//! The [HVAR (Horizontal Metrics Variation)](https://docs.microsoft.com/en-us/typography/opentype/spec/hvar) table
use super::variations::{self, DeltaSetIndexMap, ItemVariationStore};
include!("../../generated/generated_hvar.rs");
impl<'a> Hvar<'a> {
/// Returns the advance width delta for the specified glyph identifier and
/// normalized variation coordinates.
pub fn advance_width_delta(
&self,
glyph_id: GlyphId,
coords: &[F2Dot14],
) -> Result<Fixed, ReadError> {
variations::advance_delta(
self.advance_width_mapping(),
self.item_variation_store(),
glyph_id,
coords,
)
}
/// Returns the left side bearing delta for the specified glyph identifier and
/// normalized variation coordinates.
pub fn lsb_delta(&self, glyph_id: GlyphId, coords: &[F2Dot14]) -> Result<Fixed, ReadError> {
variations::item_delta(
self.lsb_mapping(),
self.item_variation_store(),
glyph_id,
coords,
)
}
/// Returns the left side bearing delta for the specified glyph identifier and
/// normalized variation coordinates.
pub fn rsb_delta(&self, glyph_id: GlyphId, coords: &[F2Dot14]) -> Result<Fixed, ReadError> {
variations::item_delta(
self.rsb_mapping(),
self.item_variation_store(),
glyph_id,
coords,
)
}
}
#[cfg(test)]
mod tests {
use crate::{tables::variations::DeltaSetIndexMap, FontRef, TableProvider};
use types::{F2Dot14, Fixed, GlyphId};
#[test]
fn advance_deltas() {
let font = FontRef::new(font_test_data::VAZIRMATN_VAR).unwrap();
let hvar = font.hvar().unwrap();
let gid_a = GlyphId::new(1);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(-1.0)])
.unwrap(),
Fixed::from_f64(-113.0)
);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(-0.75)])
.unwrap(),
Fixed::from_f64(-85.0)
);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(-0.5)])
.unwrap(),
Fixed::from_f64(-56.0)
);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(0.0)])
.unwrap(),
Fixed::from_f64(0.0)
);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(0.5)])
.unwrap(),
Fixed::from_f64(30.0)
);
assert_eq!(
hvar.advance_width_delta(gid_a, &[F2Dot14::from_f32(1.0)])
.unwrap(),
Fixed::from_f64(59.0)
);
}
#[test]
fn advance_deltas_from_hvar_with_truncated_adv_index_map() {
let font = FontRef::new(font_test_data::HVAR_WITH_TRUNCATED_ADVANCE_INDEX_MAP).unwrap();
let maxp = font.maxp().unwrap();
let num_glyphs = maxp.num_glyphs();
let hvar = font.hvar().unwrap();
let Ok(DeltaSetIndexMap::Format0(adv_index_map)) = hvar.advance_width_mapping().unwrap()
else {
panic!("Expected DeltaSetIndexMap::Format0 for hvar.advance_width_mapping()");
};
assert!(adv_index_map.map_count() < num_glyphs);
assert_eq!(num_glyphs, 24);
assert_eq!(adv_index_map.map_count(), 15);
let last_mapped_gid = adv_index_map.map_count() - 1;
// We expect the last 10 glyphs to have the same advance width delta as the last mapped glyph.
// Crucially, hvar.advance_width_delta() should not return OutOfBounds for these glyphs.
for idx in last_mapped_gid..num_glyphs {
let gid = GlyphId::new(idx as _);
assert_eq!(
hvar.advance_width_delta(gid, &[F2Dot14::from_f32(1.0)])
.unwrap(),
Fixed::from_f64(100.0)
);
}
}
}
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