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ladybird/Tests/LibSQL/TestSqlValueAndTuple.cpp
Ben Wiederhake f890b70eae Tests: Prefer TRY_OR_FAIL() and MUST() over EXPECT(!.is_error()) 
Note that in some cases (in particular SQL::Result and PDFErrorOr),
there is no Formatter defined for the error type, hence TRY_OR_FAIL
cannot work as-is. Furthermore, this commit leaves untouched the places
where MUST could be replaced by TRY_OR_FAIL.

Inspired by:
https://github.com/SerenityOS/serenity/pull/18710#discussion_r1186892445
2023-05-14 15:39:38 -06:00

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/*
* Copyright (c) 2021, Jan de Visser <jan@de-visser.net>
* Copyright (c) 2022, Tim Flynn <trflynn89@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <unistd.h>
#include <LibSQL/Meta.h>
#include <LibSQL/Row.h>
#include <LibSQL/Tuple.h>
#include <LibSQL/Value.h>
#include <LibTest/TestCase.h>
TEST_CASE(null_value)
{
SQL::Value v(SQL::SQLType::Null);
EXPECT_EQ(v.type(), SQL::SQLType::Null);
EXPECT_EQ(v.to_deprecated_string(), "(null)"sv);
EXPECT(!v.to_bool().has_value());
EXPECT(!v.to_int<i32>().has_value());
EXPECT(!v.to_int<u32>().has_value());
EXPECT(!v.to_double().has_value());
}
TEST_CASE(assign_null)
{
SQL::Value v("Test");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(!v.is_null());
v = SQL::Value();
EXPECT_EQ(v.type(), SQL::SQLType::Null);
EXPECT(v.is_null());
}
TEST_CASE(text_value)
{
{
SQL::Value v(SQL::SQLType::Text);
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.is_null());
v = "Test"sv;
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v.to_deprecated_string(), "Test"sv);
}
{
SQL::Value v(DeprecatedString("String Test"sv));
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v.to_deprecated_string(), "String Test"sv);
v = DeprecatedString("String Test 2"sv);
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v.to_deprecated_string(), "String Test 2"sv);
}
{
SQL::Value v("const char * Test");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v.to_deprecated_string(), "const char * Test"sv);
v = "const char * Test 2";
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v.to_deprecated_string(), "const char * Test 2"sv);
}
}
TEST_CASE(text_value_to_other_types)
{
{
SQL::Value v("42");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 42);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 42.0) < NumericLimits<double>().epsilon());
}
{
SQL::Value v("true");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.to_bool().has_value());
EXPECT(v.to_bool().value());
}
{
SQL::Value v("false");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.to_bool().has_value());
EXPECT(!v.to_bool().value());
}
{
SQL::Value v("foo");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(!v.to_bool().has_value());
EXPECT(!v.to_int<i32>().has_value());
EXPECT(!v.to_int<u32>().has_value());
EXPECT(!v.to_double().has_value());
}
{
SQL::Value v("3.14");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 3.14) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(assign_int_to_text_value)
{
SQL::Value v(SQL::SQLType::Text);
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT(v.is_null());
v = 42;
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT_EQ(v, 42);
}
TEST_CASE(serialize_text_value)
{
SQL::Value v("Test");
EXPECT_EQ(v.type(), SQL::SQLType::Text);
EXPECT_EQ(v, "Test"sv);
SQL::Serializer serializer;
serializer.serialize<SQL::Value>(v);
serializer.rewind();
auto v2 = serializer.deserialize<SQL::Value>();
EXPECT_EQ(v2.type(), SQL::SQLType::Text);
EXPECT_EQ(v2, "Test"sv);
EXPECT_EQ(v2, v);
}
TEST_CASE(integer_value)
{
{
SQL::Value v(SQL::SQLType::Integer);
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT(v.is_null());
v = 42;
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 42);
EXPECT_EQ(v.to_deprecated_string(), "42"sv);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 42.0) < NumericLimits<double>().epsilon());
EXPECT(v.to_bool().has_value());
EXPECT(v.to_bool().value());
}
{
SQL::Value v(0);
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 0);
EXPECT(v.to_bool().has_value());
EXPECT(!v.to_bool().value());
}
{
SQL::Value v(42);
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 42);
}
{
SQL::Value text("42");
SQL::Value integer(SQL::SQLType::Integer);
integer = text;
EXPECT(integer.to_int<i32>().has_value());
EXPECT_EQ(integer.to_int<i32>().value(), 42);
}
}
TEST_CASE(serialize_int_value)
{
SQL::Value v(42);
EXPECT_EQ(v.type(), SQL::SQLType::Integer);
EXPECT_EQ(v, 42);
SQL::Serializer serializer;
serializer.serialize<SQL::Value>(v);
serializer.rewind();
auto v2 = serializer.deserialize<SQL::Value>();
EXPECT_EQ(v2.type(), SQL::SQLType::Integer);
EXPECT_EQ(v2, 42);
EXPECT_EQ(v2, v);
}
TEST_CASE(serialize_downsized_int_value)
{
auto run_test_for_value = [](auto value) {
using T = decltype(value);
SQL::Value v(value);
SQL::Serializer serializer;
serializer.serialize(v);
serializer.rewind();
auto type_flags = serializer.deserialize<u8>();
auto type_data = type_flags & 0xf0;
auto type = static_cast<SQL::SQLType>(type_flags & 0x0f);
EXPECT_NE(type_data, 0);
EXPECT_EQ(type, SQL::SQLType::Integer);
auto deserialized = serializer.deserialize<T>();
EXPECT_EQ(deserialized, value);
};
run_test_for_value(NumericLimits<i8>::min());
run_test_for_value(NumericLimits<i8>::max());
run_test_for_value(NumericLimits<i16>::min());
run_test_for_value(NumericLimits<i16>::max());
run_test_for_value(NumericLimits<i32>::min());
run_test_for_value(NumericLimits<i32>::max());
run_test_for_value(NumericLimits<i64>::min());
run_test_for_value(NumericLimits<i64>::max());
run_test_for_value(NumericLimits<u8>::min());
run_test_for_value(NumericLimits<u8>::max());
run_test_for_value(NumericLimits<u16>::min());
run_test_for_value(NumericLimits<u16>::max());
run_test_for_value(NumericLimits<u32>::min());
run_test_for_value(NumericLimits<u32>::max());
run_test_for_value(NumericLimits<u64>::min());
run_test_for_value(NumericLimits<u64>::max());
}
TEST_CASE(float_value)
{
{
SQL::Value v(SQL::SQLType::Float);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.is_null());
v = 3.14;
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 3.14) < NumericLimits<double>().epsilon());
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 3);
EXPECT_EQ(v.to_deprecated_string(), "3.14");
EXPECT(v.to_bool().has_value());
EXPECT(v.to_bool().value());
v = 0.0;
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_double().has_value());
EXPECT(v.to_double().value() < NumericLimits<double>().epsilon());
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 0);
EXPECT_EQ(v.to_deprecated_string(), "0"sv);
EXPECT(v.to_bool().has_value());
EXPECT(!v.to_bool().value());
}
{
SQL::Value v(3.14);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT((v.to_double().value() - 3.14) < NumericLimits<double>().epsilon());
}
{
SQL::Value v(3.51);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 4);
}
{
SQL::Value v(-3.14);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), -3);
}
{
SQL::Value v(-3.51);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), -4);
}
}
TEST_CASE(serialize_float_value)
{
SQL::Value v(3.14);
EXPECT_EQ(v.type(), SQL::SQLType::Float);
EXPECT(v.to_double().value() - 3.14 < NumericLimits<double>().epsilon());
SQL::Serializer serializer;
serializer.serialize<SQL::Value>(v);
serializer.rewind();
auto v2 = serializer.deserialize<SQL::Value>();
EXPECT_EQ(v2.type(), SQL::SQLType::Float);
EXPECT((v.to_double().value() - 3.14) < NumericLimits<double>().epsilon());
EXPECT_EQ(v2, v);
}
TEST_CASE(copy_value)
{
SQL::Value text("42");
SQL::Value copy(text);
EXPECT_EQ(copy, "42"sv);
}
TEST_CASE(to_int)
{
SQL::Value text("42");
SQL::Value integer(42);
EXPECT_EQ(text, integer);
EXPECT_EQ(integer, text);
SQL::Value int_64 { static_cast<i64>(123) };
EXPECT_EQ(int_64.to_int<i8>(), 123);
EXPECT_EQ(int_64.to_int<i16>(), 123);
EXPECT_EQ(int_64.to_int<i32>(), 123);
EXPECT_EQ(int_64.to_int<u8>(), 123u);
EXPECT_EQ(int_64.to_int<u16>(), 123u);
EXPECT_EQ(int_64.to_int<u32>(), 123u);
EXPECT_EQ(int_64.to_int<u64>(), 123u);
SQL::Value uint_64 { static_cast<i64>(123) };
EXPECT_EQ(uint_64.to_int<i8>(), 123);
EXPECT_EQ(uint_64.to_int<i16>(), 123);
EXPECT_EQ(uint_64.to_int<i32>(), 123);
EXPECT_EQ(uint_64.to_int<i64>(), 123);
EXPECT_EQ(uint_64.to_int<u8>(), 123u);
EXPECT_EQ(uint_64.to_int<u16>(), 123u);
EXPECT_EQ(uint_64.to_int<u32>(), 123u);
}
TEST_CASE(to_int_failures)
{
SQL::Value large_int_64 { NumericLimits<i64>::max() };
EXPECT(!large_int_64.to_int<i8>().has_value());
EXPECT(!large_int_64.to_int<i16>().has_value());
EXPECT(!large_int_64.to_int<i32>().has_value());
EXPECT(!large_int_64.to_int<u8>().has_value());
EXPECT(!large_int_64.to_int<u16>().has_value());
EXPECT(!large_int_64.to_int<u32>().has_value());
SQL::Value large_int_32 { NumericLimits<i32>::max() };
EXPECT(!large_int_32.to_int<i8>().has_value());
EXPECT(!large_int_32.to_int<i16>().has_value());
EXPECT(!large_int_32.to_int<u8>().has_value());
EXPECT(!large_int_32.to_int<u16>().has_value());
SQL::Value small_int_64 { NumericLimits<i64>::min() };
EXPECT(!small_int_64.to_int<i8>().has_value());
EXPECT(!small_int_64.to_int<i16>().has_value());
EXPECT(!small_int_64.to_int<i32>().has_value());
EXPECT(!small_int_64.to_int<u8>().has_value());
EXPECT(!small_int_64.to_int<u16>().has_value());
EXPECT(!small_int_64.to_int<u32>().has_value());
EXPECT(!small_int_64.to_int<u64>().has_value());
SQL::Value small_int_32 { NumericLimits<i32>::min() };
EXPECT(!small_int_32.to_int<i8>().has_value());
EXPECT(!small_int_32.to_int<i16>().has_value());
EXPECT(!small_int_32.to_int<u8>().has_value());
EXPECT(!small_int_32.to_int<u16>().has_value());
EXPECT(!small_int_32.to_int<u32>().has_value());
EXPECT(!small_int_32.to_int<u64>().has_value());
SQL::Value large_uint_64 { NumericLimits<u64>::max() };
EXPECT(!large_uint_64.to_int<i8>().has_value());
EXPECT(!large_uint_64.to_int<i16>().has_value());
EXPECT(!large_uint_64.to_int<i32>().has_value());
EXPECT(!large_uint_64.to_int<i64>().has_value());
EXPECT(!large_uint_64.to_int<u8>().has_value());
EXPECT(!large_uint_64.to_int<u16>().has_value());
EXPECT(!large_uint_64.to_int<u32>().has_value());
SQL::Value large_uint_32 { NumericLimits<u32>::max() };
EXPECT(!large_uint_32.to_int<i8>().has_value());
EXPECT(!large_uint_32.to_int<i16>().has_value());
EXPECT(!large_uint_32.to_int<u8>().has_value());
EXPECT(!large_uint_32.to_int<u16>().has_value());
}
TEST_CASE(bool_value)
{
{
SQL::Value v(SQL::SQLType::Boolean);
EXPECT_EQ(v.type(), SQL::SQLType::Boolean);
EXPECT(v.is_null());
v = true;
EXPECT_EQ(v.type(), SQL::SQLType::Boolean);
EXPECT(v.to_bool().has_value());
EXPECT(v.to_bool().value());
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 1);
EXPECT_EQ(v.to_deprecated_string(), "true"sv);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 1.0) < NumericLimits<double>().epsilon());
}
{
SQL::Value v(false);
EXPECT_EQ(v.type(), SQL::SQLType::Boolean);
EXPECT(v.to_bool().has_value());
EXPECT(!v.to_bool().value());
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 0);
EXPECT_EQ(v.to_deprecated_string(), "false"sv);
EXPECT(v.to_double().has_value());
EXPECT(v.to_double().value() < NumericLimits<double>().epsilon());
}
{
SQL::Value v(true);
EXPECT_EQ(v.type(), SQL::SQLType::Boolean);
EXPECT(v.to_bool().has_value());
EXPECT(v.to_bool().value());
EXPECT(v.to_int<i32>().has_value());
EXPECT_EQ(v.to_int<i32>().value(), 1);
EXPECT_EQ(v.to_deprecated_string(), "true"sv);
EXPECT(v.to_double().has_value());
EXPECT((v.to_double().value() - 1.0) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(serialize_boolean_value)
{
SQL::Value v(true);
EXPECT_EQ(v.type(), SQL::SQLType::Boolean);
EXPECT_EQ(v.to_bool(), true);
SQL::Serializer serializer;
serializer.serialize<SQL::Value>(v);
serializer.rewind();
auto v2 = serializer.deserialize<SQL::Value>();
EXPECT_EQ(v2.type(), SQL::SQLType::Boolean);
EXPECT_EQ(v2.to_bool(), true);
EXPECT_EQ(v, v2);
}
TEST_CASE(tuple_value)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend("Test");
values.empend(42);
MUST(v.assign_tuple(values));
auto values2 = v.to_vector();
EXPECT(values2.has_value());
EXPECT_EQ(values, values2.value());
}
TEST_CASE(copy_tuple_value)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend("Test");
values.empend(42);
MUST(v.assign_tuple(values));
auto values2 = v;
EXPECT_EQ(values2.type(), v.type());
EXPECT_EQ(v.type(), SQL::SQLType::Tuple);
EXPECT_EQ(values, values2.to_vector().value());
}
TEST_CASE(tuple_value_wrong_type)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend(42);
auto result = v.assign_tuple(move(values));
EXPECT(result.is_error());
}
TEST_CASE(tuple_value_too_many_values)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend("Test");
values.empend(42);
auto result = v.assign_tuple(move(values));
EXPECT(result.is_error());
}
TEST_CASE(tuple_value_not_enough_values)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Ascending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend("Test");
MUST(v.assign_tuple(values));
EXPECT_EQ(v.type(), SQL::SQLType::Tuple);
auto values_opt = v.to_vector();
EXPECT(values_opt.has_value());
EXPECT_EQ(values_opt.value().size(), 2u);
auto col2 = values_opt.value()[1];
EXPECT_EQ(col2.type(), SQL::SQLType::Integer);
}
TEST_CASE(serialize_tuple_value)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
auto v = MUST(SQL::Value::create_tuple(move(descriptor)));
Vector<SQL::Value> values;
values.empend("Test");
values.empend(42);
MUST(v.assign_tuple(values));
SQL::Serializer serializer;
serializer.serialize<SQL::Value>(v);
serializer.rewind();
auto v2 = serializer.deserialize<SQL::Value>();
EXPECT_EQ(v2.type(), SQL::SQLType::Tuple);
EXPECT_EQ(v, v2);
}
TEST_CASE(order_text_values)
{
SQL::Value v1(SQL::SQLType::Text);
v1 = "Test_A";
SQL::Value v2(SQL::SQLType::Text);
v2 = "Test_B";
EXPECT(v1 <= v2);
EXPECT(v1 < v2);
EXPECT(v2 >= v1);
EXPECT(v2 > v1);
}
TEST_CASE(order_int_values)
{
SQL::Value v1(SQL::SQLType::Integer);
v1 = 12;
SQL::Value v2(SQL::SQLType::Integer);
v2 = 42;
EXPECT(v1 <= v2);
EXPECT(v1 < v2);
EXPECT(v2 >= v1);
EXPECT(v2 > v1);
}
TEST_CASE(tuple)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
SQL::Tuple tuple(descriptor);
tuple["col1"] = "Test";
tuple["col2"] = 42;
EXPECT_EQ(tuple[0], "Test"sv);
EXPECT_EQ(tuple[1], 42);
}
TEST_CASE(serialize_tuple)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
SQL::Tuple tuple(descriptor);
tuple["col1"] = "Test";
tuple["col2"] = 42;
EXPECT_EQ(tuple[0], "Test"sv);
EXPECT_EQ(tuple[1], 42);
SQL::Serializer serializer;
serializer.serialize<SQL::Tuple>(tuple);
serializer.rewind();
auto tuple2 = serializer.deserialize<SQL::Tuple>();
EXPECT_EQ(tuple2[0], "Test"sv);
EXPECT_EQ(tuple2[1], 42);
}
TEST_CASE(copy_tuple)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
SQL::Tuple tuple(descriptor);
tuple["col1"] = "Test";
tuple["col2"] = 42;
SQL::Tuple copy;
copy = tuple;
EXPECT_EQ(tuple, copy);
SQL::Tuple copy_2(copy);
EXPECT_EQ(tuple, copy_2);
}
TEST_CASE(compare_tuples)
{
NonnullRefPtr<SQL::TupleDescriptor> descriptor = adopt_ref(*new SQL::TupleDescriptor);
descriptor->append({ "schema", "table", "col1", SQL::SQLType::Text, SQL::Order::Ascending });
descriptor->append({ "schema", "table", "col2", SQL::SQLType::Integer, SQL::Order::Descending });
SQL::Tuple tuple1(descriptor);
tuple1["col1"] = "Test";
tuple1["col2"] = 42;
SQL::Tuple tuple2(descriptor);
tuple2["col1"] = "Test";
tuple2["col2"] = 12;
SQL::Tuple tuple3(descriptor);
tuple3["col1"] = "Text";
tuple3["col2"] = 12;
EXPECT(tuple1 <= tuple2);
EXPECT(tuple1 < tuple2);
EXPECT(tuple2 >= tuple1);
EXPECT(tuple2 > tuple1);
EXPECT(tuple1 <= tuple3);
EXPECT(tuple1 < tuple3);
EXPECT(tuple3 >= tuple1);
EXPECT(tuple3 > tuple1);
}
TEST_CASE(add)
{
{
SQL::Value value1 { 21 };
SQL::Value value2 { 42 };
auto result = value1.add(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 63);
}
{
SQL::Value value1 { 21 };
SQL::Value value2 { static_cast<u8>(42) };
auto result = value1.add(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 63);
}
{
SQL::Value value1 { static_cast<u8>(21) };
SQL::Value value2 { 42 };
auto result = value1.add(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 63);
}
{
SQL::Value value1 { static_cast<double>(21) };
SQL::Value value2 { 42 };
auto result = value1.add(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 63);
}
{
SQL::Value value1 { static_cast<double>(21.5) };
SQL::Value value2 { 42 };
auto result = value1.add(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Float);
EXPECT((result.value().to_double().value() - 63.5) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(add_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.add(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.add(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.add(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to a number.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.add(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(subtract)
{
{
SQL::Value value1 { 21 };
SQL::Value value2 { 42 };
auto result = value1.subtract(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), -21);
}
{
SQL::Value value1 { 21 };
SQL::Value value2 { static_cast<u8>(42) };
auto result = value1.subtract(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), -21);
}
{
SQL::Value value1 { static_cast<u8>(42) };
SQL::Value value2 { 21 };
auto result = value1.subtract(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 21);
}
{
SQL::Value value1 { static_cast<double>(21) };
SQL::Value value2 { 42 };
auto result = value1.subtract(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), -21);
}
{
SQL::Value value1 { static_cast<double>(21.5) };
SQL::Value value2 { 42 };
auto result = value1.subtract(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Float);
EXPECT((result.value().to_double().value() - 20.5) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(subtract_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.subtract(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.subtract(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { static_cast<u64>(0) };
SQL::Value value2 { static_cast<u64>(1) };
auto result = value1.subtract(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to a number.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.subtract(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(multiply)
{
{
SQL::Value value1 { 2 };
SQL::Value value2 { 21 };
auto result = value1.multiply(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 42);
}
{
SQL::Value value1 { 2 };
SQL::Value value2 { static_cast<u8>(21) };
auto result = value1.multiply(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 42);
}
{
SQL::Value value1 { static_cast<u8>(2) };
SQL::Value value2 { 21 };
auto result = value1.multiply(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 42);
}
{
SQL::Value value1 { static_cast<double>(2) };
SQL::Value value2 { 21 };
auto result = value1.multiply(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 42);
}
{
SQL::Value value1 { static_cast<double>(2.5) };
SQL::Value value2 { 21 };
auto result = value1.multiply(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Float);
EXPECT((result.value().to_double().value() - 52.5) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(multiply_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.multiply(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.multiply(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { NumericLimits<i64>::max() };
SQL::Value value2 { 2 };
auto result = value1.multiply(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to a number.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.multiply(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(divide)
{
{
SQL::Value value1 { 42 };
SQL::Value value2 { -2 };
auto result = value1.divide(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), -21);
}
{
SQL::Value value1 { 42 };
SQL::Value value2 { static_cast<u8>(2) };
auto result = value1.divide(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 21);
}
{
SQL::Value value1 { static_cast<u8>(42) };
SQL::Value value2 { 2 };
auto result = value1.divide(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 21);
}
{
SQL::Value value1 { static_cast<double>(42) };
SQL::Value value2 { 2 };
auto result = value1.divide(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 21);
}
{
SQL::Value value1 { static_cast<double>(43) };
SQL::Value value2 { 2 };
auto result = value1.divide(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Float);
EXPECT((result.value().to_double().value() - 21.5) < NumericLimits<double>().epsilon());
}
}
TEST_CASE(divide_error)
{
{
// The operation itself would overflow.
SQL::Value value1 { 1 };
SQL::Value value2 { 0 };
auto result = value1.divide(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to a number.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.divide(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(modulo)
{
{
SQL::Value value1 { 21 };
SQL::Value value2 { 2 };
auto result = value1.modulo(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 1);
}
{
SQL::Value value1 { 21 };
SQL::Value value2 { static_cast<u8>(2) };
auto result = value1.modulo(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 1);
}
{
SQL::Value value1 { static_cast<u8>(21) };
SQL::Value value2 { 2 };
auto result = value1.modulo(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 1);
}
{
SQL::Value value1 { static_cast<double>(21) };
SQL::Value value2 { 2 };
auto result = value1.modulo(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 1);
}
}
TEST_CASE(modulo_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.modulo(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.modulo(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { 21 };
SQL::Value value2 { 0 };
auto result = value1.modulo(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.modulo(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { static_cast<double>(21.5) };
SQL::Value value2 { 2 };
auto result = value1.modulo(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(shift_left)
{
{
SQL::Value value1 { 0b0011'0000 };
SQL::Value value2 { 2 };
auto result = value1.shift_left(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b1100'0000);
}
{
SQL::Value value1 { 0b0011'0000 };
SQL::Value value2 { static_cast<u8>(2) };
auto result = value1.shift_left(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b1100'0000);
}
{
SQL::Value value1 { static_cast<u8>(0b0011'0000) };
SQL::Value value2 { 2 };
auto result = value1.shift_left(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b1100'0000);
}
{
SQL::Value value1 { static_cast<double>(0b0011'0000) };
SQL::Value value2 { 2 };
auto result = value1.shift_left(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b1100'0000);
}
}
TEST_CASE(shift_left_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { 21 };
SQL::Value value2 { -1 };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { 21 };
SQL::Value value2 { 64 };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { static_cast<double>(21.5) };
SQL::Value value2 { 2 };
auto result = value1.shift_left(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
TEST_CASE(shift_right)
{
{
SQL::Value value1 { 0b0011'0000 };
SQL::Value value2 { 2 };
auto result = value1.shift_right(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b0000'1100);
}
{
SQL::Value value1 { 0b0011'0000 };
SQL::Value value2 { static_cast<u8>(2) };
auto result = value1.shift_right(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b0000'1100);
}
{
SQL::Value value1 { static_cast<u8>(0b0011'0000) };
SQL::Value value2 { 2 };
auto result = value1.shift_right(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b0000'1100);
}
{
SQL::Value value1 { static_cast<double>(0b0011'0000) };
SQL::Value value2 { 2 };
auto result = value1.shift_right(value2);
EXPECT_EQ(result.value().type(), SQL::SQLType::Integer);
EXPECT_EQ(result.value(), 0b0000'1100);
}
}
TEST_CASE(shift_right_error)
{
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { 1 };
SQL::Value value2 { NumericLimits<u64>::max() };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Fails to coerce value2 to the signedness of value1.
SQL::Value value1 { static_cast<u64>(1) };
SQL::Value value2 { -1 };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { 21 };
SQL::Value value2 { -1 };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// The operation itself would overflow.
SQL::Value value1 { 21 };
SQL::Value value2 { 64 };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::IntegerOverflow);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { 1 };
SQL::Value value2 { "foo"sv };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
{
// Cannot convert value to an integer.
SQL::Value value1 { static_cast<double>(21.5) };
SQL::Value value2 { 2 };
auto result = value1.shift_right(value2);
EXPECT(result.is_error());
EXPECT_EQ(result.error().error(), SQL::SQLErrorCode::NumericOperatorTypeMismatch);
}
}
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