|Oracle8i SQL Reference
Release 2 (8.1.6)
Structured Query Language (SQL) is the set of statements with which all programs and users access data in an Oracle database. Application programs and Oracle tools often allow users access to the database without using SQL directly, but these applications in turn must use SQL when executing the user's request. This chapter provides background information on SQL as used by most relational database systems. Topics include:
Dr. E. F. Codd published the paper, "A Relational Model of Data for Large Shared Data Banks", in June 1970 in the Association of Computer Machinery (ACM) journal, Communications of the ACM. Codd's model is now accepted as the definitive model for relational database management systems (RDBMS). The language, Structured English Query Language ("SEQUEL") was developed by IBM Corporation, Inc., to use Codd's model. SEQUEL later became SQL (still pronounced "sequel"). In 1979, Relational Software, Inc. (now Oracle Corporation) introduced the first commercially available implementation of SQL. Today, SQL is accepted as the standard RDBMS language.
Oracle Corporation strives to comply with industry-accepted standards and participates actively in SQL standards committees. Industry-accepted committees are the American National Standards Institute (ANSI) and the International Standards Organization (ISO), which is affiliated with the International Electrotechnical Commission (IEC). Both ANSI and the ISO/IEC have accepted SQL as the standard language for relational databases. When a new SQL standard is simultaneously published by these organizations, the names of the standards conform to conventions used by the organization, but the standards are technically identical.
The latest SQL standard was adopted in July 1999 and is often called SQL-99. The formal names of this standard are:
SQL-99 replaced the previous version of the standard, commonly known as SQL-92. SQL-99 is an upward compatible extension of SQL-92, except for a few minor incompatibilities noted in Annex E of Part 2, "Foundation," of SQL-99.
SQL-92 defined four levels of compliance: Entry, Transitional, Intermediate, and Full. A conforming SQL implementation must support at least Entry SQL. Oracle8i fully supports Entry SQL as outlined in Federal Information Processing Standard (FIPS) PUB 127-2, and has many features that conform to Transitional, Intermediate, or Full SQL.
The minimal conformance level for SQL-99 is known as Core. Core SQL-99 is a superset of SQL-92 Entry Level specification. Oracle8i also is broadly compatible with the SQL-99 Core specification. However, some SQL-99 Core features are not currently implemented in Oracle8i or differ from the Oracle8i implementation. Oracle Corporation is committed to fully supporting SQL-99 Core functionality in a future release, while providing upward compatibility for existing applications.
Appendix B, "Oracle and Standard SQL" for more information about Oracle and standard SQL.
The strengths of SQL provide benefits for all types of users, including application programmers, database administrators, managers, and end users. Technically speaking, SQL is a data sublanguage. The purpose of SQL is to provide an interface to a relational database such as Oracle, and all SQL statements are instructions to the database. In this SQL differs from general-purpose programming languages like C and BASIC. Among the features of SQL are the following:
Essentially, SQL lets you work with data at the logical level. You need to be concerned with the implementation details only when you want to manipulate the data. For example, to retrieve a set of rows from a table, you define a condition used to filter the rows. All rows satisfying the condition are retrieved in a single step and can be passed as a unit to the user, to another SQL statement, or to an application. You need not deal with the rows one by one, nor do you have to worry about how they are physically stored or retrieved. All SQL statements use the optimizer, a part of Oracle that determines the most efficient means of accessing the specified data. Oracle also provides techniques that you can use to make the optimizer perform its job better.
SQL provides statements for a variety of tasks, including:
SQL unifies all of the above tasks in one consistent language.
All major relational database management systems support SQL, so you can transfer all skills you have gained with SQL from one database to another. In addition, all programs written in SQL are portable. They can often be moved from one database to another with very little modification.
Embedded SQL refers to the use of standard SQL statements embedded within a procedural programming language. The embedded SQL statements are documented in the Oracle precompiler books: Pro*C/C++ Precompiler Programmer's Guide, Pro*COBOL Precompiler Programmer's Guide, and SQL*Module for Ada Programmer's Guide.
Embedded SQL is a collection of these statements:
INSERT, available with SQL with interactive tools
OPEN, which integrate the standard SQL statements with a procedural programming language
Embedded SQL also includes extensions to some standard SQL statements. Embedded SQL is supported by the Oracle precompilers. The Oracle precompilers interpret embedded SQL statements and translate them into statements that can be understood by procedural language compilers.
Each of these Oracle precompilers translates embedded SQL programs into a different procedural language: