doc/1.2/testOwningOrAliasingPtr_8cpp_source.html

 #include <iostream>

 #include "DGtal/base/Common.h"

 #include "DGtal/base/OwningOrAliasingPtr.h"


 using namespace std;

 using namespace DGtal;


 // Functions for testing class OwningOrAliasingPtr.


 template<typename Ptr, typename Value>

 bool testAccessOperators(const Ptr& aPtr, const Value& aValue)

 {

   return ( (aPtr.operator->() == aPtr.get()) && (*aPtr == aValue) );

 }


 template<typename Ptr>

 bool testCopyAndAssignement(const Ptr& aPtr)

 {

   Ptr p1(aPtr); //copy

   Ptr p2(0); //construction

   Ptr p3 = p2; //copy

   p3 = aPtr; //assignement


   if (aPtr.isOwning())

     {

       return ( ( (p1.get() != aPtr.get()) && (*p1 == *aPtr) )

                && ( (p2.get() != aPtr.get()) && (*p2 != *aPtr) )

                && ( (p3.get() != aPtr.get()) && (*p3 == *aPtr) ) );

     }

   else

     {

       return ( ( (p1.get() == aPtr.get()) && (*p1 == *aPtr) )

                && ( (p2.get() != aPtr.get()) && (*p2 != *aPtr) )

                && ( (p3.get() == aPtr.get()) && (*p3 == *aPtr) ) );

     }

 }


 bool testOwningOrAliasingPtr()

 {

   unsigned int nbok = 0;

   unsigned int nb = 0;


   int i = 10;


   trace.beginBlock ( "Owning pointer (1/2)..." );


   OwningOrAliasingPtr<int> owningPtr(i);

   trace.info() << owningPtr << std::endl;

   if ( (owningPtr.isOwning()) && (owningPtr.get() != &i) && (owningPtr.isValid()) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testAccessOperators(owningPtr, i) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testCopyAndAssignement(owningPtr) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;


   trace.endBlock();


   trace.beginBlock ( "Owning pointer (2/2)..." );


   OwningOrAliasingPtr<int> owningPtr2(new int(10), true);

   trace.info() << owningPtr2 << std::endl;

   if ( (owningPtr2.isOwning()) && (owningPtr2.get() != &i) && (owningPtr2.isValid()) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testAccessOperators(owningPtr2, *owningPtr2) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testCopyAndAssignement(owningPtr2) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;


   trace.endBlock();


   trace.beginBlock ( "Aliasing pointer ..." );


   OwningOrAliasingPtr<int> aliasingPtr(&i);

   trace.info() << aliasingPtr << std::endl;

   if ( (!aliasingPtr.isOwning()) && (aliasingPtr.get() == &i) && (aliasingPtr.isValid()) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testAccessOperators(owningPtr, i) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;

   if ( testCopyAndAssignement(owningPtr) )

     nbok++;

   nb++;

   trace.info() << "(" << nbok << "/" << nb << ") " << std::endl;


   trace.endBlock();


   //conlusion

   return nbok == nb;

 }


 class DummyBigObject

 {

 };


 template<typename T>

 class Dummy1

 {

 public:

   OwningOrAliasingPtr<T> myPtr;

 public:

   Dummy1():myPtr(new T(), true) {} //default-construction (owning)

   Dummy1(T* aPtr):myPtr(aPtr) {}   //construction from an existing object (aliasing)

 };


 template<typename T>

 class Dummy2

 {

 public:

   OwningOrAliasingPtr<T> myPtr;

 public:

   Dummy2(T* aPtr):myPtr(aPtr) {}   //construction from an existing object (aliasing)

   Dummy2(T data):myPtr(data) {}    //construction with copy (owning)

 };


 bool basicUsage()

 {

   trace.beginBlock ( "Basic usage ..." );


   //1) existing or default-constructed object

   int obj = 5;

   Dummy1<int> d1;       //default-constructed

   Dummy1<int> d2(&obj); //construction from an existing object


   //2) choice with/without copy

   int smallObj = 5;

   Dummy2<int> d3(smallObj);           //small object copied

   DummyBigObject bigObj;

   Dummy2<DummyBigObject> d4(&bigObj); //big object not copied


   trace.endBlock();


   return true;

 }


 // Standard services - public :


 int main( int argc, char** argv )

 {

   trace.beginBlock ( "Testing class OwningOrAliasingPtr" );

   trace.info() << "Args:";

   for ( int i = 0; i < argc; ++i )

     trace.info() << " " << argv[ i ];

   trace.info() << endl;


   bool res = testOwningOrAliasingPtr() && basicUsage();

   trace.emphase() << ( res ? "Passed." : "Error." ) << endl;

   trace.endBlock();

   return res ? 0 : 1;

 }

 //                                                                           //

DGtal::OwningOrAliasingPtr
Aim: This class describes a smart pointer that is, given the constructor called by the user,...
Definition: OwningOrAliasingPtr.h:73

DGtal::OwningOrAliasingPtr::isValid
bool isValid() const

DGtal::OwningOrAliasingPtr::get
Pointer get() const

DGtal::OwningOrAliasingPtr::isOwning
bool isOwning() const

DGtal::Trace::beginBlock
void beginBlock(const std::string &keyword="")

DGtal::Trace::emphase
std::ostream & emphase()

DGtal::Trace::info
std::ostream & info()

DGtal::Trace::endBlock
double endBlock()

DGtal
DGtal is the top-level namespace which contains all DGtal functions and types.
Definition: ClosedIntegerHalfPlane.h:49

DGtal::trace
Trace trace
Definition: Common.h:154

testAccessOperators
bool testAccessOperators(const Ptr &aPtr, const Value &aValue)
Definition: testOwningOrAliasingPtr.cpp:44

basicUsage
bool basicUsage()
Definition: testOwningOrAliasingPtr.cpp:180

main
int main(int argc, char **argv)
Definition: testOwningOrAliasingPtr.cpp:203

testOwningOrAliasingPtr
bool testOwningOrAliasingPtr()
Definition: testOwningOrAliasingPtr.cpp:75

testCopyAndAssignement
bool testCopyAndAssignement(const Ptr &aPtr)
Definition: testOwningOrAliasingPtr.cpp:50

Value
double Value
Definition: testSimpleRandomAccessRangeFromPoint.cpp:38