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I've been using this site for a while and so far never needed to ask a new question (found all answers I've needed until now).

I need to push_back multiple objects into a vector but VS throws an error (This may be due to a corruption of the heap, which indicates a bug in PVSS00DataGate.exe or any of the DLLs it has loaded) that I cannot seem to work out for myself.

Here is what I am trying to do, it works to push_back the first object into the vector but when I try to push_back a second object that is when the error occurs.

class HWObject{}

void DataLogger::WriteNewMessages()
{
  unsigned int iBattery = 0;
  unsigned int iSignal  = 0;
  TimeVar tTimeStamp;

  // I want to store all HWObjects in a temporary vector (loggerData)
  std::vector<HWObject> loggerData;

  CharString strElement;
  strElement.format( "batteryCondition.value" );
  SendOneValuePVSS( (const char *)strElement, iBattery,  tTimeStamp );

  strElement.format( "signalStrength.value" );
  SendOneValuePVSS( (const char *)strElement, iSignal,   tTimeStamp );
}

void DataLogger::SendOneValuePVSS(const char *szElementName, double dValue, TimeVar, &tValue)
{
  HWObject obj;
  obj.setOrgTime(tValue); // Current time
  obj.setTimeOfPeriphFlag();

  CharString address;
  address = strID;
  address += ".";
  address += szElementName;

  obj.setAddress(address);

  loggerData.reserve( loggerData.size() + 1 );
  loggerData.push_back( obj );
  obj.cutData();
}

dataLogger is declared in

class DataLogger 
{ 
 public:
 std::vector<HWObject> loggerData;
 ...
}

Here is the class HWObject, I didn't want to overwhelm you with code.

public:
   /** Default constructor*/
HWObject();

/** Constructor, which sets the periphAddr and transformationType.
 * @param addressString address of the HW object
 * @param trans type of transformation 
 */
HWObject(const char* addressString, TransformationType trans);

/**  Destructor. If the date pointer is not NULL, it is deleted.
 */ 
virtual ~HWObject();

/** Creates a new HWObject
 * This function returns an empty HWObject, no properties are duplicated or copied!
 * @classification public use, overload, call base
 */
virtual  HWObject * clone() const;

/** Reset all pvss2 relevant parts of the HWObject. when overloading this member
 * don't forget to call the basic function!
 * @classification public use, overload, call base
 */
virtual void               clear();

/** Gets pointer to data
 * @return pointer to data
 */
const PVSSchar *   getDataPtr() const                          { return dataPtr; }

/** Gets the data buffer pointer
 * @return data buffer pointer
 */
PVSSchar *         getData()                                   { return dataPtr; }

/** Cut the data buffer out of the HWObject.
 * This function is used to avoid the deletion
 * of the data buffer, when a new pointer is set using
 * setData() or the HWObject is deleted.
 * @return pointer to the data of the HWObject
 */
PVSSchar *         cutData();

/** Get the data buffer lenght
 * @return length of the data buffer
 */
PVSSushort           getDlen() const                             { return dataLen; }

/** Set ptr to the data buffer, pointer is captured.
 * The actual data pointer in the HWObject is deleted,
 * if it is not NULL. To avoid the deletion use cutData()
 * in order to cut out the pointer.
 * @param ptr pointer to new data
 */
void               setData(PVSSchar *ptr);

/** Set the data length
 * @param len length to be set
 */
void               setDlen(const PVSSushort len)                 { dataLen = len; }

/** Get the periph address
 * @return periph address string
 */
const CharString & getAddress() const                          { return address; }

/** Get the transformation type
 * @return type of transformation
*/
TransformationType getType() const                             { return transType; }

/** Set the transformation type
 * @param typ type of transformation for setting
 */
void               setType(const TransformationType typ)       { transType = typ; }

/** Get the subindex
 * @return subindex
 */
PVSSushort           getSubindex() const                         { return subindex; }

/** Set the subindex
 * @param sx subindex to be set
 */ 
void               setSubindex( const PVSSushort sx)             { subindex = sx; }

/** Get the origin time
  * @return origin time
  */
const TimeVar&     getOrgTime() const                          { return originTime; }

/** Get the origin time
 * @return oriin time
 */
TimeVar&           getOrgTime()                                { return originTime; }

/** Set the origin time
 * @param tm origin time to be set
 */
void               setOrgTime(const TimeVar& tm)               { originTime = tm; }

/** Get HWObject purpose
 * @return objSrcType
 */
ObjectSourceType   getObjSrcType() const                       { return objSrcType; }

/** Set HWObject purpose
 * @param tp objSrcType
 */
void               setObjSrcType(const ObjectSourceType tp)    { objSrcType = tp; }

/** Get number of elements in data buffer
 * @return number of elements in data buffer
 */
PVSSushort           getNumberOfElements() const                 { return number_of_elements; }

/** Set number of elements in data buffer
 * @param var number of elements in data buffer
 */
void               setNumberOfElements(const PVSSushort var)     { number_of_elements = var; }

/** Prints the basic HWObject information on stderr.
 * in case of overloading don't forget to call the base function!
 * @classification public use, overload, call base
 */
virtual void      debugPrint() const;

/** Prints th basic HWObject info in one CharString for internal debug DP.
  * in case of overloading call base function first, then append specific info 
  *  @classification public use, overload, call base 
   */
virtual CharString getInfo() const;

/** Set the periph address
  * @param adrStr pointer to address string
  */
virtual void       setAddress(const char *adrStr);

/** Set the additional data (flag, orig time, valid user byte,etc)
  * @param data aditional flags that be set
  * @param subix subindex, use subix 0 for setting values by default  
  */ 
virtual void       setAdditionalData(const RecVar &data, PVSSushort subix);

/** Set the 'origin time comes from periph' flag 
  */
void               setTimeOfPeriphFlag() 
{
  setSbit(DRV_TIME_OF_PERIPH);
}

/** Check whether time comes from periph
  * @return PVSS_TRUE if the time is from perip
  */
PVSSboolean        isTimeFromPeriph() const   
{
 // If isTimeOfPeriph is set, it must be valid
 return getSbit(DRV_TIME_OF_PERIPH);
}

/** Set the flag if you want to receive callback if event has answered the value change   
 */
void setWantAnswerFlag() 
{
  setSbit(DRV_WANT_ANSWER);
}

/** Get the status of the 'want answer, flag
  */
PVSSboolean        getWantAnswerFlag() const   
{
  // If isTimeOfPeriph is set, it must be valid
  return getSbit(DRV_WANT_ANSWER);
}

/** Set the user bit given by input parameter.
  * Status bits defined by the enum DriverBits
  * @param bitno bit number
  * @return PVSS_TRUE if bit was set
  */ 
PVSSboolean        setSbit(PVSSushort bitno)       
{
   return (status.set(bitno) && status.set(bitno + (PVSSushort)DRV_VALID_INVALID - (PVSSushort)DRV_INVALID));
}

/** Clear the user bit given by input parameter
  * @param bitno bit number
  * @return PVSS_TRUE if bit was cleared
  */ 
PVSSboolean        clearSbit(PVSSushort bitno)     
{
  return (status.clear(bitno) && status.set(bitno + (PVSSushort)DRV_VALID_INVALID - (PVSSushort)DRV_INVALID));
}

PVSSboolean        isValidSbit(PVSSushort bitno) const   
{
  return status.get(bitno + (PVSSushort)DRV_VALID_INVALID - (PVSSushort)DRV_INVALID);
}

/** Check any bit
  * @param bitno bit number
  * @return status of the bit on bitno position
  */
PVSSboolean        getSbit(PVSSushort bitno) const      {return status.get(bitno);}

/** Clear all status bits
  * return status of clear all
  */
PVSSboolean        clearStatus() {return status.clearAll();}

/** Get the status of this object
  * @return bit vector status
  */
const BitVec &     getStatus() const {return status;}

/** Set status of the bit vector
  * @param bv deference to bit vector to be set as status 
  */
 void               setStatus(const BitVec &bv) {status = bv;}

/** Set a user byte in the status.
  * @param userByteNo number of user byte range 0..3
  * @param val        value to set
  * @return PVSS_TRUE execution OK
  *         PVSS_FALSE in case of error
  */
PVSSboolean setUserByte (PVSSushort userByteNo, PVSSuchar val);

/** Reads a user byte from the status.
  * @param userByteNo number of user byte range 0..3
  * @return the requested user byte
  */
PVSSuchar getUserByte (PVSSushort userByteNo) const;

/** Check validity of user byte.
  * @param userByteNo number of user byte range 0..3
  * @return PVSS_TRUE user byte is valid
  *         PVSS_FALSE user byte is not valid
  */
PVSSboolean isValidUserByte(PVSSushort userByteNo) const;

/** Format status bits into a string
  * @param str status bits converted to string 
  */
void formatStatus (CharString & str) const ;
// ------------------------------------------------------------------
// internal ones

/** Read data from bin file
  * @param fp file handle 
  */
virtual int         inFromBinFile( FILE *fp );

/** Write data to bin file
  * @param fp file handle 
  */
virtual int       outToBinFile( FILE *fp );

/** Set data length
  * @param dlen  data length 
  */
void setDlenLlc (PVSSushort dlen) {dataLenLlc = dlen;}


virtual void updateBufferLlc (HWObject * hwo, int offset1 = 0);


virtual int compareLlc (HWObject * hwo, int offset1 = 0, int offset2 = 0, int len = -1);

/** Get dataLenLlc
* @return dataLenLlc
*/
PVSSushort getDlenLlc () const {return dataLenLlc;}

/** Function to delete the data buffer; overload if special deletion must be done
  */
virtual void deleteData ();

/** Set HW identifier
  * @param id hw identifier to be set
  */
void setHwoId(PVSSulong id) {hwoId = id;}

/** Get HW identifier
  * @return hw identifier
  */
PVSSulong getHwoId() const {return hwoId;}

protected:
/// the dynamic data buffer
PVSSchar*          dataPtr;
/// the data buffer len
PVSSushort           dataLen;
/// the pvss2 periph address string
CharString         address;
/// the start subix for the data buffer
PVSSushort           subindex;
/// the datatype of the data in the buffer (i.e. transformationtype)
TransformationType transType;
/// the time of income, normally set by the constructor
TimeVar            originTime;
/// the purpose of this HWObject
ObjectSourceType   objSrcType;
/// the number of elements in the data buffer, used for arrays and records
PVSSushort           number_of_elements;        // fuer array!!!
/// the user bits of the original config
BitVec             status;

private:
 PVSSushort dataLenLlc;
 PVSSulong hwoId;
};
share|improve this question
2  
How did this compile? Your SendOneValuePVSS function is not aware of the local loggerData vector from the calling function? –  Nim Sep 22 '11 at 10:55
    
The code looks fine, the problem is most likely in the definition of the HWObject class. I'm guessing you're storing an address of a local variable somewhere which becomes invalid. –  Kerrek SB Sep 22 '11 at 10:56
1  
Does HWObject have a valid copy constructor and assignment operator? –  minjang Sep 22 '11 at 10:56
    
Need to know if your object HWObject has a copy constructor and also how the method setAddress works. –  Ed Heal Sep 22 '11 at 10:56
2  
You should really provide a real compilable testcase instead of random lines from your project that probably leave out the important points –  PlasmaHH Sep 22 '11 at 10:58

1 Answer 1

up vote 1 down vote accepted

You're not showing the important parts. I'd guess that HWObject has dynamically allocated memory, and doesn't implement the rule of three (copy constructor, assignment operator and destructor). But it's only a guess. (Unless you're using special techniques like reference counting or smart pointers, copy must do a deep copy, and assignment should probably use the swap idiom.)

Also, there's no point in reserving size() + 1 just before push_back.

share|improve this answer
    
I think you're right.. there is no copy constructor in the HWObject class which causes the the vector push_back operation to copy the pointer to the HWObject declared in the function, it seems this causes it to go out of scope eventually. –  Jonathan Rojas Garcia Sep 22 '11 at 15:46
    
The default copy constructor will copy the pointer. Which means that if you delete it in a destructor, the other copies will be left with a dangling pointer. If you haven't read Scott Meyers' "Effective C++", you should---he covers these types of problems in detail. –  James Kanze Sep 22 '11 at 16:29

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