cc/test/layer_tree_json_parser.cc - chromium/src - Git at Google

 // 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/test/layer_tree_json_parser.h"

 #include "base/test/values_test_util.h"
 #include "base/values.h"
 #include "cc/layers/content_layer.h"
 #include "cc/layers/layer.h"
 #include "cc/layers/nine_patch_layer.h"
 #include "cc/layers/picture_layer.h"
 #include "cc/layers/solid_color_layer.h"
 #include "cc/layers/texture_layer.h"

 namespace cc {

 namespace {

 scoped_refptr<Layer> ParseTreeFromValue(base::Value* val,
                                         ContentLayerClient* content_client) {
   base::DictionaryValue* dict;
   bool success = true;
   success &= val->GetAsDictionary(&dict);
   std::string layer_type;
   success &= dict->GetString("LayerType", &layer_type);
   base::ListValue* list;
   success &= dict->GetList("Bounds", &list);
   int width, height;
   success &= list->GetInteger(0, &width);
   success &= list->GetInteger(1, &height);
   success &= dict->GetList("Position", &list);
   double position_x, position_y;
   success &= list->GetDouble(0, &position_x);
   success &= list->GetDouble(1, &position_y);

   bool draws_content;
   success &= dict->GetBoolean("DrawsContent", &draws_content);

   scoped_refptr<Layer> new_layer;
   if (layer_type == "SolidColorLayer") {
     new_layer = SolidColorLayer::Create();
   } else if (layer_type == "ContentLayer") {
     new_layer = ContentLayer::Create(content_client);
   } else if (layer_type == "NinePatchLayer") {
     success &= dict->GetList("ImageAperture", &list);
     int aperture_x, aperture_y, aperture_width, aperture_height;
     success &= list->GetInteger(0, &aperture_x);
     success &= list->GetInteger(1, &aperture_y);
     success &= list->GetInteger(2, &aperture_width);
     success &= list->GetInteger(3, &aperture_height);

     base::ListValue* bounds;
     success &= dict->GetList("ImageBounds", &bounds);
     double image_width, image_height;
     success &= bounds->GetDouble(0, &image_width);
     success &= bounds->GetDouble(1, &image_height);

     success &= dict->GetList("Border", &list);
     int border_x, border_y, border_width, border_height;
     success &= list->GetInteger(0, &border_x);
     success &= list->GetInteger(1, &border_y);
     success &= list->GetInteger(2, &border_width);
     success &= list->GetInteger(3, &border_height);

     bool fill_center;
     success &= dict->GetBoolean("FillCenter", &fill_center);

     scoped_refptr<NinePatchLayer> nine_patch_layer = NinePatchLayer::Create();

     SkBitmap bitmap;
     bitmap.allocN32Pixels(image_width, image_height);
     bitmap.setImmutable();
     nine_patch_layer->SetBitmap(bitmap);
     nine_patch_layer->SetAperture(
         gfx::Rect(aperture_x, aperture_y, aperture_width, aperture_height));
     nine_patch_layer->SetBorder(
         gfx::Rect(border_x, border_y, border_width, border_height));
     nine_patch_layer->SetFillCenter(fill_center);

     new_layer = nine_patch_layer;
   } else if (layer_type == "TextureLayer") {
     new_layer = TextureLayer::CreateForMailbox(NULL);
   } else if (layer_type == "PictureLayer") {
     new_layer = PictureLayer::Create(content_client);
   } else {  // Type "Layer" or "unknown"
     new_layer = Layer::Create();
   }
   new_layer->SetPosition(gfx::PointF(position_x, position_y));
   new_layer->SetBounds(gfx::Size(width, height));
   new_layer->SetIsDrawable(draws_content);

   double opacity;
   if (dict->GetDouble("Opacity", &opacity))
     new_layer->SetOpacity(opacity);

   bool contents_opaque;
   if (dict->GetBoolean("ContentsOpaque", &contents_opaque))
     new_layer->SetContentsOpaque(contents_opaque);

   bool scrollable;
   // TODO(wjmaclean) At some time in the future we may wish to test that a
   // reconstructed layer tree contains the correct linkage for the scroll
   // clip layer. This is complicated by the fact that the json output doesn't
   // (currently) re-construct the tree with the same layer IDs as the original.
   // But, since a clip layer is always an ancestor of the scrollable layer, we
   // can just count the number of upwards hops to the clip layer and write that
   // into the json file (with 0 hops implying no clip layer, i.e. not
   // scrollable). Reconstructing the tree can then be accomplished by passing
   // the parent pointer to this function and traversing the same number of
   // ancestors to determine the pointer to the clip layer. The LayerTreesMatch()
   // function should then check that both original and reconstructed layers
   // have the same positioning with respect to their clip layers.
   //
   // For now, we can safely indicate a layer is scrollable by giving it a
   // pointer to itself, something not normally allowed in a working tree.
   //
   // https://code.google.com/p/chromium/issues/detail?id=330622
   //
   if (dict->GetBoolean("Scrollable", &scrollable))
     new_layer->SetScrollClipLayerId(scrollable ? new_layer->id()
                                                : Layer::INVALID_ID);

   bool wheel_handler;
   if (dict->GetBoolean("WheelHandler", &wheel_handler))
     new_layer->SetHaveWheelEventHandlers(wheel_handler);

   bool scroll_handler;
   if (dict->GetBoolean("ScrollHandler", &scroll_handler))
     new_layer->SetHaveScrollEventHandlers(scroll_handler);

   bool is_3d_sorted;
   if (dict->GetBoolean("Is3DSorted", &is_3d_sorted)) {
     // A non-zero context ID will put the layer into a 3D sorting context
     new_layer->Set3dSortingContextId(is_3d_sorted ? 1 : 0);
   }

   if (dict->HasKey("TouchRegion")) {
     success &= dict->GetList("TouchRegion", &list);
     Region touch_region;
     for (size_t i = 0; i < list->GetSize(); ) {
       int rect_x, rect_y, rect_width, rect_height;
       success &= list->GetInteger(i++, &rect_x);
       success &= list->GetInteger(i++, &rect_y);
       success &= list->GetInteger(i++, &rect_width);
       success &= list->GetInteger(i++, &rect_height);
       touch_region.Union(gfx::Rect(rect_x, rect_y, rect_width, rect_height));
     }
     new_layer->SetTouchEventHandlerRegion(touch_region);
   }

   if (dict->HasKey("ScrollBlocksOn")) {
     success &= dict->GetList("ScrollBlocksOn", &list);
     ScrollBlocksOn blocks;
     std::string str;
     for (size_t i = 0; i < list->GetSize(); i++) {
       success &= list->GetString(i, &str);
       if (str == "StartTouch")
         blocks |= ScrollBlocksOnStartTouch;
       else if (str == "WheelEvent")
         blocks |= ScrollBlocksOnWheelEvent;
       else if (str == "ScrollEvent")
         blocks |= ScrollBlocksOnScrollEvent;
       else
         success = false;
     }
   }

   success &= dict->GetList("DrawTransform", &list);
   double transform[16];
   for (int i = 0; i < 16; ++i)
     success &= list->GetDouble(i, &transform[i]);

   gfx::Transform layer_transform;
   layer_transform.matrix().setColMajord(transform);
   new_layer->SetTransform(layer_transform);

   success &= dict->GetList("Children", &list);
   for (base::ListValue::const_iterator it = list->begin();
        it != list->end(); ++it) {
     new_layer->AddChild(ParseTreeFromValue(*it, content_client));
   }

   if (!success)
     return NULL;

   return new_layer;
 }

 }  // namespace

 scoped_refptr<Layer> ParseTreeFromJson(std::string json,
                                        ContentLayerClient* content_client) {
   scoped_ptr<base::Value> val = base::test::ParseJson(json);
   return ParseTreeFromValue(val.get(), content_client);
 }

 }  // namespace cc
	// 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/test/layer_tree_json_parser.h"

	#include "base/test/values_test_util.h"
	#include "base/values.h"
	#include "cc/layers/content_layer.h"
	#include "cc/layers/layer.h"
	#include "cc/layers/nine_patch_layer.h"
	#include "cc/layers/picture_layer.h"
	#include "cc/layers/solid_color_layer.h"
	#include "cc/layers/texture_layer.h"

	namespace cc {

	namespace {

	scoped_refptr<Layer> ParseTreeFromValue(base::Value* val,
	ContentLayerClient* content_client) {
	base::DictionaryValue* dict;
	bool success = true;
	success &= val->GetAsDictionary(&dict);
	std::string layer_type;
	success &= dict->GetString("LayerType", &layer_type);
	base::ListValue* list;
	success &= dict->GetList("Bounds", &list);
	int width, height;
	success &= list->GetInteger(0, &width);
	success &= list->GetInteger(1, &height);
	success &= dict->GetList("Position", &list);
	double position_x, position_y;
	success &= list->GetDouble(0, &position_x);
	success &= list->GetDouble(1, &position_y);

	bool draws_content;
	success &= dict->GetBoolean("DrawsContent", &draws_content);

	scoped_refptr<Layer> new_layer;
	if (layer_type == "SolidColorLayer") {
	new_layer = SolidColorLayer::Create();
	} else if (layer_type == "ContentLayer") {
	new_layer = ContentLayer::Create(content_client);
	} else if (layer_type == "NinePatchLayer") {
	success &= dict->GetList("ImageAperture", &list);
	int aperture_x, aperture_y, aperture_width, aperture_height;
	success &= list->GetInteger(0, &aperture_x);
	success &= list->GetInteger(1, &aperture_y);
	success &= list->GetInteger(2, &aperture_width);
	success &= list->GetInteger(3, &aperture_height);

	base::ListValue* bounds;
	success &= dict->GetList("ImageBounds", &bounds);
	double image_width, image_height;
	success &= bounds->GetDouble(0, &image_width);
	success &= bounds->GetDouble(1, &image_height);

	success &= dict->GetList("Border", &list);
	int border_x, border_y, border_width, border_height;
	success &= list->GetInteger(0, &border_x);
	success &= list->GetInteger(1, &border_y);
	success &= list->GetInteger(2, &border_width);
	success &= list->GetInteger(3, &border_height);

	bool fill_center;
	success &= dict->GetBoolean("FillCenter", &fill_center);

	scoped_refptr<NinePatchLayer> nine_patch_layer = NinePatchLayer::Create();

	SkBitmap bitmap;
	bitmap.allocN32Pixels(image_width, image_height);
	bitmap.setImmutable();
	nine_patch_layer->SetBitmap(bitmap);
	nine_patch_layer->SetAperture(
	gfx::Rect(aperture_x, aperture_y, aperture_width, aperture_height));
	nine_patch_layer->SetBorder(
	gfx::Rect(border_x, border_y, border_width, border_height));
	nine_patch_layer->SetFillCenter(fill_center);

	new_layer = nine_patch_layer;
	} else if (layer_type == "TextureLayer") {
	new_layer = TextureLayer::CreateForMailbox(NULL);
	} else if (layer_type == "PictureLayer") {
	new_layer = PictureLayer::Create(content_client);
	} else { // Type "Layer" or "unknown"
	new_layer = Layer::Create();
	}
	new_layer->SetPosition(gfx::PointF(position_x, position_y));
	new_layer->SetBounds(gfx::Size(width, height));
	new_layer->SetIsDrawable(draws_content);

	double opacity;
	if (dict->GetDouble("Opacity", &opacity))
	new_layer->SetOpacity(opacity);

	bool contents_opaque;
	if (dict->GetBoolean("ContentsOpaque", &contents_opaque))
	new_layer->SetContentsOpaque(contents_opaque);

	bool scrollable;
	// TODO(wjmaclean) At some time in the future we may wish to test that a
	// reconstructed layer tree contains the correct linkage for the scroll
	// clip layer. This is complicated by the fact that the json output doesn't
	// (currently) re-construct the tree with the same layer IDs as the original.
	// But, since a clip layer is always an ancestor of the scrollable layer, we
	// can just count the number of upwards hops to the clip layer and write that
	// into the json file (with 0 hops implying no clip layer, i.e. not
	// scrollable). Reconstructing the tree can then be accomplished by passing
	// the parent pointer to this function and traversing the same number of
	// ancestors to determine the pointer to the clip layer. The LayerTreesMatch()
	// function should then check that both original and reconstructed layers
	// have the same positioning with respect to their clip layers.
	//
	// For now, we can safely indicate a layer is scrollable by giving it a
	// pointer to itself, something not normally allowed in a working tree.
	//
	// https://code.google.com/p/chromium/issues/detail?id=330622
	//
	if (dict->GetBoolean("Scrollable", &scrollable))
	new_layer->SetScrollClipLayerId(scrollable ? new_layer->id()
	: Layer::INVALID_ID);

	bool wheel_handler;
	if (dict->GetBoolean("WheelHandler", &wheel_handler))
	new_layer->SetHaveWheelEventHandlers(wheel_handler);

	bool scroll_handler;
	if (dict->GetBoolean("ScrollHandler", &scroll_handler))
	new_layer->SetHaveScrollEventHandlers(scroll_handler);

	bool is_3d_sorted;
	if (dict->GetBoolean("Is3DSorted", &is_3d_sorted)) {
	// A non-zero context ID will put the layer into a 3D sorting context
	new_layer->Set3dSortingContextId(is_3d_sorted ? 1 : 0);
	}

	if (dict->HasKey("TouchRegion")) {
	success &= dict->GetList("TouchRegion", &list);
	Region touch_region;
	for (size_t i = 0; i < list->GetSize(); ) {
	int rect_x, rect_y, rect_width, rect_height;
	success &= list->GetInteger(i++, &rect_x);
	success &= list->GetInteger(i++, &rect_y);
	success &= list->GetInteger(i++, &rect_width);
	success &= list->GetInteger(i++, &rect_height);
	touch_region.Union(gfx::Rect(rect_x, rect_y, rect_width, rect_height));
	}
	new_layer->SetTouchEventHandlerRegion(touch_region);
	}

	if (dict->HasKey("ScrollBlocksOn")) {
	success &= dict->GetList("ScrollBlocksOn", &list);
	ScrollBlocksOn blocks;
	std::string str;
	for (size_t i = 0; i < list->GetSize(); i++) {
	success &= list->GetString(i, &str);
	if (str == "StartTouch")
	blocks \|= ScrollBlocksOnStartTouch;
	else if (str == "WheelEvent")
	blocks \|= ScrollBlocksOnWheelEvent;
	else if (str == "ScrollEvent")
	blocks \|= ScrollBlocksOnScrollEvent;
	else
	success = false;
	}
	}

	success &= dict->GetList("DrawTransform", &list);
	double transform[16];
	for (int i = 0; i < 16; ++i)
	success &= list->GetDouble(i, &transform[i]);

	gfx::Transform layer_transform;
	layer_transform.matrix().setColMajord(transform);
	new_layer->SetTransform(layer_transform);

	success &= dict->GetList("Children", &list);
	for (base::ListValue::const_iterator it = list->begin();
	it != list->end(); ++it) {
	new_layer->AddChild(ParseTreeFromValue(*it, content_client));
	}

	if (!success)
	return NULL;

	return new_layer;
	}

	} // namespace

	scoped_refptr<Layer> ParseTreeFromJson(std::string json,
	ContentLayerClient* content_client) {
	scoped_ptr<base::Value> val = base::test::ParseJson(json);
	return ParseTreeFromValue(val.get(), content_client);
	}

	} // namespace cc