// file : odb/pgsql/query.cxx // author : Constantin Michael // copyright : Copyright (c) 2009-2011 Code Synthesis Tools CC // license : GNU GPL v2; see accompanying LICENSE file #include // std::size_t #include // std::memset #include #include #include #include using namespace std; namespace odb { namespace pgsql { // query_param // query_param:: ~query_param () { } query:: query (const query& q) : clause_ (q.clause_), parameters_ (q.parameters_), bind_ (q.bind_), binding_ (0, 0), values_ (q.values_), lengths_ (q.lengths_), formats_ (q.formats_), types_ (q.types_), native_binding_ (0, 0, 0, 0) { // Here and below we want to maintain up to date binding info so // that the call to parameters_binding() below is an immutable // operation, provided the query does not have any by-reference // parameters. This way a by-value-only query can be shared // between multiple threads without the need for synchronization. // if (size_t n = bind_.size ()) { binding_.bind = &bind_[0]; binding_.count = n; binding_.version++; native_binding_.values = &values_[0]; native_binding_.lengths = &lengths_[0]; native_binding_.formats = &formats_[0]; native_binding_.count = n; assert (values_.size () == n); assert (lengths_.size () == n); assert (formats_.size () == n); assert (types_.size () == n); statement::bind_param (native_binding_, binding_); } } query& query:: operator= (const query& q) { if (this != &q) { clause_ = q.clause_; parameters_ = q.parameters_; bind_ = q.bind_; size_t n (bind_.size ()); binding_.count = n; binding_.version++; values_ = q.values_; lengths_ = q.lengths_; formats_ = q.formats_; types_ = q.types_; native_binding_.count = n; assert (values_.size () == n); assert (lengths_.size () == n); assert (formats_.size () == n); assert (types_.size () == n); if (n != 0) { binding_.bind = &bind_[0]; native_binding_.values = &values_[0]; native_binding_.lengths = &lengths_[0]; native_binding_.formats = &formats_[0]; statement::bind_param (native_binding_, binding_); } } return *this; } query& query:: operator+= (const query& q) { clause_.insert (clause_.end (), q.clause_.begin (), q.clause_.end ()); size_t n (bind_.size ()); parameters_.insert ( parameters_.end (), q.parameters_.begin (), q.parameters_.end ()); bind_.insert ( bind_.end (), q.bind_.begin (), q.bind_.end ()); values_.insert ( values_.end (), q.values_.begin (), q.values_.end ()); lengths_.insert ( lengths_.end (), q.lengths_.begin (), q.lengths_.end ()); formats_.insert ( formats_.end (), q.formats_.begin (), q.formats_.end ()); types_.insert ( types_.end (), q.types_.begin (), q.types_.end ()); if (n != bind_.size ()) { n = bind_.size (); binding_.bind = &bind_[0]; binding_.count = n; binding_.version++; assert (values_.size () == n); assert (lengths_.size () == n); assert (formats_.size () == n); assert (types_.size () == n); native_binding_.values = &values_[0]; native_binding_.lengths = &lengths_[0]; native_binding_.formats = &formats_[0]; native_binding_.count = n; statement::bind_param (native_binding_, binding_); } return *this; } void query:: append (const string& q, clause_part::kind_type k) { if (k == clause_part::native && !clause_.empty () && clause_.back ().kind == clause_part::native) { string& s (clause_.back ().part); char first (!q.empty () ? q[0] : ' '); char last (!s.empty () ? s[s.size () - 1] : ' '); // We don't want extra spaces after '(' as well as before ',' // and ')'. // if (last != ' ' && last != '(' && first != ' ' && first != ',' && first != ')') s += ' '; s += q; } else clause_.push_back (clause_part (k, q)); } void query:: add (details::shared_ptr p) { clause_.push_back (clause_part (clause_part::param)); parameters_.push_back (p); bind_.push_back (bind ()); binding_.bind = &bind_[0]; binding_.count = bind_.size (); binding_.version++; bind* b (&bind_.back ()); memset (b, 0, sizeof (bind)); p->bind (b); values_.push_back (0); lengths_.push_back (0); formats_.push_back (0); native_binding_.values = &values_[0]; native_binding_.lengths = &lengths_[0]; native_binding_.formats = &formats_[0]; // native_binding_.count should always equal binding_.count. // At this point, we know that we have added one element to // each array, so there is no need to check. // native_binding_.count = binding_.count; types_.push_back (p->oid ()); statement::bind_param (native_binding_, binding_); } native_binding& query:: parameters_binding () const { size_t n (parameters_.size ()); if (n == 0) return native_binding_; bool ref (false), inc_ver (false); binding& r (binding_); bind* b (&bind_[0]); for (size_t i (0); i < n; ++i) { query_param& p (*parameters_[i]); if (p.reference ()) { ref = true; if (p.init ()) { p.bind (b + i); inc_ver = true; } } } if (ref) { statement::bind_param (native_binding_, binding_); if (inc_ver) r.version++; } return native_binding_; } string query:: clause (string const& table) const { string r; size_t param (1); for (clause_type::const_iterator i (clause_.begin ()), end (clause_.end ()); i != end; ++i) { char last (!r.empty () ? r[r.size () - 1] : ' '); switch (i->kind) { case clause_part::column: { if (last != ' ' && last != '(') r += ' '; if (i->part[0] == '.') r += table; r += i->part; break; } case clause_part::param: { if (last != ' ' && last != '(') r += ' '; ostringstream os; os << param++; r += '$'; r += os.str (); break; } case clause_part::native: { // We don't want extra spaces after '(' as well as before ',' // and ')'. // const string& p (i->part); char first (!p.empty () ? p[0] : ' '); if (last != ' ' && last != '(' && first != ' ' && first != ',' && first != ')') r += ' '; r += p; break; } } } if (r.empty () || r.compare (0, 6, "WHERE ") == 0 || r.compare (0, 9, "ORDER BY ") == 0 || r.compare (0, 9, "GROUP BY ") == 0 || r.compare (0, 7, "HAVING ") == 0) return r; else return "WHERE " + r; } } }