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Changes On Branch tip-388-impl
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Changes In Branch tip-388-impl Excluding Merge-Ins

This is equivalent to a diff from 3ea7c67cbf to 8b3fef2633

2011-09-16
13:23
IMPLEMENTATION OF TIP #388 check-in: 4d6af4f7a4 user: jan.nijtmans tags: trunk, potential incompatibility
08:34
[Bug 3391977]: Ensure that the -headers option to http::geturl overrides the -type option (importan... check-in: ece59da1db user: dkf tags: trunk
08:14
merge to feature branch check-in: 7c746c8b38 user: jan.nijtmans tags: tip-389-impl
08:12
merge trunk to feature branch Closed-Leaf check-in: 8b3fef2633 user: jan.nijtmans tags: tip-388-impl
2011-09-15
16:27
3408408 Partial improvement by sharing as literals the computed values of constant subexpressions wh... check-in: 3ea7c67cbf user: dgp tags: trunk
2011-09-13
20:04
3390638 Workaround broken solaris studio cc optimizer. Thanks to Wolfgang S. Kechel. check-in: b9fb2d7653 user: dgp tags: trunk
2011-08-29
07:32
Merge to feature branch check-in: a28c1f710a user: jan.nijtmans tags: tip-388-impl

Changes to doc/Tcl.n.

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'\"
'\" Copyright (c) 1993 The Regents of the University of California.
'\" Copyright (c) 1994-1996 Sun Microsystems, Inc.
'\"
'\" See the file "license.terms" for information on usage and redistribution
'\" of this file, and for a DISCLAIMER OF ALL WARRANTIES.
'\"
.so man.macros
.TH Tcl n "8.5" Tcl "Tcl Built-In Commands"
.TH Tcl n "8.6" Tcl "Tcl Built-In Commands"
.BS
.SH NAME
Tcl \- Tool Command Language
.SH SYNOPSIS
Summary of Tcl language syntax.
.BE
.SH DESCRIPTION
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.TP 7
\e\e
Backslash
.PQ \e "" .
.TP 7
\e\fIooo\fR 
.
The digits \fIooo\fR (one, two, or three of them) give an eight-bit octal 
value for the Unicode character that will be inserted.  The upper bits of the
Unicode character will be 0.
The digits \fIooo\fR (one, two, or three of them) give a eight-bit octal 
value for the Unicode character that will be inserted, in the range \fI000\fR
- \fI377\fR.  The parser will stop just before this range overflows, or when
the maximum of three digits is reached.  The upper bits of the Unicode
character will be 0.
.TP 7
\e\fBx\fIhh\fR 
.
The hexadecimal digits \fIhh\fR give an eight-bit hexadecimal value for the
Unicode character that will be inserted.  Any number of hexadecimal digits
The hexadecimal digits \fIhh\fR (one or two of them) give an eight-bit
hexadecimal value for the Unicode character that will be inserted.  The upper
may be present; however, all but the last two are ignored (the result is
always a one-byte quantity).  The upper bits of the Unicode character will
bits of the Unicode character will be 0.
be 0.
.TP 7
\e\fBu\fIhhhh\fR 
.
The hexadecimal digits \fIhhhh\fR (one, two, three, or four of them) give a
sixteen-bit hexadecimal value for the Unicode character that will be
inserted.
inserted.  The upper bits of the Unicode character will be 0.
.TP 7
\e\fBU\fIhhhhhhhh\fR 
.
The hexadecimal digits \fIhhhhhhhh\fR (one up to eight of them) give a
twentiy-one-bit hexadecimal value for the Unicode character that will be
inserted, in the range U+0000..U+10FFFF.  The parser will stop just
before this range overflows, or when the maximum of eight digits
is reached.  The upper bits of the Unicode character will be 0.
.PP
The range U+010000..U+10FFFD is reserved for the future.
.PP
Backslash substitution is not performed on words enclosed in braces,
except for backslash-newline as described above.
.RE
.IP "[10] \fBComments.\fR"
If a hash character
.PQ #

Changes to doc/re_syntax.n.

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.TP
\fB\et\fR
.
horizontal tab, as in C
.TP
\fB\eu\fIwxyz\fR
.
(where \fIwxyz\fR is exactly four hexadecimal digits) the Unicode
(where \fIwxyz\fR is one up to four hexadecimal digits) the Unicode
character \fBU+\fIwxyz\fR in the local byte ordering
.TP
\fB\eU\fIstuvwxyz\fR
.
(where \fIstuvwxyz\fR is exactly eight hexadecimal digits) reserved
for a somewhat-hypothetical Unicode extension to 32 bits
(where \fIstuvwxyz\fR is one up to eight hexadecimal digits) reserved
for a Unicode extension up to 21 bits. The digits are parsed until the
first non-hexadecimal character is encountered, the maximun of eight
hexadecimal digits are reached, or an overflow would occur in the maximum
value of \fBU+\fI10ffff\fR.
.TP
\fB\ev\fR
.
vertical tab, as in C are all available.
.TP
\fB\ex\fIhhh\fR
\fB\ex\fIhh\fR
.
(where \fIhhh\fR is any sequence of hexadecimal digits) the character
whose hexadecimal value is \fB0x\fIhhh\fR (a single character no
(where \fIhh\fR is one or two hexadecimal digits) the character
whose hexadecimal value is \fB0x\fIhh\fR.
matter how many hexadecimal digits are used).
.TP
\fB\e0\fR
.
the character whose value is \fB0\fR
.TP
\fB\e\fIxyz\fR
.
(where \fIxyz\fR is exactly three octal digits, and is not a \fIback
reference\fR (see below)) the character whose octal value is
\fB0\fIxyz\fR. The first digit must be in the range 0-3, otherwise
the two-digit form is assumed.
.TP
\fB\e\fIxy\fR
.
(where \fIxy\fR is exactly two octal digits, and is not a \fIback
reference\fR (see below)) the character whose octal value is
\fB0\fIxy\fR
.TP
\fB\e\fIxyz\fR
.
(where \fIxyz\fR is exactly three octal digits, and is not a back
reference (see below)) the character whose octal value is
\fB0\fIxyz\fR
.RE
.PP
Hexadecimal digits are
.QR \fB0\fR \fB9\fR ,
.QR \fBa\fR \fBf\fR ,
and
.QR \fBA\fR \fBF\fR .

Changes to generic/regc_lex.c.

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 ^ static int lexescape(struct vars *);
 */
static int			/* not actually used, but convenient for RETV */
lexescape(
    struct vars *v)
{
    chr c;
    int i;
    static const chr alert[] = {
	CHR('a'), CHR('l'), CHR('e'), CHR('r'), CHR('t')
    };
    static const chr esc[] = {
	CHR('E'), CHR('S'), CHR('C')
    };
    const chr *save;
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	NOTE(REG_ULOCALE);
	RETV(CCLASS, 'S');
	break;
    case CHR('t'):
	RETV(PLAIN, CHR('\t'));
	break;
    case CHR('u'):
	c = lexdigits(v, 16, 4, 4);
	c = (uchr) lexdigits(v, 16, 1, 4);
	if (ISERR()) {
	    FAILW(REG_EESCAPE);
	}
	RETV(PLAIN, c);
	break;
    case CHR('U'):
	c = lexdigits(v, 16, 8, 8);
	i = lexdigits(v, 16, 1, 8);
	if (ISERR()) {
	    FAILW(REG_EESCAPE);
	}
	if (i > 0xFFFF) {
	    /* TODO: output a Surrogate pair
	     */
	    i = 0xFFFD;
	}
	RETV(PLAIN, c);
	RETV(PLAIN, (uchr) i);
	break;
    case CHR('v'):
	RETV(PLAIN, CHR('\v'));
	break;
    case CHR('w'):
	NOTE(REG_ULOCALE);
	RETV(CCLASS, 'w');
	break;
    case CHR('W'):
	NOTE(REG_ULOCALE);
	RETV(CCLASS, 'W');
	break;
    case CHR('x'):
	NOTE(REG_UUNPORT);
	c = lexdigits(v, 16, 1, 255);	/* REs >255 long outside spec */
	c = (uchr) lexdigits(v, 16, 1, 2);
	if (ISERR()) {
	    FAILW(REG_EESCAPE);
	}
	RETV(PLAIN, c);
	break;
    case CHR('y'):
	NOTE(REG_ULOCALE);
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	RETV(SEND, 0);
	break;
    case CHR('1'): case CHR('2'): case CHR('3'): case CHR('4'):
    case CHR('5'): case CHR('6'): case CHR('7'): case CHR('8'):
    case CHR('9'):
	save = v->now;
	v->now--;		/* put first digit back */
	c = lexdigits(v, 10, 1, 255);	/* REs >255 long outside spec */
	c = (uchr) lexdigits(v, 10, 1, 255);	/* REs >255 long outside spec */
	if (ISERR()) {
	    FAILW(REG_EESCAPE);
	}

	/*
	 * Ugly heuristic (first test is "exactly 1 digit?")
	 */
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	/*
	 * And fall through into octal number.
	 */

    case CHR('0'):
	NOTE(REG_UUNPORT);
	v->now--;		/* put first digit back */
	c = lexdigits(v, 8, 1, 3);
	c = (uchr) lexdigits(v, 8, 1, 3);
	if (ISERR()) {
	    FAILW(REG_EESCAPE);
	}
	if (c > 0xff) {
	    /* out of range, so we handled one digit too much */
	    v->now--;
	    c >>= 3;
	}
	RETV(PLAIN, c);
	break;
    default:
	assert(iscalpha(c));
	FAILW(REG_EESCAPE);	/* unknown alphabetic escape */
	break;
    }
    assert(NOTREACHED);
}

/*
 - lexdigits - slurp up digits and return chr value
 ^ static chr lexdigits(struct vars *, int, int, int);
 ^ static int lexdigits(struct vars *, int, int, int);
 */
static chr			/* chr value; errors signalled via ERR */
static int			/* chr value; errors signalled via ERR */
lexdigits(
    struct vars *v,
    int base,
    int minlen,
    int maxlen)
{
    uchr n;			/* unsigned to avoid overflow misbehavior */
    int n;
    int len;
    chr c;
    int d;
    const uchr ub = (uchr) base;

    n = 0;
    for (len = 0; len < maxlen && !ATEOS(); len++) {
	if (n > 0x10fff) {
	    /* Stop when continuing would otherwise overflow */
	    break;
	}
	c = *v->now++;
	switch (c) {
	case CHR('0'): case CHR('1'): case CHR('2'): case CHR('3'):
	case CHR('4'): case CHR('5'): case CHR('6'): case CHR('7'):
	case CHR('8'): case CHR('9'):
	    d = DIGITVAL(c);
	    break;
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	}
	n = n*ub + (uchr)d;
    }
    if (len < minlen) {
	ERR(REG_EESCAPE);
    }

    return (chr)n;
    return n;
}

/*
 - brenext - get next BRE token
 * This is much like EREs except for all the stupid backslashes and the
 * context-dependency of some things.
 ^ static int brenext(struct vars *, pchr);

Changes to generic/regcomp.c.

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/* === regc_lex.c === */
static void lexstart(struct vars *);
static void prefixes(struct vars *);
static void lexnest(struct vars *, const chr *, const chr *);
static void lexword(struct vars *);
static int next(struct vars *);
static int lexescape(struct vars *);
static chr lexdigits(struct vars *, int, int, int);
static int lexdigits(struct vars *, int, int, int);
static int brenext(struct vars *, pchr);
static void skip(struct vars *);
static chr newline(NOPARMS);
#ifdef REG_DEBUG
static const chr *ch(NOPARMS);
#endif
static chr chrnamed(struct vars *, const chr *, const chr *, pchr);

Changes to generic/regcustom.h.

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typedef Tcl_UniChar chr;	/* The type itself. */
typedef int pchr;		/* What it promotes to. */
typedef unsigned uchr;		/* Unsigned type that will hold a chr. */
typedef int celt;		/* Type to hold chr, or NOCELT */
#define	NOCELT (-1)		/* Celt value which is not valid chr */
#define	CHR(c) (UCHAR(c))	/* Turn char literal into chr literal */
#define	DIGITVAL(c) ((c)-'0')	/* Turn chr digit into its value */
#if TCL_UTF_MAX > 3
#if TCL_UTF_MAX > 4
#define	CHRBITS	32		/* Bits in a chr; must not use sizeof */
#define	CHR_MIN	0x00000000	/* Smallest and largest chr; the value */
#define	CHR_MAX	0xffffffff	/* CHR_MAX-CHR_MIN+1 should fit in uchr */
#else
#define	CHRBITS	16		/* Bits in a chr; must not use sizeof */
#define	CHR_MIN	0x0000		/* Smallest and largest chr; the value */
#define	CHR_MAX	0xffff		/* CHR_MAX-CHR_MIN+1 should fit in uchr */

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#define TCL_CONVERT_MULTIBYTE	(-1)
#define TCL_CONVERT_SYNTAX	(-2)
#define TCL_CONVERT_UNKNOWN	(-3)
#define TCL_CONVERT_NOSPACE	(-4)

/*
 * The maximum number of bytes that are necessary to represent a single
 * Unicode character in UTF-8. The valid values should be 3 or 6 (or perhaps 1
 * if we want to support a non-unicode enabled core). If 3, then Tcl_UniChar
 * must be 2-bytes in size (UCS-2) (the default). If 6, then Tcl_UniChar must
 * be 4-bytes in size (UCS-4). At this time UCS-2 mode is the default and
 * recommended mode. UCS-4 is experimental and not recommended. It works for
 * the core, but most extensions expect UCS-2.
 * Unicode character in UTF-8. The valid values should be 3, 4 or 6
 * (or perhaps 1 if we want to support a non-unicode enabled core). If 3 or
 * 4, then Tcl_UniChar must be 2-bytes in size (UCS-2) (the default). If 6,
 * then Tcl_UniChar must be 4-bytes in size (UCS-4). At this time UCS-2 mode
 * is the default and recommended mode. UCS-4 is experimental and not
 * recommended. It works for the core, but most extensions expect UCS-2.
 */

#ifndef TCL_UTF_MAX
#define TCL_UTF_MAX		3
#endif

/*
 * This represents a Unicode character. Any changes to this should also be
 * reflected in regcustom.h.
 */

#if TCL_UTF_MAX > 3
#if TCL_UTF_MAX > 4
    /*
     * unsigned int isn't 100% accurate as it should be a strict 4-byte value
     * (perhaps wchar_t). 64-bit systems may have troubles. The size of this
     * value must be reflected correctly in regcustom.h and
     * in tclEncoding.c.
     * XXX: Tcl is currently UCS-2 and planning UTF-16 for the Unicode
     * XXX: string rep that Tcl_UniChar represents.  Changing the size

Changes to generic/tclParse.c.

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{
    int result = 0;
    register const char *p = src;

    while (numBytes--) {
	unsigned char digit = UCHAR(*p);

	if (!isxdigit(digit)) {
	if (!isxdigit(digit) || (result > 0x10fff)) {
	    break;
	}

	p++;
	result <<= 4;

	if (digit >= 'a') {
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    case 't':
	result = 0x9;
	break;
    case 'v':
	result = 0xb;
	break;
    case 'x':
	count += TclParseHex(p+1, numBytes-2, &result);
	count += TclParseHex(p+1, (numBytes > 3) ? 2 : numBytes-2, &result);
	if (count == 2) {
	    /*
	     * No hexadigits -> This is just "x".
	     */

	    result = 'x';
	} else {
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	count += TclParseHex(p+1, (numBytes > 5) ? 4 : numBytes-2, &result);
	if (count == 2) {
	    /*
	     * No hexadigits -> This is just "u".
	     */
	    result = 'u';
	}
	break;
    case 'U':
	count += TclParseHex(p+1, (numBytes > 9) ? 8 : numBytes-2, &result);
	if (count == 2) {
	    /*
	     * No hexadigits -> This is just "U".
	     */
	    result = 'U';
	}
	break;
    case '\n':
	count--;
	do {
	    p++;
	    count++;
	} while ((count < numBytes) && ((*p == ' ') || (*p == '\t')));
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		    || (UCHAR(*p) >= '8')) {
		break;
	    }
	    count = 3;
	    result = (result << 3) + (*p - '0');
	    p++;
	    if ((numBytes == 3) || !isdigit(UCHAR(*p))	/* INTL: digit */
		    || (UCHAR(*p) >= '8')) {
		    || (UCHAR(*p) >= '8') || (result >= 0x20)) {
		break;
	    }
	    count = 4;
	    result = UCHAR((result << 3) + (*p - '0'));
	    break;
	}

Changes to tests/reg.test.

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expectMatch	13.10 MP	"a\\cHb"	"a\bb"	"a\bb"
expectMatch	13.11 LMP	"a\\e"		"a\033"	"a\033"
expectMatch	13.12 P		"a\\fb"		"a\fb"	"a\fb"
expectMatch	13.13 P		"a\\nb"		"a\nb"	"a\nb"
expectMatch	13.14 P		"a\\rb"		"a\rb"	"a\rb"
expectMatch	13.15 P		"a\\tb"		"a\tb"	"a\tb"
expectMatch	13.16 P		"a\\u0008x"	"a\bx"	"a\bx"
expectError	13.17 -		{a\u008x}	EESCAPE
expectMatch	13.17 P		{a\u008x}	"a\bx"	"a\bx"
expectMatch	13.18 P		"a\\u00088x"	"a\b8x"	"a\b8x"
expectMatch	13.19 P		"a\\U00000008x"	"a\bx"	"a\bx"
expectError	13.20 -		{a\U0000008x}	EESCAPE
expectMatch	13.20 P		{a\U0000008x}	"a\bx"	"a\bx"
expectMatch	13.21 P		"a\\vb"		"a\vb"	"a\vb"
expectMatch	13.22 MP	"a\\x08x"	"a\bx"	"a\bx"
expectError	13.23 -		{a\xq}		EESCAPE
expectMatch	13.24 MP	"a\\x0008x"	"a\bx"	"a\bx"
expectMatch	13.24 MP	"a\\x08x"	"a\bx"	"a\bx"
expectError	13.25 -		{a\z}		EESCAPE
expectMatch	13.26 MP	"a\\010b"	"a\bb"	"a\bb"
expectMatch	13.27 P		"a\\U00001234x"	"a\u1234x"	"a\u1234x"
expectMatch	13.28 P		{a\U00001234x}	"a\u1234x"	"a\u1234x"
expectMatch	13.29 P		"a\\U0001234x"	"a\u1234x"	"a\u1234x"
expectMatch	13.30 P		{a\U0001234x}	"a\u1234x"	"a\u1234x"
expectMatch	13.31 P		"a\\U000012345x"	"a\u12345x"	"a\u12345x"
expectMatch	13.32 P		{a\U000012345x}	"a\u12345x"	"a\u12345x"
expectMatch	13.33 P		"a\\U1000000x"	"a\ufffd0x"	"a\ufffd0x"
expectMatch	13.34 P		{a\U1000000x}	"a\ufffd0x"	"a\ufffd0x"


doing 14 "back references"
# ugh
expectMatch	14.1  RP	{a(b*)c\1}	abbcbb	abbcbb	bb
expectMatch	14.2  RP	{a(b*)c\1}	ac	ac	""
expectNomatch	14.3  RP	{a(b*)c\1}	abbcb
678
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683
684

685
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+







	"abbbbbbbbbbbc" abbbbbbbbbbbc b b b b b b b b b b
# but we're fussy about border cases -- guys who want octal should use the zero
expectError	15.9  -	{a((((((((((b\10))))))))))c}	ESUBREG
# BREs don't have octal, EREs don't have backrefs
expectMatch	15.10 MP	"a\\12b"	"a\nb"	"a\nb"
expectError	15.11 b		{a\12b}		ESUBREG
expectMatch	15.12 eAS	{a\12b}		a12b	a12b
expectMatch	15.13 MP	{a\701b}	a\u00381b	a\u00381b


doing 16 "expanded syntax"
expectMatch	16.1 xP		"a b c"		"abc"	"abc"
expectMatch	16.2 xP		"a b #oops\nc\td"	"abcd"	"abcd"
expectMatch	16.3 x		"a\\ b\\\tc"	"a b\tc"	"a b\tc"
expectMatch	16.4 xP		"a b\\#c"	"ab#c"	"ab#c"

Changes to tests/utf.test.

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bsCheck \14	12
bsCheck \141	97
bsCheck b\0	98
bsCheck \x	120
bsCheck \xa	10
bsCheck \xA	10
bsCheck \x41	65
bsCheck \x541	65
bsCheck \x541	84
bsCheck \u	117
bsCheck \uk	117
bsCheck \u41	65
bsCheck \ua	10
bsCheck \uA	10
bsCheck \340	224
bsCheck \ua1	161
bsCheck \u4e21	20001
bsCheck \741	60
bsCheck \U	85
bsCheck \Uk	85
bsCheck \U41	65
bsCheck \Ua	10
bsCheck \UA	10
bsCheck \Ua1	161
bsCheck \U4e21	20001
bsCheck \U004e21	20001
bsCheck \U00004e21	20001
bsCheck \U00110000	65533
bsCheck \Uffffffff	65533

test utf-11.1 {Tcl_UtfToUpper} {
    string toupper {}
} {}
test utf-11.2 {Tcl_UtfToUpper} {
    string toupper abc
} ABC