use super::AreaChartSeries;
use super::AreaChartSeriesList;
use super::DataLabels;
use super::GapWidth;
use super::OfPieType;
use super::SecondPieSize;
use super::SeriesLines;
use super::VaryColors;
use crate::reader::driver::*;
use crate::structs::Spreadsheet;
use crate::writer::driver::*;
use quick_xml::events::{BytesStart, Event};
use quick_xml::Reader;
use quick_xml::Writer;
use std::io::Cursor;
#[derive(Clone, Default, Debug)]
pub struct OfPieChart {
of_pie_type: OfPieType,
vary_colors: VaryColors,
area_chart_series_list: AreaChartSeriesList,
data_labels: DataLabels,
gap_width: GapWidth,
second_pie_size: SecondPieSize,
series_lines: SeriesLines,
}
impl OfPieChart {
pub fn get_of_pie_type(&self) -> &OfPieType {
&self.of_pie_type
}
pub fn get_of_pie_type_mut(&mut self) -> &mut OfPieType {
&mut self.of_pie_type
}
pub fn set_of_pie_type(&mut self, value: OfPieType) -> &mut OfPieChart {
self.of_pie_type = value;
self
}
pub fn get_vary_colors(&self) -> &VaryColors {
&self.vary_colors
}
pub fn get_vary_colors_mut(&mut self) -> &mut VaryColors {
&mut self.vary_colors
}
pub fn set_vary_colors(&mut self, value: VaryColors) -> &mut OfPieChart {
self.vary_colors = value;
self
}
pub fn get_area_chart_series_list(&self) -> &AreaChartSeriesList {
&self.area_chart_series_list
}
pub fn get_area_chart_series_list_mut(&mut self) -> &mut AreaChartSeriesList {
&mut self.area_chart_series_list
}
pub fn set_area_chart_series_list(&mut self, value: AreaChartSeriesList) -> &mut Self {
self.area_chart_series_list = value;
self
}
pub fn get_data_labels(&self) -> &DataLabels {
&self.data_labels
}
pub fn get_data_labels_mut(&mut self) -> &mut DataLabels {
&mut self.data_labels
}
pub fn set_data_labels(&mut self, value: DataLabels) -> &mut OfPieChart {
self.data_labels = value;
self
}
pub fn get_gap_width(&self) -> &GapWidth {
&self.gap_width
}
pub fn get_gap_width_mut(&mut self) -> &mut GapWidth {
&mut self.gap_width
}
pub fn set_gap_width(&mut self, value: GapWidth) -> &mut OfPieChart {
self.gap_width = value;
self
}
pub fn get_second_pie_size(&self) -> &SecondPieSize {
&self.second_pie_size
}
pub fn get_second_pie_size_mut(&mut self) -> &mut SecondPieSize {
&mut self.second_pie_size
}
pub fn set_second_pie_size(&mut self, value: SecondPieSize) -> &mut OfPieChart {
self.second_pie_size = value;
self
}
pub fn get_series_lines(&self) -> &SeriesLines {
&self.series_lines
}
pub fn get_series_lines_mut(&mut self) -> &mut SeriesLines {
&mut self.series_lines
}
pub fn set_series_lines(&mut self, value: SeriesLines) -> &mut OfPieChart {
self.series_lines = 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) => {
match e.name().0 {
b"c:ser" => {
let mut obj = AreaChartSeries::default();
obj.set_attributes(reader, e);
self.get_area_chart_series_list_mut()
.add_area_chart_series(obj);
}
b"c:dLbls" => {
self.data_labels.set_attributes(reader, e);
}
b"c:serLines" => {
self.series_lines.set_attributes(reader, e);
}
_ => (),
}
},
Event::Empty(ref e) => {
match e.name().0 {
b"c:ofPieType" => {
self.of_pie_type.set_attributes(reader, e);
}
b"c:varyColors" => {
self.vary_colors.set_attributes(reader, e);
}
b"c:gapWidth" => {
self.gap_width.set_attributes(reader, e);
}
b"c:secondPieSize" => {
self.second_pie_size.set_attributes(reader, e);
}
_ => (),
}
},
Event::End(ref e) => {
if e.name().0 == b"c:ofPieChart" {
return;
}
},
Event::Eof => panic!("Error: Could not find {} end element", "c:ofPieChart")
);
}
pub(crate) fn write_to(&self, writer: &mut Writer<Cursor<Vec<u8>>>, spreadsheet: &Spreadsheet) {
write_start_tag(writer, "c:ofPieChart", vec![], false);
self.of_pie_type.write_to(writer);
self.vary_colors.write_to(writer);
for v in self.area_chart_series_list.get_area_chart_series() {
v.write_to(writer, spreadsheet);
}
self.data_labels.write_to(writer);
self.gap_width.write_to(writer);
self.second_pie_size.write_to(writer);
self.series_lines.write_to(writer);
write_end_tag(writer, "c:ofPieChart");
}
}