naiveproxy/content/common/input/input_handler.mojom
2018-08-11 05:35:24 +00:00

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// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
module content.mojom;
import "content/common/input/synchronous_compositor.mojom";
import "content/common/native_types.mojom";
import "mojo/public/mojom/base/string16.mojom";
import "mojo/public/mojom/base/time.mojom";
import "services/ui/public/interfaces/ime/ime.mojom";
import "third_party/blink/public/web/selection_menu_behavior.mojom";
import "ui/events/mojo/event.mojom";
import "ui/events/mojo/event_constants.mojom";
import "ui/gfx/geometry/mojo/geometry.mojom";
import "ui/gfx/range/mojo/range.mojom";
import "ui/latency/mojo/latency_info.mojom";
// These structs are purposely duplicated from ui/events/mojom/event.mojom.
// They map WebInputEvent <-> WebInputEvent across mojo.
// We have to work at unifying them. The current problem is that the browser
// uses WebInputEvents inside the render widget host and input router. Once
// we move these to ui::Event's then we can get rid of these duplicated
// mojom structs. Ideally the browser would use ui::Event up until we
// pass the events into the renderer and just use a StructTraits to perform
// conversion from ui::mojom::Event --> blink::WebInputEvent.
struct KeyData {
int32 dom_key;
int32 dom_code;
int32 windows_key_code;
int32 native_key_code;
bool is_system_key;
bool is_browser_shortcut;
mojo_base.mojom.String16 text;
mojo_base.mojom.String16 unmodified_text;
};
struct PointerData {
int32 pointer_id;
float force;
int32 tilt_x;
int32 tilt_y;
float tangential_pressure;
int32 twist;
Button button;
PointerType pointer_type;
int32 movement_x;
int32 movement_y;
gfx.mojom.PointF widget_position;
gfx.mojom.PointF screen_position;
MouseData? mouse_data;
};
struct WheelData {
float delta_x;
float delta_y;
float wheel_ticks_x;
float wheel_ticks_y;
float acceleration_ratio_x;
float acceleration_ratio_y;
int32 resending_plugin_id;
uint8 phase;
uint8 momentum_phase;
bool scroll_by_page;
bool has_precise_scrolling_deltas;
Cancelability cancelable;
};
struct MouseData {
int32 click_count;
WheelData? wheel_data;
};
struct ScrollUpdate {
float velocity_x;
float velocity_y;
bool previous_update_in_sequence_prevented;
};
struct ScrollData {
float delta_x;
float delta_y;
ScrollUnits delta_units;
bool target_viewport;
InertialPhaseState inertial_phase;
bool synthetic;
int32 pointer_count;
ScrollUpdate? update_details;
};
struct PinchData {
bool zoom_disabled;
float scale;
};
struct FlingData {
float velocity_x;
float velocity_y;
bool target_viewport;
bool prevent_boosting;
};
struct TapData {
int32 tap_count;
};
struct GestureData {
gfx.mojom.PointF screen_position;
gfx.mojom.PointF widget_position;
GestureDevice source_device;
bool is_source_touch_event_set_non_blocking;
PointerType primary_pointer_type;
int32 unique_touch_event_id;
int32 resending_plugin_id;
gfx.mojom.Size? contact_size;
ScrollData? scroll_data;
PinchData? pinch_data;
TapData? tap_data;
FlingData? fling_data;
};
struct TouchPoint {
TouchState state;
float radius_x;
float radius_y;
float rotation_angle;
PointerData pointer_data;
};
struct TouchData {
Cancelability cancelable;
bool moved_beyond_slop_region;
bool touch_start_or_first_move;
bool hovering;
uint32 unique_touch_event_id;
array<TouchPoint> touches;
};
struct Event {
EventType type;
int32 modifiers;
mojo_base.mojom.TimeTicks timestamp;
ui.mojom.LatencyInfo latency;
KeyData? key_data;
PointerData? pointer_data;
GestureData? gesture_data;
TouchData? touch_data;
};
struct TouchActionOptional {
TouchAction touch_action;
};
// Interface exposed by the browser to the renderer. The messages
// contained in here are state changes that the renderer has taken
// that the browser must be aware of.
interface WidgetInputHandlerHost {
// Cancel the active touch timeout. Occurs when the renderer
// has processed a touch-action: none but not yet dispatched
// the event to javascript.
CancelTouchTimeout();
// The whitelisted touch action and the associated unique touch event id
// for a new touch point sent by the compositor. The unique touch event id is
// only needed to verify that the whitelisted touch action is being associated
// with the correct touch event. The input event ack state is needed when
// the touchstart message was not sent to the renderer and the touch
// actions need to be reset and the touch ack timeout needs to be started.
SetWhiteListedTouchAction(TouchAction touch_action,
uint32 unique_touch_event_id,
InputEventAckState state);
// Sent by the compositor when input scroll events are dropped due to bounds
// restrictions on the root scroll offset.
DidOverscroll(DidOverscrollParams params);
// Sent by the compositor when a fling animation is stopped.
DidStopFlinging();
// Sent by the compositor when a GSB has started scrolling the viewport.
DidStartScrollingViewport();
// Required for cancelling an ongoing input method composition.
ImeCancelComposition();
// Sends the character bounds after every composition change
// to always have correct bound info.
ImeCompositionRangeChanged(gfx.mojom.Range range,
array<gfx.mojom.Rect> bounds);
// Updates the mouse capture state of this widget. While capture is enabled,
// all mouse events, including those that don't hittest to this widget, will
// be targeted to this widget. This enables Blink to behave correctly when
// a scrollbar is being dragged, or text is being drag-highlighted, even
// when the mouse passes across different RenderWidget areas.
SetMouseCapture(bool capture);
};
// Interface exposed by the renderer to the browser. This class represents
// an input interface for an associated Widget object. See FrameInputHandler
// for an interface at the frame level.
interface WidgetInputHandler {
// Tells widget focus has been changed.
SetFocus(bool focused);
// Tells widget mouse capture has been lost.
MouseCaptureLost();
// This message notifies the renderer that the next key event is bound to one
// or more pre-defined edit commands. If the next key event is not handled
// by webkit, the specified edit commands shall be executed against current
// focused frame.
// Parameters
// * edit_commands (see chrome/common/edit_command_types.h)
// Contains one or more edit commands.
// See third_party/WebKit/Source/WebCore/editing/EditorCommand.cpp for
// detailed definition of webkit edit commands.
//
// This message must be sent just before sending a key event.
SetEditCommandsForNextKeyEvent(array<content.mojom.EditCommand> commands);
// Sends the cursor visibility state to the render widget.
CursorVisibilityChanged(bool visible);
// This message sends a string being composed with an input method.
ImeSetComposition(mojo_base.mojom.String16 text,
array<ui.mojom.ImeTextSpan> ime_text_spans,
gfx.mojom.Range range, int32 start, int32 end);
// This message deletes the current composition, inserts specified text, and
// moves the cursor.
ImeCommitText(mojo_base.mojom.String16 text,
array<ui.mojom.ImeTextSpan> ime_text_spans,
gfx.mojom.Range range, int32 relative_cursor_position);
// This message inserts the ongoing composition.
ImeFinishComposingText(bool keep_selection);
// Request from browser to update text input state.
RequestTextInputStateUpdate();
// Request from browser to update the cursor and composition information which
// will be sent through ImeCompositionRangeChanged. Setting
// |immediate_request| to true will lead to an immediate update. If
// |monitor_updates| is set to true then changes to text selection or regular
// updates in each compositor frame (when there is a change in composition
// info) will lead to updates being sent to the browser.
RequestCompositionUpdates(bool immediate_request, bool monitor_request);
// Sends an input event to the render widget. The browser should use this
// API if it wants to know about the result of the rendering handling
// the event. The callback may be delayed based on the event running on
// the main thread so DispatchNonBlockingEvent is always preferred if
// you don't require notification.
DispatchEvent(Event event)
=> (InputEventAckSource source, ui.mojom.LatencyInfo updated_latency,
InputEventAckState state, DidOverscrollParams? overscroll,
TouchActionOptional? touch_action);
// Sends a non-blocking input event to the render widget. The behaviour
// of this API is the same as DispatchEvent just that there is no callback
// after the event is processed.
DispatchNonBlockingEvent(Event event);
// Attach the synchronous compositor interface. This method only
// should be called for Android WebView.
AttachSynchronousCompositor(
SynchronousCompositorControlHost control_host,
associated SynchronousCompositorHost host,
associated SynchronousCompositor& compositor_request);
};
// This interface provides the input actions associated with the RenderFrame.
// Other input actions may also be dispatched via the WidgetInputHandler
// interface. If frame input actions are dispatched the WidgetInputHandler
// should be fetched via the associated interface request so that input calls
// remain in order. See https://goo.gl/x4ee8A for more details.
interface FrameInputHandler {
// Sets the text composition to be between the given start and end offsets in
// the currently focused editable field.
SetCompositionFromExistingText(
int32 start, int32 end, array<ui.mojom.ImeTextSpan> ime_text_spans);
// Deletes the current selection plus the specified number of characters
// before and after the selection or caret.
ExtendSelectionAndDelete(int32 before, int32 after);
// Deletes text before and after the current cursor position, excluding the
// selection. The lengths are supplied in Java chars (UTF-16 Code Unit),
// not in code points or in glyphs.
DeleteSurroundingText(int32 before, int32 after);
// Deletes text before and after the current cursor position, excluding the
// selection. The lengths are supplied in code points, not in Java chars
// (UTF-16 Code Unit) or in glyphs. Does nothing if there are one or more
// invalid surrogate pairs in the requested range
DeleteSurroundingTextInCodePoints(int32 before, int32 after);
// Selects between the given start and end offsets in the currently focused
// editable field.
SetEditableSelectionOffsets(int32 start, int32 end);
// Message payload is the name/value of a WebCore edit command to execute.
ExecuteEditCommand(string command, mojo_base.mojom.String16? value);
// These messages are typically generated from context menus and request the
// renderer to apply the specified operation to the current selection.
Undo();
Redo();
Cut();
Copy();
CopyToFindPboard();
Paste();
PasteAndMatchStyle();
Delete();
SelectAll();
CollapseSelection();
// Replaces the selected region or a word around the cursor with the
// specified string.
Replace(mojo_base.mojom.String16 word);
// Replaces the misspelling in the selected region with the specified string.
ReplaceMisspelling(mojo_base.mojom.String16 word);
// Requests the renderer to select the region between two points.
// Expects a SelectRange_ACK message when finished.
SelectRange(gfx.mojom.Point base, gfx.mojom.Point extent);
// Sent by the browser to ask the renderer to adjust the selection start and
// end points by the given amounts. A negative amount moves the selection
// towards the beginning of the document, a positive amount moves the
// selection towards the end of the document. Will send show selection menu
// event when needed.
AdjustSelectionByCharacterOffset(
int32 start, int32 end, blink.mojom.SelectionMenuBehavior behavior);
// Requests the renderer to move the selection extent point to a new position.
// Expects a MoveRangeSelectionExtent_ACK message when finished.
MoveRangeSelectionExtent(gfx.mojom.Point extent);
// Tells the renderer to scroll the currently focused node into rect only if
// the currently focused node is a Text node (textfield, text area or content
// editable divs).
ScrollFocusedEditableNodeIntoRect(gfx.mojom.Rect rect);
// Requests the renderer to move the caret selection toward the point.
MoveCaret(gfx.mojom.Point point);
// Return an associated WidgetInputHandler interface so that input
// messages to the widget associated with this frame can be sent
// serially.
GetWidgetInputHandler(associated WidgetInputHandler& interface_request,
WidgetInputHandlerHost host);
};