| This directory contains source code for the SQLite "ICU" extension, an | |
| integration of the "International Components for Unicode" library with | |
| SQLite. Documentation follows. | |
| 1. Features | |
| 1.1 SQL Scalars upper() and lower() | |
| 1.2 Unicode Aware LIKE Operator | |
| 1.3 ICU Collation Sequences | |
| 1.4 SQL REGEXP Operator | |
| 2. Compilation and Usage | |
| 3. Bugs, Problems and Security Issues | |
| 3.1 The "case_sensitive_like" Pragma | |
| 3.2 The SQLITE_MAX_LIKE_PATTERN_LENGTH Macro | |
| 3.3 Collation Sequence Security Issue | |
| 1. FEATURES | |
| 1.1 SQL Scalars upper() and lower() | |
| SQLite's built-in implementations of these two functions only | |
| provide case mapping for the 26 letters used in the English | |
| language. The ICU based functions provided by this extension | |
| provide case mapping, where defined, for the full range of | |
| unicode characters. | |
| ICU provides two types of case mapping, "general" case mapping and | |
| "language specific". Refer to ICU documentation for the differences | |
| between the two. Specifically: | |
| http://www.icu-project.org/userguide/caseMappings.html | |
| http://www.icu-project.org/userguide/posix.html#case_mappings | |
| To utilise "general" case mapping, the upper() or lower() scalar | |
| functions are invoked with one argument: | |
| upper('abc') -> 'ABC' | |
| lower('ABC') -> 'abc' | |
| To access ICU "language specific" case mapping, upper() or lower() | |
| should be invoked with two arguments. The second argument is the name | |
| of the locale to use. Passing an empty string ("") or SQL NULL value | |
| as the second argument is the same as invoking the 1 argument version | |
| of upper() or lower(): | |
| lower('I', 'en_us') -> 'i' | |
| lower('I', 'tr_tr') -> 'ı' (small dotless i) | |
| 1.2 Unicode Aware LIKE Operator | |
| Similarly to the upper() and lower() functions, the built-in SQLite LIKE | |
| operator understands case equivalence for the 26 letters of the English | |
| language alphabet. The implementation of LIKE included in this | |
| extension uses the ICU function u_foldCase() to provide case | |
| independent comparisons for the full range of unicode characters. | |
| The U_FOLD_CASE_DEFAULT flag is passed to u_foldCase(), meaning the | |
| dotless 'I' character used in the Turkish language is considered | |
| to be in the same equivalence class as the dotted 'I' character | |
| used by many languages (including English). | |
| 1.3 ICU Collation Sequences | |
| A special SQL scalar function, icu_load_collation() is provided that | |
| may be used to register ICU collation sequences with SQLite. It | |
| is always called with exactly two arguments, the ICU locale | |
| identifying the collation sequence to ICU, and the name of the | |
| SQLite collation sequence to create. For example, to create an | |
| SQLite collation sequence named "turkish" using Turkish language | |
| sorting rules, the SQL statement: | |
| SELECT icu_load_collation('tr_TR', 'turkish'); | |
| Or, for Australian English: | |
| SELECT icu_load_collation('en_AU', 'australian'); | |
| The identifiers "turkish" and "australian" may then be used | |
| as collation sequence identifiers in SQL statements: | |
| CREATE TABLE aust_turkish_penpals( | |
| australian_penpal_name TEXT COLLATE australian, | |
| turkish_penpal_name TEXT COLLATE turkish | |
| ); | |
| 1.4 SQL REGEXP Operator | |
| This extension provides an implementation of the SQL binary | |
| comparision operator "REGEXP", based on the regular expression functions | |
| provided by the ICU library. The syntax of the operator is as described | |
| in SQLite documentation: | |
| <string> REGEXP <re-pattern> | |
| This extension uses the ICU defaults for regular expression matching | |
| behavior. Specifically, this means that: | |
| * Matching is case-sensitive, | |
| * Regular expression comments are not allowed within patterns, and | |
| * The '^' and '$' characters match the beginning and end of the | |
| <string> argument, not the beginning and end of lines within | |
| the <string> argument. | |
| Even more specifically, the value passed to the "flags" parameter | |
| of ICU C function uregex_open() is 0. | |
| 2 COMPILATION AND USAGE | |
| The easiest way to compile and use the ICU extension is to build | |
| and use it as a dynamically loadable SQLite extension. To do this | |
| using gcc on *nix: | |
| gcc -fPIC -shared icu.c `pkg-config --libs --cflags icu-uc icu-io` \ | |
| -o libSqliteIcu.so | |
| You may need to add "-I" flags so that gcc can find sqlite3ext.h | |
| and sqlite3.h. The resulting shared lib, libSqliteIcu.so, may be | |
| loaded into sqlite in the same way as any other dynamically loadable | |
| extension. | |
| 3 BUGS, PROBLEMS AND SECURITY ISSUES | |
| 3.1 The "case_sensitive_like" Pragma | |
| This extension does not work well with the "case_sensitive_like" | |
| pragma. If this pragma is used before the ICU extension is loaded, | |
| then the pragma has no effect. If the pragma is used after the ICU | |
| extension is loaded, then SQLite ignores the ICU implementation and | |
| always uses the built-in LIKE operator. | |
| The ICU extension LIKE operator is always case insensitive. | |
| 3.2 The SQLITE_MAX_LIKE_PATTERN_LENGTH Macro | |
| Passing very long patterns to the built-in SQLite LIKE operator can | |
| cause excessive CPU usage. To curb this problem, SQLite defines the | |
| SQLITE_MAX_LIKE_PATTERN_LENGTH macro as the maximum length of a | |
| pattern in bytes (irrespective of encoding). The default value is | |
| defined in internal header file "limits.h". | |
| The ICU extension LIKE implementation suffers from the same | |
| problem and uses the same solution. However, since the ICU extension | |
| code does not include the SQLite file "limits.h", modifying | |
| the default value therein does not affect the ICU extension. | |
| The default value of SQLITE_MAX_LIKE_PATTERN_LENGTH used by | |
| the ICU extension LIKE operator is 50000, defined in source | |
| file "icu.c". | |
| 3.3 Collation Sequence Security | |
| Internally, SQLite assumes that indices stored in database files | |
| are sorted according to the collation sequence indicated by the | |
| SQL schema. Changing the definition of a collation sequence after | |
| an index has been built is therefore equivalent to database | |
| corruption. The SQLite library is well tested for robustness in | |
| the fact of database corruption. Database corruption may well | |
| lead to incorrect answers, but should not cause memory errors. | |