-
WstxInputData
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CHAR_NULL: char
-
INT_NULL: char
-
CHAR_SPACE: char
-
INT_SPACE: char
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MAX_UNICODE_CHAR: int
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VALID_CHAR_COUNT: int
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NAME_CHAR_INVALID_B: byte
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NAME_CHAR_ALL_VALID_B: byte
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NAME_CHAR_VALID_NONFIRST_B: byte
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sCharValidity: byte[]
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static class initializer
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VALID_PUBID_CHAR_COUNT: int
-
sPubidValidity: byte[]
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PUBID_CHAR_VALID_B: byte
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static class initializer
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mXml11: boolean
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mInputBuffer: char[]
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mInputPtr: int
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mInputEnd: int
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mCurrInputProcessed: long
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mCurrInputRow: int
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mCurrInputRowStart: int
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WstxInputData(): void
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copyBufferStateFrom(WstxInputData): void
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isNameStartChar(char): boolean
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isNameChar(char): boolean
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isNameStartChar(char, boolean, boolean): boolean
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isNameChar(char, boolean, boolean): boolean
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findIllegalNameChar(String, boolean, boolean): int
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findIllegalNmtokenChar(String, boolean, boolean): int
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isSpaceChar(char): boolean
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getCharDesc(char): String
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/* Woodstox XML processor
*
* Copyright (c) 2004 Tatu Saloranta, tatu.saloranta@iki.fi
*
* 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.io;
import com.ctc.wstx.util.XmlChars;
Base class used by readers (specifically, by StreamScanner, and its sub-classes) to encapsulate input buffer portion of the class. Philosophically this should probably be done via containment (composition), not sub-classing but for performance reason, this "core" class is generally extended from instead.
Main reason for the input data portion to be factored out of main
class is that this way it can also be passed to nested input handling
Objects, which can then manipulate input buffers of the caller,
efficiently.
/**
* Base class used by readers (specifically, by
* {@link com.ctc.wstx.sr.StreamScanner}, and its sub-classes)
* to encapsulate input buffer portion of the class. Philosophically
* this should probably be done via containment (composition), not
* sub-classing but for performance reason, this "core" class is generally
* extended from instead.
*<p>
* Main reason for the input data portion to be factored out of main
* class is that this way it can also be passed to nested input handling
* Objects, which can then manipulate input buffers of the caller,
* efficiently.
*/
public class WstxInputData
{
// // // Some well-known chars:
Null-character is used as return value from some method(s), since
it is not a legal character in an XML document.
/**
* Null-character is used as return value from some method(s), since
* it is not a legal character in an XML document.
*/
public final static char CHAR_NULL = '\u0000';
public final static char INT_NULL = 0;
public final static char CHAR_SPACE = (char) 0x0020;
public final static char INT_SPACE = 0x0020;
This constant defines the highest Unicode character allowed
in XML content.
/**
* This constant defines the highest Unicode character allowed
* in XML content.
*/
public final static int MAX_UNICODE_CHAR = 0x10FFFF;
/*
////////////////////////////////////////////////////
// Character validity constants, structs
////////////////////////////////////////////////////
*/
We will only use validity array for first 256 characters, mostly
because after those characters it's easier to do fairly simple
block checks.
/**
* We will only use validity array for first 256 characters, mostly
* because after those characters it's easier to do fairly simple
* block checks.
*/
private final static int VALID_CHAR_COUNT = 0x100;
// These are the same for both 1.0 and 1.1...
// private final static int FIRST_VALID_FOR_FIRST = 0x0041; // 'A'
// private final static int FIRST_VALID_FOR_REST = 0x002D; // '.'
private final static byte NAME_CHAR_INVALID_B = (byte) 0;
private final static byte NAME_CHAR_ALL_VALID_B = (byte) 1;
private final static byte NAME_CHAR_VALID_NONFIRST_B = (byte) -1;
private final static byte[] sCharValidity = new byte[VALID_CHAR_COUNT];
static {
/* First, since all valid-as-first chars are also valid-as-other chars,
* we'll initialize common chars:
*/
sCharValidity['_'] = NAME_CHAR_ALL_VALID_B;
for (int i = 0, last = ('z' - 'a'); i <= last; ++i) {
sCharValidity['A' + i] = NAME_CHAR_ALL_VALID_B;
sCharValidity['a' + i] = NAME_CHAR_ALL_VALID_B;
}
// not all are fully valid, but
for (int i = 0xC0; i < VALID_CHAR_COUNT; ++i) {
sCharValidity[i] = NAME_CHAR_ALL_VALID_B;
}
// ... now we can 'revert' ones not fully valid:
sCharValidity[0xD7] = NAME_CHAR_INVALID_B;
sCharValidity[0xF7] = NAME_CHAR_INVALID_B;
/* And then we can proceed with ones only valid-as-other.
*/
sCharValidity['-'] = NAME_CHAR_VALID_NONFIRST_B;
sCharValidity['.'] = NAME_CHAR_VALID_NONFIRST_B;
sCharValidity[0xB7] = NAME_CHAR_VALID_NONFIRST_B;
for (int i = '0'; i <= '9'; ++i) {
sCharValidity[i] = NAME_CHAR_VALID_NONFIRST_B;
}
}
Public identifiers only use 7-bit ascii range.
/**
* Public identifiers only use 7-bit ascii range.
*/
private final static int VALID_PUBID_CHAR_COUNT = 0x80;
private final static byte[] sPubidValidity = new byte[VALID_PUBID_CHAR_COUNT];
// private final static byte PUBID_CHAR_INVALID_B = (byte) 0;
private final static byte PUBID_CHAR_VALID_B = (byte) 1;
static {
for (int i = 0, last = ('z' - 'a'); i <= last; ++i) {
sPubidValidity['A' + i] = PUBID_CHAR_VALID_B;
sPubidValidity['a' + i] = PUBID_CHAR_VALID_B;
}
for (int i = '0'; i <= '9'; ++i) {
sPubidValidity[i] = PUBID_CHAR_VALID_B;
}
// 3 main white space types are valid
sPubidValidity[0x0A] = PUBID_CHAR_VALID_B;
sPubidValidity[0x0D] = PUBID_CHAR_VALID_B;
sPubidValidity[0x20] = PUBID_CHAR_VALID_B;
// And many of punctuation/separator ascii chars too:
sPubidValidity['-'] = PUBID_CHAR_VALID_B;
sPubidValidity['\''] = PUBID_CHAR_VALID_B;
sPubidValidity['('] = PUBID_CHAR_VALID_B;
sPubidValidity[')'] = PUBID_CHAR_VALID_B;
sPubidValidity['+'] = PUBID_CHAR_VALID_B;
sPubidValidity[','] = PUBID_CHAR_VALID_B;
sPubidValidity['.'] = PUBID_CHAR_VALID_B;
sPubidValidity['/'] = PUBID_CHAR_VALID_B;
sPubidValidity[':'] = PUBID_CHAR_VALID_B;
sPubidValidity['='] = PUBID_CHAR_VALID_B;
sPubidValidity['?'] = PUBID_CHAR_VALID_B;
sPubidValidity[';'] = PUBID_CHAR_VALID_B;
sPubidValidity['!'] = PUBID_CHAR_VALID_B;
sPubidValidity['*'] = PUBID_CHAR_VALID_B;
sPubidValidity['#'] = PUBID_CHAR_VALID_B;
sPubidValidity['@'] = PUBID_CHAR_VALID_B;
sPubidValidity['$'] = PUBID_CHAR_VALID_B;
sPubidValidity['_'] = PUBID_CHAR_VALID_B;
sPubidValidity['%'] = PUBID_CHAR_VALID_B;
}
/*
////////////////////////////////////////////////////
// Configuration
////////////////////////////////////////////////////
*/
Flag that indicates whether XML content is to be treated as per
XML 1.1 specification or not (if not, it'll use xml 1.0).
/**
* Flag that indicates whether XML content is to be treated as per
* XML 1.1 specification or not (if not, it'll use xml 1.0).
*/
protected boolean mXml11 = false;
/*
////////////////////////////////////////////////////
// Current input data
////////////////////////////////////////////////////
*/
Current buffer from which data is read; generally data is read into
buffer from input source, but not always (especially when using nested
input contexts when expanding parsed entity references etc).
/**
* Current buffer from which data is read; generally data is read into
* buffer from input source, but not always (especially when using nested
* input contexts when expanding parsed entity references etc).
*/
protected char[] mInputBuffer;
Pointer to next available character in buffer
/**
* Pointer to next available character in buffer
*/
protected int mInputPtr = 0;
Index of character after last available one in the buffer.
/**
* Index of character after last available one in the buffer.
*/
protected int mInputEnd = 0;
/*
////////////////////////////////////////////////////
// Current input location information
////////////////////////////////////////////////////
*/
Number of characters that were contained in previous blocks
(blocks that were already processed prior to the current buffer).
/**
* Number of characters that were contained in previous blocks
* (blocks that were already processed prior to the current buffer).
*/
protected long mCurrInputProcessed = 0L;
Current row location of current point in input buffer, starting
from 1
/**
* Current row location of current point in input buffer, starting
* from 1
*/
protected int mCurrInputRow = 1;
Current index of the first character of the current row in input
buffer. Needed to calculate column position, if necessary; benefit
of not having column itself is that this only has to be updated
once per line.
/**
* Current index of the first character of the current row in input
* buffer. Needed to calculate column position, if necessary; benefit
* of not having column itself is that this only has to be updated
* once per line.
*/
protected int mCurrInputRowStart = 0;
/*
////////////////////////////////////////////////////
// Life-cycle
////////////////////////////////////////////////////
*/
protected WstxInputData() {
}
Note: Only public due to sub-classes needing to call this on
base class instance from different package (confusing?)
/**
* Note: Only public due to sub-classes needing to call this on
* base class instance from different package (confusing?)
*/
public void copyBufferStateFrom(WstxInputData src)
{
mInputBuffer = src.mInputBuffer;
mInputPtr = src.mInputPtr;
mInputEnd = src.mInputEnd;
mCurrInputProcessed = src.mCurrInputProcessed;
mCurrInputRow = src.mCurrInputRow;
mCurrInputRowStart = src.mCurrInputRowStart;
}
/*
////////////////////////////////////////////////////
// Public/package API, character classes
////////////////////////////////////////////////////
*/
Method that can be used to check whether specified character
is a valid first character of an XML 1.0/1.1 name; except that
colon (:) is not recognized as a start char here: caller has
to verify it separately (since it generally affects namespace
mapping of a qualified name).
/**
* Method that can be used to check whether specified character
* is a valid first character of an XML 1.0/1.1 name; except that
* colon (:) is not recognized as a start char here: caller has
* to verify it separately (since it generally affects namespace
* mapping of a qualified name).
*/
protected final boolean isNameStartChar(char c)
{
/* First, let's handle 7-bit ascii range (identical between xml
* 1.0 and 1.1)
*/
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
return true;
}
if (c < 0x41) { // before 'A' just white space
return false;
}
return (c <= 0x5A) || (c == '_'); // 'A' - 'Z' and '_' are ok
}
/* Ok, otherwise need to use a big honking bit sets... which
* differ between 1.0 and 1.1
*/
return mXml11 ? XmlChars.is11NameStartChar(c) : XmlChars.is10NameStartChar(c);
}
Method that can be used to check whether specified character
is a valid character of an XML 1.0/1.1 name as any other char than
the first one; except that colon (:) is not recognized as valid here:
caller has to verify it separately (since it generally affects namespace
mapping of a qualified name).
/**
* Method that can be used to check whether specified character
* is a valid character of an XML 1.0/1.1 name as any other char than
* the first one; except that colon (:) is not recognized as valid here:
* caller has to verify it separately (since it generally affects namespace
* mapping of a qualified name).
*/
protected final boolean isNameChar(char c)
{
// First, let's handle 7-bit ascii range
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
return true;
}
if (c <= 0x5A) {
if (c >= 0x41) { // 'A' - 'Z' ok too
return true;
}
// As are 0-9, '.' and '-'
return (c >= 0x30 && c <= 0x39) || (c == '.') || (c == '-');
}
return (c == 0x5F); // '_' is ok too
}
return mXml11 ? XmlChars.is11NameChar(c) : XmlChars.is10NameChar(c);
}
public final static boolean isNameStartChar(char c, boolean nsAware, boolean xml11)
{
/* First, let's handle 7-bit ascii range (identical between xml
* 1.0 and 1.1)
*/
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
return true;
}
if (c < 0x41) { // before 'A' just white space (and colon)
if (c == ':' && !nsAware) {
return true;
}
return false;
}
return (c <= 0x5A) || (c == '_'); // 'A' - 'Z' and '_' are ok
}
/* Ok, otherwise need to use a big honking bit sets... which
* differ between 1.0 and 1.1
*/
return xml11 ? XmlChars.is11NameStartChar(c) : XmlChars.is10NameStartChar(c);
}
public final static boolean isNameChar(char c, boolean nsAware, boolean xml11)
{
// First, let's handle 7-bit ascii range
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
return true;
}
if (c <= 0x5A) {
if (c >= 0x41) { // 'A' - 'Z' ok too
return true;
}
// As are 0-9, '.' and '-'
return (c >= 0x30 && c <= 0x39) || (c == '.') || (c == '-')
|| (c == ':' && !nsAware);
}
return (c == 0x5F); // '_' is ok too
}
return xml11 ? XmlChars.is11NameChar(c) : XmlChars.is10NameChar(c);
}
Method that can be called to check whether given String contains
any characters that are not legal XML names.
Returns: Index of the first illegal xml name characters, if any;
-1 if the name is completely legal
/**
* Method that can be called to check whether given String contains
* any characters that are not legal XML names.
*
* @return Index of the first illegal xml name characters, if any;
* -1 if the name is completely legal
*/
public final static int findIllegalNameChar(String name, boolean nsAware, boolean xml11)
{
int len = name.length();
if (len < 1) {
return -1;
}
char c = name.charAt(0);
// First char legal?
if (c <= 0x7A) { // 'z' or earlier
if (c < 0x61) { // 'a' - 'z' (0x61 - 0x7A) are ok
if (c < 0x41) { // before 'A' just white space (except colon)
if (c != ':' || nsAware) { // ':' == 0x3A
return 0;
}
} else if ((c > 0x5A) && (c != '_')) {
// 'A' - 'Z' and '_' are ok
return 0;
}
}
} else {
if (xml11) {
if (!XmlChars.is11NameStartChar(c)) {
return 0;
}
} else {
if (!XmlChars.is10NameStartChar(c)) {
return 0;
}
}
}
for (int i = 1; i < len; ++i) {
c = name.charAt(i);
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
continue;
}
if (c <= 0x5A) {
if (c >= 0x41) { // 'A' - 'Z' ok too
continue;
}
// As are 0-9, '.' and '-'
if ((c >= 0x30 && c <= 0x39) || (c == '.') || (c == '-')) {
continue;
}
// And finally, colon, in non-ns-aware mode
if (c == ':' && !nsAware) { // ':' == 0x3A
continue;
}
} else if (c == 0x5F) { // '_' is ok too
continue;
}
} else {
if (xml11) {
if (XmlChars.is11NameChar(c)) {
continue;
}
} else {
if (XmlChars.is10NameChar(c)) {
continue;
}
}
}
return i;
}
return -1;
}
public final static int findIllegalNmtokenChar(String nmtoken, boolean nsAware, boolean xml11)
{
int len = nmtoken.length();
// No special handling for the first char, just the loop
for (int i = 1; i < len; ++i) {
char c = nmtoken.charAt(i);
if (c <= 0x7A) { // 'z' or earlier
if (c >= 0x61) { // 'a' - 'z' are ok
continue;
}
if (c <= 0x5A) {
if (c >= 0x41) { // 'A' - 'Z' ok too
continue;
}
// As are 0-9, '.' and '-'
if ((c >= 0x30 && c <= 0x39) || (c == '.') || (c == '-')) {
continue;
}
// And finally, colon, in non-ns-aware mode
if (c == ':' && !nsAware) { // ':' == 0x3A
continue;
}
} else if (c == 0x5F) { // '_' is ok too
continue;
}
} else {
if (xml11) {
if (XmlChars.is11NameChar(c)) {
continue;
}
} else {
if (XmlChars.is10NameChar(c)) {
continue;
}
}
}
return i;
}
return -1;
}
public final static boolean isSpaceChar(char c)
{
return (c <= CHAR_SPACE);
}
@SuppressWarnings("cast")
public static String getCharDesc(char c)
{
int i = (int) c;
if (Character.isISOControl(c)) {
return "(CTRL-CHAR, code "+i+")";
}
if (i > 255) {
return "'"+c+"' (code "+i+" / 0x"+Integer.toHexString(i)+")";
}
return "'"+c+"' (code "+i+")";
}
}