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//! Font handling.
mod book;
mod variant;
pub use self::book::{FontBook, FontFlags, FontInfo};
pub use self::variant::{FontStretch, FontStyle, FontVariant, FontWeight};
use std::fmt::{self, Debug, Formatter};
use std::hash::{Hash, Hasher};
use std::sync::Arc;
use ttf_parser::GlyphId;
use self::book::find_name;
use crate::eval::Cast;
use crate::geom::Em;
use crate::util::Buffer;
/// An OpenType font.
#[derive(Clone)]
pub struct Font(Arc<Repr>);
/// The internal representation of a font.
struct Repr {
/// The raw font data, possibly shared with other fonts from the same
/// collection. The vector's allocation must not move, because `ttf` points
/// into it using unsafe code.
data: Buffer,
/// The font's index in the buffer.
index: u32,
/// Metadata about the font.
info: FontInfo,
/// The font's metrics.
metrics: FontMetrics,
/// The underlying ttf-parser face.
ttf: ttf_parser::Face<'static>,
/// The underlying rustybuzz face.
rusty: rustybuzz::Face<'static>,
}
impl Font {
/// Parse a font from data and collection index.
pub fn new(data: Buffer, index: u32) -> Option<Self> {
// Safety:
// - The slices's location is stable in memory:
// - We don't move the underlying vector
// - Nobody else can move it since we have a strong ref to the `Arc`.
// - The internal 'static lifetime is not leaked because its rewritten
// to the self-lifetime in `ttf()`.
let slice: &'static [u8] =
unsafe { std::slice::from_raw_parts(data.as_ptr(), data.len()) };
let ttf = ttf_parser::Face::parse(slice, index).ok()?;
let rusty = rustybuzz::Face::from_slice(slice, index)?;
let metrics = FontMetrics::from_ttf(&ttf);
let info = FontInfo::from_ttf(&ttf)?;
Some(Self(Arc::new(Repr { data, index, info, metrics, ttf, rusty })))
}
/// Parse all fonts in the given data.
pub fn iter(data: Buffer) -> impl Iterator<Item = Self> {
let count = ttf_parser::fonts_in_collection(&data).unwrap_or(1);
(0..count).filter_map(move |index| Self::new(data.clone(), index))
}
/// The underlying buffer.
pub fn data(&self) -> &Buffer {
&self.0.data
}
/// The font's index in the buffer.
pub fn index(&self) -> u32 {
self.0.index
}
/// The font's metadata.
pub fn info(&self) -> &FontInfo {
&self.0.info
}
/// The font's metrics.
pub fn metrics(&self) -> &FontMetrics {
&self.0.metrics
}
/// The number of font units per one em.
pub fn units_per_em(&self) -> f64 {
self.0.metrics.units_per_em
}
/// Convert from font units to an em length.
pub fn to_em(&self, units: impl Into<f64>) -> Em {
Em::from_units(units, self.units_per_em())
}
/// Look up the horizontal advance width of a glyph.
pub fn advance(&self, glyph: u16) -> Option<Em> {
self.0
.ttf
.glyph_hor_advance(GlyphId(glyph))
.map(|units| self.to_em(units))
}
/// Lookup a name by id.
pub fn find_name(&self, id: u16) -> Option<String> {
find_name(&self.0.ttf, id)
}
/// A reference to the underlying `ttf-parser` face.
pub fn ttf(&self) -> &ttf_parser::Face<'_> {
// We can't implement Deref because that would leak the
// internal 'static lifetime.
&self.0.ttf
}
/// A reference to the underlying `rustybuzz` face.
pub fn rusty(&self) -> &rustybuzz::Face<'_> {
// We can't implement Deref because that would leak the
// internal 'static lifetime.
&self.0.rusty
}
}
impl Hash for Font {
fn hash<H: Hasher>(&self, state: &mut H) {
self.0.data.hash(state);
self.0.index.hash(state);
}
}
impl Debug for Font {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
write!(f, "Font({})", self.info().family)
}
}
impl Eq for Font {}
impl PartialEq for Font {
fn eq(&self, other: &Self) -> bool {
self.0.data == other.0.data && self.0.index == other.0.index
}
}
/// Metrics of a font.
#[derive(Debug, Copy, Clone)]
pub struct FontMetrics {
/// How many font units represent one em unit.
pub units_per_em: f64,
/// The distance from the baseline to the typographic ascender.
pub ascender: Em,
/// The approximate height of uppercase letters.
pub cap_height: Em,
/// The approximate height of non-ascending lowercase letters.
pub x_height: Em,
/// The distance from the baseline to the typographic descender.
pub descender: Em,
/// Recommended metrics for a strikethrough line.
pub strikethrough: LineMetrics,
/// Recommended metrics for an underline.
pub underline: LineMetrics,
/// Recommended metrics for an overline.
pub overline: LineMetrics,
}
impl FontMetrics {
/// Extract the font's metrics.
pub fn from_ttf(ttf: &ttf_parser::Face) -> Self {
let units_per_em = f64::from(ttf.units_per_em());
let to_em = |units| Em::from_units(units, units_per_em);
let ascender = to_em(ttf.typographic_ascender().unwrap_or(ttf.ascender()));
let cap_height = ttf.capital_height().filter(|&h| h > 0).map_or(ascender, to_em);
let x_height = ttf.x_height().filter(|&h| h > 0).map_or(ascender, to_em);
let descender = to_em(ttf.typographic_descender().unwrap_or(ttf.descender()));
let strikeout = ttf.strikeout_metrics();
let underline = ttf.underline_metrics();
let strikethrough = LineMetrics {
position: strikeout.map_or(Em::new(0.25), |s| to_em(s.position)),
thickness: strikeout
.or(underline)
.map_or(Em::new(0.06), |s| to_em(s.thickness)),
};
let underline = LineMetrics {
position: underline.map_or(Em::new(-0.2), |s| to_em(s.position)),
thickness: underline
.or(strikeout)
.map_or(Em::new(0.06), |s| to_em(s.thickness)),
};
let overline = LineMetrics {
position: cap_height + Em::new(0.1),
thickness: underline.thickness,
};
Self {
units_per_em,
ascender,
cap_height,
x_height,
descender,
strikethrough,
underline,
overline,
}
}
/// Look up a vertical metric.
pub fn vertical(&self, metric: VerticalFontMetric) -> Em {
match metric {
VerticalFontMetric::Ascender => self.ascender,
VerticalFontMetric::CapHeight => self.cap_height,
VerticalFontMetric::XHeight => self.x_height,
VerticalFontMetric::Baseline => Em::zero(),
VerticalFontMetric::Descender => self.descender,
}
}
}
/// Metrics for a decorative line.
#[derive(Debug, Copy, Clone)]
pub struct LineMetrics {
/// The vertical offset of the line from the baseline. Positive goes
/// upwards, negative downwards.
pub position: Em,
/// The thickness of the line.
pub thickness: Em,
}
/// Identifies a vertical metric of a font.
#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash, Cast)]
pub enum VerticalFontMetric {
/// The font's ascender, which typically exceeds the height of all glyphs.
Ascender,
/// The approximate height of uppercase letters.
CapHeight,
/// The approximate height of non-ascending lowercase letters.
XHeight,
/// The baseline on which the letters rest.
Baseline,
/// The font's ascender, which typically exceeds the depth of all glyphs.
Descender,
}
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