/*
Variables Plugin for Miranda-IM (www.miranda-im.org)
Copyright 2003-2006 P. Boon
This program is mir_free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "variables.h"
typedef struct {
TOKENREGISTEREX tr;
DWORD nameHash;
}
TokenRegisterEntry;
struct
{
TokenRegisterEntry** items;
int count, limit, increment;
FSortFunc sortFunc;
}
static tokens;
static CRITICAL_SECTION csRegister;
unsigned long int hashlittle(void *key, size_t length, unsigned long int initval);
static DWORD NameHashFunction(TCHAR *tszStr)
{
return (DWORD)hashlittle(tszStr, _tcslen(tszStr)*sizeof(TCHAR), 0);
}
static TokenRegisterEntry* FindTokenRegisterByName(TCHAR *name)
{
int idx;
TokenRegisterEntry temp;
temp.nameHash = NameHashFunction( name );
if (List_GetIndex(( SortedList* )&tokens, &temp, &idx ))
return tokens.items[ idx ];
return NULL;
}
int registerIntToken(TCHAR *szToken, TCHAR *(*parseFunction)(ARGUMENTSINFO *ai), int extraFlags, char* szHelpText)
{
TOKENREGISTEREX tr = { 0 };
tr.cbSize = sizeof(tr);
tr.flags = TRF_FREEMEM|TRF_TCHAR|TRF_PARSEFUNC|extraFlags;
//tr.memType = TR_MEM_VARIABLES;
tr.memType = TR_MEM_MIRANDA;
tr.szHelpText = szHelpText;
tr.tszTokenString = szToken;
tr.parseFunctionT = parseFunction;
return registerToken(0, (LPARAM)&tr);
}
int deRegisterToken(TCHAR *token)
{
TokenRegisterEntry *tre;
if (token == NULL)
return -1;
EnterCriticalSection(&csRegister);
tre = FindTokenRegisterByName( token );
if (tre == NULL) {
LeaveCriticalSection(&csRegister);
return -1;
}
List_RemovePtr(( SortedList* )&tokens, tre );
LeaveCriticalSection(&csRegister);
if (!( tre->tr.flags & TRF_PARSEFUNC ) && tre->tr.szService != NULL)
mir_free( tre->tr.szService );
if (tre->tr.tszTokenString != NULL)
mir_free( tre->tr.tszTokenString );
if (tre->tr.szHelpText != NULL)
mir_free( tre->tr.szHelpText );
if ((tre->tr.flags & TRF_CLEANUP ) && !( tre->tr.flags & TRF_CLEANUPFUNC ) && tre->tr.szCleanupService != NULL)
mir_free( tre->tr.szCleanupService );
mir_free( tre );
return 0;
}
INT_PTR registerToken(WPARAM wParam, LPARAM lParam)
{
DWORD hash;
int idx;
TokenRegisterEntry *tre;
TOKENREGISTEREX *newVr = ( TOKENREGISTEREX* )lParam;
if (newVr == NULL || newVr->szTokenString == NULL || newVr->cbSize <= 0 )
return -1;
if (newVr->flags & TRF_TCHAR ) {
deRegisterToken( newVr->tszTokenString );
hash = NameHashFunction( newVr->tszTokenString );
}
else {
WCHAR *wtoken;
wtoken = mir_a2t( newVr->szTokenString );
deRegisterToken( wtoken );
hash = NameHashFunction( wtoken );
mir_free( wtoken );
}
tre = ( TokenRegisterEntry* )mir_alloc( sizeof( TokenRegisterEntry ));
if (tre == NULL)
return -1;
memcpy( &tre->tr, newVr, newVr->cbSize );
tre->nameHash = hash;
if (!_tcscmp( newVr->tszTokenString, _T("alias")))
log_debugA("alias");
if (!( newVr->flags & TRF_PARSEFUNC ) && newVr->szService != NULL)
tre->tr.szService = mir_strdup( newVr->szService );
if (newVr->flags & TRF_TCHAR )
tre->tr.tszTokenString = mir_tstrdup( newVr->tszTokenString );
else
tre->tr.tszTokenString = mir_a2t( newVr->szTokenString );
if (newVr->szHelpText != NULL)
tre->tr.szHelpText = mir_strdup( newVr->szHelpText );
if (( newVr->flags & TRF_CLEANUP ) && !( newVr->flags & TRF_CLEANUPFUNC ) && newVr->szCleanupService != NULL)
tre->tr.szCleanupService = mir_strdup( newVr->szCleanupService );
EnterCriticalSection(&csRegister);
List_GetIndex(( SortedList* )&tokens, tre, &idx );
List_Insert(( SortedList* )&tokens, tre, idx );
LeaveCriticalSection(&csRegister);
return 0;
}
TOKENREGISTEREX *searchRegister(TCHAR *tvar, int type)
{
TokenRegisterEntry *tre;
TOKENREGISTEREX *retVr;
if (tvar == NULL)
return 0;
EnterCriticalSection( &csRegister );
tre = FindTokenRegisterByName( tvar );
if (tre == NULL || ( type != 0 && (tre->tr.flags & ( TRF_FIELD | TRF_FUNCTION )) != 0 && !( tre->tr.flags & type )))
retVr = NULL;
else
retVr = &tre->tr;
LeaveCriticalSection(&csRegister);
return retVr;
}
TCHAR *parseFromRegister(ARGUMENTSINFO *ai)
{
if (ai == NULL || ai->argc == 0 || ai->targv[0] == NULL)
return NULL;
INT_PTR callRes = 0;
TCHAR *temp = NULL, *res = NULL;
EnterCriticalSection(&csRegister);
/* note the following limitation: you cannot add/remove tokens during a call from a different thread */
TOKENREGISTEREX *thisVr = searchRegister( ai->targv[0], 0 );
if (thisVr == NULL) {
LeaveCriticalSection(&csRegister);
return NULL;
}
TOKENREGISTEREX trCopy = *thisVr;
// ai contains WCHARs, convert to chars because the tr doesn't support WCHARs
if (!( thisVr->flags & TRF_TCHAR )) {
// unicode variables calls a non-unicode plugin
unsigned int j;
ARGUMENTSINFO cAi;
memcpy(&cAi, ai, sizeof(ARGUMENTSINFO));
cAi.argv = ( char** )mir_alloc(ai->argc*sizeof(char *));
for ( j=0; j < ai->argc; j++ )
cAi.argv[j] = mir_t2a( ai->targv[j] );
if (thisVr->flags & TRF_PARSEFUNC )
callRes = (INT_PTR)thisVr->parseFunction( &cAi );
else if (thisVr->szService != NULL)
callRes = CallService( thisVr->szService, (WPARAM)0, (LPARAM)&cAi );
for ( j=0; j < cAi.argc; j++ )
if (cAi.argv[j] != NULL)
mir_free( cAi.argv[j] );
if ((char *)callRes != NULL)
res = mir_a2t(( char* )callRes );
}
else {
// unicode variables calls unicode plugin
if (thisVr->flags & TRF_PARSEFUNC )
callRes = (INT_PTR)thisVr->parseFunctionT( ai );
else if (thisVr->szService != NULL)
callRes = CallService( thisVr->szService, (WPARAM)0, (LPARAM)ai );
if ((TCHAR*)callRes != NULL)
res = mir_tstrdup((TCHAR*)callRes );
}
if (( void* )callRes != NULL) {
if (trCopy.flags & TRF_CLEANUP ) {
if (trCopy.flags & TRF_CLEANUPFUNC )
trCopy.cleanupFunctionT((TCHAR*)callRes );
else if (trCopy.szCleanupService != NULL)
CallService( trCopy.szCleanupService, 0, (LPARAM)callRes );
}
if (trCopy.flags & TRF_FREEMEM ) {
if (trCopy.memType == TR_MEM_MIRANDA )
mir_free(( void* )callRes );
// else if (trCopy.memType == TR_MEM_VARIABLES )
// mir_free((void *)callRes);
}
}
LeaveCriticalSection(&csRegister);
return res;
}
TOKENREGISTEREX* getTokenRegister( int i )
{
TOKENREGISTEREX *retVr;
EnterCriticalSection(&csRegister);
retVr = ( i >= tokens.count || i < 0 ) ? NULL : &tokens.items[i]->tr;
LeaveCriticalSection( &csRegister );
// beware! a pointer is returned here, no copy
return retVr;
}
int getTokenRegisterCount()
{
int retVal;
EnterCriticalSection(&csRegister);
retVal = tokens.count;
LeaveCriticalSection(&csRegister);
return retVal;
}
/////////////////////////////////////////////////////////////////////////////////////////
static int CompareTokens( const TokenRegisterEntry* p1, const TokenRegisterEntry* p2 )
{
if (p1->nameHash == p2->nameHash )
return 0;
return ( p1->nameHash < p2->nameHash ) ? -1 : 1;
}
int initTokenRegister()
{
InitializeCriticalSection(&csRegister);
tokens.sortFunc = ( FSortFunc )CompareTokens;
tokens.increment = 100;
return 0;
}
int deinitTokenRegister()
{
int i;
EnterCriticalSection(&csRegister);
for ( i=0; i < tokens.count; i++ ) {
TokenRegisterEntry *tre = tokens.items[ i ];
if (!( tre->tr.flags & TRF_PARSEFUNC ) && tre->tr.szService != NULL)
mir_free( tre->tr.szService );
if (tre->tr.tszTokenString != NULL)
mir_free( tre->tr.tszTokenString );
if (tre->tr.szHelpText != NULL)
mir_free( tre->tr.szHelpText );
if (( tre->tr.flags & TRF_CLEANUP ) && !( tre->tr.flags & TRF_CLEANUPFUNC ) && tre->tr.szCleanupService != NULL)
mir_free( tre->tr.szCleanupService );
mir_free( tre );
}
List_Destroy(( SortedList* )&tokens );
LeaveCriticalSection(&csRegister);
DeleteCriticalSection(&csRegister);
return 0;
}