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#include "qbytearraymatcher.h"

#include <limits.h>

QT_BEGIN_NAMESPACE

static inline void bm_init_skiptable(const uchar *cc, int len, uchar *skiptable)

{

    int l = qMin(len, 255);

    memset(skiptable, l, 256*sizeof(uchar));

    cc += len - l;

    while (l--)

        skiptable[*cc++] = l;

}

static inline int bm_find(const uchar *cc, int l, int index, const uchar *puc, uint pl,

                          const uchar *skiptable)

{

    if (pl == 0)

        return index > l ? -1 : index;

    const uint pl_minus_one = pl - 1;

    register const uchar *current = cc + index + pl_minus_one;

    const uchar *end = cc + l;

    while (current < end) {

        uint skip = skiptable[*current];

        if (!skip) {

            // possible match

            while (skip < pl) {

                if (*(current - skip) != puc[pl_minus_one - skip])

                    break;

                skip++;

            }

            if (skip > pl_minus_one) // we have a match

                return (current - cc) - skip + 1;

            // in case we don't have a match we are a bit inefficient as we only skip by one

            // when we have the non matching char in the string.

            if (skiptable[*(current - skip)] == pl)

                skip = pl - skip;

            else

                skip = 1;

        }

        if (current > end - skip)

            break;

        current += skip;

    }

    return -1; // not found

}

/*! \class QByteArrayMatcher

    \brief The QByteArrayMatcher class holds a sequence of bytes that

    can be quickly matched in a byte array.

    \ingroup tools

    \ingroup string-processing

    This class is useful when you have a sequence of bytes that you

    want to repeatedly match against some byte arrays (perhaps in a

    loop), or when you want to search for the same sequence of bytes

    multiple times in the same byte array. Using a matcher object and

    indexIn() is faster than matching a plain QByteArray with

    QByteArray::indexOf() if repeated matching takes place. This

    class offers no benefit if you are doing one-off byte array

    matches.

    Create the QByteArrayMatcher with the QByteArray you want to

    search for. Then call indexIn() on the QByteArray that you want to

    search.

    \sa QByteArray, QStringMatcher

*/

/*!

    Constructs an empty byte array matcher that won't match anything.

    Call setPattern() to give it a pattern to match.

*/

QByteArrayMatcher::QByteArrayMatcher()

    : d(0)

{

    p.p = 0;

    p.l = 0;

    qMemSet(p.q_skiptable, 0, sizeof(p.q_skiptable));

}

/*!

  Constructs a byte array matcher from \a pattern. \a pattern

  has the given \a length. \a pattern must remain in scope, but

  the destructor does not delete \a pattern.

 */

QByteArrayMatcher::QByteArrayMatcher(const char *pattern, int length)

    : d(0)

{

    p.p = reinterpret_cast<const uchar *>(pattern);

    p.l = length;

    bm_init_skiptable(p.p, p.l, p.q_skiptable);

}

/*!

    Constructs a byte array matcher that will search for \a pattern.

    Call indexIn() to perform a search.

*/

QByteArrayMatcher::QByteArrayMatcher(const QByteArray &pattern)

    : d(0), q_pattern(pattern)

{

    p.p = reinterpret_cast<const uchar *>(pattern.constData());

    p.l = pattern.size();

    bm_init_skiptable(p.p, p.l, p.q_skiptable);

}

/*!

    Copies the \a other byte array matcher to this byte array matcher.

*/

QByteArrayMatcher::QByteArrayMatcher(const QByteArrayMatcher &other)

    : d(0)

{

    operator=(other);

}

/*!

    Destroys the byte array matcher.

*/

QByteArrayMatcher::~QByteArrayMatcher()

{

}

/*!

    Assigns the \a other byte array matcher to this byte array matcher.

*/

QByteArrayMatcher &QByteArrayMatcher::operator=(const QByteArrayMatcher &other)

{

    q_pattern = other.q_pattern;

    qMemCopy(&p, &other.p, sizeof(p));

    return *this;

}

/*!

    Sets the byte array that this byte array matcher will search for

    to \a pattern.

    \sa pattern(), indexIn()

*/

void QByteArrayMatcher::setPattern(const QByteArray &pattern)

{

    q_pattern = pattern;

    p.p = reinterpret_cast<const uchar *>(pattern.constData());

    p.l = pattern.size();

    bm_init_skiptable(p.p, p.l, p.q_skiptable);

}

/*!

    Searches the byte array \a ba, from byte position \a from (default

    0, i.e. from the first byte), for the byte array pattern() that

    was set in the constructor or in the most recent call to

    setPattern(). Returns the position where the pattern() matched in

    \a ba, or -1 if no match was found.

*/

int QByteArrayMatcher::indexIn(const QByteArray &ba, int from) const

{

    if (from < 0)

        from = 0;

    return bm_find(reinterpret_cast<const uchar *>(ba.constData()), ba.size(), from,

                   p.p, p.l, p.q_skiptable);

}

/*!

    Searches the char string \a str, which has length \a len, from

    byte position \a from (default 0, i.e. from the first byte), for

    the byte array pattern() that was set in the constructor or in the

    most recent call to setPattern(). Returns the position where the

    pattern() matched in \a str, or -1 if no match was found.

*/

int QByteArrayMatcher::indexIn(const char *str, int len, int from) const

{

    if (from < 0)

        from = 0;

    return bm_find(reinterpret_cast<const uchar *>(str), len, from,

                   p.p, p.l, p.q_skiptable);

}

/*!

    \fn QByteArray QByteArrayMatcher::pattern() const

    Returns the byte array pattern that this byte array matcher will

    search for.

    \sa setPattern()

*/

static int findChar(const char *str, int len, char ch, int from)

{

    const uchar *s = (const uchar *)str;

    uchar c = (uchar)ch;

    if (from < 0)

        from = qMax(from + len, 0);

    if (from < len) {

        const uchar *n = s + from - 1;

        const uchar *e = s + len;

        while (++n != e)

            if (*n == c)

                return  n - s;

    }

    return -1;

}

/*! \internal

 */

static int qFindByteArrayBoyerMoore(

    const char *haystack, int haystackLen, int haystackOffset,

    const char *needle, int needleLen)

{

    uchar skiptable[256];

    bm_init_skiptable((const uchar *)needle, needleLen, skiptable);

    if (haystackOffset < 0)

        haystackOffset = 0;

    return bm_find((const uchar *)haystack, haystackLen, haystackOffset,

                   (const uchar *)needle, needleLen, skiptable);

}

#define REHASH(a) \

    if (sl_minus_1 < sizeof(uint) * CHAR_BIT) \

        hashHaystack -= (a) << sl_minus_1; \

    hashHaystack <<= 1

/*! \internal

 */

int qFindByteArray(

    const char *haystack0, int haystackLen, int from,

    const char *needle, int needleLen)

{

    const int l = haystackLen;

    const int sl = needleLen;

    if (from < 0)

        from += l;

    if (uint(sl + from) > (uint)l)

        return -1;

    if (!sl)

        return from;

    if (!l)

        return -1;

    if (sl == 1)

        return findChar(haystack0, haystackLen, needle[0], from);

    /*

      We use the Boyer-Moore algorithm in cases where the overhead

      for the skip table should pay off, otherwise we use a simple

      hash function.

    */

    if (l > 500 && sl > 5)

        return qFindByteArrayBoyerMoore(haystack0, haystackLen, from,

                                        needle, needleLen);

    /*

      We use some hashing for efficiency's sake. Instead of

      comparing strings, we compare the hash value of str with that

      of a part of this QString. Only if that matches, we call memcmp().

    */

    const char *haystack = haystack0 + from;

    const char *end = haystack0 + (l - sl);

    const uint sl_minus_1 = sl - 1;

    uint hashNeedle = 0, hashHaystack = 0;

    int idx;

    for (idx = 0; idx < sl; ++idx) {

        hashNeedle = ((hashNeedle<<1) + needle[idx]);

        hashHaystack = ((hashHaystack<<1) + haystack[idx]);

    }

    hashHaystack -= *(haystack + sl_minus_1);

    while (haystack <= end) {

        hashHaystack += *(haystack + sl_minus_1);

        if (hashHaystack == hashNeedle && *needle == *haystack

             && memcmp(needle, haystack, sl) == 0)

            return haystack - haystack0;

        REHASH(*haystack);

        ++haystack;

    }

    return -1;

}

QT_END_NAMESPACE