ui/accessibility/ax_tree_unittest.cc - platform/external/chromium_org - Git at Google

 // Copyright 2013 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 "base/memory/scoped_ptr.h"
 #include "base/strings/string_number_conversions.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/accessibility/ax_node.h"
 #include "ui/accessibility/ax_serializable_tree.h"
 #include "ui/accessibility/ax_tree.h"
 #include "ui/accessibility/ax_tree_serializer.h"

 namespace ui {

 namespace {

 class FakeAXTreeDelegate : public AXTreeDelegate {
  public:
   virtual void OnNodeWillBeDeleted(AXNode* node) OVERRIDE {
     deleted_ids_.push_back(node->id());
   }

   virtual void OnNodeCreated(AXNode* node) OVERRIDE {
     created_ids_.push_back(node->id());
   }

   virtual void OnNodeChanged(AXNode* node) OVERRIDE {
     changed_ids_.push_back(node->id());
   }

   virtual void OnNodeCreationFinished(AXNode* node) OVERRIDE {
     creation_finished_ids_.push_back(node->id());
   }

   virtual void OnNodeChangeFinished(AXNode* node) OVERRIDE {
     change_finished_ids_.push_back(node->id());
   }

   virtual void OnRootChanged(AXNode* new_root) OVERRIDE {
     new_root_ids_.push_back(new_root->id());
   }

   const std::vector<int32>& deleted_ids() { return deleted_ids_; }
   const std::vector<int32>& created_ids() { return created_ids_; }
   const std::vector<int32>& creation_finished_ids() {
     return creation_finished_ids_;
   }
   const std::vector<int32>& new_root_ids() { return new_root_ids_; }

  private:
   std::vector<int32> deleted_ids_;
   std::vector<int32> created_ids_;
   std::vector<int32> creation_finished_ids_;
   std::vector<int32> changed_ids_;
   std::vector<int32> change_finished_ids_;
   std::vector<int32> new_root_ids_;
 };

 }  // namespace

 TEST(AXTreeTest, SerializeSimpleAXTree) {
   AXNodeData root;
   root.id = 1;
   root.role = AX_ROLE_ROOT_WEB_AREA;
   root.state = (1 << AX_STATE_FOCUSABLE) | (1 << AX_STATE_FOCUSED);
   root.location = gfx::Rect(0, 0, 800, 600);
   root.child_ids.push_back(2);
   root.child_ids.push_back(3);

   AXNodeData button;
   button.id = 2;
   button.role = AX_ROLE_BUTTON;
   button.state = 0;
   button.location = gfx::Rect(20, 20, 200, 30);

   AXNodeData checkbox;
   checkbox.id = 3;
   checkbox.role = AX_ROLE_CHECK_BOX;
   checkbox.state = 0;
   checkbox.location = gfx::Rect(20, 50, 200, 30);

   AXTreeUpdate initial_state;
   initial_state.nodes.push_back(root);
   initial_state.nodes.push_back(button);
   initial_state.nodes.push_back(checkbox);
   AXSerializableTree src_tree(initial_state);

   scoped_ptr<AXTreeSource<const AXNode*> > tree_source(
       src_tree.CreateTreeSource());
   AXTreeSerializer<const AXNode*> serializer(tree_source.get());
   AXTreeUpdate update;
   serializer.SerializeChanges(src_tree.GetRoot(), &update);

   AXTree dst_tree;
   ASSERT_TRUE(dst_tree.Unserialize(update));

   const AXNode* root_node = dst_tree.GetRoot();
   ASSERT_TRUE(root_node != NULL);
   EXPECT_EQ(root.id, root_node->id());
   EXPECT_EQ(root.role, root_node->data().role);

   ASSERT_EQ(2, root_node->child_count());

   const AXNode* button_node = root_node->ChildAtIndex(0);
   EXPECT_EQ(button.id, button_node->id());
   EXPECT_EQ(button.role, button_node->data().role);

   const AXNode* checkbox_node = root_node->ChildAtIndex(1);
   EXPECT_EQ(checkbox.id, checkbox_node->id());
   EXPECT_EQ(checkbox.role, checkbox_node->data().role);

   EXPECT_EQ(
       "id=1 rootWebArea FOCUSABLE FOCUSED (0, 0)-(800, 600) child_ids=2,3\n"
       "  id=2 button (20, 20)-(200, 30)\n"
       "  id=3 checkBox (20, 50)-(200, 30)\n",
       dst_tree.ToString());
 }

 TEST(AXTreeTest, SerializeAXTreeUpdate) {
   AXNodeData list;
   list.id = 3;
   list.role = AX_ROLE_LIST;
   list.state = 0;
   list.child_ids.push_back(4);
   list.child_ids.push_back(5);
   list.child_ids.push_back(6);

   AXNodeData list_item_2;
   list_item_2.id = 5;
   list_item_2.role = AX_ROLE_LIST_ITEM;
   list_item_2.state = 0;

   AXNodeData list_item_3;
   list_item_3.id = 6;
   list_item_3.role = AX_ROLE_LIST_ITEM;
   list_item_3.state = 0;

   AXNodeData button;
   button.id = 7;
   button.role = AX_ROLE_BUTTON;
   button.state = 0;

   AXTreeUpdate update;
   update.nodes.push_back(list);
   update.nodes.push_back(list_item_2);
   update.nodes.push_back(list_item_3);
   update.nodes.push_back(button);

   EXPECT_EQ(
       "id=3 list (0, 0)-(0, 0) child_ids=4,5,6\n"
       "  id=5 listItem (0, 0)-(0, 0)\n"
       "  id=6 listItem (0, 0)-(0, 0)\n"
       "id=7 button (0, 0)-(0, 0)\n",
       update.ToString());
 }

 TEST(AXTreeTest, DeleteUnknownSubtreeFails) {
   AXNodeData root;
   root.id = 1;
   root.role = AX_ROLE_ROOT_WEB_AREA;

   AXTreeUpdate initial_state;
   initial_state.nodes.push_back(root);
   AXTree tree(initial_state);

   // This should fail because we're asking it to delete
   // a subtree rooted at id=2, which doesn't exist.
   AXTreeUpdate update;
   update.node_id_to_clear = 2;
   update.nodes.resize(1);
   update.nodes[0].id = 1;
   update.nodes[0].id = AX_ROLE_ROOT_WEB_AREA;
   EXPECT_FALSE(tree.Unserialize(update));
   ASSERT_EQ("Bad node_id_to_clear: 2", tree.error());
 }

 TEST(AXTreeTest, LeaveOrphanedDeletedSubtreeFails) {
   AXTreeUpdate initial_state;
   initial_state.nodes.resize(3);
   initial_state.nodes[0].id = 1;
   initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   initial_state.nodes[0].child_ids.push_back(2);
   initial_state.nodes[0].child_ids.push_back(3);
   initial_state.nodes[1].id = 2;
   initial_state.nodes[2].id = 3;
   AXTree tree(initial_state);

   // This should fail because we delete a subtree rooted at id=2
   // but never update it.
   AXTreeUpdate update;
   update.node_id_to_clear = 2;
   update.nodes.resize(1);
   update.nodes[0].id = 3;
   EXPECT_FALSE(tree.Unserialize(update));
   ASSERT_EQ("Nodes left pending by the update: 2", tree.error());
 }

 TEST(AXTreeTest, LeaveOrphanedNewChildFails) {
   AXTreeUpdate initial_state;
   initial_state.nodes.resize(1);
   initial_state.nodes[0].id = 1;
   initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   AXTree tree(initial_state);

   // This should fail because we add a new child to the root node
   // but never update it.
   AXTreeUpdate update;
   update.nodes.resize(1);
   update.nodes[0].id = 1;
   update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   update.nodes[0].child_ids.push_back(2);
   EXPECT_FALSE(tree.Unserialize(update));
   ASSERT_EQ("Nodes left pending by the update: 2", tree.error());
 }

 TEST(AXTreeTest, DuplicateChildIdFails) {
   AXTreeUpdate initial_state;
   initial_state.nodes.resize(1);
   initial_state.nodes[0].id = 1;
   initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   AXTree tree(initial_state);

   // This should fail because a child id appears twice.
   AXTreeUpdate update;
   update.nodes.resize(2);
   update.nodes[0].id = 1;
   update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   update.nodes[0].child_ids.push_back(2);
   update.nodes[0].child_ids.push_back(2);
   update.nodes[1].id = 2;
   EXPECT_FALSE(tree.Unserialize(update));
   ASSERT_EQ("Node 1 has duplicate child id 2", tree.error());
 }

 TEST(AXTreeTest, InvalidReparentingFails) {
   AXTreeUpdate initial_state;
   initial_state.nodes.resize(3);
   initial_state.nodes[0].id = 1;
   initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   initial_state.nodes[0].child_ids.push_back(2);
   initial_state.nodes[1].id = 2;
   initial_state.nodes[1].child_ids.push_back(3);
   initial_state.nodes[2].id = 3;

   AXTree tree(initial_state);

   // This should fail because node 3 is reparented from node 2 to node 1
   // without deleting node 1's subtree first.
   AXTreeUpdate update;
   update.nodes.resize(3);
   update.nodes[0].id = 1;
   update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   update.nodes[0].child_ids.push_back(3);
   update.nodes[0].child_ids.push_back(2);
   update.nodes[1].id = 2;
   update.nodes[2].id = 3;
   EXPECT_FALSE(tree.Unserialize(update));
   ASSERT_EQ("Node 3 reparented from 2 to 1", tree.error());
 }

 TEST(AXTreeTest, TreeDelegateIsCalled) {
   AXTreeUpdate initial_state;
   initial_state.nodes.resize(1);
   initial_state.nodes[0].id = 1;
   initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;

   AXTree tree(initial_state);
   AXTreeUpdate update;
   update.node_id_to_clear = 1;
   update.nodes.resize(2);
   update.nodes[0].id = 2;
   update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
   update.nodes[0].child_ids.push_back(3);
   update.nodes[1].id = 3;

   FakeAXTreeDelegate fake_delegate;
   tree.SetDelegate(&fake_delegate);

   EXPECT_TRUE(tree.Unserialize(update));

   ASSERT_EQ(1U, fake_delegate.deleted_ids().size());
   EXPECT_EQ(1, fake_delegate.deleted_ids()[0]);

   ASSERT_EQ(2U, fake_delegate.created_ids().size());
   EXPECT_EQ(2, fake_delegate.created_ids()[0]);
   EXPECT_EQ(3, fake_delegate.created_ids()[1]);

   ASSERT_EQ(2U, fake_delegate.creation_finished_ids().size());
   EXPECT_EQ(2, fake_delegate.creation_finished_ids()[0]);
   EXPECT_EQ(3, fake_delegate.creation_finished_ids()[1]);

   ASSERT_EQ(1U, fake_delegate.new_root_ids().size());
   EXPECT_EQ(2, fake_delegate.new_root_ids()[0]);

   tree.SetDelegate(NULL);
 }

 }  // namespace ui
	// Copyright 2013 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 "base/memory/scoped_ptr.h"
	#include "base/strings/string_number_conversions.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/accessibility/ax_node.h"
	#include "ui/accessibility/ax_serializable_tree.h"
	#include "ui/accessibility/ax_tree.h"
	#include "ui/accessibility/ax_tree_serializer.h"

	namespace ui {

	namespace {

	class FakeAXTreeDelegate : public AXTreeDelegate {
	public:
	virtual void OnNodeWillBeDeleted(AXNode* node) OVERRIDE {
	deleted_ids_.push_back(node->id());
	}

	virtual void OnNodeCreated(AXNode* node) OVERRIDE {
	created_ids_.push_back(node->id());
	}

	virtual void OnNodeChanged(AXNode* node) OVERRIDE {
	changed_ids_.push_back(node->id());
	}

	virtual void OnNodeCreationFinished(AXNode* node) OVERRIDE {
	creation_finished_ids_.push_back(node->id());
	}

	virtual void OnNodeChangeFinished(AXNode* node) OVERRIDE {
	change_finished_ids_.push_back(node->id());
	}

	virtual void OnRootChanged(AXNode* new_root) OVERRIDE {
	new_root_ids_.push_back(new_root->id());
	}

	const std::vector<int32>& deleted_ids() { return deleted_ids_; }
	const std::vector<int32>& created_ids() { return created_ids_; }
	const std::vector<int32>& creation_finished_ids() {
	return creation_finished_ids_;
	}
	const std::vector<int32>& new_root_ids() { return new_root_ids_; }

	private:
	std::vector<int32> deleted_ids_;
	std::vector<int32> created_ids_;
	std::vector<int32> creation_finished_ids_;
	std::vector<int32> changed_ids_;
	std::vector<int32> change_finished_ids_;
	std::vector<int32> new_root_ids_;
	};

	} // namespace

	TEST(AXTreeTest, SerializeSimpleAXTree) {
	AXNodeData root;
	root.id = 1;
	root.role = AX_ROLE_ROOT_WEB_AREA;
	root.state = (1 << AX_STATE_FOCUSABLE) \| (1 << AX_STATE_FOCUSED);
	root.location = gfx::Rect(0, 0, 800, 600);
	root.child_ids.push_back(2);
	root.child_ids.push_back(3);

	AXNodeData button;
	button.id = 2;
	button.role = AX_ROLE_BUTTON;
	button.state = 0;
	button.location = gfx::Rect(20, 20, 200, 30);

	AXNodeData checkbox;
	checkbox.id = 3;
	checkbox.role = AX_ROLE_CHECK_BOX;
	checkbox.state = 0;
	checkbox.location = gfx::Rect(20, 50, 200, 30);

	AXTreeUpdate initial_state;
	initial_state.nodes.push_back(root);
	initial_state.nodes.push_back(button);
	initial_state.nodes.push_back(checkbox);
	AXSerializableTree src_tree(initial_state);

	scoped_ptr<AXTreeSource<const AXNode*> > tree_source(
	src_tree.CreateTreeSource());
	AXTreeSerializer<const AXNode*> serializer(tree_source.get());
	AXTreeUpdate update;
	serializer.SerializeChanges(src_tree.GetRoot(), &update);

	AXTree dst_tree;
	ASSERT_TRUE(dst_tree.Unserialize(update));

	const AXNode* root_node = dst_tree.GetRoot();
	ASSERT_TRUE(root_node != NULL);
	EXPECT_EQ(root.id, root_node->id());
	EXPECT_EQ(root.role, root_node->data().role);

	ASSERT_EQ(2, root_node->child_count());

	const AXNode* button_node = root_node->ChildAtIndex(0);
	EXPECT_EQ(button.id, button_node->id());
	EXPECT_EQ(button.role, button_node->data().role);

	const AXNode* checkbox_node = root_node->ChildAtIndex(1);
	EXPECT_EQ(checkbox.id, checkbox_node->id());
	EXPECT_EQ(checkbox.role, checkbox_node->data().role);

	EXPECT_EQ(
	"id=1 rootWebArea FOCUSABLE FOCUSED (0, 0)-(800, 600) child_ids=2,3\n"
	" id=2 button (20, 20)-(200, 30)\n"
	" id=3 checkBox (20, 50)-(200, 30)\n",
	dst_tree.ToString());
	}

	TEST(AXTreeTest, SerializeAXTreeUpdate) {
	AXNodeData list;
	list.id = 3;
	list.role = AX_ROLE_LIST;
	list.state = 0;
	list.child_ids.push_back(4);
	list.child_ids.push_back(5);
	list.child_ids.push_back(6);

	AXNodeData list_item_2;
	list_item_2.id = 5;
	list_item_2.role = AX_ROLE_LIST_ITEM;
	list_item_2.state = 0;

	AXNodeData list_item_3;
	list_item_3.id = 6;
	list_item_3.role = AX_ROLE_LIST_ITEM;
	list_item_3.state = 0;

	AXNodeData button;
	button.id = 7;
	button.role = AX_ROLE_BUTTON;
	button.state = 0;

	AXTreeUpdate update;
	update.nodes.push_back(list);
	update.nodes.push_back(list_item_2);
	update.nodes.push_back(list_item_3);
	update.nodes.push_back(button);

	EXPECT_EQ(
	"id=3 list (0, 0)-(0, 0) child_ids=4,5,6\n"
	" id=5 listItem (0, 0)-(0, 0)\n"
	" id=6 listItem (0, 0)-(0, 0)\n"
	"id=7 button (0, 0)-(0, 0)\n",
	update.ToString());
	}

	TEST(AXTreeTest, DeleteUnknownSubtreeFails) {
	AXNodeData root;
	root.id = 1;
	root.role = AX_ROLE_ROOT_WEB_AREA;

	AXTreeUpdate initial_state;
	initial_state.nodes.push_back(root);
	AXTree tree(initial_state);

	// This should fail because we're asking it to delete
	// a subtree rooted at id=2, which doesn't exist.
	AXTreeUpdate update;
	update.node_id_to_clear = 2;
	update.nodes.resize(1);
	update.nodes[0].id = 1;
	update.nodes[0].id = AX_ROLE_ROOT_WEB_AREA;
	EXPECT_FALSE(tree.Unserialize(update));
	ASSERT_EQ("Bad node_id_to_clear: 2", tree.error());
	}

	TEST(AXTreeTest, LeaveOrphanedDeletedSubtreeFails) {
	AXTreeUpdate initial_state;
	initial_state.nodes.resize(3);
	initial_state.nodes[0].id = 1;
	initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	initial_state.nodes[0].child_ids.push_back(2);
	initial_state.nodes[0].child_ids.push_back(3);
	initial_state.nodes[1].id = 2;
	initial_state.nodes[2].id = 3;
	AXTree tree(initial_state);

	// This should fail because we delete a subtree rooted at id=2
	// but never update it.
	AXTreeUpdate update;
	update.node_id_to_clear = 2;
	update.nodes.resize(1);
	update.nodes[0].id = 3;
	EXPECT_FALSE(tree.Unserialize(update));
	ASSERT_EQ("Nodes left pending by the update: 2", tree.error());
	}

	TEST(AXTreeTest, LeaveOrphanedNewChildFails) {
	AXTreeUpdate initial_state;
	initial_state.nodes.resize(1);
	initial_state.nodes[0].id = 1;
	initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	AXTree tree(initial_state);

	// This should fail because we add a new child to the root node
	// but never update it.
	AXTreeUpdate update;
	update.nodes.resize(1);
	update.nodes[0].id = 1;
	update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	update.nodes[0].child_ids.push_back(2);
	EXPECT_FALSE(tree.Unserialize(update));
	ASSERT_EQ("Nodes left pending by the update: 2", tree.error());
	}

	TEST(AXTreeTest, DuplicateChildIdFails) {
	AXTreeUpdate initial_state;
	initial_state.nodes.resize(1);
	initial_state.nodes[0].id = 1;
	initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	AXTree tree(initial_state);

	// This should fail because a child id appears twice.
	AXTreeUpdate update;
	update.nodes.resize(2);
	update.nodes[0].id = 1;
	update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	update.nodes[0].child_ids.push_back(2);
	update.nodes[0].child_ids.push_back(2);
	update.nodes[1].id = 2;
	EXPECT_FALSE(tree.Unserialize(update));
	ASSERT_EQ("Node 1 has duplicate child id 2", tree.error());
	}

	TEST(AXTreeTest, InvalidReparentingFails) {
	AXTreeUpdate initial_state;
	initial_state.nodes.resize(3);
	initial_state.nodes[0].id = 1;
	initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	initial_state.nodes[0].child_ids.push_back(2);
	initial_state.nodes[1].id = 2;
	initial_state.nodes[1].child_ids.push_back(3);
	initial_state.nodes[2].id = 3;

	AXTree tree(initial_state);

	// This should fail because node 3 is reparented from node 2 to node 1
	// without deleting node 1's subtree first.
	AXTreeUpdate update;
	update.nodes.resize(3);
	update.nodes[0].id = 1;
	update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	update.nodes[0].child_ids.push_back(3);
	update.nodes[0].child_ids.push_back(2);
	update.nodes[1].id = 2;
	update.nodes[2].id = 3;
	EXPECT_FALSE(tree.Unserialize(update));
	ASSERT_EQ("Node 3 reparented from 2 to 1", tree.error());
	}

	TEST(AXTreeTest, TreeDelegateIsCalled) {
	AXTreeUpdate initial_state;
	initial_state.nodes.resize(1);
	initial_state.nodes[0].id = 1;
	initial_state.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;

	AXTree tree(initial_state);
	AXTreeUpdate update;
	update.node_id_to_clear = 1;
	update.nodes.resize(2);
	update.nodes[0].id = 2;
	update.nodes[0].role = AX_ROLE_ROOT_WEB_AREA;
	update.nodes[0].child_ids.push_back(3);
	update.nodes[1].id = 3;

	FakeAXTreeDelegate fake_delegate;
	tree.SetDelegate(&fake_delegate);

	EXPECT_TRUE(tree.Unserialize(update));

	ASSERT_EQ(1U, fake_delegate.deleted_ids().size());
	EXPECT_EQ(1, fake_delegate.deleted_ids()[0]);

	ASSERT_EQ(2U, fake_delegate.created_ids().size());
	EXPECT_EQ(2, fake_delegate.created_ids()[0]);
	EXPECT_EQ(3, fake_delegate.created_ids()[1]);

	ASSERT_EQ(2U, fake_delegate.creation_finished_ids().size());
	EXPECT_EQ(2, fake_delegate.creation_finished_ids()[0]);
	EXPECT_EQ(3, fake_delegate.creation_finished_ids()[1]);

	ASSERT_EQ(1U, fake_delegate.new_root_ids().size());
	EXPECT_EQ(2, fake_delegate.new_root_ids()[0]);

	tree.SetDelegate(NULL);
	}

	} // namespace ui