sqlite3数据库操作小记
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#include "sqlite3.h"
#include
#pragma comment(lib,"sqlite3.lib")
int _tmain(int argc, _TCHAR* argv[])
{
char *zErrMsg = 0;
int nRet;
sqlite3 *db=NULL;
nRet = sqlite3_open( "E:\\Login Data", &db );
if ( 0 != nRet )
{
printf("Open db error %s\n", sqlite3_errmsg(db));
sqlite3_close( db );
}
else
{
printf( "open db success\n" );
}
//insert data
char strSql[MAX_PATH];
strcpy(strSql,"insert into logins (origin_url,username_value,password_element,signon_realm,ssl_valid,preferred,date_created,blacklisted_by_user,scheme) values ('bb','admin','123','fuck',0,0,0,0,0)");
nRet = sqlite3_exec( db , strSql , 0 , 0 , &zErrMsg );
if ( 0 != nRet )
{
printf("Insert Error:%s", zErrMsg);
}
else
{
printf("Insert OK\n");
}
//query data
int nRow = 0, nColumn = 0;
int index,nResult;
char **azResult; //二维数组存放結果
strcpy(strSql,"SELECT origin_url, action_url, username_element, username_value, password_element, password_value, signon_realm, date_created from logins");
nResult = sqlite3_get_table( db , strSql , &azResult , &nRow , &nColumn , &zErrMsg );
printf( "row:%d column=%d \n" , nRow , nColumn );
printf( "\nThe result of querying is : \n" );
int i,j;
if( SQLITE_OK == nResult)
{
//查询成功
index = nColumn; //前面说过 dbResult 前面第一行数据是字段名称,从 nColumn 索引开始才是真正的数据
printf("查到%d条记录\n", nRow );
for(i = 0; i < nRow ; i++ )
{
printf("第 %d 条记录\n", i+1 );
for( j = 0 ; j < nColumn; j++ )
{
printf("字段名:%s > 字段值:%s\n",azResult[j],azResult[index]);
index++; // dbResult 的字段值是连续的,从第0索引到第 nColumn - 1索引都是字段名称,从第 nColumn 索引开始,后面都是字段值,它把一个二维的表(传统的行列表示法)用一个扁平的形式来表示
}
printf("-------\n");
}
}
//delete data
strcpy(strSql,"DELETE FROM logins WHERE username_value='admin'");
nRet = sqlite3_exec( db , strSql , 0 , 0 , &zErrMsg );
if ( 0 != nRet )
{
printf("Delete Error:%s", zErrMsg);
}
else
{
printf("Delete OK\n");
}
//释放azResult 的內存空間
sqlite3_free_table( azResult );
//关闭数据库
sqlite3_close( db );
getchar();
return 0;
}