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This is really a curiosity more than a problem...

Why doesn't the Scanner class have a nextChar() method? It seems like it should when you consider the fact that it has next, nextInt, nextLine etc method.

I realize you can simply do the following:

userChar = in.next().charAt(0);
System.out.println( userChar  );

But why not have a nextChar() method?

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  • 3
    As a workaround you could try next("."). Sep 11, 2013 at 16:11
  • Looking at the source, it appears that next(".") will skip over delimiters first (whitespace by default). Maybe that's what is desired. If not, you'll need to use sc.delimiter() to save the current delimiter pattern, sc.useDelimiter(??) to set it to something that won't match anything (maybe an empty pattern, but I haven't tested it); then next("."); then sc.useDelimiter to restore the previous delimiter.
    – ajb
    Sep 11, 2013 at 16:47

5 Answers 5

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The reason is that the Scanner class is designed for reading in whitespace-separated tokens. It's a convenience class that wraps an underlying input stream. Before scanner all you could do was read in single bytes, and that's a big pain if you want to read words or lines. With Scanner you pass in System.in, and it does a number of read() operations to tokenize the input for you. Reading a single character is a more basic operation. Source

You can use (char) System.in.read();.

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  • Yes, you can use it, but the result could be rather confusing because Scanner will read ahead (and buffer) characters ... depending on the preceding Scanner API calls.
    – Stephen C
    Apr 13, 2021 at 1:28
4

According to the javadoc a Scanner does not seem to be intended for reading single characters. You attach a Scanner to an InputStream (or something else) and it parses the input for you. It also can strip of unwanted characters. So you can read numbers, lines, etc. easily. When you need only the characters from your input, use a InputStreamReader for example.

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To get a definitive reason, you'd need to ask the designer(s) of that API.

But one possible reason is that the intent of a (hypothetical) nextChar would not fit into the scanning model very well.

  • If nextChar() to behaved like read() on a Reader and simply returned the next unconsumed character from the scanner, then it is behaving inconsistently with the other next<Type> methods. These skip over delimiter characters before they attempt to parse a value.

  • If nextChar() to behaved like (say) nextInt then:

    • the delimiter skipping would be "unexpected" for some folks, and

    • there is the issue of whether it should accept a single "raw" character, or a sequence of digits that are the numeric representation of a char, or maybe even support escaping or something1.

No matter what choice they made, some people wouldn't be happy. My guess is that the designers decided to stay away from the tarpit.


1 - Would vote strongly for the raw character approach ... but the point is that there are alternatives that need to be analysed, etc.

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The Scanner class is bases on logic implemented in String next(Pattern) method. The additional API method like nextDouble() or nextFloat(). Provide the pattern inside.

Then class description says:

A simple text scanner which can parse primitive types and strings using regular expressions.

A Scanner 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 next methods.

From the description it can be sad that someone has forgot about char as it is a primitive type for sure.

But the concept of class is to find patterns, a char has no pattern is just next character. And this logic IMHO caused that nextChar has not been implemented.

If you need to read a filed char by char you can used more efficient class.

1

I would imagine that it has to do with encoding. A char is 16 bytes and some encodings will use one byte for a character whereas another will use two or even more. When Java was originally designed, they assumed that any Unicode character would fit in 2 bytes, whereas now a Unicode character can require up to 4 bytes (UTF-32). There is no way for Scanner to represent a UTF-32 codepoint in a single char.

You can specify an encoding to Scanner when you construct an instance, and if not provided, it will use the platform character-set. But this still doesn't handle the issue with 3 or 4 byte Unicode characters, since they cannot be represented as a single char primitive (since char is only 16 bytes). So you would end up getting inconsistent results.

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    I don't get it. If Scanner can't retrieve characters because it can't figure out the encoding, how can it implement any of its scan methods? After all, those methods have to look at characters, no?
    – ajb
    Sep 11, 2013 at 16:28
  • Did you mean methods where it returns String? The problem is that if you have a 4-byte unicode character, how would you represent that as a char? If it was a String, it can internally be represented as a char array with two chars inside it. But there is no way to get a meaningful response from nextChar if you're dealing with 3 or 4 byte unicode characters. Sep 11, 2013 at 16:30
  • As far as I know, a Reader is responsible for dealing with the encoding. Have a look at docs.oracle.com/javase/1.5.0/docs/api/index.html?java/io/… Sep 11, 2013 at 16:33
  • @VivinPaliath If you use sc.next(".") as Joachim suggested, it will return a 1-character String if there are any characters to return. If Scanner can't return a character because of encoding issues, it won't be able to return a 1-character String either.
    – ajb
    Sep 11, 2013 at 16:36
  • @ajb A one "character" String is still internally composed of char[]. If you were reading in a UTF-32 character, what should nextChar return? String can figure out that it needs 4 bytes per character if it is encoded as UTF-32 (because you can specify the encoding to String). Sep 11, 2013 at 16:39

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