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de47dfe5c1
This combines `style()`, `boldness()`, `stretchiness()` into a `descriptor()` method which is used when creating `FontTemplate`s for web fonts. Eventually this method will simply read font tables using skrifa. This is the first step. In addition, `family_name()` and `face_name()` are removed. They were only used for debugging and the `FontIdentifier` serves for that. On Windows, this was adding another way in which font loading could fail, without buying us very much. The path or URL to the font is more important when debugging than the names in the font tables. Closes #15103. --- <!-- Thank you for contributing to Servo! Please replace each `[ ]` by `[X]` when the step is complete, and replace `___` with appropriate data: --> - [x] `./mach build -d` does not report any errors - [x] `./mach test-tidy` does not report any errors - [x] These changes do not require tests because they should not change observable behavior. <!-- Also, please make sure that "Allow edits from maintainers" checkbox is checked, so that we can help you if you get stuck somewhere along the way.--> <!-- Pull requests that do not address these steps are welcome, but they will require additional verification as part of the review process. -->
261 lines
8.7 KiB
Rust
261 lines
8.7 KiB
Rust
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
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// NOTE: https://www.chromium.org/directwrite-font-proxy has useful
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// information for an approach that we'll likely need to take when the
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// renderer moves to a sandboxed process.
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use std::cmp::{max, min};
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use std::fmt;
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use std::io::Cursor;
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use std::ops::Deref;
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use std::sync::Arc;
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use app_units::Au;
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use dwrote::{FontFace, FontFile};
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use log::{debug, warn};
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use style::computed_values::font_stretch::T as StyleFontStretch;
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use style::computed_values::font_weight::T as StyleFontWeight;
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use style::values::computed::font::FontStyle as StyleFontStyle;
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use truetype::tables::WindowsMetrics;
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use truetype::value::Read;
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use crate::font::{
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FontMetrics, FontTableMethods, FontTableTag, FractionalPixel, PlatformFontMethods,
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};
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use crate::font_cache_thread::FontIdentifier;
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use crate::font_template::FontTemplateDescriptor;
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use crate::text::glyph::GlyphId;
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// 1em = 12pt = 16px, assuming 72 points per inch and 96 px per inch
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fn pt_to_px(pt: f64) -> f64 {
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pt / 72. * 96.
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}
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fn em_to_px(em: f64) -> f64 {
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em * 16.
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}
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fn au_from_em(em: f64) -> Au {
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Au::from_f64_px(em_to_px(em))
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}
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fn au_from_pt(pt: f64) -> Au {
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Au::from_f64_px(pt_to_px(pt))
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}
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pub struct FontTable {
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data: Vec<u8>,
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}
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impl FontTable {
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pub fn wrap(data: &[u8]) -> FontTable {
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FontTable {
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data: data.to_vec(),
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}
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}
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}
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impl FontTableMethods for FontTable {
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fn buffer(&self) -> &[u8] {
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&self.data
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}
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}
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#[macro_export]
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/// Packs the components of a font tag name into 32 bytes, while respecting the
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/// necessary Rust 4-byte alignment for pointers. This is similar to
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/// [`crate::ot_tag`], but the bytes are reversed.
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macro_rules! font_tag {
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($t1:expr, $t2:expr, $t3:expr, $t4:expr) => {
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(($t4 as u32) << 24) | (($t3 as u32) << 16) | (($t2 as u32) << 8) | ($t1 as u32)
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};
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}
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#[derive(Debug)]
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pub struct PlatformFont {
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face: Nondebug<FontFace>,
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/// A reference to this data used to create this [`PlatformFont`], ensuring the
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/// data stays alive of the lifetime of this struct.
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_data: Arc<Vec<u8>>,
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em_size: f32,
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du_to_px: f32,
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scaled_du_to_px: f32,
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}
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struct Nondebug<T>(T);
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impl<T> fmt::Debug for Nondebug<T> {
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fn fmt(&self, _f: &mut fmt::Formatter) -> fmt::Result {
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Ok(())
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}
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}
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impl<T> Deref for Nondebug<T> {
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type Target = T;
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fn deref(&self) -> &T {
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&self.0
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}
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}
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impl PlatformFontMethods for PlatformFont {
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fn new_from_data(
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_font_identifier: FontIdentifier,
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data: Arc<Vec<u8>>,
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face_index: u32,
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pt_size: Option<Au>,
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) -> Result<Self, &'static str> {
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let font_file = FontFile::new_from_data(data.clone()).ok_or("Could not create FontFile")?;
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let face = font_file
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.create_face(face_index, dwrote::DWRITE_FONT_SIMULATIONS_NONE)
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.map_err(|_| "Could not create FontFace")?;
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let pt_size = pt_size.unwrap_or(au_from_pt(12.));
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let du_per_em = face.metrics().metrics0().designUnitsPerEm as f32;
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let em_size = pt_size.to_f32_px() / 16.;
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let design_units_per_pixel = du_per_em / 16.;
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let design_units_to_pixels = 1. / design_units_per_pixel;
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let scaled_design_units_to_pixels = em_size / design_units_per_pixel;
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Ok(PlatformFont {
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face: Nondebug(face),
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_data: data,
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em_size,
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du_to_px: design_units_to_pixels,
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scaled_du_to_px: scaled_design_units_to_pixels,
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})
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}
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fn descriptor(&self) -> FontTemplateDescriptor {
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// We need the font (DWriteFont) in order to be able to query things like
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// the family name, face name, weight, etc. On Windows 10, the
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// DWriteFontFace3 interface provides this on the FontFace, but that's only
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// available on Win10+.
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//
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// Instead, we do the parsing work using the truetype crate for raw fonts.
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// We're just extracting basic info, so this is sufficient for now.
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let windows_metrics_bytes = self.face.get_font_table(font_tag!('O', 'S', '/', '2'));
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if windows_metrics_bytes.is_none() {
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warn!("Could not find OS/2 table in font.");
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return FontTemplateDescriptor::default();
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}
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let mut cursor = Cursor::new(windows_metrics_bytes.as_ref().unwrap());
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let Ok(table) = WindowsMetrics::read(&mut cursor) else {
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warn!("Could not read OS/2 table in font.");
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return FontTemplateDescriptor::default();
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};
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let (weight_val, width_val, italic_bool) = match table {
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WindowsMetrics::Version0(ref m) => {
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(m.weight_class, m.width_class, m.selection_flags.0 & 1 == 1)
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},
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WindowsMetrics::Version1(ref m) => {
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(m.weight_class, m.width_class, m.selection_flags.0 & 1 == 1)
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},
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WindowsMetrics::Version2(ref m) |
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WindowsMetrics::Version3(ref m) |
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WindowsMetrics::Version4(ref m) => {
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(m.weight_class, m.width_class, m.selection_flags.0 & 1 == 1)
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},
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WindowsMetrics::Version5(ref m) => {
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(m.weight_class, m.width_class, m.selection_flags.0 & 1 == 1)
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},
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};
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let weight = StyleFontWeight::from_float(weight_val as f32);
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let stretch = match min(9, max(1, width_val)) {
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1 => StyleFontStretch::ULTRA_CONDENSED,
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2 => StyleFontStretch::EXTRA_CONDENSED,
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3 => StyleFontStretch::CONDENSED,
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4 => StyleFontStretch::SEMI_CONDENSED,
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5 => StyleFontStretch::NORMAL,
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6 => StyleFontStretch::SEMI_EXPANDED,
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7 => StyleFontStretch::EXPANDED,
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8 => StyleFontStretch::EXTRA_EXPANDED,
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9 => StyleFontStretch::ULTRA_CONDENSED,
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_ => {
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warn!("Unknown stretch size.");
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StyleFontStretch::NORMAL
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},
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};
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let style = if italic_bool {
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StyleFontStyle::ITALIC
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} else {
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StyleFontStyle::NORMAL
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};
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FontTemplateDescriptor {
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weight,
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stretch,
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style,
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}
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}
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fn glyph_index(&self, codepoint: char) -> Option<GlyphId> {
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let glyph = self.face.get_glyph_indices(&[codepoint as u32])[0];
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if glyph == 0 {
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return None;
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}
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Some(glyph as GlyphId)
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}
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fn glyph_h_advance(&self, glyph: GlyphId) -> Option<FractionalPixel> {
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if glyph == 0 {
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return None;
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}
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let gm = self.face.get_design_glyph_metrics(&[glyph as u16], false)[0];
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let f = (gm.advanceWidth as f32 * self.scaled_du_to_px) as FractionalPixel;
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Some(f)
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}
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/// Can this font do basic horizontal LTR shaping without Harfbuzz?
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fn can_do_fast_shaping(&self) -> bool {
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// TODO copy CachedKernTable from the MacOS X implementation to
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// somehwere global and use it here. We could also implement the
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// IDirectWriteFontFace1 interface and use the glyph kerning pair
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// methods there.
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false
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}
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fn glyph_h_kerning(&self, _: GlyphId, _: GlyphId) -> FractionalPixel {
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0.0
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}
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fn metrics(&self) -> FontMetrics {
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let dm = self.face.metrics().metrics0();
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let au_from_du = |du| -> Au { Au::from_f32_px(du as f32 * self.du_to_px) };
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let au_from_du_s = |du| -> Au { Au::from_f32_px(du as f32 * self.scaled_du_to_px) };
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// anything that we calculate and don't just pull out of self.face.metrics
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// is pulled out here for clarity
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let leading = dm.ascent - dm.capHeight;
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let metrics = FontMetrics {
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underline_size: au_from_du(dm.underlineThickness as i32),
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underline_offset: au_from_du_s(dm.underlinePosition as i32),
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strikeout_size: au_from_du(dm.strikethroughThickness as i32),
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strikeout_offset: au_from_du_s(dm.strikethroughPosition as i32),
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leading: au_from_du_s(leading as i32),
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x_height: au_from_du_s(dm.xHeight as i32),
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em_size: au_from_em(self.em_size as f64),
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ascent: au_from_du_s(dm.ascent as i32),
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descent: au_from_du_s(dm.descent as i32),
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max_advance: au_from_pt(0.0), // FIXME
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average_advance: au_from_pt(0.0), // FIXME
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line_gap: au_from_du_s((dm.ascent + dm.descent + dm.lineGap as u16) as i32),
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};
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debug!("Font metrics (@{} pt): {:?}", self.em_size * 12., metrics);
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metrics
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}
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fn table_for_tag(&self, tag: FontTableTag) -> Option<FontTable> {
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self.face
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.get_font_table(tag)
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.map(|bytes| FontTable { data: bytes })
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}
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}
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