350 lines
10 KiB
Plaintext
350 lines
10 KiB
Plaintext
.\" This is -*-nroff-*-
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.\" XXX standard disclaimer belongs here....
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.\" $Header: /cvsroot/pgsql/doc/man/Attic/sql.l,v 1.1.1.1 1996/08/18 22:14:28 scrappy Exp $
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.TH INTRODUCTION SQL 11/5/95 Postgres95 Postgres95
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.SH "Section 4 \(em SQL Commands (COMMANDS)"
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.SH "General Information"
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.SH DESCRIPTION
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The following is a description of the general syntax of SQL.
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Individual SQL statements and commands are treated separately in the
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document; this section describes the syntactic classes from which the
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constituent parts of SQL statements are drawn.
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.SH Comments
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A
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.IR comment
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is an arbitrary sequence of characters following double dashes up to the end
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of the line e.g:
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.nf
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-- This is a comment
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.fi
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.SH "Names"
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.IR Names
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in SQL are sequences of not more than NAMEDATALEN alphanumeric characters,
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starting with an alphabetic character. By default, NAMEDATALEN is set
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to 16, but at the time the system is built, NAMEDATALEN can be changed
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by changing the #ifdef in src/backend/include/postgres.h. Underscore
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(\*(lq_\*(rq) is considered an alphabetic character.
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.SH "Keywords"
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The following identifiers are reserved for use as
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.IR keywords
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and may not be used otherwise:
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.PP
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.ft B
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.nf
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.if n .ta 5 +15 +15 +15
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.if t .ta 0.5i +1.5i +1.5i +1.5i
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.fi
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.ft
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.ft B
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.nf
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.if n .ta 5 +15 +15 +15
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.if t .ta 0.5i +1.5i +1.5i +1.5i
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.fi
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.ft
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.PP
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In addition, all Postgres classes have several predefined attributes used
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by the system.
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.SH "Constants"
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There are six types of
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.IR constants
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for use in SQL. They are described below.
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.SH "String Constants"
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.IR Strings
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in SQL are arbitrary sequences of ASCII characters bounded by single
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quotes (' '). Uppercase alphabetics within strings are accepted
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literally. Non-printing characters may be embedded within strings by
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prepending them with a backslash, e.g., `\en'. Also, in order to embed
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quotes within strings, it is necessary to prefix them with `\e' . The
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same convention applies to `\e' itself. Because of the limitations on
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instance sizes, string constants are currently limited to a length of
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a little less than 8192 bytes. Larger objects may be created using the
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Postgres Large Object interface.
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.SH "Integer Constants"
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.IR "Integer constants"
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in SQL are collection of ASCII digits with no decimal point. Legal
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values range from \(mi2147483647 to +2147483647. This will vary
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depending on the operating system and host machine.
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.SH "Floating Point Constants"
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.IR "Floating point constants"
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consist of an integer part, a decimal point, and a fraction part or
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scientific notation of the following format:
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.nf
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{<dig>} .{<dig>} [e [+-] {<dig>}]
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.fi
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Where <dig> is a digit. You must include at least one <dig> after the
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period and after the [+-] if you use those options. An exponent with
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a missing mantissa has a mantissa of 1 inserted. There may be no
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extra characters embedded in the string.
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Floating point constaints are of type float4.
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.SH "Constants of Postgres User-Defined Types"
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A constant of an
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.IR arbitrary
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type can be entered using the notation:
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.nf
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'string'::type-name
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.fi
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or
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.nf
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CAST 'string' AS type-name
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.fi
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The value inside the string is passed to the input
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conversion routine for the type called type-name. The result is a
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constant of the indicated type. The explicit typecast may be omitted
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if there is no ambiguity as to the type the constant must be, in which
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case it is automatically coerced.
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.SH "Array constants"
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.IR "Array constants"
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are arrays of any Postgres type, including other arrays, string
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constants, etc. The general format of an array constant is the
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following:
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.nf
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{<val1><delim><val2><delim>}
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.fi
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Where
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.IR "<delim>"
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is the delimiter for the type stored in the \*(lqpg_type\*(rq class.
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(For built-in types, this is the comma character, \*(lq,\*(rq.) An
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example of an array constant is
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.nf
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{{1,2,3},{4,5,6},{7,8,9}}
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.fi
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This constant is a two-dimensional, 3 by 3 array consisting of three
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sub-arrays of integers.
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.PP
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Individual array elements can and should be placed between quotation
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marks whenever possible to avoid ambiguity problems with respect to
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leading white space.
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.\" Elements of single-element arrays (e.g.,
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.\" \*(lq{"1"}\*(rq) must be quoted.
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.PP
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.SH "FIELDS AND COLUMNS"
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.SH "Fields"
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A
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.IR field
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is either an attribute of a given class or one of the following:
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.nf
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oid
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tmin
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tmax
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xmin
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xmax
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cmin
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cmax
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.fi
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.PP
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.IR Oid
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stands for the unique identifier of an instance which is added by
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Postgres to all instances automatically. Oids are not reused and are 32
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bit quantities.
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.PP
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.IR "Tmin, tmax, xmin, cmin, xmax"
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and
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.IR cmax
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stand respectively for the time that the instance was inserted, the
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time the instance was deleted, the identity of the inserting
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transaction, the command identifier within the transaction, the
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identity of the deleting transaction and its associated deleting
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command. For further information on these fields consult [STON87].
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Times are represented internally as instances of the \*(lqabstime\*(rq
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data type. Transaction identifiers are 32 bit quantities which are
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assigned sequentially starting at 512. Command identifiers are 16 bit
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objects; hence, it is an error to have more than 65535 SQL commands
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within one transaction.
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.SH "Columns"
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A
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.IR column
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is a construct of the form:
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.nf
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Instance-variable{.composite_field}.field `['number`]'
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.fi
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.IR Instance-variable
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identifies a particular class and can be thought of as standing for
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the instances of that class. An instance variable is either a class
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name, a surrogate for a class defined by means of a
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.IR from
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clause, or the keyword
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.BR new
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or
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.BR current.
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New and current can only appear in the action portion of a rule, while
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other instance variables can be used in any SQL statement.
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.IR Composite_field
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is a field of of one of the Postgres composite types indicated in the
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.IR information (l)
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section, while successive composite fields address attributes in the
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class(s) to which the composite field evaluates. Lastly,
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.IR field
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is a normal (base type) field in the class(s) last addressed. If
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.IR field
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is of type array, then the optional
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.IR number
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designator indicates a specific element in the array. If no number is
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indicated, then all array elements are returned.
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.SH "Operators"
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Any built-in system, or user-defined operator may be used in SQL.
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For the list of built-in and system operators consult
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.BR "introduction" "(3)."
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For a list of user-defined operators consult your system administrator
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or run a query on the pg_operator class. Parentheses may be used for
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arbitrary grouping of operators.
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.SH "Expressions (a_expr)"
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An
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.IR expression
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is one of the following:
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.nf
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( a_expr )
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constant
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attribute
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a_expr binary_operator a_expr
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a_expr right_unary_operator
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left_unary_operator a_expr
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parameter
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functional expressions
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aggregate expressions
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.fi
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We have already discussed constants and attributes. The two kinds of
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operator expressions indicate respectively binary and left_unary
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expressions. The following sections discuss the remaining options.
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.SH "Parameters"
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A
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.IR parameter
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is used to indicate a parameter in a SQL function. Typically this
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is used in SQL function definition statement. The form of a
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parameter is:
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.nf
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\'$' number
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.fi
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For example, consider the definition of a function, DEPT, as
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.nf
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create function DEPT (char16)
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returns dept
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as 'select * from
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dept where name=$1'
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language 'sql'
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.fi
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.SH "Functional Expressions"
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A
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.IR "functional expression"
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is the name of a legal SQL function, followed by its argument list
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enclosed in parentheses, e.g.:
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.nf
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fn-name (a_expr{ , a_expr})
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.fi
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For example, the following computes the square root of an employee
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salary.
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.nf
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sqrt(emp.salary)
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.fi
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.SH "Aggregate Expression"
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An
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.IR "aggregate expression"
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represents a simple aggregate (i.e., one that computes a single value)
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or an aggregate function (i.e., one that computes a set of values).
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The syntax is the following:
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.nf
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aggregate.name (attribute)
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.fi
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Here,
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.IR aggregate_name
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must be a previously defined aggregate.
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.SH "Target_list"
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A
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.IR "target list"
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is a parenthesized, comma-separated list of one or more elements, each
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of which must be of the form:
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.nf
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a_expr[AS result_attname]
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.fi
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Here, result_attname is the name of the attribute to be created (or an
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already existing attribute name in the case of update statements.) If
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.IR result_attname
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is not present, then
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.IR a_expr
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must contain only one attribute name which is assumed to be the name
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of the result field. In Postgres default naming is only used if
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.IR a_expr
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is an attribute.
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.SH<53><48> "Qualification"
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A
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.IR qualification
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consists of any number of clauses connected by the logical operators:
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.nf
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not
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and
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or
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.fi
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A clause is an
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.IR a_expr
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that evaluates to a Boolean over a set of instances.
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.SH "From List"
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The
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.IR "from list"
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is a comma-separated list of
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.IR "from expressions" .
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.PP
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Each
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.IR "from expression"
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is of the form:
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.nf
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[class_reference] instance_variable
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{, [class_ref] instance_variable...}
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.fi
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where
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.IR class_reference
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is of the form
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.nf
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class_name [time_expression] [*]
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.fi
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The
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.IR "from expression"
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defines one or more instance variables to range over the class
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indicated in
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.IR class_reference .
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Adding a
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.IR time_expression
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will indicate that a historical class is desired. One can also request
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the instance variable to range over all classes that are beneath the
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indicated class in the inheritance hierarchy by postpending the
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designator \*(lq*\*(rq.
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.SH<53><48> "Time Expressions"
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A
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.IR "time expression"
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is in one of two forms:
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.nf
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['date']
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['date-1', 'date-2']
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.fi
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The first case requires instances that are valid at the indicated
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time. The second case requires instances that are valid at some time
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within the date range specified. If no time expression is indicated,
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the default is \*(lqnow\*(rq.
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.PP
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In each case, the date is a character string of the form
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.nf
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[MON-FRI] 'MMM DD [HH:MM:SS] YYYY' [Timezone]
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.fi
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where MMM is the month (Jan \- Dec), DD is a legal day number in the
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specified month, HH:MM:SS is an optional time in that day (24-hour
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clock), and YYYY is the year. If the time of day HH:MM:SS is not
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specified, it defaults to midnight at the start of the specified day.
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As of Version 3.0, times are no longer read and written using
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Greenwich Mean Time; the input and output routines default to the
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local time zone.
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.PP
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For example,
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.nf
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['Jan 1 1990']
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['Mar 3 00:00:00 1980', 'Mar 3 23:59:59 1981r']
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.fi
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are valid time specifications.
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.PP
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Note that this syntax is slightly different than that used by the
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time-range type.
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.SH "SEE ALSO"
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insert(l),
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delete(l),
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execute(l),
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update(l),
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select(l),
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monitor(1).
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