(mysql.info.gz) C API function overview
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(mysql.info.gz) C API functions
22.2.2 C API Function Overview
------------------------------
The functions available in the C API are summarized here and described
in greater detail in a later section. C API functions.
*Function* *Description*
*mysql_affected_rows()* Returns the number of rows
changed/deleted/inserted by the last `UPDATE',
`DELETE', or `INSERT' query.
*mysql_change_user()* Changes user and database on an open connection.
*mysql_charset_name()* Returns the name of the default character set
for the connection.
*mysql_close()* Closes a server connection.
*mysql_connect()* Connects to a MySQL server. This function is
deprecated; use `mysql_real_connect()' instead.
*mysql_create_db()* Creates a database. This function is
deprecated; use the SQL statement `CREATE
DATABASE' instead.
*mysql_data_seek()* Seeks to an arbitrary row number in a query
result set.
*mysql_debug()* Does a `DBUG_PUSH' with the given string.
*mysql_drop_db()* Drops a database. This function is deprecated;
use the SQL statement `DROP DATABASE' instead.
*mysql_dump_debug_info()* Makes the server write debug information to the
log.
*mysql_eof()* Determines whether the last row of a result set
has been read. This function is deprecated;
`mysql_errno()' or `mysql_error()' may be used
instead.
*mysql_errno()* Returns the error number for the most recently
invoked MySQL function.
*mysql_error()* Returns the error message for the most recently
invoked MySQL function.
*mysql_escape_string()* Escapes special characters in a string for use
in an SQL statement.
*mysql_fetch_field()* Returns the type of the next table field.
*mysql_fetch_field_direct()* Returns the type of a table field, given a
field number.
*mysql_fetch_fields()* Returns an array of all field structures.
*mysql_fetch_lengths()* Returns the lengths of all columns in the
current row.
*mysql_fetch_row()* Fetches the next row from the result set.
*mysql_field_seek()* Puts the column cursor on a specified column.
*mysql_field_count()* Returns the number of result columns for the
most recent statement.
*mysql_field_tell()* Returns the position of the field cursor used
for the last `mysql_fetch_field()'.
*mysql_free_result()* Frees memory used by a result set.
*mysql_get_client_info()* Returns client version information as a string.
*mysql_get_client_version()* Returns client version information as an
integer.
*mysql_get_host_info()* Returns a string describing the connection.
*mysql_get_server_version()* Returns version number of server as an integer
(new in 4.1).
*mysql_get_proto_info()* Returns the protocol version used by the
connection.
*mysql_get_server_info()* Returns the server version number.
*mysql_info()* Returns information about the most recently
executed query.
*mysql_init()* Gets or initializes a `MYSQL' structure.
*mysql_insert_id()* Returns the ID generated for an
`AUTO_INCREMENT' column by the previous query.
*mysql_kill()* Kills a given thread.
*mysql_library_end()* Finalize MySQL C API library.
*mysql_library_init()* Initialize MySQL C API library.
*mysql_list_dbs()* Returns database names matching a simple
regular expression.
*mysql_list_fields()* Returns field names matching a simple regular
expression.
*mysql_list_processes()* Returns a list of the current server threads.
*mysql_list_tables()* Returns table names matching a simple regular
expression.
*mysql_num_fields()* Returns the number of columns in a result set.
*mysql_num_rows()* Returns the number of rows in a result set.
*mysql_options()* Sets connect options for `mysql_connect()'.
*mysql_ping()* Checks whether the connection to the server is
working, reconnecting as necessary.
*mysql_query()* Executes an SQL query specified as a
null-terminated string.
*mysql_real_connect()* Connects to a MySQL server.
*mysql_real_escape_string()* Escapes special characters in a string for use
in an SQL statement, taking into account the
current charset of the connection.
*mysql_real_query()* Executes an SQL query specified as a counted
string.
*mysql_reload()* Tells the server to reload the grant tables.
*mysql_row_seek()* Seeks to a row offset in a result set, using
value returned from `mysql_row_tell()'.
*mysql_row_tell()* Returns the row cursor position.
*mysql_select_db()* Selects a database.
*mysql_server_end()* Finalize embedded server library.
*mysql_server_init()* Initialize embedded server library.
*mysql_set_server_option()* Sets an option for the connection (like
`multi-statements').
*mysql_sqlstate()* Returns the SQLSTATE error code for the last
error.
*mysql_shutdown()* Shuts down the database server.
*mysql_stat()* Returns the server status as a string.
*mysql_store_result()* Retrieves a complete result set to the client.
*mysql_thread_id()* Returns the current thread ID.
*mysql_thread_safe()* Returns 1 if the clients are compiled as
thread-safe.
*mysql_use_result()* Initiates a row-by-row result set retrieval.
*mysql_warning_count()* Returns the warning count for the previous SQL
statement.
*mysql_commit()* Commits the transaction.
*mysql_rollback()* Rolls back the transaction.
*mysql_autocommit()* Toggles autocommit mode on/off.
*mysql_more_results()* Checks whether any more results exist.
*mysql_next_result()* Returns/initiates the next result in
multiple-statement executions.
Application programs should use this general outline for interacting
with MySQL:
1. Initialize the MySQL library by calling `mysql_library_init()'.
The library can be either the `mysqlclient' C client library or the
`mysqld' embedded server library, depending on whether the
application was linked with the `-libmysqlclient' or `-libmysqld'
flag.
2. Open a connection to the MySQL server by calling `mysql_init()'.
3. Issue SQL statements and process their results. (The following
discussion provides more information about how to do this.)
4. Close the connection to the MySQL server by calling
`mysql_close()'.
5. End use of the MySQL library by calling `mysql_library_end()'.
The purpose of calling `mysql_library_init()' and `mysql_library_end()'
is to provide proper initialization and finalization of the MySQL
library. For applications that are linked with the client library, they
provide improved memory management. If you don't use these functions,
a block of memory remains allocated. (This does not increase the
amount of memory used by the application, but some memory leak
detectors will complain about it.) For applications that are linked
with the embedded server, these calls start and stop the server.
`mysql_library_init()' and `mysql_library_end()' are available as of
MySQL 4.1.10 and 5.0.3. These actually are `#define' symbols that make
them equivalent to `mysql_server_init()' and `mysql_server_end()', but
the names more clearly indicate that they should be called when
beginning and ending use of a MySQL library no matter whether the
application uses the `mysqlclient' or `mysqld' library. For older
versions of MySQL, you can call `mysql_server_init()' and
`mysql_server_end()' instead.
To connect to the server, call `mysql_init()' to initialize a
connection handler, then call `mysql_real_connect()' with that handler
(along with other information such as the hostname, username, and
password). Upon connection, `mysql_real_connect()' sets the
`reconnect' flag (part of the `MYSQL' structure) to a value of `1' in
versions of the API strictly older than 5.0.3, of `0' in newer
versions. A value of `1' for this flag indicates, in the event that a
query cannot be performed because of a lost connection, to try
reconnecting to the server before giving up. When you are done with
the connection, call `mysql_close()' to terminate it.
While a connection is active, the client may send SQL queries to the
server using `mysql_query()' or `mysql_real_query()'. The difference
between the two is that `mysql_query()' expects the query to be
specified as a null-terminated string whereas `mysql_real_query()'
expects a counted string. If the string contains binary data (which may
include null bytes), you must use `mysql_real_query()'.
For each non-`SELECT' query (for example, `INSERT', `UPDATE',
`DELETE'), you can find out how many rows were changed (affected) by
calling `mysql_affected_rows()'.
For `SELECT' queries, you retrieve the selected rows as a result set.
(Note that some statements are `SELECT'-like in that they return rows.
These include `SHOW', `DESCRIBE', and `EXPLAIN'. They should be
treated the same way as `SELECT' statements.)
There are two ways for a client to process result sets. One way is to
retrieve the entire result set all at once by calling
`mysql_store_result()'. This function acquires from the server all the
rows returned by the query and stores them in the client. The second
way is for the client to initiate a row-by-row result set retrieval by
calling `mysql_use_result()'. This function initializes the retrieval,
but does not actually get any rows from the server.
In both cases, you access rows by calling `mysql_fetch_row()'. With
`mysql_store_result()', `mysql_fetch_row()' accesses rows that have
previously been fetched from the server. With `mysql_use_result()',
`mysql_fetch_row()' actually retrieves the row from the server.
Information about the size of the data in each row is available by
calling `mysql_fetch_lengths()'.
After you are done with a result set, call `mysql_free_result()' to
free the memory used for it.
The two retrieval mechanisms are complementary. Client programs should
choose the approach that is most appropriate for their requirements.
In practice, clients tend to use `mysql_store_result()' more commonly.
An advantage of `mysql_store_result()' is that because the rows have all
been fetched to the client, you not only can access rows sequentially,
you can move back and forth in the result set using `mysql_data_seek()'
or `mysql_row_seek()' to change the current row position within the
result set. You can also find out how many rows there are by calling
`mysql_num_rows()'. On the other hand, the memory requirements for
`mysql_store_result()' may be very high for large result sets and you
are more likely to encounter out-of-memory conditions.
An advantage of `mysql_use_result()' is that the client requires less
memory for the result set because it maintains only one row at a time
(and because there is less allocation overhead, `mysql_use_result()'
can be faster). Disadvantages are that you must process each row
quickly to avoid tying up the server, you don't have random access to
rows within the result set (you can only access rows sequentially), and
you don't know how many rows are in the result set until you have
retrieved them all. Furthermore, you *must* retrieve all the rows even
if you determine in mid-retrieval that you've found the information you
were looking for.
The API makes it possible for clients to respond appropriately to
queries (retrieving rows only as necessary) without knowing whether or
not the query is a `SELECT'. You can do this by calling
`mysql_store_result()' after each `mysql_query()' (or
`mysql_real_query()'). If the result set call succeeds, the query was
a `SELECT' and you can read the rows. If the result set call fails,
call `mysql_field_count()' to determine whether a result was actually
to be expected. If `mysql_field_count()' returns zero, the query
returned no data (indicating that it was an `INSERT', `UPDATE',
`DELETE', etc.), and was not expected to return rows. If
`mysql_field_count()' is non-zero, the query should have returned rows,
but didn't. This indicates that the query was a `SELECT' that failed.
See the description for `mysql_field_count()' for an example of how
this can be done.
Both `mysql_store_result()' and `mysql_use_result()' allow you to
obtain information about the fields that make up the result set (the
number of fields, their names and types, etc.). You can access field
information sequentially within the row by calling
`mysql_fetch_field()' repeatedly, or by field number within the row by
calling `mysql_fetch_field_direct()'. The current field cursor
position may be changed by calling `mysql_field_seek()'. Setting the
field cursor affects subsequent calls to `mysql_fetch_field()'. You
can also get information for fields all at once by calling
`mysql_fetch_fields()'.
For detecting and reporting errors, MySQL provides access to error
information by means of the `mysql_errno()' and `mysql_error()'
functions. These return the error code or error message for the most
recently invoked function that can succeed or fail, allowing you to
determine when an error occurred and what it was.
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