add min,max,mean,sum and delta calculations for stored data.

[lib1wire.git] / src / Data.cc

/*
 * DataRange.cc
 *
 *  Created on: Dec 7, 2010
 *      Author: lamikr
 */

#include <string>
#include <iostream>
#include <sstream>

#include <stdio.h>
#include <time.h>
#include <malloc.h>

#include <plp/log.h>

#include "Data.hh"
#include "W1Util.hh"

using namespace std;
using namespace plp;
using namespace w1;

template <class NumberDataType>
bool string_to_number(NumberDataType& result,
                 const std::string& string_param,
                 std::ios_base& (*format)(std::ios_base&))
{
        std::istringstream iss(string_param);
        return !(iss >> format >> result).fail();
}

Data::Data(int size) {
        value_arr.resize(size);
}

Data::Data(int size, double default_value) {
        int ii;

        value_arr.resize(size);
        for (ii = 0; ii < size; ii++) {
                value_arr[ii]   = default_value;
        }
}

Data::Data(vector<double> vector_param, Date *date_param) {
        int     ii;
        int     size;

        size    = vector_param.size();
        //log_debug("Data(), value count: %d\n", size);
        value_arr.resize(size);
        for (int ii = 0; ii < vector_param.size(); ii++) {
                value_arr[ii]   = vector_param.at(ii);
                //log_debug("Data(), value[%d]: %f\n", ii, value_arr[ii]);
        }
        date_time.copy(date_param);
}

Data::Data(std::valarray<double> value_arr_param, Date *date_param) {
        value_arr.resize(value_arr_param.size());
        for (int ii = 0; ii < value_arr_param.size(); ii++) {
                value_arr[ii]   = value_arr_param[ii];
        }
        date_time.copy(date_param);
}

Data::~Data() {
}

plp::Date Data::get_date() {
        return date_time;
}

void Data::set_date(plp::Date date) {
        date_time.copy(&date);
}

void Data::printout() {
        int     ii;

        date_time.printout();
        for (ii = 0; ii < value_arr.size(); ii++) {
                log_debug("  data[%d] = %f\n", ii, value_arr[ii]);
        }
}

Data *Data::parse_data_string(const string& dataline) {
        stringstream    ss(dataline);
        string          item;
        double          val;
        Data            *ret_val;
        int             ii;
        bool            suc_flg;
        vector<double>  v;
        Date            date;

        ii      = 0;
        while(getline(ss, item, '|')) {
                if (ii == 0) {
                        // parse date
                        date    = W1Util::parse_date_str(item);
                }
                // skip the device type and device id fields
                // TODO: store device type and id to own file
                else if (ii >= 3) {
                        suc_flg = string_to_number<double>(val, item, dec);
                        if (suc_flg) {
                                //log_debug("adding number: %f\n", val);
                                v.push_back(val);
                        }
                }
                ii++;
        }
        ret_val = new Data(v, &date);
        return ret_val;
}

DataRange::DataRange(int value_count_per_data_item) {
        val_matrix      = NULL;
        column_count    = value_count_per_data_item;
        row_count       = 0;
}

DataRange::DataRange(Data data) {
        val_matrix      = NULL;
        column_count    = data.value_arr.size();
        row_count       = 0;
        add_data(data);
}

DataRange::~DataRange() {
        int     ii;
        Date    *date;

        if (val_matrix != NULL) {
                free(val_matrix);
                val_matrix      = NULL;
        }
        for (ii = 0; ii < date_list.size(); ii++) {
                date    = date_list.at(ii);
                delete(date);
        }
}

void DataRange::add_data(Data data) {
        int                     ii;
        int                     r_count;
        int                     indx;
        Date                    date;

        //log_debug("old row_count: %d, column_count: %d, value_arr_size: %d\n", row_count, column_count, data.value_arr.size());
        val_matrix      = (double *)realloc(val_matrix, ((row_count + 1) * column_count) * sizeof(double));
        indx            = row_count * column_count;
        for (ii = 0; ii < data.value_arr.size(); ii++) {
                val_matrix[indx + ii]   = data.value_arr[ii];
        }
/*
        for (int ii = 0; ii < ((row_count + 1) * column_count); ii++) {
                log_debug("data_matrix[%d] = %f\n", ii, val_matrix[ii]);
        }
*/
        date    = data.get_date();
        date_list.push_back(date.clone());
        row_count++;
}

Data *DataRange::get_data(int row_index) {
        Data            *ret_val;
        int             start_indx;
        int             ii;
        vector<double>  vector;
        Date            *date;

        ret_val = NULL;
        if ((row_index >= 0) &&
            (row_index < row_count)) {
                start_indx      = row_index * column_count;
                for (ii = 0; ii < column_count; ii++) {
                        vector.push_back(val_matrix[start_indx + ii]);
                }
                date    = date_list.at(row_index);
                ret_val = new Data(vector, date);
        }
        return ret_val;
}

int DataRange::get_data_row_count() {
        return row_count;
}

int DataRange::get_data_column_count() {
        return column_count;
}

Data *DataRange::get_first_data() {
        Data    *ret_val;

        ret_val = NULL;
        if (row_count > 0) {
                ret_val = get_data(0);
        }
        return ret_val;
}

Data *DataRange::get_last_data() {
        return get_data(row_count - 1);
}