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rapidxml_predicates.hpp
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//
// Created by dave on 29/07/2024.
//
#ifndef RAPIDXML_RAPIDXML_PREDICATES_HPP
#define RAPIDXML_RAPIDXML_PREDICATES_HPP
#include <string_view>
#include <list>
#include "rapidxml_generator.hpp"
#include "rapidxml.hpp"
namespace rapidxml {
template<typename Ch> class xpath;
namespace internal {
template<typename Ch>
class xpath_base;
template<typename Ch=char>
class name : public rapidxml::internal::xpath_base<Ch> {
private:
std::basic_string<Ch> m_name;
std::optional<std::basic_string<Ch>> m_xmlns;
public:
explicit name(std::basic_string_view<Ch> n)
: xpath_base<Ch>(), m_name(n) {}
explicit name(std::basic_string<Ch> const & xmlns, std::basic_string_view<Ch> n)
: xpath_base<Ch>(), m_name(n), m_xmlns(xmlns) {}
bool do_match(const xml_node<Ch> & t) override {
if (m_xmlns.has_value() && t.xmlns() != m_xmlns.value()) return false;
return (t.type() == node_type::node_element) && (t.name() == m_name || m_name == "*");
}
};
template<typename Ch=char>
class value : public rapidxml::internal::xpath_base<Ch> {
private:
std::basic_string<Ch> m_value;
public:
explicit value(std::basic_string_view<Ch> v)
: xpath_base<Ch>(), m_value(v) {}
bool do_match(const xml_node<Ch> & t) override {
return (t.type() == node_type::node_element) && (t.value() == m_value);
}
};
template<typename Ch=char>
class xmlns : public rapidxml::internal::xpath_base<Ch> {
private:
std::basic_string<Ch> m_xmlns;
public:
explicit xmlns(std::basic_string_view<Ch> v)
: xpath_base<Ch>(), m_xmlns(v) {}
bool do_match(const xml_node<Ch> & t) override {
return (t.type() == node_type::node_element) && (t.xmlns() == m_xmlns);
}
};
template<typename Ch=char>
class attr : public rapidxml::internal::xpath_base<Ch> {
private:
std::basic_string<Ch> m_name;
std::basic_string<Ch> m_value;
std::optional<std::basic_string<Ch>> m_xmlns;
public:
explicit attr(std::basic_string_view<Ch> n, std::basic_string_view<Ch> v)
: xpath_base<Ch>(), m_name(n), m_value(v) {}
explicit attr(std::basic_string<Ch> const & x, std::basic_string_view<Ch> n, std::basic_string_view<Ch> v)
: xpath_base<Ch>(), m_name(n), m_value(v), m_xmlns(x) {}
bool do_match(const xml_node<Ch> & t) override {
if (t.type() != node_type::node_element) return false;
for (auto const & attr : t.attributes()) {
if (m_xmlns.has_value()) {
if (m_name == "*" || attr.local_name() != m_name) continue;
if (attr.xmlns() != m_xmlns.value()) continue;
} else {
if (m_name == "*" || attr.name() != m_name) continue;
}
return attr.value() == m_value;
}
return false;
}
};
template<typename Ch=char>
class root : public rapidxml::internal::xpath_base<Ch> {
public:
root() = default;
generator<xml_node<Ch> &> do_gather(xml_node<Ch> & t) override {
for (auto & x : t.children()) {
co_yield x;
}
}
bool do_match(const xml_node<Ch> & t) override {
return t.type() == node_type::node_document || t.type() == node_type::node_element;
}
};
template<typename Ch=char>
class any : public rapidxml::internal::xpath_base<Ch> {
public:
any() = default;
generator<xml_node<Ch> &> do_gather(xml_node<Ch> & t) override {
co_yield t; // self
for (auto & x : t.descendants()) {
co_yield x;
}
}
bool do_match(const xml_node<Ch> & t) override {
return t.type() == node_type::node_document || t.type() == node_type::node_element;
}
};
template<typename Ch=char>
class xpath_base {
private:
std::list<std::unique_ptr<xpath<Ch>>> m_contexts;
public:
xpath_base() = default;
virtual ~xpath_base() = default;
virtual generator<xml_node<Ch> &> do_gather(xml_node<Ch> & t) {
co_yield t;
}
generator<xml_node<Ch> &> gather(xml_node<Ch> & t) {
for (auto & x : do_gather(t)) {
if (match(x)) co_yield x;
}
}
virtual bool do_match(const xml_node<Ch> & t) = 0;
bool match(xml_node<Ch> & t) {
if (!do_match(t)) {
return false;
}
for(auto & context : m_contexts) {
if (!context->first(t)) {
return false;
}
}
return true;
}
void context(std::unique_ptr<xpath<Ch>> && xp) {
m_contexts.emplace_back(std::move(xp));
}
auto & contexts() const {
return m_contexts;
}
};
std::map<std::string,std::string> xmlns_empty = {};
}
template<typename Ch=char>
class xpath : public internal::xpath_base<Ch> {
private:
std::vector<std::unique_ptr<internal::xpath_base<Ch>>> m_chain;
std::map<std::string,std::string> const & m_xmlns;
public:
bool do_match(const xml_node<Ch> & t) override {
return false;
}
auto const & chain() const {
return m_chain;
}
std::string const & prefix_lookup(std::basic_string_view<Ch> const & prefix) const {
std::basic_string<Ch> p{prefix};
auto it = m_xmlns.find(p);
if (it != m_xmlns.end()) {
return (*it).second;
}
throw std::runtime_error("XPath contains unknown prefix");
}
static void parse_predicate(std::basic_string_view<Ch> const &name, xpath<Ch> &xp, bool inner) {
using xml_doc = xml_document<Ch>;
if (name.starts_with('@')) {
std::basic_string<Ch> text = "<dummy ";
bool star = false;
if (name.starts_with("@*")) {
text += "star ";
text += name.substr(2);
star = true;
} else {
text += name.substr(1);
}
text += "/>";
xml_doc doc;
doc.template parse<parse_fastest>(text);
auto attr = doc.first_node()->first_attribute();
auto colon = attr->name().find(':');
if (colon != xml_attribute<Ch>::view_type::npos) {
auto const & uri = xp.prefix_lookup(attr->name().substr(0, colon));
xp.m_chain.push_back(std::make_unique<internal::attr<Ch>>(uri, attr->local_name(), attr->value()));
} else {
xp.m_chain.push_back(std::make_unique<internal::attr<Ch>>(star ? "*" : attr->name(), attr->value()));
}
} else if (name.starts_with("text()")) {
// text match
std::basic_string<Ch> text = "<dummy text";
text += name.substr(6);
text += "/>";
xml_doc doc;
doc.template parse<parse_fastest>(text);
auto attr = doc.first_node()->first_attribute();
xp.m_chain.push_back(std::make_unique<internal::value<Ch>>(attr->value()));
} else if (name.starts_with("namespace-uri()")) {
// text match
std::basic_string<Ch> text = "<dummy xmlns";
text += name.substr(6);
text += "/>";
xml_doc doc;
doc.template parse<parse_fastest>(text);
auto attr = doc.first_node()->first_attribute();
xp.m_chain.push_back(std::make_unique<internal::xmlns<Ch>>(attr->value()));
} else {
if (xp.m_chain.empty() && inner) {
xp.m_chain.push_back(std::make_unique<internal::root<Ch>>());
}
auto colon = name.find(':');
if (colon != std::basic_string_view<Ch>::npos) {
auto const & uri = xp.prefix_lookup(name.substr(0, colon));
xp.m_chain.push_back(std::make_unique<internal::name<Ch>>(uri, name.substr(colon + 1)));
} else {
xp.m_chain.push_back(std::make_unique<internal::name<Ch>>(name));
}
}
}
static bool parse_inner(std::map<std::string,std::string> & xmlns, std::basic_string_view<Ch> &view, xpath<Ch> &xp, bool first=false, bool inner=false) {
if (view.starts_with("//")) {
xp.m_chain.push_back(std::make_unique<internal::any<Ch>>());
view.remove_prefix(2);
} else if (view.starts_with('/')) {
xp.m_chain.push_back(std::make_unique<internal::root<Ch>>());
view.remove_prefix(1);
} else if (first && !inner) {
xp.m_chain.push_back(std::make_unique<internal::any<Ch>>());
}
for (typename std::basic_string_view<Ch>::size_type i = 0; i != view.size(); ++i) {
switch (view[i]) {
case '/':
case ']':
if (i == 0) throw std::runtime_error("Empty name?");
case '[':
if (i != 0) parse_predicate(view.substr(0, i), xp, inner);
}
switch (view[i]) {
case ']':
view.remove_prefix(i + 1);
if (!inner) throw std::runtime_error("Unexpected ] in input");
return true;
case '[':
view.remove_prefix(i + 1);
xp.m_chain[xp.m_chain.size() - 1]->context(parse_cont(xmlns, view));
return false;
case '/':
view.remove_prefix(i );
return false;
}
}
if (!view.empty()) {
parse_predicate(view, xp, inner);
view.remove_prefix(view.length());
}
return true;
}
static std::unique_ptr<xpath<Ch>> parse_cont(std::map<std::string,std::string> & xmlns, std::basic_string_view<Ch> &view) {
if (view.empty()) throw std::runtime_error("Context expression is empty");
auto xp = std::make_unique<xpath<Ch>>(xmlns);
if (!parse_inner(xmlns, view, *xp, true, true)) {
while (!view.empty()) {
if (parse_inner(xmlns, view, *xp, false, true)) break;
}
}
return xp;
}
static std::unique_ptr<xpath<Ch>> parse(std::map<std::string,std::string> & xmlns, std::basic_string_view<Ch> &view) {
if (view.empty()) throw std::runtime_error("XPath expression is empty");
auto xp = std::make_unique<xpath<Ch>>(xmlns);
if (!parse_inner(xmlns, view, *xp, true, false)) {
while (!view.empty()) {
if (parse_inner(xmlns, view, *xp, false, false)) break;
}
}
return xp;
}
static std::unique_ptr<xpath<Ch>> parse(std::map<std::string,std::string> & xmlns, std::basic_string_view<Ch> const &view) {
std::basic_string_view<Ch> sv(view);
return parse(xmlns, sv);
}
static std::unique_ptr<xpath<Ch>> parse(std::map<std::string,std::string> & xmlns, std::basic_string<Ch> const &view) {
std::basic_string_view<Ch> sv(view);
return parse(xmlns, sv);
}
static std::unique_ptr<xpath<Ch>> parse(std::map<std::string,std::string> & xmlns, const char * view) {
std::basic_string_view<Ch> sv(view);
return parse(xmlns, sv);
}
static std::unique_ptr<xpath<Ch>> parse(std::basic_string_view<Ch> &sv) {
return parse(internal::xmlns_empty, sv);
}
static std::unique_ptr<xpath<Ch>> parse(std::basic_string<Ch> const &view) {
std::basic_string_view<Ch> sv(view);
return parse(internal::xmlns_empty, sv);
}
static std::unique_ptr<xpath<Ch>> parse(std::basic_string_view<Ch> const &view) {
std::basic_string_view<Ch> sv(view);
return parse(internal::xmlns_empty, sv);
}
static std::unique_ptr<xpath<Ch>> parse(const char * view) {
std::basic_string_view<Ch> sv(view);
return parse(internal::xmlns_empty, sv);
}
explicit xpath(std::map<std::string,std::string> & xmlns) : m_xmlns(xmlns) {}
rapidxml::generator<xml_node<Ch> &> all(xml_node<Ch> & current, unsigned int depth = 0) {
if (depth >= m_chain.size()) throw std::logic_error("Depth exceeded");
auto & xp = m_chain[depth];
depth++;
for (auto & r : xp->gather(current)) {
if (depth >= m_chain.size()) {
co_yield r;
} else {
for (auto & t : all(r, depth)) {
co_yield t;
}
}
}
}
xml_node<Ch>::ptr first(xml_node<Ch> & current) {
for (auto &r: all(current)) {
return &r;
}
return {};
}
};
}
#endif //RAPIDXML_RAPIDXML_PREDICATES_HPP