/* utfebcdic.h
*
- * Copyright (c) 2001-2002, Larry Wall, Nick Ing-Simmons
+ * Copyright (C) 2001, 2002, 2003, 2005, 2006, 2007, 2009 by Larry Wall,
+ * Nick Ing-Simmons, and others
*
* You may distribute under the terms of either the GNU General Public
* License or the Artistic License, as specified in the README file.
* Macros to implement UTF-EBCDIC as perl's internal encoding
* Taken from version 7.1 of Unicode Techical Report #16:
* http://www.unicode.org/unicode/reports/tr16
+ *
+ * To summarize, the way it works is:
+ * To convert an EBCDIC character to UTF-EBCDIC:
+ * 1) convert to Unicode. The table in this file that does this is for
+ * EBCDIC bytes is PL_e2a (with inverse PLa2e). The 'a' stands for
+ * ASCIIish, meaning latin1.
+ * 2) convert that to a utf8-like string called I8 with variant characters
+ * occupying multiple bytes. This step is similar to the utf8-creating
+ * step from Unicode, but the details are different. There is a chart
+ * about the bit patterns in a comment later in this file. But
+ * essentially here are the differences:
+ * UTF8 I8
+ * invariant byte starts with 0 starts with 0 or 100
+ * continuation byte starts with 10 starts with 101
+ * start byte same in both: if the code point requires N bytes,
+ * then the leading N bits are 1, followed by a 0. (No
+ * trailing 0 for the very largest possible allocation
+ * in I8, far beyond the current Unicode standard's
+ * max, as shown in the comment later in this file.)
+ * 3) Use the table published in tr16 to convert each byte from step 2 into
+ * final UTF-EBCDIC. The table in this file is PL_utf2e, and its inverse
+ * is PL_e2utf. They are constructed so that all EBCDIC invariants remain
+ * invariant, but no others do. For example, the ordinal value of 'A' is
+ * 193 in EBCDIC, and also is 193 in UTF-EBCDIC. Step 1) converts it to
+ * 65, Step 2 leaves it at 65, and Step 3 converts it back to 193. As an
+ * example of how a variant character works, take LATIN SMALL LETTER Y
+ * WITH DIAERESIS, which is typicially 0xDF in EBCDIC. Step 1 converts it
+ * to the Unicode value, 0xFF. Step 2 converts that to two bytes =
+ * 11000111 10111111 = C7 BF, and Step 3 converts those to 0x47 0xE7
+ *
+ * If you're starting from Unicode, skip step 1. For UTF-EBCDIC to straight
+ * EBCDIC, reverse the steps.
+ *
+ * The EBCDIC invariants have been chosen to be those characters whose Unicode
+ * equivalents have ordinal numbers less than 160, that is the same characters
+ * that are expressible in ASCII, plus the C1 controls. So there are 160
+ * invariants instead of the 128 in UTF-8. (My guess is that this is because
+ * the C1 control NEL (and maybe others) is important in IBM.)
+ *
+ * The purpose of Step 3 is to make the encoding be invariant for the chosen
+ * characters. This messes up the convenient patterns found in step 2, so
+ * generally, one has to undo step 3 into a temporary to use them. However,
+ * a "shadow", or parallel table, PL_utf8skip, has been constructed so that for
+ * each byte, it says how long the sequence is if that byte were to begin it
+ *
+ * There are actually 3 slightly different UTF-EBCDIC encodings in this file,
+ * one for each of the code pages recognized by Perl. That means that there
+ * are actually three different sets of tables, one for each code page. (If
+ * Perl is compiled on platforms using other EBCDIC code pages, it may not
+ * compile, or silently mistake it for one of the three.)
+ *
+ * EBCDIC characters above 0xFF are the same as Unicode in Perl's
+ * implementation of all 3 encodings, so for those Step 1 is trivial.
+ *
+ * (Note that the entries for invariant characters are necessarily the same in
+ * PL_e2a and PLe2f, and the same for their inverses.)
+ *
+ * UTF-EBCDIC strings are the same length or longer than UTF-8 representations
+ * of the same string. The maximum code point representable as 2 bytes in
+ * UTF-EBCDIC is 0x3FFF, instead of 0x7FFF in UTF-8.
*/
START_EXTERN_C
};
#endif
-/* Transform tables from tr16 applied after encoding to render encoding EBCDIC like */
+/* Transform tables from tr16 applied after encoding to render encoding EBCDIC
+ * like, meaning that all the invariants are actually invariant, eg, that 'A'
+ * remains 'A' */
#if '^' == 95 /* if defined(__MVS__) || defined(??) (VM/ESA?) 1047 */
EXTCONST unsigned char PL_utf2e[] = { /* UTF-8-mod to EBCDIC (IBM-1047) */
END_EXTERN_C
-#define UTF8SKIP(s) PL_utf8skip[*(U8*)s]
+#define UTF8SKIP(s) PL_utf8skip[*(const U8*)(s)]
-/* EBCDIC-happy ways of converting native code to UTF8 */
+/* EBCDIC-happy ways of converting native code to UTF-8 */
/* Native to iso-8859-1 */
#define NATIVE_TO_ASCII(ch) PL_e2a[(U8)(ch)]
+#define NATIVE8_TO_UNI(ch) NATIVE_TO_ASCII(ch) /* synonym */
#define ASCII_TO_NATIVE(ch) PL_a2e[(U8)(ch)]
/* Transform after encoding */
#define NATIVE_TO_UTF(ch) PL_e2utf[(U8)(ch)]
/*
* Note: we should try and be careful never to call the isXXX_utf8() functions
* unless we're pretty sure we've seen the beginning of a UTF-EBCDIC character
- * Otherwise we risk loading in the heavy-duty SWASHINIT and SWASHGET routines
- * unnecessarily.
+ * Otherwise we risk loading in the heavy-duty swash_init and swash_fetch
+ * routines unnecessarily.
*/
#define isIDFIRST_lazy_if(p,c) ((IN_BYTES || (!c || UTF8_IS_INVARIANT(*p))) \
? isIDFIRST(*(p)) \
- : isIDFIRST_utf8((U8*)p))
+ : isIDFIRST_utf8((const U8*)p))
#define isALNUM_lazy_if(p,c) ((IN_BYTES || (!c || UTF8_IS_INVARIANT(*p))) \
? isALNUM(*(p)) \
- : isALNUM_utf8((U8*)p))
+ : isALNUM_utf8((const U8*)p))
/*
The following table is adapted from tr16, it shows UTF-8-mod encoding of Unicode code points.
#define UNI_IS_INVARIANT(c) ((c) < 0xA0)
/* UTF-EBCDIC sematic macros - transform back into UTF-8-Mod and then compare */
-#define NATIVE_IS_INVARIANT(c) UNI_IS_INVARIANT(NATIVE_TO_ASCII(c))
+#define NATIVE_IS_INVARIANT(c) UNI_IS_INVARIANT(NATIVE8_TO_UNI(c))
#define UTF8_IS_INVARIANT(c) UNI_IS_INVARIANT(NATIVE_TO_UTF(c))
#define UTF8_IS_START(c) (NATIVE_TO_UTF(c) >= 0xA0 && (NATIVE_TO_UTF(c) & 0xE0) != 0xA0)
#define UTF8_IS_CONTINUATION(c) ((NATIVE_TO_UTF(c) & 0xE0) == 0xA0)
#define UTF8_EIGHT_BIT_HI(c) UTF_TO_NATIVE((((U8)(c))>>UTF_ACCUMULATION_SHIFT)|UTF_START_MARK(2))
#define UTF8_EIGHT_BIT_LO(c) UTF_TO_NATIVE(((((U8)(c)))&UTF_CONTINUATION_MASK)|UTF_CONTINUATION_MARK)
-
+/*
+ * Local variables:
+ * c-indentation-style: bsd
+ * c-basic-offset: 4
+ * indent-tabs-mode: t
+ * End:
+ *
+ * ex: set ts=8 sts=4 sw=4 noet:
+ */