mirror of
https://github.com/neilotoole/sq.git
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9c5836ef1c
* xlsx driver now detects header row.
651 lines
16 KiB
Go
651 lines
16 KiB
Go
package json
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// import.go contains functionality common to the
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// various JSON import mechanisms.
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import (
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"bytes"
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"context"
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stdj "encoding/json"
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"io"
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"sort"
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"strings"
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"github.com/neilotoole/sq/libsq/core/record"
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"github.com/neilotoole/sq/libsq/core/lg/lga"
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"github.com/neilotoole/sq/libsq/core/lg/lgm"
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"github.com/neilotoole/sq/libsq/core/lg"
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"github.com/neilotoole/sq/libsq/core/errz"
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"github.com/neilotoole/sq/libsq/core/kind"
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"github.com/neilotoole/sq/libsq/core/sqlmodel"
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"github.com/neilotoole/sq/libsq/core/sqlz"
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"github.com/neilotoole/sq/libsq/core/stringz"
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"github.com/neilotoole/sq/libsq/driver"
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"github.com/neilotoole/sq/libsq/source"
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)
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// importJob describes a single import job, where the JSON
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// at fromSrc is read via openFn and the resulting records
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// are written to destDB.
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type importJob struct {
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fromSrc *source.Source
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openFn source.FileOpenFunc
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destDB driver.Database
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// sampleSize is the maximum number of values to
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// sample to determine the kind of an element.
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sampleSize int
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// flatten specifies that the fields of nested JSON objects are
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// imported as fields of the single top-level table, with a
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// scoped column name.
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//
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// TODO: flatten come from src.Options
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flatten bool
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}
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type importFunc func(ctx context.Context, job importJob) error
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var (
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_ importFunc = importJSON
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_ importFunc = importJSONA
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_ importFunc = importJSONL
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)
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// getRecMeta returns record.Meta to use with RecordWriter.Open.
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func getRecMeta(ctx context.Context, scratchDB driver.Database, tblDef *sqlmodel.TableDef) (record.Meta, error) {
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db, err := scratchDB.DB(ctx)
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if err != nil {
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return nil, err
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}
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colTypes, err := scratchDB.SQLDriver().TableColumnTypes(ctx, db, tblDef.Name, tblDef.ColNames())
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if err != nil {
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return nil, err
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}
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destMeta, _, err := scratchDB.SQLDriver().RecordMeta(ctx, colTypes)
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if err != nil {
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return nil, err
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}
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return destMeta, nil
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}
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const (
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leftBrace = stdj.Delim('{')
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rightBrace = stdj.Delim('}')
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leftBracket = stdj.Delim('[')
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rightBracket = stdj.Delim(']')
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// colScopeSep is used when generating flat column names. Thus
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// an entity "name.first" becomes "name_first".
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colScopeSep = "_"
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)
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// objectValueSet is the set of values for each of the fields of
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// a top-level JSON object. It is a map of entity to a map
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// of fieldName:fieldValue. For a nested JSON object, the value set
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// may refer to several entities, and thus may decompose into
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// insertions to several tables.
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type objectValueSet map[*entity]map[string]any
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// processor process JSON objects.
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type processor struct {
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// if flattened is true, the JSON object will be flattened into a single table.
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flatten bool
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root *entity
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schema *importSchema
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colNamesOrdered []string
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// schemaDirtyEntities tracks entities whose structure have been modified.
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schemaDirtyEntities map[*entity]struct{}
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unwrittenObjVals []objectValueSet
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curObjVals objectValueSet
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}
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func newProcessor(flatten bool) *processor {
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return &processor{
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flatten: flatten,
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schema: &importSchema{},
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root: &entity{name: source.MonotableName, detectors: map[string]*kind.Detector{}},
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schemaDirtyEntities: map[*entity]struct{}{},
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}
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}
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func (p *processor) markSchemaDirty(e *entity) {
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p.schemaDirtyEntities[e] = struct{}{}
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}
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func (p *processor) markSchemaClean() {
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for k := range p.schemaDirtyEntities {
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delete(p.schemaDirtyEntities, k)
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}
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}
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// calcColName calculates the appropriate DB column name from
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// a field. The result is different if p.flatten is true (in which
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// case the column name may have a prefix derived from the entity's
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// parent).
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func (p *processor) calcColName(ent *entity, fieldName string) string {
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if !p.flatten {
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return fieldName
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}
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// Otherwise we namespace the column name.
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if ent.parent == nil {
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return fieldName
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}
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colName := ent.name + colScopeSep + fieldName
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return p.calcColName(ent.parent, colName)
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}
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// buildSchemaFlat currently only builds a flat (single table) schema.
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func (p *processor) buildSchemaFlat() (*importSchema, error) {
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tblDef := &sqlmodel.TableDef{
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Name: source.MonotableName,
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}
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var colDefs []*sqlmodel.ColDef
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schema := &importSchema{
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colMungeFns: map[*sqlmodel.ColDef]kind.MungeFunc{},
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entityTbls: map[*entity]*sqlmodel.TableDef{},
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tblDefs: []*sqlmodel.TableDef{tblDef}, // Single table only because flat
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}
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visitFn := func(e *entity) error {
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schema.entityTbls[e] = tblDef
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for _, field := range e.fieldNames {
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if detector, ok := e.detectors[field]; ok {
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// If it has a detector, it's a regular field
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k, mungeFn, err := detector.Detect()
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if err != nil {
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return errz.Err(err)
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}
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if k == kind.Null {
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k = kind.Text
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}
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colDef := &sqlmodel.ColDef{
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Name: p.calcColName(e, field),
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Table: tblDef,
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Kind: k,
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}
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colDefs = append(colDefs, colDef)
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if mungeFn != nil {
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schema.colMungeFns[colDef] = mungeFn
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}
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continue
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}
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}
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return nil
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}
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err := walkEntity(p.root, visitFn)
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if err != nil {
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return nil, err
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}
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// Add the column names, in the correct order
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for _, colName := range p.colNamesOrdered {
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for j := range colDefs {
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if colDefs[j].Name == colName {
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tblDef.Cols = append(tblDef.Cols, colDefs[j])
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}
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}
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}
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return schema, nil
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}
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// processObject processes the parsed JSON object m. If the structure
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// of the importSchema changes due to this object, dirtySchema returns true.
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func (p *processor) processObject(m map[string]any, chunk []byte) (dirtySchema bool, err error) {
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p.curObjVals = objectValueSet{}
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err = p.doAddObject(p.root, m)
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dirtySchema = len(p.schemaDirtyEntities) > 0
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if err != nil {
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return dirtySchema, err
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}
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p.unwrittenObjVals = append(p.unwrittenObjVals, p.curObjVals)
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p.curObjVals = nil
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if dirtySchema {
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err = p.updateColNames(chunk)
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}
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return dirtySchema, err
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}
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func (p *processor) updateColNames(chunk []byte) error {
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colNames, err := columnOrderFlat(chunk)
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if err != nil {
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return err
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}
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for _, colName := range colNames {
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if !stringz.InSlice(p.colNamesOrdered, colName) {
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p.colNamesOrdered = append(p.colNamesOrdered, colName)
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}
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}
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return nil
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}
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func (p *processor) doAddObject(ent *entity, m map[string]any) error {
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for fieldName, val := range m {
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switch val := val.(type) {
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case map[string]any:
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// time to recurse
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child := ent.getChild(fieldName)
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if child == nil {
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p.markSchemaDirty(ent)
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if !stringz.InSlice(ent.fieldNames, fieldName) {
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// The field name could already exist (even without
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// the child existing) if we encountered
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// the field before but it was nil
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ent.fieldNames = append(ent.fieldNames, fieldName)
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}
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child = &entity{
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name: fieldName,
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parent: ent,
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detectors: map[string]*kind.Detector{},
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}
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ent.children = append(ent.children, child)
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} else if child.isArray {
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// Child already exists
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// Safety check
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return errz.Errorf("JSON entity {%s} previously detected as array, but now detected as object",
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ent.String())
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}
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err := p.doAddObject(child, val)
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if err != nil {
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return err
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}
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case []any:
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if !stringz.InSlice(ent.fieldNames, fieldName) {
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ent.fieldNames = append(ent.fieldNames, fieldName)
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}
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default:
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// It's a regular value
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detector, ok := ent.detectors[fieldName]
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if !ok {
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p.markSchemaDirty(ent)
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if stringz.InSlice(ent.fieldNames, fieldName) {
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return errz.Errorf("JSON field {%s} was previously detected as a nested field (object or array)",
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fieldName)
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}
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ent.fieldNames = append(ent.fieldNames, fieldName)
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detector = kind.NewDetector()
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ent.detectors[fieldName] = detector
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}
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entVals := p.curObjVals[ent]
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if entVals == nil {
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entVals = map[string]any{}
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p.curObjVals[ent] = entVals
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}
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colName := p.calcColName(ent, fieldName)
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entVals[colName] = val
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val = maybeFloatToInt(val)
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detector.Sample(val)
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}
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}
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return nil
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}
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// buildInsertionsFlat builds a set of DB insertions from the
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// processor's unwrittenObjVals. After a non-error return, unwrittenObjVals
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// is empty.
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func (p *processor) buildInsertionsFlat(schema *importSchema) ([]*insertion, error) {
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if len(schema.tblDefs) != 1 {
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return nil, errz.Errorf("expected 1 table for flat JSON processing but got %d", len(schema.tblDefs))
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}
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tblDef := schema.tblDefs[0]
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var insertions []*insertion
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// Each of unwrittenObjVals is effectively an INSERT row
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for _, objValSet := range p.unwrittenObjVals {
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var colNames []string
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colVals := map[string]any{}
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for ent, fieldVals := range objValSet {
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// For each entity, we get its values and add them to colVals.
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for colName, val := range fieldVals {
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if _, ok := colVals[colName]; ok {
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return nil, errz.Errorf("column {%s} already exists, but found column with same name in {%s}",
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colName, ent)
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}
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colVals[colName] = val
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colNames = append(colNames, colName)
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}
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}
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sort.Strings(colNames)
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vals := make([]any, len(colNames))
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for i, colName := range colNames {
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vals[i] = colVals[colName]
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}
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insertions = append(insertions, newInsertion(tblDef.Name, colNames, vals))
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}
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p.unwrittenObjVals = p.unwrittenObjVals[:0]
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return insertions, nil
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}
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// entity models the structure of a JSON entity, either an object or an array.
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type entity struct {
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// isArray is true if the entity is an array, false if an object.
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isArray bool
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name string
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parent *entity
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children []*entity
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// fieldName holds the names of each field. This includes simple
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// fields (such as a number or string) and nested types like
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// object or array.
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fieldNames []string
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// detectors holds a kind detector for each non-entity field
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// of entity. That is, it holds a detector for each string or number
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// field etc, but not for an object or array field.
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detectors map[string]*kind.Detector
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}
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func (e *entity) String() string {
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name := e.name
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if name == "" {
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name = source.MonotableName
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}
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parent := e.parent
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for parent != nil {
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name = parent.String() + "." + name
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parent = parent.parent
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}
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return name
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}
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// fqFieldName returns the fully-qualified field name, such
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// as "data.name.first_name".
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func (e *entity) fqFieldName(field string) string { //nolint:unused
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return e.String() + "." + field
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}
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// getChild returns the named child, or nil.
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func (e *entity) getChild(name string) *entity {
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for _, child := range e.children {
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if child.name == name {
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return child
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}
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}
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return nil
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}
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func walkEntity(ent *entity, visitFn func(*entity) error) error {
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err := visitFn(ent)
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if err != nil {
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return err
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}
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for _, child := range ent.children {
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err = walkEntity(child, visitFn)
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if err != nil {
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return err
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}
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}
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return nil
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}
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// importSchema encapsulates the table definitions that
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// the JSON is imported to.
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type importSchema struct {
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tblDefs []*sqlmodel.TableDef
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colMungeFns map[*sqlmodel.ColDef]kind.MungeFunc
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// entityTbls is a mapping of entity to the table in which
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// the entity's fields will be inserted.
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entityTbls map[*entity]*sqlmodel.TableDef
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}
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func execSchemaDelta(ctx context.Context, drvr driver.SQLDriver, db sqlz.DB,
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curSchema, newSchema *importSchema,
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) error {
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log := lg.FromContext(ctx)
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var err error
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if curSchema == nil {
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for _, tblDef := range newSchema.tblDefs {
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err = drvr.CreateTable(ctx, db, tblDef)
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if err != nil {
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return err
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}
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log.Debug("Created table", lga.Table, tblDef.Name)
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}
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return nil
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}
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return errz.New("schema delta not yet implemented")
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}
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// columnOrderFlat parses the json chunk and returns a slice
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// containing column names, in the order they appear in chunk.
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// Nested fields are flattened, e.g:
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//
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// {"a":1, "b": {"c":2, "d":3}} --> ["a", "b_c", "b_d"]
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func columnOrderFlat(chunk []byte) ([]string, error) {
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dec := stdj.NewDecoder(bytes.NewReader(chunk))
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var (
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cols []string
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stack []string
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tok stdj.Token
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err error
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)
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// Get the opening left-brace
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_, err = requireDelimToken(dec, leftBrace)
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if err != nil {
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return nil, err
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}
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loop:
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for {
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// Expect tok to be a field name, or else the terminating right-brace.
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tok, err = dec.Token()
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if err != nil {
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if err == io.EOF { //nolint:errorlint
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break
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}
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return nil, errz.Err(err)
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}
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switch tok := tok.(type) {
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case string:
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// tok is a field name
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stack = append(stack, tok)
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case stdj.Delim:
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if tok == rightBrace {
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if len(stack) == 0 {
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// This is the terminating right-brace
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break loop
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}
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// Else we've come to the end of an object
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stack = stack[:len(stack)-1]
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continue
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}
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default:
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return nil, errz.Errorf("expected string field name but got %T: %s", tok, formatToken(tok))
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}
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// We've consumed the field name above, now let's see what
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// the next token is
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tok, err = dec.Token()
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if err != nil {
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return nil, errz.Err(err)
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}
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switch tok := tok.(type) {
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default:
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// This next token was a regular old value.
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// The field name is already on the stack. We generate
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// the column name...
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cols = append(cols, strings.Join(stack, colScopeSep))
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// And pop the stack.
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stack = stack[0 : len(stack)-1]
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case stdj.Delim:
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// The next token was a delimiter.
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if tok == leftBrace {
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// It's the start of a nested object.
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// Back to the top of the loop we go, so that
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// we can descend into the nested object.
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continue loop
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}
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if tok == leftBracket {
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// It's the start of an array.
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// Note that we don't descend into arrays.
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cols = append(cols, strings.Join(stack, colScopeSep))
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stack = stack[0 : len(stack)-1]
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err = decoderFindArrayClose(dec)
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if err != nil {
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return nil, err
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}
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}
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}
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}
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return cols, nil
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}
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// decoderFindArrayClose advances dec until a closing
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// right-bracket ']' is located at the correct nesting level.
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// The most-recently returned decoder token should have been
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// the opening left-bracket '['.
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func decoderFindArrayClose(dec *stdj.Decoder) error {
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var depth int
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var tok stdj.Token
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var err error
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for {
|
|
tok, err = dec.Token()
|
|
if err != nil {
|
|
break
|
|
}
|
|
|
|
if tok == leftBracket {
|
|
// Nested array
|
|
depth++
|
|
continue
|
|
}
|
|
|
|
if tok == rightBracket {
|
|
if depth == 0 {
|
|
return nil
|
|
}
|
|
depth--
|
|
}
|
|
}
|
|
|
|
return errz.Err(err)
|
|
}
|
|
|
|
// execInsertions performs db INSERT for each of the insertions.
|
|
func execInsertions(ctx context.Context, drvr driver.SQLDriver, db sqlz.DB, insertions []*insertion) error {
|
|
// FIXME: This is an inefficient way of performing insertion.
|
|
// We should be re-using the prepared statement, and probably
|
|
// should batch the inserts as well. See driver.BatchInsert.
|
|
|
|
log := lg.FromContext(ctx)
|
|
var err error
|
|
var execer *driver.StmtExecer
|
|
|
|
for _, insert := range insertions {
|
|
execer, err = drvr.PrepareInsertStmt(ctx, db, insert.tbl, insert.cols, 1)
|
|
if err != nil {
|
|
return err
|
|
}
|
|
|
|
err = execer.Munge(insert.vals)
|
|
if err != nil {
|
|
lg.WarnIfCloseError(log, lgm.CloseDBStmt, execer)
|
|
return err
|
|
}
|
|
|
|
_, err = execer.Exec(ctx, insert.vals...)
|
|
if err != nil {
|
|
lg.WarnIfCloseError(log, lgm.CloseDBStmt, execer)
|
|
return err
|
|
}
|
|
|
|
err = execer.Close()
|
|
if err != nil {
|
|
return err
|
|
}
|
|
}
|
|
|
|
return nil
|
|
}
|
|
|
|
type insertion struct {
|
|
// stmtKey is a concatenation of tbl and cols that can
|
|
// uniquely identify a db insert statement.
|
|
stmtKey string
|
|
|
|
tbl string
|
|
cols []string
|
|
vals []any
|
|
}
|
|
|
|
func newInsertion(tbl string, cols []string, vals []any) *insertion {
|
|
return &insertion{
|
|
stmtKey: buildInsertStmtKey(tbl, cols),
|
|
tbl: tbl,
|
|
cols: cols,
|
|
vals: vals,
|
|
}
|
|
}
|
|
|
|
// buildInsertStmtKey returns a concatenation of tbl and cols that can
|
|
// uniquely identify a db insert statement.
|
|
func buildInsertStmtKey(tbl string, cols []string) string {
|
|
return tbl + "__" + strings.Join(cols, "_")
|
|
}
|