# Efficiently Compare Successive Characters in String

I'm doing some text analysis, and need to record the frequencies of character transitions in a `String`. I have n categories of characters: for the sake of example, `isUpperCase()`, `isNumber()`, and `isSpace()`.

Given that there are n categories, there will be n^2 categories of transitions, e.g. "`isUpperCase()` --> `isUpperCase()`", "`isUpperCase` --> `isLetter()`", "`isLetter()` --> `isUpperCase()`", etc.

Given a block of text, I would like to record the number of transitions that took place. I would imagine constructing a `Map` with the transition types as the `Keys`, and an `Integer` as each `Value`.

For the block of text "`TO`", the `Map` would look like `[isUpper -> isUpper : 1, isUpper -> isSpace : 1]`

The part I cannot figure out, though, is how to construct a `Map` where, from what I can see, the `Key` would consist of 2 `boolean` methods.

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Create an `enum` that represents character types - you need a way to get a character type `enum` given a character. I'm sure there are better ways to do that than what I have done below but that is left as an exercise to the reader.

Next create a method that takes the previous and current characters and concatenates their types into a unique `String`.

Finally loop over the input string and hey presto.

``````private static enum CharacterType {

UPPER {
@Override
boolean isA(final char c) {
return Character.isUpperCase(c);
}
},
LOWER {
@Override
boolean isA(final char c) {
return Character.isLowerCase(c);
}
},
SPACE {
@Override
boolean isA(final char c) {
return Character.isWhitespace(c);
}
},
UNKOWN {
@Override
boolean isA(char c) {
return false;
}
};

abstract boolean isA(final char c);

public static CharacterType toType(final char c) {
for (CharacterType type : values()) {
if (type.isA(c)) {
return type;
}
}
return UNKOWN;
}
}

private static String getTransitionType(final CharacterType prev, final CharacterType current) {
return prev + "_TO_" + current;
}

public static void main(String[] args) {
final String myString = "AAaaA Aaa  AA";
final Map<String, Integer> countMap = new TreeMap<String, Integer>() {
@Override
public Integer put(final String key, final Integer value) {
final Integer currentCount = get(key);
if (currentCount == null) {
return super.put(key, value);
}
return super.put(key, currentCount + value);
}
};
final char[] myStringAsArray = myString.toCharArray();
CharacterType prev = CharacterType.toType(myStringAsArray[0]);
for (int i = 1; i < myStringAsArray.length; ++i) {
final CharacterType current = CharacterType.toType(myStringAsArray[i]);
countMap.put(getTransitionType(prev, current), 1);
prev = current;
}
for (final Entry<String, Integer> entry : countMap.entrySet()) {
System.out.println(entry);
}
}
``````

Output:

``````LOWER_TO_LOWER=2
LOWER_TO_SPACE=1
LOWER_TO_UPPER=1
SPACE_TO_SPACE=1
SPACE_TO_UPPER=2
UPPER_TO_LOWER=2
UPPER_TO_SPACE=1
UPPER_TO_UPPER=2
``````

Running the method on the content of your question (825 chars) took 9ms.

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First off, I just want to say Thank You. I don't know if this will work yet, because I need to learn more about `enum`, but it looks awesome! – Adam_G Mar 20 '13 at 19:27
It's a very elegant solution indeed. I like it! – loopkin Mar 21 '13 at 17:35

If you think most of the transitions will be present, then a 2 dimension Array would work best:

``````int n = _categories.size();
int[][] _transitionFreq = new int[n][n];
``````

If you think it will be a parse array, then a map will be more efficient in terms of memory usage, but less efficient in terms of performance.

It's a trade-off you'll have to make depending on your data and the number of character types.

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