* Archiving of GiNaC expressions. */
/*
- * GiNaC Copyright (C) 1999-2005 Johannes Gutenberg University Mainz, Germany
+ * GiNaC Copyright (C) 1999-2008 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
// Read atoms
unsigned num_atoms = read_unsigned(is);
ar.atoms.resize(num_atoms);
- for (unsigned i=0; i<num_atoms; i++)
+ for (unsigned i=0; i<num_atoms; i++) {
getline(is, ar.atoms[i], '\0');
+ ar.inverse_atoms[ar.atoms[i]] = i;
+ }
// Read expressions
unsigned num_exprs = read_unsigned(is);
* represents the string). */
archive_atom archive::atomize(const std::string &s) const
{
- // Search for string in atoms vector
- std::vector<std::string>::const_iterator i = atoms.begin(), iend = atoms.end();
- archive_atom id = 0;
- while (i != iend) {
- if (*i == s)
- return id;
- i++; id++;
- }
+ // Search for string in inverse_atoms map.
+ inv_at_cit i = inverse_atoms.find(s);
+ if (i!=inverse_atoms.end())
+ return i->second;
// Not found, add to atoms vector
+ archive_atom id = atoms.size();
atoms.push_back(s);
+ inverse_atoms[s] = id;
return id;
}
return e.bp == other.e.bp;
}
+archive_node::archive_node_cit
+ archive_node::find_first(const std::string &name) const
+{
+ archive_atom name_atom = a.atomize(name);
+ for (archive_node_cit i=props.begin(); i!=props.end(); ++i)
+ if (i->name == name_atom)
+ return i;
+ return props.end();;
+}
+
+archive_node::archive_node_cit
+ archive_node::find_last(const std::string &name) const
+{
+ archive_atom name_atom = a.atomize(name);
+ for (archive_node_cit i=props.end(); i!=props.begin();) {
+ --i;
+ if (i->name == name_atom)
+ return i;
+ }
+ return props.end();
+}
void archive_node::add_bool(const std::string &name, bool value)
{
bool archive_node::find_bool(const std::string &name, bool &ret, unsigned index) const
{
archive_atom name_atom = a.atomize(name);
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
unsigned found_index = 0;
while (i != iend) {
if (i->type == PTYPE_BOOL && i->name == name_atom) {
bool archive_node::find_unsigned(const std::string &name, unsigned &ret, unsigned index) const
{
archive_atom name_atom = a.atomize(name);
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
unsigned found_index = 0;
while (i != iend) {
if (i->type == PTYPE_UNSIGNED && i->name == name_atom) {
bool archive_node::find_string(const std::string &name, std::string &ret, unsigned index) const
{
archive_atom name_atom = a.atomize(name);
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
unsigned found_index = 0;
while (i != iend) {
if (i->type == PTYPE_STRING && i->name == name_atom) {
return false;
}
+void archive_node::find_ex_by_loc(archive_node_cit loc, ex &ret, lst &sym_lst)
+ const
+{
+ ret = a.get_node(loc->value).unarchive(sym_lst);
+}
+
bool archive_node::find_ex(const std::string &name, ex &ret, lst &sym_lst, unsigned index) const
{
archive_atom name_atom = a.atomize(name);
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
unsigned found_index = 0;
while (i != iend) {
if (i->type == PTYPE_NODE && i->name == name_atom) {
const archive_node &archive_node::find_ex_node(const std::string &name, unsigned index) const
{
archive_atom name_atom = a.atomize(name);
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
unsigned found_index = 0;
while (i != iend) {
if (i->type == PTYPE_NODE && i->name == name_atom) {
void archive_node::get_properties(propinfovector &v) const
{
v.clear();
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
while (i != iend) {
property_type type = i->type;
std::string name = a.unatomize(i->name);
}
}
+static synthesize_func find_factory_fcn(const std::string& name)
+{
+ static unarchive_table_t the_table;
+ synthesize_func ret = the_table.find(name);
+ return ret;
+}
/** Convert archive node to GiNaC expression. */
ex archive_node::unarchive(lst &sym_lst) const
std::string class_name;
if (!find_string("class", class_name))
throw (std::runtime_error("archive node contains no class name"));
- unarch_func f = find_unarch_func(class_name);
// Call instantiation function
- e = f(*this, sym_lst);
+ synthesize_func factory_fcn = find_factory_fcn(class_name);
+ ptr<basic> obj(factory_fcn());
+ obj->setflag(status_flags::dynallocated);
+ obj->read_archive(*this, sym_lst);
+ e = ex(*obj);
has_expression = true;
return e;
}
+int unarchive_table_t::usecount = 0;
+unarchive_map_t* unarchive_table_t::unarch_map = 0;
+
+unarchive_table_t::unarchive_table_t()
+{
+ if (usecount == 0)
+ unarch_map = new unarchive_map_t();
+ ++usecount;
+}
+
+synthesize_func unarchive_table_t::find(const std::string& classname) const
+{
+ unarchive_map_t::const_iterator i = unarch_map->find(classname);
+ if (i != unarch_map->end())
+ return i->second;
+ throw std::runtime_error(std::string("no unarchiving function for \"")
+ + classname + "\" class");
+}
+
+void unarchive_table_t::insert(const std::string& classname, synthesize_func f)
+{
+ if (unarch_map->find(classname) != unarch_map->end())
+ throw std::runtime_error(std::string("Class \"" + classname
+ + "\" is already registered"));
+ unarch_map->operator[](classname) = f;
+}
+
+unarchive_table_t::~unarchive_table_t()
+{
+ if (--usecount == 0)
+ delete unarch_map;
+}
+
void archive::clear()
{
atoms.clear();
+ inverse_atoms.clear();
exprs.clear();
nodes.clear();
exprtable.clear();
os << "\n";
// Dump properties
- std::vector<property>::const_iterator i = props.begin(), iend = props.end();
+ archive_node_cit i = props.begin(), iend = props.end();
while (i != iend) {
os << " ";
switch (i->type) {