ppapi/utility/graphics/paint_manager.cc - chromium/src - Git at Google

 // Copyright (c) 2012 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 "ppapi/utility/graphics/paint_manager.h"

 #include "ppapi/c/pp_errors.h"
 #include "ppapi/cpp/instance.h"
 #include "ppapi/cpp/logging.h"
 #include "ppapi/cpp/module.h"

 namespace pp {

 PaintManager::PaintManager()
     : instance_(NULL),
       client_(NULL),
       is_always_opaque_(false),
       callback_factory_(NULL),
       manual_callback_pending_(false),
       flush_pending_(false),
       has_pending_resize_(false) {
   // Set the callback object outside of the initializer list to avoid a
   // compiler warning about using "this" in an initializer list.
   callback_factory_.Initialize(this);
 }

 PaintManager::PaintManager(Instance* instance,
                            Client* client,
                            bool is_always_opaque)
     : instance_(instance),
       client_(client),
       is_always_opaque_(is_always_opaque),
       callback_factory_(NULL),
       manual_callback_pending_(false),
       flush_pending_(false),
       has_pending_resize_(false) {
   // Set the callback object outside of the initializer list to avoid a
   // compiler warning about using "this" in an initializer list.
   callback_factory_.Initialize(this);

   // You can not use a NULL client pointer.
   PP_DCHECK(client);
 }

 PaintManager::~PaintManager() {
 }

 void PaintManager::Initialize(Instance* instance,
                               Client* client,
                               bool is_always_opaque) {
   PP_DCHECK(!instance_ && !client_);  // Can't initialize twice.
   instance_ = instance;
   client_ = client;
   is_always_opaque_ = is_always_opaque;
 }

 void PaintManager::SetSize(const Size& new_size) {
   if (GetEffectiveSize() == new_size)
     return;

   has_pending_resize_ = true;
   pending_size_ = new_size;

   Invalidate();
 }

 void PaintManager::Invalidate() {
   // You must call SetSize before using.
   PP_DCHECK(!graphics_.is_null() || has_pending_resize_);

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

 void PaintManager::InvalidateRect(const Rect& rect) {
   // You must call SetSize before using.
   PP_DCHECK(!graphics_.is_null() || has_pending_resize_);

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

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

 void PaintManager::ScrollRect(const Rect& clip_rect, const Point& amount) {
   // You must call SetSize before using.
   PP_DCHECK(!graphics_.is_null() || has_pending_resize_);

   EnsureCallbackPending();
   aggregator_.ScrollRect(clip_rect, amount);
 }

 Size PaintManager::GetEffectiveSize() const {
   return has_pending_resize_ ? pending_size_ : graphics_.size();
 }

 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;

   Module::Get()->core()->CallOnMainThread(
       0,
       callback_factory_.NewCallback(&PaintManager::OnManualCallbackComplete),
       0);
   manual_callback_pending_ = true;
 }

 void PaintManager::DoPaint() {
   PP_DCHECK(aggregator_.HasPendingUpdate());

   // Make a copy of the pending update and clear the pending update flag before
   // actually painting. A plugin might cause invalidates in its Paint code, and
   // we want those to go to the *next* paint.
   PaintAggregator::PaintUpdate update = aggregator_.GetPendingUpdate();
   aggregator_.ClearPendingUpdate();

   // Apply any pending resize. Setting the graphics to this class must happen
   // before asking the plugin to paint in case it requests the Graphics2D during
   // painting. 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.
   bool needs_binding = false;
   if (has_pending_resize_) {
     graphics_ = Graphics2D(instance_, pending_size_, is_always_opaque_);
     needs_binding = true;

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

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

   // Apply any scroll before asking the client to paint.
   if (update.has_scroll)
     graphics_.Scroll(update.scroll_rect, update.scroll_delta);

   if (client_->OnPaint(graphics_, update.paint_rects, update.paint_bounds)) {
     // Something was painted, schedule a flush.
     int32_t result = graphics_.Flush(
         callback_factory_.NewOptionalCallback(&PaintManager::OnFlushComplete));

     // If you trigger this assertion, then your plugin has called Flush()
     // manually. When using the PaintManager, you should not call Flush, it
     // will handle that for you because it needs to know when it can do the
     // next paint by implementing the flush callback.
     //
     // Another possible cause of this assertion is re-using devices. If you
     // use one device, swap it with another, then swap it back, we won't know
     // that we've already scheduled a Flush on the first device. It's best to
     // not re-use devices in this way.
     PP_DCHECK(result != PP_ERROR_INPROGRESS);

     if (result == PP_OK_COMPLETIONPENDING) {
       flush_pending_ = true;
     } else {
       PP_DCHECK(result == PP_OK);  // Catch all other errors in debug mode.
     }
   }

   if (needs_binding)
     instance_->BindGraphics(graphics_);
 }

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

   // Theoretically this shouldn't fail unless we've made an error, but don't
   // want to call into the client code to do more painting if something bad
   // did happen.
   if (result != PP_OK)
     return;

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

 void PaintManager::OnManualCallbackComplete(int32_t) {
   PP_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() && !flush_pending_)
     DoPaint();
 }


 }  // namespace pp
	// Copyright (c) 2012 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 "ppapi/utility/graphics/paint_manager.h"

	#include "ppapi/c/pp_errors.h"
	#include "ppapi/cpp/instance.h"
	#include "ppapi/cpp/logging.h"
	#include "ppapi/cpp/module.h"

	namespace pp {

	PaintManager::PaintManager()
	: instance_(NULL),
	client_(NULL),
	is_always_opaque_(false),
	callback_factory_(NULL),
	manual_callback_pending_(false),
	flush_pending_(false),
	has_pending_resize_(false) {
	// Set the callback object outside of the initializer list to avoid a
	// compiler warning about using "this" in an initializer list.
	callback_factory_.Initialize(this);
	}

	PaintManager::PaintManager(Instance* instance,
	Client* client,
	bool is_always_opaque)
	: instance_(instance),
	client_(client),
	is_always_opaque_(is_always_opaque),
	callback_factory_(NULL),
	manual_callback_pending_(false),
	flush_pending_(false),
	has_pending_resize_(false) {
	// Set the callback object outside of the initializer list to avoid a
	// compiler warning about using "this" in an initializer list.
	callback_factory_.Initialize(this);

	// You can not use a NULL client pointer.
	PP_DCHECK(client);
	}

	PaintManager::~PaintManager() {
	}

	void PaintManager::Initialize(Instance* instance,
	Client* client,
	bool is_always_opaque) {
	PP_DCHECK(!instance_ && !client_); // Can't initialize twice.
	instance_ = instance;
	client_ = client;
	is_always_opaque_ = is_always_opaque;
	}

	void PaintManager::SetSize(const Size& new_size) {
	if (GetEffectiveSize() == new_size)
	return;

	has_pending_resize_ = true;
	pending_size_ = new_size;

	Invalidate();
	}

	void PaintManager::Invalidate() {
	// You must call SetSize before using.
	PP_DCHECK(!graphics_.is_null() \|\| has_pending_resize_);

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

	void PaintManager::InvalidateRect(const Rect& rect) {
	// You must call SetSize before using.
	PP_DCHECK(!graphics_.is_null() \|\| has_pending_resize_);

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

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

	void PaintManager::ScrollRect(const Rect& clip_rect, const Point& amount) {
	// You must call SetSize before using.
	PP_DCHECK(!graphics_.is_null() \|\| has_pending_resize_);

	EnsureCallbackPending();
	aggregator_.ScrollRect(clip_rect, amount);
	}

	Size PaintManager::GetEffectiveSize() const {
	return has_pending_resize_ ? pending_size_ : graphics_.size();
	}

	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;

	Module::Get()->core()->CallOnMainThread(
	0,
	callback_factory_.NewCallback(&PaintManager::OnManualCallbackComplete),
	0);
	manual_callback_pending_ = true;
	}

	void PaintManager::DoPaint() {
	PP_DCHECK(aggregator_.HasPendingUpdate());

	// Make a copy of the pending update and clear the pending update flag before
	// actually painting. A plugin might cause invalidates in its Paint code, and
	// we want those to go to the next paint.
	PaintAggregator::PaintUpdate update = aggregator_.GetPendingUpdate();
	aggregator_.ClearPendingUpdate();

	// Apply any pending resize. Setting the graphics to this class must happen
	// before asking the plugin to paint in case it requests the Graphics2D during
	// painting. 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.
	bool needs_binding = false;
	if (has_pending_resize_) {
	graphics_ = Graphics2D(instance_, pending_size_, is_always_opaque_);
	needs_binding = true;

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

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

	// Apply any scroll before asking the client to paint.
	if (update.has_scroll)
	graphics_.Scroll(update.scroll_rect, update.scroll_delta);

	if (client_->OnPaint(graphics_, update.paint_rects, update.paint_bounds)) {
	// Something was painted, schedule a flush.
	int32_t result = graphics_.Flush(
	callback_factory_.NewOptionalCallback(&PaintManager::OnFlushComplete));

	// If you trigger this assertion, then your plugin has called Flush()
	// manually. When using the PaintManager, you should not call Flush, it
	// will handle that for you because it needs to know when it can do the
	// next paint by implementing the flush callback.
	//
	// Another possible cause of this assertion is re-using devices. If you
	// use one device, swap it with another, then swap it back, we won't know
	// that we've already scheduled a Flush on the first device. It's best to
	// not re-use devices in this way.
	PP_DCHECK(result != PP_ERROR_INPROGRESS);

	if (result == PP_OK_COMPLETIONPENDING) {
	flush_pending_ = true;
	} else {
	PP_DCHECK(result == PP_OK); // Catch all other errors in debug mode.
	}
	}

	if (needs_binding)
	instance_->BindGraphics(graphics_);
	}

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

	// Theoretically this shouldn't fail unless we've made an error, but don't
	// want to call into the client code to do more painting if something bad
	// did happen.
	if (result != PP_OK)
	return;

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

	void PaintManager::OnManualCallbackComplete(int32_t) {
	PP_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() && !flush_pending_)
	DoPaint();
	}


	} // namespace pp