//! Draw paragraphs.
use crate::alignment;
use crate::text::{Difference, Hit, Span, Text};
use crate::{Point, Rectangle, Size};
/// A text paragraph.
pub trait Paragraph: Sized + Default {
/// The font of this [`Paragraph`].
type Font: Copy + PartialEq;
/// Creates a new [`Paragraph`] laid out with the given [`Text`].
fn with_text(text: Text<&str, Self::Font>) -> Self;
/// Creates a new [`Paragraph`] laid out with the given [`Text`].
fn with_spans<Link>(
text: Text<&[Span<'_, Link, Self::Font>], Self::Font>,
) -> Self;
/// Lays out the [`Paragraph`] with some new boundaries.
fn resize(&mut self, new_bounds: Size);
/// Compares the [`Paragraph`] with some desired [`Text`] and returns the
/// [`Difference`].
fn compare(&self, text: Text<(), Self::Font>) -> Difference;
/// Returns the horizontal alignment of the [`Paragraph`].
fn horizontal_alignment(&self) -> alignment::Horizontal;
/// Returns the vertical alignment of the [`Paragraph`].
fn vertical_alignment(&self) -> alignment::Vertical;
/// Returns the minimum boundaries that can fit the contents of the
/// [`Paragraph`].
fn min_bounds(&self) -> Size;
/// Tests whether the provided point is within the boundaries of the
/// [`Paragraph`], returning information about the nearest character.
fn hit_test(&self, point: Point) -> Option<Hit>;
/// Tests whether the provided point is within the boundaries of a
/// [`Span`] in the [`Paragraph`], returning the index of the [`Span`]
/// that was hit.
fn hit_span(&self, point: Point) -> Option<usize>;
/// Returns all bounds for the provided [`Span`] index of the [`Paragraph`].
/// A [`Span`] can have multiple bounds for each line it's on.
fn span_bounds(&self, index: usize) -> Vec<Rectangle>;
/// Returns the distance to the given grapheme index in the [`Paragraph`].
fn grapheme_position(&self, line: usize, index: usize) -> Option<Point>;
/// Returns the minimum width that can fit the contents of the [`Paragraph`].
fn min_width(&self) -> f32 {
self.min_bounds().width
}
/// Returns the minimum height that can fit the contents of the [`Paragraph`].
fn min_height(&self) -> f32 {
self.min_bounds().height
}
}
/// A [`Paragraph`] of plain text.
#[derive(Debug, Clone, Default)]
pub struct Plain<P: Paragraph> {
raw: P,
content: String,
}
impl<P: Paragraph> Plain<P> {
/// Creates a new [`Plain`] paragraph.
pub fn new(text: Text<&str, P::Font>) -> Self {
let content = text.content.to_owned();
Self {
raw: P::with_text(text),
content,
}
}
/// Updates the plain [`Paragraph`] to match the given [`Text`], if needed.
pub fn update(&mut self, text: Text<&str, P::Font>) {
if self.content != text.content {
text.content.clone_into(&mut self.content);
self.raw = P::with_text(text);
return;
}
match self.raw.compare(Text {
content: (),
bounds: text.bounds,
size: text.size,
line_height: text.line_height,
font: text.font,
horizontal_alignment: text.horizontal_alignment,
vertical_alignment: text.vertical_alignment,
shaping: text.shaping,
wrapping: text.wrapping,
}) {
Difference::None => {}
Difference::Bounds => {
self.raw.resize(text.bounds);
}
Difference::Shape => {
self.raw = P::with_text(text);
}
}
}
/// Returns the horizontal alignment of the [`Paragraph`].
pub fn horizontal_alignment(&self) -> alignment::Horizontal {
self.raw.horizontal_alignment()
}
/// Returns the vertical alignment of the [`Paragraph`].
pub fn vertical_alignment(&self) -> alignment::Vertical {
self.raw.vertical_alignment()
}
/// Returns the minimum boundaries that can fit the contents of the
/// [`Paragraph`].
pub fn min_bounds(&self) -> Size {
self.raw.min_bounds()
}
/// Returns the minimum width that can fit the contents of the
/// [`Paragraph`].
pub fn min_width(&self) -> f32 {
self.raw.min_width()
}
/// Returns the minimum height that can fit the contents of the
/// [`Paragraph`].
pub fn min_height(&self) -> f32 {
self.raw.min_height()
}
/// Returns the cached [`Paragraph`].
pub fn raw(&self) -> &P {
&self.raw
}
}
