ttf_parser/lib.rs
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/*!
A high-level, safe, zero-allocation font parser for:
* [TrueType](https://docs.microsoft.com/en-us/typography/truetype/),
* [OpenType](https://docs.microsoft.com/en-us/typography/opentype/spec/), and
* [AAT](https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6AATIntro.html)
fonts.
Font parsing starts with a [`Face`].
## Features
- A high-level API for most common properties, hiding all parsing and data resolving logic.
- A low-level, but safe API to access TrueType tables data.
- Highly configurable. You can disable most of the features, reducing binary size.
You can also parse TrueType tables separately, without loading the whole font/face.
- Zero heap allocations.
- Zero unsafe.
- Zero dependencies.
- `no_std`/WASM compatible.
- Fast.
- Stateless. All parsing methods are immutable.
- Simple and maintainable code (no magic numbers).
## Safety
- The library must not panic. Any panic considered as a critical bug and should be reported.
- The library forbids unsafe code.
- No heap allocations, so crash due to OOM is not possible.
- All recursive methods have a depth limit.
- Technically, should use less than 64KiB of stack in worst case scenario.
- Most of arithmetic operations are checked.
- Most of numeric casts are checked.
*/
#![no_std]
#![forbid(unsafe_code)]
#![warn(missing_docs)]
#![warn(missing_copy_implementations)]
#![warn(missing_debug_implementations)]
#![allow(clippy::get_first)] // we use it for readability
#![allow(clippy::identity_op)] // we use it for readability
#![allow(clippy::too_many_arguments)]
#![allow(clippy::collapsible_else_if)]
#![allow(clippy::field_reassign_with_default)]
#![allow(clippy::upper_case_acronyms)]
#[cfg(feature = "std")]
#[macro_use]
extern crate std;
#[cfg(feature = "apple-layout")]
mod aat;
#[cfg(feature = "variable-fonts")]
mod delta_set;
#[cfg(feature = "opentype-layout")]
mod ggg;
mod language;
mod parser;
mod tables;
#[cfg(feature = "variable-fonts")]
mod var_store;
use head::IndexToLocationFormat;
pub use parser::{Fixed, FromData, LazyArray16, LazyArray32, LazyArrayIter16, LazyArrayIter32};
use parser::{NumFrom, Offset, Offset32, Stream, TryNumFrom};
#[cfg(feature = "variable-fonts")]
pub use fvar::VariationAxis;
pub use language::Language;
pub use name::{name_id, PlatformId};
pub use os2::{Permissions, ScriptMetrics, Style, UnicodeRanges, Weight, Width};
pub use tables::CFFError;
#[cfg(feature = "apple-layout")]
pub use tables::{ankr, feat, kerx, morx, trak};
#[cfg(feature = "variable-fonts")]
pub use tables::{avar, cff2, fvar, gvar, hvar, mvar};
pub use tables::{cbdt, cblc, cff1 as cff, vhea};
pub use tables::{
cmap, colr, cpal, glyf, head, hhea, hmtx, kern, loca, maxp, name, os2, post, sbix, svg, vorg,
};
#[cfg(feature = "opentype-layout")]
pub use tables::{gdef, gpos, gsub, math};
#[cfg(feature = "opentype-layout")]
pub mod opentype_layout {
//! This module contains
//! [OpenType Layout](https://docs.microsoft.com/en-us/typography/opentype/spec/chapter2#overview)
//! supplementary tables implementation.
pub use crate::ggg::*;
}
#[cfg(feature = "apple-layout")]
pub mod apple_layout {
//! This module contains
//! [Apple Advanced Typography Layout](
//! https://developer.apple.com/fonts/TrueType-Reference-Manual/RM06/Chap6AATIntro.html)
//! supplementary tables implementation.
pub use crate::aat::*;
}
/// A type-safe wrapper for glyph ID.
#[repr(transparent)]
#[derive(Clone, Copy, Ord, PartialOrd, Eq, PartialEq, Default, Debug, Hash)]
pub struct GlyphId(pub u16);
impl FromData for GlyphId {
const SIZE: usize = 2;
#[inline]
fn parse(data: &[u8]) -> Option<Self> {
u16::parse(data).map(GlyphId)
}
}
/// A TrueType font magic.
///
/// https://docs.microsoft.com/en-us/typography/opentype/spec/otff#organization-of-an-opentype-font
#[derive(Clone, Copy, PartialEq, Debug)]
enum Magic {
TrueType,
OpenType,
FontCollection,
}
impl FromData for Magic {
const SIZE: usize = 4;
#[inline]
fn parse(data: &[u8]) -> Option<Self> {
match u32::parse(data)? {
0x00010000 | 0x74727565 => Some(Magic::TrueType),
0x4F54544F => Some(Magic::OpenType),
0x74746366 => Some(Magic::FontCollection),
_ => None,
}
}
}
/// A variation coordinate in a normalized coordinate system.
///
/// Basically any number in a -1.0..1.0 range.
/// Where 0 is a default value.
///
/// The number is stored as f2.16
#[repr(transparent)]
#[derive(Clone, Copy, PartialEq, Eq, Default, Debug)]
pub struct NormalizedCoordinate(i16);
impl From<i16> for NormalizedCoordinate {
/// Creates a new coordinate.
///
/// The provided number will be clamped to the -16384..16384 range.
#[inline]
fn from(n: i16) -> Self {
NormalizedCoordinate(parser::i16_bound(-16384, n, 16384))
}
}
impl From<f32> for NormalizedCoordinate {
/// Creates a new coordinate.
///
/// The provided number will be clamped to the -1.0..1.0 range.
#[inline]
fn from(n: f32) -> Self {
NormalizedCoordinate((parser::f32_bound(-1.0, n, 1.0) * 16384.0) as i16)
}
}
impl NormalizedCoordinate {
/// Returns the coordinate value as f2.14.
#[inline]
pub fn get(self) -> i16 {
self.0
}
}
/// A font variation value.
///
/// # Example
///
/// ```
/// use ttf_parser::{Variation, Tag};
///
/// Variation { axis: Tag::from_bytes(b"wght"), value: 500.0 };
/// ```
#[derive(Clone, Copy, PartialEq, Debug)]
pub struct Variation {
/// An axis tag name.
pub axis: Tag,
/// An axis value.
pub value: f32,
}
/// A 4-byte tag.
#[repr(transparent)]
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
pub struct Tag(pub u32);
impl Tag {
/// Creates a `Tag` from bytes.
///
/// # Example
///
/// ```rust
/// println!("{}", ttf_parser::Tag::from_bytes(b"name"));
/// ```
#[inline]
pub const fn from_bytes(bytes: &[u8; 4]) -> Self {
Tag(((bytes[0] as u32) << 24)
| ((bytes[1] as u32) << 16)
| ((bytes[2] as u32) << 8)
| (bytes[3] as u32))
}
/// Creates a `Tag` from bytes.
///
/// In case of empty data will return `Tag` set to 0.
///
/// When `bytes` are shorter than 4, will set missing bytes to ` `.
///
/// Data after first 4 bytes is ignored.
#[inline]
pub fn from_bytes_lossy(bytes: &[u8]) -> Self {
if bytes.is_empty() {
return Tag::from_bytes(&[0, 0, 0, 0]);
}
let mut iter = bytes.iter().cloned().chain(core::iter::repeat(b' '));
Tag::from_bytes(&[
iter.next().unwrap(),
iter.next().unwrap(),
iter.next().unwrap(),
iter.next().unwrap(),
])
}
/// Returns tag as 4-element byte array.
#[inline]
pub const fn to_bytes(self) -> [u8; 4] {
[
(self.0 >> 24 & 0xff) as u8,
(self.0 >> 16 & 0xff) as u8,
(self.0 >> 8 & 0xff) as u8,
(self.0 >> 0 & 0xff) as u8,
]
}
/// Returns tag as 4-element byte array.
#[inline]
pub const fn to_chars(self) -> [char; 4] {
[
(self.0 >> 24 & 0xff) as u8 as char,
(self.0 >> 16 & 0xff) as u8 as char,
(self.0 >> 8 & 0xff) as u8 as char,
(self.0 >> 0 & 0xff) as u8 as char,
]
}
/// Checks if tag is null / `[0, 0, 0, 0]`.
#[inline]
pub const fn is_null(&self) -> bool {
self.0 == 0
}
/// Returns tag value as `u32` number.
#[inline]
pub const fn as_u32(&self) -> u32 {
self.0
}
}
impl core::fmt::Debug for Tag {
#[inline]
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "Tag({})", self)
}
}
impl core::fmt::Display for Tag {
#[inline]
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
let b = self.to_chars();
write!(
f,
"{}{}{}{}",
b.get(0).unwrap_or(&' '),
b.get(1).unwrap_or(&' '),
b.get(2).unwrap_or(&' '),
b.get(3).unwrap_or(&' ')
)
}
}
impl FromData for Tag {
const SIZE: usize = 4;
#[inline]
fn parse(data: &[u8]) -> Option<Self> {
u32::parse(data).map(Tag)
}
}
/// A line metrics.
///
/// Used for underline and strikeout.
#[repr(C)]
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub struct LineMetrics {
/// Line position.
pub position: i16,
/// Line thickness.
pub thickness: i16,
}
/// A rectangle.
///
/// Doesn't guarantee that `x_min` <= `x_max` and/or `y_min` <= `y_max`.
#[repr(C)]
#[allow(missing_docs)]
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub struct Rect {
pub x_min: i16,
pub y_min: i16,
pub x_max: i16,
pub y_max: i16,
}
impl Rect {
#[inline]
fn zero() -> Self {
Self {
x_min: 0,
y_min: 0,
x_max: 0,
y_max: 0,
}
}
/// Returns rect's width.
#[inline]
pub fn width(&self) -> i16 {
self.x_max - self.x_min
}
/// Returns rect's height.
#[inline]
pub fn height(&self) -> i16 {
self.y_max - self.y_min
}
}
/// A rectangle described by the left-lower and upper-right points.
#[derive(Clone, Copy, Debug, PartialEq)]
pub struct RectF {
/// The horizontal minimum of the rect.
pub x_min: f32,
/// The vertical minimum of the rect.
pub y_min: f32,
/// The horizontal maximum of the rect.
pub x_max: f32,
/// The vertical maximum of the rect.
pub y_max: f32,
}
impl RectF {
#[inline]
fn new() -> Self {
RectF {
x_min: core::f32::MAX,
y_min: core::f32::MAX,
x_max: core::f32::MIN,
y_max: core::f32::MIN,
}
}
#[inline]
fn is_default(&self) -> bool {
self.x_min == core::f32::MAX
&& self.y_min == core::f32::MAX
&& self.x_max == core::f32::MIN
&& self.y_max == core::f32::MIN
}
#[inline]
fn extend_by(&mut self, x: f32, y: f32) {
self.x_min = self.x_min.min(x);
self.y_min = self.y_min.min(y);
self.x_max = self.x_max.max(x);
self.y_max = self.y_max.max(y);
}
#[inline]
fn to_rect(self) -> Option<Rect> {
Some(Rect {
x_min: i16::try_num_from(self.x_min)?,
y_min: i16::try_num_from(self.y_min)?,
x_max: i16::try_num_from(self.x_max)?,
y_max: i16::try_num_from(self.y_max)?,
})
}
}
/// An affine transform.
#[derive(Clone, Copy, PartialEq)]
pub struct Transform {
/// The 'a' component of the transform.
pub a: f32,
/// The 'b' component of the transform.
pub b: f32,
/// The 'c' component of the transform.
pub c: f32,
/// The 'd' component of the transform.
pub d: f32,
/// The 'e' component of the transform.
pub e: f32,
/// The 'f' component of the transform.
pub f: f32,
}
impl Transform {
/// Creates a new transform with the specified components.
#[inline]
pub fn new(a: f32, b: f32, c: f32, d: f32, e: f32, f: f32) -> Self {
Transform { a, b, c, d, e, f }
}
/// Creates a new translation transform.
#[inline]
pub fn new_translate(tx: f32, ty: f32) -> Self {
Transform::new(1.0, 0.0, 0.0, 1.0, tx, ty)
}
/// Combines two transforms with each other.
#[inline]
pub fn combine(ts1: Self, ts2: Self) -> Self {
Transform {
a: ts1.a * ts2.a + ts1.c * ts2.b,
b: ts1.b * ts2.a + ts1.d * ts2.b,
c: ts1.a * ts2.c + ts1.c * ts2.d,
d: ts1.b * ts2.c + ts1.d * ts2.d,
e: ts1.a * ts2.e + ts1.c * ts2.f + ts1.e,
f: ts1.b * ts2.e + ts1.d * ts2.f + ts1.f,
}
}
#[inline]
fn apply_to(&self, x: &mut f32, y: &mut f32) {
let tx = *x;
let ty = *y;
*x = self.a * tx + self.c * ty + self.e;
*y = self.b * tx + self.d * ty + self.f;
}
/// Checks whether a transform is the identity transform.
#[inline]
pub fn is_default(&self) -> bool {
// A direct float comparison is fine in our case.
self.a == 1.0
&& self.b == 0.0
&& self.c == 0.0
&& self.d == 1.0
&& self.e == 0.0
&& self.f == 0.0
}
}
impl Default for Transform {
#[inline]
fn default() -> Self {
Transform {
a: 1.0,
b: 0.0,
c: 0.0,
d: 1.0,
e: 0.0,
f: 0.0,
}
}
}
impl core::fmt::Debug for Transform {
fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result {
write!(
f,
"Transform({} {} {} {} {} {})",
self.a, self.b, self.c, self.d, self.e, self.f
)
}
}
/// A RGBA color in the sRGB color space.
#[allow(missing_docs)]
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub struct RgbaColor {
pub red: u8,
pub green: u8,
pub blue: u8,
pub alpha: u8,
}
impl RgbaColor {
/// Creates a new `RgbaColor`.
#[inline]
pub fn new(red: u8, green: u8, blue: u8, alpha: u8) -> Self {
Self {
blue,
green,
red,
alpha,
}
}
pub(crate) fn apply_alpha(&mut self, alpha: f32) {
self.alpha = (((f32::from(self.alpha) / 255.0) * alpha) * 255.0) as u8;
}
}
/// A trait for glyph outline construction.
pub trait OutlineBuilder {
/// Appends a MoveTo segment.
///
/// Start of a contour.
fn move_to(&mut self, x: f32, y: f32);
/// Appends a LineTo segment.
fn line_to(&mut self, x: f32, y: f32);
/// Appends a QuadTo segment.
fn quad_to(&mut self, x1: f32, y1: f32, x: f32, y: f32);
/// Appends a CurveTo segment.
fn curve_to(&mut self, x1: f32, y1: f32, x2: f32, y2: f32, x: f32, y: f32);
/// Appends a ClosePath segment.
///
/// End of a contour.
fn close(&mut self);
}
struct DummyOutline;
impl OutlineBuilder for DummyOutline {
fn move_to(&mut self, _: f32, _: f32) {}
fn line_to(&mut self, _: f32, _: f32) {}
fn quad_to(&mut self, _: f32, _: f32, _: f32, _: f32) {}
fn curve_to(&mut self, _: f32, _: f32, _: f32, _: f32, _: f32, _: f32) {}
fn close(&mut self) {}
}
/// A glyph raster image format.
#[allow(missing_docs)]
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub enum RasterImageFormat {
PNG,
/// A monochrome bitmap.
///
/// The most significant bit of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. The data for each row is padded to a byte
/// boundary, so the next row begins with the most significant bit of a new byte. 1 corresponds
/// to black, and 0 to white.
BitmapMono,
/// A packed monochrome bitmap.
///
/// The most significant bit of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. Data is tightly packed with no padding. 1
/// corresponds to black, and 0 to white.
BitmapMonoPacked,
/// A grayscale bitmap with 2 bits per pixel.
///
/// The most significant bits of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. The data for each row is padded to a byte
/// boundary, so the next row begins with the most significant bit of a new byte.
BitmapGray2,
/// A packed grayscale bitmap with 2 bits per pixel.
///
/// The most significant bits of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. Data is tightly packed with no padding.
BitmapGray2Packed,
/// A grayscale bitmap with 4 bits per pixel.
///
/// The most significant bits of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. The data for each row is padded to a byte
/// boundary, so the next row begins with the most significant bit of a new byte.
BitmapGray4,
/// A packed grayscale bitmap with 4 bits per pixel.
///
/// The most significant bits of the first byte corresponds to the top-left pixel, proceeding
/// through succeeding bits moving left to right. Data is tightly packed with no padding.
BitmapGray4Packed,
/// A grayscale bitmap with 8 bits per pixel.
///
/// The first byte corresponds to the top-left pixel, proceeding through succeeding bytes
/// moving left to right.
BitmapGray8,
/// A color bitmap with 32 bits per pixel.
///
/// The first group of four bytes corresponds to the top-left pixel, proceeding through
/// succeeding pixels moving left to right. Each byte corresponds to a color channel and the
/// channels within a pixel are in blue, green, red, alpha order. Color values are
/// pre-multiplied by the alpha. For example, the color "full-green with half translucency"
/// is encoded as `\x00\x80\x00\x80`, and not `\x00\xFF\x00\x80`.
BitmapPremulBgra32,
}
/// A glyph's raster image.
///
/// Note, that glyph metrics are in pixels and not in font units.
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub struct RasterGlyphImage<'a> {
/// Horizontal offset.
pub x: i16,
/// Vertical offset.
pub y: i16,
/// Image width.
///
/// It doesn't guarantee that this value is the same as set in the `data`.
pub width: u16,
/// Image height.
///
/// It doesn't guarantee that this value is the same as set in the `data`.
pub height: u16,
/// A pixels per em of the selected strike.
pub pixels_per_em: u16,
/// An image format.
pub format: RasterImageFormat,
/// A raw image data. It's up to the caller to decode it.
pub data: &'a [u8],
}
/// A raw table record.
#[derive(Clone, Copy, Debug)]
#[allow(missing_docs)]
pub struct TableRecord {
pub tag: Tag,
#[allow(dead_code)]
pub check_sum: u32,
pub offset: u32,
pub length: u32,
}
impl FromData for TableRecord {
const SIZE: usize = 16;
#[inline]
fn parse(data: &[u8]) -> Option<Self> {
let mut s = Stream::new(data);
Some(TableRecord {
tag: s.read::<Tag>()?,
check_sum: s.read::<u32>()?,
offset: s.read::<u32>()?,
length: s.read::<u32>()?,
})
}
}
#[cfg(feature = "variable-fonts")]
const MAX_VAR_COORDS: usize = 64;
#[cfg(feature = "variable-fonts")]
#[derive(Clone)]
struct VarCoords {
data: [NormalizedCoordinate; MAX_VAR_COORDS],
len: u8,
}
#[cfg(feature = "variable-fonts")]
impl Default for VarCoords {
fn default() -> Self {
Self {
data: [NormalizedCoordinate::default(); MAX_VAR_COORDS],
len: u8::default(),
}
}
}
#[cfg(feature = "variable-fonts")]
impl VarCoords {
#[inline]
fn as_slice(&self) -> &[NormalizedCoordinate] {
&self.data[0..usize::from(self.len)]
}
#[inline]
fn as_mut_slice(&mut self) -> &mut [NormalizedCoordinate] {
let end = usize::from(self.len);
&mut self.data[0..end]
}
}
/// A list of font face parsing errors.
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
pub enum FaceParsingError {
/// An attempt to read out of bounds detected.
///
/// Should occur only on malformed fonts.
MalformedFont,
/// Face data must start with `0x00010000`, `0x74727565`, `0x4F54544F` or `0x74746366`.
UnknownMagic,
/// The face index is larger than the number of faces in the font.
FaceIndexOutOfBounds,
/// The `head` table is missing or malformed.
NoHeadTable,
/// The `hhea` table is missing or malformed.
NoHheaTable,
/// The `maxp` table is missing or malformed.
NoMaxpTable,
}
impl core::fmt::Display for FaceParsingError {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
FaceParsingError::MalformedFont => write!(f, "malformed font"),
FaceParsingError::UnknownMagic => write!(f, "unknown magic"),
FaceParsingError::FaceIndexOutOfBounds => write!(f, "face index is out of bounds"),
FaceParsingError::NoHeadTable => write!(f, "the head table is missing or malformed"),
FaceParsingError::NoHheaTable => write!(f, "the hhea table is missing or malformed"),
FaceParsingError::NoMaxpTable => write!(f, "the maxp table is missing or malformed"),
}
}
}
#[cfg(feature = "std")]
impl std::error::Error for FaceParsingError {}
/// A raw font face.
///
/// You are probably looking for [`Face`]. This is a low-level type.
///
/// Unlike [`Face`], [`RawFace`] parses only face table records.
/// Meaning all you can get from this type is a raw (`&[u8]`) data of a requested table.
/// Then you can either parse just a singe table from a font/face or populate [`RawFaceTables`]
/// manually before passing it to [`Face::from_raw_tables`].
#[derive(Clone, Copy)]
pub struct RawFace<'a> {
/// The input font file data.
pub data: &'a [u8],
/// An array of table records.
pub table_records: LazyArray16<'a, TableRecord>,
}
impl<'a> RawFace<'a> {
/// Creates a new [`RawFace`] from a raw data.
///
/// `index` indicates the specific font face in a font collection.
/// Use [`fonts_in_collection`] to get the total number of font faces.
/// Set to 0 if unsure.
///
/// While we do reuse [`FaceParsingError`], `No*Table` errors will not be throws.
#[deprecated(since = "0.16.0", note = "use `parse` instead")]
pub fn from_slice(data: &'a [u8], index: u32) -> Result<Self, FaceParsingError> {
Self::parse(data, index)
}
/// Creates a new [`RawFace`] from a raw data.
///
/// `index` indicates the specific font face in a font collection.
/// Use [`fonts_in_collection`] to get the total number of font faces.
/// Set to 0 if unsure.
///
/// While we do reuse [`FaceParsingError`], `No*Table` errors will not be throws.
pub fn parse(data: &'a [u8], index: u32) -> Result<Self, FaceParsingError> {
// https://docs.microsoft.com/en-us/typography/opentype/spec/otff#organization-of-an-opentype-font
let mut s = Stream::new(data);
// Read **font** magic.
let magic = s.read::<Magic>().ok_or(FaceParsingError::UnknownMagic)?;
if magic == Magic::FontCollection {
s.skip::<u32>(); // version
let number_of_faces = s.read::<u32>().ok_or(FaceParsingError::MalformedFont)?;
let offsets = s
.read_array32::<Offset32>(number_of_faces)
.ok_or(FaceParsingError::MalformedFont)?;
let face_offset = offsets
.get(index)
.ok_or(FaceParsingError::FaceIndexOutOfBounds)?;
// Face offset is from the start of the font data,
// so we have to adjust it to the current parser offset.
let face_offset = face_offset
.to_usize()
.checked_sub(s.offset())
.ok_or(FaceParsingError::MalformedFont)?;
s.advance_checked(face_offset)
.ok_or(FaceParsingError::MalformedFont)?;
// Read **face** magic.
// Each face in a font collection also starts with a magic.
let magic = s.read::<Magic>().ok_or(FaceParsingError::UnknownMagic)?;
// And face in a font collection can't be another collection.
if magic == Magic::FontCollection {
return Err(FaceParsingError::UnknownMagic);
}
} else {
// When reading from a regular font (not a collection) disallow index to be non-zero
// Basically treat the font as a one-element collection
if index != 0 {
return Err(FaceParsingError::FaceIndexOutOfBounds);
}
}
let num_tables = s.read::<u16>().ok_or(FaceParsingError::MalformedFont)?;
s.advance(6); // searchRange (u16) + entrySelector (u16) + rangeShift (u16)
let table_records = s
.read_array16::<TableRecord>(num_tables)
.ok_or(FaceParsingError::MalformedFont)?;
Ok(RawFace {
data,
table_records,
})
}
/// Returns the raw data of a selected table.
pub fn table(&self, tag: Tag) -> Option<&'a [u8]> {
let (_, table) = self
.table_records
.binary_search_by(|record| record.tag.cmp(&tag))?;
let offset = usize::num_from(table.offset);
let length = usize::num_from(table.length);
let end = offset.checked_add(length)?;
self.data.get(offset..end)
}
}
impl core::fmt::Debug for RawFace<'_> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "RawFace {{ ... }}")
}
}
/// A list of all supported tables as raw data.
///
/// This type should be used in tandem with
/// [`Face::from_raw_tables()`](struct.Face.html#method.from_raw_tables).
///
/// This allows loading font faces not only from TrueType font files,
/// but from any source. Mainly used for parsing WOFF.
#[allow(missing_docs)]
#[allow(missing_debug_implementations)]
#[derive(Clone, Default)]
pub struct RawFaceTables<'a> {
// Mandatory tables.
pub head: &'a [u8],
pub hhea: &'a [u8],
pub maxp: &'a [u8],
pub bdat: Option<&'a [u8]>,
pub bloc: Option<&'a [u8]>,
pub cbdt: Option<&'a [u8]>,
pub cblc: Option<&'a [u8]>,
pub cff: Option<&'a [u8]>,
pub cmap: Option<&'a [u8]>,
pub colr: Option<&'a [u8]>,
pub cpal: Option<&'a [u8]>,
pub ebdt: Option<&'a [u8]>,
pub eblc: Option<&'a [u8]>,
pub glyf: Option<&'a [u8]>,
pub hmtx: Option<&'a [u8]>,
pub kern: Option<&'a [u8]>,
pub loca: Option<&'a [u8]>,
pub name: Option<&'a [u8]>,
pub os2: Option<&'a [u8]>,
pub post: Option<&'a [u8]>,
pub sbix: Option<&'a [u8]>,
pub svg: Option<&'a [u8]>,
pub vhea: Option<&'a [u8]>,
pub vmtx: Option<&'a [u8]>,
pub vorg: Option<&'a [u8]>,
#[cfg(feature = "opentype-layout")]
pub gdef: Option<&'a [u8]>,
#[cfg(feature = "opentype-layout")]
pub gpos: Option<&'a [u8]>,
#[cfg(feature = "opentype-layout")]
pub gsub: Option<&'a [u8]>,
#[cfg(feature = "opentype-layout")]
pub math: Option<&'a [u8]>,
#[cfg(feature = "apple-layout")]
pub ankr: Option<&'a [u8]>,
#[cfg(feature = "apple-layout")]
pub feat: Option<&'a [u8]>,
#[cfg(feature = "apple-layout")]
pub kerx: Option<&'a [u8]>,
#[cfg(feature = "apple-layout")]
pub morx: Option<&'a [u8]>,
#[cfg(feature = "apple-layout")]
pub trak: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub avar: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub cff2: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub fvar: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub gvar: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub hvar: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub mvar: Option<&'a [u8]>,
#[cfg(feature = "variable-fonts")]
pub vvar: Option<&'a [u8]>,
}
/// Parsed face tables.
///
/// Unlike [`Face`], provides a low-level parsing abstraction over TrueType tables.
/// Useful when you need a direct access to tables data.
///
/// Also, used when high-level API is problematic to implement.
/// A good example would be OpenType layout tables (GPOS/GSUB).
#[allow(missing_docs)]
#[allow(missing_debug_implementations)]
#[derive(Clone)]
pub struct FaceTables<'a> {
// Mandatory tables.
pub head: head::Table,
pub hhea: hhea::Table,
pub maxp: maxp::Table,
pub bdat: Option<cbdt::Table<'a>>,
pub cbdt: Option<cbdt::Table<'a>>,
pub cff: Option<cff::Table<'a>>,
pub cmap: Option<cmap::Table<'a>>,
pub colr: Option<colr::Table<'a>>,
pub ebdt: Option<cbdt::Table<'a>>,
pub glyf: Option<glyf::Table<'a>>,
pub hmtx: Option<hmtx::Table<'a>>,
pub kern: Option<kern::Table<'a>>,
pub name: Option<name::Table<'a>>,
pub os2: Option<os2::Table<'a>>,
pub post: Option<post::Table<'a>>,
pub sbix: Option<sbix::Table<'a>>,
pub svg: Option<svg::Table<'a>>,
pub vhea: Option<vhea::Table>,
pub vmtx: Option<hmtx::Table<'a>>,
pub vorg: Option<vorg::Table<'a>>,
#[cfg(feature = "opentype-layout")]
pub gdef: Option<gdef::Table<'a>>,
#[cfg(feature = "opentype-layout")]
pub gpos: Option<opentype_layout::LayoutTable<'a>>,
#[cfg(feature = "opentype-layout")]
pub gsub: Option<opentype_layout::LayoutTable<'a>>,
#[cfg(feature = "opentype-layout")]
pub math: Option<math::Table<'a>>,
#[cfg(feature = "apple-layout")]
pub ankr: Option<ankr::Table<'a>>,
#[cfg(feature = "apple-layout")]
pub feat: Option<feat::Table<'a>>,
#[cfg(feature = "apple-layout")]
pub kerx: Option<kerx::Table<'a>>,
#[cfg(feature = "apple-layout")]
pub morx: Option<morx::Table<'a>>,
#[cfg(feature = "apple-layout")]
pub trak: Option<trak::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub avar: Option<avar::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub cff2: Option<cff2::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub fvar: Option<fvar::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub gvar: Option<gvar::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub hvar: Option<hvar::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub mvar: Option<mvar::Table<'a>>,
#[cfg(feature = "variable-fonts")]
pub vvar: Option<hvar::Table<'a>>,
}
/// A font face.
///
/// Provides a high-level API for working with TrueType fonts.
/// If you're not familiar with how TrueType works internally, you should use this type.
/// If you do know and want a bit more low-level access - checkout [`FaceTables`].
///
/// Note that `Face` doesn't own the font data and doesn't allocate anything in heap.
/// Therefore you cannot "store" it. The idea is that you should parse the `Face`
/// when needed, get required data and forget about it.
/// That's why the initial parsing is highly optimized and should not become a bottleneck.
///
/// If you still want to store `Face` - checkout
/// [owned_ttf_parser](https://crates.io/crates/owned_ttf_parser). Requires `unsafe`.
///
/// While `Face` is technically copyable, we disallow it because it's almost 2KB big.
#[derive(Clone)]
pub struct Face<'a> {
raw_face: RawFace<'a>,
tables: FaceTables<'a>, // Parsed tables.
#[cfg(feature = "variable-fonts")]
coordinates: VarCoords,
}
impl<'a> Face<'a> {
/// Creates a new [`Face`] from a raw data.
///
/// `index` indicates the specific font face in a font collection.
/// Use [`fonts_in_collection`] to get the total number of font faces.
/// Set to 0 if unsure.
///
/// This method will do some parsing and sanitization,
/// but in general can be considered free. No significant performance overhead.
///
/// Required tables: `head`, `hhea` and `maxp`.
///
/// If an optional table has invalid data it will be skipped.
#[deprecated(since = "0.16.0", note = "use `parse` instead")]
pub fn from_slice(data: &'a [u8], index: u32) -> Result<Self, FaceParsingError> {
Self::parse(data, index)
}
/// Creates a new [`Face`] from a raw data.
///
/// `index` indicates the specific font face in a font collection.
/// Use [`fonts_in_collection`] to get the total number of font faces.
/// Set to 0 if unsure.
///
/// This method will do some parsing and sanitization,
/// but in general can be considered free. No significant performance overhead.
///
/// Required tables: `head`, `hhea` and `maxp`.
///
/// If an optional table has invalid data it will be skipped.
pub fn parse(data: &'a [u8], index: u32) -> Result<Self, FaceParsingError> {
let raw_face = RawFace::parse(data, index)?;
let raw_tables = Self::collect_tables(raw_face);
#[allow(unused_mut)]
let mut face = Face {
raw_face,
#[cfg(feature = "variable-fonts")]
coordinates: VarCoords::default(),
tables: Self::parse_tables(raw_tables)?,
};
#[cfg(feature = "variable-fonts")]
{
if let Some(ref fvar) = face.tables.fvar {
face.coordinates.len = fvar.axes.len().min(MAX_VAR_COORDS as u16) as u8;
}
}
Ok(face)
}
fn collect_tables(raw_face: RawFace<'a>) -> RawFaceTables<'a> {
let mut tables = RawFaceTables::default();
for record in raw_face.table_records {
let start = usize::num_from(record.offset);
let end = match start.checked_add(usize::num_from(record.length)) {
Some(v) => v,
None => continue,
};
let table_data = raw_face.data.get(start..end);
match &record.tag.to_bytes() {
b"bdat" => tables.bdat = table_data,
b"bloc" => tables.bloc = table_data,
b"CBDT" => tables.cbdt = table_data,
b"CBLC" => tables.cblc = table_data,
b"CFF " => tables.cff = table_data,
#[cfg(feature = "variable-fonts")]
b"CFF2" => tables.cff2 = table_data,
b"COLR" => tables.colr = table_data,
b"CPAL" => tables.cpal = table_data,
b"EBDT" => tables.ebdt = table_data,
b"EBLC" => tables.eblc = table_data,
#[cfg(feature = "opentype-layout")]
b"GDEF" => tables.gdef = table_data,
#[cfg(feature = "opentype-layout")]
b"GPOS" => tables.gpos = table_data,
#[cfg(feature = "opentype-layout")]
b"GSUB" => tables.gsub = table_data,
#[cfg(feature = "opentype-layout")]
b"MATH" => tables.math = table_data,
#[cfg(feature = "variable-fonts")]
b"HVAR" => tables.hvar = table_data,
#[cfg(feature = "variable-fonts")]
b"MVAR" => tables.mvar = table_data,
b"OS/2" => tables.os2 = table_data,
b"SVG " => tables.svg = table_data,
b"VORG" => tables.vorg = table_data,
#[cfg(feature = "variable-fonts")]
b"VVAR" => tables.vvar = table_data,
#[cfg(feature = "apple-layout")]
b"ankr" => tables.ankr = table_data,
#[cfg(feature = "variable-fonts")]
b"avar" => tables.avar = table_data,
b"cmap" => tables.cmap = table_data,
#[cfg(feature = "apple-layout")]
b"feat" => tables.feat = table_data,
#[cfg(feature = "variable-fonts")]
b"fvar" => tables.fvar = table_data,
b"glyf" => tables.glyf = table_data,
#[cfg(feature = "variable-fonts")]
b"gvar" => tables.gvar = table_data,
b"head" => tables.head = table_data.unwrap_or_default(),
b"hhea" => tables.hhea = table_data.unwrap_or_default(),
b"hmtx" => tables.hmtx = table_data,
b"kern" => tables.kern = table_data,
#[cfg(feature = "apple-layout")]
b"kerx" => tables.kerx = table_data,
b"loca" => tables.loca = table_data,
b"maxp" => tables.maxp = table_data.unwrap_or_default(),
#[cfg(feature = "apple-layout")]
b"morx" => tables.morx = table_data,
b"name" => tables.name = table_data,
b"post" => tables.post = table_data,
b"sbix" => tables.sbix = table_data,
#[cfg(feature = "apple-layout")]
b"trak" => tables.trak = table_data,
b"vhea" => tables.vhea = table_data,
b"vmtx" => tables.vmtx = table_data,
_ => {}
}
}
tables
}
/// Creates a new [`Face`] from provided [`RawFaceTables`].
pub fn from_raw_tables(raw_tables: RawFaceTables<'a>) -> Result<Self, FaceParsingError> {
#[allow(unused_mut)]
let mut face = Face {
raw_face: RawFace {
data: &[],
table_records: LazyArray16::default(),
},
#[cfg(feature = "variable-fonts")]
coordinates: VarCoords::default(),
tables: Self::parse_tables(raw_tables)?,
};
#[cfg(feature = "variable-fonts")]
{
if let Some(ref fvar) = face.tables.fvar {
face.coordinates.len = fvar.axes.len().min(MAX_VAR_COORDS as u16) as u8;
}
}
Ok(face)
}
fn parse_tables(raw_tables: RawFaceTables<'a>) -> Result<FaceTables<'a>, FaceParsingError> {
let head = head::Table::parse(raw_tables.head).ok_or(FaceParsingError::NoHeadTable)?;
let hhea = hhea::Table::parse(raw_tables.hhea).ok_or(FaceParsingError::NoHheaTable)?;
let maxp = maxp::Table::parse(raw_tables.maxp).ok_or(FaceParsingError::NoMaxpTable)?;
let hmtx = raw_tables.hmtx.and_then(|data| {
hmtx::Table::parse(hhea.number_of_metrics, maxp.number_of_glyphs, data)
});
let vhea = raw_tables.vhea.and_then(vhea::Table::parse);
let vmtx = if let Some(vhea) = vhea {
raw_tables.vmtx.and_then(|data| {
hmtx::Table::parse(vhea.number_of_metrics, maxp.number_of_glyphs, data)
})
} else {
None
};
let loca = raw_tables.loca.and_then(|data| {
loca::Table::parse(maxp.number_of_glyphs, head.index_to_location_format, data)
});
let glyf = if let Some(loca) = loca {
raw_tables
.glyf
.and_then(|data| glyf::Table::parse(loca, data))
} else {
None
};
let bdat = if let Some(bloc) = raw_tables.bloc.and_then(cblc::Table::parse) {
raw_tables
.bdat
.and_then(|data| cbdt::Table::parse(bloc, data))
} else {
None
};
let cbdt = if let Some(cblc) = raw_tables.cblc.and_then(cblc::Table::parse) {
raw_tables
.cbdt
.and_then(|data| cbdt::Table::parse(cblc, data))
} else {
None
};
let ebdt = if let Some(eblc) = raw_tables.eblc.and_then(cblc::Table::parse) {
raw_tables
.ebdt
.and_then(|data| cbdt::Table::parse(eblc, data))
} else {
None
};
let cpal = raw_tables.cpal.and_then(cpal::Table::parse);
let colr = if let Some(cpal) = cpal {
raw_tables
.colr
.and_then(|data| colr::Table::parse(cpal, data))
} else {
None
};
Ok(FaceTables {
head,
hhea,
maxp,
bdat,
cbdt,
cff: raw_tables.cff.and_then(cff::Table::parse),
cmap: raw_tables.cmap.and_then(cmap::Table::parse),
colr,
ebdt,
glyf,
hmtx,
kern: raw_tables.kern.and_then(kern::Table::parse),
name: raw_tables.name.and_then(name::Table::parse),
os2: raw_tables.os2.and_then(os2::Table::parse),
post: raw_tables.post.and_then(post::Table::parse),
sbix: raw_tables
.sbix
.and_then(|data| sbix::Table::parse(maxp.number_of_glyphs, data)),
svg: raw_tables.svg.and_then(svg::Table::parse),
vhea: raw_tables.vhea.and_then(vhea::Table::parse),
vmtx,
vorg: raw_tables.vorg.and_then(vorg::Table::parse),
#[cfg(feature = "opentype-layout")]
gdef: raw_tables.gdef.and_then(gdef::Table::parse),
#[cfg(feature = "opentype-layout")]
gpos: raw_tables
.gpos
.and_then(opentype_layout::LayoutTable::parse),
#[cfg(feature = "opentype-layout")]
gsub: raw_tables
.gsub
.and_then(opentype_layout::LayoutTable::parse),
#[cfg(feature = "opentype-layout")]
math: raw_tables.math.and_then(math::Table::parse),
#[cfg(feature = "apple-layout")]
ankr: raw_tables
.ankr
.and_then(|data| ankr::Table::parse(maxp.number_of_glyphs, data)),
#[cfg(feature = "apple-layout")]
feat: raw_tables.feat.and_then(feat::Table::parse),
#[cfg(feature = "apple-layout")]
kerx: raw_tables
.kerx
.and_then(|data| kerx::Table::parse(maxp.number_of_glyphs, data)),
#[cfg(feature = "apple-layout")]
morx: raw_tables
.morx
.and_then(|data| morx::Table::parse(maxp.number_of_glyphs, data)),
#[cfg(feature = "apple-layout")]
trak: raw_tables.trak.and_then(trak::Table::parse),
#[cfg(feature = "variable-fonts")]
avar: raw_tables.avar.and_then(avar::Table::parse),
#[cfg(feature = "variable-fonts")]
cff2: raw_tables.cff2.and_then(cff2::Table::parse),
#[cfg(feature = "variable-fonts")]
fvar: raw_tables.fvar.and_then(fvar::Table::parse),
#[cfg(feature = "variable-fonts")]
gvar: raw_tables.gvar.and_then(gvar::Table::parse),
#[cfg(feature = "variable-fonts")]
hvar: raw_tables.hvar.and_then(hvar::Table::parse),
#[cfg(feature = "variable-fonts")]
mvar: raw_tables.mvar.and_then(mvar::Table::parse),
#[cfg(feature = "variable-fonts")]
vvar: raw_tables.vvar.and_then(hvar::Table::parse),
})
}
/// Returns low-level face tables.
#[inline]
pub fn tables(&self) -> &FaceTables<'a> {
&self.tables
}
/// Returns the `RawFace` used to create this `Face`.
///
/// Useful if you want to parse the data manually.
///
/// Available only for faces created using [`Face::parse()`](struct.Face.html#method.parse).
#[inline]
pub fn raw_face(&self) -> &RawFace<'a> {
&self.raw_face
}
/// Returns the raw data of a selected table.
///
/// Useful if you want to parse the data manually.
///
/// Available only for faces created using [`Face::parse()`](struct.Face.html#method.parse).
#[deprecated(since = "0.16.0", note = "use `self.raw_face().table()` instead")]
#[inline]
pub fn table_data(&self, tag: Tag) -> Option<&'a [u8]> {
self.raw_face.table(tag)
}
/// Returns a list of names.
///
/// Contains face name and other strings.
#[inline]
pub fn names(&self) -> name::Names<'a> {
self.tables.name.unwrap_or_default().names
}
/// Checks that face is marked as *Regular*.
///
/// Returns `false` when OS/2 table is not present.
#[inline]
pub fn is_regular(&self) -> bool {
self.tables
.os2
.map(|s| s.style() == Style::Normal)
.unwrap_or(false)
}
/// Checks that face is marked as *Italic*.
///
/// Returns `false` when OS/2 table is not present.
#[inline]
pub fn is_italic(&self) -> bool {
self.tables
.os2
.map(|s| s.style() == Style::Italic)
.unwrap_or(false)
}
/// Checks that face is marked as *Bold*.
///
/// Returns `false` when OS/2 table is not present.
#[inline]
pub fn is_bold(&self) -> bool {
self.tables.os2.map(|os2| os2.is_bold()).unwrap_or(false)
}
/// Checks that face is marked as *Oblique*.
///
/// Returns `false` when OS/2 table is not present or when its version is < 4.
#[inline]
pub fn is_oblique(&self) -> bool {
self.tables
.os2
.map(|s| s.style() == Style::Oblique)
.unwrap_or(false)
}
/// Returns face style.
#[inline]
pub fn style(&self) -> Style {
self.tables.os2.map(|os2| os2.style()).unwrap_or_default()
}
/// Checks that face is marked as *Monospaced*.
///
/// Returns `false` when `post` table is not present.
#[inline]
pub fn is_monospaced(&self) -> bool {
self.tables
.post
.map(|post| post.is_monospaced)
.unwrap_or(false)
}
/// Checks that face is variable.
///
/// Simply checks the presence of a `fvar` table.
#[inline]
pub fn is_variable(&self) -> bool {
#[cfg(feature = "variable-fonts")]
{
// `fvar::Table::parse` already checked that `axisCount` is non-zero.
self.tables.fvar.is_some()
}
#[cfg(not(feature = "variable-fonts"))]
{
false
}
}
/// Returns face's weight.
///
/// Returns `Weight::Normal` when OS/2 table is not present.
#[inline]
pub fn weight(&self) -> Weight {
self.tables.os2.map(|os2| os2.weight()).unwrap_or_default()
}
/// Returns face's width.
///
/// Returns `Width::Normal` when OS/2 table is not present or when value is invalid.
#[inline]
pub fn width(&self) -> Width {
self.tables.os2.map(|os2| os2.width()).unwrap_or_default()
}
/// Returns face's italic angle.
///
/// Returns `None` when `post` table is not present.
#[inline]
pub fn italic_angle(&self) -> Option<f32> {
self.tables.post.map(|table| table.italic_angle)
}
// Read https://github.com/freetype/freetype/blob/49270c17011491227ec7bd3fb73ede4f674aa065/src/sfnt/sfobjs.c#L1279
// to learn more about the logic behind the following functions.
/// Returns a horizontal face ascender.
///
/// This method is affected by variation axes.
#[inline]
pub fn ascender(&self) -> i16 {
if let Some(os_2) = self.tables.os2 {
if os_2.use_typographic_metrics() {
let value = os_2.typographic_ascender();
return self.apply_metrics_variation(Tag::from_bytes(b"hasc"), value);
}
}
let mut value = self.tables.hhea.ascender;
if value == 0 {
if let Some(os_2) = self.tables.os2 {
value = os_2.typographic_ascender();
if value == 0 {
value = os_2.windows_ascender();
value = self.apply_metrics_variation(Tag::from_bytes(b"hcla"), value);
} else {
value = self.apply_metrics_variation(Tag::from_bytes(b"hasc"), value);
}
}
}
value
}
/// Returns a horizontal face descender.
///
/// This method is affected by variation axes.
#[inline]
pub fn descender(&self) -> i16 {
if let Some(os_2) = self.tables.os2 {
if os_2.use_typographic_metrics() {
let value = os_2.typographic_descender();
return self.apply_metrics_variation(Tag::from_bytes(b"hdsc"), value);
}
}
let mut value = self.tables.hhea.descender;
if value == 0 {
if let Some(os_2) = self.tables.os2 {
value = os_2.typographic_descender();
if value == 0 {
value = os_2.windows_descender();
value = self.apply_metrics_variation(Tag::from_bytes(b"hcld"), value);
} else {
value = self.apply_metrics_variation(Tag::from_bytes(b"hdsc"), value);
}
}
}
value
}
/// Returns face's height.
///
/// This method is affected by variation axes.
#[inline]
pub fn height(&self) -> i16 {
self.ascender() - self.descender()
}
/// Returns a horizontal face line gap.
///
/// This method is affected by variation axes.
#[inline]
pub fn line_gap(&self) -> i16 {
if let Some(os_2) = self.tables.os2 {
if os_2.use_typographic_metrics() {
let value = os_2.typographic_line_gap();
return self.apply_metrics_variation(Tag::from_bytes(b"hlgp"), value);
}
}
let mut value = self.tables.hhea.line_gap;
// For line gap, we have to check that ascender or descender are 0, not line gap itself.
if self.tables.hhea.ascender == 0 || self.tables.hhea.descender == 0 {
if let Some(os_2) = self.tables.os2 {
if os_2.typographic_ascender() != 0 || os_2.typographic_descender() != 0 {
value = os_2.typographic_line_gap();
value = self.apply_metrics_variation(Tag::from_bytes(b"hlgp"), value);
} else {
value = 0;
}
}
}
value
}
/// Returns a horizontal typographic face ascender.
///
/// Prefer `Face::ascender` unless you explicitly want this. This is a more
/// low-level alternative.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn typographic_ascender(&self) -> Option<i16> {
self.tables.os2.map(|table| {
let v = table.typographic_ascender();
self.apply_metrics_variation(Tag::from_bytes(b"hasc"), v)
})
}
/// Returns a horizontal typographic face descender.
///
/// Prefer `Face::descender` unless you explicitly want this. This is a more
/// low-level alternative.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn typographic_descender(&self) -> Option<i16> {
self.tables.os2.map(|table| {
let v = table.typographic_descender();
self.apply_metrics_variation(Tag::from_bytes(b"hdsc"), v)
})
}
/// Returns a horizontal typographic face line gap.
///
/// Prefer `Face::line_gap` unless you explicitly want this. This is a more
/// low-level alternative.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn typographic_line_gap(&self) -> Option<i16> {
self.tables.os2.map(|table| {
let v = table.typographic_line_gap();
self.apply_metrics_variation(Tag::from_bytes(b"hlgp"), v)
})
}
/// Returns a vertical face ascender.
///
/// This method is affected by variation axes.
#[inline]
pub fn vertical_ascender(&self) -> Option<i16> {
self.tables
.vhea
.map(|vhea| vhea.ascender)
.map(|v| self.apply_metrics_variation(Tag::from_bytes(b"vasc"), v))
}
/// Returns a vertical face descender.
///
/// This method is affected by variation axes.
#[inline]
pub fn vertical_descender(&self) -> Option<i16> {
self.tables
.vhea
.map(|vhea| vhea.descender)
.map(|v| self.apply_metrics_variation(Tag::from_bytes(b"vdsc"), v))
}
/// Returns a vertical face height.
///
/// This method is affected by variation axes.
#[inline]
pub fn vertical_height(&self) -> Option<i16> {
Some(self.vertical_ascender()? - self.vertical_descender()?)
}
/// Returns a vertical face line gap.
///
/// This method is affected by variation axes.
#[inline]
pub fn vertical_line_gap(&self) -> Option<i16> {
self.tables
.vhea
.map(|vhea| vhea.line_gap)
.map(|v| self.apply_metrics_variation(Tag::from_bytes(b"vlgp"), v))
}
/// Returns face's units per EM.
///
/// Guarantee to be in a 16..=16384 range.
#[inline]
pub fn units_per_em(&self) -> u16 {
self.tables.head.units_per_em
}
/// Returns face's x height.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present or when its version is < 2.
#[inline]
pub fn x_height(&self) -> Option<i16> {
self.tables
.os2
.and_then(|os_2| os_2.x_height())
.map(|v| self.apply_metrics_variation(Tag::from_bytes(b"xhgt"), v))
}
/// Returns face's capital height.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present or when its version is < 2.
#[inline]
pub fn capital_height(&self) -> Option<i16> {
self.tables
.os2
.and_then(|os_2| os_2.capital_height())
.map(|v| self.apply_metrics_variation(Tag::from_bytes(b"cpht"), v))
}
/// Returns face's underline metrics.
///
/// This method is affected by variation axes.
///
/// Returns `None` when `post` table is not present.
#[inline]
pub fn underline_metrics(&self) -> Option<LineMetrics> {
let mut metrics = self.tables.post?.underline_metrics;
if self.is_variable() {
self.apply_metrics_variation_to(Tag::from_bytes(b"undo"), &mut metrics.position);
self.apply_metrics_variation_to(Tag::from_bytes(b"unds"), &mut metrics.thickness);
}
Some(metrics)
}
/// Returns face's strikeout metrics.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn strikeout_metrics(&self) -> Option<LineMetrics> {
let mut metrics = self.tables.os2?.strikeout_metrics();
if self.is_variable() {
self.apply_metrics_variation_to(Tag::from_bytes(b"stro"), &mut metrics.position);
self.apply_metrics_variation_to(Tag::from_bytes(b"strs"), &mut metrics.thickness);
}
Some(metrics)
}
/// Returns face's subscript metrics.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn subscript_metrics(&self) -> Option<ScriptMetrics> {
let mut metrics = self.tables.os2?.subscript_metrics();
if self.is_variable() {
self.apply_metrics_variation_to(Tag::from_bytes(b"sbxs"), &mut metrics.x_size);
self.apply_metrics_variation_to(Tag::from_bytes(b"sbys"), &mut metrics.y_size);
self.apply_metrics_variation_to(Tag::from_bytes(b"sbxo"), &mut metrics.x_offset);
self.apply_metrics_variation_to(Tag::from_bytes(b"sbyo"), &mut metrics.y_offset);
}
Some(metrics)
}
/// Returns face's superscript metrics.
///
/// This method is affected by variation axes.
///
/// Returns `None` when OS/2 table is not present.
#[inline]
pub fn superscript_metrics(&self) -> Option<ScriptMetrics> {
let mut metrics = self.tables.os2?.superscript_metrics();
if self.is_variable() {
self.apply_metrics_variation_to(Tag::from_bytes(b"spxs"), &mut metrics.x_size);
self.apply_metrics_variation_to(Tag::from_bytes(b"spys"), &mut metrics.y_size);
self.apply_metrics_variation_to(Tag::from_bytes(b"spxo"), &mut metrics.x_offset);
self.apply_metrics_variation_to(Tag::from_bytes(b"spyo"), &mut metrics.y_offset);
}
Some(metrics)
}
/// Returns face permissions.
///
/// Returns `None` in case of a malformed value.
#[inline]
pub fn permissions(&self) -> Option<Permissions> {
self.tables.os2?.permissions()
}
/// Checks if the face allows embedding a subset, further restricted by [`Self::permissions`].
#[inline]
pub fn is_subsetting_allowed(&self) -> bool {
self.tables
.os2
.map(|t| t.is_subsetting_allowed())
.unwrap_or(false)
}
/// Checks if the face allows outline data to be embedded.
///
/// If false, only bitmaps may be embedded in accordance with [`Self::permissions`].
///
/// If the font contains no bitmaps and this flag is not set, it implies no embedding is allowed.
#[inline]
pub fn is_outline_embedding_allowed(&self) -> bool {
self.tables
.os2
.map(|t| t.is_outline_embedding_allowed())
.unwrap_or(false)
}
/// Returns [Unicode Ranges](https://docs.microsoft.com/en-us/typography/opentype/spec/os2#ur).
#[inline]
pub fn unicode_ranges(&self) -> UnicodeRanges {
self.tables
.os2
.map(|t| t.unicode_ranges())
.unwrap_or_default()
}
/// Returns a total number of glyphs in the face.
///
/// Never zero.
///
/// The value was already parsed, so this function doesn't involve any parsing.
#[inline]
pub fn number_of_glyphs(&self) -> u16 {
self.tables.maxp.number_of_glyphs.get()
}
/// Resolves a Glyph ID for a code point.
///
/// Returns `None` instead of `0` when glyph is not found.
///
/// All subtable formats except Mixed Coverage (8) are supported.
///
/// If you need a more low-level control, prefer `Face::tables().cmap`.
#[inline]
pub fn glyph_index(&self, code_point: char) -> Option<GlyphId> {
for subtable in self.tables.cmap?.subtables {
if !subtable.is_unicode() {
continue;
}
if let Some(id) = subtable.glyph_index(u32::from(code_point)) {
return Some(id);
}
}
None
}
/// Resolves a Glyph ID for a glyph name.
///
/// Uses the `post` and `CFF` tables as sources.
///
/// Returns `None` when no name is associated with a `glyph`.
#[cfg(feature = "glyph-names")]
#[inline]
pub fn glyph_index_by_name(&self, name: &str) -> Option<GlyphId> {
if let Some(name) = self
.tables
.post
.and_then(|post| post.glyph_index_by_name(name))
{
return Some(name);
}
if let Some(name) = self
.tables
.cff
.as_ref()
.and_then(|cff| cff.glyph_index_by_name(name))
{
return Some(name);
}
None
}
/// Resolves a variation of a Glyph ID from two code points.
///
/// Implemented according to
/// [Unicode Variation Sequences](
/// https://docs.microsoft.com/en-us/typography/opentype/spec/cmap#format-14-unicode-variation-sequences).
///
/// Returns `None` instead of `0` when glyph is not found.
#[inline]
pub fn glyph_variation_index(&self, code_point: char, variation: char) -> Option<GlyphId> {
for subtable in self.tables.cmap?.subtables {
if let cmap::Format::UnicodeVariationSequences(ref table) = subtable.format {
return match table.glyph_index(u32::from(code_point), u32::from(variation))? {
cmap::GlyphVariationResult::Found(v) => Some(v),
cmap::GlyphVariationResult::UseDefault => self.glyph_index(code_point),
};
}
}
None
}
/// Returns glyph's horizontal advance.
///
/// This method is affected by variation axes.
#[inline]
pub fn glyph_hor_advance(&self, glyph_id: GlyphId) -> Option<u16> {
#[cfg(feature = "variable-fonts")]
{
let mut advance = self.tables.hmtx?.advance(glyph_id)? as f32;
if self.is_variable() {
// Ignore variation offset when `hvar` is not set.
if let Some(hvar) = self.tables.hvar {
if let Some(offset) = hvar.advance_offset(glyph_id, self.coords()) {
// We can't use `round()` in `no_std`, so this is the next best thing.
advance += offset + 0.5;
}
}
}
u16::try_num_from(advance)
}
#[cfg(not(feature = "variable-fonts"))]
{
self.tables.hmtx?.advance(glyph_id)
}
}
/// Returns glyph's vertical advance.
///
/// This method is affected by variation axes.
#[inline]
pub fn glyph_ver_advance(&self, glyph_id: GlyphId) -> Option<u16> {
#[cfg(feature = "variable-fonts")]
{
let mut advance = self.tables.vmtx?.advance(glyph_id)? as f32;
if self.is_variable() {
// Ignore variation offset when `vvar` is not set.
if let Some(vvar) = self.tables.vvar {
if let Some(offset) = vvar.advance_offset(glyph_id, self.coords()) {
// We can't use `round()` in `no_std`, so this is the next best thing.
advance += offset + 0.5;
}
}
}
u16::try_num_from(advance)
}
#[cfg(not(feature = "variable-fonts"))]
{
self.tables.vmtx?.advance(glyph_id)
}
}
/// Returns glyph's horizontal side bearing.
///
/// This method is affected by variation axes.
#[inline]
pub fn glyph_hor_side_bearing(&self, glyph_id: GlyphId) -> Option<i16> {
#[cfg(feature = "variable-fonts")]
{
let mut bearing = self.tables.hmtx?.side_bearing(glyph_id)? as f32;
if self.is_variable() {
// Ignore variation offset when `hvar` is not set.
if let Some(hvar) = self.tables.hvar {
if let Some(offset) = hvar.side_bearing_offset(glyph_id, self.coords()) {
// We can't use `round()` in `no_std`, so this is the next best thing.
bearing += offset + 0.5;
}
}
}
i16::try_num_from(bearing)
}
#[cfg(not(feature = "variable-fonts"))]
{
self.tables.hmtx?.side_bearing(glyph_id)
}
}
/// Returns glyph's vertical side bearing.
///
/// This method is affected by variation axes.
#[inline]
pub fn glyph_ver_side_bearing(&self, glyph_id: GlyphId) -> Option<i16> {
#[cfg(feature = "variable-fonts")]
{
let mut bearing = self.tables.vmtx?.side_bearing(glyph_id)? as f32;
if self.is_variable() {
// Ignore variation offset when `vvar` is not set.
if let Some(vvar) = self.tables.vvar {
if let Some(offset) = vvar.side_bearing_offset(glyph_id, self.coords()) {
// We can't use `round()` in `no_std`, so this is the next best thing.
bearing += offset + 0.5;
}
}
}
i16::try_num_from(bearing)
}
#[cfg(not(feature = "variable-fonts"))]
{
self.tables.vmtx?.side_bearing(glyph_id)
}
}
/// Returns glyph's vertical origin according to
/// [Vertical Origin Table](https://docs.microsoft.com/en-us/typography/opentype/spec/vorg).
pub fn glyph_y_origin(&self, glyph_id: GlyphId) -> Option<i16> {
self.tables.vorg.map(|vorg| vorg.glyph_y_origin(glyph_id))
}
/// Returns glyph's name.
///
/// Uses the `post` and `CFF` tables as sources.
///
/// Returns `None` when no name is associated with a `glyph`.
#[cfg(feature = "glyph-names")]
#[inline]
pub fn glyph_name(&self, glyph_id: GlyphId) -> Option<&str> {
if let Some(name) = self.tables.post.and_then(|post| post.glyph_name(glyph_id)) {
return Some(name);
}
if let Some(name) = self
.tables
.cff
.as_ref()
.and_then(|cff1| cff1.glyph_name(glyph_id))
{
return Some(name);
}
None
}
/// Outlines a glyph and returns its tight bounding box.
///
/// **Warning**: since `ttf-parser` is a pull parser,
/// `OutlineBuilder` will emit segments even when outline is partially malformed.
/// You must check `outline_glyph()` result before using
/// `OutlineBuilder`'s output.
///
/// `gvar`, `glyf`, `CFF` and `CFF2` tables are supported.
/// And they will be accesses in this specific order.
///
/// This method is affected by variation axes.
///
/// Returns `None` when glyph has no outline or on error.
///
/// # Example
///
/// ```
/// use std::fmt::Write;
/// use ttf_parser;
///
/// struct Builder(String);
///
/// impl ttf_parser::OutlineBuilder for Builder {
/// fn move_to(&mut self, x: f32, y: f32) {
/// write!(&mut self.0, "M {} {} ", x, y).unwrap();
/// }
///
/// fn line_to(&mut self, x: f32, y: f32) {
/// write!(&mut self.0, "L {} {} ", x, y).unwrap();
/// }
///
/// fn quad_to(&mut self, x1: f32, y1: f32, x: f32, y: f32) {
/// write!(&mut self.0, "Q {} {} {} {} ", x1, y1, x, y).unwrap();
/// }
///
/// fn curve_to(&mut self, x1: f32, y1: f32, x2: f32, y2: f32, x: f32, y: f32) {
/// write!(&mut self.0, "C {} {} {} {} {} {} ", x1, y1, x2, y2, x, y).unwrap();
/// }
///
/// fn close(&mut self) {
/// write!(&mut self.0, "Z ").unwrap();
/// }
/// }
///
/// let data = std::fs::read("tests/fonts/demo.ttf").unwrap();
/// let face = ttf_parser::Face::parse(&data, 0).unwrap();
/// let mut builder = Builder(String::new());
/// let bbox = face.outline_glyph(ttf_parser::GlyphId(1), &mut builder).unwrap();
/// assert_eq!(builder.0, "M 173 267 L 369 267 L 270 587 L 173 267 Z M 6 0 L 224 656 \
/// L 320 656 L 541 0 L 452 0 L 390 200 L 151 200 L 85 0 L 6 0 Z ");
/// assert_eq!(bbox, ttf_parser::Rect { x_min: 6, y_min: 0, x_max: 541, y_max: 656 });
/// ```
#[inline]
pub fn outline_glyph(
&self,
glyph_id: GlyphId,
builder: &mut dyn OutlineBuilder,
) -> Option<Rect> {
#[cfg(feature = "variable-fonts")]
{
if let Some(ref gvar) = self.tables.gvar {
return gvar.outline(self.tables.glyf?, self.coords(), glyph_id, builder);
}
}
if let Some(table) = self.tables.glyf {
return table.outline(glyph_id, builder);
}
if let Some(ref cff) = self.tables.cff {
return cff.outline(glyph_id, builder).ok();
}
#[cfg(feature = "variable-fonts")]
{
if let Some(ref cff2) = self.tables.cff2 {
return cff2.outline(self.coords(), glyph_id, builder).ok();
}
}
None
}
/// Returns a tight glyph bounding box.
///
/// This is just a shorthand for `outline_glyph()` since only the `glyf` table stores
/// a bounding box. We ignore `glyf` table bboxes because they can be malformed.
/// In case of CFF and variable fonts we have to actually outline
/// a glyph to find it's bounding box.
///
/// When a glyph is defined by a raster or a vector image,
/// that can be obtained via `glyph_image()`,
/// the bounding box must be calculated manually and this method will return `None`.
///
/// Note: the returned bbox is not validated in any way. A font file can have a glyph bbox
/// set to zero/negative width and/or height and this is perfectly ok.
/// For calculated bboxes, zero width and/or height is also perfectly fine.
///
/// This method is affected by variation axes.
#[inline]
pub fn glyph_bounding_box(&self, glyph_id: GlyphId) -> Option<Rect> {
self.outline_glyph(glyph_id, &mut DummyOutline)
}
/// Returns a bounding box that large enough to enclose any glyph from the face.
#[inline]
pub fn global_bounding_box(&self) -> Rect {
self.tables.head.global_bbox
}
/// Returns a reference to a glyph's raster image.
///
/// A font can define a glyph using a raster or a vector image instead of a simple outline.
/// Which is primarily used for emojis. This method should be used to access raster images.
///
/// `pixels_per_em` allows selecting a preferred image size. The chosen size will
/// be closer to an upper one. So when font has 64px and 96px images and `pixels_per_em`
/// is set to 72, 96px image will be returned.
/// To get the largest image simply use `std::u16::MAX`.
///
/// Note that this method will return an encoded image. It should be decoded
/// by the caller. We don't validate or preprocess it in any way.
///
/// Also, a font can contain both: images and outlines. So when this method returns `None`
/// you should also try `outline_glyph()` afterwards.
///
/// There are multiple ways an image can be stored in a TrueType font
/// and this method supports most of them.
/// This includes `sbix`, `bloc` + `bdat`, `EBLC` + `EBDT`, `CBLC` + `CBDT`.
/// And font's tables will be accesses in this specific order.
#[inline]
pub fn glyph_raster_image(
&self,
glyph_id: GlyphId,
pixels_per_em: u16,
) -> Option<RasterGlyphImage> {
if let Some(table) = self.tables.sbix {
if let Some(strike) = table.best_strike(pixels_per_em) {
return strike.get(glyph_id);
}
}
if let Some(bdat) = self.tables.bdat {
return bdat.get(glyph_id, pixels_per_em);
}
if let Some(ebdt) = self.tables.ebdt {
return ebdt.get(glyph_id, pixels_per_em);
}
if let Some(cbdt) = self.tables.cbdt {
return cbdt.get(glyph_id, pixels_per_em);
}
None
}
/// Returns a reference to a glyph's SVG image.
///
/// A font can define a glyph using a raster or a vector image instead of a simple outline.
/// Which is primarily used for emojis. This method should be used to access SVG images.
///
/// Note that this method will return just an SVG data. It should be rendered
/// or even decompressed (in case of SVGZ) by the caller.
/// We don't validate or preprocess it in any way.
///
/// Also, a font can contain both: images and outlines. So when this method returns `None`
/// you should also try `outline_glyph()` afterwards.
#[inline]
pub fn glyph_svg_image(&self, glyph_id: GlyphId) -> Option<svg::SvgDocument<'a>> {
self.tables.svg.and_then(|svg| svg.documents.find(glyph_id))
}
/// Returns `true` if the glyph can be colored/painted using the `COLR`+`CPAL` tables.
///
/// See [`paint_color_glyph`](Face::paint_color_glyph) for details.
pub fn is_color_glyph(&self, glyph_id: GlyphId) -> bool {
self.tables()
.colr
.map(|colr| colr.contains(glyph_id))
.unwrap_or(false)
}
/// Returns the number of palettes stored in the `COLR`+`CPAL` tables.
///
/// See [`paint_color_glyph`](Face::paint_color_glyph) for details.
pub fn color_palettes(&self) -> Option<core::num::NonZeroU16> {
Some(self.tables().colr?.palettes.palettes())
}
/// Paints a color glyph from the `COLR` table.
///
/// A font can have multiple palettes, which you can check via
/// [`color_palettes`](Face::color_palettes).
/// If unsure, just pass 0 to the `palette` argument, which is the default.
///
/// A font can define a glyph using layers of colored shapes instead of a
/// simple outline. Which is primarily used for emojis. This method should
/// be used to access glyphs defined in the `COLR` table.
///
/// Also, a font can contain both: a layered definition and outlines. So
/// when this method returns `None` you should also try
/// [`outline_glyph`](Face::outline_glyph) afterwards.
///
/// Returns `None` if the glyph has no `COLR` definition or if the glyph
/// definition is malformed.
///
/// See `examples/font2svg.rs` for usage examples.
#[inline]
pub fn paint_color_glyph(
&self,
glyph_id: GlyphId,
palette: u16,
foreground_color: RgbaColor,
painter: &mut dyn colr::Painter<'a>,
) -> Option<()> {
self.tables.colr?.paint(
glyph_id,
palette,
painter,
#[cfg(feature = "variable-fonts")]
self.coords(),
foreground_color,
)
}
/// Returns an iterator over variation axes.
#[cfg(feature = "variable-fonts")]
#[inline]
pub fn variation_axes(&self) -> LazyArray16<'a, VariationAxis> {
self.tables.fvar.map(|fvar| fvar.axes).unwrap_or_default()
}
/// Sets a variation axis coordinate.
///
/// This is one of the two only mutable methods in the library.
/// We can simplify the API a lot by storing the variable coordinates
/// in the face object itself.
///
/// Since coordinates are stored on the stack, we allow only 64 of them.
///
/// Returns `None` when face is not variable or doesn't have such axis.
#[cfg(feature = "variable-fonts")]
pub fn set_variation(&mut self, axis: Tag, value: f32) -> Option<()> {
if !self.is_variable() {
return None;
}
if usize::from(self.variation_axes().len()) >= MAX_VAR_COORDS {
return None;
}
for (i, var_axis) in self.variation_axes().into_iter().enumerate() {
if var_axis.tag == axis {
self.coordinates.data[i] = var_axis.normalized_value(value);
}
}
// TODO: optimize
if let Some(avar) = self.tables.avar {
// Ignore error.
let _ = avar.map_coordinates(self.coordinates.as_mut_slice());
}
Some(())
}
/// Returns the current normalized variation coordinates.
#[cfg(feature = "variable-fonts")]
#[inline]
pub fn variation_coordinates(&self) -> &[NormalizedCoordinate] {
self.coordinates.as_slice()
}
/// Checks that face has non-default variation coordinates.
#[cfg(feature = "variable-fonts")]
#[inline]
pub fn has_non_default_variation_coordinates(&self) -> bool {
self.coordinates.as_slice().iter().any(|c| c.0 != 0)
}
#[cfg(feature = "variable-fonts")]
#[inline]
fn metrics_var_offset(&self, tag: Tag) -> f32 {
self.tables
.mvar
.and_then(|table| table.metric_offset(tag, self.coords()))
.unwrap_or(0.0)
}
#[inline]
fn apply_metrics_variation(&self, tag: Tag, mut value: i16) -> i16 {
self.apply_metrics_variation_to(tag, &mut value);
value
}
#[cfg(feature = "variable-fonts")]
#[inline]
fn apply_metrics_variation_to(&self, tag: Tag, value: &mut i16) {
if self.is_variable() {
let v = f32::from(*value) + self.metrics_var_offset(tag);
// TODO: Should probably round it, but f32::round is not available in core.
if let Some(v) = i16::try_num_from(v) {
*value = v;
}
}
}
#[cfg(not(feature = "variable-fonts"))]
#[inline]
fn apply_metrics_variation_to(&self, _: Tag, _: &mut i16) {}
#[cfg(feature = "variable-fonts")]
#[inline]
fn coords(&self) -> &[NormalizedCoordinate] {
self.coordinates.as_slice()
}
}
impl core::fmt::Debug for Face<'_> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
write!(f, "Face()")
}
}
/// Returns the number of fonts stored in a TrueType font collection.
///
/// Returns `None` if a provided data is not a TrueType font collection.
#[inline]
pub fn fonts_in_collection(data: &[u8]) -> Option<u32> {
let mut s = Stream::new(data);
if s.read::<Magic>()? != Magic::FontCollection {
return None;
}
s.skip::<u32>(); // version
s.read::<u32>()
}