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/*-*-c++-*-
* $Id$
*
* This file is part of plptools.
*
* Copyright (C) 2000 Henner Zeller <hzeller@to.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#ifndef _ENUM_H_
#define _ENUM_H_
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <assert.h>
#include <map>
#include <string>
#include <plpintl.h>
#include <assert.h>
/**
* the Base for the Enum template.
* currently, only purpose is to provide a class type for mapping
* integer enum values to strings in the Enumeration class.
* The mapping is done basically with a STL-multimap.
*
* @author Henner Zeller
*/
class EnumBase {
protected:
/**
* maps integers (typically: enumeration values) to
* Strings. Takes care of the fact, that an Integer may map
* to multiple strings (sometimes multiple enumeration values
* represent the same integer).
*
* Provides a means to get the string representation of an
* integer and vice versa.
*
* @author Henner Zeller
*/
class i2sMapper {
private:
/**
* there can be one value, mapping to multiple
* strings. Therefore, we need a multimap.
*/
typedef std::multimap<long, const char*> i2s_map_t;
/**
* just for the record. Mapping back a string to the
* Integer value in question. Since Symbols must be unique,
* there is only a 1:1 relation as opposed to i2s_map_t. So
* we can use a normal map here.
*
* Since in the usual application, mapping a string back
* to its value is not important performance wise (typically
* in a frontend), so it is implemented as exhaustive search,
* not as extra map. Saves some bits of memrory ..
*/
//typedef map<const char*, long> s2i_map_t;
i2s_map_t stringMap;
public:
/**
* adds a new int -> string mapping
* Does NOT take over responsibility for the
* pointer (i.e. it is not freed), so it is save
* to add constant strings provided in the program code.
*/
void add(long, const char*);
/**
* returns the string representation for this integer.
* If there are multiple strings for this integer,
* return a comma delimited list.
*/
std::string lookup(long) const;
/**
* returns the integer associated with the
* given string or -1 if the value
* is not found (XXX: this should throw
* an exception).
*/
long lookup (const char *) const;
/**
* returns true, if we have an representation for
* the given integer.
*/
bool inRange(long) const;
};
};
/**
* Wrapper class featuring range-checking and string
* representation of enumerated values.
*
* The string representation capability is needed to provide a
* generic input frontend for any Enumeration because text labels
* are needed in GUIs, and, of course, aids debugging, because you
* can provide a readable presentation of an entry if something
* goes wrong.
*
* NOTE, that wrapping an enumeration with this class
* does not mean any performance overhead at all since the
* compiler optimizes the member calls away. Nor does an instance of
* this class use more memory than the use of an usual Enumeration.
* (i.e. sizeof(E) == sizeof(Enum<E>)).
*
* Besides that, it provides a great opportunity to check the
* code and make it bug free, esp. if you've to read the
* Enumeration from some dubious integer source
* (.. to make the dubious integer source bug free ;-)
*
* So there is no reason, <b>not</b> to use this class.
* Alas, you've to provide a StringRepresentation for it, which may
* be tedious for large enumerations. To make the Definition easier
* and more readable, an ENUM_DEFINITION() macro is provided.
*
* @see #ENUM_DEFINITION
* @author Henner Zeller
*/
template<typename E>
class Enum : private EnumBase {
public:
struct sdata {
/**
* The constructor of the static data part.
* You've to provide a constructor for each Enumeration
* you want to wrap with this class. Initializes
* the string Representation map, the readable name
* of this Enumeration and a default value.
*
* The constructor is called automatically on definition,
* so this makes sure, that the static part is initialized
* properly before the program starts.
*/
sdata();
i2sMapper stringRep;
std::string name;
E defaultValue;
};
static sdata staticData;
/**
* The actual value hold by this instance
*/
E value;
public:
/**
* default constructor.
* Initialize with default value.
*/
Enum() : value(staticData.defaultValue) {}
/**
* initialize with Enumeration given.
*/
Enum(E init) : value(init){
// if this hits you and you're sure, that the
// value is right .. is this Enum proper
// initialized in the Enum<E>::sdata::sdata() ?
assert(inRange(init));
}
/**
* initialize with the string representation
* XXX: throw Exception if not found ?
*/
Enum(const std::string& s) : value(getValueFor(s)) {
assert(inRange(value));
}
/**
* assign an Enumeration of this type. In debug
* version, assert, that it is really in the Range of
* this Enumeration.
*/
inline Enum& operator = (E setval) {
value = setval;
assert(inRange(setval));
return *this;
}
inline Enum& operator = (const Enum& rhs) {
if (&rhs != this)
value = rhs.value;
return *this;
}
/**
* returns the enumeration value hold with this
* enum.
*/
inline operator E () const { return value; }
/**
* returns the String representation for the value
* represented by this instance.
*/
std::string toString() const { return getStringFor(value); }
/**
* returns the C string representation for the value
* represented by this instance.
*/
operator const char *() const { return toString().c_str(); }
/**
* This static member returns true, if the integer value
* given fits int the range of this Enumeration. Use this
* to verify input/output.
* Fitting in the range of Enumeration here means, that
* there actually exists a String representation for it,
* so this Enumeration is needed to be initialized properly
* in its Enum<E>::sdata::sdata() constructor, you've to
* provide. For convenience, use the ENUM_DEFINITION() macro
* for this.
*/
static bool inRange(long i) {
return (staticData.stringRep.inRange(i));
}
/**
* returns the Name for this enumeration. Useful for
* error reporting.
*/
static std::string getEnumName() { return staticData.name; }
/**
* gives the String represenatation of a specific
* value of this Enumeration.
*/
static std::string getStringFor(E e) {
return staticData.stringRep.lookup((long) e);
}
/**
* returns the Value for a specific String.
* XXX: throw OutOfRangeException ?
*/
static E getValueFor(const std::string &s) {
// return (E) staticData.stringRep.lookup(s.getCStr());
return (E) staticData.stringRep.lookup(s.c_str());
}
};
template<typename E> typename Enum<E>::sdata Enum<E>::staticData;
/**
* Helper macro to construct an enumeration wrapper Enum<E> for
* a specific enum type.
*
* It defines the static variable holding the static
* information and provides the head of its Constructor.
* You only have to provide the string-mapping additions in the
* constructor body. This macro behaves much like a function declaration,
* i.e. you have to start the constructor with { ..
*
* usage example:
* <pre>
* // declaration of enumeration; somewhere
* class rfsv {
* [...]
* enum PSI_ERROR_CODES { E_PSI_GEN_NONE, E_PSI_GEN_FAIL, E_PSI_GEN_ARG };
* [...]
* };
*
* // definition of the Enum<E> with the appropriate string representations
* ENUM_DEFINITION(rfsv::PSI_ERROR_CODES,
* rfsv::E_PSI_GEN_NONE) {
* stringRep.add(rfsv::E_PSI_GEN_NONE, "no error");
* stringRep.add(rfsv::E_PSI_GEN_FAIL, "general");
* stringRep.add(rfsv::E_PSI_GEN_ARG, "bad argument");
* }
* </pre>
*
* @param EnumName The fully qualified Name of the enum type to be wrapped
* @param init The fully qualified Name of the initialization
* value.
*
* @author Henner Zeller
*/
/**
* The definition of the static variable holding the static
* data for this Enumeration wrapper.
*/
#define ENUM_DEFINITION_BEGIN(EnumName, initWith) \
/** \
* actual definition of the constructor for the static data. \
* This is called implicitly by the definition above. \
*/ \
template <> Enum<EnumName>::sdata::sdata() : \
name(#EnumName),defaultValue(initWith) {
#define ENUM_DEFINITION_END(EnumName) \
} template Enum< EnumName >::sdata Enum< EnumName >::staticData;
/**
* Writes enumeration's string representation.
*/
template <typename E>
inline std::ostream& operator << (std::ostream& out, const Enum<E> &e) {
return out << _(e.toString().c_str());
}
#endif /* _ENUM_H_ */
/*
* Local variables:
* c-basic-offset: 4
* End:
*/
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