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apache / xmlgraphics-batik / refs/heads/webapi / . / sources / org / apache / batik / parser / TransformListParser.java
blob: 48640efb66076b0a22e5e6c25d135b070bf7e5bd [file] [log] [blame]
/*
Licensed to the Apache Software Foundation (ASF) under one or more
contributor license agreements. See the NOTICE file distributed with
this work for additional information regarding copyright ownership.
The ASF licenses this file to You under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package org.apache.batik.parser;
import java.io.IOException;
/**
* This class implements an event-based parser for the SVG transform
* attribute values.
*
* @author <a href="mailto:stephane@hillion.org">Stephane Hillion</a>
* @version $Id$
*/
public class TransformListParser extends NumberParser {
/**
* The transform list handler used to report parse events.
*/
protected TransformListHandler transformListHandler;
/**
* Creates a new TransformListParser.
*/
public TransformListParser() {
transformListHandler = DefaultTransformListHandler.INSTANCE;
}
/**
* Allows an application to register a transform list handler.
*
* <p>If the application does not register a handler, all
* events reported by the parser will be silently ignored.
*
* <p>Applications may register a new or different handler in the
* middle of a parse, and the parser must begin using the new
* handler immediately.</p>
* @param handler The transform handler.
*/
public void setTransformListHandler(TransformListHandler handler) {
transformListHandler = handler;
}
/**
* Returns the transform list handler in use.
*/
public TransformListHandler getTransformListHandler() {
return transformListHandler;
}
/**
* Parses the current reader.
*/
protected void doParse() throws ParseException, IOException {
transformListHandler.startTransformList();
loop: for (;;) {
try {
current = reader.read();
switch (current) {
case 0xD:
case 0xA:
case 0x20:
case 0x9:
case ',':
break;
case 'm':
parseMatrix();
break;
case 'r':
parseRotate();
break;
case 't':
parseTranslate();
break;
case 's':
current = reader.read();
switch (current) {
case 'c':
parseScale();
break;
case 'k':
parseSkew();
break;
default:
reportUnexpectedCharacterError( current );
skipTransform();
}
break;
case -1:
break loop;
default:
reportUnexpectedCharacterError( current );
skipTransform();
}
} catch (ParseException e) {
errorHandler.error(e);
skipTransform();
}
}
skipSpaces();
if (current != -1) {
reportError("end.of.stream.expected",
new Object[] { new Integer(current) });
}
transformListHandler.endTransformList();
}
/**
* Parses a matrix transform. 'm' is assumed to be the current character.
*/
protected void parseMatrix() throws ParseException, IOException {
current = reader.read();
// Parse 'atrix wsp? ( wsp?'
if (current != 'a') {
reportCharacterExpectedError('a', current );
skipTransform();
return;
}
current = reader.read();
if (current != 't') {
reportCharacterExpectedError('t', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'r') {
reportCharacterExpectedError('r', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'i') {
reportCharacterExpectedError('i', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'x') {
reportCharacterExpectedError('x', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
if (current != '(') {
reportCharacterExpectedError('(', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
float a = parseFloat();
skipCommaSpaces();
float b = parseFloat();
skipCommaSpaces();
float c = parseFloat();
skipCommaSpaces();
float d = parseFloat();
skipCommaSpaces();
float e = parseFloat();
skipCommaSpaces();
float f = parseFloat();
skipSpaces();
if (current != ')') {
reportCharacterExpectedError(')', current );
skipTransform();
return;
}
transformListHandler.matrix(a, b, c, d, e, f);
}
/**
* Parses a rotate transform. 'r' is assumed to be the current character.
*/
protected void parseRotate() throws ParseException, IOException {
current = reader.read();
// Parse 'otate wsp? ( wsp?'
if (current != 'o') {
reportCharacterExpectedError('o', current );
skipTransform();
return;
}
current = reader.read();
if (current != 't') {
reportCharacterExpectedError('t', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'a') {
reportCharacterExpectedError('a', current );
skipTransform();
return;
}
current = reader.read();
if (current != 't') {
reportCharacterExpectedError('t', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'e') {
reportCharacterExpectedError('e', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
if (current != '(') {
reportCharacterExpectedError('(', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
float theta = parseFloat();
skipSpaces();
switch (current) {
case ')':
transformListHandler.rotate(theta);
return;
case ',':
current = reader.read();
skipSpaces();
}
float cx = parseFloat();
skipCommaSpaces();
float cy = parseFloat();
skipSpaces();
if (current != ')') {
reportCharacterExpectedError(')', current );
skipTransform();
return;
}
transformListHandler.rotate(theta, cx, cy);
}
/**
* Parses a translate transform. 't' is assumed to be
* the current character.
*/
protected void parseTranslate() throws ParseException, IOException {
current = reader.read();
// Parse 'ranslate wsp? ( wsp?'
if (current != 'r') {
reportCharacterExpectedError('r', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'a') {
reportCharacterExpectedError('a', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'n') {
reportCharacterExpectedError('n', current );
skipTransform();
return;
}
current = reader.read();
if (current != 's') {
reportCharacterExpectedError('s', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'l') {
reportCharacterExpectedError('l', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'a') {
reportCharacterExpectedError('a', current );
skipTransform();
return;
}
current = reader.read();
if (current != 't') {
reportCharacterExpectedError('t', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'e') {
reportCharacterExpectedError('e', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
if (current != '(') {
reportCharacterExpectedError('(', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
float tx = parseFloat();
skipSpaces();
switch (current) {
case ')':
transformListHandler.translate(tx);
return;
case ',':
current = reader.read();
skipSpaces();
}
float ty = parseFloat();
skipSpaces();
if (current != ')') {
reportCharacterExpectedError(')', current );
skipTransform();
return;
}
transformListHandler.translate(tx, ty);
}
/**
* Parses a scale transform. 'c' is assumed to be the current character.
*/
protected void parseScale() throws ParseException, IOException {
current = reader.read();
// Parse 'ale wsp? ( wsp?'
if (current != 'a') {
reportCharacterExpectedError('a', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'l') {
reportCharacterExpectedError('l', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'e') {
reportCharacterExpectedError('e', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
if (current != '(') {
reportCharacterExpectedError('(', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
float sx = parseFloat();
skipSpaces();
switch (current) {
case ')':
transformListHandler.scale(sx);
return;
case ',':
current = reader.read();
skipSpaces();
}
float sy = parseFloat();
skipSpaces();
if (current != ')') {
reportCharacterExpectedError(')', current );
skipTransform();
return;
}
transformListHandler.scale(sx, sy);
}
/**
* Parses a skew transform. 'e' is assumed to be the current character.
*/
protected void parseSkew() throws ParseException, IOException {
current = reader.read();
// Parse 'ew[XY] wsp? ( wsp?'
if (current != 'e') {
reportCharacterExpectedError('e', current );
skipTransform();
return;
}
current = reader.read();
if (current != 'w') {
reportCharacterExpectedError('w', current );
skipTransform();
return;
}
current = reader.read();
boolean skewX = false;
switch (current) {
case 'X':
skewX = true;
// fall through
case 'Y':
break;
default:
reportCharacterExpectedError('X', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
if (current != '(') {
reportCharacterExpectedError('(', current );
skipTransform();
return;
}
current = reader.read();
skipSpaces();
float sk = parseFloat();
skipSpaces();
if (current != ')') {
reportCharacterExpectedError(')', current );
skipTransform();
return;
}
if (skewX) {
transformListHandler.skewX(sk);
} else {
transformListHandler.skewY(sk);
}
}
/**
* Skips characters in the given reader until a ')' is encountered.
*/
protected void skipTransform() throws IOException {
loop: for (;;) {
current = reader.read();
switch (current) {
case ')':
break loop;
default:
if (current == -1) {
break loop;
}
}
}
}
}