ui/android/overscroll_glow.cc - chromium/src.git - Git at Google

 // Copyright (c) 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 "ui/android/overscroll_glow.h"

 #include <stddef.h>

 #include "cc/layers/layer.h"
 #include "ui/android/edge_effect_base.h"
 #include "ui/android/window_android_compositor.h"

 using std::max;
 using std::min;

 namespace ui {

 namespace {

 const float kEpsilon = 1e-3f;

 bool IsApproxZero(float value) {
   return std::abs(value) < kEpsilon;
 }

 gfx::Vector2dF ZeroSmallComponents(gfx::Vector2dF vector) {
   if (IsApproxZero(vector.x()))
     vector.set_x(0);
   if (IsApproxZero(vector.y()))
     vector.set_y(0);
   return vector;
 }

 }  // namespace

 OverscrollGlow::OverscrollGlow(OverscrollGlowClient* client)
     : client_(client),
       edge_offsets_(),
       initialized_(false),
       allow_horizontal_overscroll_(true),
       allow_vertical_overscroll_(true) {
   DCHECK(client);
 }

 OverscrollGlow::~OverscrollGlow() {
   Detach();
 }

 void OverscrollGlow::Reset() {
   if (!initialized_)
     return;
   Detach();
   for (size_t i = 0; i < EDGE_COUNT; ++i)
     edge_effects_[i]->Finish();
 }

 bool OverscrollGlow::IsActive() const {
   if (!initialized_)
     return false;
   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     if (!edge_effects_[i]->IsFinished())
       return true;
   }
   return false;
 }

 float OverscrollGlow::GetVisibleAlpha() const {
   float max_alpha = 0;
   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     if (!edge_effects_[i]->IsFinished())
       max_alpha = std::max(max_alpha, edge_effects_[i]->GetAlpha());
   }
   return std::min(max_alpha, 1.f);
 }

 bool OverscrollGlow::OnOverscrolled(base::TimeTicks current_time,
           const gfx::Vector2dF& accumulated_overscroll,
           gfx::Vector2dF overscroll_delta,
           gfx::Vector2dF velocity,
           const gfx::Vector2dF& overscroll_location) {
   // The size of the glow determines the relative effect of the inputs; an
   // empty-sized effect is effectively disabled.
   if (viewport_size_.IsEmpty())
     return false;

   if (!allow_horizontal_overscroll_) {
     overscroll_delta.set_x(0);
     velocity.set_x(0);
   }
   if (!allow_vertical_overscroll_) {
     overscroll_delta.set_y(0);
     velocity.set_y(0);
   }

   // Ignore sufficiently small values that won't meaningfuly affect animation.
   overscroll_delta = ZeroSmallComponents(overscroll_delta);
   if (overscroll_delta.IsZero()) {
     if (initialized_)
       Release(current_time);
     return CheckNeedsAnimate();
   }

   if (!InitializeIfNecessary())
     return false;

   gfx::Vector2dF old_overscroll = accumulated_overscroll - overscroll_delta;
   bool x_overscroll_started =
       !IsApproxZero(overscroll_delta.x()) && IsApproxZero(old_overscroll.x());
   bool y_overscroll_started =
       !IsApproxZero(overscroll_delta.y()) && IsApproxZero(old_overscroll.y());

   velocity = ZeroSmallComponents(velocity);
   if (!velocity.IsZero())
     Absorb(current_time, velocity, x_overscroll_started, y_overscroll_started);
   else
     Pull(current_time, overscroll_delta, overscroll_location);

   return CheckNeedsAnimate();
 }

 bool OverscrollGlow::Animate(base::TimeTicks current_time,
                              cc::Layer* parent_layer) {
   DCHECK(parent_layer);
   if (!CheckNeedsAnimate())
     return false;

   UpdateLayerAttachment(parent_layer);

   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     if (edge_effects_[i]->Update(current_time)) {
       EdgeEffectBase::Edge edge = static_cast<EdgeEffectBase::Edge>(i);
       edge_effects_[i]->ApplyToLayers(edge, viewport_size_, edge_offsets_[i]);
     }
   }

   return CheckNeedsAnimate();
 }

 void OverscrollGlow::OnFrameUpdated(
     const gfx::SizeF& viewport_size,
     const gfx::SizeF& content_size,
     const gfx::Vector2dF& content_scroll_offset) {
   viewport_size_ = viewport_size;
   edge_offsets_[EdgeEffectBase::EDGE_TOP] = -content_scroll_offset.y();
   edge_offsets_[EdgeEffectBase::EDGE_LEFT] = -content_scroll_offset.x();
   edge_offsets_[EdgeEffectBase::EDGE_BOTTOM] = content_size.height() -
                                                content_scroll_offset.y() -
                                                viewport_size.height();
   edge_offsets_[EdgeEffectBase::EDGE_RIGHT] =
       content_size.width() - content_scroll_offset.x() - viewport_size.width();

   // Only allow overscroll on scrollable axes, matching platform behavior.
   allow_horizontal_overscroll_ =
       std::ceil(viewport_size_.width()) < std::floor(content_size.width());
   allow_vertical_overscroll_ =
       std::ceil(viewport_size_.height()) < std::floor(content_size.height());
 }

 bool OverscrollGlow::CheckNeedsAnimate() {
   if (!initialized_) {
     Detach();
     return false;
   }

   if (IsActive())
     return true;

   Detach();
   return false;
 }

 void OverscrollGlow::UpdateLayerAttachment(cc::Layer* parent) {
   DCHECK(parent);
   if (!root_layer_.get())
     return;

   if (!CheckNeedsAnimate())
     return;

   if (root_layer_->parent() != parent)
     parent->AddChild(root_layer_);

   for (size_t i = 0; i < EDGE_COUNT; ++i)
     edge_effects_[i]->SetParent(root_layer_.get());
 }

 void OverscrollGlow::Detach() {
   if (root_layer_.get())
     root_layer_->RemoveFromParent();
 }

 bool OverscrollGlow::InitializeIfNecessary() {
   if (initialized_)
     return true;

   DCHECK(!root_layer_.get());
   root_layer_ = cc::Layer::Create();
   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     edge_effects_[i] = client_->CreateEdgeEffect();
     DCHECK(edge_effects_[i]);
   }

   initialized_ = true;
   return true;
 }

 void OverscrollGlow::Pull(base::TimeTicks current_time,
                           const gfx::Vector2dF& overscroll_delta,
                           const gfx::Vector2dF& overscroll_location) {
   DCHECK(initialized_);
   DCHECK(!overscroll_delta.IsZero());
   DCHECK(!viewport_size_.IsEmpty());
   const float inv_width = 1.f / viewport_size_.width();
   const float inv_height = 1.f / viewport_size_.height();

   gfx::Vector2dF overscroll_pull =
       gfx::ScaleVector2d(overscroll_delta, inv_width, inv_height);
   const float edge_pull[EDGE_COUNT] = {
       min(overscroll_pull.y(), 0.f),  // Top
       min(overscroll_pull.x(), 0.f),  // Left
       max(overscroll_pull.y(), 0.f),  // Bottom
       max(overscroll_pull.x(), 0.f)   // Right
   };

   gfx::Vector2dF displacement =
       gfx::ScaleVector2d(overscroll_location, inv_width, inv_height);
   displacement.set_x(max(0.f, min(1.f, displacement.x())));
   displacement.set_y(max(0.f, min(1.f, displacement.y())));
   const float edge_displacement[EDGE_COUNT] = {
       1.f - displacement.x(),  // Top
       displacement.y(),        // Left
       displacement.x(),        // Bottom
       1.f - displacement.y()   // Right
   };

   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     if (!edge_pull[i])
       continue;

     edge_effects_[i]->Pull(
         current_time, std::abs(edge_pull[i]), edge_displacement[i]);
     GetOppositeEdge(i)->Release(current_time);
   }
 }

 void OverscrollGlow::Absorb(base::TimeTicks current_time,
                             const gfx::Vector2dF& velocity,
                             bool x_overscroll_started,
                             bool y_overscroll_started) {
   DCHECK(initialized_);
   DCHECK(!velocity.IsZero());

   // Only trigger on initial overscroll at a non-zero velocity
   const float overscroll_velocities[EDGE_COUNT] = {
       y_overscroll_started ? min(velocity.y(), 0.f) : 0,  // Top
       x_overscroll_started ? min(velocity.x(), 0.f) : 0,  // Left
       y_overscroll_started ? max(velocity.y(), 0.f) : 0,  // Bottom
       x_overscroll_started ? max(velocity.x(), 0.f) : 0   // Right
   };

   for (size_t i = 0; i < EDGE_COUNT; ++i) {
     if (!overscroll_velocities[i])
       continue;

     edge_effects_[i]->Absorb(current_time, std::abs(overscroll_velocities[i]));
     GetOppositeEdge(i)->Release(current_time);
   }
 }

 void OverscrollGlow::Release(base::TimeTicks current_time) {
   DCHECK(initialized_);
   for (size_t i = 0; i < EDGE_COUNT; ++i)
     edge_effects_[i]->Release(current_time);
 }

 EdgeEffectBase* OverscrollGlow::GetOppositeEdge(int edge_index) {
   DCHECK(initialized_);
   return edge_effects_[(edge_index + 2) % EDGE_COUNT].get();
 }

 }  // namespace ui
	// Copyright (c) 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 "ui/android/overscroll_glow.h"

	#include <stddef.h>

	#include "cc/layers/layer.h"
	#include "ui/android/edge_effect_base.h"
	#include "ui/android/window_android_compositor.h"

	using std::max;
	using std::min;

	namespace ui {

	namespace {

	const float kEpsilon = 1e-3f;

	bool IsApproxZero(float value) {
	return std::abs(value) < kEpsilon;
	}

	gfx::Vector2dF ZeroSmallComponents(gfx::Vector2dF vector) {
	if (IsApproxZero(vector.x()))
	vector.set_x(0);
	if (IsApproxZero(vector.y()))
	vector.set_y(0);
	return vector;
	}

	} // namespace

	OverscrollGlow::OverscrollGlow(OverscrollGlowClient* client)
	: client_(client),
	edge_offsets_(),
	initialized_(false),
	allow_horizontal_overscroll_(true),
	allow_vertical_overscroll_(true) {
	DCHECK(client);
	}

	OverscrollGlow::~OverscrollGlow() {
	Detach();
	}

	void OverscrollGlow::Reset() {
	if (!initialized_)
	return;
	Detach();
	for (size_t i = 0; i < EDGE_COUNT; ++i)
	edge_effects_[i]->Finish();
	}

	bool OverscrollGlow::IsActive() const {
	if (!initialized_)
	return false;
	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	if (!edge_effects_[i]->IsFinished())
	return true;
	}
	return false;
	}

	float OverscrollGlow::GetVisibleAlpha() const {
	float max_alpha = 0;
	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	if (!edge_effects_[i]->IsFinished())
	max_alpha = std::max(max_alpha, edge_effects_[i]->GetAlpha());
	}
	return std::min(max_alpha, 1.f);
	}

	bool OverscrollGlow::OnOverscrolled(base::TimeTicks current_time,
	const gfx::Vector2dF& accumulated_overscroll,
	gfx::Vector2dF overscroll_delta,
	gfx::Vector2dF velocity,
	const gfx::Vector2dF& overscroll_location) {
	// The size of the glow determines the relative effect of the inputs; an
	// empty-sized effect is effectively disabled.
	if (viewport_size_.IsEmpty())
	return false;

	if (!allow_horizontal_overscroll_) {
	overscroll_delta.set_x(0);
	velocity.set_x(0);
	}
	if (!allow_vertical_overscroll_) {
	overscroll_delta.set_y(0);
	velocity.set_y(0);
	}

	// Ignore sufficiently small values that won't meaningfuly affect animation.
	overscroll_delta = ZeroSmallComponents(overscroll_delta);
	if (overscroll_delta.IsZero()) {
	if (initialized_)
	Release(current_time);
	return CheckNeedsAnimate();
	}

	if (!InitializeIfNecessary())
	return false;

	gfx::Vector2dF old_overscroll = accumulated_overscroll - overscroll_delta;
	bool x_overscroll_started =
	!IsApproxZero(overscroll_delta.x()) && IsApproxZero(old_overscroll.x());
	bool y_overscroll_started =
	!IsApproxZero(overscroll_delta.y()) && IsApproxZero(old_overscroll.y());

	velocity = ZeroSmallComponents(velocity);
	if (!velocity.IsZero())
	Absorb(current_time, velocity, x_overscroll_started, y_overscroll_started);
	else
	Pull(current_time, overscroll_delta, overscroll_location);

	return CheckNeedsAnimate();
	}

	bool OverscrollGlow::Animate(base::TimeTicks current_time,
	cc::Layer* parent_layer) {
	DCHECK(parent_layer);
	if (!CheckNeedsAnimate())
	return false;

	UpdateLayerAttachment(parent_layer);

	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	if (edge_effects_[i]->Update(current_time)) {
	EdgeEffectBase::Edge edge = static_cast<EdgeEffectBase::Edge>(i);
	edge_effects_[i]->ApplyToLayers(edge, viewport_size_, edge_offsets_[i]);
	}
	}

	return CheckNeedsAnimate();
	}

	void OverscrollGlow::OnFrameUpdated(
	const gfx::SizeF& viewport_size,
	const gfx::SizeF& content_size,
	const gfx::Vector2dF& content_scroll_offset) {
	viewport_size_ = viewport_size;
	edge_offsets_[EdgeEffectBase::EDGE_TOP] = -content_scroll_offset.y();
	edge_offsets_[EdgeEffectBase::EDGE_LEFT] = -content_scroll_offset.x();
	edge_offsets_[EdgeEffectBase::EDGE_BOTTOM] = content_size.height() -
	content_scroll_offset.y() -
	viewport_size.height();
	edge_offsets_[EdgeEffectBase::EDGE_RIGHT] =
	content_size.width() - content_scroll_offset.x() - viewport_size.width();

	// Only allow overscroll on scrollable axes, matching platform behavior.
	allow_horizontal_overscroll_ =
	std::ceil(viewport_size_.width()) < std::floor(content_size.width());
	allow_vertical_overscroll_ =
	std::ceil(viewport_size_.height()) < std::floor(content_size.height());
	}

	bool OverscrollGlow::CheckNeedsAnimate() {
	if (!initialized_) {
	Detach();
	return false;
	}

	if (IsActive())
	return true;

	Detach();
	return false;
	}

	void OverscrollGlow::UpdateLayerAttachment(cc::Layer* parent) {
	DCHECK(parent);
	if (!root_layer_.get())
	return;

	if (!CheckNeedsAnimate())
	return;

	if (root_layer_->parent() != parent)
	parent->AddChild(root_layer_);

	for (size_t i = 0; i < EDGE_COUNT; ++i)
	edge_effects_[i]->SetParent(root_layer_.get());
	}

	void OverscrollGlow::Detach() {
	if (root_layer_.get())
	root_layer_->RemoveFromParent();
	}

	bool OverscrollGlow::InitializeIfNecessary() {
	if (initialized_)
	return true;

	DCHECK(!root_layer_.get());
	root_layer_ = cc::Layer::Create();
	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	edge_effects_[i] = client_->CreateEdgeEffect();
	DCHECK(edge_effects_[i]);
	}

	initialized_ = true;
	return true;
	}

	void OverscrollGlow::Pull(base::TimeTicks current_time,
	const gfx::Vector2dF& overscroll_delta,
	const gfx::Vector2dF& overscroll_location) {
	DCHECK(initialized_);
	DCHECK(!overscroll_delta.IsZero());
	DCHECK(!viewport_size_.IsEmpty());
	const float inv_width = 1.f / viewport_size_.width();
	const float inv_height = 1.f / viewport_size_.height();

	gfx::Vector2dF overscroll_pull =
	gfx::ScaleVector2d(overscroll_delta, inv_width, inv_height);
	const float edge_pull[EDGE_COUNT] = {
	min(overscroll_pull.y(), 0.f), // Top
	min(overscroll_pull.x(), 0.f), // Left
	max(overscroll_pull.y(), 0.f), // Bottom
	max(overscroll_pull.x(), 0.f) // Right
	};

	gfx::Vector2dF displacement =
	gfx::ScaleVector2d(overscroll_location, inv_width, inv_height);
	displacement.set_x(max(0.f, min(1.f, displacement.x())));
	displacement.set_y(max(0.f, min(1.f, displacement.y())));
	const float edge_displacement[EDGE_COUNT] = {
	1.f - displacement.x(), // Top
	displacement.y(), // Left
	displacement.x(), // Bottom
	1.f - displacement.y() // Right
	};

	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	if (!edge_pull[i])
	continue;

	edge_effects_[i]->Pull(
	current_time, std::abs(edge_pull[i]), edge_displacement[i]);
	GetOppositeEdge(i)->Release(current_time);
	}
	}

	void OverscrollGlow::Absorb(base::TimeTicks current_time,
	const gfx::Vector2dF& velocity,
	bool x_overscroll_started,
	bool y_overscroll_started) {
	DCHECK(initialized_);
	DCHECK(!velocity.IsZero());

	// Only trigger on initial overscroll at a non-zero velocity
	const float overscroll_velocities[EDGE_COUNT] = {
	y_overscroll_started ? min(velocity.y(), 0.f) : 0, // Top
	x_overscroll_started ? min(velocity.x(), 0.f) : 0, // Left
	y_overscroll_started ? max(velocity.y(), 0.f) : 0, // Bottom
	x_overscroll_started ? max(velocity.x(), 0.f) : 0 // Right
	};

	for (size_t i = 0; i < EDGE_COUNT; ++i) {
	if (!overscroll_velocities[i])
	continue;

	edge_effects_[i]->Absorb(current_time, std::abs(overscroll_velocities[i]));
	GetOppositeEdge(i)->Release(current_time);
	}
	}

	void OverscrollGlow::Release(base::TimeTicks current_time) {
	DCHECK(initialized_);
	for (size_t i = 0; i < EDGE_COUNT; ++i)
	edge_effects_[i]->Release(current_time);
	}

	EdgeEffectBase* OverscrollGlow::GetOppositeEdge(int edge_index) {
	DCHECK(initialized_);
	return edge_effects_[(edge_index + 2) % EDGE_COUNT].get();
	}

	} // namespace ui