org.jsoup.parser.TokenQueue Maven / Gradle / Ivy
package org.jsoup.parser;
import org.jsoup.internal.StringUtil;
import org.jsoup.helper.Validate;
/**
* A character queue with parsing helpers.
*
* @author Jonathan Hedley
*/
public class TokenQueue {
private String queue;
private int pos = 0;
private static final char ESC = '\\'; // escape char for chomp balanced.
/**
Create a new TokenQueue.
@param data string of data to back queue.
*/
public TokenQueue(String data) {
Validate.notNull(data);
queue = data;
}
/**
* Is the queue empty?
* @return true if no data left in queue.
*/
public boolean isEmpty() {
return remainingLength() == 0;
}
private int remainingLength() {
return queue.length() - pos;
}
/**
Add a string to the start of the queue.
@param seq string to add.
*/
public void addFirst(String seq) {
// not very performant, but an edge case
queue = seq + queue.substring(pos);
pos = 0;
}
/**
* Tests if the next characters on the queue match the sequence. Case insensitive.
* @param seq String to check queue for.
* @return true if the next characters match.
*/
public boolean matches(String seq) {
return queue.regionMatches(true, pos, seq, 0, seq.length());
}
/**
Tests if the next characters match any of the sequences. Case insensitive.
@param seq list of strings to case insensitively check for
@return true of any matched, false if none did
*/
public boolean matchesAny(String... seq) {
for (String s : seq) {
if (matches(s))
return true;
}
return false;
}
public boolean matchesAny(char... seq) {
if (isEmpty())
return false;
for (char c: seq) {
if (queue.charAt(pos) == c)
return true;
}
return false;
}
/**
* Tests if the queue matches the sequence (as with match), and if they do, removes the matched string from the
* queue.
* @param seq String to search for, and if found, remove from queue.
* @return true if found and removed, false if not found.
*/
public boolean matchChomp(String seq) {
if (matches(seq)) {
pos += seq.length();
return true;
} else {
return false;
}
}
/**
Tests if queue starts with a whitespace character.
@return if starts with whitespace
*/
public boolean matchesWhitespace() {
return !isEmpty() && StringUtil.isWhitespace(queue.charAt(pos));
}
/**
Test if the queue matches a word character (letter or digit).
@return if matches a word character
*/
public boolean matchesWord() {
return !isEmpty() && Character.isLetterOrDigit(queue.charAt(pos));
}
/**
* Drops the next character off the queue.
*/
public void advance() {
if (!isEmpty()) pos++;
}
/**
* Consume one character off queue.
* @return first character on queue.
*/
public char consume() {
return queue.charAt(pos++);
}
/**
* Consumes the supplied sequence of the queue. If the queue does not start with the supplied sequence, will
* throw an illegal state exception -- but you should be running match() against that condition.
Case insensitive.
* @param seq sequence to remove from head of queue.
*/
public void consume(String seq) {
if (!matches(seq))
throw new IllegalStateException("Queue did not match expected sequence");
int len = seq.length();
if (len > remainingLength())
throw new IllegalStateException("Queue not long enough to consume sequence");
pos += len;
}
/**
* Pulls a string off the queue, up to but exclusive of the match sequence, or to the queue running out.
* @param seq String to end on (and not include in return, but leave on queue). Case sensitive.
* @return The matched data consumed from queue.
*/
public String consumeTo(String seq) {
int offset = queue.indexOf(seq, pos);
if (offset != -1) {
String consumed = queue.substring(pos, offset);
pos += consumed.length();
return consumed;
} else {
return remainder();
}
}
public String consumeToIgnoreCase(String seq) {
int start = pos;
String first = seq.substring(0, 1);
boolean canScan = first.toLowerCase().equals(first.toUpperCase()); // if first is not cased, use index of
while (!isEmpty()) {
if (matches(seq))
break;
if (canScan) {
int skip = queue.indexOf(first, pos) - pos;
if (skip == 0) // this char is the skip char, but not match, so force advance of pos
pos++;
else if (skip < 0) // no chance of finding, grab to end
pos = queue.length();
else
pos += skip;
}
else
pos++;
}
return queue.substring(start, pos);
}
/**
Consumes to the first sequence provided, or to the end of the queue. Leaves the terminator on the queue.
@param seq any number of terminators to consume to. Case insensitive.
@return consumed string
*/
// todo: method name. not good that consumeTo cares for case, and consume to any doesn't. And the only use for this
// is a case sensitive time...
public String consumeToAny(String... seq) {
int start = pos;
while (!isEmpty() && !matchesAny(seq)) {
pos++;
}
return queue.substring(start, pos);
}
/**
* Pulls a string off the queue (like consumeTo), and then pulls off the matched string (but does not return it).
*
* If the queue runs out of characters before finding the seq, will return as much as it can (and queue will go
* isEmpty() == true).
* @param seq String to match up to, and not include in return, and to pull off queue. Case sensitive.
* @return Data matched from queue.
*/
public String chompTo(String seq) {
String data = consumeTo(seq);
matchChomp(seq);
return data;
}
public String chompToIgnoreCase(String seq) {
String data = consumeToIgnoreCase(seq); // case insensitive scan
matchChomp(seq);
return data;
}
/**
* Pulls a balanced string off the queue. E.g. if queue is "(one (two) three) four", (,) will return "one (two) three",
* and leave " four" on the queue. Unbalanced openers and closers can be quoted (with ' or ") or escaped (with \). Those escapes will be left
* in the returned string, which is suitable for regexes (where we need to preserve the escape), but unsuitable for
* contains text strings; use unescape for that.
* @param open opener
* @param close closer
* @return data matched from the queue
*/
public String chompBalanced(char open, char close) {
int start = -1;
int end = -1;
int depth = 0;
char last = 0;
boolean inSingleQuote = false;
boolean inDoubleQuote = false;
boolean inRegexQE = false; // regex \Q .. \E escapes from Pattern.quote()
do {
if (isEmpty()) break;
char c = consume();
if (last != ESC) {
if (c == '\'' && c != open && !inDoubleQuote)
inSingleQuote = !inSingleQuote;
else if (c == '"' && c != open && !inSingleQuote)
inDoubleQuote = !inDoubleQuote;
if (inSingleQuote || inDoubleQuote || inRegexQE){
last = c;
continue;
}
if (c == open) {
depth++;
if (start == -1)
start = pos;
}
else if (c == close)
depth--;
} else if (c == 'Q') {
inRegexQE = true;
} else if (c == 'E') {
inRegexQE = false;
}
if (depth > 0 && last != 0)
end = pos; // don't include the outer match pair in the return
last = c;
} while (depth > 0);
final String out = (end >= 0) ? queue.substring(start, end) : "";
if (depth > 0) {// ran out of queue before seeing enough )
Validate.fail("Did not find balanced marker at '" + out + "'");
}
return out;
}
/**
* Unescape a \ escaped string.
* @param in backslash escaped string
* @return unescaped string
*/
public static String unescape(String in) {
StringBuilder out = StringUtil.borrowBuilder();
char last = 0;
for (char c : in.toCharArray()) {
if (c == ESC) {
if (last == ESC) {
out.append(c);
c = 0;
}
}
else
out.append(c);
last = c;
}
return StringUtil.releaseBuilder(out);
}
/*
Given a CSS identifier (such as a tag, ID, or class), escape any CSS special characters that would otherwise not be
valid in a selector.
*/
public static String escapeCssIdentifier(String in) {
StringBuilder out = StringUtil.borrowBuilder();
TokenQueue q = new TokenQueue(in);
while (!q.isEmpty()) {
if (q.matchesCssIdentifier(ElementSelectorChars)) {
out.append(q.consume());
} else {
out.append(ESC).append(q.consume());
}
}
return StringUtil.releaseBuilder(out);
}
/**
* Pulls the next run of whitespace characters of the queue.
* @return Whether consuming whitespace or not
*/
public boolean consumeWhitespace() {
boolean seen = false;
while (matchesWhitespace()) {
pos++;
seen = true;
}
return seen;
}
/**
* Retrieves the next run of word type (letter or digit) off the queue.
* @return String of word characters from queue, or empty string if none.
*/
public String consumeWord() {
int start = pos;
while (matchesWord())
pos++;
return queue.substring(start, pos);
}
/**
* Consume a CSS element selector (tag name, but | instead of : for namespaces (or *| for wildcard namespace), to not conflict with :pseudo selects).
*
* @return tag name
*/
public String consumeElementSelector() {
return consumeEscapedCssIdentifier(ElementSelectorChars);
}
private static final String[] ElementSelectorChars = {"*|", "|", "_", "-"};
/**
Consume a CSS identifier (ID or class) off the queue (letter, digit, -, _)
http://www.w3.org/TR/CSS2/syndata.html#value-def-identifier
@return identifier
*/
public String consumeCssIdentifier() {
return consumeEscapedCssIdentifier(CssIdentifierChars);
}
private static final String[] CssIdentifierChars = {"-", "_"};
private String consumeEscapedCssIdentifier(String... matches) {
int start = pos;
boolean escaped = false;
while (!isEmpty()) {
if (queue.charAt(pos) == ESC && remainingLength() >1 ) {
escaped = true;
pos+=2; // skip the escape and the escaped
} else if (matchesCssIdentifier(matches)) {
pos++;
} else {
break;
}
}
String consumed = queue.substring(start, pos);
return escaped ? unescape(consumed) : consumed;
}
private boolean matchesCssIdentifier(String... matches) {
return matchesWord() || matchesAny(matches);
}
/**
Consume and return whatever is left on the queue.
@return remained of queue.
*/
public String remainder() {
final String remainder = queue.substring(pos);
pos = queue.length();
return remainder;
}
@Override
public String toString() {
return queue.substring(pos);
}
}