Oracle® C++ Call Interface Programmer's Guide, 11g Release 2 (11.2) Part Number E10764-01 |
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This chapter provides an overview of Oracle C++ Call Interface (OCCI) and introduces terminology used in discussing OCCI. You are provided with the background information needed to develop C++ applications that run in an Oracle environment.
This chapter contains these topics:
Oracle C++ Call Interface (OCCI) is an Application Programming Interface (API) that provides C++ applications access to data in an Oracle database. OCCI enables C++ programmers to use the full range of Oracle database operations, including SQL statement processing and object manipulation.
OCCI provides for:
High performance applications through the efficient use of system memory and network connectivity
Scalable applications that can service an increasing number of users and requests
Comprehensive support for application development by using Oracle database objects, including client-side access to Oracle database objects
Simplified user authentication and password management
n-tiered authentication
Consistent interfaces for dynamic connection management and transaction management in two-tier client/server environments or multitiered environments
Encapsulated and opaque interfaces
OCCI provides a library of standard database access and retrieval functions in the form of a dynamic run-time library (OCCI classes) that can be linked in a C++ application at run time. This eliminates the requirement to embed SQL or PL/SQL within third-generation language (3GL) programs.
OCCI provides these significant advantages over other methods of accessing an Oracle database:
Leverages C++ and the Object Oriented Programming paradigm
Is easy to use
Is easy to learn for those familiar with JDBC
Has a navigational interface to manipulate database objects of user-defined types as C++ class instances
Note that OCCI does not support nonblocking mode.
As Figure 1-1 shows, you compile and link an OCCI program in the same way that you compile and link an application that does not use the database.
Oracle supports most popular third-party compilers. The details of linking an OCCI program vary from system to system. On some platforms, it may be necessary to include other libraries, in addition to the OCCI library, to properly link your OCCI programs.
See Also:
Your operating system-specific Oracle documentation and the Oracle Database Installation Guide for more information about compiling and linking an OCCI application for your specific platformOCCI provides the following functionality:
APIs to design scalable, multithreaded applications that can support large numbers of users securely
SQL access functions, for managing database access, processing SQL statements, and manipulating objects retrieved from an Oracle database server
Data type mapping and manipulation functions, for manipulating data attributes of Oracle types
Advanced Queuing for message management
XA compliance for distributed transaction support
Statement caching of SQL and PL/SQL queries
Connection pooling for managing multiple connections
Globalization and Unicode support to customize applications for international and regional language requirement
Object Type Translator Utility
Transparent Application Failover support
Oracle C++ Call Interface (OCCI) enables you to develop scalable, multithreaded applications on multitiered architectures that combine nonprocedural data access power of structured query language (SQL) with procedural capabilities of C++.
In a nonprocedural language program, the set of data to be operated on is specified, but what operations may performed, or how the operations can be carried out, is not specified. The nonprocedural nature of SQL makes it an easy language to learn and use to perform database transactions. It is also the standard language used to access and manipulate data in modern relational and object-relational database systems.
In a procedural language program, the execution of most statements depends on previous or subsequent statements and on control structures, such as loops or conditional branches, which are not available in SQL. The procedural nature of these languages makes them more complex than SQL, but it also makes them very flexible and powerful.
The combination of both nonprocedural and procedural language elements in an OCCI program provides easy access to an Oracle database in a structured programming environment.
OCCI supports all SQL data definition, data manipulation, query, and transaction control facilities that are available through an Oracle database server. For example, an OCCI program can run a query against an Oracle database. The queries can require the program to supply data to the database by using input (bind) variables, as follows:
SELECT name FROM employees WHERE employee_id = :empnum
In this SQL statement, empnum
is a placeholder for a value that is supplied by the application.
In an OCCI application, you can also take advantage of PL/SQL, Oracle's procedural extension to SQL. The applications you develop can be more powerful and flexible than applications written in SQL alone. OCCI also provides facilities for accessing and manipulating objects in an Oracle database server.
One of the main tasks of an OCCI application is to process SQL statements. Different types of SQL statements require different processing steps in your program. It is important to take this into account when coding your OCCI application. Oracle recognizes several types of SQL statements:
Data definition language (DDL) statements
Control statements
Transaction control statements
Connection control statements
System control statements
Data manipulation language (DML) statements
Queries
DDL statements manage schema objects in the database. These statements create new tables, drop old tables, and establish other schema objects. They also control access to schema objects. Example 1-1 illustrates how to create a table, and Example 1-2 shows how to grant and revoke privileges on this table.
Example 1-1 Creating a Table
CREATE TABLE employee_information ( employee_id NUMBER(6), ssn NUMBER(9), dependents NUMBER(1), mail_address VARCHAR(60))
Example 1-2 Specifying Access to a Table
GRANT UPDATE, INSERT, DELETE ON employee_information TO donna REVOKE UPDATE ON employee_information FROM jamie
DDL statements also allow you to work with objects in the Oracle database, as in Example 1-3, which illustrates how to create an object table.
OCCI applications treat transaction control, connection control, and system control statements (for example, DML statements).
See Also:
Oracle Database SQL Language Reference for information about control statements.DML statements can change data in database tables. For example, DML statements are used to perform the following actions:
Insert new rows into a table
Update column values in existing rows
Delete rows from a table
Lock a table in the database
Explain the execution plan for a SQL statement
DML statements can require an application to supply data to the database by using input bind variables, as in Example 1-4. This statement can be executed several times with different bind values, or several rows can be added through array insert in a single round-trip to the server.
DML statements also enable you to work with objects in the Oracle Database, as in Example 1-5, which shows the insertion of an instance of a type into an object table.
Queries are statements that retrieve data from tables in a database. A query can return zero, one, or many rows of data. All queries begin with the SQL keyword SELECT
, as in Example 1-6:
Example 1-6 Using the Simple SELECT Statement
SELECT department_name FROM departments WHERE department_id = 30
Queries can require the program to supply data to the database server by using input bind variables, as in Example 1-7:
Example 1-7 Using the SELECT Statement with Input Variables
SELECT first_name, last_name FROM employees WHERE employee_id = :emp_id
In this SQL statement, emp_id
is a placeholder for a value that is supplied by the application.
PL/SQL is Oracle's procedural extension to the SQL language. PL/SQL processes tasks that are more complicated than simple queries and SQL data manipulation language statements. PL/SQL allows several constructs to be grouped into a single block and executed as a unit. Among these are the following constructs:
One or more SQL statements
Variable declarations
Assignment statements
Procedural control statements (IF
...
THEN
...
ELSE
statements and loops)
Exception handling
In addition to calling PL/SQL stored procedures from an OCCI program, you can use PL/SQL blocks in your OCCI program to perform the following tasks:
Call other PL/SQL stored procedures and stored functions.
Combine procedural control statements with several SQL statements, to be executed as a unit.
Access special PL/SQL features such as records, tables, cursor FOR loops, and exception handling.
Use cursor variables.
Access and manipulate objects in an Oracle database.
A PL/SQL procedure or function can also return an output variable. This is called an out bind variable, as in Example 1-8:
Here, the first parameter is an input variable that provides the ID number of an employee. The second parameter, or the out bind variable, contains the return value of employee name.
PL/SQL can also be used to issue a SQL statement to retrieve values from a table of employees, given a particular employee number. Example 1-9 demonstrates the use of placeholders in PL/SQL statements.
Example 1-9 Using PL/SQL to Insert Partial Records into Placeholders
SELECT last_name, first_name, salary, commission_pct INTO :emp_last, :emp_first, :sal, :comm FROM employees WHERE employee_id = :emp_id;
Note that the placeholders in this statement are not PL/SQL variables. They represent input and output parameters passed to and from the database server when the statement is processed. These placeholders must be specified in your program.
This guide uses special terms to refer to the different parts of a SQL statement. Consider Example 1-10:
Example 1-10 Using SQL to Extract Partial Records
SELECT first_name, last_name, email FROM employees WHERE department_id = 80 AND commission_pct > :base;
This example contains these parts:
A SQL command: SELECT
Three select-list items: first_name
, last_name
, and email
A table name in the FROM
clause: employees
Two column names in the WHERE
clause: department_id
and commission_pct
A numeric input value in the WHERE
clause: 40
A placeholder for an input bind variable in the WHERE
clause: :base
When you develop your OCCI application, you call routines that specify to the database server the value of, or reference to, input and output variables in your program. In this guide, specifying the placeholder variable for data is called a bind operation. For input variables, this is called an in bind operation. For output variables, this is called an out bind operation.
OCCI has facilities for working with object types and objects. An object type is a user-defined data structure representing an abstraction of a real-world entity. For example, the database might contain a definition of a person
object. That object type might have attributes, such as first_name
, last_name
, and age
, which represent a person's identifying characteristics.
The object type definition serves as the basis for creating objects, which represent instances of the object type. By using the object type as a structural definition, a person
object could be created with the attributes John
, Bonivento
, and 30
. Object types may also contain methods, or programmatic functions that represent the behavior of that object type.
OCCI provides a comprehensive API for programmers seeking to use the Oracle database server's object capabilities. These features can be divided into several major categories:
Client-side object cache
Run-time environment for objects
Associative and navigational interfaces to access and manipulate objects
Metadata class to describe object type metadata
Object Type Translator (OTT) utility, which maps internal Oracle schema information to client-side language bind variables
See Also:
Oracle Database Object-Relational Developer's Guide for a more detailed explanation of object types and objects
The object cache is a client-side memory buffer that provides lookup and memory management support for objects. It stores and tracks objects which have been fetched by an OCCI application from the server to the client side. The client-side object cache is created when the OCCI environment is initialized in object
mode. Multiple applications running against the same server have their own object cache. The client-side object cache tracks the objects that are currently in memory, maintains references to objects, manages automatic object swapping and tracks the meta-attributes or type information about objects. The client-side object cache provides the following benefits:
Improved application performance by reducing the number of client/server round-trips required to fetch and operate on objects
Enhanced scalability by supporting object swapping from the client-side cache
Improved concurrency by supporting object-level locking
Automatic garbage collection when cache thresholds are exceeded
OCCI provides a run-time environment for objects that offers a set of methods for managing how Oracle objects are used on the client side. These methods provide the necessary functionality for performing these tasks:
Connecting to an Oracle database server to access its object functionality
Allocating the client-side object cache and tuning its parameters
Retrieving error and warning messages
Controlling transactions that access objects in the database
Associatively accessing objects through SQL
Describing a PL/SQL procedure or function whose parameters or result are of Oracle object type
Applications that use OCCI can access objects in the database through several types of interfaces:
SQL SELECT
, INSERT
, and UPDATE
statements
C++ pointers and references to access objects in the client-side object cache by traversing the corresponding references
OCCI provides a set of methods to support object manipulation by using SQL SELECT
, INSERT
, and UPDATE
statements. To access Oracle objects, these SQL statements use a consistent set of steps as if they were accessing relational tables. OCCI provides methods to access objects by using SQL statements for:
Binding object type instances and references as input and output variables of SQL statements and PL/SQL stored procedures
Executing SQL statements that contain object type instances and references
Fetching object type instances and references
Retrieving column values from a result set as objects
Describing a select-list item of an Oracle object type
OCCI provides a seamless interface for navigating objects, enabling you to manipulate database objects in the same way that you would operate on transient C++ objects. You can dereference the overloaded arrow (->
) operator on an object reference to transparently materialize the object from the database into the application space.
Each Oracle data type is represented in OCCI by a C++ class. The class exposes the behavior and characteristics of the data type by overloaded operators and methods. For example, the Oracle data type NUMBER
is represented by the Number
class.
OCCI provides a metadata class that enables you to retrieve metadata describing database objects, including object types.
The Object Type Translator (OTT) utility translates schema information about Oracle object types into client-side language bindings. That is, OTT translates object type information into declarations of host language variables, such as structures and classes. OTT takes an intype
file that contains information about Oracle database schema objects as input. OTT generates an outtype
file and the necessary header and implementation files that must be included in a C++ application that runs against the object schema.
In summary, OCCI supports object handling in an Oracle database by:
Improving application developer productivity by eliminating the requirement to write the host language variables that correspond to schema objects
Maintaining SQL as the data definition language of choice by providing the ability to automatically map Oracle database schema objects created by SQL to host language variables; this allows Oracle to support a consistent, enterprise-wide model of the user's data
Facilitating schema evolution of object types by regenerating included header files when the schema is changed, allowing Oracle applications to support schema evolution
Executing SQL statements that manipulate object data and schema information
Passing object references and instances as input variables in SQL statements
Declaring object references and instances as variables to receive the output of SQL statements
Fetching object references and instances from a database
Describing properties of SQL statements that return object instances and references
Describing PL/SQL procedures or functions with object parameters or results
Extending commit and rollback calls to synchronize object and relational functionality
Advanced queuing of objects
OTT is typically invoked from the command line by specifying the intype file, the outtype file, and the specific database connection.
This section discusses how to build the OCCI examples that ship with Oracle Database, and additional resources.
Oracle ships with a directory of demos, parts of which are used as examples in this book. To build the examples, see the following steps:
Navigate to the demo directory.
On Windows, this directory is ORACLE_HOME
\rdbms\demo
.
On Linux and UNIX, this directory is ORACLE_HOME
/rdbms/demo
.
Ensure that this directory contains the file demo_rdbms.mk
.
Create the OCCI demo using the make
command.
To make all the demos at the same time, use the following parameters:
make -f demo_rdbms.mk occidemos
To make only one demo, use parameters:
make -f demo_rdbms.mk demoname
To make a single demo with objects, use parameters:
make -f demo_rdbms.mk buildocci EXE=demoname OBJS=demoname.o
To make a single demo with static libraries, use parameters:
make -f demo_rdbms.mk buildocci_static EXE=demoname OBJS=demoname.o
For more options, examine the demo_rdbms.mk
file.
You can find additional information on OCCI, including a forum, downloads, and white papers, at: http://www.oracle.com/technology/tech/oci/occi/index.html
.