/**
* Method to call a series of routines which convert the hierarchical network description into a
* flattened database representation. The actual simulation must take place on the flattened
* network. Returns true on error.
*/
boolean flattenNetwork(Cell cell) {
/*
* create a "dummy" level to use as a mixed signal destination for plotting and
* screen display. This level should be bypassed for structure checking and general
* simulation, however, so in the following code, references to "als.cellRoot"
* have been changed to als.cellRoot.next (pointing to mainCell).
* Peter Gallant July 16, 1990
*/
als.cellRoot = new ALS.Connect();
als.cellRoot.instName = "[MIXED_SIGNAL_LEVEL]";
als.cellRoot.modelName = als.cellRoot.instName;
als.cellRoot.exList = new ArrayList<ALS.ALSExport>();
als.cellRoot.parent = null;
als.cellRoot.child = null;
als.cellRoot.next = null;
ALS.Connect tempRoot = als.cellRoot;
// get upper-case version of main proto
String mainName = cell.getName().toUpperCase();
als.cellRoot = new ALS.Connect();
als.cellRoot.instName = mainName;
als.cellRoot.modelName = als.cellRoot.instName;
als.cellRoot.exList = new ArrayList<ALS.ALSExport>();
als.cellRoot.parent = null;
als.cellRoot.child = null;
als.cellRoot.next = null;
// these lines link the mixed level as the head followed by mainCell PJG
tempRoot.next = als.cellRoot; // shouldn't this be null? ... smr
tempRoot.child = als.cellRoot;
als.cellRoot = tempRoot;
// this code checks to see if model mainCell is present in the netlist PJG
ALS.Model modHead = findModel(mainName);
if (modHead == null) return true;
for (ALS.ALSExport exHead : modHead.exList) {
findXRefEntry(als.cellRoot.next, (String) exHead.nodeName);
}
if (flattenModel(als.cellRoot.next)) return true;
for (ALS.Node nodeHead : als.nodeList) {
if (nodeHead.load < 1) nodeHead.load = 1;
}
return false;
}
/**
* Method to step through the connection list specified by the connection list pointer (conHead).
* Values are entered into the cross reference table for the present level of hierarchy and new
* data structures are created for the lower level of hierarchy to store their cross reference
* tables. Returns true on error.
*
* <p>Calling Arguments: cellHead = pointer to the cross reference data structure for the model
* that is going to be flattened conHead = pointer to a list of connection statements for the
* model that is being flattened by this procedure
*/
private boolean processConnectList(ALS.Connect cellHead, ALS.Connect conHead) {
while (conHead != null) {
ALS.Connect cellPtr2 = new ALS.Connect();
cellPtr2.instName = conHead.instName;
cellPtr2.modelName = conHead.modelName;
cellPtr2.exList = new ArrayList<ALS.ALSExport>();
cellPtr2.parent = cellHead;
cellPtr2.child = null;
cellPtr2.next = cellHead.child;
cellHead.child = cellPtr2;
ALS.Model modHead = findModel(conHead.modelName);
if (modHead == null) return true;
Iterator<ALS.ALSExport> it = modHead.exList.iterator();
for (ALS.ALSExport exHead : conHead.exList) {
if (!it.hasNext()) break;
als.exPtr2 = it.next();
ALS.ALSExport xRefHead = findXRefEntry(cellHead, (String) exHead.nodeName);
if (als.exPtr2 == null) {
System.out.println(
"Insufficient parameters declared for model '" + conHead.modelName + "' in netlist");
return true;
}
for (ALS.ALSExport xRefPtr1 : cellPtr2.exList) {
if (xRefPtr1.nodeName.equals(als.exPtr2.nodeName)) {
System.out.println(
"Node '"
+ als.exPtr2.nodeName
+ "' in model '"
+ conHead.modelName
+ "' connected more than once");
return true;
}
}
ALS.ALSExport xRefPtr2 = new ALS.ALSExport();
xRefPtr2.nodeName = als.exPtr2.nodeName;
xRefPtr2.nodePtr = xRefHead.nodePtr;
cellPtr2.exList.add(xRefPtr2);
}
conHead = conHead.next;
}
return false;
}
