/usr/include/rdkit/RDGeneral/Dict.h is in librdkit-dev 201503-3.
This file is owned by root:root, with mode 0o644.
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// Copyright (C) 2003-2008 Greg Landrum and Rational Discovery LLC
//
// @@ All Rights Reserved @@
// This file is part of the RDKit.
// The contents are covered by the terms of the BSD license
// which is included in the file license.txt, found at the root
// of the RDKit source tree.
//
/*! \file Dict.h
\brief Defines the Dict class
*/
#ifndef __RD_DICT_H__
#define __RD_DICT_H__
#include <map>
#include <string>
#include <vector>
#include <boost/any.hpp>
#include <RDGeneral/Exceptions.h>
#include <boost/lexical_cast.hpp>
namespace RDKit{
typedef std::vector<std::string> STR_VECT;
//! \brief The \c Dict class can be used to store objects of arbitrary
//! type keyed by \c strings.
//!
//! The actual storage is done using \c boost::any objects.
//!
class Dict {
public:
typedef std::map<std::string, boost::any> DataType;
Dict(){
_data.clear();
};
Dict(const Dict &other) : _data(other._data) {};
Dict &operator=(const Dict &other) {
_data = other._data;
return *this;
};
//----------------------------------------------------------
//! \brief Returns whether or not the dictionary contains a particular
//! key.
bool hasVal(const char *what) const{
std::string key(what);
return hasVal(key);
};
bool hasVal(const std::string &what) const {
return _data.find(what)!=_data.end();
};
//----------------------------------------------------------
//! Returns the set of keys in the dictionary
/*!
\return a \c STR_VECT
*/
STR_VECT keys() const {
STR_VECT res;
DataType::const_iterator item;
for (item = _data.begin(); item != _data.end(); item++) {
res.push_back(item->first);
}
return res;
}
//----------------------------------------------------------
//! \brief Gets the value associated with a particular key
/*!
\param what the key to lookup
\param res a reference used to return the result
<B>Notes:</b>
- If \c res is a \c std::string, every effort will be made
to convert the specified element to a string using the
\c boost::lexical_cast machinery.
- If the dictionary does not contain the key \c what,
a KeyErrorException will be thrown.
*/
template <typename T>
void getVal(const std::string &what,T &res) const {
res = getVal<T>(what);
};
//! \overload
template <typename T>
T getVal(const std::string &what) const {
DataType::const_iterator pos=_data.find(what);
if(pos==_data.end())
throw KeyErrorException(what);
const boost::any &val = pos->second;
return fromany<T>(val);
}
//! \overload
template <typename T>
T getVal(const char *what,T &res) const { // FIX: it doesn't really fit that this returns T
std::string key(what);
res = getVal<T>(key);
return res;
};
//! \overload
template <typename T>
T getVal(const char *what) const {
std::string key(what);
return getVal<T>(key);
};
//! \overload
void getVal(const std::string &what, std::string &res) const;
//! \overload
void getVal(const char *what, std::string &res) const { getVal(std::string(what),res); };
//----------------------------------------------------------
//! \brief Potentially gets the value associated with a particular key
//! returns true on success/false on failure.
/*!
\param what the key to lookup
\param res a reference used to return the result
<B>Notes:</b>
- If \c res is a \c std::string, every effort will be made
to convert the specified element to a string using the
\c boost::lexical_cast machinery.
- If the dictionary does not contain the key \c what,
a KeyErrorException will be thrown.
*/
template <typename T>
bool getValIfPresent(const std::string &what,T &res) const {
DataType::const_iterator pos=_data.find(what);
if(pos==_data.end())
return false;
const boost::any &val = pos->second;
res = fromany<T>(val);
return true;
};
template <typename T>
bool getValIfPresent(const char *what,T &res) const {
std::string key(what);
return getValIfPresent<T>(key, res);
};
//! \overload
bool getValIfPresent(const std::string &what, std::string &res) const;
//! \overload
bool getValIfPresent(const char *what, std::string &res) const {
return getValIfPresent(std::string(what),res);
};
//----------------------------------------------------------
//! \brief Sets the value associated with a key
/*!
\param what the key to set
\param val the value to store
<b>Notes:</b>
- If \c val is a <tt>const char *</tt>, it will be converted
to a \c std::string for storage.
- If the dictionary already contains the key \c what,
the value will be replaced.
*/
template <typename T>
void setVal(const std::string &what, T &val){
_data[what] = toany(val);
};
//! \overload
template <typename T>
void setVal(const char *what, T &val){
std::string key = what;
setVal(key,val);
};
//! \overload
void setVal(const std::string &what, const char *val){
std::string h(val);
setVal(what,h);
}
//----------------------------------------------------------
//! \brief Clears the value associated with a particular key,
//! removing the key from the dictionary.
/*!
\param what the key to clear
<b>Notes:</b>
- If the dictionary does not contain the key \c what,
a KeyErrorException will be thrown.
*/
void clearVal(const std::string &what) {
if(! this->hasVal(what) ) throw KeyErrorException(what);
_data.erase(what);
};
//! \overload
void clearVal(const char *what) {
std::string key=what;
clearVal(key);
};
//----------------------------------------------------------
//! \brief Clears all keys (and values) from the dictionary.
//!
void reset(){
_data.clear();
};
//----------------------------------------------------------
//! Converts a \c boost::any to type \c T
/*!
\param arg a \c boost::any reference
\returns the converted object of type \c T
*/
template <typename T>
T fromany(const boost::any &arg) const;
//----------------------------------------------------------
//! Converts an instance of type \c T to \c boost::any
/*!
\param arg the object to be converted
\returns a \c boost::any instance
*/
template <typename T>
boost::any toany(T arg) const;
private:
DataType _data; //!< the actual dictionary
};
}
#endif
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