Example #1
0
func (ts *testDatumSuite) TestCoerceDatum(c *C) {
	testCases := []struct {
		a    Datum
		b    Datum
		kind byte
	}{
		{NewIntDatum(1), NewIntDatum(1), KindInt64},
		{NewUintDatum(1), NewDecimalDatum(mysql.NewDecFromInt(1)), KindMysqlDecimal},
		{NewFloat64Datum(1), NewDecimalDatum(mysql.NewDecFromInt(1)), KindFloat64},
		{NewFloat64Datum(1), NewFloat64Datum(1), KindFloat64},
	}
	for _, ca := range testCases {
		x, y, err := CoerceDatum(ca.a, ca.b)
		c.Check(err, IsNil)
		c.Check(x.Kind(), Equals, y.Kind())
		c.Check(x.Kind(), Equals, ca.kind)
	}
}
Example #2
0
func (s *testDecimalSuite) TestFrac(c *C) {
	defer testleak.AfterTest(c)()
	inputs := []struct {
		Input *mysql.MyDecimal
	}{
		{mysql.NewDecFromInt(3)},
		{mysql.NewDecFromFloatForTest(0.03)},
	}
	for _, v := range inputs {
		testFrac(c, v.Input)
	}
}
Example #3
0
func (ts *testFunctionsSuite) TestAggFuncSum(c *C) {
	args := make([]ExprNode, 1)
	// sum with distinct
	agg := &AggregateFuncExpr{
		Args:     args,
		F:        AggFuncSum,
		Distinct: true,
	}
	agg.CurrentGroup = []byte("xx")
	expr := NewValueExpr(1)
	expr1 := NewValueExpr(nil)
	expr2 := NewValueExpr(1)
	exprs := []ExprNode{expr, expr1, expr2}
	for _, e := range exprs {
		args[0] = e
		agg.Update()
	}
	ctx := agg.GetContext()
	expect := mysql.NewDecFromInt(1)
	c.Assert(ctx.Value.Kind(), Equals, types.KindMysqlDecimal)
	c.Assert(ctx.Value.GetMysqlDecimal().Compare(expect), Equals, 0)
	// sum without distinct
	agg = &AggregateFuncExpr{
		Args: args,
		F:    AggFuncSum,
	}
	agg.CurrentGroup = []byte("xx")
	expr = NewValueExpr(2)
	expr1 = NewValueExpr(nil)
	expr2 = NewValueExpr(2)
	exprs = []ExprNode{expr, expr1, expr2}
	for _, e := range exprs {
		args[0] = e
		agg.Update()
	}
	ctx = agg.GetContext()
	expect = mysql.NewDecFromInt(4)
	c.Assert(ctx.Value.Kind(), Equals, types.KindMysqlDecimal)
	c.Assert(ctx.Value.GetMysqlDecimal().Compare(expect), Equals, 0)
}
Example #4
0
func (af *avgFunction) calculateResult(ctx *ast.AggEvaluateContext) (d types.Datum) {
	switch ctx.Value.Kind() {
	case types.KindFloat64:
		t := ctx.Value.GetFloat64() / float64(ctx.Count)
		d.SetValue(t)
	case types.KindMysqlDecimal:
		x := ctx.Value.GetMysqlDecimal()
		y := mysql.NewDecFromInt(ctx.Count)
		to := new(mysql.MyDecimal)
		mysql.DecimalDiv(x, y, to, mysql.DivFracIncr)
		to.Round(to, ctx.Value.Frac()+mysql.DivFracIncr)
		d.SetMysqlDecimal(to)
	}
	return
}
Example #5
0
// GetGroupResult implements AggregationFunction interface.
func (af *avgFunction) GetGroupResult(groupKey []byte) (d types.Datum) {
	ctx := af.getContext(groupKey)
	switch ctx.Value.Kind() {
	case types.KindFloat64:
		t := ctx.Value.GetFloat64() / float64(ctx.Count)
		d.SetValue(t)
	case types.KindMysqlDecimal:
		x := ctx.Value.GetMysqlDecimal()
		y := mysql.NewDecFromInt(ctx.Count)
		to := new(mysql.MyDecimal)
		mysql.DecimalDiv(x, y, to, mysql.DivFracIncr)
		to.Round(to, ctx.Value.Frac()+mysql.DivFracIncr)
		d.SetMysqlDecimal(to)
	}
	return
}
Example #6
0
func (s *testEvaluatorSuite) TestAggFuncAvg(c *C) {
	defer testleak.AfterTest(c)()
	ctx := mock.NewContext()
	avg := &ast.AggregateFuncExpr{
		F: ast.AggFuncAvg,
	}
	avg.CurrentGroup = []byte("emptyGroup")
	ast.SetFlag(avg)
	result, err := Eval(ctx, avg)
	c.Assert(err, IsNil)
	// Empty group should return nil.
	c.Assert(result.Kind(), Equals, types.KindNull)

	avg.Args = []ast.ExprNode{ast.NewValueExpr(2)}
	avg.Update()
	avg.Args = []ast.ExprNode{ast.NewValueExpr(4)}
	avg.Update()

	result, err = Eval(ctx, avg)
	c.Assert(err, IsNil)
	expect := mysql.NewDecFromInt(3)
	c.Assert(result.Kind(), Equals, types.KindMysqlDecimal)
	c.Assert(result.GetMysqlDecimal().Compare(expect), Equals, 0)
}
Example #7
0
func (s *testCompareSuite) TestCompare(c *C) {
	defer testleak.AfterTest(c)()
	cmpTbl := []struct {
		lhs interface{}
		rhs interface{}
		ret int // 0, 1, -1
	}{
		{float64(1), float64(1), 0},
		{float64(1), "1", 0},
		{int64(1), int64(1), 0},
		{int64(-1), uint64(1), -1},
		{int64(-1), "-1", 0},
		{uint64(1), uint64(1), 0},
		{uint64(1), int64(-1), 1},
		{uint64(1), "1", 0},
		{mysql.NewDecFromInt(1), mysql.NewDecFromInt(1), 0},
		{mysql.NewDecFromInt(1), "1", 0},
		{mysql.NewDecFromInt(1), []byte("1"), 0},
		{"1", "1", 0},
		{"1", int64(-1), 1},
		{"1", float64(2), -1},
		{"1", uint64(1), 0},
		{"1", mysql.NewDecFromInt(1), 0},
		{"2011-01-01 11:11:11", mysql.Time{Time: time.Now(), Type: mysql.TypeDatetime, Fsp: 0}, -1},
		{"12:00:00", mysql.ZeroDuration, 1},
		{mysql.ZeroDuration, mysql.ZeroDuration, 0},
		{mysql.Time{Time: time.Now().Add(time.Second * 10), Type: mysql.TypeDatetime, Fsp: 0},
			mysql.Time{Time: time.Now(), Type: mysql.TypeDatetime, Fsp: 0}, 1},

		{nil, 2, -1},
		{nil, nil, 0},

		{false, nil, 1},
		{false, true, -1},
		{true, true, 0},
		{false, false, 0},
		{true, 2, -1},

		{float64(1.23), nil, 1},
		{float64(0.0), float64(3.45), -1},
		{float64(354.23), float64(3.45), 1},
		{float64(3.452), float64(3.452), 0},

		{int(432), nil, 1},
		{-4, int(32), -1},
		{int(4), -32, 1},
		{int(432), int64(12), 1},
		{int(23), int64(128), -1},
		{int(123), int64(123), 0},
		{int(432), int(12), 1},
		{int(23), int(123), -1},
		{int64(133), int(183), -1},

		{uint64(133), uint64(183), -1},
		{uint64(2), int64(-2), 1},
		{uint64(2), int64(1), 1},

		{"", nil, 1},
		{"", "24", -1},
		{"aasf", "4", 1},
		{"", "", 0},

		{[]byte(""), nil, 1},
		{[]byte(""), []byte("sff"), -1},

		{mysql.Time{}, nil, 1},
		{mysql.Time{}, mysql.Time{Time: time.Now(), Type: mysql.TypeDatetime, Fsp: 3}, -1},
		{mysql.Time{Time: time.Now(), Type: mysql.TypeDatetime, Fsp: 3}, "0000-00-00 00:00:00", 1},

		{mysql.Duration{Duration: time.Duration(34), Fsp: 2}, nil, 1},
		{mysql.Duration{Duration: time.Duration(34), Fsp: 2}, mysql.Duration{Duration: time.Duration(29034), Fsp: 2}, -1},
		{mysql.Duration{Duration: time.Duration(3340), Fsp: 2}, mysql.Duration{Duration: time.Duration(34), Fsp: 2}, 1},
		{mysql.Duration{Duration: time.Duration(34), Fsp: 2}, mysql.Duration{Duration: time.Duration(34), Fsp: 2}, 0},

		{[]byte{}, []byte{}, 0},
		{[]byte("abc"), []byte("ab"), 1},
		{[]byte("123"), 1234, -1},
		{[]byte{}, nil, 1},

		{[]interface{}{1, 2, 3}, []interface{}{1, 2, 3}, 0},
		{[]interface{}{1, 3, 3}, []interface{}{1, 2, 3}, 1},
		{[]interface{}{1, 2, 3}, []interface{}{2, 2, 3}, -1},

		{mysql.Hex{Value: 1}, 1, 0},
		{mysql.Hex{Value: 0x4D7953514C}, "MySQL", 0},
		{mysql.Hex{Value: 0}, uint64(10), -1},
		{mysql.Hex{Value: 1}, float64(0), 1},
		{mysql.Hex{Value: 1}, mysql.NewDecFromInt(1), 0},
		{mysql.Hex{Value: 1}, mysql.Bit{Value: 0, Width: 1}, 1},
		{mysql.Hex{Value: 1}, mysql.Hex{Value: 1}, 0},

		{mysql.Bit{Value: 1, Width: 1}, 1, 0},
		{mysql.Bit{Value: 0x41, Width: 8}, "A", 0},
		{mysql.Bit{Value: 1, Width: 1}, uint64(10), -1},
		{mysql.Bit{Value: 1, Width: 1}, float64(0), 1},
		{mysql.Bit{Value: 1, Width: 1}, mysql.NewDecFromInt(1), 0},
		{mysql.Bit{Value: 1, Width: 1}, mysql.Hex{Value: 2}, -1},
		{mysql.Bit{Value: 1, Width: 1}, mysql.Bit{Value: 1, Width: 1}, 0},

		{mysql.Enum{Name: "a", Value: 1}, 1, 0},
		{mysql.Enum{Name: "a", Value: 1}, "a", 0},
		{mysql.Enum{Name: "a", Value: 1}, uint64(10), -1},
		{mysql.Enum{Name: "a", Value: 1}, float64(0), 1},
		{mysql.Enum{Name: "a", Value: 1}, mysql.NewDecFromInt(1), 0},
		{mysql.Enum{Name: "a", Value: 1}, mysql.Hex{Value: 2}, -1},
		{mysql.Enum{Name: "a", Value: 1}, mysql.Bit{Value: 1, Width: 1}, 0},
		{mysql.Enum{Name: "a", Value: 1}, mysql.Hex{Value: 1}, 0},
		{mysql.Enum{Name: "a", Value: 1}, mysql.Enum{Name: "a", Value: 1}, 0},

		{mysql.Set{Name: "a", Value: 1}, 1, 0},
		{mysql.Set{Name: "a", Value: 1}, "a", 0},
		{mysql.Set{Name: "a", Value: 1}, uint64(10), -1},
		{mysql.Set{Name: "a", Value: 1}, float64(0), 1},
		{mysql.Set{Name: "a", Value: 1}, mysql.NewDecFromInt(1), 0},
		{mysql.Set{Name: "a", Value: 1}, mysql.Hex{Value: 2}, -1},
		{mysql.Set{Name: "a", Value: 1}, mysql.Bit{Value: 1, Width: 1}, 0},
		{mysql.Set{Name: "a", Value: 1}, mysql.Hex{Value: 1}, 0},
		{mysql.Set{Name: "a", Value: 1}, mysql.Enum{Name: "a", Value: 1}, 0},
		{mysql.Set{Name: "a", Value: 1}, mysql.Set{Name: "a", Value: 1}, 0},
	}

	for i, t := range cmpTbl {
		comment := Commentf("%d %v %v", i, t.lhs, t.rhs)
		ret, err := Compare(t.lhs, t.rhs)
		c.Assert(err, IsNil)
		c.Assert(ret, Equals, t.ret, comment)

		ret, err = Compare(t.rhs, t.lhs)
		c.Assert(err, IsNil)
		c.Assert(ret, Equals, -t.ret, comment)
	}
}
Example #8
0
func (s *testTypeConvertSuite) TestConvert(c *C) {
	defer testleak.AfterTest(c)()
	// integer ranges
	signedDeny(c, mysql.TypeTiny, -129, "-128")
	signedAccept(c, mysql.TypeTiny, -128, "-128")
	signedAccept(c, mysql.TypeTiny, 127, "127")
	signedDeny(c, mysql.TypeTiny, 128, "127")
	unsignedDeny(c, mysql.TypeTiny, -1, "0")
	unsignedAccept(c, mysql.TypeTiny, 0, "0")
	unsignedAccept(c, mysql.TypeTiny, 255, "255")
	unsignedDeny(c, mysql.TypeTiny, 256, "255")

	signedDeny(c, mysql.TypeShort, int64(math.MinInt16)-1, strvalue(int64(math.MinInt16)))
	signedAccept(c, mysql.TypeShort, int64(math.MinInt16), strvalue(int64(math.MinInt16)))
	signedAccept(c, mysql.TypeShort, int64(math.MaxInt16), strvalue(int64(math.MaxInt16)))
	signedDeny(c, mysql.TypeShort, int64(math.MaxInt16)+1, strvalue(int64(math.MaxInt16)))
	unsignedDeny(c, mysql.TypeShort, -1, "0")
	unsignedAccept(c, mysql.TypeShort, 0, "0")
	unsignedAccept(c, mysql.TypeShort, uint64(math.MaxUint16), strvalue(uint64(math.MaxUint16)))
	unsignedDeny(c, mysql.TypeShort, uint64(math.MaxUint16)+1, strvalue(uint64(math.MaxUint16)))

	signedDeny(c, mysql.TypeInt24, -1<<23-1, strvalue(-1<<23))
	signedAccept(c, mysql.TypeInt24, -1<<23, strvalue(-1<<23))
	signedAccept(c, mysql.TypeInt24, 1<<23-1, strvalue(1<<23-1))
	signedDeny(c, mysql.TypeInt24, 1<<23, strvalue(1<<23-1))
	unsignedDeny(c, mysql.TypeInt24, -1, "0")
	unsignedAccept(c, mysql.TypeInt24, 0, "0")
	unsignedAccept(c, mysql.TypeInt24, 1<<24-1, strvalue(1<<24-1))
	unsignedDeny(c, mysql.TypeInt24, 1<<24, strvalue(1<<24-1))

	signedDeny(c, mysql.TypeLong, int64(math.MinInt32)-1, strvalue(int64(math.MinInt32)))
	signedAccept(c, mysql.TypeLong, int64(math.MinInt32), strvalue(int64(math.MinInt32)))
	signedAccept(c, mysql.TypeLong, int64(math.MaxInt32), strvalue(int64(math.MaxInt32)))
	signedDeny(c, mysql.TypeLong, uint64(math.MaxUint64), strvalue(uint64(math.MaxInt32)))
	signedDeny(c, mysql.TypeLong, int64(math.MaxInt32)+1, strvalue(int64(math.MaxInt32)))
	unsignedDeny(c, mysql.TypeLong, -1, "0")
	unsignedAccept(c, mysql.TypeLong, 0, "0")
	unsignedAccept(c, mysql.TypeLong, uint64(math.MaxUint32), strvalue(uint64(math.MaxUint32)))
	unsignedDeny(c, mysql.TypeLong, uint64(math.MaxUint32)+1, strvalue(uint64(math.MaxUint32)))

	signedDeny(c, mysql.TypeLonglong, math.MinInt64*1.1, strvalue(int64(math.MinInt64)))
	signedAccept(c, mysql.TypeLonglong, int64(math.MinInt64), strvalue(int64(math.MinInt64)))
	signedAccept(c, mysql.TypeLonglong, int64(math.MaxInt64), strvalue(int64(math.MaxInt64)))
	signedDeny(c, mysql.TypeLonglong, math.MaxInt64*1.1, strvalue(int64(math.MaxInt64)))
	unsignedDeny(c, mysql.TypeLonglong, -1, "0")
	unsignedAccept(c, mysql.TypeLonglong, 0, "0")
	unsignedAccept(c, mysql.TypeLonglong, uint64(math.MaxUint64), strvalue(uint64(math.MaxUint64)))
	unsignedDeny(c, mysql.TypeLonglong, math.MaxUint64*1.1, strvalue(uint64(math.MaxUint64)))

	// integer from string
	signedAccept(c, mysql.TypeLong, "	  234  ", "234")
	signedAccept(c, mysql.TypeLong, " 2.35e3  ", "2350")
	signedAccept(c, mysql.TypeLong, " +2.51 ", "3")
	signedAccept(c, mysql.TypeLong, " -3.58", "-4")

	// integer from float
	signedAccept(c, mysql.TypeLong, 234.5456, "235")
	signedAccept(c, mysql.TypeLong, -23.45, "-23")

	// float from string
	signedAccept(c, mysql.TypeFloat, "23.523", "23.523")
	signedAccept(c, mysql.TypeFloat, int64(123), "123")
	signedAccept(c, mysql.TypeFloat, uint64(123), "123")
	signedAccept(c, mysql.TypeFloat, int(123), "123")
	signedAccept(c, mysql.TypeFloat, float32(123), "123")
	signedAccept(c, mysql.TypeFloat, float64(123), "123")
	signedAccept(c, mysql.TypeDouble, " -23.54", "-23.54")

	// year
	signedDeny(c, mysql.TypeYear, 123, "<nil>")
	signedDeny(c, mysql.TypeYear, 3000, "<nil>")
	signedAccept(c, mysql.TypeYear, "2000", "2000")

	// time from string
	signedAccept(c, mysql.TypeDate, "2012-08-23", "2012-08-23")
	signedAccept(c, mysql.TypeDatetime, "2012-08-23 12:34:03.123456", "2012-08-23 12:34:03")
	signedAccept(c, mysql.TypeDatetime, mysql.ZeroDatetime, "0000-00-00 00:00:00")
	signedAccept(c, mysql.TypeDatetime, int64(0), "0000-00-00 00:00:00")
	signedAccept(c, mysql.TypeTimestamp, "2012-08-23 12:34:03.123456", "2012-08-23 12:34:03")
	signedAccept(c, mysql.TypeDuration, "10:11:12", "10:11:12")
	signedAccept(c, mysql.TypeDuration, mysql.ZeroDatetime, "00:00:00")
	signedAccept(c, mysql.TypeDuration, mysql.ZeroDuration, "00:00:00")

	signedDeny(c, mysql.TypeDate, "2012-08-x", "0000-00-00")
	signedDeny(c, mysql.TypeDatetime, "2012-08-x", "0000-00-00 00:00:00")
	signedDeny(c, mysql.TypeTimestamp, "2012-08-x", "0000-00-00 00:00:00")
	signedDeny(c, mysql.TypeDuration, "2012-08-x", "00:00:00")
	signedDeny(c, mysql.TypeDuration, 0, "<nil>")

	// string from string
	signedAccept(c, mysql.TypeString, "abc", "abc")

	// string from integer
	signedAccept(c, mysql.TypeString, 5678, "5678")
	signedAccept(c, mysql.TypeString, mysql.ZeroDuration, "00:00:00")
	signedAccept(c, mysql.TypeString, mysql.ZeroDatetime, "0000-00-00 00:00:00")
	signedAccept(c, mysql.TypeString, []byte("123"), "123")

	//TODO add more tests
	signedAccept(c, mysql.TypeNewDecimal, 123, "123")
	signedAccept(c, mysql.TypeNewDecimal, int64(123), "123")
	signedAccept(c, mysql.TypeNewDecimal, uint64(123), "123")
	signedAccept(c, mysql.TypeNewDecimal, float32(123), "123")
	signedAccept(c, mysql.TypeNewDecimal, 123.456, "123.456")
	signedAccept(c, mysql.TypeNewDecimal, "-123.456", "-123.456")
	signedAccept(c, mysql.TypeNewDecimal, mysql.NewDecFromInt(12300000), "12300000")
	dec := mysql.NewDecFromInt(-123)
	dec.Shift(-5)
	dec.Round(dec, 5)
	signedAccept(c, mysql.TypeNewDecimal, dec, "-0.00123")
}
Example #9
0
func (s *testCodecSuite) TestCut(c *C) {
	defer testleak.AfterTest(c)()
	table := []struct {
		Input  []types.Datum
		Expect []types.Datum
	}{
		{
			types.MakeDatums(int64(1)),
			types.MakeDatums(int64(1)),
		},

		{
			types.MakeDatums(float32(1), float64(3.15), []byte("123"), "123"),
			types.MakeDatums(float64(1), float64(3.15), []byte("123"), []byte("123")),
		},
		{
			types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)),
			types.MakeDatums(uint64(1), float64(3.15), []byte("123"), int64(-1)),
		},

		{
			types.MakeDatums(true, false),
			types.MakeDatums(int64(1), int64(0)),
		},

		{
			types.MakeDatums(nil),
			types.MakeDatums(nil),
		},

		{
			types.MakeDatums(mysql.Hex{Value: 100}, mysql.Bit{Value: 100, Width: 8}),
			types.MakeDatums(int64(100), uint64(100)),
		},

		{
			types.MakeDatums(mysql.Enum{Name: "a", Value: 1}, mysql.Set{Name: "a", Value: 1}),
			types.MakeDatums(uint64(1), uint64(1)),
		},
		{
			types.MakeDatums(float32(1), float64(3.15), []byte("123456789012345")),
			types.MakeDatums(float64(1), float64(3.15), []byte("123456789012345")),
		},
		{
			types.MakeDatums(mysql.NewDecFromInt(0), mysql.NewDecFromFloatForTest(-1.3)),
			types.MakeDatums(mysql.NewDecFromInt(0), mysql.NewDecFromFloatForTest(-1.3)),
		},
	}
	for i, t := range table {
		comment := Commentf("%d %v", i, t)
		b, err := EncodeKey(nil, t.Input...)
		c.Assert(err, IsNil, comment)
		var d []byte
		for j, e := range t.Expect {
			d, b, err = CutOne(b)
			c.Assert(err, IsNil)
			c.Assert(d, NotNil)
			ed, err1 := EncodeKey(nil, e)
			c.Assert(err1, IsNil)
			c.Assert(d, DeepEquals, ed, Commentf("%d:%d %#v", i, j, e))
		}
		c.Assert(b, HasLen, 0)
	}
	for i, t := range table {
		comment := Commentf("%d %v", i, t)
		b, err := EncodeValue(nil, t.Input...)
		c.Assert(err, IsNil, comment)
		var d []byte
		for j, e := range t.Expect {
			d, b, err = CutOne(b)
			c.Assert(err, IsNil)
			c.Assert(d, NotNil)
			ed, err1 := EncodeValue(nil, e)
			c.Assert(err1, IsNil)
			c.Assert(d, DeepEquals, ed, Commentf("%d:%d %#v", i, j, e))
		}
		c.Assert(b, HasLen, 0)
	}
}
Example #10
0
func (s *testColumnSuite) TestGetZeroValue(c *C) {
	cases := []struct {
		ft    *types.FieldType
		value types.Datum
	}{
		{
			types.NewFieldType(mysql.TypeLong),
			types.NewIntDatum(0),
		},
		{
			&types.FieldType{
				Tp:   mysql.TypeLonglong,
				Flag: mysql.UnsignedFlag,
			},
			types.NewUintDatum(0),
		},
		{
			types.NewFieldType(mysql.TypeFloat),
			types.NewFloat32Datum(0),
		},
		{
			types.NewFieldType(mysql.TypeDouble),
			types.NewFloat64Datum(0),
		},
		{
			types.NewFieldType(mysql.TypeNewDecimal),
			types.NewDecimalDatum(mysql.NewDecFromInt(0)),
		},
		{
			types.NewFieldType(mysql.TypeVarchar),
			types.NewStringDatum(""),
		},
		{
			types.NewFieldType(mysql.TypeBlob),
			types.NewBytesDatum([]byte{}),
		},
		{
			types.NewFieldType(mysql.TypeDuration),
			types.NewDurationDatum(mysql.ZeroDuration),
		},
		{
			types.NewFieldType(mysql.TypeDatetime),
			types.NewDatum(mysql.ZeroDatetime),
		},
		{
			types.NewFieldType(mysql.TypeTimestamp),
			types.NewDatum(mysql.ZeroTimestamp),
		},
		{
			types.NewFieldType(mysql.TypeDate),
			types.NewDatum(mysql.ZeroDate),
		},
		{
			types.NewFieldType(mysql.TypeBit),
			types.NewDatum(mysql.Bit{Value: 0, Width: mysql.MinBitWidth}),
		},
		{
			types.NewFieldType(mysql.TypeSet),
			types.NewDatum(mysql.Set{}),
		},
	}
	for _, ca := range cases {
		colInfo := &model.ColumnInfo{FieldType: *ca.ft}
		zv := GetZeroValue(colInfo)
		c.Assert(zv.Kind(), Equals, ca.value.Kind())
		cmp, err := zv.CompareDatum(ca.value)
		c.Assert(err, IsNil)
		c.Assert(cmp, Equals, 0)
	}
}
Example #11
0
func (s *testEvaluatorSuite) TestUnaryOp(c *C) {
	defer testleak.AfterTest(c)()
	tbl := []struct {
		arg    interface{}
		op     opcode.Op
		result interface{}
	}{
		// test NOT.
		{1, opcode.Not, int64(0)},
		{0, opcode.Not, int64(1)},
		{nil, opcode.Not, nil},
		{mysql.Hex{Value: 0}, opcode.Not, int64(1)},
		{mysql.Bit{Value: 0, Width: 1}, opcode.Not, int64(1)},
		{mysql.Enum{Name: "a", Value: 1}, opcode.Not, int64(0)},
		{mysql.Set{Name: "a", Value: 1}, opcode.Not, int64(0)},

		// test BitNeg.
		{nil, opcode.BitNeg, nil},
		{-1, opcode.BitNeg, uint64(0)},

		// test Plus.
		{nil, opcode.Plus, nil},
		{float64(1.0), opcode.Plus, float64(1.0)},
		{int64(1), opcode.Plus, int64(1)},
		{int64(1), opcode.Plus, int64(1)},
		{uint64(1), opcode.Plus, uint64(1)},
		{"1.0", opcode.Plus, "1.0"},
		{[]byte("1.0"), opcode.Plus, []byte("1.0")},
		{mysql.Hex{Value: 1}, opcode.Plus, mysql.Hex{Value: 1}},
		{mysql.Bit{Value: 1, Width: 1}, opcode.Plus, mysql.Bit{Value: 1, Width: 1}},
		{true, opcode.Plus, int64(1)},
		{false, opcode.Plus, int64(0)},
		{mysql.Enum{Name: "a", Value: 1}, opcode.Plus, mysql.Enum{Name: "a", Value: 1}},
		{mysql.Set{Name: "a", Value: 1}, opcode.Plus, mysql.Set{Name: "a", Value: 1}},

		// test Minus.
		{nil, opcode.Minus, nil},
		{float64(1.0), opcode.Minus, float64(-1.0)},
		{int64(1), opcode.Minus, int64(-1)},
		{int64(1), opcode.Minus, int64(-1)},
		{uint64(1), opcode.Minus, -int64(1)},
		{"1.0", opcode.Minus, -1.0},
		{[]byte("1.0"), opcode.Minus, -1.0},
		{mysql.Hex{Value: 1}, opcode.Minus, -1.0},
		{mysql.Bit{Value: 1, Width: 1}, opcode.Minus, -1.0},
		{true, opcode.Minus, int64(-1)},
		{false, opcode.Minus, int64(0)},
		{mysql.Enum{Name: "a", Value: 1}, opcode.Minus, -1.0},
		{mysql.Set{Name: "a", Value: 1}, opcode.Minus, -1.0},
	}
	ctx := mock.NewContext()
	for i, t := range tbl {
		expr := &ast.UnaryOperationExpr{}
		expr.Op = t.op
		expr.V = ast.NewValueExpr(t.arg)
		result, err := Eval(ctx, expr)
		c.Assert(err, IsNil)
		c.Assert(result, testutil.DatumEquals, types.NewDatum(t.result), Commentf("%d", i))
	}

	tbl = []struct {
		arg    interface{}
		op     opcode.Op
		result interface{}
	}{
		{mysql.NewDecFromInt(1), opcode.Plus, mysql.NewDecFromInt(1)},
		{mysql.Duration{Duration: time.Duration(838*3600 + 59*60 + 59), Fsp: mysql.DefaultFsp}, opcode.Plus,
			mysql.Duration{Duration: time.Duration(838*3600 + 59*60 + 59), Fsp: mysql.DefaultFsp}},
		{mysql.Time{Time: time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC), Type: mysql.TypeDatetime, Fsp: 0}, opcode.Plus, mysql.Time{Time: time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC), Type: mysql.TypeDatetime, Fsp: 0}},

		{mysql.NewDecFromInt(1), opcode.Minus, mysql.NewDecFromInt(-1)},
		{mysql.ZeroDuration, opcode.Minus, new(mysql.MyDecimal)},
		{mysql.Time{Time: time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC), Type: mysql.TypeDatetime, Fsp: 0}, opcode.Minus, mysql.NewDecFromInt(-20091110230000)},
	}

	for _, t := range tbl {
		expr := &ast.UnaryOperationExpr{Op: t.op, V: ast.NewValueExpr(t.arg)}

		result, err := Eval(ctx, expr)
		c.Assert(err, IsNil)

		ret, err := result.CompareDatum(types.NewDatum(t.result))
		c.Assert(err, IsNil)
		c.Assert(ret, Equals, 0)
	}
}
Example #12
0
func (s *testEvaluatorSuite) TestBinopNumeric(c *C) {
	defer testleak.AfterTest(c)()
	ctx := mock.NewContext()
	tbl := []struct {
		lhs interface{}
		op  opcode.Op
		rhs interface{}
		ret interface{}
	}{
		// plus
		{1, opcode.Plus, 1, 2},
		{1, opcode.Plus, uint64(1), 2},
		{1, opcode.Plus, "1", 2},
		{1, opcode.Plus, mysql.NewDecFromInt(1), 2},
		{uint64(1), opcode.Plus, 1, 2},
		{uint64(1), opcode.Plus, uint64(1), 2},
		{uint64(1), opcode.Plus, -1, 0},
		{1, opcode.Plus, []byte("1"), 2},
		{1, opcode.Plus, mysql.Hex{Value: 1}, 2},
		{1, opcode.Plus, mysql.Bit{Value: 1, Width: 1}, 2},
		{1, opcode.Plus, mysql.Enum{Name: "a", Value: 1}, 2},
		{1, opcode.Plus, mysql.Set{Name: "a", Value: 1}, 2},

		// minus
		{1, opcode.Minus, 1, 0},
		{1, opcode.Minus, uint64(1), 0},
		{1, opcode.Minus, float64(1), 0},
		{1, opcode.Minus, mysql.NewDecFromInt(1), 0},
		{uint64(1), opcode.Minus, 1, 0},
		{uint64(1), opcode.Minus, uint64(1), 0},
		{mysql.NewDecFromInt(1), opcode.Minus, 1, 0},
		{"1", opcode.Minus, []byte("1"), 0},

		// mul
		{1, opcode.Mul, 1, 1},
		{1, opcode.Mul, uint64(1), 1},
		{1, opcode.Mul, float64(1), 1},
		{1, opcode.Mul, mysql.NewDecFromInt(1), 1},
		{uint64(1), opcode.Mul, 1, 1},
		{uint64(1), opcode.Mul, uint64(1), 1},
		{mysql.Time{}, opcode.Mul, 0, 0},
		{mysql.ZeroDuration, opcode.Mul, 0, 0},
		{mysql.Time{Time: time.Now(), Fsp: 0, Type: mysql.TypeDatetime}, opcode.Mul, 0, 0},
		{mysql.Time{Time: time.Now(), Fsp: 6, Type: mysql.TypeDatetime}, opcode.Mul, 0, 0},
		{mysql.Duration{Duration: 100000000, Fsp: 6}, opcode.Mul, 0, 0},

		// div
		{1, opcode.Div, float64(1), 1},
		{1, opcode.Div, float64(0), nil},
		{1, opcode.Div, 2, 0.5},
		{1, opcode.Div, 0, nil},

		// int div
		{1, opcode.IntDiv, 2, 0},
		{1, opcode.IntDiv, uint64(2), 0},
		{1, opcode.IntDiv, 0, nil},
		{1, opcode.IntDiv, uint64(0), nil},
		{uint64(1), opcode.IntDiv, 2, 0},
		{uint64(1), opcode.IntDiv, uint64(2), 0},
		{uint64(1), opcode.IntDiv, 0, nil},
		{uint64(1), opcode.IntDiv, uint64(0), nil},
		{1.0, opcode.IntDiv, 2.0, 0},
		{1.0, opcode.IntDiv, 0, nil},

		// mod
		{10, opcode.Mod, 2, 0},
		{10, opcode.Mod, uint64(2), 0},
		{10, opcode.Mod, 0, nil},
		{10, opcode.Mod, uint64(0), nil},
		{-10, opcode.Mod, uint64(2), 0},
		{uint64(10), opcode.Mod, 2, 0},
		{uint64(10), opcode.Mod, uint64(2), 0},
		{uint64(10), opcode.Mod, 0, nil},
		{uint64(10), opcode.Mod, uint64(0), nil},
		{uint64(10), opcode.Mod, -2, 0},
		{float64(10), opcode.Mod, 2, 0},
		{float64(10), opcode.Mod, 0, nil},
		{mysql.NewDecFromInt(10), opcode.Mod, 2, 0},
		{mysql.NewDecFromInt(10), opcode.Mod, 0, nil},
	}

	for _, t := range tbl {
		expr := &ast.BinaryOperationExpr{Op: t.op, L: ast.NewValueExpr(t.lhs), R: ast.NewValueExpr(t.rhs)}
		v, err := Eval(ctx, expr)
		c.Assert(err, IsNil)
		switch v.Kind() {
		case types.KindNull:
			c.Assert(t.ret, IsNil)
		default:
			// we use float64 as the result type check for all.
			f, err := v.ToFloat64()
			c.Assert(err, IsNil)
			d := types.NewDatum(t.ret)
			r, err := d.ToFloat64()
			c.Assert(err, IsNil)
			c.Assert(r, Equals, f)
		}
	}
}
Example #13
0
func (s *testTableCodecSuite) TestRowCodec(c *C) {
	defer testleak.AfterTest(c)()

	c1 := &column{id: 1, tp: types.NewFieldType(mysql.TypeLonglong)}
	c2 := &column{id: 2, tp: types.NewFieldType(mysql.TypeVarchar)}
	c3 := &column{id: 3, tp: types.NewFieldType(mysql.TypeNewDecimal)}
	cols := []*column{c1, c2, c3}

	row := make([]types.Datum, 3)
	row[0] = types.NewIntDatum(100)
	row[1] = types.NewBytesDatum([]byte("abc"))
	row[2] = types.NewDecimalDatum(mysql.NewDecFromInt(1))
	// Encode
	colIDs := make([]int64, 0, 3)
	for _, col := range cols {
		colIDs = append(colIDs, col.id)
	}
	bs, err := EncodeRow(row, colIDs)
	c.Assert(err, IsNil)
	c.Assert(bs, NotNil)

	// Decode
	colMap := make(map[int64]*types.FieldType, 3)
	for _, col := range cols {
		colMap[col.id] = col.tp
	}
	r, err := DecodeRow(bs, colMap)
	c.Assert(err, IsNil)
	c.Assert(r, NotNil)
	c.Assert(r, HasLen, 3)
	// Compare decoded row and original row
	for i, col := range cols {
		v, ok := r[col.id]
		c.Assert(ok, IsTrue)
		equal, err1 := v.CompareDatum(row[i])
		c.Assert(err1, IsNil)
		c.Assert(equal, Equals, 0)
	}

	// colMap may contains more columns than encoded row.
	colMap[4] = types.NewFieldType(mysql.TypeFloat)
	r, err = DecodeRow(bs, colMap)
	c.Assert(err, IsNil)
	c.Assert(r, NotNil)
	c.Assert(r, HasLen, 3)
	for i, col := range cols {
		v, ok := r[col.id]
		c.Assert(ok, IsTrue)
		equal, err1 := v.CompareDatum(row[i])
		c.Assert(err1, IsNil)
		c.Assert(equal, Equals, 0)
	}

	// colMap may contains less columns than encoded row.
	delete(colMap, 3)
	delete(colMap, 4)
	r, err = DecodeRow(bs, colMap)
	c.Assert(err, IsNil)
	c.Assert(r, NotNil)
	c.Assert(r, HasLen, 2)
	for i, col := range cols {
		if i > 1 {
			break
		}
		v, ok := r[col.id]
		c.Assert(ok, IsTrue)
		equal, err1 := v.CompareDatum(row[i])
		c.Assert(err1, IsNil)
		c.Assert(equal, Equals, 0)
	}

	// Make sure empty row return not nil value.
	bs, err = EncodeRow([]types.Datum{}, []int64{})
	c.Assert(err, IsNil)
	c.Assert(bs, HasLen, 1)

	r, err = DecodeRow(bs, colMap)
	c.Assert(err, IsNil)
	c.Assert(r, IsNil)
}
Example #14
0
func (s *testAggFuncSuite) TestXAPIAvg(c *C) {
	defer testleak.AfterTest(c)()
	// Compose aggregate exec for "select avg(c2) from t groupby c1";
	//
	// Data in region1:
	// c1  c2
	// 1	11
	// 2	21
	// 1    1
	// 3    2
	//
	// Partial aggregate result for region1:
	// groupkey	cnt	sum
	// 1		2	12
	// 2		1	21
	// 3		1	2
	//
	// Data in region2:
	// 1    nil
	// 1    3
	// 3    31
	//
	// Partial aggregate result for region2:
	// groupkey	cnt	sum
	// 1		1	3
	// 3		1	31
	//
	// Expected final aggregate result:
	// avg(c2)
	// 5
	// 21
	// 16.500000
	c1 := ast.NewValueExpr([]byte{0})
	rf1 := &ast.ResultField{Expr: c1}
	c2 := ast.NewValueExpr(0)
	rf2 := &ast.ResultField{Expr: c2}
	c3 := ast.NewValueExpr(0)
	rf3 := &ast.ResultField{Expr: c3}
	col2 := &ast.ColumnNameExpr{Refer: rf2}
	fc := &ast.AggregateFuncExpr{
		F:    ast.AggFuncAvg,
		Args: []ast.ExprNode{col2},
	}
	// Return row:
	// GroupKey, Sum
	// Partial result from region1
	row1 := types.MakeDatums([]byte{1}, 2, 12)
	row2 := types.MakeDatums([]byte{2}, 1, 21)
	row3 := types.MakeDatums([]byte{3}, 1, 2)
	// Partial result from region2
	row4 := types.MakeDatums([]byte{1}, 1, 3)
	row5 := types.MakeDatums([]byte{3}, 1, 31)
	data := []([]types.Datum){row1, row2, row3, row4, row5}

	rows := make([]*Row, 0, 5)
	for _, d := range data {
		rows = append(rows, &Row{Data: d})
	}
	src := &mockExec{
		rows:   rows,
		fields: []*ast.ResultField{rf1, rf2, rf3}, // groupby, cnt, sum
	}
	agg := &XAggregateExec{
		AggFuncs: []*ast.AggregateFuncExpr{fc},
		Src:      src,
	}
	ast.SetFlag(fc)
	// First row: 5
	row, err := agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	ctx := mock.NewContext()
	val, err := evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(mysql.NewDecFromInt(5)))
	// Second row: 21
	row, err = agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	val, err = evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(mysql.NewDecFromInt(21)))
	// Third row: 16.5000
	row, err = agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	val, err = evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	d := mysql.NewDecFromFloatForTest(16.5)
	c.Logf("d1 %s, d2 %s, cmp %d", d.String(), val.GetMysqlDecimal().String(), val.GetMysqlDecimal().Compare(d))
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(d))
	// Forth row: nil
	row, err = agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, IsNil)
	// Close executor
	err = agg.Close()
	c.Assert(err, IsNil)
}
Example #15
0
func (s *testAggFuncSuite) TestXAPISum(c *C) {
	defer testleak.AfterTest(c)()
	// Compose aggregate exec for "select sum(c2) from t groupby c1";
	//
	// Data in region1:
	// c1  c2
	// 1	11
	// 2	21
	// 1    1
	//
	// Partial aggregate result for region1:
	// groupkey	sum
	// 1		12
	// 2		21
	//
	// Data in region2:
	// 1    nil
	// 1    3
	// 3    31
	//
	// Partial aggregate result for region2:
	// groupkey	sum
	// 1		3
	// 3		31
	//
	// Expected final aggregate result:
	// sum(c2)
	// 15
	// 21
	// 31
	c1 := ast.NewValueExpr([]byte{0})
	rf1 := &ast.ResultField{Expr: c1}
	c2 := ast.NewValueExpr(0)
	rf2 := &ast.ResultField{Expr: c2}
	col2 := &ast.ColumnNameExpr{Refer: rf2}
	fc := &ast.AggregateFuncExpr{
		F:    ast.AggFuncSum,
		Args: []ast.ExprNode{col2},
	}
	// Return row:
	// GroupKey, Sum
	// Partial result from region1
	row1 := types.MakeDatums([]byte{1}, 12)
	row2 := types.MakeDatums([]byte{2}, 21)
	// Partial result from region2
	row3 := types.MakeDatums([]byte{1}, 3)
	row4 := types.MakeDatums([]byte{3}, 31)
	data := []([]types.Datum){row1, row2, row3, row4}

	rows := make([]*Row, 0, 3)
	for _, d := range data {
		rows = append(rows, &Row{Data: d})
	}
	src := &mockExec{
		rows:   rows,
		fields: []*ast.ResultField{rf1, rf2},
	}
	agg := &XAggregateExec{
		AggFuncs: []*ast.AggregateFuncExpr{fc},
		Src:      src,
	}
	ast.SetFlag(fc)
	// First row: 15
	row, err := agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	ctx := mock.NewContext()
	val, err := evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(mysql.NewDecFromInt(15)))
	// Second row: 21
	row, err = agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	val, err = evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(mysql.NewDecFromInt(21)))
	// Third row: 31
	row, err = agg.Next()
	c.Assert(err, IsNil)
	c.Assert(row, NotNil)
	val, err = evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDecimalDatum(mysql.NewDecFromInt(31)))
	agg.Close()
	// After clear up, fc's value should be default.
	val, err = evaluator.Eval(ctx, fc)
	c.Assert(err, IsNil)
	c.Assert(val, testutil.DatumEquals, types.NewDatum(nil))
}