tools/llvm-db/CLIDebugger.cpp - llvm - Git at Google

 //===-- CLIDebugger.cpp - Command Line Interface to the Debugger ----------===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file contains the main implementation of the Command Line Interface to
 // the debugger.
 //
 //===----------------------------------------------------------------------===//

 #include "CLIDebugger.h"
 #include "CLICommand.h"
 #include "llvm/Debugger/SourceFile.h"
 #include "llvm/ADT/StringExtras.h"
 #include <iostream>
 using namespace llvm;

 /// CLIDebugger constructor - This initializes the debugger to its default
 /// state, and initializes the command table.
 ///
 CLIDebugger::CLIDebugger(LLVMContext& ctxt)
   : Context(ctxt), TheProgramInfo(0), TheRuntimeInfo(0),
     Prompt("(llvm-db) "), ListSize(10) {
   // Initialize instance variables
   CurrentFile = 0;
   LineListedStart = 1;
   LineListedEnd = 1;
   LastCurrentFrame = 0;
   CurrentLanguage = 0;

   CLICommand *C;
   //===--------------------------------------------------------------------===//
   // Program startup and shutdown options
   //
   addCommand("file", new BuiltinCLICommand(
     "Use specified file as the program to be debugged",
     "The debugger looks in the current directory and the program $PATH for the"
     " specified LLVM program.  It then unloads the currently loaded program and"
     " loads the specified program.\n",
     &CLIDebugger::fileCommand));

   addCommand("create", new BuiltinCLICommand(
     "Start the program, halting its execution in main",
     "This command creates an instance of the current program, but stops"
     "\nexecution immediately.\n",
     &CLIDebugger::createCommand));

   addCommand("kill", new BuiltinCLICommand(
     "Kills the execution of the current program being debugged", "",
     &CLIDebugger::killCommand));

   addCommand("quit", new BuiltinCLICommand(
     "Exit the debugger", "",
     &CLIDebugger::quitCommand));

   //===--------------------------------------------------------------------===//
   // Program execution commands
   //
   addCommand("run", C = new BuiltinCLICommand(
     "Start the program running from the beginning", "",
     &CLIDebugger::runCommand));
   addCommand("r", C);

   addCommand("cont", C = new BuiltinCLICommand(
     "Continue program being debugged until the next stop point", "",
     &CLIDebugger::contCommand));
   addCommand("c", C); addCommand("fg", C);

   addCommand("step", C = new BuiltinCLICommand(
     "Step program until it reaches a new source line", "",
     &CLIDebugger::stepCommand));
   addCommand("s", C);

   addCommand("next", C = new BuiltinCLICommand(
     "Step program until it reaches a new source line, stepping over calls", "",
     &CLIDebugger::nextCommand));
   addCommand("n", C);

   addCommand("finish", new BuiltinCLICommand(
     "Execute until the selected stack frame returns",
    "Upon return, the value returned is printed and put in the value history.\n",
     &CLIDebugger::finishCommand));

   //===--------------------------------------------------------------------===//
   // Stack frame commands
   //
   addCommand("backtrace", C = new BuiltinCLICommand(
    "Print backtrace of all stack frames, or innermost COUNT frames",
    "FIXME: describe.  Takes 'n', '-n' or 'full'\n",
     &CLIDebugger::backtraceCommand));
   addCommand("bt", C);

   addCommand("up", new BuiltinCLICommand(
     "Select and print stack frame that called this one",
     "An argument says how many frames up to go.\n",
     &CLIDebugger::upCommand));

   addCommand("down", new BuiltinCLICommand(
     "Select and print stack frame called by this one",
     "An argument says how many frames down go.\n",
     &CLIDebugger::downCommand));

   addCommand("frame", C = new BuiltinCLICommand(
     "Select and print a stack frame",
  "With no argument, print the selected stack frame.  (See also 'info frame').\n"
  "An argument specifies the frame to select.\n",
     &CLIDebugger::frameCommand));
   addCommand("f", C);

   //===--------------------------------------------------------------------===//
   // Breakpoint related commands
   //
   addCommand("break", C = new BuiltinCLICommand(
    "Set breakpoint at specified line or function",
    "FIXME: describe.\n",
     &CLIDebugger::breakCommand));
   addCommand("b", C);


   //===--------------------------------------------------------------------===//
   // Miscellaneous commands
   //
   addCommand("info", new BuiltinCLICommand(
     "Generic command for showing things about the program being debugged",
     "info functions: display information about functions in the program.\ninfo"
     " source : display information about the current source file.\ninfo source"
     "s : Display source file names for the program\ninfo target : print status"
     " of inferior process\n",
     &CLIDebugger::infoCommand));

   addCommand("list", C = new BuiltinCLICommand(
     "List specified function or line",
     "FIXME: document\n",
     &CLIDebugger::listCommand));
   addCommand("l", C);

   addCommand("set", new BuiltinCLICommand(
     "Change program or debugger variable",
     "FIXME: document\n",
     &CLIDebugger::setCommand));

   addCommand("show", new BuiltinCLICommand(
     "Generic command for showing things about the debugger",
     "FIXME: document\n",
     &CLIDebugger::showCommand));

   addCommand("help", C = new BuiltinCLICommand(
     "Prints information about available commands", "",
     &CLIDebugger::helpCommand));
   addCommand("h", C);
 }


 /// addCommand - Add a command to the CommandTable, potentially displacing a
 /// preexisting command.
 void CLIDebugger::addCommand(const std::string &Option, CLICommand *Cmd) {
   assert(Cmd && "Cannot set a null command!");
   CLICommand *&CS = CommandTable[Option];
   if (CS == Cmd) return; // noop

   // If we already have a command, decrement the command's reference count.
   if (CS) {
     CS->removeOptionName(Option);
     CS->dropRef();
   }
   CS = Cmd;

   // Remember that we are using this command.
   Cmd->addRef();
   Cmd->addOptionName(Option);
 }

 static bool isValidPrefix(const std::string &Prefix, const std::string &Option){
   return Prefix.size() <= Option.size() &&
          Prefix == std::string(Option.begin(), Option.begin()+Prefix.size());
 }

 /// getCommand - This looks up the specified command using a fuzzy match.
 /// If the string exactly matches a command or is an unambiguous prefix of a
 /// command, it returns the command.  Otherwise it throws an exception
 /// indicating the possible ambiguous choices.
 CLICommand *CLIDebugger::getCommand(const std::string &Command) {

   // Look up the command in the table.
   std::map<std::string, CLICommand*>::iterator CI =
     CommandTable.lower_bound(Command);

   if (Command == "") {
     throw "Null command should not get here!";
   } else if (CI == CommandTable.end() ||
              !isValidPrefix(Command, CI->first)) {
     // If this command has no relation to anything in the command table,
     // print the error message.
     throw "Unknown command: '" + Command +
           "'.  Use 'help' for list of commands.";
   } else if (CI->first == Command) {
     // We have an exact match on the command
     return CI->second;
   } else {
     // Otherwise, we have a prefix match.  Check to see if this is
     // unambiguous, and if so, run it.
     std::map<std::string, CLICommand*>::iterator CI2 = CI;

     // If the next command is a valid completion of this one, we are
     // ambiguous.
     if (++CI2 != CommandTable.end() && isValidPrefix(Command, CI2->first)) {
       std::string ErrorMsg =
         "Ambiguous command '" + Command + "'.  Options: " + CI->first;
       for (++CI; CI != CommandTable.end() &&
              isValidPrefix(Command, CI->first); ++CI)
         ErrorMsg += ", " + CI->first;
       throw ErrorMsg;
     } else {
       // It's an unambiguous prefix of a command, use it.
       return CI->second;
     }
   }
 }


 /// run - Start the debugger, returning when the user exits the debugger.  This
 /// starts the main event loop of the CLI debugger.
 ///
 int CLIDebugger::run() {
   std::string Command;
   std::cout << Prompt;

   // Keep track of the last command issued, so that we can reissue it if the
   // user hits enter as the command.
   CLICommand *LastCommand = 0;
   std::string LastArgs;

   // Continue reading commands until the end of file.
   while (getline(std::cin, Command)) {
     std::string Arguments = Command;

     // Split off the command from the arguments to the command.
     Command = getToken(Arguments, " \t\n\v\f\r\\/;.*&");

     try {
       CLICommand *CurCommand;

       if (Command == "") {
         CurCommand = LastCommand;
         Arguments = LastArgs;
       } else {
         CurCommand = getCommand(Command);
       }

       // Save the command we are running in case the user wants us to repeat it
       // next time.
       LastCommand = CurCommand;
       LastArgs = Arguments;

       // Finally, execute the command.
       if (CurCommand)
         CurCommand->runCommand(*this, Arguments);

     } catch (int RetVal) {
       // The quit command exits the command loop by throwing an integer return
       // code.
       return RetVal;
     } catch (const std::string &Error) {
       std::cout << "Error: " << Error << "\n";
     } catch (const char *Error) {
       std::cout << "Error: " << Error << "\n";
     } catch (const NonErrorException &E) {
       std::cout << E.getMessage() << "\n";
     } catch (...) {
       std::cout << "ERROR: Debugger caught unexpected exception!\n";
       // Attempt to continue.
     }

     // Write the prompt to get the next bit of user input
     std::cout << Prompt;
   }

   return 0;
 }


 /// askYesNo - Ask the user a question, and demand a yes/no response.  If
 /// the user says yes, return true.
 ///
 bool CLIDebugger::askYesNo(const std::string &Message) const {
   std::string Answer;
   std::cout << Message << " (y or n) " << std::flush;
   while (getline(std::cin, Answer)) {
     std::string Val = getToken(Answer);
     if (getToken(Answer).empty()) {
       if (Val == "yes" || Val == "y" || Val == "YES" || Val == "Y" ||
           Val == "Yes")
         return true;
       if (Val == "no" || Val == "n" || Val == "NO" || Val == "N" ||
           Val == "No")
         return false;
     }

     std::cout << "Please answer y or n.\n" << Message << " (y or n) "
               << std::flush;
   }

   // Ran out of input?
   return false;
 }
	//===-- CLIDebugger.cpp - Command Line Interface to the Debugger ----------===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file contains the main implementation of the Command Line Interface to
	// the debugger.
	//
	//===----------------------------------------------------------------------===//

	#include "CLIDebugger.h"
	#include "CLICommand.h"
	#include "llvm/Debugger/SourceFile.h"
	#include "llvm/ADT/StringExtras.h"
	#include <iostream>
	using namespace llvm;

	/// CLIDebugger constructor - This initializes the debugger to its default
	/// state, and initializes the command table.
	///
	CLIDebugger::CLIDebugger(LLVMContext& ctxt)
	: Context(ctxt), TheProgramInfo(0), TheRuntimeInfo(0),
	Prompt("(llvm-db) "), ListSize(10) {
	// Initialize instance variables
	CurrentFile = 0;
	LineListedStart = 1;
	LineListedEnd = 1;
	LastCurrentFrame = 0;
	CurrentLanguage = 0;

	CLICommand *C;
	//===--------------------------------------------------------------------===//
	// Program startup and shutdown options
	//
	addCommand("file", new BuiltinCLICommand(
	"Use specified file as the program to be debugged",
	"The debugger looks in the current directory and the program $PATH for the"
	" specified LLVM program. It then unloads the currently loaded program and"
	" loads the specified program.\n",
	&CLIDebugger::fileCommand));

	addCommand("create", new BuiltinCLICommand(
	"Start the program, halting its execution in main",
	"This command creates an instance of the current program, but stops"
	"\nexecution immediately.\n",
	&CLIDebugger::createCommand));

	addCommand("kill", new BuiltinCLICommand(
	"Kills the execution of the current program being debugged", "",
	&CLIDebugger::killCommand));

	addCommand("quit", new BuiltinCLICommand(
	"Exit the debugger", "",
	&CLIDebugger::quitCommand));

	//===--------------------------------------------------------------------===//
	// Program execution commands
	//
	addCommand("run", C = new BuiltinCLICommand(
	"Start the program running from the beginning", "",
	&CLIDebugger::runCommand));
	addCommand("r", C);

	addCommand("cont", C = new BuiltinCLICommand(
	"Continue program being debugged until the next stop point", "",
	&CLIDebugger::contCommand));
	addCommand("c", C); addCommand("fg", C);

	addCommand("step", C = new BuiltinCLICommand(
	"Step program until it reaches a new source line", "",
	&CLIDebugger::stepCommand));
	addCommand("s", C);

	addCommand("next", C = new BuiltinCLICommand(
	"Step program until it reaches a new source line, stepping over calls", "",
	&CLIDebugger::nextCommand));
	addCommand("n", C);

	addCommand("finish", new BuiltinCLICommand(
	"Execute until the selected stack frame returns",
	"Upon return, the value returned is printed and put in the value history.\n",
	&CLIDebugger::finishCommand));

	//===--------------------------------------------------------------------===//
	// Stack frame commands
	//
	addCommand("backtrace", C = new BuiltinCLICommand(
	"Print backtrace of all stack frames, or innermost COUNT frames",
	"FIXME: describe. Takes 'n', '-n' or 'full'\n",
	&CLIDebugger::backtraceCommand));
	addCommand("bt", C);

	addCommand("up", new BuiltinCLICommand(
	"Select and print stack frame that called this one",
	"An argument says how many frames up to go.\n",
	&CLIDebugger::upCommand));

	addCommand("down", new BuiltinCLICommand(
	"Select and print stack frame called by this one",
	"An argument says how many frames down go.\n",
	&CLIDebugger::downCommand));

	addCommand("frame", C = new BuiltinCLICommand(
	"Select and print a stack frame",
	"With no argument, print the selected stack frame. (See also 'info frame').\n"
	"An argument specifies the frame to select.\n",
	&CLIDebugger::frameCommand));
	addCommand("f", C);

	//===--------------------------------------------------------------------===//
	// Breakpoint related commands
	//
	addCommand("break", C = new BuiltinCLICommand(
	"Set breakpoint at specified line or function",
	"FIXME: describe.\n",
	&CLIDebugger::breakCommand));
	addCommand("b", C);


	//===--------------------------------------------------------------------===//
	// Miscellaneous commands
	//
	addCommand("info", new BuiltinCLICommand(
	"Generic command for showing things about the program being debugged",
	"info functions: display information about functions in the program.\ninfo"
	" source : display information about the current source file.\ninfo source"
	"s : Display source file names for the program\ninfo target : print status"
	" of inferior process\n",
	&CLIDebugger::infoCommand));

	addCommand("list", C = new BuiltinCLICommand(
	"List specified function or line",
	"FIXME: document\n",
	&CLIDebugger::listCommand));
	addCommand("l", C);

	addCommand("set", new BuiltinCLICommand(
	"Change program or debugger variable",
	"FIXME: document\n",
	&CLIDebugger::setCommand));

	addCommand("show", new BuiltinCLICommand(
	"Generic command for showing things about the debugger",
	"FIXME: document\n",
	&CLIDebugger::showCommand));

	addCommand("help", C = new BuiltinCLICommand(
	"Prints information about available commands", "",
	&CLIDebugger::helpCommand));
	addCommand("h", C);
	}


	/// addCommand - Add a command to the CommandTable, potentially displacing a
	/// preexisting command.
	void CLIDebugger::addCommand(const std::string &Option, CLICommand *Cmd) {
	assert(Cmd && "Cannot set a null command!");
	CLICommand *&CS = CommandTable[Option];
	if (CS == Cmd) return; // noop

	// If we already have a command, decrement the command's reference count.
	if (CS) {
	CS->removeOptionName(Option);
	CS->dropRef();
	}
	CS = Cmd;

	// Remember that we are using this command.
	Cmd->addRef();
	Cmd->addOptionName(Option);
	}

	static bool isValidPrefix(const std::string &Prefix, const std::string &Option){
	return Prefix.size() <= Option.size() &&
	Prefix == std::string(Option.begin(), Option.begin()+Prefix.size());
	}

	/// getCommand - This looks up the specified command using a fuzzy match.
	/// If the string exactly matches a command or is an unambiguous prefix of a
	/// command, it returns the command. Otherwise it throws an exception
	/// indicating the possible ambiguous choices.
	CLICommand *CLIDebugger::getCommand(const std::string &Command) {

	// Look up the command in the table.
	std::map<std::string, CLICommand*>::iterator CI =
	CommandTable.lower_bound(Command);

	if (Command == "") {
	throw "Null command should not get here!";
	} else if (CI == CommandTable.end() \|\|
	!isValidPrefix(Command, CI->first)) {
	// If this command has no relation to anything in the command table,
	// print the error message.
	throw "Unknown command: '" + Command +
	"'. Use 'help' for list of commands.";
	} else if (CI->first == Command) {
	// We have an exact match on the command
	return CI->second;
	} else {
	// Otherwise, we have a prefix match. Check to see if this is
	// unambiguous, and if so, run it.
	std::map<std::string, CLICommand*>::iterator CI2 = CI;

	// If the next command is a valid completion of this one, we are
	// ambiguous.
	if (++CI2 != CommandTable.end() && isValidPrefix(Command, CI2->first)) {
	std::string ErrorMsg =
	"Ambiguous command '" + Command + "'. Options: " + CI->first;
	for (++CI; CI != CommandTable.end() &&
	isValidPrefix(Command, CI->first); ++CI)
	ErrorMsg += ", " + CI->first;
	throw ErrorMsg;
	} else {
	// It's an unambiguous prefix of a command, use it.
	return CI->second;
	}
	}
	}


	/// run - Start the debugger, returning when the user exits the debugger. This
	/// starts the main event loop of the CLI debugger.
	///
	int CLIDebugger::run() {
	std::string Command;
	std::cout << Prompt;

	// Keep track of the last command issued, so that we can reissue it if the
	// user hits enter as the command.
	CLICommand *LastCommand = 0;
	std::string LastArgs;

	// Continue reading commands until the end of file.
	while (getline(std::cin, Command)) {
	std::string Arguments = Command;

	// Split off the command from the arguments to the command.
	Command = getToken(Arguments, " \t\n\v\f\r\\/;.*&");

	try {
	CLICommand *CurCommand;

	if (Command == "") {
	CurCommand = LastCommand;
	Arguments = LastArgs;
	} else {
	CurCommand = getCommand(Command);
	}

	// Save the command we are running in case the user wants us to repeat it
	// next time.
	LastCommand = CurCommand;
	LastArgs = Arguments;

	// Finally, execute the command.
	if (CurCommand)
	CurCommand->runCommand(*this, Arguments);

	} catch (int RetVal) {
	// The quit command exits the command loop by throwing an integer return
	// code.
	return RetVal;
	} catch (const std::string &Error) {
	std::cout << "Error: " << Error << "\n";
	} catch (const char *Error) {
	std::cout << "Error: " << Error << "\n";
	} catch (const NonErrorException &E) {
	std::cout << E.getMessage() << "\n";
	} catch (...) {
	std::cout << "ERROR: Debugger caught unexpected exception!\n";
	// Attempt to continue.
	}

	// Write the prompt to get the next bit of user input
	std::cout << Prompt;
	}

	return 0;
	}


	/// askYesNo - Ask the user a question, and demand a yes/no response. If
	/// the user says yes, return true.
	///
	bool CLIDebugger::askYesNo(const std::string &Message) const {
	std::string Answer;
	std::cout << Message << " (y or n) " << std::flush;
	while (getline(std::cin, Answer)) {
	std::string Val = getToken(Answer);
	if (getToken(Answer).empty()) {
	if (Val == "yes" \|\| Val == "y" \|\| Val == "YES" \|\| Val == "Y" \|\|
	Val == "Yes")
	return true;
	if (Val == "no" \|\| Val == "n" \|\| Val == "NO" \|\| Val == "N" \|\|
	Val == "No")
	return false;
	}

	std::cout << "Please answer y or n.\n" << Message << " (y or n) "
	<< std::flush;
	}

	// Ran out of input?
	return false;
	}