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I have a const std::map<const wchar_t*, const char*> which is in the global namespace. It looks like this:

.h file

typedef std::map<const wchar_t*, const char*> ShaderMap;

const ShaderMap::value_type rawShaderData[] = {
    ShaderMap::value_type( L"BasicShader_Vertex", 

const int ElementCount = 2; //Length of rawShaderData
extern ShaderMap ShaderProgramsMap;

.cpp file

ShaderMap ShaderProgramsMap = ShaderMap( rawShaderData, rawShaderData + ElementCount );

I'm trying to access it elsewhere in my code like this:

std::wstring shaderKey = std::wstring( name + L"_Vertex" );
pShaderData = ShaderProgramsMap[shaderKey.c_str()];

Using the debugger, shaderKey is "BasicShader_vertex" but pShaderData is NULL. Is the problem with comparing the value of std::wstring::c_str to const wchar_t* or is it something elsewhere in the code?

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Any reason to use std::map<const w_char_t*, const char*> instead of std::map<std::wstring, std::string> ? –  Ian Medeiros May 15 '13 at 20:21
Oh, and what'a the type of name? –  Ian Medeiros May 15 '13 at 20:22

2 Answers 2

std::wstring shaderKey1 = std::wstring( name + L"_Vertex" );
ShaderProgramsMap[shaderKey1.c_str()] = "Whatever";

std::wstring shaderKey2 = std::wstring( name + L"_Vertex" );
pShaderData = ShaderProgramsMap[shaderKey2.c_str()];

The pointer returned by shaderKey1.c_str() is not the same as shaderKey2.c_str(). They are 2 different strings which both allocated their own data and are giving you a pointer to that allocation. They happen to store the same data, but you are only looking at the pointers. If you want to search and sort by string make the key a std::wstring, not a const wchar_t*. Along the same lines, the value should also very likely be std::string, not const char*, but I'll leave you to decide that.

Another problem with your original approach is that the pointer returned by shaderKey.c_str() will be dangling as soon as shaderKey goes out of scope.

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Or keep the map<wchar_t const*, wchar_t const*>, use a custom comparator (that uses e.g. strcmp) and prepare for UB because of dangling pointers. –  dyp May 15 '13 at 20:34
@Dyp: If the map is initialized using string literals, as the question suggests, then the pointers won't dangle. –  Ben Voigt May 15 '13 at 20:59
@BenVoigt True, I meant it in the spirit of "if all map keys always point to objects of static storage duration" -> error-prone –  dyp May 15 '13 at 21:01

I don't actually see a std::map in your example code -- I see an array of std::map<>::value_type elements (i.e. const char*).

So, const ShaderMap::value_type ShaderProgramsMap[] = { ... };

is actually: std::pair<wchar_t const* const, char const*> const ShaderProgramsMap[] = { ... }

And, pShaderData = ShaderProgramsMap[shaderKey.c_str()];

is actually:

int nArrayIndex = int(shaderKey.c_str());
pShaderData = ShaderProgramsMap[nArrayIndex]; // actually an array, not a map
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You make a good point about the code in the question... but the problem you point out should be causing a compile error -- there's no implicit conversion from const char* to int. –  Ben Voigt May 15 '13 at 20:57
True -- Dave's answer is probably what the actual problem is, then –  Steven May 15 '13 at 21:03
I actually copied the wrong code, and didn't notice when I posted! Sorry about that, I updated it with the proper code. –  smoth190 May 15 '13 at 22:32

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