@Override public void reset() { super.reset(); numProposedPoints = 0; logger.logComment("------------------ Adapter being reset..."); }
protected Point3f generateNextPosition() throws CellPackingException { Point3f proposedPoint = null; logger.logComment( "---- Generating next position. positionsAlreadyTaken.size() = " + getNumPosAlreadyTaken()); float minXLoc, minYLoc, minZLoc, maxXLoc, maxYLoc, maxZLoc; if (mustBeCompletelyInsideRegion()) { // limit the extent for possible location of soma centre to box which // will preclude soma wall impacting region boundary. minXLoc = myRegion.getLowestXValue() - CellTopologyHelper.getMinXExtent(myCell, true, false); minYLoc = myRegion.getLowestYValue() - CellTopologyHelper.getMinYExtent(myCell, true, false); minZLoc = myRegion.getLowestZValue() - CellTopologyHelper.getMinZExtent(myCell, true, false); maxXLoc = myRegion.getHighestXValue() - CellTopologyHelper.getMaxXExtent(myCell, true, false); maxYLoc = myRegion.getHighestYValue() - CellTopologyHelper.getMaxYExtent(myCell, true, false); maxZLoc = myRegion.getHighestZValue() - CellTopologyHelper.getMaxZExtent(myCell, true, false); } else { // in this case the soma centre can be anywhere inside the region.. minXLoc = myRegion.getLowestXValue(); minYLoc = myRegion.getLowestYValue(); minZLoc = myRegion.getLowestZValue(); maxXLoc = myRegion.getHighestXValue(); maxYLoc = myRegion.getHighestYValue(); maxZLoc = myRegion.getHighestZValue(); } Point3f startPoint = new Point3f(minXLoc, minYLoc, minZLoc); logger.logComment("minXLoc: " + minXLoc + ", maxXLoc: " + maxXLoc); if (maxXLoc - minXLoc < 0 || maxYLoc - minYLoc < 0 || maxZLoc - minZLoc < 0) { throw new CellPackingException("Diameter of cell is smaller than region"); } if (getNumPosAlreadyTaken() >= getNumberCells()) { throw new CellPackingException("All cells successfully placed"); } if (getNumberCells() == 0) { throw new CellPackingException("Cell number set to zero!!"); } else if (getNumberCells() == 1) { if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_X) { proposedPoint = new Point3f((minXLoc + maxXLoc) / 2, minYLoc, minZLoc); } else if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_Y) { proposedPoint = new Point3f(minXLoc, (minYLoc + maxYLoc) / 2, minZLoc); } else if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_Z) { proposedPoint = new Point3f(minXLoc, minYLoc, (minZLoc + maxZLoc) / 2); } } else { // Point3f lastPositionedPoint = getLastPosTaken(); if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_X) { float distanceApart = (maxXLoc - minXLoc) / (getNumberCells() - 1); proposedPoint = new Point3f(startPoint); proposedPoint.add(new Point3f(distanceApart * numProposedPoints, 0, 0)); logger.logComment( "Placing one of " + getNumberCells() + " cells in x dim..." + distanceApart + " apart, new: " + proposedPoint + ", already proposed: " + numProposedPoints); if (proposedPoint.x > maxXLoc) throw new CellPackingException("Reached end of x dimension"); } else if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_Y) { logger.logComment("Placing cell in y dim..."); float distanceApart = (maxYLoc - minYLoc) / (getNumberCells() - 1); proposedPoint = new Point3f(startPoint); proposedPoint.add(new Point3f(0, distanceApart * numProposedPoints, 0)); if (proposedPoint.y > maxYLoc) throw new CellPackingException("Reached end of y dimension"); } else if (parameterList[DIMENSION_PARAM].value == DIMENSION_PARAM_Z) { logger.logComment("Placing cell in z dim..."); float distanceApart = (maxZLoc - minZLoc) / (getNumberCells() - 1); proposedPoint = new Point3f(startPoint); proposedPoint.add(new Point3f(0, 0, distanceApart * numProposedPoints)); if (proposedPoint.z > maxZLoc) throw new CellPackingException("Reached end of z dimension"); } if (proposedPoint == null) throw new CellPackingException("Cannot successfully place cell."); } // lastProposedPoint = new Point3d(proposedPoint); numProposedPoints++; return new Point3f(proposedPoint); }