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fizzbuzz/linked-list-and-binary-sear.../passoff/test_ll.cpp

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#include <string>
#include <iostream>
#include <set>
#include <list>
#include <algorithm>
#include <vector>
#include <time.h>
#include "tut/tut.hpp"
#include "LinkedList.h"
#define NULL_NODE (static_cast<LLNode*>(NULL))
using namespace std;
bool gDoSmall = true;
extern std::string gCurrentTest;
string generateKey();
void CompareLists(const LinkedList & aList, list<string> & master);
struct LinkedListTest
{
public:
LinkedListTest() : LLTestSize((gDoSmall) ? 2827 : 8239)
{
for(int i = 0; i < LLTestSize; ++i)
{
string key = generateKey();
if(chosen.find(key) != chosen.end())
{
--i;
}
else
{
master.push_back(key);
chosen.insert(key);
}
}
}
void initList (LinkedList& aList)
{
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end(); ++iter)
{
LLNode* curNode = aList.Insert(*iter, NULL);
tut::ensure ("Insert() - The returned node is NULL", curNode != NULL_NODE);
tut::ensure_equals ("Insert() - The returned node had the wrong value", curNode->GetValue(), *iter);
}
}
void sortedInitList (LinkedList& aList)
{
aList.Clear();
int count = 0;
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end(); ++iter)
{
LLNode* curNode = aList.GetLast();
while(curNode != NULL && 0 < curNode->GetValue().compare(*iter))
{
curNode = curNode->GetPrevious();
}
aList.Insert(*iter, curNode);
tut::ensure_equals("Insert() - Size != number of elements inserted", aList.GetSize(), ++count);
}
}
string generateKey()
{
static const int kKeyLength = 9;
char key[kKeyLength];
for (int i = 0; i < kKeyLength; ++i)
key[i] = '\0';
int digit = '9'-'0'+1;
int upCase = 'Z'-'A'+digit+1;
int top = 'z'-'a'+upCase+1;
for(int i = 0; i < kKeyLength; ++i)
{
int val = rand()%top;
if(val < digit)
{
key[i] = val + '0';
}
else if(val < upCase)
{
key[i] = val - digit + 'A';
}
else
{
key[i] = val - upCase + 'a';
}
}
string result(key);
return result;
}
const int LLTestSize;
set<string> chosen;
list<string> master;
};
void CompareLists(const LinkedList & aList, list<string> & master){
const LLNode * curNode = aList.GetFirst();
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end() && curNode != NULL; iter++, curNode = curNode->GetNext())
{
tut::ensure_equals("GetValue() - The values are not the order which they should be", curNode->GetValue(), *iter);
}
tut::ensure_equals("GetNext() - The list is longer than it should be", curNode, NULL_NODE);
tut::ensure("GetNext() - The list is shorter than it should be", iter == master.end());
}
namespace tut
{
namespace
{
typedef tut::test_group<LinkedListTest> tGroup;
typedef tGroup::object tObject;
tGroup group("LinkedList");
}
template<>
template<>
void tObject::test<1> ()
{
set_test_name ("Default Constructor");
gCurrentTest = get_test_name();
LinkedList aList;
tut::ensure_equals("Default Constructor - List size != 0", aList.GetSize(), 0);
tut::ensure_equals("Default Constructor - first != NULL", aList.GetFirst(), NULL_NODE);
tut::ensure_equals("Default Constructor - last != NULL", aList.GetLast(), NULL_NODE);
}
template<>
template<>
void tObject::test<2> ()
{
set_test_name ("Clear");
gCurrentTest = get_test_name();
LinkedList aList;
aList.Clear();
aList.Insert("To Remove", NULL);
aList.Clear();
tut::ensure_equals("Clear() - size != 0", aList.GetSize(), 0);
tut::ensure_equals("Clear() - first != NULL", aList.GetFirst(), NULL_NODE);
tut::ensure_equals("Clear() - last != NULL", aList.GetLast(), NULL_NODE);
}
template<>
template<>
void tObject::test<3> ()
{
set_test_name ("Basic Insert Tests");
gCurrentTest = get_test_name();
LinkedList aList;
initList(aList);
master.reverse();
tut::ensure_equals("Insert() - List size != number of strings inserted", aList.GetSize(), static_cast<int>(master.size()));
tut::ensure("GetLast() - List was empty", aList.GetLast() != NULL);
tut::ensure_equals("GetLast() - Returned the wrong value", aList.GetLast()->GetValue(), master.back());
tut::ensure_equals("GetLast() - The returned node had a next", aList.GetLast()->GetNext(), NULL_NODE);
tut::ensure("GetFirst() - List was empty", aList.GetFirst() != NULL);
tut::ensure_equals("GetFirst() - Returned the wrong value", aList.GetFirst()->GetValue(), master.front());
tut::ensure_equals("GetFirst() - The returned node had a next", aList.GetFirst()->GetPrevious(), NULL_NODE);
}
template<>
template<>
void tObject::test<4> ()
{
set_test_name ("Insert");
gCurrentTest = get_test_name();
master.reverse();
LinkedList aList;
aList.Clear();
int count = 0;
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end(); iter++)
{
LLNode* curNode = aList.GetLast();
while(curNode != NULL && curNode->GetValue().compare(*iter) > 0)
{
curNode = curNode->GetPrevious();
}
aList.Insert(*iter, curNode);
ensure_equals("Size != number of elements inserted", aList.GetSize(), ++count);
}
sortedInitList(aList);
list<string> sorted(master.begin(), master.end());
sorted.sort();
tut::ensure_equals("Insert() - Size != Number of strings inserted", aList.GetSize(), static_cast<int>(sorted.size()));
CompareLists(aList, sorted);
}
template<>
template<>
void tObject::test<5> ()
{
set_test_name ("Copy Constructor");
gCurrentTest = get_test_name();
LinkedList aList;
LinkedList emptyCopy(aList);
initList(aList);
master.reverse();
sortedInitList(aList);
list<string> sorted(master.begin(), master.end());
sorted.sort();
LinkedList fullCopyList(aList);
tut::ensure_equals("Copy Constructor - Size != size of original list", aList.GetSize(), fullCopyList.GetSize());
aList.Clear();
CompareLists(fullCopyList, sorted);
}
template<>
template<>
void tObject::test<6> ()
{
set_test_name ("Assignment Operator");
gCurrentTest = get_test_name();
LinkedList aList;
//Assign an empty to an empty
LinkedList emptyList;
emptyList = aList;
//Return type check
tut::ensure ("Assignment Operator: Testing return value", &emptyList == &(emptyList = aList));
//Assign full to an empty
initList(aList);
master.reverse();
sortedInitList(aList);
list<string> sorted(master.begin(), master.end());
sorted.sort();
LinkedList fullList;
fullList = aList;
tut::ensure_equals("Assignment Operator - Size != size of original list when going from empty to full", fullList.GetSize(), aList.GetSize());
aList.Clear();
CompareLists(fullList, sorted);
//Self assignment
fullList = fullList;
tut::ensure_equals("Assignment Operator - Size != size of original list on self assignment", fullList.GetSize(), sorted.size());
CompareLists(fullList, sorted);
//Assign full to empty
LinkedList& nowEmpty = fullList;
nowEmpty = aList;
tut::ensure_equals("Assignment Operator - Size != size of original list when going from full to empty", nowEmpty.GetSize(), aList.GetSize());
}
template<>
template<>
void tObject::test<7> ()
{
set_test_name ("IsEmpty");
gCurrentTest = get_test_name();
LinkedList aList;
initList(aList);
master.reverse();
sortedInitList(aList);
list<string> sorted(master.begin(), master.end());
sorted.sort();
LinkedList cList;
cList = aList;
tut::ensure_equals("Assignment Operator - Size != size of original list", cList.GetSize(), aList.GetSize());
aList.Clear();
CompareLists(cList, sorted);
tut::ensure_not("IsEmpty() - returned true when list was not empty", cList.IsEmpty());
tut::ensure("IsEmpty() - returned false when list was empty", aList.IsEmpty());
}
template<>
template<>
void tObject::test<8> ()
{
set_test_name ("Find");
gCurrentTest = get_test_name();
LinkedList aList;
initList(aList);
master.reverse();
list<string> sorted(master.begin(), master.end());
sorted.sort();
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end(); iter++){
LLNode* curNode = aList.Find(*iter, NULL);
tut::ensure("Find() - Find returned NULL when it shouldn't have", curNode != NULL);
tut::ensure_equals("Find() - Find returned the wrong value", curNode->GetValue(), *iter);
}//end for iter
LLNode* curNode = NULL;
curNode = aList.Find(master.back(), aList.GetLast());
tut::ensure_equals("Find() - Find is starting its search on the node given, not the node after the one given", curNode, NULL_NODE);
curNode = aList.GetFirst();
int attempt = -1;
while(curNode != NULL){
tut::ensure_equals("Find() - Find is returning a value when it should be returning NULL", aList.Find(curNode->GetValue(), curNode), NULL_NODE);
curNode = curNode->GetNext();
tut::ensure("GetNext() - Infinite loop hit", attempt++ <= LLTestSize);
}
iter = master.begin();
iter++;
curNode = aList.Find(*iter, NULL);
tut::ensure("Find() - Returned NULL when it should not have", curNode != NULL);
curNode = aList.Find(master.front(), curNode);
tut::ensure_equals("Find() - Did not return NULL when the item was in the list, but before the search point", curNode, NULL_NODE);
string key = generateKey();
while(chosen.find(key) != chosen.end()){
key = generateKey();
}
curNode = aList.Find(key, NULL);
tut::ensure_equals("Find() - Find is returning a value when the value is not in the list", curNode, NULL_NODE);
}
template<>
template<>
void tObject::test<9> ()
{
set_test_name ("Remove");
gCurrentTest = get_test_name();
LinkedList aList;
initList(aList);
master.reverse();
list<string> sorted(master.begin(), master.end());
sorted.sort();
for(int i = 0; i < LLTestSize/2; i++)
{
ensure_not("Internal Error", master.empty());
master.pop_back();
aList.Remove(aList.GetLast());
ensure_equals("GetSize() Did not return the correct size after a remove", aList.GetSize(), static_cast<int>(master.size()));
}
for(set<string>::iterator setIter = chosen.begin(); setIter != chosen.end(); ++setIter)
{
LLNode* curNode = aList.Find(*setIter, NULL);
list<string>::iterator iter = find(master.begin(), master.end(), *setIter);
ensure("Find() - Returned a value which was removed", iter != master.end() || curNode == NULL);
ensure("Find() - Returned NULL when the value was in the list", iter == master.end() || curNode != NULL);
ensure("Find() - Find returned the wrong value", curNode == NULL || curNode->GetValue() == *setIter);
}
master.sort();
list<string>::iterator iter;
for(iter = master.begin(); iter != master.end(); ++iter)
{
aList.Remove(aList.Find(*iter,0));
}
ensure_equals("Remove() - List did not return a size of 0 when the list was empty", aList.GetSize(), 0);
ensure("Remove() - List should be empty", aList.IsEmpty());
ensure_equals("Remove() - List should have no first node", aList.GetFirst(), NULL_NODE);
ensure_equals("Remove() - List should have no last node", aList.GetLast(), NULL_NODE);
}
}