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ladybird/Userland/Libraries/LibGfx/TextLayout.cpp
Aliaksandr Kalenik 681771d210 LibGfx+LibWeb: Calculate and save glyph positions during layout 
Previously, we determined the positions of glyphs for each text run at
the time of painting, which constituted a significant portion of the
painting process according to profiles. However, since we already go
through each glyph to figure out the width of each fragment during
layout, we can simultaneously gather data about the position of each
glyph in the layout phase and utilize this information in the painting
phase.

I had to update expectations for a couple of reference tests. These
updates are due to the fact that we now measure glyph positions during
layout using a 1x font, and then linearly scale each glyph's position
to device pixels during painting. This approach should be acceptable,
considering we measure a fragment's width and height with an unscaled
font during layout.
2023-12-02 22:06:11 +01:00

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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, sin-ack <sin-ack@protonmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "TextLayout.h"
#include "Font/Emoji.h"
#include <AK/Debug.h>
#include <LibUnicode/CharacterTypes.h>
#include <LibUnicode/Emoji.h>
namespace Gfx {
enum class BlockType {
Newline,
Whitespace,
Word
};
struct Block {
BlockType type;
Utf8View characters;
};
FloatRect TextLayout::bounding_rect(TextWrapping wrapping) const
{
auto lines = wrap_lines(TextElision::None, wrapping);
if (lines.is_empty()) {
return {};
}
FloatRect bounding_rect = {
0, 0, 0, (static_cast<float>(lines.size()) * (m_font_metrics.ascent + m_font_metrics.descent + m_font_metrics.line_gap)) - m_font_metrics.line_gap
};
for (auto& line : lines) {
auto line_width = m_font.width(line);
if (line_width > bounding_rect.width())
bounding_rect.set_width(line_width);
}
return bounding_rect;
}
Vector<DeprecatedString, 32> TextLayout::wrap_lines(TextElision elision, TextWrapping wrapping) const
{
Vector<Block> blocks;
Optional<BlockType> current_block_type;
size_t block_start_offset = 0;
size_t offset = 0;
for (auto it = m_text.begin(); !it.done(); ++it) {
offset = m_text.iterator_offset(it);
switch (*it) {
case '\t':
case ' ': {
if (current_block_type.has_value() && current_block_type.value() != BlockType::Whitespace) {
blocks.append({
current_block_type.value(),
m_text.substring_view(block_start_offset, offset - block_start_offset),
});
current_block_type.clear();
}
if (!current_block_type.has_value()) {
current_block_type = BlockType::Whitespace;
block_start_offset = offset;
}
continue;
}
case '\n':
case '\r': {
if (current_block_type.has_value()) {
blocks.append({
current_block_type.value(),
m_text.substring_view(block_start_offset, offset - block_start_offset),
});
current_block_type.clear();
}
blocks.append({ BlockType::Newline, Utf8View {} });
continue;
}
default: {
if (current_block_type.has_value() && current_block_type.value() != BlockType::Word) {
blocks.append({
current_block_type.value(),
m_text.substring_view(block_start_offset, offset - block_start_offset),
});
current_block_type.clear();
}
if (!current_block_type.has_value()) {
current_block_type = BlockType::Word;
block_start_offset = offset;
}
}
}
}
if (current_block_type.has_value()) {
blocks.append({
current_block_type.value(),
m_text.substring_view(block_start_offset, m_text.byte_length() - block_start_offset),
});
}
Vector<DeprecatedString> lines;
StringBuilder builder;
float line_width = 0;
size_t current_block = 0;
for (Block& block : blocks) {
switch (block.type) {
case BlockType::Newline: {
lines.append(builder.to_deprecated_string());
builder.clear();
line_width = 0;
current_block++;
continue;
}
case BlockType::Whitespace:
case BlockType::Word: {
float block_width = m_font.width(block.characters);
// FIXME: This should look at the specific advance amount of the
// last character, but we don't support that yet.
if (current_block != blocks.size() - 1) {
block_width += m_font.glyph_spacing();
}
if (wrapping == TextWrapping::Wrap && line_width + block_width > m_rect.width()) {
lines.append(builder.to_deprecated_string());
builder.clear();
line_width = 0;
}
builder.append(block.characters.as_string());
line_width += block_width;
current_block++;
}
}
}
auto last_line = builder.to_deprecated_string();
if (!last_line.is_empty())
lines.append(last_line);
switch (elision) {
case TextElision::None:
break;
case TextElision::Right: {
lines.at(lines.size() - 1) = elide_text_from_right(Utf8View { lines.at(lines.size() - 1) });
break;
}
}
return lines;
}
DeprecatedString TextLayout::elide_text_from_right(Utf8View text) const
{
float text_width = m_font.width(text);
if (text_width > static_cast<float>(m_rect.width())) {
float ellipsis_width = m_font.width("..."sv);
float current_width = ellipsis_width;
size_t glyph_spacing = m_font.glyph_spacing();
// FIXME: This code will break when the font has glyphs with advance
// amounts different from the actual width of the glyph
// (which is the case with many TrueType fonts).
if (ellipsis_width < text_width) {
size_t offset = 0;
for (auto it = text.begin(); !it.done(); ++it) {
auto glyph_width = m_font.glyph_or_emoji_width(it);
// NOTE: Glyph spacing should not be added after the last glyph on the line,
// but since we are here because the last glyph does not actually fit on the line,
// we don't have to worry about spacing.
auto width_with_this_glyph_included = current_width + glyph_width + glyph_spacing;
if (width_with_this_glyph_included > m_rect.width())
break;
current_width += glyph_width + glyph_spacing;
offset = text.iterator_offset(it);
}
StringBuilder builder;
builder.append(text.substring_view(0, offset).as_string());
builder.append("..."sv);
return builder.to_deprecated_string();
}
}
return text.as_string();
}
DrawGlyphOrEmoji prepare_draw_glyph_or_emoji(FloatPoint point, Utf8CodePointIterator& it, Font const& font)
{
u32 code_point = *it;
auto next_code_point = it.peek(1);
ScopeGuard consume_variation_selector = [&, initial_it = it] {
static auto const variation_selector = Unicode::property_from_string("Variation_Selector"sv);
if (!variation_selector.has_value())
return;
// If we advanced the iterator to consume an emoji sequence, don't look for another variation selector.
if (initial_it != it)
return;
// Otherwise, discard one code point if it's a variation selector.
if (next_code_point.has_value() && Unicode::code_point_has_property(*next_code_point, *variation_selector))
++it;
};
// NOTE: We don't check for emoji
auto font_contains_glyph = font.contains_glyph(code_point);
auto check_for_emoji = !font.has_color_bitmaps() && Unicode::could_be_start_of_emoji_sequence(it, font_contains_glyph ? Unicode::SequenceType::EmojiPresentation : Unicode::SequenceType::Any);
// If the font contains the glyph, and we know it's not the start of an emoji, draw a text glyph.
if (font_contains_glyph && !check_for_emoji) {
return DrawGlyph {
.position = point,
.code_point = code_point,
.font = &font,
};
}
// If we didn't find a text glyph, or have an emoji variation selector or regional indicator, try to draw an emoji glyph.
if (auto const* emoji = Emoji::emoji_for_code_point_iterator(it)) {
return DrawEmoji {
.position = point,
.emoji = emoji,
.font = &font,
};
}
// If that failed, but we have a text glyph fallback, draw that.
if (font_contains_glyph) {
return DrawGlyph {
.position = point,
.code_point = code_point,
.font = &font,
};
}
// No suitable glyph found, draw a replacement character.
dbgln_if(EMOJI_DEBUG, "Failed to find a glyph or emoji for code_point {}", code_point);
return DrawGlyph {
.position = point,
.code_point = 0xFFFD,
.font = &font,
};
}
}
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