mirror of
https://github.com/rclone/rclone.git
synced 2024-12-05 07:20:35 +08:00
521 lines
16 KiB
Go
521 lines
16 KiB
Go
/*
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Copyright 2017 Google Inc. All Rights Reserved.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package spanner
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import (
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"math"
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"reflect"
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"testing"
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"time"
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"cloud.google.com/go/civil"
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proto3 "github.com/golang/protobuf/ptypes/struct"
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sppb "google.golang.org/genproto/googleapis/spanner/v1"
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)
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var (
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t1 = mustParseTime("2016-11-15T15:04:05.999999999Z")
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// Boundaries
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t2 = mustParseTime("0000-01-01T00:00:00.000000000Z")
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t3 = mustParseTime("9999-12-31T23:59:59.999999999Z")
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// Local timezone
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t4 = time.Now()
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d1 = mustParseDate("2016-11-15")
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d2 = mustParseDate("1678-01-01")
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)
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func mustParseTime(s string) time.Time {
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t, err := time.Parse(time.RFC3339Nano, s)
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if err != nil {
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panic(err)
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}
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return t
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}
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func mustParseDate(s string) civil.Date {
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d, err := civil.ParseDate(s)
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if err != nil {
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panic(err)
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}
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return d
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}
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// Test encoding Values.
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func TestEncodeValue(t *testing.T) {
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var (
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tString = stringType()
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tInt = intType()
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tBool = boolType()
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tFloat = floatType()
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tBytes = bytesType()
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tTime = timeType()
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tDate = dateType()
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)
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for i, test := range []struct {
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in interface{}
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want *proto3.Value
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wantType *sppb.Type
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}{
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// STRING / STRING ARRAY
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{"abc", stringProto("abc"), tString},
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{NullString{"abc", true}, stringProto("abc"), tString},
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{NullString{"abc", false}, nullProto(), tString},
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{[]string(nil), nullProto(), listType(tString)},
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{[]string{"abc", "bcd"}, listProto(stringProto("abc"), stringProto("bcd")), listType(tString)},
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{[]NullString{{"abcd", true}, {"xyz", false}}, listProto(stringProto("abcd"), nullProto()), listType(tString)},
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// BYTES / BYTES ARRAY
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{[]byte("foo"), bytesProto([]byte("foo")), tBytes},
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{[]byte(nil), nullProto(), tBytes},
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{[][]byte{nil, []byte("ab")}, listProto(nullProto(), bytesProto([]byte("ab"))), listType(tBytes)},
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{[][]byte(nil), nullProto(), listType(tBytes)},
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// INT64 / INT64 ARRAY
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{7, intProto(7), tInt},
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{[]int(nil), nullProto(), listType(tInt)},
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{[]int{31, 127}, listProto(intProto(31), intProto(127)), listType(tInt)},
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{int64(81), intProto(81), tInt},
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{[]int64(nil), nullProto(), listType(tInt)},
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{[]int64{33, 129}, listProto(intProto(33), intProto(129)), listType(tInt)},
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{NullInt64{11, true}, intProto(11), tInt},
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{NullInt64{11, false}, nullProto(), tInt},
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{[]NullInt64{{35, true}, {131, false}}, listProto(intProto(35), nullProto()), listType(tInt)},
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// BOOL / BOOL ARRAY
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{true, boolProto(true), tBool},
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{NullBool{true, true}, boolProto(true), tBool},
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{NullBool{true, false}, nullProto(), tBool},
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{[]bool{true, false}, listProto(boolProto(true), boolProto(false)), listType(tBool)},
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{[]NullBool{{true, true}, {true, false}}, listProto(boolProto(true), nullProto()), listType(tBool)},
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// FLOAT64 / FLOAT64 ARRAY
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{3.14, floatProto(3.14), tFloat},
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{NullFloat64{3.1415, true}, floatProto(3.1415), tFloat},
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{NullFloat64{math.Inf(1), true}, floatProto(math.Inf(1)), tFloat},
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{NullFloat64{3.14159, false}, nullProto(), tFloat},
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{[]float64(nil), nullProto(), listType(tFloat)},
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{[]float64{3.141, 0.618, math.Inf(-1)}, listProto(floatProto(3.141), floatProto(0.618), floatProto(math.Inf(-1))), listType(tFloat)},
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{[]NullFloat64{{3.141, true}, {0.618, false}}, listProto(floatProto(3.141), nullProto()), listType(tFloat)},
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// TIMESTAMP / TIMESTAMP ARRAY
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{t1, timeProto(t1), tTime},
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{NullTime{t1, true}, timeProto(t1), tTime},
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{NullTime{t1, false}, nullProto(), tTime},
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{[]time.Time(nil), nullProto(), listType(tTime)},
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{[]time.Time{t1, t2, t3, t4}, listProto(timeProto(t1), timeProto(t2), timeProto(t3), timeProto(t4)), listType(tTime)},
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{[]NullTime{{t1, true}, {t1, false}}, listProto(timeProto(t1), nullProto()), listType(tTime)},
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// DATE / DATE ARRAY
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{d1, dateProto(d1), tDate},
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{NullDate{d1, true}, dateProto(d1), tDate},
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{NullDate{civil.Date{}, false}, nullProto(), tDate},
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{[]civil.Date(nil), nullProto(), listType(tDate)},
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{[]civil.Date{d1, d2}, listProto(dateProto(d1), dateProto(d2)), listType(tDate)},
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{[]NullDate{{d1, true}, {civil.Date{}, false}}, listProto(dateProto(d1), nullProto()), listType(tDate)},
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// GenericColumnValue
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{GenericColumnValue{tString, stringProto("abc")}, stringProto("abc"), tString},
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{GenericColumnValue{tString, nullProto()}, nullProto(), tString},
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// not actually valid (stringProto inside int list), but demonstrates pass-through.
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{
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GenericColumnValue{
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Type: listType(tInt),
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Value: listProto(intProto(5), nullProto(), stringProto("bcd")),
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},
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listProto(intProto(5), nullProto(), stringProto("bcd")),
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listType(tInt),
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},
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} {
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got, gotType, err := encodeValue(test.in)
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if err != nil {
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t.Fatalf("#%d: got error during encoding: %v, want nil", i, err)
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}
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if !reflect.DeepEqual(got, test.want) {
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t.Errorf("#%d: got encode result: %v, want %v", i, got, test.want)
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}
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if !reflect.DeepEqual(gotType, test.wantType) {
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t.Errorf("#%d: got encode type: %v, want %v", i, gotType, test.wantType)
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}
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}
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}
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// Test decoding Values.
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func TestDecodeValue(t *testing.T) {
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for i, test := range []struct {
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in *proto3.Value
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t *sppb.Type
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want interface{}
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fail bool
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}{
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// STRING
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{stringProto("abc"), stringType(), "abc", false},
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{nullProto(), stringType(), "abc", true},
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{stringProto("abc"), stringType(), NullString{"abc", true}, false},
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{nullProto(), stringType(), NullString{}, false},
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// STRING ARRAY with []NullString
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{
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listProto(stringProto("abc"), nullProto(), stringProto("bcd")),
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listType(stringType()),
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[]NullString{{"abc", true}, {}, {"bcd", true}},
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false,
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},
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{nullProto(), listType(stringType()), []NullString(nil), false},
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// STRING ARRAY with []string
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{
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listProto(stringProto("abc"), stringProto("bcd")),
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listType(stringType()),
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[]string{"abc", "bcd"},
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false,
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},
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// BYTES
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{bytesProto([]byte("ab")), bytesType(), []byte("ab"), false},
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{nullProto(), bytesType(), []byte(nil), false},
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// BYTES ARRAY
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{listProto(bytesProto([]byte("ab")), nullProto()), listType(bytesType()), [][]byte{[]byte("ab"), nil}, false},
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{nullProto(), listType(bytesType()), [][]byte(nil), false},
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//INT64
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{intProto(15), intType(), int64(15), false},
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{nullProto(), intType(), int64(0), true},
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{intProto(15), intType(), NullInt64{15, true}, false},
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{nullProto(), intType(), NullInt64{}, false},
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// INT64 ARRAY with []NullInt64
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{listProto(intProto(91), nullProto(), intProto(87)), listType(intType()), []NullInt64{{91, true}, {}, {87, true}}, false},
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{nullProto(), listType(intType()), []NullInt64(nil), false},
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// INT64 ARRAY with []int64
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{listProto(intProto(91), intProto(87)), listType(intType()), []int64{91, 87}, false},
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// BOOL
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{boolProto(true), boolType(), true, false},
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{nullProto(), boolType(), true, true},
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{boolProto(true), boolType(), NullBool{true, true}, false},
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{nullProto(), boolType(), NullBool{}, false},
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// BOOL ARRAY with []NullBool
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{listProto(boolProto(true), boolProto(false), nullProto()), listType(boolType()), []NullBool{{true, true}, {false, true}, {}}, false},
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{nullProto(), listType(boolType()), []NullBool(nil), false},
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// BOOL ARRAY with []bool
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{listProto(boolProto(true), boolProto(false)), listType(boolType()), []bool{true, false}, false},
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// FLOAT64
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{floatProto(3.14), floatType(), 3.14, false},
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{nullProto(), floatType(), 0.00, true},
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{floatProto(3.14), floatType(), NullFloat64{3.14, true}, false},
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{nullProto(), floatType(), NullFloat64{}, false},
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// FLOAT64 ARRAY with []NullFloat64
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{
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listProto(floatProto(math.Inf(1)), floatProto(math.Inf(-1)), nullProto(), floatProto(3.1)),
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listType(floatType()),
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[]NullFloat64{{math.Inf(1), true}, {math.Inf(-1), true}, {}, {3.1, true}},
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false,
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},
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{nullProto(), listType(floatType()), []NullFloat64(nil), false},
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// FLOAT64 ARRAY with []float64
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{
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listProto(floatProto(math.Inf(1)), floatProto(math.Inf(-1)), floatProto(3.1)),
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listType(floatType()),
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[]float64{math.Inf(1), math.Inf(-1), 3.1},
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false,
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},
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// TIMESTAMP
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{timeProto(t1), timeType(), t1, false},
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{timeProto(t1), timeType(), NullTime{t1, true}, false},
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{nullProto(), timeType(), NullTime{}, false},
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// TIMESTAMP ARRAY with []NullTime
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{listProto(timeProto(t1), timeProto(t2), timeProto(t3), nullProto()), listType(timeType()), []NullTime{{t1, true}, {t2, true}, {t3, true}, {}}, false},
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{nullProto(), listType(timeType()), []NullTime(nil), false},
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// TIMESTAMP ARRAY with []time.Time
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{listProto(timeProto(t1), timeProto(t2), timeProto(t3)), listType(timeType()), []time.Time{t1, t2, t3}, false},
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// DATE
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{dateProto(d1), dateType(), d1, false},
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{dateProto(d1), dateType(), NullDate{d1, true}, false},
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{nullProto(), dateType(), NullDate{}, false},
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// DATE ARRAY with []NullDate
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{listProto(dateProto(d1), dateProto(d2), nullProto()), listType(dateType()), []NullDate{{d1, true}, {d2, true}, {}}, false},
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{nullProto(), listType(dateType()), []NullDate(nil), false},
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// DATE ARRAY with []civil.Date
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{listProto(dateProto(d1), dateProto(d2)), listType(dateType()), []civil.Date{d1, d2}, false},
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// STRUCT ARRAY
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// STRUCT schema is equal to the following Go struct:
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// type s struct {
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// Col1 NullInt64
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// Col2 []struct {
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// SubCol1 float64
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// SubCol2 string
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// }
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// }
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{
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in: listProto(
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listProto(
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intProto(3),
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listProto(
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listProto(floatProto(3.14), stringProto("this")),
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listProto(floatProto(0.57), stringProto("siht")),
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),
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),
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listProto(
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nullProto(),
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nullProto(),
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),
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nullProto(),
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),
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t: listType(
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structType(
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mkField("Col1", intType()),
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mkField(
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"Col2",
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listType(
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structType(
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mkField("SubCol1", floatType()),
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mkField("SubCol2", stringType()),
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),
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),
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),
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),
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),
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want: []NullRow{
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{
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Row: Row{
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fields: []*sppb.StructType_Field{
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mkField("Col1", intType()),
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mkField(
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"Col2",
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listType(
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structType(
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mkField("SubCol1", floatType()),
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mkField("SubCol2", stringType()),
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),
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),
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),
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},
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vals: []*proto3.Value{
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intProto(3),
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listProto(
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listProto(floatProto(3.14), stringProto("this")),
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listProto(floatProto(0.57), stringProto("siht")),
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),
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},
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},
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Valid: true,
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},
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{
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Row: Row{
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fields: []*sppb.StructType_Field{
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mkField("Col1", intType()),
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mkField(
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"Col2",
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listType(
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structType(
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mkField("SubCol1", floatType()),
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mkField("SubCol2", stringType()),
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),
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),
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),
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},
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vals: []*proto3.Value{
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nullProto(),
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nullProto(),
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},
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},
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Valid: true,
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},
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{},
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},
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fail: false,
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},
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{
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in: listProto(
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listProto(
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intProto(3),
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listProto(
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listProto(floatProto(3.14), stringProto("this")),
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listProto(floatProto(0.57), stringProto("siht")),
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),
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),
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listProto(
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nullProto(),
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nullProto(),
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),
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nullProto(),
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),
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t: listType(
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structType(
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mkField("Col1", intType()),
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mkField(
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"Col2",
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listType(
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structType(
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mkField("SubCol1", floatType()),
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mkField("SubCol2", stringType()),
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),
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),
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),
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),
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),
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want: []*struct {
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Col1 NullInt64
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StructCol []*struct {
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SubCol1 NullFloat64
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SubCol2 string
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} `spanner:"Col2"`
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}{
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{
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Col1: NullInt64{3, true},
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StructCol: []*struct {
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SubCol1 NullFloat64
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SubCol2 string
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}{
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{
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SubCol1: NullFloat64{3.14, true},
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SubCol2: "this",
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},
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{
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SubCol1: NullFloat64{0.57, true},
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SubCol2: "siht",
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},
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},
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},
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{
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Col1: NullInt64{},
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StructCol: []*struct {
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SubCol1 NullFloat64
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SubCol2 string
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}(nil),
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},
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nil,
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},
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fail: false,
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},
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// GenericColumnValue
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{stringProto("abc"), stringType(), GenericColumnValue{stringType(), stringProto("abc")}, false},
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{nullProto(), stringType(), GenericColumnValue{stringType(), nullProto()}, false},
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// not actually valid (stringProto inside int list), but demonstrates pass-through.
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{
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in: listProto(intProto(5), nullProto(), stringProto("bcd")),
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t: listType(intType()),
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want: GenericColumnValue{
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Type: listType(intType()),
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Value: listProto(intProto(5), nullProto(), stringProto("bcd")),
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},
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fail: false,
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},
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} {
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gotp := reflect.New(reflect.TypeOf(test.want))
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if err := decodeValue(test.in, test.t, gotp.Interface()); err != nil {
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if !test.fail {
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t.Errorf("%d: cannot decode %v(%v): %v", i, test.in, test.t, err)
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}
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continue
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}
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if test.fail {
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t.Errorf("%d: decoding %v(%v) succeeds unexpectedly, want error", i, test.in, test.t)
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continue
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}
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got := reflect.Indirect(gotp).Interface()
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if !reflect.DeepEqual(got, test.want) {
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t.Errorf("%d: unexpected decoding result - got %v, want %v", i, got, test.want)
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continue
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}
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}
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}
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// Test error cases for decodeValue.
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func TestDecodeValueErrors(t *testing.T) {
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for i, test := range []struct {
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in *proto3.Value
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t *sppb.Type
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v interface{}
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}{
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{nullProto(), stringType(), nil},
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{nullProto(), stringType(), 1},
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} {
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err := decodeValue(test.in, test.t, test.v)
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if err == nil {
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t.Errorf("#%d: want error, got nil", i)
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}
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}
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}
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// Test NaN encoding/decoding.
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func TestNaN(t *testing.T) {
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// Decode NaN value.
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f := 0.0
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nf := NullFloat64{}
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// To float64
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if err := decodeValue(floatProto(math.NaN()), floatType(), &f); err != nil {
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t.Errorf("decodeValue returns %q for %v, want nil", err, floatProto(math.NaN()))
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}
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if !math.IsNaN(f) {
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t.Errorf("f = %v, want %v", f, math.NaN())
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}
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// To NullFloat64
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if err := decodeValue(floatProto(math.NaN()), floatType(), &nf); err != nil {
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t.Errorf("decodeValue returns %q for %v, want nil", err, floatProto(math.NaN()))
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}
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if !math.IsNaN(nf.Float64) || !nf.Valid {
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t.Errorf("f = %v, want %v", f, NullFloat64{math.NaN(), true})
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}
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// Encode NaN value
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// From float64
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v, _, err := encodeValue(math.NaN())
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if err != nil {
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t.Errorf("encodeValue returns %q for NaN, want nil", err)
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}
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x, ok := v.GetKind().(*proto3.Value_NumberValue)
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if !ok {
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t.Errorf("incorrect type for v.GetKind(): %T, want *proto3.Value_NumberValue", v.GetKind())
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}
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if !math.IsNaN(x.NumberValue) {
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|
t.Errorf("x.NumberValue = %v, want %v", x.NumberValue, math.NaN())
|
|
}
|
|
// From NullFloat64
|
|
v, _, err = encodeValue(NullFloat64{math.NaN(), true})
|
|
if err != nil {
|
|
t.Errorf("encodeValue returns %q for NaN, want nil", err)
|
|
}
|
|
x, ok = v.GetKind().(*proto3.Value_NumberValue)
|
|
if !ok {
|
|
t.Errorf("incorrect type for v.GetKind(): %T, want *proto3.Value_NumberValue", v.GetKind())
|
|
}
|
|
if !math.IsNaN(x.NumberValue) {
|
|
t.Errorf("x.NumberValue = %v, want %v", x.NumberValue, math.NaN())
|
|
}
|
|
}
|
|
|
|
func TestGenericColumnValue(t *testing.T) {
|
|
for _, test := range []struct {
|
|
in GenericColumnValue
|
|
want interface{}
|
|
fail bool
|
|
}{
|
|
{GenericColumnValue{stringType(), stringProto("abc")}, "abc", false},
|
|
{GenericColumnValue{stringType(), stringProto("abc")}, 5, true},
|
|
{GenericColumnValue{listType(intType()), listProto(intProto(91), nullProto(), intProto(87))}, []NullInt64{{91, true}, {}, {87, true}}, false},
|
|
{GenericColumnValue{intType(), intProto(42)}, GenericColumnValue{intType(), intProto(42)}, false}, // trippy! :-)
|
|
} {
|
|
gotp := reflect.New(reflect.TypeOf(test.want))
|
|
if err := test.in.Decode(gotp.Interface()); err != nil {
|
|
if !test.fail {
|
|
t.Errorf("cannot decode %v to %v: %v", test.in, test.want, err)
|
|
}
|
|
continue
|
|
}
|
|
if test.fail {
|
|
t.Errorf("decoding %v to %v succeeds unexpectedly", test.in, test.want)
|
|
}
|
|
|
|
// Test we can go backwards as well.
|
|
v, err := newGenericColumnValue(test.want)
|
|
if err != nil {
|
|
t.Errorf("NewGenericColumnValue failed: %v", err)
|
|
continue
|
|
}
|
|
if !reflect.DeepEqual(*v, test.in) {
|
|
t.Errorf("unexpected encode result - got %v, want %v", v, test.in)
|
|
}
|
|
}
|
|
}
|