//*CMZ : 2.22/10 19/07/99 19.56.21 by Fons Rademakers
//*CMZ : 2.22/08 07/07/99 13.42.13 by Fons Rademakers
//*CMZ : 2.22/05 15/06/99 16.10.16 by Fons Rademakers
//*CMZ : 2.22/04 01/06/99 18.50.44 by Fons Rademakers
//*CMZ : 2.22/02 21/05/99 08.58.56 by Rene Brun
//*CMZ : 2.22/01 18/05/99 12.43.23 by Fons Rademakers
//*-- Author : Christian Lacunza <lacunza@cdfsg5.lbl.gov> 27/04/99
//*KEEP,CopyRight,T=C.
/*************************************************************************
* Copyright(c) 1995-1999, The ROOT System, All rights reserved. *
* Authors: Rene Brun, Fons Rademakers. *
* For list of contributors see $ROOTSYS/AA_CREDITS. *
* *
* Permission to use, copy, modify and distribute this software and its *
* documentation for non-commercial purposes is hereby granted without *
* fee, provided that the above copyright notice appears in all copies *
* and that both the copyright notice and this permission notice appear *
* in the supporting documentation. The authors make no claims about the *
* suitability of this software for any purpose. It is provided "as is" *
* without express or implied warranty. *
*************************************************************************/
//*KEND.
////////////////////////////////////////////////////////////////////////////
// //
// TTabCom //
// //
// This class performs basic tab completion. //
// You should be able to hit [TAB] to complete a partially typed: //
// //
// username //
// environment variable //
// preprocessor directive //
// pragma //
// filename (with a context-sensitive path) //
// public member function or data member (including base classes) //
// global variable, function, or class name //
// //
// Also, something like //
// //
// someObject->Func([TAB] //
// someObject.Func([TAB] //
// someClass::Func([TAB] //
// someClass var([TAB] //
// new someClass([TAB] //
// //
// will print a list of prototypes for the indicated //
// method or constructor. //
// //
// Current limitations and bugs: //
// //
// 1. you can only use one member access operator at a time. //
// eg, this will work: gROOT->GetListOfG[TAB] //
// but this will not: gROOT->GetListOfGlobals()->Conta[TAB] //
// //
// 2. nothing is guaranteed to work on windows or VMS //
// (for one thing, /bin/env and /etc/passwd are hardcoded) //
// //
// 3. CINT shortcut #2 is deliberately not supported. //
// (using "operator.()" instead of "operator->()") //
// //
// 4. most identifiers (including C++ identifiers, usernames, //
// environment variables, etc) //
// are restriceted to this character set: [_a-zA-Z0-9] //
// therefore, you won't be able to complete things like //
// //
// operator new //
// operator+ //
// etc //
// //
// 5. ~whatever[TAB] always tries to complete a username. //
// use whitespace (~ whatever[TAB]) if you want to complete a global //
// identifier. //
// //
// 6. CINT shortcut #3 is not supported when trying to complete //
// the name of a global object. (it is supported when trying to //
// complete a member of a global object) //
// //
// 7. the list of #pragma's is hardcoded //
// (ie not obtained from the interpreter at runtime) //
// ==> user-defined #pragma's will not be recognized //
// //
// 8. the system include directories are also hardcoded //
// because i don't know how to get them from the interpreter. //
// fons, maybe they should be #ifdef'd for the different sytems? //
// //
// 9. the TabCom.FileIgnore resource is always applied, even if you //
// are not trying to complete a filename. //
// //
// 10. anything in quotes is assumed to be a filename //
// so (among other things) you can't complete a quoted class name: //
// eg, TClass class1( "TDict[TAB] //
// this won't work... looks for a file in pwd starting with TDict //
// //
// 11. the prototypes tend to omit the word "const" a lot. //
// this is a problem with ROOT or CINT. //
// //
// 12. when listing ambiguous matches, only one column is used, //
// even if there are many completions. //
// //
// 13. anonymous objects are not currently identified //
// so, for example, //
// //
// root> printf( TString([TAB //
// //
// gives an error message instead of listing TString's constructors. //
// (this could be fixed) //
// //
// 14. the routine that adds the "appendage" isn't smart enough to know //
// if it's already there: //
// //
// root> TCanvas::Update() //
// press [TAB] here ^ //
// root> TCanvas::Update()() //
// (this could be fixed) //
// //
// 15. the appendage is only applied if there is exactly 1 match. //
// eg, this //
// //
// root> G__at[TAB] //
// root> G__ateval //
// //
// happens instead of this //
// //
// root> G__at[TAB] //
// root> G__ateval( //
// //
// because there are several overloaded versions of G__ateval(). //
// (this could be fixed) //
// //
////////////////////////////////////////////////////////////////////////////
//*KEEP,TTabCom,T=C++.
#include "TTabCom.h"
//*KEEP,TClass.
#include "TClass.h"
//*KEEP,TSystem.
#include "TSystem.h"
//*KEEP,TROOT.
#include "TROOT.h"
//*KEEP,TMethod.
#include "TMethod.h"
//*KEEP,TEnv.
#include "TEnv.h"
//*KEEP,TBenchmark,T=C++.
#include "TBenchmark.h"
//*KEEP,TError.
#include "TError.h"
//*KEEP,TGlobal.
#include "TGlobal.h"
//*KEEP,TList.
#include "TList.h"
//*KEEP,Getline.
#include "Getline.h"
//*KEEP,TFunction.
#include "TFunction.h"
//*KEEP,TMethodArg.
#include "TMethodArg.h"
//*KEND.
//Direct CINT include
//*KEEP,DataMbr.
#include "DataMbr.h"
//*KEND.
#include <stdio.h>
#include <iostream.h>
#ifndef WIN32
# include <strstream.h>
#else
# include <strstrea.h>
#endif
#include <fstream.h>
#include <iomanip.h> // setw()
#define BUF_SIZE 1024 // must match value in C_Getline.c (for bounds checking)
#define IfDebug(x) if(gDebug==TTabCom::kDebug) x
ClassImp(TTabCom)
// ----------------------------------------------------------------------------
//
// global/file scope variables
//
TTabCom* gTabCom=0;
int gl_root_tab_hook(char* buf, int /*prompt_width*/, int* pLoc)
{
return gTabCom ? gTabCom->Hook( buf, pLoc ) : -1;
}
// ----------------------------------------------------------------------------
//
// constructors
//
TTabCom::TTabCom()
{
fpDirectives = 0;
fpPragmas = 0;
fpGlobals = 0;
fpGlobalFuncs = 0;
fpClasses = 0;
fpUsers = 0;
fpEnvVars = 0;
fpFiles = 0;
fpSysIncFiles = 0;
InitPatterns();
gl_tab_hook = gl_root_tab_hook;
}
//
// constructors
//
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
//
// public member functions
//
void TTabCom::ClearClasses() { if( !fpClasses ) return; fpClasses->Delete(0); delete fpClasses; fpClasses = 0; }
void TTabCom::ClearCppDirectives() { if( !fpDirectives ) return; fpDirectives->Delete(0); delete fpDirectives; fpDirectives = 0; }
void TTabCom::ClearEnvVars() { if( !fpEnvVars ) return; fpEnvVars->Delete(0); delete fpEnvVars; fpEnvVars = 0; }
void TTabCom::ClearFiles() { if( !fpFiles ) return; fpFiles->Delete(0); delete fpFiles; fpFiles = 0; }
void TTabCom::ClearGlobalFunctions(){ if( !fpGlobalFuncs ) return; fpGlobalFuncs->Delete(0); delete fpGlobalFuncs; fpGlobalFuncs = 0; }
void TTabCom::ClearGlobals() { if( !fpGlobals ) return; fpGlobals->Delete(0); delete fpGlobals; fpGlobals = 0; }
void TTabCom::ClearPragmas() { if( !fpPragmas ) return; fpPragmas->Delete(0); delete fpPragmas; fpPragmas = 0; }
void TTabCom::ClearSysIncFiles() { if( !fpSysIncFiles ) return; fpSysIncFiles->Delete(0); delete fpSysIncFiles; fpSysIncFiles = 0; }
void TTabCom::ClearUsers() { if( !fpUsers ) return; fpUsers->Delete(0); delete fpUsers; fpUsers = 0; }
void TTabCom::ClearAll()
{
// clears all lists
// except for user names and system include files.
ClearClasses();
ClearCppDirectives();
ClearEnvVars();
ClearFiles();
ClearGlobalFunctions();
ClearGlobals();
ClearPragmas();
// ClearSysIncFiles(); <-- this one stays cached
// ClearUsers(); <-- this one stays cached
}
void TTabCom::RehashClasses() { ClearClasses(); GetListOfClasses(); }
void TTabCom::RehashCppDirectives() { ClearCppDirectives(); GetListOfCppDirectives(); }
void TTabCom::RehashEnvVars() { ClearEnvVars(); GetListOfEnvVars(); }
void TTabCom::RehashFiles() { ClearFiles(); /* path unknown */ } // think about this
void TTabCom::RehashGlobalFunctions() { ClearGlobalFunctions(); GetListOfGlobalFunctions(); }
void TTabCom::RehashGlobals() { ClearGlobals(); GetListOfGlobals(); }
void TTabCom::RehashPragmas() { ClearPragmas(); GetListOfPragmas(); }
void TTabCom::RehashSysIncFiles() { ClearSysIncFiles(); GetListOfSysIncFiles(); }
void TTabCom::RehashUsers() { ClearUsers(); GetListOfUsers(); }
void TTabCom::RehashAll()
{
// clears and then rebuilds all lists
// except for user names and system include files.
RehashClasses();
RehashCppDirectives();
RehashEnvVars();
RehashFiles();
RehashGlobalFunctions();
RehashGlobals();
RehashPragmas();
// RehashSysIncFiles(); <-- this one stays cached
// RehashUsers(); <-- this one stays cached
}
const TSeqCol* TTabCom::GetListOfClasses( void )
{
if( !fpClasses )
{
// generate a text list of classes on disk
strstream cmd;
const char* tmpfilename = tmpnam(0);
cmd << ".class > " << tmpfilename;
gROOT->ProcessLine( cmd.str() ); // memory leak cmd.str()
// open the file
ifstream file1( tmpfilename );
if( !file1 ) {
Error("TTabCom::GetListOfClasses", "could not open file "%s"", tmpfilename);
gSystem->Unlink( tmpfilename );
return 0;
}
// skip the first 2 lines (which are just header info)
file1.ignore(32000,'n');
file1.ignore(32000,'n');
// parse file, add to list
fpClasses = new TContainer;
TString line;
while( file1 )
{
line = "";
line.ReadLine( file1, kFALSE ); // kFALSE ==> don't skip whitespace
line = line( 23, 32000 );
// old way...
// if (line.Index("class") >= 0)
// line = line(6, 32000);
// else if (line.Index("enum") >= 0)
// line = line(5, 32000);
// else if (line.Index("(unknown)") >= 0)
// line = line(10, 32000);
// line = line("[^ ]*");
// new way...
int index;
if(0);
else if ((index=line.Index(" class ") ) >= 0) line = line(1+index+6, 32000);
else if ((index=line.Index(" enum ") ) >= 0) line = line(1+index+5, 32000);
else if ((index=line.Index(" (unknown) ")) >= 0) line = line(1+index+10, 32000);
// 2 changes: 1. use spaces ^ ^ 2. use offset ^^^^^ in case of long
// to reduce probablility that filename which overflows
// these keywords will occur in its field.
// filename or classname.
line = line("[^ ]*");
fpClasses->Add( new TObjString(line.Data()) );
}
// done with this file
file1.close();
gSystem->Unlink( tmpfilename );
}
return fpClasses;
}
const TSeqCol* TTabCom::GetListOfCppDirectives()
{
if( !fpDirectives )
{
fpDirectives = new TContainer;
fpDirectives->Add( new TObjString("if") );
fpDirectives->Add( new TObjString("ifdef") );
fpDirectives->Add( new TObjString("ifndef") );
fpDirectives->Add( new TObjString("elif") );
fpDirectives->Add( new TObjString("else") );
fpDirectives->Add( new TObjString("endif") );
fpDirectives->Add( new TObjString("include") );
fpDirectives->Add( new TObjString("define") );
fpDirectives->Add( new TObjString("undef") );
fpDirectives->Add( new TObjString("line") );
fpDirectives->Add( new TObjString("error") );
fpDirectives->Add( new TObjString("pragma") );
}
return fpDirectives;
}
const TSeqCol* TTabCom::GetListOfFilesInPath( const char path[] )
{
// "path" should be initialized with a colon separated list of
// system directories
static TString previousPath;
if( path && fpFiles && strcmp(path,previousPath)==0 )
{
return fpFiles;
}
else
{
ClearFiles();
fpFiles = NewListOfFilesInPath( path );
}
return fpFiles;
}
const TSeqCol* TTabCom::GetListOfEnvVars()
{
// calls "/bin/env"
if( !fpEnvVars )
{
const char* tmpfilename = tmpnam(0);
strstream cmd;
cmd << "/bin/env > " << tmpfilename;
gSystem->Exec( cmd.str() ); // memory leak cmd.str()
// open the file
ifstream file1( tmpfilename );
if( !file1 ) {
Error( "TTabCom::GetListOfEnvVars", "could not open file "%s"", tmpfilename );
gSystem->Unlink( tmpfilename );
return 0;
}
// parse, add
fpEnvVars = new TContainer;
TString line;
while( file1 ) // i think this loop goes one time extra which results in an empty string in the list, but i don't think it causes any problems.
{
line.ReadToDelim( file1, '=' );
file1.ignore(32000,'n');
fpEnvVars->Add( new TObjString(line.Data()) );
}
file1.close();
gSystem->Unlink( tmpfilename );
}
return fpEnvVars;
}
//______________________________________________________________________________
const TSeqCol* TTabCom::GetListOfGlobals()
{
if( !fpGlobals ) {
fpGlobals = new TContainer;
G__DataMemberInfo *a;
int last = 0;
int nglob = 0;
// find the number of global objects
G__DataMemberInfo t;
while (t.Next()) nglob++;
for (int i = 0; i < nglob; i++) {
a = new G__DataMemberInfo();
a->Next(); // initial positioning
for (int j = 0; j < last; j++)
a->Next();
// if name cannot be obtained no use to put in list
if (a->IsValid() && a->Name()) {
fpGlobals->Add(new TGlobal(a));
} else
delete a;
last++;
}
}
return fpGlobals;
}
//______________________________________________________________________________
const TSeqCol* TTabCom::GetListOfGlobalFunctions()
{
if( !fpGlobalFuncs ) {
fpGlobalFuncs = new TContainer;
G__MethodInfo *a;
int last = 0;
int nglob = 0;
// find the number of global functions
G__MethodInfo t;
while (t.Next()) nglob++;
for (int i = 0; i < nglob; i++) {
a = new G__MethodInfo();
a->Next(); // initial positioning
for (int j = 0; j < last; j++)
a->Next();
// if name cannot be obtained no use to put in list
if (a->IsValid() && a->Name()) {
fpGlobalFuncs->Add(new TFunction(a));
} else
delete a;
last++;
}
}
return fpGlobalFuncs;
}
const TSeqCol* TTabCom::GetListOfPragmas()
{
if( !fpPragmas )
{
fpPragmas = new TContainer;
fpPragmas->Add( new TObjString("ANSI " ) );
fpPragmas->Add( new TObjString("autocompile " ) );
fpPragmas->Add( new TObjString("bytecode " ) );
fpPragmas->Add( new TObjString("compile " ) );
fpPragmas->Add( new TObjString("endbytecode " ) );
fpPragmas->Add( new TObjString("endcompile " ) );
fpPragmas->Add( new TObjString("include " ) );
fpPragmas->Add( new TObjString("includepath " ) );
fpPragmas->Add( new TObjString("K&R " ) );
fpPragmas->Add( new TObjString("link " ) );
fpPragmas->Add( new TObjString("preprocess " ) );
fpPragmas->Add( new TObjString("preprocessor " ) );
fpPragmas->Add( new TObjString("security level" ) );
// "setertti " omitted. Ordinaly user should not use this statement
// "setstdio " omitted. Ordinaly user should not use this statement
// "setstream " omitted. Ordinaly user should not use this statement
// "stub" omitted. Ordinaly user should not use this statement
}
return fpPragmas;
}
const TSeqCol* TTabCom::GetListOfSysIncFiles()
{
if( !fpSysIncFiles )
{
fpSysIncFiles = NewListOfFilesInPath( GetSysIncludePath() );
}
return fpSysIncFiles;
}
const TSeqCol* TTabCom::GetListOfUsers()
{
// reads from "/etc/passwd"
if( !fpUsers )
{
fpUsers = new TContainer;
ifstream passwd;
TString user;
passwd.open("/etc/passwd");
while( passwd )
{
user.ReadToDelim( passwd, ':' );
fpUsers->Add( new TObjString(user) );
passwd.ignore( 32000, 'n' );
}
passwd.close();
}
return fpUsers;
}
//
// public member functions
//
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
//
// static utility funcitons
//
Char_t TTabCom::AllAgreeOnChar( int i, const TSeqCol* pList, Int_t& nGoodStrings )
{
//[static utility function]///////////////////////////////////////////
//
// if all the strings in "*pList" have the same ith character,
// that character is returned.
// otherwise 0 is returned.
//
// any string "s" for which "ExcludedByFignore(s)" is true
// will be ignored unless All the strings in "*pList"
// are "ExcludedByFignore()"
//
// in addition, the number of strings which were not
// "ExcludedByFignore()" is returned in "nGoodStrings".
//
/////////////////////////////////////////////////////////////////////////
assert( pList != 0 );
TIter next (pList);
TObject* pObj;
const char* s;
char ch0;
Bool_t isGood;
Bool_t atLeast1GoodString;
// init
nGoodStrings = 0;
atLeast1GoodString = kFALSE;
// first look for a good string
do
{
if(( pObj=next() )) {
s = pObj->GetName();
isGood = !ExcludedByFignore(s);
if( isGood ) {
atLeast1GoodString = kTRUE;
nGoodStrings += 1;
}
}
else {
// reached end of list without finding a single good string.
// just use the first one.
next.Reset();
pObj = next();
s = pObj->GetName();
break;
}
}
while( !isGood );
// found a good string...
ch0 = s[i];
// all subsequent good strings must have the same ith char
do
{
if(( pObj=next() ))
{
s = pObj->GetName();
isGood = !ExcludedByFignore(s);
if( isGood ) nGoodStrings += 1;
}
else
return ch0;
}
while( ((int)strlen(s)>=i && s[i] == ch0) ||
(atLeast1GoodString && !isGood) );
return 0;
}
void TTabCom::AppendListOfFilesInDirectory( const char dirName[], TSeqCol* pList )
{
//[static utility function]/////////////////////////////
//
// adds a TObjString to "*pList"
// for each entry found in the system directory "dirName"
//
// directories that do not exist are silently ignored.
//
//////////////////////////////////////////////////////////
assert( dirName != 0 );
assert( pList != 0 );
// open the directory
void* dir = gSystem->OpenDirectory( dirName );
// it is normal for this function to receive names of directories that do not exist.
// they should be ignored and should not generate any error messages.
if( !dir ) return;
// put each filename in the list
const char* tmp_ptr; // gSystem->GetDirEntry() returns NULL when no more files.
TString fileName;
while(( tmp_ptr = gSystem->GetDirEntry(dir) ))
{
fileName = tmp_ptr;
// skip "." and ".."
if( fileName == "." || fileName == ".." ) continue;
// add to list
pList->Add( new TObjString(dirName+fileName.Prepend("/")) );
}
// NOTE:
// with a path like "/usr/include:/usr/include/CC:$ROOTDIR/incldue:$ROOTDIR/cint/include:..."
// the above loop could get traversed 700 times or more.
// ==> keep it minimal or it could cost whole seconds on slower machines.
// also: TClonesArray doesn't help.
// close the directory
gSystem->FreeDirectory(dir);
}
// -----/-------- homemade RTTI ---------------/------------------------
TString TTabCom::DetermineClass( const char varName[] )
{
//[static utility function]/////////////////////////////
//
// returns empty string on failure.
// otherwise returns something like this: "TROOT*".
// fails for non-class types (ie, int, char, etc).
// fails for pointers to functions.
//
///////////////////////////////////
///////////////////////////////////
//
// note that because of the strange way this function works,
// CINT will print
//
// Error: No symbol asdf in current scope FILE:/var/tmp/gaaa001HR LINE:1
//
// if "varName" is not defined. (in this case, varName=="asdf")
// i don't know how to suppress this.
//
///////////////////////////////////
strstream cmd;
const char* tmpfile = tmpnam(0);
cmd << "gROOT->ProcessLine("" << varName << ""); > " << tmpfile;
gROOT->ProcessLine(cmd.str()); // memory leak cmd.str()
// the type of the variable whose name is "varName"
// should now be stored on disk in the file "tmpfile"
TString type = "";
int c;
// open the file
ifstream file1( tmpfile );
if( !file1 ) {
Error( "TTabCom::DetermineClass", "could not open file "%s"", tmpfile );
goto cleanup;
}
// first char should be '(', which we can ignore.
c = file1.get();
if( !file1 || c<=0 || c=='*' || c!='(' ) {
Error( "TTabCom::DetermineClass", "variable "%s" not defined?", varName );
goto cleanup;
}
// in case of success, "class TClassName*)0x12345" remains,
// since the opening '(' was removed.
file1 >> type; // ignore "class"
// non-class type ==> failure
if( type != "class" )
goto cleanup; //* RETURN *//
// ignore ' '
file1.ignore(1);
// this is what we want
type.ReadToDelim( file1, ')' );
cleanup:
// done reading from file
file1.close();
gSystem->Unlink( tmpfile );
return type;
}
Bool_t TTabCom::ExcludedByFignore( TString s )
{
//[static utility function]/////////////////////////////
//
// returns true iff "s" ends with one of
// the strings listed in the "TabCom.FileIgnore" resource.
//
/////////////////////////////////////////////////////////////
const char* fignore = gEnv->GetValue("TabCom.FileIgnore", (char*)0);
if( !fignore )
{
return kFALSE;
}
else
{
istrstream endings((char*)fignore); // do i need to make a copy first?
TString ending;
ending.ReadToDelim( endings, ':' );
while( !ending.IsNull() ) {
if( s.EndsWith(ending) )
return kTRUE;
else
ending.ReadToDelim( endings, ':' ); // next
}
return kFALSE;
}
}
TString TTabCom::GetSysIncludePath( void )
{
//[static utility function]/////////////////////////////
//
// returns a colon-separated string of directories
// that CINT will search when you call #include<...>
//
// returns empty string on failure.
//
///////////////////////////////////////////////////////////
// >i noticed that .include doesn't list the standard directories like
// >/usr/include or /usr/include/CC.
// >
// >how can i get a list of all the directories the interpreter will
// >search through when the user does a #include<...> ?
//
// Right now, there is no easy command to tell you about it. Instead, I can
// describe it here.
//
// 1) CINT first searches current working directory for #include "xxx"
// (#include <xxx> does not)
//
// 2) CINT searches include path directories given by -I option
//
// 3) CINT searches following standard include directories.
// $CINTSYSDIR/include
// $CINTSYSDIR/stl
// $CINTSYSDIR/msdev/include if VC++4.0
// $CINTSYSDIR/sc/include if Symantec C++
// /usr/include
// /usr/include/g++ if gcc,g++
// /usr/include/CC if HP-UX
// /usr/include/codelibs if HP-UX
//
// .include command only displays 2).
//
// Thank you
// Masaharu Goto
// 1) current dir
// ----------------------------------------------
// N/A
// 2) -I option (and #pragma includepath)
// ----------------------------------------------
// get this part of the include path from the interpreter
// and stick it in a tmp file.
const char* tmpfilename = tmpnam(0);
strstream cmd;
cmd << "gROOT->ProcessLine(".include"); > " << tmpfilename << endl;
gROOT->ProcessLine( cmd.str() ); // memory leak cmd.str()
// open the tmp file
ifstream file1( tmpfilename );
if( !file1 ) { // error
Error( "TTabCom::GetSysIncludePath", "could not open file "%s"", tmpfilename );
gSystem->Unlink( tmpfilename );
return "";
}
// parse it.
TString token; // input buffer
TString path; // all directories so far (colon-separated)
file1 >> token; // skip "include"
file1 >> token; // skip "path:"
while( file1 ) {
file1 >> token;
if( !token.IsNull() ) {
if( path.Length() > 0 ) path.Append(":");
path.Append(token.Data()+2); // +2 skips "-I"
}
}
// done with the tmp file
file1.close();
gSystem->Unlink( tmpfilename );
// 3) standard directories
// ----------------------------------------------
TString CINTSYSDIR("$ROOTSYS/cint");
gSystem->ExpandPathName(CINTSYSDIR);
path.Append(":"+CINTSYSDIR+"/include");
// path.Append(":"+CINTSYSDIR+"/stl");
// path.Append(":"+CINTSYSDIR+"/msdev/include");
// path.Append(":"+CINTSYSDIR+"/sc/include");
path.Append(":/usr/include");
// path.Append(":/usr/include/g++");
// path.Append(":/usr/include/CC");
// path.Append(":/usr/include/codelibs");
return path;
}
Bool_t TTabCom::IsDirectory( const char fileName[] )
{
//[static utility function]/////////////////////////////
//
// calls TSystem::GetPathInfo() to see if "fileName"
// is a system directory.
//
///////////////////////////////////////////////////////
Long_t flags = 0;
gSystem->GetPathInfo( fileName, 0, 0, &flags, 0 );
return (int)flags & 2;
}
TSeqCol* TTabCom::NewListOfFilesInPath( const char path1[] )
{
//[static utility function]/////////////////////////////
//
// creates a list containing the full path name for each file
// in the (colon separated) string "path1"
//
// memory is allocated with "new", so
// whoever calls this function takes responsibility for deleting it.
//
//////////////////////////////////////////////////////////////////////
assert( path1 != 0 );
TContainer* pList = new TContainer; // maybe use RTTI here? (since its a static function)
istrstream path((char*)path1);
TString dirName;
dirName.ReadToDelim( path, ':' );
while( !dirName.IsNull() )
{
IfDebug(cerr << "NewListOfFilesInPath(): dirName = " << dirName << endl);
AppendListOfFilesInDirectory( dirName, pList );
// next
dirName.ReadToDelim( path, ':' );
}
return pList;
}
Bool_t TTabCom::PathIsSpecifiedInFileName( const TString& fileName )
{
//[static utility function]/////////////////////////////
//
// true if "fileName"
// 1. is an absolute path ("/tmp/a")
// 2. is a relative path ("../whatever", "./test")
// 3. starts with user name ("~/mail")
// 4. starts with an environment variable ("$ROOTSYS/bin")
//
//////////////////////////////////////////////////////////////////////////
char c1 = (fileName.Length()>0) ? fileName[0] : 0;
return c1=='/' || c1=='~' || c1=='$' || fileName.BeginsWith("./") || fileName.BeginsWith("../");
}
void TTabCom::NoMsg( Int_t errorLevel )
{
//[static utility function]/////////////////////////////
//
// calling "NoMsg( errorLevel )",
// sets "gErrorIgnoreLevel" to "errorLevel+1" so that
// all errors with "level < errorLevel" will be ignored.
//
// calling the function with a negative argument
// (e.g., "NoMsg( -1 )")
// resets gErrorIgnoreLevel to its previous value.
//
//////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////
//
// if you call the function twice with a non-negative argument
// (without an intervening call with a negative argument)
// it will complain because it is almost certainly an error
// that will cause the function to loose track of the previous
// value of gErrorIgnoreLevel.
//
// most common causes: 1. suspiciously placed "return;" statement
// 2. calling a function that calls "NoMsg()"
//
//////////////////////////////////////////////////////////////////
const Int_t kNotDefined = -1;
static Int_t old_level = kNotDefined;
if( errorLevel < 0 ) // reset
{
if( old_level==kNotDefined ) {
cerr << "NoMsg(): ERROR 1. old_level==" << old_level << endl;
return;
}
gErrorIgnoreLevel = old_level; // resore
old_level = kNotDefined;
}
else // set
{
if( old_level!=kNotDefined ) {
cerr << "NoMsg(): ERROR 2. old_level==" << old_level << endl;
return;
}
old_level = gErrorIgnoreLevel;
if( gErrorIgnoreLevel <= errorLevel ) gErrorIgnoreLevel = errorLevel+1;
}
}
//
// static utility funcitons
//
// ----------------------------------------------------------------------------
// ----------------------------------------------------------------------------
//
// private member functions
//
//
Int_t TTabCom::Complete( const TRegexp& re, const TSeqCol* pListOfCandidates, const char appendage[] )
{
// [private]
// returns position of first change in buffer
// ------------------------------------------
// -2 ==> new line altogether (whole thing needs to be redrawn, including prompt)
// -1 ==> no changes
// 0 ==> beginning of line
// 1 ==> after 1st char
// n ==> after nth char
assert( fpLoc != 0 );
Int_t pos; // position of first change
const int loc = *fpLoc; // location where TAB was pressed
// -----------------------------------------
//
// 1. get the substring we need to complete
//
// NOTES:
// s1 = original buffer
// s2 = sub-buffer from 0 to wherever the user hit TAB
// s3 = the actual text that needs completing
//
// -----------------------------------------
TString s1( fBuf );
TString s2 = s1( 0, loc );
TString s3 = s2( re );
int start = s2.Index( re );
IfDebug(cerr << " s1: " << s1 << endl);
IfDebug(cerr << " s2: " << s2 << endl);
IfDebug(cerr << " s3: " << s3 << endl);
IfDebug(cerr << "start: " << start << endl);
IfDebug(cerr << endl);
// -----------------------------------------
// 2. go through each possible completion,
// keeping track of the number of matches
// -----------------------------------------
TList listOfMatches; // list of matches (local filenames only) (insertion order must agree across these 3 lists)
TList listOfFullPaths; // list of matches (full filenames) (insertion order must agree across these 3 lists)
int nMatches=0; // number of matches
TObject* pObj; // pointer returned by iterator
TIter next_candidate (pListOfCandidates);
TIter next_match (&listOfMatches);
TIter next_fullpath (&listOfFullPaths);
// stick all matches into "listOfMatches"
while(( pObj = next_candidate() ))
{
// get the full filename
const char* s4 = pObj->GetName();
assert( s4 != 0 );
// pick off tail
const char* s5 = strrchr(s4,'/');
if( !s5 )
s5 = s4; // no '/' found
else
s5 += 1; // advance past '/'
// check for match
if( strstr( s5, s3 ) == s5 ) {
nMatches += 1;
listOfMatches.Add( new TObjString(s5) );
listOfFullPaths.Add( new TObjString(s4) );
IfDebug(cerr << "adding " << s5 << 't' << s4 << endl);
}
else {
IfDebug(cerr << "considered " << s5 << 't' << s4 << endl);
}
}
// -----------------------------------------
// 3. beep, list, or complete
// depending on how many matches were found
// -----------------------------------------
// 3a. no matches ==> bell
TString partialMatch = "";
if( nMatches == 0 )
{
cout << "a" << flush;
pos = -1;
goto done; //* RETURN *//
}
// 3b. one or more matches.
char match[1024];
if( nMatches == 1 )
{
// get the (lone) match
const char* short_name = next_match()->GetName();
const char* full_name = next_fullpath()->GetName();
pObj = pListOfCandidates->FindObject( short_name );
if( pObj ) {
IfDebug(cerr << endl << "class: " << pObj->ClassName() << endl);
TString className = pObj->ClassName();
if( 0 );
else if( className == "TMethod" || className == "TFunction" )
{
TFunction* pFunc = (TFunction*)pObj;
if( pFunc->GetNargsOpt() == pFunc->GetNargs() )
appendage = "()"; // all args have default values
else
appendage = "("; // user needs to supply some args
}
else if( className == "TDataMember" )
{
appendage = " ";
}
}
CopyMatch( match, short_name, appendage, full_name );
}
else
{
// multiple matches ==> complete as far as possible
Char_t ch;
Int_t nGoodStrings;
for( int i=0;
(ch=AllAgreeOnChar( i, &listOfMatches, nGoodStrings ));
i+=1 )
{
IfDebug(cerr << " i=" << i << " ch=" << ch << endl);
partialMatch.Append( ch );
}
const char* s;
const char* s0;
// multiple matches, but maybe only 1 of them is any good.
if( nGoodStrings == 1 ) {
// find the 1 good match
do {
s = next_match()->GetName();
s0 = next_fullpath()->GetName();
}
while( ExcludedByFignore(s) );
// and use it.
CopyMatch( match, s, appendage, s0 );
}
else {
IfDebug(cerr << "more than 1 GoodString" << endl);
// if( partialMatch.Length() > (int)strlen(s3) )
if( partialMatch.Length() > s3.Length() )
// this partial match is our (partial) completion.
{
CopyMatch( match, partialMatch.Data() );
}
else
// couldn't do any completing at all,
// print a list of all the ambiguous matches
// (except for those excluded by "FileIgnore")
{
IfDebug(cerr << "printing ambiguous matches" << endl);
cout << endl;
while(( pObj = next_match() )) {
s = pObj->GetName();
s0 = next_fullpath()->GetName();
if( !ExcludedByFignore(s) || nGoodStrings==0 )
{
if( IsDirectory(s0) )
cout << s << "/" << endl;
else
cout << s << endl;
}
}
pos = -2;
goto done; //* RETURN *//
}
}
}
// ---------------------------------------
// 4. finally write text into the buffer.
// ---------------------------------------
{
int i = strlen(fBuf); // old EOL position is i
int L = strlen(match) - (loc-start); // new EOL position will be i+L
// first check for overflow
if( strlen(fBuf)+strlen(match)+1 > BUF_SIZE ) {
Error("TTabCom::Complete", "buffer overflow");
pos = -2;
goto done; /* RETURN */
}
// debugging output
IfDebug(cerr << " i=" << i << endl);
IfDebug(cerr << " L=" << L << endl);
IfDebug(cerr << "loc=" << loc << endl);
// slide everything (including the null terminator) over to make space
for( ; i>=loc; i-=1 ) {
fBuf[i+L] = fBuf[i];
}
// insert match
strncpy( fBuf+start, match, strlen(match) );
pos = loc; // position of first change in "fBuf"
*fpLoc = loc + L; // new cursor position
}
done: // <----- goto label
// un-init
fpLoc = 0;
fBuf = 0;
return pos;
}
void TTabCom::CopyMatch( char dest[], const char localName[], const char appendage[], const char fullName[] ) const
{
// [private]
// if "appendage" is NULL, no appendage is applied.
//
// if "appendage" is of the form "filenameXXX" then,
// "filename" is ignored and "XXX" is taken to be the appendage,
// but it will only be applied if the file is not a directory...
// if the file is a directory, a "/" will be used for the appendage instead.
//
// if "appendage" is of the form "XXX" then "XXX" will be appended to the match.
assert( dest != 0 );
assert( localName != 0 );
// potential buffer overflow.
strcpy( dest, localName );
const char* key = "filename";
const int key_len = strlen(key);
IfDebug(cerr << "CopyMatch()." << endl);
IfDebug(cerr << "localName: " << (localName?localName:"NULL") << endl);
IfDebug(cerr << "appendage: " << (appendage?appendage:"NULL") << endl);
IfDebug(cerr << " fullName: " << (fullName ?fullName :"NULL") << endl);
// check to see if "appendage" starts with "key"
if( appendage && strncmp(appendage, key, key_len)==0 )
{
// filenames get special treatment
appendage += key_len;
IfDebug(cerr << "new appendage: " << appendage << endl);
if( IsDirectory(fullName) )
{
if( fullName ) strcpy( dest+strlen(localName), "/" );
}
else
{
if( appendage ) strcpy( dest+strlen(localName), appendage );
}
}
else
{
if( appendage ) strcpy( dest+strlen(localName), appendage );
}
}
TTabCom::
EContext_t TTabCom::DetermineContext() const
{
// [private]
assert( fBuf != 0 );
const char* pStart; // start of match
const char* pEnd; // end of match
for( int context=0; context<kNUM_PAT; ++context )
{
pEnd = Matchs( fBuf, *fpLoc, fPat[context], &pStart );
if( pEnd )
{
IfDebug(cerr << endl
<< "context=" << context << " "
<< "RegExp=" << fRegExp[context]
<< endl);
return EContext_t( context ); //* RETURN *//
}
}
return kUNKNOWN_CONTEXT; //* RETURN *//
}
TString TTabCom::DeterminePath( const TString& fileName, const char defaultPath[] ) const
{
// [private]
if( PathIsSpecifiedInFileName( fileName ) )
{
TString path = fileName;
gSystem->ExpandPathName( path );
path = gSystem->DirName( path );
return path;
}
else
{
TString newBase;
TString extendedPath;
if( fileName.Contains("/") )
{
newBase = gSystem->DirName(fileName);
extendedPath = ExtendPath( defaultPath, newBase );
}
else
{
newBase = "";
extendedPath = defaultPath;
}
IfDebug(cerr << endl);
IfDebug(cerr << " fileName: " << fileName << endl);
IfDebug(cerr << " pathBase: " << newBase << endl);
IfDebug(cerr << " defaultPath: " << defaultPath << endl);
IfDebug(cerr << "extendedPath: " << extendedPath << endl);
IfDebug(cerr << endl);
return extendedPath;
}
}
TString TTabCom::ExtendPath( const char originalPath[], TString newBase ) const
{
// [private]
if( newBase.BeginsWith("/") ) newBase = newBase.Strip( TString::kLeading, '/');
strstream str;
TString dir;
TString newPath;
str << originalPath;
#ifndef WIN32
while( str )
#else
while( 1 )
#endif
{
dir = "";
dir.ReadToDelim( str, ':' );
if( dir.IsNull() ) continue; // ignore blank entries
newPath.Append( dir );
if( !newPath.EndsWith("/") ) newPath.Append("/");
newPath.Append( newBase );
newPath.Append( ':' );
}
return newPath.Strip( TString::kTrailing, ':' );
}
Int_t TTabCom::Hook( char* buf, int* pLoc )
{
// [private]
// initialize
fBuf = buf;
fpLoc = pLoc;
// default
Int_t pos = -2; // position of the first character that was changed in the buffer (needed for redrawing)
// get the context this tab was triggered in.
EContext_t context = DetermineContext();
// get the substring that triggered this tab (as defined by "SetPattern()")
const char dummy[] = ".";
TRegexp re1(context==kUNKNOWN_CONTEXT ? dummy : fRegExp[ context ]);
TString s1( fBuf );
TString s2 = s1( 0, *fpLoc );
TString s3 = s2( re1 );
switch( context ) {
case kUNKNOWN_CONTEXT:
cerr << endl << "tab completion not implemented for this context" << endl;
pos = -2;
break;
case kSYS_UserName:
{
const TSeqCol* pListOfUsers = GetListOfUsers();
pos = Complete( "[^~]*$", pListOfUsers, "/" );
}
break;
case kSYS_EnvVar:
{
const TSeqCol* pEnv = GetListOfEnvVars();
pos = Complete( "[^$]*$", pEnv, "" );
}
break;
case kCINT_stdout:
case kCINT_stderr:
case kCINT_stdin:
{
auto TString fileName = s3("[^ ><]*$"); gSystem->ExpandPathName(fileName);
const TString filePath = gSystem->DirName(fileName);
const TSeqCol* pListOfFiles = GetListOfFilesInPath( filePath.Data() );
// pos = Complete( "[^ /]*$", pListOfFiles, " " );
pos = Complete( "[^ /]*$", pListOfFiles, "filename " );
}
break;
case kCINT_Exec:
case kCINT_Load:
{
const TString fileName = s3("[^ ]*$");
const TString macroPath = DeterminePath( fileName, TROOT::GetMacroPath() );
const TSeqCol* pListOfFiles = GetListOfFilesInPath( macroPath.Data() );
// pos = Complete( "[^ /]*$", pListOfFiles, " " );
pos = Complete( "[^ /]*$", pListOfFiles, "filename " );
}
break;
case kCINT_pragma:
{
pos = Complete( "[^ ]*$", GetListOfPragmas(), "" );
}
break;
case kCINT_includeSYS:
{
TString fileName = s3("[^<]*$");
if( PathIsSpecifiedInFileName( fileName ) || fileName.Contains("/") )
{
TString includePath = DeterminePath( fileName, GetSysIncludePath() );
// pos = Complete( "[^</]*$", GetListOfFilesInPath( includePath ), "> " );
pos = Complete( "[^</]*$", GetListOfFilesInPath( includePath ), "filename> " );
}
else
{
// pos = Complete( "[^</]*$", GetListOfSysIncFiles(), "> " );
pos = Complete( "[^</]*$", GetListOfSysIncFiles(), "filename> " );
}
}
break;
case kCINT_includePWD:
{
const TString fileName = s3("[^"]*$");
const TString includePath = DeterminePath( fileName, "." );
const TSeqCol* pListOfFiles = GetListOfFilesInPath( includePath.Data() );
// pos = Complete( "[^"/]*$", pListOfFiles, "" " );
pos = Complete( "[^"/]*$", pListOfFiles, "filename" " );
}
break;
case kCINT_cpp:
{
pos = Complete( "[^# ]*$", GetListOfCppDirectives(), " " );
}
break;
case kROOT_Load:
{
const TString fileName = s3("[^"]*$");
// const TString dynamicPath = DeterminePath( fileName, TROOT::GetDynamicPath() ); /* should use this one */
const TString dynamicPath = DeterminePath( fileName, gEnv->GetValue("Root.DynamicPath",(char*)0) );
const TSeqCol* pListOfFiles = GetListOfFilesInPath( dynamicPath );
// pos = Complete( "[^"/]*$", pListOfFiles, "");" );
pos = Complete( "[^"/]*$", pListOfFiles, "filename");" );
}
break;
case kSYS_FileName:
{
auto TString fileName = s3("[^ "]*$"); gSystem->ExpandPathName(fileName);
const TString filePath = gSystem->DirName(fileName);
const TSeqCol* pListOfFiles = GetListOfFilesInPath( filePath.Data() );
// pos = Complete( "[^" /]*$", pListOfFiles, """ );
pos = Complete( "[^" /]*$", pListOfFiles, "filename"" );
}
break;
case kCXX_ScopeMember:
case kCXX_DirectMember:
case kCXX_IndirectMember:
{
const EContext_t original_context = context; // save this for later
TClass* pClass;
TString name = s3("^[_a-zA-Z][_a-zA-Z0-9]*"); // may be a class, object, or pointer
switch( context )
{
case kCXX_ScopeMember: pClass = MakeClassFromClassName( name ); break;
case kCXX_DirectMember: pClass = MakeClassFromVarName( name, context ); break;
case kCXX_IndirectMember: pClass = MakeClassFromVarName( name, context ); break;
default: assert(0); break;
}
if( !pClass ) { pos = -2; break; }
TContainer* pList = new TContainer;
pList->AddAll( (TCollection*) pClass->GetListOfAllPublicMethods() );
pList->AddAll( (TCollection*) pClass->GetListOfAllPublicDataMembers() );
switch( context )
{
case kCXX_ScopeMember: pos = Complete( "[^: ]*$", pList, "(" ); break;
case kCXX_DirectMember: pos = Complete( "[^. ]*$", pList, "(" ); break;
case kCXX_IndirectMember: pos = Complete( "[^> ]*$", pList, "(" ); break;
default: assert(0); break;
}
delete pList;
delete pClass;
if( context != original_context) pos = -2;
}
break;
case kCXX_ScopeProto:
case kCXX_DirectProto:
case kCXX_IndirectProto:
case kCXX_NewProto:
case kCXX_ConstructorProto:
{
const EContext_t original_context = context; // save this for later
// get class
TClass* pClass;
TString name;
if( context == kCXX_NewProto )
{
name = s3("[_a-zA-Z][_a-zA-Z0-9]* *($", 3);
name.Chop();
// name.Remove( TString::kTrailing, ' ' ); // fons: don't you think this would be nice?
name = name.Strip( TString::kTrailing, ' ' );
// "name" should now be the name of a class
}
else {
name = s3("^[_a-zA-Z][_a-zA-Z0-9]*");
// "name" may now be the name of a class, object, or pointer
}
IfDebug(cerr << endl);
IfDebug(cerr << name << endl);
switch( context )
{
case kCXX_ScopeProto: pClass = MakeClassFromClassName( name ); break;
case kCXX_DirectProto: pClass = MakeClassFromVarName( name, context ); break;
case kCXX_IndirectProto: pClass = MakeClassFromVarName( name, context ); break;
case kCXX_NewProto: pClass = MakeClassFromClassName( name ); break;
case kCXX_ConstructorProto: pClass = MakeClassFromClassName( name ); break;
default: assert(0); break;
}
if( !pClass ) { pos = -2; break; }
// get method name
TString methodName;
if( context == kCXX_ConstructorProto || context == kCXX_NewProto )
{
// (constructor)
methodName = name;
}
else {
// (normal member function)
methodName = s3("[^:>\.(]*($");
methodName.Chop();
// methodName.Remove( TString::kTrailing, ' ' ); // fons: don't you think this would be nice?
methodName = methodName.Strip( TString::kTrailing, ' ' );
}
IfDebug(cerr << methodName << endl);
// get methods
TContainer* pList = new TContainer;
pList->AddAll( (TCollection*) pClass->GetListOfAllPublicMethods() );
// print prototypes
Bool_t foundOne = kFALSE;
TIter nextMethod( pList );
TMethod* pMethod;
while(( pMethod = (TMethod*) nextMethod() ))
{
if( methodName == pMethod->GetName() ) {
foundOne = kTRUE;
cout << endl
<< pMethod->GetReturnTypeName()
<< " "
<< pMethod->GetName()
<< pMethod->GetSignature();
const char* comment = pMethod->GetCommentString();
if( comment && comment[0]!='0' ) {
cout << " t// " << comment;
}
}
}
// done
if( foundOne ) {
cout << endl;
pos = -2;
}
else {
cout << "a" << flush;
pos = -1;
}
// cleanup
delete pList;
delete pClass;
if( context!=original_context ) pos = -2;
}
break;
case kCXX_Global:
{
// first need to veto a few possibilities.
int L2 = s2.Length(), L3 = s3.Length();
// "abc().whatever[TAB]"
if( L2>L3 && s2[ L2-L3-1 ]=='.' )
{
cerr << endl << "tab completion not implemented for this context" << endl;
break; // veto
}
// "abc()->whatever[TAB]"
if( L2>L3+1 && s2( L2-L3-2, 2 )=="->" )
{
cerr << endl << "tab completion not implemented for this context" << endl;
break; // veto
}
TContainer* pList = new TContainer;
// shouldn't TCollection::AddAll( TCollection* ) take a const argument?
const TSeqCol* pL2 = GetListOfClasses();
pList->AddAll( (TSeqCol*) pL2 );
//
const TSeqCol* pC1 = GetListOfGlobals();
pList->AddAll( (TSeqCol*) pC1 );
//
const TSeqCol* pC3 = GetListOfGlobalFunctions();
pList->AddAll( (TSeqCol*) pC3 );
pos = Complete( "[_a-zA-Z][_a-zA-Z0-9]*$", pList, "" );
delete pList;
}
break;
case kCXX_GlobalProto:
{
// get function name
TString functionName = s3("[_a-zA-Z][_a-zA-Z0-9]*");
IfDebug(cerr << functionName << endl);
TContainer listOfMatchingGlobalFuncs;
TIter nextGlobalFunc (GetListOfGlobalFunctions());
TObject* pObj;
while(( pObj = nextGlobalFunc() ))
{
if( strcmp(pObj->GetName(), functionName)==0 )
{
listOfMatchingGlobalFuncs.Add( pObj );
}
}
if( listOfMatchingGlobalFuncs.IsEmpty() )
{
cerr << endl << "no such function: " << dblquote(functionName) << endl;
}
else
{
cout << endl;
TIter next (&listOfMatchingGlobalFuncs);
TFunction* pFunction;
while(( pFunction = (TFunction*) next() ))
{
cout
<< pFunction->GetReturnTypeName()
<< " "
<< pFunction->GetName()
<< pFunction->GetSignature()
<< endl;
}
}
pos = -2;
}
break;
/******************************************************************/
/* */
/* default: should never happen */
/* */
/******************************************************************/
default:
assert(0);
break;
}
return pos;
}
void TTabCom::InitPatterns( void )
{
// [private]
// add more patterns somewhere below.
// add corresponding enum to "EContext_t"
//
// note:
// 1. in some cases order is important ...
//
// the order of the "case" statements in "switch( context )" in "TTabCom::Hook()" is Not important.
//
// the order of the "SetPattern()" function calls below is Not important.
//
// the order of the initializers in the "EContext_t" enumeration Is important
// because DetermineContext() goes through the array in order, and returns at the first match.
//
// 2. below, "$" will match cursor position
SetPattern( kSYS_UserName, "~[_a-zA-Z0-9]*$" );
SetPattern( kSYS_EnvVar, "$[_a-zA-Z0-9]*$" );
SetPattern( kCINT_stdout, "; *>>?.*$" ); // stdout
SetPattern( kCINT_stderr, "; *2>>?.*$" ); // stderr
SetPattern( kCINT_stdin, "; *<.*$" ); // stdin
SetPattern( kCINT_Load, "^ *\.L .*$" );
SetPattern( kCINT_Exec, "^ *\.x [-0-9_a-zA-Z~$./]*$" );
SetPattern( kCINT_pragma, "^# *pragma +[_a-zA-Z0-9]*$" );
SetPattern( kCINT_includeSYS, "^# *include *<[^>]*$" ); // system files
SetPattern( kCINT_includePWD, "^# *include *"[^"]*$" ); // local files
SetPattern( kCINT_cpp, "^# *[_a-zA-Z0-9]*$" );
SetPattern( kROOT_Load, "gSystem *-> *Load *( *"[^"]*$" );
SetPattern( kCXX_ScopeMember, "[_a-zA-Z][_a-zA-Z0-9]* *:: *[_a-zA-Z0-9]*$" );
SetPattern( kCXX_DirectMember, "[_a-zA-Z][_a-zA-Z0-9]* *\. *[_a-zA-Z0-9]*$" );
SetPattern( kCXX_IndirectMember, "[_a-zA-Z][_a-zA-Z0-9]* *-> *[_a-zA-Z0-9]*$" );
SetPattern( kCXX_ScopeProto, "[_a-zA-Z][_a-zA-Z0-9]* *:: *[_a-zA-Z0-9]* *($" );
SetPattern( kCXX_DirectProto, "[_a-zA-Z][_a-zA-Z0-9]* *\. *[_a-zA-Z0-9]* *($" );
SetPattern( kCXX_IndirectProto, "[_a-zA-Z][_a-zA-Z0-9]* *-> *[_a-zA-Z0-9]* *($" );
SetPattern( kCXX_NewProto, "new +[_a-zA-Z][_a-zA-Z0-9]* *($" );
SetPattern( kCXX_ConstructorProto, "[_a-zA-Z][_a-zA-Z0-9]* +[_a-zA-Z][_a-zA-Z0-9]* *($" );
SetPattern( kSYS_FileName, ""[-0-9_a-zA-Z~$./]*$" );
SetPattern( kCXX_Global, "[_a-zA-Z][_a-zA-Z0-9]*$" );
SetPattern( kCXX_GlobalProto, "[_a-zA-Z][_a-zA-Z0-9]* *($" );
}
TClass* TTabCom::MakeClassFromClassName( const char className[] ) const
{
// [private]
// (does some specific error handling that makes the function unsuitable for general use.)
// returns a new'd TClass given the name of a class.
// user must delete.
// returns 0 in case of error.
// the TClass constructor will print a Warning message for classes that don't exist
// so, ignore warnings temporarily.
NoMsg(kWarning);
TClass* pClass = new TClass( className, 0 );
NoMsg(-1);
// make sure "className" exists
if( pClass->Size()==0 )
{
// i'm assuming this happens iff there was some error.
// (misspelled the class name, for example)
cerr << endl << "class " << dblquote(className) << " not defined." << endl;
return 0;
}
return pClass;
}
TClass* TTabCom::MakeClassFromVarName( const char varName[], EContext_t& context )
{
// [private]
// (does some specific error handling that makes the function unsuitable for general use.)
// returns a new'd TClass given the name of a variable.
// user must delete.
// returns 0 in case of error.
// if user has operator.() or operator->() bacwards, will modify: context, *fpLoc and fBuf.
// context sensitive behevior.
// need to make sure "varName" exists
// because "DetermineClass()" prints clumsy error message otherwise.
Bool_t varName_exists =
GetListOfGlobals()->Contains(varName) || // check in list of globals first.
(gROOT->FindObject(varName) != 0); // then check CINT "shortcut #3"
// not found...
if( !varName_exists ) {
cerr << endl << "variable " << dblquote(varName) << " not defined." << endl;
return 0; //* RETURN *//
}
/****************************************************************************************/
/* */
/* this section is really ugly. */
/* and slow. */
/* it could be made a lot better if there was some way to tell whether or not a given */
/* variable is a pointer or a pointer to a pointer. */
/* */
/****************************************************************************************/
TString className = DetermineClass( varName );
if( className.Length()<2 ) { // error, also protects against range error later: className[<0]
// this will happen if "varName" is a fundamental type (as opposed to class type).
// or a pointer to a pointer.
// or a function pointer.
cerr << endl
<< "problem determining class of " << dblquote(varName)
<< endl;
return 0; //* RETURN *//
}
Bool_t varIsPointer = className[ className.Length()-1 ]=='*';
// flag & kNonPointer &&
if( varIsPointer &&
(context == kCXX_DirectMember ||
context == kCXX_DirectProto ))
{
// user is using operator.() instead of operator->()
// ==>
// 1. we are in wrong context.
// 2. user is lazy
// 3. or maybe confused
// 1. fix the context
switch( context )
{
case kCXX_DirectMember:
context = kCXX_IndirectMember;
break;
case kCXX_DirectProto:
context = kCXX_IndirectProto;
break;
default:
assert(0);
break;
}
// 2. fix the operator.
int i;
for( i=*fpLoc; fBuf[i]!='.'; i-=1 ) {
}
int loc = i;
for( i=strlen(fBuf); i>=loc; i-=1 ) {
fBuf[i+1] = fBuf[i];
}
fBuf[loc]='-';
fBuf[loc+1]='>';
*fpLoc += 1;
// 3. inform the user.
cerr << endl << dblquote(varName) << " is of pointer type. Use this operator: ->" << endl;
}
if( context == kCXX_IndirectMember ||
context == kCXX_IndirectProto )
{
if( varIsPointer ) {
className.Chop(); // remove the '*'
if( className[ className.Length()-1 ]=='*' ) {
cerr << endl << "can't handle pointers to pointers." << endl;
return 0; //* RETURN *//
}
}
else {
// user is using operator->() instead of operator.()
// ==>
// 1. we are in wrong context.
// 2. user is lazy
// 3. or maybe confused
// 1. fix the context
switch( context )
{
case kCXX_IndirectMember:
context = kCXX_DirectMember;
break;
case kCXX_IndirectProto:
context = kCXX_DirectProto;
break;
default:
assert(0);
break;
}
// 2. fix the operator.
int i;
for( i=*fpLoc; fBuf[i-1]!='-' && fBuf[i]!='>'; i-=1 ) {
}
fBuf[i-1]='.';
int len = strlen(fBuf);
for( ; i<len; i+=1 ) {
fBuf[i] = fBuf[i+1];
}
*fpLoc -= 1;
// 3. inform the user.
cerr << endl << dblquote(varName) << " is not of pointer type. Use this operator: ." << endl;
}
}
return new TClass( className, 0 );
}
void TTabCom::SetPattern( EContext_t handle, const char regexp[] )
{
// [private]
// prevent overflow
if( handle >= kNUM_PAT ) {
cerr
<< endl
<< "ERROR: handle="
<< (int)handle
<< " >= kNUM_PAT="
<< (int)kNUM_PAT
<< endl;
return;
}
fRegExp[ handle ] = regexp;
Makepat( regexp, fPat[ handle ], MAX_LEN_PAT );
}
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