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servo/components/canvas/peniko_conversions.rs
Nico Burns 39629560c8
Fix loading raw data from .ttc files on macos (#38753) 
# Objective

Ensure that functionality which uses the raw font data (such as
rendering text to canvas) works correctly on macOS when the specified
font is a system font that lives in an OpenType Collection (`.ttc`)
file.

## Changes made

- The `read_data_from_file` in each backend now returns a `index: u32`
in addition to `data: Vec<u8>`
- The `data` field on the `Font` type has been renamed to `raw` and the
`data` method on the `Font` type has been renamed to `raw_font`. This
allows the index to be cached as computing is moderately expensive on
macOS (on the order of 100 microseconds).
- Both of the above now store/return a `struct RawFont` instead of a
`FontData` where `RawFont` is defined as `struct RawFont { data:
FontData, index: u32 }`.
- The users of the `data` method have been updated to use the cached
index from `data` rather than calling `.index()` each time.

---------

Signed-off-by: Nico Burns <nico@nicoburns.com>
2025-08-19 11:57:48 +00:00

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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
use canvas_traits::canvas::*;
use pixels::{SnapshotAlphaMode, SnapshotPixelFormat};
use style::color::AbsoluteColor;
use crate::backend::Convert;
use crate::canvas_data::Filter;
impl Convert<peniko::Font> for fonts::FontDataAndIndex {
fn convert(self) -> peniko::Font {
use std::sync::Arc;
peniko::Font::new(peniko::Blob::new(Arc::new(self.data)), self.index)
}
}
impl Convert<kurbo::Join> for LineJoinStyle {
fn convert(self) -> kurbo::Join {
match self {
LineJoinStyle::Round => kurbo::Join::Round,
LineJoinStyle::Bevel => kurbo::Join::Bevel,
LineJoinStyle::Miter => kurbo::Join::Miter,
}
}
}
impl Convert<kurbo::Cap> for LineCapStyle {
fn convert(self) -> kurbo::Cap {
match self {
LineCapStyle::Butt => kurbo::Cap::Butt,
LineCapStyle::Round => kurbo::Cap::Round,
LineCapStyle::Square => kurbo::Cap::Square,
}
}
}
impl Convert<peniko::Color> for AbsoluteColor {
fn convert(self) -> peniko::Color {
let srgb = self.into_srgb_legacy();
peniko::Color::new([
srgb.components.0,
srgb.components.1,
srgb.components.2,
srgb.alpha,
])
}
}
impl Convert<peniko::BlendMode> for CompositionOrBlending {
fn convert(self) -> peniko::BlendMode {
match self {
CompositionOrBlending::Composition(composition_style) => {
composition_style.convert().into()
},
CompositionOrBlending::Blending(blending_style) => blending_style.convert().into(),
}
}
}
impl Convert<peniko::Compose> for CompositionStyle {
fn convert(self) -> peniko::Compose {
match self {
CompositionStyle::SourceIn => peniko::Compose::SrcIn,
CompositionStyle::SourceOut => peniko::Compose::SrcOut,
CompositionStyle::SourceOver => peniko::Compose::SrcOver,
CompositionStyle::SourceAtop => peniko::Compose::SrcAtop,
CompositionStyle::DestinationIn => peniko::Compose::DestIn,
CompositionStyle::DestinationOut => peniko::Compose::DestOut,
CompositionStyle::DestinationOver => peniko::Compose::DestOver,
CompositionStyle::DestinationAtop => peniko::Compose::DestAtop,
CompositionStyle::Copy => peniko::Compose::Copy,
CompositionStyle::Lighter => peniko::Compose::Plus,
CompositionStyle::Xor => peniko::Compose::Xor,
CompositionStyle::Clear => peniko::Compose::Clear,
}
}
}
impl Convert<peniko::Mix> for BlendingStyle {
fn convert(self) -> peniko::Mix {
match self {
BlendingStyle::Multiply => peniko::Mix::Multiply,
BlendingStyle::Screen => peniko::Mix::Screen,
BlendingStyle::Overlay => peniko::Mix::Overlay,
BlendingStyle::Darken => peniko::Mix::Darken,
BlendingStyle::Lighten => peniko::Mix::Lighten,
BlendingStyle::ColorDodge => peniko::Mix::ColorDodge,
BlendingStyle::ColorBurn => peniko::Mix::ColorBurn,
BlendingStyle::HardLight => peniko::Mix::HardLight,
BlendingStyle::SoftLight => peniko::Mix::SoftLight,
BlendingStyle::Difference => peniko::Mix::Difference,
BlendingStyle::Exclusion => peniko::Mix::Exclusion,
BlendingStyle::Hue => peniko::Mix::Hue,
BlendingStyle::Saturation => peniko::Mix::Saturation,
BlendingStyle::Color => peniko::Mix::Color,
BlendingStyle::Luminosity => peniko::Mix::Luminosity,
}
}
}
impl Convert<kurbo::Stroke> for LineOptions {
fn convert(self) -> kurbo::Stroke {
let LineOptions {
width,
cap_style,
join_style,
miter_limit,
dash,
dash_offset,
} = self;
kurbo::Stroke {
width,
join: join_style.convert(),
miter_limit,
start_cap: cap_style.convert(),
end_cap: cap_style.convert(),
dash_pattern: dash.iter().map(|x| *x as f64).collect(),
dash_offset,
}
}
}
impl Convert<peniko::Brush> for FillOrStrokeStyle {
fn convert(self) -> peniko::Brush {
use canvas_traits::canvas::FillOrStrokeStyle::*;
match self {
Color(absolute_color) => peniko::Brush::Solid(absolute_color.convert()),
LinearGradient(style) => {
let start = kurbo::Point::new(style.x0, style.y0);
let end = kurbo::Point::new(style.x1, style.y1);
let mut gradient = peniko::Gradient::new_linear(start, end);
gradient.stops = style.stops.convert();
peniko::Brush::Gradient(gradient)
},
RadialGradient(style) => {
let center1 = kurbo::Point::new(style.x0, style.y0);
let center2 = kurbo::Point::new(style.x1, style.y1);
let mut gradient = peniko::Gradient::new_two_point_radial(
center1,
style.r0 as f32,
center2,
style.r1 as f32,
);
gradient.stops = style.stops.convert();
peniko::Brush::Gradient(gradient)
},
Surface(surface_style) => {
let data = surface_style
.surface_data
.to_owned()
.to_vec(
Some(SnapshotAlphaMode::Transparent {
premultiplied: false,
}),
Some(SnapshotPixelFormat::RGBA),
)
.0;
peniko::Brush::Image(peniko::Image {
data: peniko::Blob::from(data),
format: peniko::ImageFormat::Rgba8,
width: surface_style.surface_size.width,
height: surface_style.surface_size.height,
x_extend: if surface_style.repeat_x {
peniko::Extend::Repeat
} else {
peniko::Extend::Pad
},
y_extend: if surface_style.repeat_y {
peniko::Extend::Repeat
} else {
peniko::Extend::Pad
},
quality: peniko::ImageQuality::Low,
alpha: 1.0,
})
},
}
}
}
impl Convert<peniko::color::DynamicColor> for AbsoluteColor {
fn convert(self) -> peniko::color::DynamicColor {
peniko::color::DynamicColor::from_alpha_color(self.convert())
}
}
impl Convert<peniko::ColorStop> for CanvasGradientStop {
fn convert(self) -> peniko::ColorStop {
peniko::ColorStop {
offset: self.offset as f32,
color: self.color.convert(),
}
}
}
impl Convert<peniko::ColorStops> for Vec<CanvasGradientStop> {
fn convert(self) -> peniko::ColorStops {
let mut stops = peniko::ColorStops(self.into_iter().map(|item| item.convert()).collect());
// https://www.w3.org/html/test/results/2dcontext/annotated-spec/canvas.html#testrefs.2d.gradient.interpolate.overlap
stops
.0
.sort_by(|a, b| a.offset.partial_cmp(&b.offset).unwrap());
stops
}
}
impl Convert<peniko::ImageQuality> for Filter {
fn convert(self) -> peniko::ImageQuality {
match self {
Filter::Bilinear => peniko::ImageQuality::Medium,
Filter::Nearest => peniko::ImageQuality::Low,
}
}
}
impl Convert<peniko::Fill> for FillRule {
fn convert(self) -> peniko::Fill {
match self {
FillRule::Nonzero => peniko::Fill::NonZero,
FillRule::Evenodd => peniko::Fill::EvenOdd,
}
}
}
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