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https://github.com/tfussell/xlnt.git
synced 2024-03-22 13:11:17 +08:00
a8fa6637fe
workbook::operator== was comparing the value of the raw pointer held by two std::unique_ptr's. By definition, this is always false in a well behaved program (if it's true, things go bang...). This then led to adding equality operators to nearly every other struct/class in xlnt to support workbook::operator== workbook::load and the non-default ctors for loading data from a file are tested using the now functional equality operator NOTE: a large number of copy ctors need updates/fixing. Many should be defaulted
145 lines
4.5 KiB
C++
145 lines
4.5 KiB
C++
#include <xlnt/packaging/ext_list.hpp>
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#include <algorithm>
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#include <detail/external/include_libstudxml.hpp>
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namespace {
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// send elements straight from parser to serialiser without modification
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// runs until the end of the current open element
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xlnt::uri roundtrip(xml::parser& p, xml::serializer &s)
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{
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xlnt::uri ext_uri;
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int nest_level = 0;
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while (nest_level > 0 || (p.peek() != xml::parser::event_type::end_element && p.peek() != xml::parser::event_type::eof))
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{
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switch (p.next())
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{
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case xml::parser::start_element:
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{
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++nest_level;
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auto attribs = p.attribute_map();
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s.start_element(p.qname());
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if (nest_level == 1)
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{
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ext_uri = xlnt::uri(attribs.at(xml::qname("uri")).value);
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}
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auto current_ns = p.namespace_();
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p.peek(); // to look into the new namespace
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auto new_ns = p.namespace_(); // only before attributes?
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if (new_ns != current_ns)
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{
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auto pref = p.prefix();
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s.namespace_decl(new_ns, pref);
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}
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for (auto &ele : attribs)
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{
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s.attribute(ele.first.string(), ele.second.value);
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}
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break;
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}
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case xml::parser::end_element:
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{
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--nest_level;
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s.end_element();
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break;
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}
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case xml::parser::start_namespace_decl:
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{
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s.namespace_decl(p.namespace_(), p.prefix());
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break;
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}
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case xml::parser::end_namespace_decl:
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{ // nothing required here
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break;
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}
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case xml::parser::characters:
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{
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s.characters(p.value());
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break;
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}
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case xml::parser::eof:
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return ext_uri;
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case xml::parser::start_attribute:
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case xml::parser::end_attribute:
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default:
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break;
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}
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}
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return ext_uri;
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}
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}
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namespace xlnt {
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ext_list::ext::ext(xml::parser &parser, const std::string& ns)
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{
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std::ostringstream serialisation_stream;
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xml::serializer s(serialisation_stream, "", 0);
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s.start_element(xml::qname(ns, "wrap")); // wrapper for the xmlns declaration
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s.namespace_decl(ns, "");
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extension_ID_ = roundtrip(parser, s);
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s.end_element(xml::qname(ns, "wrap"));
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serialised_value_ = serialisation_stream.str();
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}
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ext_list::ext::ext(const uri &ID, const std::string &serialised)
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: extension_ID_(ID), serialised_value_(serialised)
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{}
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void ext_list::ext::serialise(xml::serializer &serialiser, const std::string& ns)
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{
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std::istringstream ser(serialised_value_);
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xml::parser p(ser, "", xml::parser::receive_default);
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p.next_expect(xml::parser::event_type::start_element, xml::qname(ns, "wrap"));
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roundtrip(p, serialiser);
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p.next_expect(xml::parser::event_type::end_element, xml::qname(ns, "wrap"));
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}
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ext_list::ext_list(xml::parser &parser, const std::string& ns)
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{
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// begin with the start element already parsed
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while (parser.peek() == xml::parser::start_element)
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{
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extensions_.push_back(ext(parser, ns));
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}
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// end without parsing the end element
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}
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void ext_list::serialize(xml::serializer &serialiser, const std::string& ns)
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{
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serialiser.start_element(ns, "extLst");
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for (auto &ext : extensions_)
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{
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ext.serialise(serialiser, ns);
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}
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serialiser.end_element();
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}
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void ext_list::add_extension(const uri &ID, const std::string &element)
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{
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extensions_.push_back(ext{ID, element});
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}
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bool ext_list::has_extension(const uri &extension_uri) const
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{
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return extensions_.end() != std::find_if(extensions_.begin(), extensions_.end(),
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[&extension_uri](const ext &ext) { return extension_uri == ext.extension_ID_; });
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}
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const ext_list::ext &ext_list::extension(const uri &extension_uri) const
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{
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return *std::find_if(extensions_.begin(), extensions_.end(),
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[&extension_uri](const ext &ext) { return extension_uri == ext.extension_ID_; });
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}
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const std::vector<ext_list::ext> &ext_list::extensions() const
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{
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return extensions_;
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}
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bool ext_list::operator==(const ext_list &rhs) const
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{
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return std::equal(extensions_.begin(), extensions_.end(), rhs.extensions_.begin(), rhs.extensions_.end());
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}
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} |