Example #1
0
File: 293.cpp Project: grokus/exp
void
gen_admissible()
{
    unsigned n = 2;
    while (n < NMAX)
    {
        b1.set(n);
        n *= 2;
    }
    overall |= b1;
    for (int i = 0; i < num_primes; i++)
    {
        uint64 p = primes[i];
        do
        {
            size_t pos = b1.find_first();
            uint64 j;
            while (pos != string::npos && (j = pos * p) < NMAX)
            {
                //cout << j << endl;
                b2.set(j);
                pos = b1.find_next(pos);
            }
            p *= primes[i];
        } while (p < NMAX);
        overall |= b2;
        b1.clear();
        b1.resize(NMAX + 1);
        b1.swap(b2);
    }
}
Example #2
0
File: 293.cpp Project: grokus/exp
int
main (int argc, char *argv[])
{
    overall.resize(NMAX + 1);
    b1.resize(NMAX + 1);
    b2.resize(NMAX + 1);
    gen_admissible();
    print_bitset(overall, 640);
    mpz_class p_prev = 0, p = 3;
    mpz_class max;
    mpz_set_ui(max.get_mpz_t(), NMAX);
    size_t pos = overall.find_first();
    Bits pf;
    pf.resize(1000);
    while (pos != string::npos && p_prev < max)
    {
        mpz_swap(p_prev.get_mpz_t(), p.get_mpz_t());
        mpz_nextprime(p.get_mpz_t(), p_prev.get_mpz_t());
        //cout << "next prime: " << p << endl;
        unsigned uip = mpz_get_ui(p.get_mpz_t());
        while (pos != string::npos && pos + 1 < uip)
        {
            pf.set(uip - pos);
            //cout << "pos: " << pos << ", total: " << total << endl;
            pos = overall.find_next(pos);
        }
    }
    unsigned total = 0;
    for (size_t pos = pf.find_first(); pos != string::npos; pos = pf.find_next(pos))
    {
        total += pos;
    }
    cout << "total: " << total << endl;
    return 0;
}
Example #3
0
void
Ticket_ATTLC::Validate(Bits& b)
{
	unsigned int count = 0;

	while (b[count])
		count++;

	while (count >= b.size())
		b.size(b.size() + bits_increment);

	num = count;
	b.set(num);
}
static void generateSummary( Summary &summary, char *htmlInput, const char *queryStr, const char *urlStr ) {
	Xml xml;
	ASSERT_TRUE(xml.set(htmlInput, strlen(htmlInput), 0, CT_HTML));

	Words words;
	ASSERT_TRUE(words.set(&xml, true));

	Bits bits;
	ASSERT_TRUE(bits.set(&words));

	Url url;
	url.set(urlStr);

	Sections sections;
	ASSERT_TRUE(sections.set(&words, &bits, &url, "", CT_HTML));

	Query query;
	ASSERT_TRUE(query.set2(queryStr, langEnglish, true));

	LinkInfo linkInfo;
	memset ( &linkInfo , 0 , sizeof(LinkInfo) );
	linkInfo.m_lisize = sizeof(LinkInfo);

	Title title;
	ASSERT_TRUE(title.setTitle(&xml, &words, 80, &query, &linkInfo, &url, NULL, 0, CT_HTML, langEnglish));

	Pos pos;
	ASSERT_TRUE(pos.set(&words));

	Bits bitsForSummary;
	ASSERT_TRUE(bitsForSummary.setForSummary(&words));

	Phrases phrases;
	ASSERT_TRUE(phrases.set(&words, &bits));

	Matches matches;
	matches.setQuery(&query);
	ASSERT_TRUE(matches.set(&words, &phrases, &sections, &bitsForSummary, &pos, &xml, &title, &url, &linkInfo));

	summary.setSummary(&xml, &words, &sections, &pos, &query, 180, 3, 3, 180, &url, &matches, title.getTitle(), title.getTitleLen());
}
Example #5
0
dt_t *ArrayInitializer::toDtBit()
{
#if DMDV1
    unsigned size;
    unsigned length;
    unsigned tadim;
    dt_t *d;
    dt_t **pdtend;
    Type *tb = type->toBasetype();

    //printf("ArrayInitializer::toDtBit('%s')\n", toChars());

    Bits databits;
    Bits initbits;

    if (tb->ty == Tsarray)
    {
        /* The 'dim' for ArrayInitializer is only the maximum dimension
         * seen in the initializer, not the type. So, for static arrays,
         * use instead the dimension of the type in order
         * to get the whole thing.
         */
        dinteger_t value = ((TypeSArray*)tb)->dim->toInteger();
        tadim = value;
        assert(tadim == value);  // truncation overflow should already be checked
        databits.resize(tadim);
        initbits.resize(tadim);
    }
    else
    {
        databits.resize(dim);
        initbits.resize(dim);
    }

    /* The default initializer may be something other than zero.
     */
    if (tb->next->defaultInit()->toInteger())
        databits.set();

    size = sizeof(databits.data[0]);

    length = 0;
    for (size_t i = 0; i < index.dim; i++)
    {   Expression *idx;
        Initializer *val;
        Expression *eval;

        idx = (Expression *)index.data[i];
        if (idx)
        {   dinteger_t value;
            value = idx->toInteger();
            length = value;
            if (length != value)
            {   error(loc, "index overflow %llu", value);
                length = 0;
            }
        }
        assert(length < dim);

        val = (Initializer *)value.data[i];
        eval = val->toExpression();
        if (initbits.test(length))
            error(loc, "duplicate initializations for index %d", length);
        initbits.set(length);
        if (eval->toInteger())          // any non-zero value is boolean 'true'
            databits.set(length);
        else
            databits.clear(length);     // boolean 'false'
        length++;
    }

    d = NULL;
#ifdef IN_GCC
    pdtend = dtnbits(&d, databits.allocdim * size, (char *)databits.data, sizeof(databits.data[0]));
#else
    pdtend = dtnbytes(&d, databits.allocdim * size, (char *)databits.data);
#endif
    switch (tb->ty)
    {
    case Tsarray:
    {
        if (dim > tadim)
        {
            error(loc, "too many initializers, %d, for array[%d]", dim, tadim);
        }
        else
        {
            tadim = (tadim + 31) / 32;
            if (databits.allocdim < tadim)
                pdtend = dtnzeros(pdtend, size * (tadim - databits.allocdim));      // pad out end of array
        }
        break;
    }

    case Tpointer:
    case Tarray:
        // Create symbol, and then refer to it
        Symbol *s;
        s = static_sym();
        s->Sdt = d;
        outdata(s);

        d = NULL;
        if (tb->ty == Tarray)
            dtsize_t(&d, dim);
        dtxoff(&d, s, 0, TYnptr);
        break;

    default:
        assert(0);
    }
    return d;
#else
    return NULL;
#endif
}
// . return length stored into "buf"
// . content must be NULL terminated
// . if "useAnchors" is true we do click and scroll
// . if "isQueryTerms" is true, we do typical anchors in a special way
int32_t Highlight::set ( SafeBuf *sb,
		      //char        *buf          ,
		      //int32_t         bufLen       ,
		      char        *content      ,
		      int32_t         contentLen   ,
		      // primary language of the document (for synonyms)
		      char         docLangId    ,
		      Query       *q            ,
		      bool         doStemming   ,
		      bool         useAnchors   ,
		      const char  *baseUrl      ,
		      const char  *frontTag     ,
		      const char  *backTag      ,
		      int32_t         fieldCode    ,
		      int32_t         niceness      ) {

	Words words;
	if ( ! words.set ( content      , 
			   contentLen   , 
			   TITLEREC_CURRENT_VERSION,
			   true         , // computeId
			   true         ) ) // has html entites?
		return -1;

	int32_t version = TITLEREC_CURRENT_VERSION;

	Bits bits;
	if ( ! bits.set (&words,version,niceness) ) return -1;

	Phrases phrases;
	if ( !phrases.set(&words,&bits,true,false,version,niceness))return -1;

	//SafeBuf langBuf;
	//if ( !setLangVec ( &words , &langBuf , niceness )) return 0;
	//uint8_t *langVec = (uint8_t *)langBuf.getBufStart();

	// make synonyms
	//Synonyms syns;
	//if(!syns.set(&words,NULL,docLangId,&phrases,niceness,NULL)) return 0;

	Matches matches;
	matches.setQuery ( q );

	if ( ! matches.addMatches ( &words , &phrases ) ) return -1;

	// store
	m_numMatches = matches.getNumMatches();

	return set ( sb , 
		     //buf         ,
		     //bufLen      , 
		     &words      ,
		     &matches    ,
		     doStemming  ,
		     useAnchors  ,
		     baseUrl     ,
		     frontTag    ,
		     backTag     ,
		     fieldCode   ,
		     q		 );
}