diff options
Diffstat (limited to 'odb/query-dynamic.hxx')
-rw-r--r-- | odb/query-dynamic.hxx | 978 |
1 files changed, 978 insertions, 0 deletions
diff --git a/odb/query-dynamic.hxx b/odb/query-dynamic.hxx new file mode 100644 index 0000000..ed32ec9 --- /dev/null +++ b/odb/query-dynamic.hxx @@ -0,0 +1,978 @@ +// file : odb/query-dynamic.hxx +// copyright : Copyright (c) 2009-2012 Code Synthesis Tools CC +// license : GNU GPL v2; see accompanying LICENSE file + +#ifndef ODB_QUERY_DYNAMIC_HXX +#define ODB_QUERY_DYNAMIC_HXX + +#include <odb/pre.hxx> + +#include <string> +#include <vector> +#include <cstddef> // std::size_t + +#include <odb/forward.hxx> +#include <odb/query.hxx> + +#include <odb/details/export.hxx> +#include <odb/details/shared-ptr.hxx> + +namespace odb +{ + struct native_column_info; + + template <typename T> + struct val_bind + { + explicit + val_bind (const T& v): val (v) {} + + const T& val; + }; + + template <typename T> + struct ref_bind + { + explicit + ref_bind (const T& r): ref (r) {} + + const T& ref; + }; + + // + // + struct LIBODB_EXPORT query_param: details::shared_base + { + virtual ~query_param (); + query_param (const void* v): value (v) {} + + const void* value; + }; + + // For by-value parameters we have to make a copy since the original + // can be gone by the time we translate to native query. + // + template <typename T> + struct val_query_param: query_param + { + val_query_param (const T& v): query_param (©), copy (v) {} + + T copy; + }; + + // + // + class LIBODB_EXPORT query_base + { + public: + // Internally the query clause is stored in a Reverse Polish Notation- + // like representation which also allows us to traverse it as a syntax + // tree. + // + // Let's keep this class POD so that std::vector can do more + // efficient copying, etc. + // + struct clause_part + { + // Note that the order of enumerators is important (used as indexes). + // + enum kind_type + { + kind_column, // native_info points to the native_column_info array. + + kind_param_val, // data points to query_param while native_info points + kind_param_ref, // to the native_column_info array. + + kind_native, // data is the index in the strings vector. + + kind_true, // true literal. + kind_false, // false literal. + + // Operators. + // + // For binary operators, data is the index of the last element + // belonging to the left hand side sub-expression. + // + op_add, // + (concatenation of two sub-expressions) + + op_and, // && + op_or, // || + op_not, // ! + + op_null, // is_null () + op_not_null, // is_not_null () + + op_in, // in(), data is the number of arguments + + op_eq, // == + op_ne, // != + op_lt, // < + op_gt, // > + op_le, // <= + op_ge // >= + }; + + kind_type kind; + std::size_t data; + const native_column_info* native_info; + }; + + public: + ~query_base () + { + clear (); + } + + query_base () {} + + // True or false literal. + // + explicit + query_base (bool v) + { + append (v ? clause_part::kind_true : clause_part::kind_false, 0); + } + + explicit + query_base (const char* native) + { + append (native); + } + + explicit + query_base (const std::string& native) + { + append (native); + } + + query_base (const query_column<bool>&); + + query_base (const query_base& x) + { + append (x); + } + + query_base& + operator= (const query_base& x) + { + if (this != &x) + { + clear (); + append (x); + } + + return *this; + } + + public: + template <typename T> + static val_bind<T> + _val (const T& x) + { + return val_bind<T> (x); + } + + template <typename T> + static ref_bind<T> + _ref (const T& x) + { + return ref_bind<T> (x); + } + + public: + query_base& + operator+= (const query_base&); + + query_base& + operator+= (const std::string& native); + + public: + bool + empty () const + { + return clause_.empty (); + } + + bool + const_true () const + { + return clause_.size () == 1 && + clause_.front ().kind == clause_part::kind_true; + } + + // Implementation details. + // + public: + explicit + query_base (const native_column_info* c) + { + append (c); + } + + // Native. + // + void + append (const std::string&); + + // Query fragment. + // + void + append (const query_base&); + + // Operator. + // + void + append (clause_part::kind_type k, std::size_t data) + { + clause_.push_back (clause_part ()); + clause_.back ().kind = k; + clause_.back ().data = data; + } + + // Column. + // + void + append (const native_column_info* c) + { + clause_.push_back (clause_part ()); + clause_.back ().kind = clause_part::kind_column; + clause_.back ().native_info = c; + } + + // Parameter. + // + void + append_ref (const void* ref, const native_column_info*); + + template <typename T> + void + append_val (const T& val, const native_column_info*); + + void + clear (); + + public: + typedef std::vector<clause_part> clause_type; + typedef std::vector<std::string> strings_type; + + const clause_type& + clause () const + { + return clause_; + } + + const strings_type& + strings () const + { + return strings_; + } + + private: + clause_type clause_; + strings_type strings_; + }; + + inline query_base + operator+ (const query_base& x, const query_base& y) + { + query_base r (x); + r += y; + return r; + } + + inline query_base + operator+ (const query_base& q, const std::string& s) + { + query_base r (q); + r += s; + return r; + } + + inline query_base + operator+ (const std::string& s, const query_base& q) + { + query_base r (s); + r += q; + return r; + } + + LIBODB_EXPORT query_base + operator&& (const query_base&, const query_base&); + + LIBODB_EXPORT query_base + operator|| (const query_base&, const query_base&); + + LIBODB_EXPORT query_base + operator! (const query_base&); + + // + // + struct native_column_info + { + const void* column; + void* param_factory; + }; + + template <typename T> + const T& + type_instance (); + + // This class template has to remain POD since we rely on it being + // 0-initialized before any dynamic initialization takes place in + // any other translation unit. + // + template <typename T> + struct query_column + { + // Array of pointers to database-specific columns. It will be + // automatically zero-initialized since query_column instances + // are always static. + // + native_column_info native_info[database_count]; + + // is_null, is_not_null + // + public: + query_base + is_null () const + { + query_base q (native_info); + q.append (query_base::clause_part::op_null, 0); + return q; + } + + query_base + is_not_null () const + { + query_base q (native_info); + q.append (query_base::clause_part::op_not_null, 0); + return q; + } + + // in + // + public: + query_base + in (const T&, const T&) const; + + query_base + in (const T&, const T&, const T&) const; + + query_base + in (const T&, const T&, const T&, const T&) const; + + query_base + in (const T&, const T&, const T&, const T&, const T&) const; + + template <typename I> + query_base + in_range (I begin, I end) const; + + // == + // + public: + query_base + equal (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_eq, 0); + return q; + } + + query_base + equal (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_eq, 0); + return q; + } + + friend query_base + operator== (const query_column& c, const T& v) + { + return c.equal (val_bind<T> (v)); + } + + friend query_base + operator== (const T& v, const query_column& c) + { + return c.equal (val_bind<T> (v)); + } + + friend query_base + operator== (const query_column& c, val_bind<T> v) + { + return c.equal (v); + } + + friend query_base + operator== (val_bind<T> v, const query_column& c) + { + return c.equal (v); + } + + template <typename T2> + friend query_base + operator== (const query_column& c, val_bind<T2> v) + { + return c.equal (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator== (val_bind<T2> v, const query_column& c) + { + return c.equal (val_bind<T> (T (v.val))); + } + + friend query_base + operator== (const query_column& c, ref_bind<T> r) + { + return c.equal (r); + } + + friend query_base + operator== (ref_bind<T> r, const query_column& c) + { + return c.equal (r); + } + + // != + // + public: + query_base + unequal (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_ne, 0); + return q; + } + + query_base + unequal (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_ne, 0); + return q; + } + + friend query_base + operator!= (const query_column& c, const T& v) + { + return c.unequal (val_bind<T> (v)); + } + + friend query_base + operator!= (const T& v, const query_column& c) + { + return c.unequal (val_bind<T> (v)); + } + + friend query_base + operator!= (const query_column& c, val_bind<T> v) + { + return c.unequal (v); + } + + friend query_base + operator!= (val_bind<T> v, const query_column& c) + { + return c.unequal (v); + } + + template <typename T2> + friend query_base + operator!= (const query_column& c, val_bind<T2> v) + { + return c.unequal (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator!= (val_bind<T2> v, const query_column& c) + { + return c.unequal (val_bind<T> (T (v.val))); + } + + friend query_base + operator!= (const query_column& c, ref_bind<T> r) + { + return c.unequal (r); + } + + friend query_base + operator!= (ref_bind<T> r, const query_column& c) + { + return c.unequal (r); + } + + // < + // + public: + query_base + less (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_lt, 0); + return q; + } + + query_base + less (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_lt, 0); + return q; + } + + friend query_base + operator< (const query_column& c, const T& v) + { + return c.less (val_bind<T> (v)); + } + + friend query_base + operator< (const T& v, const query_column& c) + { + return c.greater (val_bind<T> (v)); + } + + friend query_base + operator< (const query_column& c, val_bind<T> v) + { + return c.less (v); + } + + friend query_base + operator< (val_bind<T> v, const query_column& c) + { + return c.greater (v); + } + + template <typename T2> + friend query_base + operator< (const query_column& c, val_bind<T2> v) + { + return c.less (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator< (val_bind<T2> v, const query_column& c) + { + return c.greater (val_bind<T> (T (v.val))); + } + + friend query_base + operator< (const query_column& c, ref_bind<T> r) + { + return c.less (r); + } + + friend query_base + operator< (ref_bind<T> r, const query_column& c) + { + return c.greater (r); + } + + // > + // + public: + query_base + greater (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_gt, 0); + return q; + } + + query_base + greater (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_gt, 0); + return q; + } + + friend query_base + operator> (const query_column& c, const T& v) + { + return c.greater (val_bind<T> (v)); + } + + friend query_base + operator> (const T& v, const query_column& c) + { + return c.less (val_bind<T> (v)); + } + + friend query_base + operator> (const query_column& c, val_bind<T> v) + { + return c.greater (v); + } + + friend query_base + operator> (val_bind<T> v, const query_column& c) + { + return c.less (v); + } + + template <typename T2> + friend query_base + operator> (const query_column& c, val_bind<T2> v) + { + return c.greater (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator> (val_bind<T2> v, const query_column& c) + { + return c.less (val_bind<T> (T (v.val))); + } + + friend query_base + operator> (const query_column& c, ref_bind<T> r) + { + return c.greater (r); + } + + friend query_base + operator> (ref_bind<T> r, const query_column& c) + { + return c.less (r); + } + + // <= + // + public: + query_base + less_equal (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_le, 0); + return q; + } + + query_base + less_equal (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_le, 0); + return q; + } + + friend query_base + operator<= (const query_column& c, const T& v) + { + return c.less_equal (val_bind<T> (v)); + } + + friend query_base + operator<= (const T& v, const query_column& c) + { + return c.greater_equal (val_bind<T> (v)); + } + + friend query_base + operator<= (const query_column& c, val_bind<T> v) + { + return c.less_equal (v); + } + + friend query_base + operator<= (val_bind<T> v, const query_column& c) + { + return c.greater_equal (v); + } + + template <typename T2> + friend query_base + operator<= (const query_column& c, val_bind<T2> v) + { + return c.less_equal (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator<= (val_bind<T2> v, const query_column& c) + { + return c.greater_equal (val_bind<T> (T (v.val))); + } + + friend query_base + operator<= (const query_column& c, ref_bind<T> r) + { + return c.less_equal (r); + } + + friend query_base + operator<= (ref_bind<T> r, const query_column& c) + { + return c.greater_equal (r); + } + + // >= + // + public: + query_base + greater_equal (val_bind<T> v) const + { + query_base q (native_info); + q.append_val (v.val, native_info); + q.append (query_base::clause_part::op_ge, 0); + return q; + } + + query_base + greater_equal (ref_bind<T> r) const + { + query_base q (native_info); + q.append_ref (&r.ref, native_info); + q.append (query_base::clause_part::op_ge, 0); + return q; + } + + friend query_base + operator>= (const query_column& c, const T& v) + { + return c.greater_equal (val_bind<T> (v)); + } + + friend query_base + operator>= (const T& v, const query_column& c) + { + return c.less_equal (val_bind<T> (v)); + } + + friend query_base + operator>= (const query_column& c, val_bind<T> v) + { + return c.greater_equal (v); + } + + friend query_base + operator>= (val_bind<T> v, const query_column& c) + { + return c.less_equal (v); + } + + template <typename T2> + friend query_base + operator>= (const query_column& c, val_bind<T2> v) + { + return c.greater_equal (val_bind<T> (T (v.val))); + } + + template <typename T2> + friend query_base + operator>= (val_bind<T2> v, const query_column& c) + { + return c.less_equal (val_bind<T> (T (v.val))); + } + + friend query_base + operator>= (const query_column& c, ref_bind<T> r) + { + return c.greater_equal (r); + } + + friend query_base + operator>= (ref_bind<T> r, const query_column& c) + { + return c.less_equal (r); + } + + // Column comparison. + // + public: + template <typename T2> + query_base + operator== (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () == type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_eq, 0); + return q; + } + + template <typename T2> + query_base + operator!= (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () != type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_ne, 0); + return q; + } + + template <typename T2> + query_base + operator< (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () < type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_lt, 0); + return q; + } + + template <typename T2> + query_base + operator> (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () > type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_gt, 0); + return q; + } + + template <typename T2> + query_base + operator<= (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () <= type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_le, 0); + return q; + } + + template <typename T2> + query_base + operator>= (const query_column<T2>& c) const + { + // We can compare columns only if we can compare their C++ types. + // + (void) (sizeof (type_instance<T> () >= type_instance<T2> ())); + + query_base q (native_info); + q.append (c.native_info); + q.append (query_base::clause_part::op_ge, 0); + return q; + } + }; + + // Provide operator+() for using columns to construct native + // query fragments (e.g., ORDER BY). + // + template <typename T> + inline query_base + operator+ (const query_column<T>& c, const std::string& s) + { + query_base q (c.native_info); + q.append (s); + q.append (query_base::clause_part::op_add, 0); + return q; + } + + template <typename T> + inline query_base + operator+ (const std::string& s, const query_column<T>& c) + { + query_base q (s); + q.append (c.native_info); + q.append (query_base::clause_part::op_add, 0); + return q; + } + + template <typename T> + inline query_base + operator+ (const query_column<T>& c, const query_base& q) + { + query_base r (c.native_info); + r.append (q); + r.append (query_base::clause_part::op_add, 0); + return r; + } + + template <typename T> + inline query_base + operator+ (const query_base& q, const query_column<T>& c) + { + query_base r (q); + r.append (c.native_info); + r.append (query_base::clause_part::op_add, q.clause ().size () - 1); + return r; + } + + // + // + template <typename T> + class query<T, query_base>: public query_base, + public query_selector<T, id_common>::columns_type + { + public: + // We don't define any typedefs here since they may clash with + // column names defined by our base type. + // + + query () + { + } + + explicit + query (bool v) + : query_base (v) + { + } + + explicit + query (const char* q) + : query_base (q) + { + } + + explicit + query (const std::string& q) + : query_base (q) + { + } + + query (const query_base& q) + : query_base (q) + { + } + + query (const query_column<bool>& qc) + : query_base (qc) + { + } + }; +} + +#include <odb/query-dynamic.ixx> +#include <odb/query-dynamic.txx> + +#include <odb/post.hxx> + +#endif // ODB_QUERY_DYNAMIC_HXX |