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This question already has an answer here:

There are some posts on this matter but I wanted to double check. In Joel Spoolsky's article (link) one reads:

In C++ code we just declare strings as wchar_t ("wide char") instead of char and use the wcs functions instead of the str functions (for example wcscat and wcslen instead of strcat and strlen). To create a literal UCS-2 string in C code you just put an L before it as so: L"Hello".

My question is: Is what is written above, not enough to support Unicodes in a C++ app?

My confusions started when I couldn't output simple text like (in Russian):

wcout<<L"логин";

in console.

Also, recently I saw some code written for an embedded device where one person handles I think Unicode related strings using wchar_t.

Any help greatly appreciated.

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marked as duplicate by Bartek Banachewicz, Sebastian Redl, n.m., Balog Pal, Joe Gauterin Jun 26 '13 at 23:04

This question was marked as an exact duplicate of an existing question.

    
What exactly do you mean by C++? Do you want to be portable, or do you only care about Windows. The quote in the question is old and Windows specific. – David Heffernan Jun 26 '13 at 11:53
2  
Maybe this can help? – dyp Jun 26 '13 at 11:54
2  
You probably just printed characters the console was incapable of printing. – chris Jun 26 '13 at 11:55
1  
wchar_t doesn't really have anything to do with encoding AFAIK (wide character/string literals are using the extended source character set.. but that's about it). – dyp Jun 26 '13 at 11:56
    
You chould set the console (programmatically) to be able to output Russian text. Using wchar only is not enough. – SChepurin Jun 26 '13 at 11:57

This works in C++11 on a linux, utf8 machine:

#include <iostream>

int main(int, char**) {
  std::cout << u8"Humberto Massa Guimarães\nлогин\n";
}
share|improve this answer
    
To not further pollute the comment section in the OP: wchar_t is only specified to be at least 16 bit wide. On some Linux systems with g++ (on many?) it is 32 bit wide. Nothing of this has anything to do with encoding. char16_t supersedes wchar_t as a container for UTF-16 because it is specified to be exactly 16 bit wide. – dyp Jun 26 '13 at 13:25
    
Also see wikipedia's entry on wide characters -> wchar_t has been introduced in C90 (-> not for windows most probably) – dyp Jun 26 '13 at 13:28
    
IIRC, @DyP, Windows and OS/2 were the first widespread ocidental OSs that got locales with 16-bit characters (at the time, without something that resembled the Internet, we only had heard about JIS encoding as a 16-bit encoding). Everyone else was using 8-bit encodings, mostly based on the IBM 8bit code pages. And yes, that was 1986 or so. I recall having a conversation with a college buddy of mine in 1988 about that and he was terrified "but all strings waste twice the memory! preposterous!". At the time we had 1.4MB floppies and 10MB HDDs. – Massa Jun 26 '13 at 14:57

First, you can not print non-english characters in command-line

Second, briefly; UNICODE uses two bytes for every character and char uses single byte. For example string "ABC" will be stored in char as ABC\0 (3 bytes + end_of_string_character)

but in UNICODE will be stored as A\0B\0C\0\0\0 (6 + end_of_string_character which is two bytes like other characters)

For view some text, I suggest you to MessageBoxW:

First include windows header file: #include <windows.h>

Second use MessageBoxW API function:

MessageBoxW(0, L"UNICODE text body", L"title", MB_ICONINFORMATION);
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2  
First: No?! (even in windows you can print unicode characters on the command line) Second: No?! (even in UTF-16, there are 2-code-unit characters, IIRC the Supplementary Multilingual Plane) – dyp Jun 26 '13 at 12:28
2  
1995 called. They want their "UNICODE" back. – R. Martinho Fernandes Jun 26 '13 at 12:36
    
Oh and I also fell for it :( -- there are no Unicode characters, only e.g. UTF-8-encoded-characters. What is meant of course is non-ASCII characters. – dyp Jun 26 '13 at 12:40
1  
@DyP there are actually sixteen planes with code points that require 2 UTF-16 code units. About 94% of all Unicode code points require four bytes in UTF-16. About 55% of all currently assigned code points, as of Unicode 6.2, require four bytes in UTF-16. (Keep in mind, however, that this does not mean they show up 55% of the time) – R. Martinho Fernandes Jun 26 '13 at 12:46

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