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<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN" "http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd"><html xmlns="http://www.w3.org/1999/xhtml"><head><meta http-equiv="Content-Type" content="text/html; charset=UTF-8" /><title>36.7. Using Descriptor Areas</title><link rel="stylesheet" type="text/css" href="stylesheet.css" /><link rev="made" href="pgsql-docs@lists.postgresql.org" /><meta name="generator" content="DocBook XSL Stylesheets Vsnapshot" /><link rel="prev" href="ecpg-pgtypes.html" title="36.6. pgtypes Library" /><link rel="next" href="ecpg-errors.html" title="36.8. Error Handling" /></head><body><div xmlns="http://www.w3.org/TR/xhtml1/transitional" class="navheader"><table width="100%" summary="Navigation header"><tr><th colspan="5" align="center">36.7. Using Descriptor Areas</th></tr><tr><td width="10%" align="left"><a accesskey="p" href="ecpg-pgtypes.html" title="36.6. pgtypes Library">Prev</a> </td><td width="10%" align="left"><a accesskey="u" href="ecpg.html" title="Chapter 36. ECPG - Embedded SQL in C">Up</a></td><th width="60%" align="center">Chapter 36. <span xmlns="http://www.w3.org/1999/xhtml" class="application">ECPG</span> - Embedded <acronym xmlns="http://www.w3.org/1999/xhtml" class="acronym">SQL</acronym> in C</th><td width="10%" align="right"><a accesskey="h" href="index.html" title="PostgreSQL 11.5 Documentation">Home</a></td><td width="10%" align="right"> <a accesskey="n" href="ecpg-errors.html" title="36.8. Error Handling">Next</a></td></tr></table><hr></hr></div><div class="sect1" id="ECPG-DESCRIPTORS"><div class="titlepage"><div><div><h2 class="title" style="clear: both">36.7. Using Descriptor Areas</h2></div></div></div><div class="toc"><dl class="toc"><dt><span class="sect2"><a href="ecpg-descriptors.html#ECPG-NAMED-DESCRIPTORS">36.7.1. Named SQL Descriptor Areas</a></span></dt><dt><span class="sect2"><a href="ecpg-descriptors.html#ECPG-SQLDA-DESCRIPTORS">36.7.2. SQLDA Descriptor Areas</a></span></dt></dl></div><p>
An SQL descriptor area is a more sophisticated method for processing
the result of a <code class="command">SELECT</code>, <code class="command">FETCH</code> or
a <code class="command">DESCRIBE</code> statement. An SQL descriptor area groups
the data of one row of data together with metadata items into one
data structure. The metadata is particularly useful when executing
dynamic SQL statements, where the nature of the result columns might
not be known ahead of time. PostgreSQL provides two ways to use
Descriptor Areas: the named SQL Descriptor Areas and the C-structure
SQLDAs.
</p><div class="sect2" id="ECPG-NAMED-DESCRIPTORS"><div class="titlepage"><div><div><h3 class="title">36.7.1. Named SQL Descriptor Areas</h3></div></div></div><p>
A named SQL descriptor area consists of a header, which contains
information concerning the entire descriptor, and one or more item
descriptor areas, which basically each describe one column in the
result row.
</p><p>
Before you can use an SQL descriptor area, you need to allocate one:
</p><pre class="programlisting">
EXEC SQL ALLOCATE DESCRIPTOR <em class="replaceable"><code>identifier</code></em>;
</pre><p>
The identifier serves as the <span class="quote">“<span class="quote">variable name</span>”</span> of the
descriptor area.
When you don't need the descriptor anymore, you should deallocate
it:
</p><pre class="programlisting">
EXEC SQL DEALLOCATE DESCRIPTOR <em class="replaceable"><code>identifier</code></em>;
</pre><p>
</p><p>
To use a descriptor area, specify it as the storage target in an
<code class="literal">INTO</code> clause, instead of listing host variables:
</p><pre class="programlisting">
EXEC SQL FETCH NEXT FROM mycursor INTO SQL DESCRIPTOR mydesc;
</pre><p>
If the result set is empty, the Descriptor Area will still contain
the metadata from the query, i.e. the field names.
</p><p>
For not yet executed prepared queries, the <code class="command">DESCRIBE</code>
statement can be used to get the metadata of the result set:
</p><pre class="programlisting">
EXEC SQL BEGIN DECLARE SECTION;
char *sql_stmt = "SELECT * FROM table1";
EXEC SQL END DECLARE SECTION;
EXEC SQL PREPARE stmt1 FROM :sql_stmt;
EXEC SQL DESCRIBE stmt1 INTO SQL DESCRIPTOR mydesc;
</pre><p>
</p><p>
Before PostgreSQL 9.0, the <code class="literal">SQL</code> keyword was optional,
so using <code class="literal">DESCRIPTOR</code> and <code class="literal">SQL DESCRIPTOR</code>
produced named SQL Descriptor Areas. Now it is mandatory, omitting
the <code class="literal">SQL</code> keyword produces SQLDA Descriptor Areas,
see <a class="xref" href="ecpg-descriptors.html#ECPG-SQLDA-DESCRIPTORS" title="36.7.2. SQLDA Descriptor Areas">Section 36.7.2</a>.
</p><p>
In <code class="command">DESCRIBE</code> and <code class="command">FETCH</code> statements,
the <code class="literal">INTO</code> and <code class="literal">USING</code> keywords can be
used to similarly: they produce the result set and the metadata in a
Descriptor Area.
</p><p>
Now how do you get the data out of the descriptor area? You can
think of the descriptor area as a structure with named fields. To
retrieve the value of a field from the header and store it into a
host variable, use the following command:
</p><pre class="programlisting">
EXEC SQL GET DESCRIPTOR <em class="replaceable"><code>name</code></em> :<em class="replaceable"><code>hostvar</code></em> = <em class="replaceable"><code>field</code></em>;
</pre><p>
Currently, there is only one header field defined:
<em class="replaceable"><code>COUNT</code></em>, which tells how many item
descriptor areas exist (that is, how many columns are contained in
the result). The host variable needs to be of an integer type. To
get a field from the item descriptor area, use the following
command:
</p><pre class="programlisting">
EXEC SQL GET DESCRIPTOR <em class="replaceable"><code>name</code></em> VALUE <em class="replaceable"><code>num</code></em> :<em class="replaceable"><code>hostvar</code></em> = <em class="replaceable"><code>field</code></em>;
</pre><p>
<em class="replaceable"><code>num</code></em> can be a literal integer or a host
variable containing an integer. Possible fields are:
</p><div class="variablelist"><dl class="variablelist"><dt><span class="term"><code class="literal">CARDINALITY</code> (integer)</span></dt><dd><p>
number of rows in the result set
</p></dd><dt><span class="term"><code class="literal">DATA</code></span></dt><dd><p>
actual data item (therefore, the data type of this field
depends on the query)
</p></dd><dt><span class="term"><code class="literal">DATETIME_INTERVAL_CODE</code> (integer)</span></dt><dd><p>
When <code class="literal">TYPE</code> is <code class="literal">9</code>,
<code class="literal">DATETIME_INTERVAL_CODE</code> will have a value of
<code class="literal">1</code> for <code class="literal">DATE</code>,
<code class="literal">2</code> for <code class="literal">TIME</code>,
<code class="literal">3</code> for <code class="literal">TIMESTAMP</code>,
<code class="literal">4</code> for <code class="literal">TIME WITH TIME ZONE</code>, or
<code class="literal">5</code> for <code class="literal">TIMESTAMP WITH TIME ZONE</code>.
</p></dd><dt><span class="term"><code class="literal">DATETIME_INTERVAL_PRECISION</code> (integer)</span></dt><dd><p>
not implemented
</p></dd><dt><span class="term"><code class="literal">INDICATOR</code> (integer)</span></dt><dd><p>
the indicator (indicating a null value or a value truncation)
</p></dd><dt><span class="term"><code class="literal">KEY_MEMBER</code> (integer)</span></dt><dd><p>
not implemented
</p></dd><dt><span class="term"><code class="literal">LENGTH</code> (integer)</span></dt><dd><p>
length of the datum in characters
</p></dd><dt><span class="term"><code class="literal">NAME</code> (string)</span></dt><dd><p>
name of the column
</p></dd><dt><span class="term"><code class="literal">NULLABLE</code> (integer)</span></dt><dd><p>
not implemented
</p></dd><dt><span class="term"><code class="literal">OCTET_LENGTH</code> (integer)</span></dt><dd><p>
length of the character representation of the datum in bytes
</p></dd><dt><span class="term"><code class="literal">PRECISION</code> (integer)</span></dt><dd><p>
precision (for type <code class="type">numeric</code>)
</p></dd><dt><span class="term"><code class="literal">RETURNED_LENGTH</code> (integer)</span></dt><dd><p>
length of the datum in characters
</p></dd><dt><span class="term"><code class="literal">RETURNED_OCTET_LENGTH</code> (integer)</span></dt><dd><p>
length of the character representation of the datum in bytes
</p></dd><dt><span class="term"><code class="literal">SCALE</code> (integer)</span></dt><dd><p>
scale (for type <code class="type">numeric</code>)
</p></dd><dt><span class="term"><code class="literal">TYPE</code> (integer)</span></dt><dd><p>
numeric code of the data type of the column
</p></dd></dl></div><p>
</p><p>
In <code class="command">EXECUTE</code>, <code class="command">DECLARE</code> and <code class="command">OPEN</code>
statements, the effect of the <code class="literal">INTO</code> and <code class="literal">USING</code>
keywords are different. A Descriptor Area can also be manually built to
provide the input parameters for a query or a cursor and
<code class="literal">USING SQL DESCRIPTOR <em class="replaceable"><code>name</code></em></code>
is the way to pass the input parameters into a parameterized query. The statement
to build a named SQL Descriptor Area is below:
</p><pre class="programlisting">
EXEC SQL SET DESCRIPTOR <em class="replaceable"><code>name</code></em> VALUE <em class="replaceable"><code>num</code></em> <em class="replaceable"><code>field</code></em> = :<em class="replaceable"><code>hostvar</code></em>;
</pre><p>
</p><p>
PostgreSQL supports retrieving more that one record in one <code class="command">FETCH</code>
statement and storing the data in host variables in this case assumes that the
variable is an array. E.g.:
</p><pre class="programlisting">
EXEC SQL BEGIN DECLARE SECTION;
int id[5];
EXEC SQL END DECLARE SECTION;
EXEC SQL FETCH 5 FROM mycursor INTO SQL DESCRIPTOR mydesc;
EXEC SQL GET DESCRIPTOR mydesc VALUE 1 :id = DATA;
</pre><p>
</p></div><div class="sect2" id="ECPG-SQLDA-DESCRIPTORS"><div class="titlepage"><div><div><h3 class="title">36.7.2. SQLDA Descriptor Areas</h3></div></div></div><p>
An SQLDA Descriptor Area is a C language structure which can be also used
to get the result set and the metadata of a query. One structure stores one
record from the result set.
</p><pre class="programlisting">
EXEC SQL include sqlda.h;
sqlda_t *mysqlda;
EXEC SQL FETCH 3 FROM mycursor INTO DESCRIPTOR mysqlda;
</pre><p>
Note that the <code class="literal">SQL</code> keyword is omitted. The paragraphs about
the use cases of the <code class="literal">INTO</code> and <code class="literal">USING</code>
keywords in <a class="xref" href="ecpg-descriptors.html#ECPG-NAMED-DESCRIPTORS" title="36.7.1. Named SQL Descriptor Areas">Section 36.7.1</a> also apply here with an addition.
In a <code class="command">DESCRIBE</code> statement the <code class="literal">DESCRIPTOR</code>
keyword can be completely omitted if the <code class="literal">INTO</code> keyword is used:
</p><pre class="programlisting">
EXEC SQL DESCRIBE prepared_statement INTO mysqlda;
</pre><p>
</p><div class="procedure"><p>
The general flow of a program that uses SQLDA is:
</p><ol class="procedure" type="1"><li class="step"><p>Prepare a query, and declare a cursor for it.</p></li><li class="step"><p>Declare an SQLDA for the result rows.</p></li><li class="step"><p>Declare an SQLDA for the input parameters, and initialize them (memory allocation, parameter settings).</p></li><li class="step"><p>Open a cursor with the input SQLDA.</p></li><li class="step"><p>Fetch rows from the cursor, and store them into an output SQLDA.</p></li><li class="step"><p>Read values from the output SQLDA into the host variables (with conversion if necessary).</p></li><li class="step"><p>Close the cursor.</p></li><li class="step"><p>Free the memory area allocated for the input SQLDA.</p></li></ol></div><div class="sect3" id="id-1.7.5.13.4.4"><div class="titlepage"><div><div><h4 class="title">36.7.2.1. SQLDA Data Structure</h4></div></div></div><p>
SQLDA uses three data structure
types: <code class="type">sqlda_t</code>, <code class="type">sqlvar_t</code>,
and <code class="type">struct sqlname</code>.
</p><div class="tip"><h3 class="title">Tip</h3><p>
PostgreSQL's SQLDA has a similar data structure to the one in
IBM DB2 Universal Database, so some technical information on
DB2's SQLDA could help understanding PostgreSQL's one better.
</p></div><div class="sect4" id="ECPG-SQLDA-SQLDA"><div class="titlepage"><div><div><h5 class="title">36.7.2.1.1. sqlda_t Structure</h5></div></div></div><p>
The structure type <code class="type">sqlda_t</code> is the type of the
actual SQLDA. It holds one record. And two or
more <code class="type">sqlda_t</code> structures can be connected in a
linked list with the pointer in
the <code class="structfield">desc_next</code> field, thus
representing an ordered collection of rows. So, when two or
more rows are fetched, the application can read them by
following the <code class="structfield">desc_next</code> pointer in
each <code class="type">sqlda_t</code> node.
</p><p>
The definition of <code class="type">sqlda_t</code> is:
</p><pre class="programlisting">
struct sqlda_struct
{
char sqldaid[8];
long sqldabc;
short sqln;
short sqld;
struct sqlda_struct *desc_next;
struct sqlvar_struct sqlvar[1];
};
typedef struct sqlda_struct sqlda_t;
</pre><p>
The meaning of the fields is:
</p><div class="variablelist"><dl class="variablelist"><dt><span class="term"><code class="literal">sqldaid</code></span></dt><dd><p>
It contains the literal string <code class="literal">"SQLDA "</code>.
</p></dd><dt><span class="term"><code class="literal">sqldabc</code></span></dt><dd><p>
It contains the size of the allocated space in bytes.
</p></dd><dt><span class="term"><code class="literal">sqln</code></span></dt><dd><p>
It contains the number of input parameters for a parameterized query in
case it's passed into <code class="command">OPEN</code>, <code class="command">DECLARE</code> or
<code class="command">EXECUTE</code> statements using the <code class="literal">USING</code>
keyword. In case it's used as output of <code class="command">SELECT</code>,
<code class="command">EXECUTE</code> or <code class="command">FETCH</code> statements,
its value is the same as <code class="literal">sqld</code>
statement
</p></dd><dt><span class="term"><code class="literal">sqld</code></span></dt><dd><p>
It contains the number of fields in a result set.
</p></dd><dt><span class="term"><code class="literal">desc_next</code></span></dt><dd><p>
If the query returns more than one record, multiple linked
SQLDA structures are returned, and <code class="literal">desc_next</code> holds
a pointer to the next entry in the list.
</p></dd><dt><span class="term"><code class="literal">sqlvar</code></span></dt><dd><p>
This is the array of the columns in the result set.
</p></dd></dl></div><p>
</p></div><div class="sect4" id="ECPG-SQLDA-SQLVAR"><div class="titlepage"><div><div><h5 class="title">36.7.2.1.2. sqlvar_t Structure</h5></div></div></div><p>
The structure type <code class="type">sqlvar_t</code> holds a column value
and metadata such as type and length. The definition of the type
is:
</p><pre class="programlisting">
struct sqlvar_struct
{
short sqltype;
short sqllen;
char *sqldata;
short *sqlind;
struct sqlname sqlname;
};
typedef struct sqlvar_struct sqlvar_t;
</pre><p>
The meaning of the fields is:
</p><div class="variablelist"><dl class="variablelist"><dt><span class="term"><code class="literal">sqltype</code></span></dt><dd><p>
Contains the type identifier of the field. For values,
see <code class="literal">enum ECPGttype</code> in <code class="literal">ecpgtype.h</code>.
</p></dd><dt><span class="term"><code class="literal">sqllen</code></span></dt><dd><p>
Contains the binary length of the field. e.g. 4 bytes for <code class="type">ECPGt_int</code>.
</p></dd><dt><span class="term"><code class="literal">sqldata</code></span></dt><dd><p>
Points to the data. The format of the data is described
in <a class="xref" href="ecpg-variables.html#ECPG-VARIABLES-TYPE-MAPPING" title="36.4.4. Type Mapping">Section 36.4.4</a>.
</p></dd><dt><span class="term"><code class="literal">sqlind</code></span></dt><dd><p>
Points to the null indicator. 0 means not null, -1 means
null.
</p></dd><dt><span class="term"><code class="literal">sqlname</code></span></dt><dd><p>
The name of the field.
</p></dd></dl></div><p>
</p></div><div class="sect4" id="ECPG-SQLDA-SQLNAME"><div class="titlepage"><div><div><h5 class="title">36.7.2.1.3. struct sqlname Structure</h5></div></div></div><p>
A <code class="type">struct sqlname</code> structure holds a column name. It
is used as a member of the <code class="type">sqlvar_t</code> structure. The
definition of the structure is:
</p><pre class="programlisting">
#define NAMEDATALEN 64
struct sqlname
{
short length;
char data[NAMEDATALEN];
};
</pre><p>
The meaning of the fields is:
</p><div class="variablelist"><dl class="variablelist"><dt><span class="term"><code class="literal">length</code></span></dt><dd><p>
Contains the length of the field name.
</p></dd><dt><span class="term"><code class="literal">data</code></span></dt><dd><p>
Contains the actual field name.
</p></dd></dl></div><p>
</p></div></div><div class="sect3" id="ECPG-SQLDA-OUTPUT"><div class="titlepage"><div><div><h4 class="title">36.7.2.2. Retrieving a Result Set Using an SQLDA</h4></div></div></div><div class="procedure"><p>
The general steps to retrieve a query result set through an
SQLDA are:
</p><ol class="procedure" type="1"><li class="step"><p>Declare an <code class="type">sqlda_t</code> structure to receive the result set.</p></li><li class="step"><p>Execute <code class="command">FETCH</code>/<code class="command">EXECUTE</code>/<code class="command">DESCRIBE</code> commands to process a query specifying the declared SQLDA.</p></li><li class="step"><p>Check the number of records in the result set by looking at <code class="structfield">sqln</code>, a member of the <code class="type">sqlda_t</code> structure.</p></li><li class="step"><p>Get the values of each column from <code class="literal">sqlvar[0]</code>, <code class="literal">sqlvar[1]</code>, etc., members of the <code class="type">sqlda_t</code> structure.</p></li><li class="step"><p>Go to next row (<code class="type">sqlda_t</code> structure) by following the <code class="structfield">desc_next</code> pointer, a member of the <code class="type">sqlda_t</code> structure.</p></li><li class="step"><p>Repeat above as you need.</p></li></ol></div><p>
Here is an example retrieving a result set through an SQLDA.
</p><p>
First, declare a <code class="type">sqlda_t</code> structure to receive the result set.
</p><pre class="programlisting">
sqlda_t *sqlda1;
</pre><p>
</p><p>
Next, specify the SQLDA in a command. This is
a <code class="command">FETCH</code> command example.
</p><pre class="programlisting">
EXEC SQL FETCH NEXT FROM cur1 INTO DESCRIPTOR sqlda1;
</pre><p>
</p><p>
Run a loop following the linked list to retrieve the rows.
</p><pre class="programlisting">
sqlda_t *cur_sqlda;
for (cur_sqlda = sqlda1;
cur_sqlda != NULL;
cur_sqlda = cur_sqlda->desc_next)
{
...
}
</pre><p>
</p><p>
Inside the loop, run another loop to retrieve each column data
(<code class="type">sqlvar_t</code> structure) of the row.
</p><pre class="programlisting">
for (i = 0; i < cur_sqlda->sqld; i++)
{
sqlvar_t v = cur_sqlda->sqlvar[i];
char *sqldata = v.sqldata;
short sqllen = v.sqllen;
...
}
</pre><p>
</p><p>
To get a column value, check the <code class="structfield">sqltype</code> value,
a member of the <code class="type">sqlvar_t</code> structure. Then, switch
to an appropriate way, depending on the column type, to copy
data from the <code class="structfield">sqlvar</code> field to a host variable.
</p><pre class="programlisting">
char var_buf[1024];
switch (v.sqltype)
{
case ECPGt_char:
memset(&var_buf, 0, sizeof(var_buf));
memcpy(&var_buf, sqldata, (sizeof(var_buf) <= sqllen ? sizeof(var_buf) - 1 : sqllen));
break;
case ECPGt_int: /* integer */
memcpy(&intval, sqldata, sqllen);
snprintf(var_buf, sizeof(var_buf), "%d", intval);
break;
...
}
</pre><p>
</p></div><div class="sect3" id="ECPG-SQLDA-INPUT"><div class="titlepage"><div><div><h4 class="title">36.7.2.3. Passing Query Parameters Using an SQLDA</h4></div></div></div><div class="procedure"><p>
The general steps to use an SQLDA to pass input
parameters to a prepared query are:
</p><ol class="procedure" type="1"><li class="step"><p>Create a prepared query (prepared statement)</p></li><li class="step"><p>Declare a sqlda_t structure as an input SQLDA.</p></li><li class="step"><p>Allocate memory area (as sqlda_t structure) for the input SQLDA.</p></li><li class="step"><p>Set (copy) input values in the allocated memory.</p></li><li class="step"><p>Open a cursor with specifying the input SQLDA.</p></li></ol></div><p>
Here is an example.
</p><p>
First, create a prepared statement.
</p><pre class="programlisting">
EXEC SQL BEGIN DECLARE SECTION;
char query[1024] = "SELECT d.oid, * FROM pg_database d, pg_stat_database s WHERE d.oid = s.datid AND (d.datname = ? OR d.oid = ?)";
EXEC SQL END DECLARE SECTION;
EXEC SQL PREPARE stmt1 FROM :query;
</pre><p>
</p><p>
Next, allocate memory for an SQLDA, and set the number of input
parameters in <code class="structfield">sqln</code>, a member variable of
the <code class="type">sqlda_t</code> structure. When two or more input
parameters are required for the prepared query, the application
has to allocate additional memory space which is calculated by
(nr. of params - 1) * sizeof(sqlvar_t). The example shown here
allocates memory space for two input parameters.
</p><pre class="programlisting">
sqlda_t *sqlda2;
sqlda2 = (sqlda_t *) malloc(sizeof(sqlda_t) + sizeof(sqlvar_t));
memset(sqlda2, 0, sizeof(sqlda_t) + sizeof(sqlvar_t));
sqlda2->sqln = 2; /* number of input variables */
</pre><p>
</p><p>
After memory allocation, store the parameter values into the
<code class="literal">sqlvar[]</code> array. (This is same array used for
retrieving column values when the SQLDA is receiving a result
set.) In this example, the input parameters
are <code class="literal">"postgres"</code>, having a string type,
and <code class="literal">1</code>, having an integer type.
</p><pre class="programlisting">
sqlda2->sqlvar[0].sqltype = ECPGt_char;
sqlda2->sqlvar[0].sqldata = "postgres";
sqlda2->sqlvar[0].sqllen = 8;
int intval = 1;
sqlda2->sqlvar[1].sqltype = ECPGt_int;
sqlda2->sqlvar[1].sqldata = (char *) &intval;
sqlda2->sqlvar[1].sqllen = sizeof(intval);
</pre><p>
</p><p>
By opening a cursor and specifying the SQLDA that was set up
beforehand, the input parameters are passed to the prepared
statement.
</p><pre class="programlisting">
EXEC SQL OPEN cur1 USING DESCRIPTOR sqlda2;
</pre><p>
</p><p>
Finally, after using input SQLDAs, the allocated memory space
must be freed explicitly, unlike SQLDAs used for receiving query
results.
</p><pre class="programlisting">
free(sqlda2);
</pre><p>
</p></div><div class="sect3" id="ECPG-SQLDA-EXAMPLE"><div class="titlepage"><div><div><h4 class="title">36.7.2.4. A Sample Application Using SQLDA</h4></div></div></div><p>
Here is an example program, which describes how to fetch access
statistics of the databases, specified by the input parameters,
from the system catalogs.
</p><p>
This application joins two system tables, pg_database and
pg_stat_database on the database OID, and also fetches and shows
the database statistics which are retrieved by two input
parameters (a database <code class="literal">postgres</code>, and OID <code class="literal">1</code>).
</p><p>
First, declare an SQLDA for input and an SQLDA for output.
</p><pre class="programlisting">
EXEC SQL include sqlda.h;
sqlda_t *sqlda1; /* an output descriptor */
sqlda_t *sqlda2; /* an input descriptor */
</pre><p>
</p><p>
Next, connect to the database, prepare a statement, and declare a
cursor for the prepared statement.
</p><pre class="programlisting">
int
main(void)
{
EXEC SQL BEGIN DECLARE SECTION;
char query[1024] = "SELECT d.oid,* FROM pg_database d, pg_stat_database s WHERE d.oid=s.datid AND ( d.datname=? OR d.oid=? )";
EXEC SQL END DECLARE SECTION;
EXEC SQL CONNECT TO testdb AS con1 USER testuser;
EXEC SQL SELECT pg_catalog.set_config('search_path', '', false); EXEC SQL COMMIT;
EXEC SQL PREPARE stmt1 FROM :query;
EXEC SQL DECLARE cur1 CURSOR FOR stmt1;
</pre><p>
</p><p>
Next, put some values in the input SQLDA for the input
parameters. Allocate memory for the input SQLDA, and set the
number of input parameters to <code class="literal">sqln</code>. Store
type, value, and value length into <code class="literal">sqltype</code>,
<code class="literal">sqldata</code>, and <code class="literal">sqllen</code> in the
<code class="literal">sqlvar</code> structure.
</p><pre class="programlisting">
/* Create SQLDA structure for input parameters. */
sqlda2 = (sqlda_t *) malloc(sizeof(sqlda_t) + sizeof(sqlvar_t));
memset(sqlda2, 0, sizeof(sqlda_t) + sizeof(sqlvar_t));
sqlda2->sqln = 2; /* number of input variables */
sqlda2->sqlvar[0].sqltype = ECPGt_char;
sqlda2->sqlvar[0].sqldata = "postgres";
sqlda2->sqlvar[0].sqllen = 8;
intval = 1;
sqlda2->sqlvar[1].sqltype = ECPGt_int;
sqlda2->sqlvar[1].sqldata = (char *)&intval;
sqlda2->sqlvar[1].sqllen = sizeof(intval);
</pre><p>
</p><p>
After setting up the input SQLDA, open a cursor with the input
SQLDA.
</p><pre class="programlisting">
/* Open a cursor with input parameters. */
EXEC SQL OPEN cur1 USING DESCRIPTOR sqlda2;
</pre><p>
</p><p>
Fetch rows into the output SQLDA from the opened cursor.
(Generally, you have to call <code class="command">FETCH</code> repeatedly
in the loop, to fetch all rows in the result set.)
</p><pre class="programlisting">
while (1)
{
sqlda_t *cur_sqlda;
/* Assign descriptor to the cursor */
EXEC SQL FETCH NEXT FROM cur1 INTO DESCRIPTOR sqlda1;
</pre><p>
</p><p>
Next, retrieve the fetched records from the SQLDA, by following
the linked list of the <code class="type">sqlda_t</code> structure.
</p><pre class="programlisting">
for (cur_sqlda = sqlda1 ;
cur_sqlda != NULL ;
cur_sqlda = cur_sqlda->desc_next)
{
...
</pre><p>
</p><p>
Read each columns in the first record. The number of columns is
stored in <code class="structfield">sqld</code>, the actual data of the first
column is stored in <code class="literal">sqlvar[0]</code>, both members of
the <code class="type">sqlda_t</code> structure.
</p><pre class="programlisting">
/* Print every column in a row. */
for (i = 0; i < sqlda1->sqld; i++)
{
sqlvar_t v = sqlda1->sqlvar[i];
char *sqldata = v.sqldata;
short sqllen = v.sqllen;
strncpy(name_buf, v.sqlname.data, v.sqlname.length);
name_buf[v.sqlname.length] = '\0';
</pre><p>
</p><p>
Now, the column data is stored in the variable <code class="varname">v</code>.
Copy every datum into host variables, looking
at <code class="literal">v.sqltype</code> for the type of the column.
</p><pre class="programlisting">
switch (v.sqltype) {
int intval;
double doubleval;
unsigned long long int longlongval;
case ECPGt_char:
memset(&var_buf, 0, sizeof(var_buf));
memcpy(&var_buf, sqldata, (sizeof(var_buf) <= sqllen ? sizeof(var_buf)-1 : sqllen));
break;
case ECPGt_int: /* integer */
memcpy(&intval, sqldata, sqllen);
snprintf(var_buf, sizeof(var_buf), "%d", intval);
break;
...
default:
...
}
printf("%s = %s (type: %d)\n", name_buf, var_buf, v.sqltype);
}
</pre><p>
</p><p>
Close the cursor after processing all of records, and disconnect
from the database.
</p><pre class="programlisting">
EXEC SQL CLOSE cur1;
EXEC SQL COMMIT;
EXEC SQL DISCONNECT ALL;
</pre><p>
</p><p>
The whole program is shown
in <a class="xref" href="ecpg-descriptors.html#ECPG-SQLDA-EXAMPLE-EXAMPLE" title="Example 36.1. Example SQLDA Program">Example 36.1</a>.
</p><div class="example" id="ECPG-SQLDA-EXAMPLE-EXAMPLE"><p class="title"><strong>Example 36.1. Example SQLDA Program</strong></p><div class="example-contents"><pre class="programlisting">
#include <stdlib.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>
#include <unistd.h>
EXEC SQL include sqlda.h;
sqlda_t *sqlda1; /* descriptor for output */
sqlda_t *sqlda2; /* descriptor for input */
EXEC SQL WHENEVER NOT FOUND DO BREAK;
EXEC SQL WHENEVER SQLERROR STOP;
int
main(void)
{
EXEC SQL BEGIN DECLARE SECTION;
char query[1024] = "SELECT d.oid,* FROM pg_database d, pg_stat_database s WHERE d.oid=s.datid AND ( d.datname=? OR d.oid=? )";
int intval;
unsigned long long int longlongval;
EXEC SQL END DECLARE SECTION;
EXEC SQL CONNECT TO uptimedb AS con1 USER uptime;
EXEC SQL SELECT pg_catalog.set_config('search_path', '', false); EXEC SQL COMMIT;
EXEC SQL PREPARE stmt1 FROM :query;
EXEC SQL DECLARE cur1 CURSOR FOR stmt1;
/* Create a SQLDA structure for an input parameter */
sqlda2 = (sqlda_t *)malloc(sizeof(sqlda_t) + sizeof(sqlvar_t));
memset(sqlda2, 0, sizeof(sqlda_t) + sizeof(sqlvar_t));
sqlda2->sqln = 2; /* a number of input variables */
sqlda2->sqlvar[0].sqltype = ECPGt_char;
sqlda2->sqlvar[0].sqldata = "postgres";
sqlda2->sqlvar[0].sqllen = 8;
intval = 1;
sqlda2->sqlvar[1].sqltype = ECPGt_int;
sqlda2->sqlvar[1].sqldata = (char *) &intval;
sqlda2->sqlvar[1].sqllen = sizeof(intval);
/* Open a cursor with input parameters. */
EXEC SQL OPEN cur1 USING DESCRIPTOR sqlda2;
while (1)
{
sqlda_t *cur_sqlda;
/* Assign descriptor to the cursor */
EXEC SQL FETCH NEXT FROM cur1 INTO DESCRIPTOR sqlda1;
for (cur_sqlda = sqlda1 ;
cur_sqlda != NULL ;
cur_sqlda = cur_sqlda->desc_next)
{
int i;
char name_buf[1024];
char var_buf[1024];
/* Print every column in a row. */
for (i=0 ; i<cur_sqlda->sqld ; i++)
{
sqlvar_t v = cur_sqlda->sqlvar[i];
char *sqldata = v.sqldata;
short sqllen = v.sqllen;
strncpy(name_buf, v.sqlname.data, v.sqlname.length);
name_buf[v.sqlname.length] = '\0';
switch (v.sqltype)
{
case ECPGt_char:
memset(&var_buf, 0, sizeof(var_buf));
memcpy(&var_buf, sqldata, (sizeof(var_buf)<=sqllen ? sizeof(var_buf)-1 : sqllen) );
break;
case ECPGt_int: /* integer */
memcpy(&intval, sqldata, sqllen);
snprintf(var_buf, sizeof(var_buf), "%d", intval);
break;
case ECPGt_long_long: /* bigint */
memcpy(&longlongval, sqldata, sqllen);
snprintf(var_buf, sizeof(var_buf), "%lld", longlongval);
break;
default:
{
int i;
memset(var_buf, 0, sizeof(var_buf));
for (i = 0; i < sqllen; i++)
{
char tmpbuf[16];
snprintf(tmpbuf, sizeof(tmpbuf), "%02x ", (unsigned char) sqldata[i]);
strncat(var_buf, tmpbuf, sizeof(var_buf));
}
}
break;
}
printf("%s = %s (type: %d)\n", name_buf, var_buf, v.sqltype);
}
printf("\n");
}
}
EXEC SQL CLOSE cur1;
EXEC SQL COMMIT;
EXEC SQL DISCONNECT ALL;
return 0;
}
</pre><p>
The output of this example should look something like the
following (some numbers will vary).
</p><pre class="screen">
oid = 1 (type: 1)
datname = template1 (type: 1)
datdba = 10 (type: 1)
encoding = 0 (type: 5)
datistemplate = t (type: 1)
datallowconn = t (type: 1)
datconnlimit = -1 (type: 5)
datlastsysoid = 11510 (type: 1)
datfrozenxid = 379 (type: 1)
dattablespace = 1663 (type: 1)
datconfig = (type: 1)
datacl = {=c/uptime,uptime=CTc/uptime} (type: 1)
datid = 1 (type: 1)
datname = template1 (type: 1)
numbackends = 0 (type: 5)
xact_commit = 113606 (type: 9)
xact_rollback = 0 (type: 9)
blks_read = 130 (type: 9)
blks_hit = 7341714 (type: 9)
tup_returned = 38262679 (type: 9)
tup_fetched = 1836281 (type: 9)
tup_inserted = 0 (type: 9)
tup_updated = 0 (type: 9)
tup_deleted = 0 (type: 9)
oid = 11511 (type: 1)
datname = postgres (type: 1)
datdba = 10 (type: 1)
encoding = 0 (type: 5)
datistemplate = f (type: 1)
datallowconn = t (type: 1)
datconnlimit = -1 (type: 5)
datlastsysoid = 11510 (type: 1)
datfrozenxid = 379 (type: 1)
dattablespace = 1663 (type: 1)
datconfig = (type: 1)
datacl = (type: 1)
datid = 11511 (type: 1)
datname = postgres (type: 1)
numbackends = 0 (type: 5)
xact_commit = 221069 (type: 9)
xact_rollback = 18 (type: 9)
blks_read = 1176 (type: 9)
blks_hit = 13943750 (type: 9)
tup_returned = 77410091 (type: 9)
tup_fetched = 3253694 (type: 9)
tup_inserted = 0 (type: 9)
tup_updated = 0 (type: 9)
tup_deleted = 0 (type: 9)
</pre></div></div><br class="example-break" /></div></div></div><div class="navfooter"><hr /><table width="100%" summary="Navigation footer"><tr><td width="40%" align="left"><a accesskey="p" href="ecpg-pgtypes.html">Prev</a> </td><td width="20%" align="center"><a accesskey="u" href="ecpg.html">Up</a></td><td width="40%" align="right"> <a accesskey="n" href="ecpg-errors.html">Next</a></td></tr><tr><td width="40%" align="left" valign="top">36.6. pgtypes Library </td><td width="20%" align="center"><a accesskey="h" href="index.html">Home</a></td><td width="40%" align="right" valign="top"> 36.8. Error Handling</td></tr></table></div></body></html>
