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ladybird/Userland/Libraries/LibWeb/Layout/LineBoxFragment.cpp
Aliaksandr Kalenik 2cb0039a13 LibGfx+LibWeb: Produce font cascade list in CSS font matching algorithm 
According to the CSS font matching algorithm specification, it is
supposed to be executed for each glyph instead of each text run, as is
currently done. This change partially implements this by having the
font matching algorithm produce a list of fonts against which each
glyph will be tested to find its suitable font.

Now, it becomes possible to have per-glyph fallback fonts: if the
needed glyph is not present in a font, we can check the subsequent
fonts in the list.
2023-12-10 17:32:04 +01:00

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/*
* Copyright (c) 2018-2023, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Utf8View.h>
#include <LibWeb/DOM/Range.h>
#include <LibWeb/Layout/LayoutState.h>
#include <LibWeb/Layout/LineBoxFragment.h>
#include <LibWeb/Layout/TextNode.h>
#include <LibWeb/Layout/Viewport.h>
#include <ctype.h>
namespace Web::Layout {
bool LineBoxFragment::ends_in_whitespace() const
{
auto text = this->text();
if (text.is_empty())
return false;
return isspace(text[text.length() - 1]);
}
bool LineBoxFragment::is_justifiable_whitespace() const
{
return text() == " ";
}
StringView LineBoxFragment::text() const
{
if (!is<TextNode>(layout_node()))
return {};
return verify_cast<TextNode>(layout_node()).text_for_rendering().bytes_as_string_view().substring_view(m_start, m_length);
}
CSSPixelRect const LineBoxFragment::absolute_rect() const
{
CSSPixelRect rect { {}, size() };
rect.set_location(m_layout_node->containing_block()->paintable_box()->absolute_position());
rect.translate_by(offset());
return rect;
}
int LineBoxFragment::text_index_at(CSSPixels x) const
{
if (!is<TextNode>(layout_node()))
return 0;
auto& layout_text = verify_cast<TextNode>(layout_node());
auto& font = layout_text.first_available_font();
Utf8View view(text());
CSSPixels relative_x = x - absolute_x();
CSSPixels glyph_spacing = font.glyph_spacing();
if (relative_x < 0)
return 0;
CSSPixels width_so_far = 0;
for (auto it = view.begin(); it != view.end(); ++it) {
auto previous_it = it;
CSSPixels glyph_width = CSSPixels::nearest_value_for(font.glyph_or_emoji_width(it));
if ((width_so_far + glyph_width + glyph_spacing / 2) > relative_x)
return m_start + view.byte_offset_of(previous_it);
width_so_far += glyph_width + glyph_spacing;
}
return m_start + m_length;
}
CSSPixelRect LineBoxFragment::selection_rect(Gfx::Font const& font) const
{
if (layout_node().selection_state() == Node::SelectionState::None)
return {};
if (layout_node().selection_state() == Node::SelectionState::Full)
return absolute_rect();
if (!is<TextNode>(layout_node()))
return {};
auto selection = layout_node().root().selection();
if (!selection)
return {};
auto range = selection->range();
if (!range)
return {};
// FIXME: m_start and m_length should be unsigned and then we won't need these casts.
auto const start_index = static_cast<unsigned>(m_start);
auto const end_index = static_cast<unsigned>(m_start) + static_cast<unsigned>(m_length);
auto text = this->text();
if (layout_node().selection_state() == Node::SelectionState::StartAndEnd) {
// we are in the start/end node (both the same)
if (start_index > range->end_offset())
return {};
if (end_index < range->start_offset())
return {};
if (range->start_offset() == range->end_offset())
return {};
auto selection_start_in_this_fragment = max(0, range->start_offset() - m_start);
auto selection_end_in_this_fragment = min(m_length, range->end_offset() - m_start);
auto pixel_distance_to_first_selected_character = CSSPixels::nearest_value_for(font.width(text.substring_view(0, selection_start_in_this_fragment)));
auto pixel_width_of_selection = CSSPixels::nearest_value_for(font.width(text.substring_view(selection_start_in_this_fragment, selection_end_in_this_fragment - selection_start_in_this_fragment))) + 1;
auto rect = absolute_rect();
rect.set_x(rect.x() + pixel_distance_to_first_selected_character);
rect.set_width(pixel_width_of_selection);
return rect;
}
if (layout_node().selection_state() == Node::SelectionState::Start) {
// we are in the start node
if (end_index < range->start_offset())
return {};
auto selection_start_in_this_fragment = max(0, range->start_offset() - m_start);
auto selection_end_in_this_fragment = m_length;
auto pixel_distance_to_first_selected_character = CSSPixels::nearest_value_for(font.width(text.substring_view(0, selection_start_in_this_fragment)));
auto pixel_width_of_selection = CSSPixels::nearest_value_for(font.width(text.substring_view(selection_start_in_this_fragment, selection_end_in_this_fragment - selection_start_in_this_fragment))) + 1;
auto rect = absolute_rect();
rect.set_x(rect.x() + pixel_distance_to_first_selected_character);
rect.set_width(pixel_width_of_selection);
return rect;
}
if (layout_node().selection_state() == Node::SelectionState::End) {
// we are in the end node
if (start_index > range->end_offset())
return {};
auto selection_start_in_this_fragment = 0;
auto selection_end_in_this_fragment = min(range->end_offset() - m_start, m_length);
auto pixel_distance_to_first_selected_character = CSSPixels::nearest_value_for(font.width(text.substring_view(0, selection_start_in_this_fragment)));
auto pixel_width_of_selection = CSSPixels::nearest_value_for(font.width(text.substring_view(selection_start_in_this_fragment, selection_end_in_this_fragment - selection_start_in_this_fragment))) + 1;
auto rect = absolute_rect();
rect.set_x(rect.x() + pixel_distance_to_first_selected_character);
rect.set_width(pixel_width_of_selection);
return rect;
}
return {};
}
bool LineBoxFragment::is_atomic_inline() const
{
return layout_node().is_replaced_box() || (layout_node().display().is_inline_outside() && !layout_node().display().is_flow_inside());
}
}
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