// ! BACKWARDS COMPATIBILITY ! Override masks for inventory types that // no longer can have restricted permissions. This takes care of previous // version landmarks that could have had no copy/mod/transfer bits set. void LLPermissions::initMasks(LLInventoryType::EType type) { if (LLInventoryType::cannotRestrictPermissions(type)) { initMasks(PERM_ALL, PERM_ALL, PERM_ALL, PERM_ALL, PERM_ALL); } }
/** * Initialize X connection, establish grab. */ Display* initX(const char* keyName, int keyModifier, int* keyCode) { KeySym sym = XStringToKeysym(keyName); if (sym == NoSymbol) { fprintf(stderr, "ERROR: Unknown key: %s\n", keyName); exit(2); } Display* display = XOpenDisplay(NULL); if (display == NULL) { fprintf(stderr, "ERROR: Could not open display.\n"); exit(3); } *keyCode = XKeysymToKeycode(display, sym); Window rootWindow = DefaultRootWindow(display); initMasks(display); Bool detectableAutoRepeatSupported; XkbSetDetectableAutoRepeat(display, True, &detectableAutoRepeatSupported); if (!detectableAutoRepeatSupported) { fprintf(stderr, "ERROR: Detectable auto repeat is not supported.\n"); exit(4); } // Grab grabKey(display, rootWindow, *keyCode, keyModifier); // Enable events XAllowEvents(display, AsyncBoth, CurrentTime); XSelectInput(display, rootWindow, KeyPressMask | KeyReleaseMask); return display; }
/*df*D9C9T9U9**************************************************/ result_t optMasks(const char * pNxtChar) { /*Parse short cuts for setting up for calibration tests * See help section */ result_t retResult=SUCCESS; pNxtChar+=2; switch (*pNxtChar) { case 'p': initMasks();//pressure debugMasks[MASK_INDX_SensorsMngXxx] |= ( eDbgConsoleAccess|eDbgSnrsMng_Prsr|eDbgSnrsMng_PrsrCalbr); break; case 'd': initMasks(); //default debugMasks[MASK_INDX_SystemMngXxx]=eDbgAll_errEvt; debugMasks[MASK_INDX_DataMngM]=eDbgDataMng_sdmsAction|eDbgAll_errEvt; debugMasks[MASK_INDX_SensorsMngM]=eDbgSnsrMng_Output|eDbgAll_errEvt; // debugMasks[MASK_INDX_SensorsMngXxx]=eDbgAll_errEvt; // debugMasks[MASK_INDX_SensorsAdcHwM]=eDbgAll_errEvt; debugMasks[MASK_INDX_RadioSend]=eDbgRadio_Send|eDbgAll_errEvt;//|eDbgRadio_FramerReceive; debugMasks[MASK_INDX_RouteInM]=eDbgRouteIn_RxAll|eDbgAll_errEvt; // debugMasks[MASK_INDX_HALHwStateSondeM]=eDbgAll_errEvt; // debugMasks[MASK_INDX_FlashSerial]=eDbgAll_errEvt; break; case 'e': initMasks();break;//error only case 'm': initMasks(); debugMasks[MASK_INDX_SystemMngXxx] |= (eDbgConsoleAccess|eDbgSysMngXxx_PwrMin); debugMasks[MASK_INDX_RadioSend] |= (eDbgRadio_Send); break; case 'M': initMasks(); debugMasks[MASK_INDX_SystemMngXxx] |= (eDbgConsoleAccess); debugMasks[MASK_INDX_RadioLinkLayer]|=(eDbgRadio_RmApiDiscard|eDbgRadio_RmApiRxOctet|eDbgRadio_RmApiTxOctet); debugMasks[MASK_INDX_RadioSend] |=(eDbgRadio_Send|eDbgRadio_ATrsp|eDbgRadio_Cntl); break; case 's': initMasks();//standard debugMasks[MASK_INDX_SystemMngXxx] |= (eDbgConsoleAccess); debugMasks[MASK_INDX_RadioLinkLayer]|=(eDbgRadio_RmApiMng|eDbgRadio_RmApiDiscard); debugMasks[MASK_INDX_RadioSend] |= (eDbgRadio_Send); break; case 'S': initMasks(); debugMasks[MASK_INDX_SystemMngXxx] |= (eDbgConsoleAccess); debugMasks[MASK_INDX_RadioSend] |=(eDbgRadio_Send); debugMasks[MASK_INDX_HALHwStateSondeM]|=(eDbgPwrMng); break; default: //print Help Serial.print( "\n\r d default" "\n\r p pressure calbriation" "\n\r e errors" "\n\r m minimal basic comms+ insufficient power" "\n\r M Maximal comms" "\n\r s standard comms + comms cntl" "\n\r S Standard comms + power" ); break; } return retResult; } //readIntEeprom
void BloomFilter::init(bool build, int32_t nv, ...) { if( BFBuild ) { return; } I( !BFBuild ); va_list argL; va_start(argL, nv); BFBuild = true; nVectors = nv; vSize = new int[nVectors]; vBits = new int[nVectors]; for(int32_t i = 0; i < nVectors; i++) { vBits[i] = va_arg(argL, int); // # of bits from the address vSize[i] = va_arg(argL, int); // # of entries in the corresponding vector } va_end(argL); vMask = new unsigned[nVectors]; rShift = new int[nVectors]; countVec = new int*[nVectors]; nonZeroCount = new int[nVectors]; for(int32_t i = 0; i < nVectors; i++) { countVec[i] = new int[vSize[i]]; for(int32_t j = 0; j < vSize[i]; j++) { countVec[i][j] = 0; } nonZeroCount[i] = 0; } nElements = 0; timingHistVec = 0; initMasks(); desc = new char[128]; desc[0] = 0; for(int32_t i = 0; i < nVectors; i++) sprintf(desc + strlen(desc), "[%d, %d]", vBits[i], vSize[i]); }
void Board::initStartPosition() { initMasks(); initAttacks(); wKing = 1 << 3; wQueens = 1 << 4; wRooks = 1 | (1 << 7); wBishops = (1 << 2) | (1 << 5); wKnights = (1 << 1) | (1 << 6); wPawns = 0x000000000000FF00; wPieces = wKing | wQueens | wRooks | wBishops | wKnights | wPawns; bKing = 1ULL << 59; bQueens = 1ULL << 60; bRooks = (1ULL << 63) | (1ULL << 56); bBishops = (1ULL << 61) | (1ULL << 58); bKnights = (1ULL << 62) | (1ULL << 57); bPawns = 0x00FF000000000000; bPieces = bKing | bQueens | bRooks | bBishops | bKnights | bPawns; allPieces = wPieces | bPieces; }