Array Dynamic resize in heap





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I have answered a Question in Stackoverflow link.




a) Create a function called resize that can be used to increase the
size of integer arrays dynamically. The function takes three
parameters. The first parameter is the original array, the second
parameter is the size of this array, and the third parameter is the
size of the larger array to be created by this function. Make sure
that you allocate memory from the heap inside this function. After
allocating memory for the second array the function must copy the
elements from the first array into the larger array. Finally, the
function must return a pointer to the new array.



b. In main, allocate an array on the heap that is just large enough to
store the integers 5, 7, 3, and 1.



c. Resize the array to store 10 integers by calling the resize
function created in step a. Remove the old (smaller) array from the
heap. Add the numbers 4, 2, and 8 to the end of the new array.



d. Write a sort function that sorts any integer array in increasing
order.



e. Use the sort function to sort the array of numbers in c above.
Display the sorted numbers.




Is there a Dangling pointer issue.



#include <array>
#include <iostream>

void swap(int *xp, int *yp)
{
int temp = *xp;
*xp = *yp;
*yp = temp;
}

//Bubble Sort
bool sort(int arr, int size)
{
for( int i = 0; i< size -1; i++)
{
for( int j = 0; j < size - i -1; j++)
{
//descending order
if(arr[j]<arr[j+1])
{
swap(&arr[j], &arr[j+1]);
}
}
}
return true;
}

void Print(int Array, int nSize)
{
for( int i = 0; i < nSize; i++)
{
std::cout<<" "<<Array[i];
}
std::cout<<"n";
}

void Resize( int *&Array, const int& nSizeOld, const int& nSize )
{
int * newArray = new int[nSize];

//Copy Elements of the Array
for(int i = 0; i< nSizeOld; i++)
{
newArray[i] = Array[i];
}

delete Array;

//Assign ptr of Prev to new Array
Array = newArray;
}

int _tmain(int argc, _TCHAR* argv)
{
const int kNewSize = 10, kSize = 5;
int *pMyArray = new int[kSize];

//Set Values
for( int i = 0; i< kSize; ++i )
{
pMyArray[i] = i * 5;
}

Resize( pMyArray, kSize, kNewSize );

//Set Values
for( int i = kSize; i< kNewSize; ++i )
{
pMyArray[i] = i * 10;
}

Print(pMyArray, kNewSize);

sort(pMyArray, kNewSize);

Print(pMyArray, kNewSize);

if( pMyArray!=NULL )
{
delete pMyArray;
}

return 0;
}









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    2












    $begingroup$


    I have answered a Question in Stackoverflow link.




    a) Create a function called resize that can be used to increase the
    size of integer arrays dynamically. The function takes three
    parameters. The first parameter is the original array, the second
    parameter is the size of this array, and the third parameter is the
    size of the larger array to be created by this function. Make sure
    that you allocate memory from the heap inside this function. After
    allocating memory for the second array the function must copy the
    elements from the first array into the larger array. Finally, the
    function must return a pointer to the new array.



    b. In main, allocate an array on the heap that is just large enough to
    store the integers 5, 7, 3, and 1.



    c. Resize the array to store 10 integers by calling the resize
    function created in step a. Remove the old (smaller) array from the
    heap. Add the numbers 4, 2, and 8 to the end of the new array.



    d. Write a sort function that sorts any integer array in increasing
    order.



    e. Use the sort function to sort the array of numbers in c above.
    Display the sorted numbers.




    Is there a Dangling pointer issue.



    #include <array>
    #include <iostream>

    void swap(int *xp, int *yp)
    {
    int temp = *xp;
    *xp = *yp;
    *yp = temp;
    }

    //Bubble Sort
    bool sort(int arr, int size)
    {
    for( int i = 0; i< size -1; i++)
    {
    for( int j = 0; j < size - i -1; j++)
    {
    //descending order
    if(arr[j]<arr[j+1])
    {
    swap(&arr[j], &arr[j+1]);
    }
    }
    }
    return true;
    }

    void Print(int Array, int nSize)
    {
    for( int i = 0; i < nSize; i++)
    {
    std::cout<<" "<<Array[i];
    }
    std::cout<<"n";
    }

    void Resize( int *&Array, const int& nSizeOld, const int& nSize )
    {
    int * newArray = new int[nSize];

    //Copy Elements of the Array
    for(int i = 0; i< nSizeOld; i++)
    {
    newArray[i] = Array[i];
    }

    delete Array;

    //Assign ptr of Prev to new Array
    Array = newArray;
    }

    int _tmain(int argc, _TCHAR* argv)
    {
    const int kNewSize = 10, kSize = 5;
    int *pMyArray = new int[kSize];

    //Set Values
    for( int i = 0; i< kSize; ++i )
    {
    pMyArray[i] = i * 5;
    }

    Resize( pMyArray, kSize, kNewSize );

    //Set Values
    for( int i = kSize; i< kNewSize; ++i )
    {
    pMyArray[i] = i * 10;
    }

    Print(pMyArray, kNewSize);

    sort(pMyArray, kNewSize);

    Print(pMyArray, kNewSize);

    if( pMyArray!=NULL )
    {
    delete pMyArray;
    }

    return 0;
    }









    share|improve this question









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      2












      2








      2





      $begingroup$


      I have answered a Question in Stackoverflow link.




      a) Create a function called resize that can be used to increase the
      size of integer arrays dynamically. The function takes three
      parameters. The first parameter is the original array, the second
      parameter is the size of this array, and the third parameter is the
      size of the larger array to be created by this function. Make sure
      that you allocate memory from the heap inside this function. After
      allocating memory for the second array the function must copy the
      elements from the first array into the larger array. Finally, the
      function must return a pointer to the new array.



      b. In main, allocate an array on the heap that is just large enough to
      store the integers 5, 7, 3, and 1.



      c. Resize the array to store 10 integers by calling the resize
      function created in step a. Remove the old (smaller) array from the
      heap. Add the numbers 4, 2, and 8 to the end of the new array.



      d. Write a sort function that sorts any integer array in increasing
      order.



      e. Use the sort function to sort the array of numbers in c above.
      Display the sorted numbers.




      Is there a Dangling pointer issue.



      #include <array>
      #include <iostream>

      void swap(int *xp, int *yp)
      {
      int temp = *xp;
      *xp = *yp;
      *yp = temp;
      }

      //Bubble Sort
      bool sort(int arr, int size)
      {
      for( int i = 0; i< size -1; i++)
      {
      for( int j = 0; j < size - i -1; j++)
      {
      //descending order
      if(arr[j]<arr[j+1])
      {
      swap(&arr[j], &arr[j+1]);
      }
      }
      }
      return true;
      }

      void Print(int Array, int nSize)
      {
      for( int i = 0; i < nSize; i++)
      {
      std::cout<<" "<<Array[i];
      }
      std::cout<<"n";
      }

      void Resize( int *&Array, const int& nSizeOld, const int& nSize )
      {
      int * newArray = new int[nSize];

      //Copy Elements of the Array
      for(int i = 0; i< nSizeOld; i++)
      {
      newArray[i] = Array[i];
      }

      delete Array;

      //Assign ptr of Prev to new Array
      Array = newArray;
      }

      int _tmain(int argc, _TCHAR* argv)
      {
      const int kNewSize = 10, kSize = 5;
      int *pMyArray = new int[kSize];

      //Set Values
      for( int i = 0; i< kSize; ++i )
      {
      pMyArray[i] = i * 5;
      }

      Resize( pMyArray, kSize, kNewSize );

      //Set Values
      for( int i = kSize; i< kNewSize; ++i )
      {
      pMyArray[i] = i * 10;
      }

      Print(pMyArray, kNewSize);

      sort(pMyArray, kNewSize);

      Print(pMyArray, kNewSize);

      if( pMyArray!=NULL )
      {
      delete pMyArray;
      }

      return 0;
      }









      share|improve this question









      New contributor




      f1r361rd is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
      Check out our Code of Conduct.







      $endgroup$




      I have answered a Question in Stackoverflow link.




      a) Create a function called resize that can be used to increase the
      size of integer arrays dynamically. The function takes three
      parameters. The first parameter is the original array, the second
      parameter is the size of this array, and the third parameter is the
      size of the larger array to be created by this function. Make sure
      that you allocate memory from the heap inside this function. After
      allocating memory for the second array the function must copy the
      elements from the first array into the larger array. Finally, the
      function must return a pointer to the new array.



      b. In main, allocate an array on the heap that is just large enough to
      store the integers 5, 7, 3, and 1.



      c. Resize the array to store 10 integers by calling the resize
      function created in step a. Remove the old (smaller) array from the
      heap. Add the numbers 4, 2, and 8 to the end of the new array.



      d. Write a sort function that sorts any integer array in increasing
      order.



      e. Use the sort function to sort the array of numbers in c above.
      Display the sorted numbers.




      Is there a Dangling pointer issue.



      #include <array>
      #include <iostream>

      void swap(int *xp, int *yp)
      {
      int temp = *xp;
      *xp = *yp;
      *yp = temp;
      }

      //Bubble Sort
      bool sort(int arr, int size)
      {
      for( int i = 0; i< size -1; i++)
      {
      for( int j = 0; j < size - i -1; j++)
      {
      //descending order
      if(arr[j]<arr[j+1])
      {
      swap(&arr[j], &arr[j+1]);
      }
      }
      }
      return true;
      }

      void Print(int Array, int nSize)
      {
      for( int i = 0; i < nSize; i++)
      {
      std::cout<<" "<<Array[i];
      }
      std::cout<<"n";
      }

      void Resize( int *&Array, const int& nSizeOld, const int& nSize )
      {
      int * newArray = new int[nSize];

      //Copy Elements of the Array
      for(int i = 0; i< nSizeOld; i++)
      {
      newArray[i] = Array[i];
      }

      delete Array;

      //Assign ptr of Prev to new Array
      Array = newArray;
      }

      int _tmain(int argc, _TCHAR* argv)
      {
      const int kNewSize = 10, kSize = 5;
      int *pMyArray = new int[kSize];

      //Set Values
      for( int i = 0; i< kSize; ++i )
      {
      pMyArray[i] = i * 5;
      }

      Resize( pMyArray, kSize, kNewSize );

      //Set Values
      for( int i = kSize; i< kNewSize; ++i )
      {
      pMyArray[i] = i * 10;
      }

      Print(pMyArray, kNewSize);

      sort(pMyArray, kNewSize);

      Print(pMyArray, kNewSize);

      if( pMyArray!=NULL )
      {
      delete pMyArray;
      }

      return 0;
      }






      c++ c++11 pointers






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      edited 9 mins ago







      f1r361rd













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      asked 1 hour ago









      f1r361rdf1r361rd

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          2 Answers
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          votes


















          2












          $begingroup$

          If you had tagged this code as C, it would have been acceptable. Since you tagged it as C++, it's horrible.



          Instead of writing your own swap function, there's already std::swap in <algorithm>.



          Instead of writing bubble sort yourself, just use std::sort, also from <algorithm>.



          Instead of using arrays and resizing them yourself, just use std::vector<int>, from <vector>.



          After applying these transformations, you cannot have a dangling pointer anymore since your code is completely pointer-free.



          As part of an exercise for learning the basic operations on memory management, it's ok to write code like this, but never ever use such code in production. In production the code should look like this:



          #include <algorithm>
          #include <iostream>
          #include <vector>

          void Print(const std::vector<int> &nums)
          {
          for(int num : nums)
          {
          std::cout << " " << num;
          }
          std::cout << "n";
          }

          int main()
          {
          std::vector<int> nums { 5, 7, 3, 1 };

          // There's probably a more elegant way to add the elements to the vector.
          nums.push_back(4);
          nums.push_back(2);
          nums.push_back(8);

          std::sort(nums.begin(), nums.end());

          Print(nums);
          }


          By the way, your original code doesn't have any dangling pointer as well. Well done.



          You don't need the != NULL check before the delete since that pointer cannot be null. In modern C++ (since C++11 I think) you would also write nullptr instead of NULL. The reason is that historically NULL had not been guaranteed to be of pointer type.



          Have a look at http://www.cplusplus.com/reference/algorithm/ for more algorithms that you shouldn't implement yourself in C++.



          I would have liked to write the push_back block in a shorter way, as well as the Print function. I'm sure there's a more elegant way, I just don't know it.






          share|improve this answer











          $endgroup$





















            0












            $begingroup$

            The code is obviously wrong: your compiler should have warmed you that Resize() never uses its nSizeOld parameter.






            share|improve this answer









            $endgroup$














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              2 Answers
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              active

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              2 Answers
              2






              active

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              active

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              active

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              2












              $begingroup$

              If you had tagged this code as C, it would have been acceptable. Since you tagged it as C++, it's horrible.



              Instead of writing your own swap function, there's already std::swap in <algorithm>.



              Instead of writing bubble sort yourself, just use std::sort, also from <algorithm>.



              Instead of using arrays and resizing them yourself, just use std::vector<int>, from <vector>.



              After applying these transformations, you cannot have a dangling pointer anymore since your code is completely pointer-free.



              As part of an exercise for learning the basic operations on memory management, it's ok to write code like this, but never ever use such code in production. In production the code should look like this:



              #include <algorithm>
              #include <iostream>
              #include <vector>

              void Print(const std::vector<int> &nums)
              {
              for(int num : nums)
              {
              std::cout << " " << num;
              }
              std::cout << "n";
              }

              int main()
              {
              std::vector<int> nums { 5, 7, 3, 1 };

              // There's probably a more elegant way to add the elements to the vector.
              nums.push_back(4);
              nums.push_back(2);
              nums.push_back(8);

              std::sort(nums.begin(), nums.end());

              Print(nums);
              }


              By the way, your original code doesn't have any dangling pointer as well. Well done.



              You don't need the != NULL check before the delete since that pointer cannot be null. In modern C++ (since C++11 I think) you would also write nullptr instead of NULL. The reason is that historically NULL had not been guaranteed to be of pointer type.



              Have a look at http://www.cplusplus.com/reference/algorithm/ for more algorithms that you shouldn't implement yourself in C++.



              I would have liked to write the push_back block in a shorter way, as well as the Print function. I'm sure there's a more elegant way, I just don't know it.






              share|improve this answer











              $endgroup$


















                2












                $begingroup$

                If you had tagged this code as C, it would have been acceptable. Since you tagged it as C++, it's horrible.



                Instead of writing your own swap function, there's already std::swap in <algorithm>.



                Instead of writing bubble sort yourself, just use std::sort, also from <algorithm>.



                Instead of using arrays and resizing them yourself, just use std::vector<int>, from <vector>.



                After applying these transformations, you cannot have a dangling pointer anymore since your code is completely pointer-free.



                As part of an exercise for learning the basic operations on memory management, it's ok to write code like this, but never ever use such code in production. In production the code should look like this:



                #include <algorithm>
                #include <iostream>
                #include <vector>

                void Print(const std::vector<int> &nums)
                {
                for(int num : nums)
                {
                std::cout << " " << num;
                }
                std::cout << "n";
                }

                int main()
                {
                std::vector<int> nums { 5, 7, 3, 1 };

                // There's probably a more elegant way to add the elements to the vector.
                nums.push_back(4);
                nums.push_back(2);
                nums.push_back(8);

                std::sort(nums.begin(), nums.end());

                Print(nums);
                }


                By the way, your original code doesn't have any dangling pointer as well. Well done.



                You don't need the != NULL check before the delete since that pointer cannot be null. In modern C++ (since C++11 I think) you would also write nullptr instead of NULL. The reason is that historically NULL had not been guaranteed to be of pointer type.



                Have a look at http://www.cplusplus.com/reference/algorithm/ for more algorithms that you shouldn't implement yourself in C++.



                I would have liked to write the push_back block in a shorter way, as well as the Print function. I'm sure there's a more elegant way, I just don't know it.






                share|improve this answer











                $endgroup$
















                  2












                  2








                  2





                  $begingroup$

                  If you had tagged this code as C, it would have been acceptable. Since you tagged it as C++, it's horrible.



                  Instead of writing your own swap function, there's already std::swap in <algorithm>.



                  Instead of writing bubble sort yourself, just use std::sort, also from <algorithm>.



                  Instead of using arrays and resizing them yourself, just use std::vector<int>, from <vector>.



                  After applying these transformations, you cannot have a dangling pointer anymore since your code is completely pointer-free.



                  As part of an exercise for learning the basic operations on memory management, it's ok to write code like this, but never ever use such code in production. In production the code should look like this:



                  #include <algorithm>
                  #include <iostream>
                  #include <vector>

                  void Print(const std::vector<int> &nums)
                  {
                  for(int num : nums)
                  {
                  std::cout << " " << num;
                  }
                  std::cout << "n";
                  }

                  int main()
                  {
                  std::vector<int> nums { 5, 7, 3, 1 };

                  // There's probably a more elegant way to add the elements to the vector.
                  nums.push_back(4);
                  nums.push_back(2);
                  nums.push_back(8);

                  std::sort(nums.begin(), nums.end());

                  Print(nums);
                  }


                  By the way, your original code doesn't have any dangling pointer as well. Well done.



                  You don't need the != NULL check before the delete since that pointer cannot be null. In modern C++ (since C++11 I think) you would also write nullptr instead of NULL. The reason is that historically NULL had not been guaranteed to be of pointer type.



                  Have a look at http://www.cplusplus.com/reference/algorithm/ for more algorithms that you shouldn't implement yourself in C++.



                  I would have liked to write the push_back block in a shorter way, as well as the Print function. I'm sure there's a more elegant way, I just don't know it.






                  share|improve this answer











                  $endgroup$



                  If you had tagged this code as C, it would have been acceptable. Since you tagged it as C++, it's horrible.



                  Instead of writing your own swap function, there's already std::swap in <algorithm>.



                  Instead of writing bubble sort yourself, just use std::sort, also from <algorithm>.



                  Instead of using arrays and resizing them yourself, just use std::vector<int>, from <vector>.



                  After applying these transformations, you cannot have a dangling pointer anymore since your code is completely pointer-free.



                  As part of an exercise for learning the basic operations on memory management, it's ok to write code like this, but never ever use such code in production. In production the code should look like this:



                  #include <algorithm>
                  #include <iostream>
                  #include <vector>

                  void Print(const std::vector<int> &nums)
                  {
                  for(int num : nums)
                  {
                  std::cout << " " << num;
                  }
                  std::cout << "n";
                  }

                  int main()
                  {
                  std::vector<int> nums { 5, 7, 3, 1 };

                  // There's probably a more elegant way to add the elements to the vector.
                  nums.push_back(4);
                  nums.push_back(2);
                  nums.push_back(8);

                  std::sort(nums.begin(), nums.end());

                  Print(nums);
                  }


                  By the way, your original code doesn't have any dangling pointer as well. Well done.



                  You don't need the != NULL check before the delete since that pointer cannot be null. In modern C++ (since C++11 I think) you would also write nullptr instead of NULL. The reason is that historically NULL had not been guaranteed to be of pointer type.



                  Have a look at http://www.cplusplus.com/reference/algorithm/ for more algorithms that you shouldn't implement yourself in C++.



                  I would have liked to write the push_back block in a shorter way, as well as the Print function. I'm sure there's a more elegant way, I just don't know it.







                  share|improve this answer














                  share|improve this answer



                  share|improve this answer








                  edited 7 mins ago

























                  answered 33 mins ago









                  Roland IlligRoland Illig

                  11.9k11948




                  11.9k11948

























                      0












                      $begingroup$

                      The code is obviously wrong: your compiler should have warmed you that Resize() never uses its nSizeOld parameter.






                      share|improve this answer









                      $endgroup$


















                        0












                        $begingroup$

                        The code is obviously wrong: your compiler should have warmed you that Resize() never uses its nSizeOld parameter.






                        share|improve this answer









                        $endgroup$
















                          0












                          0








                          0





                          $begingroup$

                          The code is obviously wrong: your compiler should have warmed you that Resize() never uses its nSizeOld parameter.






                          share|improve this answer









                          $endgroup$



                          The code is obviously wrong: your compiler should have warmed you that Resize() never uses its nSizeOld parameter.







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