Esempi in C++ (Cpp) per data_t::begin

Esempio n. 1

File: TH_0x01.cpp Progetto: alberthdev/CEmu

    string TH_0x01::makeStringFromData(const data_t& data, const options_t& options)
    {
        (void)options;

        string str;

        size_t byteCount = data.size();
        size_t numCount = (size_t) ((data[0] & 0xFF) + ((data[1] << 8) & 0xFF00));
        if (byteCount < 2+TH_0x00::dataByteCount || ((byteCount - 2) % TH_0x00::dataByteCount != 0)
            || (numCount != (size_t)((byteCount - 2) / TH_0x00::dataByteCount)) || numCount > 999)
        {
            std::cerr << "Invalid data array. Needs to contain 2+" + to_string(TH_0x00::dataByteCount) + "*n bytes" << endl;
            return "";
        }

        str = "{";

        for (size_t i = 2, num = 0; i < byteCount; i += TH_0x00::dataByteCount, num++)
        {
            str += TH_0x00::makeStringFromData(data_t(data.begin()+i, data.begin()+i+TH_0x00::dataByteCount));
            if (num < numCount - 1) // not last num
            {
                str += ',';
            }
        }

        str += "}";

        return str;
    }

Esempio n. 2

File: bin_index.cpp Progetto: JerryStreith/five-in-line

	bool bin_index_t::dir_node::next(data_t& key,data_t& val) const
	{
		validate_key_len(key);
		validate_index();
		
		data_t head(key.begin(),key.begin()+parent.dir_key_len);
		data_t tail(key.begin()+parent.dir_key_len,key.end());

		datas_t::const_iterator it=std::lower_bound(indexes.begin(),indexes.end(),head,data_less_pr());
		if(it==indexes.end())return false;

		if(*it==head)
		{
			validate_sub(head);
			if(sub_node->next(tail,val))
			{
				key=head;
				key.insert(key.end(),tail.begin(),tail.end());
				return true;
			}
		}

		++it;
		if(it==indexes.end())return false;
		head=*it;

		validate_sub(head);
		if(!sub_node->first(tail,val))return false;

		key=head;
		key.insert(key.end(),tail.begin(),tail.end());
		return true;
	}

Esempio n. 3

File: kd-tree.cpp Progetto: ssxiexiao/kd-tree

double variation(data_t &dataset, size_t split){
	data_t::iterator i;
	double mean = 0;
	double variation = 0;
	for (i = dataset.begin(); i != dataset.end(); i++){
		mean += i->at(split);
	}
	mean /= dataset.size();
	for (i = dataset.begin(); i != dataset.end(); i++){
		variation += pow(i->at(split) - mean, 2.0);
	}
	variation /= dataset.size();
	return variation;
}

Esempio n. 4

File: bin_index.cpp Progetto: JerryStreith/five-in-line

///////////////////////////////////////////////////////////////////////////////////
//  dir_node
//
	bool bin_index_t::dir_node::get(const data_t& key,data_t& val) const
	{
		validate_key_len(key);
		validate_index();
		
		data_t head(key.begin(),key.begin()+parent.dir_key_len);
		data_t tail(key.begin()+parent.dir_key_len,key.end());

		if(!std::binary_search(indexes.begin(),indexes.end(),head,data_less_pr()))
			return false;

		validate_sub(head);

		return sub_node->get(tail,val);
	}

Esempio n. 5

File: ctcp_profile.cpp Progetto: Columbitech/rohc

 void CTCPProfile::Compress(const data_t &data, data_t &output) {
     size_t outputInSize = output.size();
     const iphdr* ip = reinterpret_cast<const iphdr*>(&data[0]);
     const tcphdr* tcp = reinterpret_cast<const tcphdr*>(ip+ip->ihl*4);
     
     UpdateIpIdOffset(ip);
     
     if (IR_State == state)
     {
         CreateIR(ip, tcp, output);
     }
     else
     {
         CreateCO(ip, tcp, output);
     }
     
     UpdateIpInformation(ip);
     
     AdvanceState(false, false);
     increaseMsn();
     // Append payload
     // TODO, handle TCP options
     output.insert(output.end(), data.begin() + sizeof(iphdr) + sizeof(tcphdr), data.end());
     
     ++numberOfPacketsSent;
     dataSizeCompressed += output.size() - outputInSize;
     dataSizeUncompressed += data.size();
     
 }

Esempio n. 6

File: bin_index.cpp Progetto: JerryStreith/five-in-line

	bool bin_index_t::dir_node::set(const data_t& key,const data_t& val)
	{
		validate_key_len(key);
		validate_index();

		data_t head(key.begin(),key.begin()+parent.dir_key_len);
		data_t tail(key.begin()+parent.dir_key_len,key.end());

		bool already_exists=std::binary_search(indexes.begin(),indexes.end(),head,data_less_pr());

        if(!already_exists)create_text_child(head);
		validate_sub(head);

		bool r=sub_node->set(tail,val);
		return r;
	}

Esempio n. 7

File: TH_0x1B.cpp Progetto: adriweb/tivars_lib_cpp

    string TH_0x1B::makeStringFromData(const data_t& data, const options_t& options)
    {
        (void)options;

        if (data.size() != dataByteCount)
        {
            throw invalid_argument("Empty data array. Needs to contain " + to_string(dataByteCount) + " bytes");
        }

        string coeffR = TH_0x00::makeStringFromData(data_t(data.begin(), data.begin() + TH_0x00::dataByteCount));
        string coeffI = TH_0x00::makeStringFromData(data_t(data.begin() + TH_0x00::dataByteCount, data.begin() + 2 * TH_0x00::dataByteCount));

        string str = dec2frac(atof(coeffR.c_str())) + "+" + dec2frac(atof(coeffI.c_str())) + "i";
        str = regex_replace(str, regex("\\+-"), "-");

        return str;
    }

Esempio n. 8

void session_interface::save_data(data_t const &data,std::string &s)
{
    s.clear();
    data_t::const_iterator p;
    for(p=data.begin(); p!=data.end(); ++p) {
        packed header(p->first.size(),p->second.exposed,p->second.value.size());
        char *ptr=(char *)&header;
        s.append(ptr,ptr+sizeof(header));
        s.append(p->first.begin(),p->first.end());
        s.append(p->second.value.begin(),p->second.value.end());
    }
}

Esempio n. 9

File: TH_0x02.cpp Progetto: alberthdev/CEmu

    string TH_0x02::makeStringFromData(const data_t& data, const options_t& options)
    {
        (void)options;

        size_t byteCount = data.size();
        size_t colCount = data[0];
        size_t rowCount = data[1];

        if (data.size() < 2+TH_0x00::dataByteCount || colCount < 1 || rowCount < 1 || colCount > 255 || rowCount > 255
            || ((byteCount - 2) % TH_0x00::dataByteCount != 0) || (colCount*rowCount != (byteCount - 2) / TH_0x00::dataByteCount))
        {
            std::cerr << "Invalid data array. Needs to contain 1+1+" << TH_0x00::dataByteCount << "*n bytes" << std::endl;
            return "";
        }

        string str = "[";

        for (uint i = 2, num = 0; i < byteCount; i += TH_0x00::dataByteCount, num++)
        {
            if (num % colCount == 0) // first column
            {
                str += "[";
            }
            str += TH_0x00::makeStringFromData(data_t(data.begin()+i, data.begin()+i+TH_0x00::dataByteCount));
            if (num % colCount < colCount - 1) // not last column
            {
                str += ",";
            } else {
                str += "]";
            }
        }

        str += "]";

        // TODO: prettified option
        
        return str;
    }

Esempio n. 10

File: kd-tree.cpp Progetto: ssxiexiao/kd-tree

void construct(point &root, data_t dataset){
	if (dataset.size() == 0)
		return;
	root = new point_t();
	vector< double > buff;
	for (size_t i = 0; i < dataset.at(0).size(); i++){
		buff.push_back(variation(dataset, i));
	}
	size_t split = 0;
	double min;
	for (size_t i = 0; i < buff.size(); i++){
		if (i == 0){
			min = buff.at(i);
		}
		else{
			if (min < buff.at(i)){
				min = buff.at(i);
				split = i;
			}
		}
	}
	sort(dataset.begin(), dataset.end(), [split](vec_t a, vec_t b){ return a.at(split) < b.at(split); });
	size_t middle = dataset.size() / 2;
	root->split = split;
	for (size_t i = 0; i < dataset.at(middle).size(); i++){
		root->node.push_back(dataset.at(middle).at(i));
	}
	root->dim = root->node.size();
	data_t lDataset, rDataset;
	for (size_t i = 0; i < middle; i++){
		lDataset.push_back(dataset.at(i));
	}
	for (size_t i = middle + 1; i < dataset.size(); i++){
		rDataset.push_back(dataset.at(i));
	}
	construct(root->left, lDataset);
	construct(root->right, rDataset);
	if (root->left)
		root->left->parent = root;
	if (root->right)
		root->right->parent = root;
	return;
}

Esempio n. 11

File: impurity.cpp Progetto: fnan/FeatureBudgetedRandomForest

//min-max splits based on impurity measure
bool impurity_splitW_noMiss(data_t data,  int& f_split, double& v_split,  double imp, boost::numeric::ublas::vector<int>& c_total,args_t& myargs, double (*impurityHandle)(int, boost::numeric::ublas::vector<int>&,double)) {
	int NF=myargs.features;
	int num_c=myargs.num_c;
	double alpha=myargs.alpha;
	f_split = -1;
	double min = MY_DBL_MAX, cf;
	int n = data.size(), i,j ;
	double imp_l=0.0, imp_r=0.0, imp_m=0.0, imp_max=0.0; //impurity on the left

	double mind;
	double v_split_d;
	for (int f = 1; f < NF; f++) { //for each feature
		cf=myargs.Costs[f];
		sort(data.begin(), data.end(), boost::bind(mysortf, _1,_2, f));
		boost::numeric::ublas::vector<int> c_l(num_c,0); //number of examples in each class on the left
		boost::numeric::ublas::vector<int> c_r(c_total); //number of examples in each class on the right
		
		mind = MY_DBL_MAX;
		//assume no missing data
		for( i=0;i<n-1;i++){
			c_l[data[i]->label]++;
			c_r[data[i]->label]--;
			// do not consider splitting here if data is the same as next
			if (data[i]->features[f] == data[i+1]->features[f])
				continue;
			imp_l=(*impurityHandle)(num_c, c_l, alpha);
			imp_r=(*impurityHandle)(num_c, c_r, alpha);
			imp_max=(imp_l < imp_r) ? imp_r: imp_l;
			if(imp_max<mind){
				mind=imp_max;
				v_split_d = (data[i]->features[f] + data[i+1]->features[f])/2;
			}
		}

		if ((imp-mind>0.0000001) && (cf/(imp-mind) < min)) {
			min = cf/(imp-mind);
			f_split = f;
			v_split = v_split_d;
		}
	}	
	return min != MY_DBL_MAX;
}

Esempio n. 12

File: ctcp_profile.cpp Progetto: Columbitech/rohc

    void CTCPProfile::CreateIR(const ROHC::iphdr *ip, const ROHC::tcphdr *tcp, data_t &output) {
        size_t headerStartIdx = output.size();
        
        if (!largeCID && cid)
        {
            output.push_back(CreateShortCID(cid));
        }
        
        output.push_back(IRv2Packet);
        
        if (largeCID)
        {
            SDVLEncode(back_inserter(output), cid);
        }
        
        output.push_back(static_cast<uint8_t>(ProfileID()));
        
        size_t crcPos = output.size();
        
        // Add zero crc for now
        output.push_back(0);
        
        create_ipv4_static(ip, output);
        
        create_tcp_static(tcp, output);
        
        create_ipv4_regular_innermost_dynamic(ip, output);
        
        //create_tcp_dynamic(msn, reorder_ratio, udp, output);
        
        // Calculate CRC
        uint8_t crc = CRC8(output.begin() + headerStartIdx, output.end());
        output[crcPos] = crc;
        
		IncreasePacketCount(PT_IR);
        
        ++numberOfIRPacketsSent;
        ++numberOfIRPacketsSinceReset;
    }

Esempio n. 13

File: convolver.cpp Progetto: flair2005/avrs

/** static version */
void Convolver::sort_coefficients(data_t& coefficients,
		const unsigned int partition_size)
{
	const unsigned int buffer_size = partition_size;
	data_t buffer(buffer_size);

	int base = 8;

	unsigned int i, ii;

	buffer[0] = coefficients[0];
	buffer[1] = coefficients[1];
	buffer[2] = coefficients[2];
	buffer[3] = coefficients[3];
	buffer[4] = coefficients[buffer_size / 2];
	buffer[5] = coefficients[buffer_size - 1];
	buffer[6] = coefficients[buffer_size - 2];
	buffer[7] = coefficients[buffer_size - 3];

	for (i = 0; i < (buffer_size / 8 - 1); i++)
	{
		for (ii = 0; ii < 4; ii++)
		{
			buffer[base + ii] = coefficients[base / 2 + ii];
		}

		for (ii = 0; ii < 4; ii++)
		{
			buffer[base + 4 + ii] = coefficients[buffer_size - base / 2 - ii];
		}

		base += 8;
	}

	std::copy(buffer.begin(), buffer.end(), coefficients.begin());

}

Esempio n. 14

File: bin_index.cpp Progetto: JerryStreith/five-in-line

	void bin_index_t::file_node::align_key(const data_t& key,index_t& res) const
	{
		res.key.resize(aligned_key_len);
		std::copy(key.begin(),key.end(),res.key.begin());
		std::fill(res.key.begin()+key_len,res.key.end(),0);
	}

Esempio n. 15

File: Boundary.hpp Progetto: biochem-fan/cuemol2

 iterator begin() { return m_verts.begin(); }

Esempio n. 16

File: Boundary.hpp Progetto: biochem-fan/cuemol2

 const_iterator begin() const { return m_verts.begin(); }

Esempio n. 17

File: secure_cell.hpp Progetto: neuroradiology/themis

 secure_cell_t(const data_t& password):
   _password(password.begin(), password.end()),
   _res(0){}

Esempio n. 18

File: convolver.cpp Progetto: flair2005/avrs

/** This is an autarc function to precalculate the frequency 
 * domain filter partitions that a \b Convolver needs. It does 
 * not require an instantiation of a \b Convolver. However, it is 
 * not very efficient since an FFT plan is created with every call.
 * @param container place to store the partitions.
 * @param filter impulse response of the filter
 * @param filter_size size of the impulse response
 * @param partition_size size of the partitions (this is the 
 * partition size that the outside world sees, internally it is twice as long)
 */
void Convolver::prepare_impulse_response(data_t& container, const float *filter,
		const unsigned int filter_size, const unsigned int partition_size)
{

	// find out how many complete partitions we have
	unsigned int no_of_partitions = filter_size / partition_size;

	// if there is even one more
	if (filter_size % partition_size)
		no_of_partitions++;

	// empty container
	container.clear();

	// allocate memory
	container.resize(2 * no_of_partitions * partition_size, 0.0f);

	// define temporary buffers
	data_t fft_buffer;
	data_t zeros;

	// allocate memory and initialize to 0
	fft_buffer.resize(2 * partition_size, 0.0f);
	zeros.resize(2 * partition_size, 0.0f);

	// create fft plans for halfcomplex data format
	fftwf_plan fft_plan = fftwf_plan_r2r_1d(2 * partition_size, &fft_buffer[0],
			&fft_buffer[0], FFTW_R2HC, FFTW_ESTIMATE);

	// convert filter partitionwise to frequency domain

	/////// process complete partitions //////////////

	for (unsigned int partition = 0u; partition < no_of_partitions - 1;
			partition++)
	{
		std::copy(filter + partition * partition_size,
				filter + (partition + 1) * partition_size, fft_buffer.begin());

		// zero pad
		std::copy(zeros.begin(), zeros.begin() + partition_size,
				fft_buffer.begin() + partition_size);

		// fft
		fftwf_execute(fft_plan);
		sort_coefficients(fft_buffer, 2 * partition_size);

		// add the partition to the filter
		std::copy(fft_buffer.begin(), fft_buffer.begin() + 2 * partition_size,
				container.begin() + 2 * partition * partition_size);

	}

	////// end process complete partitions

	//// process potentially incomplete last partition ////////////

	// zeros
	std::copy(zeros.begin(), zeros.end(), fft_buffer.begin());

	// add filter coefficients
	std::copy(filter + (no_of_partitions - 1) * partition_size,
			filter + filter_size, fft_buffer.begin());

	// fft
	fftwf_execute(fft_plan);
	sort_coefficients(fft_buffer, 2 * partition_size);

	// add the partition to the filter
	std::copy(fft_buffer.begin(), fft_buffer.end(),
			container.begin() + 2 * (no_of_partitions - 1) * partition_size);

	///// end process potentially incomplete partition ////////

	// clean up
	fftwf_destroy_plan(fft_plan);
}