public UGrCells Copy() { UGrCells Pcpy = new UGrCells(tfx, no); Pcpy.B81 = B81.Copy(); return(Pcpy); }
public IEnumerable <GroupedLink> IEGet_SuperLinkFirst(UCell UC, int no) { List <UCellLink> Plst = CeLKMan.CeLK81[UC.rc]; if (Plst != null) { foreach (var LK in Plst.Where(p => ((p.no == no) && (p.type == W)))) { yield return(new GroupedLink(LK)); } foreach (var LK in Plst.Where(p => ((p.no != no) && (p.type == S)))) { yield return(new GroupedLink(LK)); } } UGrCells GUC = new UGrCells(-9, no, UC); if (GNPXApp000.GMthdOption["GroupedCells"] == "1") { foreach (var GLK in GLKMan.GrpCeLKLst) { if (GLK.UGCellsA.Equals(GUC)) { yield return(GLK); } } } //first link is not ALS yield break; }
private void SetGroupedLink(int tfx, int type, int no, UGrCells LA, UGrCells LB, bool Print = false) { if (LA.Count == 0 || LB.Count == 0) { return; } if (LA.Count == 1 && LB.Count == 1) { return; } GroupedLink GrpLK = new GroupedLink(LA, LB, tfx, type); int ix = GrpCeLKLst.FindIndex(P => (P.Equals(GrpLK))); if (ix >= 0) { return; } GrpCeLKLst.Add(GrpLK); if (Print) { WriteLine($"\r*LA tfx:{tfx} type:{type} no:{(no+1)}"); LA.ForEach(P => WriteLine(P)); WriteLine("*LB"); LB.ForEach(P => WriteLine(P)); } }
public ALSLink(UALS ALSbase, UGrCells UGCellsA, UGrCells UGCellsB, int tfx) { this.ALSbase = ALSbase; this.UGCellsA = UGCellsA; this.UGCellsB = UGCellsB; this.tfx = tfx; this.type = S; }
public bool Equals(UGrCells other) { return(other != null && //tfx == other.tfx && //Difference in tfx is acceptable. Important as an algorithm. no == other.no && EqualityComparer <Bit81> .Default.Equals(B81, other.B81) && FreeB == other.FreeB); }
public GroupedLink(UGrCells UGCellsA, UGrCells UGCellsB, int tfx, int type) : this() { this.UGCellsA = UGCellsA; this.UGCellsB = UGCellsB; //this.tfx=tfx; this.type = type; FreeB = UGCellsA.Aggregate(0, (Q, P) => Q | P.FreeB); FreeB = UGCellsB.Aggregate(FreeB, (Q, P) => Q | P.FreeB); }
public UGrCells SelectNoCells(int no) { int noB = 1 << no; List <UCell> UCsS = UCellLst.FindAll(Q => (Q.FreeB & noB) > 0); UGrCells GCs = new UGrCells(tfx, no); GCs.Add(UCsS); return(GCs); }
public GroupedLink(UCellLink LK) : this() { UCelLK = LK; UGCellsA = new UGrCells(LK.tfx, LK.no, LK.UCe1); UGCellsB = new UGrCells(LK.tfx, LK.no, LK.UCe2); this.type = LK.type; this.tfx = LK.tfx; FreeB = UGCellsA.Aggregate(0, (Q, P) => Q | P.FreeB); FreeB = UGCellsB.Aggregate(FreeB, (Q, P) => Q | P.FreeB); }
public IEnumerable <GroupedLink> IEGet_GlkNoType(UGrCells GLK, int no, int typB) { foreach (var P in GrpCeLKLst) { if (P.UGCellsA == GLK) { yield return(P); } } yield break; }
private bool _GroupedNL_LoopCheck(GroupedLink GLK0, GroupedLink GLKnxt) { UGrCells Qorg = GLK0.UGCellsA; UGrCells Qdst = GLKnxt.UGCellsB; if (Qdst.Count != 1) { return(false); } return(Qdst[0].rc == Qorg[0].rc); }
//Link in ALS(when 1-number is excluded and locked, other digits are in one house) public void QSearch_AlsInnerLink() { if (ALSLst == null) { PrepareALSLinkMan(1); } if (ALSLst.Count == 0) { return; } if (AlsInnerLink != null) { return; } foreach (var Pals in ALSLst.Where(p => (p.Size >= 2 && p.singly))) { List <int> noLst = Pals.FreeB.IEGet_BtoNo().ToList(); Permutation prm = new Permutation(noLst.Count, 2);//using permutation while (prm.Successor(2)) { int noS = noLst[prm.Index[0]]; int noD = noLst[prm.Index[1]]; UGrCells GS = Pals.SelectNoCells(noS); //ALS cell group with noS UGrCells GD = Pals.SelectNoCells(noD); //ALS cell group with noD Bit81 B81D = new Bit81(); GD.ForEach(q => B81D.BPSet(q.rc)); for (int tfx = 0; tfx < 27; tfx++) { if (!(B81D - pHouseCells[tfx]).IsZero()) { continue; } _SetGroupedLink(Pals, GS, GD, tfx); } } } if (AlsInnerLink == null || AlsInnerLink.Count <= 0) { return; } AlsInnerLink.Sort(); int ID = 0; AlsInnerLink.ForEach(P => P.ID = (ID++)); // AlsInnerLink.ForEach(P=>{ // // if( P.ALSbase.Size==2 && P.tfx==18 ){ // WriteLine($"ALSLink {P.UGCellsA.GCToString()} -> tfx:{P.tfx} {P.UGCellsB.GCToString()}" ); // // } // } ); }
public bool Check_SuperLinkSequence(GroupedLink GLKpre, GroupedLink GLKnxt) { if (GLKpre == null) { WriteLine("null"); } int typP = GLKpre.type; if (GLKpre is ALSLink) { typP = S; } int noP = GLKpre.no2; int typN = GLKnxt.type; int noN = GLKnxt.no; UCellLink LKpre = GLKpre.UCelLK; UCellLink LKnxt = GLKnxt.UCelLK; int FreeBC = 0; if (LKpre != null) { FreeBC = pBDL[LKpre.rc2].FreeBC; if (LKnxt != null) //singleLink -> singleLink { return(_Check_SWSequenceSub(typP, noP, LKnxt.type, noN, FreeBC)); } else //singleLink -> multiLink { UGrCells UGrCs = GLKnxt.UGCellsA; if (UGrCs.Count == 1) //singleCell -> singleCell { return(_Check_SWSequenceSub(typP, noP, typN, noN, FreeBC)); } } } else if (GLKpre.UGCellsB.Count == 1 && LKnxt != null) // multiLink -> singleLink { FreeBC = GLKpre.UGCellsB.FreeB.BitCount(); return(_Check_SWSequenceSub(typP, noP, typN, noN, FreeBC)); } FreeBC = GLKpre.UGCellsB.FreeB.BitCount(); return(_Check_SWSequenceSub(typP, noP, typN, noN, FreeBC)); }
private void _SetGroupedLink(UALS P, UGrCells GS, UGrCells GD, int tfx) { ALSLink ALSLK = new ALSLink(P, GS, GD, tfx); if (AlsInnerLink == null) { AlsInnerLink = new List <ALSLink>(); } if (AlsInnerLink.Count > 0) { int ix = AlsInnerLink.FindIndex(Q => (Q.Equals(ALSLK))); if (ix >= 0) { return; } } AlsInnerLink.Add(ALSLK); //WriteLine( $"ALSLink {GS.GCToString()} -> tfx:{tfx} {GD.GCToString()}" ); }
public GroupedLink(UCell UC, int no1, int no2, int type, bool rootF = false) : this() { this.rootF = rootF; int F = (1 << no1) | (1 << no2); // if( no1==no2 || (UC.FreeB&(1<<no1))==0 || (UC.FreeB&(1<<no2))==0 ){ if ((UC.FreeB & (1 << no1)) == 0 || (UC.FreeB & (1 << no2)) == 0) { UGCellsA = UGCellsB = null; return; } UGCellsA = new UGrCells(-1, no1, UC); UGCellsB = new UGrCells(-1, no2, UC); UCelLK = null; this.type = (UC.FreeBC == 2)? type: 2; //2:WeakLink FreeB = UGCellsA.Aggregate(0, (Q, P) => Q | P.FreeB); FreeB = UGCellsB.Aggregate(FreeB, (Q, P) => Q | P.FreeB); }
private bool _IsLooped(GroupedLink P) { UGrCells PB = P.UGCellsB; var Q = P.preGrpedLink as GroupedLink; int nc = 0; while (Q != null) { UGrCells QA = Q.UGCellsA; if (QA.Equals(PB)) { return(true); } Q = Q.preGrpedLink as GroupedLink; if (++nc > 20) { return(true); //БеБеБеБе ГoГOВаВш БеБеБеБе } } return(false); }
public int CompareTo(object obj) { UGrCells Q = obj as UGrCells; if (this.no != Q.no) { return(this.no - Q.no); } if (this.Count != Q.Count) { return(this.Count - Q.Count); } for (int k = 0; k < Count; k++) { if (this[k].rc != Q[k].rc) { return(this[k].rc - Q[k].rc); } } return(0); }
public bool EqualsRC(object obj) { UGrCells Q = obj as UGrCells; if (Q == null) { return(false); } if (this.Count != Q.Count) { return(false); } for (int k = 0; k < Count; k++) { if (this[k].rc != Q[k].rc) { return(false); } } return(true); }
public IEnumerable <GroupedLink> IEGet_SuperLink(GroupedLink GLKpre) { int SWCtrl = GLKpre.type; bool ALSpre = GLKpre is ALSLink; if (GLKpre.UGCellsB.Count == 1) { UCell U = GLKpre.UGCellsB[0]; List <UCellLink> Plst = CeLKMan.CeLK81[U.rc]; if (Plst != null) { foreach (var LK in Plst) { if (ALSpre && LK.type != W) { continue; } GroupedLink GLK = new GroupedLink(LK); if (Check_SuperLinkSequence(GLKpre, GLK)) { yield return(GLK); } } } } if (GNPXApp000.GMthdOption["GroupedCells"] == "1") { foreach (var GP in GLKMan.GrpCeLKLst) { if (ALSpre && GP.type != W) { continue; } if (!GLKpre.UGCellsB.EqualsRC(GP.UGCellsA)) { continue; } if (GLKpre.no2 != GP.no) { continue; } if (Check_SuperLinkSequence(GLKpre, GP)) { yield return(GP); } } } if (GNPXApp000.GMthdOption["ALS"] == "1" && ALSMan.AlsInnerLink != null) { if (GLKpre.type == W) { foreach (var GP in ALSMan.AlsInnerLink.Where(p => (p.ALSbase.Level == 1))) { if (GLKpre.no2 != GP.no) { continue; } if (GLKpre.UGCellsB.Equals(GP.UGCellsA)) { yield return(GP); } } } } if (ALSpre) { ALSLink ALK = GLKpre as ALSLink; int noB = 1 << ALK.no2; Bit81 BPnoB = new Bit81(pBDL, noB); Bit81 BP = BPnoB & ALK.UGCellsB.B81; // ALK.UGCellsB.ForEach(P=>{ if((P.FreeB&noB)>0) BP.BPSet(P.rc); }); Bit81 UsedCs = GLKpre.UsedCs; for (int tfx = 0; tfx < 27; tfx++) { Bit81 HS = BPnoB & pHouseCells[tfx]; if (!(BP - HS).IsZero()) { continue; } if ((HS - BP).IsZero()) { continue; } Bit81 NxtBP = HS - BP - UsedCs; if (NxtBP.IsZero()) { continue; } //C WriteLine("\n tfx:"+tfx ); //C WriteLine( " BP:"+BP ); //C WriteLine( " HS:"+HS ); //C WriteLine( "HS-BP:"+(HS-BP) ); //C WriteLine( "NxtBP:"+NxtBP ); List <UCell> NxtCs = NxtBP.ToList().ConvertAll(rc => pBDL[rc]); for (int k = 1; k < (1 << NxtCs.Count); k++) { UGrCells NxtGrpdCs = new UGrCells(tfx, ALK.no2); int kb = k; for (int n = 0; n < NxtCs.Count; n++) { if ((kb & 1) > 0) { NxtGrpdCs.Add(new UGrCells(NxtCs[n], ALK.no2)); } kb >>= 1; } GroupedLink GP = new GroupedLink(GLKpre.UGCellsB, NxtGrpdCs, tfx, W); //C WriteLine( GP ); yield return(GP); } } } yield break; }
private void SearchGroupedLink() { try{ UGrCells[] LQ = new UGrCells[3]; for (int no = 0; no < 9; no++) { int noB = 1 << no; Bit81 BPnoB = new Bit81(pBDL, noB); //------------------------------------------ for (int tfx = 0; tfx < 18; tfx++) { Bit81 BPnoB2 = BPnoB & pHouseCells[tfx]; List <Bit81> houseLst = new List <Bit81>(); List <int> tfxLst = new List <int>(); for (int k = 0; k < 9; k++) { int hx = (tfx < 9)? (k + 9): k; Bit81 BX = BPnoB2 & pHouseCells[hx]; if (BX.IsZero()) { continue; } houseLst.Add(BX); tfxLst.Add(hx); } for (int k = 0; k < 3; k++) { int hx = (tfx < 9)? (tfx / 3 * 3 + k): ((tfx - 9) / 3 + k * 3); hx += 18; Bit81 BX = BPnoB2 & pHouseCells[hx]; if (BX.IsZero()) { continue; } houseLst.Add(BX); tfxLst.Add(hx); } if (houseLst.Count < 2) { continue; } Permutation prm = new Permutation(houseLst.Count, 2); while (prm.Successor()) { int na = prm.Index[0], nb = prm.Index[1]; Bit81 HA = houseLst[na]; Bit81 HB = houseLst[nb]; if (!(HA & HB).IsZero()) { continue; } UGrCells LA = new UGrCells(tfxLst[na], no); UGrCells LB = new UGrCells(tfxLst[nb], no); foreach (var P in HA.IEGetUCeNoB(pBDL, 0x1FF)) { LA.Add(P); } foreach (var P in HB.IEGetUCeNoB(pBDL, 0x1FF)) { LB.Add(P); } SetGroupedLink(tfxLst[nb], W, no, LA, LB); if (!(BPnoB2 - (HA | HB)).IsZero()) { continue; } SetGroupedLink(tfxLst[nb], S, no, LA, LB); } } //------------------------------------------ for (int tfx = 18; tfx < 27; tfx++) { int bx = tfx - 18; int b0 = (bx / 3 * 27 + (bx % 3) * 3); //Cell number at the top left of the block Bit81 BPnoB2 = BPnoB & pHouseCells[tfx]; List <Bit81> houseLst = new List <Bit81>(); List <int> tfxLst = new List <int>(); for (int k = 0; k < 3; k++) { int r0 = (b0 / 9 + k); Bit81 BX = BPnoB2 & pHouseCells[r0]; if (BX.IsZero()) { continue; } houseLst.Add(BX); tfxLst.Add(r0); } for (int k = 0; k < 3; k++) { int c0 = (b0 % 9) + k; Bit81 BX = BPnoB2 & pHouseCells[c0 + 9]; if (BX.IsZero()) { continue; } houseLst.Add(BX); tfxLst.Add(c0 + 9); } if (houseLst.Count >= 2) { Permutation prm = new Permutation(houseLst.Count, 2); while (prm.Successor()) { int na = prm.Index[0], nb = prm.Index[1]; Bit81 HA = houseLst[na]; Bit81 HB = houseLst[nb] - HA; if (HB.IsZero()) { continue; } UGrCells LA = new UGrCells(tfxLst[na], no); UGrCells LB = new UGrCells(tfxLst[nb], no); foreach (var P in HA.IEGetUCeNoB(pBDL, 0x1FF)) { LA.Add(P); } foreach (var P in HB.IEGetUCeNoB(pBDL, 0x1FF)) { LB.Add(P); } SetGroupedLink(tfxLst[nb], W, no, LA, LB); if (!(BPnoB2 - (HA | HB)).IsZero()) { continue; } SetGroupedLink(tfxLst[nb], S, no, LA, LB); } } if (houseLst.Count >= 1) { for (int na = 0; na < houseLst.Count; na++) { Bit81 HA = houseLst[na]; UGrCells LA = new UGrCells(tfxLst[na], no); foreach (var P in HA.IEGetUCeNoB(pBDL, 0x1FF)) { LA.Add(P); } foreach (var rc in BPnoB2.IEGet_rc()) { if (HA.IsHit(rc)) { continue; } UGrCells LB = new UGrCells(-9, no, pBDL[rc]); SetGroupedLink(tfxLst[na], W, no, LA, LB); SetGroupedLink(-9, W, no, LB, LA); } } } } } } catch (Exception ex) { WriteLine(ex.Message); WriteLine(ex.StackTrace); } }
private bool GNL_RecursiveSearch(GroupedLink GLK0, GroupedLink GLKpre, Stack <GroupedLink> SolStack, int szCtrl) { if (szCtrl < 0) { return(false); } Bit81 UsedCs = GLKpre.UsedCs; foreach (var GLKnxt in pSprLKsMan.IEGet_SuperLink(GLKpre)) //links that satisfy concatenation conditions { UGrCells GCsNxt = GLKnxt.UGCellsB; int no = GLKnxt.no; { //===== Chain Search ===== SolStack.Push(GLKnxt); //( link extension --> Push ) ___Debug_Print_GNLChain(SolStack); //Loop was formed (the next cell matches the Origin Cell) if (_GroupedNL_LoopCheck(GLK0, GLKnxt)) { if (szCtrl == 0 && SolStack.Count > 3) { int SolType = _GroupedNL_CheckSolution(GLK0, GLKnxt, SolStack, UsedCs); if (SolType > 0) { if (___GNLCC == 2898) { WriteLine("-----------------"); } ___Debug_Print_GNLChain(SolStack, "<+><+>"); if (SolInfoB) { _GroupedNL_SolResult(GLK0, GLKnxt, SolStack, SolType); } __SolGL = SolCode; if (__SimpleAnalizerB__) { return(true); } if (!pAnMan.SnapSaveGP(false)) { return(false); } Thread.Sleep(10); if ((++SolLimBrk) > (int)SDK_Ctrl.MltAnsOption["OneMethod"]) { SolLimBrk = int.MaxValue; return(false); } } } } else if (!CheckUsed((UsedCs | GLK0.UsedCs), GLKnxt)) { Bit81 UsedCsNxt = new Bit81(UsedCs); //Create a new bit representation of used cell SetUsed(ref UsedCsNxt, GLKnxt); GLKnxt.UsedCs = UsedCsNxt; GNL_RecursiveSearch(GLK0, GLKnxt, SolStack, szCtrl - 1); //Next step Search(recursive call if (SolLimBrk == int.MaxValue) { return(false); } if (SolCode > 0) { return(true); } } SolStack.Pop(); // Failure(Cancel link extension processing --> Pop ) } //----------------------------- } return(false); }
public GroupedLink(UGrCells UGCellsA, UGrCells UGCellsB, int type) : this() { this.UGCellsA = UGCellsA; this.UGCellsB = UGCellsB; this.type = type; }