cef/libcef/browser/osr/osr_accessibility_util.cc
2019-02-01 16:42:40 +00:00

496 lines
18 KiB
C++

// Copyright 2017 The Chromium Embedded Framework 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 "libcef/browser/osr/osr_accessibility_util.h"
#include <algorithm>
#include <string>
#include <utility>
#include "base/json/string_escape.h"
#include "base/stl_util.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "content/public/browser/ax_event_notification_details.h"
#include "ui/accessibility/ax_enum_util.h"
#include "ui/accessibility/ax_enums.mojom.h"
#include "ui/accessibility/ax_text_utils.h"
#include "ui/accessibility/ax_tree_update.h"
#include "ui/gfx/transform.h"
namespace {
using ui::ToString;
template <typename T>
CefRefPtr<CefListValue> ToCefValue(const std::vector<T>& vecData);
template <>
CefRefPtr<CefListValue> ToCefValue<int>(const std::vector<int>& vecData) {
CefRefPtr<CefListValue> value = CefListValue::Create();
for (size_t i = 0; i < vecData.size(); i++)
value->SetInt(i, vecData[i]);
return value;
}
// Helper function for AXNodeData::ToCefValue - Converts AXState attributes to
// CefListValue.
CefRefPtr<CefListValue> ToCefValue(uint32_t state) {
CefRefPtr<CefListValue> value = CefListValue::Create();
int index = 0;
// Iterate and find which states are set.
for (unsigned i = static_cast<unsigned>(ax::mojom::Role::kMinValue) + 1;
i <= static_cast<unsigned>(ax::mojom::Role::kMaxValue); i++) {
if (state & (1 << i))
value->SetString(index++, ToString(static_cast<ax::mojom::State>(i)));
}
return value;
}
// Helper function for AXNodeData::ToCefValue - converts GfxRect to
// CefDictionaryValue.
CefRefPtr<CefDictionaryValue> ToCefValue(const gfx::RectF& bounds) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
value->SetDouble("x", bounds.x());
value->SetDouble("y", bounds.y());
value->SetDouble("width", bounds.width());
value->SetDouble("height", bounds.height());
return value;
}
// Helper Functor for adding AxNodeData::attributes to AXNodeData::ToCefValue.
struct PopulateAxNodeAttributes {
CefRefPtr<CefDictionaryValue> attributes;
explicit PopulateAxNodeAttributes(CefRefPtr<CefDictionaryValue> attrs)
: attributes(attrs) {}
// Int Attributes
void operator()(const std::pair<ax::mojom::IntAttribute, int32_t> attr) {
if (attr.first == ax::mojom::IntAttribute::kNone)
return;
switch (attr.first) {
case ax::mojom::IntAttribute::kNone:
break;
case ax::mojom::IntAttribute::kScrollX:
case ax::mojom::IntAttribute::kScrollXMin:
case ax::mojom::IntAttribute::kScrollXMax:
case ax::mojom::IntAttribute::kScrollY:
case ax::mojom::IntAttribute::kScrollYMin:
case ax::mojom::IntAttribute::kScrollYMax:
case ax::mojom::IntAttribute::kHasPopup:
case ax::mojom::IntAttribute::kHierarchicalLevel:
case ax::mojom::IntAttribute::kTextSelStart:
case ax::mojom::IntAttribute::kTextSelEnd:
case ax::mojom::IntAttribute::kAriaColumnCount:
case ax::mojom::IntAttribute::kAriaCellColumnIndex:
case ax::mojom::IntAttribute::kAriaRowCount:
case ax::mojom::IntAttribute::kAriaCellRowIndex:
case ax::mojom::IntAttribute::kTableRowCount:
case ax::mojom::IntAttribute::kTableColumnCount:
case ax::mojom::IntAttribute::kTableCellColumnIndex:
case ax::mojom::IntAttribute::kTableCellRowIndex:
case ax::mojom::IntAttribute::kTableCellColumnSpan:
case ax::mojom::IntAttribute::kTableCellRowSpan:
case ax::mojom::IntAttribute::kTableColumnHeaderId:
case ax::mojom::IntAttribute::kTableColumnIndex:
case ax::mojom::IntAttribute::kTableHeaderId:
case ax::mojom::IntAttribute::kTableRowHeaderId:
case ax::mojom::IntAttribute::kTableRowIndex:
case ax::mojom::IntAttribute::kActivedescendantId:
case ax::mojom::IntAttribute::kInPageLinkTargetId:
case ax::mojom::IntAttribute::kErrormessageId:
case ax::mojom::IntAttribute::kDetailsId:
case ax::mojom::IntAttribute::kMemberOfId:
case ax::mojom::IntAttribute::kNextFocusId:
case ax::mojom::IntAttribute::kNextOnLineId:
case ax::mojom::IntAttribute::kPreviousFocusId:
case ax::mojom::IntAttribute::kPreviousOnLineId:
case ax::mojom::IntAttribute::kSetSize:
case ax::mojom::IntAttribute::kPosInSet:
attributes->SetInt(ToString(attr.first), attr.second);
break;
case ax::mojom::IntAttribute::kDefaultActionVerb:
attributes->SetString(
ToString(attr.first),
ui::ActionVerbToUnlocalizedString(
static_cast<ax::mojom::DefaultActionVerb>(attr.second)));
break;
case ax::mojom::IntAttribute::kInvalidState: {
auto state = static_cast<ax::mojom::InvalidState>(attr.second);
if (ax::mojom::InvalidState::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kCheckedState: {
auto state = static_cast<ax::mojom::CheckedState>(attr.second);
if (ax::mojom::CheckedState::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kRestriction:
attributes->SetString(
ToString(attr.first),
ToString(static_cast<ax::mojom::Restriction>(attr.second)));
break;
case ax::mojom::IntAttribute::kSortDirection: {
auto state = static_cast<ax::mojom::SortDirection>(attr.second);
if (ax::mojom::SortDirection::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kNameFrom:
attributes->SetString(
ToString(attr.first),
ToString(static_cast<ax::mojom::NameFrom>(attr.second)));
break;
case ax::mojom::IntAttribute::kColorValue:
case ax::mojom::IntAttribute::kBackgroundColor:
case ax::mojom::IntAttribute::kColor:
attributes->SetString(ToString(attr.first),
base::StringPrintf("0x%X", attr.second));
break;
case ax::mojom::IntAttribute::kDescriptionFrom:
attributes->SetString(
ToString(attr.first),
ToString(static_cast<ax::mojom::DescriptionFrom>(attr.second)));
break;
case ax::mojom::IntAttribute::kAriaCurrentState: {
auto state = static_cast<ax::mojom::AriaCurrentState>(attr.second);
if (ax::mojom::AriaCurrentState::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kTextDirection: {
auto state = static_cast<ax::mojom::TextDirection>(attr.second);
if (ax::mojom::TextDirection::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kTextPosition: {
auto state = static_cast<ax::mojom::TextPosition>(attr.second);
if (ax::mojom::TextPosition::kNone != state) {
attributes->SetString(ToString(attr.first), ToString(state));
}
} break;
case ax::mojom::IntAttribute::kTextStyle: {
static ax::mojom::TextStyle textStyleArr[] = {
ax::mojom::TextStyle::kBold, ax::mojom::TextStyle::kItalic,
ax::mojom::TextStyle::kUnderline,
ax::mojom::TextStyle::kLineThrough};
CefRefPtr<CefListValue> list = CefListValue::Create();
int index = 0;
// Iterate and find which states are set.
for (unsigned i = 0; i < base::size(textStyleArr); i++) {
if (attr.second & static_cast<int>(textStyleArr[i]))
list->SetString(index++, ToString(textStyleArr[i]));
}
attributes->SetList(ToString(attr.first), list);
} break;
}
}
// Set Bool Attributes.
void operator()(const std::pair<ax::mojom::BoolAttribute, bool> attr) {
if (attr.first != ax::mojom::BoolAttribute::kNone)
attributes->SetBool(ToString(attr.first), attr.second);
}
// Set String Attributes.
void operator()(
const std::pair<ax::mojom::StringAttribute, std::string>& attr) {
if (attr.first != ax::mojom::StringAttribute::kNone)
attributes->SetString(ToString(attr.first), attr.second);
}
// Set Float attributes.
void operator()(const std::pair<ax::mojom::FloatAttribute, float>& attr) {
if (attr.first != ax::mojom::FloatAttribute::kNone)
attributes->SetDouble(ToString(attr.first), attr.second);
}
// Set Int list attributes.
void operator()(const std::pair<ax::mojom::IntListAttribute,
std::vector<int32_t>>& attr) {
if (attr.first != ax::mojom::IntListAttribute::kNone) {
CefRefPtr<CefListValue> list;
if (ax::mojom::IntListAttribute::kMarkerTypes == attr.first) {
list = CefListValue::Create();
int index = 0;
for (size_t i = 0; i < attr.second.size(); ++i) {
auto type = static_cast<ax::mojom::MarkerType>(attr.second[i]);
if (type == ax::mojom::MarkerType::kNone)
continue;
static ax::mojom::MarkerType marktypeArr[] = {
ax::mojom::MarkerType::kSpelling, ax::mojom::MarkerType::kGrammar,
ax::mojom::MarkerType::kTextMatch};
// Iterate and find which markers are set.
for (unsigned j = 0; j < base::size(marktypeArr); j++) {
if (attr.second[i] & static_cast<int>(marktypeArr[j]))
list->SetString(index++, ToString(marktypeArr[j]));
}
}
} else {
list = ToCefValue(attr.second);
}
attributes->SetList(ToString(attr.first), list);
}
}
};
// Converts AXNodeData to CefDictionaryValue(like AXNodeData::ToString).
CefRefPtr<CefDictionaryValue> ToCefValue(const ui::AXNodeData& node) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (node.id != -1)
value->SetInt("id", node.id);
value->SetString("role", ToString(node.role));
value->SetList("state", ToCefValue(node.state));
if (node.relative_bounds.offset_container_id != -1) {
value->SetInt("offset_container_id",
node.relative_bounds.offset_container_id);
}
value->SetDictionary("location", ToCefValue(node.relative_bounds.bounds));
// Transform matrix is private, so we set the string that Clients can parse
// and use if needed.
if (node.relative_bounds.transform &&
!node.relative_bounds.transform->IsIdentity()) {
value->SetString("transform", node.relative_bounds.transform->ToString());
}
if (!node.child_ids.empty()) {
value->SetList("child_ids", ToCefValue(node.child_ids));
}
CefRefPtr<CefListValue> actions_strings;
size_t actions_idx = 0;
for (int action_index = static_cast<int>(ax::mojom::Action::kMinValue) + 1;
action_index <= static_cast<int>(ax::mojom::Action::kMaxValue);
++action_index) {
auto action = static_cast<ax::mojom::Action>(action_index);
if (node.HasAction(action)) {
if (!actions_strings)
actions_strings = CefListValue::Create();
actions_strings->SetString(actions_idx++, ToString(action));
}
}
if (actions_strings)
value->SetList("actions", actions_strings);
CefRefPtr<CefDictionaryValue> attributes = CefDictionaryValue::Create();
PopulateAxNodeAttributes func(attributes);
// Poupulate Int Attributes.
std::for_each(node.int_attributes.begin(), node.int_attributes.end(), func);
// Poupulate String Attributes.
std::for_each(node.string_attributes.begin(), node.string_attributes.end(),
func);
// Poupulate Float Attributes.
std::for_each(node.float_attributes.begin(), node.float_attributes.end(),
func);
// Poupulate Bool Attributes.
std::for_each(node.bool_attributes.begin(), node.bool_attributes.end(), func);
// Populate int list attributes.
std::for_each(node.intlist_attributes.begin(), node.intlist_attributes.end(),
func);
value->SetDictionary("attributes", attributes);
return value;
}
// Converts AXTreeData to CefDictionaryValue(like AXTreeData::ToString).
CefRefPtr<CefDictionaryValue> ToCefValue(const ui::AXTreeData& treeData) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (!treeData.tree_id.ToString().empty())
value->SetString("tree_id", treeData.tree_id.ToString());
if (!treeData.parent_tree_id.ToString().empty())
value->SetString("parent_tree_id", treeData.parent_tree_id.ToString());
if (!treeData.focused_tree_id.ToString().empty())
value->SetString("focused_tree_id", treeData.focused_tree_id.ToString());
if (!treeData.doctype.empty())
value->SetString("doctype", treeData.doctype);
value->SetBool("loaded", treeData.loaded);
if (treeData.loading_progress != 0.0)
value->SetDouble("loading_progress", treeData.loading_progress);
if (!treeData.mimetype.empty())
value->SetString("mimetype", treeData.mimetype);
if (!treeData.url.empty())
value->SetString("url", treeData.url);
if (!treeData.title.empty())
value->SetString("title", treeData.title);
if (treeData.sel_anchor_object_id != -1) {
value->SetInt("sel_anchor_object_id", treeData.sel_anchor_object_id);
value->SetInt("sel_anchor_offset", treeData.sel_anchor_offset);
value->SetString("sel_anchor_affinity",
ToString(treeData.sel_anchor_affinity));
}
if (treeData.sel_focus_object_id != -1) {
value->SetInt("sel_focus_object_id", treeData.sel_anchor_object_id);
value->SetInt("sel_focus_offset", treeData.sel_anchor_offset);
value->SetString("sel_focus_affinity",
ToString(treeData.sel_anchor_affinity));
}
if (treeData.focus_id != -1)
value->SetInt("focus_id", treeData.focus_id);
return value;
}
// Converts AXTreeUpdate to CefDictionaryValue(like AXTreeUpdate::ToString).
CefRefPtr<CefDictionaryValue> ToCefValue(const ui::AXTreeUpdate& update) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (update.has_tree_data) {
value->SetBool("has_tree_data", true);
value->SetDictionary("tree_data", ToCefValue(update.tree_data));
}
if (update.node_id_to_clear != 0)
value->SetInt("node_id_to_clear", update.node_id_to_clear);
if (update.root_id != 0)
value->SetInt("root_id", update.root_id);
value->SetList("nodes", ToCefValue(update.nodes));
return value;
}
// Converts AXEvent to CefDictionaryValue.
CefRefPtr<CefDictionaryValue> ToCefValue(const ui::AXEvent& event) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (event.event_type != ax::mojom::Event::kNone)
value->SetString("event_type", ToString(event.event_type));
if (event.id != -1)
value->SetInt("id", event.id);
if (event.event_from != ax::mojom::EventFrom::kNone)
value->SetString("event_from", ToString(event.event_from));
if (event.action_request_id != -1)
value->SetInt("action_request_id", event.action_request_id);
return value;
}
// Convert AXEventNotificationDetails to CefDictionaryValue.
CefRefPtr<CefDictionaryValue> ToCefValue(
const content::AXEventNotificationDetails& eventData) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (!eventData.ax_tree_id.ToString().empty())
value->SetString("ax_tree_id", eventData.ax_tree_id.ToString());
if (eventData.updates.size() > 0) {
CefRefPtr<CefListValue> updates = CefListValue::Create();
updates->SetSize(eventData.updates.size());
size_t i = 0;
for (const auto& update : eventData.updates) {
updates->SetDictionary(i++, ToCefValue(update));
}
value->SetList("updates", updates);
}
if (eventData.events.size() > 0) {
CefRefPtr<CefListValue> events = CefListValue::Create();
events->SetSize(eventData.events.size());
size_t i = 0;
for (const auto& event : eventData.events) {
events->SetDictionary(i++, ToCefValue(event));
}
value->SetList("events", events);
}
return value;
}
// Convert AXRelativeBounds to CefDictionaryValue. Similar to
// AXRelativeBounds::ToString. See that for more details
CefRefPtr<CefDictionaryValue> ToCefValue(const ui::AXRelativeBounds& location) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (location.offset_container_id != -1)
value->SetInt("offset_container_id", location.offset_container_id);
value->SetDictionary("bounds", ToCefValue(location.bounds));
// Transform matrix is private, so we set the string that Clients can parse
// and use if needed.
if (location.transform && !location.transform->IsIdentity())
value->SetString("transform", location.transform->ToString());
return value;
}
// Convert AXLocationChangeNotificationDetails to CefDictionaryValue.
CefRefPtr<CefDictionaryValue> ToCefValue(
const content::AXLocationChangeNotificationDetails& locData) {
CefRefPtr<CefDictionaryValue> value = CefDictionaryValue::Create();
if (locData.id != -1)
value->SetInt("id", locData.id);
if (!locData.ax_tree_id.ToString().empty())
value->SetString("ax_tree_id", locData.ax_tree_id.ToString());
value->SetDictionary("new_location", ToCefValue(locData.new_location));
return value;
}
template <typename T>
CefRefPtr<CefListValue> ToCefValue(const std::vector<T>& vecData) {
CefRefPtr<CefListValue> value = CefListValue::Create();
for (size_t i = 0; i < vecData.size(); i++)
value->SetDictionary(i, ToCefValue(vecData[i]));
return value;
}
} // namespace
namespace osr_accessibility_util {
CefRefPtr<CefValue> ParseAccessibilityEventData(
const content::AXEventNotificationDetails& data) {
CefRefPtr<CefValue> value = CefValue::Create();
value->SetDictionary(ToCefValue(data));
return value;
}
CefRefPtr<CefValue> ParseAccessibilityLocationData(
const std::vector<content::AXLocationChangeNotificationDetails>& data) {
CefRefPtr<CefValue> value = CefValue::Create();
value->SetList(ToCefValue(data));
return value;
}
} // namespace osr_accessibility_util