2011-09-05 23:06:31 +04:00
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#ifndef utils_hh_INCLUDED
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#define utils_hh_INCLUDED
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2011-09-23 18:26:53 +04:00
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#include "assert.hh"
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2013-04-09 22:05:40 +04:00
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#include "exception.hh"
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2011-09-09 23:24:18 +04:00
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2011-10-18 01:05:22 +04:00
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#include <algorithm>
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2013-04-09 22:05:40 +04:00
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#include <memory>
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2013-01-11 17:28:13 +04:00
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#include <vector>
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2013-05-06 15:51:23 +04:00
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#include <unordered_set>
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2011-09-08 04:08:55 +04:00
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2011-09-05 23:06:31 +04:00
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namespace Kakoune
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{
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2012-06-12 22:45:13 +04:00
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// *** Singleton ***
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//
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// Singleton helper class, every singleton type T should inherit
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// from Singleton<T> to provide a consistent interface.
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2011-09-23 18:26:53 +04:00
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template<typename T>
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class Singleton
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{
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public:
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Singleton(const Singleton&) = delete;
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Singleton& operator=(const Singleton&) = delete;
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static T& instance()
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{
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2013-06-06 20:54:33 +04:00
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kak_assert (ms_instance);
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2011-09-23 18:26:53 +04:00
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return *ms_instance;
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}
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static void delete_instance()
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{
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2012-06-12 22:45:13 +04:00
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delete ms_instance;
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ms_instance = nullptr;
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2011-09-23 18:26:53 +04:00
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}
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2013-03-22 17:26:44 +04:00
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static bool has_instance()
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{
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return ms_instance != nullptr;
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}
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2011-09-23 18:26:53 +04:00
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protected:
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Singleton()
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{
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2013-04-09 22:04:11 +04:00
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kak_assert(not ms_instance);
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2011-09-23 18:26:53 +04:00
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ms_instance = static_cast<T*>(this);
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}
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~Singleton()
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{
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2013-04-09 22:04:11 +04:00
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kak_assert(ms_instance == this);
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2011-09-23 18:26:53 +04:00
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ms_instance = nullptr;
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}
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private:
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static T* ms_instance;
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};
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template<typename T>
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T* Singleton<T>::ms_instance = nullptr;
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2012-06-28 15:42:55 +04:00
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// *** safe_ptr: objects that assert nobody references them when they die ***
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template<typename T>
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class safe_ptr
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{
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public:
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safe_ptr() : m_ptr(nullptr) {}
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explicit safe_ptr(T* ptr) : m_ptr(ptr)
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{
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#ifdef KAK_DEBUG
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if (m_ptr)
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m_ptr->inc_safe_count();
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#endif
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}
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safe_ptr(const safe_ptr& other) : safe_ptr(other.m_ptr) {}
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safe_ptr(safe_ptr&& other) : m_ptr(other.m_ptr) { other.m_ptr = nullptr; }
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2013-02-28 21:54:15 +04:00
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~safe_ptr()
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{
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#ifdef KAK_DEBUG
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if (m_ptr)
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m_ptr->dec_safe_count();
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#endif
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}
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2012-06-28 15:42:55 +04:00
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safe_ptr& operator=(const safe_ptr& other)
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{
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#ifdef KAK_DEBUG
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2012-06-28 15:42:55 +04:00
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if (m_ptr != other.m_ptr)
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{
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if (m_ptr)
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m_ptr->dec_safe_count();
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2013-02-28 21:54:15 +04:00
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if (other.m_ptr)
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other.m_ptr->inc_safe_count();
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2012-06-28 15:42:55 +04:00
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}
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#endif
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m_ptr = other.m_ptr;
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2012-06-28 15:42:55 +04:00
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return *this;
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2013-11-14 04:12:15 +04:00
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}
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2012-06-28 15:42:55 +04:00
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2013-11-14 04:12:15 +04:00
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safe_ptr& operator=(safe_ptr&& other)
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{
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#ifdef KAK_DEBUG
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if (m_ptr)
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m_ptr->dec_safe_count();
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#endif
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m_ptr = other.m_ptr;
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other.m_ptr = nullptr;
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return *this;
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}
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2012-06-30 02:33:36 +04:00
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2013-11-14 04:12:15 +04:00
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void reset(T* ptr)
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{
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*this = safe_ptr(ptr);
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}
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2012-06-30 02:33:36 +04:00
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2013-11-14 04:12:15 +04:00
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bool operator== (const safe_ptr& other) const { return m_ptr == other.m_ptr; }
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bool operator!= (const safe_ptr& other) const { return m_ptr != other.m_ptr; }
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bool operator== (T* ptr) const { return m_ptr == ptr; }
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bool operator!= (T* ptr) const { return m_ptr != ptr; }
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2012-06-28 15:42:55 +04:00
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2013-11-14 04:12:15 +04:00
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T& operator* () const { return *m_ptr; }
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T* operator-> () const { return m_ptr; }
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2012-06-28 15:42:55 +04:00
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2013-11-14 04:12:15 +04:00
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T* get() const { return m_ptr; }
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2012-06-28 15:42:55 +04:00
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2013-11-14 04:12:15 +04:00
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explicit operator bool() const { return m_ptr; }
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2012-06-28 15:42:55 +04:00
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private:
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2013-11-14 04:12:15 +04:00
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T* m_ptr;
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2012-06-28 15:42:55 +04:00
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};
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class SafeCountable
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{
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public:
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2013-02-28 21:54:15 +04:00
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#ifdef KAK_DEBUG
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SafeCountable() : m_count(0) {}
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~SafeCountable() { kak_assert(m_count == 0); }
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2012-06-28 15:42:55 +04:00
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2013-11-14 04:12:15 +04:00
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void inc_safe_count() const { ++m_count; }
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void dec_safe_count() const { --m_count; kak_assert(m_count >= 0); }
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2012-06-28 15:42:55 +04:00
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private:
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2013-11-14 04:12:15 +04:00
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mutable int m_count;
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2013-02-28 21:54:15 +04:00
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#endif
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2012-06-28 15:42:55 +04:00
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};
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2012-06-12 22:45:13 +04:00
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// *** Containers helpers ***
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template<typename Container>
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struct ReversedContainer
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{
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ReversedContainer(Container& container) : container(container) {}
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Container& container;
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decltype(container.rbegin()) begin() { return container.rbegin(); }
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decltype(container.rend()) end() { return container.rend(); }
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};
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template<typename Container>
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ReversedContainer<Container> reversed(Container&& container)
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2012-06-12 22:45:13 +04:00
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{
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return ReversedContainer<Container>(container);
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}
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2012-01-26 02:31:47 +04:00
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template<typename Container, typename T>
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2013-02-27 22:58:07 +04:00
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auto find(Container&& container, const T& value) -> decltype(container.begin())
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2012-01-26 02:31:47 +04:00
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{
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return std::find(container.begin(), container.end(), value);
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}
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2012-12-03 21:56:53 +04:00
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template<typename Container, typename T>
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auto find_if(Container&& container, T op) -> decltype(container.begin())
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2012-12-03 21:56:53 +04:00
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{
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return std::find_if(container.begin(), container.end(), op);
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}
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2011-10-18 01:05:22 +04:00
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template<typename Container, typename T>
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2013-02-27 22:58:07 +04:00
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bool contains(Container&& container, const T& value)
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2011-10-18 01:05:22 +04:00
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{
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2013-08-01 21:35:13 +04:00
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return find(container, value) != container.end();
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2011-10-18 01:05:22 +04:00
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}
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2013-05-06 15:51:23 +04:00
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template<typename T1, typename T2>
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bool contains(const std::unordered_set<T1>& container, const T2& value)
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{
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return container.find(value) != container.end();
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}
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2012-06-12 22:45:13 +04:00
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// *** On scope end ***
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//
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// on_scope_end provides a way to register some code to be
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// executed when current scope closes.
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//
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// usage:
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// auto cleaner = on_scope_end([]() { ... });
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//
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// This permits to cleanup c-style resources without implementing
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// a wrapping class
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2011-12-20 23:18:00 +04:00
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template<typename T>
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class OnScopeEnd
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{
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public:
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2013-04-02 16:03:22 +04:00
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OnScopeEnd(T func) : m_func(std::move(func)) {}
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2011-12-20 23:18:00 +04:00
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~OnScopeEnd() { m_func(); }
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private:
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T m_func;
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};
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template<typename T>
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OnScopeEnd<T> on_scope_end(T t)
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{
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return OnScopeEnd<T>(t);
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}
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2011-12-02 18:20:11 +04:00
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2012-06-12 22:45:13 +04:00
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// *** Misc helper functions ***
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template<typename T>
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bool operator== (const std::unique_ptr<T>& lhs, T* rhs)
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{
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return lhs.get() == rhs;
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}
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2012-08-29 23:52:17 +04:00
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inline String escape(const String& name)
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{
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2013-04-12 21:16:55 +04:00
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static Regex ex{"([ \\t;])"};
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return boost::regex_replace(name, ex, R"(\\\1)");
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2012-08-29 23:52:17 +04:00
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}
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2012-10-02 16:08:09 +04:00
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template<typename T>
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const T& clamp(const T& val, const T& min, const T& max)
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{
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return (val < min ? min : (val > max ? max : val));
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}
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2013-04-23 21:08:44 +04:00
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template<typename T>
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bool is_in_range(const T& val, const T& min, const T& max)
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{
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return min <= val and val <= max;
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}
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2013-04-02 15:56:30 +04:00
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// *** AutoRegister: RAII handling of value semantics registering classes ***
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template<typename EffectiveType, typename RegisterFuncs, typename Registry>
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class AutoRegister
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{
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public:
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AutoRegister(Registry& registry)
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: m_registry(®istry)
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{
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RegisterFuncs::insert(*m_registry, effective_this());
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}
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AutoRegister(const AutoRegister& other)
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: m_registry(other.m_registry)
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{
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RegisterFuncs::insert(*m_registry, effective_this());
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}
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AutoRegister(AutoRegister&& other)
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: m_registry(other.m_registry)
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{
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RegisterFuncs::insert(*m_registry, effective_this());
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}
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~AutoRegister()
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{
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RegisterFuncs::remove(*m_registry, effective_this());
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}
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AutoRegister& operator=(const AutoRegister& other)
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{
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if (m_registry != other.m_registry)
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{
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RegisterFuncs::remove(*m_registry, effective_this());
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m_registry = other.m_registry;
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RegisterFuncs::insert(*m_registry, effective_this());
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}
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return *this;
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}
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AutoRegister& operator=(AutoRegister&& other)
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{
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if (m_registry != other.m_registry)
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{
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RegisterFuncs::remove(*m_registry, effective_this());
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m_registry = other.m_registry;
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RegisterFuncs::insert(*m_registry, effective_this());
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}
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return *this;
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}
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Registry& registry() const { return *m_registry; }
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private:
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EffectiveType& effective_this() { return static_cast<EffectiveType&>(*this); }
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Registry* m_registry;
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};
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2011-09-05 23:06:31 +04:00
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}
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2013-10-25 01:21:41 +04:00
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// std::pair hashing
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namespace std
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{
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template<typename T1, typename T2>
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struct hash<std::pair<T1,T2>>
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{
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size_t operator()(const std::pair<T1,T2>& val) const
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{
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size_t seed = std::hash<T2>()(val.second);
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return seed ^ (std::hash<T1>()(val.first) + 0x9e3779b9 +
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(seed << 6) + (seed >> 2));
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}
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};
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}
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2011-09-05 23:06:31 +04:00
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#endif // utils_hh_INCLUDED
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