/* Miranda NG: the free IM client for Microsoft* Windows* Copyright (ñ) 2012-16 Miranda NG project (http://miranda-ng.org), Copyright (c) 2000-03 Miranda ICQ/IM project, all portions of this codebase are copyrighted to the people listed in contributors.txt. This program is 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 "stdafx.h" struct { int status, order; } statusModeOrder[] = { { ID_STATUS_OFFLINE, 500 }, { ID_STATUS_ONLINE, 10 }, { ID_STATUS_AWAY, 200 }, { ID_STATUS_DND, 110 }, { ID_STATUS_NA, 450 }, { ID_STATUS_OCCUPIED, 100 }, { ID_STATUS_FREECHAT, 0 }, { ID_STATUS_INVISIBLE, 20 }, { ID_STATUS_ONTHEPHONE, 150 }, { ID_STATUS_OUTTOLUNCH, 425 } }; static int GetContactStatus(MCONTACT hContact) { char *szProto; szProto = GetContactProto(hContact); if (szProto == NULL) return ID_STATUS_OFFLINE; return db_get_w(hContact, szProto, "Status", ID_STATUS_OFFLINE); } int __forceinline GetStatusModeOrdering(int statusMode) { for (int i = 0; i < sizeof(statusModeOrder) / sizeof(statusModeOrder[0]); i++) if (statusModeOrder[i].status == statusMode) return statusModeOrder[i].order; return 1000; } int mf_updatethread_running = TRUE; HANDLE hThreadMFUpdate = 0; static void MF_CalcFrequency(MCONTACT hContact, DWORD dwCutoffDays, int doSleep) { DWORD curTime = time(NULL); DWORD frequency, eventCount; MEVENT hEvent = db_event_last(hContact); eventCount = 0; DBEVENTINFO dbei = { sizeof(dbei) }; while (hEvent) { db_event_get(hEvent, &dbei); if (dbei.eventType == EVENTTYPE_MESSAGE && !(dbei.flags & DBEF_SENT)) { // record time of last event eventCount++; } if (eventCount >= 100 || dbei.timestamp < curTime - (dwCutoffDays * 86400)) break; hEvent = db_event_prev(hContact, hEvent); if (doSleep && mf_updatethread_running == FALSE) return; if (doSleep) Sleep(100); } if (eventCount == 0) { frequency = 0x7fffffff; db_set_dw(hContact, "CList", "mf_firstEvent", curTime - (dwCutoffDays * 86400)); } else { frequency = (curTime - dbei.timestamp) / eventCount; db_set_dw(hContact, "CList", "mf_firstEvent", dbei.timestamp); } db_set_dw(hContact, "CList", "mf_freq", frequency); db_set_dw(hContact, "CList", "mf_count", eventCount); } extern TCHAR g_ptszEventName[]; void MF_UpdateThread(LPVOID) { Thread_SetName("CList_nicer: MF_UpdateThread"); HANDLE hEvent = OpenEvent(EVENT_ALL_ACCESS, FALSE, g_ptszEventName); WaitForSingleObject(hEvent, 20000); ResetEvent(hEvent); while (mf_updatethread_running) { for (MCONTACT hContact = db_find_first(); hContact && mf_updatethread_running; hContact = db_find_next(hContact)) { MF_CalcFrequency(hContact, 50, 1); if (mf_updatethread_running) WaitForSingleObject(hEvent, 5000); ResetEvent(hEvent); } if (mf_updatethread_running) WaitForSingleObject(hEvent, 1000000); ResetEvent(hEvent); } CloseHandle(hEvent); } void MF_InitCheck(void) { BYTE bMsgFrequency = db_get_b(NULL, "CList", "fhistdata", 0); if (!bMsgFrequency) { for (MCONTACT hContact = db_find_first(); hContact; hContact = db_find_next(hContact)) MF_CalcFrequency(hContact, 100, 0); db_set_b(NULL, "CList", "fhistdata", 1); } } DWORD INTSORT_GetLastMsgTime(MCONTACT hContact) { for (MEVENT hDbEvent = db_event_last(hContact); hDbEvent; hDbEvent = db_event_prev(hContact, hDbEvent)) { DBEVENTINFO dbei = { sizeof(dbei) }; db_event_get(hDbEvent, &dbei); if (dbei.eventType == EVENTTYPE_MESSAGE && !(dbei.flags & DBEF_SENT)) return dbei.timestamp; } return 0; } int __forceinline GetProtoIndex(char * szName) { if (!szName) return -1; PROTOACCOUNT *pa = Proto_GetAccount(szName); return (pa == NULL) ? -1 : pa->iOrder; } int __forceinline INTSORT_CompareContacts(const ClcContact* c1, const ClcContact* c2, UINT bywhat) { TCHAR *namea, *nameb; int statusa, statusb; char *szProto1, *szProto2; int rc; if (c1 == 0 || c2 == 0) return 0; szProto1 = c1->proto; szProto2 = c2->proto; statusa = c1->wStatus; statusb = c2->wStatus; // make sure, sticky contacts are always at the beginning of the group/list if ((c1->flags & CONTACTF_STICKY) != (c2->flags & CONTACTF_STICKY)) return 2 * (c2->flags & CONTACTF_STICKY) - 1; if (bywhat == SORTBY_PRIOCONTACTS) { if ((cfg::clcdat->exStyle & CLS_EX_DIVIDERONOFF) && ((c1->flags & CONTACTF_ONLINE) != (c2->flags & CONTACTF_ONLINE))) return 0; if ((c1->flags & CONTACTF_PRIORITY) != (c2->flags & CONTACTF_PRIORITY)) return 2 * (c2->flags & CONTACTF_PRIORITY) - 1; else return 0; } if (bywhat == SORTBY_STATUS) { int ordera, orderb; ordera = GetStatusModeOrdering(statusa); orderb = GetStatusModeOrdering(statusb); if (ordera != orderb) return ordera - orderb; else return 0; } // separate contacts treated as "offline" if (!cfg::dat.bDontSeparateOffline && ((statusa == ID_STATUS_OFFLINE) != (statusb == ID_STATUS_OFFLINE))) return 2 * (statusa == ID_STATUS_OFFLINE) - 1; switch (bywhat) { case SORTBY_NAME: namea = (TCHAR *)c1->szText; nameb = (TCHAR *)c2->szText; return CompareString(LOCALE_USER_DEFAULT, NORM_IGNORECASE, namea, -1, nameb, -1) - 2; case SORTBY_LASTMSG: if (c1->pExtra && c2->pExtra) return c2->pExtra->dwLastMsgTime - c1->pExtra->dwLastMsgTime; else { DWORD timestamp1 = INTSORT_GetLastMsgTime(c1->hContact); DWORD timestamp2 = INTSORT_GetLastMsgTime(c2->hContact); return timestamp2 - timestamp1; } case SORTBY_FREQUENCY: if (c1->pExtra && c2->pExtra) return c1->pExtra->msgFrequency - c2->pExtra->msgFrequency; break; case SORTBY_PROTO: if (c1->bIsMeta) szProto1 = c1->metaProto ? c1->metaProto : c1->proto; if (c2->bIsMeta) szProto2 = c2->metaProto ? c2->metaProto : c2->proto; rc = GetProtoIndex(szProto1) - GetProtoIndex(szProto2); if (rc != 0 && (szProto1 != NULL && szProto2 != NULL)) return rc; } return 0; } int CompareContacts(const ClcContact* c1, const ClcContact* c2) { int result = INTSORT_CompareContacts(c1, c2, SORTBY_PRIOCONTACTS); if (result) return result; for (int i = 0; i <= 2; i++) { if (cfg::dat.sortOrder[i]) { result = INTSORT_CompareContacts(c1, c2, cfg::dat.sortOrder[i]); if (result != 0) return result; } } return 0; } #undef SAFESTRING int SetHideOffline(int iValue) { int newVal = coreCli.pfnSetHideOffline(iValue); SetButtonStates(); ClcSetButtonState(IDC_TBHIDEOFFLINE, newVal); return newVal; }