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I have this program, a WIP assembler that only lexes right now:

int main() {
    std::cout << "\nzazz assembler\n" << std::endl;
    std::unique_ptr<LexerInstance> lexer = std::make_unique<LexerInstance>();
    // Test input
    std::string source = "-off 0xFFFC0000\n-entry start\n\nstart:\n\tmv mri, interrupt_table\n";
    lexer->loadSource(source);
    LexerTokenData tokens = lexer->retrieveTokens();
    if (tokens.token_data == nullptr) {
        std::cout << "Error: tokens: " << tokens.token_count << std::endl;
        return -1;
    }
    for (uint64_t i = 0; i < tokens.token_count; i++) {
        std::cout << "\tToken: " << tokens[i].value << std::endl;
    }
    return 0;
    // Seg fault on `delete[] this->token_data` in `~LexerTokenData()`
}

As the comment notes, my debugging has led me to locate the source of the error to originate when (implicitly, because stack) calling the ~LexerTokenData() destructor; more specifically, when deleting the token_data array.

This is the LexerInstance::retrieveTokens() method where the LexerTokenData is generated:

LexerTokenData LexerInstance::retrieveTokens() {
    if (!this->tokens_loaded) {
        int status = this->generate_tokens();
        if (status < 0) {
            LexerTokenData token_return = LexerTokenData();
            token_return.token_data = nullptr;
            token_return.token_count = status;
            return token_return;
        }
    }
    LexerTokenData token_return = LexerTokenData();
    token_return.token_data = new LexerToken[this->tokens->size()];
    wmemcpy((wchar_t *)(token_return.token_data), (wchar_t *)(this->tokens->data()), (this->tokens->size() * sizeof(LexerToken)) / sizeof(wchar_t));
    token_return.token_count = this->tokens->size();
    return token_return;
}

This is the ~LexerTokenData() destructor:

LexerTokenData::~LexerTokenData() {
    // The actual error arises in the line below
    delete[] this->token_data;
}

And finally, this is the output of the program:

zazz assembler

        Token: -off
        Token: 0xFFFC0000
        Token: -entry
        Token: start
        Token: start:
        Token: mv
        Token: mri,
        Token: interrupt_table
munmap_chunk(): invalid pointer
<ABORT>

I know that the munmap_chunk() function is a Linux system call, and this error arises usually when freeing an allocation not made by the allocator. However, I cannot locate any mix-ups in the addresses. Other than this error arising at the end of the program, the program works exactly as intended so far. It seems to be an issue that deals with compiler/system semantics, and I'm not well versed enough to debug this with confidence.

There are no compiler errors, or even any warnings.

For what this is worth, however, I isolated the specific error to this line, in bits/new_allocator.h:

#if __cpp_aligned_new
    if (alignof(_Tp) > __STDCPP_DEFAULT_NEW_ALIGNMENT__)
      {
        _GLIBCXX_OPERATOR_DELETE(_GLIBCXX_SIZED_DEALLOC(__p, __n),
                     std::align_val_t(alignof(_Tp)));
        return;
      }
#endif
    _GLIBCXX_OPERATOR_DELETE(_GLIBCXX_SIZED_DEALLOC(__p, __n));
    // It occurs here, when __p is "interrupt_table" and __n is a nonsensically large number
    // How the execution followed to this state, I am completely unsure
      }

EDIT: Relevant type definitions:

typedef struct {
    std::string value;
    LexerTokenType type; // enum
} LexerToken;

class LexerTokenData {

public:
    LexerTokenData();
    ~LexerTokenData();
    LexerToken operator[](uint64_t index);
    LexerToken* token_data;
    uint64_t token_count;

};

class LexerInstance {

public:
    LexerInstance();
    ~LexerInstance();

    int loadSource(std::string& source);
    LexerTokenData retrieveTokens();
    LexerFilePosition getHeadPosition();

// Mfw when I accidentally follow the correct naming convention for private methods
private:
    int generate_tokens();
    LexerTokenType get_token_type(std::string text);
    std::string* source_text;
    uint64_t source_text_size;
    std::vector<LexerToken>* tokens;
    bool tokens_loaded;
    uint64_t lex_head_index;

};

And the full code: https://pst.innomi.net/paste/dymz7fh7ch39mp5htqss2zvv

I cannot share any more code, because there is no more to provide.

NOTE: I am a native C programmer, and I'm dipping my toes into C++ to expand my horizons. I write my C++ code with a lot of subconscious C-style biases, which should help explain my memcpy tendencies and whatnot.

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    You REALLY don't want to memcpy() into a C++ object. Besides, from the looks of it, you're dividing the size on your copy, so you're only copying half of the data you want to copy... Apr 20 at 16:20
  • What is the definition of LexerTokenData? The memcpy seems a bit suspect. You are corrupting memory somewhere and that could be it. If you have AddressSanitizer available I'd use it to see if you can catch the problem where it happens. A minimal reproducible example would be helpful. Apr 20 at 16:21
  • Please try to create a minimal reproducible example to show us. Apr 20 at 16:23
  • 1
    You may be doubtful about the memcpy being the issue, but you're also here asking why you have a memory corruption problem. Best not to dismiss anything at this point. Apr 20 at 16:30
  • 1
    That isn't a minimal reproducible example. I could copy/paste/compile an actual example. Anyway, your problem is using memcpy to overwrite a std::string. You can't do that. Apr 20 at 16:33

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