2

I'm learning about templates.

I have:

template<typename SQLObject>
std::vector<SQLObject> executeSelectQueryReturnSQLVector(std::string _recordType,
                                                             std::string _sql,
                                                             int _rowCount)
{
    typename std::vector<SQLObject> v;

    if (_recordType == AppConstants::sSQLFieldObject)
    {
        for(int r=0; r < _rowCount; r++)
        {
            SQLFieldObject o;

            o.putFieldNumber(sqlite3_column_int(statement, 0));
            [snip]
            v.push_back(o);
        }
    }

    if (_recordType == AppConstants::sSQLNotificationObject)
    {
        for(int r=0; r < _rowCount; r++)
        {
            SQLNotificationObject o;

             o.putNotificationID(sqlite3_column_int(statement, 0));
             [snip]
             v.push_back(o);
        }
    }

    return v;
}

I'm getting a compiler error on v.push_back(o); that states:

no matching member function for call to 'push_back'

I think it makes sense why, its fuzzy to me, since this is a typename determined at compile time?

Does this mean I have to implement my own push_back() function?

Is "C++ Templates The Complete Guide" by Vandevoorde and Josuttis @ 2003 still apply for C++11?

UPDATE 1: Consider this edit:

template<typename SQLObject>
std::vector<SQLObject> executeSelectQueryReturnSQLVector(std::string _recordType,
                                                             std::string _sql,
                                                             int _rowCount)
{
    //typename std::vector<SQLObject> v;

    if (_recordType == AppConstants::sSQLFieldObject)
    {
        std::vector<SQLFieldObject> v;

        for(int r=0; r < _rowCount; r++)
        {
            SQLFieldObject o;

            o.putFieldNumber(sqlite3_column_int(statement, 0));
            [snip]
            v.push_back(o);
        }

        return v;
    }

    if (_recordType == AppConstants::sSQLNotificationObject)
    {
        std::vector<SQLNotificationObject> v;

        for(int r=0; r < _rowCount; r++)
        {
            SQLNotificationObject o;

             o.putNotificationID(sqlite3_column_int(statement, 0));
             [snip]
             v.push_back(o);
        }

        return v;
    }

    //return v;
}

I get compiler errors on both return v; like:

no viable conversion from 'vector<class SQLFieldObject>' to 'vector<class SQLNotificationObject>'

no viable conversion from 'vector<class SQLNotificationObject>' to 'vector<class SQLFieldObject>'

I'm calling this like:

std::vector<SQLFieldObject> _v = executeSelectQueryReturnSQLVector<SQLFieldObject>    (AppConstants::sSQLFieldObject, getSQLToSelectFields(), rowCount);

and

std::vector<SQLNotificationObject> _v = executeSelectQueryReturnSQLVector<SQLNotificationObject>(AppConstants::sSQLNotificationObject, getSQLToSelectNotifications(), rowCount);
11
  • 3
    The problem isn't with the use of templates, but rather with the fact that you are trying to add a SQLNotificationObject or a SQLFieldObject into a vector of SQLObject. Try writing the code without using templates, and you will see the same issue.
    – Mankarse
    Apr 20, 2014 at 5:24
  • 1
    I think your SQLObject is a polymorphic type. In that case you need to use vector of pointers i.e. vector<SQLObject*>. This will allow you to store pointers of SQLFieldObject as well as pointers of SQLNotificationObject in the same vector.
    – rockoder
    Apr 20, 2014 at 5:40
  • @rockoder - I'm actually calling it twice and when called it is always the same type going into the vector. I updated again.
    – Jasmine
    Apr 20, 2014 at 5:44
  • 1
    For readability, you should not call your template parameter the same thing as an actual class (I'm not sure whether or not you are doing that but it seems you might be, based on the names SQLObject and SQLFieldObject).
    – M.M
    Apr 20, 2014 at 6:27
  • 1
    @matt. I'll replace with T for safety.
    – Jasmine
    Apr 20, 2014 at 6:34

3 Answers 3

2

The type of v is std::vector<SQLObject>. The type of o is SQLFieldObject. Unless there is an automatic way to cast an object of type SQLFieldObject to SQLObject,

v.push_back(o);

it is not an allowable operation.

Update

The errors associated with the updated code are:

The return type of executeSelectQueryReturnSQLVector is std::vector<SQLObject>. The return statements return either std::vector<SQLFieldObject> or std::vector<SQLNotificationObject>. Well, the type of the objects being returned don't match with return type in the function signature.

Dealing with the templates a little bit more elegantly:

 // A template class that returns an appropriate string based on the
 // typename used to instantiate.
 template <typename SQLObject> struct RecordTypeChooser;

 // Specialization for returning the record type for SQLFieldObjects.
 template <> struct RecordTypeChooser<SQLFieldObject>
 {
    static std::string getRecordType() { return AppConstants::sSQLFieldObject; }
 };

 // Specialization for returning the record type for SQLNotificationObjects.
 template <> struct RecordTypeChooser<SQLNotificationObject>
 {
    static std::string getRecordType() { return AppConstants::sSQLNotificationObject; }
 };

 // A template class that constructs an object and returns it.
 // The object type is based on the typename used to instantiate.
 template <typename SQLObject> struct ObjectCreator;

 // Specialization for constructing SQLFieldObjects.
 template <> struct ObjectCreator<SQLFieldObject>
 {
    static SQLFieldObject createObject()
    {
       SQLFieldObject o;
       o.putFieldNumber(sqlite3_column_int(statement, 0));
       return o;
    }
 };

 // Specialization for constructing SQLNotificationObjects.
 template <> struct ObjectCreator<SQLNotificationObject>
 {
    static SQLNotificationObject createObject()
    {
       SQLNotificationObject o;
       o.putNotificationID(sqlite3_column_int(statement, 0));
       return o;
    }
 };



 template<typename SQLObject>
 std::vector<SQLObject> executeSelectQueryReturnSQLVector(std::string _recordType,
                                                          std::string _sql,
                                                          int _rowCount)
 {
    typename std::vector<SQLObject> v;

    // Not sure whether you need this any more.
    if (_recordType == RecordTypeChooser<SQLObject>::getRecordType())
    {
       for(int r=0; r < _rowCount; r++)
       {
          v.push_back(ObjectCreator<SQLObject>::createObject());
       }
    }

    return v;
 }

Update: Fully compiled and linked source

 #include <vector>
 #include <string>

 struct SQLFieldObject {};
 struct SQLNotificationObject {};

 // A template class that returns an appropriate string based on the
 // typename used to instantiate.
 template <typename SQLObject> struct RecordTypeChooser;

 // Specialization for returning the record type for SQLFieldObjects.
 template <> struct RecordTypeChooser<SQLFieldObject>
 {
    static std::string getRecordType() { return "SQLFieldObject"; }
 };

 // Specialization for returning the record type for SQLNotificationObjects.
 template <> struct RecordTypeChooser<SQLNotificationObject>
 {
    static std::string getRecordType() { return "SQLNotificationObject"; }
 };

 // A template class that constructs an object and returns it.
 // The object type is based on the typename used to instantiate.
 template <typename SQLObject> struct ObjectCreator;

 // Specialization for constructing SQLFieldObjects.
 template <> struct ObjectCreator<SQLFieldObject>
 {
    static SQLFieldObject createObject()
    {
       SQLFieldObject o;
       // o.putFieldNumber(sqlite3_column_int(statement, 0));
       return o;
    }
 };

 // Specialization for constructing SQLNotificationObjects.
 template <> struct ObjectCreator<SQLNotificationObject>
 {
    static SQLNotificationObject createObject()
    {
       SQLNotificationObject o;
       // o.putNotificationID(sqlite3_column_int(statement, 0));
       return o;
    }
 };



 template<typename SQLObject>
 std::vector<SQLObject> executeSelectQueryReturnSQLVector(std::string _recordType,
                                                          std::string _sql,
                                                          int _rowCount)
 {
    typename std::vector<SQLObject> v;

    // Not sure whether you need this any more.
    if (_recordType == RecordTypeChooser<SQLObject>::getRecordType())
    {
       for(int r=0; r < _rowCount; r++)
       {
          v.push_back(ObjectCreator<SQLObject>::createObject());
       }
    }

    return v;
 }


 void foo()
 {
    std::vector<SQLFieldObject> v1 = executeSelectQueryReturnSQLVector<SQLFieldObject>("SQLFieldObject",
                                                                                       "",
                                                                                       10);

    std::vector<SQLNotificationObject> v2 = executeSelectQueryReturnSQLVector<SQLNotificationObject>("SQLNotificationObject",
                                                                                       "",
                                                                                       10);
 }

 int main() {}
5
  • Can you consider the update in my description now? This is what I originally tried.
    – Jasmine
    Apr 20, 2014 at 5:32
  • @Jason, I updated my answer to address the new errors and a refactored implementation of executeSelectQueryReturnSQLVector that should pose no more compiler problems.
    – R Sahu
    Apr 20, 2014 at 6:10
  • Wow, let me review this. I do see at template <> struct RecordTypeChooser<SQLFieldObject> a message: explicit specialization of 'RecordTypeChooser' in class scope Would one namespace it out?
    – Jasmine
    Apr 20, 2014 at 6:15
  • @Jason I had forgotten to add static to the functions in the ObjectCreator classes. The answer is now updated.
    – R Sahu
    Apr 20, 2014 at 6:24
  • I had added static there but I still see errors on template <> struct RecordTypeChooser<SQLFieldObject> and template <> struct RecordTypeChooser<SQLNotificationObject> and template <> struct ObjectCreator<SQLFieldObject> and template <> struct ObjectCreator<SQLNotificationObject> that say explicit specialization of 'RecordTypeChooser' in class scope template <> struct RecordTypeChooser<SQLFieldObject> etc one for each of the statements I mention Not enough characters to paste each error
    – Jasmine
    Apr 20, 2014 at 6:33
0

The types in the vector and in the instances differ. Vector saves only the pristine classes (and cannot save children due to memory allocation issues otherwise). You may however store pointers to the classes. Consider this:

typedef boost::shared_ptr<SQLObject> SQLObjectPtr;
typedef std::vector<SQLObjectPtr> SQLObjectPtrVector;

...
for(int r=0; r < _rowCount; r++)
{
    SQLFieldObjectPtr o(new SQLFieldObject);

    ...
    v.push_back(o);
}
1
  • Can you consider the update in my description now? This is what I originally tried.
    – Jasmine
    Apr 20, 2014 at 5:33
0
#include <iostream>
#include <vector>

using namespace std;

struct A
{
    int a;
};

struct B
{
    char b;
};

template<typename T>
vector<T> fun(char type)
{
    if (type == 'A')
    {
        vector<T> v;
        // generate objects of A and append to v
        return v;
    }
    else
    {
        vector<T> v;
        // generate objects of B and append to v
        return v;
    }
}

int main()
{
    vector<A> v = fun<A>('A');

    return 0;
}
1
  • Let me look at this because it looks very similar to what I am already doing. Let me look for differences between mine and yours.
    – Jasmine
    Apr 20, 2014 at 6:35

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