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query/test/SessionRecordTest.cpp

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#include <catch2/catch_test_macros.hpp>
#include <catch2/generators/catch_generators.hpp>
#include <catch2/catch_template_test_macros.hpp>
#include <matador/sql/condition.hpp>
#include <matador/sql/session.hpp>
#include "Databases.hpp"
#include <list>
using namespace matador::sql;
template<class Type>
class SessionRecordTestFixture
{
public:
SessionRecordTestFixture()
: pool_(Type::dns, 4), session_(pool_)
{}
matador::sql::session &session()
{ return session_; }
private:
matador::sql::connection_pool<matador::sql::connection> pool_;
matador::sql::session session_;
};
TEMPLATE_TEST_CASE_METHOD(SessionRecordTestFixture, "Create and drop table statement", "[session record]", Sqlite, Postgres, MySql)
{
auto &s = SessionRecordTestFixture<TestType>::session();
REQUIRE(!s.table_exists("person"));
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
REQUIRE(s.table_exists("person"));
s.drop()
.table("person")
.execute();
REQUIRE(!s.table_exists("person"));
}
TEST_CASE("Create and drop table statement with foreign key", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("airplane", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("brand", 255),
make_column<std::string>("model", 255),
})
.execute();
REQUIRE(s.table_exists("airplane"));
s.create()
.table("flight", {
make_pk_column<unsigned long>("id"),
make_fk_column<unsigned long>("airplane_id", "airplane", "id"),
make_column<std::string>("pilot_name", 255),
})
.execute();
REQUIRE(s.table_exists("flight"));
s.drop()
.table("flight")
.execute();
REQUIRE(!s.table_exists("flight"));
s.drop()
.table("airplane")
.execute();
REQUIRE(!s.table_exists("airplane"));
}
TEST_CASE("Execute insert record statement", "[session record]")
{
auto dns = GENERATE(as < std::string > {},
"sqlite://sqlite.db",
"postgres://test:test123@127.0.0.1:5432/matador_test");
connection_pool<connection> pool(dns, 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
auto res = s.insert()
.into("person", {"id", "name", "age"})
.values({7, "george", 45})
.execute();
REQUIRE(res == 1);
auto result = s.select({"id", "name", "age"})
.from("person")
.fetch_all();
for (const auto &i: result) {
REQUIRE(i.size() == 3);
REQUIRE(i.at(0).name() == "id");
REQUIRE(i.at(0).type() == data_type_t::type_long_long);
REQUIRE(i.at(0).as<long long>() == 7);
REQUIRE(i.at(1).name() == "name");
REQUIRE(i.at(1).type() == data_type_t::type_varchar);
REQUIRE(i.at(1).as<std::string>() == "george");
REQUIRE(i.at(2).name() == "age");
REQUIRE(i.at(2).type() == matador::sql::data_type_t::type_int);
REQUIRE(i.at(2).as<int>() == 45);
}
s.drop()
.table("person")
.execute();
}
TEST_CASE("Execute insert record statement with foreign key", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("airplane", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("brand", 255),
make_column<std::string>("model", 255),
})
.execute();
s.create()
.table("flight", {
make_pk_column<unsigned long>("id"),
make_fk_column<unsigned long>("airplane_id", "airplane", "id"),
make_column<std::string>("pilot_name", 255),
})
.execute();
auto res = s.insert().into("airplane", {"id", "brand", "model"}).values({1, "Airbus", "A380"}).execute();
REQUIRE(res == 1);
res = s.insert().into("airplane", {"id", "brand", "model"}).values({2, "Boeing", "707"}).execute();
REQUIRE(res == 1);
res = s.insert().into("airplane", {"id", "brand", "model"}).values({3, "Boeing", "747"}).execute();
REQUIRE(res == 1);
auto count = s.select({count_all()}).from("airplane").fetch_value<int>();
REQUIRE(count == 3);
res = s.insert().into("flight", {"id", "airplane_id", "pilot_name"}).values({4, 1, "George"}).execute();
REQUIRE(res == 1);
s.drop().table("flight").execute();
s.drop().table("airplane").execute();
REQUIRE(!s.table_exists("flight"));
REQUIRE(!s.table_exists("airplane"));
}
TEST_CASE("Execute update record statement", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
auto res = s.insert()
.into("person", {"id", "name", "age"})
.values({7, "george", 45})
.execute();
REQUIRE(res == 1);
res = s.update("person")
.set({{"id", 7},
{"name", "jane"},
{"age", 35}})
.where("id"_col == 7)
.execute();
REQUIRE(res == 1);
auto result = s.select({"id", "name", "age"})
.from("person")
.fetch_all();
for (const auto &i: result) {
REQUIRE(i.size() == 3);
REQUIRE(i.at(0).name() == "id");
REQUIRE(i.at(0).type() == data_type_t::type_long_long);
REQUIRE(i.at(0).as<long long>() == 7);
REQUIRE(i.at(1).name() == "name");
REQUIRE(i.at(1).type() == data_type_t::type_varchar);
REQUIRE(i.at(1).as<std::string>() == "jane");
REQUIRE(i.at(2).name() == "age");
REQUIRE(i.at(2).type() == matador::sql::data_type_t::type_int);
REQUIRE(i.at(2).as<int>() == 35);
}
s.drop().table("person").execute();
}
TEST_CASE("Execute select statement", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
auto res = s.insert().into("person", {"id", "name", "age"}).values({1, "george", 45}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({2, "jane", 32}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({3, "michael", 67}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({4, "bob", 13}).execute();
REQUIRE(res == 1);
auto result = s.select({"id", "name", "age"})
.from("person")
.fetch_all();
std::list<std::string> expected_names{"george", "jane", "michael", "bob"};
for (const auto &p: result) {
REQUIRE(p.at(1).str() == expected_names.front());
expected_names.pop_front();
}
REQUIRE(expected_names.empty());
auto rec = s.select({"id", "name", "age"})
.from("person")
.fetch_one();
REQUIRE(rec.at(1).str() == "george");
auto name = s.select({"name"})
.from("person")
.fetch_value<std::string>();
REQUIRE(name == "george");
s.drop().table("person").execute();
}
TEST_CASE("Execute select statement with order by", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
auto res = s.insert().into("person", {"id", "name", "age"}).values({1, "george", 45}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({2, "jane", 32}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({3, "michael", 67}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({4, "bob", 13}).execute();
REQUIRE(res == 1);
auto result = s.select({"id", "name", "age"})
.from("person")
.order_by("name").asc()
.fetch_all();
std::list<std::string> expected_names{"bob", "george", "jane", "michael"};
for (const auto &p: result) {
REQUIRE(p.at(1).str() == expected_names.front());
expected_names.pop_front();
}
REQUIRE(expected_names.empty());
s.drop().table("person").execute();
}
TEST_CASE("Execute select statement with group by and order by", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
})
.execute();
auto res = s.insert().into("person", {"id", "name", "age"}).values({1, "george", 45}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({2, "jane", 45}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({3, "michael", 13}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({4, "bob", 13}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({5, "charlie", 67}).execute();
REQUIRE(res == 1);
auto result = s.select({alias(count("age"), "age_count"), "age"})
.from("person")
.group_by("age")
.order_by("age_count").desc()
.fetch_all();
std::list<std::pair<int, int>> expected_values{{2, 45},
{2, 13},
{1, 67}};
for (const auto &r: result) {
REQUIRE(r.at(0).as<int>() == expected_values.front().first);
REQUIRE(r.at(1).as<int>() == expected_values.front().second);
expected_values.pop_front();
}
s.drop().table("person").execute();
}
TEST_CASE("Execute delete statement", "[session record]")
{
connection_pool<connection> pool("sqlite://sqlite.db", 4);
session s(pool);
s.create()
.table("person", {
make_pk_column<unsigned long>("id"),
make_column<std::string>("name", 255),
make_column<unsigned short>("age")
}).execute();
auto res = s.insert().into("person", {"id", "name", "age"}).values({1, "george", 45}).execute();
REQUIRE(res == 1);
res = s.insert().into("person", {"id", "name", "age"}).values({2, "jane", 45}).execute();
REQUIRE(res == 1);
auto count = s.select({count_all()}).from("person").fetch_value<int>();
REQUIRE(count == 2);
res = s.remove()
.from("person")
.where("id"_col == 1)
.execute();
REQUIRE(res == 1);
count = s.select({count_all()}).from("person").fetch_value<int>();
REQUIRE(count == 1);
s.drop().table("person").execute();
}
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