unittests/ADT/IListIteratorTest.cpp - llvm - Git at Google

 //===- unittests/ADT/IListIteratorTest.cpp - ilist_iterator unit tests ----===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/ADT/simple_ilist.h"
 #include "gtest/gtest.h"

 using namespace llvm;

 namespace {

 struct Node : ilist_node<Node> {};

 TEST(IListIteratorTest, DefaultConstructor) {
   simple_ilist<Node>::iterator I;
   simple_ilist<Node>::reverse_iterator RI;
   simple_ilist<Node>::const_iterator CI;
   simple_ilist<Node>::const_reverse_iterator CRI;
   EXPECT_EQ(nullptr, I.getNodePtr());
   EXPECT_EQ(nullptr, CI.getNodePtr());
   EXPECT_EQ(nullptr, RI.getNodePtr());
   EXPECT_EQ(nullptr, CRI.getNodePtr());
   EXPECT_EQ(I, I);
   EXPECT_EQ(I, CI);
   EXPECT_EQ(CI, I);
   EXPECT_EQ(CI, CI);
   EXPECT_EQ(RI, RI);
   EXPECT_EQ(RI, CRI);
   EXPECT_EQ(CRI, RI);
   EXPECT_EQ(CRI, CRI);
   EXPECT_EQ(I, RI.getReverse());
   EXPECT_EQ(RI, I.getReverse());
 }

 TEST(IListIteratorTest, Empty) {
   simple_ilist<Node> L;

   // Check iterators of L.
   EXPECT_EQ(L.begin(), L.end());
   EXPECT_EQ(L.rbegin(), L.rend());

   // Reverse of end should be rend (since the sentinel sits on both sides).
   EXPECT_EQ(L.end(), L.rend().getReverse());
   EXPECT_EQ(L.rend(), L.end().getReverse());

   // Iterators shouldn't match default constructors.
   simple_ilist<Node>::iterator I;
   simple_ilist<Node>::reverse_iterator RI;
   EXPECT_NE(I, L.begin());
   EXPECT_NE(I, L.end());
   EXPECT_NE(RI, L.rbegin());
   EXPECT_NE(RI, L.rend());
 }

 TEST(IListIteratorTest, OneNodeList) {
   simple_ilist<Node> L;
   Node A;
   L.insert(L.end(), A);

   // Check address of reference.
   EXPECT_EQ(&A, &*L.begin());
   EXPECT_EQ(&A, &*L.rbegin());

   // Check that the handle matches.
   EXPECT_EQ(L.rbegin().getNodePtr(), L.begin().getNodePtr());

   // Check iteration.
   EXPECT_EQ(L.end(), ++L.begin());
   EXPECT_EQ(L.begin(), --L.end());
   EXPECT_EQ(L.rend(), ++L.rbegin());
   EXPECT_EQ(L.rbegin(), --L.rend());

   // Check conversions.
   EXPECT_EQ(L.rbegin(), L.begin().getReverse());
   EXPECT_EQ(L.begin(), L.rbegin().getReverse());
 }

 TEST(IListIteratorTest, TwoNodeList) {
   simple_ilist<Node> L;
   Node A, B;
   L.insert(L.end(), A);
   L.insert(L.end(), B);

   // Check order.
   EXPECT_EQ(&A, &*L.begin());
   EXPECT_EQ(&B, &*++L.begin());
   EXPECT_EQ(L.end(), ++++L.begin());
   EXPECT_EQ(&B, &*L.rbegin());
   EXPECT_EQ(&A, &*++L.rbegin());
   EXPECT_EQ(L.rend(), ++++L.rbegin());

   // Check conversions.
   EXPECT_EQ(++L.rbegin(), L.begin().getReverse());
   EXPECT_EQ(L.rbegin(), (++L.begin()).getReverse());
   EXPECT_EQ(++L.begin(), L.rbegin().getReverse());
   EXPECT_EQ(L.begin(), (++L.rbegin()).getReverse());
 }

 TEST(IListIteratorTest, CheckEraseForward) {
   simple_ilist<Node> L;
   Node A, B;
   L.insert(L.end(), A);
   L.insert(L.end(), B);

   // Erase nodes.
   auto I = L.begin();
   EXPECT_EQ(&A, &*I);
   L.remove(*I++);
   EXPECT_EQ(&B, &*I);
   L.remove(*I++);
   EXPECT_EQ(L.end(), I);
 }

 TEST(IListIteratorTest, CheckEraseReverse) {
   simple_ilist<Node> L;
   Node A, B;
   L.insert(L.end(), A);
   L.insert(L.end(), B);

   // Erase nodes.
   auto RI = L.rbegin();
   EXPECT_EQ(&B, &*RI);
   L.remove(*RI++);
   EXPECT_EQ(&A, &*RI);
   L.remove(*RI++);
   EXPECT_EQ(L.rend(), RI);
 }

 TEST(IListIteratorTest, ReverseConstructor) {
   simple_ilist<Node> L;
   const simple_ilist<Node> &CL = L;
   Node A, B;
   L.insert(L.end(), A);
   L.insert(L.end(), B);

   // Save typing.
   typedef simple_ilist<Node>::iterator iterator;
   typedef simple_ilist<Node>::reverse_iterator reverse_iterator;
   typedef simple_ilist<Node>::const_iterator const_iterator;
   typedef simple_ilist<Node>::const_reverse_iterator const_reverse_iterator;

   // Check conversion values.
   EXPECT_EQ(L.begin(), iterator(L.rend()));
   EXPECT_EQ(++L.begin(), iterator(++L.rbegin()));
   EXPECT_EQ(L.end(), iterator(L.rbegin()));
   EXPECT_EQ(L.rbegin(), reverse_iterator(L.end()));
   EXPECT_EQ(++L.rbegin(), reverse_iterator(++L.begin()));
   EXPECT_EQ(L.rend(), reverse_iterator(L.begin()));

   // Check const iterator constructors.
   EXPECT_EQ(CL.begin(), const_iterator(L.rend()));
   EXPECT_EQ(CL.begin(), const_iterator(CL.rend()));
   EXPECT_EQ(CL.rbegin(), const_reverse_iterator(L.end()));
   EXPECT_EQ(CL.rbegin(), const_reverse_iterator(CL.end()));

   // Confirm lack of implicit conversions.
   static_assert(!std::is_convertible<iterator, reverse_iterator>::value,
                 "unexpected implicit conversion");
   static_assert(!std::is_convertible<reverse_iterator, iterator>::value,
                 "unexpected implicit conversion");
   static_assert(
       !std::is_convertible<const_iterator, const_reverse_iterator>::value,
       "unexpected implicit conversion");
   static_assert(
       !std::is_convertible<const_reverse_iterator, const_iterator>::value,
       "unexpected implicit conversion");
 }

 } // end namespace
	//===- unittests/ADT/IListIteratorTest.cpp - ilist_iterator unit tests ----===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/ADT/simple_ilist.h"
	#include "gtest/gtest.h"

	using namespace llvm;

	namespace {

	struct Node : ilist_node<Node> {};

	TEST(IListIteratorTest, DefaultConstructor) {
	simple_ilist<Node>::iterator I;
	simple_ilist<Node>::reverse_iterator RI;
	simple_ilist<Node>::const_iterator CI;
	simple_ilist<Node>::const_reverse_iterator CRI;
	EXPECT_EQ(nullptr, I.getNodePtr());
	EXPECT_EQ(nullptr, CI.getNodePtr());
	EXPECT_EQ(nullptr, RI.getNodePtr());
	EXPECT_EQ(nullptr, CRI.getNodePtr());
	EXPECT_EQ(I, I);
	EXPECT_EQ(I, CI);
	EXPECT_EQ(CI, I);
	EXPECT_EQ(CI, CI);
	EXPECT_EQ(RI, RI);
	EXPECT_EQ(RI, CRI);
	EXPECT_EQ(CRI, RI);
	EXPECT_EQ(CRI, CRI);
	EXPECT_EQ(I, RI.getReverse());
	EXPECT_EQ(RI, I.getReverse());
	}

	TEST(IListIteratorTest, Empty) {
	simple_ilist<Node> L;

	// Check iterators of L.
	EXPECT_EQ(L.begin(), L.end());
	EXPECT_EQ(L.rbegin(), L.rend());

	// Reverse of end should be rend (since the sentinel sits on both sides).
	EXPECT_EQ(L.end(), L.rend().getReverse());
	EXPECT_EQ(L.rend(), L.end().getReverse());

	// Iterators shouldn't match default constructors.
	simple_ilist<Node>::iterator I;
	simple_ilist<Node>::reverse_iterator RI;
	EXPECT_NE(I, L.begin());
	EXPECT_NE(I, L.end());
	EXPECT_NE(RI, L.rbegin());
	EXPECT_NE(RI, L.rend());
	}

	TEST(IListIteratorTest, OneNodeList) {
	simple_ilist<Node> L;
	Node A;
	L.insert(L.end(), A);

	// Check address of reference.
	EXPECT_EQ(&A, &*L.begin());
	EXPECT_EQ(&A, &*L.rbegin());

	// Check that the handle matches.
	EXPECT_EQ(L.rbegin().getNodePtr(), L.begin().getNodePtr());

	// Check iteration.
	EXPECT_EQ(L.end(), ++L.begin());
	EXPECT_EQ(L.begin(), --L.end());
	EXPECT_EQ(L.rend(), ++L.rbegin());
	EXPECT_EQ(L.rbegin(), --L.rend());

	// Check conversions.
	EXPECT_EQ(L.rbegin(), L.begin().getReverse());
	EXPECT_EQ(L.begin(), L.rbegin().getReverse());
	}

	TEST(IListIteratorTest, TwoNodeList) {
	simple_ilist<Node> L;
	Node A, B;
	L.insert(L.end(), A);
	L.insert(L.end(), B);

	// Check order.
	EXPECT_EQ(&A, &*L.begin());
	EXPECT_EQ(&B, &*++L.begin());
	EXPECT_EQ(L.end(), ++++L.begin());
	EXPECT_EQ(&B, &*L.rbegin());
	EXPECT_EQ(&A, &*++L.rbegin());
	EXPECT_EQ(L.rend(), ++++L.rbegin());

	// Check conversions.
	EXPECT_EQ(++L.rbegin(), L.begin().getReverse());
	EXPECT_EQ(L.rbegin(), (++L.begin()).getReverse());
	EXPECT_EQ(++L.begin(), L.rbegin().getReverse());
	EXPECT_EQ(L.begin(), (++L.rbegin()).getReverse());
	}

	TEST(IListIteratorTest, CheckEraseForward) {
	simple_ilist<Node> L;
	Node A, B;
	L.insert(L.end(), A);
	L.insert(L.end(), B);

	// Erase nodes.
	auto I = L.begin();
	EXPECT_EQ(&A, &*I);
	L.remove(*I++);
	EXPECT_EQ(&B, &*I);
	L.remove(*I++);
	EXPECT_EQ(L.end(), I);
	}

	TEST(IListIteratorTest, CheckEraseReverse) {
	simple_ilist<Node> L;
	Node A, B;
	L.insert(L.end(), A);
	L.insert(L.end(), B);

	// Erase nodes.
	auto RI = L.rbegin();
	EXPECT_EQ(&B, &*RI);
	L.remove(*RI++);
	EXPECT_EQ(&A, &*RI);
	L.remove(*RI++);
	EXPECT_EQ(L.rend(), RI);
	}

	TEST(IListIteratorTest, ReverseConstructor) {
	simple_ilist<Node> L;
	const simple_ilist<Node> &CL = L;
	Node A, B;
	L.insert(L.end(), A);
	L.insert(L.end(), B);

	// Save typing.
	typedef simple_ilist<Node>::iterator iterator;
	typedef simple_ilist<Node>::reverse_iterator reverse_iterator;
	typedef simple_ilist<Node>::const_iterator const_iterator;
	typedef simple_ilist<Node>::const_reverse_iterator const_reverse_iterator;

	// Check conversion values.
	EXPECT_EQ(L.begin(), iterator(L.rend()));
	EXPECT_EQ(++L.begin(), iterator(++L.rbegin()));
	EXPECT_EQ(L.end(), iterator(L.rbegin()));
	EXPECT_EQ(L.rbegin(), reverse_iterator(L.end()));
	EXPECT_EQ(++L.rbegin(), reverse_iterator(++L.begin()));
	EXPECT_EQ(L.rend(), reverse_iterator(L.begin()));

	// Check const iterator constructors.
	EXPECT_EQ(CL.begin(), const_iterator(L.rend()));
	EXPECT_EQ(CL.begin(), const_iterator(CL.rend()));
	EXPECT_EQ(CL.rbegin(), const_reverse_iterator(L.end()));
	EXPECT_EQ(CL.rbegin(), const_reverse_iterator(CL.end()));

	// Confirm lack of implicit conversions.
	static_assert(!std::is_convertible<iterator, reverse_iterator>::value,
	"unexpected implicit conversion");
	static_assert(!std::is_convertible<reverse_iterator, iterator>::value,
	"unexpected implicit conversion");
	static_assert(
	!std::is_convertible<const_iterator, const_reverse_iterator>::value,
	"unexpected implicit conversion");
	static_assert(
	!std::is_convertible<const_reverse_iterator, const_iterator>::value,
	"unexpected implicit conversion");
	}

	} // end namespace