H2
- Johannes M
| Data type | RapidClipse default mapping | Generated Javacode (example) |
|---|---|---|
CHARACTER(n) A Unicode String. This type is supported for compatibility with other databases and older applications. The difference to The maximum precision is The whole text is kept in memory when using this data type. | visitor.addPropertyColumnDefinitionFix(new PropertyColumnDefinitionFix(
new String[]{"CHARACTER"},new String[]{"java.lang.String"},"CHARACTER"));
| private String charactertest; @Column(name = "CHARACTERTEST", length = 10,
columnDefinition = "CHARACTER")
public String getCharactertest() {
return this.charactertest;
}
|
CHAR(n) A Unicode String. This type is supported for compatibility with other databases and older applications. The difference to The maximum precision is The whole text is kept in memory when using this data type. | visitor.addPropertyColumnDefinitionFix(new PropertyColumnDefinitionFix(
new String[]{"CHAR"},new String[]{"java.lang.String"},"CHAR"));
| private String chartest; @Column(name = "CHARTEST", length = 10,
columnDefinition = "CHAR")
public String getChartest() {
return this.chartest;
}
|
NCHAR(n) A Unicode String. This type is supported for compatibility with other databases and older applications. The difference to The maximum precision is The whole text is kept in memory when using this data type. | visitor.addPropertyColumnDefinitionFix(new PropertyColumnDefinitionFix(
new String[]{"NCHAR"},new String[]{"java.lang.String"},"CHAR"));
| private String nchartest; @Column(name = "NCHARTEST", length = 10,
columnDefinition = "CHAR")
public String getNchartest() {
return this.nchartest;
}
|
INT Possible values: -2147483648 to 2147483647. | Hibernate default mapping | private int inttest; @Column(name = "INTTEST", unique = true,
nullable = false)
public int getInttest() {
return this.inttest;
}
|
INTEGER Possible values: -2147483648 to 2147483647. | Hibernate default mapping | private Integer integertest; @Column(name = "INTEGERTEST")
public Integer getIntegertest() {
return this.integertest;
}
|
MEDIUMINT Possible values: -2147483648 to 2147483647. | Hibernate default mapping | private Integer mediuminttest; @Column(name = "MEDIUMINTTEST")
public Integer getMediuminttest() {
return this.mediuminttest;
}
|
INT4 Possible values: -2147483648 to 2147483647. | Hibernate default mapping | private Integer int4test; @Column(name = "INT4TEST")
public Integer getInt4test() {
return this.int4test;
}
|
SIGNED Possible values: -2147483648 to 2147483647. | Hibernate default mapping | private Integer signedtest; @Column(name = "SIGNEDTEST")
public Integer getSignedtest() {
return this.signedtest;
}
|
BOOLEAN Possible values: | Hibernate default mapping | private Boolean booleantest; @Column(name = "BOOLEANTEST")
public Boolean getBooleantest() {
return this.booleantest;
}
|
BIT Possible values: | Hibernate default mapping | private Boolean bittest; @Column(name = "BITTEST")
public Boolean getBittest() {
return this.bittest;
}
|
BOOL Possible values: | Hibernate default mapping | private Boolean booltest; @Column(name = "BOOLTEST")
public Boolean getBooltest() {
return this.booltest;
}
|
TINYINT Possible values are: -128 to 127. | Hibernate default mapping | private Byte tinyinttest; @Column(name = "TINYINTTEST")
public Byte getTinyinttest() {
return this.tinyinttest;
}
|
SMALLINT Possible values: -32768 to 32767. | Hibernate default mapping | private Short smallinttest; @Column(name = "SMALLINTTEST")
public Short getSmallinttest() {
return this.smallinttest;
}
|
INT2 Possible values: -32768 to 32767. | Hibernate default mapping | private Short int2test; @Column(name = "INT2TEST")
public Short getInt2test() {
return this.int2test;
}
|
YEAR Possible values: -32768 to 32767. | Hibernate default mapping | private Short yeartest; @Column(name = "YEARTEST")
public Short getYeartest() {
return this.yeartest;
}
|
BIGINT Possible values: -9223372036854775808 to 9223372036854775807. | Hibernate default mapping | private Long biginttest; @Column(name = "BIGINTTEST")
public Long getBiginttest() {
return this.biginttest;
}
|
INT8 Possible values: -9223372036854775808 to 9223372036854775807. | Hibernate default mapping | private Long int8test; @Column(name = "INT8TEST")
public Long getInt8test() {
return this.int8test;
}
|
IDENTITY Auto-Increment value. Possible values: -9223372036854775808 to 9223372036854775807. Used values are never re-used, even when the transaction is rolled back. | Hibernate default mapping | private Long identitytest; @GeneratedValue(strategy = IDENTITY)
@Column(name = "IDENTITYTEST", unique = true,
nullable = false)
public Long getIdentitytest() {
return this.identitytest;
}
|
DECIMAL Data type with fixed precision and scale. This data type is recommended for storing currency values. | Hibernate default mapping | private BigDecimal decimaltest; @Column(name = "DECIMALTEST", precision = 20)
public BigDecimal getDecimaltest() {
return this.decimaltest;
}
private Double decimaltest; @Column(name = "DECIMALTEST", precision = 20)
public Double getDecimaltest() {
return this.decimaltest;
}
|
NUMBER Data type with fixed precision and scale. This data type is recommended for storing currency values. | Hibernate default mapping | private BigDecimal numbertest; @Column(name = "NUMBERTEST", precision = 20)
public BigDecimal getNumbertest() {
return this.numbertest;
}
|
DEC Data type with fixed precision and scale. This data type is recommended for storing currency values. | Hibernate default mapping | private BigDecimal dectest; @Column(name = "DECTEST", precision = 20)
public BigDecimal getDectest() {
return this.dectest;
}
|
NUMERIC Data type with fixed precision and scale. This data type is recommended for storing currency values. | Hibernate default mapping | private BigDecimal numerictest; @Column(name = "NUMERICTEST", precision = 20)
public BigDecimal getNumerictest() {
return this.numerictest;
}
|
DOUBLE A floating point number. Should not be used to represent currency values, because of rounding problems. | Hibernate default mapping | private Double doubletest; @Column(name = "DOUBLETEST", precision = 17,
scale = 0)
public Double getDoubletest() {
return this.doubletest;
}
|
FLOAT A floating point number. Should not be used to represent currency values, because of rounding problems. | Hibernate default mapping | private Double floattest; @Column(name = "FLOATTEST", precision = 17,
scale = 0)
public Double getFloattest() {
return this.floattest;
}
|
FLOAT8 A floating point number. Should not be used to represent currency values, because of rounding problems. | Hibernate default mapping | private Double float8test; @Column(name = "FLOAT8TEST", precision = 17,
scale = 0)
public Double getFloat8test() {
return this.float8test;
}
|
REAL A single precision floating point number. Should not be used to represent currency values, because of rounding problems. | visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"REAL"},
new String[]{"java.lang.Float","float"},"real"));
| private Float realtest; @Column(name = "REALTEST", precision = 7,
scale = 0, columnDefinition = "real")
public Float getRealtest() {
return this.realtest;
}
|
FLOAT4 A single precision floating point number. Should not be used to represent currency values, because of rounding problems. | visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"REAL"},
new String[]{"java.lang.Float","float"},"real"));
| private Float float4test; @Column(name = "FLOAT4TEST", precision = 7,
scale = 0, columnDefinition = "real")
public Float getFloat4test() {
return this.float4test;
}
|
TIME The time data type. The format is hh:mm:ss. | Hibernate default mapping | private Date timetest; @Temporal(TemporalType.TIME)
@Column(name = "TIMETEST", length = 6)
public Date getTimetest() {
return this.timetest;
}
|
DATE The date data type. The format is yyyy- | Hibernate default mapping | private Date datetest; @Temporal(TemporalType.DATE)
@Column(name = "DATETEST", length = 8)
public Date getDatetest() {
return this.datetest;
}
|
TIMESTAMP The timestamp data type. The format is yyyy- | Hibernate default mapping | private Date timestamptest; @Temporal(TemporalType.TIMESTAMP)
@Column(name = "TIMESTAMPTEST", length = 23)
public Date getTimestamptest() {
return this.timestamptest;
}
|
DATETIME The timestamp data type. The format is yyyy- | Hibernate default mapping | private Date datetimetest; @Temporal(TemporalType.TIMESTAMP)
@Column(name = "DATETIMETEST", length = 23)
public Date getDatetimetest() {
return this.datetimetest;
}
|
SMALLDATETIME The timestamp data type. The format is yyyy- | Hibernate default mapping | private Date smalldatetimetest; @Temporal(TemporalType.TIMESTAMP)
@Column(name = "SMALLDATETIMETEST", length = 23)
public Date getSmalldatetimetest() {
return this.smalldatetimetest;
}
|
BINARY Represents a byte array. For very long arrays, use BLOB. The maximum size is 2 GB, but the whole object is kept in memory when using this data type. The precision is a size constraint; only the actual data is persisted. For large text data BLOB or CLOB should be used. | Hibernate default mapping | private byte[] binarytest; @Column(name = "BINARYTEST")
public byte[] getBinarytest() {
return this.binarytest;
}
|
VARBINARY Represents a byte array. For very long arrays, use BLOB. The maximum size is 2 GB, but the whole object is kept in memory when using this data type. The precision is a size constraint; only the actual data is persisted. For large text data BLOB or CLOB should be used. | Hibernate default mapping | private byte[] varbinarytest; @Column(name = "VARBINARYTEST")
public byte[] getVarbinarytest() {
return this.varbinarytest;
}
|
LONGVARBINARY Represents a byte array. For very long arrays, use BLOB. The maximum size is 2 GB, but the whole object is kept in memory when using this data type. The precision is a size constraint; only the actual data is persisted. For large text data BLOB or CLOB should be used. | Hibernate default mapping | private byte[] longvarbinarytest; @Column(name = "LONGVARBINARYTEST")
public byte[] getLongvarbinarytest() {
return this.longvarbinarytest;
}
|
RAW Represents a byte array. For very long arrays, use BLOB. The maximum size is 2 GB, but the whole object is kept in memory when using this data type. The precision is a size constraint; only the actual data is persisted. For large text data BLOB or CLOB should be used. | Hibernate default mapping | private byte[] rawtest; @Column(name = "RAWTEST")
public byte[] getRawtest() {
return this.rawtest;
}
|
BYTEA Represents a byte array. For very long arrays, use BLOB. The maximum size is 2 GB, but the whole object is kept in memory when using this data type. The precision is a size constraint; only the actual data is persisted. For large text data BLOB or CLOB should be used. | Hibernate default mapping | private byte[] byteatest; @Column(name = "BYTEATEST")
public byte[] getByteatest() {
return this.byteatest;
}
|
VARCHAR A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String varchartest; @Column(name = "VARCHARTEST")
public String getVarchartest() {
return this.varchartest;
}
|
LONGVARCHAR A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String longvarchartest; @Column(name = "LONGVARCHARTEST")
public String getLongvarchartest() {
return this.longvarchartest;
}
|
VARCHAR2 A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String varchar2test; @Column(name = "VARCHAR2TEST")
public String getVarchar2test() {
return this.varchar2test;
}
|
NVARCHAR A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String nvarchartest; @Column(name = "NVARCHARTEST")
public String getNvarchartest() {
return this.nvarchartest;
}
|
NVARCHAR2 A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String nvarchar2test; @Column(name = "NVARCHAR2TEST")
public String getNvarchar2test() {
return this.nvarchar2test;
}
|
VARCHARCASESENSITIVE A Unicode String. Use two single quotes ('') to create a quote.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted. The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String varcharCasesensitivetest; @Column(name = "VARCHAR_CASESENSITIVETEST")
public String getVarcharCasesensitivetest() {
return this.varcharCasesensitivetest;
}
|
VARCHARIGNORECASE Same as VARCHAR, but not case sensitive when comparing. Stored in mixed case.The maximum precision is Integer.MAX_VALUE. The precision is a size constraint; only the actual data is persisted.The whole text is loaded into memory when using this data type. For large text data CLOB should be used; see there for details. | Hibernate default mapping | private String varcharIgnorecasetest; @Column(name = "VARCHAR_IGNORECASETEST")
public String getVarcharIgnorecasetest() {
return this.varcharIgnorecasetest;
}
|
BLOB Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] blobtest; @Lob
@Column(name = "BLOBTEST", columnDefinition = "blob")
public byte[] getBlobtest() {
return this.blobtest;
}
|
TINYBLOB Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] tinyblobtest; @Lob
@Column(name = "TINYBLOBTEST", columnDefinition = "blob")
public byte[] getTinyblobtest() {
return this.tinyblobtest;
}
|
MEDIUMBLOB Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] mediumblobtest; @Lob
@Column(name = "MEDIUMBLOBTEST", columnDefinition = "blob")
public byte[] getMediumblobtest() {
return this.mediumblobtest;
}
|
LONGBLOB Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] longblobtest; @Lob
@Column(name = "LONGBLOBTEST", columnDefinition = "blob")
public byte[] getLongblobtest() {
return this.longblobtest;
}
|
IMAGE Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] imagetest; @Lob
@Column(name = "IMAGETEST", columnDefinition = "blob")
public byte[] getImagetest() {
return this.imagetest;
}
|
OID Like BINARY, but intended for very large values such as files or images. Unlike when using BINARY, large objects are not kept fully in-memory. Use PreparedStatement.setBinaryStream to store values.See also CLOB and Advanced / Large Objects. | <sql-type jdbc-type="BLOB" hibernate-type="byte[]"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"BLOB"},new String[]
{"byte[]"},"blob").addLobAnnotation());
| private byte[] oidtest; @Lob
@Column(name = "OIDTEST", columnDefinition = "blob")
public byte[] getOidtest() {
return this.oidtest;
}
|
CLOB CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String clobtest; @Lob
@Column(name = "CLOBTEST", columnDefinition = "clob")
public String getClobtest() {
return this.clobtest;
}
|
TINYTEXT CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String tinytexttest; @Lob
@Column(name = "TINYTEXTTEST", columnDefinition = "clob")
public String getTinytexttest() {
return this.tinytexttest;
}
|
TEXT CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String texttest; @Lob
@Column(name = "TEXTTEST", columnDefinition = "clob")
public String getTexttest() {
return this.texttest;
}
|
CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String mediumtexttest; @Lob
@Column(name = "MEDIUMTEXTTEST", columnDefinition = "clob")
public String getMediumtexttest() {
return this.mediumtexttest;
}
|
LONGTEXT CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String longtexttest; @Lob
@Column(name = "LONGTEXTTEST", columnDefinition = "clob")
public String getLongtexttest() {
return this.longtexttest;
}
|
NTEXT CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String ntexttest; @Lob
@Column(name = "NTEXTTEST", columnDefinition = "clob")
public String getNtexttest() {
return this.ntexttest;
}
|
NCLOB CLOB is like VARCHAR, but intended for very large values. Unlike when using VARCHAR, large CLOB objects are not kept fully in-memory; instead, they are streamed. CLOB should be used for documents and texts with arbitrary size such as XML or HTML documents, text files, or memo fields of unlimited size. Use PreparedStatment.setCharacterStream to store values. VARCHAR should be used for text with relatively short average size (for example shorter than 200 characters). Short CLOB values are stored inline, but there is an overhead compared to VARCHAR. | <sql-type jdbc-type="CLOB" hibernate-type="java.lang.String"></sql-type> visitor.addPropertyColumnDefinitionFix(
new PropertyColumnDefinitionFix(new String[]{"CLOB"},
new String[]{"java.lang.String"},"clob").addLobAnnotation());
| private String nclobtest; @Lob
@Column(name = "NCLOBTEST", columnDefinition = "clob")
public String getNclobtest() {
return this.nclobtest;
}
|
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