I need to convert a number into its column name equivalent

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I'm working on a script that generate some Excel documents and I need to convert a number into its column name equivalent. For example: 1 => A 2 => B 27 => AA 28 => AB 14558 => UMX
  2 Comments
Remco Hamoen
Remco Hamoen on 19 Apr 2020
This function might belp. It converts row and column to 'A1' combinations:
function CELL = xlRC2A1(ROW,COL)
%% Returns the column characters of Excel given a certain column number
% Input COL : number of column
% Output CHAR : Character combination in Excel
if COL <= 26 % [A..Z]
CHAR = char(mod(COL-1,26)+1+64);
CELL = [CHAR num2str(ROW)];
elseif COL <= 702 % [AA..ZZ]
COL = COL-26;
CHAR1 = char(floor((COL-1)/26)+1+64);
CHAR0 = char(mod(COL-1,26)+1+64);
CHAR = [CHAR1 CHAR0];
CELL = [CHAR num2str(ROW)];
elseif COL <= 16384 % [AAA..XFD]
COL = COL-702;
CHAR2 = char(floor((COL-1)/676)+1+64);
COL=COL-(floor((COL-1)/676))*676;
CHAR1 = char(floor((COL-1)/26)+1+64);
CHAR0 = char(mod(COL-1,26)+1+64);
CHAR = [CHAR2 CHAR1 CHAR0];
CELL = [CHAR num2str(ROW)];
else
disp('Column does not exist in Excel!');
end
end
Regards,
Remco
Stephen23
Stephen23 on 18 May 2022
Edited: Stephen23 on 11 Oct 2023
I was curious about the systematic bugs in the algorithms, which several functions shown on this page demonstrate (producing either errors or incorrect output for some specific letters). So I wrote this simple test function (attached) for checking any such conversion function. It checks all 16384 columns supported by Excel 2007 and later. Note that for simplicity's sake, it does not handle row numbers, so please first modify your function to return the column letters only.
Enjoy!

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Answers (5)

Praveen Bulusu
Praveen Bulusu on 22 Feb 2020
You can use the following functions. It works for any number.
num=14558
a=num2xlcol(num) % convert number to xlcol
b=xlcol2num(a) % convert xlcol to num
function xlcol_addr=num2xlcol(col_num)
% col_num - positive integer greater than zero
n=1;
while col_num>26*(26^n-1)/25
n=n+1;
end
base_26=zeros(1,n);
tmp_var=-1+col_num-26*(26^(n-1)-1)/25;
for k=1:n
divisor=26^(n-k);
remainder=mod(tmp_var,divisor);
base_26(k)=65+(tmp_var-remainder)/divisor;
tmp_var=remainder;
end
xlcol_addr=char(base_26); % Character vector of xlcol address
end
function xlcol_num=xlcol2num(xlcol_addr)
% xlcol_addr - upper case character
if ischar(xlcol_addr) && ~any(~isstrprop(xlcol_addr,"upper"))
xlcol_num=0;
n=length(xlcol_addr);
for k=1:n
xlcol_num=xlcol_num+(double(xlcol_addr(k)-64))*26^(n-k);
end
else
error('not a valid character')
end
end
  2 Comments
John McDowell
John McDowell on 6 Jul 2020
Edited: John McDowell on 6 Jul 2020
These are both really useful functions! Thanks for sharing them
Frederico Pratas
Frederico Pratas on 1 Apr 2021
This is useful, adding some generality to it:
function xlcol_num = xlcol2num(xlcol_addr)
if ischar(xlcol_addr)
xlcol_addr = upper(xlcol_addr);
xlcol_num=0;
n=length(xlcol_addr);
for k=1:n
xlcol_num = xlcol_num + (double(xlcol_addr(k))-double('A')+1)*(length('A':'Z')^(n-k))
end
else
error('not a valid character')
end
end

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Stephen23
Stephen23 on 10 Dec 2019
Edited: Stephen23 on 15 Jun 2022
Unfortunately Andrei Bobrov's answer does not really take into account the missing zeros, which means that it leads to a kind of "off by one" bug.
Here is an alternative approach which tests correctly on all columns currently supported by Excel (A-XFD) and is limited only by floating point precision (i.e. practically unlimited columns):
d = [1, 2, 26, 27, 28, 702, 703, 704, 14558, 16384]; % A,B,Z,AA,AB,ZZ,AAA,AAB,UMX,XFD
s = arrayfun(@int2xlcol,d)
s = 1×10 string array
"A" "B" "Z" "AA" "AB" "ZZ" "AAA" "AAB" "UMX" "XFD"
function str = int2xlcol(num)
raw = 'A':'Z';
str = raw(1+rem(num-1,26));
tmp = fix((num-1)/26);
while any(tmp)
str = [raw(1+rem(tmp-1,26)),str]; %#ok<AGROW>
tmp = fix((tmp-1)/26);
end
str = string(str);
end
You can also find several submissions on FEX which claim to make this conversion, e.g.:
  1 Comment
Stephen23
Stephen23 on 15 Jun 2022
Edited: Stephen23 on 15 Jun 2022
The same approach can also convert multiple values at once:
d = [1, 2, 26, 27, 28, 702, 703, 704, 14558, 16384]; % A,B,Z,AA,AB,ZZ,AAA,AAB,UMX,XFD
z = reshape('A':'Z',[],1);
c = num2cell(z(1+rem(d-1,26)));
v = fix((d-1)/26);
while any(v)
x = v>0;
c(x) = strcat(z(1+rem(v(x)-1,26)),c(x));
v = fix((v-1)/26);
end
s = string(c)
s = 10×1 string array
"A" "B" "Z" "AA" "AB" "ZZ" "AAA" "AAB" "UMX" "XFD"

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Andrei Bobrov
Andrei Bobrov on 15 Oct 2015
Edited: Andrei Bobrov on 16 Oct 2015
z = 'A':'Z';
d = [1, 2, 27, 28, 14558];
ll = ceil(log(max(d(:)))/log(26));
bs = rem(floor(d(:)*26.^(1-ll:0)),26);
out = cellfun(@(x)z(x(x > 0)),num2cell(bs,2),'un',0);
or
out = arrayfun(@(x)z(rem(floor(x*26.^(1-floor(log(x)/log(26)+1):0)),26)),d(:),'un',0);
  7 Comments
Andrei Bobrov
Andrei Bobrov on 22 Nov 2020
Edited: Andrei Bobrov on 22 Nov 2020
function ch = Int2lat(d)
function ch = finner(d)
ll = floor(log(max(d(:)))/log(26))+1;
out = rem(floor(d(:)*26.^(1-ll:0)),26);
lo = ~out;
while any(lo)
out = out + lo*26 - circshift(lo,-1);
out = out(cumsum(out,2) > 0);
lo = ~out;
end
abc = 'A':'Z';
ch = abc(out);
end
ch = arrayfun(@finner,d,'un',0);
end
>> h = Int2lat((1:20)'*26)
h =
20×1 cell array
{'Z' }
{'AZ'}
{'BZ'}
{'CZ'}
{'DZ'}
{'EZ'}
{'FZ'}
{'GZ'}
{'HZ'}
{'IZ'}
{'JZ'}
{'KZ'}
{'LZ'}
{'MZ'}
{'NZ'}
{'OZ'}
{'PZ'}
{'QZ'}
{'RZ'}
{'SZ'}
>>
Stephen23
Stephen23 on 18 May 2022
Edited: Stephen23 on 15 Jun 2022
@Andrei Bobrov: note that function FINNER() returns incorrect 'Z' outputs on MATLAB versions R2016a and earlier, due to the change in the default behavior of CIRCSHIFT's 2nd input argument. For example:
>> finner(26)
ans =
AY

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Daniel LeBrun
Daniel LeBrun on 10 Dec 2019
Hey I was using this code and noticed that when it gets to "Z" it instead writes "A". Have to find a way to have the bs term not forget the 26th.

Qiang Fu
Qiang Fu on 10 Oct 2023
Edited: Qiang Fu on 10 Oct 2023
I had the same requirement shortly before when I used the "writematrix" function in order to convert numerical index to the corresponding column in excel file in MATLAB, and I wrote the following code based on regarding it as a geometric progression, of which the first term and common ratio were both 26.
function ac_id = idx_xlsx(num_col)
arguments
num_col {mustBeInteger}
end
% Create the geometric progression
n = 0;
f1 = @(a,q,n) a*(1-q.^n)/(1-q);
% The length of expected result
while true
if (num_col > f1(26,26,n)) && (num_col <= f1(26,26,n+1))
break
else
n = n + 1;
end
end
len_id = n + 1;
ac_id = char();
formalid = f1(26,26,n); % The sum of previous intervals
curr = num_col - formalid; % The extra length in current interval
% The 1st character from the left
if curr/26.^(len_id-1) == fix(curr/26.^(len_id-1))
ac_id(1) = char(64+fix(curr/26.^(len_id-1)));
else
ac_id(1) = char(64+fix(curr/26.^(len_id-1)+1));
end
% From the 2nd character to the last but one character
for j=2:len_id-1
% Calculate the number of secondary interval included
% in the extra length
nomin = curr-power(26,len_id-j+1)*fix(curr/power(26,len_id-j+1));
% Calculate the number of sub-interval of the secondary interval
% included in the "remaining" range
denomin = power(26,len_id-j);
idk = nomin / denomin;
if idk == 0
ac_id(j) = char(64+26);
elseif (idk == fix(idk)) && (idk ~= 0)
idk = fix(idk);
ac_id(j) = char(64+idk);
else
idk = fix(idk)+1;
ac_id(j) = char(64+idk);
end
end
% The last character
if mod(curr,26) ~= 0
ac_id(len_id) = char(64+mod(curr,26));
else
ac_id(len_id) = char(64+26);
end
end
The output is the following
>> a = idx_xlsx(1368) % Random number
a = 'AZP'
>> b = idx_xlsx(3250) % 26*n (n = 1,2,...)
b = 'DTZ'
>> c = idx_xlsx(16384) % The maximum column of excel file
c = 'XFD'
I' ve tested it with a series of numbers, and I hope this code could be reliable and we could optimize it.

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