/* * Copyright (c) 2013-2016, Roland Bock, Aaron Bishop * 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 "MockDb.h" #include "Sample.h" #include "is_regular.h" #include #include #include #include #include #include namespace alias { SQLPP_ALIAS_PROVIDER(a) SQLPP_ALIAS_PROVIDER(b) SQLPP_ALIAS_PROVIDER(left) SQLPP_ALIAS_PROVIDER(right) } // namespace alias int SelectType(int, char*[]) { MockDb db = {}; MockDb::_serializer_context_t printer = {}; auto f = test::TabFoo{}; auto t = test::TabBar{}; // Test a table { using T = typename std::decay::type; static_assert(not sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_integral_t::value, "type requirement"); static_assert(not sqlpp::is_floating_point_t::value, "type requirement"); static_assert(not sqlpp::is_expression_t::value, "type requirement"); static_assert(not sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an alias of table { using T = decltype(t.as(alias::a)); static_assert(not sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_integral_t::value, "type requirement"); static_assert(not sqlpp::is_floating_point_t::value, "type requirement"); static_assert(not sqlpp::is_expression_t::value, "type requirement"); static_assert(not sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(sqlpp::is_alias_t::value, "type requirement"); static_assert(sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an integral column of an alias of table { using T = decltype(t.as(alias::a).alpha); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_integral_t::value, "type requirement"); static_assert(not sqlpp::is_floating_point_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an integral table column { using T = decltype(t.alpha); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_integral_t::value, "type requirement"); static_assert(not sqlpp::is_unsigned_integral_t::value, "type requirement"); static_assert(not sqlpp::is_floating_point_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an unsigned integral table column { using T = decltype(f.psi); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_integral_t::value, "type requirement"); static_assert(sqlpp::is_unsigned_integral_t::value, "type requirement"); static_assert(not sqlpp::is_floating_point_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); // subtraction on unsigned makes it signed static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); // any operation on float makes it float static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); // signed operation on unsigned makes it signed static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); static_assert(sqlpp::is_floating_point_t>::value, "type requirement"); static_assert(sqlpp::is_integral_t>::value, "type requirement"); } // Test a floating point table column { using T = decltype(f.omega); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_integral_t::value, "type requirement"); static_assert(sqlpp::is_floating_point_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test a an alias of a numeric table column { using T = decltype(t.alpha.as(alias::a)); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test a select of a single column without a from { using T = decltype(select(t.alpha)); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test a select of a single numeric table column { using T = decltype(select(t.alpha).from(t)); // static_assert(sqlpp::is_select_column_list_t::value, "Must not be noop"); // static_assert(sqlpp::is_from_t::value, "Must not be noop"); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test a select of an alias of a single numeric table column { using T = decltype(select(t.alpha.as(alias::a)).from(t)); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an alias of a select of a single numeric table column { using T = decltype(select(t.alpha).from(t).as(alias::b)); static_assert(not sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_expression_t::value, "type requirement"); static_assert(not sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "red to not be boolean"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(sqlpp::is_alias_t::value, "type requirement"); static_assert(sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test the column of an alias of a select of an alias of a single numeric table column { using T = decltype(select(t.alpha.as(alias::a)).from(t).as(alias::b)); static_assert(not sqlpp::is_numeric_t::value, "type requirement"); static_assert(not sqlpp::is_expression_t::value, "type requirement"); static_assert(not sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_insert_t::value, "type requirement"); static_assert(not sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(sqlpp::is_alias_t::value, "type requirement"); static_assert(sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test the column of an alias of a select of a single numeric table column { using T = decltype(select(t.alpha).from(t).as(alias::b).alpha); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test an alias of a select of an alias of a single numeric table column { using T = decltype(select(t.alpha.as(alias::a)).from(t).as(alias::b).a); static_assert(sqlpp::is_numeric_t::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "type requirement"); static_assert(sqlpp::is_selectable_t::value, "type requirement"); static_assert(not sqlpp::require_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_insert_t::value, "type requirement"); static_assert(sqlpp::must_not_update_t::value, "type requirement"); static_assert(not sqlpp::is_boolean_t::value, "type requirement"); static_assert(not sqlpp::is_text_t::value, "type requirement"); static_assert(not sqlpp::is_alias_t::value, "type requirement"); static_assert(not sqlpp::is_table_t::value, "type requirement"); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test that all_of(tab) is expanded in select { auto a = select(all_of(t)); auto b = select(t.alpha, t.beta, t.gamma, t.delta); // auto c = select(t); static_assert(std::is_same::value, "all_of(t) has to be expanded by select()"); // static_assert(std::is_same::value, "t has to be expanded by select()"); } // Test that result sets with identical name/value combinations have identical types { auto a = select(t.alpha); auto b = select(f.epsilon.as(t.alpha)); using A = typename decltype(a)::_result_row_t; using B = typename decltype(b)::_result_row_t; static_assert( std::is_same, sqlpp::value_type_of>::value, "Two bigint columns must have identical base_value_type"); static_assert(std::is_same::value, "select with identical columns(name/value_type) need to have identical result_types"); } for (const auto& row : db(select(all_of(t)).from(t).unconditionally())) { int64_t a = row.alpha; std::cout << a << std::endl; } { auto s = dynamic_select(db, all_of(t)).dynamic_from(t).dynamic_where().dynamic_limit().dynamic_offset(); s.from.add(dynamic_join(f).on(f.omega > t.alpha)); s.where.add(without_table_check(f.omega > 7 and t.alpha == any(select(t.alpha).from(t).where(t.alpha < 3)))); s.limit.set(30u); s.limit.set(3u); std::cerr << "------------------------\n"; serialize(s, printer).str(); std::cerr << "------------------------\n"; using T = decltype(s); static_assert(sqlpp::is_regular::value, "type requirement"); } // Test that select can be called with zero columns if it is used with dynamic columns. { auto s = dynamic_select(db).dynamic_columns(); s.selected_columns.add(without_table_check(t.alpha)); serialize(s, printer).str(); } { auto find_query = sqlpp::dynamic_select(db).dynamic_columns(t.alpha.as(alias::a)).dynamic_from(t).unconditionally(); find_query.from.add(sqlpp::dynamic_join(f).on(t.alpha == f.omega)); find_query.selected_columns.add(sqlpp::without_table_check(f.omega.as(alias::b))); } // Test that verbatim_table compiles { auto s = select(t.alpha).from(sqlpp::verbatim_table("my_unknown_table")); serialize(s, printer).str(); } static_assert(sqlpp::is_select_flag_t::value, "sqlpp::all has to be a select_flag"); using T = sqlpp::wrap_operand::type; static_assert(sqlpp::is_regular::value, "type requirement"); static_assert(sqlpp::is_expression_t::value, "T has to be an expression"); static_assert(sqlpp::is_numeric_t::value, "T has to be numeric"); static_assert(sqlpp::is_numeric_t::value, "TabBar.alpha has to be a numeric"); ((t.alpha + 7) + 4).asc(); static_assert(sqlpp::is_boolean_t::value, "Comparison expression have to be boolean"); !t.gamma; serialize(t.beta < "kaesekuchen", printer).str(); serialize(t.beta + "hallenhalma", printer).str(); static_assert(sqlpp::must_not_insert_t::value, "alpha must not be inserted"); serialize(t.alpha, printer).str(); std::cerr << "\n" << sizeof(test::TabBar) << std::endl; static_assert(sqlpp::is_selectable_t::value, "alpha should be a named expression"); static_assert(sqlpp::is_selectable_t::value, "an alias of alpha should be a named expression"); static_assert(sqlpp::is_alias_t::value, "an alias of alpha should be an alias"); auto l = t.as(alias::left); auto r = select(t.gamma.as(alias::a)).from(t).where(t.gamma == true).as(alias::right); static_assert(sqlpp::is_boolean_t::value, "select(bool) has to be a bool"); static_assert(sqlpp::is_boolean_t::value, "select(bool) has to be a bool"); auto s1 = sqlpp::select() .flags(sqlpp::distinct, sqlpp::straight_join) .columns(l.gamma, r.a) .from(r.cross_join(t).cross_join(l)) .where(t.beta == "hello world" and select(t.gamma).from(t)) // .as(alias::right)) .group_by(l.gamma, r.a) .having(r.a != true) .order_by(l.beta.asc()) .limit(17u) .offset(3u) .as(alias::a); return 0; }