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use crate::GeomBatch;
#[derive(Clone, Copy, Debug, PartialEq)]
pub enum Axis {
Horizontal,
Vertical,
}
#[derive(Debug)]
pub struct GeomBatchStack {
batches: Vec<GeomBatch>,
axis: Axis,
spacing: f64,
}
impl Default for GeomBatchStack {
fn default() -> Self {
GeomBatchStack {
batches: vec![],
axis: Axis::Horizontal,
spacing: 0.0,
}
}
}
impl GeomBatchStack {
pub fn horizontal(batches: Vec<GeomBatch>) -> Self {
GeomBatchStack {
batches,
axis: Axis::Horizontal,
..Default::default()
}
}
#[allow(unused)]
pub fn vertical(batches: Vec<GeomBatch>) -> Self {
GeomBatchStack {
batches,
axis: Axis::Vertical,
..Default::default()
}
}
pub fn set_axis(&mut self, new_value: Axis) {
self.axis = new_value;
}
#[allow(unused)]
pub fn push(&mut self, geom_batch: GeomBatch) {
self.batches.push(geom_batch);
}
pub fn append(&mut self, geom_batches: &mut Vec<GeomBatch>) {
self.batches.append(geom_batches);
}
pub fn spacing(&mut self, spacing: f64) -> &mut Self {
self.spacing = spacing;
self
}
pub fn batch(self) -> GeomBatch {
if self.batches.is_empty() {
return GeomBatch::new();
}
let max_bound_for_axis = self
.batches
.iter()
.map(GeomBatch::get_bounds)
.max_by(|b1, b2| match self.axis {
Axis::Vertical => b1.width().partial_cmp(&b2.width()).unwrap(),
Axis::Horizontal => b1.height().partial_cmp(&b2.height()).unwrap(),
})
.unwrap();
let mut stack_batch = GeomBatch::new();
let mut stack_offset = 0.0;
for mut batch in self.batches {
let bounds = batch.get_bounds();
let alignment_inset = match self.axis {
Axis::Vertical => (max_bound_for_axis.width() - bounds.width()) / 2.0,
Axis::Horizontal => (max_bound_for_axis.height() - bounds.height()) / 2.0,
};
let (dx, dy) = match self.axis {
Axis::Vertical => (alignment_inset, stack_offset),
Axis::Horizontal => (stack_offset, alignment_inset),
};
batch = batch.translate(dx, dy);
stack_batch.append(batch);
stack_offset += self.spacing;
match self.axis {
Axis::Vertical => stack_offset += bounds.height(),
Axis::Horizontal => stack_offset += bounds.width(),
}
}
stack_batch
}
}