/* * Copyright (C) 2001 Peter Kelly (pmk@post.com) * Copyright (C) 2001 Tobias Anton (anton@stud.fbi.fh-darmstadt.de) * Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com) * Copyright (C) 2003, 2005, 2006, 2008, 2013 Apple Inc. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "config.h" #include "MouseRelatedEvent.h" #include "DOMWindow.h" #include "Document.h" #include "Frame.h" #include "FrameView.h" #include "LayoutPoint.h" #include "RenderLayer.h" #include "RenderObject.h" #include namespace WebCore { WTF_MAKE_ISO_ALLOCATED_IMPL(MouseRelatedEvent); MouseRelatedEvent::MouseRelatedEvent(const AtomString& eventType, CanBubble canBubble, IsCancelable isCancelable, IsComposed isComposed, MonotonicTime timestamp, RefPtr&& view, int detail, const IntPoint& screenLocation, const IntPoint& windowLocation, const IntPoint& movementDelta, OptionSet modifiers, IsSimulated isSimulated, IsTrusted isTrusted) : UIEventWithKeyState(eventType, canBubble, isCancelable, isComposed, timestamp, WTFMove(view), detail, modifiers, isTrusted) , m_screenLocation(screenLocation) #if ENABLE(POINTER_LOCK) , m_movementDelta(movementDelta) #endif , m_isSimulated(isSimulated == IsSimulated::Yes) { #if !ENABLE(POINTER_LOCK) UNUSED_PARAM(movementDelta); #endif init(m_isSimulated, windowLocation); } MouseRelatedEvent::MouseRelatedEvent(const AtomString& type, IsCancelable isCancelable, MonotonicTime timestamp, RefPtr&& view, const IntPoint& globalLocation, OptionSet modifiers) : MouseRelatedEvent(type, CanBubble::Yes, isCancelable, IsComposed::Yes, timestamp, WTFMove(view), 0, globalLocation, globalLocation /* Converted in init */, { }, modifiers, IsSimulated::No) { } MouseRelatedEvent::MouseRelatedEvent(const AtomString& eventType, const MouseRelatedEventInit& initializer, IsTrusted isTrusted) : UIEventWithKeyState(eventType, initializer) , m_screenLocation(IntPoint(initializer.screenX, initializer.screenY)) #if ENABLE(POINTER_LOCK) , m_movementDelta(IntPoint(0, 0)) #endif { ASSERT_UNUSED(isTrusted, isTrusted == IsTrusted::No); init(false, IntPoint(0, 0)); } void MouseRelatedEvent::init(bool isSimulated, const IntPoint& windowLocation) { if (!isSimulated) { if (auto* frameView = frameViewFromWindowProxy(view())) { FloatPoint absolutePoint = frameView->windowToContents(windowLocation); FloatPoint documentPoint = frameView->absoluteToDocumentPoint(absolutePoint); m_pageLocation = flooredLayoutPoint(documentPoint); m_clientLocation = pagePointToClientPoint(m_pageLocation, frameView); } } initCoordinates(); } void MouseRelatedEvent::initCoordinates() { // Set up initial values for coordinates. // Correct values are computed lazily, see computeRelativePosition. m_layerLocation = m_pageLocation; m_offsetLocation = m_pageLocation; computePageLocation(); m_hasCachedRelativePosition = false; } FrameView* MouseRelatedEvent::frameViewFromWindowProxy(WindowProxy* windowProxy) { if (!windowProxy || !is(windowProxy->window())) return nullptr; auto* frame = downcast(*windowProxy->window()).frame(); return frame ? frame->view() : nullptr; } LayoutPoint MouseRelatedEvent::pagePointToClientPoint(LayoutPoint pagePoint, FrameView* frameView) { if (!frameView) return pagePoint; return flooredLayoutPoint(frameView->documentToClientPoint(pagePoint)); } LayoutPoint MouseRelatedEvent::pagePointToAbsolutePoint(LayoutPoint pagePoint, FrameView* frameView) { if (!frameView) return pagePoint; return pagePoint.scaled(frameView->documentToAbsoluteScaleFactor()); } void MouseRelatedEvent::initCoordinates(const LayoutPoint& clientLocation) { // Set up initial values for coordinates. // Correct values are computed lazily, see computeRelativePosition. FloatSize documentToClientOffset; if (auto* frameView = frameViewFromWindowProxy(view())) documentToClientOffset = frameView->documentToClientOffset(); m_clientLocation = clientLocation; m_pageLocation = clientLocation - LayoutSize(documentToClientOffset); m_layerLocation = m_pageLocation; m_offsetLocation = m_pageLocation; computePageLocation(); m_hasCachedRelativePosition = false; } float MouseRelatedEvent::documentToAbsoluteScaleFactor() const { if (auto* frameView = frameViewFromWindowProxy(view())) return frameView->documentToAbsoluteScaleFactor(); return 1; } void MouseRelatedEvent::computePageLocation() { m_absoluteLocation = pagePointToAbsolutePoint(m_pageLocation, frameViewFromWindowProxy(view())); } void MouseRelatedEvent::receivedTarget() { m_hasCachedRelativePosition = false; } void MouseRelatedEvent::computeRelativePosition() { if (!is(target())) return; auto& targetNode = downcast(*target()); // Compute coordinates that are based on the target. m_layerLocation = m_pageLocation; m_offsetLocation = m_pageLocation; // Must have an updated render tree for this math to work correctly. targetNode.document().updateLayoutIgnorePendingStylesheets(); // Adjust offsetLocation to be relative to the target's position. if (RenderObject* r = targetNode.renderer()) { m_offsetLocation = LayoutPoint(r->absoluteToLocal(absoluteLocation(), UseTransforms)); float scaleFactor = 1 / documentToAbsoluteScaleFactor(); if (scaleFactor != 1.0f) m_offsetLocation.scale(scaleFactor); } // Adjust layerLocation to be relative to the layer. // FIXME: event.layerX and event.layerY are poorly defined, // and probably don't always correspond to RenderLayer offsets. // https://bugs.webkit.org/show_bug.cgi?id=21868 Node* n = &targetNode; while (n && !n->renderer()) n = n->parentNode(); RenderLayer* layer; if (n && (layer = n->renderer()->enclosingLayer())) { for (; layer; layer = layer->parent()) { m_layerLocation -= toLayoutSize(layer->location()); } } m_hasCachedRelativePosition = true; } FloatPoint MouseRelatedEvent::locationInRootViewCoordinates() const { if (auto* frameView = frameViewFromWindowProxy(view())) return frameView->contentsToRootView(roundedIntPoint(m_absoluteLocation)); return m_absoluteLocation; } int MouseRelatedEvent::layerX() { if (!m_hasCachedRelativePosition) computeRelativePosition(); return m_layerLocation.x(); } int MouseRelatedEvent::layerY() { if (!m_hasCachedRelativePosition) computeRelativePosition(); return m_layerLocation.y(); } int MouseRelatedEvent::offsetX() { if (isSimulated()) return 0; if (!m_hasCachedRelativePosition) computeRelativePosition(); return roundToInt(m_offsetLocation.x()); } int MouseRelatedEvent::offsetY() { if (isSimulated()) return 0; if (!m_hasCachedRelativePosition) computeRelativePosition(); return roundToInt(m_offsetLocation.y()); } int MouseRelatedEvent::pageX() const { return m_pageLocation.x(); } int MouseRelatedEvent::pageY() const { return m_pageLocation.y(); } const LayoutPoint& MouseRelatedEvent::pageLocation() const { return m_pageLocation; } int MouseRelatedEvent::x() const { // FIXME: This is not correct. // See Microsoft documentation and . return m_clientLocation.x(); } int MouseRelatedEvent::y() const { // FIXME: This is not correct. // See Microsoft documentation and . return m_clientLocation.y(); } } // namespace WebCore