$(adaptor_clipboard_common_src_files) \
$(adaptor_clipboard_ubuntu_x11_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
$(adaptor_adaptor_tizen_wayland_src_files) \
$(adaptor_clipboard_common_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
$(adaptor_adaptor_tizen_wayland_src_files) \
$(adaptor_clipboard_common_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
$(adaptor_adaptor_tizen_wayland_src_files) \
$(adaptor_clipboard_common_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
$(adaptor_adaptor_tizen_wayland_src_files) \
$(adaptor_clipboard_common_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
$(adaptor_adaptor_tizen_wearable_src_files) \
$(adaptor_clipboard_common_src_files) \
$(devel_api_src_files) \
+ $(bridge_src_files) \
$(adaptor_devel_api_text_abstraction_src_files) \
$(adaptor_graphics_common_src_files) \
$(adaptor_graphics_gles20_src_files) \
adaptor_adaptor_dir = ../../../dali/internal/adaptor
include ../../../dali/internal/adaptor/file.list
+# Module: atspi-bridge
+bridge_src_dir = ../../../dali/dali-bridge
+include ../../../dali/dali-bridge/file.list
+
# Module: clipboard
adaptor_clipboard_dir = ../../../dali/internal/clipboard
include ../../../dali/internal/clipboard/file.list
adaptor_web_engine_dir = ../../../dali/internal/web-engine-lite
include ../../../dali/internal/web-engine-lite/file.list
-# Module: window-system
+# Module: window-system
adaptor_window_system_dir = ../../../dali/internal/window-system
include ../../../dali/internal/window-system/file.list
--- /dev/null
+bridge_src_files = \
+ $(bridge_src_dir)/src/Accessible.cpp \
+ $(bridge_src_dir)/src/Component.cpp \
+ $(bridge_src_dir)/src/BridgeAccessible.cpp \
+ $(bridge_src_dir)/src/BridgeCollection.cpp \
+ $(bridge_src_dir)/src/BridgeBase.cpp \
+ $(bridge_src_dir)/src/BridgeComponent.cpp \
+ $(bridge_src_dir)/src/BridgeAction.cpp \
+ $(bridge_src_dir)/src/BridgeValue.cpp \
+ $(bridge_src_dir)/src/BridgeObject.cpp \
+ $(bridge_src_dir)/src/BridgeImpl.cpp \
+ $(bridge_src_dir)/src/DBus.cpp \
+ $(bridge_src_dir)/src/BridgeText.cpp \
+ $(bridge_src_dir)/src/BridgeEditableText.cpp
--- /dev/null
+#include "Common.hpp"
+
+using namespace Dali::Accessibility;
+
+std::vector< std::string > Accessible::GetInterfaces()
+{
+ std::vector< std::string > tmp;
+ tmp.push_back( ATSPI_DBUS_INTERFACE_ACCESSIBLE );
+ if( dynamic_cast< Collection* >( this ) )
+ tmp.push_back( ATSPI_DBUS_INTERFACE_COLLECTION );
+ if( dynamic_cast< Text* >( this ) )
+ tmp.push_back( ATSPI_DBUS_INTERFACE_TEXT );
+ if( dynamic_cast< Value* >( this ) )
+ tmp.push_back( ATSPI_DBUS_INTERFACE_VALUE );
+ if( dynamic_cast< Component* >( this ) )
+ tmp.push_back( ATSPI_DBUS_INTERFACE_COMPONENT );
+ if( auto d = dynamic_cast< Action* >( this ) )
+ {
+ if( d->GetActionCount() > 0 )
+ tmp.push_back( ATSPI_DBUS_INTERFACE_ACTION );
+ }
+ return tmp;
+}
+
+thread_local std::atomic< Bridge* > threadLocalBridge{};
+std::atomic< Bridge* > allThreads{};
+
+Bridge* Bridge::GetCurrentBridge()
+{
+ auto p = threadLocalBridge.load();
+ if( !p )
+ p = allThreads.load();
+ return p;
+}
+
+Accessible::Accessible()
+{
+}
+
+Accessible::~Accessible()
+{
+ auto b = bridgeData.lock();
+ if( b )
+ b->objects.erase( it );
+}
+
+void Bridge::MakePublic( Visibility vis )
+{
+ bool res = false;
+ Bridge* expected = this;
+
+ switch( vis )
+ {
+ case Visibility::hidden:
+ {
+ threadLocalBridge.compare_exchange_strong( expected, nullptr );
+ allThreads.compare_exchange_strong( expected, nullptr );
+ break;
+ }
+ case Visibility::thisThreadOnly:
+ {
+ res = threadLocalBridge.exchange( this );
+ assert( !res );
+ break;
+ }
+ case Visibility::allThreads:
+ {
+ res = allThreads.exchange( this );
+ assert( !res );
+ break;
+ }
+ }
+}
+
+void Accessible::EmitShowing( bool showing )
+{
+ if( auto b = GetBridgeData() )
+ {
+ b->bridge->EmitStateChanged( this, State::Showing, showing ? 1 : 0, 0 );
+ }
+}
+
+void Accessible::EmitVisible( bool visible )
+{
+ if( auto b = GetBridgeData() )
+ {
+ b->bridge->EmitStateChanged( this, State::Visible, visible ? 1 : 0, 0 );
+ }
+}
+
+void Accessible::EmitHighlighted( bool set )
+{
+ if( auto b = GetBridgeData() )
+ {
+ b->bridge->EmitStateChanged( this, State::Highlighted, set ? 1 : 0, 0 );
+ }
+}
+
+void Accessible::Emit( WindowEvent we, unsigned int detail1 )
+{
+ if( auto b = GetBridgeData() )
+ {
+ b->bridge->Emit( this, we, detail1 );
+ }
+}
+
+std::vector< Accessible* > Accessible::GetChildren()
+{
+ std::vector< Accessible* > tmp( GetChildCount() );
+ for( auto i = 0u; i < tmp.size(); ++i )
+ {
+ tmp[i] = GetChildAtIndex( i );
+ }
+ return tmp;
+}
+
+std::shared_ptr< Bridge::Data > Accessible::GetBridgeData()
+{
+ auto b = bridgeData.lock();
+ if( !b )
+ {
+ auto p = Bridge::GetCurrentBridge();
+ if( !p )
+ return {};
+ b = p->data;
+ }
+ return b;
+}
+
+Address Accessible::GetAddress()
+{
+ auto b = bridgeData.lock();
+ if( !b )
+ {
+ b = GetBridgeData();
+ assert( b );
+ b->bridge->RegisterOnBridge( this );
+ }
+ return {b->busName, b->root == this ? "root" : std::to_string( it->first )};
+}
+
+void Bridge::RegisterOnBridge( Accessible* obj )
+{
+ assert( !obj->bridgeData.lock() || obj->bridgeData.lock() == data );
+ if( !obj->bridgeData.lock() )
+ {
+ assert( data );
+ auto oid = ++data->objectId;
+ obj->it = data->objects.insert( {oid, obj} ).first;
+ obj->bridgeData = data;
+ }
+}
+
+bool Accessible::IsProxy()
+{
+ return false;
+}
--- /dev/null
+#include "BridgeAccessible.hpp"
+#include <iostream>
+
+using namespace Dali::Accessibility;
+
+#define GET_NAVIGABLE_AT_POINT_MAX_RECURSION_DEPTH 10000
+
+BridgeAccessible::BridgeAccessible()
+{
+}
+
+void BridgeAccessible::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_ACCESSIBLE};
+ AddGetPropertyToInterface( desc, "ChildCount", &BridgeAccessible::GetChildCount );
+ AddGetPropertyToInterface( desc, "Name", &BridgeAccessible::GetName );
+ AddGetPropertyToInterface( desc, "Description", &BridgeAccessible::GetDescription );
+ AddGetPropertyToInterface( desc, "Parent", &BridgeAccessible::GetParent );
+ AddFunctionToInterface( desc, "GetRole", &BridgeAccessible::GetRole );
+ AddFunctionToInterface( desc, "GetRoleName", &BridgeAccessible::GetRoleName );
+ AddFunctionToInterface( desc, "GetLocalizedRoleName", &BridgeAccessible::GetLocalizedRoleName );
+ AddFunctionToInterface( desc, "GetState", &BridgeAccessible::GetStates );
+ AddFunctionToInterface( desc, "GetAttributes", &BridgeAccessible::GetAttributes );
+ AddFunctionToInterface( desc, "GetInterfaces", &BridgeAccessible::GetInterfaces );
+ AddFunctionToInterface( desc, "GetChildAtIndex", &BridgeAccessible::GetChildAtIndex );
+ AddFunctionToInterface( desc, "GetChildren", &BridgeAccessible::GetChildren );
+ AddFunctionToInterface( desc, "GetIndexInParent", &BridgeAccessible::GetIndexInParent );
+ AddFunctionToInterface( desc, "GetNavigableAtPoint", &BridgeAccessible::GetNavigableAtPoint );
+ AddFunctionToInterface( desc, "GetNeighbor", &BridgeAccessible::GetNeighbor );
+ AddFunctionToInterface( desc, "GetDefaultLabelInfo", &BridgeAccessible::GetDefaultLabelInfo );
+ AddFunctionToInterface( desc, "DoGesture", &BridgeAccessible::DoGesture );
+ AddFunctionToInterface( desc, "GetReadingMaterial", &BridgeAccessible::GetReadingMaterial );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+static bool AcceptObjectCheckRole( Component* obj )
+{
+ if( !obj )
+ return false;
+ switch( obj->GetRole() )
+ {
+ case Role::Application:
+ case Role::Filler:
+ case Role::ScrollPane:
+ case Role::SplitPane:
+ case Role::Window:
+ case Role::Image:
+ case Role::ImageMap:
+ case Role::List:
+ case Role::Icon:
+ case Role::ToolBar:
+ case Role::RedundantObject:
+ case Role::ColorChooser:
+ case Role::TreeTable:
+ case Role::PageTabList:
+ case Role::PageTab:
+ case Role::SpinButton:
+ case Role::InputMethodWindow:
+ case Role::Embedded:
+ case Role::Invalid:
+ case Role::Notification:
+ case Role::DateEditor:
+ {
+ return false;
+ }
+ default:
+ {
+ break;
+ }
+ }
+
+ return true;
+}
+
+static Component* GetScrollableParent( Accessible* obj )
+{
+ while( obj )
+ {
+ obj = obj->GetParent();
+ auto comp = dynamic_cast< Component* >( obj );
+ if( comp && comp->IsScrollable() )
+ return comp;
+ }
+ return nullptr;
+}
+
+static bool ObjectIsItem( Component* obj )
+{
+ if( !obj )
+ return false;
+ auto role = obj->GetRole();
+ return role == Role::ListItem || role == Role::MenuItem;
+}
+
+static bool ObjectIsCollapsed( Component* obj )
+{
+ if( !obj )
+ return false;
+ const auto states = obj->GetStates();
+ return states[State::Expandable] && !states[State::Expanded];
+}
+
+static bool OobjectIsZeroSize( Component* obj )
+{
+ if( !obj )
+ return false;
+ auto size = obj->GetExtents( CoordType::Window ).size;
+ return size.height == 0 || size.width == 0;
+}
+
+static bool AcceptObject( Component* obj )
+{
+ if( !obj )
+ return false;
+ const auto states = obj->GetStates();
+ if( !states[State::Visible] )
+ return false;
+ if( !AcceptObjectCheckRole( obj ) )
+ return false;
+/*
+ TODO: add relations
+ if (CALL(get_object_in_relation_by_type, obj, ATSPI_RELATION_CONTROLLED_BY) != NULL) return 0;
+*/
+ if( !states[State::Highlightable] )
+ return false;
+
+ if( GetScrollableParent( obj ) != nullptr )
+ {
+ auto parent = dynamic_cast< Component* >( obj->GetParent() );
+
+ if( parent )
+ {
+ return !ObjectIsItem( obj ) || !ObjectIsCollapsed( parent );
+ }
+ }
+ else
+ {
+ if( OobjectIsZeroSize( obj ) )
+ {
+ return false;
+ }
+ if( !states[State::Showing] )
+ {
+ return false;
+ }
+ }
+ return true;
+}
+
+static bool AcceptObject( Accessible* obj )
+{
+ auto c = dynamic_cast< Component* >( obj );
+ return AcceptObject( c );
+}
+
+static bool AcceptObjectOrProxy( Component* obj )
+{
+ return obj->IsProxy() || AcceptObject( obj );
+}
+
+static Component* CalculateNavigableAccessibleAtPoint( Accessible* root, Point p, CoordType cType, unsigned int maxRecursionDepth )
+{
+ if( !root || maxRecursionDepth == 0 )
+ return nullptr;
+ auto root_component = dynamic_cast< Component* >( root );
+ if( root_component && !root_component->Contains( p, cType ) )
+ {
+ return nullptr;
+ }
+
+ auto children = root->GetChildren();
+ for( auto childIt = children.rbegin(); childIt != children.rend(); childIt++ )
+ {
+ auto result = CalculateNavigableAccessibleAtPoint( *childIt, p, cType, maxRecursionDepth - 1 );
+ if( result )
+ return result;
+ }
+ if( root_component && AcceptObjectOrProxy( root_component ) )
+ return root_component;
+ return nullptr;
+
+ /*
+ TODO: add relations
+ void *relation_obj = CALL(get_object_in_relation_by_type, root, ATSPI_RELATION_CONTROLLED_BY);
+ unsigned char contains = 0;
+ if (relation_obj)
+ {
+ contains = CALL(object_contains, relation_obj, x, y, coordinates_are_screen_based);
+ if (contains) root = relation_obj;
+ }
+ */
+}
+
+BridgeAccessible::ReadingMaterialType BridgeAccessible::GetReadingMaterial()
+{
+ auto self = FindSelf();
+ auto attributes = self->GetAttributes();
+ auto name = self->GetName();
+ std::string labeledByName = "";
+ std::string textIfceName = "";
+ auto role = static_cast< uint32_t >( self->GetRole() );
+ auto states = self->GetStates();
+ auto localizedName = self->GetLocalizedRoleName();
+ auto childCount = static_cast< int32_t >( self->GetChildCount() );
+
+ double currentValue = 0.0;
+ double minimumIncrement = 0.0;
+ double maximumValue = 0.0;
+ double minimumValue = 0.0;
+
+ auto description = self->GetDescription();
+ auto indexInParent = static_cast< int32_t >( self->GetIndexInParent() );
+ bool isSelectedInParent = false;
+ bool hasCheckBoxChild = false;
+ int32_t firstSelectedChildIndex = 0;
+ int32_t selectedChildCount = 0;
+
+ for( auto i = 0u; i < static_cast< size_t >( childCount ); ++i )
+ {
+ auto q = self->GetChildAtIndex( i );
+ auto s = q->GetStates();
+ if( s[State::Selectable] )
+ {
+ ++selectedChildCount;
+ if( s[State::Selected] )
+ {
+ if( firstSelectedChildIndex < 0 )
+ firstSelectedChildIndex = static_cast< int32_t >( i );
+ }
+ }
+ if( q->GetRole() == Role::CheckBox )
+ hasCheckBoxChild = true;
+ }
+
+ int32_t listChildrenCount = 0;
+ Accessible* parent = self->GetParent();
+ auto parentStateSet = parent ? parent->GetStates() : States{};
+ auto parentChildCount = parent ? static_cast< int32_t >( parent->GetChildCount() ) : 0;
+ auto parentRole = static_cast< uint32_t >( parent ? parent->GetRole() : Role{} );
+ Accessible* describedByObject = nullptr;
+
+ return {
+ attributes,
+ name,
+ labeledByName,
+ textIfceName,
+ role,
+ states,
+ localizedName,
+ childCount,
+ currentValue,
+ minimumIncrement,
+ maximumValue,
+ minimumValue,
+ description,
+ indexInParent,
+ isSelectedInParent,
+ hasCheckBoxChild,
+ listChildrenCount,
+ firstSelectedChildIndex,
+ parent,
+ parentStateSet,
+ parentChildCount,
+ parentRole,
+ selectedChildCount,
+ describedByObject};
+}
+
+DBus::ValueOrError< bool > BridgeAccessible::DoGesture( int32_t, int32_t, int32_t, int32_t, int32_t, int32_t, uint32_t )
+{
+ return false;
+}
+
+DBus::ValueOrError< Accessible*, uint8_t, Accessible* > BridgeAccessible::GetNavigableAtPoint( int32_t x, int32_t y, uint32_t coordType )
+{
+ SCOPE();
+ Accessible* deputy = nullptr;
+ auto accessible = FindSelf();
+ auto cType = static_cast< CoordType >( coordType );
+ auto component = CalculateNavigableAccessibleAtPoint( accessible, {x, y}, cType, GET_NAVIGABLE_AT_POINT_MAX_RECURSION_DEPTH );
+ bool recurse = false;
+ if( component )
+ {
+ const auto states = component->GetStates();
+ if( states[State::Modal] )
+ {
+ component = nullptr;
+ }
+ }
+ if( component )
+ {
+ recurse = component->IsProxy();
+ }
+ //TODO: add deputy
+ return {component, recurse, deputy};
+}
+
+static bool CheckChainEndWithAttribute( Accessible* obj, unsigned char forward )
+{
+ if( !obj )
+ return false;
+ auto attrs = obj->GetAttributes();
+ for( auto& attr : attrs )
+ {
+ if( attr.first == "relation_chain_end" )
+ {
+ if( ( attr.second == "prev,end" && forward == 0 ) || ( attr.second == "next,end" && forward == 1 ) || attr.second == "prev,next,end" )
+ {
+ return true;
+ }
+ }
+ }
+ return false;
+}
+
+static Accessible* DeputyOfProxyInParentGet( Accessible* obj )
+{
+ return nullptr;
+/*
+if (!obj)
+ return nullptr;
+
+Accessible *deputy = nullptr;
+auto children = obj->GetChildren();
+unsigned int index = 0;
+for (auto child : children) {
+ if (child->IsProxy()) {
+ if (index == 0) {
+ //WRN("Proxy does not have deputy object");
+ break;
+ }
+ deputy = children[index - 1];
+ break;
+ }
+ index++;
+}
+return deputy;
+*/
+}
+
+Accessible* BridgeAccessible::GetCurrentlyHighlighted()
+{
+ //TODO: add currently highlighted object
+ return nullptr;
+}
+
+std::vector< Accessible* > BridgeAccessible::ValidChildrenGet( const std::vector< Accessible* >& children, Accessible* start, Accessible* root )
+{
+ /* condition to find first(last) object regardless of scrollable parent.
+ looping navigation does not care scrollable parent.
+ 1. currently highlighted object exists
+ 2. both start and root are same */
+
+ /* TODO: add code, we need a scrollable implementation first
+ Accessible *current = GetCurrentlyHighlighted();
+ if (current && start == root) return children;
+ if(children.size() == 0) return {};
+
+ Eo *child = children[0];
+
+ if (child)
+ {
+ Evas_Coord x = 0, y = 0, w = 0, h = 0;
+ Evas_Coord sx = 0, sy = 0, sw = 0, sh = 0;
+
+ if (_new_scrollable_parent_viewport_geometry_get(child, start,
+ &sx, &sy, &sw, &sh))
+ {
+ Eina_List *l, *l_next;
+ EINA_LIST_FOREACH_SAFE(children, l, l_next, child)
+ {
+ eo_do(child,
+ elm_interface_atspi_component_extents_get(EINA_FALSE,
+ &x, &y, &w, &h));
+ if (w == 0 || h == 0 ||
+ !ELM_RECTS_INTERSECT(x, y, w, h, sx, sy, sw, sh))
+ children = eina_list_remove_list(children, l);
+ }
+ }
+ }
+ */
+ return children;
+}
+
+static bool DeputyIs( Accessible* obj )
+{
+ //TODO: add deputy
+ return false;
+}
+
+static Accessible* GetObjectInRelationFlow( Accessible* ptr, RelationType type )
+{
+ //TODO: add relations
+ return nullptr;
+}
+static Accessible* ProxyInParentGet( Accessible* obj )
+{
+ if( !obj )
+ return nullptr;
+ auto children = obj->GetChildren();
+ for( auto& child : children )
+ {
+ if( child->IsProxy() )
+ return child;
+ }
+ return nullptr;
+}
+
+static bool ObjectRoleIsAcceptableWhenNavigatingNextPrev( Accessible* obj )
+{
+ if( !obj )
+ return false;
+ auto role = obj->GetRole();
+ return role != Role::PopupMenu && role != Role::Dialog;
+}
+
+template < class T >
+struct CycleDetection
+{
+ CycleDetection( const T value ) : key( value ), currentSearchSize( 1 ), counter( 1 ) {}
+ bool check( const T value )
+ {
+ if( key == value )
+ return true;
+ if( --counter == 0 )
+ {
+ currentSearchSize <<= 1;
+ if( currentSearchSize == 0 )
+ return true; // UNDEFINED BEHAVIOR
+ counter = currentSearchSize;
+ key = value;
+ }
+ return false;
+ }
+ T key;
+ unsigned int currentSearchSize;
+ unsigned int counter;
+};
+
+static Accessible* FindNonDefunctChild( const std::vector< Accessible* >& children, unsigned int currentIndex, unsigned char forward )
+{
+ unsigned int childrenCount = children.size();
+ for( ; currentIndex < childrenCount; forward ? ++currentIndex : --currentIndex )
+ {
+ Accessible* n = children[currentIndex];
+ if( n && !n->GetStates()[State::Defunct] )
+ return n;
+ }
+ return nullptr;
+}
+
+static Accessible* DirectionalDepthFirstSearchTryNonDefunctChild( Accessible* node, const std::vector< Accessible* >& children, unsigned char forward )
+{
+ if( !node )
+ return nullptr;
+ auto childrenCount = children.size();
+ if( childrenCount > 0 )
+ {
+ const bool isShowing = GetScrollableParent( node ) == nullptr ? node->GetStates()[State::Showing] : true;
+ if( isShowing )
+ {
+ return FindNonDefunctChild( children, forward ? 0 : childrenCount - 1, forward );
+ }
+ }
+ return nullptr;
+}
+
+Accessible* BridgeAccessible::GetNextNonDefunctSibling( Accessible* obj, Accessible* start, Accessible* root, unsigned char forward )
+{
+ if( !obj )
+ return nullptr;
+ auto parent = obj->GetParent();
+ if( !parent )
+ return nullptr;
+
+ auto children = ValidChildrenGet( parent->GetChildren(), start, root );
+
+ unsigned int children_count = children.size();
+ if( children_count == 0 )
+ {
+ return nullptr;
+ }
+ unsigned int current = 0;
+ for( ; current < children_count && children[current] != obj; ++current )
+ ;
+ if( current >= children_count )
+ {
+ return nullptr;
+ }
+ forward ? ++current : --current;
+ auto ret = FindNonDefunctChild( children, current, forward );
+ return ret;
+}
+
+Accessible* BridgeAccessible::DirectionalDepthFirstSearchTryNonDefunctSibling( bool& all_children_visited, Accessible* node, Accessible* start, Accessible* root, unsigned char forward )
+{
+ while( true )
+ {
+ Accessible* sibling = GetNextNonDefunctSibling( node, start, root, forward );
+ if( sibling )
+ {
+ node = sibling;
+ all_children_visited = false;
+ break;
+ }
+ // walk up...
+ node = node->GetParent();
+ if( node == nullptr || node == root )
+ return nullptr;
+
+ // in backward traversing stop the walk up on parent
+ if( !forward )
+ break;
+ }
+ return node;
+}
+
+Accessible* BridgeAccessible::CalculateNeighbor( Accessible* root, Accessible* start, unsigned char forward, BridgeAccessible::GetNeighborSearchMode search_mode )
+{
+ if( start && CheckChainEndWithAttribute( start, forward ) )
+ return start;
+ if( root && root->GetStates()[State::Defunct] )
+ return NULL;
+ if( start && start->GetStates()[State::Defunct] )
+ {
+ start = NULL;
+ forward = 1;
+ }
+
+ if( search_mode == BridgeAccessible::GetNeighborSearchMode::recurseToOutside )
+ {
+ /* This only works if we navigate backward, and it is not possible to
+ find in embedded process. In this case the deputy should be used */
+ return DeputyOfProxyInParentGet( start );
+ }
+
+ Accessible* node = start ? start : root;
+ if( !node )
+ return nullptr;
+
+ // initialization of all-children-visited flag for start node - we assume
+ // that when we begin at start node and we navigate backward, then all children
+ // are visited, so navigation will ignore start's children and go to
+ // previous sibling available.
+ /* Regarding condtion (start != root):
+ The last object can be found only if all_children_visited is false.
+ The start is same with root, when looking for the last object. */
+ bool all_children_visited = ( start != root ) && ( search_mode != BridgeAccessible::GetNeighborSearchMode::recurseFromRoot && !forward );
+ // true, if starting element should be ignored. this is only used in rare case of
+ // recursive search failing to find an object.
+ // consider tree, where element A on bus BUS_A has child B on bus BUS_B. when going "next" from
+ // element A algorithm has to descend into BUS_B and search element B and its children. this is done
+ // by returning to our caller object B with special flag set (meaning - continue the search from B on bus BUS_B).
+ // if next object will be found there (on BUS_B), then search ends. but if not, then our caller will find it out
+ // and will call us again with object A and flag search_mode set to NEIGHBOR_SEARCH_MODE_CONTINUE_AFTER_FAILED_RECURSING.
+ // this flag means, that object A was already checked previously and we should skip it and its children.
+ bool force_next = ( search_mode == BridgeAccessible::GetNeighborSearchMode::continueAfterFailedRecursion );
+
+ CycleDetection< Accessible* > cycleDetection( node );
+ while( node )
+ {
+ if( node->GetStates()[State::Defunct] )
+ return nullptr;
+
+ // always accept proxy object from different world
+ if( !force_next && node->IsProxy() )
+ return node;
+
+ auto children = node->GetChildren();
+ children = ValidChildrenGet( children, start, root );
+
+ // do accept:
+ // 1. not start node
+ // 2. parent after all children in backward traversing
+ // 3. Nodes with roles: ATSPI_ROLE_PAGE_TAB, ATSPI_ROLE_POPUP_MENU and ATSPI_ROLE_DIALOG, only when looking for first or last element.
+ // Objects with those roles shouldnt be reachable, when navigating next / prev.
+ bool all_children_visited_or_moving_forward = ( children.size() == 0 || forward || all_children_visited );
+ if( !force_next && node != start && all_children_visited_or_moving_forward && AcceptObject( node ) )
+ {
+ if( start == NULL || ObjectRoleIsAcceptableWhenNavigatingNextPrev( node ) )
+ return node;
+ }
+
+ Accessible* next_related_in_direction = !force_next ? GetObjectInRelationFlow( node, forward ? RelationType::FlowsTo : RelationType::FlowsFrom ) : nullptr;
+ /* force_next means that the search_mode is NEIGHBOR_SEARCH_MODE_CONTINUE_AFTER_FAILED_RECURSING
+ in this case the node is elm_layout which is parent of proxy object.
+ There is an access object working for the proxy object, and the access
+ object could have relation information. This relation information should
+ be checked first before using the elm_layout as a node. */
+ if( force_next && forward )
+ {
+ auto deputy = DeputyOfProxyInParentGet( node );
+ next_related_in_direction =
+ GetObjectInRelationFlow( deputy, forward ? RelationType::FlowsTo : RelationType::FlowsFrom );
+ }
+
+ if( next_related_in_direction && start->GetStates()[State::Defunct] )
+ next_related_in_direction = NULL;
+ unsigned char want_cycle_detection = 0;
+ if( next_related_in_direction )
+ {
+ /* Check next_related_in_direction is deputy object */
+ Accessible* parent;
+ if( !forward )
+ {
+ /* If the prev object is deputy, then go to inside of its proxy first */
+ if( DeputyIs( next_related_in_direction ) )
+ {
+ parent = next_related_in_direction->GetParent();
+ next_related_in_direction = ProxyInParentGet( parent );
+ }
+ }
+ else
+ {
+ /* If current object is deputy, and it has relation next object,
+ then do not use the relation next object, and use proxy first */
+ if( DeputyIs( node ) )
+ {
+ parent = node->GetParent();
+ next_related_in_direction = ProxyInParentGet( parent );
+ }
+ }
+ node = next_related_in_direction;
+ want_cycle_detection = 1;
+ }
+ else
+ {
+ auto child = !force_next && !all_children_visited ? DirectionalDepthFirstSearchTryNonDefunctChild( node, children, forward ) : nullptr;
+ if( child )
+ {
+ want_cycle_detection = 1;
+ }
+ else
+ {
+ if( !force_next && node == root )
+ return NULL;
+ all_children_visited = true;
+ child = DirectionalDepthFirstSearchTryNonDefunctSibling( all_children_visited, node, start, root, forward );
+ }
+ node = child;
+ }
+ force_next = 0;
+ if( want_cycle_detection && cycleDetection.check( node ) )
+ {
+ return NULL;
+ }
+ }
+ return NULL;
+}
+
+DBus::ValueOrError< Accessible*, uint8_t > BridgeAccessible::GetNeighbor( std::string rootPath, int32_t direction, int32_t search_mode )
+{
+ auto start = FindSelf();
+ rootPath = StripPrefix( rootPath );
+ auto root = !rootPath.empty() ? Find( rootPath ) : nullptr;
+ auto accessible = CalculateNeighbor( root, start, direction == 1, static_cast< GetNeighborSearchMode >( search_mode ) );
+ unsigned char recurse = 0;
+ if( accessible )
+ {
+ recurse = accessible->IsProxy();
+ }
+ return {accessible, recurse};
+}
+
+Accessible* BridgeAccessible::GetParent()
+{
+ // NOTE: currently bridge supports single application root element.
+ // only element set as application root might return nullptr from GetParent
+ // if you want more, then you need to change setApplicationRoot to
+ // add/remove ApplicationRoot and make roots a vector.
+ auto z = FindSelf();
+ auto p = z->GetParent();
+ assert( p );
+ return p;
+}
+DBus::ValueOrError< std::vector< Accessible* > > BridgeAccessible::GetChildren()
+{
+ return FindSelf()->GetChildren();
+}
+std::string BridgeAccessible::GetDescription()
+{
+ return FindSelf()->GetDescription();
+}
+DBus::ValueOrError< uint32_t > BridgeAccessible::GetRole()
+{
+ return static_cast< unsigned int >( FindSelf()->GetRole() );
+}
+DBus::ValueOrError< std::string > BridgeAccessible::GetRoleName()
+{
+ return FindSelf()->GetRoleName();
+}
+DBus::ValueOrError< std::string > BridgeAccessible::GetLocalizedRoleName()
+{
+ return FindSelf()->GetLocalizedRoleName();
+}
+DBus::ValueOrError< int32_t > BridgeAccessible::GetIndexInParent()
+{
+ return FindSelf()->GetIndexInParent();
+}
+DBus::ValueOrError< std::array< uint32_t, 2 > > BridgeAccessible::GetStates()
+{
+ return FindSelf()->GetStates().GetRawData();
+}
+DBus::ValueOrError< std::unordered_map< std::string, std::string > > BridgeAccessible::GetAttributes()
+{
+ return FindSelf()->GetAttributes();
+}
+DBus::ValueOrError< std::vector< std::string > > BridgeAccessible::GetInterfaces()
+{
+ return FindSelf()->GetInterfaces();
+}
+int BridgeAccessible::GetChildCount()
+{
+ return FindSelf()->GetChildCount();
+}
+DBus::ValueOrError< Accessible* > BridgeAccessible::GetChildAtIndex( int index )
+{
+ if( index < 0 )
+ throw AccessibleError{"negative index (" + std::to_string( index ) + ")"};
+ return FindSelf()->GetChildAtIndex( static_cast< size_t >( index ) );
+}
+
+std::string BridgeAccessible::GetName()
+{
+ return FindSelf()->GetName();
+}
+
+DBus::ValueOrError< Accessible*, uint32_t > BridgeAccessible::GetDefaultLabelInfo()
+{
+ auto p = FindSelf();
+ return {p, static_cast< uint32_t >( p->GetRole() )};
+}
--- /dev/null
+#ifndef BRIDGE_ACCESSIBLE_HPP
+#define BRIDGE_ACCESSIBLE_HPP
+
+#include "BridgeBase.hpp"
+#include <array>
+#include <string>
+#include <unordered_map>
+#include <vector>
+
+class BridgeAccessible : public virtual BridgeBase
+{
+protected:
+ BridgeAccessible();
+
+ void RegisterInterfaces();
+
+public:
+ enum class GetNeighborSearchMode
+ {
+ normal = 0,
+ recurseFromRoot = 1,
+ continueAfterFailedRecursion = 2,
+ recurseToOutside = 3,
+ };
+ int GetChildCount();
+ DBus::ValueOrError< Dali::Accessibility::Accessible* > GetChildAtIndex( int index );
+ Dali::Accessibility::Accessible* GetParent();
+ DBus::ValueOrError< std::vector< Dali::Accessibility::Accessible* > > GetChildren();
+ std::string GetName();
+ std::string GetDescription();
+ DBus::ValueOrError< uint32_t > GetRole();
+ DBus::ValueOrError< std::string > GetRoleName();
+ DBus::ValueOrError< std::string > GetLocalizedRoleName();
+ DBus::ValueOrError< int32_t > GetIndexInParent();
+ DBus::ValueOrError< std::array< uint32_t, 2 > > GetStates();
+ DBus::ValueOrError< std::unordered_map< std::string, std::string > > GetAttributes();
+ DBus::ValueOrError< std::vector< std::string > > GetInterfaces();
+ DBus::ValueOrError< Dali::Accessibility::Accessible*, uint8_t, Dali::Accessibility::Accessible* > GetNavigableAtPoint( int32_t x, int32_t y, uint32_t coordType );
+ DBus::ValueOrError< Dali::Accessibility::Accessible*, uint8_t > GetNeighbor( std::string root_path, int32_t direction, int32_t search_mode );
+ DBus::ValueOrError< Dali::Accessibility::Accessible*, uint32_t > GetDefaultLabelInfo();
+ using ReadingMaterialType = DBus::ValueOrError<
+ std::unordered_map< std::string, std::string >, // attributes
+ std::string, // name
+ std::string, // labeledByName
+ std::string, // textIfceName
+ uint32_t,
+ Dali::Accessibility::States,
+ std::string, // localized name
+ int32_t, // child count
+ double, // current value
+ double, // minimum increment
+ double, // maximum value
+ double, // minimum value
+ std::string, // description
+ int32_t, // index in parent
+ bool, // isSelectedInParent
+ bool, // hasCheckBoxChild
+ int32_t, // listChildrenCount
+ int32_t, // firstSelectedChildIndex
+ Dali::Accessibility::Accessible*, // parent
+ Dali::Accessibility::States, // parentStateSet
+ int32_t, // parentChildCount
+ uint32_t, // parentRole
+ int32_t, // selectedChildCount,
+ Dali::Accessibility::Accessible* // describedByObject
+ >;
+
+ ReadingMaterialType GetReadingMaterial();
+
+ DBus::ValueOrError< bool > DoGesture( int32_t, int32_t, int32_t, int32_t, int32_t, int32_t, uint32_t );
+
+private:
+ Dali::Accessibility::Accessible* CalculateNeighbor( Dali::Accessibility::Accessible* root, Dali::Accessibility::Accessible* start, unsigned char forward, GetNeighborSearchMode search_mode );
+ std::vector< Dali::Accessibility::Accessible* > ValidChildrenGet( const std::vector< Dali::Accessibility::Accessible* >& children, Dali::Accessibility::Accessible* start, Dali::Accessibility::Accessible* root );
+ Dali::Accessibility::Accessible* GetCurrentlyHighlighted();
+ Dali::Accessibility::Accessible* DirectionalDepthFirstSearchTryNonDefunctSibling( bool& all_children_visited, Dali::Accessibility::Accessible* node, Dali::Accessibility::Accessible* start, Dali::Accessibility::Accessible* root, unsigned char forward );
+ Dali::Accessibility::Accessible* GetNextNonDefunctSibling( Dali::Accessibility::Accessible* obj, Dali::Accessibility::Accessible* start, Dali::Accessibility::Accessible* root, unsigned char forward );
+};
+
+#endif
--- /dev/null
+#include "BridgeAction.hpp"
+#include <iostream>
+
+using namespace Dali::Accessibility;
+
+void BridgeAction::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_ACTION};
+
+ AddGetPropertyToInterface( desc, "NActions", &BridgeAction::GetActionCount );
+
+ AddFunctionToInterface( desc, "GetName", &BridgeAction::GetActionName );
+ AddFunctionToInterface( desc, "GetLocalizedName", &BridgeAction::GetLocalizedActionName );
+ AddFunctionToInterface( desc, "GetDescription", &BridgeAction::GetActionDescription );
+ AddFunctionToInterface( desc, "GetKeyBinding", &BridgeAction::GetActionKeyBinding );
+ AddFunctionToInterface( desc, "DoAction", &BridgeAction::DoAction );
+ AddFunctionToInterface( desc, "DoActionName", &BridgeAction::DoActionName );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+Action* BridgeAction::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< Action* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Action interface"};
+ return s2;
+}
+
+DBus::ValueOrError< std::string > BridgeAction::GetActionName( int32_t index )
+{
+ auto self = FindSelf();
+ return self->GetActionName( index );
+}
+
+DBus::ValueOrError< std::string > BridgeAction::GetLocalizedActionName( int32_t index )
+{
+ auto self = FindSelf();
+ return self->GetLocalizedActionName( index );
+}
+
+DBus::ValueOrError< std::string > BridgeAction::GetActionDescription( int32_t index )
+{
+ auto self = FindSelf();
+ return self->GetActionDescription( index );
+}
+
+DBus::ValueOrError< std::string > BridgeAction::GetActionKeyBinding( int32_t index )
+{
+ auto self = FindSelf();
+ return self->GetActionKeyBinding( index );
+}
+
+DBus::ValueOrError< int32_t > BridgeAction::GetActionCount()
+{
+ auto self = FindSelf();
+ return self->GetActionCount();
+ ;
+}
+
+DBus::ValueOrError< bool > BridgeAction::DoAction( int32_t index )
+{
+ auto self = FindSelf();
+ return self->DoAction( index );
+}
+
+DBus::ValueOrError< bool > BridgeAction::DoActionName( std::string name )
+{
+ auto self = FindSelf();
+ auto cnt = self->GetActionCount();
+ for( auto i = 0u; i < cnt; ++i )
+ {
+ if( self->GetActionName( i ) == name )
+ {
+ return self->DoAction( i );
+ }
+ }
+ throw AccessibleError{"object " + self->GetAddress().ToString() + " doesn't have action '" + name + "'"};
+}
--- /dev/null
+#ifndef BRIDGE_ACTION_HPP
+#define BRIDGE_ACTION_HPP
+
+#include "BridgeBase.hpp"
+
+#include <tuple>
+#include <vector>
+
+class BridgeAction : public virtual BridgeBase
+{
+protected:
+ BridgeAction() = default;
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::Action* FindSelf() const;
+
+public:
+ DBus::ValueOrError< std::string > GetActionName( int32_t index );
+ DBus::ValueOrError< std::string > GetLocalizedActionName( int32_t index );
+ DBus::ValueOrError< std::string > GetActionDescription( int32_t index );
+ DBus::ValueOrError< std::string > GetActionKeyBinding( int32_t index );
+ DBus::ValueOrError< int32_t > GetActionCount();
+ DBus::ValueOrError< bool > DoAction( int32_t index );
+ DBus::ValueOrError< bool > DoActionName( std::string name );
+};
+
+#endif
--- /dev/null
+#include "BridgeBase.hpp"
+#include <atomic>
+#include <cstdlib>
+
+using namespace Dali::Accessibility;
+
+BridgeBase::BridgeBase()
+{
+}
+
+BridgeBase::ForceUpResult BridgeBase::ForceUp()
+{
+ if( Bridge::ForceUp() == ForceUpResult::alreadyUp )
+ return ForceUpResult::alreadyUp;
+ auto proxy = DBus::DBusClient{dbusLocators::atspi::BUS, dbusLocators::atspi::OBJ_PATH,
+ dbusLocators::atspi::BUS_INTERFACE, DBus::ConnectionType::SESSION};
+ auto addr = proxy.method< std::string() >( dbusLocators::atspi::GET_ADDRESS ).call();
+
+ if( !addr )
+ throw AccessibleError{std::string( "failed at call '" ) + dbusLocators::atspi::GET_ADDRESS +
+ "': " + addr.getError().message};
+
+ con = std::make_shared< DBus::EldbusConnection >( eldbus_address_connection_get( std::get< 0 >( addr ).c_str() ) );
+ data->busName = DBus::getConnectionName( con );
+ data->root = &application;
+ dbusServer = {con};
+
+ {
+ DBus::DBusInterfaceDescription desc{"org.a11y.atspi.Cache"};
+ AddFunctionToInterface( desc, "GetItems", &BridgeBase::GetItems );
+ dbusServer.addInterface( "/org/a11y/atspi/cache", desc );
+ }
+ {
+ DBus::DBusInterfaceDescription desc{"org.a11y.atspi.Application"};
+ AddGetSetPropertyToInterface( desc, "Id", &BridgeBase::IdGet, &BridgeBase::IdSet );
+ dbusServer.addInterface( ATSPI_PATH, desc );
+ }
+ return ForceUpResult::justStarted;
+}
+
+void BridgeBase::ForceDown()
+{
+ Bridge::ForceDown();
+ dbusServer = {};
+ con = {};
+}
+
+const std::string& BridgeBase::GetBusName() const
+{
+ static std::string empty;
+ return data ? data->busName : empty;
+}
+
+Accessible* BridgeBase::FindByPath( const std::string& name ) const
+{
+ try
+ {
+ return Find( name );
+ }
+ catch( AccessibleError )
+ {
+ return nullptr;
+ }
+}
+
+void BridgeBase::SetApplicationChild( Accessible* root )
+{
+ // for now you can set root only once.
+ // to set it multiple times you'd have to remove old one first, which usually involves
+ // a lot of messy events and cornercases (imagine old root becoming child of new-not-yet-announced one)
+ application.children.push_back( root );
+ SetIsOnRootLevel( root );
+}
+
+// Accessible *BridgeBase::getApplicationRoot() const
+// {
+// return rootElement;
+// }
+
+std::string BridgeBase::StripPrefix( const std::string& path )
+{
+ auto size = strlen( ATSPI_PATH );
+ return path.substr( size + 1 );
+}
+
+Accessible* BridgeBase::Find( const std::string& path ) const
+{
+ if( path == "root" )
+ return &application;
+ char* p;
+ auto val = std::strtoll( path.c_str(), &p, 10 );
+ if( p == path.c_str() )
+ throw AccessibleError{"invalid path '" + path + "'"};
+ auto it = data->objects.find( val );
+ if( it == data->objects.end() )
+ throw AccessibleError{"unknown object '" + path + "'"};
+ return it->second;
+}
+
+Accessible* BridgeBase::Find( const Address& ptr ) const
+{
+ assert( ptr.GetBus() == data->busName );
+ return Find( ptr.GetPath() );
+}
+
+Accessible* BridgeBase::FindSelf() const
+{
+ auto pth = DBus::DBusServer::getCurrentObjectPath();
+ auto size = strlen( ATSPI_PATH );
+ if( pth.size() <= size )
+ throw AccessibleError{"invalid path '" + pth + "'"};
+ if( pth.substr( 0, size ) != ATSPI_PATH )
+ throw AccessibleError{"invalid path '" + pth + "'"};
+ if( pth[size] != '/' )
+ throw AccessibleError{"invalid path '" + pth + "'"};
+ return Find( StripPrefix( pth ) );
+}
+
+void BridgeBase::IdSet( int id )
+{
+ this->id = id;
+}
+int BridgeBase::IdGet()
+{
+ return this->id;
+}
+
+auto BridgeBase::GetItems() -> DBus::ValueOrError< std::vector< CacheElementType > >
+{
+ auto root = &application;
+
+ std::vector< CacheElementType > res;
+
+ res.emplace_back( std::move( CreateCacheElement( root ) ) );
+ for( auto const& it : data->objects )
+ res.emplace_back( std::move( CreateCacheElement( it.second ) ) );
+
+ return res;
+}
+
+auto BridgeBase::CreateCacheElement( Accessible* item ) -> CacheElementType
+{
+ if( !item )
+ return {};
+
+ auto root = &application;
+ auto parent = item->GetParent();
+
+ std::vector< Address > children;
+ for( auto i = 0u; i < item->GetChildCount(); ++i )
+ {
+ children.emplace_back( item->GetChildAtIndex( i )->GetAddress() );
+ }
+
+ return std::make_tuple(
+ item->GetAddress(),
+ root->GetAddress(),
+ parent->GetAddress(),
+ children,
+ item->GetInterfaces(),
+ item->GetName(),
+ item->GetRole(),
+ item->GetDescription(),
+ item->GetStates().GetRawData() );
+}
--- /dev/null
+#ifndef BRIDGE_HPP
+#define BRIDGE_HPP
+
+#include "Common.hpp"
+#include <memory>
+
+class AppAccessible : public virtual Dali::Accessibility::Accessible, public virtual Dali::Accessibility::Collection
+{
+public:
+ Dali::Accessibility::EmptyAccessibleWithAddress parent;
+ std::vector< Dali::Accessibility::Accessible* > children;
+ std::string name;
+
+ std::string GetName() override
+ {
+ return name;
+ }
+ std::string GetDescription() override
+ {
+ return "";
+ }
+ Dali::Accessibility::Accessible* GetParent() override
+ {
+ return &parent;
+ }
+ size_t GetChildCount() override
+ {
+ return children.size();
+ }
+ Dali::Accessibility::Accessible* GetChildAtIndex( size_t index ) override
+ {
+ auto s = children.size();
+ if( index >= s )
+ throw Dali::Accessibility::AccessibleError{"invalid index " + std::to_string( index ) + " for object with " + std::to_string( s ) + " children"};
+ return children[index];
+ }
+ size_t GetIndexInParent() override
+ {
+ throw Dali::Accessibility::AccessibleError{"can't call GetIndexInParent on application object"};
+ }
+ Dali::Accessibility::Role GetRole() override
+ {
+ return Dali::Accessibility::Role::Application;
+ }
+ Dali::Accessibility::States GetStates() override
+ {
+ return {};
+ }
+ Dali::Accessibility::Attributes GetAttributes() override
+ {
+ return {};
+ }
+ Dali::Accessibility::Accessible* getActiveWindow()
+ {
+ return children.empty() ? nullptr : children[0];
+ }
+};
+
+class BridgeBase : public Dali::Accessibility::Bridge
+{
+public:
+ const std::string& GetBusName() const override;
+ void SetApplicationChild( Dali::Accessibility::Accessible* root ) override;
+ Dali::Accessibility::Accessible* GetApplication() const override
+ {
+ return &application;
+ }
+
+ template < typename SELF, typename... RET, typename... ARGS >
+ void AddFunctionToInterface(
+ DBus::DBusInterfaceDescription& desc, const std::string& funcName,
+ DBus::ValueOrError< RET... > ( SELF::*funcPtr )( ARGS... ) )
+ {
+ desc.addMethod< DBus::ValueOrError< RET... >( ARGS... ) >( funcName,
+ [=]( ARGS... args ) -> DBus::ValueOrError< RET... > {
+ try
+ {
+ return ( dynamic_cast< SELF* >( this )->*funcPtr )( std::move( args )... );
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ } );
+ }
+ template < typename T, typename SELF >
+ void AddGetPropertyToInterface( DBus::DBusInterfaceDescription& desc,
+ const std::string& funcName, T ( SELF::*funcPtr )() )
+ {
+ desc.addProperty< T >( funcName,
+ [=]() -> DBus::ValueOrError< T > {
+ try
+ {
+ return ( dynamic_cast< SELF* >( this )->*funcPtr )();
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ },
+ {} );
+ }
+ template < typename T, typename SELF >
+ void AddSetPropertyToInterface( DBus::DBusInterfaceDescription& desc,
+ const std::string& funcName, void ( SELF::*funcPtr )( T ) )
+ {
+ desc.addProperty< T >( funcName, {},
+ [=]( T t ) -> DBus::ValueOrError< void > {
+ try
+ {
+ ( dynamic_cast< SELF* >( this )->*funcPtr )( std::move( t ) );
+ return {};
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ } );
+ }
+ template < typename T, typename T1, typename SELF >
+ void AddGetSetPropertyToInterface( DBus::DBusInterfaceDescription& desc,
+ const std::string& funcName, T1 ( SELF::*funcPtrGet )(), DBus::ValueOrError< void > ( SELF::*funcPtrSet )( T ) )
+ {
+ desc.addProperty< T >( funcName,
+ [=]() -> DBus::ValueOrError< T > {
+ try
+ {
+ return ( dynamic_cast< SELF* >( this )->*funcPtrGet )();
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ },
+ [=]( T t ) -> DBus::ValueOrError< void > {
+ try
+ {
+ ( dynamic_cast< SELF* >( this )->*funcPtrSet )( std::move( t ) );
+ return {};
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ } );
+ }
+ template < typename T, typename T1, typename SELF >
+ void AddGetSetPropertyToInterface( DBus::DBusInterfaceDescription& desc,
+ const std::string& funcName, T1 ( SELF::*funcPtrGet )(), void ( SELF::*funcPtrSet )( T ) )
+ {
+ desc.addProperty< T >( funcName,
+ [=]() -> DBus::ValueOrError< T > {
+ try
+ {
+ return ( dynamic_cast< SELF* >( this )->*funcPtrGet )();
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ },
+ [=]( T t ) -> DBus::ValueOrError< void > {
+ try
+ {
+ ( dynamic_cast< SELF* >( this )->*funcPtrSet )( std::move( t ) );
+ return {};
+ }
+ catch( Dali::Accessibility::AccessibleError& e )
+ {
+ return DBus::Error{e.what()};
+ }
+ } );
+ }
+ static std::string StripPrefix( const std::string& path );
+
+ Dali::Accessibility::Accessible* Find( const std::string& path ) const;
+ Dali::Accessibility::Accessible* Find( const Dali::Accessibility::Address& ptr ) const;
+ Dali::Accessibility::Accessible* FindSelf() const;
+ Dali::Accessibility::Accessible* FindByPath( const std::string& name ) const override;
+ void SetApplicationName( std::string name ) override
+ {
+ application.name = std::move( name );
+ }
+
+protected:
+ mutable AppAccessible application;
+
+private:
+ void IdSet( int id );
+ int IdGet();
+
+ using CacheElementType = std::tuple<
+ Dali::Accessibility::Address, Dali::Accessibility::Address, Dali::Accessibility::Address,
+ std::vector< Dali::Accessibility::Address >,
+ std::vector< std::string >,
+ std::string,
+ Dali::Accessibility::Role,
+ std::string,
+ std::array< uint32_t, 2 > >;
+ DBus::ValueOrError< std::vector< CacheElementType > > GetItems();
+ CacheElementType CreateCacheElement( Dali::Accessibility::Accessible* item );
+
+protected:
+ BridgeBase();
+ virtual ~BridgeBase() = default;
+
+ ForceUpResult ForceUp() override;
+ void ForceDown() override;
+
+ DBus::DBusServer dbusServer;
+ std::shared_ptr< DBus::EldbusConnection > con;
+ int id = 0;
+};
+
+#endif
--- /dev/null
+#include "BridgeCollection.hpp"
+#include <algorithm>
+#include <iostream>
+#include <unordered_set>
+#include <vector>
+
+using namespace Dali::Accessibility;
+
+void BridgeCollection::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_COLLECTION};
+ AddFunctionToInterface( desc, "GetMatches", &BridgeCollection::GetMatches );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+Collection* BridgeCollection::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< Collection* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Collection interface"};
+ return s2;
+}
+
+enum
+{
+ ATSPI_Collection_MATCH_INVALID,
+ ATSPI_Collection_MATCH_ALL,
+ ATSPI_Collection_MATCH_ANY,
+ ATSPI_Collection_MATCH_NONE,
+ ATSPI_Collection_MATCH_EMPTY,
+ ATSPI_Collection_MATCH_LAST_DEFINED,
+};
+
+struct BridgeCollection::Comparer
+{
+ using Mode = MatchType;
+
+ enum class CompareFuncExit
+ {
+ firstFound,
+ firstNotFound
+ };
+
+ static Mode ConvertToMatchType( int32_t mode )
+ {
+ switch( mode )
+ {
+ case ATSPI_Collection_MATCH_INVALID:
+ {
+ return Mode::Invalid;
+ }
+ case ATSPI_Collection_MATCH_ALL:
+ {
+ return Mode::All;
+ }
+ case ATSPI_Collection_MATCH_ANY:
+ {
+ return Mode::Any;
+ }
+ case ATSPI_Collection_MATCH_NONE:
+ {
+ return Mode::None;
+ }
+ case ATSPI_Collection_MATCH_EMPTY:
+ {
+ return Mode::Empty;
+ }
+ }
+ return Mode::Invalid;
+ }
+
+ struct ComparerInterfaces
+ {
+ std::unordered_set< std::string > object;
+ std::vector< std::string > requested;
+ Mode mode = Mode::Invalid;
+
+ ComparerInterfaces( MatchRule* rule ) : mode( ConvertToMatchType( std::get< Index::InterfacesMatchType >( *rule ) ) )
+ {
+ requested = {std::get< Index::Interfaces >( *rule ).begin(), std::get< Index::Interfaces >( *rule ).end()};
+ }
+ void Update( Accessible* obj )
+ {
+ object.clear();
+ for( auto& q : obj->GetInterfaces() )
+ object.insert( std::move( q ) );
+ }
+ bool RequestEmpty() const { return requested.empty(); }
+ bool ObjectEmpty() const { return object.empty(); }
+ bool Compare( CompareFuncExit exit )
+ {
+ bool foundAny = false;
+ for( auto& iname : requested )
+ {
+ bool found = ( object.find( iname ) != object.end() );
+ if( found )
+ foundAny = true;
+ if( found == ( exit == CompareFuncExit::firstFound ) )
+ return found;
+ }
+ return foundAny;
+ }
+ };
+ struct ComparerAttributes
+ {
+ std::unordered_map< std::string, std::string > requested, object;
+ Mode mode = Mode::Invalid;
+
+ ComparerAttributes( MatchRule* rule ) : mode( ConvertToMatchType( std::get< Index::AttributesMatchType >( *rule ) ) )
+ {
+ requested = std::get< Index::Attributes >( *rule );
+ }
+ void Update( Accessible* obj )
+ {
+ object = obj->GetAttributes();
+ }
+ bool RequestEmpty() const { return requested.empty(); }
+ bool ObjectEmpty() const { return object.empty(); }
+ bool Compare( CompareFuncExit exit )
+ {
+ bool foundAny = false;
+ for( auto& iname : requested )
+ {
+ auto it = object.find( iname.first );
+ bool found = it != object.end() && iname.second == it->second;
+ if( found )
+ foundAny = true;
+ if( found == ( exit == CompareFuncExit::firstFound ) )
+ {
+ return found;
+ }
+ }
+ return foundAny;
+ }
+ };
+ struct ComparerRoles
+ {
+ using Roles = BitStates< 4, Role >;
+ Roles requested, object;
+ Mode mode = Mode::Invalid;
+
+ ComparerRoles( MatchRule* rule ) : mode( ConvertToMatchType( std::get< Index::RolesMatchType >( *rule ) ) )
+ {
+ requested = Roles{std::get< Index::Roles >( *rule )};
+ }
+ void Update( Accessible* obj )
+ {
+ object = {};
+ object[obj->GetRole()] = true;
+ assert( object );
+ }
+ bool RequestEmpty() const { return !requested; }
+ bool ObjectEmpty() const { return !object; }
+ bool Compare( CompareFuncExit exit )
+ {
+ switch( mode )
+ {
+ case Mode::Invalid:
+ {
+ return true;
+ }
+ case Mode::Empty:
+ case Mode::All:
+ {
+ return requested == ( object & requested );
+ }
+ case Mode::Any:
+ {
+ return bool( object & requested );
+ }
+ case Mode::None:
+ {
+ return bool( object & requested );
+ }
+ }
+ return false;
+ }
+ };
+ struct ComparerStates
+ {
+ States requested, object;
+ Mode mode = Mode::Invalid;
+
+ ComparerStates( MatchRule* rule ) : mode( ConvertToMatchType( std::get< Index::StatesMatchType >( *rule ) ) )
+ {
+ requested = States{std::get< Index::States >( *rule )};
+ }
+ void Update( Accessible* obj )
+ {
+ object = obj->GetStates();
+ }
+ bool RequestEmpty() const { return !requested; }
+ bool ObjectEmpty() const { return !object; }
+ bool Compare( CompareFuncExit exit )
+ {
+ switch( mode )
+ {
+ case Mode::Invalid:
+ {
+ return true;
+ }
+ case Mode::Empty:
+ case Mode::All:
+ {
+ return requested == ( object & requested );
+ }
+ case Mode::Any:
+ {
+ return bool( object & requested );
+ }
+ case Mode::None:
+ {
+ return bool( object & requested );
+ }
+ }
+ return false;
+ }
+ };
+
+ template < typename T >
+ bool compareFunc( T& cmp, Accessible* obj )
+ {
+ if( cmp.mode == Mode::Invalid )
+ return true;
+ cmp.Update( obj );
+ switch( cmp.mode )
+ {
+ case Mode::Any:
+ {
+ if( cmp.RequestEmpty() || cmp.ObjectEmpty() )
+ return false;
+ break;
+ }
+ case Mode::All:
+ {
+ if( cmp.RequestEmpty() )
+ return true;
+ if( cmp.ObjectEmpty() )
+ return false;
+ break;
+ }
+ case Mode::None:
+ {
+ if( cmp.RequestEmpty() || cmp.ObjectEmpty() )
+ return true;
+ break;
+ }
+ case Mode::Empty:
+ {
+ if( cmp.RequestEmpty() && cmp.ObjectEmpty() )
+ return true;
+ if( cmp.RequestEmpty() || cmp.ObjectEmpty() )
+ return false;
+ break;
+ }
+ case Mode::Invalid:
+ {
+ return true;
+ }
+ }
+
+ switch( cmp.mode )
+ {
+ case Mode::Empty:
+ case Mode::All:
+ {
+ if( !cmp.Compare( CompareFuncExit::firstNotFound ) )
+ return false;
+ break;
+ }
+ case Mode::Any:
+ {
+ if( cmp.Compare( CompareFuncExit::firstFound ) )
+ return true;
+ break;
+ }
+ case Mode::None:
+ {
+ if( cmp.Compare( CompareFuncExit::firstFound ) )
+ return false;
+ break;
+ }
+ case Mode::Invalid:
+ {
+ return true;
+ }
+ }
+ switch( cmp.mode )
+ {
+ case Mode::Empty:
+ case Mode::All:
+ case Mode::None:
+ {
+ return true;
+ }
+ case Mode::Any:
+ {
+ return false;
+ }
+ case Mode::Invalid:
+ {
+ return true;
+ }
+ }
+ return false;
+ }
+
+ ComparerInterfaces ci;
+ ComparerAttributes ca;
+ ComparerRoles cr;
+ ComparerStates cs;
+
+ Comparer( MatchRule* mr ) : ci( mr ), ca( mr ), cr( mr ), cs( mr ) {}
+
+ bool operator()( Accessible* obj )
+ {
+ return compareFunc( ci, obj ) &&
+ compareFunc( ca, obj ) &&
+ compareFunc( cr, obj ) &&
+ compareFunc( cs, obj );
+ }
+};
+
+void BridgeCollection::VisitNodes( Accessible* obj, std::vector< Accessible* >& result, Comparer& cmp, size_t maxCount )
+{
+ if( result.size() >= maxCount )
+ return;
+
+ if( cmp( obj ) )
+ result.emplace_back( obj );
+
+ for( auto i = 0u; i < obj->GetChildCount(); ++i )
+ VisitNodes( obj->GetChildAtIndex( i ), result, cmp, maxCount );
+}
+
+DBus::ValueOrError< std::vector< Accessible* > > BridgeCollection::GetMatches( MatchRule rule, uint32_t sortBy, int32_t count, bool traverse )
+{
+ std::vector< Accessible* > res;
+ auto self = BridgeBase::FindSelf();
+ auto matcher = Comparer{&rule};
+ VisitNodes( self, res, matcher, count );
+
+ switch( static_cast< SortOrder >( sortBy ) )
+ {
+ case SortOrder::Canonical:
+ {
+ break;
+ }
+
+ case SortOrder::ReverseCanonical:
+ {
+ std::reverse( res.begin(), res.end() );
+ break;
+ }
+
+ default:
+ {
+ throw AccessibleError{"unsupported sorting order"};
+ }
+ //TODO: other cases
+ }
+
+ return res;
+}
--- /dev/null
+#ifndef BRIDGE_COLLECTION_HPP
+#define BRIDGE_COLLECTION_HPP
+
+#include "BridgeBase.hpp"
+
+#include <array>
+#include <tuple>
+#include <unordered_map>
+#include <vector>
+
+class BridgeCollection : public virtual BridgeBase
+{
+private:
+ struct Comparer;
+ static void VisitNodes( Dali::Accessibility::Accessible* obj, std::vector< Dali::Accessibility::Accessible* >& result, Comparer& cmp, size_t maxCount );
+
+protected:
+ BridgeCollection() = default;
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::Collection* FindSelf() const;
+
+public:
+ using MatchRule = std::tuple<
+ std::array< int32_t, 2 >, int32_t,
+ std::unordered_map< std::string, std::string >, int32_t,
+ std::array< int32_t, 4 >, int32_t,
+ std::vector< std::string >, int32_t,
+ bool >;
+ struct Index
+ {
+ enum
+ {
+ States,
+ StatesMatchType,
+ Attributes,
+ AttributesMatchType,
+ Roles,
+ RolesMatchType,
+ Interfaces,
+ InterfacesMatchType,
+ };
+ };
+
+ DBus::ValueOrError< std::vector< Dali::Accessibility::Accessible* > > GetMatches( MatchRule rule, uint32_t sortBy, int32_t count, bool traverse );
+};
+
+#endif
--- /dev/null
+#include "BridgeComponent.hpp"
+#include <iostream>
+
+#define DBUS_INTERFACE_PROPERTIES "org.freedesktop.DBus.Properties"
+
+using namespace Dali::Accessibility;
+
+BridgeComponent::BridgeComponent()
+{
+}
+
+void BridgeComponent::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_COMPONENT};
+ AddFunctionToInterface( desc, "Contains", &BridgeComponent::Contains );
+ AddFunctionToInterface( desc, "GetAccessibleAtPoint", &BridgeComponent::GetAccessibleAtPoint );
+ AddFunctionToInterface( desc, "GetExtents", &BridgeComponent::GetExtents );
+ AddFunctionToInterface( desc, "GetPosition", &BridgeComponent::GetPosition );
+ AddFunctionToInterface( desc, "GetSize", &BridgeComponent::GetSize );
+ AddFunctionToInterface( desc, "GetLayer", &BridgeComponent::GetLayer );
+ AddFunctionToInterface( desc, "GetAlpha", &BridgeComponent::GetAlpha );
+ AddFunctionToInterface( desc, "GrabHighlight", &BridgeComponent::GrabHighlight );
+ AddFunctionToInterface( desc, "ClearHighlight", &BridgeComponent::ClearHighlight );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+Component* BridgeComponent::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< Component* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Component interface"};
+ return s2;
+}
+
+DBus::ValueOrError< bool > BridgeComponent::Contains( int32_t x, int32_t y, uint32_t coordType )
+{
+ return FindSelf()->Contains( {x, y}, static_cast< CoordType >( coordType ) );
+}
+DBus::ValueOrError< Accessible* > BridgeComponent::GetAccessibleAtPoint( int32_t x, int32_t y, uint32_t coordType )
+{
+ return FindSelf()->GetAccessibleAtPoint( {x, y}, static_cast< CoordType >( coordType ) );
+}
+DBus::ValueOrError< std::tuple< int32_t, int32_t, int32_t, int32_t > > BridgeComponent::GetExtents( uint32_t coordType )
+{
+ auto p = FindSelf()->GetExtents( static_cast< CoordType >( coordType ) );
+ return std::tuple< int32_t, int32_t, int32_t, int32_t >{p.position.x, p.position.y, p.size.width, p.size.height};
+}
+DBus::ValueOrError< int32_t, int32_t > BridgeComponent::GetPosition( uint32_t coordType )
+{
+ auto p = FindSelf()->GetExtents( static_cast< CoordType >( coordType ) );
+ return {p.position.x, p.position.y};
+}
+DBus::ValueOrError< int32_t, int32_t > BridgeComponent::GetSize( uint32_t coordType )
+{
+ auto p = FindSelf()->GetExtents( static_cast< CoordType >( coordType ) );
+ return {p.size.width, p.size.height};
+}
+DBus::ValueOrError< ComponentLayer > BridgeComponent::GetLayer()
+{
+ return FindSelf()->GetLayer();
+}
+DBus::ValueOrError< double > BridgeComponent::GetAlpha()
+{
+ return FindSelf()->GetAlpha();
+}
+DBus::ValueOrError< bool > BridgeComponent::GrabHighlight()
+{
+ return FindSelf()->GrabHighlight();
+}
+DBus::ValueOrError< bool > BridgeComponent::ClearHighlight()
+{
+ return FindSelf()->ClearHighlight();
+}
--- /dev/null
+#ifndef BRIDGE_COMPONENT_HPP
+#define BRIDGE_COMPONENT_HPP
+
+#include "BridgeBase.hpp"
+#include <array>
+#include <string>
+#include <tuple>
+#include <unordered_map>
+#include <vector>
+
+class BridgeComponent : public virtual BridgeBase
+{
+protected:
+ BridgeComponent();
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::Component* FindSelf() const;
+
+public:
+ DBus::ValueOrError< bool > Contains( int32_t x, int32_t y, uint32_t coordType );
+ DBus::ValueOrError< Dali::Accessibility::Accessible* > GetAccessibleAtPoint( int32_t x, int32_t y, uint32_t coordType );
+ DBus::ValueOrError< std::tuple< int32_t, int32_t, int32_t, int32_t > > GetExtents( uint32_t coordType );
+ DBus::ValueOrError< int32_t, int32_t > GetPosition( uint32_t coordType );
+ DBus::ValueOrError< int32_t, int32_t > GetSize( uint32_t coordType );
+ DBus::ValueOrError< Dali::Accessibility::ComponentLayer > GetLayer();
+ DBus::ValueOrError< double > GetAlpha();
+ DBus::ValueOrError< bool > GrabHighlight();
+ DBus::ValueOrError< bool > ClearHighlight();
+};
+
+#endif
--- /dev/null
+#include "BridgeEditableText.hpp"
+
+#include <dali/internal/clipboard/common/clipboard-impl.h>
+#include <dali/internal/input/common/imf-manager-impl.h>
+
+using namespace Dali::Accessibility;
+
+void BridgeEditableText::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_EDITABLE_TEXT};
+ AddFunctionToInterface( desc, "CopyText", &BridgeEditableText::CopyText );
+ AddFunctionToInterface( desc, "CutText", &BridgeEditableText::CutText );
+ AddFunctionToInterface( desc, "PasteText", &BridgeEditableText::PasteText );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+EditableText* BridgeEditableText::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< EditableText* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Text interface"};
+ return s2;
+}
+
+DBus::ValueOrError< bool > BridgeEditableText::CopyText( int32_t startPos, int32_t endPos )
+{
+ return FindSelf()->CopyText( startPos, endPos );
+}
+
+DBus::ValueOrError< bool > BridgeEditableText::CutText( int32_t startPos, int32_t endPos )
+{
+ return FindSelf()->CutText( startPos, endPos );
+}
+
+DBus::ValueOrError< bool > BridgeEditableText::PasteText( int32_t pos )
+{
+ auto imfManager = Dali::Internal::Adaptor::ImfManager::Get();
+ imfManager.SetCursorPosition( pos );
+ auto clipboard = Dali::Internal::Adaptor::Clipboard::Get();
+ clipboard.RequestItem();
+
+ return true;
+}
--- /dev/null
+#ifndef BRIDGE_EDITABLE_TEXT_HPP
+#define BRIDGE_EDITABLE_TEXT_HPP
+
+#include "BridgeBase.hpp"
+
+class BridgeEditableText : public virtual BridgeBase
+{
+protected:
+ BridgeEditableText() = default;
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::EditableText* FindSelf() const;
+
+public:
+ DBus::ValueOrError< bool > CopyText( int32_t startPos, int32_t endPos );
+ DBus::ValueOrError< bool > CutText( int32_t startPos, int32_t endPos );
+ DBus::ValueOrError< bool > PasteText( int32_t pos );
+};
+
+#endif
--- /dev/null
+#include "BridgeImpl.hpp"
+#include "BridgeAccessible.hpp"
+#include "BridgeAction.hpp"
+#include "BridgeCollection.hpp"
+#include "BridgeComponent.hpp"
+#include "BridgeObject.hpp"
+#include "BridgeValue.hpp"
+#include "DBus.hpp"
+#include <iostream>
+
+#include <dali/integration-api/debug.h>
+
+using namespace Dali::Accessibility;
+
+class BridgeImpl : public virtual BridgeBase, public BridgeAccessible, public BridgeObject, public BridgeComponent, public BridgeCollection, public BridgeAction, public BridgeValue
+{
+ DBus::DBusClient listenOnAtspiEnabledSignalClient;
+ DBus::DBusClient registryClient;
+ Accessible* currentWindow = nullptr;
+ bool screenReaderEnabled = false, isEnabled = false;
+
+public:
+ BridgeImpl()
+ {
+ DBus::setDebugPrinter( []( const char* buf, size_t len ) {
+ std::string s{buf, len};
+ Dali::Integration::Log::LogMessage( Dali::Integration::Log::DebugInfo, "%s", s.c_str() );
+ } );
+ }
+
+ Consumed Emit( KeyEventType type, unsigned int keyCode, const std::string& keyName, unsigned int timeStamp, bool isText ) override
+ {
+ unsigned int evType = 0;
+
+ switch( type )
+ {
+ case KeyEventType::KeyPressed:
+ evType = 0;
+ {
+ break;
+ }
+ case KeyEventType::KeyReleased:
+ evType = 1;
+ {
+ break;
+ }
+ default:
+ {
+ return Consumed::No;
+ }
+ }
+ auto m = registryClient.method< bool( std::tuple< uint32_t, int32_t, int32_t, int32_t, int32_t, std::string, bool > ) >( "NotifyListenersSync" );
+ auto result = m.call( std::tuple< uint32_t, int32_t, int32_t, int32_t, int32_t, std::string, bool >{evType, 0, static_cast< int32_t >( keyCode ), 0, static_cast< int32_t >( timeStamp ), keyName, isText ? 1 : 0} );
+ if( !result )
+ {
+ LOG() << result.getError().message;
+ return Consumed::No;
+ }
+ return std::get< 0 >( result ) ? Consumed::Yes : Consumed::No;
+ }
+
+ void ForceDown() override
+ {
+ ApplicationHidden();
+ BridgeAccessible::ForceDown();
+ registryClient = {};
+ }
+
+ ForceUpResult ForceUp() override
+ {
+ if( BridgeAccessible::ForceUp() == ForceUpResult::alreadyUp )
+ return ForceUpResult::alreadyUp;
+
+ BridgeObject::RegisterInterfaces();
+ BridgeAccessible::RegisterInterfaces();
+ BridgeComponent::RegisterInterfaces();
+ BridgeCollection::RegisterInterfaces();
+ BridgeAction::RegisterInterfaces();
+ BridgeValue::RegisterInterfaces();
+
+ RegisterOnBridge( &application );
+
+ registryClient = {ATSPI_DBUS_NAME_REGISTRY, ATSPI_DBUS_PATH_DEC, ATSPI_DBUS_INTERFACE_DEC, con};
+ auto proxy = DBus::DBusClient{ATSPI_DBUS_NAME_REGISTRY, ATSPI_DBUS_PATH_ROOT, ATSPI_DBUS_INTERFACE_SOCKET, con};
+ Address root{
+ data->busName, "root"};
+ auto res = proxy.method< Address( Address ) >( "Embed" ).call( root );
+ assert( res );
+ application.parent.SetAddress( std::move( std::get< 0 >( res ) ) );
+ ApplicationShown();
+ return ForceUpResult::justStarted;
+ }
+
+ void ApplicationHidden() override
+ {
+ if( currentWindow )
+ {
+ currentWindow->Emit( WindowEvent::Deactivate, 0 );
+ currentWindow = nullptr;
+ }
+ }
+ void ApplicationShown() override
+ {
+ auto win = application.getActiveWindow();
+ if( win && win != currentWindow )
+ {
+ currentWindow = win;
+ win->Emit( WindowEvent::Activate, 0 );
+ }
+ }
+ void Initialize() override
+ {
+ auto req = DBus::DBusClient{A11Y_DBUS_NAME, A11Y_DBUS_PATH, A11Y_DBUS_STATUS_INTERFACE, DBus::ConnectionType::SESSION};
+ auto p = req.property< bool >( "ScreenReaderEnabled" ).get();
+ if( p )
+ screenReaderEnabled = std::get< 0 >( p );
+ p = req.property< bool >( "IsEnabled" ).get();
+ if( p )
+ isEnabled = std::get< 0 >( p );
+ if( screenReaderEnabled || isEnabled )
+ ForceUp();
+ }
+ static std::shared_ptr< Bridge > Create()
+ {
+ auto ptr = std::make_shared< BridgeImpl >();
+ ptr->MakePublic( Bridge::Visibility::allThreads );
+ ptr->listenOnAtspiEnabledSignalClient = DBus::DBusClient{A11Y_DBUS_NAME, A11Y_DBUS_PATH, A11Y_DBUS_STATUS_INTERFACE,
+ DBus::ConnectionType::SESSION};
+ {
+ auto p = ptr.get();
+ ptr->listenOnAtspiEnabledSignalClient.addPropertyChangedEvent< bool >( "ScreenReaderEnabled", [p]( bool res ) {
+ p->screenReaderEnabled = res;
+ if( p->screenReaderEnabled || p->isEnabled )
+ p->ForceUp();
+ else
+ p->ForceDown();
+ } );
+ ptr->listenOnAtspiEnabledSignalClient.addPropertyChangedEvent< bool >( "IsEnabled", [p]( bool res ) {
+ p->isEnabled = res;
+ if( p->screenReaderEnabled || p->isEnabled )
+ p->ForceUp();
+ else
+ p->ForceDown();
+ } );
+ }
+ return ptr;
+ }
+};
+
+std::shared_ptr< Bridge > Dali::Accessibility::CreateBridge()
+{
+ try
+ {
+ return BridgeImpl::Create();
+ }
+ catch( AccessibleError& e )
+ {
+ return {};
+ }
+}
--- /dev/null
+#ifndef BRIDGE_IMPL_HPP
+#define BRIDGE_IMPL_HPP
+
+#endif
--- /dev/null
+#include "BridgeObject.hpp"
+#include <iostream>
+#include <string>
+
+using namespace Dali::Accessibility;
+
+BridgeObject::BridgeObject()
+{
+}
+
+void BridgeObject::RegisterInterfaces()
+{
+ // DBus::DBusInterfaceDescription desc{ ATSPI_DBUS_INTERFACE_EVENT_OBJECT };
+ // stateChanged = addSignal<std::string, int, int, DBus::EldbusVariant<int>, Accessible*>(desc, "StateChanged");
+ // dbusServer.addInterface("/", desc, true);
+}
+
+void BridgeObject::Emit( Accessible* obj, WindowEvent we, unsigned int detail1 )
+{
+ const char* name = nullptr;
+ switch( we )
+ {
+ case WindowEvent::PropertyChange:
+ {
+ name = "PropertyChange";
+ break;
+ }
+ case WindowEvent::Minimize:
+ {
+ name = "Minimize";
+ break;
+ }
+ case WindowEvent::Maximize:
+ {
+ name = "Maximize";
+ break;
+ }
+ case WindowEvent::Restore:
+ {
+ name = "Restore";
+ break;
+ }
+ case WindowEvent::Close:
+ {
+ name = "Close";
+ break;
+ }
+ case WindowEvent::Create:
+ {
+ name = "Create";
+ break;
+ }
+ case WindowEvent::Reparent:
+ {
+ name = "Reparent";
+ break;
+ }
+ case WindowEvent::DesktopCreate:
+ {
+ name = "DesktopCreate";
+ break;
+ }
+ case WindowEvent::DesktopDestroy:
+ {
+ name = "DesktopDestroy";
+ break;
+ }
+ case WindowEvent::Destroy:
+ {
+ name = "Destroy";
+ break;
+ }
+ case WindowEvent::Activate:
+ {
+ name = "Activate";
+ break;
+ }
+ case WindowEvent::Deactivate:
+ {
+ name = "Deactivate";
+ break;
+ }
+ case WindowEvent::Raise:
+ {
+ name = "Raise";
+ break;
+ }
+ case WindowEvent::Lower:
+ {
+ name = "Lower";
+ break;
+ }
+ case WindowEvent::Move:
+ {
+ name = "Move";
+ break;
+ }
+ case WindowEvent::Resize:
+ {
+ name = "Resize";
+ break;
+ }
+ case WindowEvent::Shade:
+ {
+ name = "Shade";
+ break;
+ }
+ case WindowEvent::UuShade:
+ {
+ name = "uUshade";
+ break;
+ }
+ case WindowEvent::Restyle:
+ {
+ name = "Restyle";
+ break;
+ }
+ }
+ if( name )
+ {
+ auto addr = obj->GetAddress();
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+ std::string p;
+ if( addr )
+ p = prefixPath + addr.GetPath();
+ else
+ p = nullPath;
+ dbusServer.emit2< std::string, int, int, DBus::EldbusVariant< int >, Address >(
+ p,
+ ATSPI_DBUS_INTERFACE_EVENT_WINDOW,
+ name,
+ "",
+ detail1,
+ 0,
+ {0},
+ {GetBusName(), "root"} );
+ }
+}
+
+void BridgeObject::EmitStateChanged( Accessible* obj, State state, int newValue1, int newValue2 )
+{
+ const char* stateName = nullptr;
+ switch( state )
+ {
+ case State::Invalid:
+ {
+ stateName = "invalid";
+ break;
+ }
+ case State::Active:
+ {
+ stateName = "active";
+ break;
+ }
+ case State::Armed:
+ {
+ stateName = "armed";
+ break;
+ }
+ case State::Busy:
+ {
+ stateName = "busy";
+ break;
+ }
+ case State::Checked:
+ {
+ stateName = "checked";
+ break;
+ }
+ case State::Collapsed:
+ {
+ stateName = "collapsed";
+ break;
+ }
+ case State::Defunct:
+ {
+ stateName = "defunct";
+ break;
+ }
+ case State::Editable:
+ {
+ stateName = "editable";
+ break;
+ }
+ case State::Enabled:
+ {
+ stateName = "enabled";
+ break;
+ }
+ case State::Expandable:
+ {
+ stateName = "expandable";
+ break;
+ }
+ case State::Expanded:
+ {
+ stateName = "expanded";
+ break;
+ }
+ case State::Focusable:
+ {
+ stateName = "focusable";
+ break;
+ }
+ case State::Focused:
+ {
+ stateName = "focused";
+ break;
+ }
+ case State::HasTooltip:
+ {
+ stateName = "has-tooltip";
+ break;
+ }
+ case State::Horizontal:
+ {
+ stateName = "horizontal";
+ break;
+ }
+ case State::Iconified:
+ {
+ stateName = "iconified";
+ break;
+ }
+ case State::Modal:
+ {
+ stateName = "modal";
+ break;
+ }
+ case State::MultiLine:
+ {
+ stateName = "multi-line";
+ break;
+ }
+ case State::MultiSelectable:
+ {
+ stateName = "multiselectable";
+ break;
+ }
+ case State::Opaque:
+ {
+ stateName = "opaque";
+ break;
+ }
+ case State::Pressed:
+ {
+ stateName = "pressed";
+ break;
+ }
+ case State::Resizeable:
+ {
+ stateName = "resizable";
+ break;
+ }
+ case State::Selectable:
+ {
+ stateName = "selectable";
+ break;
+ }
+ case State::Selected:
+ {
+ stateName = "selected";
+ break;
+ }
+ case State::Sensitive:
+ {
+ stateName = "sensitive";
+ break;
+ }
+ case State::Showing:
+ {
+ stateName = "showing";
+ break;
+ }
+ case State::SingleLine:
+ {
+ stateName = "single-line";
+ break;
+ }
+ case State::Stale:
+ {
+ stateName = "stale";
+ break;
+ }
+ case State::Transient:
+ {
+ stateName = "transient";
+ break;
+ }
+ case State::Vertical:
+ {
+ stateName = "vertical";
+ break;
+ }
+ case State::Visible:
+ {
+ stateName = "visible";
+ break;
+ }
+ case State::ManagesDescendants:
+ {
+ stateName = "manages-descendants";
+ break;
+ }
+ case State::Indeterminate:
+ {
+ stateName = "indeterminate";
+ break;
+ }
+ case State::Required:
+ {
+ stateName = "required";
+ break;
+ }
+ case State::Truncated:
+ {
+ stateName = "truncated";
+ break;
+ }
+ case State::Animated:
+ {
+ stateName = "animated";
+ break;
+ }
+ case State::InvalidEntry:
+ {
+ stateName = "invalid-entry";
+ break;
+ }
+ case State::SupportsAutocompletion:
+ {
+ stateName = "supports-autocompletion";
+ break;
+ }
+ case State::SelectableText:
+ {
+ stateName = "selectable-text";
+ break;
+ }
+ case State::IsDefault:
+ {
+ stateName = "is-default";
+ break;
+ }
+ case State::Visited:
+ {
+ stateName = "visited";
+ break;
+ }
+ case State::Checkable:
+ {
+ stateName = "checkable";
+ break;
+ }
+ case State::HasPopup:
+ {
+ stateName = "has-popup";
+ break;
+ }
+ case State::ReadOnly:
+ {
+ stateName = "read-only";
+ break;
+ }
+ case State::Highlighted:
+ {
+ stateName = "highlighted";
+ break;
+ }
+ case State::Highlightable:
+ {
+ stateName = "highlightable";
+ break;
+ }
+ case State::_Count:
+ {
+ break;
+ }
+ }
+ if( stateName )
+ {
+ auto addr = obj->GetAddress();
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+ std::string p;
+ if( addr )
+ p = prefixPath + addr.GetPath();
+ else
+ p = nullPath;
+ dbusServer.emit2< std::string, int, int, DBus::EldbusVariant< int >, Address >(
+ p,
+ ATSPI_DBUS_INTERFACE_EVENT_OBJECT,
+ "StateChanged",
+ stateName,
+ newValue1,
+ newValue2,
+ {0},
+ {GetBusName(), "root"} );
+ }
+}
--- /dev/null
+#ifndef BRIDGE_OBJECT_HPP
+#define BRIDGE_OBJECT_HPP
+
+#include "BridgeBase.hpp"
+#include <array>
+#include <string>
+#include <unordered_map>
+#include <vector>
+
+class BridgeObject : public virtual BridgeBase
+{
+protected:
+ BridgeObject();
+
+ void RegisterInterfaces();
+
+ DBus::DBusInterfaceDescription::SignalId stateChanged;
+
+ void EmitStateChanged( Dali::Accessibility::Accessible* obj, Dali::Accessibility::State state, int val1, int val2 ) override;
+ void Emit( Dali::Accessibility::Accessible* obj, Dali::Accessibility::WindowEvent we, unsigned int detail1 ) override;
+
+public:
+ int GetChildCount();
+ DBus::ValueOrError< Dali::Accessibility::Accessible* > GetChildAtIndex( int index );
+ Dali::Accessibility::Accessible* GetParent();
+ DBus::ValueOrError< std::vector< Dali::Accessibility::Accessible* > > GetChildren();
+ std::string GetName();
+ std::string GetDescription();
+ DBus::ValueOrError< uint32_t > GetRole();
+ DBus::ValueOrError< std::string > GetRoleName();
+ DBus::ValueOrError< std::string > GetLocalizedRoleName();
+ DBus::ValueOrError< int32_t > GetIndexInParent();
+ DBus::ValueOrError< std::array< uint32_t, 2 > > GetStates();
+ DBus::ValueOrError< std::unordered_map< std::string, std::string > > GetAttributes();
+ DBus::ValueOrError< std::vector< std::string > > GetInterfaces();
+};
+
+#endif
\ No newline at end of file
--- /dev/null
+#include "BridgeText.hpp"
+
+#include <dali/internal/input/common/imf-manager-impl.h>
+
+using namespace Dali::Accessibility;
+
+void BridgeText::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_TEXT};
+ AddFunctionToInterface( desc, "GetText", &BridgeText::GetText );
+ AddGetPropertyToInterface( desc, "CharacterCount", &BridgeText::GetCharacterCount );
+ AddGetPropertyToInterface( desc, "CaretOffset", &BridgeText::GetCaretOffset );
+ AddFunctionToInterface( desc, "SetCaretOffset", &BridgeText::SetCaretOffset );
+ AddFunctionToInterface( desc, "GetTextAtOffset", &BridgeText::GetTextAtOffset );
+ AddFunctionToInterface( desc, "GetSelection", &BridgeText::GetSelection );
+ AddFunctionToInterface( desc, "SetSelection", &BridgeText::SetSelection );
+ AddFunctionToInterface( desc, "RemoveSelection", &BridgeText::RemoveSelection );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+Text* BridgeText::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< Text* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Text interface"};
+ return s2;
+}
+
+DBus::ValueOrError< std::string > BridgeText::GetText( int startOffset, int endOffset )
+{
+ return FindSelf()->GetText( startOffset, endOffset );
+}
+
+DBus::ValueOrError< int32_t > BridgeText::GetCharacterCount()
+{
+ return FindSelf()->GetCharacterCount();
+}
+
+DBus::ValueOrError< int32_t > BridgeText::GetCaretOffset()
+{
+ auto imfManager = Dali::Internal::Adaptor::ImfManager::Get();
+ return imfManager.GetCursorPosition();
+}
+
+DBus::ValueOrError< bool > BridgeText::SetCaretOffset( int32_t offset )
+{
+ auto imfManager = Dali::Internal::Adaptor::ImfManager::Get();
+ imfManager.SetCursorPosition( offset );
+ return true;
+}
+
+DBus::ValueOrError< std::string, int, int > BridgeText::GetTextAtOffset( int32_t offset, uint32_t boundary )
+{
+ auto r = FindSelf()->GetTextAtOffset( offset, static_cast< TextBoundary >( boundary ) );
+ return {r.content, static_cast< int >( r.startOffset ), static_cast< int >( r.endOffset )};
+}
+
+DBus::ValueOrError< int, int > BridgeText::GetSelection( int32_t selectionNum )
+{
+ auto r = FindSelf()->GetSelection( selectionNum );
+ return {static_cast< int >( r.startOffset ), static_cast< int >( r.endOffset )};
+}
+
+DBus::ValueOrError< bool > BridgeText::RemoveSelection( int32_t selectionNum )
+{
+ return FindSelf()->RemoveSelection( selectionNum );
+}
+
+DBus::ValueOrError< bool > BridgeText::SetSelection( int32_t selectionNum, int32_t startOffset, int32_t endOffset )
+{
+ return FindSelf()->SetSelection( selectionNum, startOffset, endOffset );
+}
--- /dev/null
+#ifndef BRIDGE_TEXT_HPP
+#define BRIDGE_TEXT_HPP
+
+#include "BridgeBase.hpp"
+
+class BridgeText : public virtual BridgeBase
+{
+protected:
+ BridgeText() = default;
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::Text* FindSelf() const;
+
+public:
+ DBus::ValueOrError< std::string > GetText( int startOffset, int endOffset );
+ DBus::ValueOrError< int32_t > GetCharacterCount();
+ DBus::ValueOrError< int32_t > GetCaretOffset();
+ DBus::ValueOrError< bool > SetCaretOffset( int32_t offset );
+ DBus::ValueOrError< std::string, int, int > GetTextAtOffset( int32_t offset, uint32_t boundary );
+ DBus::ValueOrError< int, int > GetSelection( int32_t selectionNum );
+ DBus::ValueOrError< bool > RemoveSelection( int32_t selectionNum );
+ DBus::ValueOrError< bool > SetSelection( int32_t selectionNum, int32_t startOffset, int32_t endOffset );
+};
+
+#endif
--- /dev/null
+#include "BridgeValue.hpp"
+#include <iostream>
+
+using namespace Dali::Accessibility;
+
+BridgeValue::BridgeValue()
+{
+}
+
+void BridgeValue::RegisterInterfaces()
+{
+ DBus::DBusInterfaceDescription desc{ATSPI_DBUS_INTERFACE_VALUE};
+ AddGetSetPropertyToInterface( desc, "CurrentValue", &BridgeValue::GetCurrentValue, &BridgeValue::SetCurrentValue );
+ AddGetPropertyToInterface( desc, "MaximumValue", &BridgeValue::GetMaximumValue );
+ AddGetPropertyToInterface( desc, "MinimumIncrement", &BridgeValue::GetMinimumIncrement );
+ AddGetPropertyToInterface( desc, "MinimumValue", &BridgeValue::GetMinimumValue );
+ dbusServer.addInterface( "/", desc, true );
+}
+
+Value* BridgeValue::FindSelf() const
+{
+ auto s = BridgeBase::FindSelf();
+ assert( s );
+ auto s2 = dynamic_cast< Value* >( s );
+ if( !s2 )
+ throw AccessibleError{"object " + s->GetAddress().ToString() + " doesn't have Value interface"};
+ return s2;
+}
+double BridgeValue::GetCurrentValue()
+{
+ return FindSelf()->GetCurrent();
+}
+void BridgeValue::SetCurrentValue( double new_value )
+{
+ FindSelf()->SetCurrent( new_value );
+}
+double BridgeValue::GetMaximumValue()
+{
+ return FindSelf()->GetMaximum();
+}
+double BridgeValue::GetMinimumIncrement()
+{
+ return FindSelf()->GetMinimumIncrement();
+}
+double BridgeValue::GetMinimumValue()
+{
+ return FindSelf()->GetMinimum();
+}
--- /dev/null
+#ifndef BRIDGE_VALUE_HPP
+#define BRIDGE_VALUE_HPP
+
+#include "BridgeBase.hpp"
+#include <array>
+#include <string>
+#include <tuple>
+#include <unordered_map>
+#include <vector>
+
+class BridgeValue : public virtual BridgeBase
+{
+protected:
+ BridgeValue();
+
+ void RegisterInterfaces();
+
+ Dali::Accessibility::Value* FindSelf() const;
+
+public:
+ double GetCurrentValue();
+ void SetCurrentValue( double new_value );
+ double GetMaximumValue();
+ double GetMinimumIncrement();
+ double GetMinimumValue();
+};
+
+#endif
--- /dev/null
+#ifndef COMMON_HPP
+#define COMMON_HPP
+
+#include "DBus.hpp"
+#include "dbusLocators.hpp"
+#include <dali/devel-api/adaptor-framework/accessibility.h>
+#include <dali/integration-api/debug.h>
+#include <iomanip>
+#include <sstream>
+#include <string>
+
+#define A11Y_DBUS_NAME "org.a11y.Bus"
+#define A11Y_DBUS_PATH "/org/a11y/bus"
+#define A11Y_DBUS_STATUS_INTERFACE "org.a11y.Status"
+#define ATSPI_DBUS_NAME_REGISTRY "org.a11y.atspi.Registry"
+#define ATSPI_DBUS_PATH_ROOT "/org/a11y/atspi/accessible/root"
+#define ATSPI_DBUS_INTERFACE_SOCKET "org.a11y.atspi.Socket"
+#define ATSPI_PATH "/org/a11y/atspi/accessible"
+#define ATSPI_DBUS_INTERFACE_ACCESSIBLE "org.a11y.atspi.Accessible"
+#define ATSPI_DBUS_INTERFACE_ACTION "org.a11y.atspi.Action"
+#define ATSPI_DBUS_INTERFACE_APPLICATION "org.a11y.atspi.Application"
+#define ATSPI_DBUS_INTERFACE_COLLECTION "org.a11y.atspi.Collection"
+#define ATSPI_DBUS_INTERFACE_COMPONENT "org.a11y.atspi.Component"
+#define ATSPI_DBUS_INTERFACE_DOCUMENT "org.a11y.atspi.Document"
+#define ATSPI_DBUS_INTERFACE_EDITABLE_TEXT "org.a11y.atspi.EditableText"
+#define ATSPI_DBUS_INTERFACE_EVENT_KEYBOARD "org.a11y.atspi.Event.Keyboard"
+#define ATSPI_DBUS_INTERFACE_EVENT_MOUSE "org.a11y.atspi.Event.Mouse"
+#define ATSPI_DBUS_INTERFACE_EVENT_OBJECT "org.a11y.atspi.Event.Object"
+#define ATSPI_DBUS_INTERFACE_HYPERLINK "org.a11y.atspi.Hyperlink"
+#define ATSPI_DBUS_INTERFACE_HYPERTEXT "org.a11y.atspi.Hypertext"
+#define ATSPI_DBUS_INTERFACE_IMAGE "org.a11y.atspi.Image"
+#define ATSPI_DBUS_INTERFACE_SELECTION "org.a11y.atspi.Selection"
+#define ATSPI_DBUS_INTERFACE_TABLE "org.a11y.atspi.Table"
+#define ATSPI_DBUS_INTERFACE_TABLE_CELL "org.a11y.atspi.TableCell"
+#define ATSPI_DBUS_INTERFACE_TEXT "org.a11y.atspi.Text"
+#define ATSPI_DBUS_INTERFACE_VALUE "org.a11y.atspi.Value"
+#define ATSPI_DBUS_INTERFACE_SOCKET "org.a11y.atspi.Socket"
+#define ATSPI_DBUS_INTERFACE_EVENT_WINDOW "org.a11y.atspi.Event.Window"
+
+#define ATSPI_DBUS_PATH_DEC "/org/a11y/atspi/registry/deviceeventcontroller"
+#define ATSPI_DBUS_INTERFACE_DEC "org.a11y.atspi.DeviceEventController"
+#define ATSPI_DBUS_INTERFACE_DEVICE_EVENT_LISTENER "org.a11y.atspi.DeviceEventListener"
+
+namespace DBus
+{
+class CurrentBridgePtr
+{
+ static Dali::Accessibility::Bridge*& get()
+ {
+ static thread_local Dali::Accessibility::Bridge* b = nullptr;
+ return b;
+ }
+ Dali::Accessibility::Bridge* prev;
+ CurrentBridgePtr( const CurrentBridgePtr& ) = delete;
+ CurrentBridgePtr( CurrentBridgePtr&& ) = delete;
+ CurrentBridgePtr& operator=( const CurrentBridgePtr& ) = delete;
+ CurrentBridgePtr& operator=( CurrentBridgePtr&& ) = delete;
+
+public:
+ CurrentBridgePtr( Dali::Accessibility::Bridge* b ) : prev( get() ) { get() = b; }
+ ~CurrentBridgePtr() { get() = prev; }
+
+ static Dali::Accessibility::Bridge* current() { return get(); }
+};
+namespace detail
+{
+template < typename T >
+struct signature_accessible_impl
+{
+ using subtype = std::pair< std::string, DBus::ObjectPath >;
+
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "AtspiAccessiblePtr";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "(so)";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, T* t )
+ {
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+
+ if( t )
+ {
+ auto v = t->GetAddress();
+ signature< subtype >::set( iter, {v.GetBus(), DBus::ObjectPath{std::string{prefixPath} + v.GetPath()}} );
+ }
+ else
+ {
+ signature< subtype >::set( iter, {"", DBus::ObjectPath{nullPath}} );
+ }
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, T*& v )
+ {
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+ subtype tmp;
+ if( !signature< subtype >::get( iter, tmp ) )
+ return false;
+ if( tmp.second.value == nullPath )
+ {
+ v = nullptr;
+ return true;
+ }
+ if( tmp.second.value.substr( 0, strlen( prefixPath ) ) != prefixPath )
+ return false;
+ auto b = CurrentBridgePtr::current();
+ if( b->GetBusName() != tmp.first )
+ return false;
+ v = b->FindByPath( tmp.second.value.substr( strlen( prefixPath ) ) );
+ return v != nullptr;
+ }
+};
+template <>
+struct signature< Dali::Accessibility::Accessible* > : public signature_accessible_impl< Dali::Accessibility::Accessible >
+{
+};
+
+template <>
+struct signature< Dali::Accessibility::Address >
+{
+ using subtype = std::pair< std::string, DBus::ObjectPath >;
+
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "AtspiAccessiblePtr";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "(so)";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const Dali::Accessibility::Address& v )
+ {
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+
+ if( v )
+ {
+ signature< subtype >::set( iter, {v.GetBus(), DBus::ObjectPath{std::string{prefixPath} + v.GetPath()}} );
+ }
+ else
+ {
+ signature< subtype >::set( iter, {v.GetBus(), DBus::ObjectPath{nullPath}} );
+ }
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, Dali::Accessibility::Address& v )
+ {
+ const auto prefixPath = "/org/a11y/atspi/accessible/";
+ const auto nullPath = "/org/a11y/atspi/null";
+ subtype tmp;
+ if( !signature< subtype >::get( iter, tmp ) )
+ return false;
+ if( tmp.second.value == nullPath )
+ {
+ v = {};
+ return true;
+ }
+ if( tmp.second.value.substr( 0, strlen( prefixPath ) ) != prefixPath )
+ return false;
+ v = {std::move( tmp.first ), tmp.second.value.substr( strlen( prefixPath ) )};
+ return true;
+ }
+};
+template <>
+struct signature< Dali::Accessibility::States >
+{
+ using subtype = std::array< uint32_t, 2 >;
+
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return signature< subtype >::name();
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature< subtype >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const Dali::Accessibility::States& v )
+ {
+ signature< subtype >::set( iter, v.GetRawData() );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, Dali::Accessibility::States& v )
+ {
+ subtype tmp;
+ if( !signature< subtype >::get( iter, tmp ) )
+ return false;
+ v = Dali::Accessibility::States{tmp};
+ return true;
+ }
+};
+}
+}
+
+struct _Logger
+{
+ const char* file;
+ int line;
+ std::ostringstream tmp;
+
+ _Logger( const char* f, int l ) : file( f ), line( l ) {}
+ ~_Logger()
+ {
+ Dali::Integration::Log::LogMessage( Dali::Integration::Log::DebugInfo, "%s:%d: %s", file, line, tmp.str().c_str() );
+ }
+ template < typename T >
+ _Logger& operator<<( T&& t )
+ {
+ tmp << std::forward< T >( t );
+ return *this;
+ }
+};
+
+struct _LoggerScope
+{
+ const char* file;
+ int line;
+
+ _LoggerScope( const char* f, int l ) : file( f ), line( l )
+ {
+ Dali::Integration::Log::LogMessage( Dali::Integration::Log::DebugInfo, "%s:%d: +", file, line );
+ }
+ ~_LoggerScope()
+ {
+ Dali::Integration::Log::LogMessage( Dali::Integration::Log::DebugInfo, "%s:%d: -", file, line );
+ }
+};
+#define LOG() _Logger( __FILE__, __LINE__ )
+#define SCOPE() _LoggerScope _l##__LINE__( __FILE__, __LINE__ )
+
+#endif
--- /dev/null
+#include "Common.hpp"
+#include <iostream>
+
+using namespace Dali::Accessibility;
+
+bool Component::Contains( Point p, CoordType ctype )
+{
+ auto extents = GetExtents( ctype );
+ return p.x >= extents.position.x && p.y >= extents.position.y && p.x <= extents.position.x + extents.size.width && p.y <= extents.position.y + extents.size.height;
+}
+
+Component* Component::GetAccessibleAtPoint( Point p, CoordType ctype )
+{
+ auto children = GetChildren();
+ for( auto childIt = children.rbegin(); childIt != children.rend(); childIt++ )
+ {
+ auto component = dynamic_cast< Component* >( *childIt );
+ if( component && component->Contains( p, ctype ) )
+ {
+ return component;
+ }
+ }
+ return nullptr;
+}
+
+bool Component::IsScrollable()
+{
+ return false;
+}
--- /dev/null
+/*
+ * Copyright 2017 Samsung Electronics Co., Ltd
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#include "DBus.hpp"
+#include <sstream>
+//#include "Atspi.hpp"
+#include <iostream>
+#include <mutex>
+
+#define DBUS_INTERFACE_PROPERTIES "org.freedesktop.DBus.Properties"
+
+#undef EINA_FALSE
+#undef EINA_TRUE
+#define EINA_TRUE static_cast< Eina_Bool >( 1 )
+#define EINA_FALSE static_cast< Eina_Bool >( 0 )
+
+//#define DBUS_DEBUG(...) do { DBus::debugPrint(__FILE__, __LINE__, __VA_ARGS__); } while (0)
+
+std::atomic< unsigned int > DBus::detail::CallId::LastId{0};
+static std::function< void( const char*, size_t ) > debugPrinter;
+static std::function< void( DBus::DBusAction ) > notificationCallback;
+static std::mutex debugLock, notificationLock;
+
+DBus::detail::CallOnDestructionList& DBus::detail::CallOnDestructionList::operator=( DBus::detail::CallOnDestructionList&& d )
+{
+ for( auto& q : functions )
+ {
+ q();
+ }
+ functions = std::move( d.functions );
+ d.functions.clear();
+ return *this;
+}
+
+void DBus::detail::CallOnDestructionList::add( const std::function< void() >& c )
+{
+ functions.push_back( c );
+}
+
+void DBus::setDBusActionNotifier( std::function< void( DBus::DBusAction ) > callback )
+{
+ std::lock_guard< std::mutex > lock( notificationLock );
+ notificationCallback = std::move( callback );
+}
+
+void DBus::detail::emitNotification( const char* bus, const char* path, const char* interface, const char* member, DBus::DBusActionType type )
+{
+ std::lock_guard< std::mutex > lock( notificationLock );
+ if( notificationCallback )
+ {
+ notificationCallback( DBusAction{type, bus, path, interface, member} );
+ }
+}
+
+void DBus::setDebugPrinter( std::function< void( const char*, size_t ) > printer )
+{
+ std::lock_guard< std::mutex > lock( debugLock );
+ debugPrinter = std::move( printer );
+}
+
+void DBus::debugPrint( const char* file, size_t line, const char* format, ... )
+{
+ std::function< void( const char*, size_t ) > debugPrintFunc;
+ {
+ std::lock_guard< std::mutex > lock( debugLock );
+ if( !debugPrinter )
+ return;
+ debugPrintFunc = debugPrinter;
+ }
+ std::vector< char > buf( 4096 );
+ int offset;
+ while( true )
+ {
+ offset = snprintf( buf.data(), buf.size(), "%s:%u: ", file, static_cast< unsigned int >( line ) );
+ if( offset < 0 )
+ return;
+ if( static_cast< size_t >( offset ) < buf.size() )
+ break;
+ buf.resize( offset + 1 );
+ }
+
+ while( true )
+ {
+ va_list args;
+ va_start( args, format );
+ int z = vsnprintf( buf.data() + offset, buf.size() - offset, format, args );
+ va_end( args );
+ if( z < 0 )
+ return;
+ bool done = static_cast< size_t >( z ) + static_cast< size_t >( offset ) < buf.size();
+ buf.resize( static_cast< size_t >( z ) + static_cast< size_t >( offset ) );
+ if( done )
+ break;
+ }
+ debugPrintFunc( buf.data(), buf.size() );
+}
+
+std::shared_ptr< DBus::EldbusConnection > DBus::getDBusConnectionByName( const std::string& name )
+{
+ eldbus_init();
+ auto z = getDBusConnectionByType( ConnectionType::SYSTEM );
+ auto connection = eldbus_address_connection_get( name.c_str() );
+ auto ptr = std::make_shared< EldbusConnection >( connection );
+ eldbus_shutdown();
+ return ptr;
+}
+
+std::shared_ptr< DBus::EldbusConnection > DBus::getDBusConnectionByType( ConnectionType connectionType )
+{
+ Eldbus_Connection_Type eldbusType = ELDBUS_CONNECTION_TYPE_SYSTEM;
+
+ switch( connectionType )
+ {
+ case ConnectionType::SYSTEM:
+ {
+ eldbusType = ELDBUS_CONNECTION_TYPE_SYSTEM;
+ break;
+ }
+ case ConnectionType::SESSION:
+ {
+ eldbusType = ELDBUS_CONNECTION_TYPE_SESSION;
+ break;
+ }
+ }
+
+ eldbus_init();
+ auto connection = eldbus_connection_get( eldbusType );
+ auto ptr = std::make_shared< EldbusConnection >( connection );
+ eldbus_shutdown();
+ return ptr;
+}
+
+DBus::DBusClient::DBusClient( std::string busName, std::string pathName, std::string interfaceName, ConnectionType tp ) : DBusClient( std::move( busName ), std::move( pathName ), std::move( interfaceName ), getDBusConnectionByType( tp ) )
+{
+}
+
+struct caller_eldbus_object_unref
+{
+ void operator()( Eldbus_Object* p ) const
+ {
+ eldbus_object_unref( p );
+ }
+};
+
+DBus::DBusClient::DBusClient( std::string busName, std::string pathName, std::string interfaceName, const std::shared_ptr< DBus::EldbusConnection >& conn )
+{
+ if( !conn )
+ connectionState.connection = getDBusConnectionByType( ConnectionType::SESSION );
+ else
+ connectionState.connection = conn;
+
+ std::ostringstream o;
+ o << "bus = " << busName << " path = " << pathName << " connection = " << eldbus_connection_unique_name_get( connectionState.connection->get() );
+ info = o.str();
+
+ auto c = connectionState.connection;
+ connectionState.object = {
+ eldbus_object_get( connectionState.connection->get(), busName.c_str(), pathName.c_str() ),
+ [c]( Eldbus_Object* p ) {
+ eldbus_object_unref( p );
+ }};
+ if( connectionState.object )
+ {
+ auto obj = connectionState.object;
+ connectionState.proxy = {
+ eldbus_proxy_get( connectionState.object.get(), interfaceName.c_str() ),
+ [obj]( Eldbus_Proxy* p ) {
+ eldbus_proxy_unref( p );
+ }};
+ if( interfaceName != DBUS_INTERFACE_PROPERTIES )
+ {
+ auto obj = connectionState.object;
+ connectionState.propertiesProxy = {
+ eldbus_proxy_get( connectionState.object.get(), DBUS_INTERFACE_PROPERTIES ),
+ [obj]( Eldbus_Proxy* p ) {
+ eldbus_proxy_unref( p );
+ }};
+ }
+ else
+ {
+ connectionState.propertiesProxy = connectionState.proxy;
+ }
+ }
+ connectionInfo = std::make_shared< ConnectionInfo >();
+ connectionInfo->busName = std::move( busName );
+ connectionInfo->pathName = std::move( pathName );
+ connectionInfo->interfaceName = std::move( interfaceName );
+}
+
+DBus::DBusServer::DBusServer( ConnectionType tp ) : DBus::DBusServer( DBus::getDBusConnectionByType( tp ) )
+{
+}
+
+DBus::DBusServer::DBusServer( const std::shared_ptr< DBus::EldbusConnection >& conn )
+{
+ if( !conn )
+ connection = getDBusConnectionByType( ConnectionType::SESSION );
+ else
+ connection = conn;
+}
+
+DBus::DBusInterfaceDescription::DBusInterfaceDescription( std::string interfaceName ) : interfaceName( std::move( interfaceName ) )
+{
+}
+
+struct Implementation
+{
+ Eldbus_Service_Interface_Desc dsc;
+ std::vector< Eldbus_Method > methods;
+ std::vector< Eldbus_Signal > signals;
+ std::vector< Eldbus_Property > properties;
+ DBus::detail::StringStorage strings;
+
+ std::unordered_map< std::string, DBus::DBusInterfaceDescription::MethodInfo > methodsMap;
+ std::unordered_map< std::string, DBus::DBusInterfaceDescription::PropertyInfo > propertiesMap;
+ std::unordered_map< unsigned int, DBus::DBusInterfaceDescription::SignalInfo > signalsMap;
+
+ std::shared_ptr< DBus::EldbusConnection > connection;
+};
+
+static std::unordered_map< const Eldbus_Service_Interface*, std::unique_ptr< Implementation > > globalEntries;
+static std::mutex globalEntriesMutex;
+static thread_local const char* currentObjectPath = "";
+static thread_local std::shared_ptr< DBus::EldbusConnection > currentConnection;
+
+class CurrentObjectSetter
+{
+public:
+ CurrentObjectSetter( std::shared_ptr< DBus::EldbusConnection > con, const Eldbus_Message* m )
+ {
+ currentObjectPath = eldbus_message_path_get( m );
+ currentConnection = std::move( con );
+ }
+ ~CurrentObjectSetter()
+ {
+ currentObjectPath = "";
+ currentConnection = {};
+ }
+ CurrentObjectSetter( const CurrentObjectSetter& ) = delete;
+ CurrentObjectSetter( CurrentObjectSetter&& ) = delete;
+ void operator=( const CurrentObjectSetter& ) = delete;
+ void operator=( CurrentObjectSetter&& ) = delete;
+};
+
+std::string DBus::DBusServer::getCurrentObjectPath()
+{
+ return currentObjectPath;
+}
+
+std::shared_ptr< DBus::EldbusConnection > DBus::DBusServer::getCurrentConnection()
+{
+ return currentConnection;
+}
+
+static Eina_Bool property_get_callback( const Eldbus_Service_Interface* iface, const char* propertyName, Eldbus_Message_Iter* iter,
+ const Eldbus_Message* message, Eldbus_Message** error )
+{
+ Implementation* impl = nullptr;
+ {
+ std::lock_guard< std::mutex > lock( globalEntriesMutex );
+ auto it = globalEntries.find( iface );
+ if( it != globalEntries.end() )
+ impl = it->second.get();
+ }
+ if( !impl )
+ return EINA_FALSE;
+
+ auto it = impl->propertiesMap.find( propertyName );
+ if( it == impl->propertiesMap.end() || !it->second.getCallback )
+ return EINA_FALSE;
+
+ CurrentObjectSetter currentObjectSetter( impl->connection, message );
+ auto reply = it->second.getCallback( message, iter );
+ if( !reply )
+ {
+ if( error )
+ *error = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", reply.getError().message.c_str() );
+ return EINA_FALSE;
+ }
+
+ return EINA_TRUE;
+}
+
+static Eldbus_Message* property_set_callback( const Eldbus_Service_Interface* iface, const char* propertyName, Eldbus_Message_Iter* iter,
+ const Eldbus_Message* message )
+{
+ Implementation* impl = nullptr;
+ {
+ std::lock_guard< std::mutex > lock( globalEntriesMutex );
+ auto it = globalEntries.find( iface );
+ if( it != globalEntries.end() )
+ impl = it->second.get();
+ }
+ if( !impl )
+ {
+ auto ret = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", "Unknown interface" );
+ return ret;
+ }
+ auto it = impl->propertiesMap.find( propertyName );
+ if( it == impl->propertiesMap.end() || !it->second.setCallback )
+ {
+ auto ret = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", "Unknown setter" );
+ return ret;
+ }
+ CurrentObjectSetter currentObjectSetter( impl->connection, message );
+ auto reply = it->second.setCallback( message, iter );
+
+ Eldbus_Message* ret = nullptr;
+ if( !reply )
+ {
+ ret = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", reply.getError().message.c_str() );
+ }
+ else
+ {
+ ret = eldbus_message_method_return_new( message );
+ }
+ return ret;
+}
+
+static Eldbus_Message* method_callback( const Eldbus_Service_Interface* iface, const Eldbus_Message* message )
+{
+ Implementation* impl = nullptr;
+ {
+ std::lock_guard< std::mutex > lock( globalEntriesMutex );
+ auto it = globalEntries.find( iface );
+ if( it != globalEntries.end() )
+ impl = it->second.get();
+ }
+ if( !impl )
+ {
+ auto ret = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", "Unknown interface" );
+ return ret;
+ }
+ std::string memberName = eldbus_message_member_get( message );
+ auto it = impl->methodsMap.find( memberName );
+ if( it == impl->methodsMap.end() )
+ {
+ auto ret = eldbus_message_error_new( message, "org.freedesktop.DBus.Error.Failed", "Unknown method" );
+ return ret;
+ }
+ CurrentObjectSetter currentObjectSetter( impl->connection, message );
+ auto reply = it->second.callback( message );
+ return reply;
+}
+
+static void addInterfaceImpl( bool fallback, const std::string& pathName,
+ const std::shared_ptr< DBus::EldbusConnection >& connection,
+ const std::string& interfaceName,
+ std::unordered_map< unsigned int, std::pair< const Eldbus_Service_Interface*, unsigned int > >& signalData,
+ DBus::detail::StringStorage& strings,
+ std::vector< DBus::DBusInterfaceDescription::MethodInfo >& dscrMethods,
+ std::vector< DBus::DBusInterfaceDescription::PropertyInfo >& dscrProperties,
+ std::vector< DBus::DBusInterfaceDescription::SignalInfo >& dscrSignals,
+ DBus::detail::CallOnDestructionList& destructors )
+{
+ std::vector< Eldbus_Method > methods;
+ std::vector< Eldbus_Signal > signals;
+ std::vector< Eldbus_Property > properties;
+ std::unordered_map< std::string, DBus::DBusInterfaceDescription::MethodInfo > methodsMap;
+ std::unordered_map< std::string, DBus::DBusInterfaceDescription::PropertyInfo > propertiesMap;
+ std::unordered_map< unsigned int, DBus::DBusInterfaceDescription::SignalInfo > signalsMap;
+
+ DBUS_DEBUG( "interface %s path %s on bus %s", interfaceName.c_str(), pathName.c_str(), DBus::getConnectionName( connection ).c_str() );
+ for( auto& ee : dscrMethods )
+ {
+ auto key = ee.memberName;
+ DBUS_DEBUG( "adding method %s", ee.memberName.c_str() );
+ for( auto& r : ee.in )
+ {
+ if( !r.name )
+ break;
+ DBUS_DEBUG( "in %s '%s'", r.name, r.signature );
+ }
+ for( auto& r : ee.out )
+ {
+ if( !r.name )
+ break;
+ DBUS_DEBUG( "out %s '%s'", r.name, r.signature );
+ }
+ auto& e = ( methodsMap[key] = std::move( ee ) );
+ methods.push_back( {} );
+ auto& m = methods.back();
+ m.member = e.memberName.c_str();
+ m.in = e.in.data();
+ m.out = e.out.data();
+ m.cb = method_callback;
+ m.flags = 0;
+ }
+ for( auto& ee : dscrProperties )
+ {
+ auto key = ee.memberName;
+ DBUS_DEBUG( "adding property %s", ee.memberName.c_str() );
+ auto& e = ( propertiesMap[key] = std::move( ee ) );
+ properties.push_back( {} );
+ auto& m = properties.back();
+ m.name = e.memberName.c_str();
+ m.type = e.typeSignature.c_str();
+ m.get_func = e.getCallback ? property_get_callback : nullptr;
+ m.set_func = e.setCallback ? property_set_callback : nullptr;
+ m.flags = 0;
+ }
+ unsigned int signalIndex = 0;
+ std::vector< unsigned int > signalIds;
+ for( auto& ee : dscrSignals )
+ {
+ DBUS_DEBUG( "adding signal %s", ee.memberName.c_str() );
+ auto& e = ( signalsMap[ee.id.id] = std::move( ee ) );
+ signals.push_back( {} );
+ auto& m = signals.back();
+ m.name = e.memberName.c_str();
+ m.args = e.args.data();
+ m.flags = 0;
+ signalData[e.id.id].second = signalIndex++;
+ signalIds.push_back( e.id.id );
+ }
+ dscrMethods.clear();
+ dscrProperties.clear();
+ dscrSignals.clear();
+
+ methods.push_back( {nullptr, nullptr, nullptr, nullptr, 0} );
+ signals.push_back( {nullptr, nullptr, 0} );
+ properties.push_back( {nullptr, nullptr, nullptr, nullptr, 0} );
+
+ auto impl = std::unique_ptr< Implementation >( new Implementation{
+ {interfaceName.c_str(),
+ methods.data(),
+ signals.data(),
+ properties.data(),
+ nullptr,
+ nullptr},
+ std::move( methods ),
+ std::move( signals ),
+ std::move( properties ),
+ std::move( strings ),
+ std::move( methodsMap ),
+ std::move( propertiesMap ),
+ std::move( signalsMap ),
+ connection} );
+
+ {
+ std::lock_guard< std::mutex > lock( globalEntriesMutex );
+ auto v = fallback ? eldbus_service_interface_fallback_register( connection->get(), pathName.c_str(), &impl->dsc ) : eldbus_service_interface_register( connection->get(), pathName.c_str(), &impl->dsc );
+ assert( v );
+ globalEntries[v] = std::move( impl );
+ DBUS_DEBUG( "registering interface %p (%d)", v, fallback ? 1 : 0 );
+ destructors.add( [=]() {
+ eldbus_service_interface_unregister( v );
+ std::lock_guard< std::mutex > lock( globalEntriesMutex );
+ globalEntries.erase( v );
+ DBUS_DEBUG( "unregistering interface %p (%d)", v, fallback ? 1 : 0 );
+ } );
+ for( auto id : signalIds )
+ {
+ signalData[id].first = v;
+ }
+ }
+}
+
+std::shared_ptr< DBus::EldbusConnection > DBus::DBusServer::getConnection()
+{
+ return connection;
+}
+
+void DBus::DBusServer::addInterface( const std::string& pathName, DBusInterfaceDescription& dscr, bool fallback )
+{
+ addInterfaceImpl( fallback, pathName, connection, dscr.interfaceName, signalData, dscr.strings, dscr.methods, dscr.properties, dscr.signals, destructors );
+}
+
+std::string DBus::DBusServer::getBusName() const
+{
+ return getConnectionName( connection );
+}
+
+std::string DBus::getConnectionName( const std::shared_ptr< DBus::EldbusConnection >& c )
+{
+ return eldbus_connection_unique_name_get( c->get() );
+}
--- /dev/null
+/*
+ * Copyright 2017 Samsung Electronics Co., Ltd
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef DBUS_HPP
+#define DBUS_HPP
+
+#include <Eldbus.h>
+#include <memory>
+
+#include "Optional.hpp"
+#include <array>
+#include <atomic>
+#include <cstdint>
+#include <map>
+#include <sstream>
+#include <string>
+#include <thread>
+#include <tuple>
+#include <type_traits>
+#include <unordered_map>
+#include <vector>
+
+#define DBUS_DEBUG( ... ) \
+ do \
+ { \
+ DBus::debugPrint( __FILE__, __LINE__, __VA_ARGS__ ); \
+ } while( 0 )
+
+/**
+ * @brief Template based, single file, wrapper library around eldbus for DBUS based communication.
+ *
+ * Main motivation was missing asynchronous calls in AT-SPI library and difficulties,
+ * when using eldbus from C++.
+ *
+ * The library:
+ * - takes care of marshalling arguments to and from DBUS calls.
+ * - allows synchronous and asynchronous calls.
+ * - allows synchronous and asynchronous listeners on signals.
+ * - manages all involved objects' lifetimes.
+ * - errors are passed as optional-alike objects, no exceptions are used.
+ * - allows setting additional debug-print function for more details about
+ * what's going on
+ *
+ * DBUS's method signatures (and expected return values) are specified as template argument,
+ * using functor syntax. For example:
+ * \code{.cpp}
+ * auto dbus = DBusClient{ ... };
+ * auto v = dbus.method<std::tuple<int, float>(float, float, std::string)>("foo").call(1.0f, 2.0f, "qwe");
+ * \endcode
+ * means (synchronous) call on dbus object, which takes three arguments (thus making call signature \b dds)
+ * of types float, float and string (float will be automatically converted to double).
+ * Expected return value is std::tuple<int, float>, which gives signature <B>(id)</B> - std::tuple acts
+ * as struct container. Returned value v will be of type ValueOrError<std::tuple<int, float>>.\n
+ * Slightly different (asynchronous) example:
+ * \code{.cpp}
+ * auto dbus = DBusClient{ ... };
+ * std::function<void(ValueOrError<int, float>)> callback;
+ * dbus.method<ValueOrError<int, float>(float, float, std::string)>("foo").asyncCall(callback, 1.0f, 2.0f, "qwe");
+ * \endcode
+ * Now the call takes the same arguments and has the same signature. But expected values are different -
+ * now the signature is simply \b id. ValueOrError acts in this case as placeholder for list of values,
+ * which DBUS allows as return data. The call itself is asynchronous - instead of expecting reply
+ * you need to pass a callback, which will be called either with received data and error message.
+ *
+ * Library is not thread-safe, the same object shouldn't be called from different threads without
+ * synchronization. There's no guarantee, that callbacks will be executed on the same thread.
+ */
+namespace DBus
+{
+/// \cond
+class DBusServer;
+class DBusClient;
+class DBusInterfaceDescription;
+
+/**
+ * @brief DBus action enumeration
+ *
+ * @param METHOD_CALL DBus is about to call a method on some external target
+ * @param SETTER_CALL DBus is about to call a setter method on some external target
+ * @param GETTER_CALL DBus is about to call a getter method on some external target
+ * @param SIGNAL_RECEIVED DBus just received a signal
+ * @param METHOD_RESPONSE DBus server received a method call
+ * @param SETTER_RESPONSE DBus server received a setter call
+ * @param GETTER_RESPONSE DBus server received a getter call
+ * @param SIGNAL_EMIT DBus server is about to emit a signal
+ */
+enum class DBusActionType
+{
+ METHOD_CALL,
+ SETTER_CALL,
+ GETTER_CALL,
+ SIGNAL_RECEIVED,
+ METHOD_RESPONSE,
+ SETTER_RESPONSE,
+ GETTER_RESPONSE,
+ SIGNAL_EMIT,
+};
+
+/**
+ * @brief Structure containing information about DBus activity, when calling notification callback
+ *
+ * @param type type of the action
+ * @param path path of the object, that's involved in action
+ * @param interface interface, on which member was acted upon. Note, that in case of getters and setters
+ * this will be real interface, not org.freedesktop.DBus.Properties
+ * @param member member name, that was involved (either method / setter / getter / signal)
+ */
+struct DBusAction
+{
+ const DBusActionType type;
+ const char* const bus = nullptr;
+ const char* const path = nullptr;
+ const char* const interface = nullptr;
+ const char* const member = nullptr;
+
+ DBusAction( const DBusActionType type,
+ const char* const bus = nullptr,
+ const char* const path = nullptr,
+ const char* const interface = nullptr,
+ const char* const member = nullptr ) : type( type ), bus( bus ), path( path ), interface( interface ), member( member ) {}
+};
+
+/**
+ * @brief Formats debug message and calls debug printer (if any) with it
+ */
+void debugPrint( const char* file, size_t line, const char* format, ... );
+
+/**
+ * @brief Sets debug printer callback, which will be called with debug messages
+ *
+ * Callback will be called in various moments of DBus activity. First value passed to callback
+ * is pointer to text, second it's length. Text is ended with 0 (not counted towards it's size),
+ * user can safely printf it.
+ */
+void setDebugPrinter( std::function< void( const char*, size_t ) > );
+
+/**
+ * @brief Sets notification callback about processing of DBus call
+ *
+ * Notification callback can be set independently either on client or server.
+ * On client's side callback will be called, when user calls method / getter / setter
+ * or when client has received a signal.
+ * On server's side callback will be called, when sever has received a request to
+ * handle method / getter / setter or when server is going to emit a signal.
+ * Callback should returns as fast as possible.
+ * User can't call setDBusActionNotifier from inside the callback call -
+ * it will cause a deadlock
+ */
+void setDBusActionNotifier( std::function< void( DBusAction ) > callback );
+
+namespace detail
+{
+void emitNotification( const char* bus, const char* path, const char* interface, const char* member, DBusActionType type );
+}
+
+struct Error
+{
+ std::string message;
+
+ Error() = default;
+ Error( std::string msg ) : message( std::move( msg ) )
+ {
+ assert( !message.empty() );
+ }
+};
+struct Success
+{
+};
+/// \endcond
+
+/**
+ * @brief Value representing data, that came from DBUS or error message
+ *
+ * Object of this class either helds series of values (of types ARGS...)
+ * or error message. This object will be true in boolean context, if has data
+ * and false, if an error occured.
+ * It's valid to create ValueOrError object with empty argument list or void:
+ * \code{.cpp}
+ * ValueOrError<> v1;
+ * ValueOrError<void> v2;
+ * \endcode
+ * Both mean the same - ValueOrError containing no real data and being a marker,
+ * wherever operation successed or failed and containing possible error message.
+ */
+template < typename... ARGS >
+class ValueOrError
+{
+public:
+ /**
+ * @brief Empty constructor. Valid only, if all ARGS types are default constructible.
+ */
+ ValueOrError() = default;
+
+ /**
+ * @brief Value constructor.
+ *
+ * This will be initialized as success with passed in values.
+ */
+ ValueOrError( ARGS... t ) : value( std::move( t )... ) {}
+
+ /**
+ * @brief Alternative Value constructor.
+ *
+ * This will be initialized as success with passed in values.
+ */
+ ValueOrError( std::tuple< ARGS... > t ) : value( std::move( t ) ) {}
+
+ /**
+ * @brief Error constructor. This will be initialized as failure with given error message.
+ */
+ ValueOrError( Error e ) : error( std::move( e ) )
+ {
+ assert( !error.message.empty() );
+ }
+
+ /**
+ * @brief bool operator.
+ *
+ * Returns true, if operation was successful (getValues member is callable), or false
+ * when operation failed (getError is callable).
+ */
+ explicit operator bool() const
+ {
+ return error.message.empty();
+ }
+
+ /**
+ * @brief Returns error message object.
+ *
+ * Returns object containing error message associated with the failed operation.
+ * Only callable, if operation actually failed, otherwise will assert.
+ */
+ const Error& getError() const
+ {
+ return error;
+ }
+
+ /**
+ * @brief Returns modifiable tuple of held data.
+ *
+ * Returns reference to the internal tuple containing held data.
+ * User can modify (or move) data safely.
+ * Only callable, if operation actually successed, otherwise will assert.
+ */
+ std::tuple< ARGS... >& getValues()
+ {
+ assert( *this );
+ return value;
+ }
+
+ /**
+ * @brief Returns const tuple of held data.
+ *
+ * Returns const reference to the internal tuple containing held data.
+ * Only callable, if operation actually successed, otherwise will assert.
+ */
+ const std::tuple< ARGS... >& getValues() const
+ {
+ assert( *this );
+ return value;
+ }
+
+protected:
+ /// \cond
+ std::tuple< ARGS... > value;
+ Error error;
+ /// \endcond
+};
+
+/// \cond
+template <>
+class ValueOrError<>
+{
+public:
+ ValueOrError() = default;
+ ValueOrError( std::tuple<> t ) {}
+ ValueOrError( Error e ) : error( std::move( e ) )
+ {
+ assert( !error.message.empty() );
+ }
+
+ explicit operator bool() const
+ {
+ return error.message.empty();
+ }
+ const Error& getError() const
+ {
+ return error;
+ }
+ std::tuple<>& getValues()
+ {
+ assert( *this );
+ static std::tuple<> t;
+ return t;
+ }
+ std::tuple<> getValues() const
+ {
+ assert( *this );
+ return {};
+ }
+
+protected:
+ Error error;
+};
+
+template <>
+class ValueOrError< void >
+{
+public:
+ ValueOrError() = default;
+ ValueOrError( Success ) {}
+ ValueOrError( Error e ) : error( std::move( e ) )
+ {
+ assert( !error.message.empty() );
+ }
+
+ explicit operator bool() const
+ {
+ return error.message.empty();
+ }
+ const Error& getError() const
+ {
+ return error;
+ }
+ std::tuple<>& getValues()
+ {
+ assert( *this );
+ static std::tuple<> t;
+ return t;
+ }
+ std::tuple<> getValues() const
+ {
+ assert( *this );
+ return {};
+ }
+
+protected:
+ Error error;
+};
+struct ObjectPath
+{
+ std::string value;
+};
+namespace detail
+{
+class CallOnDestructionList
+{
+public:
+ CallOnDestructionList() = default;
+ CallOnDestructionList( const CallOnDestructionList& ) = delete;
+ CallOnDestructionList( CallOnDestructionList&& ) = default;
+
+ CallOnDestructionList& operator=( const CallOnDestructionList& ) = delete;
+ CallOnDestructionList& operator=( CallOnDestructionList&& );
+
+ void add( const std::function< void() >& c );
+
+private:
+ std::vector< std::function< void() > > functions;
+};
+
+struct caller_eldbus_connection_unref
+{
+ void operator()( Eldbus_Connection* p ) const
+ {
+ eldbus_connection_unref( p );
+ }
+};
+
+struct caller_eldbus_message_unref
+{
+ void operator()( Eldbus_Message* p ) const
+ {
+ eldbus_message_unref( p );
+ }
+};
+
+struct caller_eldbus_proxy_unref
+{
+ void operator()( Eldbus_Proxy* p ) const
+ {
+ eldbus_proxy_unref( p );
+ }
+};
+}
+/// \endcond
+
+/**
+ * @brief Class used to marshall DBUS's variant type
+ *
+ * Minimalistic class, that allows user to specify DBUS variant type
+ * as argument or return value. You need to pass real type hidden under variant as
+ * template type \b A. At this point library doesn't allow to expected one of few classes
+ * as return data in variant. So for example user can't specify method call, which on return
+ * expects DBUS variant holding either string or int.
+ */
+template < typename A >
+struct EldbusVariant
+{
+ A value;
+};
+
+/// \cond
+class EldbusConnection
+{
+ Eldbus_Connection* ptr = nullptr;
+
+public:
+ EldbusConnection( Eldbus_Connection* c ) : ptr( c )
+ {
+ eldbus_init();
+ }
+ EldbusConnection() = delete;
+ EldbusConnection( const EldbusConnection& ) = delete;
+ EldbusConnection( EldbusConnection&& ) = delete;
+ ~EldbusConnection()
+ {
+ eldbus_connection_unref( ptr );
+ eldbus_shutdown();
+ }
+
+ Eldbus_Connection* get() const
+ {
+ return ptr;
+ }
+};
+//using EldbusConnectionCallbackHandle = std::shared_ptr<Eldbus_Connection>;
+using EldbusMessageCallbackHandle = std::unique_ptr< Eldbus_Message, detail::caller_eldbus_message_unref >;
+using EldbusObjectCallbackHandle = std::shared_ptr< Eldbus_Object >;
+using EldbusProxyHandle = std::shared_ptr< Eldbus_Proxy >;
+/// \endcond
+
+/**
+ * @brief Namespace for private, internal functions and classes
+ *
+ */
+namespace detail
+{
+/// \cond
+template < typename T, typename = void >
+struct signature;
+template < typename... ARGS >
+struct signature< std::tuple< ARGS... > >;
+template < typename A, typename B >
+struct signature< std::pair< A, B > >;
+template < typename A >
+struct signature< std::vector< A > >;
+template < typename A, size_t N >
+struct signature< std::array< A, N > >;
+template < typename A, typename B >
+struct signature< std::unordered_map< A, B > >;
+template < typename A, typename B >
+struct signature< std::map< A, B > >;
+
+template < typename T >
+struct signature< T, typename std::enable_if< std::is_enum< T >::value, void >::type >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "enum";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ // TODO: add check for failure in marshalling arguments
+ return "i";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, T v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), static_cast< int >( v ) );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, T& v )
+ {
+ int q;
+ auto z = eldbus_message_iter_get_and_next( iter, sig()[0], &q );
+ v = static_cast< T >( q );
+ return z;
+ }
+};
+/// \endcond
+
+/**
+ * @brief Signature class for marshalling uint8 type.
+ */
+template <>
+struct signature< uint8_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "uint8_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "y";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, uint8_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, uint8_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling uint16 type.
+ */
+template <>
+struct signature< uint16_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "uint16_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "q";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, uint16_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, uint16_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling uint32 type.
+ */
+template <>
+struct signature< uint32_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "uint32_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "u";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, uint32_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, uint32_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling uint64 type.
+ */
+template <>
+struct signature< uint64_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "uint64_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "t";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, uint64_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, uint64_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling int16 type.
+ */
+template <>
+struct signature< int16_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "int16_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "n";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, int16_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, int16_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling int32 type.
+ */
+template <>
+struct signature< int32_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "int32_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "i";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, int32_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, int32_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling int64 type.
+ */
+template <>
+struct signature< int64_t >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "int64_t";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "x";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, int64_t v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, int64_t& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling double type.
+ */
+template <>
+struct signature< double >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "double";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "d";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, double v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, double& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, float& v2 )
+ {
+ double v = 0;
+ auto r = eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ v2 = static_cast< float >( v );
+ return r;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling float type.
+ */
+template <>
+struct signature< float >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "float";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "d";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, float v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, double& v )
+ {
+ return eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, float& v2 )
+ {
+ double v = 0;
+ auto r = eldbus_message_iter_get_and_next( iter, sig()[0], &v );
+ v2 = static_cast< float >( v );
+ return r;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling boolean type.
+ */
+template <>
+struct signature< bool >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "bool";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "b";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, bool v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v ? 1 : 0 );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, bool& v )
+ {
+ unsigned char q;
+ auto z = eldbus_message_iter_get_and_next( iter, sig()[0], &q );
+ v = q != 0;
+ return z;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling string type.
+ *
+ * Both (const) char * and std::string types are accepted as value to send.
+ * Only std::string is accepted as value to receive.
+ */
+template <>
+struct signature< std::string >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "string";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "s";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::string& v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v.c_str() );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const char* v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::string& v )
+ {
+ const char* q;
+ if( !eldbus_message_iter_get_and_next( iter, 's', &q ) )
+ {
+ if( !eldbus_message_iter_get_and_next( iter, 'o', &q ) )
+ return false;
+ }
+ v = q;
+ return true;
+ }
+};
+template <>
+struct signature< ObjectPath >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "path";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "o";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::string& v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v.c_str() );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const ObjectPath& v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v.value.c_str() );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const char* v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, ObjectPath& v )
+ {
+ const char* q;
+ if( !eldbus_message_iter_get_and_next( iter, 'o', &q ) )
+ return false;
+ v.value = q;
+ return true;
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::string& v )
+ {
+ const char* q;
+ if( !eldbus_message_iter_get_and_next( iter, 'o', &q ) )
+ return false;
+ v = q;
+ return true;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling (const) char * type.
+ *
+ * Both (const) char * and std::string types are accepted as value to send.
+ * You can't use (const) char * variable type to receive value.
+ */
+template <>
+struct signature< char* >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "string";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "s";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::string& v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v.c_str() );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const char* v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+};
+
+/**
+ * @brief Signature class for marshalling (const) char[N] type.
+ *
+ * Both (const) char[N] and std::string types are accepted as value to send.
+ * You can't use (const) char[N] variable type to receive value.
+ */
+template < size_t N >
+struct signature< char[N] >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "string";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "s";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::string& v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v.c_str() );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const char* v )
+ {
+ eldbus_message_iter_arguments_append( iter, sig().c_str(), v );
+ }
+};
+/// \cond
+template < size_t INDEX, typename A, typename... ARGS >
+struct signature_tuple_element_type_helper
+{
+ using type = typename signature_tuple_element_type_helper< INDEX - 1, ARGS... >::type;
+};
+template < typename A, typename... ARGS >
+struct signature_tuple_element_type_helper< 0, A, ARGS... >
+{
+ using type = A;
+};
+/// \endcond
+
+/**
+ * @brief Helper class to marshall tuples
+ *
+ * This class marshals all elements of the tuple value starting at the index INDEX
+ * and incrementing. This class recursively calls itself with increasing INDEX value
+ * until INDEX is equal to SIZE, where recursive calling ends.
+ */
+template < size_t INDEX, size_t SIZE, typename... ARGS >
+struct signature_tuple_helper
+{
+ using current_type = typename signature_tuple_element_type_helper< INDEX, ARGS... >::type;
+
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ if( INDEX + 1 >= SIZE )
+ return signature< current_type >::name();
+ return signature< current_type >::name() + ", " + signature_tuple_helper< INDEX + 1, SIZE, ARGS... >::name();
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature< current_type >::sig() + signature_tuple_helper< INDEX + 1, SIZE, ARGS... >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::tuple< ARGS... >& args )
+ {
+ signature< current_type >::set( iter, std::get< INDEX >( args ) );
+ signature_tuple_helper< INDEX + 1, SIZE, ARGS... >::set( iter, args );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::tuple< ARGS... >& args )
+ {
+ return signature< current_type >::get( iter, std::get< INDEX >( args ) ) &&
+ signature_tuple_helper< INDEX + 1, SIZE, ARGS... >::get( iter, args );
+ }
+};
+
+/**
+ * @brief Helper class to marshall tuples
+ *
+ * This class marks end of the tuple marshalling. Members of this class are called
+ * when INDEX value is equal to SIZE.
+ */
+template < size_t SIZE, typename... ARGS >
+struct signature_tuple_helper< SIZE, SIZE, ARGS... >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::tuple< ARGS... >& args )
+ {
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::tuple< ARGS... >& args )
+ {
+ return true;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling tuple of values
+ *
+ * This class marshalls tuple of values. This represents
+ * DBUS struct typle, encoded with character 'r'
+ */
+template < typename... ARGS >
+struct signature< std::tuple< ARGS... > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "tuple<" + signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "(" + signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::sig() + ")";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::tuple< ARGS... >& args )
+ {
+ auto entry = eldbus_message_iter_container_new( iter, 'r', NULL );
+ signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::set( entry, args );
+ eldbus_message_iter_container_close( iter, entry );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::tuple< ARGS... >& args )
+ {
+ Eldbus_Message_Iter* entry;
+ if( !eldbus_message_iter_get_and_next( iter, 'r', &entry ) )
+ return false;
+ auto z = signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::get( entry, args );
+ return z;
+ }
+};
+/**
+ * @brief Signature class for marshalling ValueOrError template type
+ *
+ * ValueOrError template type is used to marshall list of values passed to
+ * DBUS (or received from) at the "top" level. For example ss(s) is represented as
+ * \code{.cpp} ValueOrError<std::string, std::string, std::tuple<std::string>> \endcode
+ * While (ss(s)) is represented as
+ * \code{.cpp} std::tuple<std::string, std::string, std::tuple<std::string>> \endcode
+ * or
+ * \code{.cpp} ValueOrError<std::tuple<std::string, std::string, std::tuple<std::string>>> \endcode
+ */
+template < typename... ARGS >
+struct signature< ValueOrError< ARGS... > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "ValueOrError<" + signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const ValueOrError< ARGS... >& args )
+ {
+ signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::set( iter, args.getValues() );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, ValueOrError< ARGS... >& args )
+ {
+ return signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::get( iter, args.getValues() );
+ }
+};
+/**
+ * @brief Signature class for marshalling ValueOrError<void> type
+ */
+template <>
+struct signature< ValueOrError< void > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "ValueOrError<void>";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const ValueOrError< void >& args )
+ {
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, ValueOrError< void >& args )
+ {
+ return true;
+ }
+};
+/**
+ * @brief Signature class for marshalling ValueOrError<> type
+ */
+template <>
+struct signature< ValueOrError<> >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "ValueOrError<>";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const ValueOrError<>& args )
+ {
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, ValueOrError<>& args )
+ {
+ return true;
+ }
+};
+/**
+ * @brief Signature class for marshalling pair of types
+ */
+template < typename A, typename B >
+struct signature< std::pair< A, B > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "pair<" + signature_tuple_helper< 0, 2, A, B >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "(" + signature_tuple_helper< 0, 2, A, B >::sig() + ")";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::pair< A, B >& ab, bool dictionary = false )
+ {
+ auto entry = eldbus_message_iter_container_new( iter, dictionary ? 'e' : 'r', NULL );
+ signature_tuple_helper< 0, 2, A, B >::set( entry, ab );
+ eldbus_message_iter_container_close( iter, entry );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::pair< A, B >& ab )
+ {
+ char sg = 'r';
+ char* t = eldbus_message_iter_signature_get( iter );
+ if( t && t[0] == '{' )
+ sg = '{';
+ free( t );
+
+ Eldbus_Message_Iter* entry;
+ if( !eldbus_message_iter_get_and_next( iter, sg, &entry ) )
+ return false;
+ std::tuple< A, B > ab_tmp;
+ auto z = signature_tuple_helper< 0, 2, A, B >::get( entry, ab_tmp );
+ if( z )
+ {
+ ab.first = std::move( std::get< 0 >( ab_tmp ) );
+ ab.second = std::move( std::get< 1 >( ab_tmp ) );
+ }
+ return z;
+ }
+};
+/**
+ * @brief Signature class for marshalling std::vector template type
+ *
+ * This marshals container's content as DBUS a ascii character type code.
+ */
+template < typename A >
+struct signature< std::vector< A > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "vector<" + signature< A >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "a" + signature< A >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::vector< A >& v )
+ {
+ auto lst = eldbus_message_iter_container_new( iter, 'a', signature< A >::sig().c_str() );
+ assert( lst );
+ for( auto& a : v )
+ {
+ signature< A >::set( lst, a );
+ }
+ eldbus_message_iter_container_close( iter, lst );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::vector< A >& v )
+ {
+ Eldbus_Message_Iter* s;
+ v.clear();
+ if( !eldbus_message_iter_get_and_next( iter, 'a', &s ) )
+ return false;
+ A a;
+ while( signature< A >::get( s, a ) )
+ v.push_back( std::move( a ) );
+
+ return true;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling std::array template type
+ *
+ * This marshals container's content as DBUS a ascii character type code.
+ */
+template < typename A, size_t N >
+struct signature< std::array< A, N > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "array<" + signature< A >::name() + ", " + std::to_string( N ) + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "a" + signature< A >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::array< A, N >& v )
+ {
+ auto lst = eldbus_message_iter_container_new( iter, 'a', signature< A >::sig().c_str() );
+ assert( lst );
+ for( auto& a : v )
+ {
+ signature< A >::set( lst, a );
+ }
+ eldbus_message_iter_container_close( iter, lst );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::array< A, N >& v )
+ {
+ Eldbus_Message_Iter* s;
+ if( !eldbus_message_iter_get_and_next( iter, 'a', &s ) )
+ return false;
+ for( auto& a : v )
+ {
+ if( !signature< A >::get( s, a ) )
+ return false;
+ }
+ return true;
+ }
+};
+
+/**
+ * @brief Signature class for marshalling EldbusVariant type
+ *
+ * This marshals variant's content as DBUS v ascii character type code.
+ */
+template < typename A >
+struct signature< EldbusVariant< A > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "variant<" + signature< A >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "v";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const EldbusVariant< A >& v )
+ {
+ set( iter, v.value );
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const A& v )
+ {
+ auto var = eldbus_message_iter_container_new( iter, 'v', signature< A >::sig().c_str() );
+ signature< A >::set( var, v );
+ eldbus_message_iter_container_close( iter, var );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, EldbusVariant< A >& v )
+ {
+ Eldbus_Message_Iter* s;
+ if( !eldbus_message_iter_get_and_next( iter, 'v', &s ) )
+ return false;
+ return signature< A >::get( s, v.value );
+ }
+};
+/**
+ * @brief Signature class for marshalling std::unordered_map template type
+ *
+ * This marshals container's content as DBUS {} ascii character type code.
+ * Note, that library doesnt check, if the key is basic type, as DBUS
+ * specification mandates.
+ * User can always exchange std::unordered_map for std::map and the reverse.
+ * User can receive such values as std::vector of std::pair<key, value> values.
+ * Order of such values is unspecified.
+ */
+template < typename A, typename B >
+struct signature< std::unordered_map< A, B > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "unordered_map<" + signature< A >::name() + ", " + signature< B >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "a{" + signature_tuple_helper< 0, 2, A, B >::sig() + "}";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::unordered_map< A, B >& v )
+ {
+ auto sig = "{" + signature_tuple_helper< 0, 2, A, B >::sig() + "}";
+ auto lst = eldbus_message_iter_container_new( iter, 'a', sig.c_str() );
+ assert( lst );
+ for( auto& a : v )
+ {
+ signature< std::pair< A, B > >::set( lst, a, true );
+ }
+ eldbus_message_iter_container_close( iter, lst );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::unordered_map< A, B >& v )
+ {
+ Eldbus_Message_Iter* s;
+ v.clear();
+ if( !eldbus_message_iter_get_and_next( iter, 'a', &s ) )
+ return false;
+ std::pair< A, B > a;
+ while( signature< std::pair< A, B > >::get( s, a ) )
+ v.insert( std::move( a ) );
+ return true;
+ }
+};
+/**
+ * @brief Signature class for marshalling std::unordered_map template type
+ *
+ * This marshals container's content as DBUS {} ascii character type code.
+ * Note, that library doesnt check, if the key is basic type, as DBUS
+ * specification mandates.
+ * User can always exchange std::unordered_map for std::map and the reverse.
+ * User can receive such values as std::vector of std::pair<key, value> values.
+ * Order of such values is unspecified.
+ */
+template < typename A, typename B >
+struct signature< std::map< A, B > >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "map<" + signature< A >::name() + ", " + signature< B >::name() + ">";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return "a{" + signature_tuple_helper< 0, 2, A, B >::sig() + "}";
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const std::map< A, B >& v )
+ {
+ auto sig = "{" + signature_tuple_helper< 0, 2, A, B >::sig() + "}";
+ auto lst = eldbus_message_iter_container_new( iter, 'a', sig.c_str() );
+ assert( lst );
+ for( auto& a : v )
+ {
+ signature< std::pair< A, B > >::set( lst, a, true );
+ }
+ eldbus_message_iter_container_close( iter, lst );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static bool get( Eldbus_Message_Iter* iter, std::map< A, B >& v )
+ {
+ Eldbus_Message_Iter* s;
+ if( !eldbus_message_iter_get_and_next( iter, 'a', &s ) )
+ return false;
+ std::pair< A, B > a;
+ while( signature< std::pair< A, B > >::get( s, a ) )
+ v.insert( std::move( a ) );
+ return true;
+ }
+};
+/**
+ * @brief Signature helper class for marshalling const reference types
+ */
+template < typename A >
+struct signature< const A& >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "const " + signature< A >::name() + "&";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature< A >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const A& v )
+ {
+ signature< A >::set( iter, v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static void get( Eldbus_Message_Iter* iter, A& v )
+ {
+ signature< A >::get( iter, v );
+ }
+};
+/**
+ * @brief Signature helper class for marshalling reference types
+ */
+template < typename A >
+struct signature< A& >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return signature< A >::name() + "&";
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature< A >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const A& v )
+ {
+ signature< A >::set( iter, v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static void get( Eldbus_Message_Iter* iter, A& v )
+ {
+ signature< A >::get( iter, v );
+ }
+};
+/**
+ * @brief Signature helper class for marshalling const types
+ */
+template < typename A >
+struct signature< const A >
+{
+ /**
+ * @brief Returns name of type marshalled, for informative purposes
+ */
+ static std::string name()
+ {
+ return "const " + signature< A >::name();
+ }
+ /**
+ * @brief Returns DBUS' signature of type marshalled
+ */
+ static std::string sig()
+ {
+ return signature< A >::sig();
+ }
+ /**
+ * @brief Marshals value v as marshalled type into message
+ */
+ static void set( Eldbus_Message_Iter* iter, const A& v )
+ {
+ signature< A >::set( iter, v );
+ }
+ /**
+ * @brief Marshals value from marshalled type into variable v
+ */
+ static void get( Eldbus_Message_Iter* iter, A& v )
+ {
+ signature< A >::get( iter, v );
+ }
+};
+// /**
+// * @brief Signature helper class for marshalling AT-SPI Accessible pointer values
+// *
+// * In AT-SPI specification those values are mandated to be marshalled as struct (so)
+// * where o is object (exactly as string, but with different ascii
+// * character code.
+// */
+// template <> struct signature<std::shared_ptr<AtspiAccessible>> {
+// using subtype = std::pair<std::string, std::string>;
+
+// /**
+// * @brief Returns name of type marshalled, for informative purposes
+// */
+// static std::string name()
+// {
+// return "AtspiAccessiblePtr";
+// }
+// /**
+// * @brief Returns DBUS' signature of type marshalled
+// */
+// static std::string sig()
+// {
+// return "(so)";
+// }
+// /**
+// * @brief Marshals value v as marshalled type into message
+// */
+// static void set(Eldbus_Message_Iter *iter, const std::shared_ptr<AtspiAccessible> &v)
+// {
+// const auto prefixPath = "/org/a11y/atspi/accessible/";
+// const auto nullPath = "/org/a11y/atspi/null";
+
+// if (v) {
+// auto bus = atspi_accessible_get_bus_name(v.get(), NULL);
+// auto path = atspi_accessible_get_path(v.get(), NULL);
+// signature<subtype>::set(iter, { bus, std::string{prefixPath} + path });
+// g_free(path);
+// g_free(bus);
+// } else {
+// signature<subtype>::set(iter, { {}, std::string{nullPath} });
+// }
+// }
+// /**
+// * @brief Marshals value from marshalled type into variable v
+// */
+// static bool get(Eldbus_Message_Iter *iter, std::shared_ptr<AtspiAccessible> &v);
+// };
+/// \cond
+struct CallId
+{
+ friend class ::DBus::DBusServer;
+ friend class ::DBus::DBusClient;
+ friend class ::DBus::DBusInterfaceDescription;
+ static std::atomic< unsigned int > LastId;
+ unsigned int id = ++LastId;
+};
+template < typename ValueType >
+ValueType unpackValues( CallId callId, const Eldbus_Message* msg )
+{
+ auto iter = eldbus_message_iter_get( msg );
+ ValueType r;
+
+ if( iter )
+ {
+ if( !signature< ValueType >::get( iter, r ) )
+ {
+ DBUS_DEBUG( "ValueType is %s", signature< ValueType >::name().c_str() );
+ r = Error{"call " + std::to_string( callId.id ) + ": failed to unpack values, got signature '" +
+ eldbus_message_signature_get( msg ) + "', expected '" + signature< ValueType >::sig() + "'"};
+ }
+ }
+ else
+ {
+ r = Error{"call " + std::to_string( callId.id ) + ": failed to get iterator"};
+ }
+ return r;
+}
+inline void packValues_helper( Eldbus_Message_Iter* iter ) {}
+template < typename A, typename... ARGS >
+void packValues_helper( Eldbus_Message_Iter* iter, A&& a, ARGS&&... r )
+{
+ signature< A >::set( iter, std::forward< A >( a ) );
+ packValues_helper( iter, std::forward< ARGS >( r )... );
+}
+template < typename... ARGS >
+void packValues( CallId callId, Eldbus_Message* msg, ARGS&&... r )
+{
+ auto iter = eldbus_message_iter_get( msg );
+ packValues_helper( iter, std::forward< ARGS >( r )... );
+}
+
+template < typename >
+struct ReturnType;
+template < typename R, typename... ARGS >
+struct ReturnType< R( ARGS... ) >
+{
+ using type = R;
+};
+template < typename R, typename... ARGS >
+struct ReturnType< std::function< R( ARGS... ) > >
+{
+ using type = R;
+};
+template < int... >
+struct sequence
+{
+};
+template < int N, int... S >
+struct sequence_gen : sequence_gen< N - 1, N - 1, S... >
+{
+};
+template < int... S >
+struct sequence_gen< 0, S... >
+{
+ typedef sequence< S... > type;
+};
+template < typename C, typename... ARGS >
+struct apply_helper
+{
+ const std::function< C >& c;
+ const std::tuple< ARGS... >& args;
+
+ template < int... S >
+ auto apply_2( sequence< S... > ) const -> decltype( c( std::get< S >( args )... ) )
+ {
+ return c( std::get< S >( args )... );
+ }
+ auto apply_1() const -> decltype( apply_2( typename sequence_gen< sizeof...( ARGS ) >::type() ) )
+ {
+ return apply_2( typename sequence_gen< sizeof...( ARGS ) >::type() );
+ }
+};
+template < typename C, typename A, typename... ARGS >
+struct apply_helper_2
+{
+ const std::function< C >& c;
+ const A& a;
+ const std::tuple< ARGS... >& args;
+
+ template < int... S >
+ auto apply_2( sequence< S... > ) const -> decltype( c( a, std::get< S >( args )... ) )
+ {
+ return c( a, std::get< S >( args )... );
+ }
+ auto apply_1() const -> decltype( apply_2( typename sequence_gen< sizeof...( ARGS ) >::type() ) )
+ {
+ return apply_2( typename sequence_gen< sizeof...( ARGS ) >::type() );
+ }
+};
+template < typename C, typename... ARGS >
+auto apply( const std::function< C >& c, const std::tuple< ARGS... >& args ) -> typename ReturnType< C >::type
+{
+ apply_helper< C, ARGS... > ah{c, args};
+ return ah.apply_1();
+}
+template < typename C, typename D, typename... ARGS >
+auto apply( const std::function< C >& c, const D& d, const std::tuple< ARGS... >& args ) -> typename ReturnType< C >::type
+{
+ apply_helper_2< C, D, ARGS... > ah{c, d, args};
+ return ah.apply_1();
+}
+
+struct EldbusProxyBase
+{
+ EldbusProxyBase()
+ {
+ eldbus_init();
+ }
+ ~EldbusProxyBase()
+ {
+ eldbus_shutdown();
+ }
+};
+
+constexpr static int ELDBUS_CALL_TIMEOUT = 1000;
+
+struct ConnectionState
+{
+ std::shared_ptr< DBus::EldbusConnection > connection;
+ EldbusObjectCallbackHandle object;
+ EldbusProxyHandle proxy;
+ EldbusProxyHandle propertiesProxy;
+};
+using CallAsyncDataType = std::tuple< CallId, std::function< void( const Eldbus_Message* ) > >;
+
+static void callAsyncCb( void* data, const Eldbus_Message* msg, Eldbus_Pending* pending )
+{
+ auto d = static_cast< CallAsyncDataType* >( data );
+ DBUS_DEBUG( "call %d: got reply", std::get< 0 >( *d ).id );
+ std::get< 1 > ( *d )( msg );
+}
+static void pendingFreeCb( void* data, const void* )
+{
+ auto d = static_cast< CallAsyncDataType* >( data );
+ DBUS_DEBUG( "call %d: deleting", std::get< 0 >( *d ).id );
+ delete d;
+}
+template < typename RETTYPE, typename... ARGS >
+RETTYPE call( CallId callId, ConnectionState& connectionState, bool property, const std::string& funcName, const ARGS&... args )
+{
+ auto proxy = property ? connectionState.propertiesProxy : connectionState.proxy;
+ if( !proxy )
+ {
+ DBUS_DEBUG( "call %d: not initialized", callId.id );
+ return Error{"not initialized"};
+ }
+
+ DBUS_DEBUG( "call %d: calling '%s'", callId.id, funcName.c_str() );
+ EldbusMessageCallbackHandle msg{eldbus_proxy_method_call_new( proxy.get(), funcName.c_str() )};
+ if( !msg )
+ {
+ DBUS_DEBUG( "call %d: failed", callId.id );
+ return Error{"failed to create message"};
+ }
+
+ detail::packValues( callId, msg.get(), args... );
+ auto replyRawPtr = eldbus_proxy_send_and_block( proxy.get(), msg.release(), ELDBUS_CALL_TIMEOUT );
+ EldbusMessageCallbackHandle reply{replyRawPtr};
+ DBUS_DEBUG( "call %d: calling '%s' done", callId.id, funcName.c_str() );
+ if( !reply )
+ {
+ DBUS_DEBUG( "call %d: failed", callId.id );
+ return Error{"eldbus returned null as reply"};
+ }
+ const char *errname, *errmsg;
+ if( eldbus_message_error_get( reply.get(), &errname, &errmsg ) )
+ {
+ DBUS_DEBUG( "call %d: %s: %s", callId.id, errname, errmsg );
+ return Error{std::string( errname ) + ": " + errmsg};
+ }
+ DBUS_DEBUG( "call %d: got reply with signature '%s'", callId.id, eldbus_message_signature_get( reply.get() ) );
+ return detail::unpackValues< RETTYPE >( callId, reply.get() );
+}
+
+template < typename RETTYPE, typename... ARGS >
+void asyncCall( CallId callId, ConnectionState connectionState,
+ bool property, const std::string& funcName,
+ std::function< void( RETTYPE ) > callback, const ARGS&... args )
+{
+ auto proxy = property ? connectionState.propertiesProxy : connectionState.proxy;
+ if( !proxy )
+ {
+ DBUS_DEBUG( "call %d: not initialized", callId.id );
+ callback( Error{"not initialized"} );
+ return;
+ }
+
+ EldbusMessageCallbackHandle msg{eldbus_proxy_method_call_new( proxy.get(), funcName.c_str() )};
+ if( !msg )
+ {
+ DBUS_DEBUG( "call %d: failed", callId.id );
+ callback( Error{"failed to create message"} );
+ return;
+ }
+
+ auto cbData = new CallAsyncDataType{callId, [callback, callId, proxy]( const Eldbus_Message* reply ) {
+ DBUS_DEBUG( "call %d: calling done", callId.id );
+ if( !reply )
+ {
+ DBUS_DEBUG( "call %d: failed", callId.id );
+ callback( Error{"eldbus returned null as reply"} );
+ }
+ else
+ {
+ const char *errname, *errmsg;
+ if( eldbus_message_error_get( reply, &errname, &errmsg ) )
+ {
+ DBUS_DEBUG( "call %d: %s: %s", callId.id, errname, errmsg );
+ callback( Error{std::string( errname ) + ": " + errmsg} );
+ }
+ else
+ {
+ DBUS_DEBUG( "call %d: got reply with signature '%s'", callId.id, eldbus_message_signature_get( reply ) );
+ callback( detail::unpackValues< RETTYPE >( callId, reply ) );
+ }
+ }
+ }};
+ detail::packValues( callId, msg.get(), args... );
+ auto pending = eldbus_proxy_send( proxy.get(), msg.release(), callAsyncCb, cbData, ELDBUS_CALL_TIMEOUT );
+ if( pending )
+ {
+ eldbus_pending_free_cb_add( pending, pendingFreeCb, cbData );
+ DBUS_DEBUG( "call %d: call sent", callId.id );
+ }
+ else
+ {
+ DBUS_DEBUG( "call %d: failed to send call", callId.id );
+ callback( Error{"failed to send call"} );
+ }
+}
+inline void displayDebugCallInfo( CallId callId, const std::string& funcName, const std::string& info, const std::string& interfaceName )
+{
+ DBUS_DEBUG( "call %d: %s iname = %s fname = %s", callId.id, info.c_str(), interfaceName.c_str(), funcName.c_str() );
+}
+inline void displayDebugCallInfoSignal( CallId callId, const std::string& funcName, const std::string& info, const std::string& interfaceName )
+{
+ DBUS_DEBUG( "call %d: %s signal iname = %s fname = %s", callId.id, info.c_str(), interfaceName.c_str(), funcName.c_str() );
+}
+inline void displayDebugCallInfoProperty( CallId callId, const std::string& funcName, std::string info, const std::string& interfaceName,
+ const std::string& propertyName )
+{
+ DBUS_DEBUG( "call %d: %s iname = %s pname = %s", callId.id, info.c_str(), interfaceName.c_str(), propertyName.c_str() );
+}
+
+class StringStorage
+{
+ struct char_ptr_deleter
+ {
+ void operator()( char* p )
+ {
+ free( p );
+ }
+ };
+ std::vector< std::unique_ptr< char, char_ptr_deleter > > storage;
+
+public:
+ const char* add( const char* txt )
+ {
+ auto ptr = strdup( txt );
+ storage.push_back( std::unique_ptr< char, char_ptr_deleter >( ptr ) );
+ return storage.back().get();
+ }
+ const char* add( const std::string& txt )
+ {
+ return add( txt.c_str() );
+ }
+};
+template < typename A, typename... ARGS >
+struct EldbusArgGenerator_Helper
+{
+ static void add( std::vector< Eldbus_Arg_Info >& r, StringStorage& strings )
+ {
+ auto s = r.size();
+ auto sig = signature< A >::sig();
+ assert( !sig.empty() );
+ auto name = "p" + std::to_string( s + 1 );
+ r.push_back( Eldbus_Arg_Info{strings.add( sig ), strings.add( name )} );
+ EldbusArgGenerator_Helper< ARGS... >::add( r, strings );
+ }
+};
+template <>
+struct EldbusArgGenerator_Helper< void >
+{
+ static void add( std::vector< Eldbus_Arg_Info >&, StringStorage& )
+ {
+ }
+};
+template <>
+struct EldbusArgGenerator_Helper< ValueOrError< void >, void >
+{
+ static void add( std::vector< Eldbus_Arg_Info >&, StringStorage& )
+ {
+ }
+};
+template <>
+struct EldbusArgGenerator_Helper< ValueOrError<>, void >
+{
+ static void add( std::vector< Eldbus_Arg_Info >&, StringStorage& )
+ {
+ }
+};
+template < typename... ARGS >
+struct EldbusArgGenerator_Helper< std::tuple< ARGS... > >
+{
+ static void add( std::vector< Eldbus_Arg_Info >& r, StringStorage& strings )
+ {
+ EldbusArgGenerator_Helper< ARGS..., void >::add( r, strings );
+ }
+};
+template < typename RetType >
+struct dbus_interface_return_type_traits
+{
+ using type = ValueOrError< RetType >;
+};
+template < typename... ARGS >
+struct dbus_interface_return_type_traits< ValueOrError< ARGS... > >
+{
+ using type = ValueOrError< ARGS... >;
+};
+template < typename T >
+struct dbus_interface_traits;
+template < typename RetType, typename... ARGS >
+struct dbus_interface_traits< RetType( ARGS... ) >
+{
+ using Ret = typename dbus_interface_return_type_traits< RetType >::type;
+ using SyncCB = std::function< Ret( ARGS... ) >;
+ using AsyncCB = std::function< void( std::function< void( Ret ) >, ARGS... ) >;
+ using VEArgs = ValueOrError< ARGS... >;
+};
+template < typename T >
+struct EldbusArgGenerator_Args;
+template < typename RetType, typename... ARGS >
+struct EldbusArgGenerator_Args< RetType( ARGS... ) >
+{
+ static std::string name()
+ {
+ return signature_tuple_helper< 0, sizeof...( ARGS ), ARGS... >::name();
+ }
+ static std::vector< Eldbus_Arg_Info > get( StringStorage& strings )
+ {
+ std::vector< Eldbus_Arg_Info > tmp;
+ EldbusArgGenerator_Helper< ARGS..., void >::add( tmp, strings );
+ tmp.push_back( {nullptr, nullptr} );
+ return tmp;
+ }
+};
+template < typename T >
+struct EldbusArgGenerator_ReturnType;
+template < typename RetType, typename... ARGS >
+struct EldbusArgGenerator_ReturnType< RetType( ARGS... ) >
+{
+ static std::string name()
+ {
+ return signature< RetType >::name();
+ }
+ static std::vector< Eldbus_Arg_Info > get( StringStorage& strings )
+ {
+ std::vector< Eldbus_Arg_Info > tmp;
+ EldbusArgGenerator_Helper< RetType, void >::add( tmp, strings );
+ tmp.push_back( {nullptr, nullptr} );
+ return tmp;
+ }
+};
+template < typename T >
+struct EldbusArgGenerator_ReturnType;
+template < typename... ARGS >
+struct EldbusArgGenerator_ReturnType< void( ARGS... ) >
+{
+ static std::string name()
+ {
+ return "";
+ }
+ static std::vector< Eldbus_Arg_Info > get( StringStorage& strings )
+ {
+ std::vector< Eldbus_Arg_Info > tmp;
+ tmp.push_back( {nullptr, nullptr} );
+ return tmp;
+ }
+};
+/// \endcond
+}
+
+/**
+ * @brief Enumeration determining, which DBUS session user wants to connect to.
+ */
+enum class ConnectionType
+{
+ SYSTEM,
+ SESSION
+};
+
+/**
+ * @brief Class representing client's end of DBUS connection
+ *
+ * Allows calling (synchronous and asynchronos) methods on selected interface
+ * Allows (synchronous and asynchronos) setting / getting properties.
+ * Allows registering signals.
+ */
+class DBusClient : private detail::EldbusProxyBase
+{
+ /// \cond
+ struct ConnectionInfo
+ {
+ std::string interfaceName, busName, pathName;
+ void emit( const char* member, DBusActionType type )
+ {
+ detail::emitNotification( busName.c_str(), pathName.c_str(), interfaceName.c_str(), member, type );
+ }
+ };
+ /// \endcond
+public:
+ /**
+ * @brief Default constructor, creates non-connected object.
+ */
+ DBusClient() = default;
+ /**
+ * @brief Connects to dbus choosen by tp, using given arguments
+ *
+ * @param bus_name name of the bus to connect to
+ * @param path_name object's path
+ * @param interface_name interface name
+ */
+ DBusClient( std::string busName_, std::string pathName_, std::string interfaceName_,
+ ConnectionType tp );
+ /**
+ * @brief Connects to dbus using connection conn
+ *
+ * @param bus_name name of the bus to connect to
+ * @param path_name object's path
+ * @param interface_name interface name
+ * @param conn connection object from getDBusConnectionByType call
+ */
+ DBusClient( std::string busName_, std::string pathName_, std::string interfaceName_,
+ const std::shared_ptr< DBus::EldbusConnection >& conn = {} );
+ /**
+ * @brief Destructor object.
+ *
+ * All signals added will be disconnected.
+ * All asynchronous calls will be cancelled, their callback's will be called
+ * with failure message.
+ */
+ ~DBusClient() = default;
+ DBusClient( const DBusClient& ) = delete;
+ DBusClient( DBusClient&& ) = default;
+
+ DBusClient& operator=( DBusClient&& ) = default;
+ DBusClient& operator=( const DBusClient& ) = delete;
+
+ /**
+ * @brief bool operator
+ *
+ * Returns true, if object is connected to DBUS
+ */
+ explicit operator bool() const
+ {
+ return bool( connectionState.proxy );
+ }
+
+ /**
+ * @brief Helper class for calling a method
+ *
+ * Template type T defines both arguments sent to the method
+ * and expected values. Receiving different values will be reported as
+ * error. For example:
+ * \code{.cpp} Method<int(float, float)> \endcode
+ * defines method, which takes two arguments (two floats) and return
+ * single value of type int.
+ */
+ template < typename T >
+ struct Method
+ {
+ /// \cond
+ using RetType = typename detail::dbus_interface_traits< T >::Ret;
+ detail::ConnectionState connectionState;
+ std::string funcName;
+ std::string info;
+ std::shared_ptr< ConnectionInfo > connectionInfo;
+ /// \endcond
+
+ /**
+ * @brief Executes synchronous call on DBUS's method
+ *
+ * The function returns ValueOrError<...> object, which
+ * contains either received values or error message.
+ *
+ * @param args arguments to pass to the method
+ */
+ template < typename... ARGS >
+ RetType call( const ARGS&... args )
+ {
+ detail::CallId callId;
+ detail::displayDebugCallInfo( callId, funcName, info, connectionInfo->interfaceName );
+ return detail::call< RetType >( callId, connectionState, false, funcName, args... );
+ }
+
+ /**
+ * @brief Executes asynchronous call on DBUS's method
+ *
+ * The function calls callback with either received values or error message.
+ *
+ * @param callback callback functor, which will be called with return value(s) or error message
+ * @param args arguments to pass to the method
+ */
+ template < typename... ARGS >
+ void asyncCall( std::function< void( RetType ) > callback, const ARGS&... args )
+ {
+ detail::CallId callId;
+ detail::displayDebugCallInfo( callId, funcName, info, connectionInfo->interfaceName );
+ auto connectionState = this->connectionState;
+ detail::asyncCall< RetType >( callId, connectionState, false, funcName, std::move( callback ), args... );
+ }
+ };
+
+ /**
+ * @brief Helper class for calling a property
+ *
+ * Template type T defines type of the value hidden under property.
+ * Note, that library automatically wraps both sent and received value into
+ * DBUS's wrapper type.
+ */
+ template < typename T >
+ struct Property
+ {
+ /// \cond
+ using RetType = typename detail::dbus_interface_return_type_traits< T >::type;
+ using VariantRetType = typename detail::dbus_interface_return_type_traits< EldbusVariant< T > >::type;
+ detail::ConnectionState connectionState;
+ std::string propName;
+ std::string info;
+ std::shared_ptr< ConnectionInfo > connectionInfo;
+ /// \endcond
+
+ /**
+ * @brief executes synchronous get on property
+ *
+ * The function returns ValueOrError<...> object, which
+ * contains either received values or error message.
+ */
+ RetType get()
+ {
+ connectionInfo->emit( propName.c_str(), DBusActionType::GETTER_CALL );
+ detail::CallId callId;
+ detail::displayDebugCallInfoProperty( callId, "Get", info, connectionInfo->interfaceName, propName );
+ auto z = detail::call< VariantRetType >( callId, connectionState, true, "Get", connectionInfo->interfaceName, propName );
+ if( !z )
+ return z.getError();
+ return {std::get< 0 >( z.getValues() ).value};
+ }
+
+ /**
+ * @brief executes asynchronous get on property
+ *
+ * The function calls callback with either received values or error message.
+ *
+ * @param callback callback functor, which will be called with return value(s) or error message
+ */
+ void asyncGet( std::function< void( RetType ) > callback )
+ {
+ connectionInfo->emit( propName.c_str(), DBusActionType::GETTER_CALL );
+ detail::CallId callId;
+ detail::displayDebugCallInfoProperty( callId, "Get", info, connectionInfo->interfaceName, propName );
+ auto connectionState = this->connectionState;
+ auto cc = [callback]( VariantRetType reply ) {
+ if( reply )
+ callback( std::move( std::get< 0 >( reply.getValues() ).value ) );
+ else
+ callback( reply.getError() );
+ };
+ detail::asyncCall< VariantRetType >( callId, connectionState, true, "Get", std::move( cc ), connectionInfo->interfaceName, propName );
+ }
+
+ /**
+ * @brief executes synchronous set on property
+ *
+ * The function returns ValueOrError<void> object, with
+ * possible error message.
+ */
+ ValueOrError< void > set( const T& r )
+ {
+ connectionInfo->emit( propName.c_str(), DBusActionType::SETTER_CALL );
+ detail::CallId callId;
+ detail::displayDebugCallInfoProperty( callId, "Set", info, connectionInfo->interfaceName, propName );
+ EldbusVariant< T > variantValue{std::move( r )};
+ return detail::call< ValueOrError< void > >( callId, connectionState, true, "Set", connectionInfo->interfaceName, propName, variantValue );
+ }
+
+ /**
+ * @brief executes asynchronous get on property
+ *
+ * The function calls callback with either received values or error message.
+ *
+ * @param callback callback functor, which will be called with return value(s) or error message
+ */
+ void asyncSet( std::function< void( ValueOrError< void > ) > callback, const T& r )
+ {
+ connectionInfo->emit( propName.c_str(), DBusActionType::SETTER_CALL );
+ detail::CallId callId;
+ detail::displayDebugCallInfoProperty( callId, "Set", info, connectionInfo->interfaceName, propName );
+ EldbusVariant< T > variantValue{std::move( r )};
+ detail::asyncCall< ValueOrError< void > >( callId, connectionState, true, "Set", std::move( callback ), connectionInfo->interfaceName, propName, variantValue );
+ }
+ };
+
+ /**
+ * @brief Constructs Property<...> object for calling properties
+ *
+ * The function constructs and returns proxy object for calling property.
+ *
+ * @param propName property name to set and / or query
+ */
+ template < typename PropertyType >
+ Property< PropertyType > property( std::string propName )
+ {
+ return Property< PropertyType >{connectionState, std::move( propName ), info, connectionInfo};
+ }
+
+ /**
+ * @brief Constructs Method<...> object for calling methods
+ *
+ * The function constructs and returns proxy object for calling method.
+ *
+ * @param funcName function name to call
+ */
+ template < typename MethodType >
+ Method< MethodType > method( std::string funcName )
+ {
+ return Method< MethodType >{connectionState, std::move( funcName ), info, connectionInfo};
+ }
+
+ /**
+ * @brief Registers notification callback, when property has changed
+ *
+ * The callback will be called with new value, when property's value has changed.
+ * Note, that template type V must match expected type, otherwise undefined behavior will occur,
+ * there's no check for this.
+ */
+ template < typename V >
+ void addPropertyChangedEvent( std::string propertyName, std::function< void( V ) > callback )
+ {
+ detail::CallId callId;
+ detail::displayDebugCallInfoSignal( callId, propertyName, info, connectionInfo->interfaceName );
+ DBUS_DEBUG( "call %d: adding property", callId.id );
+ auto cS = this->connectionState;
+ auto cI = this->connectionInfo;
+ auto callbackLambdaPtr = new std::function< void( Eldbus_Proxy_Event_Property_Changed* ) >;
+ *callbackLambdaPtr = [callId, cS, callback, propertyName, cI]( Eldbus_Proxy_Event_Property_Changed* ev ) {
+ const char* ifc = eldbus_proxy_interface_get( ev->proxy );
+ DBUS_DEBUG( "call %d: property changed iname = %s pname = %s (name %s iface %s)",
+ callId.id, cI->interfaceName.c_str(), propertyName.c_str(), ev->name, ifc );
+ V val = 0;
+ if( ev->name && ev->name == propertyName && ifc && cI->interfaceName == ifc )
+ {
+ if( !eina_value_get( ev->value, &val ) )
+ {
+ DBUS_DEBUG( "unable to get property's value" );
+ return;
+ }
+ DBUS_DEBUG( ". %d", val );
+ callback( val );
+ DBUS_DEBUG( "." );
+ }
+ DBUS_DEBUG( "." );
+ };
+ auto p = connectionState.proxy.get();
+ eldbus_proxy_event_callback_add( p, ELDBUS_PROXY_EVENT_PROPERTY_CHANGED,
+ listenerEventChangedCallback, callbackLambdaPtr );
+ destructors.add( [=]() {
+ eldbus_proxy_event_callback_del( p, ELDBUS_PROXY_EVENT_PROPERTY_CHANGED,
+ listenerEventChangedCallback, callbackLambdaPtr );
+ delete callbackLambdaPtr;
+ } );
+ }
+ /**
+ * @brief Registers callback on the DBUS' signal
+ *
+ * The function registers callback signalName. When signal comes, callback will be called.
+ * Callback object will exists as long as signal is registered. You can unregister signal
+ * by destroying DBusClient object.
+ *
+ * @param signalName name of the signal to register
+ * @param callback callback to call
+ */
+ template < typename SignalType >
+ void addSignal( std::string signalName, std::function< SignalType > callback )
+ {
+ detail::CallId callId;
+ detail::displayDebugCallInfoSignal( callId, signalName, info, connectionInfo->interfaceName );
+ auto cS = this->connectionState;
+ auto cI = this->connectionInfo;
+ auto callbackLambda = [callId, cS, callback, signalName, cI]( const Eldbus_Message* msg ) -> void {
+ const char *errname, *aux;
+ if( eldbus_message_error_get( msg, &errname, &aux ) )
+ {
+ DBUS_DEBUG( "call %d: Eldbus error: %s %s", callId.id, errname, aux );
+ return;
+ }
+ cI->emit( signalName.c_str(), DBusActionType::SIGNAL_RECEIVED );
+ DBUS_DEBUG( "call %d: received signal with signature '%s'", callId.id, eldbus_message_signature_get( msg ) );
+ using ParamsType = typename detail::dbus_interface_traits< SignalType >::VEArgs;
+ auto params = detail::unpackValues< ParamsType >( callId, msg );
+ if( !params )
+ {
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, params.getError().message.c_str() );
+ return;
+ }
+ try
+ {
+ detail::apply( callback, params.getValues() );
+ }
+ catch( ... )
+ {
+ DBUS_DEBUG( "unhandled exception" );
+ assert( 0 );
+ }
+ };
+ auto tmp = new std::function< void( const Eldbus_Message* msg ) >{std::move( callbackLambda )};
+ auto handler = eldbus_proxy_signal_handler_add( connectionState.proxy.get(), signalName.c_str(), listenerCallback, tmp );
+ destructors.add( [=]() {
+ eldbus_signal_handler_del( handler );
+ delete tmp;
+ } );
+ }
+
+private:
+ /// \cond
+ detail::ConnectionState connectionState;
+ detail::CallOnDestructionList destructors;
+ std::string info;
+ std::shared_ptr< ConnectionInfo > connectionInfo;
+ void emitNotification( DBusActionType type );
+
+ static void listenerCallback( void* data, const Eldbus_Message* msg )
+ {
+ auto p = static_cast< std::function< void( const Eldbus_Message* msg ) >* >( data );
+ ( *p )( msg );
+ }
+ static void listenerEventChangedCallback( void* data, Eldbus_Proxy* proxy EINA_UNUSED, void* event )
+ {
+ auto p = static_cast< std::function< void( Eldbus_Proxy_Event_Property_Changed* ) >* >( data );
+ ( *p )( static_cast< Eldbus_Proxy_Event_Property_Changed* >( event ) );
+ }
+ /// \endcond
+};
+
+/**
+ * @brief Helper class describing DBUS's server interface
+ *
+ */
+class DBusInterfaceDescription
+{
+ friend class DBusServer;
+
+public:
+ /// \cond
+ struct MethodInfo
+ {
+ detail::CallId id;
+ std::string memberName;
+ std::vector< Eldbus_Arg_Info > in, out;
+ std::function< Eldbus_Message*( const Eldbus_Message* msg ) > callback;
+ };
+ struct SignalInfo
+ {
+ detail::CallId id;
+ std::string memberName;
+ std::vector< Eldbus_Arg_Info > args;
+ unsigned int uniqueId;
+ };
+ struct PropertyInfo
+ {
+ detail::CallId setterId, getterId;
+ std::string memberName, typeSignature;
+ std::function< ValueOrError< void >( const Eldbus_Message*src, Eldbus_Message_Iter*dst ) > getCallback, setCallback;
+ };
+ class SignalId
+ {
+ friend class ::DBus::DBusServer;
+ friend class ::DBus::DBusClient;
+ friend class ::DBus::DBusInterfaceDescription;
+ detail::CallId id;
+
+ SignalId( detail::CallId id ) : id( id ) {}
+
+ public:
+ SignalId() = default;
+ };
+ /// \endcond
+
+ /**
+ * @brief Creates empty interface description with given name
+ *
+ * @param interfaceName name of the interface
+ */
+ DBusInterfaceDescription( std::string interfaceName );
+
+ /**
+ * @brief adds new, synchronous method to the interface
+ *
+ * When method memberName is called on DBUS, callback functor will be called
+ * with values received from DBUS. callback won't be called, if method was
+ * called with invalid signature. Value returned from functor (or error message)
+ * will be marshalled back to the caller.
+ *
+ * Template type T defines both arguments sent to the method
+ * and expected values. Receiving different values will be reported as
+ * error. For example:
+ * \code{.cpp} Method<int(float, float)> \endcode
+ * defines method, which takes two arguments (two floats) and return
+ * single value of type int.
+ *
+ * @param memberName name of the method
+ * @param callback functor, which will be called
+ */
+ template < typename T >
+ void addMethod( const std::string& memberName, typename detail::dbus_interface_traits< T >::SyncCB callback )
+ {
+ detail::CallId callId;
+ MethodInfo mi;
+ methods.push_back( std::move( mi ) );
+ auto& z = methods.back();
+ z.in = detail::EldbusArgGenerator_Args< T >::get( strings );
+ z.out = detail::EldbusArgGenerator_ReturnType< T >::get( strings );
+ z.memberName = memberName;
+ DBUS_DEBUG( "call %d: method %s, in %s, out %s", callId.id, memberName.c_str(),
+ detail::EldbusArgGenerator_Args< T >::name().c_str(),
+ detail::EldbusArgGenerator_ReturnType< T >::name().c_str() );
+ z.callback = construct< T >( callId, callback );
+ z.id = callId;
+ }
+
+ /**
+ * @brief adds new, asynchronous method to the interface
+ *
+ * When method memberName is called on DBUS, callback functor will be called
+ * with values received from DBUS. callback won't be called, if method was
+ * called with invalid signature. callback will called with reply callback functor.
+ * Reply callback functor must be called with reply value, when it's ready.
+ * It's safe to ignore calling reply callback, but some resources might be kept
+ * as long as either reply callback exists or reply timeout hasn't yet been met.
+ *
+ * Template type T defines both arguments sent to the method
+ * and expected values. Receiving different values will be reported as
+ * error. For example:
+ * \code{.cpp} Method<int(float, float)> \endcode
+ * defines method, which takes two arguments (two floats) and return
+ * single value of type int.
+ *
+ * @param memberName name of the method
+ * @param callback functor, which will be called
+ */
+ template < typename T >
+ void addAsyncMethod( const std::string& memberName, typename detail::dbus_interface_traits< T >::AsyncCB callback );
+
+ /**
+ * @brief adds new, synchronous property to the interface
+ *
+ * When property memberName is called on DBUS, respective callback functor will be called
+ * with values received from DBUS. callback won't be called, if method was
+ * called with invalid signature. Value returned from functor (or error message)
+ * will be marshalled back to the caller.
+ *
+ * Template type T defines type of the value hidden under property.
+ * Note, that library automatically wraps both sent and received value into
+ * DBUS's wrapper type.
+ *
+ * @param memberName name of the method
+ * @param getter functor, which will be called when property is being read
+ * @param setter functor, which will be called when property is being set
+ */
+ template < typename T >
+ void addProperty( const std::string& memberName, std::function< ValueOrError< T >() > getter, std::function< ValueOrError< void >( T ) > setter )
+ {
+ properties.push_back( {} );
+ auto& z = properties.back();
+ z.memberName = memberName;
+ z.typeSignature = detail::signature< T >::sig();
+ if( getter )
+ {
+ detail::CallId getterId;
+ z.getterId = getterId;
+ DBUS_DEBUG( "call %d: property %s (get) type %s", getterId.id, memberName.c_str(), detail::signature< T >::name().c_str() );
+ z.getCallback = [=]( const Eldbus_Message* src, Eldbus_Message_Iter* dst ) -> ValueOrError< void > {
+ detail::emitNotification( eldbus_message_sender_get( src ),
+ eldbus_message_path_get( src ), interfaceName.c_str(), memberName.c_str(), DBusActionType::GETTER_RESPONSE );
+ try
+ {
+ auto v = detail::apply( getter, std::tuple<>{} );
+ if( v )
+ {
+ detail::signature< T >::set( dst, std::get< 0 >( v.getValues() ) );
+ DBUS_DEBUG( "call %d: success", getterId.id );
+ return Success{};
+ }
+ DBUS_DEBUG( "call %d: failed: %s", getterId.id, v.getError().message.c_str() );
+ return v.getError();
+ }
+ catch( std::exception& e )
+ {
+ return Error{std::string( "unhandled exception (" ) + e.what() + ")"};
+ }
+ catch( ... )
+ {
+ return Error{"unhandled exception"};
+ }
+ };
+ }
+ if( setter )
+ {
+ detail::CallId setterId;
+ z.setterId = setterId;
+ DBUS_DEBUG( "call %d: property %s (set) type %s", setterId.id, memberName.c_str(), detail::signature< T >::name().c_str() );
+ z.setCallback = [=]( const Eldbus_Message* src, Eldbus_Message_Iter* src_iter ) -> ValueOrError< void > {
+ detail::emitNotification( eldbus_message_sender_get( src ),
+ eldbus_message_path_get( src ), interfaceName.c_str(), memberName.c_str(), DBusActionType::SETTER_RESPONSE );
+ std::tuple< T > value;
+ auto src_signature = eldbus_message_iter_signature_get( src_iter );
+ if( detail::signature< T >::get( src_iter, std::get< 0 >( value ) ) )
+ {
+ try
+ {
+ auto v = detail::apply( setter, std::move( value ) );
+ if( v )
+ {
+ DBUS_DEBUG( "call %d: success", setterId.id );
+ return Success{};
+ }
+ DBUS_DEBUG( "call %d: failed: %s", setterId.id, v.getError().message.c_str() );
+ free( src_signature );
+ return v.getError();
+ }
+ catch( std::exception& e )
+ {
+ return Error{std::string( "unhandled exception (" ) + e.what() + ")"};
+ }
+ catch( ... )
+ {
+ return Error{"unhandled exception"};
+ }
+ }
+ DBUS_DEBUG( "call %d: failed to unpack values, got signature '%s', expected '%s'", setterId.id,
+ src_signature, detail::signature< T >::sig().c_str() );
+ return Error{"call " + std::to_string( setterId.id ) + ": failed to unpack values, got signature '" +
+ src_signature + "', expected '" + detail::signature< T >::sig() + "'"};
+ };
+ }
+ }
+
+ /**
+ * @brief adds new signal to the interface
+ *
+ * Template types ARGS defines values, which will be emited with the signal
+ *
+ * @param memberName name of the method
+ */
+ template < typename... ARGS >
+ SignalId addSignal( const std::string& memberName )
+ {
+ detail::CallId callId;
+ signals.push_back( {} );
+ auto& z = signals.back();
+ z.memberName = memberName;
+ z.args = detail::EldbusArgGenerator_Args< void( ARGS... ) >::get( strings );
+ z.id = callId;
+ DBUS_DEBUG( "call %d: signal %s", callId.id, memberName.c_str() );
+ return SignalId{callId};
+ }
+
+private:
+ /// \cond
+ std::vector< MethodInfo > methods;
+ std::vector< PropertyInfo > properties;
+ std::vector< SignalInfo > signals;
+ std::string interfaceName;
+ detail::StringStorage strings;
+
+ template < typename T >
+ std::function< Eldbus_Message*( const Eldbus_Message* msg ) > construct( detail::CallId callId,
+ typename detail::dbus_interface_traits< T >::SyncCB callback )
+ {
+ using VEArgs = typename detail::dbus_interface_traits< T >::VEArgs;
+ return [=]( const Eldbus_Message* msg ) -> Eldbus_Message* {
+ DBUS_DEBUG( "call %d: entering", callId.id );
+ detail::emitNotification( eldbus_message_sender_get( msg ),
+ eldbus_message_path_get( msg ), interfaceName.c_str(), eldbus_message_member_get( msg ), DBusActionType::METHOD_RESPONSE );
+ Eldbus_Message* ret = nullptr;
+ auto args = detail::unpackValues< VEArgs >( callId, msg );
+ if( args )
+ {
+ try
+ {
+ auto v = detail::apply( callback, std::move( args.getValues() ) );
+ if( v )
+ {
+ DBUS_DEBUG( "call %d: success", callId.id );
+ ret = eldbus_message_method_return_new( msg );
+ packValues( callId, ret, v );
+ }
+ else
+ {
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, v.getError().message.c_str() );
+ ret = eldbus_message_error_new( msg, "org.freedesktop.DBus.Error.Failed", v.getError().message.c_str() );
+ }
+ }
+ catch( std::exception& e )
+ {
+ auto txt = std::string( "unhandled exception (" ) + e.what() + ")";
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, txt.c_str() );
+ ret = eldbus_message_error_new( msg, "org.freedesktop.DBus.Error.Failed", txt.c_str() );
+ }
+ catch( ... )
+ {
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, "unhandled exception" );
+ ret = eldbus_message_error_new( msg, "org.freedesktop.DBus.Error.Failed", "unhandled exception" );
+ }
+ }
+ else
+ {
+ std::ostringstream err;
+ err << "expected signature '" << detail::signature< VEArgs >::sig() << "', got '" << eldbus_message_signature_get( msg ) << "'";
+ auto str = err.str();
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, str.c_str() );
+ ret = eldbus_message_error_new( msg, "org.freedesktop.DBus.Error.InvalidArgs", str.c_str() );
+ }
+ return ret;
+ };
+ }
+ /// \endcond
+};
+
+/**
+ * @brief Class representing server's end of DBUS connection
+ *
+ * Allows listening (synchronously and asynchronosly) on methods on selected interface
+ * Allows listening (synchronously and asynchronosly) on setting / getting properties.
+ * Allows emiting signals.
+ */
+class DBusServer : private detail::EldbusProxyBase
+{
+public:
+ /**
+ * @brief Constructs non-connected dbus server.
+ */
+ DBusServer() = default;
+
+ /**
+ * @brief Constructs dbus server on either system or user dbus connection.
+ */
+
+ DBusServer( ConnectionType tp );
+ /**
+ * @brief Constructs dbus server on connection from getDBusConnectionByType
+ */
+
+ DBusServer( const std::shared_ptr< DBus::EldbusConnection >& conn );
+ /**
+ * @brief Destructor
+ *
+ * Destructor will properly destroy everything. Destructor will cancel
+ * pending replies.
+ */
+ ~DBusServer() = default;
+
+ DBusServer( const DBusServer& ) = delete;
+ DBusServer( DBusServer&& ) = default;
+
+ DBusServer& operator=( DBusServer&& ) = default;
+ DBusServer& operator=( const DBusServer& ) = delete;
+
+ /**
+ * @brief Registers interface on given path name
+ *
+ * @param pathName path object to register interface on.
+ * @param dscr
+ * @param fallback
+ */
+ void addInterface( const std::string& pathName, DBusInterfaceDescription& dscr, bool fallback = false );
+
+ /**
+ * @brief Gets bus name of the current connection (must be connected)
+ */
+ std::string getBusName() const;
+
+ /**
+ * @brief Returns connection object for this dbus server object
+ *
+ * @return connection object
+ */
+ std::shared_ptr< DBus::EldbusConnection > getConnection();
+
+ /**
+ * @brief Emits signal
+ *
+ * You must pass identifier of the signal, got as result of calling DBusInterfaceDescription::addSignal.
+ * Types of the arguments must match EXACTLY types used to call addSignal.
+ *
+ * @param signal identifier of the signal
+ * @param args values to emit
+ */
+ template < typename... ARGS >
+ void emit( DBusInterfaceDescription::SignalId signal, const ARGS&... args )
+ {
+ auto it = signalData.find( signal.id.id );
+ if( it != signalData.end() )
+ {
+ auto msg = eldbus_service_signal_new( it->second.first, it->second.second );
+ detail::packValues( signal.id, msg, args... );
+ eldbus_service_signal_send( it->second.first, msg );
+ }
+ else
+ {
+ DBUS_DEBUG( "signal %d not found", signal.id.id );
+ }
+ }
+
+ /**
+ * @brief Emits signal
+ *
+ * Emits signal based only on data passed to the function
+ *
+ * @param signal identifier of the signal
+ * @param args values to emit
+ */
+ template < typename... ARGS >
+ void emit2( const std::string& path, const std::string& interfaceName,
+ const std::string& signalName, const ARGS&... args )
+ {
+ auto msg = eldbus_message_signal_new( path.c_str(), interfaceName.c_str(), signalName.c_str() );
+ detail::CallId id;
+ detail::packValues( id, msg, args... );
+ eldbus_connection_send( connection->get(), msg, nullptr, nullptr, -1 );
+ }
+ /**
+ * @brief Returns current object path, when handling call to property / method
+ *
+ * User can call this function from inside callback used to handle property / method calls.
+ * It will retrieve object's path used in the call. Note, that in asynchronous handling
+ * of those calls user need to retrieve and store the current object / current connection
+ * as the value will change at the moment user's callback handling will exit. For example:
+ * \code{.cpp}
+ * DBusInterfaceDescription interface{"name"};
+ * auto handler_later = [](std::function<void(void)> done_cb) {
+ * // process something later on
+ * DBusServer::getCurrentObjectPath(); // this will return empty string
+ * };
+ * interface.addAsyncMethod<void()>("m", [=](std::function<void(void)> done_cb) {
+ * DBusServer::getCurrentObjectPath(); // this will current object's path
+ *
+ * // do some processing later on and call done_cb, when it's done
+ * register_to_call_sometime_later_on(std::move(done_cb));
+ * };
+ * \endcode
+ */
+ static std::string getCurrentObjectPath();
+
+ /**
+ * @brief Returns current connection object, when handling call to property / method
+ *
+ * User can call this function from inside callback used to handle property / method calls.
+ * It will retrieve object's path used in the call. Note, that in asynchronous handling
+ * of those calls user need to retrieve and store the current object / current connection
+ * as the value will change at the moment user's callback handling will exit. For example:
+ * \code{.cpp}
+ * DBusInterfaceDescription interface{"name"};
+ * auto handler_later = [](std::function<void(void)> done_cb) {
+ * // process something later on
+ * DBusServer::getCurrentObjectPath(); // this will return empty string
+ * };
+ * interface.addAsyncMethod<void()>("m", [=](std::function<void(void)> done_cb) {
+ * DBusServer::getCurrentObjectPath(); // this will current object's path
+ *
+ * // do some processing later on and call done_cb, when it's done
+ * register_to_call_sometime_later_on(std::move(done_cb));
+ * };
+ * \endcode
+ */
+ static std::shared_ptr< DBus::EldbusConnection > getCurrentConnection();
+
+private:
+ /// \cond
+ std::shared_ptr< DBus::EldbusConnection > connection;
+ detail::CallOnDestructionList destructors;
+ std::unordered_map< unsigned int, std::pair< const Eldbus_Service_Interface*, unsigned int > > signalData;
+ /// \endcond
+};
+
+template < typename T >
+void DBusInterfaceDescription::addAsyncMethod( const std::string& memberName, typename detail::dbus_interface_traits< T >::AsyncCB callback )
+{
+ detail::CallId callId;
+ MethodInfo mi;
+ methods.push_back( std::move( mi ) );
+ auto& z = methods.back();
+ z.in = detail::EldbusArgGenerator_Args< T >::get( strings );
+ z.out = detail::EldbusArgGenerator_ReturnType< T >::get( strings );
+ z.memberName = memberName;
+ DBUS_DEBUG( "call %d: method %s, in %s, out %s", callId.id, memberName.c_str(),
+ detail::EldbusArgGenerator_Args< T >::name().c_str(),
+ detail::EldbusArgGenerator_ReturnType< T >::name().c_str() );
+ using VEArgs = typename detail::dbus_interface_traits< T >::VEArgs;
+ z.callback = [=]( const Eldbus_Message* msg ) -> Eldbus_Message* {
+ detail::emitNotification( eldbus_message_sender_get( msg ),
+ eldbus_message_path_get( msg ), interfaceName.c_str(), memberName.c_str(), DBusActionType::METHOD_RESPONSE );
+ struct CallState
+ {
+ bool replyRunning = true;
+ Eldbus_Message* reply = nullptr;
+ EldbusMessageCallbackHandle message;
+ };
+ auto callState = std::make_shared< CallState >();
+ callState->message.reset( eldbus_message_ref( const_cast< Eldbus_Message* >( msg ) ) );
+ auto connection = DBusServer::getCurrentConnection();
+ auto retCallback = [=]( typename detail::dbus_interface_traits< T >::Ret v ) {
+ if( v )
+ {
+ callState->reply = eldbus_message_method_return_new( callState->message.get() );
+ packValues( callId, callState->reply, v );
+ }
+ else
+ {
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, v.getError().message.c_str() );
+ callState->reply = eldbus_message_error_new( callState->message.get(), "org.freedesktop.DBus.Error.Failed", v.getError().message.c_str() );
+ }
+ if( !callState->replyRunning )
+ {
+ eldbus_connection_send( connection->get(), callState->reply, NULL, NULL, -1 );
+ }
+ };
+ Eldbus_Message* ret = nullptr;
+ auto args = detail::unpackValues< VEArgs >( callId, msg );
+ if( args )
+ {
+ auto error = [&]( const std::string& txt ) {
+ if( !callState->reply )
+ {
+ DBUS_DEBUG( "call %d: failed: %s", callId.id, txt.c_str() );
+ callState->reply = eldbus_message_error_new( callState->message.get(), "org.freedesktop.DBus.Error.Failed", txt.c_str() );
+ }
+ };
+ try
+ {
+ detail::apply( callback, std::move( retCallback ), std::move( args.getValues() ) );
+ }
+ catch( std::exception& e )
+ {
+ error( std::string( "unhandled exception (" ) + e.what() + ")" );
+ }
+ catch( ... )
+ {
+ error( "unhandled exception" );
+ }
+
+ callState->replyRunning = false;
+ ret = callState->reply;
+ }
+ else
+ {
+ std::ostringstream err;
+ err << "expected signature '" << detail::signature< VEArgs >::sig() << "', got '" << eldbus_message_signature_get( msg ) << "'";
+ auto str = err.str();
+ ret = eldbus_message_error_new( msg, "org.freedesktop.DBus.Error.InvalidArgs", str.c_str() );
+ }
+ return ret;
+ };
+
+ z.id = callId;
+}
+
+/// \cond
+std::shared_ptr< EldbusConnection > getDBusConnectionByType( ConnectionType tp );
+std::shared_ptr< EldbusConnection > getDBusConnectionByName( const std::string& name );
+std::string getConnectionName( const std::shared_ptr< EldbusConnection >& );
+/// \endcond
+}
+
+/// \cond
+namespace std
+{
+template < size_t INDEX, typename... ARGS >
+inline auto get( DBus::ValueOrError< ARGS... >& v ) -> decltype( std::get< INDEX >( v.getValues() ) ) &
+{
+ return std::get< INDEX >( v.getValues() );
+}
+template < size_t INDEX, typename... ARGS >
+inline auto get( const DBus::ValueOrError< ARGS... >& v ) -> decltype( std::get< INDEX >( v.getValues() ) )
+{
+ return std::get< INDEX >( v.getValues() );
+}
+}
+/// \endcond
+
+#endif
--- /dev/null
+/*
+ * Copyright 2017 Samsung Electronics Co., Ltd
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef OPTIONAL_HPP
+#define OPTIONAL_HPP
+
+/**
+ * Minimalistic implementation of standard library std::optional (c++17) for c++11 compiler.
+ *
+ * After project conversion to C++17 standard, this template class will be deleted and
+ * Optional will point to std::optional.
+ *
+ * Allowed operations (note, to make code simplier, than original, value class must have accessible copy and move constructor):
+ * - constructing empty (valueless) object
+ * - copying Optional (with and without value)
+ * - moving Optional (with and without value)
+ * - querying, if Optional has value (via explicit operator bool), for example:
+ * Optional<int> v = ...;
+ * if (v) ... // if v has value, then do something
+ * - accessing value (via operator *), for example:
+ * Optional<int> v = ...;
+ * auto z = *v; // z now has the same int, as v (copied)
+ * auto &y = *v; // y now has REFERENCE to int inside v, so modifying y modifies v
+ */
+
+#include <cassert>
+#include <new>
+#include <type_traits>
+#include <utility>
+
+template < typename A >
+class Optional
+{
+ /// \cond
+ union
+ {
+ A place;
+ };
+ bool hasValue = false;
+ /// \endcond
+public:
+ /**
+ * @brief Empty constructor.
+ * Creates empty Optional object, which will be false in boolean context.
+ * So:
+ * \code{.cpp}
+ * Optional<int> o;
+ * if (o) printf("1\n");
+ * \endcode
+ * won't print 1.
+ */
+ Optional() {}
+
+ /**
+ * @brief Single element constructor, when implicit convertion can be applied.
+ *
+ * This constructor will be selected, when type of given argument (U) is
+ * implicitly convertable to expected type A. In other words following
+ * code must be valid:
+ * \code{.cpp}
+ * A foo() {
+ * return U();
+ * }
+ * \endcode
+ *
+ * @param a value held by Optional object will be initialized from a.
+ */
+ template < typename U = A, typename std::enable_if<
+ std::is_convertible< U&&, A >::value &&
+ std::is_constructible< A, U&& >::value &&
+ !std::is_same< typename std::decay< U >::type, Optional< A > >::value,
+ int* >::type = nullptr >
+ constexpr Optional( U&& a )
+ : place( std::forward< U >( a ) ), hasValue( true )
+ {
+ }
+
+ /**
+ * @brief Single element constructor, when only explicit convertion can be applied.
+ *
+ * This constructor will be selected, when type of given argument (U) is
+ * convertable to expected type A.
+ *
+ * @param a value held by Optional object will be initialized from a.
+ */
+ template < typename U = A, typename std::enable_if<
+ !std::is_convertible< U&&, A >::value &&
+ std::is_constructible< A, U&& >::value &&
+ !std::is_same< typename std::decay< U >::type, Optional< A > >::value,
+ int* >::type = nullptr >
+ explicit constexpr Optional( U&& a )
+ : place( std::forward< U >( a ) ), hasValue( true )
+ {
+ }
+
+ /**
+ * @brief Copy constructor.
+ *
+ * @param v Optional value to copy from. Will cause to copy data held by object v,
+ * if v has data.
+ */
+ Optional( const Optional& v ) : hasValue( v.hasValue )
+ {
+ if( hasValue )
+ new( &place ) A( v.place );
+ }
+
+ /**
+ * @brief Move constructor.
+ *
+ * @param v Optional value to copy from. Will move data help by v, if any.
+ * After construction \code{.cpp} bool(v) \endcode will be false.
+ */
+ Optional( Optional&& v ) : hasValue( v.hasValue )
+ {
+ if( hasValue )
+ new( &place ) A( std::move( v.place ) );
+ }
+
+ /**
+ * @brief Destructor.
+ */
+ ~Optional()
+ {
+ if( hasValue )
+ {
+ place.~A();
+ }
+ }
+
+ /**
+ * @brief Explicit bool operator
+ *
+ * Will return true if and only if object is helding data.
+ */
+ explicit operator bool() const
+ {
+ return hasValue;
+ }
+
+ /**
+ * @brief Accessor (*) operator
+ *
+ * Will return modifiable reference to held object. Will assert, if not object is held.
+ */
+ A& operator*()
+ {
+ assert( hasValue );
+ return place;
+ }
+
+ /**
+ * @brief Accessor (*) const operator
+ *
+ * Will return const reference to held object. Will assert, if not object is held.
+ */
+ const A& operator*() const
+ {
+ assert( hasValue );
+ return place;
+ }
+
+ /**
+ * @brief Accessor (->) operator
+ *
+ * Will return pointer to held object allowing access to the value's members.
+ * Will assert, if not object is held.
+ */
+ A* operator->()
+ {
+ assert( hasValue );
+ return &place;
+ }
+
+ /**
+ * @brief Accessor (->) operator
+ *
+ * Will return pointer to (const) held object allowing access to the value's members.
+ * Will assert, if not object is held.
+ */
+ const A* operator->() const
+ {
+ assert( hasValue );
+ return &place;
+ }
+
+ /**
+ * @brief Assignment operator
+ *
+ * Will copy held value from v, if any.
+ *
+ * @param v Value to copy from
+ */
+ Optional& operator=( const Optional& v )
+ {
+ if( this != &v )
+ {
+ if( hasValue != v.hasValue )
+ {
+ if( v.hasValue )
+ new( &place ) A( v.place );
+ else
+ place.~A();
+ hasValue = v.hasValue;
+ }
+ else if( hasValue )
+ {
+ place = v.place;
+ }
+ }
+ return *this;
+ }
+
+ /**
+ * @brief Assignment move operator
+ *
+ * Will move held value from v, if any. In all cases v won't held a value
+ * after assignment is done.
+ *
+ * @param v Value to copy from
+ */
+ Optional& operator=( Optional&& v )
+ {
+ if( this != &v )
+ {
+ if( hasValue != v.hasValue )
+ {
+ if( v.hasValue )
+ new( &place ) A( std::move( v.place ) );
+ else
+ place.~A();
+ hasValue = v.hasValue;
+ }
+ else if( hasValue )
+ {
+ place = std::move( v.place );
+ }
+ }
+ return *this;
+ }
+
+ /**
+ * @brief Assignment operator from value of type held.
+ *
+ * Will initialize held value from given parameter a.
+ * Type of the parameter must be the same (barring cv convertions),
+ * as the type of the value held.
+ *
+ * @param a Value to copy from
+ */
+ template < class U, class = typename std::enable_if<
+ std::is_same< typename std::remove_reference< U >::type, A >::value &&
+ std::is_constructible< A, U >::value &&
+ std::is_assignable< A&, U >::value >::type >
+ Optional& operator=( U&& a )
+ {
+ if( hasValue )
+ place = std::forward< U >( a );
+ else
+ {
+ hasValue = true;
+ new( &place ) A( std::forward< U >( a ) );
+ }
+ return *this;
+ }
+};
+
+#endif
--- /dev/null
+/*
+ * Copyright 2017 Samsung Electronics Co., Ltd
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef DBUS_LOCATORS_HPP
+#define DBUS_LOCATORS_HPP
+
+namespace dbusLocators
+{
+namespace callmgr
+{
+static constexpr const char* BUS = "org.tizen.callmgr";
+static constexpr const char* OBJ_PATH = "/org/tizen/callmgr";
+static constexpr const char* INTERFACE = "org.tizen.callmgr";
+}
+
+namespace accessibilityEMod
+{
+static constexpr const char* BUS = "org.enlightenment.wm-screen-reader";
+static constexpr const char* OBJ_PATH = "/org/tizen/GestureNavigation";
+static constexpr const char* INTERFACE = "org.tizen.GestureNavigation";
+
+static constexpr const char* ACCESSORIES_SP_ENABLED = "AccessoriesSwitchProviderEnabled";
+static constexpr const char* KEY_DOWN_SIGNAL = "KeyDown";
+static constexpr const char* KEY_UP_SIGNAL = "KeyUp";
+
+static constexpr const char* SCREEN_SP_ENABLED = "ScreenSwitchProviderEnabled";
+static constexpr const char* MOUSE_DOWN_SIGNAL = "MouseDown";
+static constexpr const char* MOUSE_UP_SIGNAL = "MouseUp";
+
+static constexpr const char* BACK_BUTTON_INTERCEPTION_ENABLED = "BackButtonInterceptionEnabled";
+static constexpr const char* BACK_BUTTON_DOWN_SIGNAL = "BackButtonDown";
+static constexpr const char* BACK_BUTTON_UP_SIGNAL = "BackButtonUp";
+}
+
+namespace freeDesktop
+{
+static constexpr const char* BUS = "org.freedesktop.DBus";
+static constexpr const char* OBJ_PATH = "/org/freedesktop/DBus";
+static constexpr const char* INTERFACE = "org.freedesktop.DBus";
+static constexpr const char* PROPERTIES_INTERFACE = "org.freedesktop.DBus.Properties";
+static constexpr const char* GET_CONNECTION_UNIX_PROCESS_ID = "GetConnectionUnixProcessID";
+static constexpr const char* SET = "Set";
+static constexpr const char* GET = "Get";
+}
+
+namespace windowManager
+{
+static constexpr const char* BUS = "org.enlightenment.wm";
+static constexpr const char* OBJ_PATH = "/org/enlightenment/wm";
+static constexpr const char* INTERFACE = "org.enlightenment.wm.proc";
+static constexpr const char* GET_VISIBLE_WIN_INFO = "GetVisibleWinInfo";
+static constexpr const char* GET_FOCUS_PROC = "GetFocusProc";
+}
+
+namespace atspi
+{
+static constexpr const char* BUS = "org.a11y.Bus";
+static constexpr const char* OBJ_PATH = "/org/a11y/bus";
+static constexpr const char* BUS_INTERFACE = "org.a11y.Bus";
+static constexpr const char* STATUS_INTERFACE = "org.a11y.Status";
+
+static constexpr const char* GET_ADDRESS = "GetAddress";
+static constexpr const char* IS_ENABLED = "IsEnabled";
+static constexpr const char* GET_ATTRIBUTES = "GetAttributes";
+static constexpr const char* DO_ACTION_NAME = "DoActionName";
+static constexpr const char* PARENT = "Parent";
+static constexpr const char* GET_MATCHES = "GetMatches";
+static constexpr const char* GET_INDEX_IN_PARENT = "GetIndexInParent";
+static constexpr const char* SELECT_CHILD = "SelectChild";
+static constexpr const char* NAME = "Name";
+static constexpr const char* GET_ROLE = "GetRole";
+static constexpr const char* CHILD_COUNT = "ChildCount";
+static constexpr const char* GET_CHILD_AT_INDEX = "GetChildAtIndex";
+static constexpr const char* GET_STATE = "GetState";
+static constexpr const char* GET_RELATION_SET = "GetRelationSet";
+static constexpr const char* GET_EXTENTS = "GetExtents";
+static constexpr const char* CURRENT_VALUE = "CurrentValue";
+static constexpr const char* MAXIMUM_VALUE = "MaximumValue";
+static constexpr const char* MINIMUM_VALUE = "MinimumValue";
+static constexpr const char* GET_INTERFACES = "GetInterfaces";
+static constexpr const char* GET_NAVIGABLE_AT_POINT = "GetNavigableAtPoint";
+}
+}
+
+#endif
--- /dev/null
+#ifndef ATSPI_BRIDGE_HPP
+#define ATSPI_BRIDGE_HPP
+
+#include <dali/public-api/actors/actor.h>
+#include <dali/public-api/adaptor-framework/accessibility.h>
+
+#include <atomic>
+#include <bitset>
+#include <exception>
+#include <functional>
+#include <memory>
+#include <string>
+#include <unordered_map>
+#include <vector>
+
+namespace Dali
+{
+namespace Accessibility
+{
+class Accessible;
+class Text;
+class Value;
+class Component;
+class Collection;
+class Action;
+
+using ObjectsMapType = std::unordered_map< unsigned int, Accessible* >;
+
+struct DALI_IMPORT_API Bridge
+{
+ enum class Visibility
+ {
+ hidden,
+ thisThreadOnly,
+ allThreads
+ };
+ enum class ForceUpResult
+ {
+ justStarted,
+ alreadyUp
+ };
+ virtual ~Bridge() = default;
+
+ virtual const std::string& GetBusName() const = 0;
+ virtual void SetApplicationChild( Accessible* ) = 0;
+ virtual void SetApplicationName( std::string ) = 0;
+ virtual Accessible* GetApplication() const = 0;
+ virtual Accessible* FindByPath( const std::string& ) const = 0;
+ virtual void ApplicationShown() = 0;
+ virtual void ApplicationHidden() = 0;
+ virtual void Initialize() = 0;
+ virtual ForceUpResult ForceUp()
+ {
+ if( data )
+ return ForceUpResult::alreadyUp;
+ data = std::make_shared< Data >();
+ data->bridge = this;
+ return ForceUpResult::justStarted;
+ }
+ virtual void ForceDown()
+ {
+ data = {};
+ }
+ bool IsUp() const { return bool(data); }
+
+ virtual void EmitStateChanged( Accessible* obj, State state, int val1, int val2 = 0 ) = 0;
+ virtual void Emit( Accessible* obj, WindowEvent we, unsigned int detail1 = 0 ) = 0;
+ virtual Consumed Emit( KeyEventType type, unsigned int keyCode, const std::string& keyName, unsigned int timeStamp, bool isText ) = 0;
+ void MakePublic( Visibility );
+
+ static Bridge* GetCurrentBridge();
+
+protected:
+ struct Data
+ {
+ ObjectsMapType objects;
+ std::atomic< unsigned int > objectId;
+ std::string busName;
+ Accessible* root = nullptr;
+ Bridge* bridge = nullptr;
+ };
+ std::shared_ptr< Data > data;
+ friend class Accessible;
+
+ void RegisterOnBridge( Accessible* );
+ void SetIsOnRootLevel( Accessible* );
+};
+
+inline bool IsUp()
+{
+ return Bridge::GetCurrentBridge()->IsUp();
+}
+
+class DALI_IMPORT_API Accessible
+{
+protected:
+ Accessible();
+
+ Accessible( const Accessible& ) = delete;
+ Accessible( Accessible&& ) = delete;
+
+ Accessible& operator=( const Accessible& ) = delete;
+ Accessible& operator=( Accessible&& ) = delete;
+
+public:
+ virtual ~Accessible();
+
+ void EmitShowing( bool showing );
+ void EmitVisible( bool visible );
+ void EmitHighlighted( bool set );
+ void Emit( WindowEvent we, unsigned int detail1 = 0 );
+
+ virtual std::string GetName() = 0;
+ virtual std::string GetDescription() = 0;
+ virtual Accessible* GetParent() = 0;
+ virtual size_t GetChildCount() = 0;
+ virtual std::vector< Accessible* > GetChildren();
+ virtual Accessible* GetChildAtIndex( size_t index ) = 0;
+ virtual size_t GetIndexInParent() = 0;
+ virtual Role GetRole() = 0;
+ virtual std::string GetRoleName();
+ virtual std::string GetLocalizedRoleName();
+ virtual States GetStates() = 0;
+ virtual Attributes GetAttributes() = 0;
+ virtual bool IsProxy();
+ virtual Address GetAddress();
+
+ std::vector< std::string > GetInterfaces();
+ bool GetIsOnRootLevel() const { return isOnRootLevel; }
+
+ static void RegisterControlAccessibilityGetter( std::function< Accessible*( Dali::Actor ) > );
+ static Accessible* Get( Dali::Actor actor );
+
+protected:
+ std::shared_ptr< Bridge::Data > GetBridgeData();
+
+private:
+ friend class Bridge;
+
+ std::weak_ptr< Bridge::Data > bridgeData;
+ ObjectsMapType::iterator it;
+ bool isOnRootLevel = false;
+};
+
+class DALI_IMPORT_API Action : public virtual Accessible
+{
+public:
+ virtual std::string GetActionName( size_t index ) = 0;
+ virtual std::string GetLocalizedActionName( size_t index ) = 0;
+ virtual std::string GetActionDescription( size_t index ) = 0;
+ virtual std::string GetActionKeyBinding( size_t index ) = 0;
+ virtual size_t GetActionCount() = 0;
+ virtual bool DoAction( size_t index ) = 0;
+};
+
+class DALI_IMPORT_API Collection : public virtual Accessible
+{
+public:
+};
+
+class DALI_IMPORT_API Component : public virtual Accessible
+{
+public:
+ virtual Rectangle GetExtents( CoordType ctype ) = 0;
+ virtual ComponentLayer GetLayer() = 0;
+ virtual int GetMdiZOrder() = 0;
+ virtual bool GrabFocus() = 0;
+ virtual double GetAlpha() = 0;
+ virtual bool SetExtents( Rectangle rect, CoordType ctype ) = 0;
+ virtual bool GrabHighlight() = 0;
+ virtual bool ClearHighlight() = 0;
+ virtual int GetHighlightIndex() = 0;
+ virtual bool IsScrollable();
+ virtual Component* GetAccessibleAtPoint( Point p, CoordType ctype );
+ virtual bool Contains( Point p, CoordType ctype );
+};
+
+class DALI_IMPORT_API Value : public virtual Accessible
+{
+public:
+ virtual double GetMinimum() = 0;
+ virtual double GetCurrent() = 0;
+ virtual double GetMaximum() = 0;
+ virtual bool SetCurrent( double ) = 0;
+ virtual double GetMinimumIncrement() = 0;
+};
+
+class DALI_IMPORT_API Text : public virtual Accessible
+{
+public:
+ virtual std::string GetText( size_t startOffset, size_t endOffset ) = 0;
+ virtual size_t GetCharacterCount() = 0;
+ virtual Range GetTextAtOffset( size_t offset, TextBoundary boundary ) = 0;
+ virtual Range GetSelection( size_t selectionNum ) = 0;
+ virtual bool RemoveSelection( size_t selectionNum ) = 0;
+ virtual bool SetSelection( size_t selectionNum, size_t startOffset, size_t endOffset ) = 0;
+};
+
+class DALI_IMPORT_API EditableText : public virtual Accessible
+{
+public:
+ virtual bool CopyText( size_t startPosition, size_t endPosition ) = 0;
+ virtual bool CutText( size_t startPosition, size_t endPosition ) = 0;
+};
+
+/**
+ * @brief minimalistic, always empty Accessible object with settable address
+ *
+ * For those situations, where you want to return address in different bridge
+ * (embedding for example), but the object itself ain't planned to be used otherwise.
+ * This object has null parent, no children, empty name and so on
+ */
+class DALI_IMPORT_API EmptyAccessibleWithAddress : public virtual Accessible
+{
+public:
+ EmptyAccessibleWithAddress() = default;
+ EmptyAccessibleWithAddress( Address address ) : address( std::move( address ) ) {}
+
+ void SetAddress( Address address ) { this->address = std::move( address ); }
+
+ std::string GetName() override { return ""; }
+ std::string GetDescription() override { return ""; }
+ Accessible* GetParent() override { return nullptr; }
+ size_t GetChildCount() override { return 0; }
+ std::vector< Accessible* > GetChildren() override { return {}; }
+ Accessible* GetChildAtIndex( size_t index ) override
+ {
+ throw AccessibleError{"out of bounds index (" + std::to_string( index ) + ") - no children"};
+ }
+ size_t GetIndexInParent() override { return static_cast< size_t >( -1 ); }
+ Role GetRole() override { return {}; }
+ std::string GetRoleName() override;
+ States GetStates() override { return {}; }
+ Attributes GetAttributes() override { return {}; }
+ Address GetAddress() override
+ {
+ return address;
+ }
+
+private:
+ Address address;
+};
+
+std::shared_ptr< Bridge > CreateBridge();
+}
+}
+
+#endif
$(adaptor_devel_api_dir)/adaptor-framework/key-extension-plugin.h \
$(adaptor_devel_api_dir)/adaptor-framework/virtual-keyboard.h \
$(adaptor_devel_api_dir)/adaptor-framework/physical-keyboard.h \
- $(adaptor_devel_api_dir)/adaptor-framework/key-devel.h
-
+ $(adaptor_devel_api_dir)/adaptor-framework/key-devel.h \
+ $(adaptor_devel_api_dir)/adaptor-framework/accessibility.h
+
devel_api_text_abstraction_src_files = \
$(adaptor_devel_api_dir)/text-abstraction/bidirectional-support.cpp \
$(adaptor_devel_api_dir)/text-abstraction/font-client.cpp \
--- /dev/null
+#include <dali/devel-api/adaptor-framework/accessibility.h>
+#include <dali/integration-api/debug.h>
+#include <dali/public-api/actors/actor.h>
+#include <dali/public-api/actors/layer.h>
+#include <dali/public-api/common/stage.h>
+#include <dali/public-api/object/base-object.h>
+#include <dali/public-api/object/object-registry.h>
+#include <dali/public-api/object/type-info.h>
+#include <dali/public-api/object/type-registry-helper.h>
+
+using namespace Dali::Accessibility;
+
+std::string EmptyAccessibleWithAddress::GetRoleName()
+{
+ return "";
+}
+
+std::string Accessible::GetLocalizedRoleName()
+{
+ return GetRoleName();
+}
+
+std::string Accessible::GetRoleName()
+{
+ switch( GetRole() )
+ {
+ case Role::Invalid:
+ {
+ return "invalid";
+ }
+ case Role::AcceleratorLabel:
+ {
+ return "accelerator label";
+ }
+ case Role::Alert:
+ {
+ return "alert";
+ }
+ case Role::Animation:
+ {
+ return "animation";
+ }
+ case Role::Arrow:
+ {
+ return "arrow";
+ }
+ case Role::Calendar:
+ {
+ return "calendar";
+ }
+ case Role::Canvas:
+ {
+ return "canvas";
+ }
+ case Role::CheckBox:
+ {
+ return "check box";
+ }
+ case Role::CheckMenuItem:
+ {
+ return "check menu item";
+ }
+ case Role::ColorChooser:
+ {
+ return "color chooser";
+ }
+ case Role::ColumnHeader:
+ {
+ return "column header";
+ }
+ case Role::ComboBox:
+ {
+ return "combo box";
+ }
+ case Role::DateEditor:
+ {
+ return "date editor";
+ }
+ case Role::DesktopIcon:
+ {
+ return "desktop icon";
+ }
+ case Role::DesktopFrame:
+ {
+ return "desktop frame";
+ }
+ case Role::Dial:
+ {
+ return "dial";
+ }
+ case Role::Dialog:
+ {
+ return "dialog";
+ }
+ case Role::DirectoryPane:
+ {
+ return "directory pane";
+ }
+ case Role::DrawingArea:
+ {
+ return "drawing area";
+ }
+ case Role::FileChooser:
+ {
+ return "file chooser";
+ }
+ case Role::Filler:
+ {
+ return "filler";
+ }
+ case Role::FocusTraversable:
+ {
+ return "focus traversable";
+ }
+ case Role::FontChooser:
+ {
+ return "font chooser";
+ }
+ case Role::Frame:
+ {
+ return "frame";
+ }
+ case Role::GlassPane:
+ {
+ return "glass pane";
+ }
+ case Role::HtmlContainer:
+ {
+ return "html container";
+ }
+ case Role::Icon:
+ {
+ return "icon";
+ }
+ case Role::Image:
+ {
+ return "image";
+ }
+ case Role::InternalFrame:
+ {
+ return "internal frame";
+ }
+ case Role::Label:
+ {
+ return "label";
+ }
+ case Role::LayeredPane:
+ {
+ return "layered pane";
+ }
+ case Role::List:
+ {
+ return "list";
+ }
+ case Role::ListItem:
+ {
+ return "list item";
+ }
+ case Role::Menu:
+ {
+ return "menu";
+ }
+ case Role::MenuBar:
+ {
+ return "menu bar";
+ }
+ case Role::MenuItem:
+ {
+ return "menu item";
+ }
+ case Role::OptionPane:
+ {
+ return "option pane";
+ }
+ case Role::PageTab:
+ {
+ return "page tab";
+ }
+ case Role::PageTabList:
+ {
+ return "page tab list";
+ }
+ case Role::Panel:
+ {
+ return "panel";
+ }
+ case Role::PasswordText:
+ {
+ return "password text";
+ }
+ case Role::PopupMenu:
+ {
+ return "popup menu";
+ }
+ case Role::ProgressBar:
+ {
+ return "progress bar";
+ }
+ case Role::PushButton:
+ {
+ return "push button";
+ }
+ case Role::RadioButton:
+ {
+ return "radio button";
+ }
+ case Role::RadioMenuItem:
+ {
+ return "radio menu item";
+ }
+ case Role::RootPane:
+ {
+ return "root pane";
+ }
+ case Role::RowHeader:
+ {
+ return "row header";
+ }
+ case Role::ScrollBar:
+ {
+ return "scroll bar";
+ }
+ case Role::ScrollPane:
+ {
+ return "scroll pane";
+ }
+ case Role::Separator:
+ {
+ return "separator";
+ }
+ case Role::Slider:
+ {
+ return "slider";
+ }
+ case Role::SpinButton:
+ {
+ return "spin button";
+ }
+ case Role::SplitPane:
+ {
+ return "split pane";
+ }
+ case Role::StatusBar:
+ {
+ return "status bar";
+ }
+ case Role::Table:
+ {
+ return "table";
+ }
+ case Role::TableCell:
+ {
+ return "table cell";
+ }
+ case Role::TableColumnHeader:
+ {
+ return "table column header";
+ }
+ case Role::TableRowHeader:
+ {
+ return "table row header";
+ }
+ case Role::TearoffMenuItem:
+ {
+ return "tearoff menu item";
+ }
+ case Role::Terminal:
+ {
+ return "terminal";
+ }
+ case Role::Text:
+ {
+ return "text";
+ }
+ case Role::ToggleButton:
+ {
+ return "toggle button";
+ }
+ case Role::ToolBar:
+ {
+ return "tool bar";
+ }
+ case Role::ToolTip:
+ {
+ return "tool tip";
+ }
+ case Role::Tree:
+ {
+ return "tree";
+ }
+ case Role::TreeTable:
+ {
+ return "tree table";
+ }
+ case Role::Unknown:
+ {
+ return "unknown";
+ }
+ case Role::Viewport:
+ {
+ return "viewport";
+ }
+ case Role::Window:
+ {
+ return "window";
+ }
+ case Role::Extended:
+ {
+ return "extended";
+ }
+ case Role::Header:
+ {
+ return "header";
+ }
+ case Role::Footer:
+ {
+ return "footer";
+ }
+ case Role::Paragraph:
+ {
+ return "paragraph";
+ }
+ case Role::Ruler:
+ {
+ return "ruler";
+ }
+ case Role::Application:
+ {
+ return "application";
+ }
+ case Role::Autocomplete:
+ {
+ return "autocomplete";
+ }
+ case Role::Editbar:
+ {
+ return "edit bar";
+ }
+ case Role::Embedded:
+ {
+ return "embedded";
+ }
+ case Role::Entry:
+ {
+ return "entry";
+ }
+ case Role::Chart:
+ {
+ return "chart";
+ }
+ case Role::Caption:
+ {
+ return "caution";
+ }
+ case Role::DocumentFrame:
+ {
+ return "document frame";
+ }
+ case Role::Heading:
+ {
+ return "heading";
+ }
+ case Role::Page:
+ {
+ return "page";
+ }
+ case Role::Section:
+ {
+ return "section";
+ }
+ case Role::RedundantObject:
+ {
+ return "redundant object";
+ }
+ case Role::Form:
+ {
+ return "form";
+ }
+ case Role::Link:
+ {
+ return "link";
+ }
+ case Role::InputMethodWindow:
+ {
+ return "input method window";
+ }
+ case Role::TableRow:
+ {
+ return "table row";
+ }
+ case Role::TreeItem:
+ {
+ return "tree item";
+ }
+ case Role::DocumentSpreadsheet:
+ {
+ return "document spreadsheet";
+ }
+ case Role::DocumentPresentation:
+ {
+ return "document presentation";
+ }
+ case Role::DocumentText:
+ {
+ return "document text";
+ }
+ case Role::DocumentWeb:
+ {
+ return "document web";
+ }
+ case Role::DocumentEmail:
+ {
+ return "document email";
+ }
+ case Role::Comment:
+ {
+ return "comment";
+ }
+ case Role::ListBox:
+ {
+ return "list box";
+ }
+ case Role::Grouping:
+ {
+ return "grouping";
+ }
+ case Role::ImageMap:
+ {
+ return "image map";
+ }
+ case Role::Notification:
+ {
+ return "notification";
+ }
+ case Role::InfoBar:
+ {
+ return "info bar";
+ }
+ case Role::LevelBar:
+ {
+ return "level bar";
+ }
+ case Role::TitleBar:
+ {
+ return "title bar";
+ }
+ case Role::BlockQuote:
+ {
+ return "block quote";
+ }
+ case Role::Audio:
+ {
+ return "audio";
+ }
+ case Role::Video:
+ {
+ return "video";
+ }
+ case Role::Definition:
+ {
+ return "definition";
+ }
+ case Role::Article:
+ {
+ return "article";
+ }
+ case Role::Landmark:
+ {
+ return "landmark";
+ }
+ case Role::Log:
+ {
+ return "log";
+ }
+ case Role::Marquee:
+ {
+ return "marquee";
+ }
+ case Role::Math:
+ {
+ return "math";
+ }
+ case Role::Rating:
+ {
+ return "rating";
+ }
+ case Role::Timer:
+ {
+ return "timer";
+ }
+ case Role::Static:
+ {
+ return "static";
+ }
+ case Role::MathFraction:
+ {
+ return "math fraction";
+ }
+ case Role::MathRoot:
+ {
+ return "math root";
+ }
+ case Role::Subscript:
+ {
+ return "subscript";
+ }
+ case Role::Superscript:
+ {
+ return "superscript";
+ }
+ case Role::_Count:
+ {
+ break;
+ }
+ }
+ return "";
+}
+
+void Bridge::SetIsOnRootLevel( Accessible* o )
+{
+ o->isOnRootLevel = true;
+}
+
+class NonControlAccessible : public virtual Accessible, public virtual Collection
+{
+public:
+ Dali::Actor actor;
+ bool root = false;
+
+ NonControlAccessible( Dali::Actor actor ) : actor( actor )
+ {
+ Dali::Stage stage = Dali::Stage::GetCurrent();
+ root = stage.GetRootLayer() == actor;
+ }
+
+ std::string GetName() override
+ {
+ return actor.GetName();
+ }
+ std::string GetDescription() override
+ {
+ return "";
+ }
+ Accessible* GetParent() override
+ {
+ if( GetIsOnRootLevel() )
+ {
+ auto b = GetBridgeData();
+ return b->bridge->GetApplication();
+ }
+ return Get( actor.GetParent() );
+ }
+ size_t GetChildCount() override
+ {
+ return static_cast< size_t >( actor.GetChildCount() );
+ }
+ Accessible* GetChildAtIndex( size_t index ) override
+ {
+ auto s = static_cast< size_t >( actor.GetChildCount() );
+ if( index >= s )
+ throw AccessibleError{"invalid index " + std::to_string( index ) + " for object with " + std::to_string( s ) + " children"};
+ return Get( actor.GetChildAt( static_cast< unsigned int >( index ) ) );
+ }
+ size_t GetIndexInParent() override
+ {
+ auto p = actor.GetParent();
+ if( !p )
+ return 0;
+ auto s = static_cast< size_t >( p.GetChildCount() );
+ for( auto i = 0u; i < s; ++i )
+ {
+ if( p.GetChildAt( i ) == actor )
+ return i;
+ }
+ throw AccessibleError{"actor is not a child of it's parent"};
+ }
+ Role GetRole() override
+ {
+ return root ? Role::Window : Role::RedundantObject;
+ }
+ States GetStates() override
+ {
+ States s;
+ if( root )
+ {
+ s[State::Highlightable] = true;
+ s[State::Enabled] = true;
+ s[State::Sensitive] = true;
+ s[State::Showing] = true;
+ s[State::Active] = true;
+ }
+ else
+ {
+ auto t = GetParent()->GetStates();
+ s[State::Showing] = t[State::Showing];
+ s[State::Visible] = t[State::Visible];
+ }
+ return s;
+ }
+ Attributes GetAttributes() override
+ {
+ Dali::TypeInfo type;
+ actor.GetTypeInfo( type );
+ return {
+ {"t", type.GetName()},
+ };
+ }
+};
+
+using NonControlAccessiblesType = std::unordered_map< const Dali::RefObject*, std::unique_ptr< NonControlAccessible > >;
+static NonControlAccessiblesType nonControlAccessibles;
+
+static std::function< Accessible*( Dali::Actor ) > convertingFunctor = []( Dali::Actor ) -> Accessible* {
+ return nullptr;
+};
+
+void Accessible::RegisterControlAccessibilityGetter( std::function< Accessible*( Dali::Actor ) > functor )
+{
+ convertingFunctor = functor;
+}
+
+Accessible* Accessible::Get( Dali::Actor actor )
+{
+ if( !actor )
+ {
+ return nullptr;
+ }
+ auto p = convertingFunctor( actor );
+ if( !p )
+ {
+ if( nonControlAccessibles.empty() )
+ {
+ auto registry = Dali::Stage::GetCurrent().GetObjectRegistry();
+ registry.ObjectDestroyedSignal().Connect( []( const Dali::RefObject* obj ) {
+ nonControlAccessibles.erase( obj );
+ } );
+ }
+ auto it = nonControlAccessibles.emplace( &actor.GetBaseObject(), nullptr );
+ if( it.second )
+ {
+ it.first->second.reset( new NonControlAccessible( actor ) );
+ }
+ p = it.first->second.get();
+ }
+ return p;
+}
# module: accessibility, backend: common
adaptor_accessibility_common_src_files=\
+ ${adaptor_accessibility_dir}/accessibility-impl.cpp \
${adaptor_accessibility_dir}/common/tts-player-factory.cpp \
${adaptor_accessibility_dir}/common/tts-player-impl.cpp \
${adaptor_accessibility_dir}/common/accessibility-adaptor-impl.cpp \
#include <dali/internal/window-system/common/display-connection.h>
#include <dali/internal/window-system/common/window-impl.h>
-#include <dali/internal/system/common/logging.h>
+#include <dali/devel-api/adaptor-framework/accessibility.h>
#include <dali/devel-api/adaptor-framework/image-loading.h>
+#include <dali/internal/system/common/logging.h>
#include <dali/internal/system/common/locale-utils.h>
+#include <aul.h>
+#include <unistd.h>
+
using Dali::TextAbstraction::FontClient;
namespace Dali
}
SetupSystemInformation();
+
+ Dali::Stage stage = Dali::Stage::GetCurrent();
+
+ char appname[4096] = {0};
+ int pid = getpid();
+ aul_app_get_pkgname_bypid( pid, appname, sizeof( appname ) );
+
+ accessibilityObserver.atspiBridge = Accessibility::CreateBridge();
+ auto accessible = Accessibility::Accessible::Get( stage.GetRootLayer() );
+ accessibilityObserver.atspiBridge->SetApplicationChild( accessible );
+ accessibilityObserver.atspiBridge->SetApplicationName( appname );
+ accessibilityObserver.atspiBridge->Initialize();
+
+ Dali::Stage::GetCurrent().KeyEventSignal().Connect( &accessibilityObserver, &AccessibilityObserver::OnAccessibleKeyEvent );
+}
+
+void Adaptor::AccessibilityObserver::OnAccessibleKeyEvent( const KeyEvent& event )
+{
+ Accessibility::KeyEventType type;
+ if( event.state == KeyEvent::Down )
+ {
+ type = Accessibility::KeyEventType::KeyPressed;
+ }
+ else if( event.state == KeyEvent::Up )
+ {
+ type = Accessibility::KeyEventType::KeyReleased;
+ }
+ else
+ {
+ return;
+ }
+ atspiBridge->Emit( type, event.keyCode, event.keyPressedName, event.time, !event.keyPressed.empty() );
}
Adaptor::~Adaptor()
{
if ( PAUSED_WHILE_HIDDEN == mState )
{
+ accessibilityObserver.atspiBridge->ApplicationShown();
+
// Adaptor can now be resumed
mState = PAUSED;
{
if ( RUNNING == mState )
{
+ accessibilityObserver.atspiBridge->ApplicationHidden();
+
Pause();
// Adaptor cannot be resumed until the window is shown
namespace Dali
{
+namespace Accessibility
+{
+class Bridge;
+}
+
class RenderSurface;
class Window;
SocketFactory mSocketFactory; ///< Socket factory
const bool mEnvironmentOptionsOwned:1; ///< Whether we own the EnvironmentOptions (and thus, need to delete it)
bool mUseRemoteSurface; ///< whether the remoteSurface is used or not
+
+ class AccessibilityObserver : public ConnectionTracker
+ {
+ public:
+ std::shared_ptr< Dali::Accessibility::Bridge > atspiBridge;
+
+ void OnAccessibleKeyEvent( const KeyEvent& event );
+ };
+ AccessibilityObserver accessibilityObserver;
+
public:
- inline static Adaptor& GetImplementation(Dali::Adaptor& adaptor) {return *adaptor.mImpl;}
+ inline static Adaptor& GetImplementation(Dali::Adaptor& adaptor) { return *adaptor.mImpl; }
};
} // namespace Internal
--- /dev/null
+#ifndef __DALI_ACCESSIBILITY_H__
+#define __DALI_ACCESSIBILITY_H__
+
+#include <dali/public-api/actors/actor.h>
+
+#include <atomic>
+#include <bitset>
+#include <exception>
+#include <functional>
+#include <memory>
+#include <string>
+#include <unordered_map>
+#include <vector>
+
+namespace Dali
+{
+class Actor;
+
+namespace Accessibility
+{
+enum class RelationType
+{
+ FlowsFrom,
+ FlowsTo
+};
+
+enum class MatchType : int32_t
+{
+ Invalid,
+ All,
+ Any,
+ None,
+ Empty
+};
+
+enum class SortOrder : uint32_t
+{
+ Invalid,
+ Canonical,
+ Flow,
+ Tab,
+ ReverseCanonical,
+ ReverseFlow,
+ ReverseTab,
+ LastDefined
+};
+
+enum class CoordType
+{
+ Screen,
+ Window
+};
+
+enum class NeighborSearchDirection
+{
+ Forward,
+ Backward
+};
+
+enum class ComponentLayer
+{
+ Invalid,
+ Background,
+ Canvas,
+ Widget,
+ Mdi,
+ Popup,
+ Overlay,
+ Window,
+ LastDefined,
+};
+
+enum class Role : uint32_t
+{
+ Invalid,
+ AcceleratorLabel,
+ Alert,
+ Animation,
+ Arrow,
+ Calendar,
+ Canvas,
+ CheckBox,
+ CheckMenuItem,
+ ColorChooser,
+ ColumnHeader,
+ ComboBox,
+ DateEditor,
+ DesktopIcon,
+ DesktopFrame,
+ Dial,
+ Dialog,
+ DirectoryPane,
+ DrawingArea,
+ FileChooser,
+ Filler,
+ FocusTraversable,
+ FontChooser,
+ Frame,
+ GlassPane,
+ HtmlContainer,
+ Icon,
+ Image,
+ InternalFrame,
+ Label,
+ LayeredPane,
+ List,
+ ListItem,
+ Menu,
+ MenuBar,
+ MenuItem,
+ OptionPane,
+ PageTab,
+ PageTabList,
+ Panel,
+ PasswordText,
+ PopupMenu,
+ ProgressBar,
+ PushButton,
+ RadioButton,
+ RadioMenuItem,
+ RootPane,
+ RowHeader,
+ ScrollBar,
+ ScrollPane,
+ Separator,
+ Slider,
+ SpinButton,
+ SplitPane,
+ StatusBar,
+ Table,
+ TableCell,
+ TableColumnHeader,
+ TableRowHeader,
+ TearoffMenuItem,
+ Terminal,
+ Text,
+ ToggleButton,
+ ToolBar,
+ ToolTip,
+ Tree,
+ TreeTable,
+ Unknown,
+ Viewport,
+ Window,
+ Extended,
+ Header,
+ Footer,
+ Paragraph,
+ Ruler,
+ Application,
+ Autocomplete,
+ Editbar,
+ Embedded,
+ Entry,
+ Chart,
+ Caption,
+ DocumentFrame,
+ Heading,
+ Page,
+ Section,
+ RedundantObject,
+ Form,
+ Link,
+ InputMethodWindow,
+ TableRow,
+ TreeItem,
+ DocumentSpreadsheet,
+ DocumentPresentation,
+ DocumentText,
+ DocumentWeb,
+ DocumentEmail,
+ Comment,
+ ListBox,
+ Grouping,
+ ImageMap,
+ Notification,
+ InfoBar,
+ LevelBar,
+ TitleBar,
+ BlockQuote,
+ Audio,
+ Video,
+ Definition,
+ Article,
+ Landmark,
+ Log,
+ Marquee,
+ Math,
+ Rating,
+ Timer,
+ Static,
+ MathFraction,
+ MathRoot,
+ Subscript,
+ Superscript,
+ _Count,
+};
+
+enum class State : uint32_t
+{
+ Invalid,
+ Active,
+ Armed,
+ Busy,
+ Checked,
+ Collapsed,
+ Defunct,
+ Editable,
+ Enabled,
+ Expandable,
+ Expanded,
+ Focusable,
+ Focused,
+ HasTooltip,
+ Horizontal,
+ Iconified,
+ Modal,
+ MultiLine,
+ MultiSelectable,
+ Opaque,
+ Pressed,
+ Resizeable,
+ Selectable,
+ Selected,
+ Sensitive,
+ Showing,
+ SingleLine,
+ Stale,
+ Transient,
+ Vertical,
+ Visible,
+ ManagesDescendants,
+ Indeterminate,
+ Required,
+ Truncated,
+ Animated,
+ InvalidEntry,
+ SupportsAutocompletion,
+ SelectableText,
+ IsDefault,
+ Visited,
+ Checkable,
+ HasPopup,
+ ReadOnly,
+ Highlighted,
+ Highlightable,
+ _Count
+};
+
+enum class WindowEvent
+{
+ PropertyChange,
+ Minimize,
+ Maximize,
+ Restore,
+ Close,
+ Create,
+ Reparent,
+ DesktopCreate,
+ DesktopDestroy,
+ Destroy,
+ Activate,
+ Deactivate,
+ Raise,
+ Lower,
+ Move,
+ Resize,
+ Shade,
+ UuShade,
+ Restyle,
+};
+
+enum class TextBoundary : uint32_t
+{
+ Character,
+ WordStart,
+ WordEnd,
+ SentenceStart,
+ SentenceEnd,
+ LineStart,
+ LineEnd,
+ _Count
+};
+
+template < size_t I, typename S >
+class BitStates
+{
+ std::array< uint32_t, I > data;
+
+public:
+ BitStates()
+ {
+ for( auto& u : data )
+ u = 0;
+ }
+ explicit BitStates( std::array< uint32_t, I > d )
+ {
+ for( auto i = 0u; i < I; ++i )
+ data[i] = d[i];
+ }
+ explicit BitStates( std::array< int32_t, I > d )
+ {
+ for( auto i = 0u; i < I; ++i )
+ data[i] = static_cast< uint32_t >( d[i] );
+ }
+
+ struct reference
+ {
+ std::array< uint32_t, I >& data;
+ size_t pos;
+ bool operator=( reference r )
+ {
+ return ( *this ) = static_cast< bool >( r );
+ }
+ bool operator=( bool v )
+ {
+ if( v )
+ data[pos / 32] |= 1 << ( pos & 31 );
+ else
+ data[pos / 32] &= ~( 1 << ( pos & 31 ) );
+ return v;
+ }
+ operator bool() const
+ {
+ auto i = static_cast< size_t >( pos );
+ return ( data[i / 32] & ( 1 << ( i & 31 ) ) ) != 0;
+ }
+ };
+ reference operator[]( S index ) { return {data, static_cast< size_t >( index )}; }
+ bool operator[]( S index ) const
+ {
+ auto i = static_cast< size_t >( index );
+ return ( data[i / 32] & ( 1 << ( i & 31 ) ) ) != 0;
+ }
+ std::array< uint32_t, I > GetRawData() const { return data; }
+
+ BitStates operator|( BitStates b ) const
+ {
+ BitStates r;
+ for( auto i = 0u; i < I; ++i )
+ r.data[i] = data[i] | b.data[i];
+ return r;
+ }
+ BitStates operator&( BitStates b ) const
+ {
+ BitStates r;
+ for( auto i = 0u; i < I; ++i )
+ r.data[i] = data[i] & b.data[i];
+ return r;
+ }
+ bool operator==( BitStates b ) const
+ {
+ for( auto i = 0u; i < I; ++i )
+ if( data[i] != b.data[i] )
+ return false;
+ return true;
+ }
+ explicit operator bool() const
+ {
+ for( auto& u : data )
+ if( u )
+ return true;
+ return false;
+ }
+};
+
+using States = BitStates< 2, State >;
+using Attributes = std::unordered_map< std::string, std::string >;
+
+class DALI_IMPORT_API Address
+{
+public:
+ Address() = default;
+ Address( std::string bus, std::string path ) : bus( std::move( bus ) ), path( std::move( path ) ) {}
+
+ explicit operator bool() const { return !path.empty(); }
+ std::string ToString() const
+ {
+ return *this ? bus + ":" + path : "::null";
+ }
+ const std::string& GetBus() const { return bus; }
+ const std::string& GetPath() const { return path; }
+
+private:
+ std::string bus, path;
+};
+
+enum class KeyEventType
+{
+ KeyPressed,
+ KeyReleased,
+};
+enum class Consumed
+{
+ No,
+ Yes
+};
+struct DALI_IMPORT_API Point
+{
+ int x = 0;
+ int y = 0;
+
+ Point() = default;
+ Point( int x, int y ) : x( x ), y( y ) {}
+
+ bool operator==( Point p ) const
+ {
+ return x == p.x && y == p.y;
+ }
+ bool operator!=( Point p ) const
+ {
+ return !( *this == p );
+ }
+};
+
+struct DALI_IMPORT_API Size
+{
+ int width = 0;
+ int height = 0;
+
+ Size() = default;
+ Size( int w, int h ) : width( w ), height( h ) {}
+
+ bool operator==( Size p ) const
+ {
+ return width == p.width && height == p.height;
+ }
+ bool operator!=( Size p ) const
+ {
+ return !( *this == p );
+ }
+};
+
+struct DALI_IMPORT_API Rectangle
+{
+ Point position;
+ Size size;
+
+ bool operator==( Rectangle p ) const
+ {
+ return position == p.position && size == p.size;
+ }
+ bool operator!=( Rectangle p ) const
+ {
+ return !( *this == p );
+ }
+};
+struct DALI_IMPORT_API Range
+{
+ int startOffset = 0;
+ int endOffset = 0;
+ std::string content;
+
+ Range() = default;
+ Range( size_t start, size_t end ) : startOffset( start ), endOffset( end )
+ {
+ }
+ Range( size_t start, size_t end, std::string content ) : startOffset( start ), endOffset( end ), content( content )
+ {
+ }
+};
+
+class DALI_IMPORT_API AccessibleError : public std::exception
+{
+public:
+ AccessibleError( std::string msg ) : msg( std::move( msg ) ) {}
+ const char* what() const noexcept override { return msg.c_str(); }
+
+private:
+ std::string msg;
+};
+}
+}
+
+namespace std
+{
+template <>
+struct hash< Dali::Accessibility::Point >
+{
+ size_t operator()( Dali::Accessibility::Point p )
+ {
+ return static_cast< size_t >( p.x ) ^ ( static_cast< size_t >( p.y ) * 11 );
+ }
+};
+template <>
+struct hash< Dali::Accessibility::Size >
+{
+ size_t operator()( Dali::Accessibility::Size p )
+ {
+ return static_cast< size_t >( p.width ) ^ ( static_cast< size_t >( p.height ) * 11 );
+ }
+};
+template <>
+struct hash< Dali::Accessibility::Rectangle >
+{
+ size_t operator()( Dali::Accessibility::Rectangle p )
+ {
+ return hash< Dali::Accessibility::Point >()( p.position ) ^ ( hash< Dali::Accessibility::Size >()( p.size ) * 11 );
+ }
+};
+}
+
+#endif
$(adaptor_public_api_dir)/adaptor-framework/device-status.h \
$(adaptor_public_api_dir)/adaptor-framework/input-method.h \
$(adaptor_public_api_dir)/adaptor-framework/key.h \
+ $(adaptor_public_api_dir)/adaptor-framework/accessibility.h \
$(adaptor_public_api_dir)/adaptor-framework/key-grab.h \
$(adaptor_public_api_dir)/adaptor-framework/style-change.h \
$(adaptor_public_api_dir)/adaptor-framework/timer.h \