1use crate::{
2 AssetSource, DevicePixels, IsZero, RenderImage, Result, SharedString, Size,
3 swap_rgba_pa_to_bgra,
4};
5use image::Frame;
6use resvg::tiny_skia::Pixmap;
7use smallvec::SmallVec;
8use std::{
9 hash::Hash,
10 sync::{Arc, LazyLock, OnceLock},
11};
12
13#[cfg(target_os = "macos")]
14const EMOJI_FONT_FAMILIES: &[&str] = &["Apple Color Emoji", ".AppleColorEmojiUI"];
15
16#[cfg(target_os = "windows")]
17const EMOJI_FONT_FAMILIES: &[&str] = &["Segoe UI Emoji", "Segoe UI Symbol"];
18
19#[cfg(any(target_os = "linux", target_os = "freebsd"))]
20const EMOJI_FONT_FAMILIES: &[&str] = &[
21 "Noto Color Emoji",
22 "Emoji One",
23 "Twitter Color Emoji",
24 "JoyPixels",
25];
26
27#[cfg(not(any(
28 target_os = "macos",
29 target_os = "windows",
30 target_os = "linux",
31 target_os = "freebsd",
32)))]
33const EMOJI_FONT_FAMILIES: &[&str] = &[];
34
35fn is_emoji_presentation(c: char) -> bool {
36 static EMOJI_PRESENTATION_REGEX: LazyLock<regex::Regex> =
37 LazyLock::new(|| regex::Regex::new("\\p{Emoji_Presentation}").unwrap());
38 let mut buf = [0u8; 4];
39 EMOJI_PRESENTATION_REGEX.is_match(c.encode_utf8(&mut buf))
40}
41
42fn font_has_char(db: &usvg::fontdb::Database, id: usvg::fontdb::ID, ch: char) -> bool {
43 db.with_face_data(id, |font_data, face_index| {
44 ttf_parser::Face::parse(font_data, face_index)
45 .ok()
46 .and_then(|face| face.glyph_index(ch))
47 .is_some()
48 })
49 .unwrap_or(false)
50}
51
52fn select_emoji_font(
53 ch: char,
54 fonts: &[usvg::fontdb::ID],
55 db: &usvg::fontdb::Database,
56 families: &[&str],
57) -> Option<usvg::fontdb::ID> {
58 for family_name in families {
59 let query = usvg::fontdb::Query {
60 families: &[usvg::fontdb::Family::Name(family_name)],
61 weight: usvg::fontdb::Weight(400),
62 stretch: usvg::fontdb::Stretch::Normal,
63 style: usvg::fontdb::Style::Normal,
64 };
65
66 let Some(id) = db.query(&query) else {
67 continue;
68 };
69
70 if fonts.contains(&id) || !font_has_char(db, id, ch) {
71 continue;
72 }
73
74 return Some(id);
75 }
76
77 None
78}
79
80pub const SMOOTH_SVG_SCALE_FACTOR: f32 = 2.;
82
83#[derive(Clone, PartialEq, Hash, Eq)]
84#[expect(missing_docs)]
85pub struct RenderSvgParams {
86 pub path: SharedString,
87 pub size: Size<DevicePixels>,
88}
89
90#[derive(Clone)]
91pub struct SvgRenderer {
93 asset_source: Arc<dyn AssetSource>,
94 usvg_options: Arc<usvg::Options<'static>>,
95}
96
97pub enum SvgSize {
99 Size(Size<DevicePixels>),
101 ScaleFactor(f32),
103}
104
105impl SvgRenderer {
106 pub fn new(asset_source: Arc<dyn AssetSource>) -> Self {
108 static SYSTEM_FONT_DB: LazyLock<Arc<usvg::fontdb::Database>> = LazyLock::new(|| {
109 let mut db = usvg::fontdb::Database::new();
110 db.load_system_fonts();
111 Arc::new(db)
112 });
113
114 let enriched_fontdb: Arc<OnceLock<Arc<usvg::fontdb::Database>>> = Arc::new(OnceLock::new());
119
120 let default_font_resolver = usvg::FontResolver::default_font_selector();
121 let font_resolver = Box::new({
122 let asset_source = asset_source.clone();
123 move |font: &usvg::Font, db: &mut Arc<usvg::fontdb::Database>| {
124 if db.is_empty() {
125 let fontdb = enriched_fontdb.get_or_init(|| {
126 let mut db = (**SYSTEM_FONT_DB).clone();
127 load_bundled_fonts(&*asset_source, &mut db);
128 fix_generic_font_families(&mut db);
129 Arc::new(db)
130 });
131 *db = fontdb.clone();
132 }
133 if let Some(id) = default_font_resolver(font, db) {
134 return Some(id);
135 }
136 let sans_query = usvg::fontdb::Query {
139 families: &[usvg::fontdb::Family::SansSerif],
140 ..Default::default()
141 };
142 db.query(&sans_query)
143 .or_else(|| db.faces().next().map(|f| f.id))
144 }
145 });
146 let default_fallback_selection = usvg::FontResolver::default_fallback_selector();
147 let fallback_selection = Box::new(
148 move |ch: char, fonts: &[usvg::fontdb::ID], db: &mut Arc<usvg::fontdb::Database>| {
149 if is_emoji_presentation(ch) {
150 if let Some(id) = select_emoji_font(ch, fonts, db.as_ref(), EMOJI_FONT_FAMILIES)
151 {
152 return Some(id);
153 }
154 }
155
156 default_fallback_selection(ch, fonts, db)
157 },
158 );
159 let options = usvg::Options {
160 font_resolver: usvg::FontResolver {
161 select_font: font_resolver,
162 select_fallback: fallback_selection,
163 },
164 ..Default::default()
165 };
166 Self {
167 asset_source,
168 usvg_options: Arc::new(options),
169 }
170 }
171
172 pub fn render_single_frame(
174 &self,
175 bytes: &[u8],
176 scale_factor: f32,
177 ) -> Result<Arc<RenderImage>, usvg::Error> {
178 self.render_pixmap(
179 bytes,
180 SvgSize::ScaleFactor(scale_factor * SMOOTH_SVG_SCALE_FACTOR),
181 )
182 .map(|pixmap| {
183 let mut buffer =
184 image::ImageBuffer::from_raw(pixmap.width(), pixmap.height(), pixmap.take())
185 .unwrap();
186
187 for pixel in buffer.chunks_exact_mut(4) {
188 swap_rgba_pa_to_bgra(pixel);
189 }
190
191 let mut image = RenderImage::new(SmallVec::from_const([Frame::new(buffer)]));
192 image.scale_factor = SMOOTH_SVG_SCALE_FACTOR;
193 Arc::new(image)
194 })
195 }
196
197 pub(crate) fn render_alpha_mask(
198 &self,
199 params: &RenderSvgParams,
200 bytes: Option<&[u8]>,
201 ) -> Result<Option<(Size<DevicePixels>, Vec<u8>)>> {
202 anyhow::ensure!(!params.size.is_zero(), "can't render at a zero size");
203
204 let render_pixmap = |bytes| {
205 let pixmap = self.render_pixmap(bytes, SvgSize::Size(params.size))?;
206
207 let size = Size::new(
209 DevicePixels(pixmap.width() as i32),
210 DevicePixels(pixmap.height() as i32),
211 );
212 let alpha_mask = pixmap
213 .pixels()
214 .iter()
215 .map(|p| p.alpha())
216 .collect::<Vec<_>>();
217
218 Ok(Some((size, alpha_mask)))
219 };
220
221 if let Some(bytes) = bytes {
222 render_pixmap(bytes)
223 } else if let Some(bytes) = self.asset_source.load(¶ms.path)? {
224 render_pixmap(&bytes)
225 } else {
226 Ok(None)
227 }
228 }
229
230 fn render_pixmap(&self, bytes: &[u8], size: SvgSize) -> Result<Pixmap, usvg::Error> {
231 let tree = usvg::Tree::from_data(bytes, &self.usvg_options)?;
232 let svg_size = tree.size();
233 let scale = match size {
234 SvgSize::Size(size) => size.width.0 as f32 / svg_size.width(),
235 SvgSize::ScaleFactor(scale) => scale,
236 };
237
238 let mut pixmap = resvg::tiny_skia::Pixmap::new(
240 (svg_size.width() * scale) as u32,
241 (svg_size.height() * scale) as u32,
242 )
243 .ok_or(usvg::Error::InvalidSize)?;
244
245 let transform = resvg::tiny_skia::Transform::from_scale(scale, scale);
246
247 resvg::render(&tree, transform, &mut pixmap.as_mut());
248
249 Ok(pixmap)
250 }
251}
252
253fn load_bundled_fonts(asset_source: &dyn AssetSource, db: &mut usvg::fontdb::Database) {
254 let font_paths = [
255 "fonts/ibm-plex-sans/IBMPlexSans-Regular.ttf",
256 "fonts/lilex/Lilex-Regular.ttf",
257 ];
258 for path in font_paths {
259 match asset_source.load(path) {
260 Ok(Some(data)) => db.load_font_data(data.into_owned()),
261 Ok(None) => log::warn!("Bundled font not found: {path}"),
262 Err(error) => log::warn!("Failed to load bundled font {path}: {error}"),
263 }
264 }
265}
266
267fn fix_generic_font_families(db: &mut usvg::fontdb::Database) {
271 use usvg::fontdb::{Family, Query};
272
273 let families_and_fallbacks: &[(Family<'_>, &str)] = &[
274 (Family::SansSerif, "IBM Plex Sans"),
275 (Family::Serif, "IBM Plex Sans"),
277 (Family::Monospace, "Lilex"),
278 (Family::Cursive, "IBM Plex Sans"),
279 (Family::Fantasy, "IBM Plex Sans"),
280 ];
281
282 for (family, fallback_name) in families_and_fallbacks {
283 let query = Query {
284 families: &[*family],
285 ..Default::default()
286 };
287 if db.query(&query).is_none() {
288 match family {
289 Family::SansSerif => db.set_sans_serif_family(*fallback_name),
290 Family::Serif => db.set_serif_family(*fallback_name),
291 Family::Monospace => db.set_monospace_family(*fallback_name),
292 Family::Cursive => db.set_cursive_family(*fallback_name),
293 Family::Fantasy => db.set_fantasy_family(*fallback_name),
294 _ => {}
295 }
296 }
297 }
298}
299
300#[cfg(test)]
301mod tests {
302 use super::*;
303
304 #[test]
305 fn test_is_emoji_presentation() {
306 let cases = [
307 ("a", false),
308 ("Z", false),
309 ("1", false),
310 ("#", false),
311 ("*", false),
312 ("漢", false),
313 ("中", false),
314 ("カ", false),
315 ("©", false),
316 ("♥", false),
317 ("😀", true),
318 ("✅", true),
319 ("🇺🇸", true),
320 ("©️", false),
322 ("♥️", false),
323 ("1️⃣", false),
324 ];
325 for (s, expected) in cases {
326 assert_eq!(
327 is_emoji_presentation(s.chars().next().unwrap()),
328 expected,
329 "for char {:?}",
330 s
331 );
332 }
333 }
334}