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sqlpp11/include/sqlpp11/having.h

316 lines
11 KiB
C++

#pragma once
/*
* Copyright (c) 2013-2016, 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.
*/
#include <sqlpp11/expression.h>
#include <sqlpp11/interpret_tuple.h>
#include <sqlpp11/interpretable_list.h>
#include <sqlpp11/logic.h>
#include <sqlpp11/policy_update.h>
#include <sqlpp11/type_traits.h>
#include <sqlpp11/value.h>
namespace sqlpp
{
// HAVING DATA
template <typename Database, typename Expression>
struct having_data_t
{
having_data_t(Expression expression) : _expression(expression)
{
}
having_data_t(const having_data_t&) = default;
having_data_t(having_data_t&&) = default;
having_data_t& operator=(const having_data_t&) = default;
having_data_t& operator=(having_data_t&&) = default;
~having_data_t() = default;
Expression _expression;
interpretable_list_t<Database> _dynamic_expressions;
};
SQLPP_PORTABLE_STATIC_ASSERT(
assert_having_no_unknown_tables_t,
"at least one having-expression requires a table which is otherwise not known in the statement");
SQLPP_PORTABLE_STATIC_ASSERT(assert_having_all_aggregates_t,
"having expression not built out of aggregate expressions");
// HAVING
template <typename Database, typename Expression>
struct having_t
{
using _traits = make_traits<no_value_t, tag::is_having>;
using _nodes = detail::type_vector<Expression>;
using _is_dynamic = is_database<Database>;
// Data
using _data_t = having_data_t<Database, Expression>;
// Member implementation with data and methods
template <typename Policies>
struct _impl_t
{
// workaround for msvc bug https://connect.microsoft.com/VisualStudio/Feedback/Details/2091069
_impl_t() = default;
_impl_t(const _data_t& data) : _data(data)
{
}
template <typename Expr>
void add(Expr expression)
{
static_assert(_is_dynamic::value, "having::add() can only be called for dynamic_having");
static_assert(is_expression_t<Expr>::value, "invalid expression argument in having::add()");
static_assert(Policies::template _no_unknown_tables<Expr>::value,
"expression uses tables unknown to this statement in having::add()");
using ok = logic::all_t<_is_dynamic::value, is_expression_t<Expr>::value>;
_add_impl(expression, ok()); // dispatch to prevent compile messages after the static_assert
}
private:
template <typename Expr>
void _add_impl(Expr expression, const std::true_type& /*unused*/)
{
_data._dynamic_expressions.emplace_back(expression);
}
template <typename Expr>
void _add_impl(Expr expression, const std::false_type&);
public:
_data_t _data;
};
// Base template to be inherited by the statement
template <typename Policies>
struct _base_t
{
using _data_t = having_data_t<Database, Expression>;
// workaround for msvc bug https://connect.microsoft.com/VisualStudio/Feedback/Details/2091069
template <typename... Args>
_base_t(Args&&... args) : having{std::forward<Args>(args)...}
{
}
_impl_t<Policies> having;
_impl_t<Policies>& operator()()
{
return having;
}
const _impl_t<Policies>& operator()() const
{
return having;
}
template <typename T>
static auto _get_member(T t) -> decltype(t.having)
{
return t.having;
}
using _table_check = typename std::conditional<Policies::template _no_unknown_tables<having_t>::value,
consistent_t,
assert_having_no_unknown_tables_t>::type;
using _aggregate_check = typename std::conditional<Policies::template _all_aggregates<Expression>::value,
consistent_t,
assert_having_all_aggregates_t>::type;
using _consistency_check = detail::get_first_if<is_inconsistent_t, consistent_t, _table_check, _aggregate_check>;
};
};
SQLPP_PORTABLE_STATIC_ASSERT(assert_having_not_cpp_bool_t,
"having() argument has to be an sqlpp boolean expression. Please use "
"sqlpp::value(bool_expresson) if you really want to use a bool value here");
SQLPP_PORTABLE_STATIC_ASSERT(assert_having_boolean_expression_t,
"having() argument has to be an sqlpp boolean expression.");
SQLPP_PORTABLE_STATIC_ASSERT(assert_having_dynamic_statement_dynamic_t,
"dynamic_having() must not be called in a static statement");
template <typename Expression>
struct check_having
{
using type =
static_combined_check_t<static_check_t<is_not_cpp_bool_t<Expression>::value, assert_having_not_cpp_bool_t>,
static_check_t<is_expression_t<Expression>::value, assert_having_boolean_expression_t>,
static_check_t<is_boolean_t<Expression>::value, assert_having_boolean_expression_t>>;
};
template <typename Expression>
using check_having_t = typename check_having<Expression>::type;
template <typename Expression>
using check_having_static_t = check_having_t<Expression>;
template <typename Database, typename Expression>
using check_having_dynamic_t = static_combined_check_t<
static_check_t<not std::is_same<Database, void>::value, assert_having_dynamic_statement_dynamic_t>,
check_having_t<Expression>>;
template <typename... Exprs>
constexpr auto are_all_parameters_expressions() -> bool
{
return logic::all_t<is_expression_t<Exprs>::value...>::value;
}
// NO HAVING YET
struct no_having_t
{
using _traits = make_traits<no_value_t, tag::is_noop>;
using _nodes = detail::type_vector<>;
// Data
using _data_t = no_data_t;
// Member implementation with data and methods
template <typename Policies>
struct _impl_t
{
// workaround for msvc bug https://connect.microsoft.com/VisualStudio/Feedback/Details/2091069
_impl_t() = default;
_impl_t(const _data_t& data) : _data(data)
{
}
_data_t _data;
};
// Base template to be inherited by the statement
template <typename Policies>
struct _base_t
{
using _data_t = no_data_t;
// workaround for msvc bug https://connect.microsoft.com/VisualStudio/Feedback/Details/2091069
template <typename... Args>
_base_t(Args&&... args) : no_having{std::forward<Args>(args)...}
{
}
_impl_t<Policies> no_having;
_impl_t<Policies>& operator()()
{
return no_having;
}
const _impl_t<Policies>& operator()() const
{
return no_having;
}
template <typename T>
static auto _get_member(T t) -> decltype(t.no_having)
{
return t.no_having;
}
using _database_t = typename Policies::_database_t;
// workaround for msvc bug https://connect.microsoft.com/VisualStudio/Feedback/Details/2173269
// template <typename... T>
// using _check = logic::all_t<is_expression_t<T>::value...>;
template <typename... T>
struct _check : std::integral_constant<bool, are_all_parameters_expressions<T...>()>
{
};
template <typename Check, typename T>
using _new_statement_t = new_statement_t<Check, Policies, no_having_t, T>;
using _consistency_check = consistent_t;
template <typename Expression>
auto having(Expression expression) const
-> _new_statement_t<check_having_static_t<Expression>, having_t<void, Expression>>
{
using Check = check_having_static_t<Expression>;
return _having_impl<void>(Check{}, expression);
}
template <typename Expression>
auto dynamic_having(Expression expression) const
-> _new_statement_t<check_having_dynamic_t<_database_t, Expression>, having_t<_database_t, Expression>>
{
using Check = check_having_dynamic_t<_database_t, Expression>;
return _having_impl<_database_t>(Check{}, expression);
}
auto dynamic_having() const -> _new_statement_t<check_having_dynamic_t<_database_t, boolean_operand>,
having_t<_database_t, boolean_operand>>
{
return dynamic_having(::sqlpp::value(true));
}
private:
template <typename Database, typename Check, typename Expression>
auto _having_impl(Check, Expression expression) const -> inconsistent<Check>;
template <typename Database, typename Expression>
auto _having_impl(consistent_t /*unused*/, Expression expression) const
-> _new_statement_t<consistent_t, having_t<Database, Expression>>
{
return {static_cast<const derived_statement_t<Policies>&>(*this),
having_data_t<Database, Expression>{expression}};
}
};
};
// Interpreters
template <typename Context, typename Database, typename Expression>
Context& serialize(const having_data_t<Database, Expression>& t, Context& context)
{
context << " HAVING ";
serialize(t._expression, context);
if (not t._dynamic_expressions.empty())
{
context << " AND ";
}
interpret_list(t._dynamic_expressions, " AND ", context);
return context;
}
template <typename T>
auto having(T&& t) -> decltype(statement_t<void, no_having_t>().having(std::forward<T>(t)))
{
return statement_t<void, no_having_t>().having(std::forward<T>(t));
}
template <typename Database, typename T>
auto dynamic_having(const Database& /*unused*/, T&& t)
-> decltype(statement_t<Database, no_having_t>().dynamic_having(std::forward<T>(t)))
{
return statement_t<Database, no_having_t>().dynamic_having(std::forward<T>(t));
}
} // namespace sqlpp