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I'm not very experienced programmer in C++ and I have a problem which I can't resolve. The project on which I'm working is quite big so I can't post here all codes. It is too much code and too much explanation. I write just little part of code, the part which causes me problem, so I hope it is enough. Sorry for the long of my question but I want explain all posted code. Maybe this part of code isn't enough to solve the problem but I want to try it.

First I have a struct called "record":

struct record {
    vector<string> dataRow;
    vector<string *> keys;
    vector<string *> values;

    void setDataRow(vector<string> r) {
         dataRow = r;
    }
}

Some of string data are marked as keys and others as values. I next processing is better for me to have all string data in one vector, so that's the reason why I don't have two vectors of string (vector keys, vector values).

Then I have this:

vector< vector<record> > resultSet;

vector is like data table - set of lines with string data. I need specific count of these tables, therefore vector of vectors of records. The count of tables is optional, so when I set table count I prepare tables by reserve function:

resultSet.reserve(count);
for(unsigned int i = 0; i < count; i++) {
    vector<record> vec;
    resultSet.push_back(vec);
}

When I want add new record to resultSet I know the number of table to which I need insert record. After resultSet[number].push_back(rec) I need change pointers in vectors "keys" and "values" because push_back() creates new copy of "rec" with values of "dataRow" in other memory addresses, right? So I have this function which does push_back and updates pointers:

void insert(int part, vector<string> & dataRow) {
    record r;
    r.setDataRow(dataRow);

    resultSet[part].push_back(r);
    int pos = resultSet.size() - 1; // position of last record
    resultSet[part].at(pos).values.clear();
    resultSet[part].at(pos).keys.clear();

    for(unsigned int i = 0; i < dataRow.size(); i++) {
        record * newRec = &resultSet[part].at(pos);
        if(isValue(dataRow[i])) {
            newRec->values.push_back(&(newRec->dataRow.at(i)));
            // control cout...
        } else {
            newRec->keys.push_back(&(newRec->dataRow.at(i)));
            // control cout...
        }
    }
}

This is working. After push_back in newRec I did control cout of inserted pointers and their referenced values, and everything was ok.

But! After some inserts I call function processData(resultSet), which has to process all data in resultSet. Before implementing processing od data I just wanted print all keys for control to find out if everything is alright. This code:

for(unsigned int i = 0; i < resultSet.size(); i++) {
    for(unsigned int j = 0; j < resultSet[i].size(); j++) {
        cout << "keys: ";
        for(unsigned int k = 0; k < resultSet[i].at(j).keys.size(); k++) {
            cout << *resultSet[i].at(j).keys.at(k) << ", ";
        }
        cout << endl;
    }
}

is bad (Same problem with printing values vector of record). It throws exception of Access violation reading. I know that this exception is thrown when I want to read unaccessible memory, right? Please, tell me that I have mistake in code written above because I really don't know why it doesn't work. Before processing resultSet I do nothing with resultSet except some count of inserts.

Thank you for reading and possible answers.

share|improve this question
    
Why are you storing pointers to std::strings? Are you aware of the implications? Are you aware that std::string is a small wrapper around a dynamically allocated string, not the string itself? If you really need pointers (make sure you do), use std::unique_ptr<string> –  Ed S. Feb 4 '13 at 19:35
    
I'm using pointers to string because for easier next processing. For process just keys(or values) data I can simply go through the vector<string *> keys. Pointers because I don't want to store duplicity of data values - all data are stored in vector<string> dataRow. So I thought this is good way to do it. But if it is really bad idea to have pointers to strings from some reason then I will change it. I will look at mentioned std::unique_ptr<string>. Thanks. –  babusek Feb 4 '13 at 19:50
1  
The problem is that you will manually have to deallocate every pointer (assuming they were new'd). The vector cannot do it for you, it will simply deallocate the memory it allocated for the pointer itself. –  Ed S. Feb 4 '13 at 20:17
    
Ok, thank you, that's new knowledge for me. I will try another solution. Thanks. –  babusek Feb 4 '13 at 20:24

3 Answers 3

up vote 3 down vote accepted

If I have understood your question correctly, the reason for all this is a fundamental misconception in the way vectors behave.

Your code stores pointers in a vector that points to memory locations allocated by another vector. That would be fine if the vectors didn't change.

The reason for this is that a std::vector is a container that makes a guarantee - all the data it contains will be allocated in a contiguous block of memory.

Now, if you insert an element into a vector, it may move memory locations around. Hence, one of the things you should know is that iterators need to be considered invalid when a vector changes. Iterators are sort of a generalized pointer. In other words, pointers to the locations of elements inside a vector become invalid too.

Now, let's say you updated all your pointers, everywhere, when any of the vectors involved changed. You would then be fine. However, you've now got a bit of an uphill battle on your hands.

As you've said in your comments, you're using pointers because you want efficiency. Your struct is essentially a collection of three strings. Instead of using your own struct, typedef a std::tuple (you will need a C++11 compiler) of 3 std::strings.

Finally, when you need to access the data within, do so by const reference and const_iterator unless you need to modify any of it. This will ensure that

  1. You don't have duplication of data
  2. You're making maximum use of the STL, thereby minimizing your own code and the possible bugs
  3. You're relying on algorithms and containers that are already really efficient
  4. You're using the STL in a way it was meant to be used.

Hope this helps.

share|improve this answer
    
Oh, of course, that could be the problem. If I understand it now: everytime when I do push_back and vector is small, it reallocate bigger new bigger vector and, of course, copy the data from small old vector to new bigger vector, so every memory address is new. So I need update pointers after every push_back or after inserting last records, right? It is not good solution, I will look at another solution. And I will look at std::tuple too. Thank you very much! –  babusek Feb 4 '13 at 20:15
    
You're welcome. If it is what you were looking for, do accept the answer, too :) –  Carl Feb 4 '13 at 20:22

When you add an entry to a std::vector, all existing pointers to elements in that vector should be considered invalid.

Here is the code that is going wrong.

vector<string> dataRow;
vector<string *> keys;
vector<string *> values;

If keys and values point to the strings in dataRow they will become invalid when dataRow grows.

share|improve this answer
    
Good point for dataRow growing (+1). But if the dataRow field is built first, then its contained data should be stable and keys and values pointers should be OK. Instead, I was thinking of copy operations of record instances. Default copy ctor and op= aren't good in this case for vector<string*>. –  Mr.C64 Feb 4 '13 at 19:46
    
Thank you for answers, this is really the reason why it doesn't work for me. When dataRow is set it doesn't change but count of records is unknown so resultSet can change memory addresses. I have to rewrite it to another solution. Thank you. –  babusek Feb 4 '13 at 20:28

One possible problem could be in copies of record instances.

struct record 
{
    vector<string> dataRow;
    vector<string *> keys;
    vector<string *> values;
};

In fact, default copy constructor and copy operator= do a member-wise copy. This is OK for dataRow field (which is a vector<string>), but this is bad for keys and values fields (since these are vectors of raw pointers, their values are copied, but they point to something wrong).

I'd reconsider your design, e.g. using vector<int> instead of vector<string *> for keys and values fields. The ints stored would be indexes in the dataRow vector.

Another note (not directly related to your problem). In C++11, when you want to copy something, you may want to pass by value, and move from the value:

void setDataRow(vector<string> r) 
{
     dataRow = std::move(r);
}

Or just use old C++98/03 style of passing by const ref:

void setDataRow(const vector<string>& r) 
{
     dataRow = r;
}
share|improve this answer
    
Thank you for your answer. Yes, now I know that pointers pointing to wrong addresses everytime when vector need reallocate to bigger size. I will consider using vector<int>. It seems like easy and good solution. Thanks. –  babusek Feb 4 '13 at 20:22

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