private NPoint PickFromBShortest(NPoint pre)
{
NPoint ret = B[0];
int len = ret.belong.chain.Count; //最短链的长度
for (int j = 0; j < B.Count; j++)
{
if (B[j].belong.chain.Count != len)
{
break;
}
if (B[j].HasNOne() == pre.HasNOne())
{
ret = B[j];
break;
}
}
return(ret);
}
//return asked count
private int Algorithm()
{
while (B.Count != 0)
{
if (runal != null)
{
runal.WaitOne();
}
//1.选点
NPoint alpha_i = B[0];
if (asked.Count >= 1)
{
NPoint alpha_i_1 = asked[asked.Count - 1];
//如果αi的绝对值等于αi-1的绝对值,那么就选αi
alpha_i = PickFromBShortest(alpha_i_1);
}
int val = GFunction.getInstance().Calculate(alpha_i);
alpha_i.gfuncValue = val;
//AddPointToA(alpha_i);
AddPointsToA(new List <NPoint>()
{
alpha_i
}, null, null);
asked.Add(alpha_i);
//2.查看是否出现逆序对
//先判断是否有之前未处理的逆序对
isFromList = true;
foreach (var reverseOrder in unhandledReverseOrders)
{
HandleReverseOrder(reverseOrder.alpha, reverseOrder.beta);
}
isFromList = false;
//
bool bReverseOrder = false;
NPoint getVal = null;
if (val == 1)
{
List <NPoint> upoints = getDirectUpPoints(alpha_i);
foreach (NPoint p in upoints)
{
if (A.Contains(p))
{
if (p.gfuncValue == 0)
{
//一次只会出现一个逆序对
Debug.Assert(bReverseOrder != true);
getVal = p;
bReverseOrder = true;
//break;
}
}
}
}
else
{
List <NPoint> dpoints = getDirectDownPoints(alpha_i);
foreach (NPoint p in dpoints)
{
if (A.Contains(p))
{
if (p.gfuncValue == 1)
{
Debug.Assert(bReverseOrder != true);
getVal = p;
bReverseOrder = true;
//break;
}
}
}
}
if (bReverseOrder)
{
Debug.Assert(getVal != null);
//出现逆序对
if (alpha_i.gfuncValue == 1)
{
HandleReverseOrder(alpha_i, getVal);
}
else
{
HandleReverseOrder(getVal, alpha_i);
}
}
//3.共同确定
//未出现逆序对 或 已经处理完逆序对
for (int i = 0; i < A.Count; i++)
{
for (int j = i + 1; j < A.Count; j++)
{
NPoint beta1 = A[i];
NPoint beta2 = A[j];
if (!beta1.Equals(beta2))
{
if (beta1.HasNOne() == beta2.HasNOne() && beta1.gfuncValue == beta2.gfuncValue)
{
HandleBeta1AndBeta2(beta1, beta2);
}
}
}
}
//4.遍历A寻找非G
for (int i = 0; i < A.Count; ++i)
{
NPoint beta = A[i];
//找到全部的β∈A,g(β)==0?
if (beta.gfuncValue == 0)
{
//找到β的所有直接下级γ,如果使g(γ)==1的γ的数量为0且g(γ)==0的γ的数量为|β|-1
List <NPoint> dbeta = getDirectDownPoints(beta);
int oneCnt = 0;
int zeroCnt = 0;
foreach (NPoint gamma in dbeta)
{
if (gamma.realValue == 1)
{
oneCnt++;
}
else if (gamma.realValue == 0)
{
zeroCnt++;
}
}
if (oneCnt == 0 && (zeroCnt == (beta.HasNOne() - 1)))
{
//令β的所有下级δ,f(δ)=0,所有δ归于A
AddPointsToA(dbeta, 0, null);
//foreach (NPoint delta in dbeta)
//{
// delta.ffuncValue = 0;
// AddPointToA(delta);
//}
}
}
else
{
//找到β的所有直接上级γ,如果使g(γ)==0的γ的数量为0且g(γ)==1的γ的数量为n-|β|-1
List <NPoint> ubeta = getDirectUpPoints(beta);
int oneCnt = 0;
int zeroCnt = 0;
foreach (NPoint gamma in ubeta)
{
if (gamma.realValue == 1)
{
oneCnt++;
}
else if (gamma.realValue == 0)
{
zeroCnt++;
}
}
if (zeroCnt == 0 && (oneCnt == (nDim - beta.HasNOne() - 1)))
{
//令β的所有上级δ,f(δ)=1,所有δ归于A
AddPointsToA(ubeta, 1, null);
//foreach (NPoint delta in ubeta)
//{
// delta.ffuncValue = 1;
// AddPointToA(delta);
//}
}
}
}
}
return(asked.Count);
}
void HandleReverseOrder(NPoint alpha /*g(α)=1*/, NPoint beta /*g(β)=0*/)
{
Debug.Assert(alpha.gfuncValue == 1);
Debug.Assert(beta.gfuncValue == 0);
List <NPoint> gamma = getDirectDownPoints(beta);
int b1 = 0, b0 = 0;
foreach (NPoint p in gamma)
{
if (A.Contains(p))
{
if (p.realValue == 1)
{
b1++;
}
else if (p.realValue == 0)
{
b0++;
}
}
}
gamma = getDirectUpPoints(alpha);
int a1 = 0, a0 = 0;
foreach (NPoint p in gamma)
{
if (A.Contains(p))
{
if (p.realValue == 1)
{
a1++;
}
else if (p.realValue == 0)
{
a0++;
}
}
}
if (b1 >= 2 || ((nDim - alpha.HasNOne() - a1) == 1))
{
//G=β,f(β)=1,令所有β的上级f都等于1且归于A
_G = beta;
//beta.ffuncValue = 1;
//AddPointToA(beta);
AddPointsToA(new List <NPoint>()
{
beta
}, 1, null);
List <NPoint> ubeta = getDirectUpPoints(beta);
AddPointsToA(ubeta, 1, null);
//foreach (NPoint p in ubeta)
//{
// p.ffuncValue = 1;
// AddPointToA(p);
//}
}
else
{
if (a0 >= 2 || ((beta.HasNOne() - b0) == 1))
{
//G = α,f(α)= 0,令所有α的下级f都等于0且归于A
_G = alpha;
//alpha.ffuncValue = 0;
//AddPointToA(alpha);
AddPointsToA(new List <NPoint>()
{
alpha
}, 0, null);
List <NPoint> dalpha = getDirectDownPoints(alpha);
AddPointsToA(dalpha, 0, null);
//foreach (NPoint p in dalpha)
//{
// p.ffuncValue = 0;
// AddPointToA(p);
//}
}
else
{
//两个条件都不满足
//保存这个逆序对到逆序list当中
if (!isFromList)
{
UnhandledReverseOrder uro = new UnhandledReverseOrder();
uro.alpha = alpha;
uro.beta = beta;
unhandledReverseOrders.Add(uro);
}
}
}
}
void HandleBeta1AndBeta2(NPoint beta1, NPoint beta2)
{
if (beta1.realValue == beta2.realValue && beta1.realValue == 1)
{
//计算γ==β1 or β2,按位或。令f(γ) = 1,γ归到A中
BigInteger b = beta1.toInt() | beta2.toInt();
NPoint gamma;
allPoints.TryGetValue(b, out gamma);
//gamma中1的数量-β1中1的数量,如果大于1则这个gamma不能用
if (gamma.HasNOne() - beta1.HasNOne() > 1)
{
return;
}
gamma.ffuncValue = 1;
//AddPointToA(gamma);
AddPointsToA(new List <NPoint>()
{
gamma
}, null, null);
//另所有大于γ的γ’,f(γ‘)都等于1,所有的γ’归到A中
List <NPoint> gammas = new List <NPoint>();
for (int i = 0; i < B.Count; ++i)
{
NPoint p = B[i];
bool? greater = p > gamma;
if (greater != null && greater == true)
{
gammas.Add(p);
//p.ffuncValue = 1;
//AddPointToA(p);
}
}
AddPointsToA(gammas, 1, null);
}
else
{
//计算γ==β1 and β2,按位与。令f(γ) = 0,γ归到A中
BigInteger b = beta1.toInt() & beta2.toInt();
NPoint gamma;
allPoints.TryGetValue(b, out gamma);
//β1中1的数量-gamma中1的数量,如果大于1则这个gamma不能用
if (beta1.HasNOne() - gamma.HasNOne() > 1)
{
return;
}
gamma.ffuncValue = 0;
//AddPointToA(gamma);
AddPointsToA(new List <NPoint>()
{
gamma
}, null, null);
//另所有小于γ的γ’,f(γ‘)都等于0,所有的γ’归到A中
List <NPoint> gammas = new List <NPoint>();
for (int i = 0; i < B.Count; ++i)
{
NPoint p = B[i];
bool? less = p < gamma;
if (less != null && less == true)
{
gammas.Add(p);
//p.ffuncValue = 0;
//AddPointToA(p);
}
}
AddPointsToA(gammas, 0, null);
}
}