#include "headers.h" int __cdecl CContactCache::OnDbEventAdded(WPARAM wParam, LPARAM lParam) { MCONTACT hContact = wParam; HANDLE hEvent = (HANDLE)lParam; DBEVENTINFO dbei = {0}; dbei.cbSize = sizeof(dbei); db_event_get(hEvent, &dbei); if (dbei.eventType != EVENTTYPE_MESSAGE) return 0; float weight = GetEventWeight(time(NULL) - dbei.timestamp); float q = GetTimeWeight(time(NULL) - m_lastUpdate); m_lastUpdate = time(NULL); if (!weight) return 0; Lock(); bool found = false; for (int i = 0; i < m_cache.getCount(); ++i) { m_cache[i].rate *= q; if (m_cache[i].hContact == hContact) { found = true; m_cache[i].rate += weight; } } if (!found) { TContactInfo *info = new TContactInfo; info->hContact = hContact; info->rate = weight; m_cache.insert(info); } else { qsort(m_cache.getArray(), m_cache.getCount(), sizeof(TContactInfo *), TContactInfo::cmp2); } Unlock(); return 0; } float CContactCache::GetEventWeight(unsigned long age) { const float ceil = 1000.f; const float floor = 0.0001f; const int depth = 60 * 60 * 24 * 30; if (age > depth) return 0; return exp(log(ceil) - age * (log(ceil) - log(floor)) / depth); } float CContactCache::GetTimeWeight(unsigned long age) { const float ceil = 1000.f; const float floor = 0.0001f; const int depth = 60 * 60 * 24 * 30; if (age > depth) return 0; return exp(age * (log(ceil) - log(floor)) / depth); } CContactCache::CContactCache(): m_cache(50, TContactInfo::cmp) { InitializeCriticalSection(&m_cs); int (__cdecl CContactCache::*pfn)(WPARAM, LPARAM); pfn = &CContactCache::OnDbEventAdded; HookEventObj(ME_DB_EVENT_ADDED, *(MIRANDAHOOKOBJ *)&pfn, this); Rebuild(); } CContactCache::~CContactCache() { DeleteCriticalSection(&m_cs); } void CContactCache::Rebuild() { unsigned long timestamp = time(NULL); m_lastUpdate = time(NULL); for (MCONTACT hContact = db_find_first(); hContact; hContact = db_find_next(hContact)) { TContactInfo *info = new TContactInfo; info->hContact = hContact; info->rate = 0; for (HANDLE hEvent = db_event_last(hContact); hEvent; hEvent = db_event_prev(hEvent)) { DBEVENTINFO dbei = { sizeof(dbei) }; if (!db_event_get(hEvent, &dbei)) { if (float weight = GetEventWeight(timestamp - dbei.timestamp)) { if (dbei.eventType == EVENTTYPE_MESSAGE) info->rate += weight; } else break; } } m_cache.insert(info); } } MCONTACT CContactCache::get(int rate) { if (rate >= 0 && rate < m_cache.getCount()) return m_cache[rate].hContact; return NULL; } float CContactCache::getWeight(int rate) { if (rate >= 0 && rate < m_cache.getCount()) return m_cache[rate].rate; return -1; } static bool AppendInfo(TCHAR *buf, int size, MCONTACT hContact, int info) { CONTACTINFO ci = {0}; ci.cbSize = sizeof(ci); ci.hContact = hContact; ci.dwFlag = info; ci.dwFlag |= CNF_UNICODE; bool ret = false; if (!CallService(MS_CONTACT_GETCONTACTINFO, 0, (LPARAM)&ci) && (ci.type == CNFT_ASCIIZ) && ci.pszVal) { if (*ci.pszVal && (lstrlen(ci.pszVal) < size-2)) { lstrcpy(buf, ci.pszVal); ret = true; } mir_free(ci.pszVal); } return ret; } void CContactCache::TContactInfo::LoadInfo() { if (infoLoaded) return; TCHAR *p = info; p[0] = p[1] = 0; static const int items[] = { CNF_FIRSTNAME, CNF_LASTNAME, CNF_NICK , CNF_CUSTOMNICK, CNF_EMAIL, CNF_CITY, CNF_STATE, CNF_COUNTRY, CNF_PHONE, CNF_HOMEPAGE, CNF_ABOUT, CNF_UNIQUEID, CNF_MYNOTES, CNF_STREET, CNF_CONAME, CNF_CODEPT, CNF_COCITY, CNF_COSTATE, CNF_COSTREET, CNF_COCOUNTRY }; for (int i = 0; i < SIZEOF(items); ++i) { if (AppendInfo(p, SIZEOF(info) - (p - info), hContact, items[i])) p += lstrlen(p) + 1; } *p = 0; infoLoaded = true; } TCHAR *nb_stristr(TCHAR *str, TCHAR *substr) { if (!substr || !*substr) return str; if (!str || !*str) return NULL; TCHAR *str_up = NEWTSTR_ALLOCA(str); TCHAR *substr_up = NEWTSTR_ALLOCA(substr); CharUpperBuff(str_up, lstrlen(str_up)); CharUpperBuff(substr_up, lstrlen(substr_up)); TCHAR* p = _tcsstr(str_up, substr_up); return p ? (str + (p - str_up)) : NULL; } bool CContactCache::filter(int rate, TCHAR *str) { if (!str || !*str) return true; m_cache[rate].LoadInfo(); HKL kbdLayoutActive = GetKeyboardLayout(GetCurrentThreadId()); HKL kbdLayouts[10]; int nKbdLayouts = GetKeyboardLayoutList(SIZEOF(kbdLayouts), kbdLayouts); TCHAR buf[256]; BYTE keyState[256] = {0}; for (int iLayout = 0; iLayout < nKbdLayouts; ++iLayout) { if (kbdLayoutActive == kbdLayouts[iLayout]) { lstrcpy(buf, str); } else { int i; for (i = 0; str[i]; ++i) { UINT vk = VkKeyScanEx(str[i], kbdLayoutActive); UINT scan = MapVirtualKeyEx(vk, 0, kbdLayoutActive); ToUnicodeEx(vk, scan, keyState, buf+i, SIZEOF(buf)-i, 0, kbdLayouts[iLayout]); } buf[i] = 0; } for (TCHAR *p = m_cache[rate].info; p && *p; p = p + lstrlen(p) + 1) if (nb_stristr(p, buf)) return true; } return false; }