// Copyright 2013 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.
#include "cc/layers/scrollbar_layer_impl_base.h"
#include <algorithm>
#include "cc/trees/layer_tree_impl.h"
#include "ui/gfx/rect_conversions.h"
namespace cc {
ScrollbarLayerImplBase::ScrollbarLayerImplBase(
LayerTreeImpl* tree_impl,
int id,
ScrollbarOrientation orientation,
bool is_left_side_vertical_scrollbar,
bool is_overlay)
: LayerImpl(tree_impl, id),
scroll_layer_(NULL),
clip_layer_(NULL),
is_overlay_scrollbar_(is_overlay),
thumb_thickness_scale_factor_(1.f),
current_pos_(0.f),
maximum_(0),
orientation_(orientation),
is_left_side_vertical_scrollbar_(is_left_side_vertical_scrollbar),
vertical_adjust_(0.f),
visible_to_total_length_ratio_(1.f) {}
ScrollbarLayerImplBase::~ScrollbarLayerImplBase() {}
void ScrollbarLayerImplBase::PushPropertiesTo(LayerImpl* layer) {
float active_opacity = layer->opacity();
LayerImpl::PushPropertiesTo(layer);
layer->SetOpacity(active_opacity);
DCHECK(layer->ToScrollbarLayer());
layer->ToScrollbarLayer()->set_is_overlay_scrollbar(is_overlay_scrollbar_);
PushScrollClipPropertiesTo(layer);
}
void ScrollbarLayerImplBase::PushScrollClipPropertiesTo(LayerImpl* layer) {
DCHECK(layer->ToScrollbarLayer());
layer->ToScrollbarLayer()->SetScrollLayerAndClipLayerByIds(ScrollLayerId(),
ClipLayerId());
}
ScrollbarLayerImplBase* ScrollbarLayerImplBase::ToScrollbarLayer() {
return this;
}
namespace {
typedef void (LayerImpl::*ScrollbarRegistrationOperation)(
ScrollbarLayerImplBase*);
void RegisterScrollbarWithLayers(ScrollbarLayerImplBase* scrollbar,
LayerImpl* container_layer,
LayerImpl* scroll_layer,
ScrollbarRegistrationOperation operation) {
if (!container_layer || !scroll_layer)
return;
DCHECK(scrollbar);
// Scrollbars must be notifed of changes to their scroll and container layers
// and all scrollable layers in between.
for (LayerImpl* current_layer = scroll_layer;
current_layer && current_layer != container_layer->parent();
current_layer = current_layer->parent()) {
// TODO(wjmaclean) We shouldn't need to exempt the scroll_layer from the
// scrollable() test below. https://crbug.com/367858.
if (current_layer->scrollable() || current_layer == container_layer ||
current_layer == scroll_layer)
(current_layer->*operation)(scrollbar);
}
}
} // namespace
void ScrollbarLayerImplBase::SetScrollLayerAndClipLayerByIds(
int scroll_layer_id,
int clip_layer_id) {
LayerImpl* scroll_layer = layer_tree_impl()->LayerById(scroll_layer_id);
LayerImpl* clip_layer = layer_tree_impl()->LayerById(clip_layer_id);
if (scroll_layer_ == scroll_layer && clip_layer_ == clip_layer)
return;
RegisterScrollbarWithLayers(
this, clip_layer_, scroll_layer_, &LayerImpl::RemoveScrollbar);
scroll_layer_ = scroll_layer;
clip_layer_ = clip_layer;
RegisterScrollbarWithLayers(
this, clip_layer_, scroll_layer_, &LayerImpl::AddScrollbar);
ScrollbarParametersDidChange();
}
gfx::Rect ScrollbarLayerImplBase::ScrollbarLayerRectToContentRect(
const gfx::RectF& layer_rect) const {
// Don't intersect with the bounds as in LayerRectToContentRect() because
// layer_rect here might be in coordinates of the containing layer.
gfx::RectF content_rect = gfx::ScaleRect(layer_rect,
contents_scale_x(),
contents_scale_y());
return gfx::ToEnclosingRect(content_rect);
}
bool ScrollbarLayerImplBase::SetCurrentPos(float current_pos) {
if (current_pos_ == current_pos)
return false;
current_pos_ = current_pos;
NoteLayerPropertyChanged();
return true;
}
bool ScrollbarLayerImplBase::SetMaximum(int maximum) {
if (maximum_ == maximum)
return false;
maximum_ = maximum;
NoteLayerPropertyChanged();
return true;
}
bool ScrollbarLayerImplBase::SetVerticalAdjust(float vertical_adjust) {
if (vertical_adjust_ == vertical_adjust)
return false;
vertical_adjust_ = vertical_adjust;
NoteLayerPropertyChanged();
return true;
}
bool ScrollbarLayerImplBase::SetVisibleToTotalLengthRatio(float ratio) {
if (!IsThumbResizable())
return false;
if (visible_to_total_length_ratio_ == ratio)
return false;
visible_to_total_length_ratio_ = ratio;
NoteLayerPropertyChanged();
return true;
}
bool ScrollbarLayerImplBase::SetThumbThicknessScaleFactor(float factor) {
if (thumb_thickness_scale_factor_ == factor)
return false;
thumb_thickness_scale_factor_ = factor;
NoteLayerPropertyChanged();
return true;
}
gfx::Rect ScrollbarLayerImplBase::ComputeThumbQuadRect() const {
// Thumb extent is the length of the thumb in the scrolling direction, thumb
// thickness is in the perpendicular direction. Here's an example of a
// horizontal scrollbar - inputs are above the scrollbar, computed values
// below:
//
// |<------------------- track_length_ ------------------->|
//
// |--| <-- start_offset
//
// +--+----------------------------+------------------+-------+--+
// |<|| |##################| ||>|
// +--+----------------------------+------------------+-------+--+
//
// |<- thumb_length ->|
//
// |<------- thumb_offset -------->|
//
// For painted, scrollbars, the length is fixed. For solid color scrollbars we
// have to compute it. The ratio of the thumb's length to the track's length
// is the same as that of the visible viewport to the total viewport, unless
// that would make the thumb's length less than its thickness.
//
// vertical_adjust_ is used when the layer geometry from the main thread is
// not in sync with what the user sees. For instance on Android scrolling the
// top bar controls out of view reveals more of the page content. We want the
// root layer scrollbars to reflect what the user sees even if we haven't
// received new layer geometry from the main thread. If the user has scrolled
// down by 50px and the initial viewport size was 950px the geometry would
// look something like this:
//
// vertical_adjust_ = 50, scroll position 0, visible ratios 99%
// Layer geometry: Desired thumb positions:
// +--------------------+-+ +----------------------+ <-- 0px
// | |v| | #|
// | |e| | #|
// | |r| | #|
// | |t| | #|
// | |i| | #|
// | |c| | #|
// | |a| | #|
// | |l| | #|
// | | | | #|
// | |l| | #|
// | |a| | #|
// | |y| | #|
// | |e| | #|
// | |r| | #|
// +--------------------+-+ | #|
// | horizontal layer | | | #|
// +--------------------+-+ | #| <-- 950px
// | | | #|
// | | |##################### |
// +----------------------+ +----------------------+ <-- 1000px
//
// The layer geometry is set up for a 950px tall viewport, but the user can
// actually see down to 1000px. Thus we have to move the quad for the
// horizontal scrollbar down by the vertical_adjust_ factor and lay the
// vertical thumb out on a track lengthed by the vertical_adjust_ factor. This
// means the quads may extend outside the layer's bounds.
// With the length known, we can compute the thumb's position.
float track_length = TrackLength();
int thumb_length = ThumbLength();
int thumb_thickness = ThumbThickness();
// With the length known, we can compute the thumb's position.
float clamped_current_pos =
std::min(std::max(current_pos_, 0.f), static_cast<float>(maximum_));
int thumb_offset = TrackStart();
if (maximum_ > 0) {
float ratio = clamped_current_pos / maximum_;
float max_offset = track_length - thumb_length;
thumb_offset += static_cast<int>(ratio * max_offset);
}
float thumb_thickness_adjustment =
thumb_thickness * (1.f - thumb_thickness_scale_factor_);
gfx::RectF thumb_rect;
if (orientation_ == HORIZONTAL) {
thumb_rect = gfx::RectF(thumb_offset,
vertical_adjust_ + thumb_thickness_adjustment,
thumb_length,
thumb_thickness - thumb_thickness_adjustment);
} else {
thumb_rect = gfx::RectF(
is_left_side_vertical_scrollbar_
? bounds().width() - thumb_thickness
: thumb_thickness_adjustment,
thumb_offset,
thumb_thickness - thumb_thickness_adjustment,
thumb_length);
}
return ScrollbarLayerRectToContentRect(thumb_rect);
}
void ScrollbarLayerImplBase::ScrollbarParametersDidChange() {
if (!clip_layer_ || !scroll_layer_)
return;
scroll_layer_->SetScrollbarPosition(this, clip_layer_);
}
} // namespace cc