use crate::core; use crate::core::alignment; use crate::core::text::{Hit, LineHeight, Shaping, Text}; use crate::core::{Font, Pixels, Point, Size}; use crate::text::{self, FontSystem}; use std::fmt; use std::sync::{self, Arc}; #[derive(Clone, PartialEq)] pub struct Paragraph(Option>); struct Internal { buffer: cosmic_text::Buffer, content: String, // TODO: Reuse from `buffer` (?) font: Font, shaping: Shaping, horizontal_alignment: alignment::Horizontal, vertical_alignment: alignment::Vertical, bounds: Size, min_bounds: Size, version: text::Version, } impl Paragraph { pub fn new() -> Self { Self::default() } pub fn with_text(text: Text<'_, Font>, font_system: &FontSystem) -> Self { log::trace!("Allocating paragraph: {}", text.content); let (mut font_system, version) = font_system.write(); let mut buffer = cosmic_text::Buffer::new( &mut font_system, cosmic_text::Metrics::new( text.size.into(), text.line_height.to_absolute(text.size).into(), ), ); buffer.set_size( &mut font_system, text.bounds.width, text.bounds.height, ); buffer.set_text( &mut font_system, text.content, text::to_attributes(text.font), text::to_shaping(text.shaping), ); let min_bounds = text::measure(&buffer); Self(Some(Arc::new(Internal { buffer, content: text.content.to_owned(), font: text.font, horizontal_alignment: text.horizontal_alignment, vertical_alignment: text.vertical_alignment, shaping: text.shaping, bounds: text.bounds, min_bounds, version, }))) } pub fn buffer(&self) -> &cosmic_text::Buffer { &self.internal().buffer } pub fn version(&self) -> text::Version { self.internal().version } pub fn downgrade(&self) -> Weak { let paragraph = self.internal(); Weak { raw: Arc::downgrade(paragraph), min_bounds: paragraph.min_bounds, horizontal_alignment: paragraph.horizontal_alignment, vertical_alignment: paragraph.vertical_alignment, } } pub fn resize(&mut self, new_bounds: Size, font_system: &FontSystem) { let paragraph = self .0 .take() .expect("paragraph should always be initialized"); match Arc::try_unwrap(paragraph) { Ok(mut internal) => { let (mut font_system, _) = font_system.write(); internal.buffer.set_size( &mut font_system, new_bounds.width, new_bounds.height, ); internal.bounds = new_bounds; internal.min_bounds = text::measure(&internal.buffer); self.0 = Some(Arc::new(internal)); } Err(internal) => { let metrics = internal.buffer.metrics(); // If there is a strong reference somewhere, we recompute the // buffer from scratch *self = Self::with_text( Text { content: &internal.content, bounds: internal.bounds, size: Pixels(metrics.font_size), line_height: LineHeight::Absolute(Pixels( metrics.line_height, )), font: internal.font, horizontal_alignment: internal.horizontal_alignment, vertical_alignment: internal.vertical_alignment, shaping: internal.shaping, }, font_system, ); } } } fn internal(&self) -> &Arc { self.0 .as_ref() .expect("paragraph should always be initialized") } } impl core::text::Paragraph for Paragraph { type Font = Font; fn content(&self) -> &str { &self.internal().content } fn text_size(&self) -> Pixels { Pixels(self.internal().buffer.metrics().font_size) } fn line_height(&self) -> LineHeight { LineHeight::Absolute(Pixels( self.internal().buffer.metrics().line_height, )) } fn font(&self) -> Font { self.internal().font } fn shaping(&self) -> Shaping { self.internal().shaping } fn horizontal_alignment(&self) -> alignment::Horizontal { self.internal().horizontal_alignment } fn vertical_alignment(&self) -> alignment::Vertical { self.internal().vertical_alignment } fn bounds(&self) -> Size { self.internal().bounds } fn min_bounds(&self) -> Size { self.internal().min_bounds } fn hit_test(&self, point: Point) -> Option { let cursor = self.internal().buffer.hit(point.x, point.y)?; Some(Hit::CharOffset(cursor.index)) } fn grapheme_position(&self, line: usize, index: usize) -> Option { let run = self.internal().buffer.layout_runs().nth(line)?; // index represents a grapheme, not a glyph // Let's find the first glyph for the given grapheme cluster let mut last_start = None; let mut graphemes_seen = 0; let glyph = run .glyphs .iter() .find(|glyph| { if graphemes_seen == index { return true; } if Some(glyph.start) != last_start { last_start = Some(glyph.start); graphemes_seen += 1; } false }) .or_else(|| run.glyphs.last())?; let advance_last = if index == run.glyphs.len() { glyph.w } else { 0.0 }; Some(Point::new( glyph.x + glyph.x_offset * glyph.font_size + advance_last, glyph.y - glyph.y_offset * glyph.font_size, )) } } impl Default for Paragraph { fn default() -> Self { Self(Some(Arc::new(Internal::default()))) } } impl fmt::Debug for Paragraph { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { let paragraph = self.internal(); f.debug_struct("Paragraph") .field("content", ¶graph.content) .field("font", ¶graph.font) .field("shaping", ¶graph.shaping) .field("horizontal_alignment", ¶graph.horizontal_alignment) .field("vertical_alignment", ¶graph.vertical_alignment) .field("bounds", ¶graph.bounds) .field("min_bounds", ¶graph.min_bounds) .finish() } } impl PartialEq for Internal { fn eq(&self, other: &Self) -> bool { self.content == other.content && self.font == other.font && self.shaping == other.shaping && self.horizontal_alignment == other.horizontal_alignment && self.vertical_alignment == other.vertical_alignment && self.bounds == other.bounds && self.min_bounds == other.min_bounds && self.buffer.metrics() == other.buffer.metrics() } } impl Default for Internal { fn default() -> Self { Self { buffer: cosmic_text::Buffer::new_empty(cosmic_text::Metrics { font_size: 1.0, line_height: 1.0, }), content: String::new(), font: Font::default(), shaping: Shaping::default(), horizontal_alignment: alignment::Horizontal::Left, vertical_alignment: alignment::Vertical::Top, bounds: Size::ZERO, min_bounds: Size::ZERO, version: text::Version::default(), } } } #[derive(Debug, Clone)] pub struct Weak { raw: sync::Weak, pub min_bounds: Size, pub horizontal_alignment: alignment::Horizontal, pub vertical_alignment: alignment::Vertical, } impl Weak { pub fn upgrade(&self) -> Option { self.raw.upgrade().map(Some).map(Paragraph) } } impl PartialEq for Weak { fn eq(&self, other: &Self) -> bool { match (self.raw.upgrade(), other.raw.upgrade()) { (Some(p1), Some(p2)) => p1 == p2, _ => false, } } }