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ara-mdk / platform / frameworks / compile / mclinker / cedee4b38f4786845183be7f5916dd520a170ae0 / . / unittests / InputTreeTest.cpp
blob: 001360125637721f1ce7c6bded9f88427fd09abd [file] [log] [blame]
//===- InputTreeTest.cpp --------------------------------------------------===//
//
// The MCLinker Project
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "mcld/MC/InputTree.h"
#include "mcld/MC/MCLDInfo.h"
#include <InputTreeTest.h>
using namespace mcld;
using namespace mcldtest;
// Constructor can do set-up work for all test here.
InputTreeTest::InputTreeTest()
{
// create testee. modify it if need
m_pAttr = new mcld::AttributeFactory(2);
m_pAlloc = new mcld::InputFactory(10, *m_pAttr);
m_pTestee = new InputTree(*m_pAlloc);
}
// Destructor can do clean-up work that doesn't throw exceptions here.
InputTreeTest::~InputTreeTest()
{
delete m_pTestee;
delete m_pAlloc;
delete m_pAttr;
}
// SetUp() will be called immediately before each test.
void InputTreeTest::SetUp()
{
}
// TearDown() will be called immediately after each test.
void InputTreeTest::TearDown()
{
}
//==========================================================================//
// Testcases
//
TEST_F( InputTreeTest, Basic_operation ) {
InputTree::iterator node = m_pTestee->root();
m_pTestee->insert<InputTree::Inclusive>(node, "FileSpec", "path1");
InputTree::const_iterator const_node = node;
ASSERT_TRUE(isGroup(node));
ASSERT_TRUE(isGroup(const_node));
ASSERT_TRUE(m_pTestee->hasInput());
ASSERT_EQ(1, m_pTestee->numOfInputs());
--node;
m_pTestee->enterGroup(node, InputTree::Downward);
InputTree::const_iterator const_node2 = node;
ASSERT_FALSE(node.isRoot());
ASSERT_FALSE(isGroup(node));
ASSERT_FALSE(isGroup(const_node2));
ASSERT_TRUE(m_pTestee->hasInput());
ASSERT_FALSE(m_pTestee->numOfInputs()==0);
ASSERT_TRUE(m_pTestee->size()==2);
}
TEST_F( InputTreeTest, forLoop_TEST ) {
InputTree::iterator node = m_pTestee->root();
m_pTestee->insert<InputTree::Inclusive>(node, "FileSpec", "path1");
InputTree::const_iterator const_node = node;
--node;
for(int i=0 ; i<100 ; ++i)
{
m_pTestee->insert<InputTree::Inclusive>(node,"FileSpec", "path1");
++node;
}
m_pTestee->enterGroup(node, InputTree::Downward);
--node;
ASSERT_FALSE(node.isRoot());
ASSERT_TRUE(isGroup(node));
ASSERT_TRUE(m_pTestee->hasInput());
ASSERT_FALSE(m_pTestee->numOfInputs()==100);
ASSERT_TRUE(m_pTestee->size()==102);
}
TEST_F( InputTreeTest, Nesting_Case ) {
InputTree::iterator node = m_pTestee->root();
for(int i=0 ; i<50 ; ++i)
{
m_pTestee->enterGroup(node, InputTree::Downward);
--node;
m_pTestee->insert(node, InputTree::Afterward, "FileSpec", "path1");
++node;
}
ASSERT_FALSE(node.isRoot());
ASSERT_FALSE(isGroup(node));
ASSERT_TRUE(m_pTestee->hasInput());
ASSERT_TRUE(m_pTestee->numOfInputs()==50);
ASSERT_TRUE(m_pTestee->size()==100);
}
TEST_F( InputTreeTest, DFSIterator_BasicTraversal)
{
InputTree::iterator node = m_pTestee->root();
m_pTestee->insert<InputTree::Inclusive>(node, "111", "/");
node.move<InputTree::Inclusive>();
m_pTestee->insert<InputTree::Positional>(node, "10", "/");
m_pTestee->enterGroup<InputTree::Inclusive>(node);
node.move<InputTree::Inclusive>();
m_pTestee->insert<InputTree::Inclusive>(node, "7", "/");
m_pTestee->insert<InputTree::Positional>(node, "8", "/");
InputTree::dfs_iterator dfs_it = m_pTestee->dfs_begin();
InputTree::dfs_iterator dfs_end = m_pTestee->dfs_end();
ASSERT_STREQ("111", (*dfs_it)->name().c_str());
++dfs_it;
ASSERT_STREQ("7", (**dfs_it).name().c_str());
++dfs_it;
ASSERT_STREQ("8", (**dfs_it).name().c_str());
++dfs_it;
ASSERT_STREQ("10", (**dfs_it).name().c_str());
++dfs_it;
ASSERT_TRUE(dfs_it == dfs_end);
}