boost_1_45_0/libs/intrusive/example/doc_assoc_optimized_code.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Ion Gaztanaga  2006-2009
 //
 // Distributed under the Boost Software License, Version 1.0.
 //    (See accompanying file LICENSE_1_0.txt or copy at
 //          http://www.boost.org/LICENSE_1_0.txt)
 //
 // See http://www.boost.org/libs/intrusive for documentation.
 //
 /////////////////////////////////////////////////////////////////////////////
 //[doc_assoc_optimized_code_normal_find
 #include <boost/intrusive/set.hpp>
 #include <boost/intrusive/unordered_set.hpp>
 #include <cstring>

 using namespace boost::intrusive;

 // Hash function for strings
 struct StrHasher
 {
    std::size_t operator()(const char *str) const
    {
       std::size_t seed = 0;
       for(; *str; ++str)   boost::hash_combine(seed, *str);
       return seed;
    }
 };

 class Expensive : public set_base_hook<>, public unordered_set_base_hook<>
 {
    std::string key_;
    // Other members...

    public:
    Expensive(const char *key)
       :  key_(key)
       {}  //other expensive initializations...

    const std::string & get_key() const
       {  return key_;   }

    friend bool operator <  (const Expensive &a, const Expensive &b)
       {  return a.key_ < b.key_;  }

    friend bool operator == (const Expensive &a, const Expensive &b)
       {  return a.key_ == b.key_;  }

    friend std::size_t hash_value(const Expensive &object)
       {  return StrHasher()(object.get_key().c_str());  }
 };

 // A set and unordered_set that store Expensive objects
 typedef set<Expensive>           Set;
 typedef unordered_set<Expensive> UnorderedSet;

 // Search functions
 Expensive *get_from_set(const char* key, Set &set_object)
 {
    Set::iterator it = set_object.find(Expensive(key));
    if( it == set_object.end() )     return 0;
    return &*it;
 }

 Expensive *get_from_uset(const char* key, UnorderedSet &uset_object)
 {
    UnorderedSet::iterator it = uset_object.find(Expensive (key));
    if( it == uset_object.end() )  return 0;
    return &*it;
 }
 //]

 //[doc_assoc_optimized_code_optimized_find
 // These compare Expensive and a c-string
 struct StrExpComp
 {
    bool operator()(const char *str, const Expensive &c) const
    {  return std::strcmp(str, c.get_key().c_str()) < 0;  }

    bool operator()(const Expensive &c, const char *str) const
    {  return std::strcmp(c.get_key().c_str(), str) < 0;  }
 };

 struct StrExpEqual
 {
    bool operator()(const char *str, const Expensive &c) const
    {  return std::strcmp(str, c.get_key().c_str()) == 0;  }

    bool operator()(const Expensive &c, const char *str) const
    {  return std::strcmp(c.get_key().c_str(), str) == 0;  }
 };

 // Optimized search functions
 Expensive *get_from_set_optimized(const char* key, Set &set_object)
 {
    Set::iterator it = set_object.find(key, StrExpComp());
    if( it == set_object.end() )   return 0;
    return &*it;
 }

 Expensive *get_from_uset_optimized(const char* key, UnorderedSet &uset_object)
 {
    UnorderedSet::iterator it = uset_object.find(key, StrHasher(), StrExpEqual());
    if( it == uset_object.end() )  return 0;
    return &*it;
 }
 //]

 //[doc_assoc_optimized_code_normal_insert
 // Insertion functions
 bool insert_to_set(const char* key, Set &set_object)
 {
    Expensive *pobject = new Expensive(key);
    bool success = set_object.insert(*pobject).second;
    if(!success)   delete pobject;
    return success;
 }

 bool insert_to_uset(const char* key, UnorderedSet &uset_object)
 {
    Expensive *pobject = new Expensive(key);
    bool success = uset_object.insert(*pobject).second;
    if(!success)   delete pobject;
    return success;
 }
 //]

 //[doc_assoc_optimized_code_optimized_insert
 // Optimized insertion functions
 bool insert_to_set_optimized(const char* key, Set &set_object)
 {
    Set::insert_commit_data insert_data;
    bool success = set_object.insert_check(key, StrExpComp(), insert_data).second;
    if(success) set_object.insert_commit(*new Expensive(key), insert_data);
    return success;
 }

 bool insert_to_uset_optimized(const char* key, UnorderedSet &uset_object)
 {
    UnorderedSet::insert_commit_data insert_data;
    bool success = uset_object.insert_check
       (key, StrHasher(), StrExpEqual(), insert_data).second;
    if(success) uset_object.insert_commit(*new Expensive(key), insert_data);
    return success;
 }
 //]

 int main()
 {
    Set set;
    UnorderedSet::bucket_type buckets[10];
    UnorderedSet unordered_set(UnorderedSet::bucket_traits(buckets, 10));

    const char * const expensive_key
       = "A long string that avoids small string optimization";

    Expensive value(expensive_key);

    if(get_from_set(expensive_key, set)){
       return 1;
    }

    if(get_from_uset(expensive_key, unordered_set)){
       return 1;
    }

    if(get_from_set_optimized(expensive_key, set)){
       return 1;
    }

    if(get_from_uset_optimized(expensive_key, unordered_set)){
       return 1;
    }

    Set::iterator setit =  set.insert(value).first;
    UnorderedSet::iterator unordered_setit =  unordered_set.insert(value).first;

    if(!get_from_set(expensive_key, set)){
       return 1;
    }

    if(!get_from_uset(expensive_key, unordered_set)){
       return 1;
    }

    if(!get_from_set_optimized(expensive_key, set)){
       return 1;
    }

    if(!get_from_uset_optimized(expensive_key, unordered_set)){
       return 1;
    }

    set.erase(setit);
    unordered_set.erase(unordered_setit);

    if(!insert_to_set(expensive_key, set)){
       return 1;
    }

    if(!insert_to_uset(expensive_key, unordered_set)){
       return 1;
    }

    {
       Expensive *ptr = &*set.begin();
       set.clear();
       delete ptr;
    }

    {
       Expensive *ptr = &*unordered_set.begin();
       unordered_set.clear();
       delete ptr;
    }

    if(!insert_to_set_optimized(expensive_key, set)){
       return 1;
    }

    if(!insert_to_uset_optimized(expensive_key, unordered_set)){
       return 1;
    }

    {
       Expensive *ptr = &*set.begin();
       set.clear();
       delete ptr;
    }

    {
       Expensive *ptr = &*unordered_set.begin();
       unordered_set.clear();
       delete ptr;
    }

    setit       =  set.insert(value).first;
    unordered_setit   =  unordered_set.insert(value).first;

    if(insert_to_set(expensive_key, set)){
       return 1;
    }

    if(insert_to_uset(expensive_key, unordered_set)){
       return 1;
    }

    if(insert_to_set_optimized(expensive_key, set)){
       return 1;
    }

    if(insert_to_uset_optimized(expensive_key, unordered_set)){
       return 1;
    }

    set.erase(value);
    unordered_set.erase(value);

    return 0;
 }
	/////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Ion Gaztanaga 2006-2009
	//
	// Distributed under the Boost Software License, Version 1.0.
	// (See accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)
	//
	// See http://www.boost.org/libs/intrusive for documentation.
	//
	/////////////////////////////////////////////////////////////////////////////
	//[doc_assoc_optimized_code_normal_find
	#include <boost/intrusive/set.hpp>
	#include <boost/intrusive/unordered_set.hpp>
	#include <cstring>

	using namespace boost::intrusive;

	// Hash function for strings
	struct StrHasher
	{
	std::size_t operator()(const char *str) const
	{
	std::size_t seed = 0;
	for(; str; ++str) boost::hash_combine(seed, str);
	return seed;
	}
	};

	class Expensive : public set_base_hook<>, public unordered_set_base_hook<>
	{
	std::string key_;
	// Other members...

	public:
	Expensive(const char *key)
	: key_(key)
	{} //other expensive initializations...

	const std::string & get_key() const
	{ return key_; }

	friend bool operator < (const Expensive &a, const Expensive &b)
	{ return a.key_ < b.key_; }

	friend bool operator == (const Expensive &a, const Expensive &b)
	{ return a.key_ == b.key_; }

	friend std::size_t hash_value(const Expensive &object)
	{ return StrHasher()(object.get_key().c_str()); }
	};

	// A set and unordered_set that store Expensive objects
	typedef set<Expensive> Set;
	typedef unordered_set<Expensive> UnorderedSet;

	// Search functions
	Expensive get_from_set(const char key, Set &set_object)
	{
	Set::iterator it = set_object.find(Expensive(key));
	if( it == set_object.end() ) return 0;
	return &*it;
	}

	Expensive get_from_uset(const char key, UnorderedSet &uset_object)
	{
	UnorderedSet::iterator it = uset_object.find(Expensive (key));
	if( it == uset_object.end() ) return 0;
	return &*it;
	}
	//]

	//[doc_assoc_optimized_code_optimized_find
	// These compare Expensive and a c-string
	struct StrExpComp
	{
	bool operator()(const char *str, const Expensive &c) const
	{ return std::strcmp(str, c.get_key().c_str()) < 0; }

	bool operator()(const Expensive &c, const char *str) const
	{ return std::strcmp(c.get_key().c_str(), str) < 0; }
	};

	struct StrExpEqual
	{
	bool operator()(const char *str, const Expensive &c) const
	{ return std::strcmp(str, c.get_key().c_str()) == 0; }

	bool operator()(const Expensive &c, const char *str) const
	{ return std::strcmp(c.get_key().c_str(), str) == 0; }
	};

	// Optimized search functions
	Expensive get_from_set_optimized(const char key, Set &set_object)
	{
	Set::iterator it = set_object.find(key, StrExpComp());
	if( it == set_object.end() ) return 0;
	return &*it;
	}

	Expensive get_from_uset_optimized(const char key, UnorderedSet &uset_object)
	{
	UnorderedSet::iterator it = uset_object.find(key, StrHasher(), StrExpEqual());
	if( it == uset_object.end() ) return 0;
	return &*it;
	}
	//]

	//[doc_assoc_optimized_code_normal_insert
	// Insertion functions
	bool insert_to_set(const char* key, Set &set_object)
	{
	Expensive *pobject = new Expensive(key);
	bool success = set_object.insert(*pobject).second;
	if(!success) delete pobject;
	return success;
	}

	bool insert_to_uset(const char* key, UnorderedSet &uset_object)
	{
	Expensive *pobject = new Expensive(key);
	bool success = uset_object.insert(*pobject).second;
	if(!success) delete pobject;
	return success;
	}
	//]

	//[doc_assoc_optimized_code_optimized_insert
	// Optimized insertion functions
	bool insert_to_set_optimized(const char* key, Set &set_object)
	{
	Set::insert_commit_data insert_data;
	bool success = set_object.insert_check(key, StrExpComp(), insert_data).second;
	if(success) set_object.insert_commit(*new Expensive(key), insert_data);
	return success;
	}

	bool insert_to_uset_optimized(const char* key, UnorderedSet &uset_object)
	{
	UnorderedSet::insert_commit_data insert_data;
	bool success = uset_object.insert_check
	(key, StrHasher(), StrExpEqual(), insert_data).second;
	if(success) uset_object.insert_commit(*new Expensive(key), insert_data);
	return success;
	}
	//]

	int main()
	{
	Set set;
	UnorderedSet::bucket_type buckets[10];
	UnorderedSet unordered_set(UnorderedSet::bucket_traits(buckets, 10));

	const char * const expensive_key
	= "A long string that avoids small string optimization";

	Expensive value(expensive_key);

	if(get_from_set(expensive_key, set)){
	return 1;
	}

	if(get_from_uset(expensive_key, unordered_set)){
	return 1;
	}

	if(get_from_set_optimized(expensive_key, set)){
	return 1;
	}

	if(get_from_uset_optimized(expensive_key, unordered_set)){
	return 1;
	}

	Set::iterator setit = set.insert(value).first;
	UnorderedSet::iterator unordered_setit = unordered_set.insert(value).first;

	if(!get_from_set(expensive_key, set)){
	return 1;
	}

	if(!get_from_uset(expensive_key, unordered_set)){
	return 1;
	}

	if(!get_from_set_optimized(expensive_key, set)){
	return 1;
	}

	if(!get_from_uset_optimized(expensive_key, unordered_set)){
	return 1;
	}

	set.erase(setit);
	unordered_set.erase(unordered_setit);

	if(!insert_to_set(expensive_key, set)){
	return 1;
	}

	if(!insert_to_uset(expensive_key, unordered_set)){
	return 1;
	}

	{
	Expensive ptr = &set.begin();
	set.clear();
	delete ptr;
	}

	{
	Expensive ptr = &unordered_set.begin();
	unordered_set.clear();
	delete ptr;
	}

	if(!insert_to_set_optimized(expensive_key, set)){
	return 1;
	}

	if(!insert_to_uset_optimized(expensive_key, unordered_set)){
	return 1;
	}

	{
	Expensive ptr = &set.begin();
	set.clear();
	delete ptr;
	}

	{
	Expensive ptr = &unordered_set.begin();
	unordered_set.clear();
	delete ptr;
	}

	setit = set.insert(value).first;
	unordered_setit = unordered_set.insert(value).first;

	if(insert_to_set(expensive_key, set)){
	return 1;
	}

	if(insert_to_uset(expensive_key, unordered_set)){
	return 1;
	}

	if(insert_to_set_optimized(expensive_key, set)){
	return 1;
	}

	if(insert_to_uset_optimized(expensive_key, unordered_set)){
	return 1;
	}

	set.erase(value);
	unordered_set.erase(value);

	return 0;
	}