/* quirc -- QR-code recognition library * Copyright (C) 2010-2012 Daniel Beer * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef QUIRC_H_ #define QUIRC_H_ #include #ifdef __cplusplus extern "C" { #endif struct quirc; /* Obtain the library version string. */ const char *quirc_version(void); /* Construct a new QR-code recognizer. This function will return NULL * if sufficient memory could not be allocated. */ struct quirc *quirc_new(void); /* Destroy a QR-code recognizer. */ void quirc_destroy(struct quirc *q); /* Set the QR-code recognizer. use internal allocation memory or external * allocation memory buffer. * specified before call quirc_resize. use internal allocation memory buffer. * * This function returns 0 on success, or -1 if sufficient memory could * not be allocated. */ int quirc_set_image_buffer(struct quirc* q, uint8_t* image_buffer); /* Resize the QR-code recognizer. The size of an image must be * specified before codes can be analyzed. * * This function returns 0 on success, or -1 if sufficient memory could * not be allocated. */ int quirc_resize(struct quirc* q, int w, int h); /* These functions are used to process images for QR-code recognition. * quirc_begin() must first be called to obtain access to a buffer into * which the input image should be placed. Optionally, the current * width and height may be returned. * * After filling the buffer, quirc_end() should be called to process * the image for QR-code recognition. The locations and content of each * code may be obtained using accessor functions described below. */ uint8_t *quirc_begin(struct quirc *q, int *w, int *h); void quirc_end(struct quirc *q); /* This structure describes a location in the input image buffer. */ struct quirc_point { int x; int y; }; /* This enum describes the various decoder errors which may occur. */ typedef enum { QUIRC_SUCCESS = 0, QUIRC_ERROR_INVALID_GRID_SIZE, QUIRC_ERROR_INVALID_VERSION, QUIRC_ERROR_FORMAT_ECC, QUIRC_ERROR_DATA_ECC, QUIRC_ERROR_UNKNOWN_DATA_TYPE, QUIRC_ERROR_DATA_OVERFLOW, QUIRC_ERROR_DATA_UNDERFLOW } quirc_decode_error_t; /* Return a string error message for an error code. */ const char *quirc_strerror(quirc_decode_error_t err); /* Limits on the maximum size of QR-codes and their content. */ #define QUIRC_MAX_VERSION 40 #define QUIRC_MAX_GRID_SIZE (QUIRC_MAX_VERSION * 4 + 17) #define QUIRC_MAX_BITMAP (((QUIRC_MAX_GRID_SIZE * QUIRC_MAX_GRID_SIZE) + 7) / 8) #define QUIRC_MAX_PAYLOAD 8896 /* QR-code ECC types. */ #define QUIRC_ECC_LEVEL_M 0 #define QUIRC_ECC_LEVEL_L 1 #define QUIRC_ECC_LEVEL_H 2 #define QUIRC_ECC_LEVEL_Q 3 /* QR-code data types. */ #define QUIRC_DATA_TYPE_NUMERIC 1 #define QUIRC_DATA_TYPE_ALPHA 2 #define QUIRC_DATA_TYPE_BYTE 4 #define QUIRC_DATA_TYPE_KANJI 8 /* Common character encodings */ #define QUIRC_ECI_ISO_8859_1 1 #define QUIRC_ECI_IBM437 2 #define QUIRC_ECI_ISO_8859_2 4 #define QUIRC_ECI_ISO_8859_3 5 #define QUIRC_ECI_ISO_8859_4 6 #define QUIRC_ECI_ISO_8859_5 7 #define QUIRC_ECI_ISO_8859_6 8 #define QUIRC_ECI_ISO_8859_7 9 #define QUIRC_ECI_ISO_8859_8 10 #define QUIRC_ECI_ISO_8859_9 11 #define QUIRC_ECI_WINDOWS_874 13 #define QUIRC_ECI_ISO_8859_13 15 #define QUIRC_ECI_ISO_8859_15 17 #define QUIRC_ECI_SHIFT_JIS 20 #define QUIRC_ECI_UTF_8 26 /* This structure is used to return information about detected QR codes * in the input image. */ struct quirc_code { /* The four corners of the QR-code, from top left, clockwise */ struct quirc_point corners[4]; /* The number of cells across in the QR-code. The cell bitmap * is a bitmask giving the actual values of cells. If the cell * at (x, y) is black, then the following bit is set: * * cell_bitmap[i >> 3] & (1 << (i & 7)) * * where i = (y * size) + x. */ int size; uint8_t cell_bitmap[QUIRC_MAX_BITMAP]; }; /* This structure holds the decoded QR-code data */ struct quirc_data { /* Various parameters of the QR-code. These can mostly be * ignored if you only care about the data. */ int version; int ecc_level; int mask; /* This field is the highest-valued data type found in the QR * code. */ int data_type; /* Data payload. For the Kanji datatype, payload is encoded as * Shift-JIS. For all other datatypes, payload is ASCII text. */ uint8_t payload[QUIRC_MAX_PAYLOAD]; int payload_len; /* ECI assignment number */ uint32_t eci; }; /* Return the number of QR-codes identified in the last processed * image. */ int quirc_count(const struct quirc *q); /* Extract the QR-code specified by the given index. */ void quirc_extract(const struct quirc *q, int index, struct quirc_code *code); /* Decode a QR-code, returning the payload data. */ quirc_decode_error_t quirc_decode(const struct quirc_code *code, struct quirc_data *data); /* Flip a QR-code according to optional mirror feature of ISO 18004:2015 */ void quirc_flip(struct quirc_code *code); #ifdef __cplusplus } #endif #endif