protected final void compute() {
size = inputList.size();
if (!inputList.isDefined()) {
outputList.setUndefined();
return;
}
outputList.setDefined(true);
outputList.clear();
if (size == 0) return;
// <Zbynek Konecny 2010-05-13>
/*
* If val is not numeric, we use the underlying Expression of the function and
* plug the list element as variable.
* Deep copy is needed so that we can plug the value repeatedly.
*/
FunctionVariable var = boolFun.getFunction().getFunctionVariable();
for (int i = 0; i < size; i++) {
GeoElement geo = inputList.get(i);
if (geo.isGeoNumeric()) {
if (boolFun.evaluateBoolean(((GeoNumeric) geo).getValue()))
outputList.add(geo.copyInternal(cons));
;
} else {
ExpressionNode ex = (ExpressionNode) boolFun.getFunction().getExpression().deepCopy(kernel);
ex.replaceAndWrap(var, geo.evaluate());
if (((MyBoolean) ex.evaluate()).getBoolean()) outputList.add(geo.copyInternal(cons));
;
}
}
// </Zbynek>
}
private GeoElement[] processBoolean(ExpressionNode n, ExpressionValue evaluate) {
GeoElement[] ret = new GeoElement[1];
String label = n.getLabel();
boolean isIndependent = n.isConstant();
if (isIndependent) {
ret[0] = kernel.Boolean(label, ((BooleanValue) evaluate).getBoolean());
} else ret[0] = kernel.DependentBoolean(label, n);
return ret;
}
protected final void compute() {
// Sum[{x^2,x^3}]
int n = truncate == null ? geoList.size() : (int) truncate.getDouble();
if (n == 0 || n > geoList.size()) {
resultFun.setUndefined();
return;
} else if (n == 1) {
if (!geoList.get(0).isGeoFunctionable()) {
resultFun.setUndefined();
return;
}
GeoFunction fun1 = ((GeoFunctionable) geoList.get(0)).getGeoFunction();
FunctionVariable x1 = fun1.getFunction().getFunctionVariable();
FunctionVariable x = new FunctionVariable(kernel);
ExpressionNode left = fun1.getFunctionExpression().getCopy(fun1.getKernel());
Function f = new Function(left.replace(x1, x), x);
resultFun.setFunction(f);
resultFun.setDefined(true);
return;
}
if (!geoList.get(0).isGeoFunctionable() || !geoList.get(1).isGeoFunctionable()) {
resultFun.setUndefined();
return;
}
// add first two:
resultFun =
GeoFunction.add(
resultFun,
((GeoFunctionable) geoList.get(0)).getGeoFunction(),
((GeoFunctionable) geoList.get(1)).getGeoFunction());
if (n == 2) return;
for (int i = 2; i < n; i++) {
if (!geoList.get(i).isGeoFunctionable()) {
resultFun.setUndefined();
return;
}
resultFun =
GeoFunction.add(
resultFun, resultFun, ((GeoFunctionable) geoList.get(i)).getGeoFunction());
}
}
/**
* 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[] processText(ExpressionNode n, ExpressionValue evaluate) {
GeoElement[] ret = new GeoElement[1];
String label = n.getLabel();
boolean isIndependent = n.isConstant();
if (isIndependent) {
MyStringBuffer eval = ((TextValue) evaluate).getText();
ret[0] = kernel.Text(label, eval.toValueString());
} else ret[0] = kernel.DependentText(label, n);
return ret;
}
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;
}
// for AlgoElement
protected void setInputOutput() {
input = root.getGeoElementVariables();
setOutputLength(1);
setOutput(0, list);
setDependencies(); // done by AlgoElement
}
private GeoElement[] processList(ExpressionNode n, MyList evalList) {
String label = n.getLabel();
GeoElement[] ret = new GeoElement[1];
// no operations or no variables are present, e.g.
// { a, b, 7 } or { 2, 3, 5 } + {1, 2, 4}
if (!n.hasOperations() || n.isConstant()) {
// PROCESS list items to generate a list of geoElements
ArrayList<GeoElement> geoElements = new ArrayList<GeoElement>();
boolean isIndependent = true;
// make sure we don't create any labels for the list elements
boolean oldMacroMode = cons.isSuppressLabelsActive();
cons.setSuppressLabelCreation(true);
int size = evalList.size();
for (int i = 0; i < size; i++) {
ExpressionNode en = (ExpressionNode) evalList.getListElement(i);
// we only take one resulting object
GeoElement[] results = processExpressionNode(en);
GeoElement geo = results[0];
// add to list
geoElements.add(geo);
if (geo.isLabelSet() || !geo.isIndependent()) isIndependent = false;
}
cons.setSuppressLabelCreation(oldMacroMode);
// Create GeoList object
ret[0] = kernel.List(label, geoElements, isIndependent);
}
// operations and variables are present
// e.g. {3, 2, 1} + {a, b, 2}
else {
ret[0] = kernel.ListExpression(label, n);
}
return ret;
}
/**
* Parses given String str and tries to evaluate it to a GeoPoint. Returns null if something went
* wrong.
*/
public GeoPointND evaluateToPoint(String str, boolean showErrors) {
boolean oldMacroMode = cons.isSuppressLabelsActive();
cons.setSuppressLabelCreation(true);
GeoPointND p = null;
GeoElement[] temp = null;
;
try {
ValidExpression ve = parser.parseGeoGebraExpression(str);
if (ve instanceof ExpressionNode) {
ExpressionNode en = (ExpressionNode) ve;
en.setForcePoint();
}
temp = processValidExpression(ve);
p = (GeoPointND) temp[0];
} catch (CircularDefinitionException e) {
if (showErrors) {
Application.debug("CircularDefinition");
app.showError("CircularDefinition");
}
} catch (Exception e) {
if (showErrors) {
e.printStackTrace();
app.showError("InvalidInput", str);
}
} catch (MyError e) {
if (showErrors) {
e.printStackTrace();
app.showError(e);
}
} catch (Error e) {
if (showErrors) {
e.printStackTrace();
app.showError("InvalidInput", str);
}
}
cons.setSuppressLabelCreation(oldMacroMode);
return p;
}
/**
* Parses given String str and tries to evaluate it to a double. Returns Double.NaN if something
* went wrong.
*/
public double evaluateToDouble(String str, boolean suppressErrors) {
try {
ValidExpression ve = parser.parseExpression(str);
ExpressionNode en = (ExpressionNode) ve;
en.resolveVariables();
NumberValue nv = (NumberValue) en.evaluate();
return nv.getDouble();
} catch (Exception e) {
e.printStackTrace();
if (!suppressErrors) app.showError("InvalidInput", str);
return Double.NaN;
} catch (MyError e) {
e.printStackTrace();
if (!suppressErrors) app.showError(e);
return Double.NaN;
} catch (Error e) {
e.printStackTrace();
if (!suppressErrors) app.showError("InvalidInput", str);
return Double.NaN;
}
}
private GeoElement[] processNumber(ExpressionNode n, ExpressionValue evaluate) {
GeoElement[] ret = new GeoElement[1];
String label = n.getLabel();
boolean isIndependent = n.isConstant();
MyDouble eval = ((NumberValue) evaluate).getNumber();
boolean isAngle = eval.isAngle();
double value = eval.getDouble();
if (isIndependent) {
if (isAngle) ret[0] = new GeoAngle(cons, label, value);
else ret[0] = new GeoNumeric(cons, label, value);
} else {
ret[0] = kernel.DependentNumber(label, n, isAngle);
}
if (n.isForcedFunction()) {
ret[0] = ((GeoFunctionable) (ret[0])).getGeoFunction();
}
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;
}
// evaluate the current value of the arithmetic tree
protected final void compute() {
// get resulting list of ExpressionNodes
ExpressionValue evlist = root.evaluate();
MyList myList = (evlist instanceof MyList) ? (MyList) evlist : ((GeoList) evlist).getMyList();
int evalListSize = myList.size();
int cachedListSize = list.getCacheSize();
list.clear();
for (int i = 0; i < evalListSize; i++) {
ExpressionValue element = myList.getListElement(i).evaluate();
GeoElement geo = null;
// number result
if (element.isNumberValue()) {
double val = ((NumberValue) element).getDouble();
// try to use cached element of same type
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a number: set value
if (cachedGeo.isGeoNumeric()) {
((GeoNumeric) cachedGeo).setValue(val);
geo = cachedGeo;
}
}
// no cached number: create new one
if (geo == null) {
geo = new GeoNumeric(cons, val);
}
// add number to list
list.add(geo);
}
// point
else if (element.isVectorValue()) {
GeoVec2D vec = ((VectorValue) element).getVector();
// try to use cached element of same type
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a point: set value
if (cachedGeo.isGeoPoint()) {
((GeoPoint) cachedGeo).setCoords(vec);
geo = cachedGeo;
}
}
// no cached point: create new one
if (geo == null) {
GeoPoint point = new GeoPoint(cons);
point.setCoords(vec);
geo = point;
}
// add point to list
list.add(geo);
}
// needed for matrix multiplication
// eg {{1,3,5},{2,4,6}}*{{11,14},{12,15},{13,a}}
else if (element instanceof MyList) {
MyList myList2 = (MyList) element;
GeoList list2 = new GeoList(cons);
list2.clear();
/* removed Michael Borcherds 20080602
* bug: 9PointCubic.ggb (matrix multiplication)
// try to use cached element of type GeoList
GeoList list2 = null;
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a number: set value
if (cachedGeo.isGeoList()) {
list2 = (GeoList) cachedGeo;
}
}
if (list2 == null) {
list2 = new GeoList(cons);
} */
for (int j = 0; j < myList2.size(); j++) {
ExpressionValue en = myList2.getListElement(j);
ExpressionValue ev = en.evaluate();
if (ev instanceof MyDouble) {
GeoNumeric geo2 = new GeoNumeric(cons);
geo2.setValue(((NumberValue) ev).getDouble());
list2.add(geo2);
}
}
list.add(list2);
} else if (element instanceof MyStringBuffer) {
MyStringBuffer str = (MyStringBuffer) element;
// try to use cached element of same type
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a point: set value
if (cachedGeo.isGeoText()) {
((GeoText) cachedGeo).setTextString(str.toValueString());
geo = cachedGeo;
}
}
// no cached point: create new one
if (geo == null) {
GeoText text = new GeoText(cons);
text.setTextString(str.toValueString());
geo = text;
}
// add point to list
list.add(geo);
} else if (element instanceof MyBoolean) {
MyBoolean bool = (MyBoolean) element;
// try to use cached element of same type
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a point: set value
if (cachedGeo.isGeoBoolean()) {
((GeoBoolean) cachedGeo).setValue(bool.getBoolean());
geo = cachedGeo;
}
}
// no cached point: create new one
if (geo == null) {
GeoBoolean geoBool = new GeoBoolean(cons);
geoBool.setValue(bool.getBoolean());
geo = geoBool;
}
// add point to list
list.add(geo);
} else if (element instanceof GeoFunction) {
GeoFunction fun = (GeoFunction) element;
if (i < cachedListSize) {
GeoElement cachedGeo = list.getCached(i);
// the cached element is a point: set value
if (cachedGeo.isGeoFunction()) {
((GeoFunction) cachedGeo).set(fun);
geo = cachedGeo;
}
}
// no cached point: create new one
if (geo == null) {
GeoFunction geoFun = new GeoFunction(cons);
geoFun.set(fun);
geo = geoFun;
}
list.add(geo);
} else {
Application.debug("unsupported list addition: " + element.getClass() + "");
}
}
}
public final String toRealString() {
// was defined as e.g. L = 3 * {a, b, c}
return root.toRealString();
}
public GeoElement[] processExpressionNode(ExpressionNode n) throws MyError {
// command is leaf: process command
if (n.isLeaf()) {
ExpressionValue leaf = n.getLeft();
if (leaf instanceof Command) {
Command c = (Command) leaf;
c.setLabels(n.getLabels());
return cmdDispatcher.processCommand(c, true);
} else if (leaf instanceof Equation) {
Equation eqn = (Equation) leaf;
eqn.setLabels(n.getLabels());
return processEquation(eqn);
} else if (leaf instanceof Function) {
Function fun = (Function) leaf;
fun.setLabels(n.getLabels());
return processFunction(n, fun);
} else if (leaf instanceof FunctionNVar) {
FunctionNVar fun = (FunctionNVar) leaf;
fun.setLabels(n.getLabels());
return processFunctionNVar(n, fun);
}
}
// ELSE: resolve variables and evaluate expressionnode
n.resolveVariables();
eval = n.evaluate();
boolean dollarLabelFound = false;
ExpressionNode myNode = n;
if (myNode.isLeaf()) myNode = myNode.getLeftTree();
// leaf (no new label specified): just return the existing GeoElement
if (eval.isGeoElement()
&& n.getLabel() == null
&& !(n.operation.equals(Operation.ELEMENT_OF))) {
// take care of spreadsheet $ names: don't loose the wrapper ExpressionNode here
// check if we have a Variable
switch (myNode.getOperation()) {
case $VAR_COL:
case $VAR_ROW:
case $VAR_ROW_COL:
// don't do anything here: we need to keep the wrapper ExpressionNode
// and must not return the GeoElement here
dollarLabelFound = true;
break;
default:
// return the GeoElement
GeoElement[] ret = {(GeoElement) eval};
return ret;
}
}
if (eval.isBooleanValue()) return processBoolean(n, eval);
else if (eval.isNumberValue()) return processNumber(n, eval);
else if (eval.isVectorValue()) return processPointVector(n, eval);
else if (eval.isVector3DValue()) return processPointVector3D(n, eval);
else if (eval.isTextValue()) return processText(n, eval);
else if (eval instanceof MyList) {
return processList(n, (MyList) eval);
} else if (eval instanceof Function) {
return processFunction(n, (Function) eval);
} else if (eval instanceof FunctionNVar) {
return processFunctionNVar(n, (FunctionNVar) eval);
}
// we have to process list in case list=matrix1(1), but not when list=list2
else if (eval instanceof GeoList && myNode.hasOperations()) {
Application.debug("should work");
return processList(n, ((GeoList) eval).getMyList());
} else if (eval.isGeoElement()) {
// e.g. B1 = A1 where A1 is a GeoElement and B1 does not exist yet
// create a copy of A1
if (n.getLabel() != null || dollarLabelFound) {
return processGeoCopy(n.getLabel(), n);
}
}
// REMOVED due to issue 131: http://code.google.com/p/geogebra/issues/detail?id=131
// // expressions like 2 a (where a:x + y = 1)
// // A1=b doesn't work for these objects
// else if (eval instanceof GeoLine) {
// if (((GeoLine)eval).getParentAlgorithm() instanceof AlgoDependentLine) {
// GeoElement[] ret = {(GeoElement) eval };
// return ret;
// }
//
// }
// if we get here, nothing worked
Application.debug("Unhandled ExpressionNode: " + eval + ", " + eval.getClass());
return null;
}
