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I'm using std::error_code and have a bunch of error's defined (using enum class) and registered.

I have a very generic error now called my_error::validate, but want to provide more specific versions in my library. Generally people will want to use:

if (ec == bc::error::validate)
    // ...

However sometimes they may wish to see the specific error associated with that std::error_code or print the error message.

// ec.message() says "check_block() failed to do XYZ"
assert(ec == bc::error::check_block);

I want to be able to enable something like:

if (ec == bc::error::validate)
{
    if (ec == bc::error::check_block)
        // bc::error::check_block is a more specific case of bc::error::validate
}

It seems I can somehow use categories or conditions? How can I do that without needing to define a whole bunch of new error enums? It's for a library so it would be a pain for the user of that library to have to use bc::generic_error::validate and bc::error::check_block.

Code is below:

#include <system_error>

namespace bc {

enum class error
{
    // storage errors
    missing_object = 1,
    object_already_exists,
    unspent_output,
    // transaction_pool errors
    bad_transaction,
    // network errors
    resolve_failed,
    network_unreachable,
    address_in_use,
    listen_failed,
    accept_failed,
    bad_stream,
    channel_stopped,
    channel_timeout,
    // validate
    validate_failed,
    check_block,
    accept_block,
    connect_block
};

class error_category_impl
  : public std::error_category
{
public:
    virtual const char* name() const;
    virtual std::string message(int ev) const;
    virtual std::error_condition default_error_condition(int ev) const;
};

const std::error_category& error_category();

std::error_code make_error_code(error e);
std::error_condition make_error_condition(error e);

} // bc

namespace std
{
    template <>
    struct is_error_code_enum<libbitcoin::error>
      : public true_type {};
}

And the TU source file:

#include <bc/error.hpp>

namespace bc {

const char* error_category_impl::name() const
{
    return "bitcoin";
}

std::string error_category_impl::message(int ev) const
{
    error ec = static_cast<error>(ev);
    switch (ec)
    {
        case error::missing_object:
            return "Object does not exist";
        case error::object_already_exists:
            return "Matching previous object found";
        case error::unspent_output:
            return "Unspent output";
        case error::bad_transaction:
            return "Transaction failed to validate";
        case error::resolve_failed:
            return "Resolving hostname failed";
        case error::network_unreachable:
            return "Unable to reach remote network";
        case error::address_in_use:
            return "Address already in use";
        case error::listen_failed:
            return "Listen incoming connections failed";
        case error::accept_failed:
            return "Accept connection failed";
        case error::bad_stream:
            return "Bad stream";
        case error::channel_stopped:
            return "Channel stopped";
        case error::channel_timeout:
            return "Channel timed out";
        default:
            return "Unknown error";
    }
}

std::error_condition
    error_category_impl::default_error_condition(int ev) const
{
    error ec = static_cast<error>(ev);
    switch (ec)
    {
        case error::check_block:
        case error::accept_block:
        case error::connect_block:
            //return error::validate_failed;
            return std::errc::permission_denied;
        default:
            return std::error_condition(ev, *this);
    }
}

const std::error_category& error_category()
{
    static error_category_impl instance;
    return instance;
}

std::error_code make_error_code(error e)
{
    return std::error_code(static_cast<int>(e), error_category());
}

std::error_condition make_error_condition(error e)
{
    return std::error_condition(static_cast<int>(e), error_category());
}

} // bc
share|improve this question

1 Answer 1

up vote 3 down vote accepted

OK I got help from the boost::asio and std::error_code creator and master himself: Chris Kohlhoff.

When using ADL, a good rule of thumb is that it should not need any qualifier (error::error_code_t in my case), and I was in the wrong scope.

#include <iostream>
#include <system_error>

namespace libbitcoin {

namespace error
{
    // Specific errors
    enum error_code_t
    {
        // storage errors
        missing_object = 1,
        object_already_exists,
        unspent_output,
        // transaction_pool errors
        bad_transaction,
        // network errors
        resolve_failed,
        network_unreachable,
        address_in_use,
        listen_failed,
        accept_failed,
        bad_stream,
        channel_stopped,
        channel_timeout,
        // validate
        check_block,
        accept_block,
        connect_block
    };

    // error_condition
    enum error_condition_t
    {
        // validate
        validate_failed = 1
    };

    std::error_code make_error_code(error_code_t e);
    std::error_condition make_error_condition(error_condition_t e);
}

class error_category_impl
  : public std::error_category
{
public:
    virtual const char* name() const;
    virtual std::string message(int ev) const;
    virtual std::error_condition default_error_condition(int ev) const;
};

const std::error_category& error_category();

} // libbitcoin

namespace std
{
    template <>
    struct is_error_code_enum<libbitcoin::error::error_code_t>
      : public true_type {};

    template <>
    struct is_error_condition_enum<libbitcoin::error::error_condition_t>
      : public true_type {};
}

// -------------------------------------------------------------------

namespace libbitcoin {

namespace error {
std::error_code make_error_code(error_code_t e)
{
    return std::error_code(static_cast<int>(e), error_category());
}

std::error_condition make_error_condition(error_condition_t e)
{
    return std::error_condition(static_cast<int>(e), error_category());
}
}

const char* error_category_impl::name() const
{
    return "bitcoin";
}

std::string error_category_impl::message(int ev) const
{
    //error ec = static_cast<error>(ev);
    switch (ev)
    {
        case error::missing_object:
            return "Object does not exist";
        case error::object_already_exists:
            return "Matching previous object found";
        case error::unspent_output:
            return "Unspent output";
        case error::bad_transaction:
            return "Transaction failed to validate";
        case error::resolve_failed:
            return "Resolving hostname failed";
        case error::network_unreachable:
            return "Unable to reach remote network";
        case error::address_in_use:
            return "Address already in use";
        case error::listen_failed:
            return "Listen incoming connections failed";
        case error::accept_failed:
            return "Accept connection failed";
        case error::bad_stream:
            return "Bad stream";
        case error::channel_stopped:
            return "Channel stopped";
        case error::channel_timeout:
            return "Channel timed out";
        case error::check_block:
            return "Checkblk";
        default:
            return "Unknown error";
    }
}

std::error_condition
    error_category_impl::default_error_condition(int ev) const
{
    //error ec = static_cast<error>(ev);
    switch (ev)
    {
        case error::check_block:
        case error::accept_block:
        case error::connect_block:
            return std::error_condition(error::validate_failed, *this);
        default:
            return std::error_condition(ev, *this);
    }
}

const std::error_category& error_category()
{
    static error_category_impl instance;
    return instance;
}

} // libbitcoin

using namespace libbitcoin;

#include <assert.h>

int main()
{
    std::error_code ec = error::check_block;
    assert(ec == error::validate_failed);
    assert(ec == error::check_block);
    std::cout << ec.message() << std::endl;
    //ec = error::missing_object;
    return 0;
}
share|improve this answer
1  
Very interesting ! There is not much examples right now on how to implement custom error message in C++11, so your answer is a very valuable resource. For the record I did studied a bit your question, realized that you have to make validate an error_condition and map it to accept_block/check_block etc but couldn't figure how. It's quite amusing to see that eventually in this case plain enum are better than C++11 enum class precisely because they have global visibility in their namespace ! –  Thomas Petit Mar 19 '12 at 23:41
    
Also it's quite cool to see that <system_error> is sufficiently well designed to support a moderately complex error framework like yours, with this error code partitioning business. I just wish they found a way during standardization to simplify the system a bit more somehow, it's still really hard to figure out how it work at first sight. –  Thomas Petit Mar 19 '12 at 23:52
1  
Yep, I think it's a pretty cool system :) Source code is available here for all interested: gitorious.org/libbitcoin/libbitcoin/trees/master (see include/error.hpp and src/error.cpp) –  genjix Mar 20 '12 at 12:11
    
One nice thing would be that: now I've split error::check_block into even finer grained errors, and it would be good to somehow alias those errors to a error::check_block category which is equivalent to error::validate_block. I think it's possible by overriding the equivalent(...) function in the error category but it's not a big concern at the moment. –  genjix Mar 20 '12 at 12:27

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