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syncthing/vendor/github.com/cznic/ql/plan.go
Jakob Borg f9e2623fdc vendor: Add dependencies for discosrv
2016-06-02 13:53:30 +02:00

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// Copyright 2015 The ql Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ql
import (
"bytes"
"fmt"
"strings"
"github.com/cznic/b"
"github.com/cznic/strutil"
)
const (
_ = iota
indexEq // [L]
indexFalse // [false]
indexGe // [L, ...)
indexGt // (L, ...)
indexIsNotNull // (NULL, ...)
indexIsNull // [NULL]
indexIntervalCC // [L, H]
indexIntervalCO // [L, H)
indexIntervalOC // (L, H]
indexIntervalOO // (L, H)
indexLe // (..., H]
indexLt // (..., H)
indexNe // (L)
indexTrue // [true]
)
// Note: All plans must have a pointer receiver. Enables planA == planB operation.
var (
_ plan = (*crossJoinDefaultPlan)(nil)
_ plan = (*distinctDefaultPlan)(nil)
_ plan = (*explainDefaultPlan)(nil)
_ plan = (*filterDefaultPlan)(nil)
_ plan = (*fullJoinDefaultPlan)(nil)
_ plan = (*groupByDefaultPlan)(nil)
_ plan = (*indexPlan)(nil)
_ plan = (*leftJoinDefaultPlan)(nil)
_ plan = (*limitDefaultPlan)(nil)
_ plan = (*nullPlan)(nil)
_ plan = (*offsetDefaultPlan)(nil)
_ plan = (*orderByDefaultPlan)(nil)
_ plan = (*rightJoinDefaultPlan)(nil)
_ plan = (*selectFieldsDefaultPlan)(nil)
_ plan = (*selectFieldsGroupPlan)(nil)
_ plan = (*selectIndexDefaultPlan)(nil)
_ plan = (*sysColumnDefaultPlan)(nil)
_ plan = (*sysIndexDefaultPlan)(nil)
_ plan = (*sysTableDefaultPlan)(nil)
_ plan = (*tableDefaultPlan)(nil)
_ plan = (*tableNilPlan)(nil)
)
type plan interface {
do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) error
explain(w strutil.Formatter)
fieldNames() []string
filter(expr expression) (p plan, indicesSought []string, err error)
hasID() bool
}
func isTableOrIndex(p plan) bool {
switch p.(type) {
case
*indexPlan,
*sysColumnDefaultPlan,
*sysIndexDefaultPlan,
*sysTableDefaultPlan,
*tableDefaultPlan:
return true
default:
return false
}
}
// Invariants
// - All interval plans produce rows in ascending index value collating order.
// - L <= H
type indexPlan struct {
src *table
cname string
xname string
x btreeIndex
kind int // See interval* consts.
lval interface{} // L, H: Ordered and comparable (lldb perspective).
hval interface{}
}
func (r *indexPlan) doGe(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ...
// --- --- --- --- --- + + +++ +++ +++
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
for {
_, h, err := it.Next()
if err != nil {
return noEOF(err)
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doGt(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ...
// --- --- --- --- --- - - +++ +++ +++
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
var ok bool
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if !ok {
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.lval) == 0 {
continue
}
ok = true
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doInterval00(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- --- --- --- - - +++ +++ +++ +++ +++ - - --- --- ---
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
var ok bool
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if !ok {
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.lval) == 0 {
continue
}
ok = true
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) == 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doIntervalOC(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- --- --- --- - - +++ +++ +++ +++ +++ + + --- --- ---
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
var ok bool
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if !ok {
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.lval) == 0 {
continue
}
ok = true
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) > 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doIntervalCC(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- --- --- --- + + +++ +++ +++ +++ +++ + + --- --- ---
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) > 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doIntervalCO(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- --- --- --- + + +++ +++ +++ +++ +++ - - --- --- ---
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) >= 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doLe(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- +++ +++ +++ + + --- ---
t := r.src
it, err := r.x.SeekFirst()
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if k == nil || k[0] == nil {
continue
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) > 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doLt(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., H-1, H-1, H, H, H+1, H+1, ...
// --- --- +++ +++ +++ - - --- ---
t := r.src
it, err := r.x.SeekFirst()
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if k == nil || k[0] == nil {
continue
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) >= 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doEq(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ...
// --- --- --- --- --- + + --- --- ---
t := r.src
it, _, err := r.x.Seek([]interface{}{r.lval})
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.lval) != 0 {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doNe(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ..., L-1, L-1, L, L, L+1, L+1, ...
// --- --- +++ +++ +++ - - +++ +++ +++
t := r.src
it, err := r.x.SeekFirst()
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if k == nil || k[0] == nil {
continue
}
val, err := expand1(k[0], nil)
if err != nil {
return err
}
if collate1(val, r.hval) == 0 {
continue
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doIsNull(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ...
// +++ +++ ---
t := r.src
it, err := r.x.SeekFirst()
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if k != nil && k[0] != nil {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doIsNotNull(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
// nil, nil, ...
// --- --- +++
t := r.src
it, _, err := r.x.Seek([]interface{}{false}) // lldb collates false right after NULL.
if err != nil {
return noEOF(err)
}
for {
_, h, err := it.Next()
if err != nil {
return noEOF(err)
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doFalse(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
t := r.src
it, _, err := r.x.Seek([]interface{}{false})
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
b, ok := k[0].(bool)
if !ok || b {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) doTrue(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
t := r.src
it, _, err := r.x.Seek([]interface{}{true})
if err != nil {
return noEOF(err)
}
for {
k, h, err := it.Next()
if err != nil {
return noEOF(err)
}
if _, ok := k[0].(bool); !ok {
return nil
}
id, data, err := t.row(ctx, h)
if err != nil {
return err
}
if more, err := f(id, data); err != nil || !more {
return err
}
}
}
func (r *indexPlan) do(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) error {
switch r.kind {
case indexEq:
return r.doEq(ctx, f)
case indexGe:
return r.doGe(ctx, f)
case indexGt:
return r.doGt(ctx, f)
case indexLe:
return r.doLe(ctx, f)
case indexLt:
return r.doLt(ctx, f)
case indexNe:
return r.doNe(ctx, f)
case indexIsNull:
return r.doIsNull(ctx, f)
case indexIsNotNull:
return r.doIsNotNull(ctx, f)
case indexFalse:
return r.doFalse(ctx, f)
case indexTrue:
return r.doTrue(ctx, f)
case indexIntervalOO:
return r.doInterval00(ctx, f)
case indexIntervalCC:
return r.doIntervalCC(ctx, f)
case indexIntervalOC:
return r.doIntervalOC(ctx, f)
case indexIntervalCO:
return r.doIntervalCO(ctx, f)
default:
//dbg("", r.kind)
panic("internal error 072")
}
}
func (r *indexPlan) explain(w strutil.Formatter) {
s := ""
if r.kind == indexFalse {
s = "!"
}
w.Format("┌Iterate all rows of table %q using index %q where %s%s", r.src.name, r.xname, s, r.cname)
switch r.kind {
case indexEq:
w.Format(" == %v", value{r.lval})
case indexGe:
w.Format(" >= %v", value{r.lval})
case indexGt:
w.Format(" > %v", value{r.lval})
case indexLe:
w.Format(" <= %v", value{r.hval})
case indexLt:
w.Format(" < %v", value{r.hval})
case indexNe:
w.Format(" != %v", value{r.lval})
case indexIsNull:
w.Format(" IS NULL")
case indexIsNotNull:
w.Format(" IS NOT NULL")
case indexFalse, indexTrue:
// nop
case indexIntervalOO:
w.Format(" > %v && %s < %v", value{r.lval}, r.cname, value{r.hval})
case indexIntervalCC:
w.Format(" >= %v && %s <= %v", value{r.lval}, r.cname, value{r.hval})
case indexIntervalCO:
w.Format(" >= %v && %s < %v", value{r.lval}, r.cname, value{r.hval})
case indexIntervalOC:
w.Format(" > %v && %s <= %v", value{r.lval}, r.cname, value{r.hval})
default:
//dbg("", r.kind)
panic("internal error 073")
}
w.Format("\n└Output field names %v\n", qnames(r.fieldNames()))
}
func (r *indexPlan) fieldNames() []string { return r.src.fieldNames() }
func (r *indexPlan) filterEq(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(r.lval, val) == 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
if collate1(r.lval, val) >= 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '>':
if collate1(r.lval, val) > 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case le:
if collate1(r.lval, val) <= 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '<':
if collate1(r.lval, val) < 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case neq:
if collate1(r.lval, val) != 0 {
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
}
return nil, nil, nil
}
func (r *indexPlan) filterGe(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(r.lval, val) <= 0 {
r.lval = val
r.kind = indexEq
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
if collate1(r.lval, val) < 0 {
r.lval = val
}
return r, nil, nil
case '>':
if collate1(r.lval, val) <= 0 {
r.lval = val
r.kind = indexGt
}
return r, nil, nil
case le:
switch c := collate1(r.lval, val); {
case c < 0:
r.hval = val
r.kind = indexIntervalCC
return r, nil, nil
case c == 0:
r.kind = indexEq
return r, nil, nil
default: // c > 0
return &nullPlan{r.fieldNames()}, nil, nil
}
case '<':
if collate1(r.lval, val) < 0 {
r.hval = val
r.kind = indexIntervalCO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case neq:
switch c := collate1(r.lval, val); {
case c < 0:
//MAYBE ORed intervals
case c == 0:
r.kind = indexGt
return r, nil, nil
default: // c > 0
return r, nil, nil
}
}
return nil, nil, nil
}
func (r *indexPlan) filterGt(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(r.lval, val) < 0 {
r.lval = val
r.kind = indexEq
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
if collate1(r.lval, val) < 0 {
r.lval = val
r.kind = indexGe
}
return r, nil, nil
case '>':
if collate1(r.lval, val) < 0 {
r.lval = val
}
return r, nil, nil
case le:
if collate1(r.lval, val) < 0 {
r.hval = val
r.kind = indexIntervalOC
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '<':
if collate1(r.lval, val) < 0 {
r.hval = val
r.kind = indexIntervalOO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case neq:
if collate1(r.lval, val) >= 0 {
return r, nil, nil
}
}
return nil, nil, nil
}
func (r *indexPlan) filterLe(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(r.hval, val) >= 0 {
r.lval = val
r.kind = indexEq
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
switch c := collate1(r.hval, val); {
case c < 0:
return &nullPlan{r.fieldNames()}, nil, nil
case c == 0:
r.lval = val
r.kind = indexEq
return r, nil, nil
default: // c > 0
r.lval = val
r.kind = indexIntervalCC
return r, nil, nil
}
case '>':
if collate1(r.hval, val) > 0 {
r.lval = val
r.kind = indexIntervalOC
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case le:
if collate1(r.hval, val) > 0 {
r.hval = val
}
return r, nil, nil
case '<':
if collate1(r.hval, val) >= 0 {
r.hval = val
r.kind = indexLt
}
return r, nil, nil
case neq:
switch c := collate1(r.hval, val); {
case c < 0:
return r, nil, nil
case c == 0:
r.kind = indexLt
return r, nil, nil
default: // c > 0
//bop
}
}
return nil, nil, nil
}
func (r *indexPlan) filterLt(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(r.hval, val) > 0 {
r.lval = val
r.kind = indexEq
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
if collate1(r.hval, val) > 0 {
r.lval = val
r.kind = indexIntervalCO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '>':
if collate1(r.hval, val) > 0 {
r.lval = val
r.kind = indexIntervalOO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case le:
if collate1(r.hval, val) > 0 {
r.hval = val
r.kind = indexLe
}
return r, nil, nil
case '<':
if collate1(r.hval, val) > 0 {
r.hval = val
}
return r, nil, nil
case neq:
if collate1(r.hval, val) > 0 {
return nil, nil, nil
}
return r, nil, nil
}
return nil, nil, nil
}
func (r *indexPlan) filterCC(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(val, r.lval) < 0 || collate1(val, r.hval) > 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
r.lval = val
r.kind = indexEq
return r, nil, nil
case ge:
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
switch c := collate1(val, r.hval); {
case c < 0:
r.lval = val
return r, nil, nil
case c == 0:
r.lval = val
r.kind = indexEq
return r, nil, nil
default:
return &nullPlan{r.fieldNames()}, nil, nil
}
case '>':
switch c := collate1(val, r.lval); {
case c < 0:
return r, nil, nil
case c == 0:
r.kind = indexIntervalOC
return r, nil, nil
default:
if collate1(val, r.hval) < 0 {
r.lval = val
r.kind = indexIntervalOC
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
}
case le:
switch c := collate1(val, r.lval); {
case c < 0:
return &nullPlan{r.fieldNames()}, nil, nil
case c == 0:
r.kind = indexEq
return r, nil, nil
default:
if collate1(val, r.hval) < 0 {
r.hval = val
}
return r, nil, nil
}
case '<':
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
if collate1(val, r.hval) <= 0 {
r.hval = val
r.kind = indexIntervalCO
}
return r, nil, nil
case neq:
switch c := collate1(val, r.lval); {
case c < 0:
return r, nil, nil
case c == 0:
r.kind = indexIntervalOC
return r, nil, nil
default:
switch c := collate1(val, r.hval); {
case c == 0:
r.kind = indexIntervalCO
return r, nil, nil
case c > 0:
return r, nil, nil
default:
return nil, nil, nil
}
}
}
return nil, nil, nil
}
func (r *indexPlan) filterOC(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(val, r.lval) <= 0 || collate1(val, r.hval) > 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
r.lval = val
r.kind = indexEq
return r, nil, nil
case ge:
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
switch c := collate1(val, r.hval); {
case c < 0:
r.lval = val
r.kind = indexIntervalCC
return r, nil, nil
case c == 0:
r.lval = val
r.kind = indexEq
return r, nil, nil
default:
return &nullPlan{r.fieldNames()}, nil, nil
}
case '>':
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
if collate1(val, r.hval) < 0 {
r.lval = val
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case le:
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
if collate1(val, r.hval) < 0 {
r.hval = val
}
return r, nil, nil
case '<':
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
switch c := collate1(val, r.hval); {
case c < 0:
r.hval = val
r.kind = indexIntervalOO
case c == 0:
r.kind = indexIntervalOO
}
return r, nil, nil
case neq:
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
switch c := collate1(val, r.hval); {
case c < 0:
return nil, nil, nil
case c == 0:
r.kind = indexIntervalOO
return r, nil, nil
default:
return r, nil, nil
}
}
return nil, nil, nil
}
func (r *indexPlan) filterOO(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(val, r.lval) <= 0 || collate1(val, r.hval) >= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
r.lval = val
r.kind = indexEq
return r, nil, nil
case ge:
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
if collate1(val, r.hval) < 0 {
r.lval = val
r.kind = indexIntervalCO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '>':
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
if collate1(val, r.hval) < 0 {
r.lval = val
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case le:
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
if collate1(val, r.hval) < 0 {
r.hval = val
r.kind = indexIntervalOC
}
return r, nil, nil
case '<':
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
if collate1(val, r.hval) < 0 {
r.hval = val
}
return r, nil, nil
case neq:
if collate1(val, r.lval) <= 0 || collate1(val, r.hval) >= 0 {
return r, nil, nil
}
return nil, nil, nil
}
return nil, nil, nil
}
func (r *indexPlan) filterCO(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(val, r.lval) < 0 || collate1(val, r.hval) >= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
r.lval = val
r.kind = indexEq
return r, nil, nil
case ge:
if collate1(val, r.lval) <= 0 {
return r, nil, nil
}
if collate1(val, r.hval) < 0 {
r.lval = val
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case '>':
switch c := collate1(val, r.lval); {
case c < 0:
return r, nil, nil
case c == 0:
r.kind = indexIntervalOO
return r, nil, nil
default:
if collate1(val, r.hval) < 0 {
r.lval = val
r.kind = indexIntervalOO
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
}
case le:
switch c := collate1(val, r.lval); {
case c < 0:
return &nullPlan{r.fieldNames()}, nil, nil
case c == 0:
r.kind = indexEq
return r, nil, nil
default:
if collate1(val, r.hval) < 0 {
r.hval = val
r.kind = indexIntervalCC
}
return r, nil, nil
}
case '<':
if collate1(val, r.lval) <= 0 {
return &nullPlan{r.fieldNames()}, nil, nil
}
if collate1(val, r.hval) < 0 {
r.hval = val
}
return r, nil, nil
case neq:
switch c := collate1(val, r.lval); {
case c < 0:
return r, nil, nil
case c == 0:
r.kind = indexIntervalOO
return r, nil, nil
default:
if collate1(val, r.hval) < 0 {
return nil, nil, nil
}
return r, nil, nil
}
}
return nil, nil, nil
}
func (r *indexPlan) filterNe(binOp2 int, val interface{}) (plan, []string, error) {
switch binOp2 {
case eq:
if collate1(val, r.lval) != 0 {
r.lval = val
r.kind = indexEq
return r, nil, nil
}
return &nullPlan{r.fieldNames()}, nil, nil
case ge:
switch c := collate1(val, r.lval); {
case c < 0:
return nil, nil, nil //TODO
case c == 0:
r.kind = indexGt
return r, nil, nil
default:
r.lval = val
r.kind = indexGe
return r, nil, nil
}
case '>':
if collate1(val, r.lval) < 0 {
return nil, nil, nil //TODO
}
r.lval = val
r.kind = indexGt
return r, nil, nil
case le:
switch c := collate1(val, r.lval); {
case c < 0:
r.hval = val
r.kind = indexLe
return r, nil, nil
case c == 0:
r.kind = indexLt
return r, nil, nil
default:
return nil, nil, nil //TODO
}
case '<':
if collate1(val, r.lval) <= 0 {
r.hval = val
r.kind = indexLt
return r, nil, nil
}
return nil, nil, nil //TODO
case neq:
if collate1(val, r.lval) == 0 {
return r, nil, nil
}
return nil, nil, nil
}
return nil, nil, nil
}
func (r *indexPlan) filter(expr expression) (plan, []string, error) {
switch x := expr.(type) {
case *binaryOperation:
ok, cname, val, err := x.isIdentRelOpVal()
if err != nil {
return nil, nil, err
}
if !ok || r.cname != cname {
break
}
if val, err = typeCheck1(val, findCol(r.src.cols, cname)); err != nil {
return nil, nil, err
}
switch r.kind {
case indexEq: // [L]
return r.filterEq(x.op, val)
case indexGe: // [L, ...)
return r.filterGe(x.op, val)
case indexGt: // (L, ...)
return r.filterGt(x.op, val)
case indexIntervalCC: // [L, H]
return r.filterCC(x.op, val)
case indexIntervalCO: // [L, H)
return r.filterCO(x.op, val)
case indexIntervalOC: // (L, H]
return r.filterOC(x.op, val)
case indexIntervalOO: // (L, H)
return r.filterOO(x.op, val)
case indexLe: // (..., H]
return r.filterLe(x.op, val)
case indexLt: // (..., H)
return r.filterLt(x.op, val)
case indexNe: // (L)
return r.filterNe(x.op, val)
}
case *ident:
cname := x.s
if r.cname != cname {
break
}
switch r.kind {
case indexFalse: // [false]
return &nullPlan{r.fieldNames()}, nil, nil
case indexTrue: // [true]
return r, nil, nil
}
case *unaryOperation:
if x.op != '!' {
break
}
operand, ok := x.v.(*ident)
if !ok {
break
}
cname := operand.s
if r.cname != cname {
break
}
switch r.kind {
case indexFalse: // [false]
return r, nil, nil
case indexTrue: // [true]
return &nullPlan{r.fieldNames()}, nil, nil
}
}
return nil, nil, nil
}
func (r *indexPlan) hasID() bool { return true }
type explainDefaultPlan struct {
s stmt
}
func (r *explainDefaultPlan) hasID() bool { return false }
func (r *explainDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) error {
var buf bytes.Buffer
switch x := r.s.(type) {
default:
w := strutil.IndentFormatter(&buf, "│ ")
x.explain(ctx, w)
}
a := bytes.Split(buf.Bytes(), []byte{'\n'})
for _, v := range a[:len(a)-1] {
if more, err := f(nil, []interface{}{string(v)}); !more || err != nil {
return err
}
}
return nil
}
func (r *explainDefaultPlan) explain(w strutil.Formatter) {
return
}
func (r *explainDefaultPlan) fieldNames() []string {
return []string{""}
}
func (r *explainDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
type filterDefaultPlan struct {
plan
expr expression
is []string
}
func (r *filterDefaultPlan) hasID() bool { return r.plan.hasID() }
func (r *filterDefaultPlan) explain(w strutil.Formatter) {
r.plan.explain(w)
w.Format("┌Filter on %v\n", r.expr)
if len(r.is) != 0 {
w.Format("│Possibly useful indices\n")
m := map[string]bool{}
for _, v := range r.is {
if !m[v] {
m[v] = true
n := ""
for _, r := range v {
if r >= '0' && r <= '9' || r >= 'a' && r <= 'z' || r >= 'A' && r <= 'Z' || r == '_' {
n += string(r)
continue
}
n += "_"
}
for strings.Contains(n, "__") {
n = strings.Replace(n, "__", "_", -1)
}
for strings.HasSuffix(n, "_") {
n = n[:len(n)-1]
}
w.Format("│CREATE INDEX x%s ON %s;\n", n, v)
}
}
}
w.Format("└Output field names %v\n", qnames(r.plan.fieldNames()))
}
func (r *filterDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
m := map[interface{}]interface{}{}
fields := r.plan.fieldNames()
return r.plan.do(ctx, func(rid interface{}, data []interface{}) (bool, error) {
for i, v := range fields {
m[v] = data[i]
}
m["$id"] = rid
val, err := r.expr.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
x, ok := val.(bool)
if !ok {
return false, fmt.Errorf("invalid boolean expression %s (value of type %T)", val, val)
}
if !x {
return true, nil
}
return f(rid, data)
})
}
type crossJoinDefaultPlan struct {
rsets []plan
names []string
fields []string
}
func (r *crossJoinDefaultPlan) hasID() bool { return false }
func (r *crossJoinDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Compute Cartesian product of%i\n")
for i, v := range r.rsets {
sel := !isTableOrIndex(v)
if sel {
w.Format("┌Iterate all rows of virtual table %q%i\n", r.names[i])
}
v.explain(w)
if sel {
w.Format("%u└Output field names %v\n", qnames(v.fieldNames()))
}
}
w.Format("%u└Output field names %v\n", qnames(r.fields))
}
func (r *crossJoinDefaultPlan) filter(expr expression) (plan, []string, error) {
var is []string
for i, v := range r.names {
e2, err := expr.clone(nil, v)
if err != nil {
return nil, nil, err
}
p2, is2, err := r.rsets[i].filter(e2)
is = append(is, is2...)
if err != nil {
return nil, nil, err
}
if p2 != nil {
r.rsets[i] = p2
return r, is, nil
}
}
return nil, is, nil
}
func (r *crossJoinDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
if len(r.rsets) == 1 {
return r.rsets[0].do(ctx, f)
}
ids := map[string]interface{}{}
var g func([]interface{}, []plan, int) error
g = func(prefix []interface{}, rsets []plan, x int) (err error) {
return rsets[0].do(ctx, func(id interface{}, in []interface{}) (bool, error) {
ids[r.names[x]] = id
if len(rsets) > 1 {
return true, g(append(prefix, in...), rsets[1:], x+1)
}
return f(ids, append(prefix, in...))
})
}
return g(nil, r.rsets, 0)
}
func (r *crossJoinDefaultPlan) fieldNames() []string { return r.fields }
type distinctDefaultPlan struct {
src plan
fields []string
}
func (r *distinctDefaultPlan) hasID() bool { return false }
func (r *distinctDefaultPlan) explain(w strutil.Formatter) {
r.src.explain(w)
w.Format("┌Compute distinct rows\n└Output field names %v\n", r.fields)
}
func (r *distinctDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *distinctDefaultPlan) fieldNames() []string { return r.fields }
func (r *distinctDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
t, err := ctx.db.store.CreateTemp(true)
if err != nil {
return
}
defer func() {
if derr := t.Drop(); derr != nil && err == nil {
err = derr
}
}()
if err = r.src.do(ctx, func(id interface{}, in []interface{}) (bool, error) {
if err = t.Set(in, nil); err != nil {
return false, err
}
return true, nil
}); err != nil {
return
}
var data []interface{}
more := true
it, err := t.SeekFirst()
for more && err == nil {
data, _, err = it.Next()
if err != nil {
break
}
more, err = f(nil, data)
}
return noEOF(err)
}
type groupByDefaultPlan struct {
colNames []string
src plan
fields []string
}
func (r *groupByDefaultPlan) hasID() bool { return false }
func (r *groupByDefaultPlan) explain(w strutil.Formatter) {
r.src.explain(w)
switch {
case len(r.colNames) == 0: //TODO this case should not exist for this plan, should become tableDefaultPlan
w.Format("┌Group by distinct rows")
default:
w.Format("┌Group by")
for _, v := range r.colNames {
w.Format(" %s,", v)
}
}
w.Format("\n└Output field names %v\n", qnames(r.fields))
}
func (r *groupByDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *groupByDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
t, err := ctx.db.store.CreateTemp(true)
if err != nil {
return
}
defer func() {
if derr := t.Drop(); derr != nil && err == nil {
err = derr
}
}()
var gcols []*col
var cols []*col
m := map[string]int{}
for i, v := range r.src.fieldNames() {
m[v] = i
}
for _, c := range r.colNames {
i, ok := m[c]
if !ok {
return fmt.Errorf("unknown field %s", c)
}
gcols = append(gcols, &col{name: c, index: i})
}
k := make([]interface{}, len(r.colNames)) //TODO optimize when len(r.cols) == 0, should become tableDefaultPlan
if err = r.src.do(ctx, func(rid interface{}, in []interface{}) (more bool, err error) {
infer(in, &cols)
for i, c := range gcols {
k[i] = in[c.index]
}
h0, err := t.Get(k)
if err != nil {
return false, err
}
var h int64
if len(h0) != 0 {
h, _ = h0[0].(int64)
}
nh, err := t.Create(append([]interface{}{h, nil}, in...)...)
if err != nil {
return false, err
}
for i, c := range gcols {
k[i] = in[c.index]
}
err = t.Set(k, []interface{}{nh})
if err != nil {
return false, err
}
return true, nil
}); err != nil {
return
}
for i, v := range r.src.fieldNames()[:len(cols)] {
cols[i].name = v
cols[i].index = i
}
if more, err := f(nil, []interface{}{t, cols}); !more || err != nil {
return err
}
it, err := t.SeekFirst()
more := true
var data []interface{}
for more && err == nil {
if _, data, err = it.Next(); err != nil {
break
}
more, err = f(nil, data)
}
return noEOF(err)
}
func (r *groupByDefaultPlan) fieldNames() []string { return r.fields }
type selectIndexDefaultPlan struct {
nm string
x interface{}
}
func (r *selectIndexDefaultPlan) hasID() bool { return false }
func (r *selectIndexDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all values of index %q\n└Output field names N/A\n", r.nm)
}
func (r *selectIndexDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *selectIndexDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
var x btreeIndex
switch ix := r.x.(type) {
case *indexedCol:
x = ix.x
case *index2:
x = ix.x
default:
panic("internal error 007")
}
en, err := x.SeekFirst()
if err != nil {
return noEOF(err)
}
var id int64
for {
k, _, err := en.Next()
if err != nil {
return noEOF(err)
}
id++
if more, err := f(id, k); !more || err != nil {
return err
}
}
}
func (r *selectIndexDefaultPlan) fieldNames() []string {
return []string{r.nm}
}
type limitDefaultPlan struct {
expr expression
src plan
fields []string
}
func (r *limitDefaultPlan) hasID() bool { return r.src.hasID() }
func (r *limitDefaultPlan) explain(w strutil.Formatter) {
r.src.explain(w)
w.Format("┌Pass first %v records\n└Output field names %v\n", r.expr, r.fields)
}
func (r *limitDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *limitDefaultPlan) fieldNames() []string { return r.fields }
func (r *limitDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) (err error) {
m := map[interface{}]interface{}{}
var eval bool
var lim uint64
return r.src.do(ctx, func(rid interface{}, in []interface{}) (more bool, err error) {
if !eval {
for i, fld := range r.fields {
if fld != "" {
m[fld] = in[i]
}
}
m["$id"] = rid
val, err := r.expr.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
if lim, err = limOffExpr(val); err != nil {
return false, err
}
eval = true
}
switch lim {
case 0:
return false, nil
default:
lim--
return f(rid, in)
}
})
}
type offsetDefaultPlan struct {
expr expression
src plan
fields []string
}
func (r *offsetDefaultPlan) hasID() bool { return r.src.hasID() }
func (r *offsetDefaultPlan) explain(w strutil.Formatter) {
r.src.explain(w)
w.Format("┌Skip first %v records\n└Output field names %v\n", r.expr, qnames(r.fields))
}
func (r *offsetDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *offsetDefaultPlan) fieldNames() []string { return r.fields }
func (r *offsetDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
m := map[interface{}]interface{}{}
var eval bool
var off uint64
return r.src.do(ctx, func(rid interface{}, in []interface{}) (bool, error) {
if !eval {
for i, fld := range r.fields {
if fld != "" {
m[fld] = in[i]
}
}
m["$id"] = rid
val, err := r.expr.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
if off, err = limOffExpr(val); err != nil {
return false, err
}
eval = true
}
if off > 0 {
off--
return true, nil
}
return f(rid, in)
})
}
type orderByDefaultPlan struct {
asc bool
by []expression
src plan
fields []string
}
func (r *orderByDefaultPlan) hasID() bool { return r.src.hasID() }
func (r *orderByDefaultPlan) explain(w strutil.Formatter) {
r.src.explain(w)
w.Format("┌Order%s by", map[bool]string{false: " descending"}[r.asc])
for _, v := range r.by {
w.Format(" %s,", v)
}
w.Format("\n└Output field names %v\n", qnames(r.fields))
}
func (r *orderByDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *orderByDefaultPlan) fieldNames() []string { return r.fields }
func (r *orderByDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
t, err := ctx.db.store.CreateTemp(r.asc)
if err != nil {
return
}
defer func() {
if derr := t.Drop(); derr != nil && err == nil {
err = derr
}
}()
m := map[interface{}]interface{}{}
flds := r.fields
k := make([]interface{}, len(r.by)+1)
id := int64(-1)
if err = r.src.do(ctx, func(rid interface{}, in []interface{}) (bool, error) {
id++
for i, fld := range flds {
if fld != "" {
m[fld] = in[i]
}
}
m["$id"] = rid
for i, expr := range r.by {
val, err := expr.eval(ctx, m)
if err != nil {
return false, err
}
if val != nil {
val, ordered, err := isOrderedType(val)
if err != nil {
return false, err
}
if !ordered {
return false, fmt.Errorf("cannot order by %v (type %T)", val, val)
}
}
k[i] = val
}
k[len(r.by)] = id
if err = t.Set(k, in); err != nil {
return false, err
}
return true, nil
}); err != nil {
return
}
it, err := t.SeekFirst()
if err != nil {
return noEOF(err)
}
var data []interface{}
more := true
for more && err == nil {
if _, data, err = it.Next(); err != nil {
break
}
more, err = f(nil, data)
}
return noEOF(err)
}
type selectFieldsDefaultPlan struct {
flds []*fld
src plan
fields []string
}
func (r *selectFieldsDefaultPlan) hasID() bool { return r.src.hasID() }
func (r *selectFieldsDefaultPlan) explain(w strutil.Formatter) {
//TODO check for non existing fields
r.src.explain(w)
w.Format("┌Evaluate")
for _, v := range r.flds {
w.Format(" %s as %s,", v.expr, fmt.Sprintf("%q", v.name))
}
w.Format("\n└Output field names %v\n", qnames(r.fields))
}
func (r *selectFieldsDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *selectFieldsDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
fields := r.src.fieldNames()
m := map[interface{}]interface{}{}
return r.src.do(ctx, func(rid interface{}, in []interface{}) (bool, error) {
for i, nm := range fields {
if nm != "" {
m[nm] = in[i]
}
}
m["$id"] = rid
out := make([]interface{}, len(r.flds))
for i, fld := range r.flds {
var err error
if out[i], err = fld.expr.eval(ctx, m); err != nil {
return false, err
}
}
return f(rid, out)
})
}
func (r *selectFieldsDefaultPlan) fieldNames() []string { return r.fields }
type selectFieldsGroupPlan struct {
flds []*fld
src *groupByDefaultPlan
fields []string
}
func (r *selectFieldsGroupPlan) hasID() bool { return false }
func (r *selectFieldsGroupPlan) explain(w strutil.Formatter) {
//TODO check for non existing fields
r.src.explain(w)
w.Format("┌Evaluate")
for _, v := range r.flds {
w.Format(" %s as %s,", v.expr, fmt.Sprintf("%q", v.name))
}
w.Format("\n└Output field names %v\n", qnames(r.fields))
}
func (r *selectFieldsGroupPlan) fieldNames() []string { return r.fields }
func (r *selectFieldsGroupPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *selectFieldsGroupPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
var t temp
var cols []*col
var err error
out := make([]interface{}, len(r.flds))
ok := false
rows := false
if err = r.src.do(ctx, func(rid interface{}, in []interface{}) (bool, error) {
if ok {
h := in[0].(int64)
m := map[interface{}]interface{}{}
for h != 0 {
in, err = t.Read(nil, h, cols...)
if err != nil {
return false, err
}
rec := in[2:]
for i, c := range cols {
if nm := c.name; nm != "" {
m[nm] = rec[i]
}
}
m["$id"] = rid
for _, fld := range r.flds {
if _, err = fld.expr.eval(ctx, m); err != nil {
return false, err
}
}
h = in[0].(int64)
}
m["$agg"] = true
for i, fld := range r.flds {
if out[i], err = fld.expr.eval(ctx, m); err != nil {
return false, err
}
}
rows = true
return f(nil, out)
}
ok = true
t = in[0].(temp)
cols = in[1].([]*col)
if len(r.flds) == 0 { // SELECT *
r.flds = make([]*fld, len(cols))
for i, v := range cols {
r.flds[i] = &fld{expr: &ident{v.name}, name: v.name}
}
out = make([]interface{}, len(r.flds))
}
return true, nil
}); err != nil {
return err
}
if rows {
return nil
}
m := map[interface{}]interface{}{"$agg0": true} // aggregate empty record set
for i, fld := range r.flds {
if out[i], err = fld.expr.eval(ctx, m); err != nil {
return err
}
}
_, err = f(nil, out)
return err
}
type sysColumnDefaultPlan struct{}
func (r *sysColumnDefaultPlan) hasID() bool { return false }
func (r *sysColumnDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all rows of table \"__Column\"\n└Output field names %v\n", qnames(r.fieldNames()))
}
func (r *sysColumnDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *sysColumnDefaultPlan) fieldNames() []string {
return []string{"TableName", "Ordinal", "Name", "Type"}
}
func (r *sysColumnDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
rec := make([]interface{}, 4)
di, err := ctx.db.info()
if err != nil {
return err
}
var id int64
for _, ti := range di.Tables {
rec[0] = ti.Name
var ix int64
for _, ci := range ti.Columns {
ix++
rec[1] = ix
rec[2] = ci.Name
rec[3] = ci.Type.String()
id++
if more, err := f(id, rec); !more || err != nil {
return err
}
}
}
return nil
}
type sysIndexDefaultPlan struct{}
func (r *sysIndexDefaultPlan) hasID() bool { return false }
func (r *sysIndexDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all rows of table \"__Index\"\n└Output field names %v\n", qnames(r.fieldNames()))
}
func (r *sysIndexDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *sysIndexDefaultPlan) fieldNames() []string {
return []string{"TableName", "ColumnName", "Name", "IsUnique"}
}
func (r *sysIndexDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
rec := make([]interface{}, 4)
di, err := ctx.db.info()
if err != nil {
return err
}
var id int64
for _, xi := range di.Indices {
rec[0] = xi.Table
rec[1] = xi.Column
rec[2] = xi.Name
rec[3] = xi.Unique
id++
if more, err := f(id, rec); !more || err != nil {
return err
}
}
return nil
}
type sysTableDefaultPlan struct{}
func (r *sysTableDefaultPlan) hasID() bool { return false }
func (r *sysTableDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all rows of table \"__Table\"\n└Output field names %v\n", qnames(r.fieldNames()))
}
func (r *sysTableDefaultPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *sysTableDefaultPlan) fieldNames() []string { return []string{"Name", "Schema"} }
func (r *sysTableDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) error {
rec := make([]interface{}, 2)
di, err := ctx.db.info()
if err != nil {
return err
}
var id int64
for _, ti := range di.Tables {
rec[0] = ti.Name
a := []string{}
for _, ci := range ti.Columns {
s := ""
if ci.NotNull {
s += " NOT NULL"
}
if c := ci.Constraint; c != "" {
s += " " + c
}
if d := ci.Default; d != "" {
s += " DEFAULT " + d
}
a = append(a, fmt.Sprintf("%s %s%s", ci.Name, ci.Type, s))
}
rec[1] = fmt.Sprintf("CREATE TABLE %s (%s);", ti.Name, strings.Join(a, ", "))
id++
if more, err := f(id, rec); !more || err != nil {
return err
}
}
return nil
}
type tableNilPlan struct {
t *table
}
func (r *tableNilPlan) hasID() bool { return true }
func (r *tableNilPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all rows of table %q\n└Output field names %v\n", r.t.name, qnames(r.fieldNames()))
}
func (r *tableNilPlan) fieldNames() []string { return []string{} }
func (r *tableNilPlan) filter(expr expression) (plan, []string, error) {
return nil, nil, nil
}
func (r *tableNilPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (bool, error)) (err error) {
t := r.t
h := t.head
cols := t.cols
for h > 0 {
rec, err := t.store.Read(nil, h, cols...) // 0:next, 1:id, 2...: data
if err != nil {
return err
}
if m, err := f(rec[1], nil); !m || err != nil {
return err
}
h = rec[0].(int64) // next
}
return nil
}
type tableDefaultPlan struct {
t *table
fields []string
}
func (r *tableDefaultPlan) hasID() bool { return true }
func (r *tableDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate all rows of table %q\n└Output field names %v\n", r.t.name, qnames(r.fields))
}
func (r *tableDefaultPlan) filterBinOp(x *binaryOperation) (plan, []string, error) {
ok, cn, rval, err := x.isIdentRelOpVal()
if err != nil {
return nil, nil, err
}
if !ok {
return nil, nil, nil
}
t := r.t
c, ix := t.findIndexByColName(cn)
if ix == nil { // Column cn has no index.
return nil, []string{fmt.Sprintf("%s(%s)", t.name, cn)}, nil
}
if rval, err = typeCheck1(rval, c); err != nil {
return nil, nil, err
}
switch x.op {
case eq:
return &indexPlan{t, cn, ix.name, ix.x, indexEq, rval, rval}, nil, nil
case '<':
return &indexPlan{t, cn, ix.name, ix.x, indexLt, nil, rval}, nil, nil
case le:
return &indexPlan{t, cn, ix.name, ix.x, indexLe, nil, rval}, nil, nil
case ge:
return &indexPlan{t, cn, ix.name, ix.x, indexGe, rval, nil}, nil, nil
case '>':
return &indexPlan{t, cn, ix.name, ix.x, indexGt, rval, nil}, nil, nil
case neq:
return &indexPlan{t, cn, ix.name, ix.x, indexNe, rval, rval}, nil, nil
default:
panic("internal error 069")
}
}
func (r *tableDefaultPlan) filterIdent(x *ident, trueValue bool) (plan, []string, error) {
cn := x.s
t := r.t
for _, v := range t.cols {
if v.name != cn {
continue
}
if v.typ != qBool {
return nil, nil, nil
}
xi := v.index + 1 // 0: id()
if xi >= len(t.indices) {
return nil, nil, nil
}
ix := t.indices[xi]
if ix == nil { // Column cn has no index.
return nil, []string{fmt.Sprintf("%s(%s)", t.name, cn)}, nil
}
kind := indexFalse
if trueValue {
kind = indexTrue
}
return &indexPlan{t, cn, ix.name, ix.x, kind, nil, nil}, nil, nil
}
return nil, nil, nil
}
func (r *tableDefaultPlan) filterIsNull(x *isNull) (plan, []string, error) {
ok, cn := isColumnExpression(x.expr)
if !ok {
return nil, nil, nil
}
t := r.t
_, ix := t.findIndexByColName(cn)
if ix == nil { // Column cn has no index.
return nil, []string{fmt.Sprintf("%s(%s)", t.name, cn)}, nil
}
switch {
case x.not:
return &indexPlan{t, cn, ix.name, ix.x, indexIsNotNull, nil, nil}, nil, nil
default:
return &indexPlan{t, cn, ix.name, ix.x, indexIsNull, nil, nil}, nil, nil
}
}
func (r *tableDefaultPlan) filter(expr expression) (plan, []string, error) {
cols := mentionedColumns(expr)
for _, v := range r.fields {
delete(cols, v)
}
for k := range cols {
return nil, nil, fmt.Errorf("unknown field %s", k)
}
var is []string
//TODO var sexpr string
//TODO for _, ix := range t.indices2 {
//TODO if len(ix.exprList) != 1 {
//TODO continue
//TODO }
//TODO if sexpr == "" {
//TODO sexpr = expr.String()
//TODO }
//TODO if ix.sources[0] != sexpr {
//TODO continue
//TODO }
//TODO }
switch x := expr.(type) {
case *binaryOperation:
return r.filterBinOp(x)
case *ident:
return r.filterIdent(x, true)
case *isNull:
return r.filterIsNull(x)
case *unaryOperation:
if x.op != '!' {
break
}
if operand, ok := x.v.(*ident); ok {
return r.filterIdent(operand, false)
}
default:
//dbg("", expr)
return nil, is, nil //TODO
}
return nil, is, nil
}
func (r *tableDefaultPlan) do(ctx *execCtx, f func(interface{}, []interface{}) (bool, error)) (err error) {
t := r.t
cols := t.cols
h := t.head
for h > 0 {
rec, err := t.row0(ctx, h)
if err != nil {
return err
}
h = rec[0].(int64)
id := rec[1].(int64)
for i, c := range cols {
rec[i] = rec[c.index+2]
}
if m, err := f(id, rec[:len(cols)]); !m || err != nil {
return err
}
}
return nil
}
func (r *tableDefaultPlan) fieldNames() []string { return r.fields }
type nullPlan struct {
fields []string
}
func (r *nullPlan) hasID() bool { return false }
func (r *nullPlan) fieldNames() []string { return r.fields }
func (r *nullPlan) explain(w strutil.Formatter) {
w.Format("┌Iterate no rows\n└Output field names %v\n", qnames(r.fields))
}
func (r *nullPlan) do(*execCtx, func(interface{}, []interface{}) (bool, error)) error {
return nil
}
func (r *nullPlan) filter(expr expression) (plan, []string, error) {
return r, nil, nil
}
type leftJoinDefaultPlan struct {
on expression
rsets []plan
names []string
right int
fields []string
}
func (r *leftJoinDefaultPlan) hasID() bool { return false }
func (r *leftJoinDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Compute Cartesian product of%i\n")
for i, v := range r.rsets {
sel := !isTableOrIndex(v)
if sel {
w.Format("┌Iterate all rows of virtual table %q%i\n", r.names[i])
}
v.explain(w)
if sel {
w.Format("%u└Output field names %v\n", qnames(v.fieldNames()))
}
}
w.Format("Extend the product with all NULL rows of %q when no match for %v%u\n", r.names[len(r.names)-1], r.on)
w.Format("└Output field names %v\n", qnames(r.fields))
}
func (r *leftJoinDefaultPlan) filter(expr expression) (plan, []string, error) {
var is []string
for i, v := range r.names {
e2, err := expr.clone(nil, v)
if err != nil {
return nil, nil, err
}
p2, is2, err := r.rsets[i].filter(e2)
is = append(is, is2...)
if err != nil {
return nil, nil, err
}
if p2 != nil {
r.rsets[i] = p2
return r, is, nil
}
}
return nil, is, nil
}
type rightJoinDefaultPlan struct {
leftJoinDefaultPlan
}
func (r *rightJoinDefaultPlan) hasID() bool { return false }
func (r *rightJoinDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Compute Cartesian product of%i\n")
for i, v := range r.rsets {
sel := !isTableOrIndex(v)
if sel {
w.Format("┌Iterate all rows of virtual table %q%i\n", r.names[i])
}
v.explain(w)
if sel {
w.Format("%u└Output field names %v\n", qnames(v.fieldNames()))
}
}
w.Format("Extend the product with all NULL rows of all but %q when no match for %v%u\n", r.names[len(r.names)-1], r.on)
w.Format("└Output field names %v\n", qnames(r.fields))
}
func (r *rightJoinDefaultPlan) filter(expr expression) (plan, []string, error) {
var is []string
for i, v := range r.names {
e2, err := expr.clone(nil, v)
if err != nil {
return nil, nil, err
}
p2, is2, err := r.rsets[i].filter(e2)
is = append(is, is2...)
if err != nil {
return nil, nil, err
}
if p2 != nil {
r.rsets[i] = p2
return r, is, nil
}
}
return nil, is, nil
}
type fullJoinDefaultPlan struct {
leftJoinDefaultPlan
}
func (r *fullJoinDefaultPlan) hasID() bool { return false }
func (r *fullJoinDefaultPlan) explain(w strutil.Formatter) {
w.Format("┌Compute Cartesian product of%i\n")
for i, v := range r.rsets {
sel := !isTableOrIndex(v)
if sel {
w.Format("┌Iterate all rows of virtual table %q%i\n", r.names[i])
}
v.explain(w)
if sel {
w.Format("%u└Output field names %v\n", qnames(v.fieldNames()))
}
}
w.Format("Extend the product with all NULL rows of %q when no match for %v\n", r.names[len(r.names)-1], r.on)
w.Format("Extend the product with all NULL rows of all but %q when no match for %v%u\n", r.names[len(r.names)-1], r.on)
w.Format("└Output field names %v\n", qnames(r.fields))
}
func (r *fullJoinDefaultPlan) filter(expr expression) (plan, []string, error) {
var is []string
for i, v := range r.names {
e2, err := expr.clone(nil, v)
if err != nil {
return nil, nil, err
}
p2, is2, err := r.rsets[i].filter(e2)
is = append(is, is2...)
if err != nil {
return nil, nil, err
}
if p2 != nil {
r.rsets[i] = p2
return r, is, nil
}
}
return nil, is, nil
}
func (r *leftJoinDefaultPlan) fieldNames() []string { return r.fields }
func (r *leftJoinDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) error {
m := map[interface{}]interface{}{}
ids := map[string]interface{}{}
var g func([]interface{}, []plan, int) error
var match bool
g = func(prefix []interface{}, rsets []plan, x int) (err error) {
return rsets[0].do(ctx, func(id interface{}, in []interface{}) (bool, error) {
ids[r.names[x]] = id
row := append(prefix, in...)
if len(rsets) > 1 {
if len(rsets) == 2 {
match = false
}
if err = g(row, rsets[1:], x+1); err != nil {
return false, err
}
if len(rsets) != 2 || match {
return true, nil
}
ids[r.names[x+1]] = nil
return f(ids, append(row, make([]interface{}, r.right)...))
}
for i, fld := range r.fields {
if fld != "" {
m[fld] = row[i]
}
}
val, err := r.on.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
x, ok := val.(bool)
if !ok {
return false, fmt.Errorf("invalid ON expression %s (value of type %T)", val, val)
}
if !x {
return true, nil
}
match = true
return f(ids, row)
})
}
return g(nil, r.rsets, 0)
}
func (r *rightJoinDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) error {
right := r.right
left := len(r.fields) - right
n := len(r.rsets)
m := map[interface{}]interface{}{}
ids := map[string]interface{}{}
var g func([]interface{}, []plan, int) error
var match bool
nf := len(r.fields)
fields := append(append([]string(nil), r.fields[nf-right:]...), r.fields[:nf-right]...)
g = func(prefix []interface{}, rsets []plan, x int) (err error) {
return rsets[0].do(ctx, func(id interface{}, in []interface{}) (bool, error) {
ids[r.names[x]] = id
row := append(prefix, in...)
if len(rsets) > 1 {
if len(rsets) == n {
match = false
}
if err = g(row, rsets[1:], x+1); err != nil {
return false, err
}
if len(rsets) != n || match {
return true, nil
}
for i := 0; i < n-1; i++ {
ids[r.names[i]] = nil
}
// rigth, left -> left, right
return f(ids, append(make([]interface{}, left), row[:right]...))
}
for i, fld := range fields {
if fld != "" {
m[fld] = row[i]
}
}
val, err := r.on.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
x, ok := val.(bool)
if !ok {
return false, fmt.Errorf("invalid ON expression %s (value of type %T)", val, val)
}
if !x {
return true, nil
}
match = true
// rigth, left -> left, right
return f(ids, append(append([]interface{}(nil), row[right:]...), row[:right]...))
})
}
return g(nil, append([]plan{r.rsets[n-1]}, r.rsets[:n-1]...), 0)
}
func (r *fullJoinDefaultPlan) do(ctx *execCtx, f func(id interface{}, data []interface{}) (more bool, err error)) error {
b3 := b.TreeNew(func(a, b interface{}) int {
x := a.(int64)
y := b.(int64)
if x < y {
return -1
}
if x == y {
return 0
}
return 1
})
m := map[interface{}]interface{}{}
ids := map[string]interface{}{}
var g func([]interface{}, []plan, int) error
var match bool
var rid int64
firstR := true
g = func(prefix []interface{}, rsets []plan, x int) (err error) {
return rsets[0].do(ctx, func(id interface{}, in []interface{}) (bool, error) {
ids[r.names[x]] = id
row := append(prefix, in...)
if len(rsets) > 1 {
if len(rsets) == 2 {
match = false
rid = 0
}
if err = g(row, rsets[1:], x+1); err != nil {
return false, err
}
if len(rsets) == 2 {
firstR = false
}
if len(rsets) != 2 || match {
return true, nil
}
ids[r.names[x+1]] = nil
return f(ids, append(row, make([]interface{}, r.right)...))
}
rid++
if firstR {
b3.Set(rid, in)
}
for i, fld := range r.fields {
if fld != "" {
m[fld] = row[i]
}
}
val, err := r.on.eval(ctx, m)
if err != nil {
return false, err
}
if val == nil {
return true, nil
}
x, ok := val.(bool)
if !ok {
return false, fmt.Errorf("invalid ON expression %s (value of type %T)", val, val)
}
if !x {
return true, nil
}
match = true
b3.Delete(rid)
return f(ids, row)
})
}
if err := g(nil, r.rsets, 0); err != nil {
return err
}
it, err := b3.SeekFirst()
if err != nil {
return noEOF(err)
}
pref := make([]interface{}, len(r.fields)-r.right)
for {
_, v, err := it.Next()
if err != nil {
return noEOF(err)
}
more, err := f(nil, append(pref, v.([]interface{})...))
if err != nil || !more {
return err
}
}
}
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