// file : odb/relational/sqlite/source.cxx // author : Boris Kolpackov // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v3; see accompanying LICENSE file #include #include #include using namespace std; namespace relational { namespace sqlite { namespace source { namespace relational = relational::source; // // bind // struct bind_member: relational::bind_member, member_base { bind_member (base const& x) : member_base::base (x), // virtual base base (x), member_base (x) { } virtual bool pre (member_info& mi) { if (container (mi)) return false; ostringstream ostr; ostr << "b[n]"; b = ostr.str (); arg = arg_override_.empty () ? string ("i") : arg_override_; if (var_override_.empty ()) { os << "// " << mi.m.name () << endl << "//" << endl; if (inverse (mi.m, key_prefix_) || version (mi.m)) os << "if (sk == statement_select)" << "{"; // If the whole class is readonly, then we will never be // called with sk == statement_update. // else if (!readonly (*context::top_object)) { semantics::class_* c; if (id (mi.m) || readonly (mi.m) || ((c = composite (mi.t)) && readonly (*c))) os << "if (sk != statement_update)" << "{"; } } return true; } virtual void post (member_info& mi) { if (var_override_.empty ()) { semantics::class_* c; if ((c = composite (mi.t))) { bool ro (readonly (*c)); column_count_type const& cc (column_count (*c)); os << "n += " << cc.total << "UL"; // select = total // insert = total - inverse // update = total - inverse - readonly // if (cc.inverse != 0 || (!ro && cc.readonly != 0)) { os << " - (" << endl << "sk == statement_select ? 0 : "; if (cc.inverse != 0) os << cc.inverse << "UL"; if (!ro && cc.readonly != 0) { if (cc.inverse != 0) os << " + "; os << "(" << endl << "sk == statement_insert ? 0 : " << cc.readonly << "UL)"; } os << ")"; } os << ";"; } else os << "n++;"; bool block (false); // The same logic as in pre(). // if (inverse (mi.m, key_prefix_) || version (mi.m)) block = true; else if (!readonly (*context::top_object)) { semantics::class_* c; if (id (mi.m) || readonly (mi.m) || ((c = composite (mi.t)) && readonly (*c))) block = true; } if (block) os << "}"; else os << endl; } } virtual void traverse_composite (member_info& mi) { os << "composite_value_traits< " << mi.fq_type () << " >::bind (b + n, " << arg << "." << mi.var << "value, sk);"; } virtual void traverse_integer (member_info& mi) { os << b << ".type = sqlite::bind::integer;" << b << ".buffer = &" << arg << "." << mi.var << "value;" << b << ".is_null = &" << arg << "." << mi.var << "null;"; } virtual void traverse_real (member_info& mi) { os << b << ".type = sqlite::bind::real;" << b << ".buffer = &" << arg << "." << mi.var << "value;" << b << ".is_null = &" << arg << "." << mi.var << "null;"; } virtual void traverse_text (member_info& mi) { os << b << ".type = sqlite::bind::text;" << b << ".buffer = " << arg << "." << mi.var << "value.data ();" << b << ".size = &" << arg << "." << mi.var << "size;" << b << ".capacity = " << arg << "." << mi.var << "value.capacity ();" << b << ".is_null = &" << arg << "." << mi.var << "null;"; } virtual void traverse_blob (member_info& mi) { os << b << ".type = sqlite::bind::blob;" << b << ".buffer = " << arg << "." << mi.var << "value.data ();" << b << ".size = &" << arg << "." << mi.var << "size;" << b << ".capacity = " << arg << "." << mi.var << "value.capacity ();" << b << ".is_null = &" << arg << "." << mi.var << "null;"; } private: string b; string arg; }; entry bind_member_; // // grow // struct grow_member: relational::grow_member, member_base { grow_member (base const& x) : member_base::base (x), // virtual base base (x), member_base (x) { } virtual bool pre (member_info& mi) { if (container (mi)) return false; ostringstream ostr; ostr << "t[" << index_ << "UL]"; e = ostr.str (); if (var_override_.empty ()) os << "// " << mi.m.name () << endl << "//" << endl; return true; } virtual void post (member_info& mi) { if (semantics::class_* c = composite (mi.t)) index_ += column_count (*c).total; else index_++; } virtual void traverse_composite (member_info& mi) { os << "if (composite_value_traits< " << mi.fq_type () << " >::grow (" << endl << "i." << mi.var << "value, t + " << index_ << "UL))" << "{" << "grew = true;" << "}"; } virtual void traverse_integer (member_info&) { os << e << " = false;" << endl; } virtual void traverse_real (member_info&) { os << e << " = false;" << endl; } virtual void traverse_string (member_info& mi) { os << "if (" << e << ")" << endl << "{" << "i." << mi.var << "value.capacity (i." << mi.var << "size);" << "grew = true;" << "}"; } private: string e; }; entry grow_member_; // // init image // struct init_image_member: relational::init_image_member, member_base { init_image_member (base const& x) : member_base::base (x), // virtual base base (x), member_base (x), member_database_type_id_ (base::type_override_, base::fq_type_override_, base::key_prefix_) { } virtual bool pre (member_info& mi) { // Ignore containers (they get their own table) and inverse // object pointers (they are not present in this binding). // if (container (mi) || inverse (mi.m, key_prefix_)) return false; if (!member_override_.empty ()) member = member_override_; else { // If we are generating standard init() and this member // contains version, ignore it. // if (version (mi.m)) return false; string const& name (mi.m.name ()); member = "o." + name; os << "// " << name << endl << "//" << endl; // If the whole class is readonly, then we will never be // called with sk == statement_update. // if (!readonly (*context::top_object)) { semantics::class_* c; if (id (mi.m) || readonly (mi.m) || ((c = composite (mi.t)) && readonly (*c))) os << "if (sk == statement_insert)"; } } // If this is a wrapped composite value, then we need to // "unwrap" it. For simple values this is taken care of // by the value_traits specializations. // if (mi.wrapper != 0 && composite (mi.t)) { // Here we need the wrapper type, not the wrapped type. // member = "wrapper_traits< " + mi.fq_type (false) + " >::" + "get_ref (" + member + ")"; } if (composite (mi.t)) { os << "{"; traits = "composite_value_traits< " + mi.fq_type () + " >"; } else { // When handling a pointer, mi.t is the id type of the referenced // object. // semantics::type& mt (member_utype (mi.m, key_prefix_)); if (semantics::class_* c = object_pointer (mt)) { type = "obj_traits::id_type"; db_type_id = member_database_type_id_.database_type_id (mi.m); // Handle NULL pointers and extract the id. // os << "{" << "typedef object_traits< " << class_fq_name (*c) << " > obj_traits;"; if (weak_pointer (mt)) { os << "typedef pointer_traits< " << mi.fq_type () << " > wptr_traits;" << "typedef pointer_traits< wptr_traits::" << "strong_pointer_type > ptr_traits;" << endl << "wptr_traits::strong_pointer_type sp (" << "wptr_traits::lock (" << member << "));"; member = "sp"; } else os << "typedef pointer_traits< " << mi.fq_type () << " > ptr_traits;" << endl; os << "i." << mi.var << "null = ptr_traits::null_ptr (" << member << ");" << "if (!i." << mi.var << "null)" << "{" << "const " << type << "& id (" << endl; if (lazy_pointer (mt)) os << "ptr_traits::object_id< ptr_traits::element_type > (" << member << ")"; else os << "obj_traits::id (ptr_traits::get_ref (" << member << "))"; os << ");" << endl; member = "id"; } else { type = mi.fq_type (); db_type_id = member_database_type_id_.database_type_id (mi.m); os << "{"; } traits = "sqlite::value_traits<\n " + type + ",\n " + db_type_id + " >"; } return true; } virtual void post (member_info& mi) { if (composite (mi.t)) os << "}"; else { // When handling a pointer, mi.t is the id type of the referenced // object. // if (object_pointer (member_utype (mi.m, key_prefix_))) { os << "}"; if (!null (mi.m, key_prefix_)) os << "else" << endl << "throw null_pointer ();"; } os << "}"; } } virtual void traverse_composite (member_info& mi) { os << "if (" << traits << "::init (" << endl << "i." << mi.var << "value," << endl << member << "," << endl << "sk))" << endl << "grew = true;"; } virtual void traverse_integer (member_info& mi) { os << traits << "::set_image (" << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "null," << endl << member << ");"; } virtual void traverse_real (member_info& mi) { os << traits << "::set_image (" << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "null," << endl << member << ");"; } virtual void traverse_string (member_info& mi) { os << "std::size_t cap (i." << mi.var << "value.capacity ());" << traits << "::set_image (" << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "size," << endl << "i." << mi.var << "null," << endl << member << ");" << "grew = grew || (cap != i." << mi.var << "value.capacity ());"; } private: string type; string db_type_id; string member; string traits; member_database_type_id member_database_type_id_; }; entry init_image_member_; // // init value // struct init_value_member: relational::init_value_member, member_base { init_value_member (base const& x) : member_base::base (x), // virtual base base (x), member_base (x), member_database_type_id_ (base::type_override_, base::fq_type_override_, base::key_prefix_) { } virtual bool pre (member_info& mi) { if (container (mi)) return false; if (!member_override_.empty ()) member = member_override_; else { string const& name (mi.m.name ()); member = "o." + name; if (mi.cq) member = "const_cast< " + mi.fq_type (false) + "& > (" + member + ")"; os << "// " << name << endl << "//" << endl; } // If this is a wrapped composite value, then we need to // "unwrap" it. For simple values this is taken care of // by the value_traits specializations. // if (mi.wrapper != 0 && composite (mi.t)) { // Here we need the wrapper type, not the wrapped type. // member = "wrapper_traits< " + mi.fq_type (false) + " >::" + "set_ref (\n" + member + ")"; } if (composite (mi.t)) traits = "composite_value_traits< " + mi.fq_type () + " >"; else { // When handling a pointer, mi.t is the id type of the referenced // object. // semantics::type& mt (member_utype (mi.m, key_prefix_)); if (semantics::class_* c = object_pointer (mt)) { type = "obj_traits::id_type"; db_type_id = member_database_type_id_.database_type_id (mi.m); // Handle NULL pointers and extract the id. // os << "{" << "typedef object_traits< " << class_fq_name (*c) << " > obj_traits;" << "typedef pointer_traits< " << mi.fq_type () << " > ptr_traits;" << endl << "if (i." << mi.var << "null)" << endl; if (null (mi.m, key_prefix_)) os << member << " = ptr_traits::pointer_type ();"; else os << "throw null_pointer ();"; os << "else" << "{" << type << " id;"; member = "id"; } else { type = mi.fq_type (); db_type_id = member_database_type_id_.database_type_id (mi.m); } traits = "sqlite::value_traits<\n " + type + ",\n " + db_type_id + " >"; } return true; } virtual void post (member_info& mi) { if (composite (mi.t)) return; // When handling a pointer, mi.t is the id type of the referenced // object. // semantics::type& mt (member_utype (mi.m, key_prefix_)); if (object_pointer (mt)) { if (!member_override_.empty ()) member = member_override_; else { member = "o." + mi.m.name (); if (mi.cq) member = "const_cast< " + mi.fq_type (false) + "& > (" + member + ")"; } if (lazy_pointer (mt)) os << member << " = ptr_traits::pointer_type (db, id);"; else os << "// If a compiler error points to the line below, then" << endl << "// it most likely means that a pointer used in a member" << endl << "// cannot be initialized from an object pointer." << endl << "//" << endl << member << " = ptr_traits::pointer_type (" << endl << "db.load< obj_traits::object_type > (id));"; os << "}" << "}"; } } virtual void traverse_composite (member_info& mi) { os << traits << "::init (" << endl << member << "," << endl << "i." << mi.var << "value," << endl << "db);" << endl; } virtual void traverse_integer (member_info& mi) { os << traits << "::set_value (" << endl << member << "," << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "null);" << endl; } virtual void traverse_real (member_info& mi) { os << traits << "::set_value (" << endl << member << "," << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "null);" << endl; } virtual void traverse_string (member_info& mi) { os << traits << "::set_value (" << endl << member << "," << endl << "i." << mi.var << "value," << endl << "i." << mi.var << "size," << endl << "i." << mi.var << "null);" << endl; } private: string type; string db_type_id; string traits; string member; member_database_type_id member_database_type_id_; }; entry init_value_member_; struct container_traits: relational::container_traits, context { container_traits (base const& x): base (x) {} virtual void cache_result (string const&) { // Caching is not necessary since SQLite can execute several // interleaving statements. // } }; entry container_traits_; struct class_: relational::class_, context { class_ (base const& x): base (x) {} virtual void init_auto_id (semantics::data_member&, string const& im) { os << im << "null = true;"; } }; entry class_entry_; } } }