3

I am writing a code for implementing Naive Bayes classifier for text classification. I have worked a very small example, please refer page 44, it seems to be working.

  1. But I want know whether the implementation is correct, whether it will work for other training and testing sets? I am not trying to implement a commercial level Naive Bayes, just a small assignment, to learn some C++.
  2. I want to know how the code is? Like the way I wrote the code is it a good C++ practice?
  3. I know there lot of improvements which can be done, like for example at present I am testing only one test file, so a way to test multiple files is something that I am thinking of doing in the future, also at present I am doing only 2 class classification, in the future maybe multi class classification. But anything other improvement code wise?

Here is the code, NB header file:

#pragma once

#include<iostream>
#include<fstream>
#include<string>
#include<vector>
#include<map>
using namespace std;

class NB
{
public:
    NB(NB& cl1, NB& cl2, string className);
    NB(string className);
    NB(string className, int classType);
    vector <string> combineClassText();
    void bagOfWords(string classCombine, bool isTotal = false);
    void calcProb(NB& total);
    float totalProb(NB& prob, NB& total);
    int classType;

private:
    int _len = 0;
    float _prob = 1.0f;
    int _voc = 0;
    int _nOfClass = 0;
    int _tnClass = 0;
    int _totalWordsinC = 0;
    int _wordCounter = 0;
    bool _isDone = false;
    ifstream _in;
    ofstream _out;
    //string _classCombine;
    string _className;
    string _fileName;
    vector <string> _combined;
    map<string, string> _category;
    map<string, int> _bow;
    map<string, float> _probCalc;
};

The NB.cpp file:

#include "NB.h"
#include<cmath>

NB::NB(NB& cl1, NB& cl2, string className)
{
    _className = className;
    _out.open("combineAll.txt");
    if (_out.fail()) {
        perror("cannot write to combineAll.txt");
    }
    _len = cl1.combineClassText().size();
    for (int i = 0; i < _len; i++) {
        _combined.push_back(cl1.combineClassText()[i]);
    }

    _len = cl2.combineClassText().size();
    for (int i = 0; i < _len; i++) {
        _combined.push_back(cl2.combineClassText()[i]);
    }

    _len = _combined.size();
    for (int i = 0; i < _len; i++) {
        _out << _combined[i] << endl;
        //cout << i + 1 << ". " << _combined[i] << endl;
    }
    _out.close();
    _tnClass = cl1._tnClass + cl2._tnClass;
    bagOfWords("combineAll.txt", true);
}

NB::NB(string className, int classType) {
    NB::classType = classType;
    _className = className;
    cout << "Enter a filename for " + _className << endl;
    cin >> _fileName;
    _category[_fileName] = _className;
    combineClassText();
    bagOfWords(_className + ".txt");
}

NB::NB(string className)
{
    _className = className;
    while (_isDone == false) {
        cout << "Enter a filename for " + _className << endl;
        cin >> _fileName;
        if (_fileName != "q") {
            _category[_fileName] = _className;
            _nOfClass++;
            _tnClass++;
        } else {
            _isDone = true;
        }
    }
    combineClassText();
    bagOfWords(_className + ".txt");
}

vector<string> NB::combineClassText() {

    string temp;
    string classCombine = _className + ".txt";
    vector <string> tmp;
    map<string, string>::iterator it;

    _out.open(classCombine);
    if (_out.fail()) {
        perror("cannot write to");
    }
    for (it = _category.begin(); it != _category.end(); it++) {
        _in.open(it->first);
        if (_in.fail()) {
            perror("cannot read from");
        }
        while (_in >> temp) {
            _out << temp << endl;
            tmp.push_back(temp);            
        }
        _in.close();
    }
    _out.close();
    return tmp;
}

void NB::bagOfWords(string classCombine, bool isTotal) {

    map<string, int>::iterator it;
    string temp;
    vector<string> tp;
    string name = _className + "_bow.txt";
    int len;

    _in.open(classCombine);
    if (_in.fail()) {
        perror("cannot read from");
    }

    _out.open(name);
    if (_out.fail()) {
        perror("cannot write to");
    }

    while (_in >> temp) {
        tp.push_back(temp);
    }

    for (int i = 0; i < tp.size(); i++) {
        for (int j = 0; j < tp[i].size(); j++) {
            if (tp[i][j] == '.' || tp[i][j] == ',') {
                tp[i][j] = ' ';
            }
        }
    }

    len = tp.size();
    vector<int> count(len, 1);

    for (int i = 0; i < len; i++) {
        for (int j = 0; j < (len - i - 1); j++) {
            if (tp[i] == tp[j + i + 1]) {
                count[i]++;
            }
        }
    }

    for (int i = len - 1; i >= 0; i--) {
        _bow[tp[i]] = count[i];
    }

    for (it = _bow.begin(); it != _bow.end(); it++) {
        _out << it->first << ": " << it->second << endl;
        //cout << it->first << ": " << it->second << endl;
    }
    //cout << endl;

    if (isTotal == true) {
        for (it = _bow.begin(); it != _bow.end(); it++) {
            _voc += 1;
            //cout << _voc << endl;
        }
    } else {
        for (it = _bow.begin(); it != _bow.end(); it++) {
            _totalWordsinC += it->second;
        }
        //cout << _totalWordsinC << endl;
    }
    _in.close();
    _out.close();
}

void NB::calcProb(NB& total) {

    map<string, int> ::iterator it;
    map<string, int> ::iterator it2;
    map<string, float> ::iterator it3;

        _out.open(_className + "_prob.txt");
        if (_out.fail()) {
            perror("cannot write to");
        }
        for (it = total._bow.begin(); it != total._bow.end(); it++) {
            for (it2 = _bow.begin(); it2 != _bow.end(); it2++) {
                if (it->first == it2->first) {
                    _probCalc[it->first] = (float)((it2->second) + 1) / (_totalWordsinC + total._voc);
                    break;
                } else {
                    _probCalc[it->first] = (float)(1) / (_totalWordsinC + total._voc);
                }
            }
        }

        for (it3 = _probCalc.begin(); it3 != _probCalc.end(); it3++) {
            //cout << it3->first << ": " << it3->second << endl;
            _out << it3->first << ": " << it3->second << endl;
        }
        _out.close();
    }

float NB::totalProb(NB& prob, NB& total) {

    map<string, int> ::iterator it;
    map<string, int> ::iterator it2;
    map<string, float> ::iterator it3;

    _out.open(_className + "_" + prob._className + "_prob.txt");
    if (_out.fail()) {
        perror("cannot write to");
    }
    _prob = 1.0f;
    for (it = _bow.begin(); it != _bow.end(); it++) {
        for (it3 = prob._probCalc.begin(); it3 != prob._probCalc.end(); it3++) {
            if (it->first == it3->first) {
                _wordCounter = 0;
                _prob = (_prob * pow((it3->second), (it->second)));
                break;
            } else {
                _wordCounter++;
                if (_wordCounter == prob._probCalc.size()) {
                    _prob = _prob * ((float)1 / (prob._totalWordsinC + total._voc));
                }
            }
        }
    }
    _prob = (_prob * ((float)(prob._nOfClass) / total._tnClass));
    cout << _prob << endl;
    _out << "The probalility of the " << _className << " beloning to " << prob._className << " is: " << _prob << endl;
    _out.close();
    return _prob;
}

and finally main.cpp:

#include<iostream>
#include<vector>
#include"NB.h"

using namespace std;

int main() {

    NB class1("class1");
    NB class2("class2");
    NB total(class1, class2, "all_combined");

    class1.calcProb(total);
    class2.calcProb(total);

    int nOfTestDocs = 0;
    int corrClass = 0;
    float accurancy = 0.0f;
    cout << "Enter the number of test documents\n";
    cin >> nOfTestDocs;

    NB test("test", 1);
    if (test.totalProb(class1, total) >= test.totalProb(class2, total)) {
        cout << "The test data belongs to class 1\n";
        if (test.classType == 1) {
            corrClass++;
            accurancy = (float)corrClass / nOfTestDocs;
            cout << "The accurancy is: " << accurancy << endl;
        }
    }
    else {
        cout << "The test data belongs to class 2\n";
        if (test.classType == 1) {
            corrClass++;
            accurancy = (float)corrClass / nOfTestDocs;
            cout << "The accurancy is: " << accurancy << endl;
        }
    }
    system("PAUSE");
    return 0;
}
2
  • 1
    You should probably ask at CodeReview rather than StackOverflow...
    – Doc Brown
    Jan 4, 2017 at 9:27
  • I want to know how the code is? Like the way I wrote the code is it a good C++ practice this is exactly like chrlns suggested a good fit for codereview.stackexchange.com
    – Heslacher
    Jan 4, 2017 at 10:06

0

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Browse other questions tagged or ask your own question.