542 lines
19 KiB
Plaintext
542 lines
19 KiB
Plaintext
// Copyright (c) 2008-2009 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#import <Cocoa/Cocoa.h>
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#include "base/compiler_specific.h"
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#include "third_party/WebKit/Source/WebCore/config.h"
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MSVC_PUSH_WARNING_LEVEL(0);
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#include "KeyEventCocoa.h" // NOLINT(build/include)
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MSVC_POP_WARNING();
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#undef LOG
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#import "libcef/webwidget_host.h"
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#include "libcef/cef_thread.h"
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#include "base/bind.h"
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#import "base/logging.h"
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#import "skia/ext/platform_canvas.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/mac/WebInputEventFactory.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/mac/WebScreenInfoFactory.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/WebInputEvent.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/WebPopupMenu.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/WebScreenInfo.h"
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#import "third_party/WebKit/Source/WebKit/chromium/public/platform/WebSize.h"
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#import "third_party/skia/include/core/SkRegion.h"
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#import "ui/gfx/rect.h"
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#import "ui/gfx/size.h"
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using webkit::npapi::WebPluginGeometry;
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using WebKit::WebInputEvent;
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using WebKit::WebInputEventFactory;
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using WebKit::WebKeyboardEvent;
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using WebKit::WebMouseEvent;
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using WebKit::WebMouseWheelEvent;
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using WebKit::WebPopupMenu;
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using WebKit::WebScreenInfo;
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using WebKit::WebScreenInfoFactory;
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using WebKit::WebSize;
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using WebKit::WebWidgetClient;
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namespace {
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inline SkIRect convertToSkiaRect(const gfx::Rect& r) {
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return SkIRect::MakeLTRB(r.x(), r.y(), r.right(), r.bottom());
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}
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inline gfx::Rect convertFromSkiaRect(const SkIRect& r) {
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return gfx::Rect(r.x(), r.y(), r.width(), r.height());
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}
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} // namespace
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/*static*/
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WebWidgetHost* WebWidgetHost::Create(NSView* parent_view,
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WebWidgetClient* client,
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PaintDelegate* paint_delegate) {
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WebWidgetHost* host = new WebWidgetHost();
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if (!paint_delegate) {
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const NSRect bounds = [parent_view bounds];
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host->view_ = [[NSView alloc] initWithFrame:bounds];
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[parent_view addSubview:host->view_];
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host->webwidget_ = WebPopupMenu::create(client);
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host->webwidget_->resize(WebSize(NSWidth(bounds), NSHeight(bounds)));
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} else {
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host->paint_delegate_ = paint_delegate;
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host->view_ = nil;
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host->webwidget_ = WebPopupMenu::create(client);
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}
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return host;
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}
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WebWidgetHost::WebWidgetHost()
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: view_(NULL),
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paint_delegate_(NULL),
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webwidget_(NULL),
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canvas_w_(0),
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canvas_h_(0),
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popup_(false),
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timer_executing_(false),
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timer_wanted_(false),
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frame_delay_(1000 / kDefaultFrameRate),
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mouse_modifiers_(0),
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painting_(false),
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layouting_(false) {
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set_painting(false);
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}
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WebWidgetHost::~WebWidgetHost() {
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}
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void WebWidgetHost::ScrollRect(int dx, int dy, const gfx::Rect& clip_rect) {
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DCHECK(dx || dy);
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int width, height;
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GetSize(width, height);
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const gfx::Rect client_rect(width, height);
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gfx::Rect rect = clip_rect;
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rect.Intersect(client_rect);
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const int x = rect.x();
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const int y = rect.y();
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const int r = rect.right();
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const int b = rect.bottom();
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const int w = rect.width();
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const int h = rect.height();
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const int Dx = ABS(dx);
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const int Dy = ABS(dy);
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// If we're in a state right now where we cannot draw into the view then just
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// mark the scrolling rect as dirty and it will be completely redrawn instead.
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// The Paint() method can end up calling this method indirectly if the view
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// needs to be laid out; calling scrollRect:by: in this situation leads to
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// unwanted behavior. Finally, scrolling the rectangle by more than the size
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// of the view means we can just invalidate the entire scroll rect.
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if (!view_ || [view_ canDraw] || painting_ || layouting_ || Dx >= w ||
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Dy >= h) {
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InvalidateRect(clip_rect);
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return;
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}
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// The scrolling rect must not scroll outside the clip rect because that will
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// clobber the scrollbars. As a result we shorten the rectangle a bit from the
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// leading side of the scroll (could be either horizontally or vertically).
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rect = gfx::Rect(dx>=0? x: x + Dx, dy>=0? y: y + Dy, w - Dx, h - Dy);
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// Convert the scroll rectangle to the view's coordinate system and perform
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// the scroll directly without invalidating the view. In theory this could
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// cause some kind of performance issue since we're not coalescing redraw
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// events. In practice, however, we get much smoother scrolling of big views
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// since just copying the pixels within the window is much faster than
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// redrawing them.
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NSRect cocoa_rect = NSRectFromCGRect(rect.ToCGRect());
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cocoa_rect.origin.y = client_rect.height() - NSMaxY(cocoa_rect);
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[view_ scrollRect:cocoa_rect by:NSMakeSize(dx, -dy)];
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// Repaint the rectangle that was revealed when scrolling the given rectangle.
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// The invalidated area will be painted before the view contents are flushed
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// to the screen buffer.
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rect = gfx::Rect(dx>=0? x: r - Dx, dy>=0? y: b - Dy,
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dx>0? Dx: w, dy>0? Dy: h);
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InvalidateRect(rect);
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// If any part of the scrolled rect was marked as dirty make sure to redraw
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// it in the new scrolled-to location. Otherwise we can end up with artifacts
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// for overlapping elements. If there are multiple dirty regions in the scroll
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// rect the rectangle union of those regions will be redrawn.
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SkRegion moved_paint_rgn(paint_rgn_);
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moved_paint_rgn.translate(dx, dy);
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moved_paint_rgn.op(convertToSkiaRect(client_rect), SkRegion::kIntersect_Op);
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InvalidateRect(convertFromSkiaRect(moved_paint_rgn.getBounds()));
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}
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void WebWidgetHost::Paint(SkRegion& update_rgn) {
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int width, height;
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GetSize(width, height);
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gfx::Rect client_rect(width, height);
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SkRegion damaged_rgn;
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if (view_) {
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// Union the rectangle that WebKit think needs repainting with the rectangle
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// of the view that must be painted now. In most situations this will not
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// affect the painted rectangle. In some situations we could end up re-
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// painting areas that are already in the canvas and only dirty in the view
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// itself. However, if we don't do this we can get artifacts when scrolling
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// because contents of the canvas are no longer correct after scrolling only
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// in the view.
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paint_rgn_.op(update_rgn, SkRegion::kUnion_Op);
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// When we are not using accelerated compositing the canvas area is allowed
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// to differ in size from the client by a certain number of pixels (128 in
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// this case). When accelerated compositing is in effect the size must match
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// exactly.
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const int extra_w = (webwidget_->isAcceleratedCompositingActive()? 0: 128);
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const int extra_h = (webwidget_->isAcceleratedCompositingActive()? 0: 128);
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const int min_w = client_rect.width();
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const int min_h = client_rect.height();
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const int max_w = client_rect.width() + extra_w * 2;
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const int max_h = client_rect.height() + extra_h * 2;
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const bool too_small = (canvas_w_ < min_w || canvas_h_ < min_h);
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const bool too_large = (canvas_w_ > max_w || canvas_h_ > max_h);
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if (!canvas_.get() || too_small || too_large) {
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canvas_w_ = client_rect.width() + extra_w;
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canvas_h_ = client_rect.height() + extra_h;
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canvas_.reset(skia::CreatePlatformCanvas(canvas_w_, canvas_h_, true));
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paint_rgn_.setRect(convertToSkiaRect(client_rect));
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}
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} else if (!canvas_.get() || canvas_w_ != client_rect.width() ||
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canvas_h_ != client_rect.height()) {
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paint_rgn_.setRect(convertToSkiaRect(client_rect));
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// The canvas must be the exact size of the client area.
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canvas_w_ = client_rect.width();
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canvas_h_ = client_rect.height();
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canvas_.reset(skia::CreatePlatformCanvas(canvas_w_, canvas_h_, true));
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}
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webwidget_->animate(0.0);
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// Layout any views that have not been laid out yet. The layout may result in
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// more invalidation. Keep track of the fact that we are laying out views,
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// because this will sometimes cause ScrollRect to be called and we don't want
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// to try to scrollRect:by: then.
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layouting_ = true;
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webwidget_->layout();
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layouting_ = false;
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// Draw into the graphics context of the canvas instead of the view's context.
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// The view's context is pushed onto the context stack to be restored below.
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CGContextRef bitmap = skia::GetBitmapContext(skia::GetTopDevice(*canvas_));
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NSGraphicsContext* paint_context =
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[NSGraphicsContext graphicsContextWithGraphicsPort:bitmap flipped:YES];
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[NSGraphicsContext saveGraphicsState];
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[NSGraphicsContext setCurrentContext:paint_context];
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// Paint the canvas if necessary. The painting operation can cause additional
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// regions to be invalidated because some elements are laid out the first time
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// they are painted.
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while (!paint_rgn_.isEmpty()) {
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SkRegion draw_rgn;
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draw_rgn.swap(paint_rgn_);
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SkRegion::Cliperator iterator(draw_rgn, convertToSkiaRect(client_rect));
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for (; !iterator.done(); iterator.next()) {
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const SkIRect& r = iterator.rect();
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PaintRect(convertFromSkiaRect(r));
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if (!view_)
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damaged_rgn.op(r, SkRegion::kUnion_Op);
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}
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if (view_) {
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// If any more rectangles were made dirty during the paint operation, make
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// sure they are copied to the window buffer, by including the paint
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// region. If nothing needs additional painting, this is a no-op.
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update_rgn.op(paint_rgn_, SkRegion::kUnion_Op);
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}
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}
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if (!view_ && plugin_map_.size() > 0) {
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// Flash seems to stop calling NPN_InvalidateRect, which means we stop
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// painting. If we've got a plugin make sure we paint its rect each time.
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PluginMap::const_iterator it = plugin_map_.begin();
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for (; it != plugin_map_.end(); ++it) {
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if (it->second.visible &&
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client_rect.Intersects(it->second.window_rect)) {
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const WebPluginGeometry* geom = &it->second;
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damaged_rgn.op(convertToSkiaRect(geom->window_rect),
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SkRegion::kUnion_Op);
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}
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}
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}
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if (view_) {
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// Set the context back to our view and copy the bitmap that we just painted
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// into to the view. Only the regions that were updated are copied.
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[NSGraphicsContext restoreGraphicsState];
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NSGraphicsContext* view_context = [NSGraphicsContext currentContext];
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CGContextRef context =
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static_cast<CGContextRef>([view_context graphicsPort]);
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SkRegion::Cliperator iterator(update_rgn, convertToSkiaRect(client_rect));
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for (; !iterator.done(); iterator.next()) {
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const SkIRect& r = iterator.rect();
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CGRect copy_rect = { { r.x(), r.y() }, { r.width(), r.height() } };
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const float x = r.x();
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const float y = client_rect.height() - r.bottom();
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skia::DrawToNativeContext(canvas_.get(), context, x, y, ©_rect);
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}
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} else {
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if (damaged_rgn.isEmpty())
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return;
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// Paint to the delegate.
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DCHECK(paint_delegate_);
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const SkBitmap& bitmap = canvas_->getDevice()->accessBitmap(false);
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DCHECK(bitmap.config() == SkBitmap::kARGB_8888_Config);
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const void* pixels = bitmap.getPixels();
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std::vector<CefRect> damaged_rects;
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SkRegion::Cliperator iterator(damaged_rgn, convertToSkiaRect(client_rect));
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for (; !iterator.done(); iterator.next()) {
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const SkIRect& r = iterator.rect();
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damaged_rects.push_back(
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CefRect(r.left(), r.top(), r.width(), r.height()));
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}
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paint_delegate_->Paint(popup_, damaged_rects, pixels);
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}
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}
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void WebWidgetHost::SetTooltipText(const CefString& tooltip_text) {
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// TODO(port): Implement this method as part of tooltip support.
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}
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WebScreenInfo WebWidgetHost::GetScreenInfo() {
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return WebScreenInfoFactory::screenInfo(view_);
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}
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void WebWidgetHost::MouseEvent(NSEvent *event) {
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const WebMouseEvent& web_event = WebInputEventFactory::mouseEvent(
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event, view_);
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webwidget_->handleInputEvent(web_event);
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}
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void WebWidgetHost::WheelEvent(NSEvent *event) {
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webwidget_->handleInputEvent(
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WebInputEventFactory::mouseWheelEvent(event, view_));
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}
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void WebWidgetHost::KeyEvent(NSEvent *event) {
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WebKeyboardEvent keyboard_event(WebInputEventFactory::keyboardEvent(event));
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last_key_event_ = keyboard_event;
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webwidget_->handleInputEvent(keyboard_event);
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}
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void WebWidgetHost::SetFocus(bool enable) {
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webwidget_->setFocus(enable);
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}
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void WebWidgetHost::SendKeyEvent(cef_key_type_t type,
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const cef_key_info_t& keyInfo,
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int modifiers) {
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WebKeyboardEvent event;
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switch (type) {
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case KT_KEYUP:
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default:
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event.type = WebInputEvent::KeyUp;
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break;
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case KT_KEYDOWN:
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event.type = WebInputEvent::RawKeyDown;
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break;
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case KT_CHAR:
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event.type = WebInputEvent::Char;
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break;
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}
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event.timeStampSeconds = TickCount();
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if (modifiers & KEY_SHIFT)
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event.modifiers |= WebInputEvent::ShiftKey;
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if (modifiers & KEY_ALT)
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event.modifiers |= WebInputEvent::AltKey;
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if (modifiers & KEY_CTRL)
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event.modifiers |= WebInputEvent::ControlKey;
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if (modifiers & KEY_META)
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event.modifiers |= WebInputEvent::MetaKey;
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if (modifiers & KEY_KEYPAD)
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event.modifiers |= WebInputEvent::IsKeyPad;
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// There are several kinds of characters for which we produce key code from
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// char code:
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// 1. Roman letters. Windows keyboard layouts affect both virtual key codes
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// and character codes for these, so e.g. 'A' gets the same keyCode on
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// QWERTY, AZERTY or Dvorak layouts.
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// 2. Keys for which there is no known Mac virtual key codes, like
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// PrintScreen.
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// 3. Certain punctuation keys. On Windows, these are also remapped depending
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// on current keyboard layout, but see comment in
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// windowsKeyCodeForCharCode().
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if (type == KT_KEYUP || type == KT_KEYDOWN) {
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if (keyInfo.character != 0) {
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// Cmd switches Roman letters for Dvorak-QWERTY layout, so try modified
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// characters first.
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event.windowsKeyCode =
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WebCore::windowsKeyCodeForCharCode(keyInfo.character);
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}
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if (event.windowsKeyCode == 0 && keyInfo.characterNoModifiers != 0) {
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// Ctrl+A on an AZERTY keyboard would get VK_Q keyCode if we relied on
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// keyInfo.keyCode below.
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event.windowsKeyCode =
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WebCore::windowsKeyCodeForCharCode(keyInfo.characterNoModifiers);
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}
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}
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if (event.windowsKeyCode == 0) {
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// Map Mac virtual key code directly to Windows one for any keys not handled
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// above. E.g. the key next to Caps Lock has the same Event.keyCode on U.S.
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// keyboard ('A') and on Russian keyboard (CYRILLIC LETTER EF).
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event.windowsKeyCode = WebCore::windowsKeyCodeForKeyCode(keyInfo.keyCode);
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}
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event.nativeKeyCode = keyInfo.keyCode;
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int textChar = keyInfo.character;
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int unmodifiedChar = keyInfo.characterNoModifiers;
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// Always use 13 for Enter/Return -- we don't want to use AppKit's
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// different character for Enter.
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if (event.windowsKeyCode == '\r') {
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textChar = '\r';
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unmodifiedChar = '\r';
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}
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// The adjustments below are only needed in backward compatibility mode,
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// but we cannot tell what mode we are in from here.
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// Turn 0x7F into 8, because backspace needs to always be 8.
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if (textChar == '\x7F')
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textChar = '\x8';
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if (unmodifiedChar == '\x7F')
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unmodifiedChar = '\x8';
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// Always use 9 for tab -- we don't want to use AppKit's different character
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// for shift-tab.
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if (event.windowsKeyCode == 9) {
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textChar = '\x9';
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unmodifiedChar = '\x9';
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}
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event.text[0] = textChar;
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event.unmodifiedText[0] = unmodifiedChar;
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event.setKeyIdentifierFromWindowsKeyCode();
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event.isSystemKey = !!(modifiers & KEY_META);
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last_key_event_ = event;
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webwidget_->handleInputEvent(event);
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}
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void WebWidgetHost::SendMouseClickEvent(int x, int y,
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cef_mouse_button_type_t type,
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bool mouseUp, int clickCount) {
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WebMouseEvent event;
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switch(type) {
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case MBT_LEFT:
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event.button = WebMouseEvent::ButtonLeft;
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event.modifiers |= WebInputEvent::LeftButtonDown;
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break;
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case MBT_MIDDLE:
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event.button = WebMouseEvent::ButtonMiddle;
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event.modifiers |= WebInputEvent::MiddleButtonDown;
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break;
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case MBT_RIGHT:
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event.button = WebMouseEvent::ButtonRight;
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event.modifiers |= WebInputEvent::RightButtonDown;
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break;
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}
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if (mouseUp)
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event.type = WebInputEvent::MouseUp;
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else
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event.type = WebInputEvent::MouseDown;
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event.clickCount = clickCount;
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event.timeStampSeconds = TickCount();
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event.x = x;
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event.y = y;
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event.windowX = event.x;
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event.windowY = event.y;
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if (mouseUp) {
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mouse_button_down_ = WebMouseEvent::ButtonNone;
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mouse_modifiers_ &= ~event.modifiers;
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} else {
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mouse_modifiers_ |= event.modifiers;
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mouse_button_down_ = event.button;
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}
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event.modifiers = mouse_modifiers_;
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webwidget_->handleInputEvent(event);
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}
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void WebWidgetHost::SendMouseMoveEvent(int x, int y, bool mouseLeave) {
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WebMouseEvent event;
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event.type = WebInputEvent::MouseMove;
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event.timeStampSeconds = TickCount();
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event.button = mouse_button_down_;
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event.x = x;
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event.y = y;
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event.windowX = event.x;
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event.windowY = event.y;
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event.modifiers = mouse_modifiers_;
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webwidget_->handleInputEvent(event);
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}
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void WebWidgetHost::SendMouseWheelEvent(int x, int y, int deltaX, int deltaY) {
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WebMouseWheelEvent event;
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|
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// Conversion between wheel delta amounts and number of pixels to scroll.
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static const double scrollbarPixelsPerCocoaTick = 40.0;
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event.type = WebInputEvent::MouseWheel;
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event.timeStampSeconds = TickCount();
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event.button = WebMouseEvent::ButtonNone;
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event.deltaX = static_cast<float>(deltaX);
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event.deltaY = static_cast<float>(deltaY);
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event.wheelTicksX = static_cast<float>(deltaX/scrollbarPixelsPerCocoaTick);
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event.wheelTicksY = static_cast<float>(deltaY/scrollbarPixelsPerCocoaTick);
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event.hasPreciseScrollingDeltas = true;
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|
event.x = x;
|
|
event.y = y;
|
|
event.windowX = event.x;
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|
event.windowY = event.y;
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|
|
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webwidget_->handleInputEvent(event);
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}
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void WebWidgetHost::SendFocusEvent(bool setFocus) {
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SetFocus(setFocus);
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}
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|
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void WebWidgetHost::SendCaptureLostEvent() {
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}
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|
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void WebWidgetHost::InvalidateWindow() {
|
|
DCHECK(view_);
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|
[view_ setNeedsDisplay:YES];
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|
}
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|
|
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void WebWidgetHost::InvalidateWindowRect(const gfx::Rect& rect) {
|
|
DCHECK(view_);
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|
|
|
int width, height;
|
|
GetSize(width, height);
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|
const gfx::Rect client_rect(width, height);
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|
|
|
NSRect cocoa_rect = NSRectFromCGRect(rect.ToCGRect());
|
|
cocoa_rect.origin.y = client_rect.height() - NSMaxY(cocoa_rect);
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|
[view_ setNeedsDisplayInRect:cocoa_rect];
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|
}
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|
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void WebWidgetHost::EnsureTooltip() {
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// TODO(port): Implement this method as part of tooltip support.
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|
}
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|
|
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void WebWidgetHost::ResetTooltip() {
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|
// TODO(port): Implement this method as part of tooltip support.
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|
}
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