276 |
fen.constgraph = fen.graph = Graphs.toGraph(m); |
fen.constgraph = fen.graph = Graphs.toGraph(m); |
277 |
int i = 0; |
int i = 0; |
278 |
Iterator it = fen.graph.findN_11X_Iter(SAVE.State, SAVE.point); |
Iterator it = fen.graph.findN_11X_Iter(SAVE.State, SAVE.point); |
279 |
|
p("Going to iterate graph if iter has: " + it.hasNext()); |
280 |
while (it.hasNext() && i<mainNodes.length) { |
while (it.hasNext() && i<mainNodes.length) { |
281 |
Object plane = it.next(); |
Object plane = it.next(); |
282 |
if (fen.graph.find1_11X(accursed[i], RDF.type) == |
if (fen.graph.find1_11X(plane, RDF.type) == |
283 |
CANVAS2D.Canvas) { |
CANVAS2D.Canvas) { |
284 |
mainNodes[i] = new MainNode2D(plane, |
mainNodes[i] = new MainNode2D(plane, |
285 |
ppView, 0,0,1); |
ppView, 0,0,1); |
286 |
|
p("mainNode"); |
287 |
} else { |
} else { |
288 |
mainNodes[i] = new |
mainNodes[i] = new |
289 |
FisheyeMainNode2D(plane, |
FisheyeMainNode2D(plane, |
290 |
new PageScrollView2D(), 0,0); |
new PageScrollView2D(), 0,0); |
291 |
|
p("fishNode"); |
292 |
} |
} |
293 |
i++; |
i++; |
294 |
} |
} |
295 |
|
|
296 |
|
for (i=0; i<mainNodes.length; i++) { |
297 |
|
p("main:"+mainNodes[i]+ |
298 |
|
"\n plane: "+ mainNodes[i].getPlane()); |
299 |
|
} |
300 |
AbstractUpdateManager.chg(); |
AbstractUpdateManager.chg(); |
301 |
return null; |
return null; |
302 |
} |
} |