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The question

How can you change all accented letters to normal letters in C++ (or in C)?

By that, I mean something like eéèêaàäâçc would become eeeeaaaacc.

What I've already tried

I've tried just parsing the string manually and replacing each one of them one by one, but I was thinking there has to be a better/simpler way that I am not aware of (that would garantee I do not forget any accented letter).

I am wondering if there is already a map somewhere in the standard library or if all the accented characters can easily be mapped to the "normal" letter using some mathematic function (ex. floor(charCode-131/5) + 61)).

share|improve this question
Where should the mapping be found? – PreferenceBean Dec 30 '12 at 21:03
Doubtful. At best it'll be locale-dependent. – PreferenceBean Dec 30 '12 at 21:05
What's the encoding of the input? If it's latin1, you can just use a lookup table with replacement characters. If it's UTF-8, for example, you have the problem of normalization, which makes it hard. – Daniel Fischer Dec 30 '12 at 21:14
Can someone tell me why is this conversion ever needed in anywhere? – Rookie Dec 31 '12 at 0:13
up vote 6 down vote accepted

You should first define what you mean by "accented letters" what has to be done is largely different if what you have is say some extended 8 bits ASCII with a national codepage for codes above 128, or say some utf8 encoded string.

However you should have a look at libicu which provide what is necessary for good unicode based accented letters manipulation.

But it won't solve all problems for you. For instance what should you do if you get some chinese or russian letter ? What should you do if you get the Turkish uppercase I with point ? Remove the point on this "I" ? Doing so it would change the meaning of the text... etc. This kind of problems are endless with unicode. Even conventional sorting order depends of the country...

share|improve this answer

I know it only in theory. Basically, you perform Unicode normalization, then some decomposition, purge all diacritics, and recompose again.

share|improve this answer
char* removeAccented( char* str ) {
    char *p = str;
    while ( (*p)!=0 ) {
        const char*
        //   "ÀÁÂÃÄÅÆÇÈÉÊËÌÍÎÏÐÑÒÓÔÕÖ×ØÙÚÛÜÝÞßàáâãäåæçèéêëìíîïðñòóôõö÷øùúûüýþÿ"
        tr = "AAAAAAECEEEEIIIIDNOOOOOx0UUUUYPsaaaaaaeceeeeiiiiOnooooo/0uuuuypy";
        unsigned char ch = (*p);
        if ( ch >=192 ) {
            (*p) = tr[ ch-192 ];
        ++p; //
    return str;
share|improve this answer
This works only for ISO-Latin-1 encoding – Erbureth Jan 26 at 12:24

Assuming the values are just chars, I'd create an array with the desired target values and then just replace each character with the corresponding member in the array:

char replacement[256];
int n(0);
std::generate_n(replacement, 256, [=]() mutable -> unsigned char { return n++; });
replacement[static_cast<unsigned char>('é')] = 'e';
// ...
std::transform(s.begin(), s.end(), s.begin(),
               [&](unsigned char c){ return replacement[c]; });

Since the question is also tagged with C: when using C you'd need to create suitable loops to do the same operations but conceptually it would just same way. Similarily, if you can't use C++ 2011, you'd just use suitable function objects instead of the lambda functions.

Obviously, the replacement array can be set up just once and using a smarter approach than what is outlined above. However, the principle should work. If you need to replace Unicode characters thing become a bit more interesting, though: For one, the array would be fairly large and in addition the character may need multiple words to be changed.

share|improve this answer
"Assuming" --- that's one big assumption. – n.m. Dec 30 '12 at 21:45
They aren't chars, at least if the input is UTF-8, which it should be. – phihag Dec 31 '12 at 1:54
@phihag: It seems the characters mentioned are covered by ISO/IEC 8859-1 (ISO Latin1). If this is sufficient why bother with UTF-8? Also, the statement about the formula seems to indicate a somewhat simplistic approach to represent these characters. – Dietmar Kühl Dec 31 '12 at 2:00
@DietmarKühl The characters may be covered by Latin-1, but are not necessarily encoded in Latin-1. – phihag Dec 31 '12 at 2:03

Here is what you can do using ISO/IEC 8859-1 (ASCII-based standard character encoding):

  • if code range is from 192 - 197 replace with A
  • if code range is from 224 - 229 replace with a
  • if code range is from 200 - 203 replace with E
  • if code range is from 232 - 235 replace with e
  • if code range is from 204 - 207 replace with I
  • if code range is from 236 - 239 replace with i
  • if code range is from 210 - 214 replace with O
  • if code range is from 242 - 246 replace with o
  • if code range is from 217 - 220 replace with U
  • if code range is from 249 - 252 replace with u

Supposing x is the code of the number, perform the following for capital letters:

  • y = floor((x - 192) / 6)
  • if y <= 2 then z = ((y + 1) * 4) + 61 else z = (y * 6) + 61

Perform the following for small letters:

  • y = floor((x - 224) / 6)
  • if y <= 2 then z = ((y + 1) * 4) + 93 else z = (y * 6) + 93

The final answer z is the ASCII code of the required alphabet.
Note that this method works only if you are using ISO/IEC 8859-1.

share|improve this answer
ASCII doesn't specify anything beyond code 127. – Alexandre C. Dec 30 '12 at 21:50
This worked form me in Java, I guess it should work in C++. Tell me if it doesn't. – bane Dec 30 '12 at 21:51
It will certainly work with ASCII in a trivial way, because there are no characters greater than 127 there. It may work with something that is not ASCII, and it will probably not work with other things that are not ASCII. – n.m. Dec 30 '12 at 22:07
If we are restricted to the 0-255 range I would probably use a lookup table instead of all those ifs. – Matteo Italia Dec 30 '12 at 23:12
-1 Claiming extended ASCII has any meaning – EvilTeach Dec 30 '12 at 23:14

I am afraid there is no easy way around here.

In application I work on this was solved by using internal codepage tables, each codepage table (like 1250, 1251, 1252, etc) contained actual codepage letter and non-diacritic equivalent. Tables were auto generated using c#, it contains some classes that really make that easy (with some heuristics actually), also java allows to implement it quicly.

This was actually for multibyte data with codepages, but it could be used for UNICODE strings (by just searching all tables for given unicode letter).

share|improve this answer
Im interested, why is this conversion ever needed? – Rookie Dec 31 '12 at 0:12
ie. in searching, user will enter only ASCII characters but be allowed to search texts that contain characters with diacritics. – Marcin Jędrzejewski Dec 31 '12 at 20:53

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