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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 http://mozilla.org/MPL/2.0/. */
//! Text layout.
#![deny(unsafe_block)]
use flow::Flow;
use fragment::{Fragment, ScannedTextFragment, ScannedTextFragmentInfo, UnscannedTextFragment};
use gfx::font::{FontMetrics, FontStyle, RunMetrics};
use gfx::font_context::FontContext;
use gfx::text::glyph::CharIndex;
use gfx::text::text_run::TextRun;
use gfx::text::util::{CompressWhitespaceNewline, transform_text, CompressNone};
use servo_util::geometry::Au;
use servo_util::logical_geometry::{LogicalSize, WritingMode};
use servo_util::range::Range;
use style::ComputedValues;
use style::computed_values::{font_family, line_height, text_orientation, white_space};
use sync::Arc;
struct NewLinePositions {
new_line_pos: Vec<CharIndex>,
}
// A helper function.
fn can_coalesce_text_nodes(fragments: &[Fragment], left_i: uint, right_i: uint) -> bool {
assert!(left_i != right_i);
fragments[left_i].can_merge_with_fragment(&fragments[right_i])
}
/// A stack-allocated object for scanning an inline flow into `TextRun`-containing `TextFragment`s.
pub struct TextRunScanner {
pub clump: Range<CharIndex>,
}
impl TextRunScanner {
pub fn new() -> TextRunScanner {
TextRunScanner {
clump: Range::empty(),
}
}
pub fn scan_for_runs(&mut self, font_context: &mut FontContext, flow: &mut Flow) {
{
let inline = flow.as_immutable_inline();
debug!("TextRunScanner: scanning {:u} fragments for text runs...", inline.fragments.len());
}
let fragments = &mut flow.as_inline().fragments;
let mut last_whitespace = true;
let mut new_fragments = Vec::new();
for fragment_i in range(0, fragments.fragments.len()) {
debug!("TextRunScanner: considering fragment: {:u}", fragment_i);
if fragment_i > 0 && !can_coalesce_text_nodes(fragments.fragments.as_slice(), fragment_i - 1, fragment_i) {
last_whitespace = self.flush_clump_to_list(font_context,
fragments.fragments.as_slice(),
&mut new_fragments,
last_whitespace);
}
self.clump.extend_by(CharIndex(1));
}
// Handle remaining clumps.
if self.clump.length() > CharIndex(0) {
drop(self.flush_clump_to_list(font_context,
fragments.fragments.as_slice(),
&mut new_fragments,
last_whitespace))
}
debug!("TextRunScanner: swapping out fragments.");
fragments.fragments = new_fragments;
}
/// A "clump" is a range of inline flow leaves that can be merged together into a single
/// fragment. Adjacent text with the same style can be merged, and nothing else can.
///
/// The flow keeps track of the fragments contained by all non-leaf DOM nodes. This is necessary
/// for correct painting order. Since we compress several leaf fragments here, the mapping must
/// be adjusted.
///
/// FIXME(#2267, pcwalton): Stop cloning fragments. Instead we will need to replace each
/// `in_fragment` with some smaller stub.
fn flush_clump_to_list(&mut self,
font_context: &mut FontContext,
in_fragments: &[Fragment],
out_fragments: &mut Vec<Fragment>,
last_whitespace: bool)
-> bool {
assert!(self.clump.length() > CharIndex(0));
debug!("TextRunScanner: flushing fragments in range={}", self.clump);
let is_singleton = self.clump.length() == CharIndex(1);
let is_text_clump = match in_fragments[self.clump.begin().to_uint()].specific {
UnscannedTextFragment(_) => true,
_ => false,
};
let mut new_whitespace = last_whitespace;
match (is_singleton, is_text_clump) {
(false, false) => {
fail!("WAT: can't coalesce non-text nodes in flush_clump_to_list()!")
}
(true, false) => {
// FIXME(pcwalton): Stop cloning fragments, as above.
debug!("TextRunScanner: pushing single non-text fragment in range: {}", self.clump);
let new_fragment = in_fragments[self.clump.begin().to_uint()].clone();
out_fragments.push(new_fragment)
},
(true, true) => {
let old_fragment = &in_fragments[self.clump.begin().to_uint()];
let text = match old_fragment.specific {
UnscannedTextFragment(ref text_fragment_info) => &text_fragment_info.text,
_ => fail!("Expected an unscanned text fragment!"),
};
let font_style = old_fragment.font_style();
let compression = match old_fragment.white_space() {
white_space::normal => CompressWhitespaceNewline,
white_space::pre => CompressNone,
};
let mut new_line_pos = vec![];
let (transformed_text, whitespace) = transform_text(text.as_slice(),
compression,
last_whitespace,
&mut new_line_pos);
new_whitespace = whitespace;
if transformed_text.len() > 0 {
// TODO(#177): Text run creation must account for the renderability of text by
// font group fonts. This is probably achieved by creating the font group above
// and then letting `FontGroup` decide which `Font` to stick into the text run.
let fontgroup = font_context.get_layout_font_group_for_style(&font_style);
let run = box fontgroup.create_textrun(
transformed_text.clone());
debug!("TextRunScanner: pushing single text fragment in range: {} ({})",
self.clump,
*text);
let range = Range::new(CharIndex(0), run.char_len());
let new_metrics = run.metrics_for_range(&range);
let bounding_box_size = bounding_box_for_run_metrics(
&new_metrics, old_fragment.style.writing_mode);
let new_text_fragment_info = ScannedTextFragmentInfo::new(Arc::new(run), range);
let mut new_fragment = old_fragment.transform(
bounding_box_size, ScannedTextFragment(new_text_fragment_info));
new_fragment.new_line_pos = new_line_pos;
out_fragments.push(new_fragment)
}
},
(false, true) => {
// TODO(#177): Text run creation must account for the renderability of text by
// font group fonts. This is probably achieved by creating the font group above
// and then letting `FontGroup` decide which `Font` to stick into the text run.
let in_fragment = &in_fragments[self.clump.begin().to_uint()];
let font_style = in_fragment.font_style();
let fontgroup = font_context.get_layout_font_group_for_style(&font_style);
let compression = match in_fragment.white_space() {
white_space::normal => CompressWhitespaceNewline,
white_space::pre => CompressNone,
};
let mut new_line_positions: Vec<NewLinePositions> = vec![];
// First, transform/compress text of all the nodes.
let mut last_whitespace_in_clump = new_whitespace;
let transformed_strs: Vec<String> = Vec::from_fn(self.clump.length().to_uint(), |i| {
let idx = CharIndex(i as int) + self.clump.begin();
let in_fragment = match in_fragments[idx.to_uint()].specific {
UnscannedTextFragment(ref text_fragment_info) => &text_fragment_info.text,
_ => fail!("Expected an unscanned text fragment!"),
};
let mut new_line_pos = vec![];
let (new_str, new_whitespace) = transform_text(in_fragment.as_slice(),
compression,
last_whitespace_in_clump,
&mut new_line_pos);
new_line_positions.push(NewLinePositions { new_line_pos: new_line_pos });
last_whitespace_in_clump = new_whitespace;
new_str
});
new_whitespace = last_whitespace_in_clump;
// Next, concatenate all of the transformed strings together, saving the new
// character indices.
let mut run_str = String::new();
let mut new_ranges: Vec<Range<CharIndex>> = vec![];
let mut char_total = CharIndex(0);
for i in range(0, transformed_strs.len() as int) {
let added_chars = CharIndex(transformed_strs[i as uint].as_slice().char_len() as int);
new_ranges.push(Range::new(char_total, added_chars));
run_str.push_str(transformed_strs[i as uint].as_slice());
char_total = char_total + added_chars;
}
// Now create the run.
// TextRuns contain a cycle which is usually resolved by the teardown
// sequence. If no clump takes ownership, however, it will leak.
let clump = self.clump;
let run = if clump.length() != CharIndex(0) && run_str.len() > 0 {
Some(Arc::new(box TextRun::new(
&mut *fontgroup.fonts[0].borrow_mut(),
run_str.to_string())))
} else {
None
};
// Make new fragments with the run and adjusted text indices.
debug!("TextRunScanner: pushing fragment(s) in range: {}", self.clump);
for i in clump.each_index() {
let logical_offset = i - self.clump.begin();
let range = new_ranges[logical_offset.to_uint()];
if range.length() == CharIndex(0) {
debug!("Elided an `UnscannedTextFragment` because it was zero-length after \
compression; {}", in_fragments[i.to_uint()]);
continue
}
let new_text_fragment_info = ScannedTextFragmentInfo::new(run.get_ref().clone(), range);
let old_fragment = &in_fragments[i.to_uint()];
let new_metrics = new_text_fragment_info.run.metrics_for_range(&range);
let bounding_box_size = bounding_box_for_run_metrics(
&new_metrics, old_fragment.style.writing_mode);
let mut new_fragment = old_fragment.transform(
bounding_box_size, ScannedTextFragment(new_text_fragment_info));
new_fragment.new_line_pos = new_line_positions[logical_offset.to_uint()].new_line_pos.clone();
out_fragments.push(new_fragment)
}
}
} // End of match.
let end = self.clump.end(); // FIXME: borrow checker workaround
self.clump.reset(end, CharIndex(0));
new_whitespace
} // End of `flush_clump_to_list`.
}
#[inline]
fn bounding_box_for_run_metrics(metrics: &RunMetrics, writing_mode: WritingMode)
-> LogicalSize<Au> {
// This does nothing, but it will fail to build
// when more values are added to the `text-orientation` CSS property.
// This will be a reminder to update the code below.
let dummy: Option<text_orientation::T> = None;
match dummy {
Some(text_orientation::sideways_right) |
Some(text_orientation::sideways_left) |
Some(text_orientation::sideways) |
None => {}
}
// In vertical sideways or horizontal upgright text,
// the "width" of text metrics is always inline
// This will need to be updated when other text orientations are supported.
LogicalSize::new(
writing_mode,
metrics.bounding_box.size.width,
metrics.bounding_box.size.height)
}
/// Returns the metrics of the font represented by the given `FontStyle`, respectively.
///
/// `#[inline]` because often the caller only needs a few fields from the font metrics.
#[inline]
pub fn font_metrics_for_style(font_context: &mut FontContext, font_style: &FontStyle)
-> FontMetrics {
let fontgroup = font_context.get_layout_font_group_for_style(font_style);
fontgroup.fonts[0].borrow().metrics.clone()
}
/// Converts a computed style to a font style used for rendering.
///
/// FIXME(pcwalton): This should not be necessary; just make the font part of the style sharable
/// with the display list somehow. (Perhaps we should use an ARC.)
pub fn computed_style_to_font_style(style: &ComputedValues) -> FontStyle {
debug!("(font style) start");
// FIXME: Too much allocation here.
let mut font_families = style.get_font().font_family.iter().map(|family| {
match *family {
font_family::FamilyName(ref name) => (*name).clone(),
}
});
debug!("(font style) font families: `{:?}`", font_families);
let font_size = style.get_font().font_size.to_f64().unwrap() / 60.0;
debug!("(font style) font size: `{:f}px`", font_size);
FontStyle {
pt_size: font_size,
weight: style.get_font().font_weight,
style: style.get_font().font_style,
families: font_families.collect(),
}
}
/// Returns the line block-size needed by the given computed style and font size.
pub fn line_height_from_style(style: &ComputedValues, metrics: &FontMetrics) -> Au {
let font_size = style.get_font().font_size;
let from_inline = match style.get_inheritedbox().line_height {
line_height::Normal => metrics.line_gap,
line_height::Number(l) => font_size.scale_by(l),
line_height::Length(l) => l
};
let minimum = style.get_inheritedbox()._servo_minimum_line_height;
Au::max(from_inline, minimum)
}
|
