cd45ab2d6f
FossilOrigin-Name: ea315668e5833befe296fc94c67f914061d2ffb2
422 lines
16 KiB
Tcl
422 lines
16 KiB
Tcl
set rcsid {$Id: datatype3.tcl,v 1.10 2004/11/19 11:59:24 danielk1977 Exp $}
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source common.tcl
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header {Datatypes In SQLite Version 3}
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puts {
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<h2>Datatypes In SQLite Version 3</h2>
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<h3>1. Storage Classes</h3>
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<P>Version 2 of SQLite stores all column values as ASCII text.
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Version 3 enhances this by providing the ability to store integer and
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real numbers in a more compact format and the capability to store
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BLOB data.</P>
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<P>Each value stored in an SQLite database (or manipulated by the
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database engine) has one of the following storage classes:</P>
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<UL>
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<LI><P><B>NULL</B>. The value is a NULL value.</P>
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<LI><P><B>INTEGER</B>. The value is a signed integer, stored in 1,
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2, 3, 4, 6, or 8 bytes depending on the magnitude of the value.</P>
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<LI><P><B>REAL</B>. The value is a floating point value, stored as
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an 8-byte IEEE floating point number.</P>
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<LI><P><B>TEXT</B>. The value is a text string, stored using the
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database encoding (UTF-8, UTF-16BE or UTF-16-LE).</P>
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<LI><P><B>BLOB</B>. The value is a blob of data, stored exactly as
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it was input.</P>
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</UL>
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<P>As in SQLite version 2, any column in a version 3 database except an INTEGER
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PRIMARY KEY may be used to store any type of value. The exception to
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this rule is described below under 'Strict Affinity Mode'.</P>
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<P>All values supplied to SQLite, whether as literals embedded in SQL
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statements or values bound to pre-compiled SQL statements
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are assigned a storage class before the SQL statement is executed.
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Under circumstances described below, the
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database engine may convert values between numeric storage classes
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(INTEGER and REAL) and TEXT during query execution.
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</P>
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<P>Storage classes are initially assigned as follows:</P>
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<UL>
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<LI><P>Values specified as literals as part of SQL statements are
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assigned storage class TEXT if they are enclosed by single or double
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quotes, INTEGER if the literal is specified as an unquoted number
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with no decimal point or exponent, REAL if the literal is an
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unquoted number with a decimal point or exponent and NULL if the
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value is a NULL. Literals with storage class BLOB are specified
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using the X'ABCD' notation.</P>
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<LI><P>Values supplied using the sqlite3_bind_* APIs are assigned
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the storage class that most closely matches the native type bound
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(i.e. sqlite3_bind_blob() binds a value with storage class BLOB).</P>
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</UL>
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<P>The storage class of a value that is the result of an SQL scalar
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operator depends on the outermost operator of the expression.
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User-defined functions may return values with any storage class. It
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is not generally possible to determine the storage class of the
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result of an expression at compile time.</P>
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<h3>2. Column Affinity</h3>
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<p>
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In SQLite version 3, the type of a value is associated with the value
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itself, not with the column or variable in which the value is stored.
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(This is sometimes called
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<a href="http://www.cliki.net/manifest%20type%20system">
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manifest typing</a>.)
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All other SQL databases engines that we are aware of use the more
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restrictive system of static typing where the type is associated with
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the container, not the value.
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</p>
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<p>
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In order to maximize compatibility between SQLite and other database
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engines, SQLite support the concept of "type affinity" on columns.
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The type affinity of a column is the recommended type for data stored
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in that column. The key here is that the type is recommended, not
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required. Any column can still store any type of data, in theory.
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It is just that some columns, given the choice, will prefer to use
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one storage class over another. The preferred storage class for
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a column is called its "affinity".
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</p>
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<P>Each column in an SQLite 3 database is assigned one of the
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following type affinities:</P>
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<UL>
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<LI>TEXT</LI>
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<LI>NUMERIC</LI>
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<LI>INTEGER</LI>
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<LI>NONE</LI>
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</UL>
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<P>A column with TEXT affinity stores all data using storage classes
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NULL, TEXT or BLOB. If numerical data is inserted into a column with
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TEXT affinity it is converted to text form before being stored.</P>
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<P>A column with NUMERIC affinity may contain values using all five
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storage classes. When text data is inserted into a NUMERIC column, an
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attempt is made to convert it to an integer or real number before it
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is stored. If the conversion is successful, then the value is stored
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using the INTEGER or REAL storage class. If the conversion cannot be
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performed the value is stored using the TEXT storage class. No
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attempt is made to convert NULL or blob values.</P>
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<P>A column that uses INTEGER affinity behaves in the same way as a
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column with NUMERIC affinity, except that if a real value with no
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floating point component (or text value that converts to such) is
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inserted it is converted to an integer and stored using the INTEGER
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storage class.</P>
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<P>A column with affinity NONE does not prefer one storage class over
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another. It makes no attempt to coerce data before
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it is inserted.</P>
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<h4>2.1 Determination Of Column Affinity</h4>
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<P>The type affinity of a column is determined by the declared type
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of the column, according to the following rules:</P>
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<OL>
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<LI><P>If the datatype contains the string "INT" then it
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is assigned INTEGER affinity.</P>
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<LI><P>If the datatype of the column contains any of the strings
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"CHAR", "CLOB", or "TEXT" then that
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column has TEXT affinity. Notice that the type VARCHAR contains the
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string "CHAR" and is thus assigned TEXT affinity.</P>
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<LI><P>If the datatype for a column
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contains the string "BLOB" or if
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no datatype is specified then the column has affinity NONE.</P>
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<LI><P>Otherwise, the affinity is NUMERIC.</P>
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</OL>
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<P>If a table is created using a "CREATE TABLE <table> AS
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SELECT..." statement, then all columns have no datatype specified
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and they are given no affinity.</P>
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<h4>2.2 Column Affinity Example</h4>
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<blockquote>
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<PRE>CREATE TABLE t1(
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t TEXT,
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nu NUMERIC,
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i INTEGER,
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no BLOB
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);
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-- Storage classes for the following row:
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-- TEXT, REAL, INTEGER, TEXT
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INSERT INTO t1 VALUES('500.0', '500.0', '500.0', '500.0');
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-- Storage classes for the following row:
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-- TEXT, REAL, INTEGER, REAL
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INSERT INTO t1 VALUES(500.0, 500.0, 500.0, 500.0);
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</PRE>
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</blockquote>
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<h3>3. Comparison Expressions</h3>
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<P>Like SQLite version 2, version 3
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features the binary comparison operators '=',
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'<', '<=', '>=' and '!=', an operation to test for set
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membership, 'IN', and the ternary comparison operator 'BETWEEN'.</P>
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<P>The results of a comparison depend on the storage classes of the
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two values being compared, according to the following rules:</P>
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<UL>
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<LI><P>A value with storage class NULL is considered less than any
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other value (including another value with storage class NULL).</P>
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<LI><P>An INTEGER or REAL value is less than any TEXT or BLOB value.
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When an INTEGER or REAL is compared to another INTEGER or REAL, a
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numerical comparison is performed.</P>
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<LI><P>A TEXT value is less than a BLOB value. When two TEXT values
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are compared, the C library function memcmp() is usually used to
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determine the result. However this can be overridden, as described
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under 'User-defined collation Sequences' below.</P>
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<LI><P>When two BLOB values are compared, the result is always
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determined using memcmp().</P>
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</UL>
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<P>SQLite may attempt to convert values between the numeric storage
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classes (INTEGER and REAL) and TEXT before performing a comparison.
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For binary comparisons, this is done in the cases enumerated below.
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The term "expression" used in the bullet points below means any
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SQL scalar expression or literal other than a column value.</P>
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<UL>
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<LI><P>When a column value is compared to the result of an
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expression, the affinity of the column is applied to the result of
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the expression before the comparison takes place.</P>
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<LI><P>When two column values are compared, if one column has
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INTEGER or NUMERIC affinity and the other does not, the NUMERIC
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affinity is applied to any values with storage class TEXT extracted
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from the non-NUMERIC column.</P>
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<LI><P>When the results of two expressions are compared, the no
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conversions occur. The results are compared as is. If a string
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is compared to a number, the number will always be less than the
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string.</P>
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</UL>
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<P>
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In SQLite, the expression "a BETWEEN b AND c" is equivalent to "a >= b
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AND a <= c", even if this means that different affinities are applied to
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'a' in each of the comparisons required to evaluate the expression.
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</P>
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<P>Expressions of the type "a IN (SELECT b ....)" are handled by the three
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rules enumerated above for binary comparisons (e.g. in a
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similar manner to "a = b"). For example if 'b' is a column value
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and 'a' is an expression, then the affinity of 'b' is applied to 'a'
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before any comparisons take place.</P>
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<P>SQLite treats the expression "a IN (x, y, z)" as equivalent to "a = z OR
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a = y OR a = z".
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</P>
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<h4>3.1 Comparison Example</h4>
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<blockquote>
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<PRE>
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CREATE TABLE t1(
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a TEXT,
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b NUMERIC,
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c BLOB
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);
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-- Storage classes for the following row:
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-- TEXT, REAL, TEXT
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INSERT INTO t1 VALUES('500', '500', '500');
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-- 60 and 40 are converted to '60' and '40' and values are compared as TEXT.
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SELECT a < 60, a < 40 FROM t1;
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1|0
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-- Comparisons are numeric. No conversions are required.
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SELECT b < 60, b < 600 FROM t1;
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0|1
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-- Both 60 and 600 (storage class NUMERIC) are less than '500'
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-- (storage class TEXT).
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SELECT c < 60, c < 600 FROM t1;
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0|0
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</PRE>
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</blockquote>
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<h3>4. Operators</h3>
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<P>All mathematical operators (which is to say, all operators other
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than the concatenation operator "||") apply NUMERIC
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affinity to all operands prior to being carried out. If one or both
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operands cannot be converted to NUMERIC then the result of the
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operation is NULL.</P>
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<P>For the concatenation operator, TEXT affinity is applied to both
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operands. If either operand cannot be converted to TEXT (because it
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is NULL or a BLOB) then the result of the concatenation is NULL.</P>
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<h3>5. Sorting, Grouping and Compound SELECTs</h3>
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<P>When values are sorted by an ORDER by clause, values with storage
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class NULL come first, followed by INTEGER and REAL values
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interspersed in numeric order, followed by TEXT values usually in
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memcmp() order, and finally BLOB values in memcmp() order. No storage
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class conversions occur before the sort.</P>
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<P>When grouping values with the GROUP BY clause values with
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different storage classes are considered distinct, except for INTEGER
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and REAL values which are considered equal if they are numerically
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equal. No affinities are applied to any values as the result of a
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GROUP by clause.</P>
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<P>The compound SELECT operators UNION,
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INTERSECT and EXCEPT perform implicit comparisons between values.
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Before these comparisons are performed an affinity may be applied to
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each value. The same affinity, if any, is applied to all values that
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may be returned in a single column of the compound SELECT result set.
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The affinity applied is the affinity of the column returned by the
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left most component SELECTs that has a column value (and not some
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other kind of expression) in that position. If for a given compound
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SELECT column none of the component SELECTs return a column value, no
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affinity is applied to the values from that column before they are
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compared.</P>
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<h3>6. Other Affinity Modes</h3>
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<P>The above sections describe the operation of the database engine
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in 'normal' affinity mode. SQLite version 3 will feature two other affinity
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modes, as follows:</P>
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<UL>
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<LI><P><B>Strict affinity</B> mode. In this mode if a conversion
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between storage classes is ever required, the database engine
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returns an error and the current statement is rolled back.</P>
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<LI><P><B>No affinity</B> mode. In this mode no conversions between
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storage classes are ever performed. Comparisons between values of
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different storage classes (except for INTEGER and REAL) are always
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false.</P>
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</UL>
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<a name="collation"></a>
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<h3>7. User-defined Collation Sequences</h3>
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<p>
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By default, when SQLite compares two text values, the result of the
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comparison is determined using memcmp(), regardless of the encoding of the
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string. SQLite v3 provides the ability for users to supply arbitrary
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comparison functions, known as user-defined collation sequences, to be used
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instead of memcmp().
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</p>
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<p>
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Aside from the default collation sequence BINARY, implemented using
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memcmp(), SQLite features two extra built-in collation sequences
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intended for testing purposes, NOCASE and REVERSE:
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</p>
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<UL>
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<LI><b>BINARY</b> - Compares string data using memcmp(), regardless
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of text encoding.</LI>
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<LI><b>REVERSE</b> - Collate in the reverse order to BINARY. </LI>
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<LI><b>NOCASE</b> - The same as binary, except the 26 upper case
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characters used by the English language are
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folded to their lower case equivalents before
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the comparison is performed. </UL>
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<h4>7.1 Assigning Collation Sequences from SQL</h4>
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<p>
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Each column of each table has a default collation type. If a collation type
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other than BINARY is required, a COLLATE clause is specified as part of the
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<a href="lang_createtable.html">column definition</a> to define it.
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</p>
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<p>
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Whenever two text values are compared by SQLite, a collation sequence is
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used to determine the results of the comparison according to the following
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rules. Sections 3 and 5 of this document describe the circumstances under
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which such a comparison takes place.
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</p>
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<p>
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For binary comparison operators (=, <, >, <= and >=) if either operand is a
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column, then the default collation type of the column determines the
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collation sequence to use for the comparison. If both operands are columns,
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then the collation type for the left operand determines the collation
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sequence used. If neither operand is a column, then the BINARY collation
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sequence is used.
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</p>
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<p>
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The expression "x BETWEEN y and z" is equivalent to "x >= y AND x <=
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z". The expression "x IN (SELECT y ...)" is handled in the same way as the
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expression "x = y" for the purposes of determining the collation sequence
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to use. The collation sequence used for expressions of the form "x IN (y, z
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...)" is the default collation type of x if x is a column, or BINARY
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otherwise.
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</p>
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<p>
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An <a href="lang_select.html">ORDER BY</a> clause that is part of a SELECT
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statement may be assigned a collation sequence to be used for the sort
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operation explicitly. In this case the explicit collation sequence is
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always used. Otherwise, if the expression sorted by an ORDER BY clause is
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a column, then the default collation type of the column is used to
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determine sort order. If the expression is not a column, then the BINARY
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collation sequence is used.
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</p>
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<h4>7.2 Collation Sequences Example</h4>
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<p>
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The examples below identify the collation sequences that would be used to
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determine the results of text comparisons that may be performed by various
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SQL statements. Note that a text comparison may not be required, and no
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collation sequence used, in the case of numeric, blob or NULL values.
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</p>
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<blockquote>
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<PRE>
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CREATE TABLE t1(
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a, -- default collation type BINARY
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b COLLATE BINARY, -- default collation type BINARY
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c COLLATE REVERSE, -- default collation type REVERSE
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d COLLATE NOCASE -- default collation type NOCASE
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);
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-- Text comparison is performed using the BINARY collation sequence.
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SELECT (a = b) FROM t1;
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-- Text comparison is performed using the NOCASE collation sequence.
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SELECT (a = d) FROM t1;
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-- Text comparison is performed using the BINARY collation sequence.
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SELECT (d = a) FROM t1;
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-- Text comparison is performed using the REVERSE collation sequence.
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SELECT ('abc' = c) FROM t1;
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-- Text comparison is performed using the REVERSE collation sequence.
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SELECT (c = 'abc') FROM t1;
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-- Grouping is performed using the NOCASE collation sequence (i.e. values
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-- 'abc' and 'ABC' are placed in the same group).
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SELECT count(*) GROUP BY d FROM t1;
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-- Grouping is performed using the BINARY collation sequence.
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SELECT count(*) GROUP BY (d || '') FROM t1;
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-- Sorting is performed using the REVERSE collation sequence.
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SELECT * FROM t1 ORDER BY c;
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-- Sorting is performed using the BINARY collation sequence.
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SELECT * FROM t1 ORDER BY (c || '');
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-- Sorting is performed using the NOCASE collation sequence.
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SELECT * FROM t1 ORDER BY c COLLATE NOCASE;
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</PRE>
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</blockquote>
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}
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footer $rcsid
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