mirror of
https://github.com/rbock/sqlpp11.git
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379 lines
19 KiB
C++
379 lines
19 KiB
C++
/*
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* Copyright (c) 2013, Roland Bock
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without modification,
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* are permitted provided that the following conditions are met:
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*
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* * Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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* IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
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* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
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* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
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* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
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* OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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* OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include <iostream>
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#include "Sample.h"
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#include "MockDb.h"
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#include "is_regular.h"
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#include <sqlpp11/alias_provider.h>
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#include <sqlpp11/select.h>
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#include <sqlpp11/functions.h>
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#include <sqlpp11/connection.h>
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DbMock db = {};
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DbMock::_context_t printer(std::cerr);
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namespace alias
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{
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SQLPP_ALIAS_PROVIDER(a);
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SQLPP_ALIAS_PROVIDER(b);
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SQLPP_ALIAS_PROVIDER(left);
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SQLPP_ALIAS_PROVIDER(right);
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}
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int main()
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{
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test::TabFoo f;
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test::TabBar t;
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// Test a table
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{
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using T = decltype(t);
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static_assert(not sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_integral_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_floating_point_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test an alias of table
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{
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using T = decltype(t.as(alias::a));
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static_assert(not sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_integral_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_floating_point_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test an integral column of an alias of table
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{
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using T = decltype(t.as(alias::a).alpha);
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_integral_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_floating_point_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test an integral table column
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{
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using T = decltype(t.alpha);
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_integral_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_floating_point_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test a floating point table column
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{
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using T = decltype(f.omega);
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_integral_t<T>::value, "type requirement");
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static_assert(sqlpp::is_floating_point_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test a an alias of a numeric table column
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{
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using T = decltype(t.alpha.as(alias::a));
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test a select of a single column without a from
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{
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using T = decltype(select(t.alpha)); // Hint: The current rule is pretty crude (a from is required), but certainly better than nothing
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static_assert(not sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test a select of a single numeric table column
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{
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using T = decltype(select(t.alpha).from(t));
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static_assert(sqlpp::is_select_column_list_t<decltype(T::_column_list)>::value, "Must not be noop");
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static_assert(sqlpp::is_from_t<decltype(T::_from)>::value, "Must not be noop");
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test a select of an alias of a single numeric table column
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{
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using T = decltype(select(t.alpha.as(alias::a)).from(t));
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test an alias of a select of a single numeric table column
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{
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using T = decltype(select(t.alpha).from(t).as(alias::b));
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static_assert(not sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "red to not be boolean");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test the column of an alias of a select of an alias of a single numeric table column
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{
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using T = decltype(select(t.alpha.as(alias::a)).from(t).as(alias::b));
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static_assert(not sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test the column of an alias of a select of a single numeric table column
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{
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using T = decltype(select(t.alpha).from(t).as(alias::b).alpha);
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test an alias of a select of an alias of a single numeric table column
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{
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using T = decltype(select(t.alpha.as(alias::a)).from(t).as(alias::b).a);
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static_assert(sqlpp::is_numeric_t<T>::value, "type requirement");
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static_assert(sqlpp::is_expression_t<T>::value, "type requirement");
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static_assert(sqlpp::is_named_expression_t<T>::value, "type requirement");
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static_assert(not sqlpp::require_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_insert_t<T>::value, "type requirement");
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static_assert(not sqlpp::must_not_update_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_boolean_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_text_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_alias_t<T>::value, "type requirement");
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static_assert(not sqlpp::is_table_t<T>::value, "type requirement");
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test that select(all_of(tab)) is expanded in select
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{
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auto a = select(all_of(t));
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auto b = select(t.alpha, t.beta, t.gamma, t.delta);
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//auto c = select(t);
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static_assert(std::is_same<decltype(a), decltype(b)>::value, "all_of(t) has to be expanded by select()");
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//static_assert(std::is_same<decltype(b), decltype(c)>::value, "t has to be expanded by select()");
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}
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// Test that select(all_of(tab)) is expanded in multi_column
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{
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auto a = multi_column(alias::a, all_of(t));
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auto b = multi_column(alias::a, t.alpha, t.beta, t.gamma, t.delta);
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static_assert(std::is_same<decltype(a), decltype(b)>::value, "all_of(t) has to be expanded by multi_column");
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}
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// Test that select(tab) is expanded in multi_column
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{
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auto a = multi_column(alias::a, all_of(t));
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auto b = multi_column(alias::a, t.alpha, t.beta, t.gamma, t.delta);
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static_assert(std::is_same<decltype(a), decltype(b)>::value, "t has to be expanded by multi_column");
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}
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// Test that a multicolumn is not a value
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{
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auto m = multi_column(alias::a, t.alpha, t.beta);
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auto a = select(m).from(t).as(alias::b).a;
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static_assert(not sqlpp::is_value_t<decltype(a)>::value, "a multi_column is not a value");
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}
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// Test that result sets with identical name/value combinations have identical types
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{
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auto a = select(t.alpha);
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auto b = select(f.epsilon.as(t.alpha));
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using A = typename decltype(a)::_result_row_t;
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using B = typename decltype(b)::_result_row_t;
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static_assert(std::is_same<
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decltype(t.alpha)::_value_type::_base_value_type,
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decltype(f.epsilon)::_value_type::_base_value_type>::value, "Two bigint columns must have identical base_value_type");
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static_assert(std::is_same<A, B>::value, "select with identical columns(name/value_type) need to have identical result_types");
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}
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{
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auto s = dynamic_select(db, all_of(t)).dynamic_from().dynamic_where().dynamic_limit().dynamic_offset();
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s.add_from(t);
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s.add_where(t.alpha > 7 and t.alpha == any(select(t.alpha).from(t).where(t.alpha < 3)));
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s.set_limit(30);
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s.set_limit(3);
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std::cerr << "------------------------\n";
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interpret(s, printer).flush();
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std::cerr << "------------------------\n";
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using T = decltype(s);
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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}
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// Test that select can be called with zero columns if it is used with dynamic columns.
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{
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auto s = dynamic_select(db).dynamic_columns();
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s.add_column(t.alpha);
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interpret(s, printer).flush();
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}
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// Test that verbatim_table compiles
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{
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auto s = select(t.alpha).from(sqlpp::verbatim_table("my_unknown_table"));
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interpret(s, printer).flush();
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}
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static_assert(sqlpp::is_select_flag_t<decltype(sqlpp::all)>::value, "sqlpp::all has to be a select_flag");
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using T = sqlpp::vendor::wrap_operand<int>::type;
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static_assert(sqlpp::is_regular<T>::value, "type requirement");
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static_assert(T::_is_expression, "T has to be an expression");
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static_assert(std::is_same<typename T::_value_type::_is_numeric, std::true_type>::value, "T has to be a numeric");
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static_assert(sqlpp::is_numeric_t<T>::value, "T has to be a numeric");
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static_assert(sqlpp::is_numeric_t<decltype(t.alpha)>::value, "TabBar.alpha has to be a numeric");
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((t.alpha + 7) + 4).asc();
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static_assert(sqlpp::is_boolean_t<decltype(t.gamma == t.gamma)>::value, "Comparison expression have to be boolean");
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auto x = (t.gamma == true) and (t.alpha == 7);
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auto y = t.gamma and true and t.gamma;
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!t.gamma;
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t.beta < "kaesekuchen";
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interpret(t.beta + "hallenhalma", printer).flush();
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static_assert(sqlpp::must_not_insert_t<decltype(t.alpha)>::value, "alpha must not be inserted");
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interpret(t.alpha, printer).flush();
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std::cerr << "\n" << sizeof(test::TabBar) << std::endl;
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static_assert(std::is_same<typename decltype(t.alpha)::_value_type::_is_named_expression, std::true_type>::value, "alpha should be a named expression");
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static_assert(sqlpp::is_named_expression_t<decltype(t.alpha)>::value, "alpha should be a named expression");
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static_assert(sqlpp::is_named_expression_t<decltype(t.alpha.as(alias::a))>::value, "an alias of alpha should be a named expression");
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static_assert(sqlpp::is_alias_t<decltype(t.alpha.as(alias::a))>::value, "an alias of alpha should be an alias");
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auto z = select(t.alpha).from(t) == 7;
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auto l = t.as(alias::left);
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auto r = select(t.gamma.as(alias::a)).from(t).where(t.gamma == true).as(alias::right);
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static_assert(sqlpp::is_boolean_t<decltype(select(t.gamma).from(t))>::value, "select(bool) has to be a bool");
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interpret(sqlpp::select().flags(sqlpp::distinct, sqlpp::straight_join).columns(l.alpha, l.beta, select(r.a).from(r))
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|
.from(l, r)
|
|
.where(t.beta == "hello world" and select(t.gamma).from(t))// .as(alias::right))
|
|
.group_by(l.gamma, r.a)
|
|
.having(r.a != true)
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|
.order_by(l.beta.asc())
|
|
.limit(17)
|
|
.offset(3)
|
|
.as(alias::a)
|
|
, printer).flush();
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|
|
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return 0;
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}
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