/usr/include/ginac/archive.h is in libginac-dev 1.6.6-1.
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*
* Archiving of GiNaC expressions. */
/*
* GiNaC Copyright (C) 1999-2015 Johannes Gutenberg University Mainz, Germany
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef GINAC_ARCHIVE_H
#define GINAC_ARCHIVE_H
#include "ex.h"
#include <iosfwd>
#include <map>
#include <string>
#include <vector>
namespace GiNaC {
class archive;
/** Numerical ID value to refer to an archive_node. */
typedef unsigned archive_node_id;
/** Numerical ID value to refer to a string. */
typedef unsigned archive_atom;
/** This class stores all properties needed to record/retrieve the state
* of one object of class basic (or a derived class). Each property is
* addressed by its name and data type. */
class archive_node
{
friend std::ostream &operator<<(std::ostream &os, const archive_node &ar);
friend std::istream &operator>>(std::istream &is, archive_node &ar);
public:
/** Property data types */
enum property_type {
PTYPE_BOOL,
PTYPE_UNSIGNED,
PTYPE_STRING,
PTYPE_NODE
};
/** Information about a stored property. A vector of these structures
* is returned by get_properties().
* @see get_properties */
struct property_info {
property_info() {}
property_info(property_type t, const std::string &n, unsigned c = 1) : type(t), name(n), count(c) {}
property_type type; /**< Data type of property. */
std::string name; /**< Name of property. */
unsigned count; /**< Number of occurrences. */
};
typedef std::vector<property_info> propinfovector;
/** Archived property (data type, name and associated data) */
struct property {
property() {}
property(archive_atom n, property_type t, unsigned v) : type(t), name(n), value(v) {}
property_type type; /**< Data type of property. */
archive_atom name; /**< Name of property. */
unsigned value; /**< Stored value. */
};
typedef std::vector<property>::const_iterator archive_node_cit;
archive_node() : a(*dummy_ar_creator()), has_expression(false) {} // hack for cint which always requires a default constructor
archive_node(archive &ar) : a(ar), has_expression(false) {}
archive_node(archive &ar, const ex &expr);
const archive_node &operator=(const archive_node &other);
/** Add property of type "bool" to node. */
void add_bool(const std::string &name, bool value);
/** Add property of type "unsigned int" to node. */
void add_unsigned(const std::string &name, unsigned value);
/** Add property of type "string" to node. */
void add_string(const std::string &name, const std::string &value);
/** Add property of type "ex" to node. */
void add_ex(const std::string &name, const ex &value);
/** Retrieve property of type "bool" from node.
* @return "true" if property was found, "false" otherwise */
bool find_bool(const std::string &name, bool &ret, unsigned index = 0) const;
/** Retrieve property of type "unsigned" from node.
* @return "true" if property was found, "false" otherwise */
bool find_unsigned(const std::string &name, unsigned &ret, unsigned index = 0) const;
/** Retrieve property of type "string" from node.
* @return "true" if property was found, "false" otherwise */
bool find_string(const std::string &name, std::string &ret, unsigned index = 0) const;
/** Find the location in the vector of properties of the first/last
* property with a given name. */
archive_node_cit find_first(const std::string &name) const;
archive_node_cit find_last(const std::string &name) const;
/** Retrieve property of type "ex" from node.
* @return "true" if property was found, "false" otherwise */
bool find_ex(const std::string &name, ex &ret, lst &sym_lst, unsigned index = 0) const;
/** Retrieve property of type "ex" from the node if it is known
* that this node in fact contains such a property at the given
* location. This is much more efficient than the preceding function. */
void find_ex_by_loc(archive_node_cit loc, ex &ret, lst &sym_lst) const;
/** Retrieve property of type "ex" from node, returning the node of
* the sub-expression. */
const archive_node &find_ex_node(const std::string &name, unsigned index = 0) const;
/** Return vector of properties stored in node. */
void get_properties(propinfovector &v) const;
ex unarchive(lst &sym_lst) const;
bool has_same_ex_as(const archive_node &other) const;
bool has_ex() const {return has_expression;}
ex get_ex() const {return e;}
void forget();
void printraw(std::ostream &os) const;
private:
static archive* dummy_ar_creator();
/** Reference to the archive to which this node belongs. */
archive &a;
/** Vector of stored properties. */
std::vector<property> props;
/** Flag indicating whether a cached unarchived representation of this node exists. */
mutable bool has_expression;
/** The cached unarchived representation of this node (if any). */
mutable ex e;
};
typedef basic* (*synthesize_func)();
typedef std::map<std::string, synthesize_func> unarchive_map_t;
class unarchive_table_t
{
static int usecount;
static unarchive_map_t* unarch_map;
public:
unarchive_table_t();
~unarchive_table_t();
synthesize_func find(const std::string& classname) const;
void insert(const std::string& classname, synthesize_func f);
};
static unarchive_table_t unarch_table_instance;
/** Helper macros to register a class with (un)archiving (a.k.a.
* (de)serialization).
*
* Usage: put
*
* GINAC_DECLARE_UNARCHIVER(myclass);
*
* into the header file (in the global or namespace scope), and
*
* GINAC_BIND_UNARCHIVER(myclass);
*
* into the source file.
*
* Effect: the `myclass' (being a class derived directly or indirectly
* from GiNaC::basic) can be archived and unarchived.
*
* Note: you need to use GINAC_{DECLARE,BIND}_UNARCHIVER incantations
* in order to make your class (un)archivable _even if your class does
* not overload `read_archive' method_. Sorry for inconvenience.
*
* How it works:
*
* The `basic' class has a `read_archive' virtual method which reads an
* expression from archive. Derived classes can overload that method.
* There's a small problem, though. On unarchiving all we have is a set
* of named byte streams. In C++ the class name (as written in the source
* code) has nothing to do with its actual type. Thus, we need establish
* a correspondence ourselves. To do so we maintain a `class_name' =>
* `function_pointer' table (see the unarchive_table_t class above).
* Every function in this table is supposed to create a new object of
* the `class_name' type. The `archive_node' class uses that table to
* construct an object of correct type. Next it invokes read_archive
* virtual method of newly created object, which does the actual job.
*
* Note: this approach is very simple-minded (it does not handle classes
* with same names from different namespaces, multiple inheritance, etc),
* but it happens to work surprisingly well.
*/
#define GINAC_DECLARE_UNARCHIVER(classname) \
class classname ## _unarchiver \
{ \
static int usecount; \
public: \
static GiNaC::basic* create(); \
classname ## _unarchiver(); \
~ classname ## _unarchiver(); \
}; \
static classname ## _unarchiver classname ## _unarchiver_instance
#define GINAC_BIND_UNARCHIVER(classname) \
classname ## _unarchiver::classname ## _unarchiver() \
{ \
static GiNaC::unarchive_table_t table; \
if (usecount++ == 0) { \
table.insert(std::string(#classname), \
&(classname ## _unarchiver::create)); \
} \
} \
GiNaC::basic* classname ## _unarchiver::create() \
{ \
return new classname(); \
} \
classname ## _unarchiver::~ classname ## _unarchiver() { } \
int classname ## _unarchiver::usecount = 0
/** This class holds archived versions of GiNaC expressions (class ex).
* An archive can be constructed from an expression and then written to
* a stream; or it can be read from a stream and then unarchived, yielding
* back the expression. Archives can hold multiple expressions which can
* be referred to by name or index number. The main component of the
* archive class is a vector of archive_nodes which each store one object
* of class basic (or a derived class). */
class archive
{
friend std::ostream &operator<<(std::ostream &os, const archive &ar);
friend std::istream &operator>>(std::istream &is, archive &ar);
public:
archive() {}
~archive() {}
/** Construct archive from expression using the default name "ex". */
archive(const ex &e) {archive_ex(e, "ex");}
/** Construct archive from expression using the specified name. */
archive(const ex &e, const char *n) {archive_ex(e, n);}
/** Archive an expression.
* @param e the expression to be archived
* @param name name under which the expression is stored */
void archive_ex(const ex &e, const char *name);
/** Retrieve expression from archive by name.
* @param sym_lst list of pre-defined symbols
* @param name name of expression */
ex unarchive_ex(const lst &sym_lst, const char *name) const;
/** Retrieve expression from archive by index.
* @param sym_lst list of pre-defined symbols
* @param index index of expression
* @see count_expressions */
ex unarchive_ex(const lst &sym_lst, unsigned index = 0) const;
/** Retrieve expression and its name from archive by index.
* @param sym_lst list of pre-defined symbols
* @param name receives the name of the expression
* @param index index of expression
* @see count_expressions */
ex unarchive_ex(const lst &sym_lst, std::string &name, unsigned index = 0) const;
/** Return number of archived expressions. */
unsigned num_expressions() const;
/** Return reference to top node of an expression specified by index. */
const archive_node &get_top_node(unsigned index = 0) const;
/** Clear all archived expressions. */
void clear();
archive_node_id add_node(const archive_node &n);
archive_node &get_node(archive_node_id id);
void forget();
void printraw(std::ostream &os) const;
private:
/** Vector of archived nodes. */
std::vector<archive_node> nodes;
/** Archived expression descriptor. */
struct archived_ex {
archived_ex() {}
archived_ex(archive_atom n, archive_node_id node) : name(n), root(node) {}
archive_atom name; /**< Name of expression. */
archive_node_id root; /**< ID of root node. */
};
/** Vector of archived expression descriptors. */
std::vector<archived_ex> exprs;
public:
archive_atom atomize(const std::string &s) const;
const std::string &unatomize(archive_atom id) const;
private:
/** Vector of atomized strings (using a vector allows faster unarchiving). */
mutable std::vector<std::string> atoms;
/** The map of from strings to indices of the atoms vectors allows for
* faster archiving.
*/
typedef std::map<std::string, archive_atom>::const_iterator inv_at_cit;
mutable std::map<std::string, archive_atom> inverse_atoms;
/** Map of stored expressions to nodes for faster archiving */
typedef std::map<ex, archive_node_id, ex_is_less>::iterator mapit;
mutable std::map<ex, archive_node_id, ex_is_less> exprtable;
};
std::ostream &operator<<(std::ostream &os, const archive &ar);
std::istream &operator>>(std::istream &is, archive &ar);
} // namespace GiNaC
#endif // ndef GINAC_ARCHIVE_H
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