opensourcemirror
/
postgresql
mirror of git://git.postgresql.org/git/postgresql.git
1
0
Fork 0
Code Issues Releases Wiki Activity

Update patch from Peter <patches@maidast.demon.co.uk>

This commit is contained in:
Marc G. Fournier 1997-08-31 08:15:13 +00:00
parent 0b6dc93b32
commit 6a061da272
8 changed files with 4656 additions and 3968 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

243
src/interfaces/jdbc/postgresql/CallableStatement.java
View File

@ -1,126 +1,133 @@
package postgresql;
import java.math.*;
import java.sql.*;
import java.math.*;
/**
* @version 1.0 15-APR-1997
* @author <A HREF="mailto:adrian@hottub.org">Adrian Hall</A>
*
* CallableStatement is used to execute SQL stored procedures.
*
* JDBC provides a stored procedure SQL escape that allows stored procedures
* to be called in a standard way for all RDBMS's. This escape syntax has
* one form that includes a result parameter and one that does not. If used,
* the result parameter must be generated as an OUT parameter. The other
* parameters may be used for input, output or both. Parameters are refered
* to sequentially, by number. The first parameter is 1.
*
* <PRE>
* {?= call <procedure-name>[<arg1>,<arg2>, ...]}
* {call <procedure-name>[<arg1>,<arg2>, ...]}
* </PRE>
*
* IN parameters are set using the set methods inherited from
* PreparedStatement. The type of all OUT parameters must be registered
* prior to executing the stored procedure; their values are retrieved
* after execution via the get methods provided here.
*
* A CallableStatement may return a ResultSet or multiple ResultSets. Multiple
* ResultSets are handled using operations inherited from Statement.
*
* For maximum portability, a call's ResultSets and update counts should be
* processed prior to getting the values of output parameters.
*
* @see java.sql.Connection#prepareCall
* @see java.sql.ResultSet
* @see java.sql.CallableStatement
* JDBC Interface to Postgres95 functions
*/
public class CallableStatement implements java.sql.CallableStatement
// Copy methods from the Result set object here.
public class CallableStatement extends PreparedStatement implements java.sql.CallableStatement
{
public void registerOutParameter (int paramterIndex, int sqlType) throws SQLException
{
// XXX-Not Implemented
}
public void registerOutParameter (int parameterIndex, int sqlType, int scale) throws SQLException
{
// XXX-Not Implemented
}
public boolean wasNull () throws SQLException
{
// XXX-Not Implemented
}
public String getString (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public boolean getBoolean (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public byte getByte (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public short getShort (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public int getInt (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public long getLong (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public float getFloat (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public double getDouble (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public BigDecimal getBigDecimal (int parameterIndex, int scale) throws SQLException
{
// XXX-Not Implemented
}
public byte[] getBytes (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public Date getDate (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public Time getTime (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public Timestamp getTimestamp (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
public Object getObject (int parameterIndex) throws SQLException
{
// XXX-Not Implemented
}
CallableStatement(Connection c,String q) throws SQLException
{
super(c,q);
}
// Before executing a stored procedure call you must explicitly
// call registerOutParameter to register the java.sql.Type of each
// out parameter.
public void registerOutParameter(int parameterIndex, int sqlType) throws SQLException {
}
// You must also specify the scale for numeric/decimal types:
public void registerOutParameter(int parameterIndex, int sqlType,
int scale) throws SQLException
{
}
public boolean isNull(int parameterIndex) throws SQLException {
return true;
}
// New API (JPM)
public boolean wasNull() throws SQLException {
// check to see if the last access threw an exception
return false; // fake it for now
}
// Methods for retrieving OUT parameters from this statement.
public String getChar(int parameterIndex) throws SQLException {
return null;
}
// New API (JPM)
public String getString(int parameterIndex) throws SQLException {
return null;
}
//public String getVarChar(int parameterIndex) throws SQLException {
// return null;
//}
public String getLongVarChar(int parameterIndex) throws SQLException {
return null;
}
// New API (JPM) (getBit)
public boolean getBoolean(int parameterIndex) throws SQLException {
return false;
}
// New API (JPM) (getTinyInt)
public byte getByte(int parameterIndex) throws SQLException {
return 0;
}
// New API (JPM) (getSmallInt)
public short getShort(int parameterIndex) throws SQLException {
return 0;
}
// New API (JPM) (getInteger)
public int getInt(int parameterIndex) throws SQLException {
return 0;
}
// New API (JPM) (getBigInt)
public long getLong(int parameterIndex) throws SQLException {
return 0;
}
public float getFloat(int parameterIndex) throws SQLException {
return (float) 0.0;
}
public double getDouble(int parameterIndex) throws SQLException {
return 0.0;
}
public BigDecimal getBigDecimal(int parameterIndex, int scale)
throws SQLException {
return null;
}
// New API (JPM) (getBinary)
public byte[] getBytes(int parameterIndex) throws SQLException {
return null;
}
// New API (JPM) (getLongVarBinary)
public byte[] getBinaryStream(int parameterIndex) throws SQLException {
return null;
}
public java.sql.Date getDate(int parameterIndex) throws SQLException {
return null;
}
public java.sql.Time getTime(int parameterIndex) throws SQLException {
return null;
}
public java.sql.Timestamp getTimestamp(int parameterIndex)
throws SQLException {
return null;
}
//----------------------------------------------------------------------
// Advanced features:
// You can obtain a ParameterMetaData object to get information
// about the parameters to this CallableStatement.
public DatabaseMetaData getMetaData() {
return null;
}
// getObject returns a Java object for the parameter.
// See the JDBC spec's "Dynamic Programming" chapter for details.
public Object getObject(int parameterIndex)
throws SQLException {
return null;
}
}

1609
src/interfaces/jdbc/postgresql/Connection.java
View File

File diff suppressed because it is too large Load Diff

3569
src/interfaces/jdbc/postgresql/DatabaseMetaData.java
View File

File diff suppressed because it is too large Load Diff

500
src/interfaces/jdbc/postgresql/Driver.java
View File

@ -2,12 +2,8 @@ package postgresql;
import java.sql.*;
import java.util.*;
import postgresql.*;
/**
* @version 1.0 15-APR-1997
* @author <A HREF="mailto:adrian@hottub.org">Adrian Hall</A>
*
* The Java SQL framework allows for multiple database drivers. Each
* driver should supply a class that implements the Driver interface
*
@ -28,242 +24,274 @@ import postgresql.*;
*/
public class Driver implements java.sql.Driver
{
static
{
try
{
new Driver();
} catch (SQLException e) {
e.printStackTrace();
}
// These should be in sync with the backend that the driver was
// distributed with
static final int MAJORVERSION = 6;
static final int MINORVERSION = 2;
static
{
try {
// moved the registerDriver from the constructor to here
// because some clients call the driver themselves (I know, as
// my early jdbc work did - and that was based on other examples).
// Placing it here, means that the driver is registered once only.
java.sql.DriverManager.registerDriver(new Driver());
} catch (SQLException e) {
e.printStackTrace();
}
}
/**
* Construct a new driver and register it with DriverManager
*
* @exception SQLException for who knows what!
*/
public Driver() throws SQLException
{
}
/**
* Try to make a database connection to the given URL. The driver
* should return "null" if it realizes it is the wrong kind of
* driver to connect to the given URL. This will be common, as
* when the JDBC driverManager is asked to connect to a given URL,
* it passes the URL to each loaded driver in turn.
*
* The driver should raise an SQLException if it is the right driver
* to connect to the given URL, but has trouble connecting to the
* database.
*
* The java.util.Properties argument can be used to pass arbitrary
* string tag/value pairs as connection arguments. Normally, at least
* "user" and "password" properties should be included in the
* properties.
*
* Our protocol takes the form:
* <PRE>
* jdbc:postgresql://host:port/database
* </PRE>
*
* @param url the URL of the database to connect to
* @param info a list of arbitrary tag/value pairs as connection
* arguments
* @return a connection to the URL or null if it isnt us
* @exception SQLException if a database access error occurs
* @see java.sql.Driver#connect
*/
public java.sql.Connection connect(String url, Properties info) throws SQLException
{
if((props = parseURL(url,info))==null)
return null;
return new Connection (host(), port(), props, database(), url, this);
}
/**
* Returns true if the driver thinks it can open a connection to the
* given URL. Typically, drivers will return true if they understand
* the subprotocol specified in the URL and false if they don't. Our
* protocols start with jdbc:postgresql:
*
* @see java.sql.Driver#acceptsURL
* @param url the URL of the driver
* @return true if this driver accepts the given URL
* @exception SQLException if a database-access error occurs
* (Dont know why it would *shrug*)
*/
public boolean acceptsURL(String url) throws SQLException
{
if(parseURL(url,null)==null)
return false;
return true;
}
/**
* The getPropertyInfo method is intended to allow a generic GUI
* tool to discover what properties it should prompt a human for
* in order to get enough information to connect to a database.
* Note that depending on the values the human has supplied so
* far, additional values may become necessary, so it may be necessary
* to iterate through several calls to getPropertyInfo
*
* @param url the Url of the database to connect to
* @param info a proposed list of tag/value pairs that will be sent on
* connect open.
* @return An array of DriverPropertyInfo objects describing
* possible properties. This array may be an empty array if
* no properties are required
* @exception SQLException if a database-access error occurs
* @see java.sql.Driver#getPropertyInfo
*/
public DriverPropertyInfo[] getPropertyInfo(String url, Properties info) throws SQLException
{
return null; // We don't need anything except
// the username, which is a default
}
/**
* Gets the drivers major version number
*
* @return the drivers major version number
*/
public int getMajorVersion()
{
return MAJORVERSION;
}
/**
* Get the drivers minor version number
*
* @return the drivers minor version number
*/
public int getMinorVersion()
{
return MINORVERSION;
}
/**
* Report whether the driver is a genuine JDBC compliant driver. A
* driver may only report "true" here if it passes the JDBC compliance
* tests, otherwise it is required to return false. JDBC compliance
* requires full support for the JDBC API and full support for SQL 92
* Entry Level.
*/
public boolean jdbcCompliant()
{
return false;
}
private Properties props;
static private String[] protocols = { "jdbc","postgresql" };
/**
* Constructs a new DriverURL, splitting the specified URL into its
* component parts
*/
Properties parseURL(String url,Properties defaults) throws SQLException
{
int state = -1;
Properties urlProps = new Properties(defaults);
String key = new String();
String value = new String();
StringTokenizer st = new StringTokenizer(url, ":/;=&?", true);
for (int count = 0; (st.hasMoreTokens()); count++) {
String token = st.nextToken();
// PM June 29 1997
// Added this, to help me understand how this works.
// Unless you want each token to be processed, leave this commented out
// but don't delete it.
//DriverManager.println("wellFormedURL: state="+state+" count="+count+" token='"+token+"'");
// PM Aug 2 1997 - Modified to allow multiple backends
if (count <= 3) {
if ((count % 2) == 1 && token.equals(":"))
;
else if((count % 2) == 0) {
boolean found=(count==0)?true:false;
for(int tmp=0;tmp<protocols.length;tmp++) {
if(token.equals(protocols[tmp])) {
// PM June 29 1997 Added this property to enable the driver
// to handle multiple backend protocols.
if(count == 2 && tmp > 0) {
urlProps.put("Protocol",token);
found=true;
}
}
}
if(found == false)
return null;
} else return null;
}
else if (count > 3) {
if (count == 4 && token.equals("/")) state = 0;
else if (count == 4) {
urlProps.put("PGDBNAME", token);
state = -2;
}
/**
* Construct a new driver and register it with DriverManager
*
* @exception SQLException for who knows what!
*/
public Driver() throws SQLException
{
java.sql.DriverManager.registerDriver(this);
else if (count == 5 && state == 0 && token.equals("/"))
state = 1;
else if (count == 5 && state == 0)
return null;
else if (count == 6 && state == 1)
urlProps.put("PGHOST", token);
else if (count == 7 && token.equals(":")) state = 2;
else if (count == 8 && state == 2) {
try {
Integer portNumber = Integer.decode(token);
urlProps.put("PGPORT", portNumber.toString());
} catch (Exception e) {
return null;
}
}
/**
* Try to make a database connection to the given URL. The driver
* should return "null" if it realizes it is the wrong kind of
* driver to connect to the given URL. This will be common, as
* when the JDBC driverManager is asked to connect to a given URL,
* it passes the URL to each loaded driver in turn.
*
* The driver should raise an SQLException if it is the right driver
* to connect to the given URL, but has trouble connecting to the
* database.
*
* The java.util.Properties argument can be used to pass arbitrary
* string tag/value pairs as connection arguments. Normally, at least
* "user" and "password" properties should be included in the
* properties.
*
* Our protocol takes the form:
* <PRE>
* jdbc:postgresql://host:port/database
* </PRE>
*
* @param url the URL of the database to connect to
* @param info a list of arbitrary tag/value pairs as connection
* arguments
* @return a connection to the URL or null if it isnt us
* @exception SQLException if a database access error occurs
* @see java.sql.Driver#connect
*/
public java.sql.Connection connect(String url, Properties info) throws SQLException
{
DriverURL dr = new DriverURL(url);
int port;
if (!(dr.protocol().equals("jdbc")))
return null;
if (!(dr.subprotocol().equals("postgresql")))
return null;
if (dr.host().equals("unknown"))
return null;
port = dr.port();
if (port == -1)
port = 5432; // Default PostgreSQL port
return new Connection (dr.host(), port, info, dr.database(), url, this);
else if ((count == 7 || count == 9) &&
(state == 1 || state == 2) && token.equals("/"))
state = -1;
else if (state == -1) {
urlProps.put("PGDBNAME", token);
state = -2;
}
/**
* Returns true if the driver thinks it can open a connection to the
* given URL. Typically, drivers will return true if they understand
* the subprotocol specified in the URL and false if they don't. Our
* protocols start with jdbc:postgresql:
*
* @see java.sql.Driver#acceptsURL
* @param url the URL of the driver
* @return true if this driver accepts the given URL
* @exception SQLException if a database-access error occurs
* (Dont know why it would *shrug*)
*/
public boolean acceptsURL(String url) throws SQLException
{
DriverURL dr = new DriverURL(url);
if (dr.protocol().equals("jdbc"))
if (dr.subprotocol().equals("postgresql"))
return true;
return false;
else if (state <= -2 && (count % 2) == 1) {
// PM Aug 2 1997 - added tests for ? and &
if (token.equals(";") || token.equals("?") || token.equals("&") ) state = -3;
else if (token.equals("=")) state = -5;
}
/**
* The getPropertyInfo method is intended to allow a generic GUI
* tool to discover what properties it should prompt a human for
* in order to get enough information to connect to a database.
* Note that depending on the values the human has supplied so
* far, additional values may become necessary, so it may be necessary
* to iterate through several calls to getPropertyInfo
*
* @param url the Url of the database to connect to
* @param info a proposed list of tag/value pairs that will be sent on
* connect open.
* @return An array of DriverPropertyInfo objects describing
* possible properties. This array may be an empty array if
* no properties are required
* @exception SQLException if a database-access error occurs
* @see java.sql.Driver#getPropertyInfo
*/
public DriverPropertyInfo[] getPropertyInfo(String url, Properties info) throws SQLException
{
return null; // We don't need anything except
// the username, which is a default
}
/**
* Gets the drivers major version number
*
* @return the drivers major version number
*/
public int getMajorVersion()
{
return 1;
}
/**
* Get the drivers minor version number
*
* @return the drivers minor version number
*/
public int getMinorVersion()
{
return 0;
}
/**
* Report whether the driver is a genuine JDBC compliant driver. A
* driver may only report "true" here if it passes the JDBC compliance
* tests, otherwise it is required to return false. JDBC compliance
* requires full support for the JDBC API and full support for SQL 92
* Entry Level.
*/
public boolean jdbcCompliant()
{
return false;
else if (state <= -2 && (count % 2) == 0) {
if (state == -3) key = token;
else if (state == -5) {
value = token;
//DriverManager.println("put("+key+","+value+")");
urlProps.put(key, value);
state = -2;
}
}
}
}
// PM June 29 1997
// This now outputs the properties only if we are logging
if(DriverManager.getLogStream() != null)
urlProps.list(DriverManager.getLogStream());
return urlProps;
}
/**
* Returns the hostname portion of the URL
*/
public String host()
{
return props.getProperty("PGHOST","localhost");
}
/**
* Returns the port number portion of the URL
* or -1 if no port was specified
*/
public int port()
{
return Integer.parseInt(props.getProperty("PGPORT","5432"));
}
/**
* Returns the database name of the URL
*/
public String database()
{
return props.getProperty("PGDBNAME");
}
/**
* Returns any property
*/
public String property(String name)
{
return props.getProperty(name);
}
}
/**
* The DriverURL class splits a JDBC URL into its subcomponents
*
* protocol:subprotocol:/[/host[:port]/][database]
*/
class DriverURL
{
private String protocol, subprotocol, host, database;
private int port = -1;
/**
* Constructs a new DriverURL, splitting the specified URL into its
* component parts
*/
public DriverURL(String url) throws SQLException
{
int a, b, c;
String tmp, hostport, dbportion;
a = url.indexOf(':');
if (a == -1)
throw new SQLException("Bad URL Protocol specifier");
b = url.indexOf(':', a+1);
if (b == -1)
throw new SQLException("Bad URL Subprotocol specifier");
protocol = new String(url.substring(0, a));
subprotocol = new String(url.substring(a+1, b));
tmp = new String(url.substring(b+1, url.length()));
if (tmp.length() < 2)
throw new SQLException("Bad URL Database specifier");
if (!tmp.substring(0, 2).equals("//"))
{
host = new String("unknown");
port = -1;
database = new String(tmp.substring(1, tmp.length()));
return;
}
dbportion = new String(tmp.substring(2, tmp.length()));
c = dbportion.indexOf('/');
if (c == -1)
throw new SQLException("Bad URL Database specifier");
a = dbportion.indexOf(':');
if (a == -1)
{
host = new String(dbportion.substring(0, c));
port = -1;
database = new String(dbportion.substring(c+1, dbportion.length()));
} else {
host = new String(dbportion.substring(0, a));
port = Integer.valueOf(dbportion.substring(a+1, c)).intValue();
database = new String(dbportion.substring(c+1, dbportion.length()));
}
}
/**
* Returns the protocol name of the DriverURL
*/
public String protocol()
{
return protocol;
}
/**
* Returns the subprotocol name of the DriverURL
*/
public String subprotocol()
{
return subprotocol;
}
/**
* Returns the hostname portion of the URL
*/
public String host()
{
return host;
}
/**
* Returns the port number portion of the URL
* or -1 if no port was specified
*/
public int port()
{
return port;
}
/**
* Returns the database name of the URL
*/
public String database()
{
return database;
}
}

160
src/interfaces/jdbc/postgresql/Field.java
View File

@ -13,77 +13,91 @@ import postgresql.*;
*/
public class Field
{
int length; // Internal Length of this field
int oid; // OID of the type
Connection conn; // Connection Instantation
String name; // Name of this field
int sql_type = -1; // The entry in java.sql.Types for this field
String type_name = null;// The sql type name
/**
* Construct a field based on the information fed to it.
*
* @param conn the connection this field came from
* @param name the name of the field
* @param oid the OID of the field
* @param len the length of the field
*/
public Field(Connection conn, String name, int oid, int length)
{
this.conn = conn;
this.name = name;
this.oid = oid;
this.length = length;
}
/**
* the ResultSet and ResultMetaData both need to handle the SQL
* type, which is gained from another query. Note that we cannot
* use getObject() in this, since getObject uses getSQLType().
*
* @return the entry in Types that refers to this field
* @exception SQLException if a database access error occurs
*/
public int getSQLType() throws SQLException
{
if (sql_type == -1)
{
ResultSet result = (postgresql.ResultSet)conn.ExecSQL("select typname from pg_type where oid = " + oid);
if (result.getColumnCount() != 1 || result.getTupleCount() != 1)
throw new SQLException("Unexpected return from query for type");
result.next();
type_name = result.getString(1);
if (type_name.equals("int2")) sql_type = Types.SMALLINT;
else if (type_name.equals("int4")) sql_type = Types.INTEGER;
else if (type_name.equals("int8")) sql_type = Types.BIGINT;
else if (type_name.equals("cash")) sql_type = Types.DECIMAL;
else if (type_name.equals("money")) sql_type = Types.DECIMAL;
else if (type_name.equals("float4")) sql_type = Types.REAL;
else if (type_name.equals("float8")) sql_type = Types.DOUBLE;
else if (type_name.equals("bpchar")) sql_type = Types.CHAR;
else if (type_name.equals("varchar")) sql_type = Types.VARCHAR;
else if (type_name.equals("bool")) sql_type = Types.BIT;
else if (type_name.equals("date")) sql_type = Types.DATE;
else if (type_name.equals("time")) sql_type = Types.TIME;
else if (type_name.equals("abstime")) sql_type = Types.TIMESTAMP;
else sql_type = Types.OTHER;
}
return sql_type;
}
/**
* We also need to get the type name as returned by the back end.
* This is held in type_name AFTER a call to getSQLType. Since
* we get this information within getSQLType (if it isn't already
* done), we can just call getSQLType and throw away the result.
*
* @return the String representation of the type of this field
* @exception SQLException if a database access error occurs
*/
public String getTypeName() throws SQLException
{
int sql = getSQLType();
return type_name;
}
int length; // Internal Length of this field
int oid; // OID of the type
Connection conn; // Connection Instantation
String name; // Name of this field
int sql_type = -1; // The entry in java.sql.Types for this field
String type_name = null;// The sql type name
/**
* Construct a field based on the information fed to it.
*
* @param conn the connection this field came from
* @param name the name of the field
* @param oid the OID of the field
* @param len the length of the field
*/
public Field(Connection conn, String name, int oid, int length)
{
this.conn = conn;
this.name = name;
this.oid = oid;
this.length = length;
}
/**
* the ResultSet and ResultMetaData both need to handle the SQL
* type, which is gained from another query. Note that we cannot
* use getObject() in this, since getObject uses getSQLType().
*
* @return the entry in Types that refers to this field
* @exception SQLException if a database access error occurs
*/
public int getSQLType() throws SQLException
{
if (sql_type == -1)
{
ResultSet result = (postgresql.ResultSet)conn.ExecSQL("select typname from pg_type where oid = " + oid);
if (result.getColumnCount() != 1 || result.getTupleCount() != 1)
throw new SQLException("Unexpected return from query for type");
result.next();
type_name = result.getString(1);
if (type_name.equals("int2"))
sql_type = Types.SMALLINT;
else if (type_name.equals("int4"))
sql_type = Types.INTEGER;
else if (type_name.equals("int8"))
sql_type = Types.BIGINT;
else if (type_name.equals("cash"))
sql_type = Types.DECIMAL;
else if (type_name.equals("money"))
sql_type = Types.DECIMAL;
else if (type_name.equals("float4"))
sql_type = Types.REAL;
else if (type_name.equals("float8"))
sql_type = Types.DOUBLE;
else if (type_name.equals("bpchar"))
sql_type = Types.CHAR;
else if (type_name.equals("varchar"))
sql_type = Types.VARCHAR;
else if (type_name.equals("bool"))
sql_type = Types.BIT;
else if (type_name.equals("date"))
sql_type = Types.DATE;
else if (type_name.equals("time"))
sql_type = Types.TIME;
else if (type_name.equals("abstime"))
sql_type = Types.TIMESTAMP;
else
sql_type = Types.OTHER;
}
return sql_type;
}
/**
* We also need to get the type name as returned by the back end.
* This is held in type_name AFTER a call to getSQLType. Since
* we get this information within getSQLType (if it isn't already
* done), we can just call getSQLType and throw away the result.
*
* @return the String representation of the type of this field
* @exception SQLException if a database access error occurs
*/
public String getTypeName() throws SQLException
{
int sql = getSQLType();
return type_name;
}
}

142
src/interfaces/jdbc/postgresql/PG_Object.java
View File

@ -14,18 +14,132 @@ import postgresql.*;
*/
public class PG_Object
{
public String type;
public String value;
/**
* Constructor for the PostgreSQL generic object
*
* @param type a string describing the type of the object
* @param value a string representation of the value of the object
*/
public PG_Object(String type, String value)
{
this.type = type;
this.value = value;
}
public String type;
public String value;
/**
* Constructor for the PostgreSQL generic object
*
* @param type a string describing the type of the object
* @param value a string representation of the value of the object
*/
public PG_Object(String type, String value) throws SQLException
{
this.type = type;
this.value = value;
}
/**
* This returns true if the object is a 'box'
*/
public boolean isBox()
{
return type.equals("box");
}
/**
* This returns a PGbox object, or null if it's not
* @return PGbox
*/
public PGbox getBox() throws SQLException
{
if(isBox())
return new PGbox(value);
return null;
}
/**
* This returns true if the object is a 'point'
*/
public boolean isCircle()
{
return type.equals("circle");
}
/**
* This returns a PGcircle object, or null if it's not
* @return PGcircle
*/
public PGcircle getCircle() throws SQLException
{
if(isCircle())
return new PGcircle(value);
return null;
}
/**
* This returns true if the object is a 'lseg' (line segment)
*/
public boolean isLseg()
{
return type.equals("lseg");
}
/**
* This returns a PGlsegobject, or null if it's not
* @return PGlseg
*/
public PGlseg getLseg() throws SQLException
{
if(isLseg())
return new PGlseg(value);
return null;
}
/**
* This returns true if the object is a 'path'
*/
public boolean isPath()
{
return type.equals("path");
}
/**
* This returns a PGpath object, or null if it's not
* @return PGpath
*/
public PGpath getPath() throws SQLException
{
if(isPath())
return new PGpath(value);
return null;
}
/**
* This returns true if the object is a 'point'
*/
public boolean isPoint()
{
return type.equals("point");
}
/**
* This returns a PGpoint object, or null if it's not
* @return PGpoint object
*/
public PGpoint getPoint() throws SQLException
{
if(isPoint())
return new PGpoint(value);
return null;
}
/**
* This returns true if the object is a 'polygon'
*/
public boolean isPolygon()
{
return type.equals("polygon");
}
/**
* This returns a PGpolygon object, or null if it's not
* @return PGpolygon
*/
public PGpolygon getPolygon() throws SQLException
{
if(isPolygon())
return new PGpolygon(value);
return null;
}
}

1580
src/interfaces/jdbc/postgresql/ResultSet.java
View File

File diff suppressed because it is too large Load Diff

821
src/interfaces/jdbc/postgresql/ResultSetMetaData.java
View File

@ -16,414 +16,415 @@ import postgresql.*;
*/
public class ResultSetMetaData implements java.sql.ResultSetMetaData
{
Vector rows;
Field[] fields;
/**
* Initialise for a result with a tuple set and
* a field descriptor set
*
* @param rows the Vector of rows returned by the ResultSet
* @param fields the array of field descriptors
*/
public ResultSetMetaData(Vector rows, Field[] fields)
{
this.rows = rows;
this.fields = fields;
}
/**
* Whats the number of columns in the ResultSet?
*
* @return the number
* @exception SQLException if a database access error occurs
*/
public int getColumnCount() throws SQLException
{
return fields.length;
}
/**
* Is the column automatically numbered (and thus read-only)
* I believe that PostgreSQL does not support this feature.
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isAutoIncrement(int column) throws SQLException
{
return false;
}
/**
* Does a column's case matter? ASSUMPTION: Any field that is
* not obviously case insensitive is assumed to be case sensitive
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isCaseSensitive(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
case Types.INTEGER:
case Types.FLOAT:
case Types.REAL:
case Types.DOUBLE:
case Types.DATE:
case Types.TIME:
case Types.TIMESTAMP:
return false;
default:
return true;
}
}
/**
* Can the column be used in a WHERE clause? Basically for
* this, I split the functions into two types: recognised
* types (which are always useable), and OTHER types (which
* may or may not be useable). The OTHER types, for now, I
* will assume they are useable. We should really query the
* catalog to see if they are useable.
*
* @param column the first column is 1, the second is 2...
* @return true if they can be used in a WHERE clause
* @exception SQLException if a database access error occurs
*/
public boolean isSearchable(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
// This switch is pointless, I know - but it is a set-up
// for further expansion.
switch (sql_type)
{
case Types.OTHER:
return true;
default:
return true;
}
}
/**
* Is the column a cash value? 6.1 introduced the cash/money
* type, which haven't been incorporated as of 970414, so I
* just check the type name for both 'cash' and 'money'
*
* @param column the first column is 1, the second is 2...
* @return true if its a cash column
* @exception SQLException if a database access error occurs
*/
public boolean isCurrency(int column) throws SQLException
{
String type_name = getField(column).getTypeName();
if (type_name.equals("cash"))
return true;
if (type_name.equals("money"))
return true;
return false;
}
/**
* Can you put a NULL in this column? I think this is always
* true in 6.1's case. It would only be false if the field had
* been defined NOT NULL (system catalogs could be queried?)
*
* @param column the first column is 1, the second is 2...
* @return one of the columnNullable values
* @exception SQLException if a database access error occurs
*/
public int isNullable(int column) throws SQLException
{
return columnNullable; // We can always put NULL in
}
/**
* Is the column a signed number? In PostgreSQL, all numbers
* are signed, so this is trivial. However, strings are not
* signed (duh!)
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isSigned(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
case Types.INTEGER:
case Types.FLOAT:
case Types.REAL:
case Types.DOUBLE:
return true;
case Types.DATE:
case Types.TIME:
case Types.TIMESTAMP:
return false; // I don't know about these?
default:
return false;
}
}
/**
* What is the column's normal maximum width in characters?
*
* @param column the first column is 1, the second is 2, etc.
* @return the maximum width
* @exception SQLException if a database access error occurs
*/
public int getColumnDisplaySize(int column) throws SQLException
{
int max = getColumnLabel(column).length();
int i;
for (i = 0 ; i < rows.size(); ++i)
{
byte[][] x = (byte[][])(rows.elementAt(i));
int xl = x[column - 1].length;
if (xl > max)
max = xl;
}
return max;
}
/**
* What is the suggested column title for use in printouts and
* displays? We suggest the ColumnName!
*
* @param column the first column is 1, the second is 2, etc.
* @return the column label
* @exception SQLException if a database access error occurs
*/
public String getColumnLabel(int column) throws SQLException
{
return getColumnName(column);
}
/**
* What's a column's name?
*
* @param column the first column is 1, the second is 2, etc.
* @return the column name
* @exception SQLException if a databvase access error occurs
*/
public String getColumnName(int column) throws SQLException
{
return getField(column).name;
}
/**
* What is a column's table's schema? This relies on us knowing
* the table name....which I don't know how to do as yet. The
* JDBC specification allows us to return "" if this is not
* applicable.
*
* @param column the first column is 1, the second is 2...
* @return the Schema
* @exception SQLException if a database access error occurs
*/
public String getSchemaName(int column) throws SQLException
{
String table_name = getTableName(column);
// If the table name is invalid, so are we.
if (table_name.equals(""))
return "";
return ""; // Ok, so I don't know how to
// do this as yet.
}
/**
* What is a column's number of decimal digits.
*
* @param column the first column is 1, the second is 2...
* @return the precision
* @exception SQLException if a database access error occurs
*/
public int getPrecision(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
return 5;
case Types.INTEGER:
return 10;
case Types.REAL:
return 8;
case Types.FLOAT:
return 16;
case Types.DOUBLE:
return 16;
default:
throw new SQLException("no precision for non-numeric data types.");
}
}
/**
* What is a column's number of digits to the right of the
* decimal point?
*
* @param column the first column is 1, the second is 2...
* @return the scale
* @exception SQLException if a database access error occurs
*/
public int getScale(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
return 0;
case Types.INTEGER:
return 0;
case Types.REAL:
return 8;
case Types.FLOAT:
return 16;
case Types.DOUBLE:
return 16;
default:
throw new SQLException("no scale for non-numeric data types");
}
}
/**
* Whats a column's table's name? How do I find this out? Both
* getSchemaName() and getCatalogName() rely on knowing the table
* Name, so we need this before we can work on them.
*
* @param column the first column is 1, the second is 2...
* @return column name, or "" if not applicable
* @exception SQLException if a database access error occurs
*/
public String getTableName(int column) throws SQLException
{
return "";
}
/**
* What's a column's table's catalog name? As with getSchemaName(),
* we can say that if getTableName() returns n/a, then we can too -
* otherwise, we need to work on it.
*
* @param column the first column is 1, the second is 2...
* @return catalog name, or "" if not applicable
* @exception SQLException if a database access error occurs
*/
public String getCatalogName(int column) throws SQLException
{
String table_name = getTableName(column);
if (table_name.equals(""))
return "";
return ""; // As with getSchemaName(), this
// is just the start of it.
}
/**
* What is a column's SQL Type? (java.sql.Type int)
*
* @param column the first column is 1, the second is 2, etc.
* @return the java.sql.Type value
* @exception SQLException if a database access error occurs
* @see postgresql.Field#getSQLType
* @see java.sql.Types
*/
public int getColumnType(int column) throws SQLException
{
return getField(column).getSQLType();
}
/**
* Whats is the column's data source specific type name?
*
* @param column the first column is 1, the second is 2, etc.
* @return the type name
* @exception SQLException if a database access error occurs
*/
public String getColumnTypeName(int column) throws SQLException
{
return getField(column).getTypeName();
}
/**
* Is the column definitely not writable? In reality, we would
* have to check the GRANT/REVOKE stuff for this to be effective,
* and I haven't really looked into that yet, so this will get
* re-visited.
*
* @param column the first column is 1, the second is 2, etc.
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isReadOnly(int column) throws SQLException
{
return false;
}
/**
* Is it possible for a write on the column to succeed? Again, we
* would in reality have to check the GRANT/REVOKE stuff, which
* I haven't worked with as yet. However, if it isn't ReadOnly, then
* it is obviously writable.
*
* @param column the first column is 1, the second is 2, etc.
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isWritable(int column) throws SQLException
{
if (isReadOnly(column))
return true;
else
return false;
}
/**
* Will a write on this column definately succeed? Hmmm...this
* is a bad one, since the two preceding functions have not been
* really defined. I cannot tell is the short answer. I thus
* return isWritable() just to give us an idea.
*
* @param column the first column is 1, the second is 2, etc..
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isDefinitelyWritable(int column) throws SQLException
{
return isWritable(column);
}
// ********************************************************
// END OF PUBLIC INTERFACE
// ********************************************************
/**
* For several routines in this package, we need to convert
* a columnIndex into a Field[] descriptor. Rather than do
* the same code several times, here it is.
*
* @param columnIndex the first column is 1, the second is 2...
* @return the Field description
* @exception SQLException if a database access error occurs
*/
private Field getField(int columnIndex) throws SQLException
{
if (columnIndex < 1 || columnIndex > fields.length)
throw new SQLException("Column index out of range");
return fields[columnIndex - 1];
}
Vector rows;
Field[] fields;
/**
* Initialise for a result with a tuple set and
* a field descriptor set
*
* @param rows the Vector of rows returned by the ResultSet
* @param fields the array of field descriptors
*/
public ResultSetMetaData(Vector rows, Field[] fields)
{
this.rows = rows;
this.fields = fields;
}
/**
* Whats the number of columns in the ResultSet?
*
* @return the number
* @exception SQLException if a database access error occurs
*/
public int getColumnCount() throws SQLException
{
return fields.length;
}
/**
* Is the column automatically numbered (and thus read-only)
* I believe that PostgreSQL does not support this feature.
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isAutoIncrement(int column) throws SQLException
{
return false;
}
/**
* Does a column's case matter? ASSUMPTION: Any field that is
* not obviously case insensitive is assumed to be case sensitive
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isCaseSensitive(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
case Types.INTEGER:
case Types.FLOAT:
case Types.REAL:
case Types.DOUBLE:
case Types.DATE:
case Types.TIME:
case Types.TIMESTAMP:
return false;
default:
return true;
}
}
/**
* Can the column be used in a WHERE clause? Basically for
* this, I split the functions into two types: recognised
* types (which are always useable), and OTHER types (which
* may or may not be useable). The OTHER types, for now, I
* will assume they are useable. We should really query the
* catalog to see if they are useable.
*
* @param column the first column is 1, the second is 2...
* @return true if they can be used in a WHERE clause
* @exception SQLException if a database access error occurs
*/
public boolean isSearchable(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
// This switch is pointless, I know - but it is a set-up
// for further expansion.
switch (sql_type)
{
case Types.OTHER:
return true;
default:
return true;
}
}
/**
* Is the column a cash value? 6.1 introduced the cash/money
* type, which haven't been incorporated as of 970414, so I
* just check the type name for both 'cash' and 'money'
*
* @param column the first column is 1, the second is 2...
* @return true if its a cash column
* @exception SQLException if a database access error occurs
*/
public boolean isCurrency(int column) throws SQLException
{
String type_name = getField(column).getTypeName();
if (type_name.equals("cash"))
return true;
if (type_name.equals("money"))
return true;
return false;
}
/**
* Can you put a NULL in this column? I think this is always
* true in 6.1's case. It would only be false if the field had
* been defined NOT NULL (system catalogs could be queried?)
*
* @param column the first column is 1, the second is 2...
* @return one of the columnNullable values
* @exception SQLException if a database access error occurs
*/
public int isNullable(int column) throws SQLException
{
return columnNullable; // We can always put NULL in
}
/**
* Is the column a signed number? In PostgreSQL, all numbers
* are signed, so this is trivial. However, strings are not
* signed (duh!)
*
* @param column the first column is 1, the second is 2...
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isSigned(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
case Types.INTEGER:
case Types.FLOAT:
case Types.REAL:
case Types.DOUBLE:
return true;
case Types.DATE:
case Types.TIME:
case Types.TIMESTAMP:
return false; // I don't know about these?
default:
return false;
}
}
/**
* What is the column's normal maximum width in characters?
*
* @param column the first column is 1, the second is 2, etc.
* @return the maximum width
* @exception SQLException if a database access error occurs
*/
public int getColumnDisplaySize(int column) throws SQLException
{
int max = getColumnLabel(column).length();
int i;
for (i = 0 ; i < rows.size(); ++i)
{
byte[][] x = (byte[][])(rows.elementAt(i));
int xl = x[column - 1].length;
if (xl > max)
max = xl;
}
return max;
}
/**
* What is the suggested column title for use in printouts and
* displays? We suggest the ColumnName!
*
* @param column the first column is 1, the second is 2, etc.
* @return the column label
* @exception SQLException if a database access error occurs
*/
public String getColumnLabel(int column) throws SQLException
{
return getColumnName(column);
}
/**
* What's a column's name?
*
* @param column the first column is 1, the second is 2, etc.
* @return the column name
* @exception SQLException if a databvase access error occurs
*/
public String getColumnName(int column) throws SQLException
{
return getField(column).name;
}
/**
* What is a column's table's schema? This relies on us knowing
* the table name....which I don't know how to do as yet. The
* JDBC specification allows us to return "" if this is not
* applicable.
*
* @param column the first column is 1, the second is 2...
* @return the Schema
* @exception SQLException if a database access error occurs
*/
public String getSchemaName(int column) throws SQLException
{
String table_name = getTableName(column);
// If the table name is invalid, so are we.
if (table_name.equals(""))
return "";
return ""; // Ok, so I don't know how to
// do this as yet.
}
/**
* What is a column's number of decimal digits.
*
* @param column the first column is 1, the second is 2...
* @return the precision
* @exception SQLException if a database access error occurs
*/
public int getPrecision(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
return 5;
case Types.INTEGER:
return 10;
case Types.REAL:
return 8;
case Types.FLOAT:
return 16;
case Types.DOUBLE:
return 16;
default:
throw new SQLException("no precision for non-numeric data types.");
}
}
/**
* What is a column's number of digits to the right of the
* decimal point?
*
* @param column the first column is 1, the second is 2...
* @return the scale
* @exception SQLException if a database access error occurs
*/
public int getScale(int column) throws SQLException
{
int sql_type = getField(column).getSQLType();
switch (sql_type)
{
case Types.SMALLINT:
return 0;
case Types.INTEGER:
return 0;
case Types.REAL:
return 8;
case Types.FLOAT:
return 16;
case Types.DOUBLE:
return 16;
default:
throw new SQLException("no scale for non-numeric data types");
}
}
/**
* Whats a column's table's name? How do I find this out? Both
* getSchemaName() and getCatalogName() rely on knowing the table
* Name, so we need this before we can work on them.
*
* @param column the first column is 1, the second is 2...
* @return column name, or "" if not applicable
* @exception SQLException if a database access error occurs
*/
public String getTableName(int column) throws SQLException
{
return "";
}
/**
* What's a column's table's catalog name? As with getSchemaName(),
* we can say that if getTableName() returns n/a, then we can too -
* otherwise, we need to work on it.
*
* @param column the first column is 1, the second is 2...
* @return catalog name, or "" if not applicable
* @exception SQLException if a database access error occurs
*/
public String getCatalogName(int column) throws SQLException
{
String table_name = getTableName(column);
if (table_name.equals(""))
return "";
return ""; // As with getSchemaName(), this
// is just the start of it.
}
/**
* What is a column's SQL Type? (java.sql.Type int)
*
* @param column the first column is 1, the second is 2, etc.
* @return the java.sql.Type value
* @exception SQLException if a database access error occurs
* @see postgresql.Field#getSQLType
* @see java.sql.Types
*/
public int getColumnType(int column) throws SQLException
{
return getField(column).getSQLType();
}
/**
* Whats is the column's data source specific type name?
*
* @param column the first column is 1, the second is 2, etc.
* @return the type name
* @exception SQLException if a database access error occurs
*/
public String getColumnTypeName(int column) throws SQLException
{
return getField(column).getTypeName();
}
/**
* Is the column definitely not writable? In reality, we would
* have to check the GRANT/REVOKE stuff for this to be effective,
* and I haven't really looked into that yet, so this will get
* re-visited.
*
* @param column the first column is 1, the second is 2, etc.
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isReadOnly(int column) throws SQLException
{
return false;
}
/**
* Is it possible for a write on the column to succeed? Again, we
* would in reality have to check the GRANT/REVOKE stuff, which
* I haven't worked with as yet. However, if it isn't ReadOnly, then
* it is obviously writable.
*
* @param column the first column is 1, the second is 2, etc.
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isWritable(int column) throws SQLException
{
if (isReadOnly(column))
return true;
else
return false;
}
/**
* Will a write on this column definately succeed? Hmmm...this
* is a bad one, since the two preceding functions have not been
* really defined. I cannot tell is the short answer. I thus
* return isWritable() just to give us an idea.
*
* @param column the first column is 1, the second is 2, etc..
* @return true if so
* @exception SQLException if a database access error occurs
*/
public boolean isDefinitelyWritable(int column) throws SQLException
{
return isWritable(column);
}
// ********************************************************
// END OF PUBLIC INTERFACE
// ********************************************************
/**
* For several routines in this package, we need to convert
* a columnIndex into a Field[] descriptor. Rather than do
* the same code several times, here it is.
*
* @param columnIndex the first column is 1, the second is 2...
* @return the Field description
* @exception SQLException if a database access error occurs
*/
private Field getField(int columnIndex) throws SQLException
{
if (columnIndex < 1 || columnIndex > fields.length)
throw new SQLException("Column index out of range");
return fields[columnIndex - 1];
}
}