library: libTable #include "TTable.h" |
TTable
class description - source file - inheritance tree (.pdf)
protected:
Bool_t BoundsOk(const char* where, Int_t at) const
virtual void Clear(Option_t* opt = "")
void CopyStruct(Char_t* dest, const Char_t* src)
Char_t* Create()
virtual void Delete(Option_t* opt = "")
virtual Bool_t EntryLoop(const Char_t* exprFileName, Int_t& action, TObject* obj, Int_t nentries = 1000000000, Int_t firstentry = 0, Option_t* option = "")
virtual TTableDescriptor* GetDescriptorPointer() const
Bool_t OutOfBoundsError(const char* where, Int_t i) const
void ReAlloc(Int_t newsize)
virtual void SetDescriptorPointer(TTableDescriptor* list)
Int_t SetfN(Long_t len)
void SetTablePointer(void* table)
virtual void SetType(const Text_t *const type)
void SetUsedRows(Int_t n)
void StreamerHeader(TBuffer& b, Version_t version = 3)
void StreamerTable(TBuffer& b, Version_t version = 3)
static const char* TableDictionary(const char* className, const char* structName, TTableDescriptor*& ColDescriptors) const
public:
TTable(const Text_t* name = "0", Int_t size = 0)
TTable(const Text_t* name, Int_t n, Int_t size)
TTable(const Text_t* name, Int_t n, Char_t* array, Int_t size)
TTable(const Text_t* name, const Text_t* type, Int_t n, Char_t* array, Int_t size)
TTable(const TTable& table)
virtual ~TTable()
virtual Int_t AddAt(const void* c)
virtual void AddAt(const void* c, Int_t i)
virtual void AddAt(TDataSet* dataset, Int_t idx = 0)
virtual void Adopt(Int_t n, void* array)
virtual Long_t AppendRows(const void* row, UInt_t nRows)
virtual void AsString(void* buf, TTable::EColumnType type, Int_t width, ostream& out) const
const void* At(Int_t i) const
virtual void Browse(TBrowser* b)
static TClass* Class()
Int_t CopyRows(const TTable* srcTable, Long_t srcRow = 0, Long_t dstRow = 0, Long_t nRows = 0, Bool_t expand = kFALSE)
virtual void CopySet(TTable& array)
virtual void DeleteRows(Long_t indx, UInt_t nRows = 1)
virtual void Draw(Option_t* opt)
virtual TH1* Draw(TCut varexp, TCut selection, Option_t* option = "", Int_t nentries = 1000000000, Int_t firstentry = 0)
virtual TH1* Draw(const Text_t* varexp, const Text_t* selection, Option_t* option = "", Int_t nentries = 1000000000, Int_t firstentry = 0)
virtual void Fit(const Text_t* formula, const Text_t* varexp, const Text_t* selection = "", Option_t* option = "", Option_t* goption = "", Int_t nentries = 1000000000, Int_t firstentry = 0)
void* GetArray() const
virtual const Char_t* GetColumnComment(Int_t columnIndex) const
virtual Int_t GetColumnIndex(const Char_t* columnName) const
virtual const Char_t* GetColumnName(Int_t columnIndex) const
virtual UInt_t GetColumnSize(Int_t columnIndex) const
virtual Int_t GetColumnSize(const Char_t* columnName = "0") const
virtual TTable::EColumnType GetColumnType(Int_t columnIndex) const
virtual TTable::EColumnType GetColumnType(const Char_t* columnName = "0") const
virtual UInt_t GetDimensions(Int_t columnIndex) const
virtual Int_t GetDimensions(const Char_t* columnName = "0") const
virtual const UInt_t* GetIndexArray(Int_t columnIndex) const
virtual Long_t GetNRows() const
virtual UInt_t GetNumberOfColumns() const
virtual UInt_t GetOffset(Int_t columnIndex) const
virtual Int_t GetOffset(const Char_t* columnName = "0") const
virtual TClass* GetRowClass() const
virtual TTableDescriptor* GetRowDescriptors() const
virtual Long_t GetRowSize() const
Int_t GetSize() const
virtual TTableDescriptor* GetTableDescriptors() const
virtual Long_t GetTableSize() const
virtual const Char_t* GetType() const
static TTable::EColumnType GetTypeId(const char* typeName)
static const char* GetTypeName(TTable::EColumnType type) const
virtual UInt_t GetTypeSize(Int_t columnIndex) const
virtual Int_t GetTypeSize(const Char_t* columnName = "0") const
virtual Long_t HasData() const
virtual Long_t InsertRows(const void* rows, Long_t indx, UInt_t nRows = 1)
virtual TClass* IsA() const
virtual Bool_t IsFolder() const
virtual Char_t* MakeExpression(const Char_t** expressions, Int_t nExpressions)
Int_t NaN()
static TTable* New(const Char_t* name, const Char_t* type, void* array, UInt_t size)
TTable& operator=(const TTable& rhs)
void* operator[](Int_t i)
const void* operator[](Int_t i) const
virtual Char_t* Print(Char_t* buf, Int_t n) const
virtual void Print(Option_t* opt = "") const
virtual const Char_t* Print(Int_t row, Int_t rownumber = 10, const Char_t* colfirst = "", const Char_t* collast = "") const
virtual void PrintContents(Option_t* opt = "") const
virtual const Char_t* PrintHeader() const
virtual void Project(const Text_t* hname, const Text_t* varexp, const Text_t* selection = "", Option_t* option = "", Int_t nentries = 1000000000, Int_t firstentry = 0)
virtual Int_t Purge(Option_t* opt = "")
void* ReAllocate(Int_t newsize)
void* ReAllocate()
virtual void Reset(Int_t c = 0)
virtual void ResetMap(Bool_t wipe = kTRUE)
virtual void SavePrimitive(ofstream& out, Option_t* option)
virtual void Set(Int_t n)
virtual void Set(Int_t n, Char_t* array)
virtual void SetNRows(Int_t n)
virtual void ShowMembers(TMemberInspector& insp, char* parent)
virtual void Streamer(TBuffer& b)
void StreamerNVirtual(TBuffer& b)
static const char* TableDictionary() const
virtual void Update()
virtual void Update(TDataSet* set, UInt_t opt = 0)
protected:
Long_t fSize Size of the one element (row) of the table
Int_t fN Number of array elements
Char_t* fTable Array of (fN*fSize) longs
Long_t fMaxIndex The used capacity of this array
public:
static const TTable::EColumnType kNAN
static const TTable::EColumnType kFloat
static const TTable::EColumnType kInt
static const TTable::EColumnType kLong
static const TTable::EColumnType kShort
static const TTable::EColumnType kDouble
static const TTable::EColumnType kUInt
static const TTable::EColumnType kULong
static const TTable::EColumnType kUShort
static const TTable::EColumnType kUChar
static const TTable::EColumnType kChar
static const TTable::EColumnType kPtr
static const TTable::EColumnType kBool
static const TTable::EColumnType kEndColumnType
static const TTable::ETableBits kIsNotOwn
static const char* fgTypeName[13]
TTable
Wraps the array of the plain C-structures (one C-structure per element)
class TTable provides the automatic schema evolution for
the derived "table" classes saved with ROOT format.
"Automatic Schema evolution" provides:
- skipping data-member if it is not present for the current
implementation of the "table" but was present at the time the
table was written;
- assign a default value ZERO for the brand-new data-members,
those were not in the structure when the object was written but
present now;
- trace propely any change in the order of the data-members
To enjoy this class one has to derive his/her own custom class:
St_dst_track_Table.h:
---------------------
#ifndef STAF_St_dst_track_Table
#define STAF_St_dst_track_Table
#include "TTable.h"
// #include "dst_track.h" the C-structure defintion may be kept
separately
typedef struct dst_track_st {
float r0; /* radius at start (cm). See also comments*
float phi0; /* azimuthal angle at start (deg) *
float z0; /* z-coord. at start (cm) *
float psi; /* azimuthal angle of pT vector (deg) *
float tanl; /* tan(dip) =pz/pt at start *
float invpt; /* 1/pt at start (GeV/c)^(-1) *
float curvature; /* Track curvature (1/cm) *
float covar[15]; /* full covariance matrix *
float chisq[2]; /* Chi-square per degree of freedom *
float x_first[3]; /* coord. of first measured point (cm) *
float x_last[3]; /* coord. of last measured point (cm) *
float length; /* from first to last point (cm) *
float impact; /* primary vertex (cm) *
unsigned long map[2]; /* extrap. info. (see preceeding comments)*
int id; /* Primary key (see comments) *
int iflag; /* bitmask quality info. (see comments) *
int det_id; /* Detector id information *
int method; /* Track finding/fitting method, packed *
int pid; /* Geant particle ID for assumed mass *
int n_point; /* SVT, TPC, FTPC component #s are packed *
int n_max_point; /* SVT, TPC, FTPC component #s are packed *
int n_fit_point; /* SVT, TPC, FTPC component #s are packed *
int icharge; /* Particle charge in units of |e| *
int id_start_vertex; /* final fit and primary track candidates *
} DST_TRACK_ST;
class St_dst_track : public TTable
{
public:
ClassDefTable(St_dst_track,dst_track_st)
ClassDef(St_dst_track,2) //C++ wrapper for <dst_track> StAF table
};
#endif
---------------------
where the CPP macro defines several convinient methods for the
"table" class (see: $ROOTSYS/star/inc/Ttypes.h for details:
#define ClassDefTable(className,structName)
protected:
static TTableDescriptor *fgColDescriptors;
virtual TTableDescriptor *GetDescriptorPointer() const { return fgColDescriptors;}
virtual void SetDescriptorPointer(TTableDescriptor *list) const { fgColDescriptors = list;}
public:
typedef structName* iterator;
className() : TTable(_QUOTE_(className),sizeof(structName)) {SetType(_QUOTE_(structName));}
className(const Text_t *name) : TTable(name,sizeof(structName)) {SetType(_QUOTE_(structName));}
className(Int_t n) : TTable(_QUOTE_(className),n,sizeof(structName)) {SetType(_QUOTE_(structName));}
className(const Text_t *name,Int_t n) : TTable(name,n,sizeof(structName)) {SetType(_QUOTE_(structName));}
structName *GetTable(Int_t i=0) const { return ((structName *)GetArray())+i;}
structName &operator[](Int_t i){ assert(i>=0 && i < GetNRows()); return *GetTable(i); }
const structName &operator[](Int_t i) const { assert(i>=0 && i < GetNRows()); return *((const structName *)(GetTable(i))); }
structName *begin() const { return GetNRows()? GetTable(0):0;}
structName *end() const {Int_t i = GetNRows(); return i? GetTable(i):0;}
The class implementation file may 2 lines and look as follows:
(for the example above):
St_dst_track_Table.cxx:
-----------------------
#include "St_dst_track_Table.h"
TableClassImpl(St_dst_track, dst_track_st)
-----------------------
LinkDef.h
-----------------------
To provide ROOT I/O for this class TWO CINT dictonary entries
should be defined with your custom LinkDef.h file
1. First entry (as usually) for the class derived from TTable
for example:
#pragma C++ class St_dst_track
2. Second entry for the C-structure wrapped into the class.
Since C-structuire is not derived from TObject it must be
properly defined as "foreign" ROOT class
#pragma C++ class dst_track_st+;
-----------------------
meta-variables i$ and n$ introduced
where "i$" stands for the current row index
"n$" stands for the total number of rows
meta-variable can be used along the normal
table column names in the expressions (see for example
method TTable::Draw
TTableDescriptor* GetTableDescriptors() const
protected: create a new TTableDescriptor descriptor for this table
void AsString(void *buf, EColumnType type, Int_t width,ostream &out) const
AsString represents the value provided via "void *b" with type defined
by "name"
void *buf - the pointer to the value to be printed out.
type - the basic data type for the value above
width - the number of psotion to be used to print the value out
const void* At(Int_t i) const
Returns a pointer to the i-th row of the table
Int_t CopyRows(const TTable *srcTable, Long_t srcRow, Long_t dstRow, Long_t nRows, Bool_t expand)
CopyRows copies nRows from starting from the srcRow of srcTable
to the dstRow in this table upto nRows or by the end of this table.
This table if automaticaly increased if expand = kTRUE.
The old values of this table rows are to be destroyed and
replaced with the new ones.
PARAMETERS:
srcTable - a pointer to the table "donor"
srcRow - the index of the first row of the table donor to copy from
dstRow - the index of the first row of this table to copy to
nRows - the total number of rows to be copied. This table will be expanded
as needed if expand = kTRUE (it is kFALSE "by default")
= 0 to copy ALL remain rows from the srcTable.
expand - flag whether this table should reallocated if needed.
RETURN:
the number of the rows been copied
void DeleteRows(Long_t indx, UInt_t nRows)
Delete one or several rows from the table
Int_t indx - index of the first row to be deleted
Int_t nRows - the total number of rows to be deleted
= 1 "by default
TH1* Draw(TCut varexp, TCut selection, Option_t *option, Int_t nentries, Int_t firstentry)
*-*-*-*-*-*-*-*-*-*-*Draw expression varexp for specified entries-*-*-*-*-*
*-* ===========================================
This function accepts TCut objects as arguments.
Useful to use the string operator +
example:
table.Draw("x",cut1+cut2+cut3);
TCutG object with "CUTG" name can be created via the graphics editor.
TH1* Draw(const Text_t *varexp00, const Text_t *selection, Option_t *option,Int_t nentries, Int_t firstentry)
*-*-*-*-*-*-*-*-*-*-*Draw expression varexp for specified entries-*-*-*-*-*
*-* ===========================================
varexp is an expression of the general form e1:e2:e3
where e1,etc is a C++ expression referencing a combination of the TTable columns
One can use two extra meta variable "i$" and "n$" along with the table
column names.
i$ is to involve the current row number
n$ refers the total num,ber of rows of this table provided by TTable::GetNRows()
Example:
varexp = x simplest case: draw a 1-Dim distribution of column named x
= sqrt(x) : draw distribution of sqrt(x)
= x*y/z
= y:sqrt(x) 2-Dim dsitribution of y versus sqrt(x)
= i$:sqrt(x) 2-Dim dsitribution of i versus sqrt(x[i])
= phep[0]:sqrt(phep[3]) 2-Dim dsitribution of phep[0] versus sqrt(phep[3])
Note that the variables e1, e2 or e3 may contain a boolean expression as well.
example, if e1= x*(y<0), the value histogrammed will be x if y<0
and will be 0 otherwise.
selection is a C++ expression with a combination of the columns.
The value corresponding to the selection expression is used as a weight
to fill the histogram.
If the expression includes only boolean operations, the result
is 0 or 1. If the result is 0, the histogram is not filled.
In general, the expression may be of the form:
value*(boolean expression)
if boolean expression is true, the histogram is filled with
a weight = value.
Examples:
selection1 = "x<y && sqrt(z)>3.2 && 6 < i$ && i$ < n$"
selection2 = "(x+y)*(sqrt(z)>3.2"
selection3 = "signal*(log(signal)>1.2)"
selection1 returns a weigth = 0 or 1
selection2 returns a weight = x+y if sqrt(z)>3.2
returns a weight = 0 otherwise.
selection3 returns a weight = signal if log(signal)>1.2
option is the drawing option
see TH1::Draw for the list of all drawing options.
If option contains the string "goff", no graphics is generated.
nentries is the number of entries to process (default is all)
first is the first entry to process (default is 0)
Saving the result of Draw to an histogram
=========================================
By default the temporary histogram created is called htemp.
If varexp0 contains >>hnew (following the variable(s) name(s),
the new histogram created is called hnew and it is kept in the current
directory.
Example:
tree.Draw("sqrt(x)>>hsqrt","y>0")
will draw sqrt(x) and save the histogram as "hsqrt" in the current
directory.
By default, the specified histogram is reset.
To continue to append data to an existing histogram, use "+" in front
of the histogram name;
table.Draw("sqrt(x)>>+hsqrt","y>0")
will not reset hsqrt, but will continue filling.
Making a Profile histogram
==========================
In case of a 2-Dim expression, one can generate a TProfile histogram
instead of a TH2F histogram by specyfying option=prof or option=profs.
The option=prof is automatically selected in case of y:x>>pf
where pf is an existing TProfile histogram.
Saving the result of Draw to a TEventList
=========================================
TTable::Draw can be used to fill a TEventList object (list of entry numbers)
instead of histogramming one variable.
If varexp0 has the form >>elist , a TEventList object named "elist"
is created in the current directory. elist will contain the list
of entry numbers satisfying the current selection.
Example:
tree.Draw(">>yplus","y>0")
will create a TEventList object named "yplus" in the current directory.
In an interactive session, one can type (after TTable::Draw)
yplus.Print("all")
to print the list of entry numbers in the list.
By default, the specified entry list is reset.
To continue to append data to an existing list, use "+" in front
of the list name;
table.Draw(">>+yplus","y>0")
will not reset yplus, but will enter the selected entries at the end
of the existing list.
Bool_t EntryLoop(const Char_t *exprFileName,Int_t &action, TObject *obj
,Int_t nentries, Int_t firstentry, Option_t *option)
EntryLoop creates a CINT bytecode to evaluate the given expressions for
all table rows in loop and fill the appropriated histograms.
Solution for Byte code
From: Masaharu Goto <MXJ02154@nifty.ne.jp>
To: <fine@bnl.gov>
Cc: <rootdev@hpsalo.cern.ch>
Sent: 13-th august 1999 year 23:01
action = 1 Fill 1-D histogram obj
= 2 Fill 2-D histogram obj
= 3 Fill 3-D histogram obj
= 4 Fill Profile histogram obj
= 5 Fill a TEventlist
= 11 Estimate Limits
= 12 Fill 2-D PolyMarker obj
= 13 Fill 3-D PolyMarker obj
action < 0 Evaluate Limits for case abs(action)
Load file
TTable(const Text_t *name, Int_t size) : TDataSet(name),
fSize(size),fN(0), fTable(0),fMaxIndex(0)
Default TTable ctor.
TTable(const Text_t *name, Int_t n,Int_t size) : TDataSet(name),
fSize(size),fN(0),fTable(0),fMaxIndex(0)
Create TTable object and set array size to n longs.
TTable(const Text_t *name, Int_t n, Char_t *table,Int_t size) : TDataSet(name),
fSize(size),fN(0),fTable(0),fMaxIndex(0)
Create TTable object and initialize it with values of array.
TTable(const Text_t *name, const Text_t *type, Int_t n, Char_t *array, Int_t size)
: TDataSet(name),fSize(size),fTable(0),fMaxIndex(0)
Create TTable object and initialize it with values of array.
TTable(const TTable &table):TDataSet(table)
Copy constructor.
~TTable()
Delete TTable object.
void Adopt(Int_t n, void *arr)
Adopt array arr into TTable, i.e. don't copy arr but use it directly
in TTable. User may not delete arr, TTable dtor will do it.
Int_t AddAt(const void *row)
Add the "row" at the GetNRows() position, and
reallocate the table if neccesary, and
return the row index the "row" has occupied.
row == 0 see method TTable::AddAt(const void *row, Int_t i)
void AddAt(const void *row, Int_t i)
Add one element ("row") of structure at position "i".
Check for out of bounds.
If the row == 0 the "i" cell is still occupied and
filled with the pattern "ff"
void CopyStruct(Char_t *dest, const Char_t *src)
Copy the C-structure src into the new location
the length of the strucutre is defined by this class descriptor
void CopySet(TTable &array)
const Char_t* GetColumnComment(Int_t columnIndex) const
Get a comment from the table descriptor
Long_t AppendRows(const void *row, UInt_t nRows)
Append nRows row of the array "row" to the table
return
- the new table size (# of table rows)
- 0 if the object doesn't own the internal array and can not expand it
Long_t InsertRows(const void *row, Long_t indx, UInt_t nRows)
void InsertRows(cons void *row, Long_t indx, UInt_t nRows)
Insert one or several rows into the table at "indx" position
The rest table stuff is shifted down
cons void - a pointer to the array of rows to be inserted
Long_t indx = The position these rows will be inserted to
Int_t nRows - the total number of rows to be inserted
= 1 "by default
return:
The number of the rows has been shifted to accomodate
the new rows.
void* ReAllocate()
Reallocate this table leaving only (used rows)+1 allocated
GetTableSize() = GetNRows() + 1
returns a pointer to the first row of the reallocated table
Note:
The table is reallocated if it is an owner of the internal array
void* ReAllocate(Int_t newsize)
Reallocate this table leaving only <newsize> allocated
GetTableSize() = newsize;
returns a pointer to the first row of the reallocated table
Note:
The table is reallocated if it is an owner of the internal array
void ReAlloc(Int_t newsize)
The table is reallocated if it is an owner of the internal array
Char_t* Create()
Allocate a space for the new table, if any
Sleep for a while if space is not available and try again
void Browse(TBrowser *b)
Wrap each table coulumn with TColumnView object to browse.
void Clear(Option_t *opt)
Deletes the internal array of this class
if this object does own its internal table
void Delete(Option_t *opt)
Delete the internal array and free the memory it occupied
if this object did own this array
Then perform TDataSet::Delete(opt)
TClass* GetRowClass() const
Long_t GetNRows() const
Returns the number of the used rows for the wrapped table
Long_t GetRowSize() const
Returns the size (in bytes) of one table row
Long_t GetTableSize() const
Returns the number of the allocated rows
void Fit(const Text_t *formula ,const Text_t *varexp, const Text_t *selection,Option_t *option ,Option_t *goption,Int_t nentries, Int_t firstentry)
*-*-*-*-*-*-*-*-*Fit a projected item(s) from a TTable*-*-*-*-*-*-*-*-*-*
*-* =======================================
formula is a TF1 expression.
See TTable::Draw for explanations of the other parameters.
By default the temporary histogram created is called htemp.
If varexp contains >>hnew , the new histogram created is called hnew
and it is kept in the current directory.
Example:
table.Fit(pol4,"sqrt(x)>>hsqrt","y>0")
will fit sqrt(x) and save the histogram as "hsqrt" in the current
directory.
const Char_t* GetType() const
Returns the type of the wrapped C-structure kept as the TNamed title
Bool_t IsFolder() const
return Folder flag to be used by TBrowse object
The table is a folder if
- it has sub-dataset
or
- GetNRows > 0
Int_t NaN()
return the total number of the NaN for float/double cells of this table
Thanks Victor Perevoztchikov
TTable* New(const Char_t *name, const Char_t *type, void *array, UInt_t size)
This static method creates a new TTable object if provided
Bool_t OutOfBoundsError(const char *where, Int_t i) const
Generate an out-of-bounds error. Always returns false.
Char_t* Print(Char_t *strbuf,Int_t lenbuf) const
Create IDL table defintion (to be used for XDF I/O)
const Char_t* PrintHeader() const
Print general table inforamtion
const Char_t* Print(Int_t row, Int_t rownumber, const Char_t *, const Char_t *) const
const Char_t *TTable::Print(Int_t row, Int_t rownumber, const Char_t *colfirst, const Char_t *collast) const
//const Char_t* Print(Int_t row, Int_t rownumber, const Char_t *colfirst, const Char_t *collast) const
//
// Print the contents of internal table per COLUMN.
//
// row - the index of the first row to print (counting from ZERO)
// rownumber - the total number of rows to print out (=10 by default)
//
// (No use !) Char_t *colfirst, *collast - the names of the first/last
// to print out (not implemented yet)
//
//--------------------------------------------------------------
// Check bounds and adjust it
Int_t const width = 8;
Int_t rowStep = 10; // The maximun values to print per line
Int_t rowNumber = rownumber;
if (row > Int_t(GetSize()) || GetSize() == UInt_t(0))
void PrintContents(Option_t *) const
void Project(const Text_t *hname, const Text_t *varexp, const Text_t *selection, Option_t *option,Int_t nentries, Int_t firstentry)
*-*-*-*-*-*-*-*-*Make a projection of a TTable using selections*-*-*-*-*-*-*
*-* =============================================
Depending on the value of varexp (described in Draw) a 1-D,2-D,etc
projection of the TTable will be filled in histogram hname.
Note that the dimension of hname must match with the dimension of varexp.
Int_t Purge(Option_t *opt)
Shrink the table to free the unused but still allocated rows
void SavePrimitive(ofstream &out, Option_t *)
Save a primitive as a C++ statement(s) on output stream "out".
void Set(Int_t n)
Set array size of TTable object to n longs. If n<0 leave array unchanged.
void SetTablePointer(void *table)
void SetType(const Text_t *const type)
Char_t* MakeExpression(const Char_t *expressions[],Int_t nExpressions)
Create CINT macro to evaluate the user-provided expresssion
Expression may contains:
- the table columen names
- 2 meta names: i$ - the current column index,
n$ - the total table size provided by TTable::GetNRows() method
return the name of temporary file with the current expressions
void Reset(Int_t c)
Fill the entire table with byte "c" ;
/ c=0 "be default"
void ResetMap(Bool_t wipe)
Clean all filled columns with the pointers to TTableMap
if any
wipe = kTRUE - delete all object the Map's point to
kFALSE - zero pointer, do not call "delete" though
void Set(Int_t n, Char_t *array)
Set array size of TTable object to n longs and copy array.
If n<0 leave array unchanged.
void StreamerTable(TBuffer &b,Version_t version)
Stream an object of class TTable.
void StreamerHeader(TBuffer &b, Version_t version)
Read "table parameters first"
Int_t SetfN(Long_t len)
TTableDescriptor* GetRowDescriptors() const
TTableDescriptor* GetDescriptorPointer() const
void SetDescriptorPointer(TTableDescriptor *)
void Streamer(TBuffer &R__b)
Stream an array of the "plain" C-structures
void Update()
void Update(TDataSet *set, UInt_t opt)
Kill the table current data
and adopt those from set
const char* TableDictionary(const char *className,const char *structName,TTableDescriptor *&ColDescriptors)
Query the TClass instance for the C-stucture dicitonary
This method is to be used with TableImp CPP macro (see $ROOTSYS/table/inc/Ttypes.h
Int_t GetColumnIndex(const Char_t *columnName) const
const Char_t* GetColumnName(Int_t columnIndex) const
const UInt_t* GetIndexArray(Int_t columnIndex) const
UInt_t GetNumberOfColumns() const
UInt_t GetOffset(Int_t columnIndex) const
Int_t GetOffset(const Char_t *columnName) const
UInt_t GetColumnSize(Int_t columnIndex) const
Int_t GetColumnSize(const Char_t *columnName) const
UInt_t GetTypeSize(Int_t columnIndex) const
Int_t GetTypeSize(const Char_t *columnName) const
UInt_t GetDimensions(Int_t columnIndex) const
Int_t GetDimensions(const Char_t *columnName) const
Inline Functions
Bool_t BoundsOk(const char* where, Int_t at) const
void SetUsedRows(Int_t n)
TTable& operator=(const TTable& rhs)
void AddAt(TDataSet* dataset, Int_t idx = 0)
TH1* Draw(const Text_t* varexp, const Text_t* selection, Option_t* option = "", Int_t nentries = 1000000000, Int_t firstentry = 0)
void* GetArray() const
Int_t GetSize() const
Long_t HasData() const
void SetNRows(Int_t n)
void* operator[](Int_t i)
const void* operator[](Int_t i) const
TTable::EColumnType GetColumnType(Int_t columnIndex) const
TTable::EColumnType GetColumnType(const Char_t* columnName = "0") const
const char* GetTypeName(TTable::EColumnType type) const
TTable::EColumnType GetTypeId(const char* typeName)
const char* TableDictionary() const
TClass* Class()
TClass* IsA() const
void ShowMembers(TMemberInspector& insp, char* parent)
void StreamerNVirtual(TBuffer& b)
Author: Valery Fine(fine@bnl.gov) 03/07/98
Last update: root/star:$Name: $:$Id: TTable.cxx,v 1.10 2005/02/10 07:24:49 brun Exp $
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