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// Copyright 2017 The PDFium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "xfa/fxfa/parser/cxfa_nodeiteratortemplate.h"
#include <memory>
#include <vector>
#include "testing/gtest/include/gtest/gtest.h"
class CXFA_NodeIteratorTemplateTest : public testing::Test {
public:
class Node {
public:
class Strategy {
public:
static Node* GetFirstChild(Node* pNode) {
return pNode && !pNode->children_.empty() ? pNode->children_.front()
: nullptr;
}
static Node* GetNextSibling(Node* pNode) {
return pNode ? pNode->next_sibling_ : nullptr;
}
static Node* GetParent(Node* pNode) {
return pNode ? pNode->parent_ : nullptr;
}
};
explicit Node(Node* parent) : parent_(parent) {
if (parent) {
if (!parent->children_.empty())
parent->children_.back()->next_sibling_ = this;
parent->children_.push_back(this);
}
}
private:
Node* const parent_;
Node* next_sibling_ = nullptr;
std::vector<Node*> children_;
};
using Iterator = CXFA_NodeIteratorTemplate<Node, Node::Strategy>;
// Builds a tree along the lines of:
//
// root
// |
// child1--child2
// |
// child3------------child7--child9
// | |
// child4--child6 child8
// |
// child5
//
void SetUp() override {
root_ = std::make_unique<Node>(nullptr);
child1_ = std::make_unique<Node>(root_.get());
child2_ = std::make_unique<Node>(root_.get());
child3_ = std::make_unique<Node>(child2_.get());
child4_ = std::make_unique<Node>(child3_.get());
child5_ = std::make_unique<Node>(child4_.get());
child6_ = std::make_unique<Node>(child3_.get());
child7_ = std::make_unique<Node>(child2_.get());
child8_ = std::make_unique<Node>(child7_.get());
child9_ = std::make_unique<Node>(child2_.get());
}
Node* root() const { return root_.get(); }
Node* child1() const { return child1_.get(); }
Node* child2() const { return child2_.get(); }
Node* child3() const { return child3_.get(); }
Node* child4() const { return child4_.get(); }
Node* child5() const { return child5_.get(); }
Node* child6() const { return child6_.get(); }
Node* child7() const { return child7_.get(); }
Node* child8() const { return child8_.get(); }
Node* child9() const { return child9_.get(); }
protected:
std::unique_ptr<Node> root_;
std::unique_ptr<Node> child1_;
std::unique_ptr<Node> child2_;
std::unique_ptr<Node> child3_;
std::unique_ptr<Node> child4_;
std::unique_ptr<Node> child5_;
std::unique_ptr<Node> child6_;
std::unique_ptr<Node> child7_;
std::unique_ptr<Node> child8_;
std::unique_ptr<Node> child9_;
};
TEST_F(CXFA_NodeIteratorTemplateTest, Empty) {
Iterator iter(nullptr);
EXPECT_FALSE(iter.GetRoot());
EXPECT_FALSE(iter.GetCurrent());
EXPECT_FALSE(iter.MoveToNext());
EXPECT_FALSE(iter.MoveToPrev());
EXPECT_FALSE(iter.SkipChildrenAndMoveToNext());
}
TEST_F(CXFA_NodeIteratorTemplateTest, Root) {
Iterator iter(root());
EXPECT_EQ(root(), iter.GetRoot());
EXPECT_EQ(root(), iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, Current) {
Iterator iter(root());
iter.SetCurrent(child1());
EXPECT_EQ(root(), iter.GetRoot());
EXPECT_EQ(child1(), iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, CurrentOutsideRootDisallowed) {
Iterator iter(child1());
iter.SetCurrent(root());
EXPECT_EQ(child1(), iter.GetRoot());
EXPECT_FALSE(iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, CurrentNull) {
Iterator iter(root());
EXPECT_EQ(child1(), iter.MoveToNext());
iter.SetCurrent(nullptr);
EXPECT_FALSE(iter.GetCurrent());
EXPECT_FALSE(iter.MoveToNext());
EXPECT_FALSE(iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, MoveToPrev) {
Iterator iter(root());
iter.SetCurrent(child9());
EXPECT_EQ(child8(), iter.MoveToPrev());
EXPECT_EQ(child8(), iter.GetCurrent());
EXPECT_EQ(child7(), iter.MoveToPrev());
EXPECT_EQ(child7(), iter.GetCurrent());
EXPECT_EQ(child6(), iter.MoveToPrev());
EXPECT_EQ(child6(), iter.GetCurrent());
EXPECT_EQ(child5(), iter.MoveToPrev());
EXPECT_EQ(child5(), iter.GetCurrent());
EXPECT_EQ(child4(), iter.MoveToPrev());
EXPECT_EQ(child4(), iter.GetCurrent());
EXPECT_EQ(child3(), iter.MoveToPrev());
EXPECT_EQ(child3(), iter.GetCurrent());
EXPECT_EQ(child2(), iter.MoveToPrev());
EXPECT_EQ(child2(), iter.GetCurrent());
EXPECT_EQ(child1(), iter.MoveToPrev());
EXPECT_EQ(child1(), iter.GetCurrent());
EXPECT_EQ(root(), iter.MoveToPrev());
EXPECT_EQ(root(), iter.GetCurrent());
EXPECT_FALSE(iter.MoveToPrev());
EXPECT_EQ(root(), iter.GetCurrent());
EXPECT_FALSE(iter.MoveToPrev());
EXPECT_EQ(root(), iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, MoveToNext) {
Iterator iter(root());
iter.SetCurrent(child2());
EXPECT_EQ(child3(), iter.MoveToNext());
EXPECT_EQ(child3(), iter.GetCurrent());
EXPECT_EQ(child4(), iter.MoveToNext());
EXPECT_EQ(child4(), iter.GetCurrent());
EXPECT_EQ(child5(), iter.MoveToNext());
EXPECT_EQ(child5(), iter.GetCurrent());
EXPECT_EQ(child6(), iter.MoveToNext());
EXPECT_EQ(child6(), iter.GetCurrent());
EXPECT_EQ(child7(), iter.MoveToNext());
EXPECT_EQ(child7(), iter.GetCurrent());
EXPECT_EQ(child8(), iter.MoveToNext());
EXPECT_EQ(child8(), iter.GetCurrent());
EXPECT_EQ(child9(), iter.MoveToNext());
EXPECT_EQ(child9(), iter.GetCurrent());
EXPECT_FALSE(iter.MoveToNext());
EXPECT_FALSE(iter.GetCurrent());
EXPECT_FALSE(iter.MoveToNext());
EXPECT_FALSE(iter.GetCurrent());
}
TEST_F(CXFA_NodeIteratorTemplateTest, SkipChildrenAndMoveToNext) {
Iterator iter(root());
iter.SetCurrent(child3());
EXPECT_EQ(child7(), iter.SkipChildrenAndMoveToNext());
EXPECT_EQ(child9(), iter.SkipChildrenAndMoveToNext());
EXPECT_FALSE(iter.SkipChildrenAndMoveToNext());
}
TEST_F(CXFA_NodeIteratorTemplateTest, BackAndForth) {
Iterator iter(root());
EXPECT_EQ(child1(), iter.MoveToNext());
EXPECT_EQ(child2(), iter.MoveToNext());
EXPECT_EQ(child3(), iter.MoveToNext());
EXPECT_EQ(child4(), iter.MoveToNext());
EXPECT_EQ(child5(), iter.MoveToNext());
EXPECT_EQ(child4(), iter.MoveToPrev());
EXPECT_EQ(child3(), iter.MoveToPrev());
EXPECT_EQ(child2(), iter.MoveToPrev());
EXPECT_EQ(child1(), iter.MoveToPrev());
}
TEST_F(CXFA_NodeIteratorTemplateTest, NextFromBeforeTheBeginning) {
Iterator iter(root());
EXPECT_FALSE(iter.MoveToPrev());
EXPECT_EQ(root(), iter.GetCurrent());
EXPECT_EQ(child1(), iter.MoveToNext());
}
TEST_F(CXFA_NodeIteratorTemplateTest, PrevFromAfterTheEnd) {
Iterator iter(root());
iter.SetCurrent(child9());
EXPECT_FALSE(iter.MoveToNext());
EXPECT_EQ(child9(), iter.MoveToPrev());
}
TEST_F(CXFA_NodeIteratorTemplateTest, ChildAsRootPrev) {
Iterator iter(child3());
EXPECT_FALSE(iter.MoveToPrev());
iter.SetCurrent(child4());
EXPECT_EQ(child3(), iter.MoveToPrev());
EXPECT_FALSE(iter.MoveToPrev());
}
TEST_F(CXFA_NodeIteratorTemplateTest, ChildAsRootNext) {
Iterator iter(child3());
iter.SetCurrent(child4());
EXPECT_EQ(child5(), iter.MoveToNext());
EXPECT_EQ(child6(), iter.MoveToNext());
EXPECT_FALSE(iter.MoveToNext());
}