// file : odb/mysql/result.txx // author : Boris Kolpackov // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #include namespace odb { namespace mysql { template result_impl:: ~result_impl () { } template result_impl:: result_impl (const query&, details::shared_ptr statement, object_statements& statements) : odb::result_impl (statements.connection ().database ()), statement_ (statement), statements_ (statements), count_ (0) { } template void result_impl:: load (object_type& obj) { if (count_ > statement_->fetched ()) fetch (); // This is a top-level call so the statements cannot be locked. // assert (!statements_.locked ()); typename object_statements::auto_lock l (statements_); typename object_traits::image_type& i (statements_.image ()); object_traits::init (obj, i, this->database ()); // Initialize the id image and binding and load the rest of the object // (containers, etc). // typename object_traits::id_image_type& idi (statements_.id_image ()); object_traits::init (idi, object_traits::id (i)); binding& idb (statements_.id_image_binding ()); if (idi.version != statements_.id_image_version () || idb.version == 0) { object_traits::bind (idb.bind, idi); statements_.id_image_version (idi.version); idb.version++; } object_traits::load_ (statements_, obj); statements_.load_delayed (); l.unlock (); } template typename result_impl::id_type result_impl:: load_id () { if (count_ > statement_->fetched ()) fetch (); return object_traits::id (statements_.image ()); } template void result_impl:: next () { this->current (pointer_type ()); // If we are cached, simply increment the position and // postpone the actual row fetching until later. This way // if the same object is loaded in between iteration, the // image won't be messed up. // count_++; if (statement_->cached ()) this->end_ = count_ > statement_->result_size (); else fetch (); } template void result_impl:: fetch () { // If the result is cached, the image can grow between calls // to fetch() as a result of other statements execution. // if (statement_->cached ()) { typename object_traits::image_type& im (statements_.image ()); if (im.version != statements_.out_image_version ()) { binding& b (statements_.out_image_binding ()); object_traits::bind (b.bind, im, true); statements_.out_image_version (im.version); b.version++; } } while (!this->end_ && count_ > statement_->fetched ()) { select_statement::result r (statement_->fetch ()); switch (r) { case select_statement::truncated: { // Don't re-fetch data we are skipping. // if (count_ != statement_->fetched ()) continue; typename object_traits::image_type& im (statements_.image ()); if (object_traits::grow (im, statements_.out_image_truncated ())) im.version++; if (im.version != statements_.out_image_version ()) { binding& b (statements_.out_image_binding ()); object_traits::bind (b.bind, im, true); statements_.out_image_version (im.version); b.version++; statement_->refetch (); } // Fall throught. } case select_statement::success: { break; } case select_statement::no_data: { this->end_ = true; break; } } } } template void result_impl:: cache () { if (!statement_->cached ()) { statement_->cache (); if (count_ >= statement_->result_size ()) this->end_ = true; } } template std::size_t result_impl:: size () { if (!statement_->cached ()) throw result_not_cached (); return statement_->result_size (); } } }