//*CMZ : 2.23/07 25/10/99 18.52.17 by Fons Rademakers
//*CMZ : 2.23/01 27/08/99 15.29.11 by Rene Brun
//*CMZ : 2.22/05 15/06/99 13.20.12 by Fons Rademakers
//*CMZ : 2.20/00 09/11/98 11.21.56 by Fons Rademakers
//*CMZ : 2.00/12 25/09/98 17.42.23 by Rene Brun
//*-- Author : Fons Rademakers 04/02/95
//*KEEP,CopyRight,T=C.
/*************************************************************************
* Copyright(c) 1995-1999, The ROOT System, All rights reserved. *
* Authors: Rene Brun and Fons Rademakers. *
* *
* For the licensing terms see $ROOTSYS/AA_LICENSE. *
* For the list of contributors see $ROOTSYS/AA_CREDITS. *
*************************************************************************/
//*KEND.
//////////////////////////////////////////////////////////////////////////
//
// TDataMember.
//
// All ROOT classes may have RTTI (run time type identification) support
// added. The data is stored in so called DICTIONARY (look at TDictionary).
// Information about a class is stored in TClass.
// This information may be obtained via the CINT api - see class TCint.
// TClass has a list of TDataMember objects providing information about all
// data members of described class.
//
/*
*/
//
// TDataMember provides information about name of data member, its type,
// and comment field string. It also tries to find the TMethodCall objects
// responsible for getting/setting a value of it, and gives you pointers
// to these methods. This gives you a unique possibility to access
// protected and private (!) data members if only methods for doing that
// are defined.
// These methods could either be specified in a comment field, or found
// out automatically by ROOT: here's an example:
// suppose you have a class definition:
//
/**************************************************************************
class MyClass{
private:
Float_t fX1;
...
public:
void SetX1(Float_t x) {fX1 = x;};
Float_t GetX1() {return fX1;};
...
}
***************************************************************************/
//
//
// Look at the data member name and method names: a data member name has
// a prefix letter (f) and has a base name X1 . The methods for getting and
// setting this value have names which consist of string Get/Set and the
// same base name. This convention of naming data fields and methods which
// access them allows TDataMember find this methods by itself completely
// automatically. To make this description complete, one should know,
// that names that are automatically recognized may be also:
// for data fields: either fXXX or fIsXXX; and for getter function
// GetXXX() or IsXXX() [where XXX is base name].
//
// As an example of using it let's analyse a few lines which get and set
// a fIsEditable field in TCanvas:
//
/*
TCanvas *c = new TCanvas("c"); // create a canvas
TClass *cl = c->IsA(); // get its class description object.
TDataMember *dm = cl->GetDataMember("fIsEditable"); //This is our data member
TMethodCall *getter = dm->GetterMethod(); //find a method that gets value!
Long_t l; // declare a storage for this value;
getter->Execute(c,"",l); // Get this Value !!!! It will appear in l !!!
TMethodCall *setter = dm->SetterMethod();
setter->Execute(c,"0",); // Set Value 0 !!!
*/
//
//
// This trick is widely used in ROOT TContextMenu and dialogs for obtaining
// current values and put them as initial values in dialog fields.
//
// If you don't want to follow the convention of naming used by ROOT
// you still could benefit from Getter/Setter method support: the solution
// is to instruct ROOT what the names of these routines are.
// The way to do it is putting this information in a comment string to a data
// field in your class declaration:
//
//
/*
class MyClass{
Int_t mydata; // *OPTIONS={GetMethod="Get";SetMethod="Set"}
...
Int_t Get(){ return mydata;};
void Set(Int_t i){mydata=i;};
}
*/
//
//
// However, this getting/setting functions are not the only feature of
// this class. The next point is providing lists of possible settings
// for the concerned data member. The idea is to have a list of possible
// options for this data member, with strings identifying them. This
// is used in dialogs with parameters to set - for details see
// TMethodArg, TRootContextMenu, TContextMenu. This list not only specifies
// the allowed value, but also provides strings naming the options.
// Options are managed via TList of TOptionListItem objects. This list
// is also created automatically: if a data type is an enum type,
// the list will have items describing every enum value, and named
// according to enum name. If type is Bool_t, two options "On" and "Off"
// with values 0 and 1 are created. For other types you need to instruct
// ROOT about possible options. The way to do it is the same as in case of
// specifying getter/setter method: a comment string to a data field in
// Your header file with class definition.
// The most general format of this string is:
//
/*
*OPTIONS={GetMethod="getter";SetMethod="setter";Items=(it1="title1",it2="title2", ... ) }
*/
//
//
// While parsing this string ROOT firstly looks for command-tokens:
// GetMethod, SetMethod, Items; They must be preceded by string
// *OPTIONS= , enclosed by {} and separated by semicolons ";".
// All command token should have a form TOKEN=VALUE.
// All tokens are optional.
// The names of getter and setter method must be enclosed by double-quote
// marks (") .
// Specifications of Items is slightly more complicated: you need to
// put token ITEMS= and then enclose all options in curly brackets "()".
// You separate options by comas ",".
// Each option item may have one of the following forms:
//
/*
IntegerValue = "Text Label"
EnumValue = "Text Label"
"TextValue" = Text Label"
*/
//
//
// One can sepcify values as Integers or Enums - when data field is an
// Integer, Float or Enum type; as texts - for Text_t (more precisely:
// Option_t).
//
// As mentioned above - this information are mainly used by contextmenu,
// but also in Dump() and Inspect() methods and by the THtml class.
//
//////////////////////////////////////////////////////////////////////////
//*KEEP,TDataMember.
#include "TDataMember.h"
//*KEEP,TROOT.
#include "TROOT.h"
//*KEEP,TGlobal.
#include "TGlobal.h"
//*KEEP,TInterpreter, T=C++.
#include "TInterpreter.h"
//*KEEP,Strlen.
#include "Strlen.h"
//*KEEP,Api.
#include "Api.h"
//*KEEP,TMethodCall,T=C++.
#include "TMethodCall.h"
//*KEEP,TClass.
#include "TClass.h"
//*KEEP,TMethod.
#include "TMethod.h"
//*KEEP,TIterator.
#include "TIterator.h"
//*KEEP,TList.
#include "TList.h"
//*KEEP,TGlobal.
#include "TGlobal.h"
//*KEND.
ClassImp(TDataMember)
//______________________________________________________________________________
TDataMember::TDataMember(G__DataMemberInfo *info, TClass *cl) : TDictionary()
{
// Default TDataMember ctor. TDataMembers are constructed in TClass
// via a call to TCint::CreateListOfDataMembers(). It parses the comment
// string, initializes optionlist and getter/setter methods.
fInfo = info;
fClass = cl;
fDataType = 0;
fOptions = 0;
fValueSetter = 0;
fValueGetter = 0;
if (!fInfo && !fClass) return; // default ctor is called
if (fInfo) {
const char *t = fInfo->Title();
if (t && t[0] != '!') SetBit(kObjIsPersistent);
fDataType = 0;
if (IsBasic() || IsEnum()) {
if (IsBasic()) {
const char *name = GetFullTypeName();
if (strcmp(name, "unsigned char") != 0 &&
strncmp(name, "unsigned short", sizeof ("unsigned short")) != 0 &&
strcmp(name, "unsigned int") != 0 &&
strncmp(name, "unsigned long", sizeof ("unsigned long")) != 0)
name = GetTypeName();
fDataType = gROOT->GetType(name);
} else {
fDataType = gROOT->GetType("Int_t");
}
// if (!fDataType)
// Error("TDataMember", "basic data type %s not found in list of basic types",
// GetTypeName());
}
}
// If option string exist in comment - we'll parse it and create
// list of options
// Option-list string has a form:
// *OPTION={GetMethod="GetXXX";SetMethod="SetXXX";
// Items=(0="NULL ITEM","one"="First Item",kRed="Red Item")}
//
// As one can see it is possible to specify value as either numerical
// value , string or enum.
// One can also specify implicitly names of Getter/Setter methods.
Text_t cmt[2048];
Text_t opt[2048];
Text_t *opt_ptr = 0;
Text_t *ptr1 = 0;
Text_t *ptr2 = 0;
Text_t *ptr3 = 0;
Text_t *tok = 0;
Int_t cnt = 0;
Int_t token_cnt;
Int_t i;
strcpy(cmt,fInfo->Title());
if ((opt_ptr=strstr(cmt,"*OPTION={"))) {
// If we found it - parsing...
//let's cut the part lying between {}
ptr1 = strtok(opt_ptr ,"{}"); //starts tokenizing:extracts "*OPTION={"
ptr1 = strtok((Text_t*)0,"{}"); //And now we have what we need in ptr1!!!
//and save it:
strcpy(opt,ptr1);
// Let's extract sub-tokens extracted by ';' sign.
// We'll put'em in an array for convenience;
// You have to do it in this manner because you cannot use nested 'strtok'
Text_t *tokens[256]; // a storage for these sub-tokens.
token_cnt = 0;
cnt = 0;
do { //tokenizing loop
ptr1=strtok((Text_t*) (cnt++ ? 0:opt),";");
if (ptr1){
tok=new Text_t[strlen(ptr1)+1];
strcpy(tok,ptr1);
tokens[token_cnt]=tok;
token_cnt++;
}
} while (ptr1);
// OK! Now let's check whether we have Get/Set methods encode in any string
for (i=0;i<token_cnt;i++) {
if (strstr(tokens[i],"GetMethod")) {
ptr1 = strtok(tokens[i],"""); //tokenizing-strip text "GetMethod"
ptr1 = strtok(0,"""); //tokenizing - name is in ptr1!
if (GetClass()->GetMethod(ptr1,"")) // check whether such method exists
fValueGetter = new TMethodCall(GetClass(),ptr1,"");
continue; //next item!
}
if (strstr(tokens[i],"SetMethod")) {
ptr1 = strtok(tokens[i],""");
ptr1 = strtok((Text_t*)0,"""); //name of Setter in ptr1
if (GetClass()->GetMethod(ptr1,"1"))
fValueSetter = new TMethodCall(GetClass(),ptr1,"1");
}
}
//Now let's parse option strings...
Int_t opt_cnt = 0;
TList *optionlist = new TList(); //storage for options strings
for (i=0;i<token_cnt;i++) {
if (strstr(tokens[i],"Items")) {
ptr1 = strtok(tokens[i],"()");
ptr1 = strtok((Text_t*)0,"()");
Text_t opt[2048]; //and save it!
strcpy(opt,ptr1);
//now parse it...
//fistly we just store strings like: xxx="Label Name"
//We'll store it in TOptionListItem objects, because they're derived
//from TObject and thus can be stored in TList.
//It's not elegant but works.
do {
ptr1 = strtok(opt_cnt++ ? (Text_t*)0:opt,","); //options extraction
if (ptr1) {
TOptionListItem *it = new TOptionListItem(this,1,0,0,ptr1,"");
optionlist->Add(it);
}
} while(ptr1);
}
}
//having all options extracted and put into list, we finally can parse
//them to create a list of options...
fOptions = new TList(); //create the list
TIter next(optionlist); //we'll iterate through all
//strings containing options
TOptionListItem *it = 0;
TOptionListItem *it1 = 0;
while ((it=(TOptionListItem*)next())) {
ptr1 = it->fOptName;
Bool_t islabel = (ptr1[0]=='"'); // value is label or numerical?
ptr2 = strtok(ptr1,"=""); //extract LeftHandeSide
ptr3 = strtok(0,"=""); //extract RightHandedSize
if (islabel) {
it1=new TOptionListItem(this,-9999,0,0,ptr3,ptr2);
fOptions->Add(it1);
} else {
//We'll try to find global enum existing in ROOT...
Long_t l;
Int_t *value;
TGlobal *enumval = gROOT->GetGlobal(ptr1,kTRUE);
if (enumval){
value = (Int_t*)(enumval->GetAddress());
l = (Long_t)(*value);
} else l = atol(ptr1);
it1 = new TOptionListItem(this,l,0,0,ptr3,ptr1);
fOptions->Add(it1);
}
optionlist->Remove(it); //delete this option string from list
delete it; // and dispose of it.
}
// Garbage colletion
// dispose of temporary option list...
delete optionlist;
//And dispose tokens string...
for (i=0;i<token_cnt;i++) if(tokens[i]) delete tokens[i];
// if option string does not exist but it's an Enum - parse it!!!!
} else if (!strncmp(GetFullTypeName(),"enum",4)) {
TGlobal *global = 0;
TDataMember::fOptions = new TList();
Text_t etypename[65];
strncpy(etypename,this->GetTypeName(),64); //save the typename!!! must do it!
const Text_t *gtypename = 0;
TList *globals = (TList*)(gROOT->GetListOfGlobals(kTRUE)); //get all globals
if (!globals) return;
TIter nextglobal(globals); //iterate through all global to find
while ((global=(TGlobal*)nextglobal())) { // values belonging to this enum type
gtypename = global->GetTypeName();
if (strcmp(gtypename,etypename)==0) {
Int_t *value = (Int_t*)(global->GetAddress());
Long_t l = (Long_t)(*value);
Text_t enumItem[128];
strcpy(enumItem,global->GetName());
TOptionListItem *it = new TOptionListItem(this,l,0,0,enumItem,enumItem);
fOptions->Add(it);
}
}
// and the case od Bool_t : we add items "ON" and "Off"
} else if (!strncmp(GetFullTypeName(),"Bool_t",6)){
fOptions = new TList();
TOptionListItem *it = new TOptionListItem(this,1,0,0,"ON",0);
fOptions->Add(it);
it = new TOptionListItem(this,0,0,0,"Off",0);
fOptions->Add(it);
} else fOptions = 0;
}
//______________________________________________________________________________
TDataMember::~TDataMember()
{
// TDataMember dtor deletes adopted G__DataMemberInfo object.
delete fInfo;
delete fValueSetter;
delete fValueGetter;
if (fOptions) {
fOptions->Delete();
delete fOptions;
}
}
//______________________________________________________________________________
Int_t TDataMember::GetArrayDim() const
{
// Return number of array dimensions.
return fInfo->ArrayDim();
}
//______________________________________________________________________________
Int_t TDataMember::GetMaxIndex(Int_t dim) const
{
// Return maximum index for array dimension "dim".
return fInfo->MaxIndex(dim);
}
//______________________________________________________________________________
const char *TDataMember::GetTypeName() const
{
// Get type of data member, e,g.: "class TDirectory*" -> "TDirectory".
// Result needs to be used or copied immediately.
return gInterpreter->TypeName(fInfo->Type()->Name());
}
//______________________________________________________________________________
const char *TDataMember::GetFullTypeName() const
{
// Get full type description of data member, e,g.: "class TDirectory*".
return fInfo->Type()->Name();
}
//______________________________________________________________________________
const char *TDataMember::GetName() const
{
// Get data member name.
return fInfo->Name();
}
//______________________________________________________________________________
Int_t TDataMember::GetOffset() const
{
// Get offset from "this". This information is only available for
// public datamembers.
return fInfo->Offset();
}
//______________________________________________________________________________
const char *TDataMember::GetTitle() const
{
// Get data member description string (comment).
return fInfo->Title();
}
//______________________________________________________________________________
Int_t TDataMember::Compare(TObject *obj)
{
// Compare to other object. Returns 0<, 0 or >0 depending on
// whether "this" is lexicographically less than, equal to, or
// greater than obj.
return strcmp(fInfo->Name(), obj->GetName());
}
//______________________________________________________________________________
ULong_t TDataMember::Hash()
{
// Return hash value for TDataMember based on its name.
TString s = fInfo->Name();
return s.Hash();
}
//______________________________________________________________________________
Bool_t TDataMember::IsBasic() const
{
// Return true if data member is a basic type, e.g. char, int, long...
return (fInfo->Type()->Property() & kIsFundamental) ? kTRUE : kFALSE;
}
//______________________________________________________________________________
Bool_t TDataMember::IsEnum() const
{
// Return true if data member is an enum.
return (fInfo->Type()->Property() & kIsEnum) ? kTRUE : kFALSE;
}
//______________________________________________________________________________
Bool_t TDataMember::IsaPointer() const
{
// Return true if data member is a pointer.
return (fInfo->Property() & kIsPointer) ? kTRUE : kFALSE;
}
//______________________________________________________________________________
Long_t TDataMember::Property() const
{
// Get property description word. For meaning of bits see EProperty.
return fInfo->Property();
}
//______________________________________________________________________________
TList *TDataMember::GetOptions()
{
// Returns list of options - list of TOptionListItems
return fOptions;
}
//______________________________________________________________________________
TMethodCall *TDataMember::GetterMethod()
{
// Return a TMethodCall method responsible for getting the value of data member
if (!fValueGetter) {
// try to guess Getter function:
// we strip the fist character of name of data field ('f') and then
// try to find the name of Getter by applying "Get" and "Is"
// as a prefix
const Text_t *dataname = GetName();
Text_t gettername[64];
sprintf(gettername, "Get%s", dataname+1);
if (strstr(gettername, "Is")) sprintf(gettername, "%s", dataname+1);
if (GetClass()->GetMethod(gettername, ""))
fValueGetter = new TMethodCall(fClass, gettername, "");
}
return fValueGetter;
}
//______________________________________________________________________________
TMethodCall *TDataMember::SetterMethod()
{
// Return a TMethodCall method responsible for setting the value of data member
if (!fValueSetter) {
// try to guess Setter function:
// we strip the fist character of name of data field ('f') and then
// try to find the name of Setter by applying "Set" as a prefix
const Text_t *dataname = GetName();
Text_t settername[64];
sprintf(settername, "Set%s", dataname+1);
if (strstr(settername, "Is")) sprintf(settername, "Set%s", dataname+3);
if (GetClass()->GetMethod(settername, "1"))
fValueSetter = new TMethodCall(fClass, settername, "1");
}
return fValueSetter;
}
//______________________________________________________________________________
TOptionListItem::TOptionListItem(TDataMember *d, Long_t val, Long_t valmask,
Long_t tglmask,const Text_t *name, const Text_t *label)
{
fDataMember = d;
fValue = val;
fValueMaskBit = valmask;
fToggleMaskBit = tglmask;
if (name){
fOptName = new Text_t[strlen(name)+1];
strcpy(fOptName,name);
} else fOptName = 0;
if(label){
fOptLabel = new Text_t[strlen(label)+1];
strcpy(fOptLabel,label);
} else fOptLabel = 0;
}
//______________________________________________________________________________
TOptionListItem::~TOptionListItem()
{
if (fOptName) delete fOptName;
if (fOptLabel) delete fOptLabel;
}
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