windows-nt/Source/XPSP1/NT/net/ias/iasjet/dnary/simtable.h

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2020-09-26 03:20:57 -05:00
///////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 1997, Microsoft Corp. All rights reserved.
//
// FILE
//
// SimTable.h
//
// SYNOPSIS
//
// This file describes the class CSimpleTable
//
// MODIFICATION HISTORY
//
// 10/31/1997 Original version.
// 02/09/1998 Reorganized some things to make is easier to extend.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef _SIMTABLE_H_
#define _SIMTABLE_H_
#include <atlbase.h>
#include <oledb.h>
#include <bitvec.h>
struct DBBinding;
///////////////////////////////////////////////////////////////////////////////
//
// CLASS
//
// CSimpleTable
//
// DESCRIPTION
//
// This class provides a simple read-only wrapper for iterating through a
// rowset and retrieving information. The interface is based on the ATL
// CTable<> class. I kept all the function signatures the same, so the two
// should be almost interchangeable. The main difference is that CTable<>
// opens a table and retrieves a rowset, while CSimpleTable is handed a
// rowset that was retrieved elsewhere.
//
///////////////////////////////////////////////////////////////////////////////
class CSimpleTable
{
public:
CSimpleTable();
~CSimpleTable();
HRESULT Attach(IRowset* pRowset);
IRowset* Detach();
HRESULT MoveFirst();
HRESULT MoveNext();
HRESULT Insert();
HRESULT Delete();
HRESULT SetData();
void DiscardChanges()
{
dirty.reset();
}
DBORDINAL GetColumnCount() const
{
return numColumns;
}
DBCOLUMNFLAGS GetColumnFlags(DBORDINAL nOrdinal) const
{
return columnInfo[OrdinalToColumn(nOrdinal)].dwFlags;
}
LPCWSTR GetColumnName(DBORDINAL nOrdinal) const
{
return columnInfo[OrdinalToColumn(nOrdinal)].pwszName;
}
DBTYPE GetColumnType(DBORDINAL nOrdinal) const
{
return columnInfo[OrdinalToColumn(nOrdinal)].wType;
}
DBLENGTH GetLength(DBORDINAL nOrdinal) const;
bool GetOrdinal(LPCWSTR szColumnName, DBORDINAL* pOrdinal) const;
DBSTATUS GetStatus(DBORDINAL nOrdinal) const;
const void* GetValue(DBORDINAL nOrdinal) const
{
return _GetDataPtr(nOrdinal);
}
template <class T>
void SetValue(DBORDINAL nOrdinal, const T& t)
{
*(T*)_GetDataPtr(nOrdinal) = t;
}
template <>
void SetValue(DBORDINAL nOrdinal, PCSTR szValue)
{
strcpy((PSTR)_GetDataPtr(nOrdinal), szValue);
}
template <>
void SetValue(DBORDINAL nOrdinal, PSTR szValue)
{
strcpy((PSTR)_GetDataPtr(nOrdinal), szValue);
}
bool HasBookmark() const
{
return (numColumns > 0) && (columnInfo->iOrdinal == 0);
}
protected:
enum { FETCH_QUANTUM = 256 }; // The number of rows fetched at a time.
HRESULT CreateAccessorForWrite(HACCESSOR* phAccessor);
void* _GetDataPtr(DBORDINAL nOrdinal);
const void* _GetDataPtr(DBORDINAL nOrdinal) const
{
return buffer +
(ULONG_PTR)columnInfo[OrdinalToColumn(nOrdinal)].pTypeInfo;
}
HRESULT ReleaseRows();
DBORDINAL OrdinalToColumn(DBORDINAL nOrdinal) const
{
return nOrdinal -= columnInfo->iOrdinal;
}
// Various representations of the rowset being manipulated.
CComPtr<IRowset> rowset;
CComPtr<IAccessor> accessor;
CComPtr<IRowsetChange> rowsetChange;
DBORDINAL numColumns; // Number of columns in the table.
DBCOLUMNINFO* columnInfo; // Column info.
OLECHAR* stringsBuffer; // Buffer used by columnInfo.
DBBinding* columnBinding; // Column bindings.
HACCESSOR readAccess; // Handle for read accessor.
PBYTE buffer; // Accessor buffer.
DBLENGTH bufferLength; // Length of accessor buffer.
HROW row[FETCH_QUANTUM]; // Array of row handles.
DBCOUNTITEM numRows; // Number of rows in the row array.
DBCOUNTITEM currentRow; // Current row being accessed.
BitVector dirty; // Columns that have been modified.
bool endOfRowset; // True if we've reached the end of the rowset.
};
#endif // _SIMTABLE_H_