/**
* for AlgebraView changes in the tree selection and redefine dialog
*
* @return changed geo
*/
public GeoElement changeGeoElementNoExceptionHandling(
GeoElement geo, ValidExpression newValue, boolean redefineIndependent, boolean storeUndoInfo)
throws Exception {
String oldLabel, newLabel;
GeoElement[] result;
try {
oldLabel = geo.getLabel();
newLabel = newValue.getLabel();
if (newLabel == null) {
newLabel = oldLabel;
newValue.setLabel(newLabel);
}
// make sure that points stay points and vectors stay vectors
if (newValue instanceof ExpressionNode) {
ExpressionNode n = (ExpressionNode) newValue;
if (geo.isGeoPoint()) n.setForcePoint();
else if (geo.isGeoVector()) n.setForceVector();
else if (geo.isGeoFunction()) n.setForceFunction();
}
if (newLabel.equals(oldLabel)) {
// try to overwrite
result = processValidExpression(newValue, redefineIndependent);
if (result != null && storeUndoInfo) app.storeUndoInfo();
return result[0];
} else if (cons.isFreeLabel(newLabel)) {
newValue.setLabel(oldLabel);
// rename to oldLabel to enable overwriting
result = processValidExpression(newValue, redefineIndependent);
result[0].setLabel(newLabel); // now we rename
if (storeUndoInfo) app.storeUndoInfo();
return result[0];
} else {
String str[] = {"NameUsed", newLabel};
throw new MyError(app, str);
}
} catch (CircularDefinitionException e) {
Application.debug("CircularDefinition");
throw e;
} catch (Exception e) {
e.printStackTrace();
throw new Exception(app.getError("InvalidInput") + ":\n" + newValue);
} catch (MyError e) {
e.printStackTrace();
throw new Exception(e.getLocalizedMessage());
} catch (Error e) {
e.printStackTrace();
throw new Exception(app.getError("InvalidInput") + ":\n" + newValue);
}
}
private GeoElement[] processParametric(Parametric par) throws CircularDefinitionException {
/*
ExpressionValue temp = P.evaluate();
if (!temp.isVectorValue()) {
String [] str = { "VectorExpected", temp.toString() };
throw new MyParseError(kernel.getApplication(), str);
}
v.resolveVariables();
temp = v.evaluate();
if (!(temp instanceof VectorValue)) {
String [] str = { "VectorExpected", temp.toString() };
throw new MyParseError(kernel.getApplication(), str);
} */
// point and vector are created silently
boolean oldMacroMode = cons.isSuppressLabelsActive();
cons.setSuppressLabelCreation(true);
// get point
ExpressionNode node = par.getP();
node.setForcePoint();
GeoElement[] temp = processExpressionNode(node);
GeoPoint P = (GeoPoint) temp[0];
// get vector
node = par.getv();
node.setForceVector();
temp = processExpressionNode(node);
GeoVector v = (GeoVector) temp[0];
// switch back to old mode
cons.setSuppressLabelCreation(oldMacroMode);
// Line through P with direction v
GeoLine line;
// independent line
if (P.isConstant() && v.isConstant()) {
line = new GeoLine(cons);
line.setCoords(-v.y, v.x, v.y * P.inhomX - v.x * P.inhomY);
}
// dependent line
else {
line = kernel.Line(par.getLabel(), P, v);
}
line.setToParametric(par.getParameter());
line.updateRepaint();
GeoElement[] ret = {line};
return ret;
}
private GeoElement[] processPointVector(ExpressionNode n, ExpressionValue evaluate) {
String label = n.getLabel();
GeoVec2D p = (GeoVec2D) ((VectorValue) evaluate).getVector();
boolean polar = p.getMode() == Kernel.COORD_POLAR;
// we want z = 3 + i to give a (complex) GeoPoint not a GeoVector
boolean complex = p.getMode() == Kernel.COORD_COMPLEX;
GeoVec3D[] ret = new GeoVec3D[1];
boolean isIndependent = n.isConstant();
// make point if complex parts are present, e.g. 3 + i
if (complex) {
n.setForcePoint();
}
// make vector, if label begins with lowercase character
else if (label != null) {
if (!(n.isForcedPoint() || n.isForcedVector())) { // may be set by MyXMLHandler
if (Character.isLowerCase(label.charAt(0))) n.setForceVector();
else n.setForcePoint();
}
}
boolean isVector = n.isVectorValue();
if (isIndependent) {
// get coords
double x = p.getX();
double y = p.getY();
if (isVector) ret[0] = kernel.Vector(label, x, y);
else ret[0] = kernel.Point(label, x, y, complex);
} else {
if (isVector) ret[0] = kernel.DependentVector(label, n);
else ret[0] = kernel.DependentPoint(label, n, complex);
}
if (polar) {
ret[0].setMode(Kernel.COORD_POLAR);
ret[0].updateRepaint();
} else if (complex) {
ret[0].setMode(Kernel.COORD_COMPLEX);
ret[0].updateRepaint();
}
return ret;
}