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// _ _
// __ _____ __ ___ ___ __ _| |_ ___
// \ \ /\ / / _ \/ _` \ \ / / |/ _` | __/ _ \
// \ V V / __/ (_| |\ V /| | (_| | || __/
// \_/\_/ \___|\__,_| \_/ |_|\__,_|\__\___|
//
// Copyright © 2016 - 2024 Weaviate B.V. All rights reserved.
//
// CONTACT: [email protected]
//
package objects
import (
"context"
"encoding/json"
"fmt"
"strings"
"sync"
"time"
"github.com/google/uuid"
"github.com/sirupsen/logrus"
"github.com/weaviate/weaviate/entities/additional"
"github.com/weaviate/weaviate/entities/models"
"github.com/weaviate/weaviate/entities/schema"
"github.com/weaviate/weaviate/entities/schema/crossref"
"github.com/weaviate/weaviate/entities/search"
"github.com/weaviate/weaviate/usecases/config"
"github.com/weaviate/weaviate/usecases/objects/validation"
)
type autoSchemaManager struct {
mutex sync.RWMutex
schemaManager schemaManager
vectorRepo VectorRepo
config config.AutoSchema
logger logrus.FieldLogger
}
func newAutoSchemaManager(schemaManager schemaManager, vectorRepo VectorRepo,
config *config.WeaviateConfig, logger logrus.FieldLogger,
) *autoSchemaManager {
return &autoSchemaManager{
schemaManager: schemaManager,
vectorRepo: vectorRepo,
config: config.Config.AutoSchema,
logger: logger,
}
}
func (m *autoSchemaManager) autoSchema(ctx context.Context, principal *models.Principal,
object *models.Object, allowCreateClass bool,
) error {
if m.config.Enabled {
return m.performAutoSchema(ctx, principal, object, allowCreateClass)
}
return nil
}
func (m *autoSchemaManager) performAutoSchema(ctx context.Context, principal *models.Principal,
object *models.Object, allowCreateClass bool,
) error {
m.mutex.Lock()
defer m.mutex.Unlock()
if object == nil {
return fmt.Errorf(validation.ErrorMissingObject)
}
if len(object.Class) == 0 {
// stop performing auto schema
return fmt.Errorf(validation.ErrorMissingClass)
}
object.Class = schema.UppercaseClassName(object.Class)
schemaClass, err := m.getClass(principal, object)
if err != nil {
return err
}
if schemaClass == nil && !allowCreateClass {
return fmt.Errorf("given class does not exist")
}
properties, err := m.getProperties(object)
if err != nil {
return err
}
if schemaClass == nil {
return m.createClass(ctx, principal, object.Class, properties)
}
return m.updateClass(ctx, principal, object.Class, properties, schemaClass.Properties)
}
func (m *autoSchemaManager) getClass(principal *models.Principal,
object *models.Object,
) (*models.Class, error) {
s, err := m.schemaManager.GetSchema(principal)
if err != nil {
return nil, err
}
schemaClass := s.GetClass(schema.ClassName(object.Class))
return schemaClass, nil
}
func (m *autoSchemaManager) createClass(ctx context.Context, principal *models.Principal,
className string, properties []*models.Property,
) error {
now := time.Now()
class := &models.Class{
Class: className,
Properties: properties,
Description: "This property was generated by Weaviate's auto-schema feature on " + now.Format(time.ANSIC),
}
m.logger.
WithField("auto_schema", "createClass").
Debugf("create class %s", className)
return m.schemaManager.AddClass(ctx, principal, class)
}
func (m *autoSchemaManager) updateClass(ctx context.Context, principal *models.Principal,
className string, properties []*models.Property, existingProperties []*models.Property,
) error {
existingPropertiesIndexMap := map[string]int{}
for index := range existingProperties {
existingPropertiesIndexMap[existingProperties[index].Name] = index
}
propertiesToAdd := []*models.Property{}
propertiesToUpdate := []*models.Property{}
for _, prop := range properties {
index, exists := existingPropertiesIndexMap[schema.LowercaseFirstLetter(prop.Name)]
if !exists {
propertiesToAdd = append(propertiesToAdd, prop)
} else if _, isNested := schema.AsNested(existingProperties[index].DataType); isNested {
mergedNestedProperties, merged := schema.MergeRecursivelyNestedProperties(existingProperties[index].NestedProperties,
prop.NestedProperties)
if merged {
prop.NestedProperties = mergedNestedProperties
propertiesToUpdate = append(propertiesToUpdate, prop)
}
}
}
for _, newProp := range propertiesToAdd {
m.logger.
WithField("auto_schema", "updateClass").
Debugf("update class %s add property %s", className, newProp.Name)
err := m.schemaManager.AddClassProperty(ctx, principal, className, newProp)
if err != nil {
return err
}
}
for _, updatedProp := range propertiesToUpdate {
m.logger.
WithField("auto_schema", "updateClass").
Debugf("update class %s merge object property %s", className, updatedProp.Name)
err := m.schemaManager.MergeClassObjectProperty(ctx, principal, className, updatedProp)
if err != nil {
return err
}
}
return nil
}
func (m *autoSchemaManager) getProperties(object *models.Object) ([]*models.Property, error) {
properties := []*models.Property{}
if props, ok := object.Properties.(map[string]interface{}); ok {
for name, value := range props {
now := time.Now()
dt, err := m.determineType(value, false)
if err != nil {
return nil, fmt.Errorf("property '%s' on class '%s': %w", name, object.Class, err)
}
var nestedProperties []*models.NestedProperty
if len(dt) == 1 {
switch dt[0] {
case schema.DataTypeObject:
nestedProperties, err = m.determineNestedProperties(value.(map[string]interface{}), now)
case schema.DataTypeObjectArray:
nestedProperties, err = m.determineNestedPropertiesOfArray(value.([]interface{}), now)
default:
// do nothing
}
}
if err != nil {
return nil, fmt.Errorf("property '%s' on class '%s': %w", name, object.Class, err)
}
property := &models.Property{
Name: name,
DataType: m.getDataTypes(dt),
Description: "This property was generated by Weaviate's auto-schema feature on " + now.Format(time.ANSIC),
NestedProperties: nestedProperties,
}
properties = append(properties, property)
}
}
return properties, nil
}
func (m *autoSchemaManager) getDataTypes(dataTypes []schema.DataType) []string {
dtypes := make([]string, len(dataTypes))
for i := range dataTypes {
dtypes[i] = string(dataTypes[i])
}
return dtypes
}
func (m *autoSchemaManager) determineType(value interface{}, ofNestedProp bool) ([]schema.DataType, error) {
fallbackDataType := []schema.DataType{schema.DataTypeText}
fallbackArrayDataType := []schema.DataType{schema.DataTypeTextArray}
switch typedValue := value.(type) {
case string:
if _, err := time.Parse(time.RFC3339, typedValue); err == nil {
return []schema.DataType{schema.DataType(m.config.DefaultDate)}, nil
}
if _, err := uuid.Parse(typedValue); err == nil {
return []schema.DataType{schema.DataTypeUUID}, nil
}
if m.config.DefaultString != "" {
return []schema.DataType{schema.DataType(m.config.DefaultString)}, nil
}
return []schema.DataType{schema.DataTypeText}, nil
case json.Number:
return []schema.DataType{schema.DataType(m.config.DefaultNumber)}, nil
case float64:
return []schema.DataType{schema.DataTypeNumber}, nil
case int64:
return []schema.DataType{schema.DataTypeInt}, nil
case bool:
return []schema.DataType{schema.DataTypeBoolean}, nil
case map[string]interface{}:
// nested properties does not support phone and geo data types
if !ofNestedProp {
if dt, ok := m.asGeoCoordinatesType(typedValue); ok {
return dt, nil
}
if dt, ok := m.asPhoneNumber(typedValue); ok {
return dt, nil
}
}
return []schema.DataType{schema.DataTypeObject}, nil
case []interface{}:
if len(typedValue) == 0 {
return fallbackArrayDataType, nil
}
refDataTypes := []schema.DataType{}
var isRef bool
var determinedDataType schema.DataType
for i := range typedValue {
dataType, refDataType, err := m.determineArrayType(typedValue[i], ofNestedProp)
if err != nil {
return nil, fmt.Errorf("element [%d]: %w", i, err)
}
if i == 0 {
isRef = refDataType != ""
determinedDataType = dataType
}
if dataType != "" {
if isRef {
return nil, fmt.Errorf("element [%d]: mismatched data type - reference expected, got '%s'",
i, asSingleDataType(dataType))
}
if dataType != determinedDataType {
return nil, fmt.Errorf("element [%d]: mismatched data type - '%s' expected, got '%s'",
i, asSingleDataType(determinedDataType), asSingleDataType(dataType))
}
} else {
if !isRef {
return nil, fmt.Errorf("element [%d]: mismatched data type - '%s' expected, got reference",
i, asSingleDataType(determinedDataType))
}
refDataTypes = append(refDataTypes, refDataType)
}
}
if len(refDataTypes) > 0 {
return refDataTypes, nil
}
return []schema.DataType{determinedDataType}, nil
case nil:
return fallbackDataType, nil
default:
allowed := []string{
schema.DataTypeText.String(),
schema.DataTypeNumber.String(),
schema.DataTypeInt.String(),
schema.DataTypeBoolean.String(),
schema.DataTypeDate.String(),
schema.DataTypeUUID.String(),
schema.DataTypeObject.String(),
}
if !ofNestedProp {
allowed = append(allowed, schema.DataTypePhoneNumber.String(), schema.DataTypeGeoCoordinates.String())
}
return nil, fmt.Errorf("unrecognized data type of value '%v' - one of '%s' expected",
typedValue, strings.Join(allowed, "', '"))
}
}
func asSingleDataType(arrayDataType schema.DataType) schema.DataType {
if dt, isArray := schema.IsArrayType(arrayDataType); isArray {
return dt
}
return arrayDataType
}
func (m *autoSchemaManager) determineArrayType(value interface{}, ofNestedProp bool,
) (schema.DataType, schema.DataType, error) {
switch typedValue := value.(type) {
case string:
if _, err := time.Parse(time.RFC3339, typedValue); err == nil {
return schema.DataTypeDateArray, "", nil
}
if _, err := uuid.Parse(typedValue); err == nil {
return schema.DataTypeUUIDArray, "", nil
}
if schema.DataType(m.config.DefaultString) == schema.DataTypeString {
return schema.DataTypeStringArray, "", nil
}
return schema.DataTypeTextArray, "", nil
case json.Number:
if schema.DataType(m.config.DefaultNumber) == schema.DataTypeInt {
return schema.DataTypeIntArray, "", nil
}
return schema.DataTypeNumberArray, "", nil
case float64:
return schema.DataTypeNumberArray, "", nil
case int64:
return schema.DataTypeIntArray, "", nil
case bool:
return schema.DataTypeBooleanArray, "", nil
case map[string]interface{}:
if ofNestedProp {
return schema.DataTypeObjectArray, "", nil
}
if refDataType, ok := m.asRef(typedValue); ok {
return "", refDataType, nil
}
return schema.DataTypeObjectArray, "", nil
default:
allowed := []string{
schema.DataTypeText.String(),
schema.DataTypeNumber.String(),
schema.DataTypeInt.String(),
schema.DataTypeBoolean.String(),
schema.DataTypeDate.String(),
schema.DataTypeUUID.String(),
schema.DataTypeObject.String(),
}
if !ofNestedProp {
allowed = append(allowed, schema.DataTypeCRef.String())
}
return "", "", fmt.Errorf("unrecognized data type of value '%v' - one of '%s' expected",
typedValue, strings.Join(allowed, "', '"))
}
}
func (m *autoSchemaManager) asGeoCoordinatesType(val map[string]interface{}) ([]schema.DataType, bool) {
if len(val) == 2 {
if val["latitude"] != nil && val["longitude"] != nil {
return []schema.DataType{schema.DataTypeGeoCoordinates}, true
}
}
return nil, false
}
func (m *autoSchemaManager) asPhoneNumber(val map[string]interface{}) ([]schema.DataType, bool) {
if val["input"] != nil {
if len(val) == 1 {
return []schema.DataType{schema.DataTypePhoneNumber}, true
}
if len(val) == 2 {
if _, ok := val["defaultCountry"]; ok {
return []schema.DataType{schema.DataTypePhoneNumber}, true
}
}
}
return nil, false
}
func (m *autoSchemaManager) asRef(val map[string]interface{}) (schema.DataType, bool) {
if v, ok := val["beacon"]; ok {
if beacon, ok := v.(string); ok {
ref, err := crossref.Parse(beacon)
if err == nil {
if ref.Class == "" {
res, err := m.vectorRepo.ObjectByID(context.Background(), ref.TargetID, search.SelectProperties{}, additional.Properties{}, "")
if err == nil && res != nil {
return schema.DataType(res.ClassName), true
}
} else {
return schema.DataType(ref.Class), true
}
}
}
}
return "", false
}
func (m *autoSchemaManager) determineNestedProperties(values map[string]interface{}, now time.Time,
) ([]*models.NestedProperty, error) {
i := 0
nestedProperties := make([]*models.NestedProperty, len(values))
for name, value := range values {
np, err := m.determineNestedProperty(name, value, now)
if err != nil {
return nil, fmt.Errorf("nested property '%s': %w", name, err)
}
nestedProperties[i] = np
i++
}
return nestedProperties, nil
}
func (m *autoSchemaManager) determineNestedProperty(name string, value interface{}, now time.Time,
) (*models.NestedProperty, error) {
dt, err := m.determineType(value, true)
if err != nil {
return nil, err
}
var np []*models.NestedProperty
if len(dt) == 1 {
switch dt[0] {
case schema.DataTypeObject:
np, err = m.determineNestedProperties(value.(map[string]interface{}), now)
case schema.DataTypeObjectArray:
np, err = m.determineNestedPropertiesOfArray(value.([]interface{}), now)
default:
// do nothing
}
}
if err != nil {
return nil, err
}
return &models.NestedProperty{
Name: name,
DataType: m.getDataTypes(dt),
Description: "This nested property was generated by Weaviate's auto-schema feature on " +
now.Format(time.ANSIC),
NestedProperties: np,
}, nil
}
func (m *autoSchemaManager) determineNestedPropertiesOfArray(valArray []interface{}, now time.Time,
) ([]*models.NestedProperty, error) {
if len(valArray) == 0 {
return []*models.NestedProperty{}, nil
}
nestedProperties, err := m.determineNestedProperties(valArray[0].(map[string]interface{}), now)
if err != nil {
return nil, err
}
if len(valArray) == 1 {
return nestedProperties, nil
}
nestedPropertiesIndexMap := map[string]int{}
for index := range nestedProperties {
nestedPropertiesIndexMap[nestedProperties[index].Name] = index
}
for i := 1; i < len(valArray); i++ {
values := valArray[i].(map[string]interface{})
for name, value := range values {
index, ok := nestedPropertiesIndexMap[name]
if !ok {
np, err := m.determineNestedProperty(name, value, now)
if err != nil {
return nil, err
}
nestedPropertiesIndexMap[name] = len(nestedProperties)
nestedProperties = append(nestedProperties, np)
} else if _, isNested := schema.AsNested(nestedProperties[index].DataType); isNested {
np, err := m.determineNestedProperty(name, value, now)
if err != nil {
return nil, err
}
if mergedNestedProperties, merged := schema.MergeRecursivelyNestedProperties(
nestedProperties[index].NestedProperties, np.NestedProperties,
); merged {
nestedProperties[index].NestedProperties = mergedNestedProperties
}
}
}
}
return nestedProperties, nil
}
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