/** * If the argument is the meanTime parameter, check that it is positive. * * @param attribute The attribute that changed. * @exception IllegalActionException If the meanTime value is not positive. */ @Override public void attributeChanged(Attribute attribute) throws IllegalActionException { if (attribute == meanTime) { double mean = ((DoubleToken) meanTime.getToken()).doubleValue(); if (mean <= 0.0) { throw new IllegalActionException( this, "meanTime is required to be positive. meanTime given: " + mean); } } else if (attribute == values) { ArrayToken val = (ArrayToken) values.getToken(); $ASSIGN$_length(val.length()); } else if (attribute == stopTime) { double newStopTimeValue = ((DoubleToken) stopTime.getToken()).doubleValue(); if (_executing) { Time newStopTime = new Time(getDirector(), newStopTimeValue); Director director = getDirector(); if (director != null) { Time currentTime = director.getModelTime(); if (newStopTime.compareTo(currentTime) > 0) { director.fireAt(this, newStopTime); } else { throw new IllegalActionException( this, "The stop time " + "is earlier than the current time."); } } $ASSIGN$_stopTime(newStopTime); } } else { super.attributeChanged(attribute); } }
private Token _getValue(int index) throws IllegalActionException { ArrayToken val = (ArrayToken) values.getToken(); if (val == null || index >= _length) { throw new IllegalActionException(this, "Index out of range of the values parameter."); } return val.getElement(index); }
/** * Consume the input ArrayToken and produce the outputs. * * @exception IllegalActionException If a runtime type conflict occurs. */ public void fire() throws IllegalActionException { super.fire(); ArrayToken token = (ArrayToken) input.get(0); int rate = ((IntToken) arrayLength.getToken()).intValue(); boolean enforce = ((BooleanToken) enforceArrayLength.getToken()).booleanValue(); if (enforce && token.length() != rate) { throw new IllegalActionException( this, "The " + "number of elements in the input ArrayToken (" + token.length() + ") is not the same as the arrayLength " + "parameter (" + rate + ")."); } Token[] elements = token.arrayValue(); // We no longer send the complete array all at once, since this might in // for example PN lead to larger buffer sizes than strictly necessary. // output.send(0, elements, elements.length); for (Token newToken : elements) { output.send(0, newToken); } }
/** * Update the state of the actor by moving to the next value in the <i>values</i> array. * * @exception IllegalActionException If there is no director. */ public boolean postfire() throws IllegalActionException { boolean result = super.postfire(); if (_outputProduced) { _outputProduced = false; _currentIndex += 1; ArrayToken valuesArray = (ArrayToken) values.getToken(); if (_currentIndex >= valuesArray.length()) { boolean repeatValue = ((BooleanToken) repeat.getToken()).booleanValue(); if (repeatValue) { _currentIndex = 0; } else { boolean holdLastOutputValue = ((BooleanToken) holdLastOutput.getToken()).booleanValue(); if (holdLastOutputValue) { // To repeatedly produce the last output. _currentIndex = valuesArray.length() - 1; } else { // To prevent overflow. _currentIndex = valuesArray.length(); // No more outputs to produce. result = false; } } } } return result; }
/** * Consume one token from each channel of the input port, assemble those tokens into an * ArrayToken, and send the result to the output. * * @exception IllegalActionException If not enough tokens are available. */ public void fire() throws IllegalActionException { super.fire(); int size = input.getWidth(); Type type = input.getType(); // if ((ArrayType.class).isInstance(type)) { // System.out.println("Input is an array!"); // } // for now, simply assume inputs are arrays Vector v = new Vector(); // Type datatype = null; for (int i = 0; i < size; i++) { ArrayToken at = (ArrayToken) input.get(i); // The type is not used anywhere but inquiring the type from the first token // does not allow that array to be empty. So I commented out. Norbert Podhorszki // if (i == 0) { // datatype = at.getElement(0).getType(); // } for (int j = 0; j < at.length(); j++) { v.addElement(at.getElement(j)); } } int vecLength = v.size(); Token[] ta = new Token[vecLength]; for (int k = 0; k < vecLength; k++) { ta[k] = (Token) v.elementAt(k); } if (vecLength > 0) output.send(0, new ArrayToken(ta)); else // send empty array output.send(0, new ArrayToken(BaseType.NIL)); }
/** * Does up to three things, in this order: Set new remote address value, Set new remote socket * number, transmit data as a UDP packet over the ethernet. The first two can, of course, affect * where the datagram goes. Any remote address/socket values supplied are saved and become the * defaults for next time. */ public void fire() throws IllegalActionException { super.fire(); String address = null; for (int jj = 0; jj < remoteAddress.getWidth(); jj++) { if (remoteAddress.hasToken(jj)) { address = ((StringToken) (remoteAddress.get(jj))).stringValue(); } } if (address != null) { try { _address = InetAddress.getByName(address); } catch (UnknownHostException ex) { throw new IllegalActionException( this, ex, "The input remote " + "address specifies an unknown host"); } } for (int jj = 0; jj < remoteSocketNumber.getWidth(); jj++) { if (remoteSocketNumber.hasToken(jj)) { // Valid socket numbers are 0..65535, // so keep only lower 16 bits. _remoteSocketNumber = 65535 & ((IntToken) remoteSocketNumber.get(jj)).intValue(); } } if (data.hasToken(0)) { ArrayToken dataArrayToken = (ArrayToken) data.get(0); byte[] dataBytes = new byte[dataArrayToken.length()]; for (int j = 0; j < dataArrayToken.length(); j++) { UnsignedByteToken token = (UnsignedByteToken) dataArrayToken.getElement(j); dataBytes[j] = token.byteValue(); } DatagramPacket packet = new DatagramPacket(dataBytes, dataBytes.length, _address, _remoteSocketNumber); try { _socket.send(packet); } catch (IOException ex) { // ignore, UDP does not guarantee success // throw new InternalErrorException("socket.send failed"); // FIXME I don't believe that! I think send guarantees that // it will send!! Just not that anyone is listening. // (yet when I ran it with 'throw...' uncommented // then it threw it right away!? ) // Would TCP stall here awaiting reply?? I doubt it! } triggerOutput.broadcast(new Token()); } }
public void fire() throws IllegalActionException { if (_debugging) { _debug("Called fire()"); } ArrayToken lineStartToken = ((ArrayToken) lineStart.getToken()); ArrayToken lineEndToken = ((ArrayToken) lineEnd.getToken()); ArrayToken rgbColorValue = ((ArrayToken) rgbColor.getToken()); DoubleToken widthValue = (DoubleToken) width.getToken(); GL gl = ((GRODirector) getDirector()).getGL(); gl.glLineWidth((float) widthValue.doubleValue()); gl.glBegin(GL.GL_LINES); gl.glColor3d( ((DoubleToken) rgbColorValue.getElement(0)).doubleValue(), ((DoubleToken) rgbColorValue.getElement(1)).doubleValue(), ((DoubleToken) rgbColorValue.getElement(2)).doubleValue()); // origin of the line gl.glVertex3d( ((DoubleToken) lineStartToken.getElement(0)).doubleValue(), ((DoubleToken) lineStartToken.getElement(1)).doubleValue(), ((DoubleToken) lineStartToken.getElement(2)).doubleValue()); // ending point of the line gl.glVertex3d( ((DoubleToken) lineEndToken.getElement(0)).doubleValue(), ((DoubleToken) lineEndToken.getElement(1)).doubleValue(), ((DoubleToken) lineEndToken.getElement(2)).doubleValue()); gl.glEnd(); }
public List<Inequality> constraintList() throws IllegalActionException { ArrayToken valuesArray = (ArrayToken) _actor.values.getToken(); for (int i = 0; i < valuesArray.length(); i++) { setEquals( _actor.output, _lattice.convertJavaToCtype( valuesArray.getElement(i).getType(), valuesArray.getElement(i))); } return super.constraintList(); }
/** * If the <i>enable</i> input is connected, then if it has a true token, produce the next output. * If it is not connected, produce the next output unconditionally. Whether it is connected is * determined by checking the width of the port. * * @exception IllegalActionException If there is no director. */ public void fire() throws IllegalActionException { super.fire(); if ((!enable.isOutsideConnected()) || (enable.hasToken(0) && ((BooleanToken) enable.get(0)).booleanValue())) { ArrayToken valuesArray = (ArrayToken) values.getToken(); if (_currentIndex < valuesArray.length()) { output.send(0, valuesArray.getElement(_currentIndex)); _outputProduced = true; } } }
/** * Override the base class to reset the resource pool to match the specified initialPool value. * * @param attribute The attribute that changed. * @exception IllegalActionException If the change is not acceptable to this container (not thrown * in this base class). */ public void attributeChanged(Attribute attribute) throws IllegalActionException { if (attribute == initialPool) { ArrayToken pool = (ArrayToken) initialPool.getToken(); // Reset the pool. _pool.clear(); // Copy the tokens into the pool. for (int i = 0; i < pool.length(); i++) { _pool.add(pool.getElement(i)); } } else { super.attributeChanged(attribute); } }
/** * Consume at most one token from the input port and produce the element at the index specified by * this token from the table array on the output port. If there is no token on the input or the * token is out of range, then no output is produced. * * @exception IllegalActionException If there is no director. */ public void fire() throws IllegalActionException { super.fire(); if (input.hasToken(0)) { ArrayToken token = (ArrayToken) table.getToken(); if (token != null) { int indexValue = ((IntToken) input.get(0)).intValue(); if ((indexValue >= 0) && (indexValue < token.length())) { output.broadcast(token.getElement(indexValue)); } } } }
/** * Read multiple arrays of XMLTokens from the input and combine them according to the specified * template. If the template contains invalid delimiters, then return the template file with the * valid ones replaced and the invalid ones unmodified. * * @exception IllegalActionException If thrown by the parent class, while reading a parameter or * while reading the input. */ @Override public void fire() throws IllegalActionException { super.fire(); template.update(); String outputString = removeHeader(template.getToken()); String all = ""; for (int j = 0; j < input.getWidth(); j++) { ArrayToken a = (ArrayToken) input.get(j); // FIXME: use StringBuffer instead of concatenating a String. String allInArray = ""; int i; for (i = 0; i < a.length(); i++) { String elemInArray = removeHeader(a.getElement(i)); if (i == 0) { allInArray = allInArray.concat(elemInArray); } else { allInArray = allInArray.concat('\n' + elemInArray); } String elemTag = "$input" + Integer.toString(j) + ',' + Integer.toString(i); outputString = outputString.replace(elemTag, elemInArray); } String arrayTag = "$input" + Integer.toString(j) + ",n"; outputString = outputString.replace(arrayTag, allInArray); if (j == 0) { all = all.concat(allInArray); } else { all = all.concat('\n' + allInArray); } } outputString = outputString.replace("$inputn", all); String ADDheader = headerParameter.stringValue() + "\n"; ADDheader = ADDheader.concat(outputString); try { XMLToken out = new XMLToken(ADDheader); output.broadcast(out); } catch (Exception e) { // FIXME: throw an exception that uses "this" so we // know in which actor the error is located throw new InternalErrorException(e); } }
public void initialize() throws IllegalActionException { ptolemy.data.Token[] tokens = initialOutputs_CGToken.arrayValue(); int i = initialOutputs_CGToken.length(); for (int i_1_ = 0; i_1_ < i; i_1_++) { ptolemy.data.Token token = tokens[i_1_]; DoubleToken doubletoken; if (token instanceof DoubleToken) { doubletoken = (DoubleToken) token; } else { if (!(token instanceof IntToken)) { throw new IllegalActionException("Token Exception"); } doubletoken = new DoubleToken(((IntToken) token).doubleValue()); } System.out.println("token = " + doubletoken.toString()); } }
public Unboxing10() throws IllegalActionException { IntToken[] inttokens = new IntToken[1]; inttokens[0] = new IntToken(0); (this).arraytoken = new ArrayToken(inttokens); // ArrayType arraytype = new ArrayType(BaseType.INT); ptolemy.data.Token[] tokens = (this).arraytoken.arrayValue(); IntToken[] inttokens_0_ = new IntToken[tokens.length]; for (int i = 0; i < tokens.length; i++) { ((ptolemy.data.Token[]) inttokens_0_)[i] = tokens[i]; } (this).arraytoken2 = new ArrayToken(inttokens_0_); initialOutputs_CGToken = (this).arraytoken2; System.out.println("token = " + initialOutputs_CGToken.toString()); }
/** * Consume at most one array from the input ports and produce the index of the first bin that * breaks the threshold. * * @exception IllegalActionException If there is no director. */ public void fire() throws IllegalActionException { super.fire(); start.update(); if (array.hasToken(0)) { ArrayToken inputArray = (ArrayToken) array.get(0); int inputSize = inputArray.length(); int startValue = ((IntToken) start.getToken()).intValue(); if ((startValue >= inputSize) || (startValue < 0)) { throw new IllegalActionException(this, "start is out of range: " + startValue); } int increment = -1; if (((BooleanToken) forwards.getToken()).booleanValue()) { increment = 1; } double reference = ((DoubleToken) inputArray.getElement(startValue)).doubleValue(); double thresholdValue = ((DoubleToken) threshold.getToken()).doubleValue(); String scaleValue = scale.stringValue(); boolean aboveValue = ((BooleanToken) above.getToken()).booleanValue(); if (scaleValue.equals("relative amplitude decibels")) { if (aboveValue) { thresholdValue = reference * Math.pow(10.0, (thresholdValue / 20)); } else { thresholdValue = reference * Math.pow(10.0, (-thresholdValue / 20)); } } else if (scaleValue.equals("relative power decibels")) { if (aboveValue) { thresholdValue = reference * Math.pow(10.0, (thresholdValue / 10)); } else { thresholdValue = reference * Math.pow(10.0, (-thresholdValue / 10)); } } else if (scaleValue.equals("relative linear")) { if (aboveValue) { thresholdValue = reference + thresholdValue; } else { thresholdValue = reference - thresholdValue; } } // Default output if we don't find a crossing. int bin = -1; for (int i = startValue; (i < inputSize) && (i >= 0); i += increment) { double currentValue = ((DoubleToken) inputArray.getElement(i)).doubleValue(); if (aboveValue) { // Searching for values above the threshold. if (currentValue > thresholdValue) { bin = i; break; } } else { // Searching for values below the threshold. if (currentValue < thresholdValue) { bin = i; break; } } } output.send(0, new IntToken(bin)); } }
/** * Create a new background figure. This overrides the base class to draw a box around the value * display, where the width of the box depends on the value. * * @return A new figure. */ public Figure createBackgroundFigure() { NamedObj container = getContainer(); CompositeFigure result = new CompositeFigure(); if (container != null) { try { ArrayToken fieldsValue = (ArrayToken) fields.getToken(); Attribute associatedAttribute = container.getAttribute(variableName.getExpression()); if (associatedAttribute instanceof Variable) { Token value = ((Variable) associatedAttribute).getToken(); if (value instanceof ArrayToken) { // Find the number of rows and columns. int numRows = ((ArrayToken) value).length(); int numColumns = fieldsValue.length(); if (numColumns == 0) { // All columns should be included. // Make a pass to figure out how many that is. for (int i = 0; i < numRows; i++) { Token row = ((ArrayToken) value).getElement(i); if (row instanceof RecordToken) { int rowWidth = ((RecordToken) row).labelSet().size(); if (rowWidth > numColumns) { numColumns = rowWidth; } } } } // Find the width of each column and the height of each row. // All rows are the same height, but column widths can vary. double rowHeight = 0.0; double columnWidth[] = new double[numColumns]; for (int i = 1; i < numColumns; i++) { columnWidth[i] = 0.0; } LabelFigure tableElement[][] = new LabelFigure[numRows][numColumns]; // Iterate over rows. for (int i = 0; i < numRows; i++) { Token row = ((ArrayToken) value).getElement(i); if (row instanceof RecordToken) { if (fieldsValue.length() == 0) { // Display all fields. Iterator labelSet = ((RecordToken) row).labelSet().iterator(); int j = 0; while (labelSet.hasNext()) { String column = (String) labelSet.next(); tableElement[i][j] = _labelFigure((RecordToken) row, column); Rectangle2D bounds = tableElement[i][j].getBounds(); double width = bounds.getWidth(); if (width > columnWidth[j]) { columnWidth[j] = width; } double height = bounds.getHeight(); if (height > rowHeight) { rowHeight = height; } j++; } } else { // Display specified fields. for (int j = 0; j < fieldsValue.length(); j++) { if (j >= numColumns) { break; } String column = ((StringToken) fieldsValue.getElement(j)).stringValue(); tableElement[i][j] = _labelFigure((RecordToken) row, column); Rectangle2D bounds = tableElement[i][j].getBounds(); double width = bounds.getWidth(); if (width > columnWidth[j]) { columnWidth[j] = width; } double height = bounds.getHeight(); if (height > rowHeight) { rowHeight = height; } } } } } // Now make a pass to position and add all the figures. double rowPosition = _VERTICAL_PADDING; // Iterate over rows. for (int i = 0; i < numRows; i++) { Token row = ((ArrayToken) value).getElement(i); if (row instanceof RecordToken) { if (fieldsValue.length() == 0) { // Display all fields. Iterator labelSet = ((RecordToken) row).labelSet().iterator(); int j = 0; double columnPosition = _HORIZONTAL_PADDING; while (labelSet.hasNext()) { /*String column = (String) */ labelSet.next(); tableElement[i][j].translateTo(columnPosition, rowPosition); result.add(tableElement[i][j]); columnPosition += columnWidth[j] + _HORIZONTAL_PADDING; j++; } } else { // Display specified fields. double columnPosition = _HORIZONTAL_PADDING; for (int j = 0; j < fieldsValue.length(); j++) { // String column = ((StringToken)fieldsValue.getElement(j)).stringValue(); tableElement[i][j].translateTo(columnPosition, rowPosition); result.add(tableElement[i][j]); columnPosition += columnWidth[j] + _HORIZONTAL_PADDING; } } } rowPosition += rowHeight + _VERTICAL_PADDING; } } } } catch (IllegalActionException e) { // Stick the error message in the icon. result.add(new LabelFigure(e.getMessage())); } } // Now put a box around it all. Rectangle2D bounds = result.getBounds(); // Double the padding below to allow for both sides. double width = Math.floor(bounds.getWidth()) + _HORIZONTAL_PADDING * 2; double height = Math.floor(bounds.getHeight()) + _VERTICAL_PADDING * 2; Figure rectangle = new BasicRectangle(0, 0, width, height, boxColor.asColor(), 1); CompositeFigure finalResult = new CompositeFigure(rectangle); finalResult.add(result); return finalResult; }
/** * Execute the filter model on each input array element until it gets as many elements as * specified by the <i>maxOutputLength</i> parameter. If there are no enough elements satisfying * the filter model, then only output all the satisfied elements. Before running the filter model, * this method update the filter model's <i>inputArrayElement</i> parameter for each array * element. After running the filter model, this method looks for the <i>evaluatedValue</i> * parameter and keep the input element if the evaluated value is ture, otherwise, skip the * element. * * @exception IllegalActionException If there is no director, or if the director's action methods * throw it. */ public void fire() throws IllegalActionException { super.fire(); if (_model instanceof CompositeActor) { CompositeActor executable = (CompositeActor) _model; _manager = executable.getManager(); if (_manager == null) { throw new InternalErrorException("No manager!"); } if (_debugging) { _manager.addDebugListener(this); Director director = executable.getDirector(); if (director != null) { director.addDebugListener(this); } } else { _manager.removeDebugListener(this); Director director = executable.getDirector(); if (director != null) { director.removeDebugListener(this); } } int i = 0; int j = 0; LinkedList list = new LinkedList(); ArrayToken array = (ArrayToken) inputArray.get(0); while ((i < _outputLength) && (j < array.length())) { Token t = array.getElement(j); _updateParameter(t); if (_debugging) { _debug("** Executing filter model."); } try { _manager.execute(); } catch (KernelException ex) { throw new IllegalActionException(this, ex, "Execution failed."); } if (_getResult()) { i++; list.add(t); } j++; } Token[] result = new Token[list.size()]; for (i = 0; i < list.size(); i++) { result[i] = (Token) list.get(i); } outputArray.send(0, new ArrayToken(array.getElementType(), result)); } }