Added some template aliases to ease specialization and added a few more operator overloads

2024-11-15 20:31:16 +08:00 · 2014-01-19 18:11:05 +01:00 · 2014-01-19 18:11:05 +01:00 · 31127812a0
commit 31127812a0
parent 63ac89accb
8 changed files with 264 additions and 116 deletions
--- a/include/sqlpp11/basic_operators.h
+++ b/include/sqlpp11/basic_operators.h
@ -41,34 +41,6 @@ namespace sqlpp
 		struct boolean;
 	}
 	namespace vendor
 	{
 		// operators
 		struct lt_
 		{
 			using _value_type = detail::boolean;
 			static constexpr const char* _name = "<";
 		};
 		struct le_
 		{
 			using _value_type = detail::boolean;
 			static constexpr const char* _name = "<=";
 		};
 		struct ge_
 		{
 			using _value_type = detail::boolean;
 			static constexpr const char* _name = ">=";
 		};
 		struct gt_
 		{
 			using _value_type = detail::boolean;
 			static constexpr const char* _name = ">";
 		};
 	}
 	// basic operators
 	template<typename Base, template<typename> class Constraint>
 		struct basic_operators
@ -87,28 +59,28 @@ namespace sqlpp
 					return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 				}
 			template<typename T>
-				vendor::binary_expression_t<Base, vendor::lt_, typename Constraint<T>::type> operator<(T&& t) const
+				vendor::less_than_t<Base, typename Constraint<T>::type> operator<(T&& t) const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 					return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 				}
 			template<typename T>
-				vendor::binary_expression_t<Base, vendor::le_, typename Constraint<T>::type> operator<=(T&& t) const
+				vendor::less_equal_t<Base, typename Constraint<T>::type> operator<=(T&& t) const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 					return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 				}
 			template<typename T>
-				vendor::binary_expression_t<Base, vendor::ge_, typename Constraint<T>::type> operator>=(T&& t) const
+				vendor::greater_than_t<Base, typename Constraint<T>::type> operator>(T&& t) const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 					return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 				}
 			template<typename T>
-				vendor::binary_expression_t<Base, vendor::gt_, typename Constraint<T>::type> operator>(T&& t) const
+				vendor::greater_equal_t<Base, typename Constraint<T>::type> operator>=(T&& t) const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 					return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
--- a/include/sqlpp11/boolean.h
+++ b/include/sqlpp11/boolean.h
@ -38,18 +38,6 @@ namespace sqlpp
 	// boolean operators
 	namespace detail
 	{
 		struct or_
 		{
 			using _value_type = boolean;
 			static constexpr const char* _name = " OR ";
 		};
 		struct and_
 		{
 			using _value_type = boolean;
 			static constexpr const char* _name = " AND ";
 		};
 		// boolean value type
 		struct boolean
 		{
@ -178,20 +166,20 @@ namespace sqlpp
 				struct operators: public basic_operators<Base, _constraint>
 			{
 				template<typename T>
-					vendor::binary_expression_t<Base, and_, typename _constraint<T>::type> operator and(T&& t) const
+					vendor::logical_and_t<Base, typename _constraint<T>::type> operator and(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, or_, typename _constraint<T>::type> operator or(T&& t) const
+					vendor::logical_or_t<Base, typename _constraint<T>::type> operator or(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
-				vendor::not_t<Base> operator not() const
+				vendor::logical_not_t<Base> operator not() const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be as operand for operator not");
 					return { *static_cast<const Base*>(this) };
--- a/include/sqlpp11/floating_point.h
+++ b/include/sqlpp11/floating_point.h
@ -161,30 +161,6 @@ namespace sqlpp
 				_cpp_value_type _value;
 			};
 			struct plus_
 			{
 				using _value_type = floating_point;
 				static constexpr const char* _name = "+";
 			};
 			struct minus_
 			{
 				using _value_type = floating_point;
 				static constexpr const char* _name = "-";
 			};
 			struct multiplies_
 			{
 				using _value_type = floating_point;
 				static constexpr const char* _name = "*";
 			};
 			struct divides_
 			{
 				using _value_type = floating_point;
 				static constexpr const char* _name = "/";
 			};
 			template<typename T>
 				using _constraint = operand_t<T, is_numeric_t>;
@ -192,33 +168,45 @@ namespace sqlpp
 				struct operators: public basic_operators<Base, _constraint>
 			{
 				template<typename T>
-					vendor::binary_expression_t<Base, plus_, typename _constraint<T>::type> operator +(T&& t) const
+					vendor::plus_t<Base, floating_point, typename _constraint<T>::type> operator +(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, minus_, typename _constraint<T>::type> operator -(T&& t) const
+					vendor::minus_t<Base, floating_point, typename _constraint<T>::type> operator -(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, multiplies_, typename _constraint<T>::type> operator *(T&& t) const
+					vendor::multiplies_t<Base, floating_point, typename _constraint<T>::type> operator *(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, divides_, typename _constraint<T>::type> operator /(T&& t) const
+					vendor::divides_t<Base, typename _constraint<T>::type> operator /(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				vendor::unary_plus_t<floating_point, Base> operator +() const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as unary operand");
 					return { *static_cast<const Base*>(this) };
 				}
 				vendor::unary_minus_t<floating_point, Base> operator -() const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as unary operand");
 					return { *static_cast<const Base*>(this) };
 				}
 				template<typename T>
 					auto operator +=(T&& t) const -> decltype(std::declval<Base>() = std::declval<Base>() + std::forward<T>(t))
 					{
--- a/include/sqlpp11/integral.h
+++ b/include/sqlpp11/integral.h
@ -31,6 +31,7 @@
 #include <sqlpp11/basic_operators.h>
 #include <sqlpp11/type_traits.h>
 #include <sqlpp11/exception.h>
 #include <sqlpp11/vendor/value_type.h>
 namespace sqlpp
 {
@ -160,33 +161,6 @@ namespace sqlpp
 				_cpp_value_type _value;
 			};
 			template<typename T>
 			struct plus_
 			{
 				using _value_type = typename vendor::wrap_operand<typename std::decay<T>::type>::type::_value_type;
 				static constexpr const char* _name = "+";
 			};
 			template<typename T>
 			struct minus_
 			{
 				using _value_type = typename vendor::wrap_operand<typename std::decay<T>::type>::type::_value_type;
 				static constexpr const char* _name = "-";
 			};
 			template<typename T>
 			struct multiplies_
 			{
 				using _value_type = typename vendor::wrap_operand<typename std::decay<T>::type>::type::_value_type;
 				static constexpr const char* _name = "*";
 			};
 			struct divides_
 			{
 				using _value_type = floating_point;
 				static constexpr const char* _name = "/";
 			};
 			template<typename T>
 				using _constraint = operand_t<T, is_numeric_t>;
@ -194,33 +168,52 @@ namespace sqlpp
 				struct operators: public basic_operators<Base, _constraint>
 			{
 				template<typename T>
-					vendor::binary_expression_t<Base, plus_<T>, typename _constraint<T>::type> operator +(T&& t) const
+					vendor::plus_t<Base, vendor::value_type_t<T>, typename _constraint<T>::type> operator +(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, minus_<T>, typename _constraint<T>::type> operator -(T&& t) const
+					vendor::minus_t<Base, vendor::value_type_t<T>, typename _constraint<T>::type> operator -(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, multiplies_<T>, typename _constraint<T>::type> operator *(T&& t) const
+					vendor::multiplies_t<Base, vendor::value_type_t<T>, typename _constraint<T>::type> operator *(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
-					vendor::binary_expression_t<Base, divides_, typename _constraint<T>::type> operator /(T&& t) const
+					vendor::divides_t<Base, typename _constraint<T>::type> operator /(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				template<typename T>
 					vendor::modulus_t<Base, typename _constraint<T>::type> operator %(T&& t) const
 					{
 						static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as left hand side operand");
 						return { *static_cast<const Base*>(this), {std::forward<T>(t)} };
 					}
 				vendor::unary_plus_t<integral, Base> operator +() const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as unary operand");
 					return { *static_cast<const Base*>(this) };
 				}
 				vendor::unary_minus_t<integral, Base> operator -() const
 				{
 					static_assert(not is_multi_expression_t<Base>::value, "multi-expression cannot be used as unary operand");
 					return { *static_cast<const Base*>(this) };
 				}
 				template<typename T>
 					auto operator +=(T&& t) const -> decltype(std::declval<Base>() = std::declval<Base>() + std::forward<T>(t))
 					{
--- a/include/sqlpp11/vendor/expression.h
+++ b/include/sqlpp11/vendor/expression.h
@ -173,28 +173,28 @@ namespace sqlpp
 			};
 		template<typename Lhs>
-			struct not_t: public detail::boolean::template operators<not_t<Lhs>>
+			struct logical_not_t: public detail::boolean::template operators<logical_not_t<Lhs>>
 		{
 			using _value_type = detail::boolean;
 			using _parameter_tuple_t = std::tuple<Lhs>;
-			not_t(Lhs l):
+			logical_not_t(Lhs l):
 				_lhs(l)
 			{}
-			not_t(const not_t&) = default;
+			logical_not_t(const logical_not_t&) = default;
-			not_t(not_t&&) = default;
+			logical_not_t(logical_not_t&&) = default;
-			not_t& operator=(const not_t&) = default;
+			logical_not_t& operator=(const logical_not_t&) = default;
-			not_t& operator=(not_t&&) = default;
+			logical_not_t& operator=(logical_not_t&&) = default;
-			~not_t() = default;
+			~logical_not_t() = default;
 			Lhs _lhs;
 		};
 		template<typename Context, typename Lhs>
-			struct interpreter_t<Context, not_t<Lhs>>
+			struct interpreter_t<Context, logical_not_t<Lhs>>
 			{
-				using T = not_t<Lhs>;
+				using T = logical_not_t<Lhs>;
 				static Context& _(const T& t, Context& context)
 				{
@ -242,6 +242,40 @@ namespace sqlpp
 					return context;
 				}
 			};
 		template<typename O, typename Rhs>
 			struct unary_expression_t: public O::_value_type::template operators<unary_expression_t<O, Rhs>>
 		{
 			using _value_type = typename O::_value_type;
 			using _parameter_tuple_t = std::tuple<Rhs>;
 			unary_expression_t(Rhs rhs):
 				_rhs(rhs)
 			{}
 			unary_expression_t(const unary_expression_t&) = default;
 			unary_expression_t(unary_expression_t&&) = default;
 			unary_expression_t& operator=(const unary_expression_t&) = default;
 			unary_expression_t& operator=(unary_expression_t&&) = default;
 			~unary_expression_t() = default;
 			Rhs _rhs;
 		};
 		template<typename Context, typename O, typename Rhs>
 			struct interpreter_t<Context, unary_expression_t<O, Rhs>>
 			{
 				using T = unary_expression_t<O, Rhs>;
 				static Context& _(const T& t, Context& context)
 				{
 					context << "(";
 					context << O::_name;
 					interpret(t._rhs, context);
 					context << ")";
 					return context;
 				}
 			};
 	}
 }
--- a/include/sqlpp11/vendor/expression_fwd.h
+++ b/include/sqlpp11/vendor/expression_fwd.h
@ -41,10 +41,139 @@ namespace sqlpp
 			struct not_equal_t;
 		template<typename Lhs>
-			struct not_t;
+			struct logical_not_t;
 		namespace tag
 		{
 			struct less_than
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = "<";
 			};
 			struct less_equal
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = "<=";
 			};
 			struct greater_equal
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = ">=";
 			};
 			struct greater_than
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = ">";
 			};
 			struct logical_or
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = " OR ";
 			};
 			struct logical_and
 			{
 				using _value_type = detail::boolean;
 				static constexpr const char* _name = " AND ";
 			};
 			template<typename ValueType>
 			struct plus
 			{
 				using _value_type = ValueType;
 				static constexpr const char* _name = "+";
 			};
 			template<typename ValueType>
 			struct minus
 			{
 				using _value_type = ValueType;
 				static constexpr const char* _name = "-";
 			};
 			template<typename ValueType>
 			struct multiplies
 			{
 				using _value_type = ValueType;
 				static constexpr const char* _name = "*";
 			};
 			struct divides
 			{
 				using _value_type = detail::floating_point;
 				static constexpr const char* _name = "/";
 			};
 			struct modulus
 			{
 				using _value_type = detail::integral;
 				static constexpr const char* _name = "%";
 			};
 			template<typename ValueType>
 			struct unary_minus
 			{
 				using _value_type = ValueType;
 				static constexpr const char* _name = "-";
 			};
 			template<typename ValueType>
 			struct unary_plus
 			{
 				using _value_type = ValueType;
 				static constexpr const char* _name = "+";
 			};
 		}
 		template<typename Lhs, typename O, typename Rhs>
 			struct binary_expression_t;
 		template<typename O, typename Rhs>
 			struct unary_expression_t;
 		template<typename Lhs, typename Rhs>
 			using less_than_t = binary_expression_t<Lhs, tag::less_than, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using less_equal_t = binary_expression_t<Lhs, tag::less_equal, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using greater_than_t = binary_expression_t<Lhs, tag::greater_than, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using greater_equal_t = binary_expression_t<Lhs, tag::greater_equal, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using logical_and_t = binary_expression_t<Lhs, tag::logical_and, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using logical_or_t = binary_expression_t<Lhs, tag::logical_or, Rhs>;
 		template<typename Lhs, typename ValueType, typename Rhs>
 			using plus_t = binary_expression_t<Lhs, tag::plus<ValueType>, Rhs>;
 		template<typename Lhs, typename ValueType, typename Rhs>
 			using minus_t = binary_expression_t<Lhs, tag::minus<ValueType>, Rhs>;
 		template<typename Lhs, typename ValueType, typename Rhs>
 			using multiplies_t = binary_expression_t<Lhs, tag::multiplies<ValueType>, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using divides_t = binary_expression_t<Lhs, tag::divides, Rhs>;
 		template<typename Lhs, typename Rhs>
 			using modulus_t = binary_expression_t<Lhs, tag::modulus, Rhs>;
 		template<typename ValueType, typename Rhs>
 			using unary_plus_t = unary_expression_t<tag::unary_plus<ValueType>, Rhs>;
 		template<typename ValueType, typename Rhs>
 			using unary_minus_t = unary_expression_t<tag::unary_minus<ValueType>, Rhs>;
 	}
 }
--- a/include/sqlpp11/vendor/value_type.h
+++ b/include/sqlpp11/vendor/value_type.h
@ -0,0 +1,41 @@
 /*
 * Copyright (c) 2013, Roland Bock
 * All rights reserved.
 * 
 * Redistribution and use in source and binary forms, with or without modification,
 * are permitted provided that the following conditions are met:
 * 
 *   Redistributions of source code must retain the above copyright notice, this
 *   list of conditions and the following disclaimer.
 * 
 *   Redistributions in binary form must reproduce the above copyright notice, this
 *   list of conditions and the following disclaimer in the documentation and/or
 *   other materials provided with the distribution.
 * 
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
 * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
 * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
 * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 */
 #ifndef SQLPP_VALUE_TYPE_H
 #define SQLPP_VALUE_TYPE_H
 #include <type_traits>
 #include <sqlpp11/vendor/wrap_operand.h>
 namespace sqlpp
 {
 	namespace vendor
 	{
 		template<typename T>
 			using value_type_t = typename wrap_operand<typename std::decay<T>::type>::type::_value_type;
 	}
 }
 #endif
--- a/tests/InterpretTest.cpp
+++ b/tests/InterpretTest.cpp
@ -43,6 +43,9 @@ int main()
 	TabSample t;
 	interpret(t.alpha, printer).flush();
 	interpret(-t.alpha, printer).flush();
 	interpret(+t.alpha, printer).flush();
 	interpret(-(t.alpha + 7), printer).flush();
 	interpret(t.alpha = 0, printer).flush();
 	interpret(t.alpha = sqlpp::tvin(0), printer).flush();
 	interpret(t.alpha == 0, printer).flush();