/* An actor that converts a DoubleToken to a FixToken.
Copyright (c) 1998-2006 The Regents of the University of California.
All rights reserved.
Permission is hereby granted, without written agreement and without
license or royalty fees, to use, copy, modify, and distribute this
software and its documentation for any purpose, provided that the above
copyright notice and the following two paragraphs appear in all copies
of this software.
IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY
FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF
THE UNIVERSITY OF CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF
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THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE
PROVIDED HEREUNDER IS ON AN "AS IS" BASIS, AND THE UNIVERSITY OF
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ENHANCEMENTS, OR MODIFICATIONS.
PT_COPYRIGHT_VERSION_2
COPYRIGHTENDKEY
*/
package ptolemy.actor.lib.conversions;
import ptolemy.data.DoubleToken;
import ptolemy.data.FixToken;
import ptolemy.data.IntMatrixToken;
import ptolemy.data.expr.Parameter;
import ptolemy.data.type.BaseType;
import ptolemy.data.type.FixType;
import ptolemy.kernel.CompositeEntity;
import ptolemy.kernel.util.Attribute;
import ptolemy.kernel.util.IllegalActionException;
import ptolemy.kernel.util.NameDuplicationException;
import ptolemy.kernel.util.StringAttribute;
import ptolemy.kernel.util.Workspace;
import ptolemy.math.FixPoint;
import ptolemy.math.FixPointQuantization;
import ptolemy.math.Overflow;
import ptolemy.math.Precision;
import ptolemy.math.Rounding;
//////////////////////////////////////////////////////////////////////////
//// DoubleToFix
/**
This actor converts a DoubleToken to a FixToken with a specified
precision. Note that this conversion is lossy, in that the output
is an approximation of the input. The approximation can be
constructed using a variety of rounding and overflow strategies.
<p>
The precision of the output is given by the <i>precision</i> parameter,
which is an integer matrix of the form [<i>m</i>, <i>n</i>], where
the total number of bits in the output is <i>m</i>, of which
<i>n</i> are integer bits. The default precision is [16, 2], which means
that an output has 16 bits, of which 2 bits represent the
integer part.
<p>
The rounding strategy is defined by the <i>rounding</i> parameter and
defaults to <i>nearest</i> (or <i>half_floor</i>), selecting the nearest
representable value. The floor value nearer to minus infinity is used
for values half way between representable values. Other strategies
such as <i>truncate</i> are described under ptolemy.math.Rounding.
<p>
The overflow strategy is defined by the <i>overflow</i> parameter and
defaults to <i>saturate</i> (or <i>clip</i>). Out of range values are
saturated to the nearest representable value. Other strategies
such as <i>modulo</i> are described under ptolemy.math.Overflow.
@author Bart Kienhuis, Contributor: Edward A. Lee, Ed.Willink,
@version $Id$
@since Ptolemy II 0.4
@Pt.ProposedRating Green (pwhitake)
@Pt.AcceptedRating Green (pwhitake)
@see ptolemy.data.FixToken
@see ptolemy.math.Overflow
@see ptolemy.math.Precision
@see ptolemy.math.Rounding
*/
public class DoubleToFix extends Converter {
/** Construct an actor with the given container and name.
* @param container The container.
* @param name The name of this actor.
* @exception IllegalActionException If the actor cannot be contained
* by the proposed container.
* @exception NameDuplicationException If the container already has an
* actor with this name.
*/
public DoubleToFix(CompositeEntity container, String name)
throws NameDuplicationException, IllegalActionException {
super(container, name);
input.setTypeEquals(BaseType.DOUBLE);
output.setTypeEquals(BaseType.UNSIZED_FIX);
precision = new Parameter(this, "precision");
precision.setTypeEquals(BaseType.INT_MATRIX);
precision.setExpression("[16, 2]");
rounding = new StringAttribute(this, "rounding");
rounding.setExpression("nearest");
overflow = new StringAttribute(this, "overflow");
overflow.setExpression("saturate");
}
///////////////////////////////////////////////////////////////////
//// ports and parameters ////
/** The precision of the output fixed-point number, which is represented
by a 2-element integer matrix. */
public Parameter precision;
/** The overflow strategy used, such as "saturate" or "modulo". */
public StringAttribute overflow;
/** The rounding strategy used, such as "nearest" or "truncate". */
public StringAttribute rounding;
///////////////////////////////////////////////////////////////////
//// public methods ////
/** Override the base class to set locally cached variables.
* @param attribute The attribute that changed.
* @exception IllegalActionException If the parameter value is invalid.
*/
public void attributeChanged(Attribute attribute)
throws IllegalActionException {
if (attribute == precision) {
IntMatrixToken token = (IntMatrixToken) precision.getToken();
if ((token.getRowCount() != 1) || (token.getColumnCount() != 2)) {
throw new IllegalActionException(this,
"Invalid precision (not a 1 by 2 matrix).");
}
Precision precision = new Precision(token.getElementAt(0, 0), token
.getElementAt(0, 1));
output.setTypeEquals(new FixType(precision));
_quantization = _quantization.setPrecision(precision);
} else if (attribute == rounding) {
Rounding r = Rounding.getName(rounding.getExpression());
_quantization = _quantization.setRounding(r);
} else if (attribute == overflow) {
Overflow o = Overflow.forName(overflow.getExpression());
_quantization = _quantization.setOverflow(o);
} else {
super.attributeChanged(attribute);
}
}
/** Clone the actor into the specified workspace.
* @param workspace The workspace for the new object.
* @return A new actor.
* @exception CloneNotSupportedException If a derived class contains
* an attribute that cannot be cloned.
*/
public Object clone(Workspace workspace) throws CloneNotSupportedException {
DoubleToFix newObject = (DoubleToFix) super.clone(workspace);
newObject._quantization = new FixPointQuantization(
newObject._quantization.getPrecision(), newObject._quantization
.getOverflow(), newObject._quantization.getRounding());
return newObject;
}
/** Read at most one token from the input and output the converted
* fixed-point value with the precision given by the
* <i>precision</i> parameter, overflow strategy given by the
* <i>overflow</i> parameter, and rounding strategy given by the
* <i>rounding</i> parameter.
* @exception IllegalActionException If there is no director.
*/
public void fire() throws IllegalActionException {
super.fire();
DoubleToken in = (DoubleToken) input.get(0);
FixPoint fixValue = new FixPoint(in.doubleValue(), _quantization);
FixToken result = new FixToken(fixValue);
output.send(0, result);
}
/** Return false if the input port has no token, otherwise return
* what the superclass returns (presumably true).
* @exception IllegalActionException If there is no director.
*/
public boolean prefire() throws IllegalActionException {
if (!input.hasToken(0)) {
return false;
}
return super.prefire();
}
///////////////////////////////////////////////////////////////////
//// private variables ////
// The quantization of the output.
private FixPointQuantization _quantization = new FixPointQuantization(null,
Overflow.SATURATE, Rounding.NEAREST);
}