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Okay, so I've just started getting into linked lists, and it writes the files good, it reads the files good, but when you enroll a pet in my program, and choose to display it (without restarting the program) it doesn't display it correctly. But if you end the program, and start it again and choose the display option it'll print it out just fine. I think I did my linear list wrong. But I don't really know.

So to test (ONLY CHOOSE THE SMALL PETs option in the program for now!)

if you haven't enrolled any pets and do enroll one for now and choose the display option it prints out perfectly

but if you change this code:

if (NULL != currentSmall){

to

if (NULL != currentSmall->next){

and delete the files it made and try again, it won't work. BUT if you do (enroll a pet again) and choose display it won't print it out BUT if you stop the program and start it again, and choose display it works. Could someone help me please?

5.H (HEADER FILE)

#include <iostream>
#include <cctype>
#include <cstring>
#include <fstream>
using namespace std;

const int TEMP_SIZE = 250;

struct animal
{
    char *name;
    char *breed;
    char *desc;
    float age;
    float weight;
    bool adopted;
//generated
    int ID;
    animal *next;   
};

//host family struct
struct family
{
    char *name;
    char *address;
    int numDogs;    
};

class petAdoption
{
    public:
    petAdoption();
    ~petAdoption();
    void enroll();
    void read();
    void display();
    void adoptPet(family & host);
    void getNum();
    private:
    animal *headLarge, *currentLarge, *newNodeLarge, *tempNodeLarge;
    animal *headSmall, *currentSmall, *newNodeSmall, *tempNodeSmall;
    int count;
    animal pet;
    char size;

};

5.cpp

#include "5.h"

int main()
{
    petAdoption adopt;
    char resp;
    int choice;
    adopt.read();
    adopt.getNum();
    do {
        cout << "~~~~~~~~~~~~~~MENU~~~~~~~~~~~~~~~~" << endl;
        cout << "1) Adopt a pet" << endl;
        cout << "2) Display pets" << endl;
        cout << "3) Enroll a pet" << endl;
        cout << "What would you like to do? (1-3): ";
        cin >> choice;
        cin.ignore(100, '\n');
        if (choice == 1){

        }
        if (choice == 2){
            adopt.display();
        }
        if (choice == 3){
            adopt.enroll();
        }
        cout << "Would you like to quit? (Y/N): ";
        cin >> resp;
    } while (toupper(resp) == 'N');

}

petAdoption::petAdoption()
{
headSmall = NULL;
headLarge = NULL;
count = 0;
}

petAdoption::~petAdoption()
{

}

void petAdoption::enroll()
{

    ofstream write;
    char temp[TEMP_SIZE];
    cout << "Would you like to enroll a large or a small pet? (L/S): ";
    cin >> size;
    cin.ignore(100, '\n');

    if (toupper(size) == 'L' || toupper(size) == 'S')
    {

        cout << "Please your pet's name: ";
            cin.get(temp, TEMP_SIZE);
            cin.ignore(100, '\n');
            pet.name = new char[strlen(temp)+1];
            strcpy(pet.name, temp);

        cout << "Please your pet's breed: ";
            cin.get(temp, TEMP_SIZE);
            cin.ignore(100, '\n');
            pet.breed = new char[strlen(temp)+1];
            strcpy(pet.breed, temp);

        cout << "Please give a description of your pet: ";
            cin.get(temp, TEMP_SIZE);
            cin.ignore(100, '\n');
            pet.desc = new char[strlen(temp)+1];
            strcpy(pet.desc, temp);

        cout << "Please enter your pet's age: ";
            cin >> pet.age; 
            cin.ignore(100, '\n');
    //We get the pet's weight from the user
        cout << "Please enter your pet's weight: ";
            cin >> pet.weight; 
            cin.ignore(100, '\n');

        if(toupper(size) == 'S'){
            newNodeSmall = new animal;
            newNodeSmall->name = pet.name;
            newNodeSmall->breed = pet.breed;
            newNodeSmall->desc = pet.desc;
            newNodeSmall->age = pet.age;
            newNodeSmall->weight = pet.weight;
            newNodeSmall->next = NULL;

            if (NULL == headSmall)
            {
                headSmall = newNodeSmall;
                currentSmall = newNodeSmall;
            }
            else 
            {               
                currentSmall = headSmall;
                while (currentSmall->next != NULL){
                currentSmall = currentSmall->next;
                }
                cout << "adding node to the end of the list" << endl;
                currentSmall->next = newNodeSmall;
                currentSmall = currentSmall->next;
            }

            write.open("smallpets.txt", ios::app);
                write << currentSmall->name << '\n';

            write.close();

            write.open(currentSmall->name);
                write << currentSmall->name << '\n'
                << currentSmall->breed << '\n'
                << currentSmall->desc << '\n'
                << currentSmall->age << '\n'
                << currentSmall->weight;
            write.close();  
        }

        if(toupper(size) == 'L'){
            newNodeLarge = new animal;
            newNodeLarge->name = pet.name;
            newNodeLarge->breed = pet.breed;
            newNodeLarge->desc = pet.desc;
            newNodeLarge->age = pet.age;
            newNodeLarge->weight = pet.weight;
            newNodeLarge->next = NULL;

            if (NULL == headLarge)
            {
                headLarge = newNodeLarge;
                currentLarge = newNodeLarge;
            }
            else
            {                              
                currentLarge = headLarge;
                while (currentLarge->next != NULL){
                    currentLarge = currentLarge->next;
                }
                cout << "adding node to the end of the list" << endl;
                currentLarge->next = newNodeLarge;
                currentLarge = currentLarge->next;
            }

            write.open("largepets.txt", ios::app);
                write << currentLarge->name << '\n';    
            write.close();

            write.open(currentLarge->name);
                write << currentLarge->name << '\n'
                << currentLarge->breed << '\n'
                << currentLarge->desc << '\n'
                << currentLarge->age << '\n'
                << currentLarge->weight;
            write.close();
        }
    }
    else {
        cout << "ERROR please try again" << endl;
    }

}


//This method basically, allocates memory for the array.
void petAdoption::getNum()
{
    ifstream read;  
    char temp[TEMP_SIZE];
    read.open("smallpets.txt");
        if(!read)
        {
            cout << "/#S/ Files do not exist, this must be your first time." << endl;
            count = 0;
        }
        else{
            while(!read.eof())
            {
                read.getline(temp, TEMP_SIZE);
                ++count;
            }
        }
    read.close();
    count = --count;
}

void petAdoption::read()
{
    ifstream read;  
    char temp[TEMP_SIZE];
    char display;

    read.open("smallpets.txt");
        if(!read)
        {
            cout << "/#S/ There are no small pets" << endl;
        }
        else{
            while(!read.eof())
            {
                read.getline(temp, TEMP_SIZE, '\n');
                pet.name = new char[strlen(temp)+1];
                strcpy(pet.name, temp);

                newNodeSmall = new animal;
                newNodeSmall->name = pet.name;
                newNodeSmall->next = NULL;
                if (headSmall == NULL)
                {
                    headSmall = newNodeSmall;
                    currentSmall = newNodeSmall;
                }
                else 
                {               
                    currentSmall->next = newNodeSmall;
                    currentSmall = newNodeSmall;
                }
            }
            read.close();
            currentSmall = headSmall;

            while (NULL != currentSmall->next)
            {
                read.open(currentSmall-> name);
                    if(!read)
                    {
                        cout << "/#S/ Files do not exist, this must be your first time." << endl;

                    }
                    else{
                        while(!read.eof())
                        {
            //name
                            read.getline(temp, TEMP_SIZE, '\n');
                            pet.name = new char[strlen(temp)+1];
                            strcpy(pet.name, temp);
            //breed

                            read.getline(temp, TEMP_SIZE, '\n');
                            pet.breed = new char[strlen(temp)+1];
                            strcpy(pet.breed, temp);
            //desc
                            read.getline(temp, TEMP_SIZE, '\n');
                            pet.desc = new char[strlen(temp)+1];
                            strcpy(pet.desc, temp);
                            read >> pet.age;
                            read >> pet.weight;
                        //  read >> pet[i].adopted;
                            read.ignore(100, '\n');
                            read.ignore(100, '\n');
        //assigning the struct into the LLL
                            currentSmall->name = pet.name;
                            currentSmall->breed = pet.breed;
                            currentSmall->desc = pet.desc;
                            currentSmall->age = pet.age;
                            currentSmall->weight = pet.weight;
                        }
                    }
                read.close();   
                currentSmall = currentSmall->next;
            }
        }

        read.open("largepets.txt");
    if(!read)
    {
        cout << "/#L/ There are no Large pets" << endl;
    }
    else{
        while(!read.eof())
        {
                read.getline(temp, TEMP_SIZE, '\n');
                pet.name = new char[strlen(temp)+1];
                strcpy(pet.name, temp);

                newNodeLarge = new animal;
                newNodeLarge->name = pet.name;
                newNodeLarge->next = NULL;
                if (headLarge == NULL)
                {
                        headLarge = newNodeLarge;
                        currentLarge = newNodeLarge;
                }
                else
                {                              
                        currentLarge->next = newNodeLarge;
                        currentLarge = newNodeLarge;
                }
        }
        read.close();
            currentLarge = headLarge;

            while (NULL != currentLarge->next)
            {
                read.open(currentLarge-> name);
                    if(!read)
                    {
                        cout << "/#L/ Files do not exist, this must be your first time." << endl;
                    }
                    else{
                        while(!read.eof())
                        {
            //name
                                read.getline(temp, TEMP_SIZE, '\n');
                                pet.name = new char[strlen(temp)+1];
                                strcpy(pet.name, temp);
            //breed

                                read.getline(temp, TEMP_SIZE, '\n');
                                pet.breed = new char[strlen(temp)+1];
                                strcpy(pet.breed, temp);
            //desc
                                read.getline(temp, TEMP_SIZE, '\n');
                                pet.desc = new char[strlen(temp)+1];
                                strcpy(pet.desc, temp);
                            read >> pet.age;
                            read >> pet.weight;
                        //  read >> pet[i].adopted;
                            read.ignore(100, '\n');
                            read.ignore(100, '\n');
        //assigning the struct into the LLL
                                currentLarge->name = pet.name;
                                currentLarge->breed = pet.breed;
                                currentLarge->desc = pet.desc;
                            currentLarge->age = pet.age;
                            currentLarge->weight = pet.weight;
                        }
                    }
                read.close();  
                currentLarge = currentLarge->next;
            }



        }

}

void petAdoption::display()
{
    char response;

    cout << "Would you like to display large pets or small pets (L/S): ";
    cin >> response;
    if (toupper(response) == 'S')
    {   

        currentSmall = headSmall;
        if (NULL != currentSmall){
            //while current is not at the end of the list
            while (NULL != currentSmall)
            {
                cout << "Pet's name: " << currentSmall->name << endl;
                cout << "Pet's breed: " << currentSmall->breed << endl;
                cout << "Desc of Pet: " << currentSmall->desc <<endl;
                cout << "Pet's Age: " << currentSmall->age << endl;
                cout << "Pet's Weight: " << currentSmall->weight << '\n' << endl;

                currentSmall = currentSmall->next;
            }
        }
        else {
        cout << "Error we don't have records of any small pets." << endl;
        }


    }
    if (toupper(response) == 'L')
    {
        currentLarge = headLarge;
        if (NULL != currentLarge){      
        //while current is not at the end of the list
            while (NULL != currentLarge->next)
            {
                cout << "Pet's name: " << currentLarge->name << endl;
                cout << "Pet's breed: " << currentLarge->breed << endl;
                cout << "Desc of Pet: " << currentLarge->desc <<endl;
                cout << "Pet's Age: " << currentLarge->age << endl;
                cout << "Pet's Weight: " << currentLarge->weight << '\n' << endl;
                currentLarge = currentLarge->next;
            }
        }
        else {
            cout << "Error we don't have records of any large pets." << endl;
        }
    }

}

PROBLEM Lies here I think:

    if (toupper(response) == 'S')
    {   

        currentSmall = headSmall;
        if (NULL != currentSmall){
            //while current is not at the end of the list
            while (NULL != currentSmall)
            {
                cout << "Pet's name: " << currentSmall->name << endl;
                cout << "Pet's breed: " << currentSmall->breed << endl;
                cout << "Desc of Pet: " << currentSmall->desc <<endl;
                cout << "Pet's Age: " << currentSmall->age << endl;
                cout << "Pet's Weight: " << currentSmall->weight << '\n' << endl;

                currentSmall = currentSmall->next;
            }
        }
        else {
        cout << "Error we don't have records of any small pets." << endl;
        }


    }
share|improve this question
2  
Do you consider to reduce the code size you post in the prpblem description? Nobody wants to learn how to use your homework. In general, use the C++ features like STL strings when you code in C++. – harper Dec 5 '12 at 8:01
    
Alright I added where I think the problem is. But I left the code so if anyone's nice enough to help, they can look at the full code. It's either in that code or the enroll function. – user1858740 Dec 5 '12 at 8:06
    
The C++ standard library is your friend, using it will simplify things a lot for you. I recommend you look into the std::string class for strings, and the std::vector class instead of home-made lists. – Joachim Pileborg Dec 5 '12 at 8:08
    
But I have to make the linear linked list and use Dynamic arrays. Also instead of char I have to go by char arrays. – user1858740 Dec 5 '12 at 8:10
    
You have so many nodes in your linked list, i would recommend looking over linked lists again. A class should really just contain a head, tail and node to be added(while an iterator should be declared outside the class). – Syntactic Fructose Dec 5 '12 at 8:33

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