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 ReloadTypesAsync

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NumericTests.cs

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using System;

using System.Data;

using System.Linq;

using System.Numerics;

using System.Threading.Tasks;

using NUnit.Framework;

namespace Npgsql.Tests.Types;

public class NumericTests : TestBase

{

static readonly object[] ReadWriteCases =

[

new object[] { "0.0000000000000000000000000001::numeric", 0.0000000000000000000000000001M },

new object[] { "0.000000000000000000000001::numeric", 0.000000000000000000000001M },

new object[] { "0.00000000000000000001::numeric", 0.00000000000000000001M },

new object[] { "0.0000000000000001::numeric", 0.0000000000000001M },

new object[] { "0.000000000001::numeric", 0.000000000001M },

new object[] { "0.00000001::numeric", 0.00000001M },

new object[] { "0.0001::numeric", 0.0001M },

new object[] { "0.123456000000000100000000::numeric", 0.123456000000000100000000M },

new object[] { "1::numeric", 1M },

new object[] { "10000::numeric", 10000M },

new object[] { "100000000::numeric", 100000000M },

new object[] { "1000000000000::numeric", 1000000000000M },

new object[] { "10000000000000000::numeric", 10000000000000000M },

new object[] { "100000000000000000000::numeric", 100000000000000000000M },

new object[] { "1000000000000000000000000::numeric", 1000000000000000000000000M },

new object[] { "10000000000000000000000000000::numeric", 10000000000000000000000000000M },

new object[] { "1E-28::numeric", 0.0000000000000000000000000001M },

new object[] { "1E-24::numeric", 0.000000000000000000000001M },

new object[] { "1E-20::numeric", 0.00000000000000000001M },

new object[] { "1E-16::numeric", 0.0000000000000001M },

new object[] { "1E-12::numeric", 0.000000000001M },

new object[] { "1E-8::numeric", 0.00000001M },

new object[] { "1E-4::numeric", 0.0001M },

new object[] { "1E+0::numeric", 1M },

new object[] { "1E+4::numeric", 10000M },

new object[] { "1E+8::numeric", 100000000M },

new object[] { "1E+12::numeric", 1000000000000M },

new object[] { "1E+16::numeric", 10000000000000000M },

new object[] { "1E+20::numeric", 100000000000000000000M },

new object[] { "1E+24::numeric", 1000000000000000000000000M },

new object[] { "1E+28::numeric", 10000000000000000000000000000M },

new object[] { "1.2222333344445555666677778888::numeric", 1.2222333344445555666677778888M },

new object[] { "11.222233334444555566667777888::numeric", 11.222233334444555566667777888M },

new object[] { "111.22223333444455556666777788::numeric", 111.22223333444455556666777788M },

new object[] { "1111.2222333344445555666677778::numeric", 1111.2222333344445555666677778M },

new object[] { "+79228162514264337593543950335::numeric", +79228162514264337593543950335M },

new object[] { "-79228162514264337593543950335::numeric", -79228162514264337593543950335M },

// It is important to test rounding on both even and odd

// numbers to make sure midpoint rounding is away from zero.

new object[] { "1::numeric(10,2)", 1.00M },

new object[] { "2::numeric(10,2)", 2.00M },

new object[] { "1.2::numeric(10,1)", 1.2M },

new object[] { "1.2::numeric(10,2)", 1.20M },

new object[] { "1.2::numeric(10,3)", 1.200M },

new object[] { "1.2::numeric(10,4)", 1.2000M },

new object[] { "1.2::numeric(10,5)", 1.20000M },

new object[] { "1.4::numeric(10,0)", 1M },

new object[] { "1.5::numeric(10,0)", 2M },

new object[] { "2.4::numeric(10,0)", 2M },

new object[] { "2.5::numeric(10,0)", 3M },

new object[] { "-1.4::numeric(10,0)", -1M },

new object[] { "-1.5::numeric(10,0)", -2M },

new object[] { "-2.4::numeric(10,0)", -2M },

new object[] { "-2.5::numeric(10,0)", -3M },

// Bug 2033

new object[] { "0.0036882500000000000000000000", 0.0036882500000000000000000000M },

// Bug 5848

new object[] { "10836968.715000000000000000000000", 10836968.715000000000000000000000M },

new object[] { "936490726837837729197", 936490726837837729197M },

new object[] { "9364907268378377291970000", 9364907268378377291970000M },

new object[] { "3649072683783772919700000000", 3649072683783772919700000000M },

new object[] { "1234567844445555.000000000", 1234567844445555.000000000M },

new object[] { "11112222000000000000", 11112222000000000000M },

new object[] { "0::numeric", 0M }

];

[Test]

[TestCaseSource(nameof(ReadWriteCases))]

public async Task Read(string query, decimal expected)

{

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT " + query, conn);

var value = (decimal)(await cmd.ExecuteScalarAsync())!;

Assert.That(decimal.GetBits(value), Is.EqualTo(decimal.GetBits(expected)));

}

[Test]

[TestCaseSource(nameof(ReadWriteCases))]

public async Task Write(string query, decimal expected)

{

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT @p, @p = " + query, conn);

cmd.Parameters.AddWithValue("p", expected);

using var rdr = await cmd.ExecuteReaderAsync();

rdr.Read();

Assert.That(decimal.GetBits(rdr.GetFieldValue<decimal>(0)), Is.EqualTo(decimal.GetBits(expected)));

Assert.That(rdr.GetFieldValue<bool>(1));

}

[Test]

public async Task Numeric()

{

await AssertType(5.5m, "5.5", "numeric", dbType: DbType.Decimal);

await AssertTypeWrite(5.5m, "5.5", "numeric", dbType: new(DbType.Decimal, DbType.Decimal, DbType.VarNumeric));

await AssertType((short)8, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Int16), valueTypeEqualsFieldType: false);

await AssertType(8, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Int32), valueTypeEqualsFieldType: false);

await AssertType(8L, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Int64), valueTypeEqualsFieldType: false);

await AssertType((byte)8, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Int16), valueTypeEqualsFieldType: false, skipArrayCheck: true);

await AssertType(8F, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Single), valueTypeEqualsFieldType: false);

await AssertType(8D, "8", "numeric", dataTypeInference: DataTypeInference.Mismatch,

dbType: new(DbType.Decimal, DbType.Double), valueTypeEqualsFieldType: false);

}

[Test, Description("Tests that when Numeric value does not fit in a System.Decimal and reader is in ReaderState.InResult, the value was read wholly and it is safe to continue reading")]

public async Task Read_overflow_is_safe()

{

using var conn = await OpenConnectionAsync();

//This 29-digit number causes OverflowException. Here it is important to have unread column after failing one to leave it ReaderState.InResult

using var cmd = new NpgsqlCommand(@"SELECT (0.20285714285714285714285714285)::numeric, generate_series FROM generate_series(1, 2)", conn);

using var reader = await cmd.ExecuteReaderAsync(CommandBehavior.SequentialAccess);

var i = 1;

while (reader.Read())

{

Assert.That(() => reader.GetDecimal(0),

Throws.Exception

.With.TypeOf<OverflowException>()

.With.Message.EqualTo("Numeric value does not fit in a System.Decimal"));

var intValue = reader.GetInt32(1);

Assert.That(intValue, Is.EqualTo(i++));

Assert.That(conn.FullState, Is.EqualTo(ConnectionState.Open | ConnectionState.Fetching));

Assert.That(conn.State, Is.EqualTo(ConnectionState.Open));

Assert.That(reader.State, Is.EqualTo(ReaderState.InResult));

}

}

[Test]

[TestCaseSource(nameof(ReadWriteCases))]

public async Task Read_BigInteger(string query, decimal expected)

{

var bigInt = new BigInteger(expected);

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT " + query, conn);

using var rdr = await cmd.ExecuteReaderAsync();

await rdr.ReadAsync();

if (decimal.Floor(expected) == expected)

Assert.That(rdr.GetFieldValue<BigInteger>(0), Is.EqualTo(bigInt));

else

Assert.That(() => rdr.GetFieldValue<BigInteger>(0),

Throws.Exception

.With.TypeOf<InvalidCastException>()

.With.Message.EqualTo("Numeric value with non-zero fractional digits not supported by BigInteger"));

}

[Test]

[TestCaseSource(nameof(ReadWriteCases))]

public async Task Write_BigInteger(string query, decimal expected)

{

if (decimal.Floor(expected) == expected)

{

var bigInt = new BigInteger(expected);

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT @p, @p = " + query, conn);

cmd.Parameters.AddWithValue("p", bigInt);

using var rdr = await cmd.ExecuteReaderAsync();

await rdr.ReadAsync();

Assert.That(rdr.GetFieldValue<BigInteger>(0), Is.EqualTo(bigInt));

Assert.That(rdr.GetFieldValue<bool>(1));

}

}

[Test]

public async Task BigInteger_large()

{

var num = BigInteger.Parse(string.Join("", Enumerable.Range(0, 17000).Select(i => ((i + 1) % 10).ToString())));

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT '0.1'::numeric, @p", conn);

cmd.Parameters.AddWithValue("p", num);

using var rdr = await cmd.ExecuteReaderAsync(CommandBehavior.SequentialAccess);

await rdr.ReadAsync();

Assert.Throws<InvalidCastException>(() => rdr.GetFieldValue<BigInteger>(0));

Assert.That(rdr.GetFieldValue<BigInteger>(1), Is.EqualTo(num));

}

[Test]

public async Task NumericZero_WithScale()

{

// Scale should not be lost when dealing with 0

using var conn = await OpenConnectionAsync();

using var cmd = new NpgsqlCommand("SELECT @p", conn);

var param = new NpgsqlParameter("p", DbType.Decimal, 10, null, ParameterDirection.Input, false, 10, 2, DataRowVersion.Default, 0.00M);

cmd.Parameters.Add(param);

using var rdr = await cmd.ExecuteReaderAsync();

await rdr.ReadAsync();

var value = rdr.GetFieldValue<decimal>(0);

Assert.That(value.Scale, Is.EqualTo(2));

}

[Test, IssueLink("https://github.com/npgsql/npgsql/issues/6383")]

public async Task Read_Many_Numerics_As_BigInteger([Values(CommandBehavior.Default, CommandBehavior.SequentialAccess)] CommandBehavior behavior)

{

await using var conn = await OpenConnectionAsync();

await using var cmd = conn.CreateCommand();

cmd.CommandText = "SELECT 1234567890::numeric FROM generate_series(1, 8000)";

await using var reader = await cmd.ExecuteReaderAsync(behavior);

while (await reader.ReadAsync())

{

Assert.DoesNotThrowAsync(async () => await reader.GetFieldValueAsync<BigInteger>(0));

}

}

}