ui/base/models/tree_node_model_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ui/base/models/tree_node_model.h"

 #include <memory>

 #include "base/compiler_specific.h"
 #include "base/macros.h"
 #include "base/strings/string16.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using base::ASCIIToUTF16;

 namespace ui {

 class TreeNodeModelTest : public testing::Test, public TreeModelObserver {
  public:
   TreeNodeModelTest()
       : added_count_(0),
         removed_count_(0),
         changed_count_(0) {}
   ~TreeNodeModelTest() override {}

  protected:
   std::string GetObserverCountStateAndClear() {
     std::string result(base::StringPrintf("added=%d removed=%d changed=%d",
         added_count_, removed_count_, changed_count_));
     added_count_ = removed_count_ = changed_count_ = 0;
     return result;
   }

  private:
   // Overridden from TreeModelObserver:
   void TreeNodesAdded(TreeModel* model,
                       TreeModelNode* parent,
                       int start,
                       int count) override {
     added_count_++;
   }
   void TreeNodesRemoved(TreeModel* model,
                         TreeModelNode* parent,
                         int start,
                         int count) override {
     removed_count_++;
   }
   void TreeNodeChanged(TreeModel* model, TreeModelNode* node) override {
     changed_count_++;
   }

   int added_count_;
   int removed_count_;
   int changed_count_;

   DISALLOW_COPY_AND_ASSIGN(TreeNodeModelTest);
 };

 typedef TreeNodeWithValue<int> TestNode;

 // Verifies if the model is properly adding a new node in the tree and
 // notifying the observers.
 // The tree looks like this:
 // root
 // +-- child1
 //     +-- foo1
 //     +-- foo2
 // +-- child2
 TEST_F(TreeNodeModelTest, AddNode) {
   TestNode* root = new TestNode;
   TreeNodeModel<TestNode > model(root);
   model.AddObserver(this);

   TestNode* child1 = new TestNode;
   model.Add(root, child1, 0);

   EXPECT_EQ("added=1 removed=0 changed=0", GetObserverCountStateAndClear());

   for (int i = 0; i < 2; ++i)
     child1->Add(new TestNode, i);

   TestNode* child2 = new TestNode;
   model.Add(root, child2, 1);

   EXPECT_EQ("added=1 removed=0 changed=0", GetObserverCountStateAndClear());

   EXPECT_EQ(2, root->child_count());
   EXPECT_EQ(2, child1->child_count());
   EXPECT_EQ(0, child2->child_count());
 }

 // Verifies if the model is properly removing a node from the tree
 // and notifying the observers.
 TEST_F(TreeNodeModelTest, RemoveNode) {
   TestNode* root = new TestNode;
   TreeNodeModel<TestNode > model(root);
   model.AddObserver(this);

   TestNode* child1 = new TestNode;
   root->Add(child1, 0);

   EXPECT_EQ(1, model.GetChildCount(root));

   // Now remove |child1| from |root| and release the memory.
   delete model.Remove(root, child1);

   EXPECT_EQ("added=0 removed=1 changed=0", GetObserverCountStateAndClear());

   EXPECT_EQ(0, model.GetChildCount(root));
 }

 // Verifies if the nodes added under the root are all deleted when calling
 // RemoveAll. Note that is responsability of the caller to free the memory
 // of the nodes removed after RemoveAll is called.
 // The tree looks like this:
 // root
 // +-- child1
 //     +-- foo
 //         +-- bar0
 //         +-- bar1
 //         +-- bar2
 // +-- child2
 // +-- child3
 TEST_F(TreeNodeModelTest, RemoveAllNodes) {
   TestNode root;

   TestNode child1;
   TestNode child2;
   TestNode child3;

   root.Add(&child1, 0);
   root.Add(&child2, 1);
   root.Add(&child3, 2);

   TestNode* foo = new TestNode;
   child1.Add(foo, 0);

   // Add some nodes to |foo|.
   for (int i = 0; i < 3; ++i)
     foo->Add(new TestNode, i);

   EXPECT_EQ(3, root.child_count());
   EXPECT_EQ(1, child1.child_count());
   EXPECT_EQ(3, foo->child_count());

   // Now remove the child nodes from root.
   root.RemoveAll();

   EXPECT_EQ(0, root.child_count());
   EXPECT_TRUE(root.empty());

   EXPECT_EQ(1, child1.child_count());
   EXPECT_EQ(3, foo->child_count());
 }

 // Verifies if GetIndexOf() returns the correct index for the specified node.
 // The tree looks like this:
 // root
 // +-- child1
 //     +-- foo1
 // +-- child2
 TEST_F(TreeNodeModelTest, GetIndexOf) {
   TestNode root;

   TestNode* child1 = new TestNode;
   root.Add(child1, 0);

   TestNode* child2 = new TestNode;
   root.Add(child2, 1);

   TestNode* foo1 = new TestNode;
   child1->Add(foo1, 0);

   EXPECT_EQ(-1, root.GetIndexOf(&root));
   EXPECT_EQ(0, root.GetIndexOf(child1));
   EXPECT_EQ(1, root.GetIndexOf(child2));
   EXPECT_EQ(-1, root.GetIndexOf(foo1));

   EXPECT_EQ(-1, child1->GetIndexOf(&root));
   EXPECT_EQ(-1, child1->GetIndexOf(child1));
   EXPECT_EQ(-1, child1->GetIndexOf(child2));
   EXPECT_EQ(0, child1->GetIndexOf(foo1));

   EXPECT_EQ(-1, child2->GetIndexOf(&root));
   EXPECT_EQ(-1, child2->GetIndexOf(child2));
   EXPECT_EQ(-1, child2->GetIndexOf(child1));
   EXPECT_EQ(-1, child2->GetIndexOf(foo1));
 }

 // Verifies whether a specified node has or not an ancestor.
 // The tree looks like this:
 // root
 // +-- child1
 //     +-- foo1
 // +-- child2
 TEST_F(TreeNodeModelTest, HasAncestor) {
   TestNode root;
   TestNode* child1 = new TestNode;
   TestNode* child2 = new TestNode;

   root.Add(child1, 0);
   root.Add(child2, 1);

   TestNode* foo1 = new TestNode;
   child1->Add(foo1, 0);

   EXPECT_TRUE(root.HasAncestor(&root));
   EXPECT_FALSE(root.HasAncestor(child1));
   EXPECT_FALSE(root.HasAncestor(child2));
   EXPECT_FALSE(root.HasAncestor(foo1));

   EXPECT_TRUE(child1->HasAncestor(child1));
   EXPECT_TRUE(child1->HasAncestor(&root));
   EXPECT_FALSE(child1->HasAncestor(child2));
   EXPECT_FALSE(child1->HasAncestor(foo1));

   EXPECT_TRUE(child2->HasAncestor(child2));
   EXPECT_TRUE(child2->HasAncestor(&root));
   EXPECT_FALSE(child2->HasAncestor(child1));
   EXPECT_FALSE(child2->HasAncestor(foo1));

   EXPECT_TRUE(foo1->HasAncestor(foo1));
   EXPECT_TRUE(foo1->HasAncestor(child1));
   EXPECT_TRUE(foo1->HasAncestor(&root));
   EXPECT_FALSE(foo1->HasAncestor(child2));
 }

 // Verifies if GetTotalNodeCount returns the correct number of nodes from the
 // node specifed. The count should include the node itself.
 // The tree looks like this:
 // root
 // +-- child1
 //     +-- child2
 //         +-- child3
 // +-- foo1
 //     +-- foo2
 //         +-- foo3
 //     +-- foo4
 // +-- bar1
 //
 // The TotalNodeCount of root is:            9
 // The TotalNodeCount of child1 is:          3
 // The TotalNodeCount of child2 and foo2 is: 2
 // The TotalNodeCount of bar1 is:            1
 // And so on...
 TEST_F(TreeNodeModelTest, GetTotalNodeCount) {
   TestNode root;

   TestNode* child1 = new TestNode;
   TestNode* child2 = new TestNode;
   TestNode* child3 = new TestNode;

   root.Add(child1, 0);
   child1->Add(child2, 0);
   child2->Add(child3, 0);

   TestNode* foo1 = new TestNode;
   TestNode* foo2 = new TestNode;
   TestNode* foo3 = new TestNode;
   TestNode* foo4 = new TestNode;

   root.Add(foo1, 1);
   foo1->Add(foo2, 0);
   foo2->Add(foo3, 0);
   foo1->Add(foo4, 1);

   TestNode* bar1 = new TestNode;

   root.Add(bar1, 2);

   EXPECT_EQ(9, root.GetTotalNodeCount());
   EXPECT_EQ(3, child1->GetTotalNodeCount());
   EXPECT_EQ(2, child2->GetTotalNodeCount());
   EXPECT_EQ(2, foo2->GetTotalNodeCount());
   EXPECT_EQ(1, bar1->GetTotalNodeCount());
 }

 // Makes sure that we are notified when the node is renamed,
 // also makes sure the node is properly renamed.
 TEST_F(TreeNodeModelTest, SetTitle) {
   TestNode* root = new TestNode(ASCIIToUTF16("root"), 0);
   TreeNodeModel<TestNode > model(root);
   model.AddObserver(this);

   const base::string16 title(ASCIIToUTF16("root2"));
   model.SetTitle(root, title);
   EXPECT_EQ("added=0 removed=0 changed=1", GetObserverCountStateAndClear());
   EXPECT_EQ(title, root->GetTitle());
 }

 TEST_F(TreeNodeModelTest, BasicOperations) {
   TestNode root;
   EXPECT_EQ(0, root.child_count());

   TestNode* child1 = new TestNode;
   root.Add(child1, root.child_count());
   EXPECT_EQ(1, root.child_count());
   EXPECT_EQ(&root, child1->parent());

   TestNode* child2 = new TestNode;
   root.Add(child2, root.child_count());
   EXPECT_EQ(2, root.child_count());
   EXPECT_EQ(child1->parent(), child2->parent());

   std::unique_ptr<TestNode> c2(root.Remove(child2));
   EXPECT_EQ(1, root.child_count());
   EXPECT_EQ(NULL, child2->parent());

   std::unique_ptr<TestNode> c1(root.Remove(child1));
   EXPECT_EQ(0, root.child_count());
 }

 TEST_F(TreeNodeModelTest, IsRoot) {
   TestNode root;
   EXPECT_TRUE(root.is_root());

   TestNode* child1 = new TestNode;
   root.Add(child1, root.child_count());
   EXPECT_FALSE(child1->is_root());
 }

 }  // namespace ui
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ui/base/models/tree_node_model.h"

	#include <memory>

	#include "base/compiler_specific.h"
	#include "base/macros.h"
	#include "base/strings/string16.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using base::ASCIIToUTF16;

	namespace ui {

	class TreeNodeModelTest : public testing::Test, public TreeModelObserver {
	public:
	TreeNodeModelTest()
	: added_count_(0),
	removed_count_(0),
	changed_count_(0) {}
	~TreeNodeModelTest() override {}

	protected:
	std::string GetObserverCountStateAndClear() {
	std::string result(base::StringPrintf("added=%d removed=%d changed=%d",
	added_count_, removed_count_, changed_count_));
	added_count_ = removed_count_ = changed_count_ = 0;
	return result;
	}

	private:
	// Overridden from TreeModelObserver:
	void TreeNodesAdded(TreeModel* model,
	TreeModelNode* parent,
	int start,
	int count) override {
	added_count_++;
	}
	void TreeNodesRemoved(TreeModel* model,
	TreeModelNode* parent,
	int start,
	int count) override {
	removed_count_++;
	}
	void TreeNodeChanged(TreeModel* model, TreeModelNode* node) override {
	changed_count_++;
	}

	int added_count_;
	int removed_count_;
	int changed_count_;

	DISALLOW_COPY_AND_ASSIGN(TreeNodeModelTest);
	};

	typedef TreeNodeWithValue<int> TestNode;

	// Verifies if the model is properly adding a new node in the tree and
	// notifying the observers.
	// The tree looks like this:
	// root
	// +-- child1
	// +-- foo1
	// +-- foo2
	// +-- child2
	TEST_F(TreeNodeModelTest, AddNode) {
	TestNode* root = new TestNode;
	TreeNodeModel<TestNode > model(root);
	model.AddObserver(this);

	TestNode* child1 = new TestNode;
	model.Add(root, child1, 0);

	EXPECT_EQ("added=1 removed=0 changed=0", GetObserverCountStateAndClear());

	for (int i = 0; i < 2; ++i)
	child1->Add(new TestNode, i);

	TestNode* child2 = new TestNode;
	model.Add(root, child2, 1);

	EXPECT_EQ("added=1 removed=0 changed=0", GetObserverCountStateAndClear());

	EXPECT_EQ(2, root->child_count());
	EXPECT_EQ(2, child1->child_count());
	EXPECT_EQ(0, child2->child_count());
	}

	// Verifies if the model is properly removing a node from the tree
	// and notifying the observers.
	TEST_F(TreeNodeModelTest, RemoveNode) {
	TestNode* root = new TestNode;
	TreeNodeModel<TestNode > model(root);
	model.AddObserver(this);

	TestNode* child1 = new TestNode;
	root->Add(child1, 0);

	EXPECT_EQ(1, model.GetChildCount(root));

	// Now remove \|child1\| from \|root\| and release the memory.
	delete model.Remove(root, child1);

	EXPECT_EQ("added=0 removed=1 changed=0", GetObserverCountStateAndClear());

	EXPECT_EQ(0, model.GetChildCount(root));
	}

	// Verifies if the nodes added under the root are all deleted when calling
	// RemoveAll. Note that is responsability of the caller to free the memory
	// of the nodes removed after RemoveAll is called.
	// The tree looks like this:
	// root
	// +-- child1
	// +-- foo
	// +-- bar0
	// +-- bar1
	// +-- bar2
	// +-- child2
	// +-- child3
	TEST_F(TreeNodeModelTest, RemoveAllNodes) {
	TestNode root;

	TestNode child1;
	TestNode child2;
	TestNode child3;

	root.Add(&child1, 0);
	root.Add(&child2, 1);
	root.Add(&child3, 2);

	TestNode* foo = new TestNode;
	child1.Add(foo, 0);

	// Add some nodes to \|foo\|.
	for (int i = 0; i < 3; ++i)
	foo->Add(new TestNode, i);

	EXPECT_EQ(3, root.child_count());
	EXPECT_EQ(1, child1.child_count());
	EXPECT_EQ(3, foo->child_count());

	// Now remove the child nodes from root.
	root.RemoveAll();

	EXPECT_EQ(0, root.child_count());
	EXPECT_TRUE(root.empty());

	EXPECT_EQ(1, child1.child_count());
	EXPECT_EQ(3, foo->child_count());
	}

	// Verifies if GetIndexOf() returns the correct index for the specified node.
	// The tree looks like this:
	// root
	// +-- child1
	// +-- foo1
	// +-- child2
	TEST_F(TreeNodeModelTest, GetIndexOf) {
	TestNode root;

	TestNode* child1 = new TestNode;
	root.Add(child1, 0);

	TestNode* child2 = new TestNode;
	root.Add(child2, 1);

	TestNode* foo1 = new TestNode;
	child1->Add(foo1, 0);

	EXPECT_EQ(-1, root.GetIndexOf(&root));
	EXPECT_EQ(0, root.GetIndexOf(child1));
	EXPECT_EQ(1, root.GetIndexOf(child2));
	EXPECT_EQ(-1, root.GetIndexOf(foo1));

	EXPECT_EQ(-1, child1->GetIndexOf(&root));
	EXPECT_EQ(-1, child1->GetIndexOf(child1));
	EXPECT_EQ(-1, child1->GetIndexOf(child2));
	EXPECT_EQ(0, child1->GetIndexOf(foo1));

	EXPECT_EQ(-1, child2->GetIndexOf(&root));
	EXPECT_EQ(-1, child2->GetIndexOf(child2));
	EXPECT_EQ(-1, child2->GetIndexOf(child1));
	EXPECT_EQ(-1, child2->GetIndexOf(foo1));
	}

	// Verifies whether a specified node has or not an ancestor.
	// The tree looks like this:
	// root
	// +-- child1
	// +-- foo1
	// +-- child2
	TEST_F(TreeNodeModelTest, HasAncestor) {
	TestNode root;
	TestNode* child1 = new TestNode;
	TestNode* child2 = new TestNode;

	root.Add(child1, 0);
	root.Add(child2, 1);

	TestNode* foo1 = new TestNode;
	child1->Add(foo1, 0);

	EXPECT_TRUE(root.HasAncestor(&root));
	EXPECT_FALSE(root.HasAncestor(child1));
	EXPECT_FALSE(root.HasAncestor(child2));
	EXPECT_FALSE(root.HasAncestor(foo1));

	EXPECT_TRUE(child1->HasAncestor(child1));
	EXPECT_TRUE(child1->HasAncestor(&root));
	EXPECT_FALSE(child1->HasAncestor(child2));
	EXPECT_FALSE(child1->HasAncestor(foo1));

	EXPECT_TRUE(child2->HasAncestor(child2));
	EXPECT_TRUE(child2->HasAncestor(&root));
	EXPECT_FALSE(child2->HasAncestor(child1));
	EXPECT_FALSE(child2->HasAncestor(foo1));

	EXPECT_TRUE(foo1->HasAncestor(foo1));
	EXPECT_TRUE(foo1->HasAncestor(child1));
	EXPECT_TRUE(foo1->HasAncestor(&root));
	EXPECT_FALSE(foo1->HasAncestor(child2));
	}

	// Verifies if GetTotalNodeCount returns the correct number of nodes from the
	// node specifed. The count should include the node itself.
	// The tree looks like this:
	// root
	// +-- child1
	// +-- child2
	// +-- child3
	// +-- foo1
	// +-- foo2
	// +-- foo3
	// +-- foo4
	// +-- bar1
	//
	// The TotalNodeCount of root is: 9
	// The TotalNodeCount of child1 is: 3
	// The TotalNodeCount of child2 and foo2 is: 2
	// The TotalNodeCount of bar1 is: 1
	// And so on...
	TEST_F(TreeNodeModelTest, GetTotalNodeCount) {
	TestNode root;

	TestNode* child1 = new TestNode;
	TestNode* child2 = new TestNode;
	TestNode* child3 = new TestNode;

	root.Add(child1, 0);
	child1->Add(child2, 0);
	child2->Add(child3, 0);

	TestNode* foo1 = new TestNode;
	TestNode* foo2 = new TestNode;
	TestNode* foo3 = new TestNode;
	TestNode* foo4 = new TestNode;

	root.Add(foo1, 1);
	foo1->Add(foo2, 0);
	foo2->Add(foo3, 0);
	foo1->Add(foo4, 1);

	TestNode* bar1 = new TestNode;

	root.Add(bar1, 2);

	EXPECT_EQ(9, root.GetTotalNodeCount());
	EXPECT_EQ(3, child1->GetTotalNodeCount());
	EXPECT_EQ(2, child2->GetTotalNodeCount());
	EXPECT_EQ(2, foo2->GetTotalNodeCount());
	EXPECT_EQ(1, bar1->GetTotalNodeCount());
	}

	// Makes sure that we are notified when the node is renamed,
	// also makes sure the node is properly renamed.
	TEST_F(TreeNodeModelTest, SetTitle) {
	TestNode* root = new TestNode(ASCIIToUTF16("root"), 0);
	TreeNodeModel<TestNode > model(root);
	model.AddObserver(this);

	const base::string16 title(ASCIIToUTF16("root2"));
	model.SetTitle(root, title);
	EXPECT_EQ("added=0 removed=0 changed=1", GetObserverCountStateAndClear());
	EXPECT_EQ(title, root->GetTitle());
	}

	TEST_F(TreeNodeModelTest, BasicOperations) {
	TestNode root;
	EXPECT_EQ(0, root.child_count());

	TestNode* child1 = new TestNode;
	root.Add(child1, root.child_count());
	EXPECT_EQ(1, root.child_count());
	EXPECT_EQ(&root, child1->parent());

	TestNode* child2 = new TestNode;
	root.Add(child2, root.child_count());
	EXPECT_EQ(2, root.child_count());
	EXPECT_EQ(child1->parent(), child2->parent());

	std::unique_ptr<TestNode> c2(root.Remove(child2));
	EXPECT_EQ(1, root.child_count());
	EXPECT_EQ(NULL, child2->parent());

	std::unique_ptr<TestNode> c1(root.Remove(child1));
	EXPECT_EQ(0, root.child_count());
	}

	TEST_F(TreeNodeModelTest, IsRoot) {
	TestNode root;
	EXPECT_TRUE(root.is_root());

	TestNode* child1 = new TestNode;
	root.Add(child1, root.child_count());
	EXPECT_FALSE(child1->is_root());
	}

	} // namespace ui