public TNBC() { #region Initialization Common Blocks CommonBlock SUBSCR = new CommonBlock(0, 15, 0, 0); #endregion #region Dependencies (Initialization) MCHPR1 mchpr1 = new MCHPR1(); DDOT ddot = new DDOT(); DNRM2 dnrm2 = new DNRM2(); CRASH crash = new CRASH(); ZTIME ztime = new ZTIME(); MONIT monit = new MONIT(); DCOPY dcopy = new DCOPY(); SSBFGS ssbfgs = new SSBFGS(); DAXPY daxpy = new DAXPY(); NEGVEC negvec = new NEGVEC(); STPMAX stpmax = new STPMAX(); GETPTC getptc = new GETPTC(); LSOUT lsout = new LSOUT(); MODZ modz = new MODZ(); CNVTST cnvtst = new CNVTST(); DXPY dxpy = new DXPY(); SETPAR setpar = new SETPAR(SUBSCR); GTIMS gtims = new GTIMS(SUBSCR); STEP1 step1 = new STEP1(mchpr1); CHKUCP chkucp = new CHKUCP(mchpr1, dnrm2); SETUCR setucr = new SETUCR(ddot); INITP3 initp3 = new INITP3(ddot, dcopy); INITPC initpc = new INITPC(initp3, SUBSCR); MSLV mslv = new MSLV(ddot, ssbfgs); MSOLVE msolve = new MSOLVE(mslv, SUBSCR); NDIA3 ndia3 = new NDIA3(ddot); MODLNP modlnp = new MODLNP(ddot, initpc, ztime, msolve, gtims, ndia3, daxpy, negvec, dcopy); LINDER linder = new LINDER(ddot, getptc, lsout, dcopy); LMQNBC lmqnbc = new LMQNBC(ddot, dnrm2, step1, crash, setpar, chkucp, setucr, ztime, monit, modlnp , dcopy, stpmax, linder, modz, cnvtst, dxpy, SUBSCR); #endregion #region Set Dependencies this._mchpr1 = mchpr1; this._lmqnbc = lmqnbc; #endregion }
public MODLNP() { #region Initialization Common Blocks CommonBlock SUBSCR = new CommonBlock(0, 15, 0, 0); #endregion #region Dependencies (Initialization) DDOT ddot = new DDOT(); DCOPY dcopy = new DCOPY(); ZTIME ztime = new ZTIME(); SSBFGS ssbfgs = new SSBFGS(); DAXPY daxpy = new DAXPY(); NEGVEC negvec = new NEGVEC(); GTIMS gtims = new GTIMS(SUBSCR); INITP3 initp3 = new INITP3(ddot, dcopy); INITPC initpc = new INITPC(initp3, SUBSCR); MSLV mslv = new MSLV(ddot, ssbfgs); MSOLVE msolve = new MSOLVE(mslv, SUBSCR); NDIA3 ndia3 = new NDIA3(ddot); #endregion #region Set Dependencies this._ddot = ddot; this._initpc = initpc; this._ztime = ztime; this._msolve = msolve; this._gtims = gtims; this._ndia3 = ndia3;this._daxpy = daxpy; this._negvec = negvec; this._dcopy = dcopy; #endregion }
public LMQNBC() { #region Initialization Common Blocks CommonBlock SUBSCR = new CommonBlock(0, 15, 0, 0); #endregion #region Dependencies (Initialization) DDOT ddot = new DDOT(); DNRM2 dnrm2 = new DNRM2(); MCHPR1 mchpr1 = new MCHPR1(); CRASH crash = new CRASH(); ZTIME ztime = new ZTIME(); MONIT monit = new MONIT(); DCOPY dcopy = new DCOPY(); SSBFGS ssbfgs = new SSBFGS(); DAXPY daxpy = new DAXPY(); NEGVEC negvec = new NEGVEC(); STPMAX stpmax = new STPMAX(); GETPTC getptc = new GETPTC(); LSOUT lsout = new LSOUT(); MODZ modz = new MODZ(); CNVTST cnvtst = new CNVTST(); DXPY dxpy = new DXPY(); SETPAR setpar = new SETPAR(SUBSCR); GTIMS gtims = new GTIMS(SUBSCR); STEP1 step1 = new STEP1(mchpr1); CHKUCP chkucp = new CHKUCP(mchpr1, dnrm2); SETUCR setucr = new SETUCR(ddot); INITP3 initp3 = new INITP3(ddot, dcopy); INITPC initpc = new INITPC(initp3, SUBSCR); MSLV mslv = new MSLV(ddot, ssbfgs); MSOLVE msolve = new MSOLVE(mslv, SUBSCR); NDIA3 ndia3 = new NDIA3(ddot); MODLNP modlnp = new MODLNP(ddot, initpc, ztime, msolve, gtims, ndia3, daxpy, negvec, dcopy); LINDER linder = new LINDER(ddot, getptc, lsout, dcopy); #endregion #region Set Dependencies this._ddot = ddot; this._dnrm2 = dnrm2; this._step1 = step1; this._crash = crash; this._setpar = setpar; this._chkucp = chkucp;this._setucr = setucr; this._ztime = ztime; this._monit = monit; this._modlnp = modlnp; this._dcopy = dcopy;this._stpmax = stpmax; this._linder = linder; this._modz = modz; this._cnvtst = cnvtst; this._dxpy = dxpy; #endregion #region Common varaible Initialization #region Common Block: SUBSCR Initialization this._subscr = SUBSCR; LGV = SUBSCR.intData[0]; LZ1 = SUBSCR.intData[1]; LZK = SUBSCR.intData[2]; LV = SUBSCR.intData[3]; LSK = SUBSCR.intData[4]; LYK = SUBSCR.intData[5]; LDIAGB = SUBSCR.intData[6]; LSR = SUBSCR.intData[7]; LYR = SUBSCR.intData[8]; LOLDG = SUBSCR.intData[9]; LHG = SUBSCR.intData[10]; LHYK = SUBSCR.intData[11]; LPK = SUBSCR.intData[12]; LEMAT = SUBSCR.intData[13]; LWTEST = SUBSCR.intData[14]; #endregion #endregion }
public MODLNP(DDOT ddot, INITPC initpc, ZTIME ztime, MSOLVE msolve, GTIMS gtims, NDIA3 ndia3, DAXPY daxpy, NEGVEC negvec, DCOPY dcopy) { #region Set Dependencies this._ddot = ddot; this._initpc = initpc; this._ztime = ztime; this._msolve = msolve; this._gtims = gtims; this._ndia3 = ndia3;this._daxpy = daxpy; this._negvec = negvec; this._dcopy = dcopy; #endregion }
public LMQNBC(DDOT ddot, DNRM2 dnrm2, STEP1 step1, CRASH crash, SETPAR setpar, CHKUCP chkucp, SETUCR setucr, ZTIME ztime, MONIT monit, MODLNP modlnp , DCOPY dcopy, STPMAX stpmax, LINDER linder, MODZ modz, CNVTST cnvtst, DXPY dxpy, CommonBlock SUBSCR) { #region Set Dependencies this._ddot = ddot; this._dnrm2 = dnrm2; this._step1 = step1; this._crash = crash; this._setpar = setpar; this._chkucp = chkucp;this._setucr = setucr; this._ztime = ztime; this._monit = monit; this._modlnp = modlnp; this._dcopy = dcopy;this._stpmax = stpmax; this._linder = linder; this._modz = modz; this._cnvtst = cnvtst; this._dxpy = dxpy; #endregion #region Common varaible Initialization #region Common Block: SUBSCR Initialization this._subscr = SUBSCR; LGV = SUBSCR.intData[0]; LZ1 = SUBSCR.intData[1]; LZK = SUBSCR.intData[2]; LV = SUBSCR.intData[3]; LSK = SUBSCR.intData[4]; LYK = SUBSCR.intData[5]; LDIAGB = SUBSCR.intData[6]; LSR = SUBSCR.intData[7]; LYR = SUBSCR.intData[8]; LOLDG = SUBSCR.intData[9]; LHG = SUBSCR.intData[10]; LHYK = SUBSCR.intData[11]; LPK = SUBSCR.intData[12]; LEMAT = SUBSCR.intData[13]; LWTEST = SUBSCR.intData[14]; #endregion #endregion }