(_zbar_error_spew(video, verbosity)); } /** retrieve the detail string for the last video error. */ static inline const char *zbar_video_error_string (const zbar_video_t *video, int verbosity) { return(_zbar_error_string(video, verbosity)); } /** retrieve the type code for the last video error. */ static inline zbar_error_t zbar_video_get_error_code (const zbar_video_t *video) { return(_zbar_get_error_code(video)); } /*@}*/ /*------------------------------------------------------------*/ /** @name Window interface * @anchor c-window * mid-level output window abstraction. * displays images to user-specified platform specific output window */ /*@{*/ struct zbar_window_s; /** opaque window object. */ typedef struct zbar_window_s zbar_window_t; /** constructor. */ extern zbar_window_t *zbar_window_create(void); /** destructor. */ extern void zbar_window_destroy(zbar_window_t *window); /** associate reader with an existing platform window. * This can be any "Drawable" for X Windows or a "HWND" for windows. * input images will be scaled into the output window. * pass NULL to detach from the resource, further input will be * ignored */ extern int zbar_window_attach(zbar_window_t *window, void *x11_display_w32_hwnd, unsigned long x11_drawable); /** control content level of the reader overlay. * the overlay displays graphical data for informational or debug * purposes. higher values increase the level of annotation (possibly * decreasing performance). @verbatim 0 = disable overlay 1 = outline decoded symbols (default) 2 = also track and display input frame rate @endverbatim */ extern void zbar_window_set_overlay(zbar_window_t *window, int level); /** retrieve current content level of reader overlay. * @see zbar_window_set_overlay() * @since 0.10 */ extern int zbar_window_get_overlay(const zbar_window_t *window); /** draw a new image into the output window. */ extern int zbar_window_draw(zbar_window_t *window, zbar_image_t *image); /** redraw the last image (exposure handler). */ extern int zbar_window_redraw(zbar_window_t *window); /** resize the image window (reconfigure handler). * this does @em not update the contents of the window * @since 0.3, changed in 0.4 to not redraw window */ extern int zbar_window_resize(zbar_window_t *window, unsigned width, unsigned height); /** display detail for last window error to stderr. * @returns a non-zero value suitable for passing to exit() */ static inline int zbar_window_error_spew (const zbar_window_t *window, int verbosity) { return(_zbar_error_spew(window, verbosity)); } /** retrieve the detail string for the last window error. */ static inline const char* zbar_window_error_string (const zbar_window_t *window, int verbosity) { return(_zbar_error_string(window, verbosity)); } /** retrieve the type code for the last window error. */ static inline zbar_error_t zbar_window_get_error_code (const zbar_window_t *window) { return(_zbar_get_error_code(window)); } /** select a compatible format between video input and output window. * the selection algorithm attempts to use a format shared by * video input and window output which is also most useful for * barcode scanning. if a format conversion is necessary, it will * heuristically attempt to minimize the cost of the conversion */ extern int zbar_negotiate_format(zbar_video_t *video, zbar_window_t *window); /*@}*/ /*------------------------------------------------------------*/ /** @name Image Scanner interface * @anchor c-imagescanner * mid-level image scanner interface. * reads barcodes from 2-D images */ /*@{*/ struct zbar_image_scanner_s; /** opaque image scanner object. */ typedef struct zbar_image_scanner_s zbar_image_scanner_t; /** constructor. */ extern zbar_image_scanner_t *zbar_image_scanner_create(void); /** destructor. */ extern void zbar_image_scanner_destroy(zbar_image_scanner_t *scanner); /** setup result handler callback. * the specified function will be called by the scanner whenever * new results are available from a decoded image. * pass a NULL value to disable callbacks. * @returns the previously registered handler */ extern zbar_image_data_handler_t* zbar_image_scanner_set_data_handler(zbar_image_scanner_t *scanner, zbar_image_data_handler_t *handler, const void *userdata); /** set config for indicated symbology (0 for all) to specified value. * @returns 0 for success, non-0 for failure (config does not apply to * specified symbology, or value out of range) * @see zbar_decoder_set_config() * @since 0.4 */ extern int zbar_image_scanner_set_config(zbar_image_scanner_t *scanner, zbar_symbol_type_t symbology, zbar_config_t config, int value); /** parse configuration string using zbar_parse_config() * and apply to image scanner using zbar_image_scanner_set_config(). * @returns 0 for success, non-0 for failure * @see zbar_parse_config() * @see zbar_image_scanner_set_config() * @since 0.4 */ static inline int zbar_image_scanner_parse_config (zbar_image_scanner_t *scanner, const char *config_string) { zbar_symbol_type_t sym; zbar_config_t cfg; int val; return(zbar_parse_config(config_string, &sym, &cfg, &val) || zbar_image_scanner_set_config(scanner, sym, cfg, val)); } /** enable or disable the inter-image result cache (default disabled). * mostly useful for scanning video frames, the cache filters * duplicate results from consecutive images, while adding some * consistency checking and hysteresis to the results. * this interface also clears the cache */ extern void zbar_image_scanner_enable_cache(zbar_image_scanner_t *scanner, int enable); /** remove any previously decoded results from the image scanner and the * specified image. somewhat more efficient version of * zbar_image_set_symbols(image, NULL) which may retain memory for * subsequent decodes * @since 0.10 */ extern void zbar_image_scanner_recycle_image(zbar_image_scanner_t *scanner, zbar_image_t *image); /** retrieve decode results for last scanned image. * @returns the symbol set result container or NULL if no results are * available * @note the symbol set does not have its reference count adjusted; * ensure that the count is incremented if the results may be kept * after the next image is scanned * @since 0.10 */ extern const zbar_symbol_set_t* zbar_image_scanner_get_results(const zbar_image_scanner_t *scanner); /** scan for symbols in provided image. The image format must be * "Y800" or "GRAY". * @returns >0 if symbols were successfully decoded from the image, * 0 if no symbols were found or -1 if an error occurs * @see zbar_image_convert() * @since 0.9 - changed to only accept grayscale images */ extern int zbar_scan_image(zbar_image_scanner_t *scanner, zbar_image_t *image); /*@}*/ /*------------------------------------------------------------*/ /** @name Decoder interface * @anchor c-decoder * low-level bar width stream decoder interface. * identifies symbols and extracts encoded data */ /*@{*/ struct zbar_decoder_s; /** opaque decoder object. */ typedef struct zbar_decoder_s zbar_decoder_t; /** decoder data handler callback function. * called by decoder when new data has just been decoded */ typedef void (zbar_decoder_handler_t)(zbar_decoder_t *decoder); /** constructor. */ extern zbar_decoder_t *zbar_decoder_create(void); /** destructor. */ extern void zbar_decoder_destroy(zbar_decoder_t *decoder); /** set config for indicated symbology (0 for all) to specified value. * @returns 0 for success, non-0 for failure (config does not apply to * specified symbology, or value out of range) * @since 0.4 */ extern int zbar_decoder_set_config(zbar_decoder_t *decoder, zbar_symbol_type_t symbology, zbar_config_t config, int value); /** parse configuration string using zbar_parse_config() * and apply to decoder using zbar_decoder_set_config(). * @returns 0 for success, non-0 for failure * @see zbar_parse_config() * @see zbar_decoder_set_config() * @since 0.4 */ static inline int zbar_decoder_parse_config (zbar_decoder_t *decoder, const char *config_string) { zbar_symbol_type_t sym; zbar_config_t cfg; int val; return(zbar_parse_config(config_string, &sym, &cfg, &val) || zbar_decoder_set_config(decoder, sym, cfg, val)); } /** clear all decoder state. * any partial symbols are flushed */ extern void zbar_decoder_reset(zbar_decoder_t *decoder); /** mark start of a new scan pass. * clears any intra-symbol state and resets color to ::ZBAR_SPACE. * any partially decoded symbol state is retained */ extern void zbar_decoder_new_scan(zbar_decoder_t *decoder); /** process next bar/space width from input stream. * the width is in arbitrary relative units. first value of a scan * is ::ZBAR_SPACE width, alternating from there. * @returns appropriate symbol type if width completes * decode of a symbol (data is available for retrieval) * @returns ::ZBAR_PARTIAL as a hint if part of a symbol was decoded * @returns ::ZBAR_NONE (0) if no new symbol data is available */ extern zbar_symbol_type_t zbar_decode_width(zbar_decoder_t *decoder, unsigned width); /** retrieve color of @em next element passed to * zbar_decode_width(). */ extern zbar_color_t zbar_decoder_get_color(const zbar_decoder_t *decoder); /** retrieve last decoded data. * @returns the data string or NULL if no new data available. * the returned data buffer is owned by library, contents are only * valid between non-0 return from zbar_decode_width and next library * call */ extern const char *zbar_decoder_get_data(const zbar_decoder_t *decoder); /** retrieve length of binary data. * @returns the length of the decoded data or 0 if no new data * available. */ extern unsigned int zbar_decoder_get_data_length(const zbar_decoder_t *decoder); /** retrieve last decoded symbol type. * @returns the type or ::ZBAR_NONE if no new data available */ extern zbar_symbol_type_t zbar_decoder_get_type(const zbar_decoder_t *decoder); /** setup data handler callback. * the registered function will be called by the decoder * just before zbar_decode_width() returns a non-zero value. * pass a NULL value to disable callbacks. * @returns the previously registered handler */ extern zbar_decoder_handler_t* zbar_decoder_set_handler(zbar_decoder_t *decoder, zbar_decoder_handler_t *handler); /** associate user specified data value with the decoder. */ extern void zbar_decoder_set_userdata(zbar_decoder_t *decoder, void *userdata); /** return user specified data value associated with the decoder. */ extern void *zbar_decoder_get_userdata(const zbar_decoder_t *decoder); /*@}*/ /*------------------------------------------------------------*/ /** @name Scanner interface * @anchor c-scanner * low-level linear intensity sample stream scanner interface. * identifies "bar" edges and measures width between them. * optionally passes to bar width decoder */ /*@{*/ struct zbar_scanner_s; /** opaque scanner object. */ typedef struct zbar_scanner_s zbar_scanner_t; /** constructor. * if decoder is non-NULL it will be attached to scanner * and called automatically at each new edge * current color is initialized to ::ZBAR_SPACE * (so an initial BAR->SPACE transition may be discarded) */ extern zbar_scanner_t *zbar_scanner_create(zbar_decoder_t *decoder); /** destructor. */ extern void zbar_scanner_destroy(zbar_scanner_t *scanner); /** clear all scanner state. * also resets an associated decoder */ extern zbar_symbol_type_t zbar_scanner_reset(zbar_scanner_t *scanner); /** mark start of a new scan pass. resets color to ::ZBAR_SPACE. * also updates an associated decoder. * @returns any decode results flushed from the pipeline * @note when not using callback handlers, the return value should * be checked the same as zbar_scan_y() * @note call zbar_scanner_flush() at least twice before calling this * method to ensure no decode results are lost */ extern zbar_symbol_type_t zbar_scanner_new_scan(zbar_scanner_t *scanner); /** flush scanner processing pipeline. * forces current scanner position to be a scan boundary. * call multiple times (max 3) to completely flush decoder. * @returns any decode/scan results flushed from the pipeline * @note when not using callback handlers, the return value should * be checked the same as zbar_scan_y() * @since 0.9 */ extern zbar_symbol_type_t zbar_scanner_flush(zbar_scanner_t *scanner); /** process next sample intensity value. * intensity (y) is in arbitrary relative units. * @returns result of zbar_decode_width() if a decoder is attached, * otherwise @returns (::ZBAR_PARTIAL) when new edge is detected * or 0 (::ZBAR_NONE) if no new edge is detected */ extern zbar_symbol_type_t zbar_scan_y(zbar_scanner_t *scanner, int y); /** process next sample from RGB (or BGR) triple. */ static inline zbar_symbol_type_t zbar_scan_rgb24 (zbar_scanner_t *scanner, unsigned char *rgb) { return(zbar_scan_y(scanner, rgb[0] + rgb[1] + rgb[2])); } /** retrieve last scanned width. */ extern unsigned zbar_scanner_get_width(const zbar_scanner_t *scanner); /** retrieve sample position of last edge. * @since 0.10 */ extern unsigned zbar_scanner_get_edge(const zbar_scanner_t *scn, unsigned offset, int prec); /** retrieve last scanned color. */ extern zbar_color_t zbar_scanner_get_color(const zbar_scanner_t *scanner); /*@}*/ #ifdef __cplusplus } } # include "zbar/Exception.h" # include "zbar/Decoder.h" # include "zbar/Scanner.h" # include "zbar/Symbol.h" # include "zbar/Image.h" # include "zbar/ImageScanner.h" # include "zbar/Video.h" # include "zbar/Window.h" # include "zbar/Processor.h" #endif #endif