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mirror of https://github.com/wez/wezterm.git synced 2024-12-21 12:21:32 +03:00
wezterm/src/font/mod.rs

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use failure::{self, Error};
use std::cell::RefCell;
use std::collections::HashMap;
use std::rc::Rc;
use std::slice;
use unicode_width::UnicodeWidthStr;
pub mod ftwrap;
pub mod hbwrap;
pub mod fcwrap;
pub use self::fcwrap::Pattern as FontPattern;
use super::config::{Config, TextStyle};
use term::CellAttributes;
/// Matches and loads fonts for a given input style
pub struct FontConfiguration {
config: Config,
fonts: RefCell<HashMap<TextStyle, Rc<RefCell<Font>>>>,
}
impl FontConfiguration {
/// Create a new empty configuration
pub fn new(config: Config) -> Self {
Self {
config,
fonts: RefCell::new(HashMap::new()),
}
}
/// Given a text style, load (without caching) the font that
/// best matches according to the fontconfig pattern.
pub fn load_font(&self, style: &TextStyle) -> Result<Rc<RefCell<Font>>, Error> {
let mut pattern = FontPattern::parse(&style.fontconfig_pattern)?;
pattern.add_double("size", self.config.font_size)?;
pattern.add_double("dpi", self.config.dpi)?;
Ok(Rc::new(RefCell::new(Font::new(pattern)?)))
}
/// Given a text style, load (with caching) the font that best
/// matches according to the fontconfig pattern.
pub fn cached_font(&self, style: &TextStyle) -> Result<Rc<RefCell<Font>>, Error> {
let mut fonts = self.fonts.borrow_mut();
if let Some(entry) = fonts.get(style) {
return Ok(Rc::clone(entry));
}
let font = self.load_font(style)?;
fonts.insert(style.clone(), Rc::clone(&font));
Ok(font)
}
/// Returns the baseline font specified in the configuration
pub fn default_font(&self) -> Result<Rc<RefCell<Font>>, Error> {
self.cached_font(&self.config.font)
}
/// Apply the defined font_rules from the user configuration to
/// produce the text style that best matches the supplied input
/// cell attributes.
pub fn match_style(&self, attrs: &CellAttributes) -> &TextStyle {
// a little macro to avoid boilerplate for matching the rules.
// If the rule doesn't specify a value for an attribute then
// it will implicitly match. If it specifies an attribute
// then it has to have the same value as that in the input attrs.
macro_rules! attr_match {
($ident:ident, $rule:expr) => {
if let Some($ident) = $rule.$ident {
if $ident != attrs.$ident() {
// Does not match
continue;
}
}
// matches so far...
}
};
for rule in self.config.font_rules.iter() {
attr_match!(intensity, &rule);
attr_match!(underline, &rule);
attr_match!(italic, &rule);
attr_match!(blink, &rule);
attr_match!(reverse, &rule);
attr_match!(strikethrough, &rule);
attr_match!(invisible, &rule);
// If we get here, then none of the rules didn't match,
// so we therefore assume that it did match overall.
return &rule.font;
}
&self.config.font
}
}
/// Holds information about a shaped glyph
#[derive(Clone, Debug)]
pub struct GlyphInfo {
/// We only retain text in debug mode for diagnostic purposes
#[cfg(debug_assertions)]
pub text: String,
/// Offset within text
pub cluster: u32,
/// How many cells/columns this glyph occupies horizontally
pub num_cells: u8,
/// Which font alternative to use; index into Font.fonts
pub font_idx: usize,
/// Which freetype glyph to load
pub glyph_pos: u32,
/// How far to advance the render cursor after drawing this glyph
pub x_advance: f64,
/// How far to advance the render cursor after drawing this glyph
pub y_advance: f64,
/// Destination render offset
pub x_offset: f64,
/// Destination render offset
pub y_offset: f64,
}
impl GlyphInfo {
pub fn new(
text: &str,
font_idx: usize,
info: &hbwrap::hb_glyph_info_t,
pos: &hbwrap::hb_glyph_position_t,
) -> GlyphInfo {
let num_cells = UnicodeWidthStr::width(text) as u8;
GlyphInfo {
#[cfg(debug_assertions)]
text: text.into(),
num_cells,
font_idx,
glyph_pos: info.codepoint,
cluster: info.cluster,
x_advance: pos.x_advance as f64 / 64.0,
y_advance: pos.y_advance as f64 / 64.0,
x_offset: pos.x_offset as f64 / 64.0,
y_offset: pos.y_offset as f64 / 64.0,
}
}
}
/// Holds a loaded font alternative
struct FontInfo {
face: ftwrap::Face,
font: hbwrap::Font,
/// nominal monospace cell height
cell_height: f64,
/// nominal monospace cell width
cell_width: f64,
}
/// Holds "the" font selected by the user. In actuality, it
/// holds the set of fallback fonts that match their criteria
pub struct Font {
lib: ftwrap::Library,
pattern: fcwrap::Pattern,
font_list: fcwrap::FontSet,
fonts: Vec<FontInfo>,
}
impl Drop for Font {
fn drop(&mut self) {
// Ensure that we drop the fonts before we drop the
// library, otherwise we will end up faulting
self.fonts.clear();
}
}
impl Font {
/// Construct a new Font from the user supplied pattern
pub fn new(mut pattern: FontPattern) -> Result<Font, Error> {
let mut lib = ftwrap::Library::new()?;
lib.set_lcd_filter(
ftwrap::FT_LcdFilter::FT_LCD_FILTER_DEFAULT,
)?;
// Enable some filtering options and pull in the standard
// fallback font selection from the user configuration
pattern.monospace()?;
pattern.config_substitute(fcwrap::MatchKind::Pattern)?;
pattern.default_substitute();
// and obtain the selection with the best preference
// at index 0.
let font_list = pattern.sort(true)?;
Ok(Font {
lib,
font_list,
pattern,
fonts: Vec::new(),
})
}
fn load_next_fallback(&mut self) -> Result<(), Error> {
let idx = self.fonts.len();
let pat = self.font_list.iter().nth(idx).ok_or(failure::err_msg(
"no more fallbacks",
))?;
let pat = self.pattern.render_prepare(&pat)?;
let file = pat.get_file()?;
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debug!("load_next_fallback: file={}", file);
debug!("{}", pat.format("%{=unparse}")?);
let size = pat.get_double("size")?;
let dpi = pat.get_double("dpi")? as u32;
debug!("set_char_size {} dpi={}", size, dpi);
// Scaling before truncating to integer minimizes the chances of hitting
// the fallback code for set_pixel_sizes below.
let size = (size * 64.0) as i64;
let mut face = self.lib.new_face(file, 0)?;
match face.set_char_size(size, size, dpi, dpi) {
Err(err) => {
let sizes = unsafe {
let rec = &(*face.face);
slice::from_raw_parts(rec.available_sizes, rec.num_fixed_sizes as usize)
};
if sizes.len() == 0 {
return Err(err);
} else {
// Find the best matching size.
// We just take the biggest.
let mut size = 0i16;
for info in sizes.iter() {
size = size.max(info.height);
}
face.set_pixel_sizes(size as u32, size as u32)?;
debug!("fall back to set_pixel_sizes {}", size);
}
}
Ok(_) => {}
}
let font = hbwrap::Font::new(&face);
// Compute metrics for the nominal monospace cell
let (cell_width, cell_height) = face.cell_metrics();
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debug!("metrics: width={} height={}", cell_width, cell_height);
self.fonts.push(FontInfo {
face,
font,
cell_height,
cell_width,
});
Ok(())
}
fn get_font(&mut self, idx: usize) -> Result<&mut FontInfo, Error> {
if idx >= self.fonts.len() {
self.load_next_fallback()?;
ensure!(
idx < self.fonts.len(),
"should not ask for a font later than the next prepared font"
);
}
Ok(&mut self.fonts[idx])
}
pub fn has_color(&mut self, idx: usize) -> Result<bool, Error> {
let font = self.get_font(idx)?;
unsafe {
Ok(
((*font.face.face).face_flags & ftwrap::FT_FACE_FLAG_COLOR as i64) != 0,
)
}
}
pub fn get_metrics(&mut self) -> Result<(f64, f64, i16), Error> {
let font = self.get_font(0)?;
Ok((font.cell_height, font.cell_width, unsafe {
(*font.face.face).descender
}))
}
pub fn shape(&mut self, font_idx: usize, s: &str) -> Result<Vec<GlyphInfo>, Error> {
/*
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debug!(
"shape text for font_idx {} with len {} {}",
font_idx,
s.len(),
s
);
*/
let features = vec![
// kerning
hbwrap::feature_from_string("kern")?,
// ligatures
hbwrap::feature_from_string("liga")?,
// contextual ligatures
hbwrap::feature_from_string("clig")?,
];
let mut buf = hbwrap::Buffer::new()?;
buf.set_script(hbwrap::HB_SCRIPT_LATIN);
buf.set_direction(hbwrap::HB_DIRECTION_LTR);
buf.set_language(hbwrap::language_from_string("en")?);
buf.add_str(s);
self.shape_with_font(font_idx, &mut buf, &features)?;
let infos = buf.glyph_infos();
let positions = buf.glyph_positions();
let mut cluster = Vec::new();
let mut last_text_pos = None;
let mut first_fallback_pos = None;
// Compute the lengths of the text clusters.
// Ligatures and combining characters mean
// that a single glyph can take the place of
// multiple characters. The 'cluster' member
// of the glyph info is set to the position
// in the input utf8 text, so we make a pass
// over the set of clusters to look for differences
// greater than 1 and backfill the length of
// the corresponding text fragment. We need
// the fragments to properly handle fallback,
// and they're handy to have for debugging
// purposes too.
let mut sizes = Vec::with_capacity(s.len());
for (i, info) in infos.iter().enumerate() {
let pos = info.cluster as usize;
let mut size = 1;
if let Some(last_pos) = last_text_pos {
let diff = pos - last_pos;
if diff > 1 {
sizes[i - 1] = diff;
}
} else if pos != 0 {
size = pos;
}
last_text_pos = Some(pos);
sizes.push(size);
}
if let Some(last_pos) = last_text_pos {
let diff = s.len() - last_pos;
if diff > 1 {
let last = sizes.len() - 1;
sizes[last] = diff;
}
}
//debug!("sizes: {:?}", sizes);
// Now make a second pass to determine if we need
// to perform fallback to a later font.
// We can determine this by looking at the codepoint.
for (i, info) in infos.iter().enumerate() {
let pos = info.cluster as usize;
if info.codepoint == 0 {
if first_fallback_pos.is_none() {
// Start of a run that needs fallback
first_fallback_pos = Some(pos);
}
} else if let Some(start) = first_fallback_pos {
// End of a fallback run
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debug!("range: {:?}-{:?} needs fallback", start, pos);
let substr = &s[start..pos];
let mut shape = self.shape(font_idx + 1, substr)?;
// Fixup the cluster member to match our current offset
for info in shape.iter_mut() {
info.cluster += start as u32;
}
cluster.append(&mut shape);
first_fallback_pos = None;
}
if info.codepoint != 0 {
let text = &s[pos..pos + sizes[i]];
//debug!("glyph from `{}`", text);
cluster.push(GlyphInfo::new(text, font_idx, info, &positions[i]));
}
}
// Check to see if we started and didn't finish a
// fallback run.
if let Some(start) = first_fallback_pos {
let substr = &s[start..];
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debug!(
"at end {:?}-{:?} needs fallback {}",
start,
s.len() - 1,
substr,
);
let mut shape = self.shape(font_idx + 1, substr)?;
// Fixup the cluster member to match our current offset
for info in shape.iter_mut() {
info.cluster += start as u32;
}
cluster.append(&mut shape);
}
//debug!("shaped: {:#?}", cluster);
Ok(cluster)
}
fn shape_with_font(
&mut self,
idx: usize,
buf: &mut hbwrap::Buffer,
features: &Vec<hbwrap::hb_feature_t>,
) -> Result<(), Error> {
let info = self.get_font(idx)?;
info.font.shape(buf, Some(features.as_slice()));
Ok(())
}
pub fn load_glyph(
&mut self,
font_idx: usize,
glyph_pos: u32,
) -> Result<&ftwrap::FT_GlyphSlotRec_, Error> {
let info = &mut self.fonts[font_idx];
let render_mode = ftwrap::FT_Render_Mode::FT_RENDER_MODE_NORMAL;
//ftwrap::FT_Render_Mode::FT_RENDER_MODE_LCD;
// when changing the load flags, we also need
// to change them for harfbuzz otherwise it won't
// hint correctly
let load_flags = (ftwrap::FT_LOAD_COLOR) as i32 |
// enable FT_LOAD_TARGET bits. There are no flags defined
// for these in the bindings so we do some bit magic for
// ourselves. This is how the FT_LOAD_TARGET_() macro
// assembles these bits.
(render_mode as i32) << 16;
info.font.set_load_flags(load_flags);
info.face.load_and_render_glyph(
glyph_pos,
load_flags,
render_mode,
)
}
}