pdf/paint_manager.cc - chromium/src - Git at Google

 // Copyright (c) 2010 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 "pdf/paint_manager.h"

 #include <stddef.h>
 #include <stdint.h>

 #include <algorithm>

 #include "base/auto_reset.h"
 #include "base/bind.h"
 #include "base/callback.h"
 #include "base/check.h"
 #include "base/time/time.h"
 #include "pdf/paint_ready_rect.h"
 #include "pdf/ppapi_migration/callback.h"
 #include "pdf/ppapi_migration/geometry_conversions.h"
 #include "pdf/ppapi_migration/graphics.h"
 #include "ppapi/cpp/completion_callback.h"
 #include "ppapi/cpp/module.h"
 #include "ui/gfx/geometry/point.h"
 #include "ui/gfx/geometry/rect.h"
 #include "ui/gfx/geometry/size.h"
 #include "ui/gfx/geometry/vector2d.h"

 namespace chrome_pdf {

 PaintManager::PaintManager(Client* client) : client_(client) {
   DCHECK(client_);
 }

 PaintManager::~PaintManager() = default;

 // static
 gfx::Size PaintManager::GetNewContextSize(const gfx::Size& current_context_size,
                                           const gfx::Size& plugin_size) {
   // The amount of additional space in pixels to allocate to the right/bottom of
   // the context.
   constexpr int kBufferSize = 50;

   // Default to returning the same size.
   gfx::Size result = current_context_size;

   // The minimum size of the plugin before resizing the context to ensure we
   // aren't wasting too much memory. We deduct twice the kBufferSize from the
   // current context size which gives a threshhold that is kBufferSize below
   // the plugin size when the context size was last computed.
   gfx::Size min_size(
       std::max(current_context_size.width() - 2 * kBufferSize, 0),
       std::max(current_context_size.height() - 2 * kBufferSize, 0));

   // If the plugin size is bigger than the current context size, we need to
   // resize the context. If the plugin size is smaller than the current
   // context size by a given threshhold then resize the context so that we
   // aren't wasting too much memory.
   if (plugin_size.width() > current_context_size.width() ||
       plugin_size.height() > current_context_size.height() ||
       plugin_size.width() < min_size.width() ||
       plugin_size.height() < min_size.height()) {
     // Create a larger context than needed so that if we only resize by a
     // small margin, we don't need a new context.
     result = gfx::Size(plugin_size.width() + kBufferSize,
                        plugin_size.height() + kBufferSize);
   }

   return result;
 }

 void PaintManager::SetSize(const gfx::Size& new_size, float device_scale) {
   if (GetEffectiveSize() == new_size &&
       GetEffectiveDeviceScale() == device_scale) {
     return;
   }

   has_pending_resize_ = true;
   pending_size_ = new_size;
   pending_device_scale_ = device_scale;

   view_size_changed_waiting_for_paint_ = true;

   Invalidate();
 }

 void PaintManager::SetTransform(float scale,
                                 const gfx::Point& origin,
                                 const gfx::Vector2d& translate,
                                 bool schedule_flush) {
   if (!graphics_)
     return;

   graphics_->SetLayerTransform(scale, origin, translate);

   if (!schedule_flush)
     return;

   if (flush_pending_) {
     flush_requested_ = true;
     return;
   }
   Flush();
 }

 void PaintManager::ClearTransform() {
   SetTransform(1.f, gfx::Point(), gfx::Vector2d(), false);
 }

 void PaintManager::Invalidate() {
   if (!graphics_ && !has_pending_resize_)
     return;

   EnsureCallbackPending();
   aggregator_.InvalidateRect(gfx::Rect(GetEffectiveSize()));
 }

 void PaintManager::InvalidateRect(const gfx::Rect& rect) {
   DCHECK(!in_paint_);

   if (!graphics_ && !has_pending_resize_)
     return;

   // Clip the rect to the device area.
   gfx::Rect clipped_rect =
       gfx::IntersectRects(rect, gfx::Rect(GetEffectiveSize()));
   if (clipped_rect.IsEmpty())
     return;  // Nothing to do.

   EnsureCallbackPending();
   aggregator_.InvalidateRect(clipped_rect);
 }

 void PaintManager::ScrollRect(const gfx::Rect& clip_rect,
                               const gfx::Vector2d& amount) {
   DCHECK(!in_paint_);

   if (!graphics_ && !has_pending_resize_)
     return;

   EnsureCallbackPending();

   aggregator_.ScrollRect(clip_rect, amount);
 }

 gfx::Size PaintManager::GetEffectiveSize() const {
   return has_pending_resize_ ? pending_size_ : plugin_size_;
 }

 float PaintManager::GetEffectiveDeviceScale() const {
   return has_pending_resize_ ? pending_device_scale_ : device_scale_;
 }

 void PaintManager::EnsureCallbackPending() {
   // The best way for us to do the next update is to get a notification that
   // a previous one has completed. So if we're already waiting for one, we
   // don't have to do anything differently now.
   if (flush_pending_)
     return;

   // If no flush is pending, we need to do a manual call to get back to the
   // main thread. We may have one already pending, or we may need to schedule.
   if (manual_callback_pending_)
     return;

   client_->ScheduleTaskOnMainThread(
       base::TimeDelta(),
       base::BindOnce(&PaintManager::OnManualCallbackComplete,
                      weak_factory_.GetWeakPtr()),
       0);
   manual_callback_pending_ = true;
 }

 void PaintManager::DoPaint() {
   base::AutoReset<bool> auto_reset_in_paint(&in_paint_, true);

   std::vector<PaintReadyRect> ready_rects;
   std::vector<gfx::Rect> pending_rects;

   DCHECK(aggregator_.HasPendingUpdate());

   // Apply any pending resize. Setting the graphics to this class must happen
   // before asking the plugin to paint in case it requests invalides or resizes.
   // However, the bind must not happen until afterward since we don't want to
   // have an unpainted device bound. The needs_binding flag tells us whether to
   // do this later.
   //
   // Note that |has_pending_resize_| will always be set on the first DoPaint().
   DCHECK(graphics_ || has_pending_resize_);
   if (has_pending_resize_) {
     plugin_size_ = pending_size_;
     // Only create a new graphics context if the current context isn't big
     // enough or if it is far too big. This avoids creating a new context if
     // we only resize by a small amount.
     gfx::Size old_size = graphics_ ? graphics_->size() : gfx::Size();
     gfx::Size new_size = GetNewContextSize(old_size, pending_size_);
     if (old_size != new_size || !graphics_) {
       graphics_ = client_->CreatePaintGraphics(new_size);
       graphics_need_to_be_bound_ = true;

       // Since we're binding a new one, all of the callbacks have been canceled.
       manual_callback_pending_ = false;
       flush_pending_ = false;
       weak_factory_.InvalidateWeakPtrs();
     }

     if (pending_device_scale_ != 1.0)
       graphics_->SetScale(1.0 / pending_device_scale_);
     device_scale_ = pending_device_scale_;

     // This must be cleared before calling into the plugin since it may do
     // additional invalidation or sizing operations.
     has_pending_resize_ = false;
     pending_size_ = gfx::Size();
   }

   PaintAggregator::PaintUpdate update = aggregator_.GetPendingUpdate();
   client_->OnPaint(update.paint_rects, ready_rects, pending_rects);

   if (ready_rects.empty() && pending_rects.empty())
     return;  // Nothing was painted, don't schedule a flush.

   std::vector<PaintReadyRect> ready_now;
   if (pending_rects.empty()) {
     aggregator_.SetIntermediateResults(ready_rects, pending_rects);
     ready_now = aggregator_.GetReadyRects();
     aggregator_.ClearPendingUpdate();

     // Apply any scroll first.
     if (update.has_scroll)
       graphics_->Scroll(update.scroll_rect, update.scroll_delta);

     view_size_changed_waiting_for_paint_ = false;
   } else {
     std::vector<PaintReadyRect> ready_later;
     for (const auto& ready_rect : ready_rects) {
       // Don't flush any part (i.e. scrollbars) if we're resizing the browser,
       // as that'll lead to flashes.  Until we flush, the browser will use the
       // previous image, but if we flush, it'll revert to using the blank image.
       // We make an exception for the first paint since we want to show the
       // default background color instead of the pepper default of black.
       if (ready_rect.flush_now() &&
           (!view_size_changed_waiting_for_paint_ || first_paint_)) {
         ready_now.push_back(ready_rect);
       } else {
         ready_later.push_back(ready_rect);
       }
     }
     // Take the rectangles, except the ones that need to be flushed right away,
     // and save them so that everything is flushed at once.
     aggregator_.SetIntermediateResults(ready_later, pending_rects);

     if (ready_now.empty()) {
       EnsureCallbackPending();
       return;
     }
   }

   for (const auto& ready_rect : ready_now) {
     graphics_->PaintImage(ready_rect.image(), ready_rect.rect());
   }

   Flush();

   first_paint_ = false;

   if (graphics_need_to_be_bound_) {
     client_->BindPaintGraphics(*graphics_);
     graphics_need_to_be_bound_ = false;
   }
 }

 void PaintManager::Flush() {
   flush_requested_ = false;
   flush_pending_ = graphics_->Flush(base::BindOnce(
       &PaintManager::OnFlushComplete, weak_factory_.GetWeakPtr()));
   DCHECK(flush_pending_);
 }

 void PaintManager::OnFlushComplete(int32_t) {
   DCHECK(flush_pending_);
   flush_pending_ = false;

   // If more paints were enqueued while we were waiting for the flush to
   // complete, execute them now.
   if (aggregator_.HasPendingUpdate())
     DoPaint();

   // If there was another flush request while flushing we flush again.
   if (flush_requested_) {
     Flush();
   }
 }

 void PaintManager::OnManualCallbackComplete(int32_t) {
   DCHECK(manual_callback_pending_);
   manual_callback_pending_ = false;

   // Just because we have a manual callback doesn't mean there are actually any
   // invalid regions. Even though we only schedule this callback when something
   // is pending, a Flush callback could have come in before this callback was
   // executed and that could have cleared the queue.
   if (aggregator_.HasPendingUpdate())
     DoPaint();
 }

 }  // namespace chrome_pdf
	// Copyright (c) 2010 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 "pdf/paint_manager.h"

	#include <stddef.h>
	#include <stdint.h>

	#include <algorithm>

	#include "base/auto_reset.h"
	#include "base/bind.h"
	#include "base/callback.h"
	#include "base/check.h"
	#include "base/time/time.h"
	#include "pdf/paint_ready_rect.h"
	#include "pdf/ppapi_migration/callback.h"
	#include "pdf/ppapi_migration/geometry_conversions.h"
	#include "pdf/ppapi_migration/graphics.h"
	#include "ppapi/cpp/completion_callback.h"
	#include "ppapi/cpp/module.h"
	#include "ui/gfx/geometry/point.h"
	#include "ui/gfx/geometry/rect.h"
	#include "ui/gfx/geometry/size.h"
	#include "ui/gfx/geometry/vector2d.h"

	namespace chrome_pdf {

	PaintManager::PaintManager(Client* client) : client_(client) {
	DCHECK(client_);
	}

	PaintManager::~PaintManager() = default;

	// static
	gfx::Size PaintManager::GetNewContextSize(const gfx::Size& current_context_size,
	const gfx::Size& plugin_size) {
	// The amount of additional space in pixels to allocate to the right/bottom of
	// the context.
	constexpr int kBufferSize = 50;

	// Default to returning the same size.
	gfx::Size result = current_context_size;

	// The minimum size of the plugin before resizing the context to ensure we
	// aren't wasting too much memory. We deduct twice the kBufferSize from the
	// current context size which gives a threshhold that is kBufferSize below
	// the plugin size when the context size was last computed.
	gfx::Size min_size(
	std::max(current_context_size.width() - 2 * kBufferSize, 0),
	std::max(current_context_size.height() - 2 * kBufferSize, 0));

	// If the plugin size is bigger than the current context size, we need to
	// resize the context. If the plugin size is smaller than the current
	// context size by a given threshhold then resize the context so that we
	// aren't wasting too much memory.
	if (plugin_size.width() > current_context_size.width() \|\|
	plugin_size.height() > current_context_size.height() \|\|
	plugin_size.width() < min_size.width() \|\|
	plugin_size.height() < min_size.height()) {
	// Create a larger context than needed so that if we only resize by a
	// small margin, we don't need a new context.
	result = gfx::Size(plugin_size.width() + kBufferSize,
	plugin_size.height() + kBufferSize);
	}

	return result;
	}

	void PaintManager::SetSize(const gfx::Size& new_size, float device_scale) {
	if (GetEffectiveSize() == new_size &&
	GetEffectiveDeviceScale() == device_scale) {
	return;
	}

	has_pending_resize_ = true;
	pending_size_ = new_size;
	pending_device_scale_ = device_scale;

	view_size_changed_waiting_for_paint_ = true;

	Invalidate();
	}

	void PaintManager::SetTransform(float scale,
	const gfx::Point& origin,
	const gfx::Vector2d& translate,
	bool schedule_flush) {
	if (!graphics_)
	return;

	graphics_->SetLayerTransform(scale, origin, translate);

	if (!schedule_flush)
	return;

	if (flush_pending_) {
	flush_requested_ = true;
	return;
	}
	Flush();
	}

	void PaintManager::ClearTransform() {
	SetTransform(1.f, gfx::Point(), gfx::Vector2d(), false);
	}

	void PaintManager::Invalidate() {
	if (!graphics_ && !has_pending_resize_)
	return;

	EnsureCallbackPending();
	aggregator_.InvalidateRect(gfx::Rect(GetEffectiveSize()));
	}

	void PaintManager::InvalidateRect(const gfx::Rect& rect) {
	DCHECK(!in_paint_);

	if (!graphics_ && !has_pending_resize_)
	return;

	// Clip the rect to the device area.
	gfx::Rect clipped_rect =
	gfx::IntersectRects(rect, gfx::Rect(GetEffectiveSize()));
	if (clipped_rect.IsEmpty())
	return; // Nothing to do.

	EnsureCallbackPending();
	aggregator_.InvalidateRect(clipped_rect);
	}

	void PaintManager::ScrollRect(const gfx::Rect& clip_rect,
	const gfx::Vector2d& amount) {
	DCHECK(!in_paint_);

	if (!graphics_ && !has_pending_resize_)
	return;

	EnsureCallbackPending();

	aggregator_.ScrollRect(clip_rect, amount);
	}

	gfx::Size PaintManager::GetEffectiveSize() const {
	return has_pending_resize_ ? pending_size_ : plugin_size_;
	}

	float PaintManager::GetEffectiveDeviceScale() const {
	return has_pending_resize_ ? pending_device_scale_ : device_scale_;
	}

	void PaintManager::EnsureCallbackPending() {
	// The best way for us to do the next update is to get a notification that
	// a previous one has completed. So if we're already waiting for one, we
	// don't have to do anything differently now.
	if (flush_pending_)
	return;

	// If no flush is pending, we need to do a manual call to get back to the
	// main thread. We may have one already pending, or we may need to schedule.
	if (manual_callback_pending_)
	return;

	client_->ScheduleTaskOnMainThread(
	base::TimeDelta(),
	base::BindOnce(&PaintManager::OnManualCallbackComplete,
	weak_factory_.GetWeakPtr()),
	0);
	manual_callback_pending_ = true;
	}

	void PaintManager::DoPaint() {
	base::AutoReset<bool> auto_reset_in_paint(&in_paint_, true);

	std::vector<PaintReadyRect> ready_rects;
	std::vector<gfx::Rect> pending_rects;

	DCHECK(aggregator_.HasPendingUpdate());

	// Apply any pending resize. Setting the graphics to this class must happen
	// before asking the plugin to paint in case it requests invalides or resizes.
	// However, the bind must not happen until afterward since we don't want to
	// have an unpainted device bound. The needs_binding flag tells us whether to
	// do this later.
	//
	// Note that \|has_pending_resize_\| will always be set on the first DoPaint().
	DCHECK(graphics_ \|\| has_pending_resize_);
	if (has_pending_resize_) {
	plugin_size_ = pending_size_;
	// Only create a new graphics context if the current context isn't big
	// enough or if it is far too big. This avoids creating a new context if
	// we only resize by a small amount.
	gfx::Size old_size = graphics_ ? graphics_->size() : gfx::Size();
	gfx::Size new_size = GetNewContextSize(old_size, pending_size_);
	if (old_size != new_size \|\| !graphics_) {
	graphics_ = client_->CreatePaintGraphics(new_size);
	graphics_need_to_be_bound_ = true;

	// Since we're binding a new one, all of the callbacks have been canceled.
	manual_callback_pending_ = false;
	flush_pending_ = false;
	weak_factory_.InvalidateWeakPtrs();
	}

	if (pending_device_scale_ != 1.0)
	graphics_->SetScale(1.0 / pending_device_scale_);
	device_scale_ = pending_device_scale_;

	// This must be cleared before calling into the plugin since it may do
	// additional invalidation or sizing operations.
	has_pending_resize_ = false;
	pending_size_ = gfx::Size();
	}

	PaintAggregator::PaintUpdate update = aggregator_.GetPendingUpdate();
	client_->OnPaint(update.paint_rects, ready_rects, pending_rects);

	if (ready_rects.empty() && pending_rects.empty())
	return; // Nothing was painted, don't schedule a flush.

	std::vector<PaintReadyRect> ready_now;
	if (pending_rects.empty()) {
	aggregator_.SetIntermediateResults(ready_rects, pending_rects);
	ready_now = aggregator_.GetReadyRects();
	aggregator_.ClearPendingUpdate();

	// Apply any scroll first.
	if (update.has_scroll)
	graphics_->Scroll(update.scroll_rect, update.scroll_delta);

	view_size_changed_waiting_for_paint_ = false;
	} else {
	std::vector<PaintReadyRect> ready_later;
	for (const auto& ready_rect : ready_rects) {
	// Don't flush any part (i.e. scrollbars) if we're resizing the browser,
	// as that'll lead to flashes. Until we flush, the browser will use the
	// previous image, but if we flush, it'll revert to using the blank image.
	// We make an exception for the first paint since we want to show the
	// default background color instead of the pepper default of black.
	if (ready_rect.flush_now() &&
	(!view_size_changed_waiting_for_paint_ \|\| first_paint_)) {
	ready_now.push_back(ready_rect);
	} else {
	ready_later.push_back(ready_rect);
	}
	}
	// Take the rectangles, except the ones that need to be flushed right away,
	// and save them so that everything is flushed at once.
	aggregator_.SetIntermediateResults(ready_later, pending_rects);

	if (ready_now.empty()) {
	EnsureCallbackPending();
	return;
	}
	}

	for (const auto& ready_rect : ready_now) {
	graphics_->PaintImage(ready_rect.image(), ready_rect.rect());
	}

	Flush();

	first_paint_ = false;

	if (graphics_need_to_be_bound_) {
	client_->BindPaintGraphics(*graphics_);
	graphics_need_to_be_bound_ = false;
	}
	}

	void PaintManager::Flush() {
	flush_requested_ = false;
	flush_pending_ = graphics_->Flush(base::BindOnce(
	&PaintManager::OnFlushComplete, weak_factory_.GetWeakPtr()));
	DCHECK(flush_pending_);
	}

	void PaintManager::OnFlushComplete(int32_t) {
	DCHECK(flush_pending_);
	flush_pending_ = false;

	// If more paints were enqueued while we were waiting for the flush to
	// complete, execute them now.
	if (aggregator_.HasPendingUpdate())
	DoPaint();

	// If there was another flush request while flushing we flush again.
	if (flush_requested_) {
	Flush();
	}
	}

	void PaintManager::OnManualCallbackComplete(int32_t) {
	DCHECK(manual_callback_pending_);
	manual_callback_pending_ = false;

	// Just because we have a manual callback doesn't mean there are actually any
	// invalid regions. Even though we only schedule this callback when something
	// is pending, a Flush callback could have come in before this callback was
	// executed and that could have cleared the queue.
	if (aggregator_.HasPendingUpdate())
	DoPaint();
	}

	} // namespace chrome_pdf