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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#include <orcus/xml_namespace.hpp>
#include <orcus/exception.hpp>
#include <orcus/string_pool.hpp>
#include <unordered_map>
#include <vector>
#include <limits>
#include <sstream>
#include <algorithm>
#include <cassert>
#define ORCUS_DEBUG_XML_NAMESPACE 0
using namespace std;
#if ORCUS_DEBUG_XML_NAMESPACE
#include <cstdio>
#include <iostream>
#endif
namespace orcus {
namespace {
#if ORCUS_DEBUG_XML_NAMESPACE
template<typename _MapType>
void print_map_keys(const _MapType& map_store)
{
cout << "keys: (";
bool first = true;
typename _MapType::const_iterator it = map_store.begin(), it_end = map_store.end();
for (; it != it_end; ++it)
{
if (first)
first = false;
else
cout << " ";
cout << "'" << it->first << "'";
}
cout << ")";
};
#endif
}
typedef std::unordered_map<std::string_view, std::size_t> strid_map_type;
struct xmlns_repository::impl
{
size_t m_predefined_ns_size;
string_pool m_pool; /// storage of live string instances.
std::vector<std::string_view> m_identifiers; /// map strings to numerical identifiers.
strid_map_type m_strid_map; /// string-to-numerical identifiers map for quick lookup.
impl() : m_predefined_ns_size(0) {}
};
xmlns_repository::xmlns_repository() : mp_impl(std::make_unique<impl>()) {}
xmlns_repository::xmlns_repository(xmlns_repository&& other) : mp_impl(std::move(other.mp_impl)) {}
xmlns_repository::~xmlns_repository() = default;
xmlns_repository& xmlns_repository::operator= (xmlns_repository&& other)
{
mp_impl = std::move(other.mp_impl);
return *this;
}
xmlns_id_t xmlns_repository::intern(std::string_view uri)
{
// See if the uri is already registered.
strid_map_type::iterator it = mp_impl->m_strid_map.find(uri);
if (it != mp_impl->m_strid_map.end())
return it->first.data();
try
{
auto r = mp_impl->m_pool.intern(uri);
std::string_view uri_interned = r.first;
if (!uri_interned.empty())
{
// Intern successful.
if (r.second)
{
// This is a new instance. Assign a numerical identifier.
mp_impl->m_strid_map.insert(
strid_map_type::value_type(r.first, mp_impl->m_identifiers.size()));
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_repository::intern: uri='" << uri_interned << "' (" << mp_impl->m_identifiers.size() << ")" << endl;
#endif
mp_impl->m_identifiers.push_back(r.first);
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "pool size=" << mp_impl->m_pool.size() << ", predefined ns size=" << mp_impl->m_predefined_ns_size <<
", identifiers size=" << mp_impl->m_identifiers.size() << ", map size=" << mp_impl->m_strid_map.size() << endl;
#endif
assert(mp_impl->m_pool.size()+mp_impl->m_predefined_ns_size == mp_impl->m_identifiers.size());
assert(mp_impl->m_pool.size()+mp_impl->m_predefined_ns_size == mp_impl->m_strid_map.size());
}
return uri_interned.data();
}
}
catch (const general_error&)
{
}
return XMLNS_UNKNOWN_ID;
}
void xmlns_repository::add_predefined_values(const xmlns_id_t* predefined_ns)
{
if (!predefined_ns)
return;
const xmlns_id_t* val = &predefined_ns[0];
for (; *val; ++val)
{
std::string_view s(*val);
mp_impl->m_strid_map.insert(
strid_map_type::value_type(s, mp_impl->m_identifiers.size()));
mp_impl->m_identifiers.push_back(s);
++mp_impl->m_predefined_ns_size;
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xlmns_repository: predefined ns='" << s << "'" << endl;
#endif
}
}
xmlns_context xmlns_repository::create_context()
{
return xmlns_context(*this);
}
xmlns_id_t xmlns_repository::get_identifier(size_t index) const
{
if (index >= mp_impl->m_identifiers.size())
return XMLNS_UNKNOWN_ID;
// All identifier strings are interned which means they are all null-terminated.
return mp_impl->m_identifiers[index].data();
}
string xmlns_repository::get_short_name(xmlns_id_t ns_id) const
{
size_t index = get_index(ns_id);
if (index == INDEX_NOT_FOUND)
return string("???");
std::ostringstream os;
os << "ns" << index;
return os.str();
}
size_t xmlns_repository::get_index(xmlns_id_t ns_id) const
{
if (!ns_id)
return INDEX_NOT_FOUND;
auto it = mp_impl->m_strid_map.find(std::string_view(ns_id));
if (it == mp_impl->m_strid_map.end())
return INDEX_NOT_FOUND;
return it->second;
}
typedef std::vector<xmlns_id_t> xmlns_list_type;
typedef std::unordered_map<std::string_view, xmlns_list_type> alias_map_type;
struct xmlns_context::impl
{
xmlns_repository* repo = nullptr;
xmlns_list_type m_all_ns; /// all namespaces ever used in this context.
xmlns_list_type m_default;
alias_map_type m_map;
bool m_trim_all_ns = true;
impl() {}
impl(xmlns_repository& _repo) : repo(&_repo) {}
impl(const impl& r) :
repo(r.repo), m_all_ns(r.m_all_ns), m_default(r.m_default), m_map(r.m_map), m_trim_all_ns(r.m_trim_all_ns) {}
};
xmlns_context::xmlns_context() : mp_impl(std::make_unique<impl>()) {}
xmlns_context::xmlns_context(xmlns_repository& repo) : mp_impl(std::make_unique<impl>(repo)) {}
xmlns_context::xmlns_context(const xmlns_context& r) : mp_impl(std::make_unique<impl>(*r.mp_impl)) {}
xmlns_context::xmlns_context(xmlns_context&& r) : mp_impl(std::move(r.mp_impl))
{
r.mp_impl = std::make_unique<impl>();
}
xmlns_context::~xmlns_context() = default;
xmlns_context& xmlns_context::operator= (const xmlns_context& r)
{
xmlns_context tmp(r);
tmp.swap(*this);
return *this;
}
xmlns_context& xmlns_context::operator= (xmlns_context&& r)
{
xmlns_context tmp(std::move(r));
tmp.swap(*this);
return *this;
}
xmlns_id_t xmlns_context::push(std::string_view alias, std::string_view uri)
{
if (!mp_impl->repo)
throw general_error("this context is not associated with any repo.");
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::push: key='" << alias << "', uri='" << uri << "'" << endl;
#endif
mp_impl->m_trim_all_ns = true;
xmlns_id_t id = mp_impl->repo->intern(uri);
std::string_view uri_interned = id ? std::string_view(id) : std::string_view();
if (alias.empty())
{
// empty alias value is associated with default namespace.
mp_impl->m_default.push_back(uri_interned.data());
mp_impl->m_all_ns.push_back(uri_interned.data());
return mp_impl->m_default.back();
}
// See if this alias already exists.
alias_map_type::iterator it = mp_impl->m_map.find(alias);
if (it == mp_impl->m_map.end())
{
// This is the first time this alias is used.
xmlns_list_type nslist;
nslist.push_back(uri_interned.data());
mp_impl->m_all_ns.push_back(uri_interned.data());
std::pair<alias_map_type::iterator,bool> r =
mp_impl->m_map.insert(alias_map_type::value_type(alias, nslist));
if (!r.second)
// insertion failed.
throw general_error("Failed to insert new namespace.");
return nslist.back();
}
// The alias already exists.
xmlns_list_type& nslist = it->second;
nslist.push_back(uri_interned.data());
mp_impl->m_all_ns.push_back(uri_interned.data());
return nslist.back();
}
void xmlns_context::pop(std::string_view alias)
{
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::pop: alias='" << alias << "'" << endl;
#endif
if (alias.empty())
{
// empty alias value is associated with default namespace.
if (mp_impl->m_default.empty())
throw general_error("default namespace stack is empty.");
mp_impl->m_default.pop_back();
return;
}
// See if this alias really exists.
alias_map_type::iterator it = mp_impl->m_map.find(alias);
if (it == mp_impl->m_map.end())
{
std::ostringstream os;
os << "alias named '" << alias << "' was attempted to be popped, but was not found in the stack";
throw general_error(os.str());
}
xmlns_list_type& nslist = it->second;
if (nslist.empty())
throw general_error("namespace stack for this key is empty.");
nslist.pop_back();
}
xmlns_id_t xmlns_context::get(std::string_view alias) const
{
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::get: alias='" << alias << "', default ns stack size="
<< mp_impl->m_default.size() << ", non-default alias count=" << mp_impl->m_map.size();
cout << ", ";
print_map_keys(mp_impl->m_map);
cout << endl;
#endif
if (alias.empty())
return mp_impl->m_default.empty() ? XMLNS_UNKNOWN_ID : mp_impl->m_default.back();
alias_map_type::const_iterator it = mp_impl->m_map.find(alias);
if (it == mp_impl->m_map.end())
{
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::get: alias not in this context" << endl;
#endif
return XMLNS_UNKNOWN_ID;
}
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::get: alias stack size=" << it->second.size() << endl;
#endif
return it->second.empty() ? XMLNS_UNKNOWN_ID : it->second.back();
}
size_t xmlns_context::get_index(xmlns_id_t ns_id) const
{
if (!mp_impl->repo)
throw general_error("this context is not associated with any repo.");
return mp_impl->repo->get_index(ns_id);
}
string xmlns_context::get_short_name(xmlns_id_t ns_id) const
{
if (!mp_impl->repo)
throw general_error("this context is not associated with any repo.");
return mp_impl->repo->get_short_name(ns_id);
}
std::string_view xmlns_context::get_alias(xmlns_id_t ns_id) const
{
alias_map_type::const_iterator it = mp_impl->m_map.begin(), it_end = mp_impl->m_map.end();
for (; it != it_end; ++it)
{
const xmlns_list_type& lst = it->second;
if (lst.empty())
continue;
if (lst.back() == ns_id)
return it->first;
}
return std::string_view{};
}
namespace {
#if ORCUS_DEBUG_XML_NAMESPACE
struct print_ns
{
void operator() (xmlns_id_t ns_id) const
{
const char* p = ns_id;
printf("%p: %s\n", p, p);
}
};
#endif
struct ns_item
{
size_t index;
xmlns_id_t ns;
ns_item(size_t _index, xmlns_id_t _ns) : index(_index), ns(_ns) {}
};
struct less_ns_by_index
{
bool operator() (const ns_item& left, const ns_item& right) const
{
return left.index < right.index;
}
};
class push_back_ns_to_item
{
vector<ns_item>& m_store;
const xmlns_context& m_cxt;
public:
push_back_ns_to_item(vector<ns_item>& store, const xmlns_context& cxt) : m_store(store), m_cxt(cxt) {}
void operator() (xmlns_id_t ns)
{
size_t num_id = m_cxt.get_index(ns);
if (num_id != INDEX_NOT_FOUND)
m_store.push_back(ns_item(num_id, ns));
}
};
class push_back_item_to_ns
{
std::vector<xmlns_id_t>& m_store;
public:
push_back_item_to_ns(std::vector<xmlns_id_t>& store) : m_store(store) {}
void operator() (const ns_item& item)
{
m_store.push_back(item.ns);
}
};
}
std::vector<xmlns_id_t> xmlns_context::get_all_namespaces() const
{
#if ORCUS_DEBUG_XML_NAMESPACE
cout << "xmlns_context::get_all_namespaces: count=" << mp_impl->m_all_ns.size() << endl;
std::for_each(mp_impl->m_all_ns.begin(), mp_impl->m_all_ns.end(), print_ns());
#endif
std::vector<xmlns_id_t> nslist;
if (mp_impl->m_trim_all_ns)
{
xmlns_list_type& all_ns = mp_impl->m_all_ns;
nslist.assign(mp_impl->m_all_ns.begin(), mp_impl->m_all_ns.end());
// Sort it and remove duplicate.
std::sort(all_ns.begin(), all_ns.end());
xmlns_list_type::iterator it_unique_end =
std::unique(all_ns.begin(), all_ns.end());
all_ns.erase(it_unique_end, all_ns.end());
// Now, sort by indices.
vector<ns_item> items;
std::for_each(all_ns.begin(), all_ns.end(), push_back_ns_to_item(items, *this));
std::sort(items.begin(), items.end(), less_ns_by_index());
all_ns.clear();
std::for_each(items.begin(), items.end(), push_back_item_to_ns(all_ns));
mp_impl->m_trim_all_ns = false;
}
nslist.assign(mp_impl->m_all_ns.begin(), mp_impl->m_all_ns.end());
return nslist;
}
void xmlns_context::dump(std::ostream& os) const
{
vector<xmlns_id_t> nslist = get_all_namespaces();
vector<xmlns_id_t>::const_iterator it = nslist.begin(), it_end = nslist.end();
for (; it != it_end; ++it)
{
xmlns_id_t ns_id = *it;
size_t num_id = get_index(ns_id);
if (num_id == INDEX_NOT_FOUND)
continue;
os << "ns" << num_id << "=\"" << ns_id << '"' << endl;
}
}
void xmlns_context::dump_state(std::ostream& os) const
{
os << "namespaces:" << std::endl;
for (xmlns_id_t ns_id : get_all_namespaces())
{
size_t num_id = get_index(ns_id);
if (num_id == INDEX_NOT_FOUND)
continue;
os << " ns" << num_id << ": \"" << ns_id << '"' << std::endl;
}
os << "aliases:" << std::endl;
for (const auto& [alias, ns_list] : mp_impl->m_map)
{
os << " " << alias << ":" << std::endl;
for (const xmlns_id_t ns : ns_list)
os << " - " << ns << std::endl;
}
}
void xmlns_context::swap(xmlns_context& other) noexcept
{
mp_impl.swap(other.mp_impl);
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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