CacheSize 속성 예제(VC++)
이 예제에서는 CacheSize 속성을 사용하여 30개 레코드 캐시를 사용하거나 사용하지 않고 수행되는 작업의 성능 차이를 보여 줍니다.
// CacheSize_Property_Sample.cpp
// compile with: /EHsc
#import "msado15.dll" no_namespace rename("EOF", "EndOfFile")
#include <ole2.h>
#include <stdio.h>
#include <conio.h>
#include <winbase.h>
// Function declarations
inline void TESTHR(HRESULT x) { if FAILED(x) _com_issue_error(x); };
void CacheSizeX();
void PrintProviderError(_ConnectionPtr pConnection);
void PrintComError(_com_error &e);
int main() {
if ( FAILED(::CoInitialize(NULL)) )
return -1;
CacheSizeX();
::CoUninitialize();
}
void CacheSizeX() {
// Define ADO object pointers. Initialize pointers on define.
// These are in the ADODB:: namespace
_RecordsetPtr pRstRoySched = NULL;
// Define Other Variables
DWORD sngStart;
DWORD sngEnd;
float sngNoCache;
float sngCache;
int intLoop = 0;
_bstr_t strTemp;
_bstr_t strCnn("Provider='sqloledb'; Data Source='My_Data_Source'; Initial Catalog='pubs'; Integrated Security='SSPI';");
try {
// Open the RoySched table.
TESTHR(pRstRoySched.CreateInstance(__uuidof(Recordset)));
pRstRoySched->Open("roysched", strCnn, adOpenForwardOnly, adLockReadOnly, adCmdTable);
// Enumerate the Recordset object twice and record the elapsed time.
sngStart = GetTickCount();
for ( intLoop = 1 ; intLoop < 2 ; intLoop++ ) {
pRstRoySched->MoveFirst();
while ( !(pRstRoySched->EndOfFile) ) {
// Execute a simple operation for the performance test.
strTemp = pRstRoySched->Fields->Item["title_id"]->Value;
pRstRoySched->MoveNext();
}
}
sngEnd = GetTickCount();
sngNoCache = (float)(sngEnd - sngStart) / (float)1000;
// Cache records in groups of 30 records.
pRstRoySched->MoveFirst();
pRstRoySched->CacheSize = 30;
sngStart = GetTickCount();
// Enumerate the Recordset object twice and record the elapsed time.
for ( intLoop = 1 ; intLoop < 2 ; intLoop++ ) {
pRstRoySched->MoveFirst();
while ( !(pRstRoySched->EndOfFile) ) {
// Execute a simple operation for the performance test.
strTemp = pRstRoySched->Fields->Item["title_id"]->Value;
pRstRoySched->MoveNext();
}
}
sngEnd = GetTickCount();
sngCache = (float)(sngEnd - sngStart) / (float)1000;
// Display performance results.
printf("Caching Performance Results:\n");
printf("No cache: %6.3f seconds \n", sngNoCache);
printf("30-record cache: %6.3f seconds", sngCache);
}
catch(_com_error &e) {
// Notify the user of errors if any.
_variant_t vtConnect = pRstRoySched->GetActiveConnection();
// GetActiveConnection returns connect string if connection
// is not open, else returns Connection object.
switch(vtConnect.vt) {
case VT_BSTR:
PrintComError(e);
break;
case VT_DISPATCH:
// Pass a connection pointer accessed from the Recordset.
PrintProviderError(vtConnect);
break;
default:
printf("Errors occurred.");
break;
}
}
// Clean up objects before exit.
if (pRstRoySched)
if (pRstRoySched->State == adStateOpen)
pRstRoySched->Close();
}
void PrintProviderError(_ConnectionPtr pConnection) {
// Print Provider Errors from Connection object.
// pErr is a record object in the Connection's Error collection.
ErrorPtr pErr = NULL;
if ( (pConnection->Errors->Count) > 0 ) {
long nCount = pConnection->Errors->Count;
// Collection ranges from 0 to nCount -1.
for ( long i = 0 ; i < nCount ; i++ ) {
pErr = pConnection->Errors->GetItem(i);
printf("Error number: %x\t%s", pErr->Number, pErr->Description);
}
}
}
void PrintComError(_com_error &e) {
_bstr_t bstrSource(e.Source());
_bstr_t bstrDescription(e.Description());
// Print Com errors.
printf("Error\n");
printf("\tCode = %08lx\n", e.Error());
printf("\tCode meaning = %s\n", e.ErrorMessage());
printf("\tSource = %s\n", (LPCSTR) bstrSource);
printf("\tDescription = %s\n", (LPCSTR) bstrDescription);
}