mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-12-27 00:55:17 +00:00
600 lines
18 KiB
Go
600 lines
18 KiB
Go
// Copyright 2019 The LevelDB-Go and Pebble Authors. All rights reserved. Use
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// of this source code is governed by a BSD-style license that can be found in
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// the LICENSE file.
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package metamorphic
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import (
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"fmt"
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"go/scanner"
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"go/token"
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"reflect"
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"strconv"
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"strings"
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"github.com/cockroachdb/errors"
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"github.com/cockroachdb/pebble"
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)
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type methodInfo struct {
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constructor func() op
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validTags uint32
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}
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func makeMethod(i interface{}, tags ...objTag) *methodInfo {
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var validTags uint32
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for _, tag := range tags {
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validTags |= 1 << tag
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}
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t := reflect.TypeOf(i)
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return &methodInfo{
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constructor: func() op {
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return reflect.New(t).Interface().(op)
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},
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validTags: validTags,
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}
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}
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// args returns the receiverID, targetID and arguments for the op. The
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// receiverID is the ID of the object the op will be applied to. The targetID
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// is the ID of the object for assignment. If the method does not return a new
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// object, then targetID will be nil. The argument list is just what it sounds
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// like: the list of arguments for the operation.
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func opArgs(op op) (receiverID *objID, targetID *objID, args []interface{}) {
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switch t := op.(type) {
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case *applyOp:
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return &t.writerID, nil, []interface{}{&t.batchID}
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case *checkpointOp:
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return &t.dbID, nil, []interface{}{&t.spans}
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case *closeOp:
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return &t.objID, nil, nil
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case *compactOp:
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return &t.dbID, nil, []interface{}{&t.start, &t.end, &t.parallelize}
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case *batchCommitOp:
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return &t.batchID, nil, nil
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case *dbRatchetFormatMajorVersionOp:
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return &t.dbID, nil, []interface{}{&t.vers}
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case *dbRestartOp:
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return &t.dbID, nil, nil
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case *deleteOp:
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return &t.writerID, nil, []interface{}{&t.key}
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case *deleteRangeOp:
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return &t.writerID, nil, []interface{}{&t.start, &t.end}
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case *iterFirstOp:
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return &t.iterID, nil, nil
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case *flushOp:
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return &t.db, nil, nil
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case *getOp:
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return &t.readerID, nil, []interface{}{&t.key}
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case *ingestOp:
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return &t.dbID, nil, []interface{}{&t.batchIDs}
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case *initOp:
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return nil, nil, []interface{}{&t.dbSlots, &t.batchSlots, &t.iterSlots, &t.snapshotSlots}
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case *iterLastOp:
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return &t.iterID, nil, nil
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case *mergeOp:
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return &t.writerID, nil, []interface{}{&t.key, &t.value}
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case *newBatchOp:
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return &t.dbID, &t.batchID, nil
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case *newIndexedBatchOp:
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return &t.dbID, &t.batchID, nil
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case *newIterOp:
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return &t.readerID, &t.iterID, []interface{}{&t.lower, &t.upper, &t.keyTypes, &t.filterMin, &t.filterMax, &t.useL6Filters, &t.maskSuffix}
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case *newIterUsingCloneOp:
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return &t.existingIterID, &t.iterID, []interface{}{&t.refreshBatch, &t.lower, &t.upper, &t.keyTypes, &t.filterMin, &t.filterMax, &t.useL6Filters, &t.maskSuffix}
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case *newSnapshotOp:
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return &t.dbID, &t.snapID, []interface{}{&t.bounds}
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case *iterNextOp:
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return &t.iterID, nil, []interface{}{&t.limit}
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case *iterNextPrefixOp:
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return &t.iterID, nil, nil
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case *iterCanSingleDelOp:
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return &t.iterID, nil, []interface{}{}
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case *iterPrevOp:
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return &t.iterID, nil, []interface{}{&t.limit}
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case *iterSeekLTOp:
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return &t.iterID, nil, []interface{}{&t.key, &t.limit}
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case *iterSeekGEOp:
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return &t.iterID, nil, []interface{}{&t.key, &t.limit}
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case *iterSeekPrefixGEOp:
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return &t.iterID, nil, []interface{}{&t.key}
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case *setOp:
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return &t.writerID, nil, []interface{}{&t.key, &t.value}
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case *iterSetBoundsOp:
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return &t.iterID, nil, []interface{}{&t.lower, &t.upper}
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case *iterSetOptionsOp:
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return &t.iterID, nil, []interface{}{&t.lower, &t.upper, &t.keyTypes, &t.filterMin, &t.filterMax, &t.useL6Filters, &t.maskSuffix}
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case *singleDeleteOp:
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return &t.writerID, nil, []interface{}{&t.key, &t.maybeReplaceDelete}
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case *rangeKeyDeleteOp:
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return &t.writerID, nil, []interface{}{&t.start, &t.end}
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case *rangeKeySetOp:
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return &t.writerID, nil, []interface{}{&t.start, &t.end, &t.suffix, &t.value}
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case *rangeKeyUnsetOp:
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return &t.writerID, nil, []interface{}{&t.start, &t.end, &t.suffix}
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case *replicateOp:
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return &t.source, nil, []interface{}{&t.dest, &t.start, &t.end}
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}
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panic(fmt.Sprintf("unsupported op type: %T", op))
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}
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var methods = map[string]*methodInfo{
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"Apply": makeMethod(applyOp{}, dbTag, batchTag),
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"Checkpoint": makeMethod(checkpointOp{}, dbTag),
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"Clone": makeMethod(newIterUsingCloneOp{}, iterTag),
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"Close": makeMethod(closeOp{}, dbTag, batchTag, iterTag, snapTag),
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"Commit": makeMethod(batchCommitOp{}, batchTag),
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"Compact": makeMethod(compactOp{}, dbTag),
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"Delete": makeMethod(deleteOp{}, dbTag, batchTag),
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"DeleteRange": makeMethod(deleteRangeOp{}, dbTag, batchTag),
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"First": makeMethod(iterFirstOp{}, iterTag),
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"Flush": makeMethod(flushOp{}, dbTag),
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"Get": makeMethod(getOp{}, dbTag, batchTag, snapTag),
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"Ingest": makeMethod(ingestOp{}, dbTag),
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"Init": makeMethod(initOp{}, dbTag),
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"Last": makeMethod(iterLastOp{}, iterTag),
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"Merge": makeMethod(mergeOp{}, dbTag, batchTag),
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"NewBatch": makeMethod(newBatchOp{}, dbTag),
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"NewIndexedBatch": makeMethod(newIndexedBatchOp{}, dbTag),
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"NewIter": makeMethod(newIterOp{}, dbTag, batchTag, snapTag),
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"NewSnapshot": makeMethod(newSnapshotOp{}, dbTag),
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"Next": makeMethod(iterNextOp{}, iterTag),
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"NextPrefix": makeMethod(iterNextPrefixOp{}, iterTag),
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"InternalNext": makeMethod(iterCanSingleDelOp{}, iterTag),
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"Prev": makeMethod(iterPrevOp{}, iterTag),
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"RangeKeyDelete": makeMethod(rangeKeyDeleteOp{}, dbTag, batchTag),
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"RangeKeySet": makeMethod(rangeKeySetOp{}, dbTag, batchTag),
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"RangeKeyUnset": makeMethod(rangeKeyUnsetOp{}, dbTag, batchTag),
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"RatchetFormatMajorVersion": makeMethod(dbRatchetFormatMajorVersionOp{}, dbTag),
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"Replicate": makeMethod(replicateOp{}, dbTag),
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"Restart": makeMethod(dbRestartOp{}, dbTag),
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"SeekGE": makeMethod(iterSeekGEOp{}, iterTag),
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"SeekLT": makeMethod(iterSeekLTOp{}, iterTag),
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"SeekPrefixGE": makeMethod(iterSeekPrefixGEOp{}, iterTag),
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"Set": makeMethod(setOp{}, dbTag, batchTag),
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"SetBounds": makeMethod(iterSetBoundsOp{}, iterTag),
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"SetOptions": makeMethod(iterSetOptionsOp{}, iterTag),
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"SingleDelete": makeMethod(singleDeleteOp{}, dbTag, batchTag),
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}
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type parser struct {
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opts parserOpts
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fset *token.FileSet
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s scanner.Scanner
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objs map[objID]bool
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}
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type parserOpts struct {
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allowUndefinedObjs bool
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}
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func parse(src []byte, opts parserOpts) (_ []op, err error) {
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// Various bits of magic incantation to set up a scanner for Go compatible
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// syntax. We arranged for the textual format of ops (e.g. op.String()) to
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// look like Go which allows us to use the Go scanner for parsing.
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p := &parser{
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opts: opts,
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fset: token.NewFileSet(),
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objs: map[objID]bool{makeObjID(dbTag, 1): true, makeObjID(dbTag, 2): true},
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}
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file := p.fset.AddFile("", -1, len(src))
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p.s.Init(file, src, nil /* no error handler */, 0)
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return p.parse()
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}
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func (p *parser) parse() (_ []op, err error) {
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defer func() {
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if r := recover(); r != nil {
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var ok bool
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if err, ok = r.(error); ok {
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return
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}
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err = errors.Errorf("%v", r)
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}
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}()
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var ops []op
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for {
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op := p.parseOp()
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if op == nil {
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computeDerivedFields(ops)
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return ops, nil
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}
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ops = append(ops, op)
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}
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}
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func (p *parser) parseOp() op {
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destPos, destTok, destLit := p.s.Scan()
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if destTok == token.EOF {
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return nil
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}
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if destTok != token.IDENT {
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panic(p.errorf(destPos, "unexpected token: %s %q", destTok, destLit))
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}
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if destLit == "Init" {
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// <op>(<args>)
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return p.makeOp(destLit, makeObjID(dbTag, 1), 0, destPos)
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}
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destID := p.parseObjID(destPos, destLit)
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.PERIOD:
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// <obj>.<op>(<args>)
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if !p.objs[destID] {
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if p.opts.allowUndefinedObjs {
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p.objs[destID] = true
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} else {
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panic(p.errorf(destPos, "unknown object: %s", destID))
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}
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}
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_, methodLit := p.scanToken(token.IDENT)
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return p.makeOp(methodLit, destID, 0, destPos)
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case token.ASSIGN:
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// <obj> = <obj>.<op>(<args>)
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srcPos, srcLit := p.scanToken(token.IDENT)
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srcID := p.parseObjID(srcPos, srcLit)
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if !p.objs[srcID] {
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if p.opts.allowUndefinedObjs {
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p.objs[srcID] = true
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} else {
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panic(p.errorf(srcPos, "unknown object %q", srcLit))
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}
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}
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p.scanToken(token.PERIOD)
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_, methodLit := p.scanToken(token.IDENT)
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p.objs[destID] = true
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return p.makeOp(methodLit, srcID, destID, srcPos)
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}
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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func parseObjID(str string) (objID, error) {
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var tag objTag
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switch {
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case strings.HasPrefix(str, "db"):
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tag, str = dbTag, str[2:]
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if str == "" {
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str = "1"
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}
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case strings.HasPrefix(str, "batch"):
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tag, str = batchTag, str[5:]
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case strings.HasPrefix(str, "iter"):
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tag, str = iterTag, str[4:]
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case strings.HasPrefix(str, "snap"):
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tag, str = snapTag, str[4:]
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default:
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return 0, errors.Newf("unable to parse objectID: %q", str)
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}
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id, err := strconv.ParseInt(str, 10, 32)
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if err != nil {
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return 0, err
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}
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return makeObjID(tag, uint32(id)), nil
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}
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func (p *parser) parseObjID(pos token.Pos, str string) objID {
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id, err := parseObjID(str)
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if err != nil {
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panic(p.errorf(pos, "%s", err))
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}
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return id
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}
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func unquoteBytes(lit string) []byte {
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s, err := strconv.Unquote(lit)
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if err != nil {
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panic(err)
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}
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if len(s) == 0 {
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return nil
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}
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return []byte(s)
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}
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func (p *parser) parseArgs(op op, methodName string, args []interface{}) {
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pos, _ := p.scanToken(token.LPAREN)
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for i := range args {
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if i > 0 {
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pos, _ = p.scanToken(token.COMMA)
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}
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switch t := args[i].(type) {
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case *uint32:
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_, lit := p.scanToken(token.INT)
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val, err := strconv.ParseUint(lit, 10, 32)
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if err != nil {
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panic(err)
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}
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*t = uint32(val)
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case *uint64:
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_, lit := p.scanToken(token.INT)
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val, err := strconv.ParseUint(lit, 10, 64)
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if err != nil {
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panic(err)
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}
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*t = uint64(val)
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case *[]byte:
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_, lit := p.scanToken(token.STRING)
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*t = unquoteBytes(lit)
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case *bool:
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_, lit := p.scanToken(token.IDENT)
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b, err := strconv.ParseBool(lit)
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if err != nil {
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panic(err)
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}
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*t = b
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case *objID:
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pos, lit := p.scanToken(token.IDENT)
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*t = p.parseObjID(pos, lit)
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case *[]pebble.KeyRange:
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var pending pebble.KeyRange
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for {
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.STRING:
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x := unquoteBytes(lit)
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if pending.Start == nil {
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pending.Start = x
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} else {
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pending.End = x
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*t = append(*t, pending)
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pending = pebble.KeyRange{}
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}
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.COMMA:
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continue
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case token.RPAREN:
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p.scanToken(token.SEMICOLON)
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return
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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case token.RPAREN:
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p.scanToken(token.SEMICOLON)
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return
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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}
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case *[]objID:
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for {
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.IDENT:
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*t = append(*t, p.parseObjID(pos, lit))
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.COMMA:
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continue
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case token.RPAREN:
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p.scanToken(token.SEMICOLON)
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return
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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case token.RPAREN:
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p.scanToken(token.SEMICOLON)
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return
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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}
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case *[]pebble.CheckpointSpan:
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pos, tok, lit := p.s.Scan()
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switch tok {
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case token.RPAREN:
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// No spans.
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*t = nil
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p.scanToken(token.SEMICOLON)
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return
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case token.STRING:
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var keys [][]byte
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for {
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s, err := strconv.Unquote(lit)
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if err != nil {
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panic(p.errorf(pos, "unquoting %q: %v", lit, err))
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}
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keys = append(keys, []byte(s))
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pos, tok, lit = p.s.Scan()
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switch tok {
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case token.COMMA:
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pos, tok, lit = p.s.Scan()
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if tok != token.STRING {
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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continue
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case token.RPAREN:
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p.scanToken(token.SEMICOLON)
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if len(keys)%2 == 1 {
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panic(p.errorf(pos, "expected even number of keys"))
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}
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*t = make([]pebble.CheckpointSpan, len(keys)/2)
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for i := range *t {
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(*t)[i] = pebble.CheckpointSpan{
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Start: keys[i*2],
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End: keys[i*2+1],
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}
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}
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return
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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}
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default:
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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case *pebble.FormatMajorVersion:
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_, lit := p.scanToken(token.INT)
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val, err := strconv.ParseUint(lit, 10, 64)
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if err != nil {
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panic(err)
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}
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*t = pebble.FormatMajorVersion(val)
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default:
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panic(p.errorf(pos, "%s: unsupported arg[%d] type: %T", methodName, i, args[i]))
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}
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}
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p.scanToken(token.RPAREN)
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p.scanToken(token.SEMICOLON)
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}
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func (p *parser) scanToken(expected token.Token) (pos token.Pos, lit string) {
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pos, tok, lit := p.s.Scan()
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if tok != expected {
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panic(p.errorf(pos, "unexpected token: %q", p.tokenf(tok, lit)))
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}
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return pos, lit
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}
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func (p *parser) makeOp(methodName string, receiverID, targetID objID, pos token.Pos) op {
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info := methods[methodName]
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|
if info == nil {
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panic(p.errorf(pos, "unknown op %s.%s", receiverID, methodName))
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}
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if info.validTags&(1<<receiverID.tag()) == 0 {
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panic(p.errorf(pos, "%s.%s: %s is not a method on %s",
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receiverID, methodName, methodName, receiverID))
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}
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op := info.constructor()
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receiver, target, args := opArgs(op)
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|
|
// The form of an operation is:
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|
// [target =] receiver.method(args)
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//
|
|
// The receiver is the object the operation will be called on, which can be
|
|
// any valid ID. Certain operations such as Ingest are only valid on the DB
|
|
// object. That is indicated by opArgs returning a nil receiver.
|
|
if receiver != nil {
|
|
*receiver = receiverID
|
|
} else if receiverID.tag() != dbTag {
|
|
panic(p.errorf(pos, "unknown op %s.%s", receiverID, methodName))
|
|
}
|
|
|
|
// The target is the object that will be assigned the result of an object
|
|
// creation operation such as newBatchOp or newIterOp.
|
|
if target != nil {
|
|
// It is invalid to not have a targetID for a method which generates a new
|
|
// object.
|
|
if targetID == 0 {
|
|
panic(p.errorf(pos, "assignment expected for %s.%s", receiverID, methodName))
|
|
}
|
|
// It is invalid to try to assign to the DB object.
|
|
if targetID.tag() == dbTag {
|
|
panic(p.errorf(pos, "cannot use %s as target of assignment", targetID))
|
|
}
|
|
*target = targetID
|
|
} else if targetID != 0 {
|
|
panic(p.errorf(pos, "cannot use %s.%s in assignment", receiverID, methodName))
|
|
}
|
|
|
|
p.parseArgs(op, methodName, args)
|
|
return op
|
|
}
|
|
|
|
func (p *parser) tokenf(tok token.Token, lit string) string {
|
|
if tok.IsLiteral() {
|
|
return lit
|
|
}
|
|
return tok.String()
|
|
}
|
|
|
|
func (p *parser) errorf(pos token.Pos, format string, args ...interface{}) error {
|
|
return errors.New(p.fset.Position(pos).String() + ": " + fmt.Sprintf(format, args...))
|
|
}
|
|
|
|
// computeDerivedFields makes one pass through the provided operations, filling
|
|
// any derived fields. This pass must happen before execution because concurrent
|
|
// execution depends on these fields.
|
|
func computeDerivedFields(ops []op) {
|
|
iterToReader := make(map[objID]objID)
|
|
objToDB := make(map[objID]objID)
|
|
for i := range ops {
|
|
switch v := ops[i].(type) {
|
|
case *newSnapshotOp:
|
|
objToDB[v.snapID] = v.dbID
|
|
case *newIterOp:
|
|
iterToReader[v.iterID] = v.readerID
|
|
dbReaderID := v.readerID
|
|
if dbReaderID.tag() != dbTag {
|
|
dbReaderID = objToDB[dbReaderID]
|
|
}
|
|
objToDB[v.iterID] = dbReaderID
|
|
v.derivedDBID = dbReaderID
|
|
case *newIterUsingCloneOp:
|
|
v.derivedReaderID = iterToReader[v.existingIterID]
|
|
iterToReader[v.iterID] = v.derivedReaderID
|
|
objToDB[v.iterID] = objToDB[v.existingIterID]
|
|
case *iterSetOptionsOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterFirstOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterLastOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterSeekGEOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterSeekPrefixGEOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterSeekLTOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterNextOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterNextPrefixOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterCanSingleDelOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *iterPrevOp:
|
|
v.derivedReaderID = iterToReader[v.iterID]
|
|
case *newBatchOp:
|
|
objToDB[v.batchID] = v.dbID
|
|
case *newIndexedBatchOp:
|
|
objToDB[v.batchID] = v.dbID
|
|
case *applyOp:
|
|
if derivedDBID, ok := objToDB[v.batchID]; ok && v.writerID.tag() != dbTag {
|
|
objToDB[v.writerID] = derivedDBID
|
|
}
|
|
case *getOp:
|
|
if derivedDBID, ok := objToDB[v.readerID]; ok {
|
|
v.derivedDBID = derivedDBID
|
|
}
|
|
case *batchCommitOp:
|
|
v.dbID = objToDB[v.batchID]
|
|
case *closeOp:
|
|
if derivedDBID, ok := objToDB[v.objID]; ok && v.objID.tag() != dbTag {
|
|
v.derivedDBID = derivedDBID
|
|
}
|
|
case *ingestOp:
|
|
v.derivedDBIDs = make([]objID, len(v.batchIDs))
|
|
for i := range v.batchIDs {
|
|
v.derivedDBIDs[i] = objToDB[v.batchIDs[i]]
|
|
}
|
|
case *deleteOp:
|
|
derivedDBID := v.writerID
|
|
if v.writerID.tag() != dbTag {
|
|
derivedDBID = objToDB[v.writerID]
|
|
}
|
|
v.derivedDBID = derivedDBID
|
|
}
|
|
}
|
|
}
|