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I'm looking for a way of generating an alphabetic sequence:

A, B, C, ..., Z, AA, AB, AC, ..., ZZ.

Can anyone suggest a convenient way of doing this. What data structures can I make use of?

I'd like methods which get the next code in the sequence and then reset the sequence.

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9 Answers 9

up vote 6 down vote accepted

My version implements Iterator and maintains an int counter. The counter values are translated to the corresponding string:

import com.google.common.collect.AbstractIterator;

class Sequence extends AbstractIterator<String> {
    private int now;
    private static char[] vs;
    static {
        vs = new char['Z' - 'A' + 1];
        for(char i='A'; i<='Z';i++) vs[i - 'A'] = i;
    }

    private StringBuilder alpha(int i){
        assert i > 0;
        char r = vs[--i % vs.length];
        int n = i / vs.length;
        return n == 0 ? new StringBuilder().append(r) : alpha(n).append(r);
    }

    @Override protected String computeNext() {
        return alpha(++now).toString();
    }
}

Call next() on the Iterator to use it.

Sequence sequence = new Sequence();
for(int i=0;i<100;i++){
  System.out.print(sequence.next() + " ");
}

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z AA AB AC AD AE

An implementation with better performance for larger sequences reuses the common prefix:

class SequencePrefix extends AbstractIterator<String> {
    private int now = -1;
    private String prefix = "";
    private static char[] vs;
    static {
        vs = new char['Z' - 'A' + 1];
        for(char i='A'; i<='Z';i++) vs[i - 'A'] = i;
    }

    private String fixPrefix(String prefix){
        if(prefix.length() == 0) return Character.toString(vs[0]);
        int last = prefix.length() - 1;
        char next = (char) (prefix.charAt(last) + 1);
        String sprefix = prefix.substring(0, last);
        return next - vs[0] == vs.length ? 
            fixPrefix(sprefix) + vs[0] : sprefix + next;
    }

    @Override protected String computeNext() {
        if(++now == vs.length) prefix = fixPrefix(prefix);
        now %= vs.length;
        return new StringBuilder().append(prefix).append(vs[now]).toString();
    }
}

You'll get even better performance if you rewrite this basic algorithm with an implementation that works with arrays. (String.charAt, String.substring and StringBuffer have some overhead.)

share|improve this answer
    
One can learn in different ways: hints or examples. Don't see how you followed your own advice. –  Thomas Jung Jan 4 '12 at 12:15
    
The method I used in the end wasn't quite as clever as this. I simply populate an ArrayList with all of the possible codes when the object is instantiated then accessed the next code with an iterator. This is sufficient for my requirements. –  mip Jan 4 '12 at 16:22
    
But your solutions is perfect then. If you do not need more and can't find a general purpose implementation, the simple implementation is the right one. Your implementation can have a much better performance - all values are cached. –  Thomas Jung Jan 5 '12 at 6:57
    
Nice one! I've ported your solution to C#; Thanks :) –  Rynkadink May 8 '14 at 9:21
public class SeqGen {
    public static void main(String[] args) {
        //This is the configurable param
        int seqWidth = 3;

        Double charSetSize = 26d;

        // The size of the array will be 26 ^ seqWidth. ie: if 2 chars wide, 26
        // * 26. 3 chars, 26 * 26 * 26
        Double total = Math.pow(charSetSize, (new Integer(seqWidth)).doubleValue());

        StringBuilder[] sbArr = new StringBuilder[total.intValue()];
        // Initializing the Array
        for(int j = 0; j <total; j++){
            sbArr[j] = new StringBuilder();
        }

        char ch = 'A';
        // Iterating over the entire length for the 'char width' number of times.
        // TODO: Can these iterations be reduced?
        for(int k = seqWidth; k >0; k--){
            // Iterating and adding each char to the entire array.        
            for(int l = 1; l <=total; l++){
                sbArr[l-1].append(ch);
                if((l % (Math.pow(charSetSize, k-1d))) == 0){
                    ch++;
                    if(ch > 'Z'){
                        ch = 'A';
                    }
                }
            }
        }

        //Use the stringbuilder array.
        for (StringBuilder builder : sbArr) {
            System.out.println(builder.toString());
        }
    }
}

refer to the example and modify as per your requirements.

share|improve this answer

I would suggest an iterator returning the next value.

The iterator needs to be able to create the string to return, based on internal counters. For your example it would be enough with two counters. One for the first character in the string, and one for the second character.

Each counter could correspond to the index in " ABCDEFGHIJKLMNOPQRSTUVWXYZ". When you've returned a string update the counter for the last position. If it falls "over the edge" reset it to point to "A" and increment the next counter. When that counter gets to large, either let the iterator indicate there is no more elements, or reset it to point to " " depending on what you need.

Note that by having the first position a blank, you can use trim() on the string to get rid of any spaces giving "A" for the first response.

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I was testing but, the code is bad...

I made my code, that work until 256, but you can to change according to needs.

  public static String IntToLetter(int Int) {
    if (Int<27){
      return Character.toString((char)(Int+96));
    } else {
      if (Int%26==0) {
        return IntToLetter((Int/26)-1)+IntToLetter((Int%26)+1);
      } else {
        return IntToLetter(Int/26)+IntToLetter(Int%26);
      }
    }
  }

EDITED (method fixed):

  public static String IntToLetter(int Int) {
    if (Int<27){
      return Character.toString((char)(Int+96));
    } else {
      if (Int%26==0) {
        return IntToLetter((Int/26)-1)+IntToLetter(((Int-1)%26+1));
      } else {
        return IntToLetter(Int/26)+IntToLetter(Int%26);
      }
    }
  }

Testing my code:

  for (int i = 1;i<256;i++) {
    System.out.println("i="+i+" -> "+IntToLetter(i));
  }

The result

    i=1 -> a
    i=2 -> b
    i=3 -> c
    i=4 -> d
    i=5 -> e
    i=6 -> f
    i=7 -> g
    i=8 -> h
    i=9 -> i
    i=10 -> j
    i=11 -> k
    i=12 -> l
    i=13 -> m
    i=14 -> n
    i=15 -> o
    i=16 -> p
    i=17 -> q
    i=18 -> r
    i=19 -> s
    i=20 -> t
    i=21 -> u
    i=22 -> v
    i=23 -> w
    i=24 -> x
    i=25 -> y
    i=26 -> z
    i=27 -> aa
    i=28 -> ab
    i=29 -> ac
    i=30 -> ad
    i=31 -> ae
    i=32 -> af
    i=33 -> ag
    i=34 -> ah
    i=35 -> ai
    i=36 -> aj
    i=37 -> ak
    i=38 -> al
    i=39 -> am
    i=40 -> an
    i=41 -> ao
    i=42 -> ap
    i=43 -> aq
    i=44 -> ar
    i=45 -> as
    i=46 -> at
    i=47 -> au
    i=48 -> av
    i=49 -> aw
    i=50 -> ax
    i=51 -> ay
    i=52 -> az
    i=53 -> ba
    i=54 -> bb
    i=55 -> bc
    i=56 -> bd
    i=57 -> be
    i=58 -> bf
    i=59 -> bg
    i=60 -> bh
    i=61 -> bi
    i=62 -> bj
    i=63 -> bk
    i=64 -> bl
    i=65 -> bm
    i=66 -> bn
    i=67 -> bo
    i=68 -> bp
    i=69 -> bq
    i=70 -> br
    i=71 -> bs
    i=72 -> bt
    i=73 -> bu
    i=74 -> bv
    i=75 -> bw
    i=76 -> bx
    i=77 -> by
    i=78 -> bz
    i=79 -> ca
    i=80 -> cb
    i=81 -> cc
    i=82 -> cd
    i=83 -> ce
    i=84 -> cf
    i=85 -> cg
    i=86 -> ch
    i=87 -> ci
    i=88 -> cj
    i=89 -> ck
    i=90 -> cl
    i=91 -> cm
    i=92 -> cn
    i=93 -> co
    i=94 -> cp
    i=95 -> cq
    i=96 -> cr
    i=97 -> cs
    i=98 -> ct
    i=99 -> cu
    i=100 -> cv
    i=101 -> cw
    i=102 -> cx
    i=103 -> cy
    i=104 -> cz
    i=105 -> da
    i=106 -> db
    i=107 -> dc
    i=108 -> dd
    i=109 -> de
    i=110 -> df
    i=111 -> dg
    i=112 -> dh
    i=113 -> di
    i=114 -> dj
    i=115 -> dk
    i=116 -> dl
    i=117 -> dm
    i=118 -> dn
    i=119 -> do
    i=120 -> dp
    i=121 -> dq
    i=122 -> dr
    i=123 -> ds
    i=124 -> dt
    i=125 -> du
    i=126 -> dv
    i=127 -> dw
    i=128 -> dx
    i=129 -> dy
    i=130 -> dz
    i=131 -> ea
    i=132 -> eb
    i=133 -> ec
    i=134 -> ed
    i=135 -> ee
    i=136 -> ef
    i=137 -> eg
    i=138 -> eh
    i=139 -> ei
    i=140 -> ej
    i=141 -> ek
    i=142 -> el
    i=143 -> em
    i=144 -> en
    i=145 -> eo
    i=146 -> ep
    i=147 -> eq
    i=148 -> er
    i=149 -> es
    i=150 -> et
    i=151 -> eu
    i=152 -> ev
    i=153 -> ew
    i=154 -> ex
    i=155 -> ey
    i=156 -> ez
    i=157 -> fa
    i=158 -> fb
    i=159 -> fc
    i=160 -> fd
    i=161 -> fe
    i=162 -> ff
    i=163 -> fg
    i=164 -> fh
    i=165 -> fi
    i=166 -> fj
    i=167 -> fk
    i=168 -> fl
    i=169 -> fm
    i=170 -> fn
    i=171 -> fo
    i=172 -> fp
    i=173 -> fq
    i=174 -> fr
    i=175 -> fs
    i=176 -> ft
    i=177 -> fu
    i=178 -> fv
    i=179 -> fw
    i=180 -> fx
    i=181 -> fy
    i=182 -> fz
    i=183 -> ga
    i=184 -> gb
    i=185 -> gc
    i=186 -> gd
    i=187 -> ge
    i=188 -> gf
    i=189 -> gg
    i=190 -> gh
    i=191 -> gi
    i=192 -> gj
    i=193 -> gk
    i=194 -> gl
    i=195 -> gm
    i=196 -> gn
    i=197 -> go
    i=198 -> gp
    i=199 -> gq
    i=200 -> gr
    i=201 -> gs
    i=202 -> gt
    i=203 -> gu
    i=204 -> gv
    i=205 -> gw
    i=206 -> gx
    i=207 -> gy
    i=208 -> gz
    i=209 -> ha
    i=210 -> hb
    i=211 -> hc
    i=212 -> hd
    i=213 -> he
    i=214 -> hf
    i=215 -> hg
    i=216 -> hh
    i=217 -> hi
    i=218 -> hj
    i=219 -> hk
    i=220 -> hl
    i=221 -> hm
    i=222 -> hn
    i=223 -> ho
    i=224 -> hp
    i=225 -> hq
    i=226 -> hr
    i=227 -> hs
    i=228 -> ht
    i=229 -> hu
    i=230 -> hv
    i=231 -> hw
    i=232 -> hx
    i=233 -> hy
    i=234 -> hz
    i=235 -> ia
    i=236 -> ib
    i=237 -> ic
    i=238 -> id
    i=239 -> ie
    i=240 -> if
    i=241 -> ig
    i=242 -> ih
    i=243 -> ii
    i=244 -> ij
    i=245 -> ik
    i=246 -> il
    i=247 -> im
    i=248 -> in
    i=249 -> io
    i=250 -> ip
    i=251 -> iq
    i=252 -> ir
    i=253 -> is
    i=254 -> it
    i=255 -> iu

Best Regards

share|improve this answer
    
There is a bug with: i=52 -> aa. it's duplicated –  oracleruiz May 15 '14 at 6:34
    
Thanks, Each 26 increments, 52,78,104,130,156,182,208,234 the bug was detected and Was fixed. –  chepe lucho May 17 '14 at 3:05

This method generates Alpha Character Sequence

If called with null it return A. When called with A it returns B.

The sequence goes like A, B, C ...... Z, AA, AB, AC ..... AZ, BA, BB, BC.... BZ, CA, CB, CC....CZ, DA......ZA, ZB....ZZ, AAA, AAB, AAC....AAZ, ABA, ABB... AZZ, BAA, BAB....ZZZ

/**
* @param charSeqStr
* @return
*/

public static String getNextAlphaCharSequence(String charSeqStr) {

    String nextCharSeqStr       = null;
    char[] charSeqArr           = null;
    boolean isResetAllChar      = false;
    boolean isResetAfterIndex   = false;
    Integer resetAfterIndex     = 0;

    if (StringUtils.isBlank(charSeqStr)) {
        charSeqArr = new char[] { 'A' };
    } else {
        charSeqArr = charSeqStr.toCharArray();
        Integer charSeqLen = charSeqArr.length;

        for (int index = charSeqLen - 1; index >= 0; index--) {
            char charAtIndex = charSeqArr[index];

            if (Character.getNumericValue(charAtIndex) % 35 == 0) {
                if (index == 0) {
                    charSeqArr = Arrays.copyOf(charSeqArr, charSeqLen + 1);
                    isResetAllChar = true;
                } else {
                    continue;
                }
            } else {
                char nextCharAtIndex = (char) (charAtIndex + 1);
                charSeqArr[index] = nextCharAtIndex;
                if (index + 1 < charSeqLen) {
                    isResetAfterIndex = true;
                    resetAfterIndex = index;
                }
                break;
            }
        }
        charSeqLen = charSeqArr.length;
        if (isResetAllChar) {
            for (int index = 0; index < charSeqLen; index++) {
                charSeqArr[index] = 'A';
            }
        } else if (isResetAfterIndex) {
            for (int index = resetAfterIndex + 1; index < charSeqLen; index++) {
                charSeqArr[index] = 'A';
            }
        }
    }

    nextCharSeqStr = String.valueOf(charSeqArr);
    return nextCharSeqStr;
}

public static void main(String args[]) {
    String nextAlphaSequence = null;
    for (int index = 0; index < 1000; index++) {
        nextAlphaSequence = getNextAlphaCharSequence(nextAlphaSequence);
        System.out.print(nextAlphaSequence + ",");
    }
}
share|improve this answer

I combined Wikipedia's Hexavigesimal#Bijective base-26 and Bijective numeration#Properties of bijective base-k numerals to make this:

import static java.lang.Math.*;

private static String getString(int n) {
    char[] buf = new char[(int) floor(log(25 * (n + 1)) / log(26))];
    for (int i = buf.length - 1; i >= 0; i--) {
        n--;
        buf[i] = (char) ('A' + n % 26);
        n /= 26;
    }
    return new String(buf);
}

With the help of Wolfram Alpha. Maybe it would have been simpler to just use the implementation in the first link though.

share|improve this answer

Why don't creating the sequence recursively?

Example (untested):

public String createSequenceElement(int index) {
String sequenceElement = "";
int first  = index / 26;
int second = index % 26;
if (first < 1) {
    sequenceElement +=  (char) ('A' + second);
} else {
    sequenceElement +=  createSequenceElement(first) + (char) ('A' + second);
}
return sequenceElement ;
}

public static void main(String[] args) {
    String sequence = "";
    for (int i = 0; i < 100; i++) {
        if (i > 0) {
            sequence += ", ";
        }
        sequence += createSequenceElement(i);

    }
    System.out.println(sequence);
}
share|improve this answer
    
It did not work when I tested it. –  Austin Henley Oct 1 '12 at 14:05

This will create the sequence for passed value.

/** * Method that returns batch names based on passed value * @param batchCount * @return String[] */

public static String[] getBatchNamesForExecutor(int batchCount) {
    // Batch names array
    String[] batchNames = new String[batchCount];

    // Loop from 0 to batchCount required
    for(int index=0; index < batchCount; index++) {
        // Alphabet for current batch name 
        int alphabet = index%26;

        // iteration count happened on all alphabets till now
        int iterations = index/26;

        // initializing array element to blank string
        batchNames[index] = "";

        // Looping over the iterationIndex and creating batch alphabet prefix / prefixes
        for(int iterationIndex = 0; iterationIndex < iterations; iterationIndex+=26){
            batchNames[index] += String.valueOf((char)('A' + (iterations-1) % 26 ));
        }

        // Adding last alphabet in batch name
        batchNames[index] += String.valueOf((char)('A' + alphabet % 26 ));
    }

    return batchNames;
}


public static void main(String[] args) {
    for(String s: getBatchNamesForExecutor(8))  {
        System.err.println(s);
    }
    System.exit(0); 
}
share|improve this answer

I have created an iterative and recursive solution below. You will find an example following these solutions that shows how to generate n-number of items in a sequence using an iterator. Also, I went code golfing with my recursive solution for fun.

Solutions

Iterative

public static String indexToColumnItr(int index, char[] alphabet) {
    if (index <= 0)
        throw new IndexOutOfBoundsException("index must be a positive number");
    if (index <= alphabet.length)
        return Character.toString(alphabet[index - 1]);
    StringBuffer sb = new StringBuffer();
    while (index > 0) {
        sb.insert(0, alphabet[--index % alphabet.length]);
        index /= alphabet.length;
    }
    return sb.toString();
}

Recursive

public static String indexToColumnRec(int index, char[] alphabet) {
    if (index <= 0)
        throw new IndexOutOfBoundsException("index must be a positive number");
    if (index <= alphabet.length)
        return Character.toString(alphabet[index - 1]);
    return indexToColumnRec(--index / alphabet.length, alphabet) + alphabet[index % alphabet.length];
}

Usage

public static final char[] ALPHABET = "ABCDEFGHIJKLMNOPQRSTUVWXYZ".toCharArray();

indexToColumnItr(703, ALPHABET); // AAA

Example

The code below produced the following sequence of size 52:

[A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z, AA, AB, AC, AD, AE, AF, AG, AH, AI, AJ, AK, AL, AM, AN, AO, AP, AQ, AR, AS, AT, AU, AV, AW, AX, AY, AZ]

Main.java

import java.util.Arrays;

public class Main {
    public static void main(String[] args) {
        System.out.println(Arrays.toString(AlphaUtils.generateSequence(52)));
    }
}

AlphaIterator.java

import java.util.Iterator;

public class AlphaIterator implements Iterator<String> {
    private int maxIndex;
    private int index;
    private char[] alphabet;

    public AlphaIterator() {
        this(Integer.MAX_VALUE);
    }

    public AlphaIterator(int maxIndex) {
        this(maxIndex, "ABCDEFGHIJKLMNOPQRSTUVWXYZ".toCharArray());
    }

    public AlphaIterator(char[] alphabet) {
        this(Integer.MAX_VALUE, alphabet);
    }

    public AlphaIterator(int maxIndex, char[] alphabet) {
        this.maxIndex = maxIndex;
        this.alphabet = alphabet;
        this.index = 1;
    }

    @Override
    public boolean hasNext() {
        return this.index < this.maxIndex;
    }

    @Override
    public String next() {
        return AlphaUtils.indexToColumnItr(this.index++, this.alphabet);
    }
}

AlphaUtils.java

public class AlphaUtils {
    // Iterative
    public static String indexToColumnItr(int index, char[] alphabet) {
        if (index <= 0) throw new IndexOutOfBoundsException("index must be a positive number");
        if (index <= alphabet.length) return Character.toString(alphabet[index - 1]);
        StringBuffer sb = new StringBuffer();
        while (index > 0) {
            sb.insert(0, alphabet[--index % alphabet.length]);
            index /= alphabet.length;
        }
        return sb.toString();
    }

    // Recursive
    public static String indexToColumnRec(int index, char[] alphabet) {
        if (index <= 0) throw new IndexOutOfBoundsException("index must be a positive number");
        if (index <= alphabet.length) return Character.toString(alphabet[index - 1]);
        return indexToColumnRec(--index / alphabet.length, alphabet) + alphabet[index % alphabet.length];
    }

    public static String[] generateSequence(int size) {
        String[] sequence = new String[size];
        int i = 0;
        for (AlphaIterator it = new AlphaIterator(size); it.hasNext();) {
            sequence[i++] = it.next();
        }
        return sequence;
    }
}

Code Golf (89 bytes) :-)

String f(int i,char[]a){int l=a.length;return i<=0?"?":i<=l?""+a[i-1]:f(--i/l,a)+a[i%l];}
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