// Copyright 2019 PingCAP, Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package expression import ( "strings" "github.com/pingcap/tidb/pkg/parser/mysql" "github.com/pingcap/tidb/pkg/types" "github.com/pingcap/tidb/pkg/util/chunk" ) // vecEvalDecimal evals a builtinGreatestDecimalSig. // See http://dev.mysql.com/doc/refman/5.7/en/comparison-operators.html#function_greatest func (b *builtinGreatestDecimalSig) vecEvalDecimal(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalDecimal(ctx, input, result); err != nil { return err } d64s := result.Decimals() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalDecimal(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) for i := 0; i < n; i++ { if result.IsNull(i) { continue } v := buf.GetDecimal(i) if v.Compare(&d64s[i]) > 0 { d64s[i] = *v } } } return nil } func (b *builtinGreatestDecimalSig) vectorized() bool { return true } func (b *builtinLeastDecimalSig) vecEvalDecimal(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalDecimal(ctx, input, result); err != nil { return err } d64s := result.Decimals() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalDecimal(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) for i := 0; i < n; i++ { if result.IsNull(i) { continue } v := buf.GetDecimal(i) if v.Compare(&d64s[i]) < 0 { d64s[i] = *v } } } return nil } func (b *builtinLeastDecimalSig) vectorized() bool { return true } func (b *builtinLeastIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalInt(ctx, input, result); err != nil { return err } i64s := result.Int64s() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalInt(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) for i := 0; i < n; i++ { if result.IsNull(i) { continue } v := buf.GetInt64(i) if v < i64s[i] { i64s[i] = v } } } return nil } func (b *builtinLeastIntSig) vectorized() bool { return true } func (b *builtinGreatestIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalInt(ctx, input, result); err != nil { return err } i64s := result.Int64s() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalInt(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) v := buf.Int64s() for i := 0; i < n; i++ { if result.IsNull(i) { continue } if v[i] > i64s[i] { i64s[i] = v[i] } } } return nil } func (b *builtinGreatestIntSig) vectorized() bool { return true } func (b *builtinGEIntSig) vectorized() bool { return true } func (b *builtinGEIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err = b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err = b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfGE(result.Int64s()) return nil } func (b *builtinLeastRealSig) vectorized() bool { return true } func (b *builtinLeastRealSig) vecEvalReal(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalReal(ctx, input, result); err != nil { return err } f64s := result.Float64s() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalReal(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) v := buf.Float64s() for i := 0; i < n; i++ { if result.IsNull(i) { continue } if v[i] < f64s[i] { f64s[i] = v[i] } } } return nil } func (b *builtinLeastStringSig) vectorized() bool { return true } func (b *builtinLeastStringSig) vecEvalString(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { if err := b.args[0].VecEvalString(ctx, input, result); err != nil { return err } n := input.NumRows() buf1, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) buf2, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf2) src := result arg := buf1 dst := buf2 dst.ReserveString(n) for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalString(ctx, input, arg); err != nil { return err } for i := 0; i < n; i++ { if src.IsNull(i) || arg.IsNull(i) { dst.AppendNull() continue } srcStr := src.GetString(i) argStr := arg.GetString(i) if types.CompareString(srcStr, argStr, b.collation) < 0 { dst.AppendString(srcStr) } else { dst.AppendString(argStr) } } src, dst = dst, src arg.ReserveString(n) dst.ReserveString(n) } if len(b.args)%2 == 0 { src.CopyConstruct(result) } return nil } func (b *builtinEQIntSig) vectorized() bool { return true } func (b *builtinEQIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfEQ(result.Int64s()) return nil } func (b *builtinNEIntSig) vectorized() bool { return true } func (b *builtinNEIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfNE(result.Int64s()) return nil } func (b *builtinGTIntSig) vectorized() bool { return true } func (b *builtinGTIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfGT(result.Int64s()) return nil } func (b *builtinNullEQIntSig) vectorized() bool { return true } func (b *builtinNullEQIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf0, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) result.ResizeInt64(n, false) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) i64s := result.Int64s() for i := 0; i < n; i++ { isNull0 := buf0.IsNull(i) isNull1 := buf1.IsNull(i) if isNull0 && isNull1 { i64s[i] = 1 } else if isNull0 || isNull1 || i64s[i] != 0 { i64s[i] = 0 } else { i64s[i] = 1 } } return nil } func (b *builtinIntervalIntSig) vectorized() bool { return true } func (b *builtinIntervalIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { var err error if err = b.args[0].VecEvalInt(ctx, input, result); err != nil { return err } i64s := result.Int64s() var idx int for i, v := range i64s { if result.IsNull(i) { result.SetNull(i, false) i64s[i] = -1 continue } if b.hasNullable { idx, err = b.linearSearch(ctx, v, mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), b.args[1:], input.GetRow(i)) } else { idx, err = b.binSearch(ctx, v, mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), b.args[1:], input.GetRow(i)) } if err != nil { return err } i64s[i] = int64(idx) } return nil } func (b *builtinIntervalRealSig) vectorized() bool { return true } func (b *builtinIntervalRealSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err = b.args[0].VecEvalReal(ctx, input, buf); err != nil { return err } f64s := buf.Float64s() result.ResizeInt64(n, false) res := result.Int64s() var idx int for i := 0; i < n; i++ { if buf.IsNull(i) { res[i] = -1 continue } if b.hasNullable { idx, err = b.linearSearch(ctx, f64s[i], b.args[1:], input.GetRow(i)) } else { idx, err = b.binSearch(ctx, f64s[i], b.args[1:], input.GetRow(i)) } if err != nil { return err } res[i] = int64(idx) } return nil } func (b *builtinLEIntSig) vectorized() bool { return true } func (b *builtinLEIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfLE(result.Int64s()) return nil } func (b *builtinLTIntSig) vectorized() bool { return true } func (b *builtinLTIntSig) vecEvalInt(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() var err error var buf0, buf1 *chunk.Column buf0, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf0) if err := b.args[0].VecEvalInt(ctx, input, buf0); err != nil { return err } buf1, err = b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) if err := b.args[1].VecEvalInt(ctx, input, buf1); err != nil { return err } result.ResizeInt64(n, false) vecCompareInt(mysql.HasUnsignedFlag(b.args[0].GetType(ctx).GetFlag()), mysql.HasUnsignedFlag(b.args[1].GetType(ctx).GetFlag()), buf0, buf1, result) result.MergeNulls(buf0, buf1) vecResOfLT(result.Int64s()) return nil } func vecResOfLT(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] < 0 { res[i] = 1 } else { res[i] = 0 } } } func vecResOfNE(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] != 0 { res[i] = 1 } else { res[i] = 0 } } } func vecResOfEQ(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] == 0 { res[i] = 1 } else { res[i] = 0 } } } func vecResOfLE(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] <= 0 { res[i] = 1 } else { res[i] = 0 } } } func vecResOfGT(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] > 0 { res[i] = 1 } else { res[i] = 0 } } } func vecResOfGE(res []int64) { n := len(res) for i := 0; i < n; i++ { if res[i] >= 0 { res[i] = 1 } else { res[i] = 0 } } } // vecCompareInt is vectorized CompareInt() func vecCompareInt(isUnsigned0, isUnsigned1 bool, largs, rargs, result *chunk.Column) { switch { case isUnsigned0 && isUnsigned1: types.VecCompareUU(largs.Uint64s(), rargs.Uint64s(), result.Int64s()) case isUnsigned0 && !isUnsigned1: types.VecCompareUI(largs.Uint64s(), rargs.Int64s(), result.Int64s()) case !isUnsigned0 && isUnsigned1: types.VecCompareIU(largs.Int64s(), rargs.Uint64s(), result.Int64s()) case !isUnsigned0 && !isUnsigned1: types.VecCompareII(largs.Int64s(), rargs.Int64s(), result.Int64s()) } } func (b *builtinGreatestCmpStringAsTimeSig) vectorized() bool { return true } func (b *builtinGreatestCmpStringAsTimeSig) vecEvalString(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() dstStrings := make([]string, n) // TODO: use Column.MergeNulls instead, however, it doesn't support var-length type currently. dstNullMap := make([]bool, n) for j := 0; j < len(b.args); j++ { if err := b.args[j].VecEvalString(ctx, input, result); err != nil { return err } for i := 0; i < n; i++ { if dstNullMap[i] = dstNullMap[i] || result.IsNull(i); dstNullMap[i] { continue } // NOTE: can't use Column.GetString because it returns an unsafe string, copy the row instead. argTimeStr := string(result.GetBytes(i)) var err error argTimeStr, err = doTimeConversionForGL(b.cmpAsDate, ctx, argTimeStr) if err != nil { return err } if j == 0 || strings.Compare(argTimeStr, dstStrings[i]) > 0 { dstStrings[i] = argTimeStr } } } // Aggregate the NULL and String value into result result.ReserveString(n) for i := 0; i < n; i++ { if dstNullMap[i] { result.AppendNull() } else { result.AppendString(dstStrings[i]) } } return nil } func (b *builtinGreatestRealSig) vectorized() bool { return true } func (b *builtinGreatestRealSig) vecEvalReal(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) if err := b.args[0].VecEvalReal(ctx, input, result); err != nil { return err } f64s := result.Float64s() for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalReal(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) v := buf.Float64s() for i := 0; i < n; i++ { if result.IsNull(i) { continue } if v[i] > f64s[i] { f64s[i] = v[i] } } } return nil } func (b *builtinLeastCmpStringAsTimeSig) vectorized() bool { return true } func (b *builtinLeastCmpStringAsTimeSig) vecEvalString(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() dstStrings := make([]string, n) // TODO: use Column.MergeNulls instead, however, it doesn't support var-length type currently. dstNullMap := make([]bool, n) for j := 0; j < len(b.args); j++ { if err := b.args[j].VecEvalString(ctx, input, result); err != nil { return err } for i := 0; i < n; i++ { if dstNullMap[i] = dstNullMap[i] || result.IsNull(i); dstNullMap[i] { continue } // NOTE: can't use Column.GetString because it returns an unsafe string, copy the row instead. argTimeStr := string(result.GetBytes(i)) var err error argTimeStr, err = doTimeConversionForGL(b.cmpAsDate, ctx, argTimeStr) if err != nil { return err } if j == 0 || strings.Compare(argTimeStr, dstStrings[i]) < 0 { dstStrings[i] = argTimeStr } } } // Aggregate the NULL and String value into result result.ReserveString(n) for i := 0; i < n; i++ { if dstNullMap[i] { result.AppendNull() } else { result.AppendString(dstStrings[i]) } } return nil } func (b *builtinGreatestStringSig) vectorized() bool { return true } func (b *builtinGreatestStringSig) vecEvalString(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { if err := b.args[0].VecEvalString(ctx, input, result); err != nil { return err } n := input.NumRows() buf1, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf1) buf2, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf2) src := result arg := buf1 dst := buf2 dst.ReserveString(n) for j := 1; j < len(b.args); j++ { if err := b.args[j].VecEvalString(ctx, input, arg); err != nil { return err } for i := 0; i < n; i++ { if src.IsNull(i) || arg.IsNull(i) { dst.AppendNull() continue } srcStr := src.GetString(i) argStr := arg.GetString(i) if types.CompareString(srcStr, argStr, b.collation) > 0 { dst.AppendString(srcStr) } else { dst.AppendString(argStr) } } src, dst = dst, src arg.ReserveString(n) dst.ReserveString(n) } if len(b.args)%2 == 0 { src.CopyConstruct(result) } return nil } func (b *builtinGreatestTimeSig) vectorized() bool { return true } func (b *builtinGreatestTimeSig) vecEvalTime(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) result.ResizeTime(n, false) for argIdx := 0; argIdx < len(b.args); argIdx++ { if err := b.args[argIdx].VecEvalTime(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) resTimes := result.Times() argTimes := buf.Times() for rowIdx := 0; rowIdx < n; rowIdx++ { if result.IsNull(rowIdx) { continue } if argIdx == 0 || argTimes[rowIdx].Compare(resTimes[rowIdx]) > 0 { resTimes[rowIdx] = argTimes[rowIdx] } } } tc := typeCtx(ctx) resTimeTp := getAccurateTimeTypeForGLRet(b.cmpAsDate) for rowIdx := 0; rowIdx < n; rowIdx++ { resTimes := result.Times() resTimes[rowIdx], err = resTimes[rowIdx].Convert(tc, resTimeTp) if err != nil { return err } } return nil } func (b *builtinLeastTimeSig) vectorized() bool { return true } func (b *builtinLeastTimeSig) vecEvalTime(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) result.ResizeTime(n, false) for argIdx := 0; argIdx < len(b.args); argIdx++ { if err := b.args[argIdx].VecEvalTime(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) resTimes := result.Times() argTimes := buf.Times() for rowIdx := 0; rowIdx < n; rowIdx++ { if result.IsNull(rowIdx) { continue } if argIdx == 0 || argTimes[rowIdx].Compare(resTimes[rowIdx]) < 0 { resTimes[rowIdx] = argTimes[rowIdx] } } } tc := typeCtx(ctx) resTimeTp := getAccurateTimeTypeForGLRet(b.cmpAsDate) for rowIdx := 0; rowIdx < n; rowIdx++ { resTimes := result.Times() resTimes[rowIdx], err = resTimes[rowIdx].Convert(tc, resTimeTp) if err != nil { return err } } return nil } func (b *builtinGreatestDurationSig) vectorized() bool { return true } func (b *builtinGreatestDurationSig) vecEvalDuration(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) result.ResizeGoDuration(n, false) for argIdx := 0; argIdx < len(b.args); argIdx++ { if err := b.args[argIdx].VecEvalDuration(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) resDurations := result.GoDurations() argDurations := buf.GoDurations() for rowIdx := 0; rowIdx < n; rowIdx++ { if result.IsNull(rowIdx) { continue } if argIdx == 0 || argDurations[rowIdx] > resDurations[rowIdx] { resDurations[rowIdx] = argDurations[rowIdx] } } } return nil } func (b *builtinLeastDurationSig) vectorized() bool { return true } func (b *builtinLeastDurationSig) vecEvalDuration(ctx EvalContext, input *chunk.Chunk, result *chunk.Column) error { n := input.NumRows() buf, err := b.bufAllocator.get() if err != nil { return err } defer b.bufAllocator.put(buf) result.ResizeGoDuration(n, false) for argIdx := 0; argIdx < len(b.args); argIdx++ { if err := b.args[argIdx].VecEvalDuration(ctx, input, buf); err != nil { return err } result.MergeNulls(buf) resDurations := result.GoDurations() argDurations := buf.GoDurations() for rowIdx := 0; rowIdx < n; rowIdx++ { if result.IsNull(rowIdx) { continue } if argIdx == 0 || argDurations[rowIdx] < resDurations[rowIdx] { resDurations[rowIdx] = argDurations[rowIdx] } } } return nil }