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#ifndef COMMON_H
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#define COMMON_H
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#include <cctype>
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#include <cfloat>
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#include <deque>
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#include <iostream>
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#include <list>
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#include <memory>
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#include <set>
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#include <string>
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#include <sstream>
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#include <typeindex>
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#include <typeinfo>
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#define EXPORT __attribute__ ((visibility ("default")))
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enum debug_level {INTERNALREQUEST,MOREDEBUG,DEBUG,INFO,NORMAL,WARNING,ERROR};
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EXPORT std::ostream& COUT(debug_level dl);
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typedef std::set<std::string> UsedType;
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// We use different format for conversion of double to string
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template<class T>
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inline std::string ToString(T n) { return std::to_string(n); }
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template<>
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inline std::string ToString<double>(double n)
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{
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char buffer[32];
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int i;
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i=snprintf(buffer,32,"%.*G",DBL_DIG,n);
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return std::string(buffer,i);
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}
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template<>
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inline std::string ToString<std::string>(std::string s) {return s;}
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// Base class for all objects
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class EXPORT ObjectBase
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{
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protected:
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bool err;
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// No save by default
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virtual const int8_t* Blob(size_t* size) const { *size=0; return nullptr; }
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virtual void DeallocBlob(const int8_t* ptr) const {};
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ObjectBase():err(false) {}
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public:
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ObjectBase(const ObjectBase&) = delete;
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bool Save(const char* fname) const;
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bool isError() const {return err;}
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// Pure virtual api
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virtual ~ObjectBase(){}
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virtual const ObjectBase* Copy() const=0;
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virtual bool Print() const=0;
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virtual std::string Type() const=0;
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// Virtual api with default functions. Modules types must not override them.
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virtual std::string Dump() const {return "%"+Type()+"%";}
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};
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enum class OBTypeErr {OK,NULLPTR,TYPEMISMATCH};
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// Template for checking and using ObjectBase derivative classes
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// Checking if arg is non-zero: if(OBType<Derived>(arg).Exist())
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// Checking if arg is pointer on Derived: if(OBType<Derived>(arg))
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// Using const ObjectBase* arg as const Derived*: OBType<Derived>(arg)->SomeCall()
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template<class O>
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class OBType
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{
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const O* p;
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bool iszero;
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public:
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OBType() = delete;
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OBType(OBType&&) = delete;
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OBType(OBType&) = delete;
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OBType(const ObjectBase* arg):iszero(nullptr==arg) {if(nullptr==arg) p=nullptr; else if(typeid(*arg)==typeid(O)) p=dynamic_cast<const O*>(arg); else p=nullptr;}
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const O* operator->() const {return p;}
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operator bool() const {return nullptr!=p;}
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operator const O*() const {return p;}
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bool Exist() const {return !iszero;}
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OBTypeErr Error() const {if(iszero) return OBTypeErr::NULLPTR; else if(nullptr==p) return OBTypeErr::TYPEMISMATCH; else return OBTypeErr::OK;}
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};
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// Template for checking and using several ObjectBase derivative classes
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// Func is template of class-function template argument of which can be any of Derived classes.
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// It must have at least one argument - pointer to constant object of Derived class and return non-void.
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// Checking if arg is non-zero: if(OBTypeM<Func,Derived...>(arg).Exist())
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// Checking if arg is pointer on any of Derived classes (always false if arg is zero): if(OBTypeM<Func,Derived...>(arg))
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// Applying Func can be done by two ways:
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// 1) Function bool Apply(Res& res, args...). Here res is result of calling Func with arguments args. Result of Func is statically casted to type Res.
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// If arg is zero or not a pointer on any of Derived classes, Apply() return false and res is not changed.
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// 2) Overloaded operator ()(args). It returns result of calling Func with arguments args. Type of returning value is type of Func<Derived1>().
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// Full definition. Never instantiated.
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template<template<typename> class Func, class... O>
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class OBTypeM;
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// Recursive partial instantiation
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template<template<typename> class Func, class O1, class... O>
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class OBTypeM<Func,O1,O...>: public OBTypeM<Func,O...>
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{
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bool right;
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OBTypeM() = delete;
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OBTypeM(OBTypeM&&) = delete;
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OBTypeM(OBTypeM&) = delete;
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protected:
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const ObjectBase* P() const {return OBTypeM<Func,O...>::P();}
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template<class Res, class... Args>
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Res F(Args... args) const
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{
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if(right) return Func<O1>()(dynamic_cast<const O1*>(OBTypeM<Func,O...>::P()),args...);
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else return OBTypeM<Func,O...>::template F<Res,Args...>(args...);
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}
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public:
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OBTypeM(const ObjectBase* arg):OBTypeM<Func,O...>(arg) {if(nullptr==arg) right=false; else right=(typeid(*arg)==typeid(O1));}
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operator bool() const {return right || OBTypeM<Func,O...>::operator bool();}
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template<class Res, class... Args>
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bool Apply(Res& res, Args... args) const
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{
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if(!right) return OBTypeM<Func,O...>::Apply(res,args...);
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res=static_cast<Res>(Func<O1>()(dynamic_cast<const O1*>(OBTypeM<Func,O...>::P()),args...));
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return true;
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}
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template<class... Args>
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auto operator ()(Args... args) const -> decltype(Func<O1>()(dynamic_cast<const O1*>(this->P()),args...))
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{
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typedef decltype(Func<O1>()(dynamic_cast<const O1*>(this->P()),args...)) T;
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if(right) return Func<O1>()(dynamic_cast<const O1*>(OBTypeM<Func,O...>::P()),args...);
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else return OBTypeM<Func,O...>::template F<T,Args...>(args...);
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}
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bool Exist() const {return OBTypeM<Func,O...>::Exist();}
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OBTypeErr Error() const {if(!Exist()) return OBTypeErr::NULLPTR; else if(!operator bool()) return OBTypeErr::TYPEMISMATCH; else return OBTypeErr::OK;}
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};
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// Partial instantiation of the bottom of recursion
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template<template<typename> class Func>
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class OBTypeM<Func>
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{
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const ObjectBase* p; // We save pointer on bottom
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OBTypeM() = delete;
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OBTypeM(OBTypeM&&) = delete;
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OBTypeM(OBTypeM&) = delete;
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protected: // Only protected functions because such objects must never exists in the wild.
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OBTypeM(const ObjectBase* arg):p(arg) {}
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operator bool() const {return false;} // If we go down to this place, p is not an pointer on appropriate type
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const ObjectBase* P() const {return p;}
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template<class Res, class... Args>
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bool Apply(Res& res, Args... args) const {return false;}
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template<class... Args>
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void operator ()(Args... args) const {}
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template<class Res, class... Args>
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Res F(Args... args) const {return Res();}
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bool Exist() const {return nullptr!=p;}
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};
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// Error class
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class EXPORT ObjectError: public ObjectBase
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{
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std::string function, reason;
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ObjectError() = delete;
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ObjectError(const ObjectError&) = delete;
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ObjectError(ObjectError&&) = delete;
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public:
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template<class F, class R>
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ObjectError(F f, R r):function(f),reason(r) {ObjectBase::err=true;}
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const std::string& Function() const {return function;}
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const std::string& Reason() const {return reason;}
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// Pure virtual overrides
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const ObjectBase* Copy() const override {return new ObjectError(function,reason);}
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bool Print() const override
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{
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COUT(NORMAL)<<std::endl<<"Object type: "<<Type()<<std::endl;
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COUT(NORMAL)<<"Value: "<<Function()<<": "<<Reason()<<std::endl;
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return true;
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}
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std::string Type() const override {return "ERROR";}
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};
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// Template for objects without specific constructor/destructor
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template<class T>
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class EXPORT ObjectSimple: public ObjectBase
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{
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private:
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T val;
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static std::string type;
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const int8_t* Blob(size_t* size) const override {*size=sizeof(T); return reinterpret_cast<const int8_t*>(&val);}
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public:
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ObjectSimple(T t):val(t) {}
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ObjectSimple(const T* t):val(*t) {}
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~ObjectSimple() {}
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// Pure virtual overrides
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const ObjectBase* Copy() const override {return new ObjectSimple<T>(val);}
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bool Print() const override
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{
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COUT(NORMAL)<<std::endl<<"Object type: "<<Type()<<std::endl;
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COUT(NORMAL)<<"Value: "<<ToString(val)<<std::endl;
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return true;
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}
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std::string Type() const override {return type;}
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// Non-default overrides
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std::string Dump() const override
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{
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std::stringstream s;
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if(std::type_index(typeid(T))==std::type_index(typeid(std::string)))
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s<<"\""<<val<<"\"";
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else
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s<<ToString(val);
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return s.str();
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}
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// Own functions
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T Value() const {return val;}
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void SetValue(T s) {val=s;}
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};
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// Simple objects
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typedef ObjectSimple<bool> ObjectBool;
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typedef ObjectSimple<int64_t> ObjectInt;
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typedef ObjectSimple<double> ObjectReal;
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typedef ObjectSimple<std::string> ObjectString;
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template<>
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inline const int8_t* ObjectString::Blob(size_t* size) const
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{
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*size=val.length();
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return reinterpret_cast<const int8_t*>(val.c_str());
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}
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// Class for name-value pair
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class EXPORT ObjectPair: public ObjectBase
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{
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private:
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std::string name;
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std::shared_ptr<const ObjectBase> val;
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public:
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ObjectPair() {}
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ObjectPair(const std::string& n, const ObjectBase* v):name(n) {val.reset(v);}
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ObjectPair(const std::string* n, const ObjectBase* v):name(*n) {val.reset(v);}
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~ObjectPair() {}
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// Pure virtual overrides
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const ObjectBase* Copy() const override
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{
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auto ret=new ObjectPair;
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ret->name=name; ret->val=val;
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return ret;
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}
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bool Print() const override
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{
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if(!Exist()) return false;
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COUT(NORMAL)<<std::endl<<"Object type: "<<Type()<<std::endl;
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COUT(NORMAL)<<"Name is: "<<Name()<<std::endl;
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COUT(NORMAL)<<"Value type: "<<val->Type()<<std::endl;
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return true;
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}
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std::string Type() const override {return "pair";}
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// Non-default overrides
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std::string Dump() const override { return Name()+"="+val->Dump(); }
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// Own functions
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bool Exist() const {return nullptr!=val.get();}
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const ObjectBase* Get(const std::string& gname) const
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{
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if(gname==name) return val->Copy();
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else return new ObjectError("ObjectPair Get","pair has name "+name+" not "+gname);
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}
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// This function is same as Get but return pointer on constant object
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const ObjectBase* Find(const std::string& gname) const
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{
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if(gname==name) return val.get();
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else return nullptr;
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}
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std::string Name() const {return name;}
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void SetPair(const std::string& n, const ObjectBase* v) {if(!Exist()) {name=n; val.reset(v);}}
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const ObjectBase* Value() const {return val.get();}
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};
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// Class for objects list
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class EXPORT ObjectList: public ObjectBase
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{
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public:
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typedef std::deque<const ObjectBase*> ListValues;
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private:
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std::shared_ptr<ListValues> vals;
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public:
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ObjectList() {vals.reset(new ListValues, [](ListValues* p){for(auto& i: *p) delete i; delete p;});}
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ObjectList(const ObjectBase* o) {vals.reset(new ListValues, [](ListValues* p){for(auto& i: *p) delete i; delete p;}); PushBack(o);}
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~ObjectList() {}
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// Pure virtual overrides
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const ObjectBase* Copy() const override
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{
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auto ret=new ObjectList;
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ret->vals=vals;
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return ret;
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}
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bool Print() const override
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{
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if(!Exist()) return false;
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COUT(NORMAL)<<std::endl<<"Object type: "<<Type()<<std::endl;
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COUT(NORMAL)<<"Number of elements: "<<Size()<<std::endl;
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return true;
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}
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std::string Type() const override {return "list";}
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// Non-default overrides
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std::string Dump() const override
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{
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std::string s("(");
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for(auto& i: *vals) s+=i->Dump()+", ";
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if(vals->size()!=0) s.resize(s.length()-2);
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return s+")";
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}
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// Own functions
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const ObjectBase* At(ListValues::size_type i) const {return (*vals)[i];}
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bool Exist() const {return 0!=vals->size();}
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const ObjectBase* Get(const std::string& gname) const
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{
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const ObjectBase* p=Find(gname);
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return (nullptr==p)?new ObjectError("ObjectList Get","name "+gname+" not found in list"):p->Copy();
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}
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// This function is same as Get but return pointer on constant object
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const ObjectBase* Find(const std::string& gname) const
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{
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const ObjectBase* p;
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for(auto& i: *vals)
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{
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p=nullptr;
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OBType<ObjectPair> pair(i);
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OBType<ObjectList> list(i);
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if(pair) p=pair->Find(gname);
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else if(list) p=list->Find(gname);
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if(nullptr!=p) return p;
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}
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return nullptr;
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}
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ListValues::size_type Size() const {return vals->size();}
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ObjectList* PushBack(const ObjectBase* p) {vals->push_back(p); return this;}
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ObjectList* PushFront(const ObjectBase* p) {vals->push_front(p); return this;}
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};
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typedef const ObjectBase* (*Func)(const ObjectList*);
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typedef int (*ModuleInitFunc)(const void*);
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extern "C" {
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EXPORT void RegisterFunction(const std::string& name, Func func);
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EXPORT int LoadModule(const std::string& name, const void* p, const std::string& modname="");
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}
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template<class T>
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const ObjectBase* Get(const ObjectList* input)
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{
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if(input->Size()!=2) return new ObjectError("GET","incorrect number of arguments");
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OBType<T> ob(input->At(0));
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OBType<ObjectString> name(input->At(1));
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if(!name) return new ObjectError("GET","second argument is not ObjectString");
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if(!ob) return new ObjectError("GET","incorrect type of first argument");
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return ob->Get(name->Value());
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}
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// Simple conversion functions
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inline bool str2double(const char* str, double* res)
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{
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char* pos;
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*res=strtod(str,&pos);
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if('\0'!=*pos) return false; else return true;
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}
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inline bool str2int(const char* str, int64_t* res)
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{
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char* pos;
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*res=strtoll(str,&pos,0);
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if('\0'!=*pos) return false; else return true;
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}
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inline bool str2uint(const char* str, uint64_t* res)
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{
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char* pos;
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*res=strtoull(str,&pos,0);
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if('\0'!=*pos) return false; else return true;
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}
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inline bool str2double(const std::string& str, double* res) {return str2double(str.c_str(),res);}
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inline bool str2int(const std::string& str, int64_t* res) {return str2int(str.c_str(),res);}
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inline bool str2uint(const std::string& str, uint64_t* res) {return str2uint(str.c_str(),res);}
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inline void tolower(std::string& str) {for(auto& p: str) p=tolower(p);}
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inline void tolower(std::string* str) {for(auto& p:*str) p=tolower(p);}
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inline void tolower(char* str) {for(*str=tolower(*str);'\0'!=*str++;*str=tolower(*str));}
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typedef std::list<std::string> WordList;
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EXPORT WordList Split(const std::string& str, const std::string& delims, bool allowempty);
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inline WordList Split(const std::string& str) {return Split(str,std::string(" \t",3),false);}
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inline WordList Split(const char* str) {return Split(std::string(str),std::string(" \t",3),false);}
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inline WordList Split(const std::string& str, bool allowempty) {return Split(str,std::string(" \t",3),allowempty);}
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inline WordList Split(const char* str, bool allowempty) {return Split(std::string(str),std::string(" \t",3),allowempty);}
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inline WordList Split(const std::string& str, const std::string& delims) {return Split(str,delims,false);}
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inline WordList Split(const char* str, const std::string& delims) {return Split(std::string(str),delims,false);}
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inline WordList Split(const std::string& str, const char* delims) {return Split(str,std::string(delims),false);}
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inline WordList Split(const char* str, const char* delims) {return Split(std::string(str),std::string(delims),false);}
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#endif
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