/* * Copyright (c) 2020-2021, the SerenityOS developers. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include namespace Line { void XtermSuggestionDisplay::display(const SuggestionManager& manager) { did_display(); OutputFileStream stderr_stream { stderr }; size_t longest_suggestion_length = 0; size_t longest_suggestion_byte_length = 0; manager.set_start_index(0); manager.for_each_suggestion([&](auto& suggestion, auto) { longest_suggestion_length = max(longest_suggestion_length, suggestion.text_view.length()); longest_suggestion_byte_length = max(longest_suggestion_byte_length, suggestion.text_string.length()); return IterationDecision::Continue; }); size_t num_printed = 0; size_t lines_used = 1; VT::save_cursor(stderr_stream); VT::clear_lines(0, m_lines_used_for_last_suggestions, stderr_stream); VT::restore_cursor(stderr_stream); auto spans_entire_line { false }; Vector lines; for (size_t i = 0; i < m_prompt_lines_at_suggestion_initiation - 1; ++i) lines.append({ {}, 0 }); lines.append({ {}, longest_suggestion_length }); auto max_line_count = StringMetrics { move(lines) }.lines_with_addition({ { { {}, 0 } } }, m_num_columns); if (longest_suggestion_length >= m_num_columns - 2) { spans_entire_line = true; // We should make enough space for the biggest entry in // the suggestion list to fit in the prompt line. auto start = max_line_count - m_prompt_lines_at_suggestion_initiation; for (size_t i = start; i < max_line_count; ++i) stderr_stream.write("\n"sv.bytes()); lines_used += max_line_count; longest_suggestion_length = 0; } VT::move_absolute(max_line_count + m_origin_row, 1, stderr_stream); if (m_pages.is_empty()) { size_t num_printed = 0; size_t lines_used = 1; // Cache the pages. manager.set_start_index(0); size_t page_start = 0; manager.for_each_suggestion([&](auto& suggestion, auto index) { size_t next_column = num_printed + suggestion.text_view.length() + longest_suggestion_length + 2; if (next_column > m_num_columns) { auto lines = (suggestion.text_view.length() + m_num_columns - 1) / m_num_columns; lines_used += lines; num_printed = 0; } if (lines_used + m_prompt_lines_at_suggestion_initiation >= m_num_lines) { m_pages.append({ page_start, index }); page_start = index; lines_used = 1; num_printed = 0; } if (spans_entire_line) num_printed += m_num_columns; else num_printed += longest_suggestion_length + 2; return IterationDecision::Continue; }); // Append the last page. m_pages.append({ page_start, manager.count() }); } auto page_index = fit_to_page_boundary(manager.next_index()); manager.set_start_index(m_pages[page_index].start); manager.for_each_suggestion([&](auto& suggestion, auto index) { size_t next_column = num_printed + suggestion.text_view.length() + longest_suggestion_length + 2; if (next_column > m_num_columns) { auto lines = (suggestion.text_view.length() + m_num_columns - 1) / m_num_columns; lines_used += lines; stderr_stream.write("\n"sv.bytes()); num_printed = 0; } // Show just enough suggestions to fill up the screen // without moving the prompt out of view. if (lines_used + m_prompt_lines_at_suggestion_initiation >= m_num_lines) return IterationDecision::Break; // Only apply color to the selection if something is *actually* added to the buffer. if (manager.is_current_suggestion_complete() && index == manager.next_index()) { VT::apply_style({ Style::Foreground(Style::XtermColor::Blue) }, stderr_stream); } if (spans_entire_line) { num_printed += m_num_columns; stderr_stream.write(suggestion.text_string.bytes()); } else { stderr_stream.write(String::formatted("{: <{}}", suggestion.text_string, longest_suggestion_byte_length + 2).bytes()); num_printed += longest_suggestion_length + 2; } if (manager.is_current_suggestion_complete() && index == manager.next_index()) VT::apply_style(Style::reset_style(), stderr_stream); return IterationDecision::Continue; }); m_lines_used_for_last_suggestions = lines_used; // If we filled the screen, move back the origin. if (m_origin_row + lines_used >= m_num_lines) { m_origin_row = m_num_lines - lines_used; } if (m_pages.size() > 1) { auto left_arrow = page_index > 0 ? '<' : ' '; auto right_arrow = page_index < m_pages.size() - 1 ? '>' : ' '; auto string = String::formatted("{:c} page {} of {} {:c}", left_arrow, page_index + 1, m_pages.size(), right_arrow); if (string.length() > m_num_columns - 1) { // This would overflow into the next line, so just don't print an indicator. return; } VT::move_absolute(m_origin_row + lines_used, m_num_columns - string.length() - 1, stderr_stream); VT::apply_style({ Style::Background(Style::XtermColor::Green) }, stderr_stream); stderr_stream.write(string.bytes()); VT::apply_style(Style::reset_style(), stderr_stream); } } bool XtermSuggestionDisplay::cleanup() { did_cleanup(); if (m_lines_used_for_last_suggestions) { OutputFileStream stderr_stream { stderr }; VT::clear_lines(0, m_lines_used_for_last_suggestions, stderr_stream); m_lines_used_for_last_suggestions = 0; return true; } return false; } size_t XtermSuggestionDisplay::fit_to_page_boundary(size_t selection_index) { VERIFY(m_pages.size() > 0); size_t index = 0; auto* match = binary_search( m_pages.span(), PageRange { selection_index, selection_index }, &index, [](auto& a, auto& b) -> int { if (a.start >= b.start && a.start < b.end) return 0; return a.start - b.start; }); if (!match) return m_pages.size() - 1; return index; } }