List of usage examples for java.sql Types TIME
int TIME
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The constant in the Java programming language, sometimes referred to as a type code, that identifies the generic SQL type TIME.
From source file:Main.java
public static String getCloverTypeFromJdbcType(int jdbcDataType) { switch (jdbcDataType) { case Types.DATE: case Types.TIME: case Types.TIMESTAMP: return "date"; case Types.ARRAY: case Types.BINARY: case Types.DATALINK: case Types.BLOB: case Types.DISTINCT: case Types.JAVA_OBJECT: case Types.NULL: case Types.OTHER: case Types.REF: case Types.STRUCT: case Types.VARBINARY: case Types.LONGVARBINARY: System.out.println("Outputting cbyte for Type: " + jdbcDataType); return "cbyte"; case Types.BIT: case Types.BOOLEAN: return "boolean"; case Types.DECIMAL: case Types.DOUBLE: case Types.FLOAT: case Types.NUMERIC: case Types.REAL: return "numeric"; case Types.INTEGER: case Types.SMALLINT: return "integer"; case Types.BIGINT: return "long"; case Types.CHAR: case Types.VARCHAR: case Types.CLOB: case Types.LONGVARCHAR: return "string"; }/*w ww. j a v a 2s . co m*/ System.out.println("Outputting string for unknown Type: " + jdbcDataType); return "string"; }
From source file:org.talend.dataquality.record.linkage.ui.composite.table.SortComparator.java
public static ISortComparator getSortComparator(int javaDataType) throws ParseException { switch (javaDataType) { case Types.DATE: case Types.TIME: return new SortComparator() { @Override/* ww w. ja v a2 s .c o m*/ public int compareNotNull(Object value1, Object value2) throws ParseException { return java.sql.Date.valueOf(value1.toString()) .compareTo(java.sql.Date.valueOf(value2.toString())); } }; case Types.TIMESTAMP: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return Timestamp.valueOf(value1.toString()).compareTo(Timestamp.valueOf(value2.toString())); } }; case Types.DOUBLE: case Types.REAL: case Types.FLOAT: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return Double.valueOf(value1.toString()).compareTo(Double.valueOf(value2.toString())); } }; case Types.INTEGER: case Types.TINYINT: case Types.SMALLINT: case Types.NUMERIC: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return Integer.valueOf(value1.toString()).compareTo(Integer.valueOf(value2.toString())); } }; case Types.BIGINT: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return Long.valueOf(value1.toString()).compareTo(Long.valueOf(value2.toString())); } }; case Types.DECIMAL: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { if (value1 instanceof BigDecimal) { return ((BigDecimal) value1).compareTo((BigDecimal) value2); } BigDecimal b1 = new BigDecimal(value1.toString()); BigDecimal b2 = new BigDecimal(value2.toString()); return b1.compareTo(b2); } }; case Types.BOOLEAN: case Types.BIT: return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return Boolean.valueOf(value1.toString()).compareTo(Boolean.valueOf(value2.toString())); } }; default:// String return new SortComparator() { @Override public int compareNotNull(Object value1, Object value2) throws ParseException { return value1.toString().compareTo(value2.toString()); } }; } }
From source file:org.apache.hadoop.hive.ql.dataImport.HiveTypes.java
public static String toHiveType(int sqlType) { switch (sqlType) { case Types.INTEGER: case Types.SMALLINT: return "INT"; case Types.VARCHAR: case Types.CHAR: case Types.LONGVARCHAR: case Types.NVARCHAR: case Types.NCHAR: case Types.LONGNVARCHAR: case Types.DATE: case Types.TIME: case Types.TIMESTAMP: case Types.CLOB: case Types.OTHER: return "STRING"; case Types.NUMERIC: case Types.DECIMAL: case Types.FLOAT: case Types.DOUBLE: case Types.REAL: return "DOUBLE"; case Types.BIT: case Types.BOOLEAN: return "BOOLEAN"; case Types.TINYINT: return "TINYINT"; case Types.BIGINT: return "BIGINT"; default:/*from w ww . ja va2s. c om*/ return null; } }
From source file:org.apache.sqoop.hive.HiveTypes.java
/** * Given JDBC SQL types coming from another database, what is the best * mapping to a Hive-specific type?//from www .j ava 2s.co m */ public static String toHiveType(int sqlType) { switch (sqlType) { case Types.INTEGER: case Types.SMALLINT: return "INT"; case Types.VARCHAR: case Types.CHAR: case Types.LONGVARCHAR: case Types.NVARCHAR: case Types.NCHAR: case Types.LONGNVARCHAR: case Types.DATE: case Types.TIME: case Types.TIMESTAMP: case Types.CLOB: return "STRING"; case Types.NUMERIC: case Types.DECIMAL: case Types.FLOAT: case Types.DOUBLE: case Types.REAL: return "DOUBLE"; case Types.BIT: case Types.BOOLEAN: return "BOOLEAN"; case Types.TINYINT: return "TINYINT"; case Types.BIGINT: return "BIGINT"; default: // TODO(aaron): Support BINARY, VARBINARY, LONGVARBINARY, DISTINCT, // BLOB, ARRAY, STRUCT, REF, JAVA_OBJECT. return null; } }
From source file:org.apache.sqoop.hive.HiveTypesORC.java
/** * Given JDBC SQL types coming from another database, what is the best * mapping to a Hive-specific type?//from w w w. jav a 2 s . c o m */ public static String toHiveType(int sqlType) { switch (sqlType) { case Types.INTEGER: case Types.SMALLINT: return "INT"; case Types.VARCHAR: case Types.CHAR: case Types.LONGVARCHAR: case Types.NVARCHAR: case Types.NCHAR: case Types.LONGNVARCHAR: case Types.DATE: case Types.TIME: case Types.TIMESTAMP: case Types.CLOB: return "STRING"; case Types.NUMERIC: case Types.FLOAT: case Types.DOUBLE: case Types.REAL: return "DOUBLE"; case Types.BIT: case Types.BOOLEAN: return "BOOLEAN"; case Types.TINYINT: return "TINYINT"; case Types.BIGINT: return "BIGINT"; case Types.DECIMAL: return "DECIMAL"; default: // TODO(aaron): Support BINARY, VARBINARY, LONGVARBINARY, DISTINCT, // BLOB, ARRAY, STRUCT, REF, JAVA_OBJECT. return null; } }
From source file:org.apache.hadoop.hive.ql.dataImport.HiveTypes.java
public static boolean isHiveTypeImprovised(int sqlType) { return sqlType == Types.DATE || sqlType == Types.TIME || sqlType == Types.TIMESTAMP || sqlType == Types.DECIMAL || sqlType == Types.NUMERIC; }
From source file:com.mirth.connect.donkey.model.channel.MetaDataColumnType.java
public static MetaDataColumnType fromSqlType(int sqlType) { switch (sqlType) { case Types.VARCHAR: case Types.NVARCHAR: case Types.LONGVARCHAR: case Types.LONGNVARCHAR: case Types.CLOB: case Types.NCLOB: return STRING; case Types.BIGINT: case Types.INTEGER: case Types.SMALLINT: case Types.TINYINT: case Types.DECIMAL: case Types.DOUBLE: case Types.FLOAT: case Types.NUMERIC: case Types.REAL: return NUMBER; case Types.BOOLEAN: case Types.BIT: case Types.CHAR: return BOOLEAN; case Types.TIMESTAMP: case Types.TIME: case Types.DATE: return TIMESTAMP; }// w ww . java 2s .c o m return null; }
From source file:Main.java
/** * Gets the name of the type to be used with the internal dbms * //from w w w . j a v a 2 s . com * @param type * java.sql.Types constant * * @return String * * @throws RuntimeException * If the Type is not recognized */ public static String getTypeString(int type) { switch (type) { case Types.BIGINT: return "BIGINT"; case Types.BIT: case Types.BOOLEAN: return "BOOLEAN"; case Types.CHAR: case Types.VARCHAR: case Types.LONGVARCHAR: return "VARCHAR"; case Types.DATE: return "DATE"; case Types.DECIMAL: case Types.NUMERIC: case Types.FLOAT: case Types.DOUBLE: case Types.REAL: return "DOUBLE"; case Types.INTEGER: return "INTEGER"; case Types.SMALLINT: return "SHORT"; case Types.TINYINT: return "BYTE"; case Types.BINARY: case Types.VARBINARY: case Types.LONGVARBINARY: return "BINARY"; case Types.TIMESTAMP: return "TIMESTAMP"; case Types.TIME: return "TIME"; default: throw new RuntimeException("Cannot edit the type: " + type); } }
From source file:com.cloudera.sqoop.hive.HiveTypes.java
/** * Given JDBC SQL types coming from another database, what is the best * mapping to a Hive-specific type?/*from www. j a v a 2s . com*/ */ public static String toHiveType(int sqlType) { if (sqlType == Types.INTEGER) { return "INT"; } else if (sqlType == Types.VARCHAR) { return "STRING"; } else if (sqlType == Types.CHAR) { return "STRING"; } else if (sqlType == Types.LONGVARCHAR) { return "STRING"; } else if (sqlType == Types.NUMERIC) { // Per suggestion on hive-user, this is converted to DOUBLE for now. return "DOUBLE"; } else if (sqlType == Types.DECIMAL) { // Per suggestion on hive-user, this is converted to DOUBLE for now. return "DOUBLE"; } else if (sqlType == Types.BIT) { return "BOOLEAN"; } else if (sqlType == Types.BOOLEAN) { return "BOOLEAN"; } else if (sqlType == Types.TINYINT) { return "TINYINT"; } else if (sqlType == Types.SMALLINT) { return "INT"; } else if (sqlType == Types.BIGINT) { return "BIGINT"; } else if (sqlType == Types.REAL) { return "DOUBLE"; } else if (sqlType == Types.FLOAT) { return "DOUBLE"; } else if (sqlType == Types.DOUBLE) { return "DOUBLE"; } else if (sqlType == Types.DATE) { // unfortunate type coercion return "STRING"; } else if (sqlType == Types.TIME) { // unfortunate type coercion return "STRING"; } else if (sqlType == Types.TIMESTAMP) { // unfortunate type coercion return "STRING"; } else if (sqlType == Types.CLOB) { return "STRING"; } else { // TODO(aaron): Support BINARY, VARBINARY, LONGVARBINARY, DISTINCT, // BLOB, ARRAY, STRUCT, REF, JAVA_OBJECT. return null; } }
From source file:com.tesora.dve.db.mysql.MysqlNativeResultHandler.java
@Override protected byte[] getDateAsBytes(ColumnMetadata uc, Object obj) { if (uc.getDataType() == Types.TIME) return getTimeAsBytes(uc, new Time(((Date) obj).getTime())); if (uc.getDataType() == Types.TIMESTAMP) return getTimestampAsBytes(uc, new Timestamp(((Date) obj).getTime())); if (((Date) obj).equals(ZERO_DATE_INDICATOR)) return ZERO_DATE.getBytes(); return dateFormatter.format((Date) obj).getBytes(); }