llvm-6502/tools/llvm-db/Commands.cpp

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//===-- Commands.cpp - Implement various commands for the CLI -------------===//
//
// The LLVM Compiler Infrastructure
//
// This file was developed by the LLVM research group and is distributed under
// the University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements many builtin user commands.
//
//===----------------------------------------------------------------------===//
#include "CLIDebugger.h"
#include "CLICommand.h"
#include "llvm/Debugger/ProgramInfo.h"
#include "llvm/Debugger/RuntimeInfo.h"
#include "llvm/Debugger/SourceLanguage.h"
#include "llvm/Debugger/SourceFile.h"
#include "llvm/Debugger/InferiorProcess.h"
#include "llvm/Support/FileUtilities.h"
#include "llvm/ADT/StringExtras.h"
#include <iostream>
using namespace llvm;
/// getCurrentLanguage - Return the current source language that the user is
/// playing around with. This is aquired from the current stack frame of a
/// running program if one exists, but this value can be explicitly set by the
/// user as well.
const SourceLanguage &CLIDebugger::getCurrentLanguage() const {
// If the user explicitly switched languages with 'set language', use what
// they asked for.
if (CurrentLanguage) {
return *CurrentLanguage;
} else if (Dbg.isProgramRunning()) {
// Otherwise, if the program is running, infer the current language from it.
const GlobalVariable *FuncDesc =
getRuntimeInfo().getCurrentFrame().getFunctionDesc();
return getProgramInfo().getFunction(FuncDesc).getSourceFile().getLanguage();
} else {
// Otherwise, default to C like GDB apparently does.
return SourceLanguage::getCFamilyInstance();
}
}
/// startProgramRunning - If the program has been updated, reload it, then
/// start executing the program.
void CLIDebugger::startProgramRunning() {
eliminateRunInfo();
// If the program has been modified, reload it!
std::string Program = Dbg.getProgramPath();
if (TheProgramInfo->getProgramTimeStamp() != getFileTimestamp(Program)) {
std::cout << "'" << Program << "' has changed; re-reading program.\n";
// Unload an existing program. This kills the program if necessary.
Dbg.unloadProgram();
delete TheProgramInfo;
TheProgramInfo = 0;
CurrentFile = 0;
Dbg.loadProgram(Program);
TheProgramInfo = new ProgramInfo(Dbg.getProgram());
}
std::cout << "Starting program: " << Dbg.getProgramPath() << "\n";
Dbg.createProgram();
// There was no current frame.
LastCurrentFrame = 0;
}
/// printSourceLine - Print the specified line of the current source file.
/// If the specified line is invalid (the source file could not be loaded or
/// the line number is out of range), don't print anything, but return true.
bool CLIDebugger::printSourceLine(unsigned LineNo) {
assert(CurrentFile && "There is no current source file to print!");
const char *LineStart, *LineEnd;
CurrentFile->getSourceLine(LineNo-1, LineStart, LineEnd);
if (LineStart == 0) return true;
std::cout << LineNo;
// If this is the line the program is currently stopped at, print a marker.
if (Dbg.isProgramRunning()) {
unsigned CurLineNo, CurColNo;
const SourceFileInfo *CurSFI;
getRuntimeInfo().getCurrentFrame().getSourceLocation(CurLineNo, CurColNo,
CurSFI);
if (CurLineNo == LineNo && CurrentFile == &CurSFI->getSourceText())
std::cout << " ->";
}
std::cout << "\t" << std::string(LineStart, LineEnd) << "\n";
return false;
}
/// printProgramLocation - Print a line of the place where the current stack
/// frame has stopped and the source line it is on.
///
void CLIDebugger::printProgramLocation(bool PrintLocation) {
assert(Dbg.isProgramLoaded() && Dbg.isProgramRunning() &&
"Error program is not loaded and running!");
// Figure out where the program stopped...
StackFrame &SF = getRuntimeInfo().getCurrentFrame();
unsigned LineNo, ColNo;
const SourceFileInfo *FileDesc;
SF.getSourceLocation(LineNo, ColNo, FileDesc);
// If requested, print out some program information about WHERE we are.
if (PrintLocation) {
// FIXME: print the current function arguments
if (const GlobalVariable *FuncDesc = SF.getFunctionDesc())
std::cout << getProgramInfo().getFunction(FuncDesc).getSymbolicName();
else
std::cout << "<unknown function>";
CurrentFile = &FileDesc->getSourceText();
std::cout << " at " << CurrentFile->getFilename() << ":" << LineNo;
if (ColNo) std::cout << ":" << ColNo << "\n";
}
if (printSourceLine(LineNo))
std::cout << "<could not load source file>\n";
else {
LineListedStart = LineNo-ListSize/2+1;
if ((int)LineListedStart < 1) LineListedStart = 1;
LineListedEnd = LineListedStart+1;
}
}
/// eliminateRunInfo - We are about to run the program. Forget any state
/// about how the program used to be stopped.
void CLIDebugger::eliminateRunInfo() {
delete TheRuntimeInfo;
TheRuntimeInfo = 0;
}
/// programStoppedSuccessfully - This method updates internal data
/// structures to reflect the fact that the program just executed a while,
/// and has successfully stopped.
void CLIDebugger::programStoppedSuccessfully() {
assert(TheRuntimeInfo==0 && "Someone forgot to release the old RuntimeInfo!");
TheRuntimeInfo = new RuntimeInfo(TheProgramInfo, Dbg.getRunningProcess());
// FIXME: if there are any breakpoints at the current location, print them as
// well.
// Since the program as successfully stopped, print its location.
void *CurrentFrame = getRuntimeInfo().getCurrentFrame().getFrameID();
printProgramLocation(CurrentFrame != LastCurrentFrame);
LastCurrentFrame = CurrentFrame;
}
/// getUnsignedIntegerOption - Get an unsigned integer number from the Val
/// string. Check to make sure that the string contains an unsigned integer
/// token, and if not, throw an exception. If isOnlyOption is set, also throw
/// an exception if there is extra junk at the end of the string.
static unsigned getUnsignedIntegerOption(const char *Msg, std::string &Val,
bool isOnlyOption = true) {
std::string Tok = getToken(Val);
if (Tok.empty() || (isOnlyOption && !getToken(Val).empty()))
throw std::string(Msg) + " expects an unsigned integer argument.";
char *EndPtr;
unsigned Result = strtoul(Tok.c_str(), &EndPtr, 0);
if (EndPtr != Tok.c_str()+Tok.size())
throw std::string(Msg) + " expects an unsigned integer argument.";
return Result;
}
/// getOptionalUnsignedIntegerOption - This method is just like
/// getUnsignedIntegerOption, but if the argument value is not specified, a
/// default is returned instead of causing an error.
static unsigned
getOptionalUnsignedIntegerOption(const char *Msg, unsigned Default,
std::string &Val, bool isOnlyOption = true) {
// Check to see if the value was specified...
std::string TokVal = getToken(Val);
if (TokVal.empty()) return Default;
// If it was specified, add it back to the value we are parsing...
Val = TokVal+Val;
// And parse normally.
return getUnsignedIntegerOption(Msg, Val, isOnlyOption);
}
/// parseProgramOptions - This method parses the Options string and loads it
/// as options to be passed to the program. This is used by the run command
/// and by 'set args'.
void CLIDebugger::parseProgramOptions(std::string &Options) {
// FIXME: tokenizing by whitespace is clearly incorrect. Instead we should
// honor quotes and other things that a shell would. Also in the future we
// should support redirection of standard IO.
std::vector<std::string> Arguments;
for (std::string A = getToken(Options); !A.empty(); A = getToken(Options))
Arguments.push_back(A);
Dbg.setProgramArguments(Arguments.begin(), Arguments.end());
}
//===----------------------------------------------------------------------===//
// Program startup and shutdown options
//===----------------------------------------------------------------------===//
/// file command - If the user specifies an option, search the PATH for the
/// specified program/bytecode file and load it. If the user does not specify
/// an option, unload the current program.
void CLIDebugger::fileCommand(std::string &Options) {
std::string Prog = getToken(Options);
if (!getToken(Options).empty())
throw "file command takes at most one argument.";
// Check to make sure the user knows what they are doing
if (Dbg.isProgramRunning() &&
!askYesNo("A program is already loaded. Kill it?"))
return;
// Unload an existing program. This kills the program if necessary.
eliminateRunInfo();
delete TheProgramInfo;
TheProgramInfo = 0;
Dbg.unloadProgram();
CurrentFile = 0;
// If requested, start the new program.
if (Prog.empty()) {
std::cout << "Unloaded program.\n";
} else {
std::cout << "Loading program... " << std::flush;
Dbg.loadProgram(Prog);
assert(Dbg.isProgramLoaded() &&
"loadProgram succeeded, but not program loaded!");
TheProgramInfo = new ProgramInfo(Dbg.getProgram());
std::cout << "successfully loaded '" << Dbg.getProgramPath() << "'!\n";
}
}
void CLIDebugger::createCommand(std::string &Options) {
if (!getToken(Options).empty())
throw "create command does not take any arguments.";
if (!Dbg.isProgramLoaded()) throw "No program loaded.";
if (Dbg.isProgramRunning() &&
!askYesNo("The program is already running. Restart from the beginning?"))
return;
// Start the program running.
startProgramRunning();
// The program stopped!
programStoppedSuccessfully();
}
void CLIDebugger::killCommand(std::string &Options) {
if (!getToken(Options).empty())
throw "kill command does not take any arguments.";
if (!Dbg.isProgramRunning())
throw "No program is currently being run.";
if (askYesNo("Kill the program being debugged?"))
Dbg.killProgram();
eliminateRunInfo();
}
void CLIDebugger::quitCommand(std::string &Options) {
if (!getToken(Options).empty())
throw "quit command does not take any arguments.";
if (Dbg.isProgramRunning() &&
!askYesNo("The program is running. Exit anyway?"))
return;
// Throw exception to get out of the user-input loop.
throw 0;
}
//===----------------------------------------------------------------------===//
// Program execution commands
//===----------------------------------------------------------------------===//
void CLIDebugger::runCommand(std::string &Options) {
if (!Dbg.isProgramLoaded()) throw "No program loaded.";
if (Dbg.isProgramRunning() &&
!askYesNo("The program is already running. Restart from the beginning?"))
return;
// Parse all of the options to the run command, which specify program
// arguments to run with.
parseProgramOptions(Options);
eliminateRunInfo();
// Start the program running.
startProgramRunning();
// Start the program running...
Options = "";
contCommand(Options);
}
void CLIDebugger::contCommand(std::string &Options) {
if (!getToken(Options).empty()) throw "cont argument not supported yet.";
if (!Dbg.isProgramRunning()) throw "Program is not running.";
eliminateRunInfo();
Dbg.contProgram();
// The program stopped!
programStoppedSuccessfully();
}
void CLIDebugger::stepCommand(std::string &Options) {
if (!Dbg.isProgramRunning()) throw "Program is not running.";
// Figure out how many times to step.
unsigned Amount =
getOptionalUnsignedIntegerOption("'step' command", 1, Options);
eliminateRunInfo();
// Step the specified number of times.
for (; Amount; --Amount)
Dbg.stepProgram();
// The program stopped!
programStoppedSuccessfully();
}
void CLIDebugger::nextCommand(std::string &Options) {
if (!Dbg.isProgramRunning()) throw "Program is not running.";
unsigned Amount =
getOptionalUnsignedIntegerOption("'next' command", 1, Options);
eliminateRunInfo();
for (; Amount; --Amount)
Dbg.nextProgram();
// The program stopped!
programStoppedSuccessfully();
}
void CLIDebugger::finishCommand(std::string &Options) {
if (!getToken(Options).empty())
throw "finish command does not take any arguments.";
if (!Dbg.isProgramRunning()) throw "Program is not running.";
// Figure out where we are exactly. If the user requests that we return from
// a frame that is not the top frame, make sure we get it.
void *CurrentFrame = getRuntimeInfo().getCurrentFrame().getFrameID();
eliminateRunInfo();
Dbg.finishProgram(CurrentFrame);
// The program stopped!
programStoppedSuccessfully();
}
//===----------------------------------------------------------------------===//
// Stack frame commands
//===----------------------------------------------------------------------===//
void CLIDebugger::backtraceCommand(std::string &Options) {
// Accepts "full", n, -n
if (!getToken(Options).empty())
throw "FIXME: bt command argument not implemented yet!";
RuntimeInfo &RI = getRuntimeInfo();
ProgramInfo &PI = getProgramInfo();
try {
for (unsigned i = 0; ; ++i) {
StackFrame &SF = RI.getStackFrame(i);
std::cout << "#" << i;
if (i == RI.getCurrentFrameIdx())
std::cout << " ->";
std::cout << "\t" << SF.getFrameID() << " in ";
if (const GlobalVariable *G = SF.getFunctionDesc())
std::cout << PI.getFunction(G).getSymbolicName();
unsigned LineNo, ColNo;
const SourceFileInfo *SFI;
SF.getSourceLocation(LineNo, ColNo, SFI);
if (!SFI->getBaseName().empty()) {
std::cout << " at " << SFI->getBaseName();
if (LineNo) {
std::cout << ":" << LineNo;
if (ColNo)
std::cout << ":" << ColNo;
}
}
// FIXME: when we support shared libraries, we should print ' from foo.so'
// if the stack frame is from a different object than the current one.
std::cout << "\n";
}
} catch (...) {
// Stop automatically when we run off the bottom of the stack.
}
}
void CLIDebugger::upCommand(std::string &Options) {
unsigned Num =
getOptionalUnsignedIntegerOption("'up' command", 1, Options);
RuntimeInfo &RI = getRuntimeInfo();
unsigned CurFrame = RI.getCurrentFrameIdx();
// Check to see if we go can up the specified number of frames.
try {
RI.getStackFrame(CurFrame+Num);
} catch (...) {
if (Num == 1)
throw "Initial frame selected; you cannot go up.";
else
throw "Cannot go up " + utostr(Num) + " frames!";
}
RI.setCurrentFrameIdx(CurFrame+Num);
printProgramLocation();
}
void CLIDebugger::downCommand(std::string &Options) {
unsigned Num =
getOptionalUnsignedIntegerOption("'down' command", 1, Options);
RuntimeInfo &RI = getRuntimeInfo();
unsigned CurFrame = RI.getCurrentFrameIdx();
// Check to see if we can go up the specified number of frames.
if (CurFrame < Num)
if (Num == 1)
throw "Bottom (i.e., innermost) frame selected; you cannot go down.";
else
throw "Cannot go down " + utostr(Num) + " frames!";
RI.setCurrentFrameIdx(CurFrame-Num);
printProgramLocation();
}
void CLIDebugger::frameCommand(std::string &Options) {
RuntimeInfo &RI = getRuntimeInfo();
unsigned CurFrame = RI.getCurrentFrameIdx();
unsigned Num =
getOptionalUnsignedIntegerOption("'frame' command", CurFrame, Options);
// Check to see if we go to the specified frame.
RI.getStackFrame(Num);
RI.setCurrentFrameIdx(Num);
printProgramLocation();
}
//===----------------------------------------------------------------------===//
// Breakpoint related commands
//===----------------------------------------------------------------------===//
void CLIDebugger::breakCommand(std::string &Options) {
// Figure out where the user wants a breakpoint.
const SourceFile *File;
unsigned LineNo;
// Check to see if the user specified a line specifier.
std::string Option = getToken(Options); // strip whitespace
if (!Option.empty()) {
Options = Option + Options; // reconstruct string
// Parse the line specifier.
parseLineSpec(Options, File, LineNo);
} else {
// Build a line specifier for the current stack frame.
throw "FIXME: breaking at the current location is not implemented yet!";
}
if (!File) File = CurrentFile;
if (File == 0)
throw "Unknown file to place breakpoint!";
std::cerr << "Break: " << File->getFilename() << ":" << LineNo << "\n";
throw "breakpoints not implemented yet!";
}
//===----------------------------------------------------------------------===//
// Miscellaneous commands
//===----------------------------------------------------------------------===//
void CLIDebugger::infoCommand(std::string &Options) {
std::string What = getToken(Options);
if (What.empty() || !getToken(Options).empty()){
std::string infoStr("info");
helpCommand(infoStr);
return;
}
if (What == "frame") {
} else if (What == "functions") {
const std::map<const GlobalVariable*, SourceFunctionInfo*> &Functions
= getProgramInfo().getSourceFunctions();
std::cout << "All defined functions:\n";
// FIXME: GDB groups these by source file. We could do that I guess.
for (std::map<const GlobalVariable*, SourceFunctionInfo*>::const_iterator
I = Functions.begin(), E = Functions.end(); I != E; ++I) {
std::cout << I->second->getSymbolicName() << "\n";
}
} else if (What == "source") {
if (CurrentFile == 0)
throw "No current source file.";
// Get the SourceFile information for the current file.
const SourceFileInfo &SF =
getProgramInfo().getSourceFile(CurrentFile->getDescriptor());
std::cout << "Current source file is: " << SF.getBaseName() << "\n"
<< "Compilation directory is: " << SF.getDirectory() << "\n";
if (unsigned NL = CurrentFile->getNumLines())
std::cout << "Located in: " << CurrentFile->getFilename() << "\n"
<< "Contains " << NL << " lines\n";
else
std::cout << "Could not find source file.\n";
std::cout << "Source language is "
<< SF.getLanguage().getSourceLanguageName() << "\n";
} else if (What == "sources") {
const std::map<const GlobalVariable*, SourceFileInfo*> &SourceFiles =
getProgramInfo().getSourceFiles();
std::cout << "Source files for the program:\n";
for (std::map<const GlobalVariable*, SourceFileInfo*>::const_iterator I =
SourceFiles.begin(), E = SourceFiles.end(); I != E;) {
std::cout << I->second->getDirectory() << "/"
<< I->second->getBaseName();
++I;
if (I != E) std::cout << ", ";
}
std::cout << "\n";
} else if (What == "target") {
std::cout << Dbg.getRunningProcess().getStatus();
} else {
// See if this is something handled by the current language.
if (getCurrentLanguage().printInfo(What))
return;
throw "Unknown info command '" + What + "'. Try 'help info'.";
}
}
/// parseLineSpec - Parses a line specifier, for use by the 'list' command.
/// If SourceFile is returned as a void pointer, then it was not specified.
/// If the line specifier is invalid, an exception is thrown.
void CLIDebugger::parseLineSpec(std::string &LineSpec,
const SourceFile *&SourceFile,
unsigned &LineNo) {
SourceFile = 0;
LineNo = 0;
// First, check to see if we have a : separator.
std::string FirstPart = getToken(LineSpec, ":");
std::string SecondPart = getToken(LineSpec, ":");
if (!getToken(LineSpec).empty()) throw "Malformed line specification!";
// If there is no second part, we must have either "function", "number",
// "+offset", or "-offset".
if (SecondPart.empty()) {
if (FirstPart.empty()) throw "Malformed line specification!";
if (FirstPart[0] == '+') {
FirstPart.erase(FirstPart.begin(), FirstPart.begin()+1);
// For +n, return LineListedEnd+n
LineNo = LineListedEnd +
getUnsignedIntegerOption("Line specifier '+'", FirstPart);
} else if (FirstPart[0] == '-') {
FirstPart.erase(FirstPart.begin(), FirstPart.begin()+1);
// For -n, return LineListedEnd-n
LineNo = LineListedEnd -
getUnsignedIntegerOption("Line specifier '-'", FirstPart);
if ((int)LineNo < 1) LineNo = 1;
} else if (FirstPart[0] == '*') {
throw "Address expressions not supported as source locations!";
} else {
// Ok, check to see if this is just a line number.
std::string Saved = FirstPart;
try {
LineNo = getUnsignedIntegerOption("", Saved);
} catch (...) {
// Ok, it's not a valid line number. It must be a source-language
// entity name.
std::string Name = getToken(FirstPart);
if (!getToken(FirstPart).empty())
throw "Extra junk in line specifier after '" + Name + "'.";
SourceFunctionInfo *SFI =
getCurrentLanguage().lookupFunction(Name, getProgramInfo(),
TheRuntimeInfo);
if (SFI == 0)
throw "Unknown identifier '" + Name + "'.";
unsigned L, C;
SFI->getSourceLocation(L, C);
if (L == 0) throw "Could not locate '" + Name + "'!";
LineNo = L;
SourceFile = &SFI->getSourceFile().getSourceText();
return;
}
}
} else {
// Ok, this must be a filename qualified line number or function name.
// First, figure out the source filename.
std::string SourceFilename = getToken(FirstPart);
if (!getToken(FirstPart).empty())
throw "Invalid filename qualified source location!";
// Next, check to see if this is just a line number.
std::string Saved = SecondPart;
try {
LineNo = getUnsignedIntegerOption("", Saved);
} catch (...) {
// Ok, it's not a valid line number. It must be a function name.
throw "FIXME: Filename qualified function names are not support "
"as line specifiers yet!";
}
// Ok, we got the line number. Now check out the source file name to make
// sure it's all good. If it is, return it. If not, throw exception.
SourceFile =&getProgramInfo().getSourceFile(SourceFilename).getSourceText();
}
}
void CLIDebugger::listCommand(std::string &Options) {
if (!Dbg.isProgramLoaded())
throw "No program is loaded. Use the 'file' command.";
// Handle "list foo," correctly, by returning " " as the second token
Options += " ";
std::string FirstLineSpec = getToken(Options, ",");
std::string SecondLineSpec = getToken(Options, ",");
if (!getToken(Options, ",").empty())
throw "list command only expects two source location specifiers!";
// StartLine, EndLine - The starting and ending line numbers to print.
unsigned StartLine = 0, EndLine = 0;
if (SecondLineSpec.empty()) { // No second line specifier provided?
// Handle special forms like "", "+", "-", etc.
std::string TmpSpec = FirstLineSpec;
std::string Tok = getToken(TmpSpec);
if (getToken(TmpSpec).empty() && (Tok == "" || Tok == "+" || Tok == "-")) {
if (Tok == "+" || Tok == "") {
StartLine = LineListedEnd;
EndLine = StartLine + ListSize;
} else {
assert(Tok == "-");
StartLine = LineListedStart-ListSize;
EndLine = LineListedStart;
if ((int)StartLine <= 0) StartLine = 1;
}
} else {
// Must be a normal line specifier.
const SourceFile *File;
unsigned LineNo;
parseLineSpec(FirstLineSpec, File, LineNo);
// If the user only specified one file specifier, we should display
// ListSize lines centered at the specified line.
if (File != 0) CurrentFile = File;
StartLine = LineNo - (ListSize+1)/2;
if ((int)StartLine <= 0) StartLine = 1;
EndLine = StartLine + ListSize;
}
} else {
// Parse two line specifiers...
const SourceFile *StartFile, *EndFile;
unsigned StartLineNo, EndLineNo;
parseLineSpec(FirstLineSpec, StartFile, StartLineNo);
unsigned SavedLLE = LineListedEnd;
LineListedEnd = StartLineNo;
try {
parseLineSpec(SecondLineSpec, EndFile, EndLineNo);
} catch (...) {
LineListedEnd = SavedLLE;
throw;
}
// Inherit file specified by the first line spec if there was one.
if (EndFile == 0) EndFile = StartFile;
if (StartFile != EndFile)
throw "Start and end line specifiers are in different files!";
CurrentFile = StartFile;
StartLine = StartLineNo;
EndLine = EndLineNo+1;
}
assert((int)StartLine > 0 && (int)EndLine > 0 && StartLine <= EndLine &&
"Error reading line specifiers!");
// If there was no current file, and the user didn't specify one to list, we
// have an error.
if (CurrentFile == 0)
throw "There is no current file to list.";
// Remember for next time.
LineListedStart = StartLine;
LineListedEnd = StartLine;
for (unsigned LineNo = StartLine; LineNo != EndLine; ++LineNo) {
// Print the source line, unless it is invalid.
if (printSourceLine(LineNo))
break;
LineListedEnd = LineNo+1;
}
// If we didn't print any lines, find out why.
if (LineListedEnd == StartLine) {
// See if we can read line #0 from the file, if not, we couldn't load the
// file.
const char *LineStart, *LineEnd;
CurrentFile->getSourceLine(0, LineStart, LineEnd);
if (LineStart == 0)
throw "Could not load source file '" + CurrentFile->getFilename() + "'!";
else
std::cout << "<end of file>\n";
}
}
void CLIDebugger::setCommand(std::string &Options) {
std::string What = getToken(Options);
if (What.empty())
throw "set command expects at least two arguments.";
if (What == "args") {
parseProgramOptions(Options);
} else if (What == "language") {
std::string Lang = getToken(Options);
if (!getToken(Options).empty())
throw "set language expects one argument at most.";
if (Lang == "") {
std::cout << "The currently understood settings are:\n\n"
<< "local or auto Automatic setting based on source file\n"
<< "c Use the C language\n"
<< "c++ Use the C++ language\n"
<< "unknown Use when source language is not supported\n";
} else if (Lang == "local" || Lang == "auto") {
CurrentLanguage = 0;
} else if (Lang == "c") {
CurrentLanguage = &SourceLanguage::getCFamilyInstance();
} else if (Lang == "c++") {
CurrentLanguage = &SourceLanguage::getCPlusPlusInstance();
} else if (Lang == "unknown") {
CurrentLanguage = &SourceLanguage::getUnknownLanguageInstance();
} else {
throw "Unknown language '" + Lang + "'.";
}
} else if (What == "listsize") {
ListSize = getUnsignedIntegerOption("'set prompt' command", Options);
} else if (What == "prompt") {
// Include any trailing whitespace or other tokens, but not leading
// whitespace.
Prompt = getToken(Options); // Strip leading whitespace
Prompt += Options; // Keep trailing whitespace or other stuff
} else {
// FIXME: Try to parse this as a source-language program expression.
throw "Don't know how to set '" + What + "'!";
}
}
void CLIDebugger::showCommand(std::string &Options) {
std::string What = getToken(Options);
if (What.empty() || !getToken(Options).empty())
throw "show command expects one argument.";
if (What == "args") {
std::cout << "Argument list to give program when started is \"";
// FIXME: This doesn't print stuff correctly if the arguments have spaces in
// them, but currently the only way to get that is to use the --args command
// line argument. This should really handle escaping all hard characters as
// needed.
for (unsigned i = 0, e = Dbg.getNumProgramArguments(); i != e; ++i)
std::cout << (i ? " " : "") << Dbg.getProgramArgument(i);
std::cout << "\"\n";
} else if (What == "language") {
std::cout << "The current source language is '";
if (CurrentLanguage)
std::cout << CurrentLanguage->getSourceLanguageName();
else
std::cout << "auto; currently "
<< getCurrentLanguage().getSourceLanguageName();
std::cout << "'.\n";
} else if (What == "listsize") {
std::cout << "Number of source lines llvm-db will list by default is "
<< ListSize << ".\n";
} else if (What == "prompt") {
std::cout << "llvm-db's prompt is \"" << Prompt << "\".\n";
} else {
throw "Unknown show command '" + What + "'. Try 'help show'.";
}
}
void CLIDebugger::helpCommand(std::string &Options) {
// Print out all of the commands in the CommandTable
std::string Command = getToken(Options);
if (!getToken(Options).empty())
throw "help command takes at most one argument.";
// Getting detailed help on a particular command?
if (!Command.empty()) {
CLICommand *C = getCommand(Command);
std::cout << C->getShortHelp() << ".\n" << C->getLongHelp();
// If there are aliases for this option, print them out.
const std::vector<std::string> &Names = C->getOptionNames();
if (Names.size() > 1) {
std::cout << "The '" << Command << "' command is known as: '"
<< Names[0] << "'";
for (unsigned i = 1, e = Names.size(); i != e; ++i)
std::cout << ", '" << Names[i] << "'";
std::cout << "\n";
}
} else {
unsigned MaxSize = 0;
for (std::map<std::string, CLICommand*>::iterator I = CommandTable.begin(),
E = CommandTable.end(); I != E; ++I)
if (I->first.size() > MaxSize &&
I->first == I->second->getPrimaryOptionName())
MaxSize = I->first.size();
// Loop over all of the commands, printing the short help version
for (std::map<std::string, CLICommand*>::iterator I = CommandTable.begin(),
E = CommandTable.end(); I != E; ++I)
if (I->first == I->second->getPrimaryOptionName())
std::cout << I->first << std::string(MaxSize - I->first.size(), ' ')
<< " - " << I->second->getShortHelp() << "\n";
}
}