//===-- Editline.cpp ------------------------------------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include #include #include "lldb/Host/ConnectionFileDescriptor.h" #include "lldb/Host/Editline.h" #include "lldb/Host/FileSystem.h" #include "lldb/Host/Host.h" #include "lldb/Utility/CompletionRequest.h" #include "lldb/Utility/FileSpec.h" #include "lldb/Utility/LLDBAssert.h" #include "lldb/Utility/SelectHelper.h" #include "lldb/Utility/Status.h" #include "lldb/Utility/StreamString.h" #include "lldb/Utility/StringList.h" #include "lldb/Utility/Timeout.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Threading.h" using namespace lldb_private; using namespace lldb_private::line_editor; // Workaround for what looks like an OS X-specific issue, but other platforms // may benefit from something similar if issues arise. The libedit library // doesn't explicitly initialize the curses termcap library, which it gets away // with until TERM is set to VT100 where it stumbles over an implementation // assumption that may not exist on other platforms. The setupterm() function // would normally require headers that don't work gracefully in this context, // so the function declaration has been hoisted here. #if defined(__APPLE__) extern "C" { int setupterm(char *term, int fildes, int *errret); } #define USE_SETUPTERM_WORKAROUND #endif // Editline uses careful cursor management to achieve the illusion of editing a // multi-line block of text with a single line editor. Preserving this // illusion requires fairly careful management of cursor state. Read and // understand the relationship between DisplayInput(), MoveCursor(), // SetCurrentLine(), and SaveEditedLine() before making changes. /// https://www.ecma-international.org/publications/files/ECMA-ST/Ecma-048.pdf #define ESCAPE "\x1b" /// Faint, decreased intensity or second colour. #define ANSI_FAINT ESCAPE "[2m" /// Normal colour or normal intensity (neither bold nor faint). #define ANSI_UNFAINT ESCAPE "[0m" #define ANSI_CLEAR_BELOW ESCAPE "[J" #define ANSI_CLEAR_RIGHT ESCAPE "[K" #define ANSI_SET_COLUMN_N ESCAPE "[%dG" #define ANSI_UP_N_ROWS ESCAPE "[%dA" #define ANSI_DOWN_N_ROWS ESCAPE "[%dB" #if LLDB_EDITLINE_USE_WCHAR #define EditLineConstString(str) L##str #define EditLineStringFormatSpec "%ls" #else #define EditLineConstString(str) str #define EditLineStringFormatSpec "%s" // use #defines so wide version functions and structs will resolve to old // versions for case of libedit not built with wide char support #define history_w history #define history_winit history_init #define history_wend history_end #define HistoryW History #define HistEventW HistEvent #define LineInfoW LineInfo #define el_wgets el_gets #define el_wgetc el_getc #define el_wpush el_push #define el_wparse el_parse #define el_wset el_set #define el_wget el_get #define el_wline el_line #define el_winsertstr el_insertstr #define el_wdeletestr el_deletestr #endif // #if LLDB_EDITLINE_USE_WCHAR bool IsOnlySpaces(const EditLineStringType &content) { for (wchar_t ch : content) { if (ch != EditLineCharType(' ')) return false; } return true; } static int GetOperation(HistoryOperation op) { // The naming used by editline for the history operations is counter // intuitive to how it's used in LLDB's editline implementation. // // - The H_LAST returns the oldest entry in the history. // // - The H_PREV operation returns the previous element in the history, which // is newer than the current one. // // - The H_CURR returns the current entry in the history. // // - The H_NEXT operation returns the next element in the history, which is // older than the current one. // // - The H_FIRST returns the most recent entry in the history. // // The naming of the enum entries match the semantic meaning. switch(op) { case HistoryOperation::Oldest: return H_LAST; case HistoryOperation::Older: return H_NEXT; case HistoryOperation::Current: return H_CURR; case HistoryOperation::Newer: return H_PREV; case HistoryOperation::Newest: return H_FIRST; } llvm_unreachable("Fully covered switch!"); } EditLineStringType CombineLines(const std::vector &lines) { EditLineStringStreamType combined_stream; for (EditLineStringType line : lines) { combined_stream << line.c_str() << "\n"; } return combined_stream.str(); } std::vector SplitLines(const EditLineStringType &input) { std::vector result; size_t start = 0; while (start < input.length()) { size_t end = input.find('\n', start); if (end == std::string::npos) { result.push_back(input.substr(start)); break; } result.push_back(input.substr(start, end - start)); start = end + 1; } return result; } EditLineStringType FixIndentation(const EditLineStringType &line, int indent_correction) { if (indent_correction == 0) return line; if (indent_correction < 0) return line.substr(-indent_correction); return EditLineStringType(indent_correction, EditLineCharType(' ')) + line; } int GetIndentation(const EditLineStringType &line) { int space_count = 0; for (EditLineCharType ch : line) { if (ch != EditLineCharType(' ')) break; ++space_count; } return space_count; } bool IsInputPending(FILE *file) { // FIXME: This will be broken on Windows if we ever re-enable Editline. You // can't use select // on something that isn't a socket. This will have to be re-written to not // use a FILE*, but instead use some kind of yet-to-be-created abstraction // that select-like functionality on non-socket objects. const int fd = fileno(file); SelectHelper select_helper; select_helper.SetTimeout(std::chrono::microseconds(0)); select_helper.FDSetRead(fd); return select_helper.Select().Success(); } namespace lldb_private { namespace line_editor { typedef std::weak_ptr EditlineHistoryWP; // EditlineHistory objects are sometimes shared between multiple Editline // instances with the same program name. class EditlineHistory { private: // Use static GetHistory() function to get a EditlineHistorySP to one of // these objects EditlineHistory(const std::string &prefix, uint32_t size, bool unique_entries) : m_history(nullptr), m_event(), m_prefix(prefix), m_path() { m_history = history_winit(); history_w(m_history, &m_event, H_SETSIZE, size); if (unique_entries) history_w(m_history, &m_event, H_SETUNIQUE, 1); } const char *GetHistoryFilePath() { // Compute the history path lazily. if (m_path.empty() && m_history && !m_prefix.empty()) { llvm::SmallString<128> lldb_history_file; FileSystem::Instance().GetHomeDirectory(lldb_history_file); llvm::sys::path::append(lldb_history_file, ".lldb"); // LLDB stores its history in ~/.lldb/. If for some reason this directory // isn't writable or cannot be created, history won't be available. if (!llvm::sys::fs::create_directory(lldb_history_file)) { #if LLDB_EDITLINE_USE_WCHAR std::string filename = m_prefix + "-widehistory"; #else std::string filename = m_prefix + "-history"; #endif llvm::sys::path::append(lldb_history_file, filename); m_path = std::string(lldb_history_file.str()); } } if (m_path.empty()) return nullptr; return m_path.c_str(); } public: ~EditlineHistory() { Save(); if (m_history) { history_wend(m_history); m_history = nullptr; } } static EditlineHistorySP GetHistory(const std::string &prefix) { typedef std::map WeakHistoryMap; static std::recursive_mutex g_mutex; static WeakHistoryMap g_weak_map; std::lock_guard guard(g_mutex); WeakHistoryMap::const_iterator pos = g_weak_map.find(prefix); EditlineHistorySP history_sp; if (pos != g_weak_map.end()) { history_sp = pos->second.lock(); if (history_sp) return history_sp; g_weak_map.erase(pos); } history_sp.reset(new EditlineHistory(prefix, 800, true)); g_weak_map[prefix] = history_sp; return history_sp; } bool IsValid() const { return m_history != nullptr; } HistoryW *GetHistoryPtr() { return m_history; } void Enter(const EditLineCharType *line_cstr) { if (m_history) history_w(m_history, &m_event, H_ENTER, line_cstr); } bool Load() { if (m_history) { const char *path = GetHistoryFilePath(); if (path) { history_w(m_history, &m_event, H_LOAD, path); return true; } } return false; } bool Save() { if (m_history) { const char *path = GetHistoryFilePath(); if (path) { history_w(m_history, &m_event, H_SAVE, path); return true; } } return false; } protected: HistoryW *m_history; // The history object HistEventW m_event; // The history event needed to contain all history events std::string m_prefix; // The prefix name (usually the editline program name) // to use when loading/saving history std::string m_path; // Path to the history file }; } } // Editline private methods void Editline::SetBaseLineNumber(int line_number) { m_base_line_number = line_number; m_line_number_digits = std::max(3, std::to_string(line_number).length() + 1); } std::string Editline::PromptForIndex(int line_index) { bool use_line_numbers = m_multiline_enabled && m_base_line_number > 0; std::string prompt = m_set_prompt; if (use_line_numbers && prompt.length() == 0) prompt = ": "; std::string continuation_prompt = prompt; if (m_set_continuation_prompt.length() > 0) { continuation_prompt = m_set_continuation_prompt; // Ensure that both prompts are the same length through space padding while (continuation_prompt.length() < prompt.length()) { continuation_prompt += ' '; } while (prompt.length() < continuation_prompt.length()) { prompt += ' '; } } if (use_line_numbers) { StreamString prompt_stream; prompt_stream.Printf( "%*d%s", m_line_number_digits, m_base_line_number + line_index, (line_index == 0) ? prompt.c_str() : continuation_prompt.c_str()); return std::string(std::move(prompt_stream.GetString())); } return (line_index == 0) ? prompt : continuation_prompt; } void Editline::SetCurrentLine(int line_index) { m_current_line_index = line_index; m_current_prompt = PromptForIndex(line_index); } int Editline::GetPromptWidth() { return (int)PromptForIndex(0).length(); } bool Editline::IsEmacs() { const char *editor; el_get(m_editline, EL_EDITOR, &editor); return editor[0] == 'e'; } bool Editline::IsOnlySpaces() { const LineInfoW *info = el_wline(m_editline); for (const EditLineCharType *character = info->buffer; character < info->lastchar; character++) { if (*character != ' ') return false; } return true; } int Editline::GetLineIndexForLocation(CursorLocation location, int cursor_row) { int line = 0; if (location == CursorLocation::EditingPrompt || location == CursorLocation::BlockEnd || location == CursorLocation::EditingCursor) { for (unsigned index = 0; index < m_current_line_index; index++) { line += CountRowsForLine(m_input_lines[index]); } if (location == CursorLocation::EditingCursor) { line += cursor_row; } else if (location == CursorLocation::BlockEnd) { for (unsigned index = m_current_line_index; index < m_input_lines.size(); index++) { line += CountRowsForLine(m_input_lines[index]); } --line; } } return line; } void Editline::MoveCursor(CursorLocation from, CursorLocation to) { const LineInfoW *info = el_wline(m_editline); int editline_cursor_position = (int)((info->cursor - info->buffer) + GetPromptWidth()); int editline_cursor_row = editline_cursor_position / m_terminal_width; // Determine relative starting and ending lines int fromLine = GetLineIndexForLocation(from, editline_cursor_row); int toLine = GetLineIndexForLocation(to, editline_cursor_row); if (toLine != fromLine) { fprintf(m_output_file, (toLine > fromLine) ? ANSI_DOWN_N_ROWS : ANSI_UP_N_ROWS, std::abs(toLine - fromLine)); } // Determine target column int toColumn = 1; if (to == CursorLocation::EditingCursor) { toColumn = editline_cursor_position - (editline_cursor_row * m_terminal_width) + 1; } else if (to == CursorLocation::BlockEnd && !m_input_lines.empty()) { toColumn = ((m_input_lines[m_input_lines.size() - 1].length() + GetPromptWidth()) % 80) + 1; } fprintf(m_output_file, ANSI_SET_COLUMN_N, toColumn); } void Editline::DisplayInput(int firstIndex) { fprintf(m_output_file, ANSI_SET_COLUMN_N ANSI_CLEAR_BELOW, 1); int line_count = (int)m_input_lines.size(); const char *faint = m_color_prompts ? ANSI_FAINT : ""; const char *unfaint = m_color_prompts ? ANSI_UNFAINT : ""; for (int index = firstIndex; index < line_count; index++) { fprintf(m_output_file, "%s" "%s" "%s" EditLineStringFormatSpec " ", faint, PromptForIndex(index).c_str(), unfaint, m_input_lines[index].c_str()); if (index < line_count - 1) fprintf(m_output_file, "\n"); } } int Editline::CountRowsForLine(const EditLineStringType &content) { std::string prompt = PromptForIndex(0); // Prompt width is constant during an edit session int line_length = (int)(content.length() + prompt.length()); return (line_length / m_terminal_width) + 1; } void Editline::SaveEditedLine() { const LineInfoW *info = el_wline(m_editline); m_input_lines[m_current_line_index] = EditLineStringType(info->buffer, info->lastchar - info->buffer); } StringList Editline::GetInputAsStringList(int line_count) { StringList lines; for (EditLineStringType line : m_input_lines) { if (line_count == 0) break; #if LLDB_EDITLINE_USE_WCHAR lines.AppendString(m_utf8conv.to_bytes(line)); #else lines.AppendString(line); #endif --line_count; } return lines; } unsigned char Editline::RecallHistory(HistoryOperation op) { assert(op == HistoryOperation::Older || op == HistoryOperation::Newer); if (!m_history_sp || !m_history_sp->IsValid()) return CC_ERROR; HistoryW *pHistory = m_history_sp->GetHistoryPtr(); HistEventW history_event; std::vector new_input_lines; // Treat moving from the "live" entry differently if (!m_in_history) { switch (op) { case HistoryOperation::Newer: return CC_ERROR; // Can't go newer than the "live" entry case HistoryOperation::Older: { if (history_w(pHistory, &history_event, GetOperation(HistoryOperation::Newest)) == -1) return CC_ERROR; // Save any edits to the "live" entry in case we return by moving forward // in history (it would be more bash-like to save over any current entry, // but libedit doesn't offer the ability to add entries anywhere except // the end.) SaveEditedLine(); m_live_history_lines = m_input_lines; m_in_history = true; } break; default: llvm_unreachable("unsupported history direction"); } } else { if (history_w(pHistory, &history_event, GetOperation(op)) == -1) { switch (op) { case HistoryOperation::Older: // Can't move earlier than the earliest entry. return CC_ERROR; case HistoryOperation::Newer: // Moving to newer-than-the-newest entry yields the "live" entry. new_input_lines = m_live_history_lines; m_in_history = false; break; default: llvm_unreachable("unsupported history direction"); } } } // If we're pulling the lines from history, split them apart if (m_in_history) new_input_lines = SplitLines(history_event.str); // Erase the current edit session and replace it with a new one MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockStart); m_input_lines = new_input_lines; DisplayInput(); // Prepare to edit the last line when moving to previous entry, or the first // line when moving to next entry switch (op) { case HistoryOperation::Older: m_current_line_index = (int)m_input_lines.size() - 1; break; case HistoryOperation::Newer: m_current_line_index = 0; break; default: llvm_unreachable("unsupported history direction"); } SetCurrentLine(m_current_line_index); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingPrompt); return CC_NEWLINE; } int Editline::GetCharacter(EditLineGetCharType *c) { const LineInfoW *info = el_wline(m_editline); // Paint a faint version of the desired prompt over the version libedit draws // (will only be requested if colors are supported) if (m_needs_prompt_repaint) { MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); fprintf(m_output_file, "%s" "%s" "%s", ANSI_FAINT, Prompt(), ANSI_UNFAINT); MoveCursor(CursorLocation::EditingPrompt, CursorLocation::EditingCursor); m_needs_prompt_repaint = false; } if (m_multiline_enabled) { // Detect when the number of rows used for this input line changes due to // an edit int lineLength = (int)((info->lastchar - info->buffer) + GetPromptWidth()); int new_line_rows = (lineLength / m_terminal_width) + 1; if (m_current_line_rows != -1 && new_line_rows != m_current_line_rows) { // Respond by repainting the current state from this line on MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); SaveEditedLine(); DisplayInput(m_current_line_index); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingCursor); } m_current_line_rows = new_line_rows; } // Read an actual character while (true) { lldb::ConnectionStatus status = lldb::eConnectionStatusSuccess; char ch = 0; if (m_terminal_size_has_changed) ApplyTerminalSizeChange(); // This mutex is locked by our caller (GetLine). Unlock it while we read a // character (blocking operation), so we do not hold the mutex // indefinitely. This gives a chance for someone to interrupt us. After // Read returns, immediately lock the mutex again and check if we were // interrupted. m_output_mutex.unlock(); int read_count = m_input_connection.Read(&ch, 1, llvm::None, status, nullptr); m_output_mutex.lock(); if (m_editor_status == EditorStatus::Interrupted) { while (read_count > 0 && status == lldb::eConnectionStatusSuccess) read_count = m_input_connection.Read(&ch, 1, llvm::None, status, nullptr); lldbassert(status == lldb::eConnectionStatusInterrupted); return 0; } if (read_count) { if (CompleteCharacter(ch, *c)) return 1; } else { switch (status) { case lldb::eConnectionStatusSuccess: // Success break; case lldb::eConnectionStatusInterrupted: llvm_unreachable("Interrupts should have been handled above."); case lldb::eConnectionStatusError: // Check GetError() for details case lldb::eConnectionStatusTimedOut: // Request timed out case lldb::eConnectionStatusEndOfFile: // End-of-file encountered case lldb::eConnectionStatusNoConnection: // No connection case lldb::eConnectionStatusLostConnection: // Lost connection while // connected to a valid // connection m_editor_status = EditorStatus::EndOfInput; return 0; } } } } const char *Editline::Prompt() { if (m_color_prompts) m_needs_prompt_repaint = true; return m_current_prompt.c_str(); } unsigned char Editline::BreakLineCommand(int ch) { // Preserve any content beyond the cursor, truncate and save the current line const LineInfoW *info = el_wline(m_editline); auto current_line = EditLineStringType(info->buffer, info->cursor - info->buffer); auto new_line_fragment = EditLineStringType(info->cursor, info->lastchar - info->cursor); m_input_lines[m_current_line_index] = current_line; // Ignore whitespace-only extra fragments when breaking a line if (::IsOnlySpaces(new_line_fragment)) new_line_fragment = EditLineConstString(""); // Establish the new cursor position at the start of a line when inserting a // line break m_revert_cursor_index = 0; // Don't perform automatic formatting when pasting if (!IsInputPending(m_input_file)) { // Apply smart indentation if (m_fix_indentation_callback) { StringList lines = GetInputAsStringList(m_current_line_index + 1); #if LLDB_EDITLINE_USE_WCHAR lines.AppendString(m_utf8conv.to_bytes(new_line_fragment)); #else lines.AppendString(new_line_fragment); #endif int indent_correction = m_fix_indentation_callback( this, lines, 0, m_fix_indentation_callback_baton); new_line_fragment = FixIndentation(new_line_fragment, indent_correction); m_revert_cursor_index = GetIndentation(new_line_fragment); } } // Insert the new line and repaint everything from the split line on down m_input_lines.insert(m_input_lines.begin() + m_current_line_index + 1, new_line_fragment); MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); DisplayInput(m_current_line_index); // Reposition the cursor to the right line and prepare to edit the new line SetCurrentLine(m_current_line_index + 1); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingPrompt); return CC_NEWLINE; } unsigned char Editline::EndOrAddLineCommand(int ch) { // Don't perform end of input detection when pasting, always treat this as a // line break if (IsInputPending(m_input_file)) { return BreakLineCommand(ch); } // Save any edits to this line SaveEditedLine(); // If this is the end of the last line, consider whether to add a line // instead const LineInfoW *info = el_wline(m_editline); if (m_current_line_index == m_input_lines.size() - 1 && info->cursor == info->lastchar) { if (m_is_input_complete_callback) { auto lines = GetInputAsStringList(); if (!m_is_input_complete_callback(this, lines, m_is_input_complete_callback_baton)) { return BreakLineCommand(ch); } // The completion test is allowed to change the input lines when complete m_input_lines.clear(); for (unsigned index = 0; index < lines.GetSize(); index++) { #if LLDB_EDITLINE_USE_WCHAR m_input_lines.insert(m_input_lines.end(), m_utf8conv.from_bytes(lines[index])); #else m_input_lines.insert(m_input_lines.end(), lines[index]); #endif } } } MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockEnd); fprintf(m_output_file, "\n"); m_editor_status = EditorStatus::Complete; return CC_NEWLINE; } unsigned char Editline::DeleteNextCharCommand(int ch) { LineInfoW *info = const_cast(el_wline(m_editline)); // Just delete the next character normally if possible if (info->cursor < info->lastchar) { info->cursor++; el_deletestr(m_editline, 1); return CC_REFRESH; } // Fail when at the end of the last line, except when ^D is pressed on the // line is empty, in which case it is treated as EOF if (m_current_line_index == m_input_lines.size() - 1) { if (ch == 4 && info->buffer == info->lastchar) { fprintf(m_output_file, "^D\n"); m_editor_status = EditorStatus::EndOfInput; return CC_EOF; } return CC_ERROR; } // Prepare to combine this line with the one below MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); // Insert the next line of text at the cursor and restore the cursor position const EditLineCharType *cursor = info->cursor; el_winsertstr(m_editline, m_input_lines[m_current_line_index + 1].c_str()); info->cursor = cursor; SaveEditedLine(); // Delete the extra line m_input_lines.erase(m_input_lines.begin() + m_current_line_index + 1); // Clear and repaint from this line on down DisplayInput(m_current_line_index); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingCursor); return CC_REFRESH; } unsigned char Editline::DeletePreviousCharCommand(int ch) { LineInfoW *info = const_cast(el_wline(m_editline)); // Just delete the previous character normally when not at the start of a // line if (info->cursor > info->buffer) { el_deletestr(m_editline, 1); return CC_REFRESH; } // No prior line and no prior character? Let the user know if (m_current_line_index == 0) return CC_ERROR; // No prior character, but prior line? Combine with the line above SaveEditedLine(); SetCurrentLine(m_current_line_index - 1); auto priorLine = m_input_lines[m_current_line_index]; m_input_lines.erase(m_input_lines.begin() + m_current_line_index); m_input_lines[m_current_line_index] = priorLine + m_input_lines[m_current_line_index]; // Repaint from the new line down fprintf(m_output_file, ANSI_UP_N_ROWS ANSI_SET_COLUMN_N, CountRowsForLine(priorLine), 1); DisplayInput(m_current_line_index); // Put the cursor back where libedit expects it to be before returning to // editing by telling libedit about the newly inserted text MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingPrompt); el_winsertstr(m_editline, priorLine.c_str()); return CC_REDISPLAY; } unsigned char Editline::PreviousLineCommand(int ch) { SaveEditedLine(); if (m_current_line_index == 0) { return RecallHistory(HistoryOperation::Older); } // Start from a known location MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); // Treat moving up from a blank last line as a deletion of that line if (m_current_line_index == m_input_lines.size() - 1 && IsOnlySpaces()) { m_input_lines.erase(m_input_lines.begin() + m_current_line_index); fprintf(m_output_file, ANSI_CLEAR_BELOW); } SetCurrentLine(m_current_line_index - 1); fprintf(m_output_file, ANSI_UP_N_ROWS ANSI_SET_COLUMN_N, CountRowsForLine(m_input_lines[m_current_line_index]), 1); return CC_NEWLINE; } unsigned char Editline::NextLineCommand(int ch) { SaveEditedLine(); // Handle attempts to move down from the last line if (m_current_line_index == m_input_lines.size() - 1) { // Don't add an extra line if the existing last line is blank, move through // history instead if (IsOnlySpaces()) { return RecallHistory(HistoryOperation::Newer); } // Determine indentation for the new line int indentation = 0; if (m_fix_indentation_callback) { StringList lines = GetInputAsStringList(); lines.AppendString(""); indentation = m_fix_indentation_callback( this, lines, 0, m_fix_indentation_callback_baton); } m_input_lines.insert( m_input_lines.end(), EditLineStringType(indentation, EditLineCharType(' '))); } // Move down past the current line using newlines to force scrolling if // needed SetCurrentLine(m_current_line_index + 1); const LineInfoW *info = el_wline(m_editline); int cursor_position = (int)((info->cursor - info->buffer) + GetPromptWidth()); int cursor_row = cursor_position / m_terminal_width; for (int line_count = 0; line_count < m_current_line_rows - cursor_row; line_count++) { fprintf(m_output_file, "\n"); } return CC_NEWLINE; } unsigned char Editline::PreviousHistoryCommand(int ch) { SaveEditedLine(); return RecallHistory(HistoryOperation::Older); } unsigned char Editline::NextHistoryCommand(int ch) { SaveEditedLine(); return RecallHistory(HistoryOperation::Newer); } unsigned char Editline::FixIndentationCommand(int ch) { if (!m_fix_indentation_callback) return CC_NORM; // Insert the character typed before proceeding EditLineCharType inserted[] = {(EditLineCharType)ch, 0}; el_winsertstr(m_editline, inserted); LineInfoW *info = const_cast(el_wline(m_editline)); int cursor_position = info->cursor - info->buffer; // Save the edits and determine the correct indentation level SaveEditedLine(); StringList lines = GetInputAsStringList(m_current_line_index + 1); int indent_correction = m_fix_indentation_callback( this, lines, cursor_position, m_fix_indentation_callback_baton); // If it is already correct no special work is needed if (indent_correction == 0) return CC_REFRESH; // Change the indentation level of the line std::string currentLine = lines.GetStringAtIndex(m_current_line_index); if (indent_correction > 0) { currentLine = currentLine.insert(0, indent_correction, ' '); } else { currentLine = currentLine.erase(0, -indent_correction); } #if LLDB_EDITLINE_USE_WCHAR m_input_lines[m_current_line_index] = m_utf8conv.from_bytes(currentLine); #else m_input_lines[m_current_line_index] = currentLine; #endif // Update the display to reflect the change MoveCursor(CursorLocation::EditingCursor, CursorLocation::EditingPrompt); DisplayInput(m_current_line_index); // Reposition the cursor back on the original line and prepare to restart // editing with a new cursor position SetCurrentLine(m_current_line_index); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingPrompt); m_revert_cursor_index = cursor_position + indent_correction; return CC_NEWLINE; } unsigned char Editline::RevertLineCommand(int ch) { el_winsertstr(m_editline, m_input_lines[m_current_line_index].c_str()); if (m_revert_cursor_index >= 0) { LineInfoW *info = const_cast(el_wline(m_editline)); info->cursor = info->buffer + m_revert_cursor_index; if (info->cursor > info->lastchar) { info->cursor = info->lastchar; } m_revert_cursor_index = -1; } return CC_REFRESH; } unsigned char Editline::BufferStartCommand(int ch) { SaveEditedLine(); MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockStart); SetCurrentLine(0); m_revert_cursor_index = 0; return CC_NEWLINE; } unsigned char Editline::BufferEndCommand(int ch) { SaveEditedLine(); MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockEnd); SetCurrentLine((int)m_input_lines.size() - 1); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingPrompt); return CC_NEWLINE; } /// Prints completions and their descriptions to the given file. Only the /// completions in the interval [start, end) are printed. static void PrintCompletion(FILE *output_file, llvm::ArrayRef results, size_t max_len) { for (const CompletionResult::Completion &c : results) { fprintf(output_file, "\t%-*s", (int)max_len, c.GetCompletion().c_str()); if (!c.GetDescription().empty()) fprintf(output_file, " -- %s", c.GetDescription().c_str()); fprintf(output_file, "\n"); } } static void DisplayCompletions(::EditLine *editline, FILE *output_file, llvm::ArrayRef results) { assert(!results.empty()); fprintf(output_file, "\n" ANSI_CLEAR_BELOW "Available completions:\n"); const size_t page_size = 40; bool all = false; auto longest = std::max_element(results.begin(), results.end(), [](auto &c1, auto &c2) { return c1.GetCompletion().size() < c2.GetCompletion().size(); }); const size_t max_len = longest->GetCompletion().size(); if (results.size() < page_size) { PrintCompletion(output_file, results, max_len); return; } size_t cur_pos = 0; while (cur_pos < results.size()) { size_t remaining = results.size() - cur_pos; size_t next_size = all ? remaining : std::min(page_size, remaining); PrintCompletion(output_file, results.slice(cur_pos, next_size), max_len); cur_pos += next_size; if (cur_pos >= results.size()) break; fprintf(output_file, "More (Y/n/a): "); char reply = 'n'; int got_char = el_getc(editline, &reply); fprintf(output_file, "\n"); if (got_char == -1 || reply == 'n') break; if (reply == 'a') all = true; } } unsigned char Editline::TabCommand(int ch) { if (m_completion_callback == nullptr) return CC_ERROR; const LineInfo *line_info = el_line(m_editline); llvm::StringRef line(line_info->buffer, line_info->lastchar - line_info->buffer); unsigned cursor_index = line_info->cursor - line_info->buffer; CompletionResult result; CompletionRequest request(line, cursor_index, result); m_completion_callback(request, m_completion_callback_baton); llvm::ArrayRef results = result.GetResults(); StringList completions; result.GetMatches(completions); if (results.size() == 0) return CC_ERROR; if (results.size() == 1) { CompletionResult::Completion completion = results.front(); switch (completion.GetMode()) { case CompletionMode::Normal: { std::string to_add = completion.GetCompletion(); to_add = to_add.substr(request.GetCursorArgumentPrefix().size()); // Terminate the current argument with a quote if it started with a quote. if (!request.GetParsedLine().empty() && request.GetParsedArg().IsQuoted()) to_add.push_back(request.GetParsedArg().GetQuoteChar()); to_add.push_back(' '); el_insertstr(m_editline, to_add.c_str()); // Clear all the autosuggestion parts if the only single space can be completed. if (to_add == " ") return CC_REDISPLAY; return CC_REFRESH; } case CompletionMode::Partial: { std::string to_add = completion.GetCompletion(); to_add = to_add.substr(request.GetCursorArgumentPrefix().size()); el_insertstr(m_editline, to_add.c_str()); break; } case CompletionMode::RewriteLine: { el_deletestr(m_editline, line_info->cursor - line_info->buffer); el_insertstr(m_editline, completion.GetCompletion().c_str()); break; } } return CC_REDISPLAY; } // If we get a longer match display that first. std::string longest_prefix = completions.LongestCommonPrefix(); if (!longest_prefix.empty()) longest_prefix = longest_prefix.substr(request.GetCursorArgumentPrefix().size()); if (!longest_prefix.empty()) { el_insertstr(m_editline, longest_prefix.c_str()); return CC_REDISPLAY; } DisplayCompletions(m_editline, m_output_file, results); DisplayInput(); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingCursor); return CC_REDISPLAY; } unsigned char Editline::ApplyAutosuggestCommand(int ch) { const LineInfo *line_info = el_line(m_editline); llvm::StringRef line(line_info->buffer, line_info->lastchar - line_info->buffer); if (llvm::Optional to_add = m_suggestion_callback(line, m_suggestion_callback_baton)) el_insertstr(m_editline, to_add->c_str()); return CC_REDISPLAY; } unsigned char Editline::TypedCharacter(int ch) { std::string typed = std::string(1, ch); el_insertstr(m_editline, typed.c_str()); const LineInfo *line_info = el_line(m_editline); llvm::StringRef line(line_info->buffer, line_info->lastchar - line_info->buffer); if (llvm::Optional to_add = m_suggestion_callback(line, m_suggestion_callback_baton)) { std::string to_add_color = ANSI_FAINT + to_add.getValue() + ANSI_UNFAINT; fputs(typed.c_str(), m_output_file); fputs(to_add_color.c_str(), m_output_file); size_t new_autosuggestion_size = line.size() + to_add->length(); // Print spaces to hide any remains of a previous longer autosuggestion. if (new_autosuggestion_size < m_previous_autosuggestion_size) { size_t spaces_to_print = m_previous_autosuggestion_size - new_autosuggestion_size; std::string spaces = std::string(spaces_to_print, ' '); fputs(spaces.c_str(), m_output_file); } m_previous_autosuggestion_size = new_autosuggestion_size; int editline_cursor_position = (int)((line_info->cursor - line_info->buffer) + GetPromptWidth()); int editline_cursor_row = editline_cursor_position / m_terminal_width; int toColumn = editline_cursor_position - (editline_cursor_row * m_terminal_width); fprintf(m_output_file, ANSI_SET_COLUMN_N, toColumn); return CC_REFRESH; } return CC_REDISPLAY; } void Editline::ConfigureEditor(bool multiline) { if (m_editline && m_multiline_enabled == multiline) return; m_multiline_enabled = multiline; if (m_editline) { // Disable edit mode to stop the terminal from flushing all input during // the call to el_end() since we expect to have multiple editline instances // in this program. el_set(m_editline, EL_EDITMODE, 0); el_end(m_editline); } m_editline = el_init(m_editor_name.c_str(), m_input_file, m_output_file, m_error_file); ApplyTerminalSizeChange(); if (m_history_sp && m_history_sp->IsValid()) { if (!m_history_sp->Load()) { fputs("Could not load history file\n.", m_output_file); } el_wset(m_editline, EL_HIST, history, m_history_sp->GetHistoryPtr()); } el_set(m_editline, EL_CLIENTDATA, this); el_set(m_editline, EL_SIGNAL, 0); el_set(m_editline, EL_EDITOR, "emacs"); el_set(m_editline, EL_PROMPT, (EditlinePromptCallbackType)([](EditLine *editline) { return Editline::InstanceFor(editline)->Prompt(); })); el_wset(m_editline, EL_GETCFN, (EditlineGetCharCallbackType)([]( EditLine *editline, EditLineGetCharType *c) { return Editline::InstanceFor(editline)->GetCharacter(c); })); // Commands used for multiline support, registered whether or not they're // used el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-break-line"), EditLineConstString("Insert a line break"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->BreakLineCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-end-or-add-line"), EditLineConstString("End editing or continue when incomplete"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->EndOrAddLineCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-delete-next-char"), EditLineConstString("Delete next character"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->DeleteNextCharCommand(ch); })); el_wset( m_editline, EL_ADDFN, EditLineConstString("lldb-delete-previous-char"), EditLineConstString("Delete previous character"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->DeletePreviousCharCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-previous-line"), EditLineConstString("Move to previous line"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->PreviousLineCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-next-line"), EditLineConstString("Move to next line"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->NextLineCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-previous-history"), EditLineConstString("Move to previous history"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->PreviousHistoryCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-next-history"), EditLineConstString("Move to next history"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->NextHistoryCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-buffer-start"), EditLineConstString("Move to start of buffer"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->BufferStartCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-buffer-end"), EditLineConstString("Move to end of buffer"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->BufferEndCommand(ch); })); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-fix-indentation"), EditLineConstString("Fix line indentation"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->FixIndentationCommand(ch); })); // Register the complete callback under two names for compatibility with // older clients using custom .editrc files (largely because libedit has a // bad bug where if you have a bind command that tries to bind to a function // name that doesn't exist, it can corrupt the heap and crash your process // later.) EditlineCommandCallbackType complete_callback = [](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->TabCommand(ch); }; el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-complete"), EditLineConstString("Invoke completion"), complete_callback); el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb_complete"), EditLineConstString("Invoke completion"), complete_callback); // General bindings we don't mind being overridden if (!multiline) { el_set(m_editline, EL_BIND, "^r", "em-inc-search-prev", NULL); // Cycle through backwards search, entering string if (m_suggestion_callback) { el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-apply-complete"), EditLineConstString("Adopt autocompletion"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->ApplyAutosuggestCommand( ch); })); el_set(m_editline, EL_BIND, "^f", "lldb-apply-complete", NULL); // Apply a part that is suggested automatically el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-typed-character"), EditLineConstString("Typed character"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->TypedCharacter(ch); })); char bind_key[2] = {0, 0}; llvm::StringRef ascii_chars = "abcdefghijklmnopqrstuvwxzyABCDEFGHIJKLMNOPQRSTUVWXZY1234567890!\"#$%" "&'()*+,./:;<=>?@[]_`{|}~ "; for (char c : ascii_chars) { bind_key[0] = c; el_set(m_editline, EL_BIND, bind_key, "lldb-typed-character", NULL); } el_set(m_editline, EL_BIND, "\\-", "lldb-typed-character", NULL); el_set(m_editline, EL_BIND, "\\^", "lldb-typed-character", NULL); el_set(m_editline, EL_BIND, "\\\\", "lldb-typed-character", NULL); } } el_set(m_editline, EL_BIND, "^w", "ed-delete-prev-word", NULL); // Delete previous word, behave like bash in emacs mode el_set(m_editline, EL_BIND, "\t", "lldb-complete", NULL); // Bind TAB to auto complete // Allow ctrl-left-arrow and ctrl-right-arrow for navigation, behave like // bash in emacs mode. el_set(m_editline, EL_BIND, ESCAPE "[1;5C", "em-next-word", NULL); el_set(m_editline, EL_BIND, ESCAPE "[1;5D", "ed-prev-word", NULL); el_set(m_editline, EL_BIND, ESCAPE "[5C", "em-next-word", NULL); el_set(m_editline, EL_BIND, ESCAPE "[5D", "ed-prev-word", NULL); el_set(m_editline, EL_BIND, ESCAPE ESCAPE "[C", "em-next-word", NULL); el_set(m_editline, EL_BIND, ESCAPE ESCAPE "[D", "ed-prev-word", NULL); // Allow user-specific customization prior to registering bindings we // absolutely require el_source(m_editline, nullptr); // Register an internal binding that external developers shouldn't use el_wset(m_editline, EL_ADDFN, EditLineConstString("lldb-revert-line"), EditLineConstString("Revert line to saved state"), (EditlineCommandCallbackType)([](EditLine *editline, int ch) { return Editline::InstanceFor(editline)->RevertLineCommand(ch); })); // Register keys that perform auto-indent correction if (m_fix_indentation_callback && m_fix_indentation_callback_chars) { char bind_key[2] = {0, 0}; const char *indent_chars = m_fix_indentation_callback_chars; while (*indent_chars) { bind_key[0] = *indent_chars; el_set(m_editline, EL_BIND, bind_key, "lldb-fix-indentation", NULL); ++indent_chars; } } // Multi-line editor bindings if (multiline) { el_set(m_editline, EL_BIND, "\n", "lldb-end-or-add-line", NULL); el_set(m_editline, EL_BIND, "\r", "lldb-end-or-add-line", NULL); el_set(m_editline, EL_BIND, ESCAPE "\n", "lldb-break-line", NULL); el_set(m_editline, EL_BIND, ESCAPE "\r", "lldb-break-line", NULL); el_set(m_editline, EL_BIND, "^p", "lldb-previous-line", NULL); el_set(m_editline, EL_BIND, "^n", "lldb-next-line", NULL); el_set(m_editline, EL_BIND, "^?", "lldb-delete-previous-char", NULL); el_set(m_editline, EL_BIND, "^d", "lldb-delete-next-char", NULL); el_set(m_editline, EL_BIND, ESCAPE "[3~", "lldb-delete-next-char", NULL); el_set(m_editline, EL_BIND, ESCAPE "[\\^", "lldb-revert-line", NULL); // Editor-specific bindings if (IsEmacs()) { el_set(m_editline, EL_BIND, ESCAPE "<", "lldb-buffer-start", NULL); el_set(m_editline, EL_BIND, ESCAPE ">", "lldb-buffer-end", NULL); el_set(m_editline, EL_BIND, ESCAPE "[A", "lldb-previous-line", NULL); el_set(m_editline, EL_BIND, ESCAPE "[B", "lldb-next-line", NULL); el_set(m_editline, EL_BIND, ESCAPE ESCAPE "[A", "lldb-previous-history", NULL); el_set(m_editline, EL_BIND, ESCAPE ESCAPE "[B", "lldb-next-history", NULL); el_set(m_editline, EL_BIND, ESCAPE "[1;3A", "lldb-previous-history", NULL); el_set(m_editline, EL_BIND, ESCAPE "[1;3B", "lldb-next-history", NULL); } else { el_set(m_editline, EL_BIND, "^H", "lldb-delete-previous-char", NULL); el_set(m_editline, EL_BIND, "-a", ESCAPE "[A", "lldb-previous-line", NULL); el_set(m_editline, EL_BIND, "-a", ESCAPE "[B", "lldb-next-line", NULL); el_set(m_editline, EL_BIND, "-a", "x", "lldb-delete-next-char", NULL); el_set(m_editline, EL_BIND, "-a", "^H", "lldb-delete-previous-char", NULL); el_set(m_editline, EL_BIND, "-a", "^?", "lldb-delete-previous-char", NULL); // Escape is absorbed exiting edit mode, so re-register important // sequences without the prefix el_set(m_editline, EL_BIND, "-a", "[A", "lldb-previous-line", NULL); el_set(m_editline, EL_BIND, "-a", "[B", "lldb-next-line", NULL); el_set(m_editline, EL_BIND, "-a", "[\\^", "lldb-revert-line", NULL); } } } // Editline public methods Editline *Editline::InstanceFor(EditLine *editline) { Editline *editor; el_get(editline, EL_CLIENTDATA, &editor); return editor; } Editline::Editline(const char *editline_name, FILE *input_file, FILE *output_file, FILE *error_file, bool color_prompts) : m_editor_status(EditorStatus::Complete), m_color_prompts(color_prompts), m_input_file(input_file), m_output_file(output_file), m_error_file(error_file), m_input_connection(fileno(input_file), false) { // Get a shared history instance m_editor_name = (editline_name == nullptr) ? "lldb-tmp" : editline_name; m_history_sp = EditlineHistory::GetHistory(m_editor_name); #ifdef USE_SETUPTERM_WORKAROUND if (m_output_file) { const int term_fd = fileno(m_output_file); if (term_fd != -1) { static std::mutex *g_init_terminal_fds_mutex_ptr = nullptr; static std::set *g_init_terminal_fds_ptr = nullptr; static llvm::once_flag g_once_flag; llvm::call_once(g_once_flag, [&]() { g_init_terminal_fds_mutex_ptr = new std::mutex(); // NOTE: Leak to avoid C++ destructor chain issues g_init_terminal_fds_ptr = new std::set(); // NOTE: Leak to avoid // C++ destructor chain // issues }); // We must make sure to initialize the terminal a given file descriptor // only once. If we do this multiple times, we start leaking memory. std::lock_guard guard(*g_init_terminal_fds_mutex_ptr); if (g_init_terminal_fds_ptr->find(term_fd) == g_init_terminal_fds_ptr->end()) { g_init_terminal_fds_ptr->insert(term_fd); setupterm((char *)0, term_fd, (int *)0); } } } #endif } Editline::~Editline() { if (m_editline) { // Disable edit mode to stop the terminal from flushing all input during // the call to el_end() since we expect to have multiple editline instances // in this program. el_set(m_editline, EL_EDITMODE, 0); el_end(m_editline); m_editline = nullptr; } // EditlineHistory objects are sometimes shared between multiple Editline // instances with the same program name. So just release our shared pointer // and if we are the last owner, it will save the history to the history save // file automatically. m_history_sp.reset(); } void Editline::SetPrompt(const char *prompt) { m_set_prompt = prompt == nullptr ? "" : prompt; } void Editline::SetContinuationPrompt(const char *continuation_prompt) { m_set_continuation_prompt = continuation_prompt == nullptr ? "" : continuation_prompt; } void Editline::TerminalSizeChanged() { m_terminal_size_has_changed = 1; } void Editline::ApplyTerminalSizeChange() { if (!m_editline) return; m_terminal_size_has_changed = 0; el_resize(m_editline); int columns; // This function is documenting as taking (const char *, void *) for the // vararg part, but in reality in was consuming arguments until the first // null pointer. This was fixed in libedit in April 2019 // , // but we're keeping the workaround until a version with that fix is more // widely available. if (el_get(m_editline, EL_GETTC, "co", &columns, nullptr) == 0) { m_terminal_width = columns; if (m_current_line_rows != -1) { const LineInfoW *info = el_wline(m_editline); int lineLength = (int)((info->lastchar - info->buffer) + GetPromptWidth()); m_current_line_rows = (lineLength / columns) + 1; } } else { m_terminal_width = INT_MAX; m_current_line_rows = 1; } } const char *Editline::GetPrompt() { return m_set_prompt.c_str(); } uint32_t Editline::GetCurrentLine() { return m_current_line_index; } bool Editline::Interrupt() { bool result = true; std::lock_guard guard(m_output_mutex); if (m_editor_status == EditorStatus::Editing) { fprintf(m_output_file, "^C\n"); result = m_input_connection.InterruptRead(); } m_editor_status = EditorStatus::Interrupted; return result; } bool Editline::Cancel() { bool result = true; std::lock_guard guard(m_output_mutex); if (m_editor_status == EditorStatus::Editing) { MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockStart); fprintf(m_output_file, ANSI_CLEAR_BELOW); result = m_input_connection.InterruptRead(); } m_editor_status = EditorStatus::Interrupted; return result; } void Editline::SetSuggestionCallback(SuggestionCallbackType callback, void *baton) { m_suggestion_callback = callback; m_suggestion_callback_baton = baton; } void Editline::SetAutoCompleteCallback(CompleteCallbackType callback, void *baton) { m_completion_callback = callback; m_completion_callback_baton = baton; } void Editline::SetIsInputCompleteCallback(IsInputCompleteCallbackType callback, void *baton) { m_is_input_complete_callback = callback; m_is_input_complete_callback_baton = baton; } bool Editline::SetFixIndentationCallback(FixIndentationCallbackType callback, void *baton, const char *indent_chars) { m_fix_indentation_callback = callback; m_fix_indentation_callback_baton = baton; m_fix_indentation_callback_chars = indent_chars; return false; } bool Editline::GetLine(std::string &line, bool &interrupted) { ConfigureEditor(false); m_input_lines = std::vector(); m_input_lines.insert(m_input_lines.begin(), EditLineConstString("")); std::lock_guard guard(m_output_mutex); lldbassert(m_editor_status != EditorStatus::Editing); if (m_editor_status == EditorStatus::Interrupted) { m_editor_status = EditorStatus::Complete; interrupted = true; return true; } SetCurrentLine(0); m_in_history = false; m_editor_status = EditorStatus::Editing; m_revert_cursor_index = -1; int count; auto input = el_wgets(m_editline, &count); interrupted = m_editor_status == EditorStatus::Interrupted; if (!interrupted) { if (input == nullptr) { fprintf(m_output_file, "\n"); m_editor_status = EditorStatus::EndOfInput; } else { m_history_sp->Enter(input); #if LLDB_EDITLINE_USE_WCHAR line = m_utf8conv.to_bytes(SplitLines(input)[0]); #else line = SplitLines(input)[0]; #endif m_editor_status = EditorStatus::Complete; } } return m_editor_status != EditorStatus::EndOfInput; } bool Editline::GetLines(int first_line_number, StringList &lines, bool &interrupted) { ConfigureEditor(true); // Print the initial input lines, then move the cursor back up to the start // of input SetBaseLineNumber(first_line_number); m_input_lines = std::vector(); m_input_lines.insert(m_input_lines.begin(), EditLineConstString("")); std::lock_guard guard(m_output_mutex); // Begin the line editing loop DisplayInput(); SetCurrentLine(0); MoveCursor(CursorLocation::BlockEnd, CursorLocation::BlockStart); m_editor_status = EditorStatus::Editing; m_in_history = false; m_revert_cursor_index = -1; while (m_editor_status == EditorStatus::Editing) { int count; m_current_line_rows = -1; el_wpush(m_editline, EditLineConstString( "\x1b[^")); // Revert to the existing line content el_wgets(m_editline, &count); } interrupted = m_editor_status == EditorStatus::Interrupted; if (!interrupted) { // Save the completed entry in history before returning m_history_sp->Enter(CombineLines(m_input_lines).c_str()); lines = GetInputAsStringList(); } return m_editor_status != EditorStatus::EndOfInput; } void Editline::PrintAsync(Stream *stream, const char *s, size_t len) { std::lock_guard guard(m_output_mutex); if (m_editor_status == EditorStatus::Editing) { MoveCursor(CursorLocation::EditingCursor, CursorLocation::BlockStart); fprintf(m_output_file, ANSI_CLEAR_BELOW); } stream->Write(s, len); stream->Flush(); if (m_editor_status == EditorStatus::Editing) { DisplayInput(); MoveCursor(CursorLocation::BlockEnd, CursorLocation::EditingCursor); } } bool Editline::CompleteCharacter(char ch, EditLineGetCharType &out) { #if !LLDB_EDITLINE_USE_WCHAR if (ch == (char)EOF) return false; out = (unsigned char)ch; return true; #else std::codecvt_utf8 cvt; llvm::SmallString<4> input; for (;;) { const char *from_next; wchar_t *to_next; std::mbstate_t state = std::mbstate_t(); input.push_back(ch); switch (cvt.in(state, input.begin(), input.end(), from_next, &out, &out + 1, to_next)) { case std::codecvt_base::ok: return out != (int)WEOF; case std::codecvt_base::error: case std::codecvt_base::noconv: return false; case std::codecvt_base::partial: lldb::ConnectionStatus status; size_t read_count = m_input_connection.Read( &ch, 1, std::chrono::seconds(0), status, nullptr); if (read_count == 0) return false; break; } } #endif }