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Assessing Infection

Background

According to the World Health Organization, infectious disease ranks as the leading cause of death in the world. In 1998 alone, over 17 million people died from infectious and parasitic diseases such as acute lower respiratory infections, tuberculosis, HIV/AIDS, and malaria. It is forecast that infectious disease will continue to kill millions of people, especially those living in developing countries.

The medical profession and scientific community of the world are fighting the infectious disease threat with new tools and technologies from a variety of fields. From this effort, a new field of research has emerged. Infectious Disease Epidemiology is the study of the variables that influence the growth and spread of infectious diseases. This relatively new field combines molecular biology, immunology, genetics, and the computational sciences. A focus of this field is the study of the factors that influence the growth of an infectious disease within a single organism, and the factors that influence the pattern of infection across an entire population.

Description

This assignment asks you to finish the implementation of a program that assesses the level of infection in a tissue sample. You are given data representing a rectangular tissue sample, overlaid with a grid. Certain portions of the tissue are infected; others are not. Your goal is to help assess the extent of the infection by writing a program that, given the coordinates of a colony of infection, can determine its size.

A typical use of the program follows. The user interacts with the program only through command-line arguments. The user supplies to the program a data filename and the coordinates of a cell in the grid. The coordinates are specified by row and then column, both starting at zero. The program calculates the extent of infection at that coordinate and outputs a two-dimensional representation of the tissue sample. Figure 1 depicts the execution of the program.

A screen shot from a sample solution
Figure 1 Output from a sample solution

For the purpose of this assessment, we consider a "colony" of infected tissue to be a set of adjacent and infected cells. In Figure 1, we can see three separate colonies. The smallest colony consists of two cells and is located in the lower left corner of the grid. Another colony consisting of three infected cells exists on the far right edge of the grid. The largest colony of eight cells resides primarily in the middle of the grid. This colony has a small arm into the upper left corner of the grid. Notice from this colony that cells residing in diagonals are considered "adjacent." The plus signs next to the cells in this largest colony indicate that they all belong to the colony that contains the user entered coordinate.


solution :

#ifndef GRID_H
#define GRID_H

#include <string>
#include <vector>

using namespace std;

/*
* IMPORTANT NOTE:
*
* For this assignment, you might need to add state to the
* class and/or augment existing methods, and/or create private helper
* methods, but you should not delare new public methods
*/

const bool INFECTED = true;
const bool NOT_INFECTED = false;

class grid;

class grid {

private:
    int rows;
    int cols;
    vector<bool> *area;
    vector<bool> *infect;
    int indexof (int row, int col) const;
    bool infected(int row, int col) const;

public:
    grid (string file);
    ~grid ();

    int count (int row, int col);

    friend ostream &operator<<(ostream &stream, const grid& ob);

};

#endif

============================================================================

#include <iostream>
#include <fstream>

using namespace std;

#include "grid.h"

// You do not need to alter function indexof.
int grid::indexof (int row, int col) const {
    return row*cols+col;
}

// You do not need to alter function infected.
bool grid::infected(int row, int col) const {
    return (area->operator[](indexof(row, col)) == INFECTED);
}

// You may need to alter the constructor
grid::grid (string file) {

    ifstream grid_file;

    grid_file.open (file.c_str());

    grid_file >> rows;
    grid_file >> cols;

    area = new vector<bool>(rows*cols, NOT_INFECTED);
    infect = new vector<bool>(rows*cols, NOT_INFECTED);
   
    while (true) {

        int blob_row;
        int blob_col;

        grid_file >> blob_row;
        grid_file >> blob_col;

        if (grid_file.eof()) {
            break;
        }

        area->operator[](indexof(blob_row,blob_col)) = INFECTED;
    }

    grid_file.close();
}

// You may need to alter the destructor
grid::~grid () {
    delete area;
    delete infect;
}

// You will need to alter this function to display the
// plus signs (+) next to the cells that belong to
// a counted colony.
ostream &operator<<(ostream &stream, const grid& ob) {

    for (int row=0; row < ob.rows; row++) {
   
        for (int col=0; col < ob.cols; col++) {

            stream << ob.area->operator[](ob.indexof(row, col));
            if( ob.infect->operator[] ( ob.indexof(row, col) ) )
                stream << "+ ";
            else
                stream << "   ";
        }

        stream << endl;
    }

    stream << endl;
    return stream;
}

// Replace the return statement in this function with your
// recursive implementation of this method */
int grid::count (int row, int col) {

    if( row < 0 || col < 0 || row == rows || col == cols)
        return 0;

    if( area->operator[](indexof(row,col) ) == NOT_INFECTED )
        return 0;

    if(infect->operator[](indexof(row,col)) == INFECTED)
        return 0;

    infect->operator[](indexof(row,col)) = INFECTED;

    // Recursive test the 8 point near the point
    // which area is INEFCTED and infect is NOT_INFECTED

    return    count( row - 1, col - 1 ) + count ( row - 1, col )
        + count( row - 1, col + 1 ) + count( row, col - 1 )
        + count( row, col ) + 1 + count( row, col + 1 )
        + count( row + 1, col - 1 ) + count( row + 1, col )
        + count( row + 1, col + 1 );
}
posted on 2007-11-15 20:40 DraculaW 阅读(472) 评论(0)  编辑 收藏 引用

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