/* * Copyright (c) 2018-2021, Andreas Kling * Copyright (c) 2022, Tobias Christiansen * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include namespace Web::Layout { TextNode::TextNode(DOM::Document& document, DOM::Text& text) : Node(document, &text) { set_inline(true); } TextNode::~TextNode() = default; static bool is_all_whitespace(StringView string) { for (size_t i = 0; i < string.length(); ++i) { if (!is_ascii_space(string[i])) return false; } return true; } // NOTE: This collapses whitespace into a single ASCII space if collapse is true. void TextNode::compute_text_for_rendering(bool collapse) { auto& data = dom_node().data(); if (!collapse || data.is_empty()) { m_text_for_rendering = data; return; } // NOTE: A couple fast returns to avoid unnecessarily allocating a StringBuilder. if (data.length() == 1) { if (is_ascii_space(data[0])) { static String s_single_space_string = " "; m_text_for_rendering = s_single_space_string; } else { m_text_for_rendering = data; } return; } bool contains_space = false; for (auto& c : data) { if (is_ascii_space(c)) { contains_space = true; break; } } if (!contains_space) { m_text_for_rendering = data; return; } StringBuilder builder(data.length()); size_t index = 0; auto skip_over_whitespace = [&index, &data] { while (index < data.length() && is_ascii_space(data[index])) ++index; }; while (index < data.length()) { if (is_ascii_space(data[index])) { builder.append(' '); ++index; skip_over_whitespace(); } else { builder.append(data[index]); ++index; } } m_text_for_rendering = builder.to_string(); } TextNode::ChunkIterator::ChunkIterator(StringView text, LayoutMode layout_mode, bool wrap_lines, bool respect_linebreaks) : m_layout_mode(layout_mode) , m_wrap_lines(wrap_lines) , m_respect_linebreaks(respect_linebreaks) , m_utf8_view(text) , m_iterator(m_utf8_view.begin()) { } Optional TextNode::ChunkIterator::next() { if (m_iterator == m_utf8_view.end()) return {}; auto start_of_chunk = m_iterator; while (m_iterator != m_utf8_view.end()) { if (m_respect_linebreaks && *m_iterator == '\n') { // Newline encountered, and we're supposed to preserve them. // If we have accumulated some code points in the current chunk, commit them now and continue with the newline next time. if (auto result = try_commit_chunk(start_of_chunk, m_iterator, false); result.has_value()) return result.release_value(); // Otherwise, commit the newline! ++m_iterator; auto result = try_commit_chunk(start_of_chunk, m_iterator, true); VERIFY(result.has_value()); return result.release_value(); } if (m_wrap_lines) { if (is_ascii_space(*m_iterator)) { // Whitespace encountered, and we're allowed to break on whitespace. // If we have accumulated some code points in the current chunk, commit them now and continue with the whitespace next time. if (auto result = try_commit_chunk(start_of_chunk, m_iterator, false); result.has_value()) return result.release_value(); // Otherwise, commit the whitespace! ++m_iterator; if (auto result = try_commit_chunk(start_of_chunk, m_iterator, false); result.has_value()) return result.release_value(); continue; } } ++m_iterator; } if (start_of_chunk != m_utf8_view.end()) { // Try to output whatever's left at the end of the text node. if (auto result = try_commit_chunk(start_of_chunk, m_utf8_view.end(), false); result.has_value()) return result.release_value(); } return {}; } Optional TextNode::ChunkIterator::try_commit_chunk(Utf8View::Iterator const& start, Utf8View::Iterator const& end, bool has_breaking_newline) const { auto byte_offset = m_utf8_view.byte_offset_of(start); auto byte_length = m_utf8_view.byte_offset_of(end) - byte_offset; if (byte_length > 0) { auto chunk_view = m_utf8_view.substring_view(byte_offset, byte_length); return Chunk { .view = chunk_view, .start = byte_offset, .length = byte_length, .has_breaking_newline = has_breaking_newline, .is_all_whitespace = is_all_whitespace(chunk_view.as_string()), }; } return {}; } RefPtr TextNode::create_paintable() const { return Painting::TextPaintable::create(*this); } }