DMS-XS-Parser

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vendor/dms-c/vendor/utf8proc/utf8proc.h  view on Meta::CPAN

#  define UTF8PROC_DLLEXPORT
#else
#  ifdef _WIN32
#    ifdef UTF8PROC_EXPORTS
#      define UTF8PROC_DLLEXPORT __declspec(dllexport)
#    else
#      define UTF8PROC_DLLEXPORT __declspec(dllimport)
#    endif
#  elif __GNUC__ >= 4
#    define UTF8PROC_DLLEXPORT __attribute__ ((visibility("default")))
#  else
#    define UTF8PROC_DLLEXPORT
#  endif
#endif

#ifdef __cplusplus
extern "C" {
#endif

/**
 * Option flags used by several functions in the library.
 */
typedef enum {
  /** The given UTF-8 input is NULL terminated. */
  UTF8PROC_NULLTERM  = (1<<0),
  /** Unicode Versioning Stability has to be respected. */
  UTF8PROC_STABLE    = (1<<1),
  /** Compatibility decomposition (i.e. formatting information is lost). */
  UTF8PROC_COMPAT    = (1<<2),
  /** Return a result with decomposed characters. */
  UTF8PROC_COMPOSE   = (1<<3),
  /** Return a result with decomposed characters. */
  UTF8PROC_DECOMPOSE = (1<<4),
  /** Strip "default ignorable characters" such as SOFT-HYPHEN or ZERO-WIDTH-SPACE. */
  UTF8PROC_IGNORE    = (1<<5),
  /** Return an error, if the input contains unassigned codepoints. */
  UTF8PROC_REJECTNA  = (1<<6),
  /**
   * Indicating that NLF-sequences (LF, CRLF, CR, NEL) are representing a
   * line break, and should be converted to the codepoint for line
   * separation (LS).
   */
  UTF8PROC_NLF2LS    = (1<<7),
  /**
   * Indicating that NLF-sequences are representing a paragraph break, and
   * should be converted to the codepoint for paragraph separation
   * (PS).
   */
  UTF8PROC_NLF2PS    = (1<<8),
  /** Indicating that the meaning of NLF-sequences is unknown. */
  UTF8PROC_NLF2LF    = (UTF8PROC_NLF2LS | UTF8PROC_NLF2PS),
  /** Strips and/or convers control characters.
   *
   * NLF-sequences are transformed into space, except if one of the
   * NLF2LS/PS/LF options is given. HorizontalTab (HT) and FormFeed (FF)
   * are treated as a NLF-sequence in this case.  All other control
   * characters are simply removed.
   */
  UTF8PROC_STRIPCC   = (1<<9),
  /**
   * Performs unicode case folding, to be able to do a case-insensitive
   * string comparison.
   */
  UTF8PROC_CASEFOLD  = (1<<10),
  /**
   * Inserts 0xFF bytes at the beginning of each sequence which is
   * representing a single grapheme cluster (see UAX#29).
   */
  UTF8PROC_CHARBOUND = (1<<11),
  /** Lumps certain characters together.
   *
   * E.g. HYPHEN U+2010 and MINUS U+2212 to ASCII "-". See lump.md for details.
   *
   * If NLF2LF is set, this includes a transformation of paragraph and
   * line separators to ASCII line-feed (LF).
   */
  UTF8PROC_LUMP      = (1<<12),
  /** Strips all character markings.
   *
   * This includes non-spacing, spacing and enclosing (i.e. accents).
   * @note This option works only with @ref UTF8PROC_COMPOSE or
   *       @ref UTF8PROC_DECOMPOSE
   */
  UTF8PROC_STRIPMARK = (1<<13),
  /**
   * Strip unassigned codepoints.
   */
  UTF8PROC_STRIPNA    = (1<<14),
} utf8proc_option_t;

/** @name Error codes
 * Error codes being returned by almost all functions.
 */
/** @{ */
/** Memory could not be allocated. */
#define UTF8PROC_ERROR_NOMEM -1
/** The given string is too long to be processed. */
#define UTF8PROC_ERROR_OVERFLOW -2
/** The given string is not a legal UTF-8 string. */
#define UTF8PROC_ERROR_INVALIDUTF8 -3
/** The @ref UTF8PROC_REJECTNA flag was set and an unassigned codepoint was found. */
#define UTF8PROC_ERROR_NOTASSIGNED -4
/** Invalid options have been used. */
#define UTF8PROC_ERROR_INVALIDOPTS -5
/** @} */

/* @name Types */

/** Holds the value of a property. */
typedef utf8proc_int16_t utf8proc_propval_t;

/** Struct containing information about a codepoint. */
typedef struct utf8proc_property_struct {
  /**
   * Unicode category.
   * @see utf8proc_category_t.
   */
  utf8proc_propval_t category;
  utf8proc_propval_t combining_class;
  /**
   * Bidirectional class.

vendor/dms-c/vendor/utf8proc/utf8proc.h  view on Meta::CPAN

  UTF8PROC_BOUNDCLASS_START              =  0, /**< Start */
  UTF8PROC_BOUNDCLASS_OTHER              =  1, /**< Other */
  UTF8PROC_BOUNDCLASS_CR                 =  2, /**< Cr */
  UTF8PROC_BOUNDCLASS_LF                 =  3, /**< Lf */
  UTF8PROC_BOUNDCLASS_CONTROL            =  4, /**< Control */
  UTF8PROC_BOUNDCLASS_EXTEND             =  5, /**< Extend */
  UTF8PROC_BOUNDCLASS_L                  =  6, /**< L */
  UTF8PROC_BOUNDCLASS_V                  =  7, /**< V */
  UTF8PROC_BOUNDCLASS_T                  =  8, /**< T */
  UTF8PROC_BOUNDCLASS_LV                 =  9, /**< Lv */
  UTF8PROC_BOUNDCLASS_LVT                = 10, /**< Lvt */
  UTF8PROC_BOUNDCLASS_REGIONAL_INDICATOR = 11, /**< Regional indicator */
  UTF8PROC_BOUNDCLASS_SPACINGMARK        = 12, /**< Spacingmark */
  UTF8PROC_BOUNDCLASS_PREPEND            = 13, /**< Prepend */
  UTF8PROC_BOUNDCLASS_ZWJ                = 14, /**< Zero Width Joiner */

  /* the following are no longer used in Unicode 11, but we keep
     the constants here for backward compatibility */
  UTF8PROC_BOUNDCLASS_E_BASE             = 15, /**< Emoji Base */
  UTF8PROC_BOUNDCLASS_E_MODIFIER         = 16, /**< Emoji Modifier */
  UTF8PROC_BOUNDCLASS_GLUE_AFTER_ZWJ     = 17, /**< Glue_After_ZWJ */
  UTF8PROC_BOUNDCLASS_E_BASE_GAZ         = 18, /**< E_BASE + GLUE_AFTER_ZJW */

  /* the Extended_Pictographic property is used in the Unicode 11
     grapheme-boundary rules, so we store it in the boundclass field */
  UTF8PROC_BOUNDCLASS_EXTENDED_PICTOGRAPHIC = 19,
  UTF8PROC_BOUNDCLASS_E_ZWG = 20, /* UTF8PROC_BOUNDCLASS_EXTENDED_PICTOGRAPHIC + ZWJ */
} utf8proc_boundclass_t;

/** Indic_Conjunct_Break property. (TR44) */
typedef enum {
  UTF8PROC_INDIC_CONJUNCT_BREAK_NONE = 0,
  UTF8PROC_INDIC_CONJUNCT_BREAK_LINKER = 1,
  UTF8PROC_INDIC_CONJUNCT_BREAK_CONSONANT = 2,
  UTF8PROC_INDIC_CONJUNCT_BREAK_EXTEND = 3,
} utf8proc_indic_conjunct_break_t;

/**
 * Function pointer type passed to utf8proc_map_custom() and
 * utf8proc_decompose_custom(), which is used to specify a user-defined
 * mapping of codepoints to be applied in conjunction with other mappings.
 */
typedef utf8proc_int32_t (*utf8proc_custom_func)(utf8proc_int32_t codepoint, void *data);

/**
 * Array containing the byte lengths of a UTF-8 encoded codepoint based
 * on the first byte.
 */
UTF8PROC_DLLEXPORT extern const utf8proc_int8_t utf8proc_utf8class[256];

/**
 * Returns the utf8proc API version as a string MAJOR.MINOR.PATCH
 * (http://semver.org format), possibly with a "-dev" suffix for
 * development versions.
 */
UTF8PROC_DLLEXPORT const char *utf8proc_version(void);

/**
 * Returns the utf8proc supported Unicode version as a string MAJOR.MINOR.PATCH.
 */
UTF8PROC_DLLEXPORT const char *utf8proc_unicode_version(void);

/**
 * Returns an informative error string for the given utf8proc error code
 * (e.g. the error codes returned by utf8proc_map()).
 */
UTF8PROC_DLLEXPORT const char *utf8proc_errmsg(utf8proc_ssize_t errcode);

/**
 * Reads a single codepoint from the UTF-8 sequence being pointed to by `str`.
 * The maximum number of bytes read is `strlen`, unless `strlen` is
 * negative (in which case up to 4 bytes are read).
 *
 * If a valid codepoint could be read, it is stored in the variable
 * pointed to by `codepoint_ref`, otherwise that variable will be set to -1.
 * In case of success, the number of bytes read is returned; otherwise, a
 * negative error code is returned.
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_iterate(const utf8proc_uint8_t *str, utf8proc_ssize_t strlen, utf8proc_int32_t *codepoint_ref);

/**
 * Check if a codepoint is valid (regardless of whether it has been
 * assigned a value by the current Unicode standard).
 *
 * @return 1 if the given `codepoint` is valid and otherwise return 0.
 */
UTF8PROC_DLLEXPORT utf8proc_bool utf8proc_codepoint_valid(utf8proc_int32_t codepoint);

/**
 * Encodes the codepoint as an UTF-8 string in the byte array pointed
 * to by `dst`. This array must be at least 4 bytes long.
 *
 * In case of success the number of bytes written is returned, and
 * otherwise 0 is returned.
 *
 * This function does not check whether `codepoint` is valid Unicode.
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_encode_char(utf8proc_int32_t codepoint, utf8proc_uint8_t *dst);

/**
 * Look up the properties for a given codepoint.
 *
 * @param codepoint The Unicode codepoint.
 *
 * @returns
 * A pointer to a (constant) struct containing information about
 * the codepoint.
 * @par
 * If the codepoint is unassigned or invalid, a pointer to a special struct is
 * returned in which `category` is 0 (@ref UTF8PROC_CATEGORY_CN).
 */
UTF8PROC_DLLEXPORT const utf8proc_property_t *utf8proc_get_property(utf8proc_int32_t codepoint);

/** Decompose a codepoint into an array of codepoints.
 *
 * @param codepoint the codepoint.
 * @param dst the destination buffer.
 * @param bufsize the size of the destination buffer.
 * @param options one or more of the following flags:
 * - @ref UTF8PROC_REJECTNA  - return an error `codepoint` is unassigned
 * - @ref UTF8PROC_IGNORE    - strip "default ignorable" codepoints
 * - @ref UTF8PROC_CASEFOLD  - apply Unicode casefolding
 * - @ref UTF8PROC_COMPAT    - replace certain codepoints with their
 *                             compatibility decomposition
 * - @ref UTF8PROC_CHARBOUND - insert 0xFF bytes before each grapheme cluster
 * - @ref UTF8PROC_LUMP      - lump certain different codepoints together
 * - @ref UTF8PROC_STRIPMARK - remove all character marks
 * - @ref UTF8PROC_STRIPNA   - remove unassigned codepoints
 * @param last_boundclass
 * Pointer to an integer variable containing
 * the previous codepoint's (boundclass + indic_conjunct_break << 1) if the @ref UTF8PROC_CHARBOUND
 * option is used.  If the string is being processed in order, this can be initialized to 0 for
 * the beginning of the string, and is thereafter updated automatically.  Otherwise, this parameter is ignored.
 *
 * @return
 * In case of success, the number of codepoints written is returned; in case
 * of an error, a negative error code is returned (utf8proc_errmsg()).
 * @par
 * If the number of written codepoints would be bigger than `bufsize`, the
 * required buffer size is returned, while the buffer will be overwritten with
 * undefined data.
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_decompose_char(
  utf8proc_int32_t codepoint, utf8proc_int32_t *dst, utf8proc_ssize_t bufsize,
  utf8proc_option_t options, int *last_boundclass
);

/**
 * The same as utf8proc_decompose_char(), but acts on a whole UTF-8
 * string and orders the decomposed sequences correctly.
 *
 * If the @ref UTF8PROC_NULLTERM flag in `options` is set, processing
 * will be stopped, when a NULL byte is encountered, otherwise `strlen`
 * bytes are processed.  The result (in the form of 32-bit unicode
 * codepoints) is written into the buffer being pointed to by
 * `buffer` (which must contain at least `bufsize` entries).  In case of
 * success, the number of codepoints written is returned; in case of an
 * error, a negative error code is returned (utf8proc_errmsg()).
 * See utf8proc_decompose_custom() to supply additional transformations.
 *
 * If the number of written codepoints would be bigger than `bufsize`, the
 * required buffer size is returned, while the buffer will be overwritten with
 * undefined data.
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_decompose(
  const utf8proc_uint8_t *str, utf8proc_ssize_t strlen,
  utf8proc_int32_t *buffer, utf8proc_ssize_t bufsize, utf8proc_option_t options
);

/**
 * The same as utf8proc_decompose(), but also takes a `custom_func` mapping function
 * that is called on each codepoint in `str` before any other transformations
 * (along with a `custom_data` pointer that is passed through to `custom_func`).
 * The `custom_func` argument is ignored if it is `NULL`.  See also utf8proc_map_custom().
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_decompose_custom(
  const utf8proc_uint8_t *str, utf8proc_ssize_t strlen,
  utf8proc_int32_t *buffer, utf8proc_ssize_t bufsize, utf8proc_option_t options,
  utf8proc_custom_func custom_func, void *custom_data
);

/**
 * Normalizes the sequence of `length` codepoints pointed to by `buffer`
 * in-place (i.e., the result is also stored in `buffer`).
 *
 * @param buffer the (native-endian UTF-32) unicode codepoints to re-encode.
 * @param length the length (in codepoints) of the buffer.
 * @param options a bitwise or (`|`) of one or more of the following flags:
 * - @ref UTF8PROC_NLF2LS  - convert LF, CRLF, CR and NEL into LS
 * - @ref UTF8PROC_NLF2PS  - convert LF, CRLF, CR and NEL into PS
 * - @ref UTF8PROC_NLF2LF  - convert LF, CRLF, CR and NEL into LF
 * - @ref UTF8PROC_STRIPCC - strip or convert all non-affected control characters
 * - @ref UTF8PROC_COMPOSE - try to combine decomposed codepoints into composite
 *                           codepoints
 * - @ref UTF8PROC_STABLE  - prohibit combining characters that would violate
 *                           the unicode versioning stability
 *
 * @return
 * In case of success, the length (in codepoints) of the normalized UTF-32 string is
 * returned; otherwise, a negative error code is returned (utf8proc_errmsg()).
 *
 * @warning The entries of the array pointed to by `str` have to be in the
 *          range `0x0000` to `0x10FFFF`. Otherwise, the program might crash!
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_normalize_utf32(utf8proc_int32_t *buffer, utf8proc_ssize_t length, utf8proc_option_t options);

/**
 * Reencodes the sequence of `length` codepoints pointed to by `buffer`
 * UTF-8 data in-place (i.e., the result is also stored in `buffer`).
 * Can optionally normalize the UTF-32 sequence prior to UTF-8 conversion.
 *
 * @param buffer the (native-endian UTF-32) unicode codepoints to re-encode.
 * @param length the length (in codepoints) of the buffer.
 * @param options a bitwise or (`|`) of one or more of the following flags:
 * - @ref UTF8PROC_NLF2LS  - convert LF, CRLF, CR and NEL into LS
 * - @ref UTF8PROC_NLF2PS  - convert LF, CRLF, CR and NEL into PS
 * - @ref UTF8PROC_NLF2LF  - convert LF, CRLF, CR and NEL into LF
 * - @ref UTF8PROC_STRIPCC - strip or convert all non-affected control characters
 * - @ref UTF8PROC_COMPOSE - try to combine decomposed codepoints into composite
 *                           codepoints
 * - @ref UTF8PROC_STABLE  - prohibit combining characters that would violate
 *                           the unicode versioning stability
 * - @ref UTF8PROC_CHARBOUND - insert 0xFF bytes before each grapheme cluster
 *
 * @return
 * In case of success, the length (in bytes) of the resulting nul-terminated
 * UTF-8 string is returned; otherwise, a negative error code is returned
 * (utf8proc_errmsg()).
 *
 * @warning The amount of free space pointed to by `buffer` must
 *          exceed the amount of the input data by one byte, and the
 *          entries of the array pointed to by `str` have to be in the
 *          range `0x0000` to `0x10FFFF`. Otherwise, the program might crash!
 */
UTF8PROC_DLLEXPORT utf8proc_ssize_t utf8proc_reencode(utf8proc_int32_t *buffer, utf8proc_ssize_t length, utf8proc_option_t options);

/**
 * Given a pair of consecutive codepoints, return whether a grapheme break is
 * permitted between them (as defined by the extended grapheme clusters in UAX#29).
 *
 * @param codepoint1 The first codepoint.
 * @param codepoint2 The second codepoint, occurring consecutively after `codepoint1`.
 * @param state Beginning with Version 29 (Unicode 9.0.0), this algorithm requires
 *              state to break graphemes. This state can be passed in as a pointer
 *              in the `state` argument and should initially be set to 0. If the
 *              state is not passed in (i.e. a null pointer is passed), UAX#29 rules
 *              GB10/12/13 which require this state will not be applied, essentially
 *              matching the rules in Unicode 8.0.0.
 *
 * @warning If the state parameter is used, `utf8proc_grapheme_break_stateful` must
 *          be called IN ORDER on ALL potential breaks in a string.  However, it
 *          is safe to reset the state to zero after a grapheme break.
 */
UTF8PROC_DLLEXPORT utf8proc_bool utf8proc_grapheme_break_stateful(
    utf8proc_int32_t codepoint1, utf8proc_int32_t codepoint2, utf8proc_int32_t *state);

/**
 * Same as utf8proc_grapheme_break_stateful(), except without support for the
 * Unicode 9 additions to the algorithm. Supported for legacy reasons.
 */
UTF8PROC_DLLEXPORT utf8proc_bool utf8proc_grapheme_break(
    utf8proc_int32_t codepoint1, utf8proc_int32_t codepoint2);


/**
 * Given a codepoint `c`, return the codepoint of the corresponding
 * lower-case character, if any; otherwise (if there is no lower-case
 * variant, or if `c` is not a valid codepoint) return `c`.
 */
UTF8PROC_DLLEXPORT utf8proc_int32_t utf8proc_tolower(utf8proc_int32_t c);

/**
 * Given a codepoint `c`, return the codepoint of the corresponding
 * upper-case character, if any; otherwise (if there is no upper-case
 * variant, or if `c` is not a valid codepoint) return `c`.
 */
UTF8PROC_DLLEXPORT utf8proc_int32_t utf8proc_toupper(utf8proc_int32_t c);

/**
 * Given a codepoint `c`, return the codepoint of the corresponding
 * title-case character, if any; otherwise (if there is no title-case
 * variant, or if `c` is not a valid codepoint) return `c`.



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