use std::io::Cursor;
use quick_xml::{
Reader,
Writer,
events::{
BytesStart,
Event,
},
};
use super::NumberReference;
use crate::{
structs::Workbook,
writer::driver::{
write_end_tag,
write_start_tag,
},
xml_read_loop,
};
#[derive(Clone, Default, Debug)]
pub struct Values {
number_reference: NumberReference,
}
impl Values {
#[must_use]
pub fn number_reference(&self) -> &NumberReference {
&self.number_reference
}
#[must_use]
#[deprecated(since = "3.0.0", note = "Use number_reference()")]
pub fn get_number_reference(&self) -> &NumberReference {
self.number_reference()
}
pub fn number_reference_mut(&mut self) -> &mut NumberReference {
&mut self.number_reference
}
#[deprecated(since = "3.0.0", note = "Use number_reference_mut()")]
pub fn get_number_reference_mut(&mut self) -> &mut NumberReference {
self.number_reference_mut()
}
pub fn set_number_reference(&mut self, value: NumberReference) -> &mut Values {
self.number_reference = value;
self
}
pub(crate) fn set_attributes<R: std::io::BufRead>(
&mut self,
reader: &mut Reader<R>,
_e: &BytesStart,
) {
xml_read_loop!(
reader,
Event::Start(ref e) => {
if e.name().0 == b"c:numRef" {
self.number_reference.set_attributes(reader, e);
}
},
Event::End(ref e) => {
if e.name().0 == b"c:val" {
return;
}
},
Event::Eof => panic!("Error: Could not find {} end element", "c:val"),
);
}
pub(crate) fn write_to(&self, writer: &mut Writer<Cursor<Vec<u8>>>, wb: &Workbook) {
write_start_tag(writer, "c:val", vec![], false);
self.number_reference.write_to(writer, wb);
write_end_tag(writer, "c:val");
}
}