Java Code Examples for org.apache.flink.table.api.DataTypes#DECIMAL
The following examples show how to use
org.apache.flink.table.api.DataTypes#DECIMAL .
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Example 1
| Source File: HiveCatalogDataTypeTest.java From flink with Apache License 2.0 | 6 votes |
|
@Test
public void testDataTypes() throws Exception {
DataType[] types = new DataType[] {
DataTypes.TINYINT(),
DataTypes.SMALLINT(),
DataTypes.INT(),
DataTypes.BIGINT(),
DataTypes.FLOAT(),
DataTypes.DOUBLE(),
DataTypes.BOOLEAN(),
DataTypes.STRING(),
DataTypes.BYTES(),
DataTypes.DATE(),
DataTypes.TIMESTAMP(9),
DataTypes.CHAR(HiveChar.MAX_CHAR_LENGTH),
DataTypes.VARCHAR(HiveVarchar.MAX_VARCHAR_LENGTH),
DataTypes.DECIMAL(5, 3)
};
verifyDataTypes(types);
}
Example 2
| Source File: HiveTypeUtil.java From flink with Apache License 2.0 | 5 votes |
|
private static DataType toFlinkPrimitiveType(PrimitiveTypeInfo hiveType) {
checkNotNull(hiveType, "hiveType cannot be null");
switch (hiveType.getPrimitiveCategory()) {
case CHAR:
return DataTypes.CHAR(((CharTypeInfo) hiveType).getLength());
case VARCHAR:
return DataTypes.VARCHAR(((VarcharTypeInfo) hiveType).getLength());
case STRING:
return DataTypes.STRING();
case BOOLEAN:
return DataTypes.BOOLEAN();
case BYTE:
return DataTypes.TINYINT();
case SHORT:
return DataTypes.SMALLINT();
case INT:
return DataTypes.INT();
case LONG:
return DataTypes.BIGINT();
case FLOAT:
return DataTypes.FLOAT();
case DOUBLE:
return DataTypes.DOUBLE();
case DATE:
return DataTypes.DATE();
case TIMESTAMP:
return DataTypes.TIMESTAMP(9);
case BINARY:
return DataTypes.BYTES();
case DECIMAL:
DecimalTypeInfo decimalTypeInfo = (DecimalTypeInfo) hiveType;
return DataTypes.DECIMAL(decimalTypeInfo.getPrecision(), decimalTypeInfo.getScale());
default:
throw new UnsupportedOperationException(
String.format("Flink doesn't support Hive primitive type %s yet", hiveType));
}
}
Example 3
| Source File: IncrSumWithRetractAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 4
| Source File: PostgresCatalog.java From flink with Apache License 2.0 | 4 votes |
|
/**
* Converts Postgres type to Flink {@link DataType}.
*
* @see org.postgresql.jdbc.TypeInfoCache
*/
private DataType fromJDBCType(ResultSetMetaData metadata, int colIndex) throws SQLException {
String pgType = metadata.getColumnTypeName(colIndex);
int precision = metadata.getPrecision(colIndex);
int scale = metadata.getScale(colIndex);
switch (pgType) {
case PG_BOOLEAN:
return DataTypes.BOOLEAN();
case PG_BOOLEAN_ARRAY:
return DataTypes.ARRAY(DataTypes.BOOLEAN());
case PG_BYTEA:
return DataTypes.BYTES();
case PG_BYTEA_ARRAY:
return DataTypes.ARRAY(DataTypes.BYTES());
case PG_SMALLINT:
return DataTypes.SMALLINT();
case PG_SMALLINT_ARRAY:
return DataTypes.ARRAY(DataTypes.SMALLINT());
case PG_INTEGER:
case PG_SERIAL:
return DataTypes.INT();
case PG_INTEGER_ARRAY:
return DataTypes.ARRAY(DataTypes.INT());
case PG_BIGINT:
case PG_BIGSERIAL:
return DataTypes.BIGINT();
case PG_BIGINT_ARRAY:
return DataTypes.ARRAY(DataTypes.BIGINT());
case PG_REAL:
return DataTypes.FLOAT();
case PG_REAL_ARRAY:
return DataTypes.ARRAY(DataTypes.FLOAT());
case PG_DOUBLE_PRECISION:
return DataTypes.DOUBLE();
case PG_DOUBLE_PRECISION_ARRAY:
return DataTypes.ARRAY(DataTypes.DOUBLE());
case PG_NUMERIC:
// see SPARK-26538: handle numeric without explicit precision and scale.
if (precision > 0) {
return DataTypes.DECIMAL(precision, metadata.getScale(colIndex));
}
return DataTypes.DECIMAL(DecimalType.MAX_PRECISION, 18);
case PG_NUMERIC_ARRAY:
// see SPARK-26538: handle numeric without explicit precision and scale.
if (precision > 0) {
return DataTypes.ARRAY(DataTypes.DECIMAL(precision, metadata.getScale(colIndex)));
}
return DataTypes.ARRAY(DataTypes.DECIMAL(DecimalType.MAX_PRECISION, 18));
case PG_CHAR:
case PG_CHARACTER:
return DataTypes.CHAR(precision);
case PG_CHAR_ARRAY:
case PG_CHARACTER_ARRAY:
return DataTypes.ARRAY(DataTypes.CHAR(precision));
case PG_CHARACTER_VARYING:
return DataTypes.VARCHAR(precision);
case PG_CHARACTER_VARYING_ARRAY:
return DataTypes.ARRAY(DataTypes.VARCHAR(precision));
case PG_TEXT:
return DataTypes.STRING();
case PG_TEXT_ARRAY:
return DataTypes.ARRAY(DataTypes.STRING());
case PG_TIMESTAMP:
return DataTypes.TIMESTAMP(scale);
case PG_TIMESTAMP_ARRAY:
return DataTypes.ARRAY(DataTypes.TIMESTAMP(scale));
case PG_TIMESTAMPTZ:
return DataTypes.TIMESTAMP_WITH_LOCAL_TIME_ZONE(scale);
case PG_TIMESTAMPTZ_ARRAY:
return DataTypes.ARRAY(DataTypes.TIMESTAMP_WITH_LOCAL_TIME_ZONE(scale));
case PG_TIME:
return DataTypes.TIME(scale);
case PG_TIME_ARRAY:
return DataTypes.ARRAY(DataTypes.TIME(scale));
case PG_DATE:
return DataTypes.DATE();
case PG_DATE_ARRAY:
return DataTypes.ARRAY(DataTypes.DATE());
default:
throw new UnsupportedOperationException(
String.format("Doesn't support Postgres type '%s' yet", pgType));
}
}
Example 5
| Source File: IncrSumWithRetractAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 6
| Source File: SumAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 7
| Source File: SumWithRetractAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 8
| Source File: AvgAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType t = FlinkTypeSystem.inferAggAvgType(type.getScale());
return DataTypes.DECIMAL(t.getPrecision(), t.getScale());
}
Example 9
| Source File: Sum0AggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 10
| Source File: IncrSumAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType sumType = FlinkTypeSystem.inferAggSumType(decimalType.getScale());
return DataTypes.DECIMAL(sumType.getPrecision(), sumType.getScale());
}
Example 11
| Source File: SchemaUtils.java From pulsar-flink with Apache License 2.0 | 4 votes |
|
private static DataType avro2SqlType(Schema avroSchema, Set<String> existingRecordNames) throws IncompatibleSchemaException {
LogicalType logicalType = avroSchema.getLogicalType();
switch (avroSchema.getType()) {
case INT:
if (logicalType instanceof LogicalTypes.Date) {
return DataTypes.DATE();
} else {
return DataTypes.INT();
}
case STRING:
case ENUM:
return DataTypes.STRING();
case BOOLEAN:
return DataTypes.BOOLEAN();
case BYTES:
case FIXED:
// For FIXED type, if the precision requires more bytes than fixed size, the logical
// type will be null, which is handled by Avro library.
if (logicalType instanceof LogicalTypes.Decimal) {
LogicalTypes.Decimal d = (LogicalTypes.Decimal) logicalType;
return DataTypes.DECIMAL(d.getPrecision(), d.getScale());
} else {
return DataTypes.BYTES();
}
case DOUBLE:
return DataTypes.DOUBLE();
case FLOAT:
return DataTypes.FLOAT();
case LONG:
if (logicalType instanceof LogicalTypes.TimestampMillis ||
logicalType instanceof LogicalTypes.TimestampMicros) {
return DataTypes.TIMESTAMP(3).bridgedTo(java.sql.Timestamp.class);
} else {
return DataTypes.BIGINT();
}
case RECORD:
if (existingRecordNames.contains(avroSchema.getFullName())) {
throw new IncompatibleSchemaException(
String.format("Found recursive reference in Avro schema, which can not be processed by Flink: %s", avroSchema.toString(true)), null);
}
Set<String> newRecordName = ImmutableSet.<String>builder()
.addAll(existingRecordNames).add(avroSchema.getFullName()).build();
List<DataTypes.Field> fields = new ArrayList<>();
for (Schema.Field f : avroSchema.getFields()) {
DataType fieldType = avro2SqlType(f.schema(), newRecordName);
fields.add(DataTypes.FIELD(f.name(), fieldType));
}
return DataTypes.ROW(fields.toArray(new DataTypes.Field[0]));
case ARRAY:
DataType elementType = avro2SqlType(avroSchema.getElementType(), existingRecordNames);
return DataTypes.ARRAY(elementType);
case MAP:
DataType valueType = avro2SqlType(avroSchema.getValueType(), existingRecordNames);
return DataTypes.MAP(DataTypes.STRING(), valueType);
case UNION:
if (avroSchema.getTypes().stream().anyMatch(f -> f.getType() == Schema.Type.NULL)) {
// In case of a union with null, eliminate it and make a recursive call
List<Schema> remainingUnionTypes =
avroSchema.getTypes().stream().filter(f -> f.getType() != Schema.Type.NULL).collect(Collectors.toList());
if (remainingUnionTypes.size() == 1) {
return avro2SqlType(remainingUnionTypes.get(0), existingRecordNames).nullable();
} else {
return avro2SqlType(Schema.createUnion(remainingUnionTypes), existingRecordNames).nullable();
}
} else {
List<Schema.Type> types = avroSchema.getTypes().stream().map(Schema::getType).collect(Collectors.toList());
if (types.size() == 1) {
return avro2SqlType(avroSchema.getTypes().get(0), existingRecordNames);
} else if (types.size() == 2 && types.contains(Schema.Type.INT) && types.contains(Schema.Type.LONG)) {
return DataTypes.BIGINT();
} else if (types.size() == 2 && types.contains(Schema.Type.FLOAT) && types.contains(Schema.Type.DOUBLE)) {
return DataTypes.DOUBLE();
} else {
// Convert complex unions to struct types where field names are member0, member1, etc.
// This is consistent with the behavior when converting between Avro and Parquet.
List<DataTypes.Field> memberFields = new ArrayList<>();
List<Schema> schemas = avroSchema.getTypes();
for (int i = 0; i < schemas.size(); i++) {
DataType memberType = avro2SqlType(schemas.get(i), existingRecordNames);
memberFields.add(DataTypes.FIELD("member" + i, memberType));
}
return DataTypes.ROW(memberFields.toArray(new DataTypes.Field[0]));
}
}
default:
throw new IncompatibleSchemaException(String.format("Unsupported type %s", avroSchema.toString(true)), null);
}
}
Example 12
| Source File: MaxAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
return DataTypes.DECIMAL(decimalType.getPrecision(), decimalType.getScale());
}
Example 13
| Source File: LeadLagAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
return DataTypes.DECIMAL(decimalType.getPrecision(), decimalType.getScale());
}
Example 14
| Source File: MinAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
return DataTypes.DECIMAL(decimalType.getPrecision(), decimalType.getScale());
}
Example 15
| Source File: AvgAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getSumType() {
DecimalType t = FlinkTypeSystem.inferAggSumType(type.getScale());
return DataTypes.DECIMAL(t.getPrecision(), t.getScale());
}
Example 16
| Source File: AvgAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
DecimalType t = FlinkTypeSystem.inferAggAvgType(type.getScale());
return DataTypes.DECIMAL(t.getPrecision(), t.getScale());
}
Example 17
| Source File: ValueDataTypeConverter.java From flink with Apache License 2.0 | 4 votes |
|
private static DataType convertToDecimalType(BigDecimal decimal) {
// let underlying layers check if precision and scale are supported
return DataTypes.DECIMAL(decimal.precision(), decimal.scale());
}
Example 18
| Source File: MinAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
return DataTypes.DECIMAL(decimalType.getPrecision(), decimalType.getScale());
}
Example 19
| Source File: SingleValueAggFunction.java From flink with Apache License 2.0 | 4 votes |
|
@Override
public DataType getResultType() {
return DataTypes.DECIMAL(type.getPrecision(), type.getScale());
}
Example 20
| Source File: DataTypeExtractor.java From flink with Apache License 2.0 | 4 votes |
|
private @Nullable DataType extractPredefinedType(DataTypeTemplate template, Type type) {
final Class<?> clazz = toClass(type);
// all predefined types are representable as classes
if (clazz == null) {
return null;
}
// DECIMAL
if (clazz == BigDecimal.class) {
if (template.defaultDecimalPrecision != null && template.defaultDecimalScale != null) {
return DataTypes.DECIMAL(template.defaultDecimalPrecision, template.defaultDecimalScale);
} else if (template.defaultDecimalPrecision != null) {
return DataTypes.DECIMAL(template.defaultDecimalPrecision, 0);
}
throw extractionError("Values of '%s' need fixed precision and scale.", BigDecimal.class.getName());
}
// TIME
else if (clazz == java.sql.Time.class || clazz == java.time.LocalTime.class) {
if (template.defaultSecondPrecision != null) {
return DataTypes.TIME(template.defaultSecondPrecision)
.bridgedTo(clazz);
}
}
// TIMESTAMP
else if (clazz == java.sql.Timestamp.class || clazz == java.time.LocalDateTime.class) {
if (template.defaultSecondPrecision != null) {
return DataTypes.TIMESTAMP(template.defaultSecondPrecision)
.bridgedTo(clazz);
}
}
// TIMESTAMP WITH TIME ZONE
else if (clazz == java.time.OffsetDateTime.class) {
if (template.defaultSecondPrecision != null) {
return DataTypes.TIMESTAMP_WITH_TIME_ZONE(template.defaultSecondPrecision);
}
}
// TIMESTAMP WITH LOCAL TIME ZONE
else if (clazz == java.time.Instant.class) {
if (template.defaultSecondPrecision != null) {
return DataTypes.TIMESTAMP_WITH_LOCAL_TIME_ZONE(template.defaultSecondPrecision);
}
}
// INTERVAL SECOND
else if (clazz == java.time.Duration.class) {
if (template.defaultSecondPrecision != null) {
return DataTypes.INTERVAL(DataTypes.SECOND(template.defaultSecondPrecision));
}
}
// INTERVAL YEAR TO MONTH
else if (clazz == java.time.Period.class) {
if (template.defaultYearPrecision != null && template.defaultYearPrecision == 0) {
return DataTypes.INTERVAL(DataTypes.MONTH());
} else if (template.defaultYearPrecision != null) {
return DataTypes.INTERVAL(DataTypes.YEAR(template.defaultYearPrecision), DataTypes.MONTH());
}
}
return ClassDataTypeConverter.extractDataType(clazz).orElse(null);
}
