#include "globals.h" BOOL (WINAPI *MySetLayeredWindowAttributes)(HWND,COLORREF,BYTE,DWORD); HANDLE (WINAPI *MyMonitorFromWindow)(HWND,DWORD); BOOL (WINAPI *MyTzSpecificLocalTimeToSystemTime)(LPTIME_ZONE_INFORMATION,LPSYSTEMTIME,LPSYSTEMTIME); BOOL (WINAPI *MySystemTimeToTzSpecificLocalTime)(LPTIME_ZONE_INFORMATION,LPSYSTEMTIME,LPSYSTEMTIME); WORD ConvertHotKeyToControl(WORD HK) { WORD R = 0; if ((HK & MOD_CONTROL) == MOD_CONTROL) R = R | HOTKEYF_CONTROL; if ((HK & MOD_ALT) == MOD_ALT) R = R | HOTKEYF_ALT; if ((HK & MOD_SHIFT) == MOD_SHIFT) R = R | HOTKEYF_SHIFT; return R; } WORD ConvertControlToHotKey(WORD HK) { WORD R = 0; if ((HK & HOTKEYF_CONTROL) == HOTKEYF_CONTROL) R = R | MOD_CONTROL; if ((HK & HOTKEYF_ALT) == HOTKEYF_ALT) R = R | MOD_ALT; if ((HK & HOTKEYF_SHIFT) == HOTKEYF_SHIFT) R = R | MOD_SHIFT; return R; } void FreeSettingBlob(WORD pSize,void *pbBlob) { DBVARIANT dbv = {0}; dbv.type = DBVT_BLOB; dbv.cpbVal = pSize; dbv.pbVal = (BYTE*)pbBlob; db_free(&dbv); } void WriteSettingBlob(HANDLE hContact,char *ModuleName,char *SettingName,WORD pSize,void *pbBlob) { DBCONTACTWRITESETTING cgs = {0}; DBVARIANT dbv = {0}; dbv.type = DBVT_BLOB; dbv.cpbVal = pSize; dbv.pbVal = (BYTE*)pbBlob; cgs.szModule = ModuleName; cgs.szSetting = SettingName; cgs.value = dbv; CallService(MS_DB_CONTACT_WRITESETTING,(DWORD)hContact,(DWORD)&cgs); } void ReadSettingBlob(HANDLE hContact, char *ModuleName, char *SettingName, WORD *pSize, void **pbBlob) { DBVARIANT dbv = {0}; dbv.type = DBVT_BLOB; if ( db_get(hContact, ModuleName, SettingName, &dbv)) { *pSize = 0; *pbBlob = NULL; } else { *pSize = LOWORD(dbv.cpbVal); *pbBlob = (int*)dbv.pbVal; } } void WriteSettingIntArray(HANDLE hContact,char *ModuleName,char *SettingName,const int *Value, int Size) { WriteSettingBlob(hContact, ModuleName, SettingName, WORD(sizeof(int)*Size), (void*)Value); } bool ReadSettingIntArray(HANDLE hContact,char *ModuleName,char *SettingName,int *Value, int Size) { WORD sz = 4096; int *pData; ReadSettingBlob(hContact, ModuleName, SettingName, &sz, (void**)&pData); if (!pData) return false; bool bResult = false; if (sz == sizeof(int)*Size) { memcpy(Value, pData, sizeof(int)*Size); bResult = true; } FreeSettingBlob(sz,pData); return bResult; } void TreeAdd(TREEELEMENT **root, void *Data) { TREEELEMENT *NTE = (TREEELEMENT*)malloc(sizeof(TREEELEMENT)); if (NTE) { NTE->ptrdata = Data; NTE->next = *root; *root = NTE; } } void TreeAddSorted(TREEELEMENT **root,void *Data,int (*CompareCb)(TREEELEMENT*,TREEELEMENT*)) { if (!*root) { // list empty, just add normally TreeAdd(root,Data); return; } TREEELEMENT *NTE = (TREEELEMENT*)malloc(sizeof(TREEELEMENT)); if (!NTE) return; NTE->ptrdata = Data; NTE->next = NULL; // insert sorted TREEELEMENT *Prev = NULL; TREEELEMENT *TTE = *root; while (TTE) { if (CompareCb(NTE, TTE) < 0) { if (Prev) { Prev->next = NTE; NTE->next = TTE; } else { // first in list NTE->next = TTE; *root = NTE; } return; } Prev = TTE; TTE = (TREEELEMENT*)TTE->next; } // add last Prev->next = NTE; } void TreeDelete(TREEELEMENT **root,void *iItem) { TREEELEMENT *TTE = *root, *Prev = NULL; if (!TTE) return; while ((TTE) && (TTE->ptrdata != iItem)) { Prev = TTE; TTE = (TREEELEMENT*)TTE->next; } if (TTE) { if (Prev) Prev->next = TTE->next; else *root = (TREEELEMENT*)TTE->next; SAFE_FREE((void**)&TTE); } } void *TreeGetAt(TREEELEMENT *root, int iItem) { if (!root) return NULL; TREEELEMENT *TTE = root; int i = 0; while ((TTE) && (i != iItem)) { TTE = (TREEELEMENT*)TTE->next; i++; } return (!TTE) ? NULL : TTE->ptrdata; } int TreeGetCount(TREEELEMENT *root) { if (!root) return 0; int i = 0; TREEELEMENT *TTE = root; while (TTE) { TTE = (TREEELEMENT*)TTE->next; i++; } return i; }