/*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/**
* A simple text scanner which can parse primitive types and strings using
* regular expressions.
*
* <p>A <code>Scanner</code> breaks its input into tokens using a
* delimiter pattern, which by default matches whitespace. The resulting
* tokens may then be converted into values of different types using the
* various <tt>next</tt> methods.
*
* <p>For example, this code allows a user to read a number from
* <tt>System.in</tt>:
* <blockquote><pre>
* Scanner sc = new Scanner(System.in);
* int i = sc.nextInt();
* </pre></blockquote>
*
* <p>As another example, this code allows <code>long</code> types to be
* assigned from entries in a file <code>myNumbers</code>:
* <blockquote><pre>
* Scanner sc = new Scanner(new File("myNumbers"));
* while (sc.hasNextLong()) {
* long aLong = sc.nextLong();
* }</pre></blockquote>
*
* <p>The scanner can also use delimiters other than whitespace. This
* example reads several items in from a string:
*<blockquote><pre>
* String input = "1 fish 2 fish red fish blue fish";
* Scanner s = new Scanner(input).useDelimiter("\\s*fish\\s*");
* System.out.println(s.nextInt());
* System.out.println(s.nextInt());
* System.out.println(s.next());
* System.out.println(s.next());
* s.close(); </pre></blockquote>
* <p>
* prints the following output:
* <blockquote><pre>
* 1
* 2
* red
* blue </pre></blockquote>
*
* <p>The same output can be generated with this code, which uses a regular
* expression to parse all four tokens at once:
*<blockquote><pre>
* String input = "1 fish 2 fish red fish blue fish";
* Scanner s = new Scanner(input);
* s.findInLine("(\\d+) fish (\\d+) fish (\\w+) fish (\\w+)");
* MatchResult result = s.match();
* for (int i=1; i<=result.groupCount(); i++)
* System.out.println(result.group(i));
* s.close(); </pre></blockquote>
*
* <p>The <a name="default-delimiter">default whitespace delimiter</a> used
* by a scanner is as recognized by {@link java.lang.Character}.{@link
* java.lang.Character#isWhitespace(char) isWhitespace}. The {@link #reset}
* method will reset the value of the scanner's delimiter to the default
* whitespace delimiter regardless of whether it was previously changed.
*
* <p>A scanning operation may block waiting for input.
*
* <p>The {@link #next} and {@link #hasNext} methods and their
* primitive-type companion methods (such as {@link #nextInt} and
* {@link #hasNextInt}) first skip any input that matches the delimiter
* pattern, and then attempt to return the next token. Both <tt>hasNext</tt>
* and <tt>next</tt> methods may block waiting for further input. Whether a
* <tt>hasNext</tt> method blocks has no connection to whether or not its
* associated <tt>next</tt> method will block.
*
* <p> The {@link #findInLine}, {@link #findWithinHorizon}, and {@link #skip}
* methods operate independently of the delimiter pattern. These methods will
* attempt to match the specified pattern with no regard to delimiters in the
* input and thus can be used in special circumstances where delimiters are
* not relevant. These methods may block waiting for more input.
*
* <p>When a scanner throws an {@link InputMismatchException}, the scanner
* will not pass the token that caused the exception, so that it may be
* retrieved or skipped via some other method.
*
* <p>Depending upon the type of delimiting pattern, empty tokens may be
* returned. For example, the pattern <tt>"\\s+"</tt> will return no empty
* tokens since it matches multiple instances of the delimiter. The delimiting
* pattern <tt>"\\s"</tt> could return empty tokens since it only passes one
* space at a time.
*
* <p> A scanner can read text from any object which implements the {@link
* java.lang.Readable} interface. If an invocation of the underlying
* readable's {@link java.lang.Readable#read} method throws an {@link
* java.io.IOException} then the scanner assumes that the end of the input
* has been reached. The most recent <tt>IOException</tt> thrown by the
* underlying readable can be retrieved via the {@link #ioException} method.
*
* <p>When a <code>Scanner</code> is closed, it will close its input source
* if the source implements the {@link java.io.Closeable} interface.
*
* <p>A <code>Scanner</code> is not safe for multithreaded use without
* external synchronization.
*
* <p>Unless otherwise mentioned, passing a <code>null</code> parameter into
* any method of a <code>Scanner</code> will cause a
* <code>NullPointerException</code> to be thrown.
*
* <p>A scanner will default to interpreting numbers as decimal unless a
* different radix has been set by using the {@link #useRadix} method. The
* {@link #reset} method will reset the value of the scanner's radix to
* <code>10</code> regardless of whether it was previously changed.
*
* <a name="localized-numbers">
* <h4> Localized numbers </h4>
*
* <p> An instance of this class is capable of scanning numbers in the standard
* formats as well as in the formats of the scanner's locale. A scanner's
* <a name="initial-locale">initial locale </a>is the value returned by the {@link
* java.util.Locale#getDefault} method; it may be changed via the {@link
* #useLocale} method. The {@link #reset} method will reset the value of the
* scanner's locale to the initial locale regardless of whether it was
* previously changed.
*
* <p>The localized formats are defined in terms of the following parameters,
* which for a particular locale are taken from that locale's {@link
* java.text.DecimalFormat DecimalFormat} object, <tt>df</tt>, and its and
* {@link java.text.DecimalFormatSymbols DecimalFormatSymbols} object,
* <tt>dfs</tt>.
*
* <blockquote><table>
* <tr><td valign="top"><i>LocalGroupSeparator </i></td>
* <td valign="top">The character used to separate thousands groups,
* <i>i.e.,</i> <tt>dfs.</tt>{@link
* java.text.DecimalFormatSymbols#getGroupingSeparator
* getGroupingSeparator()}</td></tr>
* <tr><td valign="top"><i>LocalDecimalSeparator </i></td>
* <td valign="top">The character used for the decimal point,
* <i>i.e.,</i> <tt>dfs.</tt>{@link
* java.text.DecimalFormatSymbols#getDecimalSeparator
* getDecimalSeparator()}</td></tr>
* <tr><td valign="top"><i>LocalPositivePrefix </i></td>
* <td valign="top">The string that appears before a positive number (may
* be empty), <i>i.e.,</i> <tt>df.</tt>{@link
* java.text.DecimalFormat#getPositivePrefix
* getPositivePrefix()}</td></tr>
* <tr><td valign="top"><i>LocalPositiveSuffix </i></td>
* <td valign="top">The string that appears after a positive number (may be
* empty), <i>i.e.,</i> <tt>df.</tt>{@link
* java.text.DecimalFormat#getPositiveSuffix
* getPositiveSuffix()}</td></tr>
* <tr><td valign="top"><i>LocalNegativePrefix </i></td>
* <td valign="top">The string that appears before a negative number (may
* be empty), <i>i.e.,</i> <tt>df.</tt>{@link
* java.text.DecimalFormat#getNegativePrefix
* getNegativePrefix()}</td></tr>
* <tr><td valign="top"><i>LocalNegativeSuffix </i></td>
* <td valign="top">The string that appears after a negative number (may be
* empty), <i>i.e.,</i> <tt>df.</tt>{@link
* java.text.DecimalFormat#getNegativeSuffix
* getNegativeSuffix()}</td></tr>
* <tr><td valign="top"><i>LocalNaN </i></td>
* <td valign="top">The string that represents not-a-number for
* floating-point values,
* <i>i.e.,</i> <tt>dfs.</tt>{@link
* java.text.DecimalFormatSymbols#getNaN
* getNaN()}</td></tr>
* <tr><td valign="top"><i>LocalInfinity </i></td>
* <td valign="top">The string that represents infinity for floating-point
* values, <i>i.e.,</i> <tt>dfs.</tt>{@link
* java.text.DecimalFormatSymbols#getInfinity
* getInfinity()}</td></tr>
* </table></blockquote>
*
* <a name="number-syntax">
* <h4> Number syntax </h4>
*
* <p> The strings that can be parsed as numbers by an instance of this class
* are specified in terms of the following regular-expression grammar, where
* Rmax is the highest digit in the radix being used (for example, Rmax is 9
* in base 10).
*
* <p>
* <table cellspacing=0 cellpadding=0 align=center>
*
* <tr><td valign=top align=right><i>NonASCIIDigit</i> ::</td>
* <td valign=top>= A non-ASCII character c for which
* {@link java.lang.Character#isDigit Character.isDigit}<tt>(c)</tt>
* returns true</td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>Non0Digit</i> ::</td>
* <td><tt>= [1-</tt><i>Rmax</i><tt>] | </tt><i>NonASCIIDigit</i></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>Digit</i> ::</td>
* <td><tt>= [0-</tt><i>Rmax</i><tt>] | </tt><i>NonASCIIDigit</i></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td valign=top align=right><i>GroupedNumeral</i> ::</td>
* <td valign=top>
* <table cellpadding=0 cellspacing=0>
* <tr><td><tt>= ( </tt></td>
* <td><i>Non0Digit</i><tt>
* </tt><i>Digit</i><tt>?
* </tt><i>Digit</i><tt>?</tt></td></tr>
* <tr><td></td>
* <td><tt>( </tt><i>LocalGroupSeparator</i><tt>
* </tt><i>Digit</i><tt>
* </tt><i>Digit</i><tt>
* </tt><i>Digit</i><tt> )+ )</tt></td></tr>
* </table></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>Numeral</i> ::</td>
* <td><tt>= ( ( </tt><i>Digit</i><tt>+ )
* | </tt><i>GroupedNumeral</i><tt> )</tt></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td valign=top align=right>
* <a name="Integer-regex"><i>Integer</i> ::</td>
* <td valign=top><tt>= ( [-+]? ( </tt><i>Numeral</i><tt>
* ) )</tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalPositivePrefix</i><tt> </tt><i>Numeral</i><tt>
* </tt><i>LocalPositiveSuffix</i></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalNegativePrefix</i><tt> </tt><i>Numeral</i><tt>
* </tt><i>LocalNegativeSuffix</i></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>DecimalNumeral</i> ::</td>
* <td><tt>= </tt><i>Numeral</i></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>Numeral</i><tt>
* </tt><i>LocalDecimalSeparator</i><tt>
* </tt><i>Digit</i><tt>*</tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalDecimalSeparator</i><tt>
* </tt><i>Digit</i><tt>+</tt></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>Exponent</i> ::</td>
* <td><tt>= ( [eE] [+-]? </tt><i>Digit</i><tt>+ )</tt></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right>
* <a name="Decimal-regex"><i>Decimal</i> ::</td>
* <td><tt>= ( [-+]? </tt><i>DecimalNumeral</i><tt>
* </tt><i>Exponent</i><tt>? )</tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalPositivePrefix</i><tt>
* </tt><i>DecimalNumeral</i><tt>
* </tt><i>LocalPositiveSuffix</i>
* </tt><i>Exponent</i><tt>?</td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalNegativePrefix</i><tt>
* </tt><i>DecimalNumeral</i><tt>
* </tt><i>LocalNegativeSuffix</i>
* </tt><i>Exponent</i><tt>?</td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>HexFloat</i> ::</td>
* <td><tt>= [-+]? 0[xX][0-9a-fA-F]*\.[0-9a-fA-F]+
* ([pP][-+]?[0-9]+)?</tt></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>NonNumber</i> ::</td>
* <td valign=top><tt>= NaN
* | </tt><i>LocalNan</i><tt>
* | Infinity
* | </tt><i>LocalInfinity</i></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td align=right><i>SignedNonNumber</i> ::</td>
* <td><tt>= ( [-+]? </tt><i>NonNumber</i><tt> )</tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalPositivePrefix</i><tt>
* </tt><i>NonNumber</i><tt>
* </tt><i>LocalPositiveSuffix</i></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>LocalNegativePrefix</i><tt>
* </tt><i>NonNumber</i><tt>
* </tt><i>LocalNegativeSuffix</i></td></tr>
*
* <tr><td> </td></tr>
*
* <tr><td valign=top align=right>
* <a name="Float-regex"><i>Float</i> ::</td>
* <td valign=top><tt>= </tt><i>Decimal</i><tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>HexFloat</i><tt></td></tr>
* <tr><td></td>
* <td><tt>| </tt><i>SignedNonNumber</i><tt></td></tr>
*
* </table>
* </center>
*
* <p> Whitespace is not significant in the above regular expressions.
*
* @since 1.5
*/
// Internal buffer used to hold input
// Size of internal character buffer
// The index into the buffer currently held by the Scanner
private int position;
// Internal matcher used for finding delimiters
// Pattern used to delimit tokens
// Pattern found in last hasNext operation
// Position after last hasNext operation
private int hasNextPosition;
// Result after last hasNext operation
// The input source
// Boolean is true if source is done
private boolean sourceClosed = false;
// Boolean indicating more input is required
private boolean needInput = false;
// Boolean indicating if a delim has been skipped this operation
private boolean skipped = false;
// A store of a position that the scanner may fall back to
// A cache of the last primitive type scanned
// Boolean indicating if a match result is available
private boolean matchValid = false;
// Boolean indicating if this scanner has been closed
private boolean closed = false;
// The current radix used by this scanner
// The default radix for this scanner
// The locale used by this scanner
// A cache of the last few recently used Patterns
}
}
};
// A holder of the last IOException encountered
// A pattern for java whitespace
"\\p{javaWhitespace}+");
// A pattern for any token
// A pattern for non-ASCII digits
"[\\p{javaDigit}&&[^0-9]]");
// Fields and methods to support scanning primitive types
/**
* Locale dependent values used to scan numbers
*/
/**
* Fields and an accessor method to match booleans
*/
return bp;
}
/**
* Fields and methods to match bytes, shorts, ints, and longs
*/
// \\p{javaDigit} is not guaranteed to be appropriate
// here but what can we do? The final authority will be
// whatever parse method is invoked, so ultimately the
// Scanner will do the right thing
// digit++ is the possessive form which is necessary for reducing
// backtracking that would otherwise cause unacceptable performance
positiveInteger + ")|(" +
negativeInteger + ")";
}
if (integerPattern == null) {
}
return integerPattern;
}
/**
* Fields and an accessor method to match line separators
*/
"\r\n|[\n\r\u2028\u2029\u0085]";
return sp;
}
return lp;
}
/**
* Fields and methods to match floats and doubles
*/
private void buildFloatAndDecimalPattern() {
// \\p{javaDigit} may not be perfect, see above
// Once again digit++ is used for performance, as above
digit + "++)";
infinityString+")";
"[-+]?0[xX][0-9a-fA-F]*\\.[0-9a-fA-F]+([pP][-+]?[0-9]+)?";
positiveSuffix + ")";
negativeSuffix + ")";
positiveNonNumber + "|" +
negativeNonNumber + ")";
}
if (floatPattern == null) {
}
return floatPattern;
}
if (decimalPattern == null) {
}
return decimalPattern;
}
// Constructors
/**
* Constructs a <code>Scanner</code> that returns values scanned
* from the specified source delimited by the specified pattern.
*
* @param source A character source implementing the Readable interface
* @param pattern A delimiting pattern
* @return A scanner with the specified source and pattern
*/
matcher.useTransparentBounds(true);
matcher.useAnchoringBounds(false);
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified source.
*
* @param source A character source implementing the {@link Readable}
* interface
*/
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified input stream. Bytes from the stream are converted
* into characters using the underlying platform's
* {@linkplain java.nio.charset.Charset#defaultCharset() default charset}.
*
* @param source An input stream to be scanned
*/
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified input stream. Bytes from the stream are converted
* into characters using the specified charset.
*
* @param source An input stream to be scanned
* @param charsetName The encoding type used to convert bytes from the
* stream into characters to be scanned
* @throws IllegalArgumentException if the specified character set
* does not exist
*/
}
/**
* Returns a charset object for the given charset name.
* @throws NullPointerException is csn is null
* @throws IllegalArgumentException if the charset is not supported
*/
try {
} catch (IllegalCharsetNameException|UnsupportedCharsetException e) {
// IllegalArgumentException should be thrown
throw new IllegalArgumentException(e);
}
}
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified file. Bytes from the file are converted into
* characters using the underlying platform's
* {@linkplain java.nio.charset.Charset#defaultCharset() default charset}.
*
* @param source A file to be scanned
* @throws FileNotFoundException if source is not found
*/
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified file. Bytes from the file are converted into
* characters using the specified charset.
*
* @param source A file to be scanned
* @param charsetName The encoding type used to convert bytes from the file
* into characters to be scanned
* @throws FileNotFoundException if source is not found
* @throws IllegalArgumentException if the specified encoding is
* not found
*/
throws FileNotFoundException
{
}
throws FileNotFoundException
{
}
try {
throw new IllegalArgumentException(charsetName);
}
}
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified file. Bytes from the file are converted into
* characters using the underlying platform's
* {@linkplain java.nio.charset.Charset#defaultCharset() default charset}.
*
* @param source
* the path to the file to be scanned
* @throws IOException
* if an I/O error occurs opening source
*
* @since 1.7
*/
throws IOException
{
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified file. Bytes from the file are converted into
* characters using the specified charset.
*
* @param source
* the path to the file to be scanned
* @param charsetName
* The encoding type used to convert bytes from the file
* into characters to be scanned
* @throws IOException
* if an I/O error occurs opening source
* @throws IllegalArgumentException
* if the specified encoding is not found
* @since 1.7
*/
}
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified string.
*
* @param source A string to scan
*/
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified channel. Bytes from the source are converted into
* characters using the underlying platform's
* {@linkplain java.nio.charset.Charset#defaultCharset() default charset}.
*
* @param source A channel to scan
*/
}
}
/**
* Constructs a new <code>Scanner</code> that produces values scanned
* from the specified channel. Bytes from the source are converted into
* characters using the specified charset.
*
* @param source A channel to scan
* @param charsetName The encoding type used to convert bytes from the
* channel into characters to be scanned
* @throws IllegalArgumentException if the specified character set
* does not exist
*/
}
// Private primitives used to support scanning
private void saveState() {
}
private void revertState() {
this.position = savedScannerPosition;
savedScannerPosition = -1;
skipped = false;
}
private boolean revertState(boolean b) {
this.position = savedScannerPosition;
savedScannerPosition = -1;
skipped = false;
return b;
}
private void cacheResult() {
}
}
// Clears both regular cache and type cache
private void clearCaches() {
}
// Also clears both the regular cache and the type cache
return hasNextResult;
}
// Also clears both the regular cache and the type cache
private void useTypeCache() {
if (closed)
throw new IllegalStateException("Scanner closed");
}
// Tries to read more input. May block.
private void readInput() {
makeSpace();
// Prepare to receive data
int n = 0;
try {
} catch (IOException ioe) {
lastException = ioe;
n = -1;
}
if (n == -1) {
sourceClosed = true;
needInput = false;
}
if (n > 0)
needInput = false;
// Restore current position and limit for reading
}
// After this method is called there will either be an exception
// or else there will be space in the buffer
private boolean makeSpace() {
clearCaches();
// Gain space by compacting buffer
if (offset > 0) {
return true;
}
// Gain space by growing buffer
return true;
}
// When a buffer compaction/reallocation occurs the saved indexes must
// be modified appropriately
if (savedScannerPosition != -1)
}
// If we are at the end of input then NoSuchElement;
// If there is still input left then InputMismatch
private void throwFor() {
skipped = false;
throw new NoSuchElementException();
else
throw new InputMismatchException();
}
// Returns true if a complete token or partial token is in the buffer.
// It is not necessary to find a complete token since a partial token
// means that there will be another token with or without more input.
private boolean hasTokenInBuffer() {
matchValid = false;
// Skip delims first
// If we are sitting at the end, no more tokens in buffer
return false;
return true;
}
/*
* Returns a "complete token" that matches the specified pattern
*
* A token is complete if surrounded by delims; a partial token
* is prefixed by delims but not postfixed by them
*
* The position is advanced to the end of that complete token
*
* Pattern == null means accept any token at all
*
* Triple return:
* 1. valid string means it was found
* 2. null with needInput=false means we won't ever find it
* 3. null with needInput=true means try again after readInput
*/
matchValid = false;
// Skip delims first
if (!skipped) { // Enforcing only one skip of leading delims
// If more input could extend the delimiters then we must wait
// for more input
needInput = true;
return null;
}
// The delims were whole and the matcher should skip them
skipped = true;
}
}
// If we are sitting at the end, no more tokens in buffer
if (sourceClosed)
return null;
needInput = true;
return null;
}
// Must look for next delims. Simply attempting to match the
// pattern at this point may find a match but it might not be
// the first longest match because of missing input, or it might
// match a partial token instead of the whole thing.
// Then look for next delims
// Zero length delimiter match; we should find the next one
// using the automatic advance past a zero length match;
// Otherwise we have just found the same one we just skipped
}
if (foundNextDelim) {
// In the rare case that more input could cause the match
// to be lost and there is more input coming we must wait
// for more input. Note that hitting the end is okay as long
// as the match cannot go away. It is the beginning of the
// next delims we want to be sure about, we don't care if
// they potentially extend further.
needInput = true;
return null;
}
// There is a complete token.
// Must continue with match to provide valid MatchResult
}
// Attempt to match against the desired pattern
return s;
} else { // Complete token but it does not match
return null;
}
}
// If we can't find the next delims but no more input is coming,
// then we can treat the remainder as a whole token
if (sourceClosed) {
// Must continue with match to provide valid MatchResult
}
// Last token; Match the pattern here or throw
return s;
}
// Last piece does not match
return null;
}
// There is a partial token in the buffer; must read more
// to complete it
needInput = true;
return null;
}
// Finds the specified pattern in the buffer up to horizon.
// Returns a match for the specified input pattern.
matchValid = false;
int horizonLimit = -1;
int searchLimit = bufferLimit;
if (horizon > 0) {
if (horizonLimit < bufferLimit)
}
// The match may be longer if didn't hit horizon or real end
if (searchLimit != horizonLimit) {
// Hit an artificial end; try to extend the match
needInput = true;
return null;
}
// The match could go away depending on what is next
// Rare case: we hit the end of input and it happens
// that it is at the horizon and the end of input is
// required for the match.
needInput = true;
return null;
}
}
// Did not hit end, or hit real end, or hit horizon
}
if (sourceClosed)
return null;
// If there is no specified horizon, or if we have not searched
// to the specified horizon yet, get more input
needInput = true;
return null;
}
// Returns a match for the specified input pattern anchored at
// the current position
matchValid = false;
// Get more input and try again
needInput = true;
return null;
}
}
if (sourceClosed)
return null;
// Read more to find pattern
needInput = true;
return null;
}
// Throws if the scanner is closed
private void ensureOpen() {
if (closed)
throw new IllegalStateException("Scanner closed");
}
// Public methods
/**
* Closes this scanner.
*
* <p> If this scanner has not yet been closed then if its underlying
* {@linkplain java.lang.Readable readable} also implements the {@link
* java.io.Closeable} interface then the readable's <tt>close</tt> method
* will be invoked. If this scanner is already closed then invoking this
* method will have no effect.
*
* <p>Attempting to perform search operations after a scanner has
* been closed will result in an {@link IllegalStateException}.
*
*/
public void close() {
if (closed)
return;
try {
} catch (IOException ioe) {
lastException = ioe;
}
}
sourceClosed = true;
closed = true;
}
/**
* Returns the <code>IOException</code> last thrown by this
* <code>Scanner</code>'s underlying <code>Readable</code>. This method
* returns <code>null</code> if no such exception exists.
*
* @return the last exception thrown by this scanner's readable
*/
return lastException;
}
/**
* Returns the <code>Pattern</code> this <code>Scanner</code> is currently
* using to match delimiters.
*
* @return this scanner's delimiting pattern.
*/
return delimPattern;
}
/**
* Sets this scanner's delimiting pattern to the specified pattern.
*
* @param pattern A delimiting pattern
* @return this scanner
*/
return this;
}
/**
* Sets this scanner's delimiting pattern to a pattern constructed from
* the specified <code>String</code>.
*
* <p> An invocation of this method of the form
* <tt>useDelimiter(pattern)</tt> behaves in exactly the same way as the
* invocation <tt>useDelimiter(Pattern.compile(pattern))</tt>.
*
* <p> Invoking the {@link #reset} method will set the scanner's delimiter
* to the <a href= "#default-delimiter">default</a>.
*
* @param pattern A string specifying a delimiting pattern
* @return this scanner
*/
return this;
}
/**
* Returns this scanner's locale.
*
* <p>A scanner's locale affects many elements of its default
* primitive matching regular expressions; see
* <a href= "#localized-numbers">localized numbers</a> above.
*
* @return this scanner's locale
*/
return this.locale;
}
/**
* Sets this scanner's locale to the specified locale.
*
* <p>A scanner's locale affects many elements of its default
* primitive matching regular expressions; see
* <a href= "#localized-numbers">localized numbers</a> above.
*
* <p>Invoking the {@link #reset} method will set the scanner's locale to
* the <a href= "#initial-locale">initial locale</a>.
*
* @param locale A string specifying the locale to use
* @return this scanner
*/
return this;
// These must be literalized to avoid collision with regex
// metacharacters such as dot or parenthesis
// Quoting the nonzero length locale-specific things
// to avoid potential conflict with metacharacters
// Force rebuilding and recompilation of locale dependent
// primitive patterns
floatPattern = null;
return this;
}
/**
* Returns this scanner's default radix.
*
* <p>A scanner's radix affects elements of its default
* number matching regular expressions; see
* <a href= "#localized-numbers">localized numbers</a> above.
*
* @return the default radix of this scanner
*/
public int radix() {
return this.defaultRadix;
}
/**
* Sets this scanner's default radix to the specified radix.
*
* <p>A scanner's radix affects elements of its default
* number matching regular expressions; see
* <a href= "#localized-numbers">localized numbers</a> above.
*
* <p>If the radix is less than <code>Character.MIN_RADIX</code>
* or greater than <code>Character.MAX_RADIX</code>, then an
* <code>IllegalArgumentException</code> is thrown.
*
* <p>Invoking the {@link #reset} method will set the scanner's radix to
* <code>10</code>.
*
* @param radix The radix to use when scanning numbers
* @return this scanner
* @throws IllegalArgumentException if radix is out of range
*/
if (this.defaultRadix == radix)
return this;
this.defaultRadix = radix;
// Force rebuilding and recompilation of radix dependent patterns
return this;
}
// The next operation should occur in the specified radix but
// the default is left untouched.
// Force rebuilding and recompilation of radix dependent patterns
}
}
/**
* Returns the match result of the last scanning operation performed
* by this scanner. This method throws <code>IllegalStateException</code>
* if no match has been performed, or if the last match was
* not successful.
*
* <p>The various <code>next</code>methods of <code>Scanner</code>
* make a match result available if they complete without throwing an
* exception. For instance, after an invocation of the {@link #nextInt}
* method that returned an int, this method returns a
* <code>MatchResult</code> for the search of the
* <a href="#Integer-regex"><i>Integer</i></a> regular expression
* defined above. Similarly the {@link #findInLine},
* {@link #findWithinHorizon}, and {@link #skip} methods will make a
* match available if they succeed.
*
* @return a match result for the last match operation
* @throws IllegalStateException If no match result is available
*/
if (!matchValid)
throw new IllegalStateException("No match result available");
return matcher.toMatchResult();
}
/**
* <p>Returns the string representation of this <code>Scanner</code>. The
* string representation of a <code>Scanner</code> contains information
* that may be useful for debugging. The exact format is unspecified.
*
* @return The string representation of this scanner
*/
}
/**
* Returns true if this scanner has another token in its input.
* This method may block while waiting for input to scan.
* The scanner does not advance past any input.
*
* @return true if and only if this scanner has another token
* @throws IllegalStateException if this scanner is closed
* @see java.util.Iterator
*/
public boolean hasNext() {
ensureOpen();
saveState();
while (!sourceClosed) {
if (hasTokenInBuffer())
return revertState(true);
readInput();
}
boolean result = hasTokenInBuffer();
return revertState(result);
}
/**
* Finds and returns the next complete token from this scanner.
* A complete token is preceded and followed by input that matches
* the delimiter pattern. This method may block while waiting for input
* to scan, even if a previous invocation of {@link #hasNext} returned
* <code>true</code>.
*
* @return the next token
* @throws NoSuchElementException if no more tokens are available
* @throws IllegalStateException if this scanner is closed
* @see java.util.Iterator
*/
ensureOpen();
clearCaches();
while (true) {
matchValid = true;
skipped = false;
return token;
}
if (needInput)
readInput();
else
throwFor();
}
}
/**
* The remove operation is not supported by this implementation of
* <code>Iterator</code>.
*
* @throws UnsupportedOperationException if this method is invoked.
* @see java.util.Iterator
*/
public void remove() {
throw new UnsupportedOperationException();
}
/**
* Returns true if the next token matches the pattern constructed from the
* specified string. The scanner does not advance past any input.
*
* <p> An invocation of this method of the form <tt>hasNext(pattern)</tt>
* behaves in exactly the same way as the invocation
* <tt>hasNext(Pattern.compile(pattern))</tt>.
*
* @param pattern a string specifying the pattern to scan
* @return true if and only if this scanner has another token matching
* the specified pattern
* @throws IllegalStateException if this scanner is closed
*/
}
/**
* Returns the next token if it matches the pattern constructed from the
* specified string. If the match is successful, the scanner advances
* past the input that matched the pattern.
*
* <p> An invocation of this method of the form <tt>next(pattern)</tt>
* behaves in exactly the same way as the invocation
* <tt>next(Pattern.compile(pattern))</tt>.
*
* @param pattern a string specifying the pattern to scan
* @return the next token
* @throws NoSuchElementException if no such tokens are available
* @throws IllegalStateException if this scanner is closed
*/
}
/**
* Returns true if the next complete token matches the specified pattern.
* A complete token is prefixed and postfixed by input that matches
* the delimiter pattern. This method may block while waiting for input.
* The scanner does not advance past any input.
*
* @param pattern the pattern to scan for
* @return true if and only if this scanner has another token matching
* the specified pattern
* @throws IllegalStateException if this scanner is closed
*/
ensureOpen();
throw new NullPointerException();
saveState();
while (true) {
matchValid = true;
cacheResult();
return revertState(true);
}
if (needInput)
readInput();
else
return revertState(false);
}
}
/**
* Returns the next token if it matches the specified pattern. This
* method may block while waiting for input to scan, even if a previous
* invocation of {@link #hasNext(Pattern)} returned <code>true</code>.
* If the match is successful, the scanner advances past the input that
* matched the pattern.
*
* @param pattern the pattern to scan for
* @return the next token
* @throws NoSuchElementException if no more tokens are available
* @throws IllegalStateException if this scanner is closed
*/
ensureOpen();
throw new NullPointerException();
// Did we already find this pattern?
if (hasNextPattern == pattern)
return getCachedResult();
clearCaches();
// Search for the pattern
while (true) {
matchValid = true;
skipped = false;
return token;
}
if (needInput)
readInput();
else
throwFor();
}
}
/**
* Returns true if there is another line in the input of this scanner.
* This method may block while waiting for input. The scanner does not
* advance past any input.
*
* @return true if and only if this scanner has another line of input
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextLine() {
saveState();
} else {
cacheResult();
}
}
revertState();
}
/**
* Advances this scanner past the current line and returns the input
* that was skipped.
*
* This method returns the rest of the current line, excluding any line
* separator at the end. The position is set to the beginning of the next
* line.
*
* <p>Since this method continues to search through the input looking
* for a line separator, it may buffer all of the input searching for
* the line to skip if no line separators are present.
*
* @return the line that was skipped
* @throws NoSuchElementException if no line was found
* @throws IllegalStateException if this scanner is closed
*/
if (hasNextPattern == linePattern())
return getCachedResult();
clearCaches();
throw new NoSuchElementException("No line found");
throw new NoSuchElementException();
else
return result;
}
// Public methods that ignore delimiters
/**
* Attempts to find the next occurrence of a pattern constructed from the
* specified string, ignoring delimiters.
*
* <p>An invocation of this method of the form <tt>findInLine(pattern)</tt>
* behaves in exactly the same way as the invocation
* <tt>findInLine(Pattern.compile(pattern))</tt>.
*
* @param pattern a string specifying the pattern to search for
* @return the text that matched the specified pattern
* @throws IllegalStateException if this scanner is closed
*/
}
/**
* Attempts to find the next occurrence of the specified pattern ignoring
* delimiters. If the pattern is found before the next line separator, the
* scanner advances past the input that matched and returns the string that
* matched the pattern.
* If no such pattern is detected in the input up to the next line
* separator, then <code>null</code> is returned and the scanner's
* position is unchanged. This method may block waiting for input that
* matches the pattern.
*
* <p>Since this method continues to search through the input looking
* for the specified pattern, it may buffer all of the input searching for
* the desired token if no line separators are present.
*
* @param pattern the pattern to scan for
* @return the text that matched the specified pattern
* @throws IllegalStateException if this scanner is closed
*/
ensureOpen();
throw new NullPointerException();
clearCaches();
// Expand buffer to include the next newline or end of input
int endPosition = 0;
saveState();
while (true) {
break; // up to next newline
}
if (needInput) {
readInput();
} else {
break; // up to end of input
}
}
revertState();
// If there is nothing between the current pos and the next
// newline simply return null, invoking findWithinHorizon
// with "horizon=0" will scan beyond the line bound.
if (horizonForLine == 0)
return null;
// Search for the pattern
}
/**
* Attempts to find the next occurrence of a pattern constructed from the
* specified string, ignoring delimiters.
*
* <p>An invocation of this method of the form
* <tt>findWithinHorizon(pattern)</tt> behaves in exactly the same way as
* the invocation
* <tt>findWithinHorizon(Pattern.compile(pattern, horizon))</tt>.
*
* @param pattern a string specifying the pattern to search for
* @return the text that matched the specified pattern
* @throws IllegalStateException if this scanner is closed
* @throws IllegalArgumentException if horizon is negative
*/
}
/**
* Attempts to find the next occurrence of the specified pattern.
*
* <p>This method searches through the input up to the specified
* search horizon, ignoring delimiters. If the pattern is found the
* scanner advances past the input that matched and returns the string
* that matched the pattern. If no such pattern is detected then the
* null is returned and the scanner's position remains unchanged. This
* method may block waiting for input that matches the pattern.
*
* <p>A scanner will never search more than <code>horizon</code> code
* points beyond its current position. Note that a match may be clipped
* by the horizon; that is, an arbitrary match result may have been
* different if the horizon had been larger. The scanner treats the
* horizon as a transparent, non-anchoring bound (see {@link
* Matcher#useTransparentBounds} and {@link Matcher#useAnchoringBounds}).
*
* <p>If horizon is <code>0</code>, then the horizon is ignored and
* this method continues to search through the input looking for the
* specified pattern without bound. In this case it may buffer all of
* the input searching for the pattern.
*
* <p>If horizon is negative, then an IllegalArgumentException is
* thrown.
*
* @param pattern the pattern to scan for
* @return the text that matched the specified pattern
* @throws IllegalStateException if this scanner is closed
* @throws IllegalArgumentException if horizon is negative
*/
ensureOpen();
throw new NullPointerException();
if (horizon < 0)
throw new IllegalArgumentException("horizon < 0");
clearCaches();
// Search for the pattern
while (true) {
matchValid = true;
return token;
}
if (needInput)
readInput();
else
break; // up to end of input
}
return null;
}
/**
* Skips input that matches the specified pattern, ignoring delimiters.
* This method will skip input if an anchored match of the specified
* pattern succeeds.
*
* <p>If a match to the specified pattern is not found at the
* current position, then no input is skipped and a
* <tt>NoSuchElementException</tt> is thrown.
*
* <p>Since this method seeks to match the specified pattern starting at
* the scanner's current position, patterns that can match a lot of
* input (".*", for example) may cause the scanner to buffer a large
* amount of input.
*
* <p>Note that it is possible to skip something without risking a
* <code>NoSuchElementException</code> by using a pattern that can
* match nothing, e.g., <code>sc.skip("[ \t]*")</code>.
*
* @param pattern a string specifying the pattern to skip over
* @return this scanner
* @throws NoSuchElementException if the specified pattern is not found
* @throws IllegalStateException if this scanner is closed
*/
ensureOpen();
throw new NullPointerException();
clearCaches();
// Search for the pattern
while (true) {
matchValid = true;
return this;
}
if (needInput)
readInput();
else
throw new NoSuchElementException();
}
}
/**
* Skips input that matches a pattern constructed from the specified
* string.
*
* <p> An invocation of this method of the form <tt>skip(pattern)</tt>
* behaves in exactly the same way as the invocation
* <tt>skip(Pattern.compile(pattern))</tt>.
*
* @param pattern a string specifying the pattern to skip over
* @return this scanner
* @throws IllegalStateException if this scanner is closed
*/
}
// Convenience methods for scanning primitives
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a boolean value using a case insensitive pattern
* created from the string "true|false". The scanner does not
* advance past the input that matched.
*
* @return true if and only if this scanner's next token is a valid
* boolean value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextBoolean() {
return hasNext(boolPattern());
}
/**
* Scans the next token of the input into a boolean value and returns
* that value. This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid boolean value.
* If the match is successful, the scanner advances past the input that
* matched.
*
* @return the boolean scanned from the input
* @throws InputMismatchException if the next token is not a valid boolean
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public boolean nextBoolean() {
clearCaches();
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a byte value in the default radix using the
* {@link #nextByte} method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* byte value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextByte() {
return hasNextByte(defaultRadix);
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a byte value in the specified radix using the
* {@link #nextByte} method. The scanner does not advance past any input.
*
* @param radix the radix used to interpret the token as a byte value
* @return true if and only if this scanner's next token is a valid
* byte value
* @throws IllegalStateException if this scanner is closed
*/
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a <tt>byte</tt>.
*
* <p> An invocation of this method of the form
* <tt>nextByte()</tt> behaves in exactly the same way as the
* invocation <tt>nextByte(radix)</tt>, where <code>radix</code>
* is the default radix of this scanner.
*
* @return the <tt>byte</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public byte nextByte() {
return nextByte(defaultRadix);
}
/**
* Scans the next token of the input as a <tt>byte</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid byte value as
* described below. If the translation is successful, the scanner advances
* past the input that matched.
*
* <p> If the next token matches the <a
* href="#Integer-regex"><i>Integer</i></a> regular expression defined
* above then the token is converted into a <tt>byte</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Byte#parseByte(String, int) Byte.parseByte} with the
* specified radix.
*
* @param radix the radix used to interpret the token as a byte value
* @return the <tt>byte</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
clearCaches();
// Search for next byte
try {
s = processIntegerToken(s);
} catch (NumberFormatException nfe) {
}
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a short value in the default radix using the
* {@link #nextShort} method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* short value in the default radix
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextShort() {
return hasNextShort(defaultRadix);
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a short value in the specified radix using the
* {@link #nextShort} method. The scanner does not advance past any input.
*
* @param radix the radix used to interpret the token as a short value
* @return true if and only if this scanner's next token is a valid
* short value in the specified radix
* @throws IllegalStateException if this scanner is closed
*/
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a <tt>short</tt>.
*
* <p> An invocation of this method of the form
* <tt>nextShort()</tt> behaves in exactly the same way as the
* invocation <tt>nextShort(radix)</tt>, where <code>radix</code>
* is the default radix of this scanner.
*
* @return the <tt>short</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public short nextShort() {
return nextShort(defaultRadix);
}
/**
* Scans the next token of the input as a <tt>short</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid short value as
* described below. If the translation is successful, the scanner advances
* past the input that matched.
*
* <p> If the next token matches the <a
* href="#Integer-regex"><i>Integer</i></a> regular expression defined
* above then the token is converted into a <tt>short</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Short#parseShort(String, int) Short.parseShort} with the
* specified radix.
*
* @param radix the radix used to interpret the token as a short value
* @return the <tt>short</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
clearCaches();
// Search for next short
try {
s = processIntegerToken(s);
} catch (NumberFormatException nfe) {
}
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as an int value in the default radix using the
* {@link #nextInt} method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* int value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextInt() {
return hasNextInt(defaultRadix);
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as an int value in the specified radix using the
* {@link #nextInt} method. The scanner does not advance past any input.
*
* @param radix the radix used to interpret the token as an int value
* @return true if and only if this scanner's next token is a valid
* int value
* @throws IllegalStateException if this scanner is closed
*/
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* The integer token must be stripped of prefixes, group separators,
* and suffixes, non ascii digits must be converted into ascii digits
* before parse will accept it.
*/
boolean isNegative = false;
isNegative = true;
}
isNegative = true;
}
if (isNegative)
return result;
}
/**
* Scans the next token of the input as an <tt>int</tt>.
*
* <p> An invocation of this method of the form
* <tt>nextInt()</tt> behaves in exactly the same way as the
* invocation <tt>nextInt(radix)</tt>, where <code>radix</code>
* is the default radix of this scanner.
*
* @return the <tt>int</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public int nextInt() {
return nextInt(defaultRadix);
}
/**
* Scans the next token of the input as an <tt>int</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid int value as
* described below. If the translation is successful, the scanner advances
* past the input that matched.
*
* <p> If the next token matches the <a
* href="#Integer-regex"><i>Integer</i></a> regular expression defined
* above then the token is converted into an <tt>int</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Integer#parseInt(String, int) Integer.parseInt} with the
* specified radix.
*
* @param radix the radix used to interpret the token as an int value
* @return the <tt>int</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
clearCaches();
// Search for next int
try {
s = processIntegerToken(s);
} catch (NumberFormatException nfe) {
}
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a long value in the default radix using the
* {@link #nextLong} method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* long value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextLong() {
return hasNextLong(defaultRadix);
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a long value in the specified radix using the
* {@link #nextLong} method. The scanner does not advance past any input.
*
* @param radix the radix used to interpret the token as a long value
* @return true if and only if this scanner's next token is a valid
* long value
* @throws IllegalStateException if this scanner is closed
*/
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a <tt>long</tt>.
*
* <p> An invocation of this method of the form
* <tt>nextLong()</tt> behaves in exactly the same way as the
* invocation <tt>nextLong(radix)</tt>, where <code>radix</code>
* is the default radix of this scanner.
*
* @return the <tt>long</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public long nextLong() {
return nextLong(defaultRadix);
}
/**
* Scans the next token of the input as a <tt>long</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid long value as
* described below. If the translation is successful, the scanner advances
* past the input that matched.
*
* <p> If the next token matches the <a
* href="#Integer-regex"><i>Integer</i></a> regular expression defined
* above then the token is converted into a <tt>long</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Long#parseLong(String, int) Long.parseLong} with the
* specified radix.
*
* @param radix the radix used to interpret the token as an int value
* @return the <tt>long</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
clearCaches();
try {
s = processIntegerToken(s);
} catch (NumberFormatException nfe) {
}
}
/**
* The float token must be stripped of prefixes, group separators,
* and suffixes, non ascii digits must be converted into ascii digits
* before parseFloat will accept it.
*
* If there are non-ascii digits in the token these digits must
* be processed before the token is passed to parseFloat.
*/
boolean isNegative = false;
isNegative = true;
}
isNegative = true;
}
result = "NaN";
result = "Infinity";
if (isNegative)
// Translate non-ASCII digits
if (m.find()) {
if (d != -1)
else
} else {
}
}
}
return result;
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a float value using the {@link #nextFloat}
* method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* float value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextFloat() {
setRadix(10);
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a <tt>float</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid float value as
* described below. If the translation is successful, the scanner advances
* past the input that matched.
*
* <p> If the next token matches the <a
* href="#Float-regex"><i>Float</i></a> regular expression defined above
* then the token is converted into a <tt>float</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Float#parseFloat Float.parseFloat}. If the token matches
* the localized NaN or infinity strings, then either "Nan" or "Infinity"
* is passed to {@link Float#parseFloat(String) Float.parseFloat} as
* appropriate.
*
* @return the <tt>float</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Float</i>
* regular expression, or is out of range
* @throws NoSuchElementException if input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public float nextFloat() {
// Check cached result
useTypeCache();
return val;
}
setRadix(10);
clearCaches();
try {
} catch (NumberFormatException nfe) {
}
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a double value using the {@link #nextDouble}
* method. The scanner does not advance past any input.
*
* @return true if and only if this scanner's next token is a valid
* double value
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextDouble() {
setRadix(10);
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a <tt>double</tt>.
* This method will throw <code>InputMismatchException</code>
* if the next token cannot be translated into a valid double value.
* If the translation is successful, the scanner advances past the input
* that matched.
*
* <p> If the next token matches the <a
* href="#Float-regex"><i>Float</i></a> regular expression defined above
* then the token is converted into a <tt>double</tt> value as if by
* removing all locale specific prefixes, group separators, and locale
* specific suffixes, then mapping non-ASCII digits into ASCII
* digits via {@link Character#digit Character.digit}, prepending a
* negative sign (-) if the locale specific negative prefixes and suffixes
* were present, and passing the resulting string to
* {@link Double#parseDouble Double.parseDouble}. If the token matches
* the localized NaN or infinity strings, then either "Nan" or "Infinity"
* is passed to {@link Double#parseDouble(String) Double.parseDouble} as
* appropriate.
*
* @return the <tt>double</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Float</i>
* regular expression, or is out of range
* @throws NoSuchElementException if the input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
public double nextDouble() {
// Check cached result
useTypeCache();
return val;
}
setRadix(10);
clearCaches();
// Search for next float
try {
} catch (NumberFormatException nfe) {
}
}
// Convenience methods for scanning multi precision numbers
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a <code>BigInteger</code> in the default radix using the
* {@link #nextBigInteger} method. The scanner does not advance past any
* input.
*
* @return true if and only if this scanner's next token is a valid
* <code>BigInteger</code>
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextBigInteger() {
return hasNextBigInteger(defaultRadix);
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a <code>BigInteger</code> in the specified radix using
* the {@link #nextBigInteger} method. The scanner does not advance past
* any input.
*
* @param radix the radix used to interpret the token as an integer
* @return true if and only if this scanner's next token is a valid
* <code>BigInteger</code>
* @throws IllegalStateException if this scanner is closed
*/
if (result) { // Cache it
try {
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a {@link java.math.BigInteger
* BigInteger}.
*
* <p> An invocation of this method of the form
* <tt>nextBigInteger()</tt> behaves in exactly the same way as the
* invocation <tt>nextBigInteger(radix)</tt>, where <code>radix</code>
* is the default radix of this scanner.
*
* @return the <tt>BigInteger</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if the input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
return nextBigInteger(defaultRadix);
}
/**
* Scans the next token of the input as a {@link java.math.BigInteger
* BigInteger}.
*
* <p> If the next token matches the <a
* href="#Integer-regex"><i>Integer</i></a> regular expression defined
* above then the token is converted into a <tt>BigInteger</tt> value as if
* by removing all group separators, mapping non-ASCII digits into ASCII
* digits via the {@link Character#digit Character.digit}, and passing the
* resulting string to the {@link
* java.math.BigInteger#BigInteger(java.lang.String)
* BigInteger(String, int)} constructor with the specified radix.
*
* @param radix the radix used to interpret the token
* @return the <tt>BigInteger</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Integer</i>
* regular expression, or is out of range
* @throws NoSuchElementException if the input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
clearCaches();
// Search for next int
try {
s = processIntegerToken(s);
return new BigInteger(s, radix);
} catch (NumberFormatException nfe) {
}
}
/**
* Returns true if the next token in this scanner's input can be
* interpreted as a <code>BigDecimal</code> using the
* {@link #nextBigDecimal} method. The scanner does not advance past any
* input.
*
* @return true if and only if this scanner's next token is a valid
* <code>BigDecimal</code>
* @throws IllegalStateException if this scanner is closed
*/
public boolean hasNextBigDecimal() {
setRadix(10);
if (result) { // Cache it
try {
typeCache = new BigDecimal(s);
} catch (NumberFormatException nfe) {
result = false;
}
}
return result;
}
/**
* Scans the next token of the input as a {@link java.math.BigDecimal
* BigDecimal}.
*
* <p> If the next token matches the <a
* href="#Decimal-regex"><i>Decimal</i></a> regular expression defined
* above then the token is converted into a <tt>BigDecimal</tt> value as if
* by removing all group separators, mapping non-ASCII digits into ASCII
* digits via the {@link Character#digit Character.digit}, and passing the
* resulting string to the {@link
* java.math.BigDecimal#BigDecimal(java.lang.String) BigDecimal(String)}
* constructor.
*
* @return the <tt>BigDecimal</tt> scanned from the input
* @throws InputMismatchException
* if the next token does not match the <i>Decimal</i>
* regular expression, or is out of range
* @throws NoSuchElementException if the input is exhausted
* @throws IllegalStateException if this scanner is closed
*/
// Check cached result
useTypeCache();
return val;
}
setRadix(10);
clearCaches();
// Search for next float
try {
return new BigDecimal(s);
} catch (NumberFormatException nfe) {
}
}
/**
* Resets this scanner.
*
* <p> Resetting a scanner discards all of its explicit state
* information which may have been changed by invocations of {@link
* #useDelimiter}, {@link #useLocale}, or {@link #useRadix}.
*
* <p> An invocation of this method of the form
* <tt>scanner.reset()</tt> behaves in exactly the same way as the
* invocation
*
* <blockquote><pre>
* scanner.useDelimiter("\\p{javaWhitespace}+")
* .useLocale(Locale.getDefault())
* .useRadix(10);
* </pre></blockquote>
*
* @return this scanner
*
* @since 1.6
*/
useRadix(10);
clearCaches();
return this;
}
}