使用 IRow::GetColumns (或 IRow::Open) 和 ISequentialStream 來提取資料行
您可以使用 ISequentialStream 介面來繫結或擷取大型資料。 若為繫結資料行,狀態旗標 DBSTATUS_S_TRUNCATED 會指出資料是否遭到截斷。
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使用 IRow::GetColumns (或 IRow::Open) 和 ISequentialStream 來提取資料行
建立資料來源的連接。
執行命令 (在此範例中,ICommandExecute::Execute() 是使用 IID_IRow 呼叫的)。
使用 IRow::Open() 或 IRow::GetColumns() 來提取資料行資料。
IRow::Open() 可用來開啟資料列的 ISequentialStream。 指定 DBGUID_STREAM,表示資料行包含二進位資料的資料流 (然後 IStream 或 ISequentialStream 就可用來讀取資料行中的資料)。
如果使用了 IRow::GetColumns(),DBCOLUMNACCESS 結構的 pData 元素就會設定為指向資料流物件。
重複使用 ISequentialStream::Read(),將指定的位元組數目讀入取用者緩衝區中。
範例
此範例會示範如何使用 IRow 提取單一資料列。 在此範例中,系統會從資料列一次擷取一個資料行。 此範例會說明 IRow::Open() 以及 IRow::GetColumns() 的使用方式。 為了讀取資料行的資料,此範例會使用 ISequentialStream::Read。
此範例需要 AdventureWorks 範例資料庫,您可以從 Microsoft SQL Server 範例和社群專案首頁 (英文) 下載。
第一個 (Transact-SQL) 程式碼清單會建立此範例所使用的資料表。
使用 ole32.lib oleaut32.lib 編譯並執行第二個 (C++) 程式碼清單。 這個應用程式會連接到電腦的預設 SQL Server 執行個體。 在某些 Windows 作業系統上,您必須將 (localhost) 或 (local) 變更為 SQL Server 執行個體的名稱。 若要連接到具名執行個體,請將連接字串從 L"(local)" 變更為 L"(local)\\name",其中 name 是具名執行個體。 根據預設,SQL Server Express 會安裝至具名執行個體。 請確認您的 INCLUDE 環境變數包含的目錄內含 sqlncli.h。
第三個 (Transact-SQL) 程式碼清單會刪除此範例所使用的資料表。
USE AdventureWorks
GO
IF EXISTS (SELECT name FROM sysobjects WHERE name = 'MyTable')
DROP TABLE MyTable
GO
CREATE TABLE MyTable
(
col1 int,
col2 varchar(50),
col3 char(50),
col4 datetime,
col5 float,
col6 money,
col7 sql_variant,
col8 binary(50),
col9 text,
col10 image
)
GO
-- Enter data
INSERT INTO MyTable
values
(
10,
'abcdefghijklmnopqrstuvwxyz',
'ABCDEFGHIJKLMNOPQRSTUVWXYZ',
'11/1/1999 11:52 AM',
3.14,
99.95,
CONVERT(nchar(50), N'AbCdEfGhIjKlMnOpQrStUvWxYz'),
0x123456789,
REPLICATE('AAAAABBBBB', 500),
REPLICATE(0x123456789, 500)
)
GO
// compile with: ole32.lib oleaut32.lib
#define DBINITCONSTANTS
#define INITGUID
#define OLEDBVER 0x0250 // to include correct interfaces
#include <stdio.h>
#include <windows.h>
#include <iostream>
#include <oledb.h>
#include <sqlncli.h>
using namespace std;
const int kMaxBuff = 50;
int InitializeAndEstablishConnection();
HRESULT GetColumnSize(IRow* pUnkRow, ULONG iCol);
ULONG PrintData(ULONG iCols, ULONG iStart, DBCOLUMNINFO* prgInfo, DBCOLUMNACCESS* prgColumns);
HRESULT GetColumns(IRow* pUnkRow, ULONG iStart, ULONG iEnd);
HRESULT GetSequentialColumn(IRow* pUnkRow, ULONG iCol, BOOL fOpen = TRUE);
IDBInitialize* pIDBInitialize = NULL;
IDBProperties* pIDBProperties = NULL;
IDBCreateSession* pIDBCreateSession = NULL;
IDBCreateCommand* pIDBCreateCommand = NULL;
ICommandText* pICommandText = NULL;
IRow* pIRow = NULL;
DBCOLUMNINFO* pDBColumnInfo = NULL;
IAccessor* pIAccessor = NULL;
DBPROP InitProperties[4];
DBPROPSET rgInitPropSet[1];
ULONG i, j;
HRESULT hresult;
DBROWCOUNT cNumRows = 0;
ULONG lNumCols;
WCHAR* pStringsBuffer;
DBBINDING* pBindings;
ULONG ConsumerBufColOffset = 0;
HACCESSOR hAccessor;
ULONG lNumRowsRetrieved;
HROW hRows[10];
HROW* pRows = &hRows[0];
int main() {
ULONG iidx = 0;
WCHAR* wCmdString = OLESTR("SELECT * FROM MyTable ");
// Call a function to initialize and establish connection.
if (InitializeAndEstablishConnection() == -1) {
cout << "Failed to initialize and establish connection.\n";
// Insert your code for cleanup and error handling
return -1;
}
// Create a session object.
if (FAILED(pIDBInitialize->QueryInterface( IID_IDBCreateSession, (void**) &pIDBCreateSession))) {
cout << "Failed to obtain IDBCreateSession interface.\n";
// Insert your code for cleanup and error handling
return -1;
}
if (FAILED(pIDBCreateSession->CreateSession( NULL,
IID_IDBCreateCommand,
(IUnknown**) &pIDBCreateCommand))) {
cout << "pIDBCreateSession->CreateSession failed.\n";
// Insert your code for cleanup and error handling
return -1;
}
// Access the ICommandText interface.
if (FAILED(pIDBCreateCommand->CreateCommand( NULL, IID_ICommandText, (IUnknown**) &pICommandText))) {
cout << "Failed to access ICommand interface.\n";
// Insert your code for cleanup and error handling
return -1;
}
// Use SetCommandText() to specify the command text.
if (FAILED(pICommandText->SetCommandText(DBGUID_DBSQL, wCmdString))) {
cout << "Failed to set command text.\n";
// Insert your code for cleanup and error handling
return -1;
}
// Execute the command.
if (FAILED(hresult = pICommandText->Execute( NULL, IID_IRow, NULL, &cNumRows, (IUnknown **) &pIRow))) {
cout << "Failed to execute command.\n";
// Insert your code for cleanup and error handling
return -1;
}
DBORDINAL cColumns = 0;
DBCOLUMNINFO* prgInfo = 0;
OLECHAR* pColNames;
// Get column count
HRESULT hr;
IColumnsInfo* pIColumnsInfo;
hr = pIRow->QueryInterface(IID_IColumnsInfo, (void**) &pIColumnsInfo);
if (FAILED(hr))
goto CLEANUP;
hr = pIColumnsInfo->GetColumnInfo(&cColumns, &prgInfo, &pColNames);
if (FAILED(hr))
goto CLEANUP;
// Get columns (one at a time) using ISequentialStream and Open
// 3rd parameter is by default TRUE indicating use of ISequentialStream and Open.
DBCOLUMNINFO* colInfo;
for ( iidx = 1 ; iidx <= cColumns ; iidx++ ) {
colInfo = (DBCOLUMNINFO*)(prgInfo + (iidx - 1));
if (colInfo->dwFlags & DBCOLUMNFLAGS_ISLONG)
hresult = GetSequentialColumn(pIRow, iidx);
else
hresult = GetColumns(pIRow, iidx, iidx);
}
// Release the Row object.
pIRow->Release();
// Execute the command again.
if (FAILED(hresult = pICommandText->Execute(NULL,
IID_IRow,
NULL,
&cNumRows,
(IUnknown **) &pIRow))) {
cout << "Failed to execute command.\n";
// Insert your code for cleanup and error handling
return -1;
}
// Now get columns (one at a time) using ISequentialStream and GetColumns.
// The 3rd parameter is by default TRUE indicating use of ISequentialStream
// and GetColumns
for ( iidx = 1 ; iidx <= cColumns ; iidx++ ) {
colInfo = (DBCOLUMNINFO*)(prgInfo + (iidx - 1));
if (colInfo->dwFlags & DBCOLUMNFLAGS_ISLONG)
hresult = GetSequentialColumn(pIRow, iidx, FALSE);
else
hresult = GetColumns(pIRow, iidx, iidx);
}
CLEANUP:
// Release memory.
pICommandText->Release();
pIDBCreateCommand->Release();
pIDBCreateSession->Release();
if (FAILED(pIDBInitialize->Uninitialize())) {
// Uninitialize not required, but it fails if an interface has not been released, can be used for debugging.
// cout << "Problem uninitializing.\n";
}
pIDBInitialize->Release();
CoTaskMemFree(prgInfo);
CoTaskMemFree(pColNames);
if( pIColumnsInfo )
pIColumnsInfo->Release();
// Release the COM library.
CoUninitialize();
}
HRESULT GetSequentialColumn(IRow* pUnkRow, ULONG iCol, BOOL fOpen) {
HRESULT hr = NOERROR;
ULONG cbRead = 0;
ULONG cbTotal = 0;
DBORDINAL cColumns = 0;
ULONG cReads = 0;
ISequentialStream* pIStream = NULL;
WCHAR* pBuffer[kMaxBuff]; // 50 chars read by ISequentialStream::Read()
DBCOLUMNINFO* prgInfo = 0;
OLECHAR* pColNames = 0;
IColumnsInfo* pIColumnsInfo;
DBID columnid;
DBCOLUMNACCESS column;
wprintf(L"[RETRIEVING COLUMN %d SEQUENTIALLY]\n", iCol);
// Get column information (basically get column id).
hr = pUnkRow->QueryInterface(IID_IColumnsInfo, (void**) &pIColumnsInfo);
if (FAILED(hr))
goto CLEANUP;
hr = pIColumnsInfo->GetColumnInfo(&cColumns, &prgInfo, &pColNames);
if (FAILED(hr))
goto CLEANUP;
// Get Column ID.
columnid = (prgInfo + (iCol - 1))->columnid;
if (fOpen) { // Get columns using ISequentialStream and IRow::Open
wprintf(L"[RETRIEVING COLUMNS USING ");
wprintf(L" ISequentialSteam and Open]\n");
// Open sequential stream.
hr = pUnkRow->Open(NULL,
&columnid,
DBGUID_STREAM,
0,
IID_ISequentialStream,
(LPUNKNOWN *)&pIStream);
if (FAILED(hr)) {
wprintf(L"Unable to get ISequentialStream interface.\n");
goto CLEANUP;
}
}
else { // Get Columns using IRow::GetColumns and ISequentialStream.
wprintf(L"[RETRIEVING COLUMNS USING ");
wprintf(L" GetColumns and ISequentialStream]\n");
IUnknown* pUnkStream = NULL;
ZeroMemory(&column, sizeof(column));
column.columnid = prgInfo[iCol - 1].columnid;
column.wType = DBTYPE_IUNKNOWN;
column.pData = (LPVOID*) &pUnkStream;
hr = pUnkRow->GetColumns(1, &column);
if (FAILED(hr)) {
wprintf(L"Error executing IRow::GetColumns.\n");
goto CLEANUP;
}
hr = pUnkStream->QueryInterface(IID_ISequentialStream, (LPVOID*) &pIStream);
if (FAILED(hr)) {
wprintf(L"Unable to get ISequentialStream interface ");
wprintf(L"via IRow::GetColumns.\n");
goto CLEANUP;
}
pUnkStream->Release();
}
ZeroMemory(pBuffer, kMaxBuff * sizeof(WCHAR));
// Read 50 chars at a time until no more data.
do {
hr = pIStream->Read(pBuffer, kMaxBuff, &cbRead);
if (FAILED(hr)) {
wprintf(L"Error reading data.\n");
goto CLEANUP;
}
cbTotal = cbTotal + cbRead;
// Print the data
wprintf(L"READ #%d: %-*S\n", ++cReads, kMaxBuff, pBuffer);
} while(cbRead > 0);
wprintf(L"[READ %d bytes for column %d.\n", cbTotal, iCol);
CLEANUP:
if (pIColumnsInfo)
pIColumnsInfo->Release();
CoTaskMemFree(prgInfo);
CoTaskMemFree(pColNames);
if (pIStream)
pIStream->Release();
return hr;
}
BOOL InitColumn(DBCOLUMNACCESS* pCol, DBCOLUMNINFO* pInfo) {
// If maximum possible length of a value column is very large (text or image
// column is read) limit that size to 512 bytes (for illustration purposes).
ULONG ulSize;
if (pInfo->wType == DBTYPE_WSTR || pInfo->wType == DBTYPE_STR)
ulSize = (pInfo->ulColumnSize < 0x7fffffff) ? pInfo->ulColumnSize : 512;
else
ulSize = 128; //default buffer to handle conversion to text of non-string data types
// Verify data buffer is large enough.
if (pCol->cbMaxLen < (ulSize + 1)) {
if (pCol->pData) {
delete [] pCol->pData;
pCol->pData = NULL;
}
// Allocate data buffer
void * p = pCol->pData = new WCHAR[ulSize + 1];
if (!(p /*pCol->pData = new WCHAR[ulSize + 1]*/ ))
return FALSE;
// set the max length of caller-initialized memory.
pCol->cbMaxLen = sizeof(WCHAR) * (ulSize + 1);
// In the above 2 steps, pData is pointing to memory (it is not NULL) and
// cbMaxLen has a value (not 0), so next call to IRow->GetData()
// will read the data from the column.
}
// Clear memory buffer
ZeroMemory((void*) pCol->pData, pCol->cbMaxLen);
// Set properties.
//pCol->wType = DBTYPE_WSTR;
pCol->wType = DBTYPE_WSTR;
pCol->columnid = pInfo->columnid;
pCol->cbDataLen = 0;
pCol->dwStatus = 0;
pCol->dwReserved = 0;
pCol->bPrecision = 0;
pCol->bScale = 0;
return TRUE;
}
HRESULT GetColumns(IRow* pUnkRow, ULONG iStart, ULONG iEnd) {
// Start and end are same. Thus, get only one column.
HRESULT hr = E_FAIL;
ULONG iidx; // loop counter
DBORDINAL cColumns; // Count of columns
ULONG cUserCols; // Count of user columns
DBCOLUMNINFO* prgInfo; // Column of info. array
OLECHAR* pColNames; // Array of column names
DBCOLUMNACCESS* prgColumns; // Ptr to column access structures array
DBCOLUMNINFO* pCurrInfo;
DBCOLUMNACCESS* pCurrCol;
IColumnsInfo* pIColumnsInfo = NULL;
// Initialize
cColumns = 0;
prgInfo = NULL;
pColNames = NULL;
prgColumns = NULL;
printf("Retrieving data with GetColumns\n");
// Get column info to build column access array
hr = pUnkRow->QueryInterface(IID_IColumnsInfo, (void**)&pIColumnsInfo);
if (FAILED(hr))
goto CLEANUP;
hr = pIColumnsInfo->GetColumnInfo(&cColumns, &prgInfo, &pColNames);
if (FAILED(hr))
goto CLEANUP;
// Determine no. of columns to retrieve. Since iEnd and iStart is same,
// this is redundent step. cUserCols will always be 1.
cUserCols = iEnd - iStart + 1;
// Walk list of columns and setup a DBCOLUMNACCESS structure
DBCOLUMNACCESS * x = (prgColumns = new DBCOLUMNACCESS[cUserCols]);
if (!(x /*prgColumns = new DBCOLUMNACCESS[cUserCols]*/ )) { // cUserCols is only 1
hr = E_FAIL;
goto CLEANUP;
}
ZeroMemory((void*) prgColumns, sizeof(DBCOLUMNACCESS) * cUserCols);
for ( iidx = 0 ; iidx < cUserCols ; iidx++ ) {
pCurrInfo = prgInfo + iidx + iStart - 1;
pCurrCol = prgColumns + iidx;
// Here the values of pData and cbMaxLen elements of DBCOLUMNACCESS
// elements is set. Thus IRow->GetColumns() will return actual data.
if ( InitColumn(pCurrCol, pCurrInfo) == FALSE )
goto CLEANUP;
}
hr = pUnkRow->GetColumns(cUserCols, prgColumns); // cUserCols = 1
if (FAILED(hr))
printf("Error occured\n");
// Show data.
PrintData(cUserCols, iStart, prgInfo, prgColumns);
CLEANUP:
if (pIColumnsInfo)
pIColumnsInfo->Release();
if (prgColumns)
delete [] prgColumns;
return hr;
}
// This function returns the actual width of the data in the column (not the
// columnwidth in DBCOLUMNFO structure which is the width of the column)
HRESULT GetColumnSize(IRow* pUnkRow, ULONG iCol) {
HRESULT hr = NOERROR;
DBORDINAL cColumns = 0; // Count the columns
DBCOLUMNINFO* prgInfo; // Column info array
OLECHAR* pColNames;
DBCOLUMNACCESS column;
DBCOLUMNINFO* pCurrInfo;
IColumnsInfo* pIColumnsInfo = NULL;
// Initialize
prgInfo = NULL;
pColNames = NULL;
printf("Checking column size\n");
// Get column info to build column access array
hr = pUnkRow->QueryInterface(IID_IColumnsInfo, (void**) &pIColumnsInfo);
if (FAILED(hr))
goto CLEANUP;
hr = pIColumnsInfo->GetColumnInfo(&cColumns, &prgInfo, &pColNames);
if (FAILED(hr))
goto CLEANUP;
printf("Value of cColumns is %d\n", cColumns);
// Setup a DBCOLUMNACCESS structure: pData is set to NULL and cbMaxLen is set
// to 0. Thus IRow->GetColumns() returns only the actual column length in
// cbDataLen member of DBCOLUMNACCESS structure.In this case you can call
// IRow->GetColumns() again for the same column to retrieve actual data in the second call.
ZeroMemory((void*) &column, sizeof(DBCOLUMNACCESS));
column.pData = NULL;
pCurrInfo = prgInfo + iCol - 1;
// Get column id in DBCOLUMNACCESS structure. It is then used in GetColumn().
column.columnid = pCurrInfo->columnid;
printf("column.columnid value is %d\n", column.columnid);
// We know which column to get. The column.columnid gives the column number.
hr = pUnkRow->GetColumns(1, &column);
if (FAILED(hr))
printf("Errors occured\n");
// Show data
PrintData(1, iCol, prgInfo, &column);
CLEANUP:
if (pIColumnsInfo)
pIColumnsInfo->Release();
return hr;
}
BOOL GetStatus(DWORD dwStatus, WCHAR* pwszStatus) {
switch (dwStatus) {
case DBSTATUS_S_OK:
wcscpy_s(pwszStatus, 255, L"DBSTATUS_S_OK");
break;
case DBSTATUS_E_CANTCONVERTVALUE:
wcscpy_s(pwszStatus, 255, L"DBSTATUS_E_CANTCONVERTVALUE");
break;
case DBSTATUS_S_ISNULL:
wcscpy_s(pwszStatus, 255, L"DBSTATUS_S_ISNULL");
break;
case DBSTATUS_E_UNAVAILABLE:
wcscpy_s(pwszStatus, 255, L"DBSTATUS_E_UNAVAILABLE");
break;
case DBSTATUS_S_TRUNCATED:
wcscpy_s(pwszStatus, 255, L"DBSTATUS_S_TRUNCATED");
break;
default:
swprintf_s(pwszStatus, sizeof(pwszStatus), L"OTHER STATUS VALUE: %d", dwStatus);
}
return TRUE;
}
ULONG PrintData(ULONG iCols,
ULONG iStart,
DBCOLUMNINFO* prgInfo,
DBCOLUMNACCESS* prgColumns) {
WCHAR wszStatus[255];
DBCOLUMNINFO* pCurrInfo;
DBCOLUMNACCESS* pCurrCol;
ULONG iidx = 0; // Loop counter
printf("%-3s %-20s %-21s %-9s %-9s %-50s\n", "No.", "Name", "Status", "Length", "Max", "Data");
for ( iidx = 0 ; iidx < iCols ; iidx++ ) {
pCurrInfo = prgInfo + iidx + iStart - 1;
pCurrCol = prgColumns + iidx;
GetStatus(pCurrCol->dwStatus, wszStatus);
// was the data successfully retrieved?
wprintf(L"%-3d %-20s %-21s %-9d %-9d %-50s\n", iStart + iidx,
pCurrInfo->pwszName,
wszStatus,
pCurrCol->cbDataLen,
pCurrCol->cbMaxLen,
pCurrCol->dwStatus == DBSTATUS_S_ISNULL ? L"(NULL)" : (WCHAR*) pCurrCol->pData);
}
wprintf(L"\n");
return iidx;
}
int InitializeAndEstablishConnection() {
// Initialize the COM library.
CoInitialize(NULL);
// Obtain access to the SQLNCLI provider.
hresult = CoCreateInstance(CLSID_SQLNCLI11,
NULL,
CLSCTX_INPROC_SERVER,
IID_IDBInitialize,
(void **) &pIDBInitialize);
if(FAILED(hresult)) {
printf("Failed to get IDBInitialize interface.\n");
// Insert your code for cleanup and error handling
return -1;
}
// Initialize the property values needed to establish the connection.
for (i = 0 ; i < 4 ; i++ )
VariantInit(&InitProperties[i].vValue);
// Server name.
InitProperties[0].dwPropertyID = DBPROP_INIT_DATASOURCE;
InitProperties[0].vValue.vt = VT_BSTR;
InitProperties[0].vValue.bstrVal = SysAllocString(L"(local)");
InitProperties[0].dwOptions = DBPROPOPTIONS_REQUIRED;
InitProperties[0].colid = DB_NULLID;
// Database.
InitProperties[1].dwPropertyID = DBPROP_INIT_CATALOG;
InitProperties[1].vValue.vt = VT_BSTR;
InitProperties[1].vValue.bstrVal= SysAllocString(L"AdventureWorks");
InitProperties[1].dwOptions = DBPROPOPTIONS_REQUIRED;
InitProperties[1].colid = DB_NULLID;
// connection
InitProperties[2].dwPropertyID = DBPROP_AUTH_INTEGRATED;
InitProperties[2].vValue.vt = VT_BSTR;
InitProperties[2].vValue.bstrVal= SysAllocString(L"SSPI");
InitProperties[2].dwOptions = DBPROPOPTIONS_REQUIRED;
InitProperties[2].colid = DB_NULLID;
// Now that the properties are set, construct the DBPROPSET structure
// (rgInitPropSet). The DBPROPSET structure is used to pass an array
// of DBPROP structures (InitProperties) to the SetProperties method.
rgInitPropSet[0].guidPropertySet = DBPROPSET_DBINIT;
rgInitPropSet[0].cProperties = 4;
rgInitPropSet[0].rgProperties = InitProperties;
// Set initialization properties.
hresult = pIDBInitialize->QueryInterface(IID_IDBProperties, (void **)&pIDBProperties);
if (FAILED(hresult)) {
cout << "Failed to get IDBProperties interface.\n";
// Insert your code for cleanup and error handling
return -1;
}
hresult = pIDBProperties->SetProperties(1, rgInitPropSet);
if (FAILED(hresult)) {
cout << "Failed to set initialization properties.\n";
// Insert your code for cleanup and error handling
return -1;
}
pIDBProperties->Release();
// Now establish the connection to the data source.
if (FAILED(pIDBInitialize->Initialize())) {
cout << "Problem establishing connection to the data source.\n";
// Insert your code for cleanup and error handling
return -1;
}
return 0;
}
USE AdventureWorks
GO
IF EXISTS (SELECT name FROM sysobjects WHERE name = 'MyTable')
DROP TABLE MyTable
GO