bin/context_engine/index.cc - peridot - Git at Google

 // Copyright 2017 The Fuchsia 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 "peridot/bin/context_engine/index.h"

 #include <algorithm>
 #include <sstream>

 #include <lib/fidl/cpp/clone.h>
 #include <lib/fidl/cpp/optional.h>
 #include <lib/fxl/logging.h>

 namespace modular {

 ContextIndex::ContextIndex() = default;
 ContextIndex::~ContextIndex() = default;

 namespace internal {
 // Keys for fields within fuchsia::modular::ContextMetadata.story:
 const char kStoryIdKey[] = "si";
 const char kStoryFocusedKey[] = "sf";

 // Keys for fields within fuchsia::modular::ContextMetadata.mod:
 const char kModPathKey[] = "mp";
 const char kModUrlKey[] = "mu";
 const char kModuleFocusedKey[] = "mf";

 // Keys for fields within fuchsia::modular::ContextMetadata.entity:
 const char kEntityTopicKey[] = "et";
 const char kEntityTypeKey[] = "ey";
 // We don't index |ctime|.

 // Key for fuchsia::modular::ContextValueType.
 const char kContextValueTypeKey[] = "t";

 std::set<std::string> EncodeMetadataAndType(
     fuchsia::modular::ContextValueType node_type,
     const fuchsia::modular::ContextMetadata& metadata) {
   fuchsia::modular::ContextMetadata meta_clone;
   fidl::Clone(metadata, &meta_clone);
   return EncodeMetadataAndType(node_type,
                                fidl::MakeOptional(std::move(meta_clone)));
 }

 std::string EncodeFocus(const std::string& key,
                         fuchsia::modular::FocusedStateState focused_state) {
   std::ostringstream str;
   str << key;
   if (focused_state == fuchsia::modular::FocusedStateState::FOCUSED) {
     str << "1";
   } else {
     str << "0";
   }
   return str.str();
 }

 std::set<std::string> EncodeMetadataAndType(
     fuchsia::modular::ContextValueType node_type,
     const fuchsia::modular::ContextMetadataPtr& metadata) {
   std::set<std::string> ret;

   if (metadata) {
     if (metadata->story) {
       if (metadata->story->id) {
         std::ostringstream str;
         str << kStoryIdKey << metadata->story->id;
         ret.insert(str.str());
       }
       if (metadata->story->focused) {
         ret.insert(
             EncodeFocus(kStoryFocusedKey, metadata->story->focused->state));
       }
     }

     if (metadata->mod) {
       if (metadata->mod->url) {
         std::ostringstream str;
         str << kModUrlKey << metadata->mod->url;
         ret.insert(str.str());
       }
       if (metadata->mod->path) {
         std::ostringstream str;
         str << kModPathKey;
         for (const auto& part : *metadata->mod->path) {
           str << '\0' << part;
         }
         ret.insert(str.str());
       }
       if (metadata->mod->focused) {
         ret.insert(
             EncodeFocus(kModuleFocusedKey, metadata->mod->focused->state));
       }
     }

     if (metadata->entity) {
       if (metadata->entity->topic) {
         std::ostringstream str;
         str << kEntityTopicKey << metadata->entity->topic;
         ret.insert(str.str());
       }
       if (metadata->entity->type) {
         for (const auto& type : *metadata->entity->type) {
           std::ostringstream str;
           str << kEntityTypeKey << type;
           ret.insert(str.str());
         }
       }
     }
   }

   std::ostringstream str;
   str << kContextValueTypeKey << fidl::ToUnderlying(node_type);
   ret.insert(str.str());

   return ret;
 }

 }  // namespace internal

 void ContextIndex::Add(Id id, fuchsia::modular::ContextValueType type,
                        const fuchsia::modular::ContextMetadata& metadata) {
   auto keys = internal::EncodeMetadataAndType(type, metadata);
   for (const auto& key : keys) {
     index_[key].insert(id);
   }
 }

 void ContextIndex::Remove(Id id, fuchsia::modular::ContextValueType type,
                           const fuchsia::modular::ContextMetadata& metadata) {
   auto keys = internal::EncodeMetadataAndType(type, metadata);
   for (const auto& key : keys) {
     index_[key].erase(id);
   }
 }

 void ContextIndex::Query(fuchsia::modular::ContextValueType type,
                          const fuchsia::modular::ContextMetadataPtr& metadata,
                          std::set<ContextIndex::Id>* out) {
   FXL_DCHECK(out != nullptr);

   auto keys = internal::EncodeMetadataAndType(type, metadata);
   std::set<ContextIndex::Id> ret;
   if (keys.empty())
     return;
   const auto& first = index_[*keys.begin()];
   ret.insert(first.begin(), first.end());
   keys.erase(keys.begin());

   for (const auto& key : keys) {
     std::set<ContextIndex::Id> intersection;
     const auto& posting_list = index_[key];
     std::set_intersection(ret.begin(), ret.end(), posting_list.begin(),
                           posting_list.end(),
                           std::inserter(intersection, intersection.begin()));
     ret.swap(intersection);
   }

   out->insert(ret.begin(), ret.end());
 }

 }  // namespace modular
	// Copyright 2017 The Fuchsia 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 "peridot/bin/context_engine/index.h"

	#include <algorithm>
	#include <sstream>

	#include <lib/fidl/cpp/clone.h>
	#include <lib/fidl/cpp/optional.h>
	#include <lib/fxl/logging.h>

	namespace modular {

	ContextIndex::ContextIndex() = default;
	ContextIndex::~ContextIndex() = default;

	namespace internal {
	// Keys for fields within fuchsia::modular::ContextMetadata.story:
	const char kStoryIdKey[] = "si";
	const char kStoryFocusedKey[] = "sf";

	// Keys for fields within fuchsia::modular::ContextMetadata.mod:
	const char kModPathKey[] = "mp";
	const char kModUrlKey[] = "mu";
	const char kModuleFocusedKey[] = "mf";

	// Keys for fields within fuchsia::modular::ContextMetadata.entity:
	const char kEntityTopicKey[] = "et";
	const char kEntityTypeKey[] = "ey";
	// We don't index \|ctime\|.

	// Key for fuchsia::modular::ContextValueType.
	const char kContextValueTypeKey[] = "t";

	std::set<std::string> EncodeMetadataAndType(
	fuchsia::modular::ContextValueType node_type,
	const fuchsia::modular::ContextMetadata& metadata) {
	fuchsia::modular::ContextMetadata meta_clone;
	fidl::Clone(metadata, &meta_clone);
	return EncodeMetadataAndType(node_type,
	fidl::MakeOptional(std::move(meta_clone)));
	}

	std::string EncodeFocus(const std::string& key,
	fuchsia::modular::FocusedStateState focused_state) {
	std::ostringstream str;
	str << key;
	if (focused_state == fuchsia::modular::FocusedStateState::FOCUSED) {
	str << "1";
	} else {
	str << "0";
	}
	return str.str();
	}

	std::set<std::string> EncodeMetadataAndType(
	fuchsia::modular::ContextValueType node_type,
	const fuchsia::modular::ContextMetadataPtr& metadata) {
	std::set<std::string> ret;

	if (metadata) {
	if (metadata->story) {
	if (metadata->story->id) {
	std::ostringstream str;
	str << kStoryIdKey << metadata->story->id;
	ret.insert(str.str());
	}
	if (metadata->story->focused) {
	ret.insert(
	EncodeFocus(kStoryFocusedKey, metadata->story->focused->state));
	}
	}

	if (metadata->mod) {
	if (metadata->mod->url) {
	std::ostringstream str;
	str << kModUrlKey << metadata->mod->url;
	ret.insert(str.str());
	}
	if (metadata->mod->path) {
	std::ostringstream str;
	str << kModPathKey;
	for (const auto& part : *metadata->mod->path) {
	str << '\0' << part;
	}
	ret.insert(str.str());
	}
	if (metadata->mod->focused) {
	ret.insert(
	EncodeFocus(kModuleFocusedKey, metadata->mod->focused->state));
	}
	}

	if (metadata->entity) {
	if (metadata->entity->topic) {
	std::ostringstream str;
	str << kEntityTopicKey << metadata->entity->topic;
	ret.insert(str.str());
	}
	if (metadata->entity->type) {
	for (const auto& type : *metadata->entity->type) {
	std::ostringstream str;
	str << kEntityTypeKey << type;
	ret.insert(str.str());
	}
	}
	}
	}

	std::ostringstream str;
	str << kContextValueTypeKey << fidl::ToUnderlying(node_type);
	ret.insert(str.str());

	return ret;
	}

	} // namespace internal

	void ContextIndex::Add(Id id, fuchsia::modular::ContextValueType type,
	const fuchsia::modular::ContextMetadata& metadata) {
	auto keys = internal::EncodeMetadataAndType(type, metadata);
	for (const auto& key : keys) {
	index_[key].insert(id);
	}
	}

	void ContextIndex::Remove(Id id, fuchsia::modular::ContextValueType type,
	const fuchsia::modular::ContextMetadata& metadata) {
	auto keys = internal::EncodeMetadataAndType(type, metadata);
	for (const auto& key : keys) {
	index_[key].erase(id);
	}
	}

	void ContextIndex::Query(fuchsia::modular::ContextValueType type,
	const fuchsia::modular::ContextMetadataPtr& metadata,
	std::set<ContextIndex::Id>* out) {
	FXL_DCHECK(out != nullptr);

	auto keys = internal::EncodeMetadataAndType(type, metadata);
	std::set<ContextIndex::Id> ret;
	if (keys.empty())
	return;
	const auto& first = index_[*keys.begin()];
	ret.insert(first.begin(), first.end());
	keys.erase(keys.begin());

	for (const auto& key : keys) {
	std::set<ContextIndex::Id> intersection;
	const auto& posting_list = index_[key];
	std::set_intersection(ret.begin(), ret.end(), posting_list.begin(),
	posting_list.end(),
	std::inserter(intersection, intersection.begin()));
	ret.swap(intersection);
	}

	out->insert(ret.begin(), ret.end());
	}

	} // namespace modular