How do I check if a char is a vowel?

限于喜欢 提交于 2019-11-27 05:25:08

Your condition is flawed. Think about the simpler version

z != 'a' || z != 'e'

If z is 'a' then the second half will be true since z is not 'e' (i.e. the whole condition is true), and if z is 'e' then the first half will be true since z is not 'a' (again, whole condition true). Of course, if z is neither 'a' nor 'e' then both parts will be true. In other words, your condition will never be false!

You likely want &&s there instead:

z != 'a' && z != 'e' && ...

Or perhaps:

"aeiou".indexOf(z) < 0

Clean method to check for vowels:

public static boolean isVowel(char c) {
  return "AEIOUaeiou".indexOf(c) != -1;
}

How about an approach using regular expressions? If you use the proper pattern you can get the results from the Matcher object using groups. In the code sample below the call to m.group(1) should return you the string you're looking for as long as there's a pattern match.

String wordT = null;
Pattern patternOne = Pattern.compile("^([\\w]{2}[AEIOUaeiou]*[^AEIOUaeiou]{1}).*");
Matcher m = patternOne.matcher("Jaemeas");
if (m.matches()) {
    wordT = m.group(1);
}

Just a little different approach that accomplishes the same goal.

For starters, you are checking if the letter is "not a" OR "not e" OR "not i" etc.

Lets say that the letter is i. Then the letter is not a, so that returns "True". Then the entire statement is True because i != a. I think what you are looking for is to AND the statements together, not OR them.

Once you do this, you need to look at how to increment y and check this again. If the first time you get a vowel, you want to see if the next character is a vowel too, or not. This only checks the character at location y=3.

Actually there are much more efficient ways to check it but since you've asked what is the problem with yours, I can tell that the problem is you have to change those OR operators with AND operators. With your if statement, it will always be true.

 String word="Jaemeas";
 String wordT="";
        int y=3;
        char z;
        do{
            z=word.charAt(y);
             if(z!='a'&&z!='e'&&z!='i'&&z!='o'&&z!='u'&&y<word.length()){
                for(int i = 0; i<=y;i++){
                    wordT=wordT+word.charAt(i);
                    }
            break;
            }
           else{
                 y++;
             }

        }while(true);

here is my answer.

I have declared a char[] constant for the VOWELS, then implemented a method that checks whether a char is a vowel or not (returning a boolean value). In my main method, I am declaring a string and converting it to an array of chars, so that I can pass the index of the char array as the parameter of my isVowel method:

public class FindVowelsInString {

        static final char[] VOWELS = {'a', 'e', 'i', 'o', 'u'};

        public static void main(String[] args) {

            String str = "hello";
            char[] array = str.toCharArray();

            //Check with a consonant
            boolean vowelChecker = FindVowelsInString.isVowel(array[0]);
            System.out.println("Is this a character a vowel?" + vowelChecker);

            //Check with a vowel
            boolean vowelChecker2 = FindVowelsInString.isVowel(array[1]);
            System.out.println("Is this a character a vowel?" + vowelChecker2);

        }

        private static boolean isVowel(char vowel) {
            boolean isVowel = false;
            for (int i = 0; i < FindVowelsInString.getVowel().length; i++) {
                if (FindVowelsInString.getVowel()[i] == vowel) {
                    isVowel = true;
                }
            }
            return isVowel;
        }

        public static char[] getVowel() {
            return FindVowelsInString.VOWELS;
        }
    }

So in event anyone ever comes across this and wants a easy compare method that can be used in many scenarios.

Doesn't matter if it is UPPERCASE or lowercase. A-Z and a-z.

bool vowel = ((1 << letter) & 2130466) != 0;

This is the easiest way I could think of. I tested this in C++ and on a 64bit PC so results may differ but basically there's only 32 bits available in a "32 bit integer" as such bit 64 and bit 32 get removed and you are left with a value from 1 - 26 when performing the "<< letter".

If you don't understand how bits work sorry i'm not going go super in depth but the technique of

1 << N is the same thing as 2^N power or creating a power of two.

So when we do 1 << N & X we checking if X contains the power of two that creates our vowel is located in this value 2130466. If the result doesn't equal 0 then it was successfully a vowel.

This situation can apply to anything you use bits for and even values larger then 32 for an index will work in this case so long as the range of values is 0 to 31. So like the letters as mentioned before might be 65-90 or 97-122 but since but we keep remove 32 until we are left with a remainder ranging from 1-26. The remainder isn't how it actually works, but it gives you an idea of the process.

Something to keep in mind if you have no guarantee on the incoming letters it to check if the letter is below 'A' or above 'u'. As the results will always be false anyways.

For example teh following will return a false vowel positive. "!" exclamation point is value 33 and it will provide the same bit value as 'A' or 'a' would.

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