//===- BinTreeTest.cpp ----------------------------------------------------===//
//
// The MCLinker Project
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "BinTreeTest.h"
#include "mcld/ADT/TypeTraits.h"
#include "mcld/MC/InputTree.h"
#include <string>
using namespace mcld;
using namespace mcldtest;
// Constructor can do set-up work for all test here.
BinTreeTest::BinTreeTest()
{
// create testee. modify it if need
m_pTestee = new BinaryTree<int>();
}
// Destructor can do clean-up work that doesn't throw exceptions here.
BinTreeTest::~BinTreeTest()
{
delete m_pTestee;
}
// SetUp() will be called immediately before each test.
void BinTreeTest::SetUp()
{
}
// TearDown() will be called immediately after each test.
void BinTreeTest::TearDown()
{
}
//==========================================================================//
// Testcases
//
/// General
TEST_F( BinTreeTest,Two_non_null_tree_merge)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<TreeIteratorBase::Rightward>(pos,0);
--pos;
m_pTestee->join<TreeIteratorBase::Rightward>(pos,1);
m_pTestee->join<TreeIteratorBase::Leftward>(pos,1);
--pos;
m_pTestee->join<TreeIteratorBase::Rightward>(pos,2);
m_pTestee->join<TreeIteratorBase::Leftward>(pos,2);
BinaryTree<int> *mergeTree = new BinaryTree<int>;
BinaryTree<int>::iterator pos2 = mergeTree->root();
mergeTree->join<TreeIteratorBase::Rightward>(pos2,1);
--pos2;
mergeTree->join<TreeIteratorBase::Rightward>(pos2,1);
mergeTree->join<TreeIteratorBase::Leftward>(pos2,1);
m_pTestee->merge<TreeIteratorBase::Rightward>(pos,*mergeTree);
delete mergeTree;
EXPECT_TRUE(m_pTestee->size()==8);
}
/// ---- TEST - 2 ----
TEST_F( BinTreeTest, A_null_tree_merge_a_non_null_tree)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
BinaryTree<int> *mergeTree = new BinaryTree<int>;
mergeTree->join<TreeIteratorBase::Rightward>(pos,0);
--pos;
mergeTree->join<TreeIteratorBase::Rightward>(pos,1);
mergeTree->join<TreeIteratorBase::Leftward>(pos,1);
--pos;
mergeTree->join<TreeIteratorBase::Rightward>(pos,2);
mergeTree->join<TreeIteratorBase::Leftward>(pos,2);
m_pTestee->merge<TreeIteratorBase::Rightward>(pos,*mergeTree);
delete mergeTree;
EXPECT_TRUE(m_pTestee->size()==5);
}
TEST_F( BinTreeTest, A_non_null_tree_merge_a_null_tree)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<TreeIteratorBase::Rightward>(pos,0);
--pos;
m_pTestee->join<TreeIteratorBase::Rightward>(pos,1);
m_pTestee->join<TreeIteratorBase::Leftward>(pos,1);
--pos;
m_pTestee->join<TreeIteratorBase::Rightward>(pos,2);
m_pTestee->join<TreeIteratorBase::Leftward>(pos,2);
BinaryTree<int> *mergeTree = new BinaryTree<int>;
BinaryTree<int>::iterator pos2 = mergeTree->root();
mergeTree->merge<TreeIteratorBase::Rightward>(pos2,*m_pTestee);
//delete m_pTestee;
EXPECT_TRUE(mergeTree->size()==5);
delete mergeTree;
}
TEST_F( BinTreeTest, Two_null_tree_merge)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
BinaryTree<int> *mergeTree = new BinaryTree<int>;
BinaryTree<int>::iterator pos2 = mergeTree->root();
mergeTree->merge<TreeIteratorBase::Rightward>(pos2,*m_pTestee);
//delete m_pTestee;
EXPECT_TRUE(mergeTree->size()==0);
delete mergeTree;
}
TEST_F( BinTreeTest, DFSIterator_BasicTraversal)
{
int a = 111;
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,a);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,10);
m_pTestee->join<InputTree::Inclusive>(pos,9);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,8);
m_pTestee->join<InputTree::Inclusive>(pos,7);
BinaryTree<int>::dfs_iterator dfs_it = m_pTestee->dfs_begin();
BinaryTree<int>::dfs_iterator dfs_end = m_pTestee->dfs_end();
ASSERT_EQ(111, **dfs_it);
++dfs_it;
ASSERT_EQ(9, **dfs_it);
++dfs_it;
ASSERT_EQ(7, **dfs_it);
++dfs_it;
ASSERT_EQ(8, **dfs_it);
++dfs_it;
ASSERT_EQ(10, **dfs_it);
++dfs_it;
ASSERT_TRUE( dfs_it == dfs_end);
BinaryTree<int>::bfs_iterator bfs_it = m_pTestee->bfs_begin();
BinaryTree<int>::bfs_iterator bfs_end = m_pTestee->bfs_end();
}
TEST_F( BinTreeTest, DFSIterator_RightMostTree)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,0);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,1);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,2);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,3);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,4);
BinaryTree<int>::dfs_iterator dfs_it = m_pTestee->dfs_begin();
BinaryTree<int>::dfs_iterator dfs_end = m_pTestee->dfs_end();
ASSERT_EQ(0, **dfs_it);
++dfs_it;
ASSERT_EQ(1, **dfs_it);
++dfs_it;
ASSERT_EQ(2, **dfs_it);
++dfs_it;
ASSERT_EQ(3, **dfs_it);
++dfs_it;
ASSERT_EQ(4, **dfs_it);
++dfs_it;
ASSERT_TRUE( dfs_it == dfs_end);
}
TEST_F( BinTreeTest, DFSIterator_SingleNode)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,0);
BinaryTree<int>::dfs_iterator dfs_it = m_pTestee->dfs_begin();
BinaryTree<int>::dfs_iterator dfs_end = m_pTestee->dfs_end();
int counter = 0;
while( dfs_it != dfs_end ) {
++counter;
++dfs_it;
}
ASSERT_EQ(1, counter);
}
TEST_F( BinTreeTest, BFSIterator_BasicTraversal)
{
int a = 111;
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,a);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,10);
m_pTestee->join<InputTree::Inclusive>(pos,9);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,8);
m_pTestee->join<InputTree::Inclusive>(pos,7);
BinaryTree<int>::bfs_iterator bfs_it = m_pTestee->bfs_begin();
BinaryTree<int>::bfs_iterator bfs_end = m_pTestee->bfs_end();
ASSERT_EQ(111, **bfs_it);
++bfs_it;
ASSERT_EQ(10, **bfs_it);
++bfs_it;
ASSERT_EQ(9, **bfs_it);
++bfs_it;
ASSERT_EQ(8, **bfs_it);
++bfs_it;
ASSERT_EQ(7, **bfs_it);
++bfs_it;
ASSERT_TRUE(bfs_it == bfs_end);
bfs_it = m_pTestee->bfs_begin();
bfs_end = m_pTestee->bfs_end();
}
TEST_F( BinTreeTest, BFSIterator_RightMostTree)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,0);
pos.move<InputTree::Inclusive>();
m_pTestee->join<InputTree::Positional>(pos,1);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,2);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,3);
pos.move<InputTree::Positional>();
m_pTestee->join<InputTree::Positional>(pos,4);
BinaryTree<int>::bfs_iterator bfs_it = m_pTestee->bfs_begin();
BinaryTree<int>::bfs_iterator bfs_end = m_pTestee->bfs_end();
ASSERT_EQ(0, **bfs_it);
++bfs_it;
ASSERT_EQ(1, **bfs_it);
++bfs_it;
ASSERT_EQ(2, **bfs_it);
++bfs_it;
ASSERT_EQ(3, **bfs_it);
++bfs_it;
ASSERT_EQ(4, **bfs_it);
++bfs_it;
ASSERT_TRUE( bfs_it == bfs_end);
}
TEST_F( BinTreeTest, BFSIterator_SingleNode)
{
BinaryTree<int>::iterator pos = m_pTestee->root();
m_pTestee->join<InputTree::Inclusive>(pos,0);
BinaryTree<int>::bfs_iterator bfs_it = m_pTestee->bfs_begin();
BinaryTree<int>::bfs_iterator bfs_end = m_pTestee->bfs_end();
int counter = 0;
while( bfs_it != bfs_end ) {
++counter;
++bfs_it;
}
ASSERT_EQ(1, counter);
}