* "It all comes from here, the stench and the peril." --Frodo
*/
+/*
+ * This file is the lexer for Perl. It's closely linked to the
+ * parser, perly.y.
+ *
+ * The main routine is yylex(), which returns the next token.
+ */
+
#include "EXTERN.h"
#define PERL_IN_TOKE_C
#include "perl.h"
static char ident_too_long[] = "Identifier too long";
+static void restore_rsfp(pTHXo_ void *f);
+static void restore_expect(pTHXo_ void *e);
+static void restore_lex_expect(pTHXo_ void *e);
+
#define UTF (PL_hints & HINT_UTF8)
/*
* Note: we try to be careful never to call the isXXX_utf8() functions
* 1999-02-27 mjd-perl-patch@plover.com */
#define isCONTROLVAR(x) (isUPPER(x) || strchr("[\\]^_?", (x)))
-/* The following are arranged oddly so that the guard on the switch statement
+/* LEX_* are values for PL_lex_state, the state of the lexer.
+ * They are arranged oddly so that the guard on the switch statement
* can get by with a single comparison (if the compiler is smart enough).
*/
#include "keywords.h"
+/* CLINE is a macro that ensures PL_copline has a sane value */
+
#ifdef CLINE
#undef CLINE
#endif
#define CLINE (PL_copline = (PL_curcop->cop_line < PL_copline ? PL_curcop->cop_line : PL_copline))
+/*
+ * Convenience functions to return different tokens and prime the
+ * lexer for the next token. They all take an argument.
+ *
+ * TOKEN : generic token (used for '(', DOLSHARP, etc)
+ * OPERATOR : generic operator
+ * AOPERATOR : assignment operator
+ * PREBLOCK : beginning the block after an if, while, foreach, ...
+ * PRETERMBLOCK : beginning a non-code-defining {} block (eg, hash ref)
+ * PREREF : *EXPR where EXPR is not a simple identifier
+ * TERM : expression term
+ * LOOPX : loop exiting command (goto, last, dump, etc)
+ * FTST : file test operator
+ * FUN0 : zero-argument function
+ * FUN1 : not used
+ * BOop : bitwise or or xor
+ * BAop : bitwise and
+ * SHop : shift operator
+ * PWop : power operator
+ * PMop : pattern-matching operator
+ * Aop : addition-level operator
+ * Mop : multiplication-level operator
+ * Eop : equality-testing operator
+ * Rop : relational operator <= != gt
+ *
+ * Also see LOP and lop() below.
+ */
+
#define TOKEN(retval) return (PL_bufptr = s,(int)retval)
#define OPERATOR(retval) return (PL_expect = XTERM,PL_bufptr = s,(int)retval)
#define AOPERATOR(retval) return ao((PL_expect = XTERM,PL_bufptr = s,(int)retval))
/* grandfather return to old style */
#define OLDLOP(f) return(yylval.ival=f,PL_expect = XTERM,PL_bufptr = s,(int)LSTOP)
+/*
+ * S_ao
+ *
+ * This subroutine detects &&= and ||= and turns an ANDAND or OROR
+ * into an OP_ANDASSIGN or OP_ORASSIGN
+ */
+
STATIC int
S_ao(pTHX_ int toketype)
{
return toketype;
}
+/*
+ * S_no_op
+ * When Perl expects an operator and finds something else, no_op
+ * prints the warning. It always prints "<something> found where
+ * operator expected. It prints "Missing semicolon on previous line?"
+ * if the surprise occurs at the start of the line. "do you need to
+ * predeclare ..." is printed out for code like "sub bar; foo bar $x"
+ * where the compiler doesn't know if foo is a method call or a function.
+ * It prints "Missing operator before end of line" if there's nothing
+ * after the missing operator, or "... before <...>" if there is something
+ * after the missing operator.
+ */
+
STATIC void
S_no_op(pTHX_ char *what, char *s)
{
char *oldbp = PL_bufptr;
bool is_first = (PL_oldbufptr == PL_linestart);
+ assert(s >= oldbp);
PL_bufptr = s;
yywarn(Perl_form(aTHX_ "%s found where operator expected", what));
if (is_first)
if (t < PL_bufptr && isSPACE(*t))
Perl_warn(aTHX_ "\t(Do you need to predeclare %.*s?)\n",
t - PL_oldoldbufptr, PL_oldoldbufptr);
-
}
- else if (s <= oldbp)
- Perl_warn(aTHX_ "\t(Missing operator before end of line?)\n");
else
Perl_warn(aTHX_ "\t(Missing operator before %.*s?)\n", s - oldbp, oldbp);
PL_bufptr = oldbp;
}
+/*
+ * S_missingterm
+ * Complain about missing quote/regexp/heredoc terminator.
+ * If it's called with (char *)NULL then it cauterizes the line buffer.
+ * If we're in a delimited string and the delimiter is a control
+ * character, it's reformatted into a two-char sequence like ^C.
+ * This is fatal.
+ */
+
STATIC void
S_missingterm(pTHX_ char *s)
{
Perl_croak(aTHX_ "Can't find string terminator %c%s%c anywhere before EOF",q,s,q);
}
+/*
+ * Perl_deprecate
+ */
+
void
Perl_deprecate(pTHX_ char *s)
{
Perl_warner(aTHX_ WARN_DEPRECATED, "Use of %s is deprecated", s);
}
+/*
+ * depcom
+ * Deprecate a comma-less variable list.
+ */
+
STATIC void
S_depcom(pTHX)
{
deprecate("comma-less variable list");
}
+/*
+ * experimental text filters for win32 carriage-returns, utf16-to-utf8 and
+ * utf16-to-utf8-reversed.
+ */
+
#ifdef WIN32
STATIC I32
return count;
}
+/*
+ * Perl_lex_start
+ * Initialize variables. Uses the Perl save_stack to save its state (for
+ * recursive calls to the parser).
+ */
+
void
Perl_lex_start(pTHX_ SV *line)
{
SAVESPTR(PL_linestr);
SAVEPPTR(PL_lex_brackstack);
SAVEPPTR(PL_lex_casestack);
- SAVEDESTRUCTOR(S_restore_rsfp, PL_rsfp);
+ SAVEDESTRUCTOR(restore_rsfp, PL_rsfp);
SAVESPTR(PL_lex_stuff);
SAVEI32(PL_lex_defer);
SAVESPTR(PL_lex_repl);
- SAVEDESTRUCTOR(S_restore_expect, PL_tokenbuf + PL_expect); /* encode as pointer */
- SAVEDESTRUCTOR(S_restore_lex_expect, PL_tokenbuf + PL_expect);
+ SAVEDESTRUCTOR(restore_expect, PL_tokenbuf + PL_expect); /* encode as pointer */
+ SAVEDESTRUCTOR(restore_lex_expect, PL_tokenbuf + PL_expect);
PL_lex_state = LEX_NORMAL;
PL_lex_defer = 0;
PL_rsfp = 0;
}
+/*
+ * Perl_lex_end
+ * Finalizer for lexing operations. Must be called when the parser is
+ * done with the lexer.
+ */
+
void
Perl_lex_end(pTHX)
{
PL_doextract = FALSE;
}
-STATIC void
-S_restore_rsfp(pTHX_ void *f)
-{
- PerlIO *fp = (PerlIO*)f;
-
- if (PL_rsfp == PerlIO_stdin())
- PerlIO_clearerr(PL_rsfp);
- else if (PL_rsfp && (PL_rsfp != fp))
- PerlIO_close(PL_rsfp);
- PL_rsfp = fp;
-}
-
-STATIC void
-S_restore_expect(pTHX_ void *e)
-{
- /* a safe way to store a small integer in a pointer */
- PL_expect = (expectation)((char *)e - PL_tokenbuf);
-}
-
-STATIC void
-S_restore_lex_expect(pTHX_ void *e)
-{
- /* a safe way to store a small integer in a pointer */
- PL_lex_expect = (expectation)((char *)e - PL_tokenbuf);
-}
+/*
+ * S_incline
+ * This subroutine has nothing to do with tilting, whether at windmills
+ * or pinball tables. Its name is short for "increment line". It
+ * increments the current line number in PL_curcop->cop_line and checks
+ * to see whether the line starts with a comment of the form
+ * # line 500 "foo.pm"
+ * If so, it sets the current line number and file to the values in the comment.
+ */
STATIC void
S_incline(pTHX_ char *s)
PL_curcop->cop_line = atoi(n)-1;
}
+/*
+ * S_skipspace
+ * Called to gobble the appropriate amount and type of whitespace.
+ * Skips comments as well.
+ */
+
STATIC char *
S_skipspace(pTHX_ register char *s)
{
if (*s++ == '\n' && PL_in_eval && !PL_rsfp)
incline(s);
}
+
+ /* comment */
if (s < PL_bufend && *s == '#') {
while (s < PL_bufend && *s != '\n')
s++;
}
}
}
+
+ /* only continue to recharge the buffer if we're at the end
+ * of the buffer, we're not reading from a source filter, and
+ * we're in normal lexing mode
+ */
if (s < PL_bufend || !PL_rsfp || PL_lex_state != LEX_NORMAL)
return s;
- if ((s = filter_gets(PL_linestr, PL_rsfp, (prevlen = SvCUR(PL_linestr)))) == Nullch) {
+
+ /* try to recharge the buffer */
+ if ((s = filter_gets(PL_linestr, PL_rsfp,
+ (prevlen = SvCUR(PL_linestr)))) == Nullch)
+ {
+ /* end of file. Add on the -p or -n magic */
if (PL_minus_n || PL_minus_p) {
sv_setpv(PL_linestr,PL_minus_p ?
";}continue{print or die qq(-p destination: $!\\n)" :
}
else
sv_setpv(PL_linestr,";");
- PL_oldoldbufptr = PL_oldbufptr = PL_bufptr = s = PL_linestart = SvPVX(PL_linestr);
+
+ /* reset variables for next time we lex */
+ PL_oldoldbufptr = PL_oldbufptr = PL_bufptr = s = PL_linestart
+ = SvPVX(PL_linestr);
PL_bufend = SvPVX(PL_linestr) + SvCUR(PL_linestr);
+
+ /* Close the filehandle. Could be from -P preprocessor,
+ * STDIN, or a regular file. If we were reading code from
+ * STDIN (because the commandline held no -e or filename)
+ * then we don't close it, we reset it so the code can
+ * read from STDIN too.
+ */
+
if (PL_preprocess && !PL_in_eval)
(void)PerlProc_pclose(PL_rsfp);
else if ((PerlIO*)PL_rsfp == PerlIO_stdin())
PL_rsfp = Nullfp;
return s;
}
+
+ /* not at end of file, so we only read another line */
PL_linestart = PL_bufptr = s + prevlen;
PL_bufend = s + SvCUR(PL_linestr);
s = PL_bufptr;
incline(s);
+
+ /* debugger active and we're not compiling the debugger code,
+ * so store the line into the debugger's array of lines
+ */
if (PERLDB_LINE && PL_curstash != PL_debstash) {
SV *sv = NEWSV(85,0);
}
}
+/*
+ * S_check_uni
+ * Check the unary operators to ensure there's no ambiguity in how they're
+ * used. An ambiguous piece of code would be:
+ * rand + 5
+ * This doesn't mean rand() + 5. Because rand() is a unary operator,
+ * the +5 is its argument.
+ */
+
STATIC void
S_check_uni(pTHX)
{
char *s;
- char ch;
char *t;
dTHR;
if ((t = strchr(s, '(')) && t < PL_bufptr)
return;
if (ckWARN_d(WARN_AMBIGUOUS)){
- ch = *s;
+ char ch = *s;
*s = '\0';
Perl_warner(aTHX_ WARN_AMBIGUOUS,
"Warning: Use of \"%s\" without parens is ambiguous",
}
}
+/* workaround to replace the UNI() macro with a function. Only the
+ * hints/uts.sh file mentions this. Other comments elsewhere in the
+ * source indicate Microport Unix might need it too.
+ */
+
#ifdef CRIPPLED_CC
#undef UNI
#endif /* CRIPPLED_CC */
+/*
+ * LOP : macro to build a list operator. Its behaviour has been replaced
+ * with a subroutine, S_lop() for which LOP is just another name.
+ */
+
#define LOP(f,x) return lop(f,x,s)
+/*
+ * S_lop
+ * Build a list operator (or something that might be one). The rules:
+ * - if we have a next token, then it's a list operator [why?]
+ * - if the next thing is an opening paren, then it's a function
+ * - else it's a list operator
+ */
+
STATIC I32
S_lop(pTHX_ I32 f, expectation x, char *s)
{
return LSTOP;
}
+/*
+ * S_force_next
+ * When the lexer realizes it knows the next token (for instance,
+ * it is reordering tokens for the parser) then it can call S_force_next
+ * to know what token to return the next time the lexer is called. Caller
+ * will need to set PL_nextval[], and possibly PL_expect to ensure the lexer
+ * handles the token correctly.
+ */
+
STATIC void
S_force_next(pTHX_ I32 type)
{
}
}
+/*
+ * S_force_word
+ * When the lexer knows the next thing is a word (for instance, it has
+ * just seen -> and it knows that the next char is a word char, then
+ * it calls S_force_word to stick the next word into the PL_next lookahead.
+ *
+ * Arguments:
+ * char *start : start of the buffer
+ * int token : PL_next will be this type of bare word (e.g., METHOD,WORD)
+ * int check_keyword : if true, Perl checks to make sure the word isn't
+ * a keyword (do this if the word is a label, e.g. goto FOO)
+ * int allow_pack : if true, : characters will also be allowed (require,
+ * use, etc. do this)
+ * int allow_initial_tick : used by the "sub" lexer only.
+ */
+
STATIC char *
S_force_word(pTHX_ register char *start, int token, int check_keyword, int allow_pack, int allow_initial_tick)
{
return s;
}
+/*
+ * S_force_ident
+ * Called when the lexer wants $foo *foo &foo etc, but the program
+ * text only contains the "foo" portion. The first argument is a pointer
+ * to the "foo", and the second argument is the type symbol to prefix.
+ * Forces the next token to be a "WORD".
+ * Creates the symbol if it didn't already exist (via gv_fetchpv()).
+ */
+
STATIC void
S_force_ident(pTHX_ register char *s, int kind)
{
}
}
+/*
+ * S_force_version
+ * Forces the next token to be a version number.
+ */
+
STATIC char *
S_force_version(pTHX_ char *s)
{
return (s);
}
+/*
+ * S_tokeq
+ * Tokenize a quoted string passed in as an SV. It finds the next
+ * chunk, up to end of string or a backslash. It may make a new
+ * SV containing that chunk (if HINT_NEW_STRING is on). It also
+ * turns \\ into \.
+ */
+
STATIC SV *
S_tokeq(pTHX_ SV *sv)
{
return sv;
}
+/*
+ * Now come three functions related to double-quote context,
+ * S_sublex_start, S_sublex_push, and S_sublex_done. They're used when
+ * converting things like "\u\Lgnat" into ucfirst(lc("gnat")). They
+ * interact with PL_lex_state, and create fake ( ... ) argument lists
+ * to handle functions and concatenation.
+ * They assume that whoever calls them will be setting up a fake
+ * join call, because each subthing puts a ',' after it. This lets
+ * "lower \luPpEr"
+ * become
+ * join($, , 'lower ', lcfirst( 'uPpEr', ) ,)
+ *
+ * (I'm not sure whether the spurious commas at the end of lcfirst's
+ * arguments and join's arguments are created or not).
+ */
+
+/*
+ * S_sublex_start
+ * Assumes that yylval.ival is the op we're creating (e.g. OP_LCFIRST).
+ *
+ * Pattern matching will set PL_lex_op to the pattern-matching op to
+ * make (we return THING if yylval.ival is OP_NULL, PMFUNC otherwise).
+ *
+ * OP_CONST and OP_READLINE are easy--just make the new op and return.
+ *
+ * Everything else becomes a FUNC.
+ *
+ * Sets PL_lex_state to LEX_INTERPPUSH unless (ival was OP_NULL or we
+ * had an OP_CONST or OP_READLINE). This just sets us up for a
+ * call to S_sublex_push().
+ */
+
STATIC I32
S_sublex_start(pTHX)
{
return FUNC;
}
+/*
+ * S_sublex_push
+ * Create a new scope to save the lexing state. The scope will be
+ * ended in S_sublex_done. Returns a '(', starting the function arguments
+ * to the uc, lc, etc. found before.
+ * Sets PL_lex_state to LEX_INTERPCONCAT.
+ */
+
STATIC I32
S_sublex_push(pTHX)
{
PL_linestr = PL_lex_stuff;
PL_lex_stuff = Nullsv;
- PL_bufend = PL_bufptr = PL_oldbufptr = PL_oldoldbufptr = PL_linestart = SvPVX(PL_linestr);
+ PL_bufend = PL_bufptr = PL_oldbufptr = PL_oldoldbufptr = PL_linestart
+ = SvPVX(PL_linestr);
PL_bufend += SvCUR(PL_linestr);
SAVEFREESV(PL_linestr);
return '(';
}
+/*
+ * S_sublex_done
+ * Restores lexer state after a S_sublex_push.
+ */
+
STATIC I32
S_sublex_done(pTHX)
{
return yylex();
}
- /* Is there a right-hand side to take care of? */
+ /* Is there a right-hand side to take care of? (s//RHS/ or tr//RHS/) */
if (PL_lex_repl && (PL_lex_inwhat == OP_SUBST || PL_lex_inwhat == OP_TRANS)) {
PL_linestr = PL_lex_repl;
PL_lex_inpat = 0;
? (PL_sublex_info.sub_op->op_private & (OPpTRANS_FROM_UTF|OPpTRANS_TO_UTF))
: UTF;
I32 thisutf = (PL_lex_inwhat == OP_TRANS && PL_sublex_info.sub_op)
- ? (PL_sublex_info.sub_op->op_private & (PL_lex_repl ? OPpTRANS_FROM_UTF : OPpTRANS_TO_UTF))
+ ? (PL_sublex_info.sub_op->op_private & (PL_lex_repl ?
+ OPpTRANS_FROM_UTF : OPpTRANS_TO_UTF))
: UTF;
-
- /* leaveit is the set of acceptably-backslashed characters */
- char *leaveit =
+ char *leaveit = /* set of acceptably-backslashed characters */
PL_lex_inpat
? "\\.^$@AGZdDwWsSbBpPXC+*?|()-nrtfeaxcz0123456789[{]} \t\n\r\f\v#"
: "";
I32 max; /* last character in range */
i = d - SvPVX(sv); /* remember current offset */
- SvGROW(sv, SvLEN(sv) + 256); /* expand the sv -- there'll never be more'n 256 chars in a range for it to grow by */
- d = SvPVX(sv) + i; /* restore d after the grow potentially has changed the ptr */
+ SvGROW(sv, SvLEN(sv) + 256); /* never more than 256 chars in a range */
+ d = SvPVX(sv) + i; /* refresh d after realloc */
d -= 2; /* eat the first char and the - */
min = (U8)*d; /* first char in range */
d = (char*)uv_to_utf8((U8*)d,
scan_hex(s + 1, e - s - 1, &len));
s = e + 1;
-
}
else {
UV uv = (UV)scan_hex(s, 2, &len);
return s;
}
+/* S_intuit_more
+ * Returns TRUE if there's more to the expression (e.g., a subscript),
+ * FALSE otherwise.
+ *
+ * It deals with "$foo[3]" and /$foo[3]/ and /$foo[0123456789$]+/
+ *
+ * ->[ and ->{ return TRUE
+ * { and [ outside a pattern are always subscripts, so return TRUE
+ * if we're outside a pattern and it's not { or [, then return FALSE
+ * if we're in a pattern and the first char is a {
+ * {4,5} (any digits around the comma) returns FALSE
+ * if we're in a pattern and the first char is a [
+ * [] returns FALSE
+ * [SOMETHING] has a funky algorithm to decide whether it's a
+ * character class or not. It has to deal with things like
+ * /$foo[-3]/ and /$foo[$bar]/ as well as /$foo[$\d]+/
+ * anything else returns TRUE
+ */
+
/* This is the one truly awful dwimmer necessary to conflate C and sed. */
+
STATIC int
S_intuit_more(pTHX_ register char *s)
{
if (*s == ']' || *s == '^')
return FALSE;
else {
+ /* this is terrifying, and it works */
int weight = 2; /* let's weigh the evidence */
char seen[256];
unsigned char un_char = 255, last_un_char;
return TRUE;
}
+/*
+ * S_intuit_method
+ *
+ * Does all the checking to disambiguate
+ * foo bar
+ * between foo(bar) and bar->foo. Returns 0 if not a method, otherwise
+ * FUNCMETH (bar->foo(args)) or METHOD (bar->foo args).
+ *
+ * First argument is the stuff after the first token, e.g. "bar".
+ *
+ * Not a method if bar is a filehandle.
+ * Not a method if foo is a subroutine prototyped to take a filehandle.
+ * Not a method if it's really "Foo $bar"
+ * Method if it's "foo $bar"
+ * Not a method if it's really "print foo $bar"
+ * Method if it's really "foo package::" (interpreted as package->foo)
+ * Not a method if bar is known to be a subroutne ("sub bar; foo bar")
+ * Not a method if bar is a filehandle or package, but is quotd with
+ * =>
+ */
+
STATIC int
S_intuit_method(pTHX_ char *start, GV *gv)
{
gv = 0;
}
s = scan_word(s, tmpbuf, sizeof tmpbuf, TRUE, &len);
+ /* start is the beginning of the possible filehandle/object,
+ * and s is the end of it
+ * tmpbuf is a copy of it
+ */
+
if (*start == '$') {
if (gv || PL_last_lop_op == OP_PRINT || isUPPER(*PL_tokenbuf))
return 0;
return 0;
}
+/*
+ * S_incl_perldb
+ * Return a string of Perl code to load the debugger. If PERL5DB
+ * is set, it will return the contents of that, otherwise a
+ * compile-time require of perl5db.pl.
+ */
+
STATIC char*
S_incl_perldb(pTHX)
{
|| (*t == '=' && t[1] == '>')))
OPERATOR(HASHBRACK);
if (PL_expect == XREF)
- PL_expect = XSTATE; /* was XTERM, trying XSTATE */
+ PL_expect = XTERM;
else {
PL_lex_brackstack[PL_lex_brackets-1] = XSTATE;
PL_expect = XSTATE;
}
if (s[1] == '#' && (isIDFIRST_lazy(s+2) || strchr("{$:+-", s[2]))) {
- if (PL_expect == XOPERATOR)
- no_op("Array length", PL_bufptr);
PL_tokenbuf[0] = '@';
- s = scan_ident(s + 1, PL_bufend, PL_tokenbuf + 1, sizeof PL_tokenbuf - 1,
- FALSE);
+ s = scan_ident(s + 1, PL_bufend, PL_tokenbuf + 1,
+ sizeof PL_tokenbuf - 1, FALSE);
+ if (PL_expect == XOPERATOR)
+ no_op("Array length", s);
if (!PL_tokenbuf[1])
PREREF(DOLSHARP);
PL_expect = XOPERATOR;
TOKEN(DOLSHARP);
}
- if (PL_expect == XOPERATOR)
- no_op("Scalar", PL_bufptr);
PL_tokenbuf[0] = '$';
- s = scan_ident(s, PL_bufend, PL_tokenbuf + 1, sizeof PL_tokenbuf - 1, FALSE);
+ s = scan_ident(s, PL_bufend, PL_tokenbuf + 1,
+ sizeof PL_tokenbuf - 1, FALSE);
+ if (PL_expect == XOPERATOR)
+ no_op("Scalar", s);
if (!PL_tokenbuf[1]) {
if (s == PL_bufend)
yyerror("Final $ should be \\$ or $name");
}
safe_bareword:
- if (lastchar && strchr("*%&", lastchar) &&
- ckWARN_d(WARN_AMBIGUOUS)) {
+ if (lastchar && strchr("*%&", lastchar) && ckWARN_d(WARN_AMBIGUOUS)) {
Perl_warner(aTHX_ WARN_AMBIGUOUS,
"Operator or semicolon missing before %c%s",
lastchar, PL_tokenbuf);
TERM(sublex_start());
case KEY_map:
- LOP(OP_MAPSTART, XREF);
-
+ LOP(OP_MAPSTART, *s == '(' ? XTERM : XREF);
+
case KEY_mkdir:
LOP(OP_MKDIR,XTERM);
we in octal/hex/binary?" indicator to disallow hex characters
when in octal mode.
*/
- UV u;
+ dTHR;
+ NV n = 0.0;
+ UV u = 0;
I32 shift;
bool overflowed = FALSE;
- dTHR;
+ static NV nvshift[5] = { 1.0, 2.0, 4.0, 8.0, 16.0 };
+ static char* bases[5] = { "", "binary", "", "octal",
+ "hexadecimal" };
+ static char* Bases[5] = { "", "Binary", "", "Octal",
+ "Hexadecimal" };
+ static char *maxima[5] = { "",
+ "0b11111111111111111111111111111111",
+ "",
+ "0b37777777777",
+ "0xffffffff" };
+ char *base, *Base, *max;
/* check for hex */
if (s[1] == 'x') {
/* so it must be octal */
else
shift = 3;
- u = 0;
+
+ base = bases[shift];
+ Base = Bases[shift];
+ max = maxima[shift];
/* read the rest of the number */
for (;;) {
- UV n, b; /* n is used in the overflow test, b is the digit we're adding on */
+ /* x is used in the overflow test,
+ b is the digit we're adding on */
+ UV x, b;
switch (*s) {
*/
digit:
- n = u << shift; /* make room for the digit */
- if (!overflowed && (n >> shift) != u
- && !(PL_hints & HINT_NEW_BINARY) && ckWARN_d(WARN_UNSAFE)) {
- Perl_warner(aTHX_ WARN_UNSAFE, "Integer overflow in %s number",
- (shift == 4) ? "hex"
- : ((shift == 3) ? "octal" : "binary"));
- overflowed = TRUE;
+ if (!overflowed) {
+ x = u << shift; /* make room for the digit */
+
+ if ((x >> shift) != u
+ && !(PL_hints & HINT_NEW_BINARY)) {
+ dTHR;
+ overflowed = TRUE;
+ n = (NV) u;
+ if (ckWARN_d(WARN_UNSAFE))
+ Perl_warner(aTHX_ ((shift == 3) ?
+ WARN_OCTAL : WARN_UNSAFE),
+ "Integer overflow in %s number",
+ base);
+ } else
+ u = x | b; /* add the digit to the end */
+ }
+ if (overflowed) {
+ n *= nvshift[shift];
+ /* If an NV has not enough bits in its
+ * mantissa to represent an UV this summing of
+ * small low-order numbers is a waste of time
+ * (because the NV cannot preserve the
+ * low-order bits anyway): we could just
+ * remember when did we overflow and in the
+ * end just multiply n by the right
+ * amount. */
+ n += (NV) b;
}
- u = n | b; /* add the digit to the end */
break;
}
}
*/
out:
sv = NEWSV(92,0);
- sv_setuv(sv, u);
- if ( PL_hints & HINT_NEW_BINARY)
+ if (overflowed) {
+ dTHR;
+ if (ckWARN(WARN_UNSAFE) && (NV) n > 4294967295.0)
+ Perl_warner(aTHX_ WARN_UNSAFE,
+ "%s number > %s non-portable",
+ Base, max);
+ sv_setnv(sv, n);
+ }
+ else {
+#if UV_SIZEOF > 4
+ dTHR;
+ if (ckWARN(WARN_UNSAFE) && u > 0xffffffff)
+ Perl_warner(aTHX_ WARN_UNSAFE,
+ "%s number > %s non-portable",
+ Base, max);
+#endif
+ sv_setuv(sv, u);
+ }
+ if (PL_hints & HINT_NEW_BINARY)
sv = new_constant(start, s - start, "binary", sv, Nullsv, NULL);
}
break;
}
+#ifdef PERL_OBJECT
+#define NO_XSLOCKS
+#include "XSUB.h"
+#endif
+
+/*
+ * restore_rsfp
+ * Restore a source filter.
+ */
+
+static void
+restore_rsfp(pTHXo_ void *f)
+{
+ PerlIO *fp = (PerlIO*)f;
+
+ if (PL_rsfp == PerlIO_stdin())
+ PerlIO_clearerr(PL_rsfp);
+ else if (PL_rsfp && (PL_rsfp != fp))
+ PerlIO_close(PL_rsfp);
+ PL_rsfp = fp;
+}
+
+/*
+ * restore_expect
+ * Restores the state of PL_expect when the lexing that begun with a
+ * start_lex() call has ended.
+ */
+
+static void
+restore_expect(pTHXo_ void *e)
+{
+ /* a safe way to store a small integer in a pointer */
+ PL_expect = (expectation)((char *)e - PL_tokenbuf);
+}
+
+/*
+ * restore_lex_expect
+ * Restores the state of PL_lex_expect when the lexing that begun with a
+ * start_lex() call has ended.
+ */
+
+static void
+restore_lex_expect(pTHXo_ void *e)
+{
+ /* a safe way to store a small integer in a pointer */
+ PL_lex_expect = (expectation)((char *)e - PL_tokenbuf);
+}
projects / p5sagit/p5-mst-13.2.git / blobdiff