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   this work for additional information regarding copyright ownership.
   The ASF licenses this file to You under the Apache License, Version 2.0
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package org.apache.batik.bridge;

import java.awt.Point;
import java.awt.geom.Rectangle2D;
import java.awt.image.Kernel;
import java.util.Map;
import java.util.StringTokenizer;

import org.apache.batik.ext.awt.image.PadMode;
import org.apache.batik.ext.awt.image.renderable.ConvolveMatrixRable;
import org.apache.batik.ext.awt.image.renderable.ConvolveMatrixRable8Bit;
import org.apache.batik.ext.awt.image.renderable.Filter;
import org.apache.batik.ext.awt.image.renderable.PadRable;
import org.apache.batik.ext.awt.image.renderable.PadRable8Bit;
import org.apache.batik.gvt.GraphicsNode;
import org.w3c.dom.Element;

Bridge class for the <feConvolveMatrix> element.
Author:Thierry Kormann
Version:$Id: SVGFeConvolveMatrixElementBridge.java 1805408 2017-08-18 12:21:52Z ssteiner $
/** * Bridge class for the &lt;feConvolveMatrix&gt; element. * * @author <a href="mailto:tkormann@apache.org">Thierry Kormann</a> * @version $Id: SVGFeConvolveMatrixElementBridge.java 1805408 2017-08-18 12:21:52Z ssteiner $ */
public class SVGFeConvolveMatrixElementBridge extends AbstractSVGFilterPrimitiveElementBridge {
Constructs a new bridge for the <feConvolveMatrix> element.
/** * Constructs a new bridge for the &lt;feConvolveMatrix&gt; element. */
public SVGFeConvolveMatrixElementBridge() {}
Returns 'feConvolveMatrix'.
/** * Returns 'feConvolveMatrix'. */
public String getLocalName() { return SVG_FE_CONVOLVE_MATRIX_TAG; }
Creates a Filter primitive according to the specified parameters.
Params:
  • ctx – the bridge context to use
  • filterElement – the element that defines a filter
  • filteredElement – the element that references the filter
  • filteredNode – the graphics node to filter
  • inputFilter – the Filter that represents the current filter input if the filter chain.
  • filterRegion – the filter area defined for the filter chain the new node will be part of.
  • filterMap – a map where the mediator can map a name to the Filter it creates. Other FilterBridges can then access a filter node from the filterMap if they know its name.
/** * Creates a <code>Filter</code> primitive according to the specified * parameters. * * @param ctx the bridge context to use * @param filterElement the element that defines a filter * @param filteredElement the element that references the filter * @param filteredNode the graphics node to filter * * @param inputFilter the <code>Filter</code> that represents the current * filter input if the filter chain. * @param filterRegion the filter area defined for the filter chain * the new node will be part of. * @param filterMap a map where the mediator can map a name to the * <code>Filter</code> it creates. Other <code>FilterBridge</code>s * can then access a filter node from the filterMap if they * know its name. */
public Filter createFilter(BridgeContext ctx, Element filterElement, Element filteredElement, GraphicsNode filteredNode, Filter inputFilter, Rectangle2D filterRegion, Map filterMap) { // 'order' attribute - default is [3, 3] int[] orderXY = convertOrder(filterElement, ctx); // 'kernelMatrix' attribute - required float[] kernelMatrix = convertKernelMatrix(filterElement, orderXY, ctx); // 'divisor' attribute - default is kernel matrix sum or 1 if sum is 0 float divisor = convertDivisor(filterElement, kernelMatrix, ctx); // 'bias' attribute - default is 0 float bias = convertNumber(filterElement, SVG_BIAS_ATTRIBUTE, 0, ctx); // 'targetX' and 'targetY' attribute int[] targetXY = convertTarget(filterElement, orderXY, ctx); // 'edgeMode' attribute - default is 'duplicate' PadMode padMode = convertEdgeMode(filterElement, ctx); // 'kernelUnitLength' attribute double[] kernelUnitLength = convertKernelUnitLength(filterElement, ctx); // 'preserveAlpha' attribute - default is 'false' boolean preserveAlpha = convertPreserveAlpha(filterElement, ctx); // 'in' attribute Filter in = getIn(filterElement, filteredElement, filteredNode, inputFilter, filterMap, ctx); if (in == null) { return null; // disable the filter } // Default region is the size of in (if in is SourceGraphic or // SourceAlpha it will already include a pad/crop to the // proper filter region size). Rectangle2D defaultRegion = in.getBounds2D(); Rectangle2D primitiveRegion = SVGUtilities.convertFilterPrimitiveRegion(filterElement, filteredElement, filteredNode, defaultRegion, filterRegion, ctx); PadRable pad = new PadRable8Bit(in, primitiveRegion, PadMode.ZERO_PAD); // build the convolve filter ConvolveMatrixRable convolve = new ConvolveMatrixRable8Bit(pad); for (int i = 0; i < kernelMatrix.length; i++) { kernelMatrix[i] /= divisor; } convolve.setKernel(new Kernel(orderXY[0], orderXY[1], kernelMatrix)); convolve.setTarget(new Point(targetXY[0], targetXY[1])); convolve.setBias(bias); convolve.setEdgeMode(padMode); convolve.setKernelUnitLength(kernelUnitLength); convolve.setPreserveAlpha(preserveAlpha); // handle the 'color-interpolation-filters' property handleColorInterpolationFilters(convolve, filterElement); PadRable filter = new PadRable8Bit (convolve, primitiveRegion, PadMode.ZERO_PAD); // update the filter Map updateFilterMap(filterElement, filter, filterMap); return filter; }
Convert the 'order' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • ctx – the BridgeContext to use for error information
/** * Convert the 'order' attribute of the specified feConvolveMatrix * filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param ctx the BridgeContext to use for error information */
protected static int[] convertOrder(Element filterElement, BridgeContext ctx) { String s = filterElement.getAttributeNS(null, SVG_ORDER_ATTRIBUTE); if (s.length() == 0) { return new int[] {3, 3}; } int [] orderXY = new int[2]; StringTokenizer tokens = new StringTokenizer(s, " ,"); try { orderXY[0] = SVGUtilities.convertSVGInteger(tokens.nextToken()); if (tokens.hasMoreTokens()) { orderXY[1] = SVGUtilities.convertSVGInteger(tokens.nextToken()); } else { orderXY[1] = orderXY[0]; } } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_ORDER_ATTRIBUTE, s, nfEx }); } if (tokens.hasMoreTokens() || orderXY[0] <= 0 || orderXY[1] <= 0) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_ORDER_ATTRIBUTE, s}); } return orderXY; }
Convert the 'kernelMatrix' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • orderXY – the value of the 'order' attribute
  • ctx – the BridgeContext to use for error information
/** * Convert the 'kernelMatrix' attribute of the specified feConvolveMatrix * filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param orderXY the value of the 'order' attribute * @param ctx the BridgeContext to use for error information */
protected static float[] convertKernelMatrix(Element filterElement, int[] orderXY, BridgeContext ctx) { String s = filterElement.getAttributeNS(null, SVG_KERNEL_MATRIX_ATTRIBUTE); if (s.length() == 0) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_MISSING, new Object[] {SVG_KERNEL_MATRIX_ATTRIBUTE}); } int size = orderXY[0]*orderXY[1]; float [] kernelMatrix = new float[size]; StringTokenizer tokens = new StringTokenizer(s, " ,"); int i = 0; try { while (tokens.hasMoreTokens() && i < size) { kernelMatrix[i++] = SVGUtilities.convertSVGNumber(tokens.nextToken()); } } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_KERNEL_MATRIX_ATTRIBUTE, s, nfEx }); } if (i != size) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_KERNEL_MATRIX_ATTRIBUTE, s}); } return kernelMatrix; }
Convert the 'divisor' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • kernelMatrix – the value of the 'kernelMatrix' attribute
  • ctx – the BridgeContext to use for error information
/** * Convert the 'divisor' attribute of the specified feConvolveMatrix * filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param kernelMatrix the value of the 'kernelMatrix' attribute * @param ctx the BridgeContext to use for error information */
protected static float convertDivisor(Element filterElement, float[] kernelMatrix, BridgeContext ctx) { String s = filterElement.getAttributeNS(null, SVG_DIVISOR_ATTRIBUTE); if (s.length() == 0) { // default is sum of kernel values (if sum is zero then 1.0) float sum = 0; for (float aKernelMatrix : kernelMatrix) { sum += aKernelMatrix; } return (sum == 0) ? 1.0f : sum; } else { try { return SVGUtilities.convertSVGNumber(s); } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_DIVISOR_ATTRIBUTE, s, nfEx }); } } }
Convert the 'targetX' and 'targetY' attributes of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • orderXY – the value of the 'order' attribute
  • ctx – the BridgeContext to use for error information
/** * Convert the 'targetX' and 'targetY' attributes of the specified * feConvolveMatrix filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param orderXY the value of the 'order' attribute * @param ctx the BridgeContext to use for error information */
protected static int[] convertTarget(Element filterElement, int[] orderXY, BridgeContext ctx) { int[] targetXY = new int[2]; // 'targetX' attribute - default is floor(orderX / 2) String s = filterElement.getAttributeNS(null, SVG_TARGET_X_ATTRIBUTE); if (s.length() == 0) { targetXY[0] = orderXY[0] / 2; } else { try { int v = SVGUtilities.convertSVGInteger(s); if (v < 0 || v >= orderXY[0]) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_TARGET_X_ATTRIBUTE, s}); } targetXY[0] = v; } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_TARGET_X_ATTRIBUTE, s, nfEx }); } } // 'targetY' attribute - default is floor(orderY / 2) s = filterElement.getAttributeNS(null, SVG_TARGET_Y_ATTRIBUTE); if (s.length() == 0) { targetXY[1] = orderXY[1] / 2; } else { try { int v = SVGUtilities.convertSVGInteger(s); if (v < 0 || v >= orderXY[1]) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_TARGET_Y_ATTRIBUTE, s}); } targetXY[1] = v; } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_TARGET_Y_ATTRIBUTE, s, nfEx }); } } return targetXY; }
Convert the 'kernelUnitLength' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • ctx – the BridgeContext to use for error information
/** * Convert the 'kernelUnitLength' attribute of the specified * feConvolveMatrix filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param ctx the BridgeContext to use for error information */
protected static double[] convertKernelUnitLength(Element filterElement, BridgeContext ctx) { String s = filterElement.getAttributeNS (null, SVG_KERNEL_UNIT_LENGTH_ATTRIBUTE); if (s.length() == 0) { return null; } double [] units = new double[2]; StringTokenizer tokens = new StringTokenizer(s, " ,"); try { units[0] = SVGUtilities.convertSVGNumber(tokens.nextToken()); if (tokens.hasMoreTokens()) { units[1] = SVGUtilities.convertSVGNumber(tokens.nextToken()); } else { units[1] = units[0]; } } catch (NumberFormatException nfEx ) { throw new BridgeException (ctx, filterElement, nfEx, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_KERNEL_UNIT_LENGTH_ATTRIBUTE, s}); } if (tokens.hasMoreTokens() || units[0] <= 0 || units[1] <= 0) { throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_KERNEL_UNIT_LENGTH_ATTRIBUTE, s}); } return units; }
Convert the 'edgeMode' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • ctx – the BridgeContext to use for error information
/** * Convert the 'edgeMode' attribute of the specified feConvolveMatrix * filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param ctx the BridgeContext to use for error information */
protected static PadMode convertEdgeMode(Element filterElement, BridgeContext ctx) { String s = filterElement.getAttributeNS(null, SVG_EDGE_MODE_ATTRIBUTE); if (s.length() == 0) { return PadMode.REPLICATE; } if (SVG_DUPLICATE_VALUE.equals(s)) { return PadMode.REPLICATE; } if (SVG_WRAP_VALUE.equals(s)) { return PadMode.WRAP; } if (SVG_NONE_VALUE.equals(s)) { return PadMode.ZERO_PAD; } throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_EDGE_MODE_ATTRIBUTE, s}); }
Convert the 'preserveAlpha' attribute of the specified feConvolveMatrix filter primitive element.
Params:
  • filterElement – the feConvolveMatrix filter primitive element
  • ctx – the BridgeContext to use for error information
/** * Convert the 'preserveAlpha' attribute of the specified feConvolveMatrix * filter primitive element. * * @param filterElement the feConvolveMatrix filter primitive element * @param ctx the BridgeContext to use for error information */
protected static boolean convertPreserveAlpha(Element filterElement, BridgeContext ctx) { String s = filterElement.getAttributeNS(null, SVG_PRESERVE_ALPHA_ATTRIBUTE); if (s.length() == 0) { return false; } if (SVG_TRUE_VALUE.equals(s)) { return true; } if (SVG_FALSE_VALUE.equals(s)) { return false; } throw new BridgeException (ctx, filterElement, ERR_ATTRIBUTE_VALUE_MALFORMED, new Object[] {SVG_PRESERVE_ALPHA_ATTRIBUTE, s}); } }