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A table format for huge analytic datasets
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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.apache.iceberg.spark;
import java.util.List;
import java.util.Set;
import java.util.function.Supplier;
import org.apache.iceberg.Schema;
import org.apache.iceberg.relocated.com.google.common.base.Preconditions;
import org.apache.iceberg.relocated.com.google.common.collect.ImmutableMap;
import org.apache.iceberg.relocated.com.google.common.collect.ImmutableSet;
import org.apache.iceberg.relocated.com.google.common.collect.Lists;
import org.apache.iceberg.types.Type;
import org.apache.iceberg.types.Type.TypeID;
import org.apache.iceberg.types.TypeUtil;
import org.apache.iceberg.types.Types;
import org.apache.spark.sql.types.ArrayType;
import org.apache.spark.sql.types.BinaryType$;
import org.apache.spark.sql.types.BooleanType$;
import org.apache.spark.sql.types.DataType;
import org.apache.spark.sql.types.DateType$;
import org.apache.spark.sql.types.DecimalType;
import org.apache.spark.sql.types.DoubleType$;
import org.apache.spark.sql.types.FloatType$;
import org.apache.spark.sql.types.IntegerType$;
import org.apache.spark.sql.types.LongType$;
import org.apache.spark.sql.types.MapType;
import org.apache.spark.sql.types.StringType$;
import org.apache.spark.sql.types.StructField;
import org.apache.spark.sql.types.StructType;
import org.apache.spark.sql.types.TimestampNTZType$;
import org.apache.spark.sql.types.TimestampType$;
public class PruneColumnsWithoutReordering extends TypeUtil.CustomOrderSchemaVisitor {
private final StructType requestedType;
private final Set filterRefs;
private DataType current = null;
PruneColumnsWithoutReordering(StructType requestedType, Set filterRefs) {
this.requestedType = requestedType;
this.filterRefs = filterRefs;
}
@Override
public Type schema(Schema schema, Supplier structResult) {
this.current = requestedType;
try {
return structResult.get();
} finally {
this.current = null;
}
}
@Override
public Type struct(Types.StructType struct, Iterable fieldResults) {
Preconditions.checkNotNull(
struct, "Cannot prune null struct. Pruning must start with a schema.");
Preconditions.checkArgument(current instanceof StructType, "Not a struct: %s", current);
List fields = struct.fields();
List types = Lists.newArrayList(fieldResults);
boolean changed = false;
List newFields = Lists.newArrayListWithExpectedSize(types.size());
for (int i = 0; i < fields.size(); i += 1) {
Types.NestedField field = fields.get(i);
Type type = types.get(i);
if (type == null) {
changed = true;
} else if (field.type() == type) {
newFields.add(field);
} else if (field.isOptional()) {
changed = true;
newFields.add(Types.NestedField.optional(field.fieldId(), field.name(), type));
} else {
changed = true;
newFields.add(Types.NestedField.required(field.fieldId(), field.name(), type));
}
}
if (changed) {
return Types.StructType.of(newFields);
}
return struct;
}
@Override
public Type field(Types.NestedField field, Supplier fieldResult) {
Preconditions.checkArgument(current instanceof StructType, "Not a struct: %s", current);
StructType requestedStruct = (StructType) current;
// fields are resolved by name because Spark only sees the current table schema.
if (requestedStruct.getFieldIndex(field.name()).isEmpty()) {
// make sure that filter fields are projected even if they aren't in the requested schema.
if (filterRefs.contains(field.fieldId())) {
return field.type();
}
return null;
}
int fieldIndex = requestedStruct.fieldIndex(field.name());
StructField requestedField = requestedStruct.fields()[fieldIndex];
Preconditions.checkArgument(
requestedField.nullable() || field.isRequired(),
"Cannot project an optional field as non-null: %s",
field.name());
this.current = requestedField.dataType();
try {
return fieldResult.get();
} catch (IllegalArgumentException e) {
throw new IllegalArgumentException(
"Invalid projection for field " + field.name() + ": " + e.getMessage(), e);
} finally {
this.current = requestedStruct;
}
}
@Override
public Type list(Types.ListType list, Supplier elementResult) {
Preconditions.checkArgument(current instanceof ArrayType, "Not an array: %s", current);
ArrayType requestedArray = (ArrayType) current;
Preconditions.checkArgument(
requestedArray.containsNull() || !list.isElementOptional(),
"Cannot project an array of optional elements as required elements: %s",
requestedArray);
this.current = requestedArray.elementType();
try {
Type elementType = elementResult.get();
if (list.elementType() == elementType) {
return list;
}
// must be a projected element type, create a new list
if (list.isElementOptional()) {
return Types.ListType.ofOptional(list.elementId(), elementType);
} else {
return Types.ListType.ofRequired(list.elementId(), elementType);
}
} finally {
this.current = requestedArray;
}
}
@Override
public Type map(Types.MapType map, Supplier keyResult, Supplier valueResult) {
Preconditions.checkArgument(current instanceof MapType, "Not a map: %s", current);
MapType requestedMap = (MapType) current;
Preconditions.checkArgument(
requestedMap.valueContainsNull() || !map.isValueOptional(),
"Cannot project a map of optional values as required values: %s",
map);
this.current = requestedMap.valueType();
try {
Type valueType = valueResult.get();
if (map.valueType() == valueType) {
return map;
}
if (map.isValueOptional()) {
return Types.MapType.ofOptional(map.keyId(), map.valueId(), map.keyType(), valueType);
} else {
return Types.MapType.ofRequired(map.keyId(), map.valueId(), map.keyType(), valueType);
}
} finally {
this.current = requestedMap;
}
}
@Override
public Type primitive(Type.PrimitiveType primitive) {
Set> expectedType = TYPES.get(primitive.typeId());
Preconditions.checkArgument(
expectedType != null && expectedType.contains(current.getClass()),
"Cannot project %s to incompatible type: %s",
primitive,
current);
// additional checks based on type
switch (primitive.typeId()) {
case DECIMAL:
Types.DecimalType decimal = (Types.DecimalType) primitive;
DecimalType requestedDecimal = (DecimalType) current;
Preconditions.checkArgument(
requestedDecimal.scale() == decimal.scale(),
"Cannot project decimal with incompatible scale: %s != %s",
requestedDecimal.scale(),
decimal.scale());
Preconditions.checkArgument(
requestedDecimal.precision() >= decimal.precision(),
"Cannot project decimal with incompatible precision: %s < %s",
requestedDecimal.precision(),
decimal.precision());
break;
default:
}
return primitive;
}
private static final ImmutableMap>> TYPES =
ImmutableMap.>>builder()
.put(TypeID.BOOLEAN, ImmutableSet.of(BooleanType$.class))
.put(TypeID.INTEGER, ImmutableSet.of(IntegerType$.class))
.put(TypeID.LONG, ImmutableSet.of(LongType$.class))
.put(TypeID.FLOAT, ImmutableSet.of(FloatType$.class))
.put(TypeID.DOUBLE, ImmutableSet.of(DoubleType$.class))
.put(TypeID.DATE, ImmutableSet.of(DateType$.class))
.put(TypeID.TIMESTAMP, ImmutableSet.of(TimestampType$.class, TimestampNTZType$.class))
.put(TypeID.DECIMAL, ImmutableSet.of(DecimalType.class))
.put(TypeID.UUID, ImmutableSet.of(StringType$.class))
.put(TypeID.STRING, ImmutableSet.of(StringType$.class))
.put(TypeID.FIXED, ImmutableSet.of(BinaryType$.class))
.put(TypeID.BINARY, ImmutableSet.of(BinaryType$.class))
.buildOrThrow();
}