//===-- LineEditor.cpp - line editor --------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/LineEditor/LineEditor.h" #include "llvm/ADT/SmallString.h" #include "llvm/Config/config.h" #include "llvm/Support/Path.h" #include "llvm/Support/raw_ostream.h" #include <stdio.h> #ifdef HAVE_LIBEDIT #include <histedit.h> #endif using namespace llvm; std::string LineEditor::getDefaultHistoryPath(StringRef ProgName) { SmallString<32> Path; if (sys::path::home_directory(Path)) { sys::path::append(Path, "." + ProgName + "-history"); return Path.str(); } return std::string(); } LineEditor::CompleterConcept::~CompleterConcept() {} LineEditor::ListCompleterConcept::~ListCompleterConcept() {} std::string LineEditor::ListCompleterConcept::getCommonPrefix( const std::vector<Completion> &Comps) { assert(!Comps.empty()); std::string CommonPrefix = Comps[0].TypedText; for (std::vector<Completion>::const_iterator I = Comps.begin() + 1, E = Comps.end(); I != E; ++I) { size_t Len = std::min(CommonPrefix.size(), I->TypedText.size()); size_t CommonLen = 0; for (; CommonLen != Len; ++CommonLen) { if (CommonPrefix[CommonLen] != I->TypedText[CommonLen]) break; } CommonPrefix.resize(CommonLen); } return CommonPrefix; } LineEditor::CompletionAction LineEditor::ListCompleterConcept::complete(StringRef Buffer, size_t Pos) const { CompletionAction Action; std::vector<Completion> Comps = getCompletions(Buffer, Pos); if (Comps.empty()) { Action.Kind = CompletionAction::AK_ShowCompletions; return Action; } std::string CommonPrefix = getCommonPrefix(Comps); // If the common prefix is non-empty we can simply insert it. If there is a // single completion, this will insert the full completion. If there is more // than one, this might be enough information to jog the user's memory but if // not the user can also hit tab again to see the completions because the // common prefix will then be empty. if (CommonPrefix.empty()) { Action.Kind = CompletionAction::AK_ShowCompletions; for (std::vector<Completion>::iterator I = Comps.begin(), E = Comps.end(); I != E; ++I) Action.Completions.push_back(I->DisplayText); } else { Action.Kind = CompletionAction::AK_Insert; Action.Text = CommonPrefix; } return Action; } LineEditor::CompletionAction LineEditor::getCompletionAction(StringRef Buffer, size_t Pos) const { if (!Completer) { CompletionAction Action; Action.Kind = CompletionAction::AK_ShowCompletions; return Action; } return Completer->complete(Buffer, Pos); } #ifdef HAVE_LIBEDIT // libedit-based implementation. struct LineEditor::InternalData { LineEditor *LE; History *Hist; EditLine *EL; unsigned PrevCount; std::string ContinuationOutput; FILE *Out; }; static const char *ElGetPromptFn(EditLine *EL) { LineEditor::InternalData *Data; if (el_get(EL, EL_CLIENTDATA, &Data) == 0) return Data->LE->getPrompt().c_str(); return "> "; } // Handles tab completion. // // This function is really horrible. But since the alternative is to get into // the line editor business, here we are. static unsigned char ElCompletionFn(EditLine *EL, int ch) { LineEditor::InternalData *Data; if (el_get(EL, EL_CLIENTDATA, &Data) == 0) { if (!Data->ContinuationOutput.empty()) { // This is the continuation of the AK_ShowCompletions branch below. FILE *Out = Data->Out; // Print the required output (see below). ::fwrite(Data->ContinuationOutput.c_str(), Data->ContinuationOutput.size(), 1, Out); // Push a sequence of Ctrl-B characters to move the cursor back to its // original position. std::string Prevs(Data->PrevCount, '\02'); ::el_push(EL, const_cast<char *>(Prevs.c_str())); Data->ContinuationOutput.clear(); return CC_REFRESH; } const LineInfo *LI = ::el_line(EL); LineEditor::CompletionAction Action = Data->LE->getCompletionAction( StringRef(LI->buffer, LI->lastchar - LI->buffer), LI->cursor - LI->buffer); switch (Action.Kind) { case LineEditor::CompletionAction::AK_Insert: ::el_insertstr(EL, Action.Text.c_str()); return CC_REFRESH; case LineEditor::CompletionAction::AK_ShowCompletions: if (Action.Completions.empty()) { return CC_REFRESH_BEEP; } else { // Push a Ctrl-E and a tab. The Ctrl-E causes libedit to move the cursor // to the end of the line, so that when we emit a newline we will be on // a new blank line. The tab causes libedit to call this function again // after moving the cursor. There doesn't seem to be anything we can do // from here to cause libedit to move the cursor immediately. This will // break horribly if the user has rebound their keys, so for now we do // not permit user rebinding. ::el_push(EL, const_cast<char *>("\05\t")); // This assembles the output for the continuation block above. raw_string_ostream OS(Data->ContinuationOutput); // Move cursor to a blank line. OS << "\n"; // Emit the completions. for (std::vector<std::string>::iterator I = Action.Completions.begin(), E = Action.Completions.end(); I != E; ++I) { OS << *I << "\n"; } // Fool libedit into thinking nothing has changed. Reprint its prompt // and the user input. Note that the cursor will remain at the end of // the line after this. OS << Data->LE->getPrompt() << StringRef(LI->buffer, LI->lastchar - LI->buffer); // This is the number of characters we need to tell libedit to go back: // the distance between end of line and the original cursor position. Data->PrevCount = LI->lastchar - LI->cursor; return CC_REFRESH; } } } return CC_ERROR; } LineEditor::LineEditor(StringRef ProgName, StringRef HistoryPath, FILE *In, FILE *Out, FILE *Err) : Prompt((ProgName + "> ").str()), HistoryPath(HistoryPath), Data(new InternalData) { if (HistoryPath.empty()) this->HistoryPath = getDefaultHistoryPath(ProgName); Data->LE = this; Data->Out = Out; Data->Hist = ::history_init(); assert(Data->Hist); Data->EL = ::el_init(ProgName.str().c_str(), In, Out, Err); assert(Data->EL); ::el_set(Data->EL, EL_PROMPT, ElGetPromptFn); ::el_set(Data->EL, EL_EDITOR, "emacs"); ::el_set(Data->EL, EL_HIST, history, Data->Hist); ::el_set(Data->EL, EL_ADDFN, "tab_complete", "Tab completion function", ElCompletionFn); ::el_set(Data->EL, EL_BIND, "\t", "tab_complete", NULL); ::el_set(Data->EL, EL_BIND, "^r", "em-inc-search-prev", NULL); // Cycle through backwards search, entering string ::el_set(Data->EL, EL_BIND, "^w", "ed-delete-prev-word", NULL); // Delete previous word, behave like bash does. ::el_set(Data->EL, EL_BIND, "\033[3~", "ed-delete-next-char", NULL); // Fix the delete key. ::el_set(Data->EL, EL_CLIENTDATA, Data.get()); HistEvent HE; ::history(Data->Hist, &HE, H_SETSIZE, 800); ::history(Data->Hist, &HE, H_SETUNIQUE, 1); loadHistory(); } LineEditor::~LineEditor() { saveHistory(); ::history_end(Data->Hist); ::el_end(Data->EL); ::fwrite("\n", 1, 1, Data->Out); } void LineEditor::saveHistory() { if (!HistoryPath.empty()) { HistEvent HE; ::history(Data->Hist, &HE, H_SAVE, HistoryPath.c_str()); } } void LineEditor::loadHistory() { if (!HistoryPath.empty()) { HistEvent HE; ::history(Data->Hist, &HE, H_LOAD, HistoryPath.c_str()); } } Optional<std::string> LineEditor::readLine() const { // Call el_gets to prompt the user and read the user's input. int LineLen = 0; const char *Line = ::el_gets(Data->EL, &LineLen); // Either of these may mean end-of-file. if (!Line || LineLen == 0) return Optional<std::string>(); // Strip any newlines off the end of the string. while (LineLen > 0 && (Line[LineLen - 1] == '\n' || Line[LineLen - 1] == '\r')) --LineLen; HistEvent HE; if (LineLen > 0) ::history(Data->Hist, &HE, H_ENTER, Line); return std::string(Line, LineLen); } #else // Simple fgets-based implementation. struct LineEditor::InternalData { FILE *In; FILE *Out; }; LineEditor::LineEditor(StringRef ProgName, StringRef HistoryPath, FILE *In, FILE *Out, FILE *Err) : Prompt((ProgName + "> ").str()), Data(new InternalData) { Data->In = In; Data->Out = Out; } LineEditor::~LineEditor() { ::fwrite("\n", 1, 1, Data->Out); } void LineEditor::saveHistory() {} void LineEditor::loadHistory() {} Optional<std::string> LineEditor::readLine() const { ::fprintf(Data->Out, "%s", Prompt.c_str()); std::string Line; do { char Buf[64]; char *Res = ::fgets(Buf, sizeof(Buf), Data->In); if (!Res) { if (Line.empty()) return Optional<std::string>(); else return Line; } Line.append(Buf); } while (Line.empty() || (Line[Line.size() - 1] != '\n' && Line[Line.size() - 1] != '\r')); while (!Line.empty() && (Line[Line.size() - 1] == '\n' || Line[Line.size() - 1] == '\r')) Line.resize(Line.size() - 1); return Line; } #endif