Scanner

Scanner

Scanner(source: Readable!)

Constructs a new Scanner that produces values scanned from the specified source.

Scanner

Scanner(source: InputStream!)

Constructs a new Scanner that produces values scanned from the specified input stream. Bytes from the stream are converted into characters using the underlying platform's default charset.

Scanner

Scanner(
    source: InputStream!, 
    charsetName: String!)

Constructs a new Scanner that produces values scanned from the specified input stream. Bytes from the stream are converted into characters using the specified charset.

Scanner

Scanner(
    source: InputStream!, 
    charset: Charset!)

Constructs a new Scanner that produces values scanned from the specified input stream. Bytes from the stream are converted into characters using the specified charset.

Scanner

Scanner(source: File!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the underlying platform's default charset.

Scanner

Scanner(
    source: File!, 
    charsetName: String!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the specified charset.

Scanner

Scanner(
    source: File!, 
    charset: Charset!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the specified charset.

Scanner

Scanner(source: Path!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the underlying platform's default charset.

Scanner

Scanner(
    source: Path!, 
    charsetName: String!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the specified charset.

Scanner

Scanner(
    source: Path!, 
    charset: Charset!)

Constructs a new Scanner that produces values scanned from the specified file. Bytes from the file are converted into characters using the specified charset.

Scanner

Scanner(source: String!)

Constructs a new Scanner that produces values scanned from the specified string.

Scanner

Scanner(source: ReadableByteChannel!)

Constructs a new Scanner that produces values scanned from the specified channel. Bytes from the source are converted into characters using the underlying platform's default charset.

Scanner

Scanner(
    source: ReadableByteChannel!, 
    charsetName: String!)

Constructs a new Scanner that produces values scanned from the specified channel. Bytes from the source are converted into characters using the specified charset.

Scanner

Scanner(
    source: ReadableByteChannel!, 
    charset: Charset!)

Constructs a new Scanner that produces values scanned from the specified channel. Bytes from the source are converted into characters using the specified charset.

close

fun close(): Unit

Closes this scanner.

If this scanner has not yet been closed then if its underlying readable also implements the interface then the readable's close method will be invoked. If this scanner is already closed then invoking this method will have no effect.

Attempting to perform search operations after a scanner has been closed will result in an IllegalStateException.

delimiter

fun delimiter(): Pattern!

Returns the Pattern this Scanner is currently using to match delimiters.

findAll

fun findAll(pattern: Pattern!): Stream<MatchResult!>!

Returns a stream of match results from this scanner. The stream contains the same results in the same order that would be returned by calling findWithinHorizon(pattern, 0) and then match successively as long as #findWithinHorizon finds matches.

The resulting stream is sequential and ordered. All stream elements are non-null.

Scanning starts upon initiation of the terminal stream operation, using the current state of this scanner. Subsequent calls to any methods on this scanner other than #close and ioException may return undefined results or may cause undefined effects on the returned stream. The returned stream's source Spliterator is fail-fast and will, on a best-effort basis, throw a java.util.ConcurrentModificationException if any such calls are detected during stream pipeline execution.

After stream pipeline execution completes, this scanner is left in an indeterminate state and cannot be reused.

If this scanner contains a resource that must be released, this scanner should be closed, either by calling its #close method, or by closing the returned stream. Closing the stream will close the underlying scanner. IllegalStateException is thrown if the scanner has been closed when this method is called, or if this scanner is closed during stream pipeline execution.

As with the #findWithinHorizon methods, this method might block waiting for additional input, and it might buffer an unbounded amount of input searching for a match.

findAll

fun findAll(patString: String!): Stream<MatchResult!>!

Returns a stream of match results that match the provided pattern string. The effect is equivalent to the following code:

<code>scanner.findAll(Pattern.compile(patString))
  </code>

findInLine

fun findInLine(pattern: String!): String!

Attempts to find the next occurrence of a pattern constructed from the specified string, ignoring delimiters.

An invocation of this method of the form findInLine(pattern) behaves in exactly the same way as the invocation findInLine(Pattern.compile(pattern)).

findInLine

fun findInLine(pattern: Pattern!): String!

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 null is returned and the scanner's position is unchanged. This method may block waiting for input that matches the pattern.

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.

findWithinHorizon

fun findWithinHorizon(
    pattern: String!, 
    horizon: Int
): String!

Attempts to find the next occurrence of a pattern constructed from the specified string, ignoring delimiters.

An invocation of this method of the form findWithinHorizon(pattern) behaves in exactly the same way as the invocation findWithinHorizon(Pattern.compile(pattern), horizon).

findWithinHorizon

fun findWithinHorizon(
    pattern: Pattern!, 
    horizon: Int
): String!

Attempts to find the next occurrence of the specified pattern.

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.

A scanner will never search more than horizon 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 java.util.regex.Matcher#useTransparentBounds and Matcher#useAnchoringBounds).

If horizon is 0, 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.

If horizon is negative, then an IllegalArgumentException is thrown.

hasNext

fun hasNext(): Boolean

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.

hasNext

fun hasNext(pattern: String!): Boolean

Returns true if the next token matches the pattern constructed from the specified string. The scanner does not advance past any input.

An invocation of this method of the form hasNext(pattern) behaves in exactly the same way as the invocation hasNext(Pattern.compile(pattern)).

hasNext

fun hasNext(pattern: Pattern!): Boolean

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.

hasNextBigDecimal

fun hasNextBigDecimal(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a BigDecimal using the nextBigDecimal method. The scanner does not advance past any input.

hasNextBigInteger

fun hasNextBigInteger(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a BigInteger in the default radix using the #nextBigInteger method. The scanner does not advance past any input.

hasNextBigInteger

fun hasNextBigInteger(radix: Int): Boolean

Returns true if the next token in this scanner's input can be interpreted as a BigInteger in the specified radix using the #nextBigInteger method. The scanner does not advance past any input.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

hasNextBoolean

fun hasNextBoolean(): Boolean

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.

hasNextByte

fun hasNextByte(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a byte value in the default radix using the #nextByte method. The scanner does not advance past any input.

hasNextByte

fun hasNextByte(radix: Int): Boolean

Returns true if the next token in this scanner's input can be interpreted as a byte value in the specified radix using the #nextByte method. The scanner does not advance past any input.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

hasNextDouble

fun hasNextDouble(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a double value using the nextDouble method. The scanner does not advance past any input.

hasNextFloat

fun hasNextFloat(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a float value using the nextFloat method. The scanner does not advance past any input.

hasNextInt

fun hasNextInt(): Boolean

Returns true if the next token in this scanner's input can be interpreted as an int value in the default radix using the #nextInt method. The scanner does not advance past any input.

hasNextInt

fun hasNextInt(radix: Int): Boolean

Returns true if the next token in this scanner's input can be interpreted as an int value in the specified radix using the #nextInt method. The scanner does not advance past any input.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

hasNextLine

fun hasNextLine(): Boolean

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.

hasNextLong

fun hasNextLong(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a long value in the default radix using the #nextLong method. The scanner does not advance past any input.

hasNextLong

fun hasNextLong(radix: Int): Boolean

Returns true if the next token in this scanner's input can be interpreted as a long value in the specified radix using the #nextLong method. The scanner does not advance past any input.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

hasNextShort

fun hasNextShort(): Boolean

Returns true if the next token in this scanner's input can be interpreted as a short value in the default radix using the #nextShort method. The scanner does not advance past any input.

hasNextShort

fun hasNextShort(radix: Int): Boolean

Returns true if the next token in this scanner's input can be interpreted as a short value in the specified radix using the #nextShort method. The scanner does not advance past any input.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

ioException

fun ioException(): IOException!

Returns the IOException last thrown by this Scanner's underlying Readable. This method returns null if no such exception exists.

locale

fun locale(): Locale!

Returns this scanner's locale.

A scanner's locale affects many elements of its default primitive matching regular expressions; see localized numbers above.

match

fun match(): MatchResult!

Returns the match result of the last scanning operation performed by this scanner. This method throws IllegalStateException if no match has been performed, or if the last match was not successful.

The various next methods of Scanner make a match result available if they complete without throwing an exception. For instance, after an invocation of the #nextInt method that returned an int, this method returns a MatchResult for the search of the Integer regular expression defined above. Similarly the #findInLine, #findWithinHorizon, and #skip methods will make a match available if they succeed.

next

fun next(): String!

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 #hasNext returned true.

next

fun next(pattern: String!): String!

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.

An invocation of this method of the form next(pattern) behaves in exactly the same way as the invocation next(Pattern.compile(pattern)).

next

fun next(pattern: Pattern!): String!

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 hasNext(java.util.regex.Pattern) returned true. If the match is successful, the scanner advances past the input that matched the pattern.

nextBigDecimal

fun nextBigDecimal(): BigDecimal!

Scans the next token of the input as a BigDecimal.

If the next token matches the Decimal regular expression defined above then the token is converted into a BigDecimal value as if by removing all group separators, mapping non-ASCII digits into ASCII digits via the java.lang.Character#digit, and passing the resulting string to the BigDecimal(String) constructor.

nextBigInteger

fun nextBigInteger(): BigInteger!

Scans the next token of the input as a BigInteger.

An invocation of this method of the form nextBigInteger() behaves in exactly the same way as the invocation nextBigInteger(radix), where radix is the default radix of this scanner.

nextBigInteger

fun nextBigInteger(radix: Int): BigInteger!

Scans the next token of the input as a BigInteger.

If the next token matches the Integer regular expression defined above then the token is converted into a BigInteger value as if by removing all group separators, mapping non-ASCII digits into ASCII digits via the java.lang.Character#digit, and passing the resulting string to the BigInteger(String, int) constructor with the specified radix.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

nextBoolean

fun nextBoolean(): Boolean

Scans the next token of the input into a boolean value and returns that value. This method will throw InputMismatchException 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.

nextByte

fun nextByte(): Byte

Scans the next token of the input as a byte.

An invocation of this method of the form nextByte() behaves in exactly the same way as the invocation nextByte(radix), where radix is the default radix of this scanner.

nextByte

fun nextByte(radix: Int): Byte

Scans the next token of the input as a byte. This method will throw InputMismatchException 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.

If the next token matches the Integer regular expression defined above then the token is converted into a byte value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Byte.parseByte with the specified radix.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

nextDouble

fun nextDouble(): Double

Scans the next token of the input as a double. This method will throw InputMismatchException 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.

If the next token matches the Float regular expression defined above then the token is converted into a double value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Double.parseDouble. If the token matches the localized NaN or infinity strings, then either "Nan" or "Infinity" is passed to Double.parseDouble as appropriate.

nextFloat

fun nextFloat(): Float

Scans the next token of the input as a float. This method will throw InputMismatchException 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.

If the next token matches the Float regular expression defined above then the token is converted into a float value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Float.parseFloat. If the token matches the localized NaN or infinity strings, then either "Nan" or "Infinity" is passed to Float.parseFloat as appropriate.

nextInt

fun nextInt(): Int

Scans the next token of the input as an int.

An invocation of this method of the form nextInt() behaves in exactly the same way as the invocation nextInt(radix), where radix is the default radix of this scanner.

nextInt

fun nextInt(radix: Int): Int

Scans the next token of the input as an int. This method will throw InputMismatchException 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.

If the next token matches the Integer regular expression defined above then the token is converted into an int value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Integer.parseInt with the specified radix.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

nextLine

fun nextLine(): String!

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.

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.

nextLong

fun nextLong(): Long

Scans the next token of the input as a long.

An invocation of this method of the form nextLong() behaves in exactly the same way as the invocation nextLong(radix), where radix is the default radix of this scanner.

nextLong

fun nextLong(radix: Int): Long

Scans the next token of the input as a long. This method will throw InputMismatchException 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.

If the next token matches the Integer regular expression defined above then the token is converted into a long value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Long.parseLong with the specified radix.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

nextShort

fun nextShort(): Short

Scans the next token of the input as a short.

An invocation of this method of the form nextShort() behaves in exactly the same way as the invocation nextShort(radix), where radix is the default radix of this scanner.

nextShort

fun nextShort(radix: Int): Short

Scans the next token of the input as a short. This method will throw InputMismatchException 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.

If the next token matches the Integer regular expression defined above then the token is converted into a short value as if by removing all locale specific prefixes, group separators, and locale specific suffixes, then mapping non-ASCII digits into ASCII digits via java.lang.Character#digit, prepending a negative sign (-) if the locale specific negative prefixes and suffixes were present, and passing the resulting string to Short.parseShort with the specified radix.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

radix

fun radix(): Int

Returns this scanner's default radix.

A scanner's radix affects elements of its default number matching regular expressions; see localized numbers above.

remove

fun remove(): Unit

The remove operation is not supported by this implementation of Iterator.

reset

fun reset(): Scanner!

Resets this scanner.

Resetting a scanner discards all of its explicit state information which may have been changed by invocations of #useDelimiter, useLocale(), or useRadix().

An invocation of this method of the form scanner.reset() behaves in exactly the same way as the invocation

<code>scanner.useDelimiter("\\p{javaWhitespace}+")
           .useLocale(Locale.getDefault(Locale.Category.FORMAT))
           .useRadix(10);
  </code>

skip

fun skip(pattern: Pattern!): Scanner!

Skips input that matches the specified pattern, ignoring delimiters. This method will skip input if an anchored match of the specified pattern succeeds.

If a match to the specified pattern is not found at the current position, then no input is skipped and a NoSuchElementException is thrown.

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.

Note that it is possible to skip something without risking a NoSuchElementException by using a pattern that can match nothing, e.g., sc.skip("[ \t]*").

skip

fun skip(pattern: String!): Scanner!

Skips input that matches a pattern constructed from the specified string.

An invocation of this method of the form skip(pattern) behaves in exactly the same way as the invocation skip(Pattern.compile(pattern)).

toString

fun toString(): String

Returns the string representation of this Scanner. The string representation of a Scanner contains information that may be useful for debugging. The exact format is unspecified.

tokens

fun tokens(): Stream<String!>!

Returns a stream of delimiter-separated tokens from this scanner. The stream contains the same tokens that would be returned, starting from this scanner's current state, by calling the #next method repeatedly until the #hasNext method returns false.

The resulting stream is sequential and ordered. All stream elements are non-null.

Scanning starts upon initiation of the terminal stream operation, using the current state of this scanner. Subsequent calls to any methods on this scanner other than #close and ioException may return undefined results or may cause undefined effects on the returned stream. The returned stream's source Spliterator is fail-fast and will, on a best-effort basis, throw a java.util.ConcurrentModificationException if any such calls are detected during stream pipeline execution.

After stream pipeline execution completes, this scanner is left in an indeterminate state and cannot be reused.

If this scanner contains a resource that must be released, this scanner should be closed, either by calling its #close method, or by closing the returned stream. Closing the stream will close the underlying scanner. IllegalStateException is thrown if the scanner has been closed when this method is called, or if this scanner is closed during stream pipeline execution.

This method might block waiting for more input.

useDelimiter

fun useDelimiter(pattern: Pattern!): Scanner!

Sets this scanner's delimiting pattern to the specified pattern.

useDelimiter

fun useDelimiter(pattern: String!): Scanner!

Sets this scanner's delimiting pattern to a pattern constructed from the specified String.

An invocation of this method of the form useDelimiter(pattern) behaves in exactly the same way as the invocation useDelimiter(Pattern.compile(pattern)).

Invoking the reset method will set the scanner's delimiter to the default.

useLocale

fun useLocale(locale: Locale!): Scanner!

Sets this scanner's locale to the specified locale.

A scanner's locale affects many elements of its default primitive matching regular expressions; see localized numbers above.

Invoking the reset method will set the scanner's locale to the initial locale.

useRadix

fun useRadix(radix: Int): Scanner!

Sets this scanner's default radix to the specified radix.

A scanner's radix affects elements of its default number matching regular expressions; see localized numbers above.

If the radix is less than Character.MIN_RADIX or greater than Character.MAX_RADIX, then an IllegalArgumentException is thrown.

Invoking the reset method will set the scanner's radix to 10.