[Esercizio 1]

container.cpp container.hpp
This commit is contained in:
Alessandro Ferro 2021-03-30 16:30:34 +02:00
parent 63bb5d2e6b
commit 02a46f308b
28 changed files with 1775 additions and 8 deletions

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librerie/exercise1/build.sh Executable file
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#! /bin/bash
g++ -O3 -o main \
zlasdtest/exercise1/simpletest.cpp zlasdtest/exercise1/fulltest.cpp \
zlasdtest/container/container.cpp \
zlasdtest/test.cpp zmytest/test.cpp main.cpp

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namespace lasd {
template <typename Data>
void AuxFoldExists(const Data& dat, const void* val, void* exists){
if(dat == *((Data*)val)){
*((bool*)exists) = true;
}
}
template <typename Data>
bool FoldableContainer<Data>::Exists(const Data& dat) const noexcept{
bool exists = false;
FoldPreOrder(&AuxFoldExists<Data>, &dat, &exists);
return exists;
}
}

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#ifndef CONTAINER_HPP
#define CONTAINER_HPP
/* ************************************************************************** */
#include <stdexcept>
#include <functional>
/* ************************************************************************** */
namespace lasd {
/* ************************************************************************** */
class Container {
private:
protected:
ulong size = 0;
public:
// Destructor
virtual ~Container() = default;
/* ************************************************************************ */
// Copy assignment
Container& operator=(const Container&) = delete; // Copy assignment of abstract types should not be possible.
// Move assignment
Container& operator=(Container&&) = delete; // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
bool operator==(const Container&) const noexcept = delete; // Comparison of abstract types might not be possible.
bool operator!=(const Container&) const noexcept = delete; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
virtual bool Empty() const noexcept { // (concrete function should not throw exceptions)
return (size==0);
};
virtual ulong Size() const noexcept{
return size;
} // (concrete function should not throw exceptions)
virtual void Clear() = 0;
};
/* ************************************************************************** */
template <typename Data>
class LinearContainer : virtual public Container { // Must extend Container
private:
protected:
public:
// Destructor
virtual ~LinearContainer() = default;
/* ************************************************************************ */
// Copy assignment
LinearContainer& operator=(const LinearContainer&) = delete; // Copy assignment of abstract types should not be possible.
// Move assignment
LinearContainer& operator=(LinearContainer&&) = delete; // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
bool operator==(const LinearContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
bool operator!=(const LinearContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
virtual Data& Front() const = 0; // (concrete function must throw std::length_error when empty)
virtual Data& Back() const = 0; // (concrete function must throw std::length_error when empty)
virtual Data& operator[](const ulong) const = 0; // (concrete function must throw std::out_of_range when out of range)
};
/* ************************************************************************** */
template <typename Data>
class TestableContainer : public Container { // Must extend Container
private:
protected:
public:
// Destructor
virtual ~TestableContainer() = default;
/* ************************************************************************ */
// Copy assignment
TestableContainer& operator=(const TestableContainer&) = delete; // Copy assignment of abstract types should not be possible.
// Move assignment
TestableContainer& operator=(TestableContainer&&) = delete; // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
bool operator==(const TestableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
bool operator!=(const TestableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
virtual bool Exists(const Data&) const noexcept = 0; // (concrete function should not throw exceptions)
};
/* ************************************************************************** */
template <typename Data>
class MappableContainer : virtual public Container { // Must extend Container
private:
protected:
public:
// Destructor
virtual ~MappableContainer() = default;
/* ************************************************************************ */
// Copy assignment
MappableContainer& operator=(const MappableContainer&) = delete; // Copy assignment of abstract types should not be possible.
// Move assignment
MappableContainer& operator=(MappableContainer&&) = delete; // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
bool operator==(const MappableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
bool operator!=(const MappableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
typedef std::function<void(Data&, void*)> MapFunctor;
virtual voi MapPreOrder(const MapFunctor, void*) = 0;
virtual void MapPostOrder(const MapFunctor, void*) = 0;
};
/* ************************************************************************** */
template <typename Data>
class FoldableContainer : virtual public TestableContainer<Data>{ // Must extend TestableContainer
private:
protected:
public:
// Destructor
virtual ~FoldableContainer() = default;
/* ************************************************************************ */
// Copy assignment
FoldableContainer& operator=(const FoldableContainer&) = delete; // Copy assignment of abstract types should not be possible.
// Move assignment
FoldableContainer& operator=(FoldableContainer&&) = delete; // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
bool operator==(const FoldableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
bool operator!=(const FoldableContainer&) const noexcept = delete; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
typedef std::function<void(const Data&, const void*, void*) noexcept> FoldFunctor;
virtual void FoldPreOrder(const FoldFunctor, const void*, void*) const = 0;
virtual void FoldPostOrder(const FoldFunctor, const void*, void*) const = 0;
virtual bool Exists(const Data&) const noexcept override; // Override TestableContainer member
};
/* ************************************************************************** */
template <typename Data>
class BreadthMappableContainer { // Must extend MappableContainer
private:
// ...
protected:
// ...
public:
// Destructor
// ~BreadthMappableContainer() specifiers
/* ************************************************************************ */
// Copy assignment
// type operator=(argument); // Copy assignment of abstract types should not be possible.
// Move assignment
// type operator=(argument); // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
// type operator==(argument) specifiers; // Comparison of abstract types might not be possible.
// type operator!=(argument) specifiers; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
// using typename MappableContainer<Data>::MapFunctor;
// type MapBreadth(arguments) specifiers;
};
/* ************************************************************************** */
template <typename Data>
class BreadthFoldableContainer { // Must extend FoldableContainer
private:
// ...
protected:
// ...
public:
// Destructor
// ~BreadthFoldableContainer() specifiers
/* ************************************************************************ */
// Copy assignment
// type operator=(argument); // Copy assignment of abstract types should not be possible.
// Move assignment
// type operator=(argument); // Move assignment of abstract types should not be possible.
/* ************************************************************************ */
// Comparison operators
// type operator==(argument) specifiers; // Comparison of abstract types might not be possible.
// type operator!=(argument) specifiers; // Comparison of abstract types might not be possible.
/* ************************************************************************ */
// Specific member functions
// using typename FoldableContainer<Data>::FoldFunctor;
// type FoldBreadth(arguments) specifiers;
};
/* ************************************************************************** */
}
#include "container.cpp"
#endif

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namespace lasd {
/* ************************************************************************** */
// ...
/* ************************************************************************** */
}

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#ifndef LIST_HPP
#define LIST_HPP
/* ************************************************************************** */
#include "../container/container.hpp"
/* ************************************************************************** */
namespace lasd {
/* ************************************************************************** */
template <typename Data>
class List { // Must extend LinearContainer<Data>, MappableContainer<Data>, and FoldableContainer<Data>
private:
// ...
protected:
// using LinearContainer<Data>::???;
struct Node
{
// Data
// ...
/* ********************************************************************** */
// Specific constructors
// ...
/* ********************************************************************** */
// Copy constructor
// ...
// Move constructor
// ...
/* ********************************************************************** */
// Destructor
// ...
/* ********************************************************************** */
// Comparison operators
// ...
/* ********************************************************************** */
// Specific member functions
// ...
};
// ...
public:
// Default constructor
// List() specifiers;
/* ************************************************************************ */
// Specific constructor
// List(argument) specifiers; // A list obtained from a LinearContainer
/* ************************************************************************ */
// Copy constructor
// List(argument) specifiers;
// Move constructor
// List(argument) specifiers;
/* ************************************************************************ */
// Destructor
// ~List() specifiers;
/* ************************************************************************ */
// Copy assignment
// type operator=(argument) specifiers;
// Move assignment
// type operator=(argument) specifiers;
/* ************************************************************************ */
// Comparison operators
// type operator==(argument) specifiers;
// type operator!=(argument) specifiers;
/* ************************************************************************ */
// Specific member functions
// type InsertAtFront(argument) specifier; // Copy of the value
// type InsertAtFront(argument) specifier; // Move of the value
// type RemoveFromFront() specifier; // (must throw std::length_error when empty)
// type FrontNRemove() specifier; // (must throw std::length_error when empty)
// type InsertAtBack(argument) specifier; // Copy of the value
// type InsertAtBack(argument) specifier; // Move of the value
/* ************************************************************************ */
// Specific member functions (inherited from Container)
// type Clear() specifiers; // Override Container member
/* ************************************************************************ */
// Specific member functions (inherited from LinearContainer)
// type Front() specifiers; // Override LinearContainer member (must throw std::length_error when empty)
// type Back() specifiers; // Override LinearContainer member (must throw std::length_error when empty)
// type operator[](argument) specifiers; // Override LinearContainer member (must throw std::out_of_range when out of range)
/* ************************************************************************ */
// Specific member functions (inherited from MappableContainer)
// using typename MappableContainer<Data>::MapFunctor;
// type MapPreOrder(arguments) specifiers; // Override MappableContainer member
// type MapPostOrder(arguments) specifiers; // Override MappableContainer member
/* ************************************************************************ */
// Specific member functions (inherited from FoldableContainer)
// using typename FoldableContainer<Data>::FoldFunctor;
// type FoldPreOrder(arguments) specifiers; // Override FoldableContainer member
// type FoldPostOrder(arguments) specifiers; // Override FoldableContainer member
protected:
// Auxiliary member functions (for MappableContainer)
// type MapPreOrder(arguments) specifiers; // Accessory function executing from one point of the list onwards
// type MapPostOrder(arguments) specifiers; // Accessory function executing from one point of the list onwards
/* ************************************************************************ */
// Auxiliary member functions (for FoldableContainer)
// type FoldPreOrder(arguments) specifiers; // Accessory function executing from one point of the list onwards
// type FoldPostOrder(arguments) specifiers; // Accessory function executing from one point of the list onwards
};
/* ************************************************************************** */
}
#include "list.cpp"
#endif

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#include "zlasdtest/test.hpp"
#include "zmytest/test.hpp"
/* ************************************************************************** */
#include <iostream>
/* ************************************************************************** */
int main() {
std::cout << "Lasd Libraries 2020" << std::endl;
lasdtest(); // To call in the menu of your library test!
return 0;
}

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namespace lasd {
/* ************************************************************************** */
// ...
/* ************************************************************************** */
}

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#ifndef VECTOR_HPP
#define VECTOR_HPP
/* ************************************************************************** */
#include "../container/container.hpp"
/* ************************************************************************** */
namespace lasd {
/* ************************************************************************** */
template <typename Data>
class Vector { // Must extend LinearContainer<Data>, MappableContainer<Data>, and FoldableContainer<Data>
private:
// ...
protected:
// using LinearContainer<Data>::???;
// ...
public:
// Default constructor
// Vector() specifiers;
/* ************************************************************************ */
// Specific constructors
// Vector(argument) specifiers; // A vector with a given initial dimension
// Vector(argument) specifiers; // A vector obtained from a LinearContainer
/* ************************************************************************ */
// Copy constructor
// Vector(argument) specifiers;
// Move constructor
// Vector(argument) specifiers;
/* ************************************************************************ */
// Destructor
// ~Vector() specifiers;
/* ************************************************************************ */
// Copy assignment
// type operator=(argument) specifiers;
// Move assignment
// type operator=(argument) specifiers;
/* ************************************************************************ */
// Comparison operators
// type operator==(argument) specifiers;
// type operator!=(argument) specifiers;
/* ************************************************************************ */
// Specific member functions
// type Resize(argument) specifiers; // Resize the vector to a given size
/* ************************************************************************ */
// Specific member functions (inherited from Container)
// type Clear() specifiers; // Override Container member
/* ************************************************************************ */
// Specific member functions (inherited from LinearContainer)
// type Front() specifiers; // Override LinearContainer member (must throw std::length_error when empty)
// type Back() specifiers; // Override LinearContainer member (must throw std::length_error when empty)
// type operator[](argument) specifiers; // Override LinearContainer member (must throw std::out_of_range when out of range)
/* ************************************************************************ */
// Specific member functions (inherited from MappableContainer)
// using typename MappableContainer<Data>::MapFunctor;
// type MapPreOrder(arguments) specifiers; // Override MappableContainer member
// type MapPostOrder(arguments) specifiers; // Override MappableContainer member
/* ************************************************************************ */
// Specific member functions (inherited from FoldableContainer)
// using typename FoldableContainer<Data>::FoldFunctor;
// type FoldPreOrder(arguments) specifiers; // Override FoldableContainer member
// type FoldPostOrder(arguments) specifiers; // Override FoldableContainer member
};
/* ************************************************************************** */
}
#include "vector.cpp"
#endif

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#include <iostream>
/* ************************************************************************** */
#include "../../container/container.hpp"
/* ************************************************************************** */
// Container member functions!
void Empty(uint& testnum, uint& testerr, const lasd::Container& con, bool chk) {
bool tst;
testnum++;
std::cout << " " << testnum << " The container is " << ((tst = con.Empty()) ? "" : "not ") << "empty: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
testerr += (1 - (uint) tst);
}
void Size(uint& testnum, uint& testerr, const lasd::Container& con, bool chk, ulong siz) {
bool tst;
testnum++;
std::cout << " " << testnum << " The container has size " << con.Size() << ": ";
std::cout << ((tst = ((con.Size() == siz) == chk)) ? "Correct" : "Error") << "!" << std::endl;
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
// Auxiliary functions for MappableContainer!
void MapStringAppend(std::string& dat, void* par) {
dat.append(*((std::string*) par));
}
/* ************************************************************************** */
// Auxiliary functions for FoldableContainer!
void FoldParity(const int& dat, const void* _, void* acc) {
*((int*) acc) += dat;
*((int*) acc) %= 2;
}
void FoldStringConcatenate(const std::string& dat, const void* _, void* acc) {
((std::string*) acc)->append(dat);
}
/* ************************************************************************** */

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#ifndef CONTAINERTEST_HPP
#define CONTAINERTEST_HPP
#include "../../container/container.hpp"
/* ************************************************************************** */
// Container member functions!
void Empty(uint&, uint&, const lasd::Container&, bool);
void Size(uint&, uint&, const lasd::Container&, bool, ulong);
/* ************************************************************************** */
// LinearContainer member functions!
template <typename Data>
void GetFront(uint& testnum, uint& testerr, const lasd::LinearContainer<Data>& con, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The front of the linear container is \"" << con.Front() << "\": ";
std::cout << ((tst = ((con.Front() == val) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void SetFront(uint& testnum, uint& testerr, const lasd::LinearContainer<Data>& con, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Setting the front of the linear container to \"" << val << "\": ";
con.Front() = val;
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void GetBack(uint& testnum, uint& testerr, const lasd::LinearContainer<Data>& con, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The back of the linear container is \"" << con.Back() << "\": ";
std::cout << ((tst = ((con.Back() == val) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void SetBack(uint& testnum, uint& testerr, const lasd::LinearContainer<Data>& con, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Setting the back of the linear container to \"" << val << "\": ";
con.Back() = val;
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void SetAt(uint& testnum, uint& testerr, lasd::LinearContainer<Data>& con, bool chk, const ulong& ind, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Set of the linear container at index \"" << ind << "\" with value \"" << val << "\": ";
con[ind] = val;
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::out_of_range exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void GetAt(uint& testnum, uint& testerr, lasd::LinearContainer<Data>& con, bool chk, const ulong& ind, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Get of the linear container at index \"" << ind << "\" with value \"" << con[ind] << "\": ";
std::cout << ((tst = ((con[ind] == val) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::out_of_range exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
tst = true;
std::cout << std::endl << "Wrong std::exception: " << exc.what() << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
// TestableContainer member functions!
template <typename Data>
void Exists(uint& testnum, uint& testerr, const lasd::TestableContainer<Data>& con, bool chk, const Data& val) {
bool tst;
testnum++;
std::cout << " " << testnum << " Data \"" << val << "\" " << ((tst = con.Exists(val)) ? "does" : "does not") << " exist: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
// MappableContainer member functions!
template <typename Data, typename Parameter>
void MapPreOrder(uint& testnum, uint& testerr, lasd::MappableContainer<Data>& con, bool chk, typename lasd::MappableContainer<Data>::MapFunctor fun, const Parameter& inipar) {
bool tst = true;
testnum++;
Parameter par = {inipar};
try {
std::cout << " " << testnum << " Executing map in pre order - ";
con.MapPreOrder(fun, &par);
std::cout << ": " << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data, typename Parameter>
void MapPostOrder(uint& testnum, uint& testerr, lasd::MappableContainer<Data>& con, bool chk, typename lasd::MappableContainer<Data>::MapFunctor fun, const Parameter& inipar) {
bool tst = true;
testnum++;
Parameter par = {inipar};
try {
std::cout << " " << testnum << " Executing map in post order - ";
con.MapPostOrder(fun, &par);
std::cout << ": " << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void MapPrint(const Data& dat, void* _) {
std::cout << dat << " ";
}
template <typename Data>
void MapIncrement(Data& dat, void* _) {
dat++;
}
template <typename Data>
void MapIncrementNPrint(Data& dat, void* _) {
std::cout << dat++ << "->" << dat << "; ";
}
template <typename Data>
void MapDouble(Data& dat, void* _) {
dat *= 2;
}
template <typename Data>
void MapDoubleNPrint(Data& dat, void* _) {
std::cout << dat << "->" << (dat *= 2) << "; ";
}
template <typename Data>
void MapInvert(Data& dat, void* _) {
dat = -dat;
}
template <typename Data>
void MapInvertNPrint(Data& dat, void* _) {
std::cout << dat << "->" << (dat = -dat) << "; ";
}
template <typename Data>
void MapParityInvert(Data& dat, void* _) {
if (dat % 2 != 0) { dat = -dat; }
}
void MapStringAppend(std::string&, void*);
/* ************************************************************************** */
// FoldableContainer member functions!
template <typename Data, typename Parameter, typename Value>
void FoldPreOrder(uint& testnum, uint& testerr, const lasd::FoldableContainer<Data>& con, bool chk, typename lasd::FoldableContainer<Data>::FoldFunctor fun, const Parameter& inipar, const Value& inival, const Value& finval) {
bool tst;
testnum++;
Parameter par = {inipar};
Value val = inival;
try {
std::cout << " " << testnum << " Executing fold in pre order - ";
con.FoldPreOrder(fun, &par, &val);
std::cout << "obtained value is \"" << val << "\": ";
std::cout << ((tst = ((val == finval) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data, typename Parameter, typename Value>
void FoldPostOrder(uint& testnum, uint& testerr, const lasd::FoldableContainer<Data>& con, bool chk, typename lasd::FoldableContainer<Data>::FoldFunctor fun, const Parameter& inipar, const Value& inival, const Value& finval) {
bool tst;
testnum++;
Parameter par = {inipar};
Value val = inival;
try {
std::cout << " " << testnum << " Executing fold in post order - ";
con.FoldPostOrder(fun, &par, &val);
std::cout << "obtained value is \"" << val << "\": ";
std::cout << ((tst = ((val == finval) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void FoldAdd(const Data& dat, const void* _, void* acc) {
*((Data*) acc) += dat;
}
template <typename Data>
void FoldMultiply(const Data& dat, const void* _, void* acc) {
*((Data*) acc) *= dat;
}
void FoldParity(const int&, const void*, void*);
void FoldStringConcatenate(const std::string&, const void*, void*);
/* ************************************************************************** */
// BreadthMappableContainer member functions!
template <typename Data, typename Parameter>
void MapBreadth(uint& testnum, uint& testerr, lasd::BreadthMappableContainer<Data>& con, bool chk, typename lasd::BreadthMappableContainer<Data>::MapFunctor fun, const Parameter& inipar) {
bool tst = true;
testnum++;
Parameter par = {inipar};
try {
std::cout << " " << testnum << " Executing map in pre order - ";
con.MapBreadth(fun, &par);
std::cout << ": " << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
// BreadthFoldableContainer member functions!
template <typename Data, typename Parameter, typename Value>
void FoldBreadth(uint& testnum, uint& testerr, const lasd::BreadthFoldableContainer<Data>& con, bool chk, typename lasd::BreadthFoldableContainer<Data>::FoldFunctor fun, const Parameter& inipar, const Value& inival, const Value& finval) {
bool tst;
testnum++;
Parameter par = {inipar};
Value val = inival;
try {
std::cout << " " << testnum << " Executing fold in post order - ";
con.FoldBreadth(fun, &par, &val);
std::cout << "obtained value is \"" << val << "\": ";
std::cout << ((tst = ((val == finval) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
#endif

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void testFullExercise1() {
}

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#include <iostream>
/* ************************************************************************** */
#include "../container/container.hpp"
#include "../vector/vector.hpp"
#include "../list/list.hpp"
/* ************************************************************************** */
using namespace std;
/* ************************************************************************** */
void stestVectorInt(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector<int> Test:" << endl;
try {
{
lasd::Vector<int> vec;
Empty(loctestnum, loctesterr, vec, true);
GetFront(loctestnum, loctesterr, vec, false, 0);
GetBack(loctestnum, loctesterr, vec, false, 0);
SetAt(loctestnum, loctesterr, vec, false, 1, 0);
GetAt(loctestnum, loctesterr, vec, false, 2, 0);
Exists(loctestnum, loctesterr, vec, false, 0);
MapPreOrder(loctestnum, loctesterr, vec, true, &MapPrint<int>, 0);
MapPostOrder(loctestnum, loctesterr, vec, true, &MapPrint<int>, 0);
FoldPreOrder(loctestnum, loctesterr, vec, true, &FoldAdd<int>, 0, 0, 0);
FoldPostOrder(loctestnum, loctesterr, vec, true, &FoldAdd<int>, 0, 0, 0);
}
{
lasd::Vector<int> vec(3);
Empty(loctestnum, loctesterr, vec, false);
Size(loctestnum, loctesterr, vec, true, 3);
SetAt(loctestnum, loctesterr, vec, true, 0, 4);
SetAt(loctestnum, loctesterr, vec, true, 1, 3);
SetAt(loctestnum, loctesterr, vec, true, 2, 1);
GetFront(loctestnum, loctesterr, vec, true, 4);
GetBack(loctestnum, loctesterr, vec, true, 1);
SetFront(loctestnum, loctesterr, vec, true, 5);
SetBack(loctestnum, loctesterr, vec, true, 4);
Exists(loctestnum, loctesterr, vec, true, 4);
MapPreOrder(loctestnum, loctesterr, vec, true, &MapPrint<int>, 0);
MapPostOrder(loctestnum, loctesterr, vec, true, &MapPrint<int>, 0);
FoldPreOrder(loctestnum, loctesterr, vec, true, &FoldAdd<int>, 0, 0, 12);
FoldPostOrder(loctestnum, loctesterr, vec, true, &FoldMultiply<int>, 0, 1, 60);
vec.Resize(2);
FoldPostOrder(loctestnum, loctesterr, vec, true, &FoldMultiply<int>, 0, 1, 15);
}
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector<int> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVectorDouble(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector<double> Test:" << endl;
try {
lasd::Vector<double> vec(3);
Empty(loctestnum, loctesterr, vec, false);
Size(loctestnum, loctesterr, vec, true, 3);
SetAt(loctestnum, loctesterr, vec, true, 0, 5.5);
SetAt(loctestnum, loctesterr, vec, true, 1, 3.3);
SetAt(loctestnum, loctesterr, vec, true, 2, 1.1);
GetFront(loctestnum, loctesterr, vec, true, 5.5);
GetBack(loctestnum, loctesterr, vec, true, 1.1);
Exists(loctestnum, loctesterr, vec, true, 3.3);
FoldPreOrder(loctestnum, loctesterr, vec, true, &FoldAdd<double>, 0.0, 0.0, 9.9);
FoldPostOrder(loctestnum, loctesterr, vec, true, &FoldMultiply<double>, 0.0, 1.0, 19.965);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector<double> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVectorString(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector<string> Test:" << endl;
try {
lasd::Vector<string> vec(2);
Empty(loctestnum, loctesterr, vec, false);
Size(loctestnum, loctesterr, vec, true, 2);
SetAt(loctestnum, loctesterr, vec, true, 0, string("A"));
SetAt(loctestnum, loctesterr, vec, true, 1, string("B"));
GetFront(loctestnum, loctesterr, vec, true, string("A"));
GetBack(loctestnum, loctesterr, vec, true, string("B"));
Exists(loctestnum, loctesterr, vec, true, string("A"));
MapPreOrder(loctestnum, loctesterr, vec, true, &MapStringAppend, string(" "));
MapPreOrder(loctestnum, loctesterr, vec, true, &MapPrint<string>, 0);
FoldPreOrder(loctestnum, loctesterr, vec, true, &FoldStringConcatenate, string(""), string("X"), string("XA B "));
FoldPostOrder(loctestnum, loctesterr, vec, true, &FoldStringConcatenate, string(""), string("X"), string("XB A "));
Exists(loctestnum, loctesterr, vec, false, string("A"));
lasd::Vector<string> copvec(vec);
EqualVector(loctestnum, loctesterr, vec, copvec, true);
MapPreOrder(loctestnum, loctesterr, vec, true, &MapStringAppend, string("!"));
NonEqualVector(loctestnum, loctesterr, vec, copvec, true);
copvec = std::move(vec);
FoldPreOrder(loctestnum, loctesterr, copvec, true, &FoldStringConcatenate, string(""), string("?"), string("?A !B !"));
lasd::Vector<string> movvec(std::move(vec));
FoldPreOrder(loctestnum, loctesterr, movvec, true, &FoldStringConcatenate, string(""), string("?"), string("?A B "));
SetAt(loctestnum, loctesterr, vec, false, 1, string(""));
vec.Resize(1);
SetAt(loctestnum, loctesterr, vec, true, 0, string("X"));
movvec.Clear();
Empty(loctestnum, loctesterr, movvec, true);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector<string> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVector(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
stestVectorInt(loctestnum, loctesterr);
stestVectorDouble(loctestnum, loctesterr);
stestVectorString(loctestnum, loctesterr);
testnum += loctestnum;
testerr += loctesterr;
cout << endl << "Exercise 1 - Vector (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
}
/* ************************************************************************** */
void stestListInt(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of List<int> Test:" << endl;
try {
lasd::List<int> lst;
Empty(loctestnum, loctesterr, lst, true);
Size(loctestnum, loctesterr, lst, true, 0);
GetFront(loctestnum, loctesterr, lst, false, 0);
GetBack(loctestnum, loctesterr, lst, false, 0);
Exists(loctestnum, loctesterr, lst, false, 0);
MapPreOrder(loctestnum, loctesterr, lst, true, &MapPrint<int>, 0);
MapPostOrder(loctestnum, loctesterr, lst, true, &MapPrint<int>, 0);
FoldPreOrder(loctestnum, loctesterr, lst, true, &FoldAdd<int>, 0, 0, 0);
FoldPostOrder(loctestnum, loctesterr, lst, true, &FoldAdd<int>, 0, 0, 0);
RemoveFromFront(loctestnum, loctesterr, lst, false);
FrontNRemove(loctestnum, loctesterr, lst, false, 0);
InsertAtBack(loctestnum, loctesterr, lst, true, 4);
InsertAtFront(loctestnum, loctesterr, lst, true, 5);
InsertAtFront(loctestnum, loctesterr, lst, true, 9);
InsertAtBack(loctestnum, loctesterr, lst, true, 2);
InsertAtFront(loctestnum, loctesterr, lst, true, 1);
GetFront(loctestnum, loctesterr, lst, true, 1);
GetBack(loctestnum, loctesterr, lst, true, 2);
SetFront(loctestnum, loctesterr, lst, true, 2);
SetBack(loctestnum, loctesterr, lst, true, 6);
GetAt(loctestnum, loctesterr, lst, true, 3, 4);
SetAt(loctestnum, loctesterr, lst, true, 3, 3);
Exists(loctestnum, loctesterr, lst, false, 4);
MapPreOrder(loctestnum, loctesterr, lst, true, &MapPrint<int>, 0);
MapPostOrder(loctestnum, loctesterr, lst, true, &MapPrint<int>, 0);
FoldPreOrder(loctestnum, loctesterr, lst, true, &FoldAdd<int>, 0, 0, 25);
FoldPostOrder(loctestnum, loctesterr, lst, true, &FoldMultiply<int>, 0, 1, 1620);
RemoveFromFront(loctestnum, loctesterr, lst, true);
FrontNRemove(loctestnum, loctesterr, lst, true, 9);
FoldPostOrder(loctestnum, loctesterr, lst, true, &FoldMultiply<int>, 0, 1, 90);
lasd::List<int> coplst(lst);
EqualList(loctestnum, loctesterr, lst, coplst, true);
MapPreOrder(loctestnum, loctesterr, lst, true, &MapIncrement<int>, 0);
NonEqualList(loctestnum, loctesterr, lst, coplst, true);
InsertAtFront(loctestnum, loctesterr, lst, true, 0);
InsertAtBack(loctestnum, loctesterr, lst, true, 0);
NonEqualList(loctestnum, loctesterr, lst, coplst, true);
coplst = lst;
EqualList(loctestnum, loctesterr, lst, coplst, true);
RemoveFromFront(loctestnum, loctesterr, coplst, true);
FrontNRemove(loctestnum, loctesterr, coplst, true, 6);
coplst = std::move(lst);
FoldPreOrder(loctestnum, loctesterr, lst, true, &FoldAdd<int>, 0, 0, 11);
FoldPreOrder(loctestnum, loctesterr, coplst, true, &FoldAdd<int>, 0, 0, 17);
lasd::List<int> movlst(std::move(lst));
MapPreOrder(loctestnum, loctesterr, movlst, true, &MapIncrement<int>, 0);
FoldPreOrder(loctestnum, loctesterr, movlst, true, &FoldAdd<int>, 0, 0, 14);
movlst.Clear();
Empty(loctestnum, loctesterr, movlst, true);
Size(loctestnum, loctesterr, movlst, true, 0);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of List<int> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestListDouble(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of List<double> Test:" << endl;
try {
lasd::List<double> lst;
Empty(loctestnum, loctesterr, lst, true);
Size(loctestnum, loctesterr, lst, true, 0);
InsertAtBack(loctestnum, loctesterr, lst, true, -2.5);
InsertAtBack(loctestnum, loctesterr, lst, true, 2.5);
lst.Clear();
InsertAtBack(loctestnum, loctesterr, lst, true, 0.5);
InsertAtFront(loctestnum, loctesterr, lst, true, 3.3);
InsertAtFront(loctestnum, loctesterr, lst, true, 5.5);
InsertAtBack(loctestnum, loctesterr, lst, true, 1.1);
GetFront(loctestnum, loctesterr, lst, true, 5.5);
GetBack(loctestnum, loctesterr, lst, true, 1.1);
Exists(loctestnum, loctesterr, lst, false, 0.0);
MapPreOrder(loctestnum, loctesterr, lst, true, &MapPrint<double>, 0);
MapPostOrder(loctestnum, loctesterr, lst, true, &MapPrint<double>, 0);
FoldPreOrder(loctestnum, loctesterr, lst, true, &FoldAdd<double>, 0.0, 0.0, 10.4);
FoldPostOrder(loctestnum, loctesterr, lst, true, &FoldMultiply<double>, 0.0, 1.0, 9.9825);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of List<double> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestListString(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of List<string> Test:" << endl;
try {
lasd::List<string> lst;
Empty(loctestnum, loctesterr, lst, true);
Size(loctestnum, loctesterr, lst, true, 0);
InsertAtFront(loctestnum, loctesterr, lst, true, string("A"));
InsertAtBack(loctestnum, loctesterr, lst, true, string("B"));
GetFront(loctestnum, loctesterr, lst, true, string("A"));
GetBack(loctestnum, loctesterr, lst, true, string("B"));
Exists(loctestnum, loctesterr, lst, true, string("B"));
MapPreOrder(loctestnum, loctesterr, lst, true, &MapStringAppend, string(" "));
MapPreOrder(loctestnum, loctesterr, lst, true, &MapPrint<string>, 0);
FoldPreOrder(loctestnum, loctesterr, lst, true, &FoldStringConcatenate, string(""), string("X"), string("XA B "));
FoldPostOrder(loctestnum, loctesterr, lst, true, &FoldStringConcatenate, string(""), string("X"), string("XB A "));
Exists(loctestnum, loctesterr, lst, false, string("B"));
lasd::List<string> coplst(lst);
EqualList(loctestnum, loctesterr, lst, coplst, true);
RemoveFromFront(loctestnum, loctesterr, coplst, true);
NonEqualList(loctestnum, loctesterr, lst, coplst, true);
lst = coplst;
EqualList(loctestnum, loctesterr, lst, coplst, true);
InsertAtBack(loctestnum, loctesterr, lst, true, string("A"));
InsertAtFront(loctestnum, loctesterr, lst, true, string("C"));
NonEqualList(loctestnum, loctesterr, lst, coplst, true);
coplst = std::move(lst);
FoldPreOrder(loctestnum, loctesterr, coplst, true, &FoldStringConcatenate, string(""), string("?"), string("?CB A"));
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of List<string> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestList(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
stestListInt(loctestnum, loctesterr);
stestListDouble(loctestnum, loctesterr);
stestListString(loctestnum, loctesterr);
testnum += loctestnum;
testerr += loctesterr;
cout << endl << "Exercise 1 - List (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
}
/* ************************************************************************** */
void stestVectorListInt(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector/List<int> Test:" << endl;
try {
lasd::Vector<int> vec(3);
SetAt(loctestnum, loctesterr, vec, true, 0, -1);
SetAt(loctestnum, loctesterr, vec, true, 1, 0);
SetAt(loctestnum, loctesterr, vec, true, 2, 1);
lasd::List<int> lst;
InsertAtFront(loctestnum, loctesterr, lst, true, 1);
InsertAtFront(loctestnum, loctesterr, lst, true, 0);
InsertAtFront(loctestnum, loctesterr, lst, true, -1);
lasd::Vector<int> copvec(lst);
EqualVector(loctestnum, loctesterr, vec, copvec, true);
lasd::Vector<int> copvecx(vec);
EqualVector(loctestnum, loctesterr, copvecx, copvec, true);
lasd::List<int> coplst(vec);
EqualList(loctestnum, loctesterr, lst, coplst, true);
lasd::List<int> coplstx(lst);
EqualList(loctestnum, loctesterr, coplstx, coplst, true);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector/List<int> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVectorListDouble(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector/List<double> Test:" << endl;
try {
lasd::Vector<double> vec(3);
SetAt(loctestnum, loctesterr, vec, true, 0, -0.5);
SetAt(loctestnum, loctesterr, vec, true, 1, 0.0);
SetAt(loctestnum, loctesterr, vec, true, 2, 0.5);
lasd::List<double> lst;
InsertAtBack(loctestnum, loctesterr, lst, true, -0.5);
InsertAtBack(loctestnum, loctesterr, lst, true, 0.0);
InsertAtBack(loctestnum, loctesterr, lst, true, 0.5);
lasd::Vector<double> copvec(lst);
EqualVector(loctestnum, loctesterr, vec, copvec, true);
lasd::Vector<double> copvecx(vec);
EqualVector(loctestnum, loctesterr, copvecx, copvec, true);
lasd::List<double> coplst(vec);
EqualList(loctestnum, loctesterr, lst, coplst, true);
lasd::List<double> coplstx(lst);
EqualList(loctestnum, loctesterr, coplstx, coplst, true);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector/List<double> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVectorListString(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
cout << endl << "Begin of Vector/List<string> Test:" << endl;
try {
lasd::Vector<string> vec(3);
SetAt(loctestnum, loctesterr, vec, true, 0, string("A"));
SetAt(loctestnum, loctesterr, vec, true, 1, string("B"));
SetAt(loctestnum, loctesterr, vec, true, 2, string("C"));
lasd::List<string> lst;
InsertAtFront(loctestnum, loctesterr, lst, true, string("B"));
InsertAtBack(loctestnum, loctesterr, lst, true, string("C"));
InsertAtFront(loctestnum, loctesterr, lst, true, string("A"));
lasd::Vector<string> copvec(lst);
EqualVector(loctestnum, loctesterr, vec, copvec, true);
lasd::Vector<string> copvecx(vec);
EqualVector(loctestnum, loctesterr, copvecx, copvec, true);
lasd::List<string> coplst(vec);
EqualList(loctestnum, loctesterr, lst, coplst, true);
lasd::List<string> coplstx(lst);
EqualList(loctestnum, loctesterr, coplstx, coplst, true);
} catch(...) {
loctestnum++; loctesterr++;
cout << endl << "Unmanaged error! " << endl;
}
cout << "End of Vector/List<string> Test! (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
testnum += loctestnum;
testerr += loctesterr;
}
void stestVectorList(uint& testnum, uint& testerr) {
uint loctestnum = 0, loctesterr = 0;
stestVectorListInt(loctestnum, loctesterr);
stestVectorListDouble(loctestnum, loctesterr);
stestVectorListString(loctestnum, loctesterr);
testnum += loctestnum;
testerr += loctesterr;
cout << endl << "Exercise 1 - Vector/List (Errors/Tests: " << loctesterr << "/" << loctestnum << ")" << endl;
}
/* ************************************************************************** */
void testSimpleExercise1() {
uint testnum = 0, testerr = 0;
stestVector(testnum, testerr);
stestList(testnum, testerr);
stestVectorList(testnum, testerr);
cout << endl << "Exercise 1 (Simple Test) (Errors/Tests: " << testerr << "/" << testnum << ")" << endl;
}

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#ifndef EX1TEST_HPP
#define EX1TEST_HPP
/* ************************************************************************** */
void testSimpleExercise1();
void testFullExercise1();
/* ************************************************************************** */
#endif

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#ifndef LISTTEST_HPP
#define LISTTEST_HPP
#include "../../list/list.hpp"
/* ************************************************************************** */
template <typename Data>
void InsertAtFront(uint& testnum, uint& testerr, lasd::List<Data>& lst, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Insert at the front of the list the value \"" << val << "\": ";
lst.InsertAtFront(val);
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void RemoveFromFront(uint& testnum, uint& testerr, lasd::List<Data>& lst, bool chk) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Remove from the list of \"" << lst.Front() << "\": ";
lst.RemoveFromFront();
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void FrontNRemove(uint& testnum, uint& testerr, lasd::List<Data>& lst, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " FrontNRemove from the list of \"" << lst.Front() << "\": ";
std::cout << ((tst = ((lst.FrontNRemove() == val) == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::length_error exc) {
std::cout << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void InsertAtBack(uint& testnum, uint& testerr, lasd::List<Data>& lst, bool chk, const Data& val) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " Insert at the back of the list the value \"" << val << "\": ";
lst.InsertAtBack(val);
std::cout << ((tst = chk) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void EqualList(uint& testnum, uint& testerr, const lasd::List<Data>& lst1, const lasd::List<Data>& lst2, bool chk) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The two lists are " << ((tst = (lst1 == lst2)) ? "" : "not ") << "equal: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void NonEqualList(uint& testnum, uint& testerr, const lasd::List<Data>& lst1, const lasd::List<Data>& lst2, bool chk) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The two lists are " << ((tst = (lst1 != lst2)) ? "not " : "") << "equal: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
#endif

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@ -0,0 +1,17 @@
#include "./exercise1/test.hpp"
/* ************************************************************************** */
#include <iostream>
using namespace std;
/* ************************************************************************** */
void lasdtest() {
cout << endl << "~*~#~*~ Welcome to the LASD Test Suite ~*~#~*~ " << endl;
testSimpleExercise1();
testFullExercise1();
cout << endl << "Goodbye!" << endl;
}

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@ -0,0 +1,11 @@
#ifndef LASDTEST_HPP
#define LASDTEST_HPP
/* ************************************************************************** */
void lasdtest();
/* ************************************************************************** */
#endif

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@ -0,0 +1,37 @@
#ifndef VECTORTEST_HPP
#define VECTORTEST_HPP
#include "../../vector/vector.hpp"
/* ************************************************************************** */
template <typename Data>
void EqualVector(uint& testnum, uint& testerr, const lasd::Vector<Data>& vec1, const lasd::Vector<Data>& vec2, bool chk) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The two vectors are " << ((tst = (vec1 == vec2)) ? "" : "not ") << "equal: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
template <typename Data>
void NonEqualVector(uint& testnum, uint& testerr, const lasd::Vector<Data>& vec1, const lasd::Vector<Data>& vec2, bool chk) {
bool tst;
testnum++;
try {
std::cout << " " << testnum << " The two vectors are " << ((tst = (vec1 != vec2)) ? "not " : "") << "equal: ";
std::cout << ((tst = (tst == chk)) ? "Correct" : "Error") << "!" << std::endl;
} catch(std::exception exc) {
std::cout << "\"" << exc.what() << "\": " << ((tst = !chk) ? "Correct" : "Error") << "!" << std::endl;
}
testerr += (1 - (uint) tst);
}
/* ************************************************************************** */
#endif

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@ -0,0 +1,2 @@
// ...

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@ -0,0 +1,11 @@
#ifndef MYTEST_HPP
#define MYTEST_HPP
/* ************************************************************************** */
// ...
/* ************************************************************************** */
#endif

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@ -3,11 +3,11 @@
using namespace std;
// template <typename Data>
// class A;
//
// template <typename Data>
// ostream& operator<< (ostream& outstr, const A<Data>& a);
template <typename Data>
class A;
template <typename Data>
ostream& operator<< (ostream& outstr, const A<Data>& a);
template <typename Data>
class A {
@ -53,10 +53,10 @@ public:
return false;
}
template <typename DataX>
friend ostream& operator<<(ostream&, const A<DataX>&);
//template <typename DataX>
//friend ostream& operator<<(ostream&, const A<DataX>&);
// friend ostream& operator<< <>(ostream&, const A<Data>&);
friend ostream& operator<< <>(ostream&, const A<Data>&);
};

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@ -0,0 +1,7 @@
#include"vector.hpp"
int main(){
Vector<int> v(5);
//v[1] = 3;
cout<<v<<endl;
return 0;
}

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@ -0,0 +1,22 @@
template <typename Pippo>
Vector<Pippo>::Vector(uint size1){
ptr = new Pippo[size1]();
size = size1;
cout << "A new object is created" << endl;
}
template <typename Pippo>
Vector<Pippo>::~Vector(){
delete[] ptr;
}
// template <typename Pippo>
// Vector<Pippo>::Pippo& operator[](const uint idx) {
// return ptr[idx];
// }
template <typename Pippo>
ostream& operator<< (ostream& outstr, const Vector<Pippo>& a) {
for(int i=0;i<a.size;i++) outstr<<a.ptr[i];
return outstr;
}

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@ -0,0 +1,21 @@
#include <iostream>
using namespace std;
template <typename Pippo>
class Vector;
template <typename Pippo>
ostream& operator<< (ostream& outstr, const Vector<Pippo>& a);
template <typename Pippo> // Lo chiamo Pippo per far capire che il nome è irrilevante
class Vector{
public:
Pippo* ptr = nullptr;
uint size;
Vector(uint);
~Vector();
friend ostream& operator<< <>(ostream& outstr, const Vector<Pippo>&);
};
#include"vector.cpp"

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@ -0,0 +1,88 @@
#include <iostream>
using namespace std;
template <typename Pippo>
class A;
template <typename Pippo>
ostream& operator<< (ostream& outstr, const A<Pippo>& a);
template <typename Pippo> // Lo chiamo Pippo per far capire che il nome è irrilevante
class A{
public:
Pippo* ptr = nullptr;
uint size;
A(uint size1){
ptr = new Pippo[size1]();
size = size1;
cout << "A new object is created" << endl;
}
~A(){
delete[] ptr;
}
Pippo& operator[](const uint idx) {
return ptr[idx];
}
friend ostream& operator<< <>(ostream& outstr, const A<Pippo>&);
/*
template <typename DataX>
friend ostream& operator<<(ostream&, const A<DataX>&);
*/
};
template <typename Pippo>
ostream& operator<< (ostream& outstr, const A<Pippo>& a) {
for(int i=0;i<a.size;i++) outstr<<a.ptr[i];
return outstr;
}
/*
template <typename DataX>
ostream& operator<< (ostream& outstr, const A<DataX>& a) {
for(int i=0;i<a.size;i++) outstr<<a.ptr[i];
return outstr;
}
*/
int main(){
A<char> str(50);
A<int> v(10);
str[1] = 'k';
v[2] = 3;
cout<<str[1]<<endl;
cout<<v[2]<<endl;
cout<<v;
return 0;
}
/*
NB: per fare l'override della funzione operator<< (e equiv. di operator>>)
ci sono due metodi:
1. Usare quello che non è commentato, ovvero questo programma. (consigliato)
2.
a. Cancellare/commentare righe 4-8
4 template <typename Pippo>
5 class A;
7 template <typename Pippo>
8 ostream& operator<< (ostream& outstr, const A<Pippo>& a);
b. Cancallare/commentare 35-39
35 template <typename Pippo>
36 ostream& operator<< (ostream& outstr, const A<Pippo>& a) {
37 for(int i=0;i<a.size;i++) outstr<<a.ptr[i];
38 return outstr;
39 }
c. e decommentare ciò che è commentato.
Perché? Non lo so.
*/