use crate::{ mutex::{Mutex, RwLock}, TextureAtlas, }; use ahash::AHashMap; use emath::{vec2, Vec2}; use std::collections::BTreeSet; use std::sync::Arc; // ---------------------------------------------------------------------------- #[derive(Clone, Copy, Debug, Default, PartialEq)] #[cfg_attr(feature = "serde", derive(serde::Deserialize, serde::Serialize))] pub struct UvRect { /// X/Y offset for nice rendering (unit: points). pub offset: Vec2, /// Screen size (in points) of this glyph. /// Note that the height is different from the font height. pub size: Vec2, /// Top left corner UV in texture. pub min: [u16; 2], /// Bottom right corner (exclusive). pub max: [u16; 2], } impl UvRect { pub fn is_nothing(&self) -> bool { self.min == self.max } } #[derive(Clone, Copy, Debug)] pub struct GlyphInfo { pub(crate) id: ab_glyph::GlyphId, /// Unit: points. pub advance_width: f32, /// Texture coordinates. None for space. pub uv_rect: UvRect, } impl Default for GlyphInfo { fn default() -> Self { Self { id: ab_glyph::GlyphId(0), advance_width: 0.0, uv_rect: Default::default(), } } } // ---------------------------------------------------------------------------- /// A specific font with a size. /// The interface uses points as the unit for everything. pub struct FontImpl { name: String, ab_glyph_font: ab_glyph::FontArc, /// Maximum character height scale_in_pixels: u32, height_in_points: f32, // move each character by this much (hack) y_offset: f32, pixels_per_point: f32, glyph_info_cache: RwLock>, // TODO(emilk): standard Mutex atlas: Arc>, } impl FontImpl { pub fn new( atlas: Arc>, pixels_per_point: f32, name: String, ab_glyph_font: ab_glyph::FontArc, scale_in_pixels: u32, y_offset_points: f32, ) -> FontImpl { assert!(scale_in_pixels > 0); assert!(pixels_per_point > 0.0); let height_in_points = scale_in_pixels as f32 / pixels_per_point; // TODO(emilk): use these font metrics? // use ab_glyph::ScaleFont as _; // let scaled = ab_glyph_font.as_scaled(scale_in_pixels as f32); // dbg!(scaled.ascent()); // dbg!(scaled.descent()); // dbg!(scaled.line_gap()); // Round to closest pixel: let y_offset = (y_offset_points * pixels_per_point).round() / pixels_per_point; Self { name, ab_glyph_font, scale_in_pixels, height_in_points, y_offset, pixels_per_point, glyph_info_cache: Default::default(), atlas, } } fn ignore_character(&self, chr: char) -> bool { if self.name == "emoji-icon-font" { // HACK: https://github.com/emilk/egui/issues/1284 https://github.com/jslegers/emoji-icon-font/issues/18 // Don't show the wrong fullwidth capital letters: if 'S' <= chr && chr <= 'Y' { return true; } } matches!( chr, // Strip out a religious symbol with secondary nefarious interpretation: '\u{534d}' | '\u{5350}' | // Ignore ubuntu-specific stuff in `Ubuntu-Light.ttf`: '\u{E0FF}' | '\u{EFFD}' | '\u{F0FF}' | '\u{F200}' ) } /// An un-ordered iterator over all supported characters. fn characters(&self) -> impl Iterator + '_ { use ab_glyph::Font as _; self.ab_glyph_font .codepoint_ids() .map(|(_, chr)| chr) .filter(|&chr| !self.ignore_character(chr)) } /// `\n` will result in `None` fn glyph_info(&self, c: char) -> Option { { if let Some(glyph_info) = self.glyph_info_cache.read().get(&c) { return Some(*glyph_info); } } if self.ignore_character(c) { return None; } if c == '\t' { if let Some(space) = self.glyph_info(' ') { let glyph_info = GlyphInfo { advance_width: crate::text::TAB_SIZE as f32 * space.advance_width, ..GlyphInfo::default() }; self.glyph_info_cache.write().insert(c, glyph_info); return Some(glyph_info); } } // Add new character: use ab_glyph::Font as _; let glyph_id = self.ab_glyph_font.glyph_id(c); if glyph_id.0 == 0 { if invisible_char(c) { // hack let glyph_info = GlyphInfo::default(); self.glyph_info_cache.write().insert(c, glyph_info); Some(glyph_info) } else { None // unsupported character } } else { let glyph_info = allocate_glyph( &mut self.atlas.lock(), &self.ab_glyph_font, glyph_id, self.scale_in_pixels as f32, self.y_offset, self.pixels_per_point, ); self.glyph_info_cache.write().insert(c, glyph_info); Some(glyph_info) } } #[inline] pub fn pair_kerning( &self, last_glyph_id: ab_glyph::GlyphId, glyph_id: ab_glyph::GlyphId, ) -> f32 { use ab_glyph::{Font as _, ScaleFont}; self.ab_glyph_font .as_scaled(self.scale_in_pixels as f32) .kern(last_glyph_id, glyph_id) / self.pixels_per_point } /// Height of one row of text. In points #[inline(always)] pub fn row_height(&self) -> f32 { self.height_in_points } #[inline(always)] pub fn pixels_per_point(&self) -> f32 { self.pixels_per_point } } type FontIndex = usize; // TODO(emilk): rename? /// Wrapper over multiple [`FontImpl`] (e.g. a primary + fallbacks for emojis) pub struct Font { fonts: Vec>, /// Lazily calculated. characters: Option>, replacement_glyph: (FontIndex, GlyphInfo), pixels_per_point: f32, row_height: f32, glyph_info_cache: AHashMap, } impl Font { pub fn new(fonts: Vec>) -> Self { if fonts.is_empty() { return Self { fonts, characters: None, replacement_glyph: Default::default(), pixels_per_point: 1.0, row_height: 0.0, glyph_info_cache: Default::default(), }; } let pixels_per_point = fonts[0].pixels_per_point(); let row_height = fonts[0].row_height(); let mut slf = Self { fonts, characters: None, replacement_glyph: Default::default(), pixels_per_point, row_height, glyph_info_cache: Default::default(), }; const PRIMARY_REPLACEMENT_CHAR: char = '◻'; // white medium square const FALLBACK_REPLACEMENT_CHAR: char = '?'; // fallback for the fallback let replacement_glyph = slf .glyph_info_no_cache_or_fallback(PRIMARY_REPLACEMENT_CHAR) .or_else(|| slf.glyph_info_no_cache_or_fallback(FALLBACK_REPLACEMENT_CHAR)) .unwrap_or_else(|| { panic!( "Failed to find replacement characters {:?} or {:?}", PRIMARY_REPLACEMENT_CHAR, FALLBACK_REPLACEMENT_CHAR ) }); slf.replacement_glyph = replacement_glyph; slf } pub fn preload_common_characters(&mut self) { // Preload the printable ASCII characters [32, 126] (which excludes control codes): const FIRST_ASCII: usize = 32; // 32 == space const LAST_ASCII: usize = 126; for c in (FIRST_ASCII..=LAST_ASCII).map(|c| c as u8 as char) { self.glyph_info(c); } self.glyph_info('°'); self.glyph_info(crate::text::PASSWORD_REPLACEMENT_CHAR); } /// All supported characters pub fn characters(&mut self) -> &BTreeSet { self.characters.get_or_insert_with(|| { let mut characters = BTreeSet::new(); for font in &self.fonts { characters.extend(font.characters()); } characters }) } #[inline(always)] pub fn round_to_pixel(&self, point: f32) -> f32 { (point * self.pixels_per_point).round() / self.pixels_per_point } /// Height of one row of text. In points #[inline(always)] pub fn row_height(&self) -> f32 { self.row_height } pub fn uv_rect(&self, c: char) -> UvRect { self.glyph_info_cache .get(&c) .map(|gi| gi.1.uv_rect) .unwrap_or_default() } /// Width of this character in points. pub fn glyph_width(&mut self, c: char) -> f32 { self.glyph_info(c).1.advance_width } /// `\n` will (intentionally) show up as the replacement character. fn glyph_info(&mut self, c: char) -> (FontIndex, GlyphInfo) { if let Some(font_index_glyph_info) = self.glyph_info_cache.get(&c) { return *font_index_glyph_info; } let font_index_glyph_info = self.glyph_info_no_cache_or_fallback(c); let font_index_glyph_info = font_index_glyph_info.unwrap_or(self.replacement_glyph); self.glyph_info_cache.insert(c, font_index_glyph_info); font_index_glyph_info } #[inline] pub(crate) fn glyph_info_and_font_impl(&mut self, c: char) -> (Option<&FontImpl>, GlyphInfo) { if self.fonts.is_empty() { return (None, self.replacement_glyph.1); } let (font_index, glyph_info) = self.glyph_info(c); let font_impl = &self.fonts[font_index]; (Some(font_impl), glyph_info) } fn glyph_info_no_cache_or_fallback(&mut self, c: char) -> Option<(FontIndex, GlyphInfo)> { for (font_index, font_impl) in self.fonts.iter().enumerate() { if let Some(glyph_info) = font_impl.glyph_info(c) { self.glyph_info_cache.insert(c, (font_index, glyph_info)); return Some((font_index, glyph_info)); } } None } } #[inline] fn invisible_char(c: char) -> bool { // See https://github.com/emilk/egui/issues/336 // From https://www.fileformat.info/info/unicode/category/Cf/list.htm ('\u{200B}'..='\u{206F}').contains(&c) // TODO(emilk): heed bidi characters } fn allocate_glyph( atlas: &mut TextureAtlas, font: &ab_glyph::FontArc, glyph_id: ab_glyph::GlyphId, scale_in_pixels: f32, y_offset: f32, pixels_per_point: f32, ) -> GlyphInfo { assert!(glyph_id.0 != 0); use ab_glyph::{Font as _, ScaleFont}; let glyph = glyph_id.with_scale_and_position(scale_in_pixels, ab_glyph::Point { x: 0.0, y: 0.0 }); let uv_rect = font.outline_glyph(glyph).map(|glyph| { let bb = glyph.px_bounds(); let glyph_width = bb.width() as usize; let glyph_height = bb.height() as usize; if glyph_width == 0 || glyph_height == 0 { UvRect::default() } else { let (glyph_pos, image) = atlas.allocate((glyph_width, glyph_height)); glyph.draw(|x, y, v| { if v > 0.0 { let px = glyph_pos.0 + x as usize; let py = glyph_pos.1 + y as usize; image[(px, py)] = v; } }); let offset_in_pixels = vec2(bb.min.x, scale_in_pixels + bb.min.y); let offset = offset_in_pixels / pixels_per_point + y_offset * Vec2::Y; UvRect { offset, size: vec2(glyph_width as f32, glyph_height as f32) / pixels_per_point, min: [glyph_pos.0 as u16, glyph_pos.1 as u16], max: [ (glyph_pos.0 + glyph_width) as u16, (glyph_pos.1 + glyph_height) as u16, ], } } }); let uv_rect = uv_rect.unwrap_or_default(); let advance_width_in_points = font.as_scaled(scale_in_pixels).h_advance(glyph_id) / pixels_per_point; GlyphInfo { id: glyph_id, advance_width: advance_width_in_points, uv_rect, } }