Exemplo n.º 1
0
static char	*get_params(char **params, char *cur_param)
{
    char	*str;
    int		i;
    int		j;
    char	*tmp;

    i = 0;
    j = 0;
    str = ft_strnew(ft_strlen(cur_param) - 1);
    while (cur_param[++i] != 0)
        if (!in_args(*params, str, cur_param[i]))
            str[j++] = cur_param[i];
    tmp = *params;
    *params = ft_strjoin(*params, str);
    free(tmp);
    free(str);
    return (*params);
}
Exemplo n.º 2
0
void CpInAdapterBase::AdapterImpl::AdaptPluginArguments (
    CpInPtr instance,
    const pI_bool initialized)
{

    pInPtr ip;

    try {
        ip = _base->GetpIn();
    } catch (...) {
        _base->_delete_impl = true;
        return;
    }

    Arguments in_args(ip->GetInputSignature());
    Arguments out_args(ip->GetOutputSignature());

    // in case both input and output argument lists are empty (odd plugin) do nothing but return
    if ((in_args.size() == 0) && (out_args.size() == 0)) {
        if (initialized == pI_FALSE) {
            instance->input_arg_signature = 0;
            instance->output_arg_signature = 0;
        }

        return;
    }

    // if input arguments already set, delete and rebuild them
    if ((initialized == pI_TRUE) &&
            (instance->input_arg_signature != 0) &&
            (instance->output_arg_signature != 0)) {
        // delete whole available argument list
        instance->plugin_runtime->FreeArgumentList (
            instance->plugin_runtime,
            instance->input_arg_signature,
            pI_TRUE,   // free arguments
            pI_TRUE);  // free argument data
        instance->plugin_runtime->FreeArgumentList (
            instance->plugin_runtime,
            instance->output_arg_signature,
            pI_TRUE,   // free arguments
            pI_TRUE);  // free argument data
    }

    // create the argument lists
    instance->input_arg_signature = instance->plugin_runtime->AllocateArgumentList (
                                        instance->plugin_runtime,
                                        in_args.size());

    if (instance->input_arg_signature == 0) {
        throw exception::MemoryException("CpInAdapter failed allocating argument memory");
    }

    instance->output_arg_signature = instance->plugin_runtime->AllocateArgumentList (
                                         instance->plugin_runtime,
                                         out_args.size());

    if (instance->output_arg_signature == 0) {
        throw exception::MemoryException("CpInAdapter failed allocating argument memory");
    }


    // fill the argument list with copies from c++ descriptors
    for (pI_size lv = 0; lv < in_args.size(); ++lv) {
        instance->input_arg_signature->list[lv] = instance->plugin_runtime->CopyArgument (
                    instance->plugin_runtime,
                    GetCArgument(in_args[lv]),
                    pI_TRUE); // copy data (on the other hand, this should not be necessary
        // do not throw an exception in case of out of memory - object is still valid
        if (instance->input_arg_signature->list[lv] == 0) {
            // BUT do set error code
            SET_PLUGIN_ERROR (
                instance,
                CpIn_Error_InsufficientMemory,
                "CpInAdapter failed in input argument cloning");
        }
    }

    for (pI_size lv = 0; lv < out_args.size(); ++lv) {
        instance->output_arg_signature->list[lv] =
            instance->plugin_runtime->CopyArgument (
                instance->plugin_runtime,
                GetCArgument(out_args[lv]),
                pI_TRUE); // copy data (on the other hand, this should not be necessary
        // do not throw an exception in case of out of memory - object is still valid
        if (instance->output_arg_signature->list[lv] == 0) {
            // BUT do set error code
            SET_PLUGIN_ERROR (
                instance,
                CpIn_Error_InsufficientMemory,
                "CpInAdapter failed in output argument cloning");
        }
    }
} // void CpInAdapterBase::AdapterImpl::AdaptPluginArguments()