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Woodstox is a high-performance XML processor that implements Stax (JSR-173) and SAX2 APIs

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/* Woodstox XML processor
 *
 * Copyright (c) 2004- Tatu Saloranta, [email protected]
 *
 * Licensed under the License specified in file LICENSE, included with
 * the source code.
 * You may not use this file except in compliance with the License.
 *
 * 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 com.ctc.wstx.sw;

import java.io.*;

import javax.xml.stream.XMLStreamException;

import com.ctc.wstx.api.WriterConfig;
import com.ctc.wstx.io.CharsetNames;

/**
 * Concrete implementation of {@link EncodingXmlWriter} used when output
 * is to be encoded using ISO-8859-1, aka ISO-Latin1 encoding.
 *

* Regarding surrogate pair handling: most of the checks are in the base * class, and here we only need to worry about writeRaw * methods. */ public final class ISOLatin1XmlWriter extends EncodingXmlWriter { public ISOLatin1XmlWriter(OutputStream out, WriterConfig cfg, boolean autoclose) throws IOException { super(out, cfg, CharsetNames.CS_ISO_LATIN1, autoclose); } public void writeRaw(char[] cbuf, int offset, int len) throws IOException { if (mSurrogate != 0) { throwUnpairedSurrogate(); } int ptr = mOutputPtr; while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } if (mCheckContent) { for (int inEnd = offset + max; offset < inEnd; ++offset) { int c = cbuf[offset]; if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } mOutputBuffer[ptr++] = (byte) c; } } else { for (int inEnd = offset + max; offset < inEnd; ++offset) { mOutputBuffer[ptr++] = (byte) cbuf[offset]; } } len -= max; } mOutputPtr = ptr; } public void writeRaw(String str, int offset, int len) throws IOException { if (mSurrogate != 0) { throwUnpairedSurrogate(); } int ptr = mOutputPtr; while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } if (mCheckContent) { for (int inEnd = offset + max; offset < inEnd; ++offset) { int c = str.charAt(offset); if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } mOutputBuffer[ptr++] = (byte) c; } } else { for (int inEnd = offset + max; offset < inEnd; ++offset) { mOutputBuffer[ptr++] = (byte) str.charAt(offset); } } len -= max; } mOutputPtr = ptr; } protected void writeAttrValue(String data) throws IOException { int offset = 0; int len = data.length(); int ptr = mOutputPtr; main_loop: while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // Do we start with a surrogate? if (mSurrogate != 0) { int sec = data.charAt(offset++); sec = calcSurrogate(sec); mOutputPtr = ptr; ptr = writeAsEntity(sec); --len; continue main_loop; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = data.charAt(offset++); if (c < 32) { /* Need to quote all white space except for regular * space chars, to preserve them (round-tripping) */ if (c == '\r') { if (!mEscapeCR) { mOutputBuffer[ptr++] = (byte) c; continue; } } else if (c != '\n' && c != '\t') { if (mCheckContent) { if (!mXml11 || c == 0) { c = handleInvalidChar(c); mOutputBuffer[ptr++] = (byte) c; continue; } } } // fall-through to char entity output } else if (c < 0x7F) { if (c != '<' && c != '&' && c != '"') { mOutputBuffer[ptr++] = (byte) c; continue; } // otherwise fall back on quoting } else if (c > 0x9F && c <= 0xFF) { mOutputBuffer[ptr++] = (byte) c; continue; // [WSTX-88] } else { // Surrogate? if (c >= SURR1_FIRST && c <= SURR2_LAST) { mSurrogate = c; // Last char needs special handling: if (offset == inEnd) { break inner_loop; } c = calcSurrogate(data.charAt(offset++)); // Let's fall down to entity output } } /* Has to be escaped as char entity; as such, also need * to re-calc max. continguous data we can output */ mOutputPtr = ptr; ptr = writeAsEntity(c); len = data.length() - offset; continue main_loop; } len -= max; } mOutputPtr = ptr; } protected void writeAttrValue(char[] data, int offset, int len) throws IOException { int ptr = mOutputPtr; main_loop: while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // Do we start with a surrogate? if (mSurrogate != 0) { int sec = data[offset++]; sec = calcSurrogate(sec); mOutputPtr = ptr; ptr = writeAsEntity(sec); --len; continue main_loop; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = data[offset++]; if (c < 32) { /* Need to quote all white space except for regular * space chars, to preserve them (round-tripping) */ if (c == '\r') { if (!mEscapeCR) { mOutputBuffer[ptr++] = (byte) c; continue; } } else if (c != '\n' && c != '\t') { if (mCheckContent) { if (!mXml11 || c == 0) { c = handleInvalidChar(c); mOutputBuffer[ptr++] = (byte) c; continue; } } } // fall-through to char entity output } else if (c < 0x7F) { if (c != '<' && c != '&' && c != '"') { mOutputBuffer[ptr++] = (byte) c; continue; } // otherwise fall back on quoting } else if (c > 0x9F && c <= 0xFF) { mOutputBuffer[ptr++] = (byte) c; continue; // [WSTX-88] } else { // Surrogate? if (c >= SURR1_FIRST && c <= SURR2_LAST) { mSurrogate = c; // Last char needs special handling: if (offset == inEnd) { break inner_loop; } c = calcSurrogate(data[offset++]); // Let's fall down to entity output } } /* Has to be escaped as char entity; as such, also need * to re-calc max. contiguous data we can output */ mOutputPtr = ptr; ptr = writeAsEntity(c); max -= (inEnd - offset); // since we didn't loop completely break inner_loop; } len -= max; } mOutputPtr = ptr; } protected int writeCDataContent(String data) throws IOException { // Note: mSurrogate can not be non-zero at this point, no need to check int offset = 0; int len = data.length(); if (!mCheckContent) { writeRaw(data, offset, len); return -1; } int ptr = mOutputPtr; main_loop: while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } for (int inEnd = offset + max; offset < inEnd; ) { int c = data.charAt(offset++); if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } else if (c == '>') { // embedded "]]>"? if (offset > 2 && data.charAt(offset-2) == ']' && data.charAt(offset-3) == ']') { if (!mFixContent) { return offset-3; } /* Relatively easy fix; just need to close this * section, and open a new one... */ mOutputPtr = ptr; writeCDataEnd(); writeCDataStart(); writeAscii(BYTE_GT); ptr = mOutputPtr; /* No guarantees there's as much free room in the * output buffer, thus, need to restart loop: */ len = data.length() - offset; continue main_loop; } } mOutputBuffer[ptr++] = (byte) c; } len -= max; } mOutputPtr = ptr; return -1; } protected int writeCDataContent(char[] cbuf, int start, int len) throws IOException { // Note: mSurrogate can not be non-zero at this point, no need to check if (!mCheckContent) { writeRaw(cbuf, start, len); return -1; } int ptr = mOutputPtr; int offset = start; while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = cbuf[offset++]; if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } else if (c == '>') { // embedded "]]>"? if (offset >= (start+3) && cbuf[offset-2] == ']' && cbuf[offset-3] == ']') { if (!mFixContent) { return offset-3; } /* Relatively easy fix; just need to close this * section, and open a new one... */ mOutputPtr = ptr; writeCDataEnd(); writeCDataStart(); writeAscii(BYTE_GT); ptr = mOutputPtr; /* No guarantees there's as much free room in the * output buffer, thus, need to restart loop: */ max -= (inEnd - offset); break inner_loop; } } mOutputBuffer[ptr++] = (byte) c; } len -= max; } mOutputPtr = ptr; return -1; } protected int writeCommentContent(String data) throws IOException { // Note: mSurrogate can not be non-zero at this point, no need to check int offset = 0; int len = data.length(); if (!mCheckContent) { writeRaw(data, offset, len); return -1; } int ptr = mOutputPtr; while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = data.charAt(offset++); if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } else if (c == '-') { // embedded "--"? if (offset > 1 && data.charAt(offset-2) == '-') { if (!mFixContent) { return offset-2; } /* Quite easy to fix: just add an extra space * in front. There will be room for that char; * but may need to take that the following '-' * also fits. */ mOutputBuffer[ptr++] = ' '; if (ptr >= mOutputBuffer.length) { // whops. need to flush mOutputPtr = ptr; flushBuffer(); ptr = 0; } mOutputBuffer[ptr++] = BYTE_HYPHEN; /* Also, since we did output an extra char, better * restart the loop (since max calculation is now * off) */ max -= (inEnd - offset); break inner_loop; } } mOutputBuffer[ptr++] = (byte) c; } len -= max; } mOutputPtr = ptr; return -1; } protected int writePIData(String data) throws IOException, XMLStreamException { // Note: mSurrogate can not be non-zero at this point, no need to check int offset = 0; int len = data.length(); if (!mCheckContent) { writeRaw(data, offset, len); return -1; } int ptr = mOutputPtr; while (len > 0) { int max = mOutputBuffer.length - ptr; if (max < 1) { // output buffer full? mOutputPtr = ptr; flushBuffer(); ptr = 0; max = mOutputBuffer.length; } // How much can we output? if (max > len) { max = len; } for (int inEnd = offset + max; offset < inEnd; ++offset) { int c = data.charAt(offset); if (c < 32) { if (c == '\n') { // !!! TBI: line nr } else if (c == '\r') { // !!! TBI: line nr (and skipping \n that may follow) } else if (c != '\t') { mOutputPtr = ptr; c = handleInvalidChar(c); } } else if (c > 0x7E) { if (c > 0xFF) { mOutputPtr = ptr; handleInvalidLatinChar(c); } else if (mXml11) { if (c < 0x9F && c != 0x85) { mOutputPtr = ptr; c = handleInvalidChar(c); } } } else if (c == '>') { // enclosed end marker ("?>")? if (offset > 0 && data.charAt(offset-1) == '?') { return offset-2; } } mOutputBuffer[ptr++] = (byte) c; } len -= max; } mOutputPtr = ptr; return -1; } protected void writeTextContent(String data) throws IOException { int offset = 0; int len = data.length(); main_loop: while (len > 0) { int max = mOutputBuffer.length - mOutputPtr; if (max < 1) { // output buffer full? flushBuffer(); max = mOutputBuffer.length; } // Do we start with a surrogate? if (mSurrogate != 0) { int sec = data.charAt(offset++); sec = calcSurrogate(sec); writeAsEntity(sec); --len; continue main_loop; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = data.charAt(offset++); if (c < 32) { if (c == '\n' || c == '\t') { // TODO: line count mOutputBuffer[mOutputPtr++] = (byte) c; continue; } else if (c == '\r') { if (!mEscapeCR) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; } } else if (!mXml11 || c == 0) { // ok in xml1.1, as entity if (mCheckContent) { c = handleInvalidChar(c); mOutputBuffer[mOutputPtr++] = (byte) c; continue; } // otherwise... well, I guess we can just escape it } // \r, or xml1.1 + other whitespace, need to escape } else if (c < 0x7F) { if (c != '<' && c != '&') { if (c != '>' || (offset > 1 && data.charAt(offset-2) != ']')) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; } } // otherwise fall back on quoting } else if (c > 0x9F && c <= 0xFF) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; // [WSTX-88] } else { // Surrogate? if (c >= SURR1_FIRST && c <= SURR2_LAST) { mSurrogate = c; // Last char needs special handling: if (offset == inEnd) { break inner_loop; } c = calcSurrogate(data.charAt(offset++)); // Let's fall down to entity output } } /* Has to be escaped as char entity; as such, also need * to re-calc max. continguous data we can output */ writeAsEntity(c); len = data.length() - offset; continue main_loop; } len -= max; } } protected void writeTextContent(char[] cbuf, int offset, int len) throws IOException { main_loop: while (len > 0) { int max = mOutputBuffer.length - mOutputPtr; if (max < 1) { // output buffer full? flushBuffer(); max = mOutputBuffer.length; } // Do we start with a surrogate? if (mSurrogate != 0) { int sec = cbuf[offset++]; sec = calcSurrogate(sec); writeAsEntity(sec); --len; continue main_loop; } // How much can we output? if (max > len) { max = len; } inner_loop: for (int inEnd = offset + max; offset < inEnd; ) { int c = cbuf[offset++]; if (c < 32) { if (c == '\n' || c == '\t') { // TODO: line count mOutputBuffer[mOutputPtr++] = (byte) c; continue; } else if (c == '\r') { if (!mEscapeCR) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; } } else if (!mXml11 || c == 0) { // ok in xml1.1, as entity if (mCheckContent) { c = handleInvalidChar(c); mOutputBuffer[mOutputPtr++] = (byte) c; continue; } // otherwise... well, I guess we can just escape it } // \r, or xml1.1 + other whitespace, need to escape } else if (c < 0x7F) { if (c !='<' && c != '&') { /* Since we can be conservative, it doesn't matter * if second check is not exact */ if (c != '>' || (offset > 1 && cbuf[offset-2] != ']')) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; } } // otherwise fall back on quoting } else if (c > 0x9F && c <= 0xFF) { mOutputBuffer[mOutputPtr++] = (byte) c; continue; // [WSTX-88] } else { // Surrogate? if (c >= SURR1_FIRST && c <= SURR2_LAST) { mSurrogate = c; // Last char needs special handling: if (offset == inEnd) { break inner_loop; } c = calcSurrogate(cbuf[offset++]); // Let's fall down to entity output } } /* Has to be escaped as char entity; as such, also need * to re-calc max. continguous data we can output */ writeAsEntity(c); max -= (inEnd - offset); break inner_loop; } len -= max; } } /* //////////////////////////////////////////////////// // Internal methods //////////////////////////////////////////////////// */ protected void handleInvalidLatinChar(int c) throws IOException { // First, let's flush any output we may have, to make debugging easier flush(); /* 17-May-2006, TSa: Would really be useful if we could throw * XMLStreamExceptions; esp. to indicate actual output location. * However, this causes problem with methods that call us and * can only throw IOExceptions (when invoked via Writer proxy). * Need to figure out how to resolve this. */ throw new IOException("Invalid XML character (0x"+Integer.toHexString(c)+"); can only be output using character entity when using ISO-8859-1 encoding"); } }





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