/*!
* \brief convert between native usrp format and output item format
*
- * \param output_items[out] stream(s) of output items
- * \param output_index[in] starting index in output_items
- * \param output_items_available[in] number of empty items available at item[index]
- * \param output_items_produced[out] number of items produced by copy
- * \param usrp_buffer[in] source buffer
- * \param usrp_buffer_length[in] number of bytes available in \p usrp_buffer
- * \param bytes_read[out] number of bytes read from \p usrp_buffer
+ * \param[out] output_items stream(s) of output items
+ * \param[in] output_index starting index in output_items
+ * \param[in] output_items_available number of empty items available at item[index]
+ * \param[out] output_items_produced number of items produced by copy
+ * \param[in] usrp_buffer source buffer
+ * \param[in] usrp_buffer_length number of bytes available in \p usrp_buffer
+ * \param[out] bytes_read number of bytes read from \p usrp_buffer
*
* The copy must consume all bytes available. That is, \p bytes_read must equal
* \p usrp_buffer_length.
* \param chan which DDC channel we're controlling (almost always 0).
* \param db the daughterboard we're controlling.
* \param target_freq the RF frequency we want at DC in the complex baseband.
- * \param[out] tune_result details how the hardware was configured.
+ * \param[out] result details how the hardware was configured.
*
* \returns true iff everything was successful.
*/