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implement writing of rich text phonetic properties and phonetic runs

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This commit is contained in:
Thomas Fussell 2019-07-03 17:47:28 -04:00
parent 7c9443dca9
commit d5172d8bcd
2 changed files with 85 additions and 51 deletions
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2
source/detail/serialization/xlsx_consumer.cpp
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@ -3026,7 +3026,7 @@ rich_text xlsx_consumer::read_rich_text(const xml::qname &parent)
}
else if (text_element == xml::qname(xmlns, "phoneticPr"))
{
phonetic_pr ph(parser().attribute<std::uint32_t>("fontId"));
phonetic_pr ph(parser().attribute<phonetic_pr::font_id_t>("fontId"));
if (parser().attribute_present("type"))
{
ph.type(phonetic_pr::type_from_string(parser().attribute("type")));

134
source/detail/serialization/xlsx_producer.cpp
View File

@ -820,63 +820,97 @@ void xlsx_producer::write_rich_text(const std::string &ns, const xlnt::rich_text
write_start_element(ns, "t");
write_characters(text.plain_text(), text.runs().front().preserve_space);
write_end_element(ns, "t");
return;
}
else
{
for (const auto &run : text.runs())
{
write_start_element(ns, "r");
if (run.second.is_set())
{
write_start_element(ns, "rPr");
if (run.second.get().bold())
{
write_start_element(ns, "b");
write_end_element(ns, "b");
}
if (run.second.get().has_size())
{
write_start_element(ns, "sz");
write_attribute("val", run.second.get().size());
write_end_element(ns, "sz");
}
if (run.second.get().has_color())
{
write_start_element(ns, "color");
write_color(run.second.get().color());
write_end_element(ns, "color");
}
if (run.second.get().has_name())
{
write_start_element(ns, "rFont");
write_attribute("val", run.second.get().name());
write_end_element(ns, "rFont");
}
if (run.second.get().has_family())
{
write_start_element(ns, "family");
write_attribute("val", run.second.get().family());
write_end_element(ns, "family");
}
if (run.second.get().has_scheme())
{
write_start_element(ns, "scheme");
write_attribute("val", run.second.get().scheme());
write_end_element(ns, "scheme");
}
write_end_element(ns, "rPr");
}
write_element(ns, "t", run.first, run.preserve_space);
write_end_element(ns, "r");
}
}
for (const auto &run : text.phonetic_runs())
{
write_start_element(ns, "rPh");
write_attribute("sb", run.start);
write_attribute("eb", run.end);
write_start_element(ns, "t");
write_characters(run.text, run.preserve_space);
write_end_element(ns, "t");
write_end_element(ns, "rPh");
}
for (const auto &run : text.runs())
if (text.has_phonetic_properties())
{
write_start_element(ns, "r");
const auto &phonetic_properties = text.phonetic_properties();
if (run.second.is_set())
write_start_element(ns, "phoneticPr");
write_attribute("fontId", phonetic_properties.font_id());
if (text.phonetic_properties().has_type())
{
write_start_element(ns, "rPr");
if (run.second.get().bold())
{
write_start_element(ns, "b");
write_end_element(ns, "b");
}
if (run.second.get().has_size())
{
write_start_element(ns, "sz");
write_attribute("val", run.second.get().size());
write_end_element(ns, "sz");
}
if (run.second.get().has_color())
{
write_start_element(ns, "color");
write_color(run.second.get().color());
write_end_element(ns, "color");
}
if (run.second.get().has_name())
{
write_start_element(ns, "rFont");
write_attribute("val", run.second.get().name());
write_end_element(ns, "rFont");
}
if (run.second.get().has_family())
{
write_start_element(ns, "family");
write_attribute("val", run.second.get().family());
write_end_element(ns, "family");
}
if (run.second.get().has_scheme())
{
write_start_element(ns, "scheme");
write_attribute("val", run.second.get().scheme());
write_end_element(ns, "scheme");
}
write_end_element(ns, "rPr");
const auto type = phonetic_properties.type();
write_attribute("type", phonetic_properties.type_as_string(type));
}
write_element(ns, "t", run.first, run.preserve_space);
write_end_element(ns, "r");
if (text.phonetic_properties().has_alignment())
{
const auto alignment = phonetic_properties.alignment();
write_attribute("alignment", phonetic_properties.alignment_as_string(alignment));
}
write_end_element(ns, "phoneticPr");
}
}