Java Code Examples for org.apache.beam.sdk.schemas.Schema#getField()
The following examples show how to use
org.apache.beam.sdk.schemas.Schema#getField() .
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Example 1
Source File: RowJson.java From beam with Apache License 2.0 | 6 votes |
private void writeRow(Row row, Schema schema, JsonGenerator gen) throws IOException { gen.writeStartObject(); for (int i = 0; i < schema.getFieldCount(); ++i) { Field field = schema.getField(i); Object value = row.getValue(i); if (dropNullsOnWrite && value == null && field.getType().getNullable()) { continue; } gen.writeFieldName(field.getName()); if (field.getType().getNullable() && value == null) { gen.writeNull(); continue; } writeValue(gen, field.getType(), value); } gen.writeEndObject(); }
Example 2
Source File: Cast.java From beam with Apache License 2.0 | 6 votes |
public static Row castRow(Row input, Schema inputSchema, Schema outputSchema) { if (input == null) { return null; } Row.Builder output = Row.withSchema(outputSchema); for (int i = 0; i < outputSchema.getFieldCount(); i++) { Schema.Field outputField = outputSchema.getField(i); int fromFieldIdx = inputSchema.indexOf(outputField.getName()); Schema.Field inputField = inputSchema.getField(fromFieldIdx); Object inputValue = input.getValue(fromFieldIdx); Object outputValue = castValue(inputValue, inputField.getType(), outputField.getType()); output.addValue(outputValue); } return output.build(); }
Example 3
Source File: CalciteUtils.java From beam with Apache License 2.0 | 5 votes |
private static RelDataType toRelDataType( RelDataTypeFactory dataTypeFactory, Schema schema, int fieldIndex) { Schema.Field field = schema.getField(fieldIndex); RelDataType type = toRelDataType(dataTypeFactory, field.getType()); return dataTypeFactory.createTypeWithNullability(type, field.getType().getNullable()); }
Example 4
Source File: AvroUtils.java From beam with Apache License 2.0 | 5 votes |
/** * Convert from a Beam Row to an AVRO GenericRecord. If a Schema is not provided, one is inferred * from the Beam schema on the row. */ public static GenericRecord toGenericRecord( Row row, @Nullable org.apache.avro.Schema avroSchema) { Schema beamSchema = row.getSchema(); // Use the provided AVRO schema if present, otherwise infer an AVRO schema from the row // schema. if (avroSchema != null && avroSchema.getFields().size() != beamSchema.getFieldCount()) { throw new IllegalArgumentException( "AVRO schema doesn't match row schema. Row schema " + beamSchema + ". AVRO schema + " + avroSchema); } if (avroSchema == null) { avroSchema = toAvroSchema(beamSchema); } GenericRecordBuilder builder = new GenericRecordBuilder(avroSchema); for (int i = 0; i < beamSchema.getFieldCount(); ++i) { Schema.Field field = beamSchema.getField(i); builder.set( field.getName(), genericFromBeamField( field.getType(), avroSchema.getField(field.getName()).schema(), row.getValue(i))); } return builder.build(); }
Example 5
Source File: AddFields.java From beam with Apache License 2.0 | 4 votes |
private static AddFieldsInformation getAddFieldsInformation( Schema inputSchema, Collection<NewField> fieldsToAdd) { List<NewField> newTopLevelFields = fieldsToAdd.stream() .filter(n -> !n.getDescriptor().getFieldsAccessed().isEmpty()) .collect(Collectors.toList()); List<NewField> newNestedFields = fieldsToAdd.stream() .filter(n -> !n.getDescriptor().getNestedFieldsAccessed().isEmpty()) .collect(Collectors.toList()); // Group all nested fields together by the field at the current level. For example, if adding // a.b, a.c, a.d // this map will contain a -> {a.b, a.c, a.d}. Multimap<String, NewField> newNestedFieldsMap = Multimaps.index(newNestedFields, NewField::getName); Map<Integer, AddFieldsInformation> resolvedNestedNewValues = Maps.newHashMap(); Schema.Builder builder = Schema.builder(); for (int i = 0; i < inputSchema.getFieldCount(); ++i) { Schema.Field field = inputSchema.getField(i); Collection<NewField> nestedFields = newNestedFieldsMap.get(field.getName()); // If this field is a nested field and new subfields are added further down the tree, add // those subfields before // adding to the current schema. Otherwise we just add this field as is to the new schema. if (!nestedFields.isEmpty()) { nestedFields = nestedFields.stream().map(NewField::descend).collect(Collectors.toList()); AddFieldsInformation nestedInformation = getAddFieldsInformation(field.getType(), nestedFields); field = field.withType(nestedInformation.getOutputFieldType()); resolvedNestedNewValues.put(i, nestedInformation); } builder.addField(field); } // Add any new fields at this level. List<Object> newValuesThisLevel = new ArrayList<>(newTopLevelFields.size()); for (NewField newField : newTopLevelFields) { builder.addField(newField.getName(), newField.getFieldType()); newValuesThisLevel.add(newField.getDefaultValue()); } // If there are any nested field additions left that are not already processed, that means // that the root of the // nested field doesn't exist in the schema. In this case we'll walk down the new nested // fields and recursively create each nested level as necessary. for (Map.Entry<String, Collection<NewField>> newNested : newNestedFieldsMap.asMap().entrySet()) { String fieldName = newNested.getKey(); // If the user specifies the same nested field twice in different ways (e.g. a[].x, a{}.x) FieldAccessDescriptor.FieldDescriptor fieldDescriptor = Iterables.getOnlyElement( newNested.getValue().stream() .map(NewField::getFieldDescriptor) .distinct() .collect(Collectors.toList())); FieldType fieldType = Schema.FieldType.row(Schema.of()).withNullable(true); for (Qualifier qualifier : fieldDescriptor.getQualifiers()) { // The problem with adding recursive map fields is that we don't know what the map key // type should be. // In a field descriptor of the form mapField{}.subField, the subField is assumed to be in // the map value. // Since in this code path the mapField field does not already exist this means we need to // create the new // map field, and we have no way of knowing what type the key should be. // Alternatives would be to always create a default key type (e.g. FieldType.STRING) or // extend our selector // syntax to allow specifying key types. checkArgument( !qualifier.getKind().equals(Qualifier.Kind.MAP), "Map qualifiers not supported here"); fieldType = FieldType.array(fieldType).withNullable(true); } if (!inputSchema.hasField(fieldName)) { // This is a brand-new nested field with no matching field in the input schema. We will // recursively create a nested schema to match it. Collection<NewField> nestedNewFields = newNested.getValue().stream().map(NewField::descend).collect(Collectors.toList()); AddFieldsInformation addFieldsInformation = getAddFieldsInformation(fieldType, nestedNewFields); builder.addField(fieldName, addFieldsInformation.getOutputFieldType()); resolvedNestedNewValues.put(builder.getLastFieldId(), addFieldsInformation); } } Schema schema = builder.build(); List<AddFieldsInformation> nestedNewValueList = new ArrayList<>(Collections.nCopies(schema.getFieldCount(), null)); for (Map.Entry<Integer, AddFieldsInformation> entry : resolvedNestedNewValues.entrySet()) { nestedNewValueList.set(entry.getKey(), entry.getValue()); } return AddFieldsInformation.of( Schema.FieldType.row(schema), newValuesThisLevel, nestedNewValueList); }
Example 6
Source File: DropFields.java From beam with Apache License 2.0 | 4 votes |
FieldAccessDescriptor complement(Schema inputSchema, FieldAccessDescriptor input) { // Create a FieldAccessDescriptor that select all fields _not_ selected in the input // descriptor. Maintain // the original order of the schema. Set<String> fieldNamesToSelect = Sets.newHashSet(); Map<FieldAccessDescriptor.FieldDescriptor, FieldAccessDescriptor> nestedFieldsToSelect = Maps.newHashMap(); for (int i = 0; i < inputSchema.getFieldCount(); ++i) { if (input.fieldIdsAccessed().contains(i)) { // This field is selected, so exclude it from the complement. continue; } Field field = inputSchema.getField(i); Map<Integer, FieldAccessDescriptor.FieldDescriptor> nestedFields = input.getNestedFieldsAccessed().keySet().stream() .collect(Collectors.toMap(k -> k.getFieldId(), k -> k)); FieldAccessDescriptor.FieldDescriptor fieldDescriptor = nestedFields.get(i); if (fieldDescriptor != null) { // Some subfields are selected, so recursively calculate the complementary subfields to // select. FieldType fieldType = inputSchema.getField(i).getType(); for (FieldAccessDescriptor.FieldDescriptor.Qualifier qualifier : fieldDescriptor.getQualifiers()) { switch (qualifier.getKind()) { case LIST: fieldType = fieldType.getCollectionElementType(); break; case MAP: fieldType = fieldType.getMapValueType(); break; default: throw new RuntimeException("Unexpected field descriptor type."); } } checkArgument(fieldType.getTypeName().isCompositeType()); FieldAccessDescriptor nestedDescriptor = input.getNestedFieldsAccessed().get(fieldDescriptor); nestedFieldsToSelect.put( fieldDescriptor, complement(fieldType.getRowSchema(), nestedDescriptor)); } else { // Neither the field nor the subfield is selected. This means we should select it. fieldNamesToSelect.add(field.getName()); } } FieldAccessDescriptor fieldAccess = FieldAccessDescriptor.withFieldNames(fieldNamesToSelect); for (Map.Entry<FieldAccessDescriptor.FieldDescriptor, FieldAccessDescriptor> entry : nestedFieldsToSelect.entrySet()) { fieldAccess = fieldAccess.withNestedField(entry.getKey(), entry.getValue()); } return fieldAccess.resolve(inputSchema); }