public bool findPath(int n1, int depth)
{
if (n1 == dest)
{
return(true); //找到目的元器件端口
}
if (depth-- == 0)
{
return(false); //超过搜索深度
}
if (used[n1])
{
return(false); //已经遍历过此结点
}
used[n1] = true; //标志位置true
for (int i = 0; i < elmList.Count; i++)
{
CircuitElm ce = getElm(i); //获取元器件
if (ce.Equals(firstElm))
{
continue; //若是第一个元器件 pass
}
if (type == VOLTAGE) //若既不是导线也不是电源则继续
{
if (!(ce.isWire() || ce.type == TYPES.VoltageElm))
{
continue;
}
}
//若当前元器件没有与此结点相连
int j;
for (j = 0; j < ce.getPostCount(); j++)
{
if (ce.getNode(j) == n1)
{
break;
}
}
if (j == ce.getPostCount())
{
continue;
}
for (int k = 0; k < ce.getPostCount(); k++)
{
if (j == k)
{
continue;
}
if (ce.getConnection(j, k) && findPath(ce.getNode(k), depth))
{
used[n1] = false;
return(true);
}
}
}
used[n1] = false;
return(false);
}
//分析电路
public static void analyzeCircuit()
{
if (elmList.Count == 0) //若元器件列表为空
{
return;
}
nodeList.Clear(); //清空结点列表
int vscount = 0; //电压源数量(将导线看做电压为0的电压源)
//步骤一:找到电压源,确定起始元器件
Debug.Log("步骤一");
CircuitElm volt = null; //电源源引用
for (int i = 0; i < elmList.Count; i++) //遍历元器件列表
{
CircuitElm ce = getElm(i); //获取元器件
if (ce.isDamaged)
{
elmList.Remove(ce); //若元器件破损,在元器件列表中删除该元器件
damageList.Add(ce); //将损坏元器件添加进损坏列表
}
if (volt == null && ce.type == TYPES.VoltageElm) //若找到了一个电源
{
volt = ce; //为电压源赋值
}
}
if (volt != null) //若找到电压源
{
CircuitNode cn = new CircuitNode(); //创建结点
cn.name = volt.getPost(0); //获取电压源负极
nodeList.Add(cn); //添加进结点列表
}
else
{
CircuitNode cn = new CircuitNode(); //创建结点
cn.name = null; //设置结点为空
nodeList.Add(cn); //添加进结点列表
return;
}
//步骤二:分配所有的结点和电压源
Debug.Log("步骤二");
for (int i = 0; i < elmList.Count; i++) //遍历元器件列表
{
CircuitElm ce = getElm(i); //获取元器件
Debug.Log("元器件" + i + " " + getElm(i).getPost(0));
int ivs = ce.getVoltageSourceCount(); //记录电压源数量
int posts = ce.getPostCount(); //记录端点数量
for (int j = 0; j < posts; j++) //遍历元器件上的端口
{
string port = ce.getPost(j); //获取元器件的端口
int k;
for (k = 0; k < nodeList.Count; k++) //遍历结点列表
{
CircuitNode cn = getCircuitNode(k); //获取k结点
if (cn.name.Equals(port))
{
break; //从结点列表中找到了该结点
}
}
if (k == nodeList.Count) //结点列表中无此结点
{
CircuitNode cn = new CircuitNode(); //创建结点
cn.name = port; //标记结点名称
cn.links.Add(ce, j); //添加进结点序列
ce.setNode(j, nodeList.Count); //记录元器件的连接结点
nodeList.Add(cn); //将该结点添加到结点列表
}
else //结点列表中有此结点
{
getCircuitNode(k).links.Add(ce, j); //添加结点链
ce.setNode(j, k); //记录元器件的连接结点
if (k == 0) //若结点为电源的负极
{
ce.setNodeVoltage(j, 0); //端口j的电压为0
}
}
}
vscount += ivs; //电压源数量累加
}
voltageSources = new CircuitElm[vscount]; //创建电压源数组
vscount = 0; //电压源数量置0
circuitNonLinear = false; //电路是否是非线性的
Debug.Log("----------结点-----------");
for (int i = 0; i < nodeList.Count; i++)
{
Debug.Log("结点" + i + " : " + getCircuitNode(i).name);
}
Debug.Log("---------元器件对应的结点----------");
//for(int i = 0; i < elmList.Count; i++) {
// Debug.Log("元器件"+i+" : "+getElm(i).type+" "+getElm(i).nodes[0]+"--"+ getElm(i).nodes[1]);
//}
//步骤三:初始电路矩阵
Debug.Log("步骤三");
for (int i = 0; i < elmList.Count; i++) //遍历元器件
{
CircuitElm ce = getElm(i); //获取元器件
int ivs = ce.getVoltageSourceCount(); //获取电压源数量
for (int j = 0; j < ivs; j++) //遍历电压源
{
voltageSources [vscount] = ce; //为电压源数组赋值
ce.setVoltageSource(j, vscount++); //设置电压源序号
}
}
int matrixSize = nodeList.Count - 1 + vscount; //矩阵大小
circuitMatrix = new float[matrixSize, matrixSize]; //初始电路矩阵
circuitRightSide = new float[matrixSize]; //初始电路右边矩阵
origMatrix = new float[matrixSize, matrixSize];
origRightSide = new float[matrixSize];
circuitMatrixSize = circuitMatrixFullSize = matrixSize; //初始电路矩阵大小
circuitRowInfo = new RowInfo[matrixSize]; //初始行信息
circuitPermute = new int[matrixSize]; //初始化电路交换数组
for (int i = 0; i < matrixSize; i++)
{
circuitRowInfo [i] = new RowInfo(); //创建电路矩阵行信息对象
}
circuitNeedsMap = false;
for (int i = 0; i < elmList.Count; i++)
{
CircuitElm ce = getElm(i); //获取元器件
ce.stamp(); //标记元器件,初始化电路矩阵
}
for (int i = 0; i < CirSim.circuitMatrixSize; i++)
{
string s = i + ": ";
for (int j = 0; j < CirSim.circuitMatrixSize; j++)
{
s += CirSim.circuitMatrix [i, j] + " ";
}
s += " " + CirSim.circuitRightSide [i];
Debug.Log(s);
}
//步骤四:处理图中未连接的结点
Debug.Log("步骤四");
bool[] closure = new bool[nodeList.Count];
bool[] tempclosure = new bool[nodeList.Count];
bool changed = true; //标志位
closure [0] = true; //从第0个结点开始
while (changed)
{
changed = false; //标志位置false
for (int i = 0; i < elmList.Count; i++) //遍历所有元器件
{
CircuitElm ce = getElm(i); //获取元器件
for (int j = 0; j < ce.getPostCount(); j++) //遍历元器件的端口
{
if (!closure [ce.getNode(j)])
{
if (ce.hasGroundConnection(j)) //若该端口连接到y阴极
{
closure [ce.getNode(j)] = changed = true;
}
continue;
}
for (int k = 0; k < ce.getPostCount(); k++) //再次遍历元器件端口
{
if (j == k)
{
continue; //若两个端口相等则继续
}
int kn = ce.getNode(k); //获取端口对应的结点
if (ce.getConnection(j, k) && !closure [kn]) //若两端点相连并没有标记
{
closure [kn] = true;
changed = true;
}
}
}
}
if (changed)
{
continue;
}
//连接未连接的结点
for (int i = 0; i < nodeList.Count; i++)
{
if (!closure [i])
{
stampResistor(0, i, 1e8f);
closure [i] = true;
changed = true;
break;
}
}
}
//步骤五:短路等无效连接的判断
Debug.Log("步骤五");
for (int i = 0; i < elmList.Count; i++)
{
CircuitElm ce = getElm(i); //获取元器件
//若为电压源或导线
if ((ce.type == TYPES.VoltageElm && ce.getPostCount() == 2) ||
(ce.type == TYPES.WireElm && ce.getPostCount() != 1))
{
FindPathInfo fpi = new FindPathInfo(FindPathInfo.VOLTAGE, ce, ce.getNode(1));
if (fpi.findPath(ce.getNode(0))) //判断是否短路
//短路
{
Utils.menuListener.PopTipUI("短 路");
Debug.Log("短路");
return;
}
}
}
//步骤六:简化矩阵
Debug.Log("步骤六");
for (int i = 0; i < matrixSize; i++) //遍历矩阵的每一行
{
int qm = -1, qp = -1;
float qv = 0;
RowInfo re = circuitRowInfo [i]; //获取每一行的信息
if (re.lsChanges || re.dropRow || re.rsChanges)
{
continue;
}
float rsadd = 0;
//寻找可以删除的行
int j;
for (j = 0; j < matrixSize; j++) //遍历矩阵的每一行
{
float q = circuitMatrix [i, j]; //获取矩阵值
if (circuitRowInfo [j].type == RowInfo.ROW_CONST)
{
rsadd -= circuitRowInfo [j].value * q;
continue;
}
if (q == 0)
{
continue; //若矩阵值为0
}
if (qp == -1) //记录第一个不为0的数值
{
qp = j; //记录第一个不为0的列
qv = q; //记录该矩阵值
continue;
}
if (qm == -1 && q == -qv) //记录与qv互为相反数的列
{
qm = j; //列数
continue;
}
break;
}
if (j == matrixSize) //若遍历完了该行
{
if (qp == -1)
{
//矩阵错误
Debug.Log("矩阵错误");
return;
}
RowInfo elt = circuitRowInfo [qp]; //获取行信息
if (qm == -1)
{
//一行只有一个常数
int k;
for (k = 0; elt.type == RowInfo.ROW_EQUAL && k < 100; k++)
{
qp = elt.nodeEq;
elt = circuitRowInfo [qp];
}
if (elt.type == RowInfo.ROW_EQUAL)
{
elt.type = RowInfo.ROW_NORMAL;
continue;
}
if (elt.type != RowInfo.ROW_NORMAL)
{
continue;
}
elt.type = RowInfo.ROW_CONST; //标记为常数
elt.value = (circuitRightSide [i] + rsadd) / qv; //记录结点电压
circuitRowInfo [i].dropRow = true; //删除该行
i = -1;
}
else if (circuitRightSide [i] + rsadd == 0)
{
//若一行中只有两个非0的数值,并且两个数值互为相反数
if (elt.type != RowInfo.ROW_NORMAL)
{
int qq = qm;
qm = qp;
qp = qq;
elt = circuitRowInfo [qp];
if (elt.type != RowInfo.ROW_NORMAL)
{
//交换失败
continue;
}
}
elt.type = RowInfo.ROW_EQUAL; //标记行类型
elt.nodeEq = qm; //记录相等结点
circuitRowInfo [i].dropRow = true; //删除标志位置true
}
}
}
//步骤七:确定新矩阵的大小
Debug.Log("步骤七");
int nn = 0;
for (int i = 0; i != matrixSize; i++) //遍历矩阵的行
{
RowInfo elt = circuitRowInfo [i]; //获取电路行信息
if (elt.type == RowInfo.ROW_NORMAL)
{
elt.mapCol = nn++;
continue;
}
if (elt.type == RowInfo.ROW_EQUAL)
{
RowInfo e2 = null;
for (int j = 0; j != 100; j++)
{
e2 = circuitRowInfo [elt.nodeEq];
if (e2.type != RowInfo.ROW_EQUAL)
{
break;
}
if (i == e2.nodeEq)
{
break;
}
elt.nodeEq = e2.nodeEq;
}
}
if (elt.type == RowInfo.ROW_CONST)
{
elt.mapCol = -1;
}
}
for (int i = 0; i != matrixSize; i++)
{
RowInfo elt = circuitRowInfo [i];
if (elt.type == RowInfo.ROW_EQUAL)
{
RowInfo e2 = circuitRowInfo [elt.nodeEq];
if (e2.type == RowInfo.ROW_CONST)
{
elt.type = e2.type;
elt.value = e2.value;
elt.mapCol = -1;
}
else
{
elt.mapCol = e2.mapCol;
}
}
}
//步骤八:创建新的简化矩阵
Debug.Log("步骤八");
Debug.Log("nn-----------------" + nn);
int newsize = nn;
float[,] newmatx = new float[newsize, newsize];
float[] newrs = new float[newsize];
int ii = 0;
for (int i = 0; i != matrixSize; i++)
{
RowInfo rri = circuitRowInfo [i];
if (rri.dropRow)
{
rri.mapRow = -1;
continue;
}
newrs [ii] = circuitRightSide [i];
rri.mapRow = ii;
//System.out.println("Row " + i + " maps to " + ii);
for (int j = 0; j != matrixSize; j++)
{
RowInfo ri = circuitRowInfo [j];
if (ri.type == RowInfo.ROW_CONST)
{
newrs [ii] -= ri.value * circuitMatrix [i, j];
}
else
{
newmatx [ii, ri.mapCol] += circuitMatrix [i, j];
}
}
ii++;
}
circuitMatrix = newmatx;
circuitRightSide = newrs;
matrixSize = circuitMatrixSize = newsize;
for (int i = 0; i != matrixSize; i++)
{
origRightSide [i] = circuitRightSide [i];
}
for (int i = 0; i != matrixSize; i++)
{
for (int j = 0; j != matrixSize; j++)
{
origMatrix [i, j] = circuitMatrix [i, j];
}
}
circuitNeedsMap = true;
Debug.Log("--------新矩阵----------");
for (int i = 0; i < CirSim.circuitMatrixSize; i++)
{
string s = i + ": ";
for (int j = 0; j < CirSim.circuitMatrixSize; j++)
{
s += CirSim.circuitMatrix [i, j] + " ";
}
s += " " + CirSim.circuitRightSide [i];
Debug.Log(s);
}
/*for (int i = 0; i != elmList.Count; i++) {
* CircuitElm ce = getElm(i);
* ce.doStep();
* }*/
if (!lu_factor(circuitMatrix, circuitMatrixSize, circuitPermute))
{
Debug.Log("矩阵计算错误");
for (int i = 0; i < elmList.Count; i++)
{
getElm(i).stop(); //停止所有元器件
}
return;
}
Debug.Log("--------LU分解后的矩阵----------");
for (int i = 0; i < CirSim.circuitMatrixSize; i++)
{
string s = i + ": ";
for (int j = 0; j < CirSim.circuitMatrixSize; j++)
{
s += CirSim.circuitMatrix [i, j] + " ";
}
s += " " + CirSim.circuitRightSide [i];
Debug.Log(s);
}
//矩阵求解
lu_solve(circuitMatrix, circuitMatrixSize, circuitPermute, circuitRightSide);
//为每个结点的电压赋值
for (int i = 0; i < circuitMatrixFullSize; i++)
{
RowInfo ri = circuitRowInfo [i]; //获取行信息
float res = 0;
if (ri.type == RowInfo.ROW_CONST)
{
res = ri.value;
}
else
{
res = circuitRightSide [ri.mapCol];
}
if (double.IsNaN(res)) //若是未知数结束循环
{
Debug.Log("res is NaN");
break;
}
if (i < nodeList.Count - 1)
{
CircuitNode cn = getCircuitNode(i + 1); //获取结点
foreach (KeyValuePair <CircuitElm, int> kv in cn.links) //遍历结点上的所有端点
{
kv.Key.setNodeVoltage(kv.Value, res); //为结点赋予电压
Debug.Log(kv.Key.type + "--" + kv.Value + " " + res);
}
}
else
{
int j = i - (nodeList.Count - 1);
voltageSources [j].setCurrent(j, res);
}
}
for (int i = 0; i != elmList.Count; i++)
{
CircuitElm ce = getElm(i);
ce.doStep();
}
if (!isNext)
{
for (int i = 0; i < elmList.Count; i++)
{
CircuitElm ce = getElm(i); //获取元器件脚本
if (ce.type == TYPES.MusicChipElm || ce.type == TYPES.RecorderChipElm) //包含集成电路
{
isNext = true;
analyzeCircuit(); //重新分析电路
isNext = false;
return;
}
}
}
//运行元器件
for (int i = 0; i < elmList.Count; i++)
{
CircuitElm ce = getElm(i); //获取元器件
ce.work(); //元器件工作
}
}
