Example usage for java.sql Types FLOAT

List of usage examples for java.sql Types FLOAT

Introduction

In this page you can find the example usage for java.sql Types FLOAT.

Prototype

int FLOAT

To view the source code for java.sql Types FLOAT.

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Document

The constant in the Java programming language, sometimes referred to as a type code, that identifies the generic SQL type FLOAT.

Usage

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";
    }/*from w  ww  .ja v a2  s .c  o m*/
    System.out.println("Outputting string for unknown Type: " + jdbcDataType);
    return "string";
}

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  w w.  ja va 2s. c  om
        return null;
    }
}

From source file:org.talend.utils.sql.TalendTypeConvert.java

private static Map<String, Integer> getMap() {
    if (map == null) {
        map = new HashMap<String, Integer>();
        map.put(talendTypeName(Boolean.class), Types.BOOLEAN);
        map.put(talendTypeName(Byte.class), Types.DECIMAL);
        map.put(talendTypeName(Character.class), Types.CHAR);
        map.put(talendTypeName(Date.class), Types.DATE);
        map.put(talendTypeName(String.class), Types.CLOB);
        map.put(talendTypeName(Double.class), Types.DOUBLE);
        map.put(talendTypeName(Float.class), Types.FLOAT);
        map.put(talendTypeName(Integer.class), Types.INTEGER);
        map.put(talendTypeName(Long.class), Types.INTEGER);
        map.put(talendTypeName(Short.class), Types.SMALLINT);
    }/*from  ww  w  . j  a v a  2  s .  c  o  m*/
    return map;
}

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;
    }/*from w  w w  . ja v  a  2s.c  o m*/

    return null;
}

From source file:Main.java

/**
 * Gets the name of the type to be used with the internal dbms
 * /*  ww  w  . j a  v  a 2 s .co m*/
 * @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:org.apache.sqoop.hive.HiveTypesORC.java

/**
 * Given JDBC SQL types coming from another database, what is the best
 * mapping to a Hive-specific type?//  w ww  .  j av a 2s  .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.sqoop.hive.HiveTypes.java

/**
 * Given JDBC SQL types coming from another database, what is the best
 * mapping to a Hive-specific type?//from w  w  w. j a  v  a2 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.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.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  .j av  a 2s .  com*/
            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.georepublic.db.utils.ResultSetConverter.java

public static JSONArray convert(ResultSet rs) throws SQLException, JSONException {

    JSONArray json = new JSONArray();
    ResultSetMetaData rsmd = rs.getMetaData();

    while (rs.next()) {
        int numColumns = rsmd.getColumnCount();
        JSONObject obj = new JSONObject();

        for (int i = 1; i < numColumns + 1; i++) {
            String column_name = rsmd.getColumnName(i);

            if (rsmd.getColumnType(i) == java.sql.Types.ARRAY) {
                obj.put(column_name, rs.getArray(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BIGINT) {
                obj.put(column_name, rs.getInt(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BOOLEAN) {
                obj.put(column_name, rs.getBoolean(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.BLOB) {
                obj.put(column_name, rs.getBlob(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DOUBLE) {
                obj.put(column_name, rs.getDouble(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.FLOAT) {
                obj.put(column_name, rs.getFloat(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.INTEGER) {
                obj.put(column_name, rs.getInt(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.NVARCHAR) {
                obj.put(column_name, rs.getNString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.VARCHAR) {
                obj.put(column_name, rs.getString(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.TINYINT) {
                obj.put(column_name, rs.getInt(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.SMALLINT) {
                obj.put(column_name, rs.getInt(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.DATE) {
                obj.put(column_name, rs.getDate(column_name));
            } else if (rsmd.getColumnType(i) == java.sql.Types.TIMESTAMP) {
                obj.put(column_name, rs.getTimestamp(column_name));
            } else {
                obj.put(column_name, rs.getObject(column_name));
            }//w  ww  .  j  a  v a 2  s  .co  m
        }

        json.put(obj);
    }

    return json;

}

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  w w w.j av a  2 s.c om
 */
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;
    }
}