// ********************************************************************************* // // Copyright (c) 2000 Microsoft Corporation // // Module Name: // // Cmdline.h // // Abstract: // // This modules contains the common functionality file headers and type definitions // // Author: // // Sunil G.V.N. Murali (murali.sunil@wipro.com) 1-Sep-2000 // // Revision History: // // Sunil G.V.N. Murali (murali.sunil@wipro.com) 1-Sep-2000 : Created It. // // ********************************************************************************* #ifndef __CMDLINE_H #define __CMDLINE_H #ifdef __cplusplus extern "C" { #endif /////////////////////////////////////////////////////////////////////////////////// // // // COMMON FUNCTIONALITY // // // /////////////////////////////////////////////////////////////////////////////////// // // custom macros ( for trapping memory leaks ) // #ifdef _DEBUG #define __malloc( size ) \ _malloc_dbg( size, _NORMAL_BLOCK, __FILE__, __LINE__ ) #define __calloc( count, size ) \ _calloc_dbg( count, size, _NORMAL_BLOCK, __FILE__, __LINE__ ) #define __free( block ) \ if ( (block) != NULL ) \ { \ _free_dbg( (block), _NORMAL_BLOCK ); \ (block) = NULL; \ } \ 1 #define __realloc( block, size ) \ (((block) != NULL) ? \ _realloc_dbg( (block), size, _NORMAL_BLOCK, __FILE__, __LINE__ ) : __malloc( size )) #else #define __malloc( size ) \ malloc( size ) #define __calloc( count, size ) \ calloc( count, size ) #define __free( block ) \ if ( (block) != NULL ) \ { \ free( (block) ); \ (block) = NULL; \ } \ 1 #define __realloc( block, size ) \ (((block) != NULL) ? realloc( block, size ) : __malloc( size )) #endif // // custom macros ( for NULL pointer assignments handling ) // #define CHECK_NULL( statement, value ) \ if ( ( statement ) == NULL ) \ { \ return value; \ } \ 1 // wrappers for quote meta #define _X( text ) QuoteMeta( text, 1 ) #define _X1( text ) QuoteMeta( text, 1 ) #define _X2( text ) QuoteMeta( text, 2 ) #define _X3( text ) QuoteMeta( text, 3 ) // // function re-defs // #ifdef UNICODE #define GetCompatibleStringFromMultiByte GetAsUnicodeStringEx #define GetCompatibleStringFromUnicode GetAsUnicodeString #else #define GetCompatibleStringFromMultiByte GetAsMultiByteString #define GetCompatibleStringFromUnicode GetAsMultiByteStringEx #endif // UNICODE // // error codes // #define E_LOCAL_CREDENTIALS 0xA0010001 // 1010 0000 0000 0001 0000 0000 0000 0001 #define I_NO_CLOSE_CONNECTION 0x50010001 // 0101 0000 0000 0001 0000 0000 0000 0001 // // macros // #define SIZE_OF_ARRAY( array ) ( sizeof( array ) / sizeof( array[ 0 ] ) ) #define TAG_ERROR GetResString( IDS_TAG_ERROR ) #define TAG_WARNING GetResString( IDS_TAG_WARNING ) #define TAG_SUCCESS GetResString( IDS_TAG_SUCCESS ) #define TAG_INFORMATION GetResString( IDS_TAG_INFORMATION ) #define SHOW_RESULT_MESSAGE( server, tag, message ) \ if ( IsLocalSystem( server ) == TRUE ) \ { \ DISPLAY_MESSAGE2( stderr, szBuffer, _T( "%s %s" ), tag, message ); \ } \ else \ { \ DISPLAY_MESSAGE3( stderr, szBuffer, _T( "%s %s: %s" ), tag, server, message ); \ } \ 1 // // string formatting stubs #define FORMAT_STRING( buffer, format, value ) \ wsprintf( buffer, format, value ) #define FORMAT_STRING2( buffer, format, value1, value2 ) \ wsprintf( buffer, format, value1, value2 ) #define FORMAT_STRING3( buffer, format, value1, value2, value3 ) \ wsprintf( buffer, format, value1, value2, value3 ) #define FORMAT_STRING_EX( buffer, format, value, length, alignflag ) \ wsprintf( buffer, format, value ); \ AdjustStringLength( buffer, length, alignflag ) #define FORMAT_STRING_EX2( buffer, format, value1, value2, length, alignflag ) \ wsprintf( buffer, format, value1, value2 ); \ AdjustStringLength( buffer, length, alignflag ) #define FORMAT_STRING_EX3( buffer, format, value1, value2, value3, length, alignflag ) \ wsprintf( buffer, format, value1, value2, value3 ); \ AdjustStringLength( buffer, length, alignflag ) // // stubs for 'displaying' #define DISPLAY_MESSAGE( file, message ) \ ShowMessage( file, message ) #define DISPLAY_MESSAGE1( file, buffer, format, value1 ) \ FORMAT_STRING( buffer, format, value1 ); \ ShowMessage( file, buffer ) #define DISPLAY_MESSAGE2( file, buffer, format, value1, value2 ) \ FORMAT_STRING2( buffer, format, value1, value2 ); \ ShowMessage( file, buffer ) #define DISPLAY_MESSAGE3( file, buffer, format, value1, value2, value3 ) \ FORMAT_STRING3( buffer, format, value1, value2, value3 ); \ ShowMessage( file, buffer ) // // display messages from resource file's string table ( stubs ) #define DISPLAY_RES_MESSAGE( file, id ) \ ShowResMessage( file, id ) #define DISPLAY_RES_MESSAGE1( file, buffer, id, value1 ) \ FORMAT_STRING( buffer, GetResString( id ), value1 ); \ ShowMessage( file, buffer ) #define DISPLAY_RES_MESSAGE2( file, buffer, id, value1, value2 ) \ FORMAT_STRING2( buffer, GetResString( id ), value1, value2 ); \ ShowMessage( file, buffer ) #define DISPLAY_RES_MESSAGE3( file, buffer, id, value1, value2, value3 ) \ FORMAT_STRING3( buffer, GetResString( id ), value1, value2, value3 ); \ ShowMessage( file, buffer ) // // constants / defines / enumerations // #define _DEFAULT_CODEPAGE CP_OEMCP #define BACK_SPACE 0x08 #define BLANK_CHAR 0x00 #define CARRIAGE_RETURN 0x0D #define ASTERIX _T( "*" ) #define BEEP_SOUND _T( "\a" ) #define MAX_RES_STRING 254 #define MAX_STRING_LENGTH 254 #define MAX_USERNAME_LENGTH 64 #define MAX_PASSWORD_LENGTH 64 #define TRIM_LEFT 0x00000001 #define TRIM_RIGHT 0x00000002 #define TRIM_ALL 0x00000003 #define NULL_CHAR _T( '\0' ) #define NULL_STRING _T( "\0" ) #define FULL_SUCCESS 0 #define PARTIALLY_SUCCESS 128 #define COMPLETELY_FAILED 255 #define V_NOT_AVAILABLE GetResString( IDS_V_NOT_AVAILABLE ) #define ERROR_OS_INCOMPATIBLE GetResString( IDS_ERROR_OS_INCOMPATIBLE ) // // type definitions // typedef TCHAR __STRING_32[ 32 ]; typedef TCHAR __STRING_64[ 64 ]; typedef TCHAR __STRING_128[ 128 ]; typedef TCHAR __STRING_256[ 256 ]; typedef TCHAR __STRING_512[ 512 ]; typedef TCHAR __STRING_1024[ 1024 ]; typedef TCHAR __STRING_2048[ 2048 ]; typedef TCHAR __STRING_4096[ 4096 ]; typedef TCHAR __RESOURCE_STRING [ MAX_RES_STRING + 1 ]; typedef TCHAR __MAX_SIZE_STRING[ MAX_STRING_LENGTH + 1 ]; // // structs // typedef struct tagConnectionInfo { DWORD dwFlags; // flags LPCTSTR pszServer; // server name LPTSTR pszUserName; // user name DWORD dwUserLength; // max. no. of characters allowed for user name LPTSTR pszPassword; // password DWORD dwPasswordLength; // max. no. of characters allowed for password LPCTSTR pszShare; // tells the custom share name LPVOID lpReserved1; // reserved for future use LPVOID lpReserved2; // reserved for future use LPVOID lpReserved3; // reserved for future use } TCONNECTIONINFO, *PTCONNECTIONINFO; // // connection info flags // // general flags #define CI_ACCEPT_PASSWORD 0x00000001 // 0000 0001 // share #define CI_SHARE_NONE 0x00000000 // 0000 0000 0000 XXXX XXXX ( default ) #define CI_SHARE_IPC 0x00000010 // 0000 0000 0001 XXXX XXXX #define CI_SHARE_ADMIN 0x00000020 // 0000 0000 0010 XXXX XXXX #define CI_SHARE_CDRIVE 0x00000040 // 0000 0000 0100 XXXX XXXX #define CI_SHARE_DDRIVE 0x00000080 // 0000 0000 1000 XXXX XXXX #define CI_SHARE_CUSTOM 0x00000100 // 0000 0001 0000 XXXX XXXX // extra flag used while closing connection #define CI_CLOSE_BY_FORCE 0x10000000 // // function prototypes // // // remote connectivity related function prototypes BOOL SetOsVersion( DWORD dwMajor, DWORD dwMinor, WORD wServicePackMajor ); BOOL IsWin2KOrLater(); DWORD GetTargetVersion( LPCTSTR pszServer ); BOOL IsCompatibleOperatingSystem( DWORD dwVersion ); BOOL IsValidServer( LPCTSTR pszServer ); BOOL IsValidIPAddress( LPCTSTR pszAddress ); DWORD CloseConnection( LPCTSTR szServer ); DWORD ConnectServer( LPCTSTR szServer, LPCTSTR szUser, LPCTSTR szPassword ); BOOL IsUNCFormat( LPCTSTR pszServer ); BOOL IsLocalSystem( LPCTSTR pszServer ); LPCTSTR QuoteMeta( LPCTSTR pszText, DWORD dwQuoteIndex ); LPCTSTR FindChar( LPCTSTR pszTemp, TCHAR ch, DWORD dwFrom ); LPCTSTR FindOneOf( LPCTSTR pszText, LPCTSTR pszTextToFind, DWORD dwFrom ); LPCTSTR FindString( LPCTSTR pszText, LPCTSTR pszTextToFind, DWORD dwFrom ); BOOL GetHostByIPAddr( LPCTSTR pszServer, LPTSTR pszHostName, BOOL bNeedFQDN ); BOOL EstablishConnection( LPCTSTR szServer, LPTSTR szUserName, DWORD dwUserLength, LPTSTR szPassword, DWORD dwPasswordLength, BOOL bNeedPassword ); /////////////////////// // stubs #define CleanExit( dwExitCode ) ExitProcess( dwExitCode ) /////////////////////////////////////////////////////////////////////////////////// // COMING UP *** DO NOT USE UNLESS INTIMATED // /////////////////////////////////////////////////////////////////////////////////// BOOL EstablishConnectionEx( PTCONNECTIONINFO pci ); DWORD ConnectServer2( LPCTSTR szServer, LPCTSTR szUser, LPCTSTR szPassword, LPCTSTR pszShare ); DWORD CloseConnection2( LPCTSTR szServer, LPCTSTR pszShare, DWORD dwFlags ); /////////////////////////////////////////////////////////////////////////////////// // // other(s) LPCTSTR GetReason(); VOID SaveLastError(); VOID ReleaseGlobals(); DWORD WNetSaveLastError(); VOID ShowLastError( FILE* fp ); LPCTSTR GetResString( UINT uID ); double AsFloat( LPCTSTR szValue ); LPTSTR GetResStringEx( UINT uID ); VOID SetReason( LPCTSTR szReason ); DWORD WNetShowLastError( FILE* fp ); BOOL IsFloatingPoint( LPCTSTR szValue ); VOID ShowResMessage( FILE* fp, UINT uID ); LONG AsLong( LPCTSTR szValue, DWORD dwBase ); VOID ShowMessage( FILE* fp, LPCTSTR szMessage ); LPTSTR TrimString( LPTSTR lpsz, DWORD dwFlags ); BOOL IsNumeric( LPCTSTR szValue, DWORD dwBase, BOOL bSigned ); BOOL GetPassword( LPTSTR pszPassword, DWORD dwMaxPasswordSize ); LPTSTR Replicate( LPTSTR pszBuffer, LPCTSTR szChar, DWORD dwCount ); BOOL InString( LPCTSTR szString, LPCTSTR szList, BOOL bIgnoreCase ); DWORD LoadResString( UINT uID, LPTSTR pszValue, DWORD dwBufferMax ); LONG StringLengthInBytes( LPCTSTR pszText ); LPTSTR AdjustStringLength( LPTSTR szValue, DWORD dwLength, BOOL bPadLeft ); LPSTR GetAsMultiByteString( LPCTSTR pszSource, LPSTR pszDestination, DWORD dwLength ); LPSTR GetAsMultiByteStringEx( LPCWSTR pwszSource, LPSTR pszDestination, DWORD dwLength ); LPWSTR GetAsUnicodeString( LPCTSTR pszSource, LPWSTR pwszDestination, DWORD dwLength ); LPWSTR GetAsUnicodeStringEx( LPCSTR pszSource, LPWSTR pwszDestination, DWORD dwLength ); LONG StringCompare( LPCTSTR szString1, LPCTSTR szString2, BOOL bIgnoreCase, DWORD dwCount ); /////////////////////////////////////////////////////////////////////////////////// // // // MULTI-DIMENSIONAL MULTI-TYPE DYNAMIC ARRAYS // // // /////////////////////////////////////////////////////////////////////////////////// // // constants / defines / enumerations // // item types supported by dynamic array #define DA_TYPE_NONE 0x00000000 #define DA_TYPE_GENERAL 0x00010000 #define DA_TYPE_STRING 0x00020000 #define DA_TYPE_LONG 0x00030000 #define DA_TYPE_DWORD 0x00040000 #define DA_TYPE_BOOL 0x00050000 #define DA_TYPE_FLOAT 0x00060000 #define DA_TYPE_DOUBLE 0x00070000 #define DA_TYPE_ARRAY 0x00080000 #define DA_TYPE_HANDLE 0x00090000 #define DA_TYPE_SYSTEMTIME 0x000A0000 #define DA_TYPE_FILETIME 0x000B0000 // // type definitions // typedef VOID* TARRAY; typedef TARRAY* PTARRAY; // // public function prototypes // // // array pointer validation function(s) BOOL IsValidArray( TARRAY pArray ); // // dynamic array creation / destraction functions TARRAY CreateDynamicArray(); VOID DestroyDynamicArray( PTARRAY pArray ); // // general helper function(s) DWORD DynArrayGetCount( TARRAY pArray ); DWORD DynArrayGetCount2( TARRAY pArray, DWORD dwRow ); DWORD DynArrayGetItemType( TARRAY pArray, DWORD dwIndex ); DWORD DynArrayGetItemType2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); // // adding columns DWORD DynArrayAddColumns( TARRAY pArray, DWORD dwColumns ); DWORD DynArrayInsertColumns( TARRAY pArray, DWORD dwIndex, DWORD dwColumns ); // // array append function(s) ( for one-dimensional array ) LONG DynArrayAppend( TARRAY pArray, LPVOID pValue ); LONG DynArrayAppendLong( TARRAY pArray, LONG lValue ); LONG DynArrayAppendBOOL( TARRAY pArray, BOOL bValue ); LONG DynArrayAppendDWORD( TARRAY pArray, DWORD dwValue ); LONG DynArrayAppendFloat( TARRAY pArray, float dwValue ); LONG DynArrayAppendDouble( TARRAY pArray, double dwValue ); LONG DynArrayAppendString( TARRAY pArray, LPCTSTR szValue, DWORD dwLength ); LONG DynArrayAppendHandle( TARRAY pArray, HANDLE hValue ); LONG DynArrayAppendSystemTime( TARRAY pArray, SYSTEMTIME stValue ); LONG DynArrayAppendFileTime( TARRAY pArray, FILETIME ftValue ); // helper to append 2-dimensional array LONG DynArrayAppendRow( TARRAY pArray, DWORD dwColumns ); // ( for two-dimensional array ) LONG DynArrayAppend2( TARRAY pArray, DWORD dwRow, LPVOID pValue ); LONG DynArrayAppendLong2( TARRAY pArray, DWORD dwRow, LONG lValue ); LONG DynArrayAppendBOOL2( TARRAY pArray, DWORD dwRow, BOOL bValue ); LONG DynArrayAppendDWORD2( TARRAY pArray, DWORD dwRow, DWORD dwValue ); LONG DynArrayAppendFloat2( TARRAY pArray, DWORD dwRow, float dwValue ); LONG DynArrayAppendDouble2( TARRAY pArray, DWORD dwRow, double dwValue ); LONG DynArrayAppendString2( TARRAY pArray, DWORD dwRow, LPCTSTR szValue, DWORD dwLength ); LONG DynArrayAppendHandle2( TARRAY pArray, DWORD dwRow, HANDLE hValue ); LONG DynArrayAppendSystemTime2( TARRAY pArray, DWORD dwRow, SYSTEMTIME stValue ); LONG DynArrayAppendFileTime2( TARRAY pArray, DWORD dwRow, FILETIME ftValue ); // // array insert function(s) ( for one-dimensional array ) LONG DynArrayInsert( TARRAY pArray, DWORD dwIndex, LPVOID pValue ); LONG DynArrayInsertLong( TARRAY pArray, DWORD dwIndex, LONG lValue ); LONG DynArrayInsertBOOL( TARRAY pArray, DWORD dwIndex, BOOL bValue ); LONG DynArrayInsertDWORD( TARRAY pArray, DWORD dwIndex, DWORD dwValue ); LONG DynArrayInsertFloat( TARRAY pArray, DWORD dwIndex, float dwValue ); LONG DynArrayInsertDouble( TARRAY pArray, DWORD dwIndex, double dwValue ); LONG DynArrayInsertString( TARRAY pArray, DWORD dwIndex, LPCTSTR szValue, DWORD dwLength ); LONG DynArrayInsertHandle( TARRAY pArray, DWORD dwIndex, HANDLE hValue ); LONG DynArrayInsertSystemTime( TARRAY pArray, DWORD dwIndex, SYSTEMTIME stValue ); LONG DynArrayInsertFileTime( TARRAY pArray, DWORD dwIndex, FILETIME ftValue ); // helper to insert 2-dimensional array LONG DynArrayInsertRow( TARRAY pArray, DWORD dwIndex, DWORD dwColumns ); // ( for two-dimensional array ) LONG DynArrayInsert2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, LPVOID pValue ); LONG DynArrayInsertLong2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, LONG lValue ); LONG DynArrayInsertBOOL2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, BOOL bValue ); LONG DynArrayInsertDWORD2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, DWORD dwValue ); LONG DynArrayInsertFloat2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, float dwValue ); LONG DynArrayInsertDouble2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, double dwValue ); LONG DynArrayInsertString2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, LPCTSTR szValue, DWORD dwLength ); LONG DynArrayInsertHandle2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, HANDLE hValue ); LONG DynArrayInsertSystemTime2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, SYSTEMTIME stValue ); LONG DynArrayInsertFileTime2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, FILETIME ftValue ); // // item value set function(s) ( for one-dimensional array ) BOOL DynArraySet( TARRAY pArray, DWORD dwIndex, LPVOID pValue ); BOOL DynArraySetLong( TARRAY pArray, DWORD dwIndex, LONG lValue ); BOOL DynArraySetBOOL( TARRAY pArray, DWORD dwIndex, BOOL bValue ); BOOL DynArraySetDWORD( TARRAY pArray, DWORD dwIndex, DWORD dwValue ); BOOL DynArraySetFloat( TARRAY pArray, DWORD dwIndex, float dwValue ); BOOL DynArraySetDouble( TARRAY pArray, DWORD dwIndex, double dwValue ); BOOL DynArraySetString( TARRAY pArray, DWORD dwIndex, LPCTSTR szValue, DWORD dwLength ); BOOL DynArraySetHandle( TARRAY pArray, DWORD dwIndex, HANDLE hValue ); BOOL DynArraySetSystemTime( TARRAY pArray, DWORD dwIndex, SYSTEMTIME stValue ); BOOL DynArraySetFileTime( TARRAY pArray, DWORD dwIndex, FILETIME ftValue ); // ( for two-dimensional array ) BOOL DynArraySet2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, LPVOID pValue ); BOOL DynArraySetLong2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, LONG lValue ); BOOL DynArraySetBOOL2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, BOOL bValue ); BOOL DynArraySetDWORD2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, DWORD dwValue ); BOOL DynArraySetFloat2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, float dwValue ); BOOL DynArraySetDouble2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, double dwValue ); BOOL DynArraySetString2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, LPCTSTR szValue, DWORD dwLength ); BOOL DynArraySetHandle2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, HANDLE hValue ); BOOL DynArraySetSystemTime2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, SYSTEMTIME stValue ); BOOL DynArraySetFileTime2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, FILETIME ftValue ); // // item value get function(s) ( for one-dimensional array ) LPVOID DynArrayItem( TARRAY pArray, DWORD dwIndex ); LONG DynArrayItemAsLong( TARRAY pArray, DWORD dwIndex ); BOOL DynArrayItemAsBOOL( TARRAY pArray, DWORD dwIndex ); DWORD DynArrayItemAsDWORD( TARRAY pArray, DWORD dwIndex ); float DynArrayItemAsFloat( TARRAY pArray, DWORD dwIndex ); double DynArrayItemAsDouble( TARRAY pArray, DWORD dwIndex ); LPCTSTR DynArrayItemAsString( TARRAY pArray, DWORD dwIndex ); HANDLE DynArrayItemAsHandle( TARRAY pArrray, DWORD dwIndex ); SYSTEMTIME DynArrayItemAsSystemTime( TARRAY pArray, DWORD dwIndex ); FILETIME DynArrayItemAsFileTime( TARRAY pArray, DWORD dwIndex ); DWORD DynArrayItemAsStringEx( TARRAY pArray, DWORD dwIndex, LPTSTR szBuffer, DWORD dwLength ); // ( for two-dimensional array ) LPVOID DynArrayItem2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); LONG DynArrayItemAsLong2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); BOOL DynArrayItemAsBOOL2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); DWORD DynArrayItemAsDWORD2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); float DynArrayItemAsFloat2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); double DynArrayItemAsDouble2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); LPCTSTR DynArrayItemAsString2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); HANDLE DynArrayItemAsHandle2( TARRAY pArrray, DWORD dwRow, DWORD dwColumn ); SYSTEMTIME DynArrayItemAsSystemTime2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); FILETIME DynArrayItemAsFileTime2( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); DWORD DynArrayItemAsStringEx2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, LPTSTR szBuffer, DWORD dwLength ); // // array item removal function(s) ( for one-dimensional array ) VOID DynArrayRemoveAll( TARRAY pArray ); BOOL DynArrayRemove( TARRAY pArray, DWORD dwIndex ); // ( for two-dimensional array ) BOOL DynArrayRemoveColumn( TARRAY pArray, DWORD dwRow, DWORD dwColumn ); // // find value function(s) ( for one-dimensional array ) LONG DynArrayFindLong( TARRAY pArray, LONG lValue ); LONG DynArrayFindDWORD( TARRAY pArray, DWORD dwValue ); LONG DynArrayFindString( TARRAY pArray, LPCTSTR szValue, BOOL bIgnoreCase, DWORD dwCount ); LONG DynArrayFindFloat( TARRAY pArray, float fValue ); LONG DynArrayFindDouble( TARRAY pArray, double dblValue ); LONG DynArrayFindHandle( TARRAY pArray, HANDLE hValue ); LONG DynArrayFindSystemTime( TARRAY pArray, SYSTEMTIME stValue ); LONG DynArrayFindFileTime( TARRAY pArray, FILETIME ftValue ); // ( for two-dimensional array ) LONG DynArrayFindLong2( TARRAY pArray, DWORD dwRow, LONG lValue ); LONG DynArrayFindDWORD2( TARRAY pArray, DWORD dwRow, DWORD dwValue ); LONG DynArrayFindString2( TARRAY pArray, DWORD dwRow, LPCTSTR szValue, BOOL bIgnoreCase, DWORD dwCount ); LONG DynArrayFindFloat2( TARRAY pArray, DWORD dwRow, float fValue ); LONG DynArrayFindDouble2( TARRAY pArray, DWORD dwRow, double dblValue ); LONG DynArrayFindHandle2( TARRAY pArray, DWORD dwRow, HANDLE hValue ); LONG DynArrayFindSystemTime2( TARRAY pArray, DWORD dwRow, SYSTEMTIME stValue ); LONG DynArrayFindFileTime2( TARRAY pArray, DWORD dwRow, FILETIME ftValue ); // ( for two-dimensional array ... column wise searching ) LONG DynArrayFindLongEx( TARRAY pArray, DWORD dwColumn, LONG lValue ); LONG DynArrayFindDWORDEx( TARRAY pArray, DWORD dwColumn, DWORD dwValue ); LONG DynArrayFindStringEx( TARRAY pArray, DWORD dwColumn, LPCTSTR szValue, BOOL bIgnoreCase, DWORD dwCount ); LONG DynArrayFindFloatEx( TARRAY pArray, DWORD dwColumn, float fValue ); LONG DynArrayFindDoubleEx( TARRAY pArray, DWORD dwColumn, double dblValue ); LONG DynArrayFindHandleEx( TARRAY pArray, DWORD dwColumn, HANDLE hValue ); LONG DynArrayFindSystemTimeEx( TARRAY pArray, DWORD dwColumn, SYSTEMTIME ftValue ); LONG DynArrayFindFileTimeEx( TARRAY pArray, DWORD dwColumn, FILETIME ftValue ); // // array attachment helpers ( one-dimensional ) LONG DynArrayAppendEx( TARRAY pArray, TARRAY pArrItem ); LONG DynArrayInsertEx( TARRAY pArray, DWORD dwIndex, TARRAY pArrItem ); BOOL DynArraySetEx( TARRAY pArray, DWORD dwIndex, TARRAY pArrItem ); // ( for two-dimensional array ) LONG DynArrayAppendEx2( TARRAY pArray, DWORD dwRow, TARRAY pArrItem ); LONG DynArrayInsertEx2( TARRAY pArray, DWORD dwRow, DWORD dwColIndex, TARRAY pArrItem ); BOOL DynArraySetEx2( TARRAY pArray, DWORD dwRow, DWORD dwColumn, TARRAY pArrItem ); /////////////////////////////////////////////////////////////////////////////////// // // // COMMONAND LINE PARSING // // // /////////////////////////////////////////////////////////////////////////////////// // // constants / definitions / enumerations // #define CP_TYPE_TEXT 0x00000001 // 0000 0001 #define CP_TYPE_NUMERIC 0x00000002 // 0000 0010 #define CP_TYPE_UNUMERIC 0x00000003 // 0000 0011 #define CP_TYPE_DATE 0x00000004 // 0000 0100 #define CP_TYPE_TIME 0x00000005 // 0000 0101 #define CP_TYPE_DATETIME 0x00000006 // 0000 0110 #define CP_TYPE_FLOAT 0x00000007 // 0000 0111 #define CP_TYPE_DOUBLE 0x00000008 // 0000 1000 #define CP_TYPE_CUSTOM 0x00000009 // 0000 1001 #define CP_TYPE_MASK 0x000000FF // 1111 1111 #define CP_MODE_ARRAY 0x00000100 // 0001 XXXX XXXX #define CP_MODE_VALUES 0x00000200 // 0010 XXXX XXXX #define CP_MODE_MASK 0x00000F00 // 1111 XXXX XXXX #define CP_VALUE_OPTIONAL 0x00001000 // 0001 XXXX XXXX XXXX #define CP_VALUE_MANDATORY 0x00002000 // 0010 XXXX XXXX XXXX #define CP_VALUE_NODUPLICATES 0x00004000 // 0100 XXXX XXXX XXXX #define CP_VALUE_MASK 0x0000F000 // 1111 XXXX XXXX XXXX #define CP_MAIN_OPTION 0x00010000 // 0000 0000 0001 XXXX XXXX XXXX XXXX #define CP_USAGE 0x00020000 // 0000 0000 0010 XXXX XXXX XXXX XXXX #define CP_DEFAULT 0x00040000 // 0000 0000 0100 XXXX XXXX XXXX XXXX #define CP_MANDATORY 0x00080000 // 0000 0000 1000 XXXX XXXX XXXX XXXX #define CP_CASESENSITIVE 0x00100000 // 0000 0001 0000 XXXX XXXX XXXX XXXX #define CP_IGNOREVALUE 0x00200000 // 0000 0010 0000 XXXX XXXX XXXX XXXX #define CP_MASK 0x0FFF0000 // 1111 1111 1111 XXXX XXXX XXXX XXXX // // user defined types // typedef TCHAR OPTION[ 256 ]; typedef TCHAR OPTVALUE[ 256 ]; // custom value validation routine prototype typedef BOOL ( *PARSERFUNC )( LPCTSTR pszOption, LPCTSTR pszValue, LPVOID pData ); typedef struct __tagCmdParser { OPTION szOption; // options DWORD dwFlags; // flags ( specifies the type etc ) DWORD dwCount; // tells the no. of times the option can repeat DWORD dwActuals; // no. of times the option actually repeated LPVOID pValue; // pointer to the option value OPTVALUE szValues; // to hold valid value in case flag = CP_MODE_VALUES PARSERFUNC pFunction; // pointer to custom value validation function LPVOID pFunctionData; // extra data that will be passed to custom function } TCMDPARSER; typedef TCMDPARSER* PTCMDPARSER; // // public function prototypes // DWORD GetOptionCount( LPCTSTR szOption, DWORD dwCount, PTCMDPARSER pcmdOptions ); BOOL DoParseParam( DWORD dwCount, LPCTSTR argv[], DWORD dwOptionsCount, PTCMDPARSER pcmdOptions ); /////////////////////////////////////////////////////////////////////////////////// // // // VALIDATING AND FILTERING RESULTS // // // /////////////////////////////////////////////////////////////////////////////////// // // constants / definitions / enumerations // // types #define F_TYPE_TEXT 0x00000001 // 0000 0000 0001 #define F_TYPE_NUMERIC 0x00000002 // 0000 0000 0010 #define F_TYPE_UNUMERIC 0x00000003 // 0000 0000 0011 #define F_TYPE_DATE 0x00000004 // 0000 0000 0100 #define F_TYPE_TIME 0x00000005 // 0000 0000 0101 #define F_TYPE_DATETIME 0x00000006 // 0000 0000 0110 #define F_TYPE_FLOAT 0x00000007 // 0000 0000 0111 #define F_TYPE_DOUBLE 0x00000008 // 0000 0000 1000 #define F_TYPE_CUSTOM 0x00000009 // 0000 0000 1001 #define F_TYPE_MASK 0x00000FFF // 1111 1111 1111 // modes #define F_MODE_VALUES 0x00001000 // 0001 XXXX XXXX XXXX #define F_MODE_PATTERN 0x00002000 // 0010 XXXX XXXX XXXX #define F_MODE_ARRAY 0x00004000 // 0100 XXXX XXXX XXXX // custom filter data validation result #define F_FILTER_INVALID 0x00000000 #define F_FILTER_VALID 0x00000001 #define F_RESULT_KEEP 0x000000FF #define F_RESULT_REMOVE 0x00000000 // // Bit no. 2 is '=' // Bit no. 3 is '<' // Bit no. 4 is '>' // // 7654 3210 // EQ 0000 0010 0x02 // NE 1111 XX0X 0xFD // LT 0000 0100 0x04 // GT 0000 1000 0x08 // LE 0000 0110 0x06 // GE 0000 1010 0x0A // #define MASK_EQ 0x00000002 #define MASK_NE 0x000000FC #define MASK_LT 0x00000004 #define MASK_GT 0x00000008 #define MASK_LE 0x00000006 #define MASK_GE 0x0000000A #define MASK_ALL 0x000000FF // mathematical operators #define MATH_EQ _T( "=" ) #define MATH_NE _T( "!=" ) #define MATH_LT _T( "<" ) #define MATH_GT _T( ">" ) #define MATH_LE _T( "<=" ) #define MATH_GE _T( ">=" ) // parsed filters information #define F_PARSED_INDEX_FILTER 0 #define F_PARSED_INDEX_PROPERTY 1 #define F_PARSED_INDEX_OPERATOR 2 #define F_PARSED_INDEX_VALUE 3 #define F_PARSED_INFO_COUNT 4 // // structures / user defined data types // typedef TCHAR OPERATORS[ 101 ]; typedef TCHAR FILTERVALUES[ 256 ]; typedef TCHAR FILTERPROPERTY[ 256 ]; // custom value validation routine prototype typedef DWORD ( *FILTERFUNC )( LPCTSTR pszProperty, LPCTSTR pszOperator, LPCTSTR pszValue, LPVOID pData, TARRAY arrRow ); typedef struct __tagFilterConfig { DWORD dwColumn; // mapping from filter to column in data FILTERPROPERTY szProperty; // filter property OPERATORS szOperators; // valid operators for the filter DWORD dwFlags; // flags ( specifies the valid type for the filter ) FILTERVALUES szValues; // to hold valid value in case flag = F_MODE_VALUES FILTERFUNC pFunction; // pointer to custom value validation function LPVOID pFunctionData; // extra data that will be passed to custom function } TFILTERCONFIG; typedef TFILTERCONFIG *PTFILTERCONFIG; // // public function prototypes // LPCTSTR FindOperator( LPCTSTR szOperator ); BOOL ParseAndValidateFilter( DWORD dwCount, PTFILTERCONFIG pfilterConfigs, TARRAY arrFiltersArgs, PTARRAY parrParsedFilters ); BOOL CanFilterRecord( DWORD dwCount, TFILTERCONFIG filterConfigs[], TARRAY arrRecord, TARRAY arrParsedFilters ); DWORD FilterResults( DWORD dwCount, TFILTERCONFIG arrFilters[], TARRAY arrData, TARRAY arrParsedFilters ); /////////////////////////////////////////////////////////////////////////////////// // // // DISPLAYING RESULTS // // // /////////////////////////////////////////////////////////////////////////////////// // // constants / definitions / enumerations // // formats #define SR_FORMAT_LIST 0x00000001 // 0000 0001 #define SR_FORMAT_TABLE 0x00000002 // 0000 0010 #define SR_FORMAT_CSV 0x00000003 // 0000 0011 #define SR_FORMAT_MASK 0x0000000F // 1111 1111 // column types #define SR_TYPE_NONE 0x00000000 // 0000 0000 0000 0000 XXXX XXXX #define SR_TYPE_STRING 0x00000010 // 0000 0000 0000 0001 XXXX XXXX #define SR_TYPE_NUMERIC 0x00000020 // 0000 0000 0000 0010 XXXX XXXX #define SR_TYPE_FLOAT 0x00000030 // 0000 0000 0000 0011 XXXX XXXX #define SR_TYPE_DOUBLE 0x00000040 // 0000 0000 0000 0100 XXXX XXXX #define SR_TYPE_DATE 0x00000050 // 0000 0000 0000 0101 XXXX XXXX #define SR_TYPE_TIME 0x00000060 // 0000 0000 0000 0110 XXXX XXXX #define SR_TYPE_DATETIME 0x00000070 // 0000 0000 0000 0111 XXXX XXXX #define SR_TYPE_CUSTOM 0x00000080 // 0000 0000 0000 1000 XXXX XXXX #define SR_TYPE_MASK 0x00000FF0 // 1111 1111 1111 1111 XXXX XXXX // flags ( global level ) #define SR_NOHEADER 0x00001000 // 0000 0001 XXXX XXXX XXXX XXXX XXXX XXXX // flags ( column level ) #define SR_HIDECOLUMN 0x00001000 // 0000 0000 0001 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_VALUEFORMAT 0x00002000 // 0000 0000 0010 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_ARRAY 0x00004000 // 0000 0000 0100 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_WORDWRAP 0x00008000 // 0000 0000 1000 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_ALIGN_LEFT 0x00010000 // 0000 0001 0000 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_ALIGN_RIGHT 0x00020000 // 0000 0010 0000 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_ALIGN_CENTER 0x00040000 // 0000 0100 0000 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_NO_TRUNCATION 0x00088000 // 0000 1000 1000 XXXX XXXX XXXX XXXX XXXX XXXX #define SR_SHOW_NA_WHEN_BLANK 0x00100000 // 0001 0000 0000 XXXX XXXX XXXX XXXX XXXX XXXX // // user defined types // // custom value formatter typedef TCHAR COLHEADER[ 256 ]; typedef TCHAR COLFORMAT[ 65 ]; typedef VOID ( *FORMATFUNC )( DWORD dwColumn, TARRAY arrData, LPVOID pData, LPTSTR szValue ); typedef struct __tagColumns { COLHEADER szColumn; // column header name DWORD dwWidth; // width of each field DWORD dwFlags; // flags ( specifies the type etc ) COLFORMAT szFormat; // custom format FORMATFUNC pFunction; // formatter function LPVOID pFunctionData; // function data } TCOLUMNS; typedef TCOLUMNS* PTCOLUMNS; // // public functions // VOID ShowResults( DWORD dwColumns, PTCOLUMNS pColumns, DWORD dwFlags, TARRAY arrData ); /////////////////////////////////////////////////////////////////////////////////// // COMING UP *** DO NOT USE UNLESS INTIMATED // /////////////////////////////////////////////////////////////////////////////////// VOID ShowResults2( FILE* fp, DWORD dwColumns, PTCOLUMNS pColumns, DWORD dwFlags, TARRAY arrData ); /////////////////////////////////////////////////////////////////////////////////// #ifdef __cplusplus } #endif #endif // __CMDLINE_H