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<TITLE>The POSTGRES95 User Manual - LARGE OBJECTS</TITLE>
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<H1>13. LARGE OBJECTS</H1>
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<HR>
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In POSTGRES, data values are stored in tuples and
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individual tuples cannot span data pages. Since the size of
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a data page is 8192 bytes, the upper limit on the size
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of a data value is relatively low. To support the storage
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of larger atomic values, POSTGRES provides a large
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object interface. This interface provides file
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oriented access to user data that has been declared to
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be a large type.
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This section describes the implementation and the
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programmatic and query language interfaces to POSTGRES
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large object data.
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<H2><A NAME="historical-note">13.1. Historical Note</A></H2>
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Originally, <B>POSTGRES 4.2</B> supports three standard
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implementations of large objects: as files external
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to POSTGRES, as <B>UNIX</B> files managed by POSTGRES, and as data
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stored within the POSTGRES database. It causes
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considerable confusion among users. As a result, we only
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support large objects as data stored within the POSTGRES
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database in <B>POSTGRES95</B>. Even though is is slower to
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access, it provides stricter data integrity and time
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travel. For historical reasons, they are called
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Inversion large objects. (We will use Inversion and large
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objects interchangeably to mean the same thing in this
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section.)
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<H2><A NAME="inversion-large-objects">13.2. Inversion Large Objects</A></H2>
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The Inversion large object implementation breaks large
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objects up into "chunks" and stores the chunks in
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tuples in the database. A B-tree index guarantees fast
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searches for the correct chunk number when doing random
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access reads and writes.
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<H2><A NAME="large-object-interfaces">13.3. Large Object Interfaces</A></H2>
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The facilities POSTGRES provides to access large
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objects, both in the backend as part of user-defined
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functions or the front end as part of an application
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using the interface, are described below. (For users
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familiar with <B>POSTGRES 4.2</B>, <B>POSTGRES95</B> has a new set of
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functions providing a more coherent interface. The
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interface is the same for dynamically-loaded C
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functions as well as for .
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The POSTGRES large object interface is modeled after
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the <B>UNIX</B> file system interface, with analogues of
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<B>open(2), read(2), write(2), lseek(2)</B>, etc. User
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functions call these routines to retrieve only the data of
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interest from a large object. For example, if a large
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object type called mugshot existed that stored
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photographs of faces, then a function called beard could
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be declared on mugshot data. Beard could look at the
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lower third of a photograph, and determine the color of
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the beard that appeared there, if any. The entire
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large object value need not be buffered, or even
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examined, by the beard function.
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Large objects may be accessed from dynamically-loaded <B>C</B>
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functions or database client programs that link the
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library. POSTGRES provides a set of routines that
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support opening, reading, writing, closing, and seeking on
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large objects.
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<p>
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<H3><A NAME="creating-large-objects">13.3.1. Creating a Large Object</A></H3>
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The routine
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<pre> Oid lo_creat(PGconn *conn, int mode)
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</pre>
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creates a new large object. The mode is a bitmask
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describing several different attributes of the new
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object. The symbolic constants listed here are defined
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in
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<pre> /usr/local/postgres95/src/backend/libpq/libpq-fs.h
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</pre>
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The access type (read, write, or both) is controlled by
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OR ing together the bits <B>INV_READ</B> and <B>INV_WRITE</B>. If
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the large object should be archived -- that is, if
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historical versions of it should be moved periodically to
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a special archive relation -- then the <B>INV_ARCHIVE</B> bit
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should be set. The low-order sixteen bits of mask are
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the storage manager number on which the large object
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should reside. For sites other than Berkeley, these
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bits should always be zero.
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The commands below create an (Inversion) large object:
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<pre> inv_oid = lo_creat(INV_READ|INV_WRITE|INV_ARCHIVE);
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</pre>
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<H3><A NAME="importing-a-large-object">13.3.2. Importing a Large Object</A></H3>
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To import a <B>UNIX</B> file as
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a large object, call
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<pre> Oid
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lo_import(PGconn *conn, text *filename)
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</pre>
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The filename argument specifies the <B>UNIX</B> pathname of
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the file to be imported as a large object.
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<p>
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<H3><A NAME="exporting-a-large-object">13.3.3. Exporting a Large Object</A></H3>
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To export a large object
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into <B>UNIX</B> file, call
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<pre> int
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lo_export(PGconn *conn, Oid lobjId, text *filename)
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</pre>
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The lobjId argument specifies the Oid of the large
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object to export and the filename argument specifies
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the <B>UNIX</B> pathname of the file.
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<p>
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<H3><A NAME="opening-an-existing-large-object">13.3.4. Opening an Existing Large Object</A></H3>
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To open an existing large object, call
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<pre> int
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lo_open(PGconn *conn, Oid lobjId, int mode, ...)
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</pre>
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The lobjId argument specifies the Oid of the large
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object to open. The mode bits control whether the
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object is opened for reading INV_READ), writing or
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both.
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A large object cannot be opened before it is created.
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lo_open returns a large object descriptor for later use
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in lo_read, lo_write, lo_lseek, lo_tell, and lo_close.
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<p>
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<H3><A NAME="writing-data-to-a-large-object">13.3.5. Writing Data to a Large Object</A></H3>
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The routine
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<pre> int
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lo_write(PGconn *conn, int fd, char *buf, int len)
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</pre>
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writes len bytes from buf to large object fd. The fd
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argument must have been returned by a previous lo_open.
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The number of bytes actually written is returned. In
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the event of an error, the return value is negative.
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<p>
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<H3><A NAME="seeking-on-a-large-object">13.3.6. Seeking on a Large Object</A></H3>
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To change the current read or write location on a large
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object, call
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<pre> int
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lo_lseek(PGconn *conn, int fd, int offset, int whence)
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</pre>
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This routine moves the current location pointer for the
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large object described by fd to the new location specified
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by offset. The valid values for .i whence are
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SEEK_SET SEEK_CUR and SEEK_END.
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<p>
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<H3><A NAME="closing-a-large-object-descriptor">13.3.7. Closing a Large Object Descriptor</A></H3>
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A large object may be closed by calling
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<pre> int
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lo_close(PGconn *conn, int fd)
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</pre>
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where fd is a large object descriptor returned by
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lo_open. On success, <B>lo_close</B> returns zero. On error,
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the return value is negative.
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<H2><A NAME="built-in-registered-functions">13.4. Built in registered functions</A></H2>
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There are two built-in registered functions, <B>lo_import</B>
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and <B>lo_export</B> which are convenient for use in <B>SQL</B>
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queries.
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Here is an example of there use
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<pre> CREATE TABLE image (
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name text,
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raster oid
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);
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INSERT INTO image (name, raster)
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VALUES ('beautiful image', lo_import('/etc/motd'));
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SELECT lo_export(image.raster, "/tmp/motd") from image
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WHERE name = 'beautiful image';
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</pre>
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<H2><A NAME="accessing-large-objects-from-libpq">13.5. Accessing Large Objects from LIBPQ</A></H2>
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Below is a sample program which shows how the large object
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interface
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in LIBPQ can be used. Parts of the program are
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commented out but are left in the source for the readers
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benefit. This program can be found in
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<pre> ../src/test/examples
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</pre>
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Frontend applications which use the large object interface
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in LIBPQ should include the header file
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libpq/libpq-fs.h and link with the libpq library.
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<H2><A NAME="sample-program">13.6. Sample Program</A></H2>
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<pre> /*--------------------------------------------------------------
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*
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* testlo.c--
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* test using large objects with libpq
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*
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* Copyright (c) 1994, Regents of the University of California
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*
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*
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* IDENTIFICATION
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* /usr/local/devel/pglite/cvs/src/doc/manual.me,v 1.16 1995/09/01 23:55:00 jolly Exp
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*
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*--------------------------------------------------------------
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*/
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#include <stdio.h>
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#include "libpq-fe.h"
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#include "libpq/libpq-fs.h"
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<p>
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#define BUFSIZE 1024
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<p>
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/*
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* importFile * import file "in_filename" into database as large object "lobjOid"
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*
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*/
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Oid importFile(PGconn *conn, char *filename)
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{
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Oid lobjId;
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int lobj_fd;
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char buf[BUFSIZE];
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int nbytes, tmp;
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int fd;
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<p>
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/*
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* open the file to be read in
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*/
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fd = open(filename, O_RDONLY, 0666);
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if (fd < 0) { /* error */
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fprintf(stderr, "can't open unix file
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}
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<p>
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/*
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* create the large object
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*/
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lobjId = lo_creat(conn, INV_READ|INV_WRITE);
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if (lobjId == 0) {
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fprintf(stderr, "can't create large object");
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}
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<p>
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lobj_fd = lo_open(conn, lobjId, INV_WRITE);
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/*
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* read in from the Unix file and write to the inversion file
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*/
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while ((nbytes = read(fd, buf, BUFSIZE)) > 0) {
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tmp = lo_write(conn, lobj_fd, buf, nbytes);
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if (tmp < nbytes) {
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fprintf(stderr, "error while reading
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}
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}
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<p>
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(void) close(fd);
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(void) lo_close(conn, lobj_fd);
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<p>
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return lobjId;
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}
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<p>
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void pickout(PGconn *conn, Oid lobjId, int start, int len)
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{
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int lobj_fd;
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char* buf;
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int nbytes;
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int nread;
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<p>
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lobj_fd = lo_open(conn, lobjId, INV_READ);
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if (lobj_fd < 0) {
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fprintf(stderr,"can't open large object %d",
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lobjId);
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}
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<p>
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lo_lseek(conn, lobj_fd, start, SEEK_SET);
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buf = malloc(len+1);
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<p>
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nread = 0;
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while (len - nread > 0) {
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nbytes = lo_read(conn, lobj_fd, buf, len - nread);
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buf[nbytes] = ' ';
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fprintf(stderr,">>> %s", buf);
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nread += nbytes;
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}
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fprintf(stderr,"0);
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lo_close(conn, lobj_fd);
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}
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<p>
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void overwrite(PGconn *conn, Oid lobjId, int start, int len)
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{
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int lobj_fd;
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char* buf;
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int nbytes;
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int nwritten;
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int i;
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<p>
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lobj_fd = lo_open(conn, lobjId, INV_READ);
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if (lobj_fd < 0) {
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fprintf(stderr,"can't open large object %d",
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lobjId);
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}
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<p>
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lo_lseek(conn, lobj_fd, start, SEEK_SET);
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buf = malloc(len+1);
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<p>
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for (i=0;i<len;i++)
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buf[i] = 'X';
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buf[i] = ' ';
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<p>
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nwritten = 0;
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while (len - nwritten > 0) {
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nbytes = lo_write(conn, lobj_fd, buf + nwritten, len - nwritten);
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nwritten += nbytes;
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}
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fprintf(stderr,"0);
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lo_close(conn, lobj_fd);
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}
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<p>
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/*
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* exportFile * export large object "lobjOid" to file "out_filename"
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*
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*/
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void exportFile(PGconn *conn, Oid lobjId, char *filename)
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{
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int lobj_fd;
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char buf[BUFSIZE];
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int nbytes, tmp;
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int fd;
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<p>
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/*
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* create an inversion "object"
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*/
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lobj_fd = lo_open(conn, lobjId, INV_READ);
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if (lobj_fd < 0) {
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fprintf(stderr,"can't open large object %d",
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lobjId);
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}
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<p>
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/*
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* open the file to be written to
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*/
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fd = open(filename, O_CREAT|O_WRONLY, 0666);
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if (fd < 0) { /* error */
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fprintf(stderr, "can't open unix file
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filename);
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}
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<p>
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/*
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* read in from the Unix file and write to the inversion file
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*/
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while ((nbytes = lo_read(conn, lobj_fd, buf, BUFSIZE)) > 0) {
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tmp = write(fd, buf, nbytes);
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if (tmp < nbytes) {
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fprintf(stderr,"error while writing
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filename);
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}
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}
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<p>
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(void) lo_close(conn, lobj_fd);
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(void) close(fd);
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<p>
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return;
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}
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<p>
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void
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exit_nicely(PGconn* conn)
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{
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PQfinish(conn);
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exit(1);
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}
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<p>
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int
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main(int argc, char **argv)
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{
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char *in_filename, *out_filename;
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char *database;
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Oid lobjOid;
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PGconn *conn;
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PGresult *res;
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<p>
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if (argc != 4) {
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fprintf(stderr, "Usage: %s database_name in_filename out_filename0,
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argv[0]);
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exit(1);
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}
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<p>
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database = argv[1];
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in_filename = argv[2];
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out_filename = argv[3];
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<p>
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/*
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* set up the connection
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*/
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conn = PQsetdb(NULL, NULL, NULL, NULL, database);
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<p>
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/* check to see that the backend connection was successfully made */
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if (PQstatus(conn) == CONNECTION_BAD) {
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fprintf(stderr,"Connection to database '%s' failed.0, database);
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fprintf(stderr,"%s",PQerrorMessage(conn));
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exit_nicely(conn);
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}
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<p>
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res = PQexec(conn, "begin");
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PQclear(res);
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printf("importing file
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/* lobjOid = importFile(conn, in_filename); */
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lobjOid = lo_import(conn, in_filename);
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/*
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printf("as large object %d.0, lobjOid);
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<p>
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printf("picking out bytes 1000-2000 of the large object0);
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pickout(conn, lobjOid, 1000, 1000);
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<p>
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printf("overwriting bytes 1000-2000 of the large object with X's0);
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overwrite(conn, lobjOid, 1000, 1000);
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*/
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<p>
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printf("exporting large object to file
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/* exportFile(conn, lobjOid, out_filename); */
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lo_export(conn, lobjOid,out_filename);
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<p>
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res = PQexec(conn, "end");
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PQclear(res);
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PQfinish(conn);
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exit(0);
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}
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</pre>
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<HR>
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<font size=-1>
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