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/*!
`fontdb` is a simple, in-memory font database with CSS-like queries.
# Features
- The database can load fonts from files, directories and raw data (`Vec<u8>`).
- The database can match a font using CSS-like queries. See `Database::query`.
- The database can try to load system fonts.
Currently, this is implemented by scanning predefined directories.
The library does not interact with the system API.
- Provides a unique ID for each font face.
# Non-goals
- Advanced font properties querying.<br>
The database provides only storage and matching capabilities.
For font properties querying you can use [ttf-parser].
- A font fallback mechanism.<br>
This library can be used to implement a font fallback mechanism, but it doesn't implement one.
- Application's global database.<br>
The database doesn't use `static`, therefore it's up to the caller where it should be stored.
- Font types support other than TrueType.
# Font vs Face
A font is a collection of font faces. Therefore, a font face is a subset of a font.
A simple font (\*.ttf/\*.otf) usually contains a single font face,
but a font collection (\*.ttc) can contain multiple font faces.
`fontdb` stores and matches font faces, not fonts.
Therefore, after loading a font collection with 5 faces (for example), the database will be populated
with 5 `FaceInfo` objects, all of which will be pointing to the same file or binary data.
# Performance
The database performance is largely limited by the storage itself.
We are using [ttf-parser], so the parsing should not be a bottleneck.
On my machine with Samsung SSD 860 and Gentoo Linux, it takes ~20ms
to load 1906 font faces (most of them are from Google Noto collection)
with a hot disk cache and ~860ms with a cold one.
On Mac Mini M1 it takes just 9ms to load 898 fonts.
# Safety
The library relies on memory-mapped files, which is inherently unsafe.
But since we do not keep the files open it should be perfectly safe.
If you would like to use a persistent memory mapping of the font files,
then you can use the unsafe [`Database::make_shared_face_data`] function.
[ttf-parser]: https://github.com/RazrFalcon/ttf-parser
*/
#![cfg_attr(not(feature = "std"), no_std)]
#![warn(missing_docs)]
#![warn(missing_debug_implementations)]
#![warn(missing_copy_implementations)]
extern crate alloc;
#[cfg(not(feature = "std"))]
use alloc::{
string::{String, ToString},
vec::Vec,
};
pub use ttf_parser::Language;
pub use ttf_parser::Width as Stretch;
use slotmap::SlotMap;
use tinyvec::TinyVec;
/// A unique per database face ID.
///
/// Since `Database` is not global/unique, we cannot guarantee that a specific ID
/// is actually from the same db instance. This is up to the caller.
///
/// ID overflow will cause a panic, but it's highly unlikely that someone would
/// load more than 4 billion font faces.
///
/// Because the internal representation of ID is private, The `Display` trait
/// implementation for this type only promise that unequal IDs will be displayed
/// as different strings, but does not make any guarantees about format or
/// content of the strings.
///
/// [`KeyData`]: https://docs.rs/slotmap/latest/slotmap/struct.KeyData.html
#[derive(Clone, Copy, Eq, Hash, Ord, PartialEq, PartialOrd, Debug, Default)]
pub struct ID(InnerId);
slotmap::new_key_type! {
/// Internal ID type.
struct InnerId;
}
impl ID {
/// Creates a dummy ID.
///
/// Should be used in tandem with [`Database::push_face_info`].
#[inline]
pub fn dummy() -> Self {
Self(InnerId::from(slotmap::KeyData::from_ffi(core::u64::MAX)))
}
}
impl core::fmt::Display for ID {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "{}", (self.0).0.as_ffi())
}
}
/// A list of possible font loading errors.
#[derive(Debug)]
enum LoadError {
/// A malformed font.
///
/// Typically means that [ttf-parser](https://github.com/RazrFalcon/ttf-parser)
/// wasn't able to parse it.
MalformedFont,
/// A valid TrueType font without a valid *Family Name*.
UnnamedFont,
/// A file IO related error.
#[cfg(feature = "std")]
IoError(std::io::Error),
}
#[cfg(feature = "std")]
impl From<std::io::Error> for LoadError {
#[inline]
fn from(e: std::io::Error) -> Self {
LoadError::IoError(e)
}
}
impl core::fmt::Display for LoadError {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
LoadError::MalformedFont => write!(f, "malformed font"),
LoadError::UnnamedFont => write!(f, "font doesn't have a family name"),
#[cfg(feature = "std")]
LoadError::IoError(ref e) => write!(f, "{}", e),
}
}
}
/// A font database.
#[derive(Clone, Debug)]
pub struct Database {
faces: SlotMap<InnerId, FaceInfo>,
family_serif: String,
family_sans_serif: String,
family_cursive: String,
family_fantasy: String,
family_monospace: String,
}
impl Default for Database {
fn default() -> Self {
Self::new()
}
}
impl Database {
/// Create a new, empty `Database`.
///
/// Generic font families would be set to:
///
/// - `serif` - Times New Roman
/// - `sans-serif` - Arial
/// - `cursive` - Comic Sans MS
/// - `fantasy` - Impact (Papyrus on macOS)
/// - `monospace` - Courier New
#[inline]
pub fn new() -> Self {
Database {
faces: SlotMap::with_key(),
family_serif: "Times New Roman".to_string(),
family_sans_serif: "Arial".to_string(),
family_cursive: "Comic Sans MS".to_string(),
#[cfg(not(target_os = "macos"))]
family_fantasy: "Impact".to_string(),
#[cfg(target_os = "macos")]
family_fantasy: "Papyrus".to_string(),
family_monospace: "Courier New".to_string(),
}
}
/// Loads a font data into the `Database`.
///
/// Will load all font faces in case of a font collection.
pub fn load_font_data(&mut self, data: Vec<u8>) {
self.load_font_source(Source::Binary(alloc::sync::Arc::new(data)));
}
/// Loads a font from the given source into the `Database` and returns
/// the ID of the loaded font.
///
/// Will load all font faces in case of a font collection.
pub fn load_font_source(&mut self, source: Source) -> TinyVec<[ID; 8]> {
let ids = source.with_data(|data| {
let n = ttf_parser::fonts_in_collection(data).unwrap_or(1);
let mut ids = TinyVec::with_capacity(n as usize);
for index in 0..n {
match parse_face_info(source.clone(), data, index) {
Ok(mut info) => {
let id = self.faces.insert_with_key(|k| {
info.id = ID(k);
info
});
ids.push(ID(id));
}
Err(e) => log::warn!(
"Failed to load a font face {} from source cause {}.",
index,
e
),
}
}
ids
});
ids.unwrap_or_default()
}
/// Backend function used by load_font_file to load font files.
#[cfg(feature = "fs")]
fn load_fonts_from_file(&mut self, path: &std::path::Path, data: &[u8]) {
let source = Source::File(path.into());
let n = ttf_parser::fonts_in_collection(data).unwrap_or(1);
for index in 0..n {
match parse_face_info(source.clone(), data, index) {
Ok(info) => self.push_face_info(info),
Err(e) => {
log::warn!(
"Failed to load a font face {} from '{}' cause {}.",
index,
path.display(),
e
)
}
}
}
}
/// Loads a font file into the `Database`.
///
/// Will load all font faces in case of a font collection.
#[cfg(all(feature = "fs", feature = "memmap"))]
pub fn load_font_file<P: AsRef<std::path::Path>>(
&mut self,
path: P,
) -> Result<(), std::io::Error> {
self.load_font_file_impl(path.as_ref())
}
// A non-generic version.
#[cfg(all(feature = "fs", feature = "memmap"))]
fn load_font_file_impl(&mut self, path: &std::path::Path) -> Result<(), std::io::Error> {
let file = std::fs::File::open(path)?;
let data: &[u8] = unsafe { &memmap2::MmapOptions::new().map(&file)? };
self.load_fonts_from_file(path, data);
Ok(())
}
/// Loads a font file into the `Database`.
///
/// Will load all font faces in case of a font collection.
#[cfg(all(feature = "fs", not(feature = "memmap")))]
pub fn load_font_file<P: AsRef<std::path::Path>>(
&mut self,
path: P,
) -> Result<(), std::io::Error> {
self.load_font_file_impl(path.as_ref())
}
// A non-generic version.
#[cfg(all(feature = "fs", not(feature = "memmap")))]
fn load_font_file_impl(&mut self, path: &std::path::Path) -> Result<(), std::io::Error> {
let data = std::fs::read(path)?;
self.load_fonts_from_file(path, &data);
Ok(())
}
/// Loads font files from the selected directory into the `Database`.
///
/// This method will scan directories recursively.
///
/// Will load `ttf`, `otf`, `ttc` and `otc` fonts.
///
/// Unlike other `load_*` methods, this one doesn't return an error.
/// It will simply skip malformed fonts and will print a warning into the log for each of them.
#[cfg(feature = "fs")]
pub fn load_fonts_dir<P: AsRef<std::path::Path>>(&mut self, dir: P) {
self.load_fonts_dir_impl(dir.as_ref())
}
// A non-generic version.
#[rustfmt::skip] // keep extensions match as is
#[cfg(feature = "fs")]
fn load_fonts_dir_impl(&mut self, dir: &std::path::Path) {
let fonts_dir = match std::fs::read_dir(dir) {
Ok(dir) => dir,
Err(_) => return,
};
for entry in fonts_dir.flatten() {
let path = entry.path();
if path.is_file() {
match path.extension().and_then(|e| e.to_str()) {
Some("ttf") | Some("ttc") | Some("TTF") | Some("TTC") |
Some("otf") | Some("otc") | Some("OTF") | Some("OTC") => {
if let Err(e) = self.load_font_file(&path) {
log::warn!("Failed to load '{}' cause {}.", path.display(), e);
}
}
_ => {}
}
} else if path.is_dir() {
// TODO: ignore symlinks?
self.load_fonts_dir(path);
}
}
}
/// Attempts to load system fonts.
///
/// Supports Windows, Linux and macOS.
///
/// System fonts loading is a surprisingly complicated task,
/// mostly unsolvable without interacting with system libraries.
/// And since `fontdb` tries to be small and portable, this method
/// will simply scan some predefined directories.
/// Which means that fonts that are not in those directories must
/// be added manually.
#[cfg(feature = "fs")]
pub fn load_system_fonts(&mut self) {
#[cfg(target_os = "windows")]
{
if let Some(ref system_root) = std::env::var_os("SYSTEMROOT") {
let system_root_path = std::path::Path::new(system_root);
self.load_fonts_dir(system_root_path.join("Fonts"));
} else {
self.load_fonts_dir("C:\\Windows\\Fonts\\");
}
if let Ok(ref home) = std::env::var("USERPROFILE") {
let home_path = std::path::Path::new(home);
self.load_fonts_dir(home_path.join("AppData\\Local\\Microsoft\\Windows\\Fonts"));
self.load_fonts_dir(home_path.join("AppData\\Roaming\\Microsoft\\Windows\\Fonts"));
}
}
#[cfg(target_os = "macos")]
{
self.load_fonts_dir("/Library/Fonts");
self.load_fonts_dir("/System/Library/Fonts");
// Downloadable fonts, location varies on major macOS releases
if let Ok(dir) = std::fs::read_dir("/System/Library/AssetsV2") {
for entry in dir {
let entry = match entry {
Ok(entry) => entry,
Err(_) => continue,
};
if entry
.file_name()
.to_string_lossy()
.starts_with("com_apple_MobileAsset_Font")
{
self.load_fonts_dir(entry.path());
}
}
}
self.load_fonts_dir("/Network/Library/Fonts");
if let Ok(ref home) = std::env::var("HOME") {
let home_path = std::path::Path::new(home);
self.load_fonts_dir(home_path.join("Library/Fonts"));
}
}
// Redox OS.
#[cfg(target_os = "redox")]
{
self.load_fonts_dir("/ui/fonts");
}
// Linux.
#[cfg(all(unix, not(any(target_os = "macos", target_os = "android"))))]
{
#[cfg(feature = "fontconfig")]
{
self.load_fontconfig();
}
#[cfg(not(feature = "fontconfig"))]
{
self.load_fonts_dir("/usr/share/fonts/");
self.load_fonts_dir("/usr/local/share/fonts/");
if let Ok(ref home) = std::env::var("HOME") {
let home_path = std::path::Path::new(home);
self.load_fonts_dir(home_path.join(".fonts"));
self.load_fonts_dir(home_path.join(".local/share/fonts"));
}
}
}
}
// Linux.
#[cfg(all(
unix,
feature = "fontconfig",
not(any(target_os = "macos", target_os = "android"))
))]
fn load_fontconfig(&mut self) {
use std::path::Path;
let mut fontconfig = fontconfig_parser::FontConfig::default();
let home = std::env::var("HOME");
if let Ok(ref config_file) = std::env::var("FONTCONFIG_FILE") {
let _ = fontconfig.merge_config(Path::new(config_file));
} else {
let xdg_config_home = if let Ok(val) = std::env::var("XDG_CONFIG_HOME") {
Some(val.into())
} else if let Ok(ref home) = home {
// according to https://specifications.freedesktop.org/basedir-spec/basedir-spec-latest.html
// $XDG_CONFIG_HOME should default to $HOME/.config if not set
Some(Path::new(home).join(".config"))
} else {
None
};
let read_global = match xdg_config_home {
Some(p) => fontconfig
.merge_config(&p.join("fontconfig/fonts.conf"))
.is_err(),
None => true,
};
if read_global {
let _ = fontconfig.merge_config(Path::new("/etc/fonts/local.conf"));
}
let _ = fontconfig.merge_config(Path::new("/etc/fonts/fonts.conf"));
}
for fontconfig_parser::Alias {
alias,
default,
prefer,
accept,
} in fontconfig.aliases
{
let name = prefer
.get(0)
.or_else(|| accept.get(0))
.or_else(|| default.get(0));
if let Some(name) = name {
match alias.to_lowercase().as_str() {
"serif" => self.set_serif_family(name),
"sans-serif" => self.set_sans_serif_family(name),
"sans serif" => self.set_sans_serif_family(name),
"monospace" => self.set_monospace_family(name),
"cursive" => self.set_cursive_family(name),
"fantasy" => self.set_fantasy_family(name),
_ => {}
}
}
}
for dir in fontconfig.dirs {
let path = if dir.path.starts_with("~") {
if let Ok(ref home) = home {
Path::new(home).join(dir.path.strip_prefix("~").unwrap())
} else {
continue;
}
} else {
dir.path
};
self.load_fonts_dir(path);
}
}
/// Pushes a user-provided `FaceInfo` to the database.
///
/// In some cases, a caller might want to ignore the font's metadata and provide their own.
/// This method doesn't parse the `source` font.
///
/// The `id` field should be set to [`ID::dummy()`] and will be then overwritten by this method.
pub fn push_face_info(&mut self, mut info: FaceInfo) {
self.faces.insert_with_key(|k| {
info.id = ID(k);
info
});
}
/// Removes a font face by `id` from the database.
///
/// Returns `false` while attempting to remove a non-existing font face.
///
/// Useful when you want to ignore some specific font face(s)
/// after loading a large directory with fonts.
/// Or a specific face from a font.
pub fn remove_face(&mut self, id: ID) {
self.faces.remove(id.0);
}
/// Returns `true` if the `Database` contains no font faces.
#[inline]
pub fn is_empty(&self) -> bool {
self.faces.is_empty()
}
/// Returns the number of font faces in the `Database`.
///
/// Note that `Database` stores font faces, not fonts.
/// For example, if a caller will try to load a font collection (`*.ttc`) that contains 5 faces,
/// then the `Database` will load 5 font faces and this method will return 5, not 1.
#[inline]
pub fn len(&self) -> usize {
self.faces.len()
}
/// Sets the family that will be used by `Family::Serif`.
pub fn set_serif_family<S: Into<String>>(&mut self, family: S) {
self.family_serif = family.into();
}
/// Sets the family that will be used by `Family::SansSerif`.
pub fn set_sans_serif_family<S: Into<String>>(&mut self, family: S) {
self.family_sans_serif = family.into();
}
/// Sets the family that will be used by `Family::Cursive`.
pub fn set_cursive_family<S: Into<String>>(&mut self, family: S) {
self.family_cursive = family.into();
}
/// Sets the family that will be used by `Family::Fantasy`.
pub fn set_fantasy_family<S: Into<String>>(&mut self, family: S) {
self.family_fantasy = family.into();
}
/// Sets the family that will be used by `Family::Monospace`.
pub fn set_monospace_family<S: Into<String>>(&mut self, family: S) {
self.family_monospace = family.into();
}
/// Returns the generic family name or the `Family::Name` itself.
///
/// Generic family names should be set via `Database::set_*_family` methods.
pub fn family_name<'a>(&'a self, family: &'a Family) -> &'a str {
match family {
Family::Name(name) => name,
Family::Serif => self.family_serif.as_str(),
Family::SansSerif => self.family_sans_serif.as_str(),
Family::Cursive => self.family_cursive.as_str(),
Family::Fantasy => self.family_fantasy.as_str(),
Family::Monospace => self.family_monospace.as_str(),
}
}
/// Performs a CSS-like query and returns the best matched font face.
pub fn query(&self, query: &Query) -> Option<ID> {
for family in query.families {
let name = self.family_name(family);
let candidates: Vec<_> = self
.faces
.iter()
.filter(|(_, face)| face.families.iter().any(|family| family.0 == name))
.map(|(_, info)| info)
.collect();
if !candidates.is_empty() {
if let Some(index) = find_best_match(&candidates, query) {
return Some(candidates[index].id);
}
}
}
None
}
/// Returns an iterator over the internal storage.
///
/// This can be used for manual font matching.
#[inline]
pub fn faces(&self) -> impl Iterator<Item = &FaceInfo> + '_ {
self.faces.iter().map(|(_, info)| info)
}
/// Selects a `FaceInfo` by `id`.
///
/// Returns `None` if a face with such ID was already removed,
/// or this ID belong to the other `Database`.
pub fn face(&self, id: ID) -> Option<&FaceInfo> {
self.faces.get(id.0)
}
/// Returns font face storage and the face index by `ID`.
pub fn face_source(&self, id: ID) -> Option<(Source, u32)> {
self.face(id).map(|info| (info.source.clone(), info.index))
}
/// Executes a closure with a font's data.
///
/// We can't return a reference to a font binary data because of lifetimes.
/// So instead, you can use this method to process font's data.
///
/// The closure accepts raw font data and font face index.
///
/// In case of `Source::File`, the font file will be memory mapped.
///
/// Returns `None` when font file loading failed.
///
/// # Example
///
/// ```ignore
/// let is_variable = db.with_face_data(id, |font_data, face_index| {
/// let font = ttf_parser::Face::from_slice(font_data, face_index).unwrap();
/// font.is_variable()
/// })?;
/// ```
pub fn with_face_data<P, T>(&self, id: ID, p: P) -> Option<T>
where
P: FnOnce(&[u8], u32) -> T,
{
let (src, face_index) = self.face_source(id)?;
src.with_data(|data| p(data, face_index))
}
/// Makes the font data that backs the specified face id shared so that the application can
/// hold a reference to it.
///
/// # Safety
///
/// If the face originates from a file from disk, then the file is mapped from disk. This is unsafe as
/// another process may make changes to the file on disk, which may become visible in this process'
/// mapping and possibly cause crashes.
///
/// If the underlying font provides multiple faces, then all faces are updated to participate in
/// the data sharing. If the face was previously marked for data sharing, then this function will
/// return a clone of the existing reference.
#[cfg(all(feature = "fs", feature = "memmap"))]
pub unsafe fn make_shared_face_data(
&mut self,
id: ID,
) -> Option<(std::sync::Arc<dyn AsRef<[u8]> + Send + Sync>, u32)> {
let face_info = self.faces.get(id.0)?;
let face_index = face_info.index;
let old_source = face_info.source.clone();
let (path, shared_data) = match &old_source {
Source::Binary(data) => {
return Some((data.clone(), face_index));
}
Source::File(ref path) => {
let file = std::fs::File::open(path).ok()?;
let shared_data = std::sync::Arc::new(memmap2::MmapOptions::new().map(&file).ok()?)
as std::sync::Arc<dyn AsRef<[u8]> + Send + Sync>;
(path.clone(), shared_data)
}
Source::SharedFile(_, data) => {
return Some((data.clone(), face_index));
}
};
let shared_source = Source::SharedFile(path.clone(), shared_data.clone());
self.faces.iter_mut().for_each(|(_, face)| {
if matches!(&face.source, Source::File(old_path) if old_path == &path) {
face.source = shared_source.clone();
}
});
Some((shared_data, face_index))
}
/// Transfers ownership of shared font data back to the font database. This is the reverse operation
/// of [`Self::make_shared_face_data`]. If the font data belonging to the specified face is mapped
/// from a file on disk, then that mapping is closed and the data becomes private to the process again.
#[cfg(all(feature = "fs", feature = "memmap"))]
pub fn make_face_data_unshared(&mut self, id: ID) {
let face_info = match self.faces.get(id.0) {
Some(face_info) => face_info,
None => return,
};
let old_source = face_info.source.clone();
let shared_path = match old_source {
#[cfg(all(feature = "fs", feature = "memmap"))]
Source::SharedFile(path, _) => path,
_ => return,
};
let new_source = Source::File(shared_path.clone());
self.faces.iter_mut().for_each(|(_, face)| {
if matches!(&face.source, Source::SharedFile(path, ..) if path == &shared_path) {
face.source = new_source.clone();
}
});
}
}
/// A single font face info.
///
/// A font can have multiple faces.
///
/// A single item of the `Database`.
#[derive(Clone, Debug)]
pub struct FaceInfo {
/// An unique ID.
pub id: ID,
/// A font source.
///
/// Note that multiple `FaceInfo` objects can reference the same data in case of
/// font collections, which means that they'll use the same Source.
pub source: Source,
/// A face index in the `source`.
pub index: u32,
/// A list of family names.
///
/// Contains pairs of Name + Language. Where the first family is always English US,
/// unless it's missing from the font.
///
/// Corresponds to a *Typographic Family* (ID 16) or a *Font Family* (ID 1) [name ID]
/// in a TrueType font.
///
/// This is not an *Extended Typographic Family* or a *Full Name*.
/// Meaning it will contain _Arial_ and not _Arial Bold_.
///
/// [name ID]: https://docs.microsoft.com/en-us/typography/opentype/spec/name#name-ids
pub families: Vec<(String, Language)>,
/// A PostScript name.
///
/// Corresponds to a *PostScript name* (6) [name ID] in a TrueType font.
///
/// [name ID]: https://docs.microsoft.com/en-us/typography/opentype/spec/name#name-ids
pub post_script_name: String,
/// A font face style.
pub style: Style,
/// A font face weight.
pub weight: Weight,
/// A font face stretch.
pub stretch: Stretch,
/// Indicates that the font face is monospaced.
pub monospaced: bool,
}
/// A font source.
///
/// Either a raw binary data or a file path.
///
/// Stores the whole font and not just a single face.
#[derive(Clone)]
pub enum Source {
/// A font's raw data, typically backed by a Vec<u8>.
Binary(alloc::sync::Arc<dyn AsRef<[u8]> + Sync + Send>),
/// A font's path.
#[cfg(feature = "fs")]
File(std::path::PathBuf),
/// A font's raw data originating from a shared file mapping.
#[cfg(all(feature = "fs", feature = "memmap"))]
SharedFile(
std::path::PathBuf,
std::sync::Arc<dyn AsRef<[u8]> + Sync + Send>,
),
}
impl core::fmt::Debug for Source {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
Self::Binary(arg0) => f
.debug_tuple("SharedBinary")
.field(&arg0.as_ref().as_ref())
.finish(),
#[cfg(feature = "fs")]
Self::File(arg0) => f.debug_tuple("File").field(arg0).finish(),
#[cfg(all(feature = "fs", feature = "memmap"))]
Self::SharedFile(arg0, arg1) => f
.debug_tuple("SharedFile")
.field(arg0)
.field(&arg1.as_ref().as_ref())
.finish(),
}
}
}
impl Source {
fn with_data<P, T>(&self, p: P) -> Option<T>
where
P: FnOnce(&[u8]) -> T,
{
match &self {
#[cfg(all(feature = "fs", not(feature = "memmap")))]
Source::File(ref path) => {
let data = std::fs::read(path).ok()?;
Some(p(&data))
}
#[cfg(all(feature = "fs", feature = "memmap"))]
Source::File(ref path) => {
let file = std::fs::File::open(path).ok()?;
let data = unsafe { &memmap2::MmapOptions::new().map(&file).ok()? };
Some(p(data))
}
Source::Binary(ref data) => Some(p(data.as_ref().as_ref())),
#[cfg(all(feature = "fs", feature = "memmap"))]
Source::SharedFile(_, ref data) => Some(p(data.as_ref().as_ref())),
}
}
}
/// A database query.
///
/// Mainly used by `Database::query()`.
#[derive(Clone, Copy, Default, Debug, Eq, PartialEq, Hash)]
pub struct Query<'a> {
/// A prioritized list of font family names or generic family names.
///
/// [font-family](https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#propdef-font-family) in CSS.
pub families: &'a [Family<'a>],
/// Specifies the weight of glyphs in the font, their degree of blackness or stroke thickness.
///
/// [font-weight](https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#font-weight-prop) in CSS.
pub weight: Weight,
/// Selects a normal, condensed, or expanded face from a font family.
///
/// [font-stretch](https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#font-stretch-prop) in CSS.
pub stretch: Stretch,
/// Allows italic or oblique faces to be selected.
///
/// [font-style](https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#font-style-prop) in CSS.
pub style: Style,
}
// Enum value descriptions are from the CSS spec.
/// A [font family](https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#propdef-font-family).
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
pub enum Family<'a> {
/// The name of a font family of choice.
///
/// This must be a *Typographic Family* (ID 16) or a *Family Name* (ID 1) in terms of TrueType.
/// Meaning you have to pass a family without any additional suffixes like _Bold_, _Italic_,
/// _Regular_, etc.
///
/// Localized names are allowed.
Name(&'a str),
/// Serif fonts represent the formal text style for a script.
Serif,
/// Glyphs in sans-serif fonts, as the term is used in CSS, are generally low contrast
/// and have stroke endings that are plain — without any flaring, cross stroke,
/// or other ornamentation.
SansSerif,
/// Glyphs in cursive fonts generally use a more informal script style,
/// and the result looks more like handwritten pen or brush writing than printed letterwork.
Cursive,
/// Fantasy fonts are primarily decorative or expressive fonts that
/// contain decorative or expressive representations of characters.
Fantasy,
/// The sole criterion of a monospace font is that all glyphs have the same fixed width.
Monospace,
}
/// Specifies the weight of glyphs in the font, their degree of blackness or stroke thickness.
#[derive(Clone, Copy, PartialOrd, Ord, PartialEq, Eq, Debug, Hash)]
pub struct Weight(pub u16);
impl Default for Weight {
#[inline]
fn default() -> Weight {
Weight::NORMAL
}
}
impl Weight {
/// Thin weight (100), the thinnest value.
pub const THIN: Weight = Weight(100);
/// Extra light weight (200).
pub const EXTRA_LIGHT: Weight = Weight(200);
/// Light weight (300).
pub const LIGHT: Weight = Weight(300);
/// Normal (400).
pub const NORMAL: Weight = Weight(400);
/// Medium weight (500, higher than normal).
pub const MEDIUM: Weight = Weight(500);
/// Semibold weight (600).
pub const SEMIBOLD: Weight = Weight(600);
/// Bold weight (700).
pub const BOLD: Weight = Weight(700);
/// Extra-bold weight (800).
pub const EXTRA_BOLD: Weight = Weight(800);
/// Black weight (900), the thickest value.
pub const BLACK: Weight = Weight(900);
}
/// Allows italic or oblique faces to be selected.
#[derive(Clone, Copy, PartialEq, Eq, Debug, Hash)]
pub enum Style {
/// A face that is neither italic not obliqued.
Normal,
/// A form that is generally cursive in nature.
Italic,
/// A typically-sloped version of the regular face.
Oblique,
}
impl Default for Style {
#[inline]
fn default() -> Style {
Style::Normal
}
}
fn parse_face_info(source: Source, data: &[u8], index: u32) -> Result<FaceInfo, LoadError> {
let raw_face = ttf_parser::RawFace::parse(data, index).map_err(|_| LoadError::MalformedFont)?;
let (families, post_script_name) = parse_names(&raw_face).ok_or(LoadError::UnnamedFont)?;
let (mut style, weight, stretch) = parse_os2(&raw_face);
let (monospaced, italic) = parse_post(&raw_face);
if style == Style::Normal && italic {
style = Style::Italic;
}
Ok(FaceInfo {
id: ID::dummy(),
source,
index,
families,
post_script_name,
style,
weight,
stretch,
monospaced,
})
}
fn parse_names(raw_face: &ttf_parser::RawFace) -> Option<(Vec<(String, Language)>, String)> {
const NAME_TAG: ttf_parser::Tag = ttf_parser::Tag::from_bytes(b"name");
let name_data = raw_face.table(NAME_TAG)?;
let name_table = ttf_parser::name::Table::parse(name_data)?;
let mut families = collect_families(ttf_parser::name_id::TYPOGRAPHIC_FAMILY, &name_table.names);
// We have to fallback to Family Name when no Typographic Family Name was set.
if families.is_empty() {
families = collect_families(ttf_parser::name_id::FAMILY, &name_table.names);
}
// Make English US the first one.
if families.len() > 1 {
if let Some(index) = families
.iter()
.position(|f| f.1 == Language::English_UnitedStates)
{
if index != 0 {
families.swap(0, index);
}
}
}
if families.is_empty() {
return None;
}
let post_script_name = name_table
.names
.into_iter()
.find(|name| {
name.name_id == ttf_parser::name_id::POST_SCRIPT_NAME && name.is_supported_encoding()
})
.and_then(|name| name_to_unicode(&name))?;
Some((families, post_script_name))
}
fn collect_families(name_id: u16, names: &ttf_parser::name::Names) -> Vec<(String, Language)> {
let mut families = Vec::new();
for name in names.into_iter() {
if name.name_id == name_id && name.is_unicode() {
if let Some(family) = name_to_unicode(&name) {
families.push((family, name.language()));
}
}
}
// If no Unicode English US family name was found then look for English MacRoman as well.
if !families
.iter()
.any(|f| f.1 == Language::English_UnitedStates)
{
for name in names.into_iter() {
if name.name_id == name_id && name.is_mac_roman() {
if let Some(family) = name_to_unicode(&name) {
families.push((family, name.language()));
break;
}
}
}
}
families
}
fn name_to_unicode(name: &ttf_parser::name::Name) -> Option<String> {
if name.is_unicode() {
let mut raw_data: Vec<u16> = Vec::new();
for c in ttf_parser::LazyArray16::<u16>::new(name.name) {
raw_data.push(c);
}
String::from_utf16(&raw_data).ok()
} else if name.is_mac_roman() {
// We support only MacRoman encoding here, which should be enough in most cases.
let mut raw_data = Vec::with_capacity(name.name.len());
for b in name.name {
raw_data.push(MAC_ROMAN[*b as usize]);
}
String::from_utf16(&raw_data).ok()
} else {
None
}
}
fn parse_os2(raw_face: &ttf_parser::RawFace) -> (Style, Weight, Stretch) {
const OS2_TAG: ttf_parser::Tag = ttf_parser::Tag::from_bytes(b"OS/2");
let table = match raw_face
.table(OS2_TAG)
.and_then(ttf_parser::os2::Table::parse)
{
Some(table) => table,
None => return (Style::Normal, Weight::NORMAL, Stretch::Normal),
};
let style = match table.style() {
ttf_parser::Style::Normal => Style::Normal,
ttf_parser::Style::Italic => Style::Italic,
ttf_parser::Style::Oblique => Style::Oblique,
};
let weight = table.weight();
let stretch = table.width();
(style, Weight(weight.to_number()), stretch)
}
fn parse_post(raw_face: &ttf_parser::RawFace) -> (bool, bool) {
// We need just a single value from the `post` table, while ttf-parser will parse all.
// Therefore we have a custom parser.
const POST_TAG: ttf_parser::Tag = ttf_parser::Tag::from_bytes(b"post");
let data = match raw_face.table(POST_TAG) {
Some(v) => v,
None => return (false, false),
};
// All we care about, it that u32 at offset 12 is non-zero.
let monospaced = data.get(12..16) != Some(&[0, 0, 0, 0]);
// Italic angle as f16.16.
let italic = data.get(4..8) != Some(&[0, 0, 0, 0]);
(monospaced, italic)
}
trait NameExt {
fn is_mac_roman(&self) -> bool;
fn is_supported_encoding(&self) -> bool;
}
impl NameExt for ttf_parser::name::Name<'_> {
#[inline]
fn is_mac_roman(&self) -> bool {
use ttf_parser::PlatformId::Macintosh;
// https://docs.microsoft.com/en-us/typography/opentype/spec/name#macintosh-encoding-ids-script-manager-codes
const MACINTOSH_ROMAN_ENCODING_ID: u16 = 0;
self.platform_id == Macintosh && self.encoding_id == MACINTOSH_ROMAN_ENCODING_ID
}
#[inline]
fn is_supported_encoding(&self) -> bool {
self.is_unicode() || self.is_mac_roman()
}
}
// https://www.w3.org/TR/2018/REC-css-fonts-3-20180920/#font-style-matching
// Based on https://github.com/servo/font-kit
#[inline(never)]
fn find_best_match(candidates: &[&FaceInfo], query: &Query) -> Option<usize> {
debug_assert!(!candidates.is_empty());
// Step 4.
let mut matching_set: Vec<usize> = (0..candidates.len()).collect();
// Step 4a (`font-stretch`).
let matches = matching_set
.iter()
.any(|&index| candidates[index].stretch == query.stretch);
let matching_stretch = if matches {
// Exact match.
query.stretch
} else if query.stretch <= Stretch::Normal {
// Closest stretch, first checking narrower values and then wider values.
let stretch = matching_set
.iter()
.filter(|&&index| candidates[index].stretch < query.stretch)
.min_by_key(|&&index| {
query.stretch.to_number() - candidates[index].stretch.to_number()
});
match stretch {
Some(&matching_index) => candidates[matching_index].stretch,
None => {
let matching_index = *matching_set.iter().min_by_key(|&&index| {
candidates[index].stretch.to_number() - query.stretch.to_number()
})?;
candidates[matching_index].stretch
}
}
} else {
// Closest stretch, first checking wider values and then narrower values.
let stretch = matching_set
.iter()
.filter(|&&index| candidates[index].stretch > query.stretch)
.min_by_key(|&&index| {
candidates[index].stretch.to_number() - query.stretch.to_number()
});
match stretch {
Some(&matching_index) => candidates[matching_index].stretch,
None => {
let matching_index = *matching_set.iter().min_by_key(|&&index| {
query.stretch.to_number() - candidates[index].stretch.to_number()
})?;
candidates[matching_index].stretch
}
}
};
matching_set.retain(|&index| candidates[index].stretch == matching_stretch);
// Step 4b (`font-style`).
let style_preference = match query.style {
Style::Italic => [Style::Italic, Style::Oblique, Style::Normal],
Style::Oblique => [Style::Oblique, Style::Italic, Style::Normal],
Style::Normal => [Style::Normal, Style::Oblique, Style::Italic],
};
let matching_style = *style_preference.iter().find(|&query_style| {
matching_set
.iter()
.any(|&index| candidates[index].style == *query_style)
})?;
matching_set.retain(|&index| candidates[index].style == matching_style);
// Step 4c (`font-weight`).
//
// The spec doesn't say what to do if the weight is between 400 and 500 exclusive, so we
// just use 450 as the cutoff.
let weight = query.weight.0;
let matching_weight = if matching_set
.iter()
.any(|&index| candidates[index].weight.0 == weight)
{
Weight(weight)
} else if (400..450).contains(&weight)
&& matching_set
.iter()
.any(|&index| candidates[index].weight.0 == 500)
{
// Check 500 first.
Weight::MEDIUM
} else if (450..=500).contains(&weight)
&& matching_set
.iter()
.any(|&index| candidates[index].weight.0 == 400)
{
// Check 400 first.
Weight::NORMAL
} else if weight <= 500 {
// Closest weight, first checking thinner values and then fatter ones.
let idx = matching_set
.iter()
.filter(|&&index| candidates[index].weight.0 <= weight)
.min_by_key(|&&index| weight - candidates[index].weight.0);
match idx {
Some(&matching_index) => candidates[matching_index].weight,
None => {
let matching_index = *matching_set
.iter()
.min_by_key(|&&index| candidates[index].weight.0 - weight)?;
candidates[matching_index].weight
}
}
} else {
// Closest weight, first checking fatter values and then thinner ones.
let idx = matching_set
.iter()
.filter(|&&index| candidates[index].weight.0 >= weight)
.min_by_key(|&&index| candidates[index].weight.0 - weight);
match idx {
Some(&matching_index) => candidates[matching_index].weight,
None => {
let matching_index = *matching_set
.iter()
.min_by_key(|&&index| weight - candidates[index].weight.0)?;
candidates[matching_index].weight
}
}
};
matching_set.retain(|&index| candidates[index].weight == matching_weight);
// Ignore step 4d (`font-size`).
// Return the result.
matching_set.into_iter().next()
}
/// Macintosh Roman to UTF-16 encoding table.
///
/// https://en.wikipedia.org/wiki/Mac_OS_Roman
#[rustfmt::skip]
const MAC_ROMAN: &[u16; 256] = &[
0x0000, 0x0001, 0x0002, 0x0003, 0x0004, 0x0005, 0x0006, 0x0007,
0x0008, 0x0009, 0x000A, 0x000B, 0x000C, 0x000D, 0x000E, 0x000F,
0x0010, 0x2318, 0x21E7, 0x2325, 0x2303, 0x0015, 0x0016, 0x0017,
0x0018, 0x0019, 0x001A, 0x001B, 0x001C, 0x001D, 0x001E, 0x001F,
0x0020, 0x0021, 0x0022, 0x0023, 0x0024, 0x0025, 0x0026, 0x0027,
0x0028, 0x0029, 0x002A, 0x002B, 0x002C, 0x002D, 0x002E, 0x002F,
0x0030, 0x0031, 0x0032, 0x0033, 0x0034, 0x0035, 0x0036, 0x0037,
0x0038, 0x0039, 0x003A, 0x003B, 0x003C, 0x003D, 0x003E, 0x003F,
0x0040, 0x0041, 0x0042, 0x0043, 0x0044, 0x0045, 0x0046, 0x0047,
0x0048, 0x0049, 0x004A, 0x004B, 0x004C, 0x004D, 0x004E, 0x004F,
0x0050, 0x0051, 0x0052, 0x0053, 0x0054, 0x0055, 0x0056, 0x0057,
0x0058, 0x0059, 0x005A, 0x005B, 0x005C, 0x005D, 0x005E, 0x005F,
0x0060, 0x0061, 0x0062, 0x0063, 0x0064, 0x0065, 0x0066, 0x0067,
0x0068, 0x0069, 0x006A, 0x006B, 0x006C, 0x006D, 0x006E, 0x006F,
0x0070, 0x0071, 0x0072, 0x0073, 0x0074, 0x0075, 0x0076, 0x0077,
0x0078, 0x0079, 0x007A, 0x007B, 0x007C, 0x007D, 0x007E, 0x007F,
0x00C4, 0x00C5, 0x00C7, 0x00C9, 0x00D1, 0x00D6, 0x00DC, 0x00E1,
0x00E0, 0x00E2, 0x00E4, 0x00E3, 0x00E5, 0x00E7, 0x00E9, 0x00E8,
0x00EA, 0x00EB, 0x00ED, 0x00EC, 0x00EE, 0x00EF, 0x00F1, 0x00F3,
0x00F2, 0x00F4, 0x00F6, 0x00F5, 0x00FA, 0x00F9, 0x00FB, 0x00FC,
0x2020, 0x00B0, 0x00A2, 0x00A3, 0x00A7, 0x2022, 0x00B6, 0x00DF,
0x00AE, 0x00A9, 0x2122, 0x00B4, 0x00A8, 0x2260, 0x00C6, 0x00D8,
0x221E, 0x00B1, 0x2264, 0x2265, 0x00A5, 0x00B5, 0x2202, 0x2211,
0x220F, 0x03C0, 0x222B, 0x00AA, 0x00BA, 0x03A9, 0x00E6, 0x00F8,
0x00BF, 0x00A1, 0x00AC, 0x221A, 0x0192, 0x2248, 0x2206, 0x00AB,
0x00BB, 0x2026, 0x00A0, 0x00C0, 0x00C3, 0x00D5, 0x0152, 0x0153,
0x2013, 0x2014, 0x201C, 0x201D, 0x2018, 0x2019, 0x00F7, 0x25CA,
0x00FF, 0x0178, 0x2044, 0x20AC, 0x2039, 0x203A, 0xFB01, 0xFB02,
0x2021, 0x00B7, 0x201A, 0x201E, 0x2030, 0x00C2, 0x00CA, 0x00C1,
0x00CB, 0x00C8, 0x00CD, 0x00CE, 0x00CF, 0x00CC, 0x00D3, 0x00D4,
0xF8FF, 0x00D2, 0x00DA, 0x00DB, 0x00D9, 0x0131, 0x02C6, 0x02DC,
0x00AF, 0x02D8, 0x02D9, 0x02DA, 0x00B8, 0x02DD, 0x02DB, 0x02C7,
];