From c1fe19d4c1db610692365472a90f4661e48449c1 Mon Sep 17 00:00:00 2001 From: Eric Andersen Date: Mon, 9 Oct 2000 20:06:30 +0000 Subject: Bug ugly formatting update --- libc/misc/regex/.indent.pro | 33 + libc/misc/regex/Makefile | 11 +- libc/misc/regex/rx.c | 11355 +++++++++++++++++++++--------------------- 3 files changed, 5586 insertions(+), 5813 deletions(-) create mode 100644 libc/misc/regex/.indent.pro (limited to 'libc/misc/regex') diff --git a/libc/misc/regex/.indent.pro b/libc/misc/regex/.indent.pro new file mode 100644 index 000000000..492ecf1c7 --- /dev/null +++ b/libc/misc/regex/.indent.pro @@ -0,0 +1,33 @@ +--blank-lines-after-declarations +--blank-lines-after-procedures +--break-before-boolean-operator +--no-blank-lines-after-commas +--braces-on-if-line +--braces-on-struct-decl-line +--comment-indentation25 +--declaration-comment-column25 +--no-comment-delimiters-on-blank-lines +--cuddle-else +--continuation-indentation4 +--case-indentation0 +--else-endif-column33 +--space-after-cast +--line-comments-indentation0 +--declaration-indentation1 +--dont-format-first-column-comments +--dont-format-comments +--honour-newlines +--indent-level4 +/* changed from 0 to 4 */ +--parameter-indentation4 +--line-length78 /* changed from 75 */ +--continue-at-parentheses +--no-space-after-function-call-names +--dont-break-procedure-type +--dont-star-comments +--leave-optional-blank-lines +--dont-space-special-semicolon +--tab-size4 +/* additions by Mark */ +--case-brace-indentation0 +--leave-preprocessor-space diff --git a/libc/misc/regex/Makefile b/libc/misc/regex/Makefile index b8b38faa9..006ea75cc 100644 --- a/libc/misc/regex/Makefile +++ b/libc/misc/regex/Makefile @@ -26,13 +26,16 @@ LIBC=$(TOPDIR)libc.a CSRC=rx.c COBJS=$(patsubst %.c,%.o, $(CSRC)) +OBJS=$(COBJS) -all: $(COBJS) $(LIBC) +all: $(OBJS) $(LIBC) -$(LIBC): $(COBJS) - $(AR) $(ARFLAGS) $(LIBC) $(COBJS) +$(LIBC): ar-target -$(COBJS): Makefile +ar-target: $(OBJS) + $(AR) $(ARFLAGS) $(LIBC) $(OBJS) + +$(OBJS): Makefile clean: rm -f *.[oa] *~ core diff --git a/libc/misc/regex/rx.c b/libc/misc/regex/rx.c index 1abff8cc5..39f77adb6 100644 --- a/libc/misc/regex/rx.c +++ b/libc/misc/regex/rx.c @@ -22,7 +22,7 @@ write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA * Do not put ANYTHING before it! */ #if !defined (__GNUC__) && defined (_AIX) - #pragma alloca +#pragma alloca #endif /* To make linux happy? */ @@ -50,6 +50,7 @@ write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA #define MIN(a, b) ((a) < (b) ? (a) : (b)) typedef char boolean; + #define false 0 #define true 1 @@ -64,17 +65,17 @@ typedef char boolean; /* Make alloca work the best possible way. */ #ifdef __GNUC__ #define alloca __builtin_alloca -#else /* not __GNUC__ */ +#else /* not __GNUC__ */ #if HAVE_ALLOCA_H #include -#else /* not __GNUC__ or HAVE_ALLOCA_H */ -#ifndef _AIX /* Already did AIX, up at the top. */ -char *alloca (); -#endif /* not _AIX */ -#endif /* not HAVE_ALLOCA_H */ -#endif /* not __GNUC__ */ +#else /* not __GNUC__ or HAVE_ALLOCA_H */ +#ifndef _AIX /* Already did AIX, up at the top. */ +char *alloca(); +#endif /* not _AIX */ +#endif /* not HAVE_ALLOCA_H */ +#endif /* not __GNUC__ */ -#endif /* not alloca */ +#endif /* not alloca */ /* Memory management and stuff for emacs. */ @@ -90,14 +91,14 @@ char *alloca (); #ifdef REGEX_MALLOC #define REGEX_ALLOCATE malloc -#else /* not REGEX_MALLOC */ +#else /* not REGEX_MALLOC */ #define REGEX_ALLOCATE alloca -#endif /* not REGEX_MALLOC */ +#endif /* not REGEX_MALLOC */ #ifdef RX_WANT_RX_DEFS #define RX_DECL extern -#define RX_DEF_QUAL +#define RX_DEF_QUAL #else #define RX_WANT_RX_DEFS #define RX_DECL static @@ -114,137 +115,132 @@ char *alloca (); */ #ifdef __STDC__ RX_DECL struct rx_hash_item - *rx_hash_find (struct rx_hash *, unsigned long, - void *, struct rx_hash_rules *); +*rx_hash_find(struct rx_hash *, unsigned long, + + void *, struct rx_hash_rules *); RX_DECL struct rx_hash_item - *rx_hash_find (struct rx_hash *, unsigned long, - void *, struct rx_hash_rules *); +*rx_hash_find(struct rx_hash *, unsigned long, + + void *, struct rx_hash_rules *); RX_DECL struct rx_hash_item - *rx_hash_store (struct rx_hash *, unsigned long, - void *, struct rx_hash_rules *); -RX_DECL void rx_hash_free (struct rx_hash_item *, - struct rx_hash_rules *); -RX_DECL void rx_free_hash_table (struct rx_hash *, rx_hash_freefn, - struct rx_hash_rules *); -RX_DECL rx_Bitset - rx_cset (struct rx *); -RX_DECL rx_Bitset - rx_copy_cset (struct rx *, rx_Bitset); -RX_DECL void rx_free_cset (struct rx *, rx_Bitset); +*rx_hash_store(struct rx_hash *, unsigned long, + + void *, struct rx_hash_rules *); +RX_DECL void rx_hash_free(struct rx_hash_item *, struct rx_hash_rules *); +RX_DECL void rx_free_hash_table(struct rx_hash *, rx_hash_freefn, + + struct rx_hash_rules *); +RX_DECL rx_Bitset rx_cset(struct rx *); +RX_DECL rx_Bitset rx_copy_cset(struct rx *, rx_Bitset); +RX_DECL void rx_free_cset(struct rx *, rx_Bitset); static struct rx_hash_item - *compiler_hash_item_alloc (struct rx_hash_rules *, void *); +*compiler_hash_item_alloc(struct rx_hash_rules *, void *); static struct rx_hash - *compiler_hash_alloc (struct rx_hash_rules *); -static void compiler_free_hash (struct rx_hash *, - struct rx_hash_rules *); -static void compiler_free_hash_item (struct rx_hash_item *, - struct rx_hash_rules *); +*compiler_hash_alloc(struct rx_hash_rules *); +static void compiler_free_hash(struct rx_hash *, struct rx_hash_rules *); +static void compiler_free_hash_item(struct rx_hash_item *, + + struct rx_hash_rules *); RX_DECL struct rexp_node - *rexp_node (struct rx *, enum rexp_node_type); +*rexp_node(struct rx *, enum rexp_node_type); RX_DECL struct rexp_node - *rx_mk_r_cset (struct rx *, rx_Bitset); +*rx_mk_r_cset(struct rx *, rx_Bitset); RX_DECL struct rexp_node - *rx_mk_r_concat (struct rx *, struct rexp_node *, - struct rexp_node *); +*rx_mk_r_concat(struct rx *, struct rexp_node *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_alternate (struct rx *, struct rexp_node *, - struct rexp_node *); +*rx_mk_r_alternate(struct rx *, struct rexp_node *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_alternate (struct rx *, struct rexp_node *, - struct rexp_node *); +*rx_mk_r_alternate(struct rx *, struct rexp_node *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_opt (struct rx *, struct rexp_node *); +*rx_mk_r_opt(struct rx *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_star (struct rx *, struct rexp_node *); +*rx_mk_r_star(struct rx *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_2phase_star (struct rx *, struct rexp_node *, - struct rexp_node *); +*rx_mk_r_2phase_star(struct rx *, struct rexp_node *, struct rexp_node *); RX_DECL struct rexp_node - *rx_mk_r_side_effect (struct rx *, rx_side_effect); +*rx_mk_r_side_effect(struct rx *, rx_side_effect); + //RX_DECL struct rexp_node // *rx_mk_r_data (struct rx *, void *); -RX_DECL void rx_free_rexp (struct rx *, struct rexp_node *); +RX_DECL void rx_free_rexp(struct rx *, struct rexp_node *); RX_DECL struct rexp_node - *rx_copy_rexp (struct rx *, struct rexp_node *); +*rx_copy_rexp(struct rx *, struct rexp_node *); RX_DECL struct rx_nfa_state - *rx_nfa_state (struct rx *); -RX_DECL void rx_free_nfa_state (struct rx_nfa_state *); +*rx_nfa_state(struct rx *); +RX_DECL void rx_free_nfa_state(struct rx_nfa_state *); RX_DECL struct rx_nfa_state - *rx_id_to_nfa_state (struct rx *, int); +*rx_id_to_nfa_state(struct rx *, int); RX_DECL struct rx_nfa_edge - *rx_nfa_edge (struct rx *, enum rx_nfa_etype, - struct rx_nfa_state *, - struct rx_nfa_state *); -RX_DECL void rx_free_nfa_edge (struct rx_nfa_edge *); +*rx_nfa_edge(struct rx *, enum rx_nfa_etype, + + struct rx_nfa_state *, struct rx_nfa_state *); +RX_DECL void rx_free_nfa_edge(struct rx_nfa_edge *); static struct rx_possible_future - *rx_possible_future (struct rx *, struct rx_se_list *); -static void rx_free_possible_future (struct rx_possible_future *); -RX_DECL void rx_free_nfa (struct rx *); -RX_DECL int rx_build_nfa (struct rx *, struct rexp_node *, - struct rx_nfa_state **, - struct rx_nfa_state **); -RX_DECL void rx_name_nfa_states (struct rx *); -static int se_list_cmp (void *, void *); -static int se_list_equal (void *, void *); +*rx_possible_future(struct rx *, struct rx_se_list *); +static void rx_free_possible_future(struct rx_possible_future *); +RX_DECL void rx_free_nfa(struct rx *); +RX_DECL int rx_build_nfa(struct rx *, struct rexp_node *, + struct rx_nfa_state **, struct rx_nfa_state **); +RX_DECL void rx_name_nfa_states(struct rx *); +static int se_list_cmp(void *, void *); +static int se_list_equal(void *, void *); static struct rx_se_list - *hash_cons_se_prog (struct rx *, struct rx_hash *, - void *, struct rx_se_list *); +*hash_cons_se_prog(struct rx *, struct rx_hash *, + + void *, struct rx_se_list *); static struct rx_se_list - *hash_se_prog (struct rx *, struct rx_hash *, - struct rx_se_list *); -static int nfa_set_cmp (void *, void *); -static int nfa_set_equal (void *, void *); +*hash_se_prog(struct rx *, struct rx_hash *, struct rx_se_list *); +static int nfa_set_cmp(void *, void *); +static int nfa_set_equal(void *, void *); static struct rx_nfa_state_set - *nfa_set_cons (struct rx *, struct rx_hash *, - struct rx_nfa_state *, - struct rx_nfa_state_set *); +*nfa_set_cons(struct rx *, struct rx_hash *, + + struct rx_nfa_state *, struct rx_nfa_state_set *); static struct rx_nfa_state_set - *nfa_set_enjoin (struct rx *, struct rx_hash *, - struct rx_nfa_state *, - struct rx_nfa_state_set *); +*nfa_set_enjoin(struct rx *, struct rx_hash *, + + struct rx_nfa_state *, struct rx_nfa_state_set *); #endif #ifndef emacs #ifdef SYNTAX_TABLE extern char *re_syntax_table; -#else /* not SYNTAX_TABLE */ +#else /* not SYNTAX_TABLE */ #ifndef RX_WANT_RX_DEFS RX_DECL char re_syntax_table[CHAR_SET_SIZE]; #endif #ifdef __STDC__ -static void -init_syntax_once (void) +static void init_syntax_once(void) #else -static void -init_syntax_once () +static void init_syntax_once() #endif { - register int c; - static int done = 0; + register int c; + static int done = 0; - if (done) - return; + if (done) + return; - bzero (re_syntax_table, sizeof re_syntax_table); + bzero(re_syntax_table, sizeof re_syntax_table); - for (c = 'a'; c <= 'z'; c++) - re_syntax_table[c] = Sword; + for (c = 'a'; c <= 'z'; c++) + re_syntax_table[c] = Sword; - for (c = 'A'; c <= 'Z'; c++) - re_syntax_table[c] = Sword; + for (c = 'A'; c <= 'Z'; c++) + re_syntax_table[c] = Sword; - for (c = '0'; c <= '9'; c++) - re_syntax_table[c] = Sword; + for (c = '0'; c <= '9'; c++) + re_syntax_table[c] = Sword; - re_syntax_table['_'] = Sword; + re_syntax_table['_'] = Sword; - done = 1; + done = 1; } -#endif /* not SYNTAX_TABLE */ -#endif /* not emacs */ +#endif /* not SYNTAX_TABLE */ +#endif /* not emacs */ /* Compile with `-DRX_DEBUG' and use the following flags. * @@ -257,7 +253,7 @@ init_syntax_once () int rx_debug_compile = 0; int rx_debug_trace = 0; -static struct re_pattern_buffer * dbug_rxb = 0; +static struct re_pattern_buffer *dbug_rxb = 0; /* @@ -265,903 +261,845 @@ static struct re_pattern_buffer * dbug_rxb = 0; */ #ifdef __STDC__ typedef void (*side_effect_printer) (struct rx *, void *, FILE *); -static void print_cset (struct rx *, rx_Bitset, FILE *); -static void print_rexp (struct rx *, struct rexp_node *, int, - side_effect_printer, FILE *); -static void print_nfa (struct rx *, struct rx_nfa_state *, - side_effect_printer, FILE *); -static void re_seprint (struct rx *, void *, FILE *); -void print_compiled_pattern (struct re_pattern_buffer *); -void print_fastmap (char *); +static void print_cset(struct rx *, rx_Bitset, FILE *); +static void print_rexp(struct rx *, struct rexp_node *, int, + side_effect_printer, FILE *); +static void print_nfa(struct rx *, struct rx_nfa_state *, + side_effect_printer, FILE *); +static void re_seprint(struct rx *, void *, FILE *); +void print_compiled_pattern(struct re_pattern_buffer *); +void print_fastmap(char *); #else typedef void (*side_effect_printer) (); -static void print_cset (); +static void print_cset(); #endif #ifdef __STDC__ static void -print_rexp (struct rx *rx, - struct rexp_node *node, int depth, - side_effect_printer seprint, FILE * fp) -#else -static void -print_rexp (rx, node, depth, seprint, fp) - struct rx *rx; - struct rexp_node *node; - int depth; - side_effect_printer seprint; - FILE * fp; -#endif -{ - if (!node) - return; - else - { - switch (node->type) - { - case r_cset: - { - fprintf (fp, "%*s", depth, ""); - print_cset (rx, node->params.cset, fp); - fputc ('\n', fp); - break; - } - - case r_opt: - case r_star: - fprintf (fp, "%*s%s\n", depth, "", - node->type == r_opt ? "opt" : "star"); - print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp); - break; - - case r_2phase_star: - fprintf (fp, "%*s2phase star\n", depth, ""); - print_rexp (rx, node->params.pair.right, depth + 3, seprint, fp); - print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp); - break; - +print_rexp(struct rx *rx, + struct rexp_node *node, int depth, + side_effect_printer seprint, FILE * fp) +#else +static void print_rexp(rx, node, depth, seprint, fp) +struct rx *rx; +struct rexp_node *node; +int depth; +side_effect_printer seprint; +FILE *fp; +#endif +{ + if (!node) + return; + else { + switch (node->type) { + case r_cset: + { + fprintf(fp, "%*s", depth, ""); + print_cset(rx, node->params.cset, fp); + fputc('\n', fp); + break; + } - case r_alternate: - case r_concat: - fprintf (fp, "%*s%s\n", depth, "", - node->type == r_alternate ? "alt" : "concat"); - print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp); - print_rexp (rx, node->params.pair.right, depth + 3, seprint, fp); - break; - case r_side_effect: - fprintf (fp, "%*sSide effect: ", depth, ""); - seprint (rx, node->params.side_effect, fp); - fputc ('\n', fp); + case r_opt: + case r_star: + fprintf(fp, "%*s%s\n", depth, "", + node->type == r_opt ? "opt" : "star"); + print_rexp(rx, node->params.pair.left, depth + 3, seprint, fp); + break; + + case r_2phase_star: + fprintf(fp, "%*s2phase star\n", depth, ""); + print_rexp(rx, node->params.pair.right, depth + 3, seprint, + fp); + print_rexp(rx, node->params.pair.left, depth + 3, seprint, fp); + break; + + + case r_alternate: + case r_concat: + fprintf(fp, "%*s%s\n", depth, "", + node->type == r_alternate ? "alt" : "concat"); + print_rexp(rx, node->params.pair.left, depth + 3, seprint, fp); + print_rexp(rx, node->params.pair.right, depth + 3, seprint, + fp); + break; + case r_side_effect: + fprintf(fp, "%*sSide effect: ", depth, ""); + seprint(rx, node->params.side_effect, fp); + fputc('\n', fp); + } } - } } #ifdef __STDC__ static void -print_nfa (struct rx * rx, - struct rx_nfa_state * n, - side_effect_printer seprint, FILE * fp) -#else -static void -print_nfa (rx, n, seprint, fp) - struct rx * rx; - struct rx_nfa_state * n; - side_effect_printer seprint; - FILE * fp; -#endif -{ - while (n) - { - struct rx_nfa_edge *e = n->edges; - struct rx_possible_future *ec = n->futures; - fprintf (fp, "node %d %s\n", n->id, - n->is_final ? "final" : (n->is_start ? "start" : "")); - while (e) - { - fprintf (fp, " edge to %d, ", e->dest->id); - switch (e->type) - { - case ne_epsilon: - fprintf (fp, "epsilon\n"); - break; - case ne_side_effect: - fprintf (fp, "side effect "); - seprint (rx, e->params.side_effect, fp); - fputc ('\n', fp); - break; - case ne_cset: - fprintf (fp, "cset "); - print_cset (rx, e->params.cset, fp); - fputc ('\n', fp); - break; - } - e = e->next; - } +print_nfa(struct rx *rx, + struct rx_nfa_state *n, side_effect_printer seprint, FILE * fp) +#else +static void print_nfa(rx, n, seprint, fp) +struct rx *rx; +struct rx_nfa_state *n; +side_effect_printer seprint; +FILE *fp; +#endif +{ + while (n) { + struct rx_nfa_edge *e = n->edges; + struct rx_possible_future *ec = n->futures; + + fprintf(fp, "node %d %s\n", n->id, + n->is_final ? "final" : (n->is_start ? "start" : "")); + while (e) { + fprintf(fp, " edge to %d, ", e->dest->id); + switch (e->type) { + case ne_epsilon: + fprintf(fp, "epsilon\n"); + break; + case ne_side_effect: + fprintf(fp, "side effect "); + seprint(rx, e->params.side_effect, fp); + fputc('\n', fp); + break; + case ne_cset: + fprintf(fp, "cset "); + print_cset(rx, e->params.cset, fp); + fputc('\n', fp); + break; + } + e = e->next; + } - while (ec) - { - int x; - struct rx_nfa_state_set * s; - struct rx_se_list * l; - fprintf (fp, " eclosure to {"); - for (s = ec->destset; s; s = s->cdr) - fprintf (fp, "%d ", s->car->id); - fprintf (fp, "} ("); - for (l = ec->effects; l; l = l->cdr) - { - seprint (rx, l->car, fp); - fputc (' ', fp); - } - fprintf (fp, ")\n"); - ec = ec->next; + while (ec) { + int x; + struct rx_nfa_state_set *s; + struct rx_se_list *l; + + fprintf(fp, " eclosure to {"); + for (s = ec->destset; s; s = s->cdr) + fprintf(fp, "%d ", s->car->id); + fprintf(fp, "} ("); + for (l = ec->effects; l; l = l->cdr) { + seprint(rx, l->car, fp); + fputc(' ', fp); + } + fprintf(fp, ")\n"); + ec = ec->next; + } + n = n->next; } - n = n->next; - } } -static char * efnames [] = -{ - "bogon", - "re_se_try", - "re_se_pushback", - "re_se_push0", - "re_se_pushpos", - "re_se_chkpos", - "re_se_poppos", - "re_se_at_dot", - "re_se_syntax", - "re_se_not_syntax", - "re_se_begbuf", - "re_se_hat", - "re_se_wordbeg", - "re_se_wordbound", - "re_se_notwordbound", - "re_se_wordend", - "re_se_endbuf", - "re_se_dollar", - "re_se_fail", +static char *efnames[] = { + "bogon", + "re_se_try", + "re_se_pushback", + "re_se_push0", + "re_se_pushpos", + "re_se_chkpos", + "re_se_poppos", + "re_se_at_dot", + "re_se_syntax", + "re_se_not_syntax", + "re_se_begbuf", + "re_se_hat", + "re_se_wordbeg", + "re_se_wordbound", + "re_se_notwordbound", + "re_se_wordend", + "re_se_endbuf", + "re_se_dollar", + "re_se_fail", }; -static char * efnames2[] = -{ - "re_se_win", - "re_se_lparen", - "re_se_rparen", - "re_se_backref", - "re_se_iter", - "re_se_end_iter", - "re_se_tv" +static char *efnames2[] = { + "re_se_win", + "re_se_lparen", + "re_se_rparen", + "re_se_backref", + "re_se_iter", + "re_se_end_iter", + "re_se_tv" }; -static char * inx_names[] = -{ - "rx_backtrack_point", - "rx_do_side_effects", - "rx_cache_miss", - "rx_next_char", - "rx_backtrack", - "rx_error_inx", - "rx_num_instructions" +static char *inx_names[] = { + "rx_backtrack_point", + "rx_do_side_effects", + "rx_cache_miss", + "rx_next_char", + "rx_backtrack", + "rx_error_inx", + "rx_num_instructions" }; #ifdef __STDC__ -static void -re_seprint (struct rx * rx, void * effect, FILE * fp) +static void re_seprint(struct rx *rx, void *effect, FILE * fp) #else -static void -re_seprint (rx, effect, fp) - struct rx * rx; - void * effect; - FILE * fp; -#endif -{ - if ((int)effect < 0) - fputs (efnames[-(int)effect], fp); - else if (dbug_rxb) - { - struct re_se_params * p = &dbug_rxb->se_params[(int)effect]; - fprintf (fp, "%s(%d,%d)", efnames2[p->se], p->op1, p->op2); - } - else - fprintf (fp, "[complex op # %d]", (int)effect); +static void re_seprint(rx, effect, fp) +struct rx *rx; +void *effect; +FILE *fp; +#endif +{ + if ((int) effect < 0) + fputs(efnames[-(int) effect], fp); + else if (dbug_rxb) { + struct re_se_params *p = &dbug_rxb->se_params[(int) effect]; + + fprintf(fp, "%s(%d,%d)", efnames2[p->se], p->op1, p->op2); + } else + fprintf(fp, "[complex op # %d]", (int) effect); } /* These are so the regex.c regression tests will compile. */ -void -print_compiled_pattern (rxb) - struct re_pattern_buffer * rxb; +void print_compiled_pattern(rxb) +struct re_pattern_buffer *rxb; { } -void -print_fastmap (fm) - char * fm; +void print_fastmap(fm) +char *fm; { } -#endif /* RX_DEBUG */ - +#endif /* RX_DEBUG */ + /* This page: Bitsets. Completely unintersting. */ //RX_DECL int rx_bitset_is_equal (int, rx_Bitset, rx_Bitset); -RX_DECL int rx_bitset_is_subset (int, rx_Bitset, rx_Bitset); +RX_DECL int rx_bitset_is_subset(int, rx_Bitset, rx_Bitset); + //RX_DECL int rx_bitset_empty (int, rx_Bitset); -RX_DECL void rx_bitset_null (int, rx_Bitset); -RX_DECL void rx_bitset_complement (int, rx_Bitset); -RX_DECL void rx_bitset_complement (int, rx_Bitset); -RX_DECL void rx_bitset_assign (int, rx_Bitset, rx_Bitset); -RX_DECL void rx_bitset_union (int, rx_Bitset, rx_Bitset); -RX_DECL void rx_bitset_intersection (int, rx_Bitset, rx_Bitset); -RX_DECL void rx_bitset_difference (int, rx_Bitset, rx_Bitset); +RX_DECL void rx_bitset_null(int, rx_Bitset); +RX_DECL void rx_bitset_complement(int, rx_Bitset); +RX_DECL void rx_bitset_complement(int, rx_Bitset); +RX_DECL void rx_bitset_assign(int, rx_Bitset, rx_Bitset); +RX_DECL void rx_bitset_union(int, rx_Bitset, rx_Bitset); +RX_DECL void rx_bitset_intersection(int, rx_Bitset, rx_Bitset); +RX_DECL void rx_bitset_difference(int, rx_Bitset, rx_Bitset); + //RX_DECL void rx_bitset_revdifference (int, rx_Bitset, rx_Bitset); #ifdef emacs -RX_DECL void rx_bitset_xor (int, rx_Bitset, rx_Bitset); +RX_DECL void rx_bitset_xor(int, rx_Bitset, rx_Bitset); #endif -RX_DECL unsigned long - rx_bitset_hash (int, rx_Bitset); +RX_DECL unsigned long rx_bitset_hash(int, rx_Bitset); #if 0 #ifdef __STDC__ -RX_DECL int -rx_bitset_is_equal (int size, rx_Bitset a, rx_Bitset b) +RX_DECL int rx_bitset_is_equal(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL int -rx_bitset_is_equal (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL int rx_bitset_is_equal(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - RX_subset s = b[0]; - b[0] = ~a[0]; + int x; + RX_subset s = b[0]; - for (x = rx_bitset_numb_subsets(size) - 1; a[x] == b[x]; --x) - ; + b[0] = ~a[0]; - b[0] = s; - return !x && s == a[0]; + for (x = rx_bitset_numb_subsets(size) - 1; a[x] == b[x]; --x); + + b[0] = s; + return !x && s == a[0]; } #endif #ifdef __STDC__ -RX_DECL int -rx_bitset_is_subset (int size, rx_Bitset a, rx_Bitset b) +RX_DECL int rx_bitset_is_subset(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL int -rx_bitset_is_subset (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL int rx_bitset_is_subset(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x = rx_bitset_numb_subsets(size) - 1; - while (x-- && (a[x] & b[x]) == a[x]); - return x == -1; + int x = rx_bitset_numb_subsets(size) - 1; + + while (x-- && (a[x] & b[x]) == a[x]); + return x == -1; } #if 0 #ifdef __STDC__ -RX_DECL int -rx_bitset_empty (int size, rx_Bitset set) +RX_DECL int rx_bitset_empty(int size, rx_Bitset set) #else -RX_DECL int -rx_bitset_empty (size, set) - int size; - rx_Bitset set; +RX_DECL int rx_bitset_empty(size, set) +int size; +rx_Bitset set; #endif { - int x; - RX_subset s = set[0]; - set[0] = 1; - for (x = rx_bitset_numb_subsets(size) - 1; !set[x]; --x) - ; - set[0] = s; - return !s; + int x; + RX_subset s = set[0]; + + set[0] = 1; + for (x = rx_bitset_numb_subsets(size) - 1; !set[x]; --x); + set[0] = s; + return !s; } #endif #ifdef __STDC__ -RX_DECL void -rx_bitset_null (int size, rx_Bitset b) +RX_DECL void rx_bitset_null(int size, rx_Bitset b) #else -RX_DECL void -rx_bitset_null (size, b) - int size; - rx_Bitset b; +RX_DECL void rx_bitset_null(size, b) +int size; +rx_Bitset b; #endif { - bzero (b, rx_sizeof_bitset(size)); + bzero(b, rx_sizeof_bitset(size)); } #ifdef __STDC__ -RX_DECL void -rx_bitset_universe (int size, rx_Bitset b) +RX_DECL void rx_bitset_universe(int size, rx_Bitset b) #else -RX_DECL void -rx_bitset_universe (size, b) - int size; - rx_Bitset b; +RX_DECL void rx_bitset_universe(size, b) +int size; +rx_Bitset b; #endif { - int x = rx_bitset_numb_subsets (size); - while (x--) - *b++ = ~(RX_subset)0; + int x = rx_bitset_numb_subsets(size); + + while (x--) + *b++ = ~(RX_subset) 0; } #ifdef __STDC__ -RX_DECL void -rx_bitset_complement (int size, rx_Bitset b) +RX_DECL void rx_bitset_complement(int size, rx_Bitset b) #else -RX_DECL void -rx_bitset_complement (size, b) - int size; - rx_Bitset b; +RX_DECL void rx_bitset_complement(size, b) +int size; +rx_Bitset b; #endif { - int x = rx_bitset_numb_subsets (size); - while (x--) - { - *b = ~*b; - ++b; - } + int x = rx_bitset_numb_subsets(size); + + while (x--) { + *b = ~*b; + ++b; + } } #ifdef __STDC__ -RX_DECL void -rx_bitset_assign (int size, rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_assign(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_assign (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL void rx_bitset_assign(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] = b[x]; + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] = b[x]; } #ifdef __STDC__ -RX_DECL void -rx_bitset_union (int size, rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_union(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_union (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL void rx_bitset_union(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] |= b[x]; + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] |= b[x]; } #ifdef __STDC__ -RX_DECL void -rx_bitset_intersection (int size, - rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_intersection(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_intersection (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL void rx_bitset_intersection(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] &= b[x]; + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] &= b[x]; } #ifdef __STDC__ -RX_DECL void -rx_bitset_difference (int size, rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_difference(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_difference (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL void rx_bitset_difference(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] &= ~ b[x]; + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] &= ~b[x]; } #if 0 #ifdef __STDC__ -RX_DECL void -rx_bitset_revdifference (int size, - rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_revdifference(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_revdifference (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; +RX_DECL void rx_bitset_revdifference(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; #endif { - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] = ~a[x] & b[x]; + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] = ~a[x] & b[x]; } #endif #ifdef emacs #ifdef __STDC__ -RX_DECL void -rx_bitset_xor (int size, rx_Bitset a, rx_Bitset b) +RX_DECL void rx_bitset_xor(int size, rx_Bitset a, rx_Bitset b) #else -RX_DECL void -rx_bitset_xor (size, a, b) - int size; - rx_Bitset a; - rx_Bitset b; -#endif -{ - int x; - for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x) - a[x] ^= b[x]; -} -#endif - - -#ifdef __STDC__ -RX_DECL unsigned long -rx_bitset_hash (int size, rx_Bitset b) -#else -RX_DECL unsigned long -rx_bitset_hash (size, b) - int size; - rx_Bitset b; -#endif -{ - int x; - unsigned long hash = (unsigned long)rx_bitset_hash; - - for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) - hash ^= rx_bitset_subset_val(b, x); - - return hash; -} - -RX_DECL RX_subset rx_subset_singletons [RX_subset_bits] = -{ - 0x1, - 0x2, - 0x4, - 0x8, - 0x10, - 0x20, - 0x40, - 0x80, - 0x100, - 0x200, - 0x400, - 0x800, - 0x1000, - 0x2000, - 0x4000, - 0x8000, - 0x10000, - 0x20000, - 0x40000, - 0x80000, - 0x100000, - 0x200000, - 0x400000, - 0x800000, - 0x1000000, - 0x2000000, - 0x4000000, - 0x8000000, - 0x10000000, - 0x20000000, - 0x40000000, - 0x80000000 +RX_DECL void rx_bitset_xor(size, a, b) +int size; +rx_Bitset a; +rx_Bitset b; +#endif +{ + int x; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + a[x] ^= b[x]; +} +#endif + + +#ifdef __STDC__ +RX_DECL unsigned long rx_bitset_hash(int size, rx_Bitset b) +#else +RX_DECL unsigned long rx_bitset_hash(size, b) +int size; +rx_Bitset b; +#endif +{ + int x; + unsigned long hash = (unsigned long) rx_bitset_hash; + + for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x) + hash ^= rx_bitset_subset_val(b, x); + + return hash; +} + +RX_DECL RX_subset rx_subset_singletons[RX_subset_bits] = { + 0x1, + 0x2, + 0x4, + 0x8, + 0x10, + 0x20, + 0x40, + 0x80, + 0x100, + 0x200, + 0x400, + 0x800, + 0x1000, + 0x2000, + 0x4000, + 0x8000, + 0x10000, + 0x20000, + 0x40000, + 0x80000, + 0x100000, + 0x200000, + 0x400000, + 0x800000, + 0x1000000, + 0x2000000, + 0x4000000, + 0x8000000, + 0x10000000, + 0x20000000, + 0x40000000, + 0x80000000 }; #ifdef RX_DEBUG #ifdef __STDC__ -static void -print_cset (struct rx *rx, rx_Bitset cset, FILE * fp) +static void print_cset(struct rx *rx, rx_Bitset cset, FILE * fp) #else -static void -print_cset (rx, cset, fp) - struct rx *rx; - rx_Bitset cset; - FILE * fp; -#endif -{ - int x; - fputc ('[', fp); - for (x = 0; x < rx->local_cset_size; ++x) - if (RX_bitset_member (cset, x)) - { - if (isprint(x)) - fputc (x, fp); - else - fprintf (fp, "\\0%o ", x); - } - fputc (']', fp); -} +static void print_cset(rx, cset, fp) +struct rx *rx; +rx_Bitset cset; +FILE *fp; +#endif +{ + int x; -#endif /* RX_DEBUG */ + fputc('[', fp); + for (x = 0; x < rx->local_cset_size; ++x) + if (RX_bitset_member(cset, x)) { + if (isprint(x)) + fputc(x, fp); + else + fprintf(fp, "\\0%o ", x); + } + fputc(']', fp); +} +#endif /* RX_DEBUG */ -static unsigned long rx_hash_masks[4] = -{ - 0x12488421, - 0x96699669, - 0xbe7dd7eb, - 0xffffffff + +static unsigned long rx_hash_masks[4] = { + 0x12488421, + 0x96699669, + 0xbe7dd7eb, + 0xffffffff }; /* Hash tables */ #ifdef __STDC__ -RX_DECL struct rx_hash_item * -rx_hash_find (struct rx_hash * table, - unsigned long hash, - void * value, - struct rx_hash_rules * rules) -#else -RX_DECL struct rx_hash_item * -rx_hash_find (table, hash, value, rules) - struct rx_hash * table; - unsigned long hash; - void * value; - struct rx_hash_rules * rules; -#endif -{ - rx_hash_eq eq = rules->eq; - int maskc = 0; - long mask = rx_hash_masks [0]; - int bucket = (hash & mask) % 13; - - while (table->children [bucket]) - { - table = table->children [bucket]; - ++maskc; - mask = rx_hash_masks[maskc]; - bucket = (hash & mask) % 13; - } +RX_DECL struct rx_hash_item *rx_hash_find(struct rx_hash *table, + unsigned long hash, + void *value, + struct rx_hash_rules *rules) +#else +RX_DECL struct rx_hash_item *rx_hash_find(table, hash, value, rules) +struct rx_hash *table; +unsigned long hash; +void *value; +struct rx_hash_rules *rules; +#endif +{ + rx_hash_eq eq = rules->eq; + int maskc = 0; + long mask = rx_hash_masks[0]; + int bucket = (hash & mask) % 13; + + while (table->children[bucket]) { + table = table->children[bucket]; + ++maskc; + mask = rx_hash_masks[maskc]; + bucket = (hash & mask) % 13; + } - { - struct rx_hash_item * it = table->buckets[bucket]; - while (it) - if (eq (it->data, value)) - return it; - else - it = it->next_same_hash; - } - - return 0; -} - -#ifdef __STDC__ -RX_DECL struct rx_hash_item * -rx_hash_store (struct rx_hash * table, - unsigned long hash, - void * value, - struct rx_hash_rules * rules) -#else -RX_DECL struct rx_hash_item * -rx_hash_store (table, hash, value, rules) - struct rx_hash * table; - unsigned long hash; - void * value; - struct rx_hash_rules * rules; -#endif -{ - rx_hash_eq eq = rules->eq; - int maskc = 0; - long mask = rx_hash_masks[0]; - int bucket = (hash & mask) % 13; - int depth = 0; - - while (table->children [bucket]) - { - table = table->children [bucket]; - ++maskc; - mask = rx_hash_masks[maskc]; - bucket = (hash & mask) % 13; - ++depth; - } - - { - struct rx_hash_item * it = table->buckets[bucket]; - while (it) - if (eq (it->data, value)) - return it; - else - it = it->next_same_hash; - } - - { - if ( (depth < 3) - && (table->bucket_size [bucket] >= 4)) - { - struct rx_hash * newtab = ((struct rx_hash *) - rules->hash_alloc (rules)); - if (!newtab) - goto add_to_bucket; - bzero (newtab, sizeof (*newtab)); - newtab->parent = table; { - struct rx_hash_item * them = table->buckets[bucket]; - unsigned long newmask = rx_hash_masks[maskc + 1]; - while (them) - { - struct rx_hash_item * save = them->next_same_hash; - int new_buck = (them->hash & newmask) % 13; - them->next_same_hash = newtab->buckets[new_buck]; - newtab->buckets[new_buck] = them; - them->table = newtab; - them = save; - ++newtab->bucket_size[new_buck]; - ++newtab->refs; - } - table->refs = (table->refs - table->bucket_size[bucket] + 1); - table->bucket_size[bucket] = 0; - table->buckets[bucket] = 0; - table->children[bucket] = newtab; - table = newtab; - bucket = (hash & newmask) % 13; + struct rx_hash_item *it = table->buckets[bucket]; + + while (it) + if (eq(it->data, value)) + return it; + else + it = it->next_same_hash; } - } - } - add_to_bucket: - { - struct rx_hash_item * it = ((struct rx_hash_item *) - rules->hash_item_alloc (rules, value)); - if (!it) - return 0; - it->hash = hash; - it->table = table; - /* DATA and BINDING are to be set in hash_item_alloc */ - it->next_same_hash = table->buckets [bucket]; - table->buckets[bucket] = it; - ++table->bucket_size [bucket]; - ++table->refs; - return it; - } -} + return 0; +} #ifdef __STDC__ -RX_DECL void -rx_hash_free (struct rx_hash_item * it, struct rx_hash_rules * rules) +RX_DECL struct rx_hash_item *rx_hash_store(struct rx_hash *table, + unsigned long hash, + void *value, + struct rx_hash_rules *rules) #else -RX_DECL void -rx_hash_free (it, rules) - struct rx_hash_item * it; - struct rx_hash_rules * rules; -#endif -{ - if (it) - { - struct rx_hash * table = it->table; - unsigned long hash = it->hash; - int depth = (table->parent - ? (table->parent->parent - ? (table->parent->parent->parent - ? 3 - : 2) - : 1) - : 0); - int bucket = (hash & rx_hash_masks [depth]) % 13; - struct rx_hash_item ** pos = &table->buckets [bucket]; - - while (*pos != it) - pos = &(*pos)->next_same_hash; - *pos = it->next_same_hash; - rules->free_hash_item (it, rules); - --table->bucket_size[bucket]; - --table->refs; - while (!table->refs && depth) +RX_DECL struct rx_hash_item *rx_hash_store(table, hash, value, rules) +struct rx_hash *table; +unsigned long hash; +void *value; +struct rx_hash_rules *rules; +#endif +{ + rx_hash_eq eq = rules->eq; + int maskc = 0; + long mask = rx_hash_masks[0]; + int bucket = (hash & mask) % 13; + int depth = 0; + + while (table->children[bucket]) { + table = table->children[bucket]; + ++maskc; + mask = rx_hash_masks[maskc]; + bucket = (hash & mask) % 13; + ++depth; + } + { - struct rx_hash * save = table; - table = table->parent; - --depth; - bucket = (hash & rx_hash_masks [depth]) % 13; - --table->refs; - table->children[bucket] = 0; - rules->free_hash (save, rules); + struct rx_hash_item *it = table->buckets[bucket]; + + while (it) + if (eq(it->data, value)) + return it; + else + it = it->next_same_hash; + } + + { + if ((depth < 3) + && (table->bucket_size[bucket] >= 4)) { + struct rx_hash *newtab = ((struct rx_hash *) + rules->hash_alloc(rules)); + + if (!newtab) + goto add_to_bucket; + bzero(newtab, sizeof(*newtab)); + newtab->parent = table; + { + struct rx_hash_item *them = table->buckets[bucket]; + unsigned long newmask = rx_hash_masks[maskc + 1]; + + while (them) { + struct rx_hash_item *save = them->next_same_hash; + int new_buck = (them->hash & newmask) % 13; + + them->next_same_hash = newtab->buckets[new_buck]; + newtab->buckets[new_buck] = them; + them->table = newtab; + them = save; + ++newtab->bucket_size[new_buck]; + ++newtab->refs; + } + table->refs = + (table->refs - table->bucket_size[bucket] + 1); + table->bucket_size[bucket] = 0; + table->buckets[bucket] = 0; + table->children[bucket] = newtab; + table = newtab; + bucket = (hash & newmask) % 13; + } + } + } + add_to_bucket: + { + struct rx_hash_item *it = ((struct rx_hash_item *) + rules->hash_item_alloc(rules, value)); + + if (!it) + return 0; + it->hash = hash; + it->table = table; + /* DATA and BINDING are to be set in hash_item_alloc */ + it->next_same_hash = table->buckets[bucket]; + table->buckets[bucket] = it; + ++table->bucket_size[bucket]; + ++table->refs; + return it; + } +} + + +#ifdef __STDC__ +RX_DECL void +rx_hash_free(struct rx_hash_item *it, struct rx_hash_rules *rules) +#else +RX_DECL void rx_hash_free(it, rules) +struct rx_hash_item *it; +struct rx_hash_rules *rules; +#endif +{ + if (it) { + struct rx_hash *table = it->table; + unsigned long hash = it->hash; + int depth = (table->parent + ? (table->parent->parent + ? (table->parent->parent->parent ? 3 : 2) + : 1) + : 0); + int bucket = (hash & rx_hash_masks[depth]) % 13; + struct rx_hash_item **pos = &table->buckets[bucket]; + + while (*pos != it) + pos = &(*pos)->next_same_hash; + *pos = it->next_same_hash; + rules->free_hash_item(it, rules); + --table->bucket_size[bucket]; + --table->refs; + while (!table->refs && depth) { + struct rx_hash *save = table; + + table = table->parent; + --depth; + bucket = (hash & rx_hash_masks[depth]) % 13; + --table->refs; + table->children[bucket] = 0; + rules->free_hash(save, rules); + } } - } } #ifdef __STDC__ RX_DECL void -rx_free_hash_table (struct rx_hash * tab, rx_hash_freefn freefn, - struct rx_hash_rules * rules) +rx_free_hash_table(struct rx_hash *tab, rx_hash_freefn freefn, + struct rx_hash_rules *rules) #else -RX_DECL void -rx_free_hash_table (tab, freefn, rules) - struct rx_hash * tab; - rx_hash_freefn freefn; - struct rx_hash_rules * rules; -#endif -{ - int x; - - for (x = 0; x < 13; ++x) - if (tab->children[x]) - { - rx_free_hash_table (tab->children[x], freefn, rules); - rules->free_hash (tab->children[x], rules); - } - else - { - struct rx_hash_item * them = tab->buckets[x]; - while (them) - { - struct rx_hash_item * that = them; - them = that->next_same_hash; - freefn (that); - rules->free_hash_item (that, rules); - } - } -} +RX_DECL void rx_free_hash_table(tab, freefn, rules) +struct rx_hash *tab; +rx_hash_freefn freefn; +struct rx_hash_rules *rules; +#endif +{ + int x; + for (x = 0; x < 13; ++x) + if (tab->children[x]) { + rx_free_hash_table(tab->children[x], freefn, rules); + rules->free_hash(tab->children[x], rules); + } else { + struct rx_hash_item *them = tab->buckets[x]; + while (them) { + struct rx_hash_item *that = them; + + them = that->next_same_hash; + freefn(that); + rules->free_hash_item(that, rules); + } + } +} + + /* Utilities for manipulating bitset represntations of characters sets. */ #ifdef __STDC__ -RX_DECL rx_Bitset -rx_cset (struct rx *rx) +RX_DECL rx_Bitset rx_cset(struct rx *rx) #else -RX_DECL rx_Bitset -rx_cset (rx) - struct rx *rx; +RX_DECL rx_Bitset rx_cset(rx) +struct rx *rx; #endif { - rx_Bitset b = (rx_Bitset) malloc (rx_sizeof_bitset (rx->local_cset_size)); - if (b) - rx_bitset_null (rx->local_cset_size, b); - return b; + rx_Bitset b = + + (rx_Bitset) malloc(rx_sizeof_bitset(rx->local_cset_size)); + if (b) + rx_bitset_null(rx->local_cset_size, b); + return b; } #ifdef __STDC__ -RX_DECL rx_Bitset -rx_copy_cset (struct rx *rx, rx_Bitset a) +RX_DECL rx_Bitset rx_copy_cset(struct rx * rx, rx_Bitset a) #else -RX_DECL rx_Bitset -rx_copy_cset (rx, a) - struct rx *rx; - rx_Bitset a; +RX_DECL rx_Bitset rx_copy_cset(rx, a) +struct rx *rx; +rx_Bitset a; #endif { - rx_Bitset cs = rx_cset (rx); + rx_Bitset cs = rx_cset(rx); - if (cs) - rx_bitset_union (rx->local_cset_size, cs, a); + if (cs) + rx_bitset_union(rx->local_cset_size, cs, a); - return cs; + return cs; } #ifdef __STDC__ -RX_DECL void -rx_free_cset (struct rx * rx, rx_Bitset c) +RX_DECL void rx_free_cset(struct rx *rx, rx_Bitset c) #else -RX_DECL void -rx_free_cset (rx, c) - struct rx * rx; - rx_Bitset c; +RX_DECL void rx_free_cset(rx, c) +struct rx *rx; +rx_Bitset c; #endif { - if (c) - free ((char *)c); + if (c) + free((char *) c); } - + /* Hash table memory allocation policy for the regexp compiler */ #ifdef __STDC__ -static struct rx_hash * -compiler_hash_alloc (struct rx_hash_rules * rules) +static struct rx_hash *compiler_hash_alloc(struct rx_hash_rules *rules) #else -static struct rx_hash * -compiler_hash_alloc (rules) - struct rx_hash_rules * rules; +static struct rx_hash *compiler_hash_alloc(rules) +struct rx_hash_rules *rules; #endif { - return (struct rx_hash *)malloc (sizeof (struct rx_hash)); + return (struct rx_hash *) malloc(sizeof(struct rx_hash)); } #ifdef __STDC__ -static struct rx_hash_item * -compiler_hash_item_alloc (struct rx_hash_rules * rules, void * value) +static struct rx_hash_item *compiler_hash_item_alloc(struct rx_hash_rules + *rules, void *value) #else -static struct rx_hash_item * -compiler_hash_item_alloc (rules, value) - struct rx_hash_rules * rules; - void * value; +static struct rx_hash_item *compiler_hash_item_alloc(rules, value) +struct rx_hash_rules *rules; +void *value; #endif { - struct rx_hash_item * it; - it = (struct rx_hash_item *)malloc (sizeof (*it)); - if (it) - { - it->data = value; - it->binding = 0; - } - return it; + struct rx_hash_item *it; + + it = (struct rx_hash_item *) malloc(sizeof(*it)); + if (it) { + it->data = value; + it->binding = 0; + } + return it; } #ifdef __STDC__ static void -compiler_free_hash (struct rx_hash * tab, - struct rx_hash_rules * rules) +compiler_free_hash(struct rx_hash *tab, struct rx_hash_rules *rules) #else -static void -compiler_free_hash (tab, rules) - struct rx_hash * tab; - struct rx_hash_rules * rules; +static void compiler_free_hash(tab, rules) +struct rx_hash *tab; +struct rx_hash_rules *rules; #endif { - free ((char *)tab); + free((char *) tab); } #ifdef __STDC__ static void -compiler_free_hash_item (struct rx_hash_item * item, - struct rx_hash_rules * rules) +compiler_free_hash_item(struct rx_hash_item *item, + struct rx_hash_rules *rules) #else -static void -compiler_free_hash_item (item, rules) - struct rx_hash_item * item; - struct rx_hash_rules * rules; +static void compiler_free_hash_item(item, rules) +struct rx_hash_item *item; +struct rx_hash_rules *rules; #endif { - free ((char *)item); + free((char *) item); } - + /* This page: REXP_NODE (expression tree) structures. */ #ifdef __STDC__ -RX_DECL struct rexp_node * -rexp_node (struct rx *rx, - enum rexp_node_type type) +RX_DECL struct rexp_node *rexp_node(struct rx *rx, + enum rexp_node_type type) #else -RX_DECL struct rexp_node * -rexp_node (rx, type) - struct rx *rx; - enum rexp_node_type type; +RX_DECL struct rexp_node *rexp_node(rx, type) +struct rx *rx; +enum rexp_node_type type; #endif { - struct rexp_node *n; + struct rexp_node *n; - n = (struct rexp_node *)malloc (sizeof (*n)); - if (n) - { - bzero (n, sizeof (*n)); - n->type = type; - } - return n; + n = (struct rexp_node *) malloc(sizeof(*n)); + if (n) { + bzero(n, sizeof(*n)); + n->type = type; + } + return n; } @@ -1169,303 +1107,271 @@ rexp_node (rx, type) * can be freed using rx_free_cset. */ #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_cset (struct rx * rx, - rx_Bitset b) +RX_DECL struct rexp_node *rx_mk_r_cset(struct rx *rx, rx_Bitset b) #else -RX_DECL struct rexp_node * -rx_mk_r_cset (rx, b) - struct rx * rx; - rx_Bitset b; +RX_DECL struct rexp_node *rx_mk_r_cset(rx, b) +struct rx *rx; +rx_Bitset b; #endif { - struct rexp_node * n = rexp_node (rx, r_cset); - if (n) - n->params.cset = b; - return n; + struct rexp_node *n = rexp_node(rx, r_cset); + + if (n) + n->params.cset = b; + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_concat (struct rx * rx, - struct rexp_node * a, - struct rexp_node * b) +RX_DECL struct rexp_node *rx_mk_r_concat(struct rx *rx, + struct rexp_node *a, + struct rexp_node *b) #else -RX_DECL struct rexp_node * -rx_mk_r_concat (rx, a, b) - struct rx * rx; - struct rexp_node * a; - struct rexp_node * b; +RX_DECL struct rexp_node *rx_mk_r_concat(rx, a, b) +struct rx *rx; +struct rexp_node *a; +struct rexp_node *b; #endif { - struct rexp_node * n = rexp_node (rx, r_concat); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = b; - } - return n; + struct rexp_node *n = rexp_node(rx, r_concat); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = b; + } + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_alternate (struct rx * rx, - struct rexp_node * a, - struct rexp_node * b) +RX_DECL struct rexp_node *rx_mk_r_alternate(struct rx *rx, + struct rexp_node *a, + struct rexp_node *b) #else -RX_DECL struct rexp_node * -rx_mk_r_alternate (rx, a, b) - struct rx * rx; - struct rexp_node * a; - struct rexp_node * b; +RX_DECL struct rexp_node *rx_mk_r_alternate(rx, a, b) +struct rx *rx; +struct rexp_node *a; +struct rexp_node *b; #endif { - struct rexp_node * n = rexp_node (rx, r_alternate); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = b; - } - return n; + struct rexp_node *n = rexp_node(rx, r_alternate); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = b; + } + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_opt (struct rx * rx, - struct rexp_node * a) +RX_DECL struct rexp_node *rx_mk_r_opt(struct rx *rx, struct rexp_node *a) #else -RX_DECL struct rexp_node * -rx_mk_r_opt (rx, a) - struct rx * rx; - struct rexp_node * a; +RX_DECL struct rexp_node *rx_mk_r_opt(rx, a) +struct rx *rx; +struct rexp_node *a; #endif { - struct rexp_node * n = rexp_node (rx, r_opt); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = 0; - } - return n; + struct rexp_node *n = rexp_node(rx, r_opt); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = 0; + } + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_star (struct rx * rx, - struct rexp_node * a) +RX_DECL struct rexp_node *rx_mk_r_star(struct rx *rx, struct rexp_node *a) #else -RX_DECL struct rexp_node * -rx_mk_r_star (rx, a) - struct rx * rx; - struct rexp_node * a; +RX_DECL struct rexp_node *rx_mk_r_star(rx, a) +struct rx *rx; +struct rexp_node *a; #endif { - struct rexp_node * n = rexp_node (rx, r_star); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = 0; - } - return n; + struct rexp_node *n = rexp_node(rx, r_star); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = 0; + } + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_2phase_star (struct rx * rx, - struct rexp_node * a, - struct rexp_node * b) +RX_DECL struct rexp_node *rx_mk_r_2phase_star(struct rx *rx, + struct rexp_node *a, + struct rexp_node *b) #else -RX_DECL struct rexp_node * -rx_mk_r_2phase_star (rx, a, b) - struct rx * rx; - struct rexp_node * a; - struct rexp_node * b; +RX_DECL struct rexp_node *rx_mk_r_2phase_star(rx, a, b) +struct rx *rx; +struct rexp_node *a; +struct rexp_node *b; #endif { - struct rexp_node * n = rexp_node (rx, r_2phase_star); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = b; - } - return n; + struct rexp_node *n = rexp_node(rx, r_2phase_star); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = b; + } + return n; } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_side_effect (struct rx * rx, - rx_side_effect a) +RX_DECL struct rexp_node *rx_mk_r_side_effect(struct rx *rx, + rx_side_effect a) #else -RX_DECL struct rexp_node * -rx_mk_r_side_effect (rx, a) - struct rx * rx; - rx_side_effect a; +RX_DECL struct rexp_node *rx_mk_r_side_effect(rx, a) +struct rx *rx; +rx_side_effect a; #endif { - struct rexp_node * n = rexp_node (rx, r_side_effect); - if (n) - { - n->params.side_effect = a; - n->params.pair.right = 0; - } - return n; + struct rexp_node *n = rexp_node(rx, r_side_effect); + + if (n) { + n->params.side_effect = a; + n->params.pair.right = 0; + } + return n; } #if 0 #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_mk_r_data (struct rx * rx, - void * a) +RX_DECL struct rexp_node *rx_mk_r_data(struct rx *rx, void *a) #else -RX_DECL struct rexp_node * -rx_mk_r_data (rx, a) - struct rx * rx; - void * a; +RX_DECL struct rexp_node *rx_mk_r_data(rx, a) +struct rx *rx; +void *a; #endif { - struct rexp_node * n = rexp_node (rx, r_data); - if (n) - { - n->params.pair.left = a; - n->params.pair.right = 0; - } - return n; + struct rexp_node *n = rexp_node(rx, r_data); + + if (n) { + n->params.pair.left = a; + n->params.pair.right = 0; + } + return n; } #endif #ifdef __STDC__ -RX_DECL void -rx_free_rexp (struct rx * rx, struct rexp_node * node) +RX_DECL void rx_free_rexp(struct rx *rx, struct rexp_node *node) #else -RX_DECL void -rx_free_rexp (rx, node) - struct rx * rx; - struct rexp_node * node; +RX_DECL void rx_free_rexp(rx, node) +struct rx *rx; +struct rexp_node *node; #endif { - if (node) - { - switch (node->type) - { - case r_cset: - if (node->params.cset) - rx_free_cset (rx, node->params.cset); + if (node) { + switch (node->type) { + case r_cset: + if (node->params.cset) + rx_free_cset(rx, node->params.cset); - case r_side_effect: - break; - - case r_concat: - case r_alternate: - case r_2phase_star: - case r_opt: - case r_star: - rx_free_rexp (rx, node->params.pair.left); - rx_free_rexp (rx, node->params.pair.right); - break; + case r_side_effect: + break; - case r_data: - /* This shouldn't occur. */ - break; + case r_concat: + case r_alternate: + case r_2phase_star: + case r_opt: + case r_star: + rx_free_rexp(rx, node->params.pair.left); + rx_free_rexp(rx, node->params.pair.right); + break; + + case r_data: + /* This shouldn't occur. */ + break; + } + free((char *) node); } - free ((char *)node); - } } #ifdef __STDC__ -RX_DECL struct rexp_node * -rx_copy_rexp (struct rx *rx, - struct rexp_node *node) +RX_DECL struct rexp_node *rx_copy_rexp(struct rx *rx, + struct rexp_node *node) #else -RX_DECL struct rexp_node * -rx_copy_rexp (rx, node) - struct rx *rx; - struct rexp_node *node; +RX_DECL struct rexp_node *rx_copy_rexp(rx, node) +struct rx *rx; +struct rexp_node *node; #endif { - if (!node) - return 0; - else - { - struct rexp_node *n = rexp_node (rx, node->type); - if (!n) - return 0; - switch (node->type) - { - case r_cset: - n->params.cset = rx_copy_cset (rx, node->params.cset); - if (!n->params.cset) - { - rx_free_rexp (rx, n); - return 0; - } - break; - - case r_side_effect: - n->params.side_effect = node->params.side_effect; - break; + if (!node) + return 0; + else { + struct rexp_node *n = rexp_node(rx, node->type); - case r_concat: - case r_alternate: - case r_opt: - case r_2phase_star: - case r_star: - n->params.pair.left = - rx_copy_rexp (rx, node->params.pair.left); - n->params.pair.right = - rx_copy_rexp (rx, node->params.pair.right); - if ( (node->params.pair.left && !n->params.pair.left) - || (node->params.pair.right && !n->params.pair.right)) - { - rx_free_rexp (rx, n); - return 0; - } - break; - case r_data: - /* shouldn't happen */ - break; + if (!n) + return 0; + switch (node->type) { + case r_cset: + n->params.cset = rx_copy_cset(rx, node->params.cset); + if (!n->params.cset) { + rx_free_rexp(rx, n); + return 0; + } + break; + + case r_side_effect: + n->params.side_effect = node->params.side_effect; + break; + + case r_concat: + case r_alternate: + case r_opt: + case r_2phase_star: + case r_star: + n->params.pair.left = rx_copy_rexp(rx, node->params.pair.left); + n->params.pair.right = + rx_copy_rexp(rx, node->params.pair.right); + if ((node->params.pair.left && !n->params.pair.left) + || (node->params.pair.right && !n->params.pair.right)) { + rx_free_rexp(rx, n); + return 0; + } + break; + case r_data: + /* shouldn't happen */ + break; + } + return n; } - return n; - } } + - /* This page: functions to build and destroy graphs that describe nfa's */ /* Constructs a new nfa node. */ #ifdef __STDC__ -RX_DECL struct rx_nfa_state * -rx_nfa_state (struct rx *rx) +RX_DECL struct rx_nfa_state *rx_nfa_state(struct rx *rx) #else -RX_DECL struct rx_nfa_state * -rx_nfa_state (rx) - struct rx *rx; +RX_DECL struct rx_nfa_state *rx_nfa_state(rx) +struct rx *rx; #endif { - struct rx_nfa_state * n = (struct rx_nfa_state *)malloc (sizeof (*n)); - if (!n) - return 0; - bzero (n, sizeof (*n)); - n->next = rx->nfa_states; - rx->nfa_states = n; - return n; + struct rx_nfa_state *n = (struct rx_nfa_state *) malloc(sizeof(*n)); + + if (!n) + return 0; + bzero(n, sizeof(*n)); + n->next = rx->nfa_states; + rx->nfa_states = n; + return n; } #ifdef __STDC__ -RX_DECL void -rx_free_nfa_state (struct rx_nfa_state * n) +RX_DECL void rx_free_nfa_state(struct rx_nfa_state *n) #else -RX_DECL void -rx_free_nfa_state (n) - struct rx_nfa_state * n; +RX_DECL void rx_free_nfa_state(n) +struct rx_nfa_state *n; #endif { - free ((char *)n); + free((char *) n); } @@ -1473,21 +1379,19 @@ rx_free_nfa_state (n) * assigned after the nfa has been built. */ #ifdef __STDC__ -RX_DECL struct rx_nfa_state * -rx_id_to_nfa_state (struct rx * rx, - int id) +RX_DECL struct rx_nfa_state *rx_id_to_nfa_state(struct rx *rx, int id) #else -RX_DECL struct rx_nfa_state * -rx_id_to_nfa_state (rx, id) - struct rx * rx; - int id; +RX_DECL struct rx_nfa_state *rx_id_to_nfa_state(rx, id) +struct rx *rx; +int id; #endif { - struct rx_nfa_state * n; - for (n = rx->nfa_states; n; n = n->next) - if (n->id == id) - return n; - return 0; + struct rx_nfa_state *n; + + for (n = rx->nfa_states; n; n = n->next) + if (n->id == id) + return n; + return 0; } @@ -1496,133 +1400,125 @@ rx_id_to_nfa_state (rx, id) */ #ifdef __STDC__ -RX_DECL struct rx_nfa_edge * -rx_nfa_edge (struct rx *rx, - enum rx_nfa_etype type, - struct rx_nfa_state *start, - struct rx_nfa_state *dest) +RX_DECL struct rx_nfa_edge *rx_nfa_edge(struct rx *rx, + enum rx_nfa_etype type, + struct rx_nfa_state *start, + struct rx_nfa_state *dest) #else -RX_DECL struct rx_nfa_edge * -rx_nfa_edge (rx, type, start, dest) - struct rx *rx; - enum rx_nfa_etype type; - struct rx_nfa_state *start; - struct rx_nfa_state *dest; +RX_DECL struct rx_nfa_edge *rx_nfa_edge(rx, type, start, dest) +struct rx *rx; +enum rx_nfa_etype type; +struct rx_nfa_state *start; +struct rx_nfa_state *dest; #endif { - struct rx_nfa_edge *e; - e = (struct rx_nfa_edge *)malloc (sizeof (*e)); - if (!e) - return 0; - e->next = start->edges; - start->edges = e; - e->type = type; - e->dest = dest; - return e; + struct rx_nfa_edge *e; + + e = (struct rx_nfa_edge *) malloc(sizeof(*e)); + if (!e) + return 0; + e->next = start->edges; + start->edges = e; + e->type = type; + e->dest = dest; + return e; } #ifdef __STDC__ -RX_DECL void -rx_free_nfa_edge (struct rx_nfa_edge * e) +RX_DECL void rx_free_nfa_edge(struct rx_nfa_edge *e) #else -RX_DECL void -rx_free_nfa_edge (e) - struct rx_nfa_edge * e; +RX_DECL void rx_free_nfa_edge(e) +struct rx_nfa_edge *e; #endif { - free ((char *)e); + free((char *) e); } /* This constructs a POSSIBLE_FUTURE, which is a kind epsilon-closure * of an NFA. These are added to an nfa automaticly by eclose_nfa. - */ + */ #ifdef __STDC__ -static struct rx_possible_future * -rx_possible_future (struct rx * rx, - struct rx_se_list * effects) +static struct rx_possible_future *rx_possible_future(struct rx *rx, struct rx_se_list + *effects) #else -static struct rx_possible_future * -rx_possible_future (rx, effects) - struct rx * rx; - struct rx_se_list * effects; +static struct rx_possible_future *rx_possible_future(rx, effects) +struct rx *rx; +struct rx_se_list *effects; #endif { - struct rx_possible_future *ec; - ec = (struct rx_possible_future *) malloc (sizeof (*ec)); - if (!ec) - return 0; - ec->destset = 0; - ec->next = 0; - ec->effects = effects; - return ec; + struct rx_possible_future *ec; + + ec = (struct rx_possible_future *) malloc(sizeof(*ec)); + if (!ec) + return 0; + ec->destset = 0; + ec->next = 0; + ec->effects = effects; + return ec; } #ifdef __STDC__ -static void -rx_free_possible_future (struct rx_possible_future * pf) +static void rx_free_possible_future(struct rx_possible_future *pf) #else -static void -rx_free_possible_future (pf) - struct rx_possible_future * pf; +static void rx_free_possible_future(pf) +struct rx_possible_future *pf; #endif { - free ((char *)pf); + free((char *) pf); } #ifdef __STDC__ -RX_DECL void -rx_free_nfa (struct rx *rx) +RX_DECL void rx_free_nfa(struct rx *rx) #else -RX_DECL void -rx_free_nfa (rx) - struct rx *rx; +RX_DECL void rx_free_nfa(rx) +struct rx *rx; #endif { - while (rx->nfa_states) - { - while (rx->nfa_states->edges) - { - switch (rx->nfa_states->edges->type) - { - case ne_cset: - rx_free_cset (rx, rx->nfa_states->edges->params.cset); - break; - default: - break; - } - { - struct rx_nfa_edge * e; - e = rx->nfa_states->edges; - rx->nfa_states->edges = rx->nfa_states->edges->next; - rx_free_nfa_edge (e); - } - } /* while (rx->nfa_states->edges) */ - { - /* Iterate over the partial epsilon closures of rx->nfa_states */ - struct rx_possible_future * pf = rx->nfa_states->futures; - while (pf) - { - struct rx_possible_future * pft = pf; - pf = pf->next; - rx_free_possible_future (pft); - } - } - { - struct rx_nfa_state *n; - n = rx->nfa_states; - rx->nfa_states = rx->nfa_states->next; - rx_free_nfa_state (n); - } - } -} - + while (rx->nfa_states) { + while (rx->nfa_states->edges) { + switch (rx->nfa_states->edges->type) { + case ne_cset: + rx_free_cset(rx, rx->nfa_states->edges->params.cset); + break; + default: + break; + } + { + struct rx_nfa_edge *e; + e = rx->nfa_states->edges; + rx->nfa_states->edges = rx->nfa_states->edges->next; + rx_free_nfa_edge(e); + } + } /* while (rx->nfa_states->edges) */ + { + /* Iterate over the partial epsilon closures of rx->nfa_states */ + struct rx_possible_future *pf = rx->nfa_states->futures; + + while (pf) { + struct rx_possible_future *pft = pf; + + pf = pf->next; + rx_free_possible_future(pft); + } + } + { + struct rx_nfa_state *n; + + n = rx->nfa_states; + rx->nfa_states = rx->nfa_states->next; + rx_free_nfa_state(n); + } + } +} + + /* This page: translating a pattern expression into an nfa and doing the * static part of the nfa->super-nfa translation. */ @@ -1639,133 +1535,130 @@ rx_free_nfa (rx) #ifdef __STDC__ RX_DECL int -rx_build_nfa (struct rx *rx, - struct rexp_node *rexp, - struct rx_nfa_state **start, - struct rx_nfa_state **end) +rx_build_nfa(struct rx *rx, + struct rexp_node *rexp, + struct rx_nfa_state **start, struct rx_nfa_state **end) #else -RX_DECL int -rx_build_nfa (rx, rexp, start, end) - struct rx *rx; - struct rexp_node *rexp; - struct rx_nfa_state **start; - struct rx_nfa_state **end; +RX_DECL int rx_build_nfa(rx, rexp, start, end) +struct rx *rx; +struct rexp_node *rexp; +struct rx_nfa_state **start; +struct rx_nfa_state **end; #endif { - struct rx_nfa_edge *edge; + struct rx_nfa_edge *edge; - /* Start & end nodes may have been allocated by the caller. */ - *start = *start ? *start : rx_nfa_state (rx); + /* Start & end nodes may have been allocated by the caller. */ + *start = *start ? *start : rx_nfa_state(rx); - if (!*start) - return 0; + if (!*start) + return 0; - if (!rexp) - { - *end = *start; - return 1; - } + if (!rexp) { + *end = *start; + return 1; + } - *end = *end ? *end : rx_nfa_state (rx); + *end = *end ? *end : rx_nfa_state(rx); - if (!*end) - { - rx_free_nfa_state (*start); - return 0; - } + if (!*end) { + rx_free_nfa_state(*start); + return 0; + } - switch (rexp->type) - { - case r_data: - return 0; + switch (rexp->type) { + case r_data: + return 0; - case r_cset: - edge = rx_nfa_edge (rx, ne_cset, *start, *end); - if (!edge) - return 0; - edge->params.cset = rx_copy_cset (rx, rexp->params.cset); - if (!edge->params.cset) + case r_cset: + edge = rx_nfa_edge(rx, ne_cset, *start, *end); + if (!edge) + return 0; + edge->params.cset = rx_copy_cset(rx, rexp->params.cset); + if (!edge->params.cset) { + rx_free_nfa_edge(edge); + return 0; + } + return 1; + + case r_opt: + return (rx_build_nfa(rx, rexp->params.pair.left, start, end) + && rx_nfa_edge(rx, ne_epsilon, *start, *end)); + + case r_star: { - rx_free_nfa_edge (edge); - return 0; + struct rx_nfa_state *star_start = 0; + struct rx_nfa_state *star_end = 0; + + return (rx_build_nfa(rx, rexp->params.pair.left, + &star_start, &star_end) + && star_start + && star_end + && rx_nfa_edge(rx, ne_epsilon, star_start, star_end) + && rx_nfa_edge(rx, ne_epsilon, *start, star_start) + && rx_nfa_edge(rx, ne_epsilon, star_end, *end) + + && rx_nfa_edge(rx, ne_epsilon, star_end, star_start)); } - return 1; - - case r_opt: - return (rx_build_nfa (rx, rexp->params.pair.left, start, end) - && rx_nfa_edge (rx, ne_epsilon, *start, *end)); - - case r_star: - { - struct rx_nfa_state * star_start = 0; - struct rx_nfa_state * star_end = 0; - return (rx_build_nfa (rx, rexp->params.pair.left, - &star_start, &star_end) - && star_start - && star_end - && rx_nfa_edge (rx, ne_epsilon, star_start, star_end) - && rx_nfa_edge (rx, ne_epsilon, *start, star_start) - && rx_nfa_edge (rx, ne_epsilon, star_end, *end) - - && rx_nfa_edge (rx, ne_epsilon, star_end, star_start)); - } - - case r_2phase_star: - { - struct rx_nfa_state * star_start = 0; - struct rx_nfa_state * star_end = 0; - struct rx_nfa_state * loop_exp_start = 0; - struct rx_nfa_state * loop_exp_end = 0; - - return (rx_build_nfa (rx, rexp->params.pair.left, - &star_start, &star_end) - && rx_build_nfa (rx, rexp->params.pair.right, - &loop_exp_start, &loop_exp_end) - && star_start - && star_end - && loop_exp_end - && loop_exp_start - && rx_nfa_edge (rx, ne_epsilon, star_start, *end) - && rx_nfa_edge (rx, ne_epsilon, *start, star_start) - && rx_nfa_edge (rx, ne_epsilon, star_end, *end) - - && rx_nfa_edge (rx, ne_epsilon, star_end, loop_exp_start) - && rx_nfa_edge (rx, ne_epsilon, loop_exp_end, star_start)); - } - - - case r_concat: - { - struct rx_nfa_state *shared = 0; - return - (rx_build_nfa (rx, rexp->params.pair.left, start, &shared) - && rx_build_nfa (rx, rexp->params.pair.right, &shared, end)); - } - - case r_alternate: - { - struct rx_nfa_state *ls = 0; - struct rx_nfa_state *le = 0; - struct rx_nfa_state *rs = 0; - struct rx_nfa_state *re = 0; - return (rx_build_nfa (rx, rexp->params.pair.left, &ls, &le) - && rx_build_nfa (rx, rexp->params.pair.right, &rs, &re) - && rx_nfa_edge (rx, ne_epsilon, *start, ls) - && rx_nfa_edge (rx, ne_epsilon, *start, rs) - && rx_nfa_edge (rx, ne_epsilon, le, *end) - && rx_nfa_edge (rx, ne_epsilon, re, *end)); - } - - case r_side_effect: - edge = rx_nfa_edge (rx, ne_side_effect, *start, *end); - if (!edge) - return 0; - edge->params.side_effect = rexp->params.side_effect; - return 1; - } - /* this should never happen */ - return 0; + case r_2phase_star: + { + struct rx_nfa_state *star_start = 0; + struct rx_nfa_state *star_end = 0; + struct rx_nfa_state *loop_exp_start = 0; + struct rx_nfa_state *loop_exp_end = 0; + + return (rx_build_nfa(rx, rexp->params.pair.left, + &star_start, &star_end) + && rx_build_nfa(rx, rexp->params.pair.right, + &loop_exp_start, &loop_exp_end) + && star_start + && star_end + && loop_exp_end + && loop_exp_start + && rx_nfa_edge(rx, ne_epsilon, star_start, *end) + && rx_nfa_edge(rx, ne_epsilon, *start, star_start) + && rx_nfa_edge(rx, ne_epsilon, star_end, *end) + + && rx_nfa_edge(rx, ne_epsilon, star_end, loop_exp_start) + && rx_nfa_edge(rx, ne_epsilon, loop_exp_end, star_start)); + } + + + case r_concat: + { + struct rx_nfa_state *shared = 0; + + return (rx_build_nfa(rx, rexp->params.pair.left, start, &shared) + && rx_build_nfa(rx, rexp->params.pair.right, &shared, + end)); + } + + case r_alternate: + { + struct rx_nfa_state *ls = 0; + struct rx_nfa_state *le = 0; + struct rx_nfa_state *rs = 0; + struct rx_nfa_state *re = 0; + + return (rx_build_nfa(rx, rexp->params.pair.left, &ls, &le) + && rx_build_nfa(rx, rexp->params.pair.right, &rs, &re) + && rx_nfa_edge(rx, ne_epsilon, *start, ls) + && rx_nfa_edge(rx, ne_epsilon, *start, rs) + && rx_nfa_edge(rx, ne_epsilon, le, *end) + && rx_nfa_edge(rx, ne_epsilon, re, *end)); + } + + case r_side_effect: + edge = rx_nfa_edge(rx, ne_side_effect, *start, *end); + if (!edge) + return 0; + edge->params.side_effect = rexp->params.side_effect; + return 1; + } + + /* this should never happen */ + return 0; } @@ -1778,56 +1671,51 @@ rx_build_nfa (rx, rexp, start, end) */ #ifdef __STDC__ -RX_DECL void -rx_name_nfa_states (struct rx *rx) +RX_DECL void rx_name_nfa_states(struct rx *rx) #else -RX_DECL void -rx_name_nfa_states (rx) - struct rx *rx; +RX_DECL void rx_name_nfa_states(rx) +struct rx *rx; #endif { - struct rx_nfa_state *n = rx->nfa_states; + struct rx_nfa_state *n = rx->nfa_states; - rx->nodec = 0; - rx->epsnodec = -1; + rx->nodec = 0; + rx->epsnodec = -1; - while (n) - { - struct rx_nfa_edge *e = n->edges; + while (n) { + struct rx_nfa_edge *e = n->edges; - if (n->is_start) - n->eclosure_needed = 1; + if (n->is_start) + n->eclosure_needed = 1; - while (e) - { - switch (e->type) - { - case ne_epsilon: - case ne_side_effect: - break; - - case ne_cset: - n->id = rx->nodec++; - { - struct rx_nfa_edge *from_n = n->edges; - while (from_n) - { - from_n->dest->eclosure_needed = 1; - from_n = from_n->next; - } - } - goto cont; - } - e = e->next; + while (e) { + switch (e->type) { + case ne_epsilon: + case ne_side_effect: + break; + + case ne_cset: + n->id = rx->nodec++; + { + struct rx_nfa_edge *from_n = n->edges; + + while (from_n) { + from_n->dest->eclosure_needed = 1; + from_n = from_n->next; + } + } + goto cont; + } + e = e->next; + } + n->id = rx->epsnodec--; + cont: + n = n->next; } - n->id = rx->epsnodec--; - cont: - n = n->next; - } - rx->epsnodec = -rx->epsnodec; + rx->epsnodec = -rx->epsnodec; } - + /* This page: data structures for the static part of the nfa->supernfa * translation. * @@ -1852,470 +1740,448 @@ rx_name_nfa_states (rx) */ #ifdef __STDC__ -static int -se_list_cmp (void * va, void * vb) +static int se_list_cmp(void *va, void *vb) #else -static int -se_list_cmp (va, vb) - void * va; - void * vb; +static int se_list_cmp(va, vb) +void *va; +void *vb; #endif { - struct rx_se_list * a = (struct rx_se_list *)va; - struct rx_se_list * b = (struct rx_se_list *)vb; + struct rx_se_list *a = (struct rx_se_list *) va; + struct rx_se_list *b = (struct rx_se_list *) vb; - return ((va == vb) - ? 0 - : (!va - ? -1 - : (!vb - ? 1 - : ((long)a->car < (long)b->car - ? 1 - : ((long)a->car > (long)b->car - ? -1 - : se_list_cmp ((void *)a->cdr, (void *)b->cdr)))))); + return ((va == vb) + ? 0 + : (!va + ? -1 + : (!vb + ? 1 + : ((long) a->car < (long) b->car + ? 1 + : ((long) a->car > (long) b->car + ? -1 + : se_list_cmp((void *) a->cdr, + (void *) b->cdr)))))); } #ifdef __STDC__ -static int -se_list_equal (void * va, void * vb) +static int se_list_equal(void *va, void *vb) #else -static int -se_list_equal (va, vb) - void * va; - void * vb; +static int se_list_equal(va, vb) +void *va; +void *vb; #endif { - return !(se_list_cmp (va, vb)); + return !(se_list_cmp(va, vb)); } -static struct rx_hash_rules se_list_hash_rules = -{ - se_list_equal, - compiler_hash_alloc, - compiler_free_hash, - compiler_hash_item_alloc, - compiler_free_hash_item +static struct rx_hash_rules se_list_hash_rules = { + se_list_equal, + compiler_hash_alloc, + compiler_free_hash, + compiler_hash_item_alloc, + compiler_free_hash_item }; #ifdef __STDC__ -static struct rx_se_list * -side_effect_cons (struct rx * rx, - void * se, struct rx_se_list * list) +static struct rx_se_list *side_effect_cons(struct rx *rx, + void *se, + struct rx_se_list *list) #else -static struct rx_se_list * -side_effect_cons (rx, se, list) - struct rx * rx; - void * se; - struct rx_se_list * list; +static struct rx_se_list *side_effect_cons(rx, se, list) +struct rx *rx; +void *se; +struct rx_se_list *list; #endif { - struct rx_se_list * l; - l = ((struct rx_se_list *) malloc (sizeof (*l))); - if (!l) - return 0; - l->car = se; - l->cdr = list; - return l; + struct rx_se_list *l; + + l = ((struct rx_se_list *) malloc(sizeof(*l))); + if (!l) + return 0; + l->car = se; + l->cdr = list; + return l; } #ifdef __STDC__ -static struct rx_se_list * -hash_cons_se_prog (struct rx * rx, - struct rx_hash * memo, - void * car, struct rx_se_list * cdr) +static struct rx_se_list *hash_cons_se_prog(struct rx *rx, + struct rx_hash *memo, + void *car, + struct rx_se_list *cdr) #else -static struct rx_se_list * -hash_cons_se_prog (rx, memo, car, cdr) - struct rx * rx; - struct rx_hash * memo; - void * car; - struct rx_se_list * cdr; +static struct rx_se_list *hash_cons_se_prog(rx, memo, car, cdr) +struct rx *rx; +struct rx_hash *memo; +void *car; +struct rx_se_list *cdr; #endif { - long hash = (long)car ^ (long)cdr; - struct rx_se_list template; + long hash = (long) car ^ (long) cdr; + struct rx_se_list template; - template.car = car; - template.cdr = cdr; - { - struct rx_hash_item * it = rx_hash_store (memo, hash, - (void *)&template, - &se_list_hash_rules); - if (!it) - return 0; - if (it->data == (void *)&template) - { - struct rx_se_list * consed; - consed = (struct rx_se_list *) malloc (sizeof (*consed)); - if (! consed) - { - free ((char *)it); - return 0; - } - *consed = template; - it->data = (void *)consed; - } - return (struct rx_se_list *)it->data; - } + template.car = car; + template.cdr = cdr; + { + struct rx_hash_item *it = rx_hash_store(memo, hash, + (void *) &template, + &se_list_hash_rules); + + if (!it) + return 0; + if (it->data == (void *) &template) { + struct rx_se_list *consed; + + consed = (struct rx_se_list *) malloc(sizeof(*consed)); + if (!consed) { + free((char *) it); + return 0; + } + *consed = template; + it->data = (void *) consed; + } + return (struct rx_se_list *) it->data; + } } - + #ifdef __STDC__ -static struct rx_se_list * -hash_se_prog (struct rx * rx, struct rx_hash * memo, struct rx_se_list * prog) +static struct rx_se_list *hash_se_prog(struct rx *rx, struct rx_hash *memo, + struct rx_se_list *prog) #else -static struct rx_se_list * -hash_se_prog (rx, memo, prog) - struct rx * rx; - struct rx_hash * memo; - struct rx_se_list * prog; +static struct rx_se_list *hash_se_prog(rx, memo, prog) +struct rx *rx; +struct rx_hash *memo; +struct rx_se_list *prog; #endif { - struct rx_se_list * answer = 0; - while (prog) - { - answer = hash_cons_se_prog (rx, memo, prog->car, answer); - if (!answer) - return 0; - prog = prog->cdr; - } - return answer; + struct rx_se_list *answer = 0; + + while (prog) { + answer = hash_cons_se_prog(rx, memo, prog->car, answer); + if (!answer) + return 0; + prog = prog->cdr; + } + return answer; } #ifdef __STDC__ -static int -nfa_set_cmp (void * va, void * vb) +static int nfa_set_cmp(void *va, void *vb) #else -static int -nfa_set_cmp (va, vb) - void * va; - void * vb; +static int nfa_set_cmp(va, vb) +void *va; +void *vb; #endif { - struct rx_nfa_state_set * a = (struct rx_nfa_state_set *)va; - struct rx_nfa_state_set * b = (struct rx_nfa_state_set *)vb; + struct rx_nfa_state_set *a = (struct rx_nfa_state_set *) va; + struct rx_nfa_state_set *b = (struct rx_nfa_state_set *) vb; - return ((va == vb) - ? 0 - : (!va - ? -1 - : (!vb - ? 1 - : (a->car->id < b->car->id - ? 1 - : (a->car->id > b->car->id - ? -1 - : nfa_set_cmp ((void *)a->cdr, (void *)b->cdr)))))); + return ((va == vb) + ? 0 + : (!va + ? -1 + : (!vb + ? 1 + : (a->car->id < b->car->id + ? 1 + : (a->car->id > b->car->id + ? -1 + : nfa_set_cmp((void *) a->cdr, + (void *) b->cdr)))))); } #ifdef __STDC__ -static int -nfa_set_equal (void * va, void * vb) +static int nfa_set_equal(void *va, void *vb) #else -static int -nfa_set_equal (va, vb) - void * va; - void * vb; +static int nfa_set_equal(va, vb) +void *va; +void *vb; #endif { - return !nfa_set_cmp (va, vb); + return !nfa_set_cmp(va, vb); } -static struct rx_hash_rules nfa_set_hash_rules = -{ - nfa_set_equal, - compiler_hash_alloc, - compiler_free_hash, - compiler_hash_item_alloc, - compiler_free_hash_item +static struct rx_hash_rules nfa_set_hash_rules = { + nfa_set_equal, + compiler_hash_alloc, + compiler_free_hash, + compiler_hash_item_alloc, + compiler_free_hash_item }; #ifdef __STDC__ -static struct rx_nfa_state_set * -nfa_set_cons (struct rx * rx, - struct rx_hash * memo, struct rx_nfa_state * state, - struct rx_nfa_state_set * set) -#else -static struct rx_nfa_state_set * -nfa_set_cons (rx, memo, state, set) - struct rx * rx; - struct rx_hash * memo; - struct rx_nfa_state * state; - struct rx_nfa_state_set * set; -#endif -{ - struct rx_nfa_state_set template; - struct rx_hash_item * node; - template.car = state; - template.cdr = set; - node = rx_hash_store (memo, - (((long)state) >> 8) ^ (long)set, - &template, &nfa_set_hash_rules); - if (!node) - return 0; - if (node->data == &template) - { - struct rx_nfa_state_set * l; - l = (struct rx_nfa_state_set *) malloc (sizeof (*l)); - node->data = (void *) l; - if (!l) - return 0; - *l = template; - } - return (struct rx_nfa_state_set *)node->data; -} - -#ifdef __STDC__ -static struct rx_nfa_state_set * -nfa_set_enjoin (struct rx * rx, - struct rx_hash * memo, struct rx_nfa_state * state, - struct rx_nfa_state_set * set) -#else -static struct rx_nfa_state_set * -nfa_set_enjoin (rx, memo, state, set) - struct rx * rx; - struct rx_hash * memo; - struct rx_nfa_state * state; - struct rx_nfa_state_set * set; -#endif -{ - if (!set || state->id < set->car->id) - return nfa_set_cons (rx, memo, state, set); - if (state->id == set->car->id) - return set; - else - { - struct rx_nfa_state_set * newcdr - = nfa_set_enjoin (rx, memo, state, set->cdr); - if (newcdr != set->cdr) - set = nfa_set_cons (rx, memo, set->car, newcdr); - return set; - } +static struct rx_nfa_state_set *nfa_set_cons(struct rx *rx, + struct rx_hash *memo, + struct rx_nfa_state *state, + struct rx_nfa_state_set *set) +#else +static struct rx_nfa_state_set *nfa_set_cons(rx, memo, state, set) +struct rx *rx; +struct rx_hash *memo; +struct rx_nfa_state *state; +struct rx_nfa_state_set *set; +#endif +{ + struct rx_nfa_state_set template; + struct rx_hash_item *node; + + template.car = state; + template.cdr = set; + node = rx_hash_store(memo, + (((long) state) >> 8) ^ (long) set, + &template, &nfa_set_hash_rules); + if (!node) + return 0; + if (node->data == &template) { + struct rx_nfa_state_set *l; + + l = (struct rx_nfa_state_set *) malloc(sizeof(*l)); + node->data = (void *) l; + if (!l) + return 0; + *l = template; + } + return (struct rx_nfa_state_set *) node->data; } +#ifdef __STDC__ +static struct rx_nfa_state_set *nfa_set_enjoin(struct rx *rx, + struct rx_hash *memo, + struct rx_nfa_state *state, + struct rx_nfa_state_set + *set) +#else +static struct rx_nfa_state_set *nfa_set_enjoin(rx, memo, state, set) +struct rx *rx; +struct rx_hash *memo; +struct rx_nfa_state *state; +struct rx_nfa_state_set *set; +#endif +{ + if (!set || state->id < set->car->id) + return nfa_set_cons(rx, memo, state, set); + if (state->id == set->car->id) + return set; + else { + struct rx_nfa_state_set *newcdr + = nfa_set_enjoin(rx, memo, state, set->cdr); + if (newcdr != set->cdr) + set = nfa_set_cons(rx, memo, set->car, newcdr); + return set; + } +} + + /* This page: computing epsilon closures. The closures aren't total. * Each node's closures are partitioned according to the side effects entailed * along the epsilon edges. Return true on success. - */ + */ -struct eclose_frame -{ - struct rx_se_list *prog_backwards; +struct eclose_frame { + struct rx_se_list *prog_backwards; }; -static int eclose_node (struct rx *, struct rx_nfa_state *, - struct rx_nfa_state *, - struct eclose_frame *); -RX_DECL int rx_eclose_nfa (struct rx *); -RX_DECL void rx_delete_epsilon_transitions - (struct rx *); -static int nfacmp (void *, void *); -static int count_hash_nodes (struct rx_hash *); -static void nfa_set_freer (struct rx_hash_item *); -RX_DECL int rx_compactify_nfa (struct rx *, void **, - unsigned long *); -static char *rx_cache_malloc (struct rx_cache *, int); -static void rx_cache_free (struct rx_cache *, - struct rx_freelist **, char *); -static void install_transition (struct rx_superstate *, - struct rx_inx *, rx_Bitset); -static int qlen (struct rx_superstate *); -static void check_cache (struct rx_cache *); -static void semifree_superstate (struct rx_cache *); -static void refresh_semifree_superstate - (struct rx_cache *, - struct rx_superstate *); -static void rx_refresh_this_superstate - (struct rx_cache *, - struct rx_superstate *); -static void release_superset_low (struct rx_cache *, - struct rx_superset *); -RX_DECL void rx_release_superset (struct rx *, struct rx_superset *); -static int rx_really_free_superstate (struct rx_cache *); -static char *rx_cache_get (struct rx_cache *, - struct rx_freelist **); -static char *rx_cache_malloc_or_get (struct rx_cache *, - struct rx_freelist **, int); -static char *rx_cache_get_superstate (struct rx_cache *); -static int supersetcmp (void *, void *); +static int eclose_node(struct rx *, struct rx_nfa_state *, + struct rx_nfa_state *, struct eclose_frame *); +RX_DECL int rx_eclose_nfa(struct rx *); +RX_DECL void rx_delete_epsilon_transitions(struct rx *); +static int nfacmp(void *, void *); +static int count_hash_nodes(struct rx_hash *); +static void nfa_set_freer(struct rx_hash_item *); +RX_DECL int rx_compactify_nfa(struct rx *, void **, unsigned long *); +static char *rx_cache_malloc(struct rx_cache *, int); +static void rx_cache_free(struct rx_cache *, + + struct rx_freelist **, char *); +static void install_transition(struct rx_superstate *, + + struct rx_inx *, rx_Bitset); +static int qlen(struct rx_superstate *); +static void check_cache(struct rx_cache *); +static void semifree_superstate(struct rx_cache *); +static void refresh_semifree_superstate + + (struct rx_cache *, struct rx_superstate *); +static void rx_refresh_this_superstate + + (struct rx_cache *, struct rx_superstate *); +static void release_superset_low(struct rx_cache *, struct rx_superset *); +RX_DECL void rx_release_superset(struct rx *, struct rx_superset *); +static int rx_really_free_superstate(struct rx_cache *); +static char *rx_cache_get(struct rx_cache *, struct rx_freelist **); +static char *rx_cache_malloc_or_get(struct rx_cache *, + struct rx_freelist **, int); +static char *rx_cache_get_superstate(struct rx_cache *); +static int supersetcmp(void *, void *); static struct rx_hash_item - *superset_allocator (struct rx_hash_rules *, void *); +*superset_allocator(struct rx_hash_rules *, void *); static struct rx_hash - *super_hash_allocator (struct rx_hash_rules *); -static void super_hash_liberator (struct rx_hash *, - struct rx_hash_rules *); -static void superset_hash_item_liberator - (struct rx_hash_item *, - struct rx_hash_rules *); -static int bytes_for_cache_size (int, int); -static void rx_morecore (struct rx_cache *); +*super_hash_allocator(struct rx_hash_rules *); +static void super_hash_liberator(struct rx_hash *, struct rx_hash_rules *); +static void superset_hash_item_liberator + + (struct rx_hash_item *, struct rx_hash_rules *); +static int bytes_for_cache_size(int, int); +static void rx_morecore(struct rx_cache *); RX_DECL struct rx_superset - *rx_superset_cons (struct rx *, struct rx_nfa_state *, - struct rx_superset *); +*rx_superset_cons(struct rx *, struct rx_nfa_state *, + + struct rx_superset *); RX_DECL struct rx_superset - *rx_superstate_eclosure_union - (struct rx *, struct rx_superset *, - struct rx_nfa_state_set *); +*rx_superstate_eclosure_union + + (struct rx *, struct rx_superset *, struct rx_nfa_state_set *); static struct rx_distinct_future - *include_futures (struct rx *, - struct rx_distinct_future *, - struct rx_nfa_state *, - struct rx_superstate *); +*include_futures(struct rx *, + struct rx_distinct_future *, + + struct rx_nfa_state *, struct rx_superstate *); RX_DECL struct rx_superstate - *rx_superstate (struct rx *, struct rx_superset *); -static int solve_destination (struct rx *, - struct rx_distinct_future *); -static int compute_super_edge (struct rx *, - struct rx_distinct_future **, - rx_Bitset, struct rx_superstate *, - unsigned char); +*rx_superstate(struct rx *, struct rx_superset *); +static int solve_destination(struct rx *, struct rx_distinct_future *); +static int compute_super_edge(struct rx *, + struct rx_distinct_future **, + + rx_Bitset, struct rx_superstate *, + unsigned char); static struct rx_super_edge - *rx_super_edge (struct rx *, struct rx_superstate *, - rx_Bitset, - struct rx_distinct_future *); -static void install_partial_transition - (struct rx_superstate *, - struct rx_inx *, RX_subset, int); +*rx_super_edge(struct rx *, struct rx_superstate *, + + rx_Bitset, struct rx_distinct_future *); +static void install_partial_transition + (struct rx_superstate *, struct rx_inx *, RX_subset, int); RX_DECL struct rx_inx - *rx_handle_cache_miss (struct rx *, struct rx_superstate *, - unsigned char, void *); -static boolean - at_begline_loc_p (__const__ char *, __const__ char *, - reg_syntax_t); +*rx_handle_cache_miss(struct rx *, struct rx_superstate *, + + unsigned char, void *); static boolean - at_endline_loc_p (__const__ char *, __const__ char *, - int); + +at_begline_loc_p(__const__ char *, __const__ char *, reg_syntax_t); +static boolean at_endline_loc_p(__const__ char *, __const__ char *, int); static rx_Bitset - inverse_translation (struct re_pattern_buffer *, char *, - rx_Bitset, unsigned char *, int); +inverse_translation(struct re_pattern_buffer *, char *, + rx_Bitset, unsigned char *, int); #ifdef __STDC__ -static int -eclose_node (struct rx *rx, struct rx_nfa_state *outnode, - struct rx_nfa_state *node, struct eclose_frame *frame) +static int +eclose_node(struct rx *rx, struct rx_nfa_state *outnode, + struct rx_nfa_state *node, struct eclose_frame *frame) #else -static int -eclose_node (rx, outnode, node, frame) - struct rx *rx; - struct rx_nfa_state *outnode; - struct rx_nfa_state *node; - struct eclose_frame *frame; +static int eclose_node(rx, outnode, node, frame) +struct rx *rx; +struct rx_nfa_state *outnode; +struct rx_nfa_state *node; +struct eclose_frame *frame; #endif { - struct rx_nfa_edge *e = node->edges; - - /* For each node, we follow all epsilon paths to build the closure. - * The closure omits nodes that have only epsilon edges. - * The closure is split into partial closures -- all the states in - * a partial closure are reached by crossing the same list of - * of side effects (though not necessarily the same path). - */ - if (node->mark) - return 1; - node->mark = 1; + struct rx_nfa_edge *e = node->edges; - if (node->id >= 0 || node->is_final) - { - struct rx_possible_future **ec; - struct rx_se_list * prog_in_order - = ((struct rx_se_list *)hash_se_prog (rx, - &rx->se_list_memo, - frame->prog_backwards)); - int cmp; - - ec = &outnode->futures; + /* For each node, we follow all epsilon paths to build the closure. + * The closure omits nodes that have only epsilon edges. + * The closure is split into partial closures -- all the states in + * a partial closure are reached by crossing the same list of + * of side effects (though not necessarily the same path). + */ + if (node->mark) + return 1; + node->mark = 1; + + if (node->id >= 0 || node->is_final) { + struct rx_possible_future **ec; + struct rx_se_list *prog_in_order + = ((struct rx_se_list *) hash_se_prog(rx, + &rx->se_list_memo, + frame->prog_backwards)); + int cmp; + + ec = &outnode->futures; + + while (*ec) { + cmp = + se_list_cmp((void *) (*ec)->effects, + (void *) prog_in_order); + if (cmp <= 0) + break; + ec = &(*ec)->next; + } + if (!*ec || (cmp < 0)) { + struct rx_possible_future *saved = *ec; - while (*ec) - { - cmp = se_list_cmp ((void *)(*ec)->effects, (void *)prog_in_order); - if (cmp <= 0) - break; - ec = &(*ec)->next; - } - if (!*ec || (cmp < 0)) - { - struct rx_possible_future * saved = *ec; - *ec = rx_possible_future (rx, prog_in_order); - (*ec)->next = saved; - if (!*ec) - return 0; - } - if (node->id >= 0) - { - (*ec)->destset = nfa_set_enjoin (rx, &rx->set_list_memo, - node, (*ec)->destset); - if (!(*ec)->destset) - return 0; + *ec = rx_possible_future(rx, prog_in_order); + (*ec)->next = saved; + if (!*ec) + return 0; + } + if (node->id >= 0) { + (*ec)->destset = nfa_set_enjoin(rx, &rx->set_list_memo, + node, (*ec)->destset); + if (!(*ec)->destset) + return 0; + } } - } - while (e) - { - switch (e->type) - { - case ne_epsilon: - if (!eclose_node (rx, outnode, e->dest, frame)) - return 0; - break; - case ne_side_effect: - { - frame->prog_backwards = side_effect_cons (rx, - e->params.side_effect, - frame->prog_backwards); - if (!frame->prog_backwards) - return 0; - if (!eclose_node (rx, outnode, e->dest, frame)) - return 0; - { - struct rx_se_list * dying = frame->prog_backwards; - frame->prog_backwards = frame->prog_backwards->cdr; - free ((char *)dying); - } - break; - } - default: - break; + while (e) { + switch (e->type) { + case ne_epsilon: + if (!eclose_node(rx, outnode, e->dest, frame)) + return 0; + break; + case ne_side_effect: + { + frame->prog_backwards = side_effect_cons(rx, + e->params.side_effect, + frame->prog_backwards); + if (!frame->prog_backwards) + return 0; + if (!eclose_node(rx, outnode, e->dest, frame)) + return 0; + { + struct rx_se_list *dying = frame->prog_backwards; + + frame->prog_backwards = frame->prog_backwards->cdr; + free((char *) dying); + } + break; + } + default: + break; + } + e = e->next; } - e = e->next; - } - node->mark = 0; - return 1; + node->mark = 0; + return 1; } #ifdef __STDC__ -RX_DECL int -rx_eclose_nfa (struct rx *rx) +RX_DECL int rx_eclose_nfa(struct rx *rx) #else -RX_DECL int -rx_eclose_nfa (rx) - struct rx *rx; +RX_DECL int rx_eclose_nfa(rx) +struct rx *rx; #endif { - struct rx_nfa_state *n = rx->nfa_states; - struct eclose_frame frame; - static int rx_id = 0; - - frame.prog_backwards = 0; - rx->rx_id = rx_id++; - bzero (&rx->se_list_memo, sizeof (rx->se_list_memo)); - bzero (&rx->set_list_memo, sizeof (rx->set_list_memo)); - while (n) - { - n->futures = 0; - if (n->eclosure_needed && !eclose_node (rx, n, n, &frame)) - return 0; - /* clear_marks (rx); */ - n = n->next; - } - return 1; + struct rx_nfa_state *n = rx->nfa_states; + struct eclose_frame frame; + static int rx_id = 0; + + frame.prog_backwards = 0; + rx->rx_id = rx_id++; + bzero(&rx->se_list_memo, sizeof(rx->se_list_memo)); + bzero(&rx->set_list_memo, sizeof(rx->set_list_memo)); + while (n) { + n->futures = 0; + if (n->eclosure_needed && !eclose_node(rx, n, n, &frame)) + return 0; + /* clear_marks (rx); */ + n = n->next; + } + return 1; } @@ -2325,42 +2191,38 @@ rx_eclose_nfa (rx) */ #ifdef __STDC__ -RX_DECL void -rx_delete_epsilon_transitions (struct rx *rx) +RX_DECL void rx_delete_epsilon_transitions(struct rx *rx) #else -RX_DECL void -rx_delete_epsilon_transitions (rx) - struct rx *rx; +RX_DECL void rx_delete_epsilon_transitions(rx) +struct rx *rx; #endif { - struct rx_nfa_state *n = rx->nfa_states; - struct rx_nfa_edge **e; + struct rx_nfa_state *n = rx->nfa_states; + struct rx_nfa_edge **e; - while (n) - { - e = &n->edges; - while (*e) - { - struct rx_nfa_edge *t; - switch ((*e)->type) - { - case ne_epsilon: - case ne_side_effect: - t = *e; - *e = t->next; - rx_free_nfa_edge (t); - break; - - default: - e = &(*e)->next; - break; - } + while (n) { + e = &n->edges; + while (*e) { + struct rx_nfa_edge *t; + + switch ((*e)->type) { + case ne_epsilon: + case ne_side_effect: + t = *e; + *e = t->next; + rx_free_nfa_edge(t); + break; + + default: + e = &(*e)->next; + break; + } + } + n = n->next; } - n = n->next; - } } - + /* This page: storing the nfa in a contiguous region of memory for * subsequent conversion to a super-nfa. */ @@ -2372,68 +2234,61 @@ rx_delete_epsilon_transitions (rx) */ #ifdef __STDC__ -static int -nfacmp (void * va, void * vb) +static int nfacmp(void *va, void *vb) #else -static int -nfacmp (va, vb) - void * va; - void * vb; +static int nfacmp(va, vb) +void *va; +void *vb; #endif { - struct rx_nfa_state **a = (struct rx_nfa_state **)va; - struct rx_nfa_state **b = (struct rx_nfa_state **)vb; - return (*a == *b /* &&&& 3.18 */ - ? 0 - : (((*a)->id < 0) == ((*b)->id < 0) - ? (((*a)->id < (*b)->id) ? -1 : 1) - : (((*a)->id < 0) - ? 1 : -1))); + struct rx_nfa_state **a = (struct rx_nfa_state **) va; + struct rx_nfa_state **b = (struct rx_nfa_state **) vb; + + return (*a == *b /* &&&& 3.18 */ + ? 0 : (((*a)->id < 0) == ((*b)->id < 0) + ? (((*a)->id < (*b)->id) ? -1 : 1) + : (((*a)->id < 0) + ? 1 : -1))); } #ifdef __STDC__ -static int -count_hash_nodes (struct rx_hash * st) +static int count_hash_nodes(struct rx_hash *st) #else -static int -count_hash_nodes (st) - struct rx_hash * st; +static int count_hash_nodes(st) +struct rx_hash *st; #endif { - int x; - int count = 0; - for (x = 0; x < 13; ++x) - count += ((st->children[x]) - ? count_hash_nodes (st->children[x]) - : st->bucket_size[x]); - - return count; + int x; + int count = 0; + + for (x = 0; x < 13; ++x) + count += ((st->children[x]) + ? count_hash_nodes(st->children[x]) + : st->bucket_size[x]); + + return count; } #ifdef __STDC__ -static void -se_memo_freer (struct rx_hash_item * node) +static void se_memo_freer(struct rx_hash_item *node) #else -static void -se_memo_freer (node) - struct rx_hash_item * node; +static void se_memo_freer(node) +struct rx_hash_item *node; #endif { - free ((char *)node->data); + free((char *) node->data); } #ifdef __STDC__ -static void -nfa_set_freer (struct rx_hash_item * node) +static void nfa_set_freer(struct rx_hash_item *node) #else -static void -nfa_set_freer (node) - struct rx_hash_item * node; +static void nfa_set_freer(node) +struct rx_hash_item *node; #endif { - free ((char *)node->data); + free((char *) node->data); } @@ -2443,199 +2298,197 @@ nfa_set_freer (node) */ #ifdef __STDC__ -RX_DECL int -rx_compactify_nfa (struct rx *rx, - void **mem, unsigned long *size) -#else -RX_DECL int -rx_compactify_nfa (rx, mem, size) - struct rx *rx; - void **mem; - unsigned long *size; -#endif -{ - int total_nodec; - struct rx_nfa_state *n; - int edgec = 0; - int eclosec = 0; - int se_list_consc = count_hash_nodes (&rx->se_list_memo); - int nfa_setc = count_hash_nodes (&rx->set_list_memo); - unsigned long total_size; - - /* This takes place in two stages. First, the total size of the - * nfa is computed, then structures are copied. - */ - n = rx->nfa_states; - total_nodec = 0; - while (n) - { - struct rx_nfa_edge *e = n->edges; - struct rx_possible_future *ec = n->futures; - ++total_nodec; - while (e) - { - ++edgec; - e = e->next; +RX_DECL int +rx_compactify_nfa(struct rx *rx, void **mem, unsigned long *size) +#else +RX_DECL int rx_compactify_nfa(rx, mem, size) +struct rx *rx; +void **mem; +unsigned long *size; +#endif +{ + int total_nodec; + struct rx_nfa_state *n; + int edgec = 0; + int eclosec = 0; + int se_list_consc = count_hash_nodes(&rx->se_list_memo); + int nfa_setc = count_hash_nodes(&rx->set_list_memo); + unsigned long total_size; + + /* This takes place in two stages. First, the total size of the + * nfa is computed, then structures are copied. + */ + n = rx->nfa_states; + total_nodec = 0; + while (n) { + struct rx_nfa_edge *e = n->edges; + struct rx_possible_future *ec = n->futures; + + ++total_nodec; + while (e) { + ++edgec; + e = e->next; + } + while (ec) { + ++eclosec; + ec = ec->next; + } + n = n->next; + } + + total_size = (total_nodec * sizeof(struct rx_nfa_state) + + edgec * rx_sizeof_bitset(rx->local_cset_size) + + edgec * sizeof(struct rx_nfa_edge) + + nfa_setc * sizeof(struct rx_nfa_state_set) + + eclosec * sizeof(struct rx_possible_future) + + se_list_consc * sizeof(struct rx_se_list) + + rx->reserved); + + if (total_size > *size) { + *mem = remalloc(*mem, total_size); + if (*mem) + *size = total_size; + else + return 0; } - while (ec) + /* Now we've allocated the memory; this copies the NFA. */ { - ++eclosec; - ec = ec->next; + static struct rx_nfa_state **scratch = 0; + static int scratch_alloc = 0; + struct rx_nfa_state *state_base = (struct rx_nfa_state *) *mem; + struct rx_nfa_state *new_state = state_base; + struct rx_nfa_edge *new_edge = (struct rx_nfa_edge *) + ((char *) state_base + total_nodec * sizeof(struct rx_nfa_state)); + struct rx_se_list *new_se_list = (struct rx_se_list *) + ((char *) new_edge + edgec * sizeof(struct rx_nfa_edge)); + struct rx_possible_future *new_close = + ((struct rx_possible_future *) + ((char *) new_se_list + + + se_list_consc * sizeof(struct rx_se_list))); + struct rx_nfa_state_set *new_nfa_set = ((struct rx_nfa_state_set *) + + ((char *) new_close + + eclosec * + + sizeof(struct + rx_possible_future))); + char *new_bitset = + + ((char *) new_nfa_set + + nfa_setc * sizeof(struct rx_nfa_state_set)); + int x; + struct rx_nfa_state *n; + + if (scratch_alloc < total_nodec) { + scratch = ((struct rx_nfa_state **) + remalloc(scratch, total_nodec * sizeof(*scratch))); + if (scratch) + scratch_alloc = total_nodec; + else { + scratch_alloc = 0; + return 0; + } + } + + for (x = 0, n = rx->nfa_states; n; n = n->next) + scratch[x++] = n; + + qsort(scratch, total_nodec, sizeof(struct rx_nfa_state *), + (__compar_fn_t) nfacmp); + + for (x = 0; x < total_nodec; ++x) { + struct rx_possible_future *eclose = scratch[x]->futures; + struct rx_nfa_edge *edge = scratch[x]->edges; + struct rx_nfa_state *cn = new_state++; + + cn->futures = 0; + cn->edges = 0; + cn->next = (x == total_nodec - 1) ? 0 : (cn + 1); + cn->id = scratch[x]->id; + cn->is_final = scratch[x]->is_final; + cn->is_start = scratch[x]->is_start; + cn->mark = 0; + while (edge) { + int indx = (edge->dest->id < 0 + ? (total_nodec + edge->dest->id) + + : edge->dest->id); + struct rx_nfa_edge *e = new_edge++; + rx_Bitset cset = (rx_Bitset) new_bitset; + + new_bitset += rx_sizeof_bitset(rx->local_cset_size); + rx_bitset_null(rx->local_cset_size, cset); + rx_bitset_union(rx->local_cset_size, cset, + edge->params.cset); + e->next = cn->edges; + cn->edges = e; + e->type = edge->type; + e->dest = state_base + indx; + e->params.cset = cset; + edge = edge->next; + } + while (eclose) { + struct rx_possible_future *ec = new_close++; + struct rx_hash_item *sp; + struct rx_se_list **sepos; + struct rx_se_list *sesrc; + struct rx_nfa_state_set *destlst; + struct rx_nfa_state_set **destpos; + + ec->next = cn->futures; + cn->futures = ec; + for (sepos = &ec->effects, sesrc = eclose->effects; + sesrc; sesrc = sesrc->cdr, sepos = &(*sepos)->cdr) { + sp = rx_hash_find(&rx->se_list_memo, + (long) sesrc-> + car ^ (long) sesrc->cdr, sesrc, + &se_list_hash_rules); + if (sp->binding) { + sesrc = (struct rx_se_list *) sp->binding; + break; + } + *new_se_list = *sesrc; + sp->binding = (void *) new_se_list; + *sepos = new_se_list; + ++new_se_list; + } + *sepos = sesrc; + for (destpos = &ec->destset, destlst = eclose->destset; + destlst; + destpos = &(*destpos)->cdr, destlst = destlst->cdr) { + sp = rx_hash_find(&rx->set_list_memo, + ((((long) destlst->car) >> 8) + ^ (long) destlst->cdr), + destlst, &nfa_set_hash_rules); + if (sp->binding) { + destlst = (struct rx_nfa_state_set *) sp->binding; + break; + } + *new_nfa_set = *destlst; + new_nfa_set->car = state_base + destlst->car->id; + sp->binding = (void *) new_nfa_set; + *destpos = new_nfa_set; + ++new_nfa_set; + } + *destpos = destlst; + eclose = eclose->next; + } + } } - n = n->next; - } + rx_free_hash_table(&rx->se_list_memo, se_memo_freer, + &se_list_hash_rules); + bzero(&rx->se_list_memo, sizeof(rx->se_list_memo)); + rx_free_hash_table(&rx->set_list_memo, nfa_set_freer, + &nfa_set_hash_rules); + bzero(&rx->set_list_memo, sizeof(rx->set_list_memo)); - total_size = (total_nodec * sizeof (struct rx_nfa_state) - + edgec * rx_sizeof_bitset (rx->local_cset_size) - + edgec * sizeof (struct rx_nfa_edge) - + nfa_setc * sizeof (struct rx_nfa_state_set) - + eclosec * sizeof (struct rx_possible_future) - + se_list_consc * sizeof (struct rx_se_list) - + rx->reserved); - - if (total_size > *size) - { - *mem = remalloc (*mem, total_size); - if (*mem) - *size = total_size; - else - return 0; - } - /* Now we've allocated the memory; this copies the NFA. */ - { - static struct rx_nfa_state **scratch = 0; - static int scratch_alloc = 0; - struct rx_nfa_state *state_base = (struct rx_nfa_state *) * mem; - struct rx_nfa_state *new_state = state_base; - struct rx_nfa_edge *new_edge = - (struct rx_nfa_edge *) - ((char *) state_base + total_nodec * sizeof (struct rx_nfa_state)); - struct rx_se_list * new_se_list = - (struct rx_se_list *) - ((char *)new_edge + edgec * sizeof (struct rx_nfa_edge)); - struct rx_possible_future *new_close = - ((struct rx_possible_future *) - ((char *) new_se_list - + se_list_consc * sizeof (struct rx_se_list))); - struct rx_nfa_state_set * new_nfa_set = - ((struct rx_nfa_state_set *) - ((char *)new_close + eclosec * sizeof (struct rx_possible_future))); - char *new_bitset = - ((char *) new_nfa_set + nfa_setc * sizeof (struct rx_nfa_state_set)); - int x; - struct rx_nfa_state *n; - - if (scratch_alloc < total_nodec) - { - scratch = ((struct rx_nfa_state **) - remalloc (scratch, total_nodec * sizeof (*scratch))); - if (scratch) - scratch_alloc = total_nodec; - else - { - scratch_alloc = 0; - return 0; - } - } - - for (x = 0, n = rx->nfa_states; n; n = n->next) - scratch[x++] = n; - - qsort (scratch, total_nodec, sizeof (struct rx_nfa_state *), - (__compar_fn_t)nfacmp); - - for (x = 0; x < total_nodec; ++x) - { - struct rx_possible_future *eclose = scratch[x]->futures; - struct rx_nfa_edge *edge = scratch[x]->edges; - struct rx_nfa_state *cn = new_state++; - cn->futures = 0; - cn->edges = 0; - cn->next = (x == total_nodec - 1) ? 0 : (cn + 1); - cn->id = scratch[x]->id; - cn->is_final = scratch[x]->is_final; - cn->is_start = scratch[x]->is_start; - cn->mark = 0; - while (edge) - { - int indx = (edge->dest->id < 0 - ? (total_nodec + edge->dest->id) - : edge->dest->id); - struct rx_nfa_edge *e = new_edge++; - rx_Bitset cset = (rx_Bitset) new_bitset; - new_bitset += rx_sizeof_bitset (rx->local_cset_size); - rx_bitset_null (rx->local_cset_size, cset); - rx_bitset_union (rx->local_cset_size, cset, edge->params.cset); - e->next = cn->edges; - cn->edges = e; - e->type = edge->type; - e->dest = state_base + indx; - e->params.cset = cset; - edge = edge->next; - } - while (eclose) - { - struct rx_possible_future *ec = new_close++; - struct rx_hash_item * sp; - struct rx_se_list ** sepos; - struct rx_se_list * sesrc; - struct rx_nfa_state_set * destlst; - struct rx_nfa_state_set ** destpos; - ec->next = cn->futures; - cn->futures = ec; - for (sepos = &ec->effects, sesrc = eclose->effects; - sesrc; - sesrc = sesrc->cdr, sepos = &(*sepos)->cdr) - { - sp = rx_hash_find (&rx->se_list_memo, - (long)sesrc->car ^ (long)sesrc->cdr, - sesrc, &se_list_hash_rules); - if (sp->binding) - { - sesrc = (struct rx_se_list *)sp->binding; - break; - } - *new_se_list = *sesrc; - sp->binding = (void *)new_se_list; - *sepos = new_se_list; - ++new_se_list; - } - *sepos = sesrc; - for (destpos = &ec->destset, destlst = eclose->destset; - destlst; - destpos = &(*destpos)->cdr, destlst = destlst->cdr) - { - sp = rx_hash_find (&rx->set_list_memo, - ((((long)destlst->car) >> 8) - ^ (long)destlst->cdr), - destlst, &nfa_set_hash_rules); - if (sp->binding) - { - destlst = (struct rx_nfa_state_set *)sp->binding; - break; - } - *new_nfa_set = *destlst; - new_nfa_set->car = state_base + destlst->car->id; - sp->binding = (void *)new_nfa_set; - *destpos = new_nfa_set; - ++new_nfa_set; - } - *destpos = destlst; - eclose = eclose->next; - } - } - } - rx_free_hash_table (&rx->se_list_memo, se_memo_freer, &se_list_hash_rules); - bzero (&rx->se_list_memo, sizeof (rx->se_list_memo)); - rx_free_hash_table (&rx->set_list_memo, nfa_set_freer, &nfa_set_hash_rules); - bzero (&rx->set_list_memo, sizeof (rx->set_list_memo)); - - rx_free_nfa (rx); - rx->nfa_states = (struct rx_nfa_state *)*mem; - return 1; + rx_free_nfa(rx); + rx->nfa_states = (struct rx_nfa_state *) *mem; + return 1; } - + /* The functions in the next several pages define the lazy-NFA-conversion used * by matchers. The input to this construction is an NFA such as * is built by compactify_nfa (rx.c). The output is the superNFA. @@ -2650,67 +2503,64 @@ rx_compactify_nfa (rx, mem, size) * The lables in re_search_2 would make good values for instructions. */ -void * rx_id_instruction_table[rx_num_instructions] = -{ - (void *) rx_backtrack_point, - (void *) rx_do_side_effects, - (void *) rx_cache_miss, - (void *) rx_next_char, - (void *) rx_backtrack, - (void *) rx_error_inx +void *rx_id_instruction_table[rx_num_instructions] = { + (void *) rx_backtrack_point, + (void *) rx_do_side_effects, + (void *) rx_cache_miss, + (void *) rx_next_char, + (void *) rx_backtrack, + (void *) rx_error_inx }; - + /* Memory mgt. for superstate graphs. */ #ifdef __STDC__ -static char * -rx_cache_malloc (struct rx_cache * cache, int bytes) +static char *rx_cache_malloc(struct rx_cache *cache, int bytes) #else -static char * -rx_cache_malloc (cache, bytes) - struct rx_cache * cache; - int bytes; +static char *rx_cache_malloc(cache, bytes) +struct rx_cache *cache; +int bytes; #endif { - while (cache->bytes_left < bytes) - { - if (cache->memory_pos) - cache->memory_pos = cache->memory_pos->next; - if (!cache->memory_pos) + while (cache->bytes_left < bytes) { + if (cache->memory_pos) + cache->memory_pos = cache->memory_pos->next; + if (!cache->memory_pos) { + cache->morecore(cache); + if (!cache->memory_pos) + return 0; + } + cache->bytes_left = cache->memory_pos->bytes; + cache->memory_addr = ((char *) cache->memory_pos + + + sizeof(struct rx_blocklist)); + } + cache->bytes_left -= bytes; { - cache->morecore (cache); - if (!cache->memory_pos) - return 0; + char *addr = cache->memory_addr; + + cache->memory_addr += bytes; + return addr; } - cache->bytes_left = cache->memory_pos->bytes; - cache->memory_addr = ((char *)cache->memory_pos - + sizeof (struct rx_blocklist)); - } - cache->bytes_left -= bytes; - { - char * addr = cache->memory_addr; - cache->memory_addr += bytes; - return addr; - } } #ifdef __STDC__ static void -rx_cache_free (struct rx_cache * cache, - struct rx_freelist ** freelist, char * mem) +rx_cache_free(struct rx_cache *cache, + struct rx_freelist **freelist, char *mem) #else -static void -rx_cache_free (cache, freelist, mem) - struct rx_cache * cache; - struct rx_freelist ** freelist; - char * mem; +static void rx_cache_free(cache, freelist, mem) +struct rx_cache *cache; +struct rx_freelist **freelist; +char *mem; #endif { - struct rx_freelist * it = (struct rx_freelist *)mem; - it->next = *freelist; - *freelist = it; + struct rx_freelist *it = (struct rx_freelist *) mem; + + it->next = *freelist; + *freelist = it; } /* The partially instantiated superstate graph has a transition @@ -2718,75 +2568,70 @@ rx_cache_free (cache, freelist, mem) * This fills in the transition for a set. */ #ifdef __STDC__ -static void -install_transition (struct rx_superstate *super, - struct rx_inx *answer, rx_Bitset trcset) -#else -static void -install_transition (super, answer, trcset) - struct rx_superstate *super; - struct rx_inx *answer; - rx_Bitset trcset; -#endif -{ - struct rx_inx * transitions = super->transitions; - int chr; - for (chr = 0; chr < 256; ) - if (!*trcset) - { - ++trcset; - chr += 32; - } - else - { - RX_subset sub = *trcset; - RX_subset mask = 1; - int bound = chr + 32; - while (chr < bound) - { - if (sub & mask) - transitions [chr] = *answer; - ++chr; - mask <<= 1; - } - ++trcset; - } +static void +install_transition(struct rx_superstate *super, + struct rx_inx *answer, rx_Bitset trcset) +#else +static void install_transition(super, answer, trcset) +struct rx_superstate *super; +struct rx_inx *answer; +rx_Bitset trcset; +#endif +{ + struct rx_inx *transitions = super->transitions; + int chr; + + for (chr = 0; chr < 256;) + if (!*trcset) { + ++trcset; + chr += 32; + } else { + RX_subset sub = *trcset; + RX_subset mask = 1; + int bound = chr + 32; + + while (chr < bound) { + if (sub & mask) + transitions[chr] = *answer; + ++chr; + mask <<= 1; + } + ++trcset; + } } #ifdef __STDC__ -static int -qlen (struct rx_superstate * q) +static int qlen(struct rx_superstate *q) #else -static int -qlen (q) - struct rx_superstate * q; +static int qlen(q) +struct rx_superstate *q; #endif { - int count = 1; - struct rx_superstate * it; - if (!q) - return 0; - for (it = q->next_recyclable; it != q; it = it->next_recyclable) - ++count; - return count; + int count = 1; + struct rx_superstate *it; + + if (!q) + return 0; + for (it = q->next_recyclable; it != q; it = it->next_recyclable) + ++count; + return count; } #ifdef __STDC__ -static void -check_cache (struct rx_cache * cache) +static void check_cache(struct rx_cache *cache) #else -static void -check_cache (cache) - struct rx_cache * cache; +static void check_cache(cache) +struct rx_cache *cache; #endif { - struct rx_cache * you_fucked_up = 0; - int total = cache->superstates; - int semi = cache->semifree_superstates; - if (semi != qlen (cache->semifree_superstate)) - check_cache (you_fucked_up); - if ((total - semi) != qlen (cache->lru_superstate)) - check_cache (you_fucked_up); + struct rx_cache *you_fucked_up = 0; + int total = cache->superstates; + int semi = cache->semifree_superstates; + + if (semi != qlen(cache->semifree_superstate)) + check_cache(you_fucked_up); + if ((total - semi) != qlen(cache->lru_superstate)) + check_cache(you_fucked_up); } /* When a superstate is old and neglected, it can enter a @@ -2804,196 +2649,177 @@ check_cache (cache) */ #ifdef __STDC__ -static void -semifree_superstate (struct rx_cache * cache) +static void semifree_superstate(struct rx_cache *cache) #else -static void -semifree_superstate (cache) - struct rx_cache * cache; -#endif -{ - int disqualified = cache->semifree_superstates; - if (disqualified == cache->superstates) - return; - while (cache->lru_superstate->locks) - { - cache->lru_superstate = cache->lru_superstate->next_recyclable; - ++disqualified; - if (disqualified == cache->superstates) - return; - } - { - struct rx_superstate * it = cache->lru_superstate; - it->next_recyclable->prev_recyclable = it->prev_recyclable; - it->prev_recyclable->next_recyclable = it->next_recyclable; - cache->lru_superstate = (it == it->next_recyclable - ? 0 - : it->next_recyclable); - if (!cache->semifree_superstate) - { - cache->semifree_superstate = it; - it->next_recyclable = it; - it->prev_recyclable = it; - } - else - { - it->prev_recyclable = cache->semifree_superstate->prev_recyclable; - it->next_recyclable = cache->semifree_superstate; - it->prev_recyclable->next_recyclable = it; - it->next_recyclable->prev_recyclable = it; - } - { - struct rx_distinct_future *df; - it->is_semifree = 1; - ++cache->semifree_superstates; - df = it->transition_refs; - if (df) +static void semifree_superstate(cache) +struct rx_cache *cache; +#endif +{ + int disqualified = cache->semifree_superstates; + + if (disqualified == cache->superstates) + return; + while (cache->lru_superstate->locks) { + cache->lru_superstate = cache->lru_superstate->next_recyclable; + ++disqualified; + if (disqualified == cache->superstates) + return; + } { - df->prev_same_dest->next_same_dest = 0; - for (df = it->transition_refs; df; df = df->next_same_dest) - { - df->future_frame.inx = cache->instruction_table[rx_cache_miss]; - df->future_frame.data = 0; - df->future_frame.data_2 = (void *) df; - /* If there are any NEXT-CHAR instruction frames that - * refer to this state, we convert them to CACHE-MISS frames. - */ - if (!df->effects - && (df->edge->options->next_same_super_edge[0] - == df->edge->options)) - install_transition (df->present, &df->future_frame, - df->edge->cset); - } - df = it->transition_refs; - df->prev_same_dest->next_same_dest = df; + struct rx_superstate *it = cache->lru_superstate; + + it->next_recyclable->prev_recyclable = it->prev_recyclable; + it->prev_recyclable->next_recyclable = it->next_recyclable; + cache->lru_superstate = (it == it->next_recyclable + ? 0 : it->next_recyclable); + if (!cache->semifree_superstate) { + cache->semifree_superstate = it; + it->next_recyclable = it; + it->prev_recyclable = it; + } else { + it->prev_recyclable = + cache->semifree_superstate->prev_recyclable; + it->next_recyclable = cache->semifree_superstate; + it->prev_recyclable->next_recyclable = it; + it->next_recyclable->prev_recyclable = it; + } + { + struct rx_distinct_future *df; + + it->is_semifree = 1; + ++cache->semifree_superstates; + df = it->transition_refs; + if (df) { + df->prev_same_dest->next_same_dest = 0; + for (df = it->transition_refs; df; df = df->next_same_dest) { + df->future_frame.inx = + cache->instruction_table[rx_cache_miss]; + df->future_frame.data = 0; + df->future_frame.data_2 = (void *) df; + /* If there are any NEXT-CHAR instruction frames that + * refer to this state, we convert them to CACHE-MISS frames. + */ + if (!df->effects + && (df->edge->options->next_same_super_edge[0] + == df->edge->options)) + install_transition(df->present, &df->future_frame, + df->edge->cset); + } + df = it->transition_refs; + df->prev_same_dest->next_same_dest = df; + } + } } - } - } } #ifdef __STDC__ -static void -refresh_semifree_superstate (struct rx_cache * cache, - struct rx_superstate * super) -#else -static void -refresh_semifree_superstate (cache, super) - struct rx_cache * cache; - struct rx_superstate * super; -#endif -{ - struct rx_distinct_future *df; - - if (super->transition_refs) - { - super->transition_refs->prev_same_dest->next_same_dest = 0; - for (df = super->transition_refs; df; df = df->next_same_dest) - { - df->future_frame.inx = cache->instruction_table[rx_next_char]; - df->future_frame.data = (void *) super->transitions; - /* CACHE-MISS instruction frames that refer to this state, - * must be converted to NEXT-CHAR frames. - */ - if (!df->effects - && (df->edge->options->next_same_super_edge[0] - == df->edge->options)) - install_transition (df->present, &df->future_frame, - df->edge->cset); +static void +refresh_semifree_superstate(struct rx_cache *cache, + struct rx_superstate *super) +#else +static void refresh_semifree_superstate(cache, super) +struct rx_cache *cache; +struct rx_superstate *super; +#endif +{ + struct rx_distinct_future *df; + + if (super->transition_refs) { + super->transition_refs->prev_same_dest->next_same_dest = 0; + for (df = super->transition_refs; df; df = df->next_same_dest) { + df->future_frame.inx = cache->instruction_table[rx_next_char]; + df->future_frame.data = (void *) super->transitions; + /* CACHE-MISS instruction frames that refer to this state, + * must be converted to NEXT-CHAR frames. + */ + if (!df->effects && (df->edge->options->next_same_super_edge[0] + == df->edge->options)) + install_transition(df->present, &df->future_frame, + df->edge->cset); + } + super->transition_refs->prev_same_dest->next_same_dest + = super->transition_refs; } - super->transition_refs->prev_same_dest->next_same_dest - = super->transition_refs; - } - if (cache->semifree_superstate == super) - cache->semifree_superstate = (super->prev_recyclable == super - ? 0 - : super->prev_recyclable); - super->next_recyclable->prev_recyclable = super->prev_recyclable; - super->prev_recyclable->next_recyclable = super->next_recyclable; - - if (!cache->lru_superstate) - (cache->lru_superstate - = super->next_recyclable - = super->prev_recyclable - = super); - else - { - super->next_recyclable = cache->lru_superstate; - super->prev_recyclable = cache->lru_superstate->prev_recyclable; - super->next_recyclable->prev_recyclable = super; - super->prev_recyclable->next_recyclable = super; - } - super->is_semifree = 0; - --cache->semifree_superstates; + if (cache->semifree_superstate == super) + cache->semifree_superstate = (super->prev_recyclable == super + ? 0 : super->prev_recyclable); + super->next_recyclable->prev_recyclable = super->prev_recyclable; + super->prev_recyclable->next_recyclable = super->next_recyclable; + + if (!cache->lru_superstate) + (cache->lru_superstate + = super->next_recyclable = super->prev_recyclable = super); + else { + super->next_recyclable = cache->lru_superstate; + super->prev_recyclable = cache->lru_superstate->prev_recyclable; + super->next_recyclable->prev_recyclable = super; + super->prev_recyclable->next_recyclable = super; + } + super->is_semifree = 0; + --cache->semifree_superstates; } #ifdef __STDC__ static void -rx_refresh_this_superstate (struct rx_cache * cache, struct rx_superstate * superstate) +rx_refresh_this_superstate(struct rx_cache *cache, + struct rx_superstate *superstate) #else -static void -rx_refresh_this_superstate (cache, superstate) - struct rx_cache * cache; - struct rx_superstate * superstate; -#endif -{ - if (superstate->is_semifree) - refresh_semifree_superstate (cache, superstate); - else if (cache->lru_superstate == superstate) - cache->lru_superstate = superstate->next_recyclable; - else if (superstate != cache->lru_superstate->prev_recyclable) - { - superstate->next_recyclable->prev_recyclable - = superstate->prev_recyclable; - superstate->prev_recyclable->next_recyclable - = superstate->next_recyclable; - superstate->next_recyclable = cache->lru_superstate; - superstate->prev_recyclable = cache->lru_superstate->prev_recyclable; - superstate->next_recyclable->prev_recyclable = superstate; - superstate->prev_recyclable->next_recyclable = superstate; - } +static void rx_refresh_this_superstate(cache, superstate) +struct rx_cache *cache; +struct rx_superstate *superstate; +#endif +{ + if (superstate->is_semifree) + refresh_semifree_superstate(cache, superstate); + else if (cache->lru_superstate == superstate) + cache->lru_superstate = superstate->next_recyclable; + else if (superstate != cache->lru_superstate->prev_recyclable) { + superstate->next_recyclable->prev_recyclable + = superstate->prev_recyclable; + superstate->prev_recyclable->next_recyclable + = superstate->next_recyclable; + superstate->next_recyclable = cache->lru_superstate; + superstate->prev_recyclable = + cache->lru_superstate->prev_recyclable; + superstate->next_recyclable->prev_recyclable = superstate; + superstate->prev_recyclable->next_recyclable = superstate; + } } #ifdef __STDC__ -static void -release_superset_low (struct rx_cache * cache, - struct rx_superset *set) +static void +release_superset_low(struct rx_cache *cache, struct rx_superset *set) #else -static void -release_superset_low (cache, set) - struct rx_cache * cache; - struct rx_superset *set; +static void release_superset_low(cache, set) +struct rx_cache *cache; +struct rx_superset *set; #endif { - if (!--set->refs) - { - if (set->cdr) - release_superset_low (cache, set->cdr); + if (!--set->refs) { + if (set->cdr) + release_superset_low(cache, set->cdr); - set->starts_for = 0; + set->starts_for = 0; - rx_hash_free - (rx_hash_find - (&cache->superset_table, - (unsigned long)set->car ^ set->id ^ (unsigned long)set->cdr, - (void *)set, - &cache->superset_hash_rules), - &cache->superset_hash_rules); - rx_cache_free (cache, &cache->free_supersets, (char *)set); - } + rx_hash_free + (rx_hash_find + (&cache->superset_table, + (unsigned long) set->car ^ set-> + id ^ (unsigned long) set->cdr, (void *) set, + &cache->superset_hash_rules), &cache->superset_hash_rules); + rx_cache_free(cache, &cache->free_supersets, (char *) set); + } } #ifdef __STDC__ -RX_DECL void -rx_release_superset (struct rx *rx, - struct rx_superset *set) +RX_DECL void rx_release_superset(struct rx *rx, struct rx_superset *set) #else -RX_DECL void -rx_release_superset (rx, set) - struct rx *rx; - struct rx_superset *set; +RX_DECL void rx_release_superset(rx, set) +struct rx *rx; +struct rx_superset *set; #endif { - release_superset_low (rx->cache, set); + release_superset_low(rx->cache, set); } /* This tries to add a new superstate to the superstate freelist. @@ -3002,299 +2828,286 @@ rx_release_superset (rx, set) */ #ifdef __STDC__ -static int -rx_really_free_superstate (struct rx_cache * cache) +static int rx_really_free_superstate(struct rx_cache *cache) #else -static int -rx_really_free_superstate (cache) - struct rx_cache * cache; -#endif -{ - int locked_superstates = 0; - struct rx_superstate * it; - - if (!cache->superstates) - return 0; - - { - /* This is a total guess. The idea is that we should expect as - * many misses as we've recently experienced. I.e., cache->misses - * should be the same as cache->semifree_superstates. - */ - while ((cache->hits + cache->misses) > cache->superstates_allowed) - { - cache->hits >>= 1; - cache->misses >>= 1; - } - if ( ((cache->hits + cache->misses) * cache->semifree_superstates) - < (cache->superstates * cache->misses)) - { - semifree_superstate (cache); - semifree_superstate (cache); - } - } - - while (cache->semifree_superstate && cache->semifree_superstate->locks) - { - refresh_semifree_superstate (cache, cache->semifree_superstate); - ++locked_superstates; - if (locked_superstates == cache->superstates) - return 0; - } +static int rx_really_free_superstate(cache) +struct rx_cache *cache; +#endif +{ + int locked_superstates = 0; + struct rx_superstate *it; + + if (!cache->superstates) + return 0; - if (cache->semifree_superstate) - { - it = cache->semifree_superstate; - it->next_recyclable->prev_recyclable = it->prev_recyclable; - it->prev_recyclable->next_recyclable = it->next_recyclable; - cache->semifree_superstate = ((it == it->next_recyclable) - ? 0 - : it->next_recyclable); - --cache->semifree_superstates; - } - else - { - while (cache->lru_superstate->locks) { - cache->lru_superstate = cache->lru_superstate->next_recyclable; - ++locked_superstates; - if (locked_superstates == cache->superstates) - return 0; + /* This is a total guess. The idea is that we should expect as + * many misses as we've recently experienced. I.e., cache->misses + * should be the same as cache->semifree_superstates. + */ + while ((cache->hits + cache->misses) > cache->superstates_allowed) { + cache->hits >>= 1; + cache->misses >>= 1; + } + if (((cache->hits + cache->misses) * cache->semifree_superstates) + < (cache->superstates * cache->misses)) { + semifree_superstate(cache); + semifree_superstate(cache); + } + } + + while (cache->semifree_superstate && cache->semifree_superstate->locks) { + refresh_semifree_superstate(cache, cache->semifree_superstate); + ++locked_superstates; + if (locked_superstates == cache->superstates) + return 0; + } + + if (cache->semifree_superstate) { + it = cache->semifree_superstate; + it->next_recyclable->prev_recyclable = it->prev_recyclable; + it->prev_recyclable->next_recyclable = it->next_recyclable; + cache->semifree_superstate = ((it == it->next_recyclable) + ? 0 : it->next_recyclable); + --cache->semifree_superstates; + } else { + while (cache->lru_superstate->locks) { + cache->lru_superstate = cache->lru_superstate->next_recyclable; + ++locked_superstates; + if (locked_superstates == cache->superstates) + return 0; + } + it = cache->lru_superstate; + it->next_recyclable->prev_recyclable = it->prev_recyclable; + it->prev_recyclable->next_recyclable = it->next_recyclable; + cache->lru_superstate = ((it == it->next_recyclable) + ? 0 : it->next_recyclable); } - it = cache->lru_superstate; - it->next_recyclable->prev_recyclable = it->prev_recyclable; - it->prev_recyclable->next_recyclable = it->next_recyclable; - cache->lru_superstate = ((it == it->next_recyclable) - ? 0 - : it->next_recyclable); - } - if (it->transition_refs) - { - struct rx_distinct_future *df; - for (df = it->transition_refs, - df->prev_same_dest->next_same_dest = 0; - df; - df = df->next_same_dest) + if (it->transition_refs) { + struct rx_distinct_future *df; + + for (df = it->transition_refs, + df->prev_same_dest->next_same_dest = 0; + df; df = df->next_same_dest) { + df->future_frame.inx = cache->instruction_table[rx_cache_miss]; + df->future_frame.data = 0; + df->future_frame.data_2 = (void *) df; + df->future = 0; + } + it->transition_refs->prev_same_dest->next_same_dest = + it->transition_refs; + } { - df->future_frame.inx = cache->instruction_table[rx_cache_miss]; - df->future_frame.data = 0; - df->future_frame.data_2 = (void *) df; - df->future = 0; + struct rx_super_edge *tc = it->edges; + + while (tc) { + struct rx_distinct_future *df; + struct rx_super_edge *tct = tc->next; + + df = tc->options; + df->next_same_super_edge[1]->next_same_super_edge[0] = 0; + while (df) { + struct rx_distinct_future *dft = df; + + df = df->next_same_super_edge[0]; + + + if (dft->future && dft->future->transition_refs == dft) { + dft->future->transition_refs = dft->next_same_dest; + if (dft->future->transition_refs == dft) + dft->future->transition_refs = 0; + } + dft->next_same_dest->prev_same_dest = dft->prev_same_dest; + dft->prev_same_dest->next_same_dest = dft->next_same_dest; + rx_cache_free(cache, &cache->free_discernable_futures, + (char *) dft); + } + rx_cache_free(cache, &cache->free_transition_classes, + (char *) tc); + tc = tct; + } } - it->transition_refs->prev_same_dest->next_same_dest = - it->transition_refs; - } - { - struct rx_super_edge *tc = it->edges; - while (tc) - { - struct rx_distinct_future * df; - struct rx_super_edge *tct = tc->next; - df = tc->options; - df->next_same_super_edge[1]->next_same_super_edge[0] = 0; - while (df) - { - struct rx_distinct_future *dft = df; - df = df->next_same_super_edge[0]; - - - if (dft->future && dft->future->transition_refs == dft) - { - dft->future->transition_refs = dft->next_same_dest; - if (dft->future->transition_refs == dft) - dft->future->transition_refs = 0; - } - dft->next_same_dest->prev_same_dest = dft->prev_same_dest; - dft->prev_same_dest->next_same_dest = dft->next_same_dest; - rx_cache_free (cache, &cache->free_discernable_futures, - (char *)dft); - } - rx_cache_free (cache, &cache->free_transition_classes, (char *)tc); - tc = tct; - } - } - - if (it->contents->superstate == it) - it->contents->superstate = 0; - release_superset_low (cache, it->contents); - rx_cache_free (cache, &cache->free_superstates, (char *)it); - --cache->superstates; - return 1; -} - -#ifdef __STDC__ -static char * -rx_cache_get (struct rx_cache * cache, - struct rx_freelist ** freelist) -#else -static char * -rx_cache_get (cache, freelist) - struct rx_cache * cache; - struct rx_freelist ** freelist; -#endif -{ - while (!*freelist && rx_really_free_superstate (cache)) - ; - if (!*freelist) - return 0; - { - struct rx_freelist * it = *freelist; - *freelist = it->next; - return (char *)it; - } -} - -#ifdef __STDC__ -static char * -rx_cache_malloc_or_get (struct rx_cache * cache, - struct rx_freelist ** freelist, int bytes) -#else -static char * -rx_cache_malloc_or_get (cache, freelist, bytes) - struct rx_cache * cache; - struct rx_freelist ** freelist; - int bytes; -#endif -{ - if (!*freelist) - { - char * answer = rx_cache_malloc (cache, bytes); - if (answer) - return answer; - } - return rx_cache_get (cache, freelist); + if (it->contents->superstate == it) + it->contents->superstate = 0; + release_superset_low(cache, it->contents); + rx_cache_free(cache, &cache->free_superstates, (char *) it); + --cache->superstates; + return 1; } #ifdef __STDC__ -static char * -rx_cache_get_superstate (struct rx_cache * cache) +static char *rx_cache_get(struct rx_cache *cache, + struct rx_freelist **freelist) #else -static char * -rx_cache_get_superstate (cache) - struct rx_cache * cache; +static char *rx_cache_get(cache, freelist) +struct rx_cache *cache; +struct rx_freelist **freelist; #endif { - char * answer; - int bytes = ( sizeof (struct rx_superstate) - + cache->local_cset_size * sizeof (struct rx_inx)); - if (!cache->free_superstates - && (cache->superstates < cache->superstates_allowed)) - { - answer = rx_cache_malloc (cache, bytes); - if (answer) + while (!*freelist && rx_really_free_superstate(cache)); + if (!*freelist) + return 0; { - ++cache->superstates; - return answer; + struct rx_freelist *it = *freelist; + + *freelist = it->next; + return (char *) it; } - } - answer = rx_cache_get (cache, &cache->free_superstates); - if (!answer) - { - answer = rx_cache_malloc (cache, bytes); - if (answer) - ++cache->superstates_allowed; - } - ++cache->superstates; - return answer; } - - #ifdef __STDC__ -static int -supersetcmp (void * va, void * vb) +static char *rx_cache_malloc_or_get(struct rx_cache *cache, + struct rx_freelist **freelist, + int bytes) #else -static int -supersetcmp (va, vb) - void * va; - void * vb; +static char *rx_cache_malloc_or_get(cache, freelist, bytes) +struct rx_cache *cache; +struct rx_freelist **freelist; +int bytes; #endif { - struct rx_superset * a = (struct rx_superset *)va; - struct rx_superset * b = (struct rx_superset *)vb; - return ( (a == b) - || (a && b && (a->car == b->car) && (a->cdr == b->cdr))); -} + if (!*freelist) { + char *answer = rx_cache_malloc(cache, bytes); + + if (answer) + return answer; + } + + return rx_cache_get(cache, freelist); +} #ifdef __STDC__ -static struct rx_hash_item * -superset_allocator (struct rx_hash_rules * rules, void * val) +static char *rx_cache_get_superstate(struct rx_cache *cache) #else -static struct rx_hash_item * -superset_allocator (rules, val) - struct rx_hash_rules * rules; - void * val; +static char *rx_cache_get_superstate(cache) +struct rx_cache *cache; #endif { - struct rx_cache * cache - = ((struct rx_cache *) - ((char *)rules - - (unsigned long)(&((struct rx_cache *)0)->superset_hash_rules))); - struct rx_superset * template = (struct rx_superset *)val; - struct rx_superset * newset - = ((struct rx_superset *) - rx_cache_malloc_or_get (cache, - &cache->free_supersets, - sizeof (*template))); - if (!newset) - return 0; - newset->refs = 0; - newset->car = template->car; - newset->id = template->car->id; - newset->cdr = template->cdr; - newset->superstate = 0; - rx_protect_superset (rx, template->cdr); - newset->hash_item.data = (void *)newset; - newset->hash_item.binding = 0; - return &newset->hash_item; + char *answer; + int bytes = (sizeof(struct rx_superstate) + + cache->local_cset_size * sizeof(struct rx_inx)); + + if (!cache->free_superstates + && (cache->superstates < cache->superstates_allowed)) { + answer = rx_cache_malloc(cache, bytes); + if (answer) { + ++cache->superstates; + return answer; + } + } + answer = rx_cache_get(cache, &cache->free_superstates); + if (!answer) { + answer = rx_cache_malloc(cache, bytes); + if (answer) + ++cache->superstates_allowed; + } + ++cache->superstates; + return answer; } + + #ifdef __STDC__ -static struct rx_hash * -super_hash_allocator (struct rx_hash_rules * rules) +static int supersetcmp(void *va, void *vb) #else -static struct rx_hash * -super_hash_allocator (rules) - struct rx_hash_rules * rules; +static int supersetcmp(va, vb) +void *va; +void *vb; #endif { - struct rx_cache * cache - = ((struct rx_cache *) - ((char *)rules - - (unsigned long)(&((struct rx_cache *)0)->superset_hash_rules))); - return ((struct rx_hash *) - rx_cache_malloc_or_get (cache, - &cache->free_hash, sizeof (struct rx_hash))); + struct rx_superset *a = (struct rx_superset *) va; + struct rx_superset *b = (struct rx_superset *) vb; + + return ((a == b) + || (a && b && (a->car == b->car) && (a->cdr == b->cdr))); } +#ifdef __STDC__ +static struct rx_hash_item *superset_allocator(struct rx_hash_rules *rules, + void *val) +#else +static struct rx_hash_item *superset_allocator(rules, val) +struct rx_hash_rules *rules; +void *val; +#endif +{ + struct rx_cache *cache = ((struct rx_cache *) + ((char *) rules + - + + (unsigned + long) (&((struct rx_cache *) + 0)->superset_hash_rules))); + struct rx_superset *template = (struct rx_superset *) val; + struct rx_superset *newset + = ((struct rx_superset *) rx_cache_malloc_or_get(cache, + &cache->free_supersets, + sizeof + + (*template))); + if (!newset) + return 0; + newset->refs = 0; + newset->car = template->car; + newset->id = template->car->id; + newset->cdr = template->cdr; + newset->superstate = 0; + rx_protect_superset(rx, template->cdr); + newset->hash_item.data = (void *) newset; + newset->hash_item.binding = 0; + return &newset->hash_item; +} #ifdef __STDC__ -static void -super_hash_liberator (struct rx_hash * hash, struct rx_hash_rules * rules) +static struct rx_hash *super_hash_allocator(struct rx_hash_rules *rules) #else -static void -super_hash_liberator (hash, rules) - struct rx_hash * hash; - struct rx_hash_rules * rules; +static struct rx_hash *super_hash_allocator(rules) +struct rx_hash_rules *rules; #endif { - struct rx_cache * cache - = ((struct rx_cache *) - (char *)rules - (long)(&((struct rx_cache *)0)->superset_hash_rules)); - rx_cache_free (cache, &cache->free_hash, (char *)hash); + struct rx_cache *cache = ((struct rx_cache *) + ((char *) rules + - + + (unsigned + long) (&((struct rx_cache *) + 0)->superset_hash_rules))); + return ((struct rx_hash *) + rx_cache_malloc_or_get(cache, &cache->free_hash, + + sizeof(struct rx_hash))); } + #ifdef __STDC__ static void -superset_hash_item_liberator (struct rx_hash_item * it, - struct rx_hash_rules * rules) +super_hash_liberator(struct rx_hash *hash, struct rx_hash_rules *rules) #else +static void super_hash_liberator(hash, rules) +struct rx_hash *hash; +struct rx_hash_rules *rules; +#endif +{ + struct rx_cache *cache = ((struct rx_cache *) + + (char *) rules - + (long) (& + + ((struct rx_cache *) + 0)->superset_hash_rules)); + rx_cache_free(cache, &cache->free_hash, (char *) hash); +} + +#ifdef __STDC__ static void -superset_hash_item_liberator (it, rules) /* Well, it does ya know. */ - struct rx_hash_item * it; - struct rx_hash_rules * rules; +superset_hash_item_liberator(struct rx_hash_item *it, + struct rx_hash_rules *rules) +#else +static void superset_hash_item_liberator(it, rules) /* Well, it does ya know. */ +struct rx_hash_item *it; +struct rx_hash_rules *rules; #endif { } @@ -3303,99 +3116,98 @@ int rx_cache_bound = 128; static int rx_default_cache_got = 0; #ifdef __STDC__ -static int -bytes_for_cache_size (int supers, int cset_size) +static int bytes_for_cache_size(int supers, int cset_size) #else -static int -bytes_for_cache_size (supers, cset_size) - int supers; - int cset_size; +static int bytes_for_cache_size(supers, cset_size) +int supers; +int cset_size; #endif { - /* What the hell is this? !!!*/ - return (int) - ((float)supers * - ( (1.03 * (float) ( rx_sizeof_bitset (cset_size) - + sizeof (struct rx_super_edge))) - + (1.80 * (float) sizeof (struct rx_possible_future)) - + (float) ( sizeof (struct rx_superstate) - + cset_size * sizeof (struct rx_inx)))); + /* What the hell is this? !!! */ + return (int) + ((float) supers * ((1.03 * (float) (rx_sizeof_bitset(cset_size) + + + sizeof(struct rx_super_edge))) + + + (1.80 * + (float) sizeof(struct rx_possible_future)) + + (float) (sizeof(struct rx_superstate) + + cset_size * sizeof(struct rx_inx)))); } #ifdef __STDC__ -static void -rx_morecore (struct rx_cache * cache) +static void rx_morecore(struct rx_cache *cache) #else -static void -rx_morecore (cache) - struct rx_cache * cache; -#endif -{ - if (rx_default_cache_got >= rx_cache_bound) - return; - - rx_default_cache_got += 16; - cache->superstates_allowed = rx_cache_bound; - { - struct rx_blocklist ** pos = &cache->memory; - int size = bytes_for_cache_size (16, cache->local_cset_size); - while (*pos) - pos = &(*pos)->next; - *pos = ((struct rx_blocklist *) - malloc (size + sizeof (struct rx_blocklist))); - if (!*pos) - return; - - (*pos)->next = 0; - (*pos)->bytes = size; - cache->memory_pos = *pos; - cache->memory_addr = (char *)*pos + sizeof (**pos); - cache->bytes_left = size; - } -} - -static struct rx_cache default_cache = -{ - { - supersetcmp, - super_hash_allocator, - super_hash_liberator, - superset_allocator, - superset_hash_item_liberator, - }, - 0, - 0, - 0, - 0, - rx_morecore, - - 0, - 0, - 0, - 0, - 0, - - 0, - 0, - - 0, - - 0, - 0, - 0, - 0, - 128, - - 256, - rx_id_instruction_table, - - { - 0, - 0, - {0}, - {0}, - {0} - } +static void rx_morecore(cache) +struct rx_cache *cache; +#endif +{ + if (rx_default_cache_got >= rx_cache_bound) + return; + + rx_default_cache_got += 16; + cache->superstates_allowed = rx_cache_bound; + { + struct rx_blocklist **pos = &cache->memory; + int size = bytes_for_cache_size(16, cache->local_cset_size); + + while (*pos) + pos = &(*pos)->next; + *pos = ((struct rx_blocklist *) + malloc(size + sizeof(struct rx_blocklist))); + + if (!*pos) + return; + + (*pos)->next = 0; + (*pos)->bytes = size; + cache->memory_pos = *pos; + cache->memory_addr = (char *) *pos + sizeof(**pos); + cache->bytes_left = size; + } +} + +static struct rx_cache default_cache = { + { + supersetcmp, + super_hash_allocator, + super_hash_liberator, + superset_allocator, + superset_hash_item_liberator, + }, + 0, + 0, + 0, + 0, + rx_morecore, + + 0, + 0, + 0, + 0, + 0, + + 0, + 0, + + 0, + + 0, + 0, + 0, + 0, + 128, + + 256, + rx_id_instruction_table, + + { + 0, + 0, + {0}, + {0}, + {0} + } }; /* This adds an element to a superstate set. These sets are lists, such @@ -3405,52 +3217,52 @@ static struct rx_cache default_cache = */ #ifdef __STDC__ -RX_DECL struct rx_superset * -rx_superset_cons (struct rx * rx, - struct rx_nfa_state *car, struct rx_superset *cdr) +RX_DECL struct rx_superset *rx_superset_cons(struct rx *rx, + struct rx_nfa_state *car, + struct rx_superset *cdr) #else -RX_DECL struct rx_superset * -rx_superset_cons (rx, car, cdr) - struct rx * rx; - struct rx_nfa_state *car; - struct rx_superset *cdr; +RX_DECL struct rx_superset *rx_superset_cons(rx, car, cdr) +struct rx *rx; +struct rx_nfa_state *car; +struct rx_superset *cdr; #endif { - struct rx_cache * cache = rx->cache; - if (!car && !cdr) - { - if (!cache->empty_superset) + struct rx_cache *cache = rx->cache; + + if (!car && !cdr) { + if (!cache->empty_superset) { + cache->empty_superset = ((struct rx_superset *) + rx_cache_malloc_or_get(cache, + &cache->free_supersets, + + sizeof(struct + rx_superset))); + if (!cache->empty_superset) + return 0; + bzero(cache->empty_superset, sizeof(struct rx_superset)); + + cache->empty_superset->refs = 1000; + } + return cache->empty_superset; + } { - cache->empty_superset - = ((struct rx_superset *) - rx_cache_malloc_or_get (cache, &cache->free_supersets, - sizeof (struct rx_superset))); - if (!cache->empty_superset) - return 0; - bzero (cache->empty_superset, sizeof (struct rx_superset)); - cache->empty_superset->refs = 1000; + struct rx_superset template; + struct rx_hash_item *hit; + + template.car = car; + template.cdr = cdr; + template.id = car->id; + /* While hash_store will protect cdr itself it might first allocate hash + tables and stuff which might cause it to be garbage collected before + it's protected -- [gsstark:19961026.2155EST] */ + rx_protect_superset(rx, cdr); + hit = rx_hash_store(&cache->superset_table, + (unsigned long) car ^ car->id ^ (unsigned long) + cdr, (void *) &template, + &cache->superset_hash_rules); + rx_release_superset(rx, cdr); + return (hit ? (struct rx_superset *) hit->data : 0); } - return cache->empty_superset; - } - { - struct rx_superset template; - struct rx_hash_item * hit; - template.car = car; - template.cdr = cdr; - template.id = car->id; - /* While hash_store will protect cdr itself it might first allocate hash - tables and stuff which might cause it to be garbage collected before - it's protected -- [gsstark:19961026.2155EST] */ - rx_protect_superset (rx, cdr); - hit = rx_hash_store (&cache->superset_table, - (unsigned long)car ^ car->id ^ (unsigned long)cdr, - (void *)&template, - &cache->superset_hash_rules); - rx_release_superset (rx, cdr); - return (hit - ? (struct rx_superset *)hit->data - : 0); - } } /* This computes a union of two NFA state sets. The sets do not have the @@ -3459,61 +3271,55 @@ rx_superset_cons (rx, car, cdr) */ #ifdef __STDC__ -RX_DECL struct rx_superset * -rx_superstate_eclosure_union - (struct rx * rx, struct rx_superset *set, struct rx_nfa_state_set *ecl) -#else -RX_DECL struct rx_superset * -rx_superstate_eclosure_union (rx, set, ecl) - struct rx * rx; - struct rx_superset *set; - struct rx_nfa_state_set *ecl; -#endif -{ - if (!ecl) - return set; - - if (!set->car) - return rx_superset_cons (rx, ecl->car, - rx_superstate_eclosure_union (rx, set, ecl->cdr)); - if (set->car == ecl->car) - return rx_superstate_eclosure_union (rx, set, ecl->cdr); - - { - struct rx_superset * tail; - struct rx_nfa_state * first; - - if (set->car > ecl->car) - { - tail = rx_superstate_eclosure_union (rx, set->cdr, ecl); - first = set->car; - } - else - { - tail = rx_superstate_eclosure_union (rx, set, ecl->cdr); - first = ecl->car; - } - if (!tail) - return 0; - else - { - struct rx_superset * answer; - answer = rx_superset_cons (rx, first, tail); - if (!answer) - { - rx_protect_superset (rx, tail); - rx_release_superset (rx, tail); - return 0; - } - else - return answer; - } - } -} +RX_DECL struct rx_superset *rx_superstate_eclosure_union + (struct rx *rx, struct rx_superset *set, struct rx_nfa_state_set *ecl) +#else +RX_DECL struct rx_superset *rx_superstate_eclosure_union(rx, set, ecl) +struct rx *rx; +struct rx_superset *set; +struct rx_nfa_state_set *ecl; +#endif +{ + if (!ecl) + return set; + if (!set->car) + return rx_superset_cons(rx, ecl->car, + rx_superstate_eclosure_union(rx, set, + ecl->cdr)); + if (set->car == ecl->car) + return rx_superstate_eclosure_union(rx, set, ecl->cdr); + { + struct rx_superset *tail; + struct rx_nfa_state *first; + + if (set->car > ecl->car) { + tail = rx_superstate_eclosure_union(rx, set->cdr, ecl); + first = set->car; + } else { + tail = rx_superstate_eclosure_union(rx, set, ecl->cdr); + first = ecl->car; + } + if (!tail) + return 0; + else { + struct rx_superset *answer; + + answer = rx_superset_cons(rx, first, tail); + if (!answer) { + rx_protect_superset(rx, tail); + rx_release_superset(rx, tail); + return 0; + } else + return answer; + } + } +} + + /* * This makes sure that a list of rx_distinct_futures contains * a future for each possible set of side effects in the eclosure @@ -3522,79 +3328,80 @@ rx_superstate_eclosure_union (rx, set, ecl) */ #ifdef __STDC__ -static struct rx_distinct_future * -include_futures (struct rx *rx, - struct rx_distinct_future *df, struct rx_nfa_state - *state, struct rx_superstate *superstate) -#else -static struct rx_distinct_future * -include_futures (rx, df, state, superstate) - struct rx *rx; - struct rx_distinct_future *df; - struct rx_nfa_state *state; - struct rx_superstate *superstate; -#endif -{ - struct rx_possible_future *future; - struct rx_cache * cache = rx->cache; - for (future = state->futures; future; future = future->next) - { - struct rx_distinct_future *dfp; - struct rx_distinct_future *insert_before = 0; - if (df) - df->next_same_super_edge[1]->next_same_super_edge[0] = 0; - for (dfp = df; dfp; dfp = dfp->next_same_super_edge[0]) - if (dfp->effects == future->effects) - break; - else - { - int order = rx->se_list_cmp (rx, dfp->effects, future->effects); - if (order > 0) - { - insert_before = dfp; - dfp = 0; - break; - } - } - if (df) - df->next_same_super_edge[1]->next_same_super_edge[0] = df; - if (!dfp) - { - dfp - = ((struct rx_distinct_future *) - rx_cache_malloc_or_get (cache, &cache->free_discernable_futures, - sizeof (struct rx_distinct_future))); - if (!dfp) - return 0; - if (!df) - { - df = insert_before = dfp; - df->next_same_super_edge[0] = df->next_same_super_edge[1] = df; - } - else if (!insert_before) - insert_before = df; - else if (insert_before == df) - df = dfp; - - dfp->next_same_super_edge[0] = insert_before; - dfp->next_same_super_edge[1] - = insert_before->next_same_super_edge[1]; - dfp->next_same_super_edge[1]->next_same_super_edge[0] = dfp; - dfp->next_same_super_edge[0]->next_same_super_edge[1] = dfp; - dfp->next_same_dest = dfp->prev_same_dest = dfp; - dfp->future = 0; - dfp->present = superstate; - dfp->future_frame.inx = rx->instruction_table[rx_cache_miss]; - dfp->future_frame.data = 0; - dfp->future_frame.data_2 = (void *) dfp; - dfp->side_effects_frame.inx - = rx->instruction_table[rx_do_side_effects]; - dfp->side_effects_frame.data = 0; - dfp->side_effects_frame.data_2 = (void *) dfp; - dfp->effects = future->effects; +static struct rx_distinct_future *include_futures(struct rx *rx, struct rx_distinct_future + *df, struct rx_nfa_state + *state, struct rx_superstate + *superstate) +#else +static struct rx_distinct_future *include_futures(rx, df, state, + superstate) +struct rx *rx; +struct rx_distinct_future *df; +struct rx_nfa_state *state; +struct rx_superstate *superstate; +#endif +{ + struct rx_possible_future *future; + struct rx_cache *cache = rx->cache; + + for (future = state->futures; future; future = future->next) { + struct rx_distinct_future *dfp; + struct rx_distinct_future *insert_before = 0; + + if (df) + df->next_same_super_edge[1]->next_same_super_edge[0] = 0; + for (dfp = df; dfp; dfp = dfp->next_same_super_edge[0]) + if (dfp->effects == future->effects) + break; + else { + int order = + + rx->se_list_cmp(rx, dfp->effects, future->effects); + if (order > 0) { + insert_before = dfp; + dfp = 0; + break; + } + } + if (df) + df->next_same_super_edge[1]->next_same_super_edge[0] = df; + if (!dfp) { + dfp = ((struct rx_distinct_future *) + rx_cache_malloc_or_get(cache, + &cache->free_discernable_futures, + + sizeof(struct + rx_distinct_future))); + if (!dfp) + return 0; + if (!df) { + df = insert_before = dfp; + df->next_same_super_edge[0] = df->next_same_super_edge[1] = + df; + } else if (!insert_before) + insert_before = df; + else if (insert_before == df) + df = dfp; + + dfp->next_same_super_edge[0] = insert_before; + dfp->next_same_super_edge[1] + = insert_before->next_same_super_edge[1]; + dfp->next_same_super_edge[1]->next_same_super_edge[0] = dfp; + dfp->next_same_super_edge[0]->next_same_super_edge[1] = dfp; + dfp->next_same_dest = dfp->prev_same_dest = dfp; + dfp->future = 0; + dfp->present = superstate; + dfp->future_frame.inx = rx->instruction_table[rx_cache_miss]; + dfp->future_frame.data = 0; + dfp->future_frame.data_2 = (void *) dfp; + dfp->side_effects_frame.inx + = rx->instruction_table[rx_do_side_effects]; + dfp->side_effects_frame.data = 0; + dfp->side_effects_frame.data_2 = (void *) dfp; + dfp->effects = future->effects; + } } - } - return df; + return df; } @@ -3602,128 +3409,117 @@ include_futures (rx, df, state, superstate) * complexity here is memory management. */ #ifdef __STDC__ -RX_DECL struct rx_superstate * -rx_superstate (struct rx *rx, - struct rx_superset *set) -#else -RX_DECL struct rx_superstate * -rx_superstate (rx, set) - struct rx *rx; - struct rx_superset *set; -#endif -{ - struct rx_cache * cache = rx->cache; - struct rx_superstate * superstate = 0; - - /* Does the superstate already exist in the cache? */ - if (set->superstate) - { - if (set->superstate->rx_id != rx->rx_id) - { - /* Aha. It is in the cache, but belongs to a superstate - * that refers to an NFA that no longer exists. - * (We know it no longer exists because it was evidently - * stored in the same region of memory as the current nfa - * yet it has a different id.) - */ - superstate = set->superstate; - if (!superstate->is_semifree) - { - if (cache->lru_superstate == superstate) - { - cache->lru_superstate = superstate->next_recyclable; - if (cache->lru_superstate == superstate) - cache->lru_superstate = 0; +RX_DECL struct rx_superstate *rx_superstate(struct rx *rx, + struct rx_superset *set) +#else +RX_DECL struct rx_superstate *rx_superstate(rx, set) +struct rx *rx; +struct rx_superset *set; +#endif +{ + struct rx_cache *cache = rx->cache; + struct rx_superstate *superstate = 0; + + /* Does the superstate already exist in the cache? */ + if (set->superstate) { + if (set->superstate->rx_id != rx->rx_id) { + /* Aha. It is in the cache, but belongs to a superstate + * that refers to an NFA that no longer exists. + * (We know it no longer exists because it was evidently + * stored in the same region of memory as the current nfa + * yet it has a different id.) + */ + superstate = set->superstate; + if (!superstate->is_semifree) { + if (cache->lru_superstate == superstate) { + cache->lru_superstate = superstate->next_recyclable; + if (cache->lru_superstate == superstate) + cache->lru_superstate = 0; + } + { + superstate->next_recyclable->prev_recyclable + = superstate->prev_recyclable; + superstate->prev_recyclable->next_recyclable + = superstate->next_recyclable; + if (!cache->semifree_superstate) { + (cache->semifree_superstate + = superstate->next_recyclable + = superstate->prev_recyclable = superstate); + } else { + superstate->next_recyclable = + cache->semifree_superstate; + superstate->prev_recyclable = + cache->semifree_superstate->prev_recyclable; + superstate->next_recyclable->prev_recyclable = + superstate; + superstate->prev_recyclable->next_recyclable = + superstate; + cache->semifree_superstate = superstate; + } + ++cache->semifree_superstates; + } + } + set->superstate = 0; + goto handle_cache_miss; } - { - superstate->next_recyclable->prev_recyclable - = superstate->prev_recyclable; - superstate->prev_recyclable->next_recyclable - = superstate->next_recyclable; - if (!cache->semifree_superstate) - { - (cache->semifree_superstate - = superstate->next_recyclable - = superstate->prev_recyclable - = superstate); - } - else - { - superstate->next_recyclable = cache->semifree_superstate; - superstate->prev_recyclable - = cache->semifree_superstate->prev_recyclable; - superstate->next_recyclable->prev_recyclable - = superstate; - superstate->prev_recyclable->next_recyclable - = superstate; - cache->semifree_superstate = superstate; - } - ++cache->semifree_superstates; - } - } - set->superstate = 0; - goto handle_cache_miss; - } - ++cache->hits; - superstate = set->superstate; + ++cache->hits; + superstate = set->superstate; - rx_refresh_this_superstate (cache, superstate); - return superstate; - } + rx_refresh_this_superstate(cache, superstate); + return superstate; + } - handle_cache_miss: + handle_cache_miss: - /* This point reached only for cache misses. */ - ++cache->misses; + /* This point reached only for cache misses. */ + ++cache->misses; #if RX_DEBUG - if (rx_debug_trace > 1) - { - struct rx_superset * setp = set; - fprintf (stderr, "Building a superstet %d(%d): ", rx->rx_id, set); - while (setp) - { - fprintf (stderr, "%d ", setp->id); - setp = setp->cdr; + if (rx_debug_trace > 1) { + struct rx_superset *setp = set; + + fprintf(stderr, "Building a superstet %d(%d): ", rx->rx_id, set); + while (setp) { + fprintf(stderr, "%d ", setp->id); + setp = setp->cdr; + } + fprintf(stderr, "(%d)\n", set); } - fprintf (stderr, "(%d)\n", set); - } #endif - superstate = (struct rx_superstate *)rx_cache_get_superstate (cache); - if (!superstate) - return 0; - - if (!cache->lru_superstate) - (cache->lru_superstate - = superstate->next_recyclable - = superstate->prev_recyclable - = superstate); - else - { - superstate->next_recyclable = cache->lru_superstate; - superstate->prev_recyclable = cache->lru_superstate->prev_recyclable; - ( superstate->prev_recyclable->next_recyclable - = superstate->next_recyclable->prev_recyclable - = superstate); - } - superstate->rx_id = rx->rx_id; - superstate->transition_refs = 0; - superstate->locks = 0; - superstate->is_semifree = 0; - set->superstate = superstate; - superstate->contents = set; - rx_protect_superset (rx, set); - superstate->edges = 0; - { - int x; - /* None of the transitions from this superstate are known yet. */ - for (x = 0; x < rx->local_cset_size; ++x) /* &&&&& 3.8 % */ - { - struct rx_inx * ifr = &superstate->transitions[x]; - ifr->inx = rx->instruction_table [rx_cache_miss]; - ifr->data = ifr->data_2 = 0; - } - } - return superstate; + superstate = (struct rx_superstate *) rx_cache_get_superstate(cache); + if (!superstate) + return 0; + + if (!cache->lru_superstate) + (cache->lru_superstate + = superstate->next_recyclable + = superstate->prev_recyclable = superstate); + else { + superstate->next_recyclable = cache->lru_superstate; + superstate->prev_recyclable = + cache->lru_superstate->prev_recyclable; + (superstate->prev_recyclable->next_recyclable = + superstate->next_recyclable->prev_recyclable = superstate); + } + superstate->rx_id = rx->rx_id; + superstate->transition_refs = 0; + superstate->locks = 0; + superstate->is_semifree = 0; + set->superstate = superstate; + superstate->contents = set; + rx_protect_superset(rx, set); + superstate->edges = 0; + { + int x; + + /* None of the transitions from this superstate are known yet. */ + for (x = 0; x < rx->local_cset_size; ++x) { /* &&&&& 3.8 % */ + struct rx_inx *ifr = &superstate->transitions[x]; + + ifr->inx = rx->instruction_table[rx_cache_miss]; + ifr->data = ifr->data_2 = 0; + } + } + return superstate; } @@ -3733,98 +3529,96 @@ rx_superstate (rx, set) */ #ifdef __STDC__ -static int -solve_destination (struct rx *rx, struct rx_distinct_future *df) -#else -static int -solve_destination (rx, df) - struct rx *rx; - struct rx_distinct_future *df; -#endif -{ - struct rx_super_edge *tc = df->edge; - struct rx_superset *nfa_state; - struct rx_superset *nil_set = rx_superset_cons (rx, 0, 0); - struct rx_superset *solution = nil_set; - struct rx_superstate *dest; - - rx_protect_superset (rx, solution); - /* Iterate over all NFA states in the state set of this superstate. */ - for (nfa_state = df->present->contents; - nfa_state->car; - nfa_state = nfa_state->cdr) - { - struct rx_nfa_edge *e; - /* Iterate over all edges of each NFA state. */ - for (e = nfa_state->car->edges; e; e = e->next) - /* If we find an edge that is labeled with - * the characters we are solving for..... +static int solve_destination(struct rx *rx, struct rx_distinct_future *df) +#else +static int solve_destination(rx, df) +struct rx *rx; +struct rx_distinct_future *df; +#endif +{ + struct rx_super_edge *tc = df->edge; + struct rx_superset *nfa_state; + struct rx_superset *nil_set = rx_superset_cons(rx, 0, 0); + struct rx_superset *solution = nil_set; + struct rx_superstate *dest; + + rx_protect_superset(rx, solution); + /* Iterate over all NFA states in the state set of this superstate. */ + for (nfa_state = df->present->contents; + nfa_state->car; nfa_state = nfa_state->cdr) { + struct rx_nfa_edge *e; + + /* Iterate over all edges of each NFA state. */ + for (e = nfa_state->car->edges; e; e = e->next) + /* If we find an edge that is labeled with + * the characters we are solving for..... + */ + if (rx_bitset_is_subset(rx->local_cset_size, + tc->cset, e->params.cset)) { + struct rx_nfa_state *n = e->dest; + struct rx_possible_future *pf; + + /* ....search the partial epsilon closures of the destination + * of that edge for a path that involves the same set of + * side effects we are solving for. + * If we find such a RX_POSSIBLE_FUTURE, we add members to the + * stateset we are computing. + */ + for (pf = n->futures; pf; pf = pf->next) + if (pf->effects == df->effects) { + struct rx_superset *old_sol; + + old_sol = solution; + solution = + rx_superstate_eclosure_union(rx, solution, + pf->destset); + if (!solution) + return 0; + rx_protect_superset(rx, solution); + rx_release_superset(rx, old_sol); + } + } + } + /* It is possible that the RX_DISTINCT_FUTURE we are working on has + * the empty set of NFA states as its definition. In that case, this + * is a failure point. */ - if (rx_bitset_is_subset (rx->local_cset_size, - tc->cset, e->params.cset)) - { - struct rx_nfa_state *n = e->dest; - struct rx_possible_future *pf; - /* ....search the partial epsilon closures of the destination - * of that edge for a path that involves the same set of - * side effects we are solving for. - * If we find such a RX_POSSIBLE_FUTURE, we add members to the - * stateset we are computing. - */ - for (pf = n->futures; pf; pf = pf->next) - if (pf->effects == df->effects) - { - struct rx_superset * old_sol; - old_sol = solution; - solution = rx_superstate_eclosure_union (rx, solution, - pf->destset); - if (!solution) - return 0; - rx_protect_superset (rx, solution); - rx_release_superset (rx, old_sol); + if (solution == nil_set) { + df->future_frame.inx = (void *) rx_backtrack; + df->future_frame.data = 0; + df->future_frame.data_2 = 0; + return 1; + } + dest = rx_superstate(rx, solution); + rx_release_superset(rx, solution); + if (!dest) + return 0; + + { + struct rx_distinct_future *dft; + + dft = df; + df->prev_same_dest->next_same_dest = 0; + while (dft) { + dft->future = dest; + dft->future_frame.inx = rx->instruction_table[rx_next_char]; + dft->future_frame.data = (void *) dest->transitions; + dft = dft->next_same_dest; } - } - } - /* It is possible that the RX_DISTINCT_FUTURE we are working on has - * the empty set of NFA states as its definition. In that case, this - * is a failure point. - */ - if (solution == nil_set) - { - df->future_frame.inx = (void *) rx_backtrack; - df->future_frame.data = 0; - df->future_frame.data_2 = 0; - return 1; - } - dest = rx_superstate (rx, solution); - rx_release_superset (rx, solution); - if (!dest) - return 0; - - { - struct rx_distinct_future *dft; - dft = df; - df->prev_same_dest->next_same_dest = 0; - while (dft) - { - dft->future = dest; - dft->future_frame.inx = rx->instruction_table[rx_next_char]; - dft->future_frame.data = (void *) dest->transitions; - dft = dft->next_same_dest; - } - df->prev_same_dest->next_same_dest = df; - } - if (!dest->transition_refs) - dest->transition_refs = df; - else - { - struct rx_distinct_future *dft = dest->transition_refs->next_same_dest; - dest->transition_refs->next_same_dest = df->next_same_dest; - df->next_same_dest->prev_same_dest = dest->transition_refs; - df->next_same_dest = dft; - dft->prev_same_dest = df; - } - return 1; + df->prev_same_dest->next_same_dest = df; + } + if (!dest->transition_refs) + dest->transition_refs = df; + else { + struct rx_distinct_future *dft = + + dest->transition_refs->next_same_dest; + dest->transition_refs->next_same_dest = df->next_same_dest; + df->next_same_dest->prev_same_dest = dest->transition_refs; + df->next_same_dest = dft; + dft->prev_same_dest = df; + } + return 1; } @@ -3838,81 +3632,87 @@ solve_destination (rx, df) } */ #ifdef __STDC__ -static int -compute_super_edge (struct rx *rx, struct rx_distinct_future **dfout, - rx_Bitset csetout, struct rx_superstate *superstate, - unsigned char chr) -#else -static int -compute_super_edge (rx, dfout, csetout, superstate, chr) - struct rx *rx; - struct rx_distinct_future **dfout; - rx_Bitset csetout; - struct rx_superstate *superstate; - unsigned char chr; -#endif -{ - struct rx_superset *stateset = superstate->contents; - - /* To compute the set of characters that share edges with CHR, - * we start with the full character set, and subtract. - */ - rx_bitset_universe (rx->local_cset_size, csetout); - *dfout = 0; - - /* Iterate over the NFA states in the superstate state-set. */ - while (stateset->car) - { - struct rx_nfa_edge *e; - for (e = stateset->car->edges; e; e = e->next) - if (RX_bitset_member (e->params.cset, chr)) - { - /* If we find an NFA edge that applies, we make sure there - * are corresponding edges in the superstate NFA. - */ - { - struct rx_distinct_future * saved; - saved = *dfout; - *dfout = include_futures (rx, *dfout, e->dest, superstate); - if (!*dfout) - { - struct rx_distinct_future * df; - df = saved; - if (df) - df->next_same_super_edge[1]->next_same_super_edge[0] = 0; - while (df) - { - struct rx_distinct_future *dft; - dft = df; - df = df->next_same_super_edge[0]; - - if (dft->future && dft->future->transition_refs == dft) - { - dft->future->transition_refs = dft->next_same_dest; - if (dft->future->transition_refs == dft) - dft->future->transition_refs = 0; - } - dft->next_same_dest->prev_same_dest = dft->prev_same_dest; - dft->prev_same_dest->next_same_dest = dft->next_same_dest; - rx_cache_free (rx->cache, - &rx->cache->free_discernable_futures, - (char *)dft); - } - return 0; - } - } - /* We also trim the character set a bit. */ - rx_bitset_intersection (rx->local_cset_size, - csetout, e->params.cset); - } - else - /* An edge that doesn't apply at least tells us some characters - * that don't share the same edge set as CHR. - */ - rx_bitset_difference (rx->local_cset_size, csetout, e->params.cset); - stateset = stateset->cdr; - } - return 1; +static int +compute_super_edge(struct rx *rx, struct rx_distinct_future **dfout, + rx_Bitset csetout, struct rx_superstate *superstate, + unsigned char chr) +#else +static int compute_super_edge(rx, dfout, csetout, superstate, chr) +struct rx *rx; +struct rx_distinct_future **dfout; +rx_Bitset csetout; +struct rx_superstate *superstate; +unsigned char chr; +#endif +{ + struct rx_superset *stateset = superstate->contents; + + /* To compute the set of characters that share edges with CHR, + * we start with the full character set, and subtract. + */ + rx_bitset_universe(rx->local_cset_size, csetout); + *dfout = 0; + + /* Iterate over the NFA states in the superstate state-set. */ + while (stateset->car) { + struct rx_nfa_edge *e; + + for (e = stateset->car->edges; e; e = e->next) + if (RX_bitset_member(e->params.cset, chr)) { + /* If we find an NFA edge that applies, we make sure there + * are corresponding edges in the superstate NFA. + */ + { + struct rx_distinct_future *saved; + + saved = *dfout; + *dfout = + include_futures(rx, *dfout, e->dest, superstate); + if (!*dfout) { + struct rx_distinct_future *df; + + df = saved; + if (df) + df-> + next_same_super_edge + [1]->next_same_super_edge[0] = 0; + while (df) { + struct rx_distinct_future *dft; + + dft = df; + df = df->next_same_super_edge[0]; + + if (dft->future + && dft->future->transition_refs == dft) { + dft->future->transition_refs = + dft->next_same_dest; + if (dft->future->transition_refs == dft) + dft->future->transition_refs = 0; + } + dft->next_same_dest->prev_same_dest = + dft->prev_same_dest; + dft->prev_same_dest->next_same_dest = + dft->next_same_dest; + rx_cache_free(rx->cache, + &rx-> + cache->free_discernable_futures, + (char *) dft); + } + return 0; + } + } + /* We also trim the character set a bit. */ + rx_bitset_intersection(rx->local_cset_size, + csetout, e->params.cset); + } else + /* An edge that doesn't apply at least tells us some characters + * that don't share the same edge set as CHR. + */ + rx_bitset_difference(rx->local_cset_size, csetout, + e->params.cset); + stateset = stateset->cdr; + } + return 1; } @@ -3924,46 +3724,46 @@ compute_super_edge (rx, dfout, csetout, superstate, chr) #ifdef __STDC__ -static struct rx_super_edge * -rx_super_edge (struct rx *rx, - struct rx_superstate *super, rx_Bitset cset, - struct rx_distinct_future *df) -#else -static struct rx_super_edge * -rx_super_edge (rx, super, cset, df) - struct rx *rx; - struct rx_superstate *super; - rx_Bitset cset; - struct rx_distinct_future *df; -#endif -{ - struct rx_super_edge *tc = - (struct rx_super_edge *)rx_cache_malloc_or_get - (rx->cache, &rx->cache->free_transition_classes, - sizeof (struct rx_super_edge) + rx_sizeof_bitset (rx->local_cset_size)); - - if (!tc) - return 0; - tc->next = super->edges; - super->edges = tc; - tc->rx_backtrack_frame.inx = rx->instruction_table[rx_backtrack_point]; - tc->rx_backtrack_frame.data = 0; - tc->rx_backtrack_frame.data_2 = (void *) tc; - tc->options = df; - tc->cset = (rx_Bitset) ((char *) tc + sizeof (*tc)); - rx_bitset_assign (rx->local_cset_size, tc->cset, cset); - if (df) - { - struct rx_distinct_future * dfp = df; - df->next_same_super_edge[1]->next_same_super_edge[0] = 0; - while (dfp) - { - dfp->edge = tc; - dfp = dfp->next_same_super_edge[0]; +static struct rx_super_edge *rx_super_edge(struct rx *rx, + struct rx_superstate *super, + rx_Bitset cset, + struct rx_distinct_future *df) +#else +static struct rx_super_edge *rx_super_edge(rx, super, cset, df) +struct rx *rx; +struct rx_superstate *super; +rx_Bitset cset; +struct rx_distinct_future *df; +#endif +{ + struct rx_super_edge *tc = + (struct rx_super_edge *) rx_cache_malloc_or_get + (rx->cache, &rx->cache->free_transition_classes, + sizeof(struct rx_super_edge) + + + rx_sizeof_bitset(rx->local_cset_size)); + + if (!tc) + return 0; + tc->next = super->edges; + super->edges = tc; + tc->rx_backtrack_frame.inx = rx->instruction_table[rx_backtrack_point]; + tc->rx_backtrack_frame.data = 0; + tc->rx_backtrack_frame.data_2 = (void *) tc; + tc->options = df; + tc->cset = (rx_Bitset) ((char *) tc + sizeof(*tc)); + rx_bitset_assign(rx->local_cset_size, tc->cset, cset); + if (df) { + struct rx_distinct_future *dfp = df; + + df->next_same_super_edge[1]->next_same_super_edge[0] = 0; + while (dfp) { + dfp->edge = tc; + dfp = dfp->next_same_super_edge[0]; + } + df->next_same_super_edge[1]->next_same_super_edge[0] = df; } - df->next_same_super_edge[1]->next_same_super_edge[0] = df; - } - return tc; + return tc; } @@ -3984,164 +3784,158 @@ rx_super_edge (rx, super, cset, df) #ifdef __STDC__ static void -install_partial_transition (struct rx_superstate *super, - struct rx_inx *answer, - RX_subset set, int offset) -#else -static void -install_partial_transition (super, answer, set, offset) - struct rx_superstate *super; - struct rx_inx *answer; - RX_subset set; - int offset; -#endif -{ - int start = offset; - int end = start + 32; - RX_subset pos = 1; - struct rx_inx * transitions = super->transitions; - - while (start < end) - { - if (set & pos) - transitions[start] = *answer; - pos <<= 1; - ++start; - } +install_partial_transition(struct rx_superstate *super, + struct rx_inx *answer, + RX_subset set, int offset) +#else +static void install_partial_transition(super, answer, set, offset) +struct rx_superstate *super; +struct rx_inx *answer; +RX_subset set; +int offset; +#endif +{ + int start = offset; + int end = start + 32; + RX_subset pos = 1; + struct rx_inx *transitions = super->transitions; + + while (start < end) { + if (set & pos) + transitions[start] = *answer; + pos <<= 1; + ++start; + } } #ifdef __STDC__ -RX_DECL struct rx_inx * -rx_handle_cache_miss - (struct rx *rx, struct rx_superstate *super, unsigned char chr, void *data) -#else -RX_DECL struct rx_inx * -rx_handle_cache_miss (rx, super, chr, data) - struct rx *rx; - struct rx_superstate *super; - unsigned char chr; - void *data; -#endif -{ - int offset = chr / RX_subset_bits; - struct rx_distinct_future *df = data; - - if (!df) /* must be the shared_cache_miss_frame */ - { - /* Perhaps this is just a transition waiting to be filled. */ - struct rx_super_edge *tc; - RX_subset mask = rx_subset_singletons [chr % RX_subset_bits]; - - for (tc = super->edges; tc; tc = tc->next) - if (tc->cset[offset] & mask) - { - struct rx_inx * answer; - df = tc->options; - answer = ((tc->options->next_same_super_edge[0] != tc->options) - ? &tc->rx_backtrack_frame - : (df->effects - ? &df->side_effects_frame - : &df->future_frame)); - install_partial_transition (super, answer, - tc->cset [offset], offset * 32); - return answer; - } - /* Otherwise, it's a flushed or newly encountered edge. */ - { - char cset_space[1024]; /* this limit is far from unreasonable */ - rx_Bitset trcset; - struct rx_inx *answer; - - if (rx_sizeof_bitset (rx->local_cset_size) > sizeof (cset_space)) - return 0; /* If the arbitrary limit is hit, always fail */ - /* cleanly. */ - trcset = (rx_Bitset)cset_space; - rx_lock_superstate (rx, super); - if (!compute_super_edge (rx, &df, trcset, super, chr)) - { - rx_unlock_superstate (rx, super); - return 0; - } - if (!df) /* We just computed the fail transition. */ - { - static struct rx_inx - shared_fail_frame = { 0, 0, (void *)rx_backtrack, 0 }; - answer = &shared_fail_frame; - } - else - { - tc = rx_super_edge (rx, super, trcset, df); - if (!tc) - { - rx_unlock_superstate (rx, super); - return 0; - } - answer = ((tc->options->next_same_super_edge[0] != tc->options) - ? &tc->rx_backtrack_frame - : (df->effects - ? &df->side_effects_frame - : &df->future_frame)); - } - install_partial_transition (super, answer, - trcset[offset], offset * 32); - rx_unlock_superstate (rx, super); - return answer; - } - } - else if (df->future) /* A cache miss on an edge with a future? Must be - * a semi-free destination. */ - { - if (df->future->is_semifree) - refresh_semifree_superstate (rx->cache, df->future); - return &df->future_frame; - } - else - /* no future superstate on an existing edge */ - { - rx_lock_superstate (rx, super); - if (!solve_destination (rx, df)) +RX_DECL struct rx_inx *rx_handle_cache_miss + (struct rx *rx, struct rx_superstate *super, unsigned char chr, + void *data) +#else +RX_DECL struct rx_inx *rx_handle_cache_miss(rx, super, chr, data) +struct rx *rx; +struct rx_superstate *super; +unsigned char chr; +void *data; +#endif +{ + int offset = chr / RX_subset_bits; + struct rx_distinct_future *df = data; + + if (!df) { /* must be the shared_cache_miss_frame */ + /* Perhaps this is just a transition waiting to be filled. */ + struct rx_super_edge *tc; + RX_subset mask = rx_subset_singletons[chr % RX_subset_bits]; + + for (tc = super->edges; tc; tc = tc->next) + if (tc->cset[offset] & mask) { + struct rx_inx *answer; + + df = tc->options; + answer = + ((tc->options->next_same_super_edge[0] != + tc->options) ? &tc-> + rx_backtrack_frame : (df->effects ? + &df->side_effects_frame : + &df->future_frame)); + install_partial_transition(super, answer, tc->cset[offset], + offset * 32); + return answer; + } + /* Otherwise, it's a flushed or newly encountered edge. */ + { + char cset_space[1024]; /* this limit is far from unreasonable */ + rx_Bitset trcset; + struct rx_inx *answer; + + if (rx_sizeof_bitset(rx->local_cset_size) > sizeof(cset_space)) + return 0; /* If the arbitrary limit is hit, always fail */ + /* cleanly. */ + trcset = (rx_Bitset) cset_space; + rx_lock_superstate(rx, super); + if (!compute_super_edge(rx, &df, trcset, super, chr)) { + rx_unlock_superstate(rx, super); + return 0; + } + if (!df) { /* We just computed the fail transition. */ + static struct rx_inx + shared_fail_frame = { 0, 0, (void *) rx_backtrack, 0 }; + + answer = &shared_fail_frame; + } else { + tc = rx_super_edge(rx, super, trcset, df); + if (!tc) { + rx_unlock_superstate(rx, super); + return 0; + } + answer = + ((tc->options->next_same_super_edge[0] != + tc->options) ? &tc-> + rx_backtrack_frame : (df->effects ? + &df->side_effects_frame : + &df->future_frame)); + } + install_partial_transition(super, answer, + trcset[offset], offset * 32); + rx_unlock_superstate(rx, super); + return answer; + } + } else if (df->future) { /* A cache miss on an edge with a future? Must be + * a semi-free destination. */ + if (df->future->is_semifree) + refresh_semifree_superstate(rx->cache, df->future); + return &df->future_frame; + } else + /* no future superstate on an existing edge */ { - rx_unlock_superstate (rx, super); - return 0; + rx_lock_superstate(rx, super); + if (!solve_destination(rx, df)) { + rx_unlock_superstate(rx, super); + return 0; + } + if (!df->effects + && (df->edge->options->next_same_super_edge[0] == + df->edge->options)) install_partial_transition(super, + &df->future_frame, + df-> + edge->cset + [offset], + offset * + 32); + rx_unlock_superstate(rx, super); + return &df->future_frame; } - if (!df->effects - && (df->edge->options->next_same_super_edge[0] == df->edge->options)) - install_partial_transition (super, &df->future_frame, - df->edge->cset[offset], offset * 32); - rx_unlock_superstate (rx, super); - return &df->future_frame; - } } + - /* The rest of the code provides a regex.c compatable interface. */ -__const__ char *re_error_msg[] = -{ - 0, /* REG_NOUT */ - "No match", /* REG_NOMATCH */ - "Invalid regular expression", /* REG_BADPAT */ - "Invalid collation character", /* REG_ECOLLATE */ - "Invalid character class name", /* REG_ECTYPE */ - "Trailing backslash", /* REG_EESCAPE */ - "Invalid back reference", /* REG_ESUBREG */ - "Unmatched [ or [^", /* REG_EBRACK */ - "Unmatched ( or \\(", /* REG_EPAREN */ - "Unmatched \\{", /* REG_EBRACE */ - "Invalid content of \\{\\}", /* REG_BADBR */ - "Invalid range end", /* REG_ERANGE */ - "Memory exhausted", /* REG_ESPACE */ - "Invalid preceding regular expression", /* REG_BADRPT */ - "Premature end of regular expression", /* REG_EEND */ - "Regular expression too big", /* REG_ESIZE */ - "Unmatched ) or \\)", /* REG_ERPAREN */ +__const__ char *re_error_msg[] = { + 0, /* REG_NOUT */ + "No match", /* REG_NOMATCH */ + "Invalid regular expression", /* REG_BADPAT */ + "Invalid collation character", /* REG_ECOLLATE */ + "Invalid character class name", /* REG_ECTYPE */ + "Trailing backslash", /* REG_EESCAPE */ + "Invalid back reference", /* REG_ESUBREG */ + "Unmatched [ or [^", /* REG_EBRACK */ + "Unmatched ( or \\(", /* REG_EPAREN */ + "Unmatched \\{", /* REG_EBRACE */ + "Invalid content of \\{\\}", /* REG_BADBR */ + "Invalid range end", /* REG_ERANGE */ + "Memory exhausted", /* REG_ESPACE */ + "Invalid preceding regular expression", /* REG_BADRPT */ + "Premature end of regular expression", /* REG_EEND */ + "Regular expression too big", /* REG_ESIZE */ + "Unmatched ) or \\)", /* REG_ERPAREN */ }; + - /* * Macros used while compiling patterns. * @@ -4186,61 +3980,57 @@ typedef unsigned regnum_t; */ typedef int pattern_offset_t; -typedef struct -{ - struct rexp_node ** top_expression; /* was begalt */ - struct rexp_node ** last_expression; /* was laststart */ - pattern_offset_t inner_group_offset; - regnum_t regnum; +typedef struct { + struct rexp_node **top_expression; /* was begalt */ + struct rexp_node **last_expression; /* was laststart */ + pattern_offset_t inner_group_offset; + regnum_t regnum; } compile_stack_elt_t; -typedef struct -{ - compile_stack_elt_t *stack; - unsigned size; - unsigned avail; /* Offset of next open position. */ +typedef struct { + compile_stack_elt_t *stack; + unsigned size; + unsigned avail; /* Offset of next open position. */ } compile_stack_type; -static boolean - group_in_compile_stack (compile_stack_type, regnum_t); +static boolean group_in_compile_stack(compile_stack_type, regnum_t); static reg_errcode_t - compile_range (struct re_pattern_buffer *, rx_Bitset, - __const__ char **, __const__ char *, - unsigned char *, reg_syntax_t, - rx_Bitset, char *); -static void find_backrefs (char *, struct rexp_node *, - struct re_se_params *); -static int compute_fastset (struct re_pattern_buffer *, - struct rexp_node *); -static int is_anchored (struct rexp_node *, rx_side_effect); +compile_range(struct re_pattern_buffer *, rx_Bitset, + __const__ char **, __const__ char *, + unsigned char *, reg_syntax_t, rx_Bitset, char *); +static void find_backrefs(char *, struct rexp_node *, + + struct re_se_params *); +static int compute_fastset(struct re_pattern_buffer *, struct rexp_node *); +static int is_anchored(struct rexp_node *, rx_side_effect); static struct rexp_node - *remove_unecessary_side_effects - (struct rx *, char *, - struct rexp_node *, - struct re_se_params *); -static int pointless_if_repeated (struct rexp_node *, - struct re_se_params *); -static int registers_on_stack (struct re_pattern_buffer *, - struct rexp_node *, - int, struct re_se_params *); -static int has_any_se (struct rx *, struct rexp_node *); -static int has_non_idempotent_epsilon_path - (struct rx *, struct rexp_node *, - struct re_se_params *); -static int begins_with_complex_se (struct rx *, struct rexp_node *); -static void speed_up_alt (struct rx *, struct rexp_node *, int); +*remove_unecessary_side_effects + + (struct rx *, char *, struct rexp_node *, struct re_se_params *); +static int pointless_if_repeated(struct rexp_node *, + + struct re_se_params *); +static int registers_on_stack(struct re_pattern_buffer *, + struct rexp_node *, + + int, struct re_se_params *); +static int has_any_se(struct rx *, struct rexp_node *); +static int has_non_idempotent_epsilon_path + + (struct rx *, struct rexp_node *, struct re_se_params *); +static int begins_with_complex_se(struct rx *, struct rexp_node *); +static void speed_up_alt(struct rx *, struct rexp_node *, int); RX_DECL reg_errcode_t - rx_compile (__const__ char *, int, reg_syntax_t, - struct re_pattern_buffer *); -RX_DECL void rx_blow_up_fastmap (struct re_pattern_buffer *); + +rx_compile(__const__ char *, int, reg_syntax_t, + struct re_pattern_buffer *); +RX_DECL void rx_blow_up_fastmap(struct re_pattern_buffer *); static __inline__ enum rx_get_burst_return - re_search_2_get_burst (struct rx_string_position *, - void *, int); +re_search_2_get_burst(struct rx_string_position *, void *, int); static __inline__ enum rx_back_check_return - re_search_2_back_check (struct rx_string_position *, int, - int, unsigned char *, void *, int); +re_search_2_back_check(struct rx_string_position *, int, + int, unsigned char *, void *, int); static __inline__ int - re_search_2_fetch_char (struct rx_string_position *, - int, void *, int); +re_search_2_fetch_char(struct rx_string_position *, int, void *, int); #define INIT_COMPILE_STACK_SIZE 32 @@ -4272,9 +4062,9 @@ static __inline__ int PATFETCH (c); \ } \ } \ - } + } -#define CHAR_CLASS_MAX_LENGTH 6 /* Namely, `xdigit'. */ +#define CHAR_CLASS_MAX_LENGTH 6 /* Namely, `xdigit'. */ #define IS_CHAR_CLASS(string) \ (!strcmp (string, "alpha") || !strcmp (string, "upper") \ @@ -4283,8 +4073,8 @@ static __inline__ int || !strcmp (string, "space") || !strcmp (string, "print") \ || !strcmp (string, "punct") || !strcmp (string, "graph") \ || !strcmp (string, "cntrl") || !strcmp (string, "blank")) - + /* These predicates are used in regex_compile. */ /* P points to just after a ^ in PATTERN. Return true if that ^ comes @@ -4294,26 +4084,24 @@ static __inline__ int #ifdef __STDC__ static boolean -at_begline_loc_p (__const__ char *pattern, __const__ char * p, reg_syntax_t syntax) +at_begline_loc_p(__const__ char *pattern, __const__ char *p, + reg_syntax_t syntax) #else -static boolean -at_begline_loc_p (pattern, p, syntax) - __const__ char *pattern; - __const__ char * p; - reg_syntax_t syntax; +static boolean at_begline_loc_p(pattern, p, syntax) +__const__ char *pattern; +__const__ char *p; +reg_syntax_t syntax; #endif { - __const__ char *prev = p - 2; - boolean prev_prev_backslash = ((prev > pattern) && (prev[-1] == '\\')); - - return - - (/* After a subexpression? */ - ((*prev == '(') && ((syntax & RE_NO_BK_PARENS) || prev_prev_backslash)) - || - /* After an alternative? */ - ((*prev == '|') && ((syntax & RE_NO_BK_VBAR) || prev_prev_backslash)) - ); + __const__ char *prev = p - 2; + boolean prev_prev_backslash = ((prev > pattern) && (prev[-1] == '\\')); + + return ( /* After a subexpression? */ + ((*prev == '(') && ((syntax & RE_NO_BK_PARENS) || prev_prev_backslash)) + || + /* After an alternative? */ + ((*prev == '|') && ((syntax & RE_NO_BK_VBAR) || prev_prev_backslash)) + ); } /* The dual of at_begline_loc_p. This one is for $. We assume there is @@ -4322,64 +4110,61 @@ at_begline_loc_p (pattern, p, syntax) #ifdef __STDC__ static boolean -at_endline_loc_p (__const__ char *p, __const__ char *pend, int syntax) -#else -static boolean -at_endline_loc_p (p, pend, syntax) - __const__ char *p; - __const__ char *pend; - int syntax; -#endif -{ - __const__ char *next = p; - boolean next_backslash = (*next == '\\'); - __const__ char *next_next = (p + 1 < pend) ? (p + 1) : 0; - - return - ( - /* Before a subexpression? */ - ((syntax & RE_NO_BK_PARENS) - ? (*next == ')') - : (next_backslash && next_next && (*next_next == ')'))) - || - /* Before an alternative? */ - ((syntax & RE_NO_BK_VBAR) - ? (*next == '|') - : (next_backslash && next_next && (*next_next == '|'))) - ); +at_endline_loc_p(__const__ char *p, __const__ char *pend, int syntax) +#else +static boolean at_endline_loc_p(p, pend, syntax) +__const__ char *p; +__const__ char *pend; +int syntax; +#endif +{ + __const__ char *next = p; + boolean next_backslash = (*next == '\\'); + __const__ char *next_next = (p + 1 < pend) ? (p + 1) : 0; + + return ( + /* Before a subexpression? */ + ((syntax & RE_NO_BK_PARENS) + ? (*next == ')') + : (next_backslash && next_next && (*next_next == ')'))) + || + /* Before an alternative? */ + ((syntax & RE_NO_BK_VBAR) + ? (*next == '|') + : (next_backslash && next_next && (*next_next == '|'))) + ); } -unsigned char rx_id_translation[256] = -{ - 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, - 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, - 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, - 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, - 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, - 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, - 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, - 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, - 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, - 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, - - 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, - 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, - 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, - 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, - 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, - 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, - 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, - 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, - 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, - 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, - - 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, - 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, - 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, - 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, - 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, - 250, 251, 252, 253, 254, 255 +unsigned char rx_id_translation[256] = { + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, + 110, 111, 112, 113, 114, 115, 116, 117, 118, 119, + 120, 121, 122, 123, 124, 125, 126, 127, 128, 129, + 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, + 140, 141, 142, 143, 144, 145, 146, 147, 148, 149, + 150, 151, 152, 153, 154, 155, 156, 157, 158, 159, + 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, + 170, 171, 172, 173, 174, 175, 176, 177, 178, 179, + 180, 181, 182, 183, 184, 185, 186, 187, 188, 189, + 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, + + 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, + 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, + 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, + 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, + 240, 241, 242, 243, 244, 245, 246, 247, 248, 249, + 250, 251, 252, 253, 254, 255 }; /* The compiler keeps an inverted translation table. @@ -4389,38 +4174,38 @@ unsigned char rx_id_translation[256] = #ifdef __STDC__ static rx_Bitset -inverse_translation (struct re_pattern_buffer * rxb, - char * valid, rx_Bitset cache, - unsigned char * translate, int c) +inverse_translation(struct re_pattern_buffer *rxb, + char *valid, rx_Bitset cache, + unsigned char *translate, int c) #else -static rx_Bitset -inverse_translation (rxb, valid, cache, translate, c) - struct re_pattern_buffer * rxb; - char * valid; - rx_Bitset cache; - unsigned char * translate; - int c; -#endif -{ - rx_Bitset cs - = cache + c * rx_bitset_numb_subsets (rxb->rx.local_cset_size); - - if (!valid[c]) - { - int x; - int c_tr = TRANSLATE(c); - rx_bitset_null (rxb->rx.local_cset_size, cs); - for (x = 0; x < 256; ++x) /* &&&& 13.37 */ - if (TRANSLATE(x) == c_tr) - RX_bitset_enjoin (cs, x); - valid[c] = 1; - } - return cs; -} +static rx_Bitset inverse_translation(rxb, valid, cache, translate, c) +struct re_pattern_buffer *rxb; +char *valid; +rx_Bitset cache; +unsigned char *translate; +int c; +#endif +{ + rx_Bitset cs + + = cache + c * rx_bitset_numb_subsets(rxb->rx.local_cset_size); + + if (!valid[c]) { + int x; + int c_tr = TRANSLATE(c); + rx_bitset_null(rxb->rx.local_cset_size, cs); + for (x = 0; x < 256; ++x) /* &&&& 13.37 */ + if (TRANSLATE(x) == c_tr) + RX_bitset_enjoin(cs, x); + valid[c] = 1; + } + return cs; +} + /* More subroutine declarations and macros for regex_compile. */ /* Returns true if REGNUM is in one of COMPILE_STACK's elements and @@ -4428,23 +4213,21 @@ inverse_translation (rxb, valid, cache, translate, c) #ifdef __STDC__ static boolean -group_in_compile_stack (compile_stack_type compile_stack, regnum_t regnum) +group_in_compile_stack(compile_stack_type compile_stack, regnum_t regnum) #else -static boolean -group_in_compile_stack (compile_stack, regnum) - compile_stack_type compile_stack; - regnum_t regnum; +static boolean group_in_compile_stack(compile_stack, regnum) +compile_stack_type compile_stack; +regnum_t regnum; #endif { - int this_element; + int this_element; - for (this_element = compile_stack.avail - 1; - this_element >= 0; - this_element--) - if (compile_stack.stack[this_element].regnum == regnum) - return true; + for (this_element = compile_stack.avail - 1; + this_element >= 0; this_element--) + if (compile_stack.stack[this_element].regnum == regnum) + return true; - return false; + return false; } @@ -4463,48 +4246,51 @@ group_in_compile_stack (compile_stack, regnum) #ifdef __STDC__ static reg_errcode_t -compile_range (struct re_pattern_buffer * rxb, rx_Bitset cs, - __const__ char ** p_ptr, __const__ char * pend, - unsigned char * translate, reg_syntax_t syntax, - rx_Bitset inv_tr, char * valid_inv_tr) +compile_range(struct re_pattern_buffer *rxb, rx_Bitset cs, + __const__ char **p_ptr, __const__ char *pend, + unsigned char *translate, reg_syntax_t syntax, + rx_Bitset inv_tr, char *valid_inv_tr) #else static reg_errcode_t -compile_range (rxb, cs, p_ptr, pend, translate, syntax, inv_tr, valid_inv_tr) - struct re_pattern_buffer * rxb; - rx_Bitset cs; - __const__ char ** p_ptr; - __const__ char * pend; - unsigned char * translate; - reg_syntax_t syntax; - rx_Bitset inv_tr; - char * valid_inv_tr; +compile_range(rxb, cs, p_ptr, pend, translate, syntax, inv_tr, + valid_inv_tr) +struct re_pattern_buffer *rxb; +rx_Bitset cs; +__const__ char **p_ptr; +__const__ char *pend; +unsigned char *translate; +reg_syntax_t syntax; +rx_Bitset inv_tr; +char *valid_inv_tr; #endif { - unsigned this_char; + unsigned this_char; - __const__ char *p = *p_ptr; + __const__ char *p = *p_ptr; - unsigned char range_end; - unsigned char range_start = TRANSLATE(p[-2]); + unsigned char range_end; + unsigned char range_start = TRANSLATE(p[-2]); - if (p == pend) - return REG_ERANGE; + if (p == pend) + return REG_ERANGE; - PATFETCH (range_end); + PATFETCH(range_end); - (*p_ptr)++; + (*p_ptr)++; - if (range_start > range_end) - return syntax & RE_NO_EMPTY_RANGES ? REG_ERANGE : REG_NOERROR; + if (range_start > range_end) + return syntax & RE_NO_EMPTY_RANGES ? REG_ERANGE : REG_NOERROR; - for (this_char = range_start; this_char <= range_end; this_char++) - { - rx_Bitset it = - inverse_translation (rxb, valid_inv_tr, inv_tr, translate, this_char); - rx_bitset_union (rxb->rx.local_cset_size, cs, it); - } - - return REG_NOERROR; + for (this_char = range_start; this_char <= range_end; this_char++) { + rx_Bitset it = + inverse_translation(rxb, valid_inv_tr, inv_tr, translate, + + this_char); + + rx_bitset_union(rxb->rx.local_cset_size, cs, it); + } + + return REG_NOERROR; } @@ -4519,84 +4305,81 @@ compile_range (rxb, cs, p_ptr, pend, translate, syntax, inv_tr, valid_inv_tr) #ifdef __STDC__ static void -find_backrefs (char * out, struct rexp_node * rexp, - struct re_se_params * params) -#else -static void -find_backrefs (out, rexp, params) - char * out; - struct rexp_node * rexp; - struct re_se_params * params; -#endif -{ - if (rexp) - switch (rexp->type) - { - case r_cset: - case r_data: - return; - case r_alternate: - case r_concat: - case r_opt: - case r_star: - case r_2phase_star: - find_backrefs (out, rexp->params.pair.left, params); - find_backrefs (out, rexp->params.pair.right, params); - return; - case r_side_effect: - if ( ((long)rexp->params.side_effect >= 0) - && (params [(long)rexp->params.side_effect].se == re_se_backref)) - out[ params [(long)rexp->params.side_effect].op1] = 1; - return; - } +find_backrefs(char *out, struct rexp_node *rexp, + struct re_se_params *params) +#else +static void find_backrefs(out, rexp, params) +char *out; +struct rexp_node *rexp; +struct re_se_params *params; +#endif +{ + if (rexp) + switch (rexp->type) { + case r_cset: + case r_data: + return; + case r_alternate: + case r_concat: + case r_opt: + case r_star: + case r_2phase_star: + find_backrefs(out, rexp->params.pair.left, params); + find_backrefs(out, rexp->params.pair.right, params); + return; + case r_side_effect: + if (((long) rexp->params.side_effect >= 0) + && (params[(long) rexp->params.side_effect].se == + re_se_backref)) + out[params[(long) rexp->params.side_effect].op1] = 1; + return; + } } - + /* Returns 0 unless the pattern can match the empty string. */ #ifdef __STDC__ static int -compute_fastset (struct re_pattern_buffer * rxb, struct rexp_node * rexp) +compute_fastset(struct re_pattern_buffer *rxb, struct rexp_node *rexp) #else -static int -compute_fastset (rxb, rexp) - struct re_pattern_buffer * rxb; - struct rexp_node * rexp; -#endif -{ - if (!rexp) - return 1; - switch (rexp->type) - { - case r_data: - return 1; - case r_cset: - { - rx_bitset_union (rxb->rx.local_cset_size, - rxb->fastset, rexp->params.cset); - } - return 0; - case r_concat: - return (compute_fastset (rxb, rexp->params.pair.left) - && compute_fastset (rxb, rexp->params.pair.right)); - case r_2phase_star: - compute_fastset (rxb, rexp->params.pair.left); - /* compute_fastset (rxb, rexp->params.pair.right); nope... */ - return 1; - case r_alternate: - return !!(compute_fastset (rxb, rexp->params.pair.left) - + compute_fastset (rxb, rexp->params.pair.right)); - case r_opt: - case r_star: - compute_fastset (rxb, rexp->params.pair.left); - return 1; - case r_side_effect: - return 1; - } +static int compute_fastset(rxb, rexp) +struct re_pattern_buffer *rxb; +struct rexp_node *rexp; +#endif +{ + if (!rexp) + return 1; + switch (rexp->type) { + case r_data: + return 1; + case r_cset: + { + rx_bitset_union(rxb->rx.local_cset_size, + rxb->fastset, rexp->params.cset); + } + return 0; + case r_concat: + return (compute_fastset(rxb, rexp->params.pair.left) + && compute_fastset(rxb, rexp->params.pair.right)); + case r_2phase_star: + compute_fastset(rxb, rexp->params.pair.left); + /* compute_fastset (rxb, rexp->params.pair.right); nope... */ + return 1; + case r_alternate: + return !!(compute_fastset(rxb, rexp->params.pair.left) + + compute_fastset(rxb, rexp->params.pair.right)); + case r_opt: + case r_star: + compute_fastset(rxb, rexp->params.pair.left); + return 1; + case r_side_effect: + return 1; + } - /* this should never happen */ - return 0; + /* this should never happen */ + return 0; } @@ -4608,54 +4391,52 @@ compute_fastset (rxb, rexp) */ #ifdef __STDC__ -static int -is_anchored (struct rexp_node * rexp, rx_side_effect se) +static int is_anchored(struct rexp_node *rexp, rx_side_effect se) #else -static int -is_anchored (rexp, se) - struct rexp_node * rexp; - rx_side_effect se; -#endif -{ - if (!rexp) - return 2; - switch (rexp->type) - { - case r_cset: - case r_data: - return 0; - case r_concat: - case r_2phase_star: - { - int l = is_anchored (rexp->params.pair.left, se); - return (l == 2 ? is_anchored (rexp->params.pair.right, se) : l); - } - case r_alternate: - { - int l = is_anchored (rexp->params.pair.left, se); - int r = l ? is_anchored (rexp->params.pair.right, se) : 0; - - if (l == r) - return l; - else if ((l == 0) || (r == 0)) - return 0; - else - return 2; - } - case r_opt: - case r_star: - return is_anchored (rexp->params.pair.left, se) ? 2 : 0; - - case r_side_effect: - return ((rexp->params.side_effect == se) - ? 1 : 2); - } +static int is_anchored(rexp, se) +struct rexp_node *rexp; +rx_side_effect se; +#endif +{ + if (!rexp) + return 2; + switch (rexp->type) { + case r_cset: + case r_data: + return 0; + case r_concat: + case r_2phase_star: + { + int l = is_anchored(rexp->params.pair.left, se); - /* this should never happen */ - return 0; -} + return (l == 2 ? is_anchored(rexp->params.pair.right, se) : l); + } + case r_alternate: + { + int l = is_anchored(rexp->params.pair.left, se); + int r = l ? is_anchored(rexp->params.pair.right, se) : 0; + if (l == r) + return l; + else if ((l == 0) || (r == 0)) + return 0; + else + return 2; + } + case r_opt: + case r_star: + return is_anchored(rexp->params.pair.left, se) ? 2 : 0; + + case r_side_effect: + return ((rexp->params.side_effect == se) + ? 1 : 2); + } + + /* this should never happen */ + return 0; +} + /* This removes register assignments that aren't required by backreferencing. * This can speed up explore_future, especially if it eliminates * non-determinism in the superstate NFA. @@ -4666,374 +4447,367 @@ is_anchored (rexp, se) */ #ifdef __STDC__ -static struct rexp_node * -remove_unecessary_side_effects (struct rx * rx, char * needed, - struct rexp_node * rexp, - struct re_se_params * params) -#else -static struct rexp_node * -remove_unecessary_side_effects (rx, needed, rexp, params) - struct rx * rx; - char * needed; - struct rexp_node * rexp; - struct re_se_params * params; -#endif -{ - struct rexp_node * l; - struct rexp_node * r; - if (!rexp) - return 0; - else - switch (rexp->type) - { - case r_cset: - case r_data: - return rexp; - case r_alternate: - case r_concat: - case r_2phase_star: - l = remove_unecessary_side_effects (rx, needed, - rexp->params.pair.left, params); - r = remove_unecessary_side_effects (rx, needed, - rexp->params.pair.right, params); - if ((l && r) || (rexp->type != r_concat)) - { - rexp->params.pair.left = l; - rexp->params.pair.right = r; - return rexp; - } - else - { - rexp->params.pair.left = rexp->params.pair.right = 0; - rx_free_rexp (rx, rexp); - return l ? l : r; - } - case r_opt: - case r_star: - l = remove_unecessary_side_effects (rx, needed, - rexp->params.pair.left, params); - if (l) - { - rexp->params.pair.left = l; - return rexp; - } +static struct rexp_node *remove_unecessary_side_effects(struct rx *rx, + char *needed, + struct rexp_node + *rexp, + struct re_se_params + *params) +#else +static struct rexp_node *remove_unecessary_side_effects(rx, needed, rexp, + params) +struct rx *rx; +char *needed; +struct rexp_node *rexp; +struct re_se_params *params; +#endif +{ + struct rexp_node *l; + struct rexp_node *r; + + if (!rexp) + return 0; else - { - rexp->params.pair.left = 0; - rx_free_rexp (rx, rexp); - return 0; - } - case r_side_effect: - { - int se = (long)rexp->params.side_effect; - if ( (se >= 0) - && ( ((enum re_side_effects)params[se].se == re_se_lparen) - || ((enum re_side_effects)params[se].se == re_se_rparen)) - && (params [se].op1 > 0) - && (!needed [params [se].op1])) - { - rx_free_rexp (rx, rexp); - return 0; - } - else - return rexp; - } - } + switch (rexp->type) { + case r_cset: + case r_data: + return rexp; + case r_alternate: + case r_concat: + case r_2phase_star: + l = remove_unecessary_side_effects(rx, needed, + rexp->params.pair.left, + params); + r = + remove_unecessary_side_effects(rx, needed, + rexp->params.pair.right, + params); + if ((l && r) || (rexp->type != r_concat)) { + rexp->params.pair.left = l; + rexp->params.pair.right = r; + return rexp; + } else { + rexp->params.pair.left = rexp->params.pair.right = 0; + rx_free_rexp(rx, rexp); + return l ? l : r; + } + case r_opt: + case r_star: + l = remove_unecessary_side_effects(rx, needed, + rexp->params.pair.left, + params); + if (l) { + rexp->params.pair.left = l; + return rexp; + } else { + rexp->params.pair.left = 0; + rx_free_rexp(rx, rexp); + return 0; + } + case r_side_effect: + { + int se = (long) rexp->params.side_effect; + + if ((se >= 0) + && (((enum re_side_effects) params[se].se == re_se_lparen) + || ((enum re_side_effects) params[se].se == + re_se_rparen)) && (params[se].op1 > 0) + && (!needed[params[se].op1])) { + rx_free_rexp(rx, rexp); + return 0; + } else + return rexp; + } + } - /* this should never happen */ - return 0; + /* this should never happen */ + return 0; } - + #ifdef __STDC__ static int -pointless_if_repeated (struct rexp_node * node, struct re_se_params * params) +pointless_if_repeated(struct rexp_node *node, struct re_se_params *params) #else -static int -pointless_if_repeated (node, params) - struct rexp_node * node; - struct re_se_params * params; -#endif -{ - if (!node) - return 1; - switch (node->type) - { - case r_cset: - return 0; - case r_alternate: - case r_concat: - case r_2phase_star: - return (pointless_if_repeated (node->params.pair.left, params) - && pointless_if_repeated (node->params.pair.right, params)); - case r_opt: - case r_star: - return pointless_if_repeated (node->params.pair.left, params); - case r_side_effect: - switch (((long)node->params.side_effect < 0) - ? (enum re_side_effects)node->params.side_effect - : (enum re_side_effects)params[(long)node->params.side_effect].se) - { - case re_se_try: - case re_se_at_dot: - case re_se_begbuf: - case re_se_hat: - case re_se_wordbeg: - case re_se_wordbound: - case re_se_notwordbound: - case re_se_wordend: - case re_se_endbuf: - case re_se_dollar: - case re_se_fail: - case re_se_win: - return 1; - case re_se_lparen: - case re_se_rparen: - case re_se_iter: - case re_se_end_iter: - case re_se_syntax: - case re_se_not_syntax: - case re_se_backref: - return 0; +static int pointless_if_repeated(node, params) +struct rexp_node *node; +struct re_se_params *params; +#endif +{ + if (!node) + return 1; + switch (node->type) { + case r_cset: + return 0; + case r_alternate: + case r_concat: + case r_2phase_star: + return (pointless_if_repeated(node->params.pair.left, params) + && pointless_if_repeated(node->params.pair.right, params)); + case r_opt: + case r_star: + return pointless_if_repeated(node->params.pair.left, params); + case r_side_effect: + switch (((long) node->params.side_effect < 0) + ? (enum re_side_effects) node->params.side_effect + : (enum re_side_effects) params[(long) node-> + params.side_effect].se) { + case re_se_try: + case re_se_at_dot: + case re_se_begbuf: + case re_se_hat: + case re_se_wordbeg: + case re_se_wordbound: + case re_se_notwordbound: + case re_se_wordend: + case re_se_endbuf: + case re_se_dollar: + case re_se_fail: + case re_se_win: + return 1; + case re_se_lparen: + case re_se_rparen: + case re_se_iter: + case re_se_end_iter: + case re_se_syntax: + case re_se_not_syntax: + case re_se_backref: + return 0; + } + case r_data: + default: + return 0; } - case r_data: - default: - return 0; - } } - + #ifdef __STDC__ static int -registers_on_stack (struct re_pattern_buffer * rxb, - struct rexp_node * rexp, int in_danger, - struct re_se_params * params) +registers_on_stack(struct re_pattern_buffer *rxb, + struct rexp_node *rexp, int in_danger, + struct re_se_params *params) #else -static int -registers_on_stack (rxb, rexp, in_danger, params) - struct re_pattern_buffer * rxb; - struct rexp_node * rexp; - int in_danger; - struct re_se_params * params; -#endif -{ - if (!rexp) - return 0; - else - switch (rexp->type) - { - case r_cset: - case r_data: - return 0; - case r_alternate: - case r_concat: - return ( registers_on_stack (rxb, rexp->params.pair.left, - in_danger, params) - || (registers_on_stack - (rxb, rexp->params.pair.right, - in_danger, params))); - case r_opt: - return registers_on_stack (rxb, rexp->params.pair.left, 0, params); - case r_star: - return registers_on_stack (rxb, rexp->params.pair.left, 1, params); - case r_2phase_star: - return - ( registers_on_stack (rxb, rexp->params.pair.left, 1, params) - || registers_on_stack (rxb, rexp->params.pair.right, 1, params)); - case r_side_effect: - { - int se = (long)rexp->params.side_effect; - if ( in_danger - && (se >= 0) - && (params [se].op1 > 0) - && ( ((enum re_side_effects)params[se].se == re_se_lparen) - || ((enum re_side_effects)params[se].se == re_se_rparen))) - return 1; - else - return 0; - } - } +static int registers_on_stack(rxb, rexp, in_danger, params) +struct re_pattern_buffer *rxb; +struct rexp_node *rexp; +int in_danger; +struct re_se_params *params; +#endif +{ + if (!rexp) + return 0; + else + switch (rexp->type) { + case r_cset: + case r_data: + return 0; + case r_alternate: + case r_concat: + return (registers_on_stack(rxb, rexp->params.pair.left, + in_danger, params) + || (registers_on_stack + (rxb, rexp->params.pair.right, + in_danger, params))); + case r_opt: + return registers_on_stack(rxb, rexp->params.pair.left, 0, + params); + case r_star: + return registers_on_stack(rxb, rexp->params.pair.left, 1, + params); + case r_2phase_star: + return + (registers_on_stack(rxb, rexp->params.pair.left, 1, params) + || registers_on_stack(rxb, rexp->params.pair.right, 1, + params)); + case r_side_effect: + { + int se = (long) rexp->params.side_effect; + + if (in_danger && (se >= 0) + && (params[se].op1 > 0) + && (((enum re_side_effects) params[se].se == re_se_lparen) + || ((enum re_side_effects) params[se].se == + re_se_rparen))) return 1; + else + return 0; + } + } - /* this should never happen */ - return 0; + /* this should never happen */ + return 0; } - -static char idempotent_complex_se[] = -{ + +static char idempotent_complex_se[] = { #define RX_WANT_SE_DEFS 1 #undef RX_DEF_SE #undef RX_DEF_CPLX_SE -#define RX_DEF_SE(IDEM, NAME, VALUE) +#define RX_DEF_SE(IDEM, NAME, VALUE) #define RX_DEF_CPLX_SE(IDEM, NAME, VALUE) IDEM, #include #undef RX_DEF_SE #undef RX_DEF_CPLX_SE #undef RX_WANT_SE_DEFS - 23 + 23 }; -static char idempotent_se[] = -{ - 13, +static char idempotent_se[] = { + 13, #define RX_WANT_SE_DEFS 1 #undef RX_DEF_SE #undef RX_DEF_CPLX_SE #define RX_DEF_SE(IDEM, NAME, VALUE) IDEM, -#define RX_DEF_CPLX_SE(IDEM, NAME, VALUE) +#define RX_DEF_CPLX_SE(IDEM, NAME, VALUE) #include #undef RX_DEF_SE #undef RX_DEF_CPLX_SE #undef RX_WANT_SE_DEFS - 42 + 42 }; - + #ifdef __STDC__ -static int -has_any_se (struct rx * rx, - struct rexp_node * rexp) +static int has_any_se(struct rx *rx, struct rexp_node *rexp) #else -static int -has_any_se (rx, rexp) - struct rx * rx; - struct rexp_node * rexp; -#endif -{ - if (!rexp) - return 0; - - switch (rexp->type) - { - case r_cset: - case r_data: - return 0; - - case r_side_effect: - return 1; - - case r_2phase_star: - case r_concat: - case r_alternate: - return - ( has_any_se (rx, rexp->params.pair.left) - || has_any_se (rx, rexp->params.pair.right)); - - case r_opt: - case r_star: - return has_any_se (rx, rexp->params.pair.left); - } +static int has_any_se(rx, rexp) +struct rx *rx; +struct rexp_node *rexp; +#endif +{ + if (!rexp) + return 0; - /* this should never happen */ - return 0; -} + switch (rexp->type) { + case r_cset: + case r_data: + return 0; + + case r_side_effect: + return 1; + + case r_2phase_star: + case r_concat: + case r_alternate: + return (has_any_se(rx, rexp->params.pair.left) + || has_any_se(rx, rexp->params.pair.right)); + + case r_opt: + case r_star: + return has_any_se(rx, rexp->params.pair.left); + } + /* this should never happen */ + return 0; +} + /* This must be called AFTER `convert_hard_loops' for a given REXP. */ #ifdef __STDC__ static int -has_non_idempotent_epsilon_path (struct rx * rx, - struct rexp_node * rexp, - struct re_se_params * params) +has_non_idempotent_epsilon_path(struct rx *rx, + struct rexp_node *rexp, + struct re_se_params *params) #else -static int -has_non_idempotent_epsilon_path (rx, rexp, params) - struct rx * rx; - struct rexp_node * rexp; - struct re_se_params * params; -#endif -{ - if (!rexp) - return 0; - - switch (rexp->type) - { - case r_cset: - case r_data: - case r_star: - return 0; - - case r_side_effect: - return - !((long)rexp->params.side_effect > 0 - ? idempotent_complex_se [ params [(long)rexp->params.side_effect].se ] - : idempotent_se [-(long)rexp->params.side_effect]); - - case r_alternate: - return - ( has_non_idempotent_epsilon_path (rx, - rexp->params.pair.left, params) - || has_non_idempotent_epsilon_path (rx, - rexp->params.pair.right, params)); - - case r_2phase_star: - case r_concat: - return - ( has_non_idempotent_epsilon_path (rx, - rexp->params.pair.left, params) - && has_non_idempotent_epsilon_path (rx, - rexp->params.pair.right, params)); - - case r_opt: - return has_non_idempotent_epsilon_path (rx, - rexp->params.pair.left, params); - } +static int has_non_idempotent_epsilon_path(rx, rexp, params) +struct rx *rx; +struct rexp_node *rexp; +struct re_se_params *params; +#endif +{ + if (!rexp) + return 0; - /* this should never happen */ - return 0; -} + switch (rexp->type) { + case r_cset: + case r_data: + case r_star: + return 0; + + case r_side_effect: + return + !((long) rexp->params.side_effect > 0 + ? + idempotent_complex_se[params + [(long) rexp->params. + side_effect].se] : + idempotent_se[-(long) rexp->params.side_effect]); + + case r_alternate: + return + (has_non_idempotent_epsilon_path(rx, + rexp->params.pair.left, + params) + || has_non_idempotent_epsilon_path(rx, + rexp->params.pair.right, + params)); + case r_2phase_star: + case r_concat: + return + (has_non_idempotent_epsilon_path(rx, + rexp->params.pair.left, + params) + && has_non_idempotent_epsilon_path(rx, + rexp->params.pair.right, + params)); + + case r_opt: + return has_non_idempotent_epsilon_path(rx, + rexp->params.pair.left, + params); + } + + /* this should never happen */ + return 0; +} + /* This computes rougly what it's name suggests. It can (and does) go wrong * in the direction of returning spurious 0 without causing disasters. */ #ifdef __STDC__ -static int -begins_with_complex_se (struct rx * rx, struct rexp_node * rexp) +static int begins_with_complex_se(struct rx *rx, struct rexp_node *rexp) #else -static int -begins_with_complex_se (rx, rexp) - struct rx * rx; - struct rexp_node * rexp; -#endif -{ - if (!rexp) - return 0; - - switch (rexp->type) - { - case r_cset: - case r_data: - return 0; - - case r_side_effect: - return ((long)rexp->params.side_effect >= 0); - - case r_alternate: - return - ( begins_with_complex_se (rx, rexp->params.pair.left) - && begins_with_complex_se (rx, rexp->params.pair.right)); - - - case r_concat: - return has_any_se (rx, rexp->params.pair.left); - case r_opt: - case r_star: - case r_2phase_star: - return 0; - } +static int begins_with_complex_se(rx, rexp) +struct rx *rx; +struct rexp_node *rexp; +#endif +{ + if (!rexp) + return 0; + + switch (rexp->type) { + case r_cset: + case r_data: + return 0; + + case r_side_effect: + return ((long) rexp->params.side_effect >= 0); + + case r_alternate: + return (begins_with_complex_se(rx, rexp->params.pair.left) + && begins_with_complex_se(rx, rexp->params.pair.right)); - /* this should never happen */ - return 0; -} + case r_concat: + return has_any_se(rx, rexp->params.pair.left); + case r_opt: + case r_star: + case r_2phase_star: + return 0; + } + + /* this should never happen */ + return 0; +} + /* This destructively removes some of the re_se_tv side effects from * a rexp tree. In particular, during parsing re_se_tv was inserted on the * right half of every | to guarantee that posix path preference could be @@ -5043,60 +4817,57 @@ begins_with_complex_se (rx, rexp) #ifdef __STDC__ static void -speed_up_alt (struct rx * rx, - struct rexp_node * rexp, - int unposix) +speed_up_alt(struct rx *rx, struct rexp_node *rexp, int unposix) #else -static void -speed_up_alt (rx, rexp, unposix) - struct rx * rx; - struct rexp_node * rexp; - int unposix; -#endif -{ - if (!rexp) - return; - - switch (rexp->type) - { - case r_cset: - case r_data: - case r_side_effect: - return; - - case r_opt: - case r_star: - speed_up_alt (rx, rexp->params.pair.left, unposix); - return; - - case r_2phase_star: - case r_concat: - speed_up_alt (rx, rexp->params.pair.left, unposix); - speed_up_alt (rx, rexp->params.pair.right, unposix); - return; - - case r_alternate: - /* the right child is guaranteed to be (concat re_se_tv ) */ - - speed_up_alt (rx, rexp->params.pair.left, unposix); - speed_up_alt (rx, rexp->params.pair.right->params.pair.right, unposix); - - if ( unposix - || (begins_with_complex_se - (rx, rexp->params.pair.right->params.pair.right)) - || !( has_any_se (rx, rexp->params.pair.right->params.pair.right) - || has_any_se (rx, rexp->params.pair.left))) - { - struct rexp_node * conc = rexp->params.pair.right; - rexp->params.pair.right = conc->params.pair.right; - conc->params.pair.right = 0; - rx_free_rexp (rx, conc); +static void speed_up_alt(rx, rexp, unposix) +struct rx *rx; +struct rexp_node *rexp; +int unposix; +#endif +{ + if (!rexp) + return; + + switch (rexp->type) { + case r_cset: + case r_data: + case r_side_effect: + return; + + case r_opt: + case r_star: + speed_up_alt(rx, rexp->params.pair.left, unposix); + return; + + case r_2phase_star: + case r_concat: + speed_up_alt(rx, rexp->params.pair.left, unposix); + speed_up_alt(rx, rexp->params.pair.right, unposix); + return; + + case r_alternate: + /* the right child is guaranteed to be (concat re_se_tv ) */ + + speed_up_alt(rx, rexp->params.pair.left, unposix); + speed_up_alt(rx, rexp->params.pair.right->params.pair.right, + unposix); + + if (unposix + || (begins_with_complex_se + (rx, rexp->params.pair.right->params.pair.right)) + || !(has_any_se(rx, rexp->params.pair.right->params.pair.right) + || has_any_se(rx, rexp->params.pair.left))) { + struct rexp_node *conc = rexp->params.pair.right; + + rexp->params.pair.right = conc->params.pair.right; + conc->params.pair.right = 0; + rx_free_rexp(rx, conc); + } } - } } + - /* `regex_compile' compiles PATTERN (of length SIZE) according to SYNTAX. @@ -5120,1749 +4891,1756 @@ speed_up_alt (rx, rexp, unposix) #ifdef __STDC__ RX_DECL reg_errcode_t -rx_compile (__const__ char *pattern, int size, - reg_syntax_t syntax, - struct re_pattern_buffer * rxb) +rx_compile(__const__ char *pattern, int size, + reg_syntax_t syntax, struct re_pattern_buffer *rxb) #else -RX_DECL reg_errcode_t -rx_compile (pattern, size, syntax, rxb) - __const__ char *pattern; - int size; - reg_syntax_t syntax; - struct re_pattern_buffer * rxb; -#endif -{ - RX_subset - inverse_translate [CHAR_SET_SIZE * rx_bitset_numb_subsets(CHAR_SET_SIZE)]; - char - validate_inv_tr [CHAR_SET_SIZE * rx_bitset_numb_subsets(CHAR_SET_SIZE)]; - - /* We fetch characters from PATTERN here. Even though PATTERN is - `char *' (i.e., signed), we declare these variables as unsigned, so - they can be reliably used as array indices. */ - register unsigned char c, c1; - - /* A random tempory spot in PATTERN. */ - __const__ char *p1; - - /* Keeps track of unclosed groups. */ - compile_stack_type compile_stack; - - /* Points to the current (ending) position in the pattern. */ - __const__ char *p = pattern; - __const__ char *pend = pattern + size; - - /* How to translate the characters in the pattern. */ - unsigned char *translate = (rxb->translate - ? rxb->translate - : rx_id_translation); - - /* When parsing is done, this will hold the expression tree. */ - struct rexp_node * rexp = 0; - - /* In the midst of compilation, this holds onto the regexp - * first parst while rexp goes on to aquire additional constructs. - */ - struct rexp_node * orig_rexp = 0; - struct rexp_node * fewer_side_effects = 0; - - /* This and top_expression are saved on the compile stack. */ - struct rexp_node ** top_expression = &rexp; - struct rexp_node ** last_expression = top_expression; - - /* Parameter to `goto append_node' */ - struct rexp_node * append; - - /* Counts open-groups as they are encountered. This is the index of the - * innermost group being compiled. - */ - regnum_t regnum = 0; - - /* Place in the uncompiled pattern (i.e., the {) to - * which to go back if the interval is invalid. - */ - __const__ char *beg_interval; - - struct re_se_params * params = 0; - int paramc = 0; /* How many complex side effects so far? */ - - rx_side_effect side; /* param to `goto add_side_effect' */ - - bzero (validate_inv_tr, sizeof (validate_inv_tr)); - - rxb->rx.instruction_table = rx_id_instruction_table; - - - /* Initialize the compile stack. */ - compile_stack.stack = (( compile_stack_elt_t *) malloc ((INIT_COMPILE_STACK_SIZE) * sizeof ( compile_stack_elt_t))); - if (compile_stack.stack == 0) - return REG_ESPACE; - - compile_stack.size = INIT_COMPILE_STACK_SIZE; - compile_stack.avail = 0; - - /* Initialize the pattern buffer. */ - rxb->rx.cache = &default_cache; - rxb->syntax = syntax; - rxb->fastmap_accurate = 0; - rxb->not_bol = rxb->not_eol = 0; - rxb->least_subs = 0; - - /* Always count groups, whether or not rxb->no_sub is set. - * The whole pattern is implicitly group 0, so counting begins - * with 1. - */ - rxb->re_nsub = 0; +RX_DECL reg_errcode_t rx_compile(pattern, size, syntax, rxb) +__const__ char *pattern; +int size; +reg_syntax_t syntax; +struct re_pattern_buffer *rxb; +#endif +{ + RX_subset + inverse_translate[CHAR_SET_SIZE * + rx_bitset_numb_subsets(CHAR_SET_SIZE)]; + char validate_inv_tr[CHAR_SET_SIZE * + + rx_bitset_numb_subsets(CHAR_SET_SIZE)]; + + /* We fetch characters from PATTERN here. Even though PATTERN is + `char *' (i.e., signed), we declare these variables as unsigned, so + they can be reliably used as array indices. */ + register unsigned char c, c1; + + /* A random tempory spot in PATTERN. */ + __const__ char *p1; + + /* Keeps track of unclosed groups. */ + compile_stack_type compile_stack; + + /* Points to the current (ending) position in the pattern. */ + __const__ char *p = pattern; + __const__ char *pend = pattern + size; + + /* How to translate the characters in the pattern. */ + unsigned char *translate = (rxb->translate + + ? rxb->translate : rx_id_translation); + + /* When parsing is done, this will hold the expression tree. */ + struct rexp_node *rexp = 0; + + /* In the midst of compilation, this holds onto the regexp + * first parst while rexp goes on to aquire additional constructs. + */ + struct rexp_node *orig_rexp = 0; + struct rexp_node *fewer_side_effects = 0; + + /* This and top_expression are saved on the compile stack. */ + struct rexp_node **top_expression = &rexp; + struct rexp_node **last_expression = top_expression; + + /* Parameter to `goto append_node' */ + struct rexp_node *append; + + /* Counts open-groups as they are encountered. This is the index of the + * innermost group being compiled. + */ + regnum_t regnum = 0; + + /* Place in the uncompiled pattern (i.e., the {) to + * which to go back if the interval is invalid. + */ + __const__ char *beg_interval; + + struct re_se_params *params = 0; + int paramc = 0; /* How many complex side effects so far? */ + + rx_side_effect side; /* param to `goto add_side_effect' */ + + bzero(validate_inv_tr, sizeof(validate_inv_tr)); + + rxb->rx.instruction_table = rx_id_instruction_table; + + + /* Initialize the compile stack. */ + compile_stack.stack = ((compile_stack_elt_t *) + malloc((INIT_COMPILE_STACK_SIZE) * + sizeof(compile_stack_elt_t))); + if (compile_stack.stack == 0) + return REG_ESPACE; + + compile_stack.size = INIT_COMPILE_STACK_SIZE; + compile_stack.avail = 0; + + /* Initialize the pattern buffer. */ + rxb->rx.cache = &default_cache; + rxb->syntax = syntax; + rxb->fastmap_accurate = 0; + rxb->not_bol = rxb->not_eol = 0; + rxb->least_subs = 0; + + /* Always count groups, whether or not rxb->no_sub is set. + * The whole pattern is implicitly group 0, so counting begins + * with 1. + */ + rxb->re_nsub = 0; #if !defined (emacs) && !defined (SYNTAX_TABLE) - /* Initialize the syntax table. */ - init_syntax_once (); -#endif - - /* Loop through the uncompiled pattern until we're at the end. */ - while (p != pend) - { - PATFETCH (c); - - switch (c) - { - case '^': - { - if ( /* If at start of pattern, it's an operator. */ - p == pattern + 1 - /* If context independent, it's an operator. */ - || syntax & RE_CONTEXT_INDEP_ANCHORS - /* Otherwise, depends on what's come before. */ - || at_begline_loc_p (pattern, p, syntax)) - { - struct rexp_node * n - = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)re_se_hat); - if (!n) - return REG_ESPACE; - append = n; - goto append_node; - } - else - goto normal_char; - } - break; - - - case '$': - { - if ( /* If at end of pattern, it's an operator. */ - p == pend - /* If context independent, it's an operator. */ - || syntax & RE_CONTEXT_INDEP_ANCHORS - /* Otherwise, depends on what's next. */ - || at_endline_loc_p (p, pend, syntax)) - { - struct rexp_node * n - = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)re_se_dollar); - if (!n) - return REG_ESPACE; - append = n; - goto append_node; - } - else - goto normal_char; - } - break; - - - case '+': - case '?': - if ((syntax & RE_BK_PLUS_QM) - || (syntax & RE_LIMITED_OPS)) - goto normal_char; - - handle_plus: - case '*': - /* If there is no previous pattern... */ - if (pointless_if_repeated (*last_expression, params)) - { - if (syntax & RE_CONTEXT_INVALID_OPS) - return REG_BADRPT; - else if (!(syntax & RE_CONTEXT_INDEP_OPS)) - goto normal_char; - } - - { - /* 1 means zero (many) matches is allowed. */ - char zero_times_ok = 0, many_times_ok = 0; - - /* If there is a sequence of repetition chars, collapse it - down to just one (the right one). We can't combine - interval operators with these because of, e.g., `a{2}*', - which should only match an even number of `a's. */ - - for (;;) - { - zero_times_ok |= c != '+'; - many_times_ok |= c != '?'; - - if (p == pend) - break; - - PATFETCH (c); - - if (c == '*' - || (!(syntax & RE_BK_PLUS_QM) && (c == '+' || c == '?'))) - ; - - else if (syntax & RE_BK_PLUS_QM && c == '\\') - { - if (p == pend) return REG_EESCAPE; - - PATFETCH (c1); - if (!(c1 == '+' || c1 == '?')) - { - PATUNFETCH; - PATUNFETCH; - break; - } - - c = c1; - } - else - { - PATUNFETCH; - break; - } - - /* If we get here, we found another repeat character. */ - } - - /* Star, etc. applied to an empty pattern is equivalent - to an empty pattern. */ - if (!last_expression) - break; - - /* Now we know whether or not zero matches is allowed - * and also whether or not two or more matches is allowed. - */ - - { - struct rexp_node * inner_exp = *last_expression; - int need_sync = 0; - - if (many_times_ok - && has_non_idempotent_epsilon_path (&rxb->rx, - inner_exp, params)) - { - struct rexp_node * pusher - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_pushpos); - struct rexp_node * checker - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_chkpos); - struct rexp_node * pushback - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_pushback); - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * lit_t; - struct rexp_node * fake_state; - struct rexp_node * phase2; - struct rexp_node * popper; - struct rexp_node * star; - struct rexp_node * a; - struct rexp_node * whole_thing; - - if (! cs) - return REG_ESPACE; - lit_t = rx_mk_r_cset (&rxb->rx, cs); - fake_state = rx_mk_r_concat (&rxb->rx, pushback, lit_t); - phase2 = rx_mk_r_concat (&rxb->rx, checker, fake_state); - popper = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_poppos); - star = rx_mk_r_2phase_star (&rxb->rx, inner_exp, phase2); - a = rx_mk_r_concat (&rxb->rx, pusher, star); - whole_thing = rx_mk_r_concat (&rxb->rx, a, popper); - - if (!(pusher && star && pushback && lit_t && fake_state - && lit_t && phase2 && checker && popper - && a && whole_thing)) - return REG_ESPACE; - RX_bitset_enjoin (cs, 't'); - *last_expression = whole_thing; - } - else - { - struct rexp_node * star = - (many_times_ok ? rx_mk_r_star : rx_mk_r_opt) - (&rxb->rx, *last_expression); - if (!star) - return REG_ESPACE; - *last_expression = star; - need_sync = has_any_se (&rxb->rx, *last_expression); - } - if (!zero_times_ok) + /* Initialize the syntax table. */ + init_syntax_once(); +#endif + + /* Loop through the uncompiled pattern until we're at the end. */ + while (p != pend) { + PATFETCH(c); + + switch (c) { + case '^': { - struct rexp_node * concat - = rx_mk_r_concat (&rxb->rx, inner_exp, - rx_copy_rexp (&rxb->rx, - *last_expression)); - if (!concat) - return REG_ESPACE; - *last_expression = concat; + if ( /* If at start of pattern, it's an operator. */ + p == pattern + 1 + /* If context independent, it's an operator. */ + || syntax & RE_CONTEXT_INDEP_ANCHORS + /* Otherwise, depends on what's come before. */ + || at_begline_loc_p(pattern, p, syntax)) { + struct rexp_node *n = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_hat); + + if (!n) + return REG_ESPACE; + append = n; + goto append_node; + } else + goto normal_char; } - if (need_sync) + break; + + + case '$': { - int sync_se = paramc; - params = (params - ? ((struct re_se_params *) - realloc (params, - sizeof (*params) * (1 + paramc))) - : ((struct re_se_params *) - malloc (sizeof (*params)))); - if (!params) - return REG_ESPACE; - ++paramc; - params [sync_se].se = re_se_tv; - side = (rx_side_effect)sync_se; - goto add_side_effect; + if ( /* If at end of pattern, it's an operator. */ + p == pend + /* If context independent, it's an operator. */ + || syntax & RE_CONTEXT_INDEP_ANCHORS + /* Otherwise, depends on what's next. */ + || at_endline_loc_p(p, pend, syntax)) { + struct rexp_node *n = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_dollar); + + if (!n) + return REG_ESPACE; + append = n; + goto append_node; + } else + goto normal_char; } - } - /* The old regex.c used to optimize `.*\n'. - * Maybe rx should too? - */ - } - break; - - - case '.': - { - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * n = rx_mk_r_cset (&rxb->rx, cs); - if (!(cs && n)) - return REG_ESPACE; - - rx_bitset_universe (rxb->rx.local_cset_size, cs); - if (!(rxb->syntax & RE_DOT_NEWLINE)) - RX_bitset_remove (cs, '\n'); - if (!(rxb->syntax & RE_DOT_NOT_NULL)) - RX_bitset_remove (cs, 0); - - append = n; - goto append_node; - break; - } - - - case '[': - if (p == pend) return REG_EBRACK; - { - boolean had_char_class = false; - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * node = rx_mk_r_cset (&rxb->rx, cs); - int is_inverted = *p == '^'; - - if (!(node && cs)) - return REG_ESPACE; - - /* This branch of the switch is normally exited with - *`goto append_node' - */ - append = node; - - if (is_inverted) - p++; - - /* Remember the first position in the bracket expression. */ - p1 = p; - - /* Read in characters and ranges, setting map bits. */ - for (;;) - { - if (p == pend) return REG_EBRACK; - - PATFETCH (c); - - /* \ might escape characters inside [...] and [^...]. */ - if ((syntax & RE_BACKSLASH_ESCAPE_IN_LISTS) && c == '\\') - { - if (p == pend) return REG_EESCAPE; - - PATFETCH (c1); - { - rx_Bitset it = inverse_translation (rxb, - validate_inv_tr, - inverse_translate, - translate, - c1); - rx_bitset_union (rxb->rx.local_cset_size, cs, it); - } - continue; - } - - /* Could be the end of the bracket expression. If it's - not (i.e., when the bracket expression is `[]' so - far), the ']' character bit gets set way below. */ - if (c == ']' && p != p1 + 1) - goto finalize_class_and_append; - - /* Look ahead to see if it's a range when the last thing - was a character class. */ - if (had_char_class && c == '-' && *p != ']') - return REG_ERANGE; - - /* Look ahead to see if it's a range when the last thing - was a character: if this is a hyphen not at the - beginning or the end of a list, then it's the range - operator. */ - if (c == '-' - && !(p - 2 >= pattern && p[-2] == '[') - && !(p - 3 >= pattern && p[-3] == '[' && p[-2] == '^') - && *p != ']') - { - reg_errcode_t ret - = compile_range (rxb, cs, &p, pend, translate, syntax, - inverse_translate, validate_inv_tr); - if (ret != REG_NOERROR) return ret; - } - - else if (p[0] == '-' && p[1] != ']') - { /* This handles ranges made up of characters only. */ - reg_errcode_t ret; - - /* Move past the `-'. */ - PATFETCH (c1); - - ret = compile_range (rxb, cs, &p, pend, translate, syntax, - inverse_translate, validate_inv_tr); - if (ret != REG_NOERROR) return ret; - } - - /* See if we're at the beginning of a possible character - class. */ - - else if ((syntax & RE_CHAR_CLASSES) - && (c == '[') && (*p == ':')) - { - char str[CHAR_CLASS_MAX_LENGTH + 1]; - - PATFETCH (c); - c1 = 0; - - /* If pattern is `[[:'. */ - if (p == pend) return REG_EBRACK; - - for (;;) - { - PATFETCH (c); - if (c == ':' || c == ']' || p == pend - || c1 == CHAR_CLASS_MAX_LENGTH) - break; - str[c1++] = c; - } - str[c1] = '\0'; - - /* If isn't a word bracketed by `[:' and:`]': - undo the ending character, the letters, and leave - the leading `:' and `[' (but set bits for them). */ - if (c == ':' && *p == ']') - { - int ch; - boolean is_alnum = !strcmp (str, "alnum"); - boolean is_alpha = !strcmp (str, "alpha"); - boolean is_blank = !strcmp (str, "blank"); - boolean is_cntrl = !strcmp (str, "cntrl"); - boolean is_digit = !strcmp (str, "digit"); - boolean is_graph = !strcmp (str, "graph"); - boolean is_lower = !strcmp (str, "lower"); - boolean is_print = !strcmp (str, "print"); - boolean is_punct = !strcmp (str, "punct"); - boolean is_space = !strcmp (str, "space"); - boolean is_upper = !strcmp (str, "upper"); - boolean is_xdigit = !strcmp (str, "xdigit"); - - if (!IS_CHAR_CLASS (str)) return REG_ECTYPE; - - /* Throw away the ] at the end of the character - class. */ - PATFETCH (c); - - if (p == pend) return REG_EBRACK; - - for (ch = 0; ch < 1 << CHARBITS; ch++) - { - if ( (is_alnum && isalnum (ch)) - || (is_alpha && isalpha (ch)) - || (is_blank && isblank (ch)) - || (is_cntrl && iscntrl (ch)) - || (is_digit && isdigit (ch)) - || (is_graph && isgraph (ch)) - || (is_lower && islower (ch)) - || (is_print && isprint (ch)) - || (is_punct && ispunct (ch)) - || (is_space && isspace (ch)) - || (is_upper && isupper (ch)) - || (is_xdigit && isxdigit (ch))) - { - rx_Bitset it = - inverse_translation (rxb, - validate_inv_tr, - inverse_translate, - translate, - ch); - rx_bitset_union (rxb->rx.local_cset_size, - cs, it); - } - } - had_char_class = true; - } - else - { - c1++; - while (c1--) - PATUNFETCH; - { - rx_Bitset it = - inverse_translation (rxb, - validate_inv_tr, - inverse_translate, - translate, - '['); - rx_bitset_union (rxb->rx.local_cset_size, - cs, it); + break; + + + case '+': + case '?': + if ((syntax & RE_BK_PLUS_QM) + || (syntax & RE_LIMITED_OPS)) + goto normal_char; + + handle_plus: + case '*': + /* If there is no previous pattern... */ + if (pointless_if_repeated(*last_expression, params)) { + if (syntax & RE_CONTEXT_INVALID_OPS) + return REG_BADRPT; + else if (!(syntax & RE_CONTEXT_INDEP_OPS)) + goto normal_char; } + { - rx_Bitset it = - inverse_translation (rxb, - validate_inv_tr, - inverse_translate, - translate, - ':'); - rx_bitset_union (rxb->rx.local_cset_size, - cs, it); + /* 1 means zero (many) matches is allowed. */ + char zero_times_ok = 0, many_times_ok = 0; + + /* If there is a sequence of repetition chars, collapse it + down to just one (the right one). We can't combine + interval operators with these because of, e.g., `a{2}*', + which should only match an even number of `a's. */ + + for (;;) { + zero_times_ok |= c != '+'; + many_times_ok |= c != '?'; + + if (p == pend) + break; + + PATFETCH(c); + + if (c == '*' || (!(syntax & RE_BK_PLUS_QM) + && (c == '+' || c == '?'))); + + else if (syntax & RE_BK_PLUS_QM && c == '\\') { + if (p == pend) + return REG_EESCAPE; + + PATFETCH(c1); + if (!(c1 == '+' || c1 == '?')) { + PATUNFETCH; + PATUNFETCH; + break; + } + + c = c1; + } else { + PATUNFETCH; + break; + } + + /* If we get here, we found another repeat character. */ + } + + /* Star, etc. applied to an empty pattern is equivalent + to an empty pattern. */ + if (!last_expression) + break; + + /* Now we know whether or not zero matches is allowed + * and also whether or not two or more matches is allowed. + */ + + { + struct rexp_node *inner_exp = *last_expression; + int need_sync = 0; + + if (many_times_ok + && has_non_idempotent_epsilon_path(&rxb->rx, + inner_exp, + params)) { + struct rexp_node *pusher = + rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_pushpos); + struct rexp_node *checker + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_chkpos); + struct rexp_node *pushback + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_pushback); + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *lit_t; + struct rexp_node *fake_state; + struct rexp_node *phase2; + struct rexp_node *popper; + struct rexp_node *star; + struct rexp_node *a; + struct rexp_node *whole_thing; + + if (!cs) + return REG_ESPACE; + lit_t = rx_mk_r_cset(&rxb->rx, cs); + fake_state = + rx_mk_r_concat(&rxb->rx, pushback, lit_t); + phase2 = + rx_mk_r_concat(&rxb->rx, checker, fake_state); + popper = + rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) + re_se_poppos); + star = + rx_mk_r_2phase_star(&rxb->rx, inner_exp, + phase2); + a = rx_mk_r_concat(&rxb->rx, pusher, star); + whole_thing = rx_mk_r_concat(&rxb->rx, a, popper); + + if (! + (pusher && star && pushback && lit_t + && fake_state && lit_t && phase2 && checker + && popper && a && whole_thing)) + return REG_ESPACE; + RX_bitset_enjoin(cs, 't'); + *last_expression = whole_thing; + } else { + struct rexp_node *star = + (many_times_ok ? rx_mk_r_star : rx_mk_r_opt) + (&rxb->rx, *last_expression); + + if (!star) + return REG_ESPACE; + *last_expression = star; + need_sync = has_any_se(&rxb->rx, *last_expression); + } + if (!zero_times_ok) { + struct rexp_node *concat + = rx_mk_r_concat(&rxb->rx, inner_exp, + rx_copy_rexp(&rxb->rx, + *last_expression)); + + if (!concat) + return REG_ESPACE; + *last_expression = concat; + } + if (need_sync) { + int sync_se = paramc; + + params = (params ? ((struct re_se_params *) + realloc(params, + sizeof(*params) * (1 + + paramc))) + : ((struct re_se_params *) + malloc(sizeof(*params)))); + if (!params) + return REG_ESPACE; + ++paramc; + params[sync_se].se = re_se_tv; + side = (rx_side_effect) sync_se; + goto add_side_effect; + } + } + /* The old regex.c used to optimize `.*\n'. + * Maybe rx should too? + */ } - had_char_class = false; - } - } - else - { - had_char_class = false; - { - rx_Bitset it = inverse_translation (rxb, - validate_inv_tr, - inverse_translate, - translate, - c); - rx_bitset_union (rxb->rx.local_cset_size, cs, it); - } - } - } - - finalize_class_and_append: - if (is_inverted) - { - rx_bitset_complement (rxb->rx.local_cset_size, cs); - if (syntax & RE_HAT_LISTS_NOT_NEWLINE) - RX_bitset_remove (cs, '\n'); - } - goto append_node; - } - break; - - - case '(': - if (syntax & RE_NO_BK_PARENS) - goto handle_open; - else - goto normal_char; - - - case ')': - if (syntax & RE_NO_BK_PARENS) - goto handle_close; - else - goto normal_char; - - - case '\n': - if (syntax & RE_NEWLINE_ALT) - goto handle_alt; - else - goto normal_char; - - - case '|': - if (syntax & RE_NO_BK_VBAR) - goto handle_alt; - else - goto normal_char; - - - case '{': - if ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES)) - goto handle_interval; - else - goto normal_char; - - - case '\\': - if (p == pend) return REG_EESCAPE; - - /* Do not translate the character after the \, so that we can - distinguish, e.g., \B from \b, even if we normally would - translate, e.g., B to b. */ - PATFETCH_RAW (c); - - switch (c) - { - case '(': - if (syntax & RE_NO_BK_PARENS) - goto normal_backslash; - - handle_open: - rxb->re_nsub++; - regnum++; - if (COMPILE_STACK_FULL) - { - ((compile_stack.stack) = - (compile_stack_elt_t *) realloc (compile_stack.stack, ( compile_stack.size << 1) * sizeof ( - compile_stack_elt_t))); - if (compile_stack.stack == 0) return REG_ESPACE; - - compile_stack.size <<= 1; - } - - if (*last_expression) - { - struct rexp_node * concat - = rx_mk_r_concat (&rxb->rx, *last_expression, 0); - if (!concat) - return REG_ESPACE; - *last_expression = concat; - last_expression = &concat->params.pair.right; - } + break; - /* - * These are the values to restore when we hit end of this - * group. - */ - COMPILE_STACK_TOP.top_expression = top_expression; - COMPILE_STACK_TOP.last_expression = last_expression; - COMPILE_STACK_TOP.regnum = regnum; - - compile_stack.avail++; - - top_expression = last_expression; - break; - - - case ')': - if (syntax & RE_NO_BK_PARENS) goto normal_backslash; - - handle_close: - /* See similar code for backslashed left paren above. */ - if (COMPILE_STACK_EMPTY) { - if (syntax & RE_UNMATCHED_RIGHT_PAREN_ORD) { - goto normal_char; - } else { - return REG_ERPAREN; - } - } - - /* Since we just checked for an empty stack above, this - ``can't happen''. */ - - { - /* We don't just want to restore into `regnum', because - later groups should continue to be numbered higher, - as in `(ab)c(de)' -- the second group is #2. */ - regnum_t this_group_regnum; - struct rexp_node ** inner = top_expression; - - compile_stack.avail--; - top_expression = COMPILE_STACK_TOP.top_expression; - last_expression = COMPILE_STACK_TOP.last_expression; - this_group_regnum = COMPILE_STACK_TOP.regnum; - { - int left_se = paramc; - int right_se = paramc + 1; - - params = (params - ? ((struct re_se_params *) - realloc (params, - (paramc + 2) * sizeof (params[0]))) - : ((struct re_se_params *) - malloc (2 * sizeof (params[0])))); - if (!params) - return REG_ESPACE; - paramc += 2; - - params[left_se].se = re_se_lparen; - params[left_se].op1 = this_group_regnum; - params[right_se].se = re_se_rparen; - params[right_se].op1 = this_group_regnum; - { - struct rexp_node * left - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)left_se); - struct rexp_node * right - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)right_se); - struct rexp_node * c1 - = (*inner - ? rx_mk_r_concat (&rxb->rx, left, *inner) : left); - struct rexp_node * c2 - = rx_mk_r_concat (&rxb->rx, c1, right); - if (!(left && right && c1 && c2)) - return REG_ESPACE; - *inner = c2; - } - } - break; - } - - case '|': /* `\|'. */ - if ((syntax & RE_LIMITED_OPS) || (syntax & RE_NO_BK_VBAR)) - goto normal_backslash; - handle_alt: - if (syntax & RE_LIMITED_OPS) - goto normal_char; - - { - struct rexp_node * alt - = rx_mk_r_alternate (&rxb->rx, *top_expression, 0); - if (!alt) - return REG_ESPACE; - *top_expression = alt; - last_expression = &alt->params.pair.right; + + case '.': { - int sync_se = paramc; - - params = (params - ? ((struct re_se_params *) - realloc (params, - (paramc + 1) * sizeof (params[0]))) - : ((struct re_se_params *) - malloc (sizeof (params[0])))); - if (!params) - return REG_ESPACE; - ++paramc; - - params[sync_se].se = re_se_tv; - { - struct rexp_node * sync - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)sync_se); - struct rexp_node * conc - = rx_mk_r_concat (&rxb->rx, sync, 0); - - if (!sync || !conc) - return REG_ESPACE; - - *last_expression = conc; - last_expression = &conc->params.pair.right; - } - } - } - break; - - - case '{': - /* If \{ is a literal. */ - if (!(syntax & RE_INTERVALS) - /* If we're at `\{' and it's not the open-interval - operator. */ - || ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES)) - || (p - 2 == pattern && p == pend)) - goto normal_backslash; - - handle_interval: - { - /* If got here, then the syntax allows intervals. */ - - /* At least (most) this many matches must be made. */ - int lower_bound = -1, upper_bound = -1; - - beg_interval = p - 1; - - if (p == pend) - { - if (syntax & RE_NO_BK_BRACES) - goto unfetch_interval; - else - return REG_EBRACE; - } - - GET_UNSIGNED_NUMBER (lower_bound); - - if (c == ',') - { - GET_UNSIGNED_NUMBER (upper_bound); - if (upper_bound < 0) upper_bound = RE_DUP_MAX; - } - else - /* Interval such as `{1}' => match exactly once. */ - upper_bound = lower_bound; - - if (lower_bound < 0 || upper_bound > RE_DUP_MAX - || lower_bound > upper_bound) - { - if (syntax & RE_NO_BK_BRACES) - goto unfetch_interval; - else - return REG_BADBR; - } - - if (!(syntax & RE_NO_BK_BRACES)) - { - if (c != '\\') return REG_EBRACE; - PATFETCH (c); - } - - if (c != '}') - { - if (syntax & RE_NO_BK_BRACES) - goto unfetch_interval; - else - return REG_BADBR; - } - - /* We just parsed a valid interval. */ - - /* If it's invalid to have no preceding re. */ - if (pointless_if_repeated (*last_expression, params)) - { - if (syntax & RE_CONTEXT_INVALID_OPS) - return REG_BADRPT; - else if (!(syntax & RE_CONTEXT_INDEP_OPS)) - goto unfetch_interval; - /* was: else laststart = b; */ - } - - /* If the upper bound is zero, don't want to iterate - * at all. - */ - if (upper_bound == 0) - { - if (*last_expression) - { - rx_free_rexp (&rxb->rx, *last_expression); - *last_expression = 0; - } - } - else - /* Otherwise, we have a nontrivial interval. */ - { - int iter_se = paramc; - int end_se = paramc + 1; - params = (params - ? ((struct re_se_params *) - realloc (params, - sizeof (*params) * (2 + paramc))) - : ((struct re_se_params *) - malloc (2 * sizeof (*params)))); - if (!params) - return REG_ESPACE; - paramc += 2; - params [iter_se].se = re_se_iter; - params [iter_se].op1 = lower_bound; - params[iter_se].op2 = upper_bound; - - params[end_se].se = re_se_end_iter; - params[end_se].op1 = lower_bound; - params[end_se].op2 = upper_bound; - { - struct rexp_node * push0 - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_push0); - struct rexp_node * start_one_iter - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)iter_se); - struct rexp_node * phase1 - = rx_mk_r_concat (&rxb->rx, start_one_iter, - *last_expression); - struct rexp_node * pushback - = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)re_se_pushback); - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * lit_t; - struct rexp_node * phase2; - struct rexp_node * loop; - struct rexp_node * push_n_loop; - struct rexp_node * final_test; - struct rexp_node * full_exp; - - if (! cs) - return REG_ESPACE; - lit_t = rx_mk_r_cset (&rxb->rx, cs); - phase2 = rx_mk_r_concat (&rxb->rx, pushback, lit_t); - loop = rx_mk_r_2phase_star (&rxb->rx, phase1, phase2); - push_n_loop = rx_mk_r_concat (&rxb->rx, push0, loop); - final_test = rx_mk_r_side_effect (&rxb->rx, - (rx_side_effect)end_se); - full_exp = rx_mk_r_concat (&rxb->rx, push_n_loop, final_test); - - if (!(push0 && start_one_iter && phase1 - && pushback && lit_t && phase2 - && loop && push_n_loop && final_test && full_exp)) - return REG_ESPACE; + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *n = rx_mk_r_cset(&rxb->rx, cs); - RX_bitset_enjoin(cs, 't'); + if (!(cs && n)) + return REG_ESPACE; - *last_expression = full_exp; - } - } - beg_interval = 0; - } - break; + rx_bitset_universe(rxb->rx.local_cset_size, cs); + if (!(rxb->syntax & RE_DOT_NEWLINE)) + RX_bitset_remove(cs, '\n'); + if (!(rxb->syntax & RE_DOT_NOT_NULL)) + RX_bitset_remove(cs, 0); - unfetch_interval: - /* If an invalid interval, match the characters as literals. */ - p = beg_interval; - beg_interval = 0; + append = n; + goto append_node; + break; + } - /* normal_char and normal_backslash need `c'. */ - PATFETCH (c); - if (!(syntax & RE_NO_BK_BRACES)) - { - if (p > pattern && p[-1] == '\\') - goto normal_backslash; - } - goto normal_char; + case '[': + if (p == pend) + return REG_EBRACK; + { + boolean had_char_class = false; + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *node = rx_mk_r_cset(&rxb->rx, cs); + int is_inverted = *p == '^'; + + if (!(node && cs)) + return REG_ESPACE; + + /* This branch of the switch is normally exited with + *`goto append_node' + */ + append = node; + + if (is_inverted) + p++; + + /* Remember the first position in the bracket expression. */ + p1 = p; + + /* Read in characters and ranges, setting map bits. */ + for (;;) { + if (p == pend) + return REG_EBRACK; + + PATFETCH(c); + + /* \ might escape characters inside [...] and [^...]. */ + if ((syntax & RE_BACKSLASH_ESCAPE_IN_LISTS) + && c == '\\') { + if (p == pend) + return REG_EESCAPE; + + PATFETCH(c1); + { + rx_Bitset it = inverse_translation(rxb, + validate_inv_tr, + inverse_translate, + translate, + c1); + + rx_bitset_union(rxb->rx.local_cset_size, cs, + it); + } + continue; + } + + /* Could be the end of the bracket expression. If it's + not (i.e., when the bracket expression is `[]' so + far), the ']' character bit gets set way below. */ + if (c == ']' && p != p1 + 1) + goto finalize_class_and_append; + + /* Look ahead to see if it's a range when the last thing + was a character class. */ + if (had_char_class && c == '-' && *p != ']') + return REG_ERANGE; + + /* Look ahead to see if it's a range when the last thing + was a character: if this is a hyphen not at the + beginning or the end of a list, then it's the range + operator. */ + if (c == '-' && !(p - 2 >= pattern && p[-2] == '[') + && !(p - 3 >= pattern && p[-3] == '[' + && p[-2] == '^') && *p != ']') { + reg_errcode_t ret = + compile_range(rxb, cs, &p, pend, translate, + syntax, + inverse_translate, + + validate_inv_tr); + + if (ret != REG_NOERROR) + return ret; + } + + else if (p[0] == '-' && p[1] != ']') { /* This handles ranges made up of characters only. */ + reg_errcode_t ret; + + /* Move past the `-'. */ + PATFETCH(c1); + + ret = + compile_range(rxb, cs, &p, pend, translate, + syntax, inverse_translate, + validate_inv_tr); + if (ret != REG_NOERROR) + return ret; + } + + /* See if we're at the beginning of a possible character + class. */ + + else if ((syntax & RE_CHAR_CLASSES) + && (c == '[') && (*p == ':')) { + char str[CHAR_CLASS_MAX_LENGTH + 1]; + + PATFETCH(c); + c1 = 0; + + /* If pattern is `[[:'. */ + if (p == pend) + return REG_EBRACK; + + for (;;) { + PATFETCH(c); + if (c == ':' || c == ']' || p == pend + || c1 == CHAR_CLASS_MAX_LENGTH) break; + str[c1++] = c; + } + str[c1] = '\0'; + + /* If isn't a word bracketed by `[:' and:`]': + undo the ending character, the letters, and leave + the leading `:' and `[' (but set bits for them). */ + if (c == ':' && *p == ']') { + int ch; + boolean is_alnum = !strcmp(str, "alnum"); + boolean is_alpha = !strcmp(str, "alpha"); + boolean is_blank = !strcmp(str, "blank"); + boolean is_cntrl = !strcmp(str, "cntrl"); + boolean is_digit = !strcmp(str, "digit"); + boolean is_graph = !strcmp(str, "graph"); + boolean is_lower = !strcmp(str, "lower"); + boolean is_print = !strcmp(str, "print"); + boolean is_punct = !strcmp(str, "punct"); + boolean is_space = !strcmp(str, "space"); + boolean is_upper = !strcmp(str, "upper"); + boolean is_xdigit = !strcmp(str, "xdigit"); + + if (!IS_CHAR_CLASS(str)) + return REG_ECTYPE; + + /* Throw away the ] at the end of the character + class. */ + PATFETCH(c); + + if (p == pend) + return REG_EBRACK; + + for (ch = 0; ch < 1 << CHARBITS; ch++) { + if ((is_alnum && isalnum(ch)) + || (is_alpha && isalpha(ch)) + || (is_blank && isblank(ch)) + || (is_cntrl && iscntrl(ch)) + || (is_digit && isdigit(ch)) + || (is_graph && isgraph(ch)) + || (is_lower && islower(ch)) + || (is_print && isprint(ch)) + || (is_punct && ispunct(ch)) + || (is_space && isspace(ch)) + || (is_upper && isupper(ch)) + || (is_xdigit && isxdigit(ch))) { + rx_Bitset it = inverse_translation(rxb, + validate_inv_tr, + inverse_translate, + translate, + ch); + + rx_bitset_union(rxb-> + rx.local_cset_size, cs, + it); + } + } + had_char_class = true; + } else { + c1++; + while (c1--) + PATUNFETCH; + { + rx_Bitset it = inverse_translation(rxb, + validate_inv_tr, + inverse_translate, + translate, + '['); + + rx_bitset_union(rxb->rx.local_cset_size, + cs, it); + } + { + rx_Bitset it = inverse_translation(rxb, + validate_inv_tr, + inverse_translate, + translate, + ':'); + + rx_bitset_union(rxb->rx.local_cset_size, + cs, it); + } + had_char_class = false; + } + } else { + had_char_class = false; + { + rx_Bitset it = inverse_translation(rxb, + validate_inv_tr, + inverse_translate, + translate, + c); + + rx_bitset_union(rxb->rx.local_cset_size, cs, + it); + } + } + } + + finalize_class_and_append: + if (is_inverted) { + rx_bitset_complement(rxb->rx.local_cset_size, cs); + if (syntax & RE_HAT_LISTS_NOT_NEWLINE) + RX_bitset_remove(cs, '\n'); + } + goto append_node; + } + break; + + + case '(': + if (syntax & RE_NO_BK_PARENS) + goto handle_open; + else + goto normal_char; + + + case ')': + if (syntax & RE_NO_BK_PARENS) + goto handle_close; + else + goto normal_char; + + + case '\n': + if (syntax & RE_NEWLINE_ALT) + goto handle_alt; + else + goto normal_char; + + + case '|': + if (syntax & RE_NO_BK_VBAR) + goto handle_alt; + else + goto normal_char; + + + case '{': + if ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES)) + goto handle_interval; + else + goto normal_char; + + + case '\\': + if (p == pend) + return REG_EESCAPE; + + /* Do not translate the character after the \, so that we can + distinguish, e.g., \B from \b, even if we normally would + translate, e.g., B to b. */ + PATFETCH_RAW(c); + + switch (c) { + case '(': + if (syntax & RE_NO_BK_PARENS) + goto normal_backslash; + + handle_open: + rxb->re_nsub++; + regnum++; + if (COMPILE_STACK_FULL) { + ((compile_stack.stack) = + (compile_stack_elt_t *) realloc(compile_stack.stack, + (compile_stack.size << + 1) * + sizeof + (compile_stack_elt_t))); + if (compile_stack.stack == 0) + return REG_ESPACE; + + compile_stack.size <<= 1; + } + + if (*last_expression) { + struct rexp_node *concat + = rx_mk_r_concat(&rxb->rx, *last_expression, 0); + + if (!concat) + return REG_ESPACE; + *last_expression = concat; + last_expression = &concat->params.pair.right; + } + + /* + * These are the values to restore when we hit end of this + * group. + */ + COMPILE_STACK_TOP.top_expression = top_expression; + COMPILE_STACK_TOP.last_expression = last_expression; + COMPILE_STACK_TOP.regnum = regnum; + + compile_stack.avail++; + + top_expression = last_expression; + break; + + + case ')': + if (syntax & RE_NO_BK_PARENS) + goto normal_backslash; + + handle_close: + /* See similar code for backslashed left paren above. */ + if (COMPILE_STACK_EMPTY) { + if (syntax & RE_UNMATCHED_RIGHT_PAREN_ORD) { + goto normal_char; + } else { + return REG_ERPAREN; + } + } + + /* Since we just checked for an empty stack above, this + ``can't happen''. */ + + { + /* We don't just want to restore into `regnum', because + later groups should continue to be numbered higher, + as in `(ab)c(de)' -- the second group is #2. */ + regnum_t this_group_regnum; + struct rexp_node **inner = top_expression; + + compile_stack.avail--; + top_expression = COMPILE_STACK_TOP.top_expression; + last_expression = COMPILE_STACK_TOP.last_expression; + this_group_regnum = COMPILE_STACK_TOP.regnum; + { + int left_se = paramc; + int right_se = paramc + 1; + + params = (params ? ((struct re_se_params *) + realloc(params, + (paramc + + 2) * + sizeof(params[0]))) + : ((struct re_se_params *) + malloc(2 * sizeof(params[0])))); + if (!params) + return REG_ESPACE; + paramc += 2; + + params[left_se].se = re_se_lparen; + params[left_se].op1 = this_group_regnum; + params[right_se].se = re_se_rparen; + params[right_se].op1 = this_group_regnum; + { + struct rexp_node *left + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) left_se); + struct rexp_node *right + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) right_se); + struct rexp_node *c1 + = (*inner ? rx_mk_r_concat(&rxb->rx, left, + *inner) : left); + struct rexp_node *c2 = + rx_mk_r_concat(&rxb->rx, c1, right); + + if (!(left && right && c1 && c2)) + return REG_ESPACE; + *inner = c2; + } + } + break; + } + + case '|': /* `\|'. */ + if ((syntax & RE_LIMITED_OPS) || (syntax & RE_NO_BK_VBAR)) + goto normal_backslash; + handle_alt: + if (syntax & RE_LIMITED_OPS) + goto normal_char; + + { + struct rexp_node *alt + = rx_mk_r_alternate(&rxb->rx, *top_expression, 0); + + if (!alt) + return REG_ESPACE; + *top_expression = alt; + last_expression = &alt->params.pair.right; + { + int sync_se = paramc; + + params = (params ? ((struct re_se_params *) + realloc(params, + (paramc + + 1) * + sizeof(params[0]))) + : ((struct re_se_params *) + malloc(sizeof(params[0])))); + if (!params) + return REG_ESPACE; + ++paramc; + + params[sync_se].se = re_se_tv; + { + struct rexp_node *sync + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) sync_se); + struct rexp_node *conc + = rx_mk_r_concat(&rxb->rx, sync, 0); + + if (!sync || !conc) + return REG_ESPACE; + + *last_expression = conc; + last_expression = &conc->params.pair.right; + } + } + } + break; + + + case '{': + /* If \{ is a literal. */ + if (!(syntax & RE_INTERVALS) + /* If we're at `\{' and it's not the open-interval + operator. */ + || ((syntax & RE_INTERVALS) + && (syntax & RE_NO_BK_BRACES)) || (p - 2 == pattern + && p == pend)) + goto normal_backslash; + + handle_interval: + { + /* If got here, then the syntax allows intervals. */ + + /* At least (most) this many matches must be made. */ + int lower_bound = -1, upper_bound = -1; + + beg_interval = p - 1; + + if (p == pend) { + if (syntax & RE_NO_BK_BRACES) + goto unfetch_interval; + else + return REG_EBRACE; + } + + GET_UNSIGNED_NUMBER(lower_bound); + + if (c == ',') { + GET_UNSIGNED_NUMBER(upper_bound); + if (upper_bound < 0) + upper_bound = RE_DUP_MAX; + } else + /* Interval such as `{1}' => match exactly once. */ + upper_bound = lower_bound; + + if (lower_bound < 0 || upper_bound > RE_DUP_MAX + || lower_bound > upper_bound) { + if (syntax & RE_NO_BK_BRACES) + goto unfetch_interval; + else + return REG_BADBR; + } + + if (!(syntax & RE_NO_BK_BRACES)) { + if (c != '\\') + return REG_EBRACE; + PATFETCH(c); + } + + if (c != '}') { + if (syntax & RE_NO_BK_BRACES) + goto unfetch_interval; + else + return REG_BADBR; + } + + /* We just parsed a valid interval. */ + + /* If it's invalid to have no preceding re. */ + if (pointless_if_repeated(*last_expression, params)) { + if (syntax & RE_CONTEXT_INVALID_OPS) + return REG_BADRPT; + else if (!(syntax & RE_CONTEXT_INDEP_OPS)) + goto unfetch_interval; + /* was: else laststart = b; */ + } + + /* If the upper bound is zero, don't want to iterate + * at all. + */ + if (upper_bound == 0) { + if (*last_expression) { + rx_free_rexp(&rxb->rx, *last_expression); + *last_expression = 0; + } + } else + /* Otherwise, we have a nontrivial interval. */ + { + int iter_se = paramc; + int end_se = paramc + 1; + + params = (params ? ((struct re_se_params *) + realloc(params, + sizeof(*params) * (2 + + paramc))) + : ((struct re_se_params *) + malloc(2 * sizeof(*params)))); + if (!params) + return REG_ESPACE; + paramc += 2; + params[iter_se].se = re_se_iter; + params[iter_se].op1 = lower_bound; + params[iter_se].op2 = upper_bound; + + params[end_se].se = re_se_end_iter; + params[end_se].op1 = lower_bound; + params[end_se].op2 = upper_bound; + { + struct rexp_node *push0 + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_push0); + struct rexp_node *start_one_iter + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) iter_se); + struct rexp_node *phase1 + = rx_mk_r_concat(&rxb->rx, start_one_iter, + *last_expression); + struct rexp_node *pushback + = rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) re_se_pushback); + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *lit_t; + struct rexp_node *phase2; + struct rexp_node *loop; + struct rexp_node *push_n_loop; + struct rexp_node *final_test; + struct rexp_node *full_exp; + + if (!cs) + return REG_ESPACE; + lit_t = rx_mk_r_cset(&rxb->rx, cs); + phase2 = + rx_mk_r_concat(&rxb->rx, pushback, lit_t); + loop = + rx_mk_r_2phase_star(&rxb->rx, phase1, + phase2); + push_n_loop = + rx_mk_r_concat(&rxb->rx, push0, loop); + final_test = + rx_mk_r_side_effect(&rxb->rx, + (rx_side_effect) + end_se); + full_exp = + rx_mk_r_concat(&rxb->rx, push_n_loop, + final_test); + + if (!(push0 && start_one_iter && phase1 + && pushback && lit_t && phase2 + && loop && push_n_loop && final_test + && full_exp)) return REG_ESPACE; + + RX_bitset_enjoin(cs, 't'); + + *last_expression = full_exp; + } + } + beg_interval = 0; + } + break; + + unfetch_interval: + /* If an invalid interval, match the characters as literals. */ + p = beg_interval; + beg_interval = 0; + + /* normal_char and normal_backslash need `c'. */ + PATFETCH(c); + + if (!(syntax & RE_NO_BK_BRACES)) { + if (p > pattern && p[-1] == '\\') + goto normal_backslash; + } + goto normal_char; #ifdef emacs - /* There is no way to specify the before_dot and after_dot - operators. rms says this is ok. --karl */ - case '=': - side = (rx_side_effect)rx_se_at_dot; - goto add_side_effect; - break; - - case 's': - case 'S': - { - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * set = rx_mk_r_cset (&rxb->rx, cs); - if (!(cs && set)) - return REG_ESPACE; - if (c == 'S') - rx_bitset_universe (rxb->rx.local_cset_size, cs); - - PATFETCH (c); - { - int x; - enum syntaxcode code = syntax_spec_code [c]; - for (x = 0; x < 256; ++x) - { - - if (SYNTAX (x) == code) + /* There is no way to specify the before_dot and after_dot + operators. rms says this is ok. --karl */ + case '=': + side = (rx_side_effect) rx_se_at_dot; + goto add_side_effect; + break; + + case 's': + case 'S': { - rx_Bitset it = - inverse_translation (rxb, validate_inv_tr, - inverse_translate, - translate, x); - rx_bitset_xor (rxb->rx.local_cset_size, cs, it); + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *set = rx_mk_r_cset(&rxb->rx, cs); + + if (!(cs && set)) + return REG_ESPACE; + if (c == 'S') + rx_bitset_universe(rxb->rx.local_cset_size, cs); + + PATFETCH(c); + { + int x; + enum syntaxcode code = syntax_spec_code[c]; + + for (x = 0; x < 256; ++x) { + + if (SYNTAX(x) == code) { + rx_Bitset it = + inverse_translation(rxb, validate_inv_tr, + inverse_translate, + translate, x); + + rx_bitset_xor(rxb->rx.local_cset_size, cs, it); + } + } + } + append = set; + goto append_node; } - } - } - append = set; - goto append_node; - } - break; -#endif /* emacs */ - - - case 'w': - case 'W': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - { - rx_Bitset cs = rx_cset (&rxb->rx); - struct rexp_node * n = (cs ? rx_mk_r_cset (&rxb->rx, cs) : 0); - if (!(cs && n)) - return REG_ESPACE; - if (c == 'W') - rx_bitset_universe (rxb->rx.local_cset_size ,cs); - { - int x; - for (x = rxb->rx.local_cset_size - 1; x > 0; --x) - if (SYNTAX(x) & Sword) - RX_bitset_toggle (cs, x); - } - append = n; - goto append_node; - } - break; + break; +#endif /* emacs */ + + + case 'w': + case 'W': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + { + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *n = + (cs ? rx_mk_r_cset(&rxb->rx, cs) : 0); + + if (!(cs && n)) + return REG_ESPACE; + if (c == 'W') + rx_bitset_universe(rxb->rx.local_cset_size, cs); + { + int x; + + for (x = rxb->rx.local_cset_size - 1; x > 0; --x) + if (SYNTAX(x) & Sword) + RX_bitset_toggle(cs, x); + } + append = n; + goto append_node; + } + break; /* With a little extra work, some of these side effects could be optimized * away (basicly by looking at what we already know about the surrounding * chars). */ - case '<': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_wordbeg; - goto add_side_effect; - break; - - case '>': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_wordend; - goto add_side_effect; - break; - - case 'b': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_wordbound; - goto add_side_effect; - break; - - case 'B': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_notwordbound; - goto add_side_effect; - break; - - case '`': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_begbuf; - goto add_side_effect; - break; - - case '\'': - if (syntax & RE_NO_GNU_OPS) - goto normal_char; - side = (rx_side_effect)re_se_endbuf; - goto add_side_effect; - break; - - add_side_effect: - { - struct rexp_node * se - = rx_mk_r_side_effect (&rxb->rx, side); - if (!se) - return REG_ESPACE; - append = se; - goto append_node; - } - break; - - case '1': case '2': case '3': case '4': case '5': - case '6': case '7': case '8': case '9': - if (syntax & RE_NO_BK_REFS) - goto normal_char; - - c1 = c - '0'; - - if (c1 > regnum) - return REG_ESUBREG; - - /* Can't back reference to a subexpression if inside of it. */ - if (group_in_compile_stack (compile_stack, c1)) - return REG_ESUBREG; - - { - int backref_se = paramc; - params = (params - ? ((struct re_se_params *) - realloc (params, - sizeof (*params) * (1 + paramc))) - : ((struct re_se_params *) - malloc (sizeof (*params)))); - if (!params) - return REG_ESPACE; - ++paramc; - params[backref_se].se = re_se_backref; - params[backref_se].op1 = c1; - side = (rx_side_effect)backref_se; - goto add_side_effect; - } - break; - - case '+': - case '?': - if (syntax & RE_BK_PLUS_QM) - goto handle_plus; - else - goto normal_backslash; - - default: - normal_backslash: - /* You might think it would be useful for \ to mean - not to translate; but if we don't translate it - it will never match anything. */ - c = TRANSLATE (c); - goto normal_char; - } - break; + case '<': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_wordbeg; + goto add_side_effect; + break; + + case '>': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_wordend; + goto add_side_effect; + break; + + case 'b': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_wordbound; + goto add_side_effect; + break; + + case 'B': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_notwordbound; + goto add_side_effect; + break; + + case '`': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_begbuf; + goto add_side_effect; + break; + + case '\'': + if (syntax & RE_NO_GNU_OPS) + goto normal_char; + side = (rx_side_effect) re_se_endbuf; + goto add_side_effect; + break; + + add_side_effect: + { + struct rexp_node *se + + = rx_mk_r_side_effect(&rxb->rx, side); + if (!se) + return REG_ESPACE; + append = se; + goto append_node; + } + break; + + case '1': + case '2': + case '3': + case '4': + case '5': + case '6': + case '7': + case '8': + case '9': + if (syntax & RE_NO_BK_REFS) + goto normal_char; + + c1 = c - '0'; + + if (c1 > regnum) + return REG_ESUBREG; + + /* Can't back reference to a subexpression if inside of it. */ + if (group_in_compile_stack(compile_stack, c1)) + return REG_ESUBREG; + + { + int backref_se = paramc; + + params = (params ? ((struct re_se_params *) + realloc(params, + sizeof(*params) * (1 + + paramc))) + : ((struct re_se_params *) + malloc(sizeof(*params)))); + if (!params) + return REG_ESPACE; + ++paramc; + params[backref_se].se = re_se_backref; + params[backref_se].op1 = c1; + side = (rx_side_effect) backref_se; + goto add_side_effect; + } + break; + + case '+': + case '?': + if (syntax & RE_BK_PLUS_QM) + goto handle_plus; + else + goto normal_backslash; + + default: + normal_backslash: + /* You might think it would be useful for \ to mean + not to translate; but if we don't translate it + it will never match anything. */ + c = TRANSLATE(c); + goto normal_char; + } + break; - default: - /* Expects the character in `c'. */ - normal_char: - { - rx_Bitset cs = rx_cset(&rxb->rx); - struct rexp_node * match = rx_mk_r_cset (&rxb->rx, cs); - rx_Bitset it; - if (!(cs && match)) - return REG_ESPACE; - it = inverse_translation (rxb, validate_inv_tr, - inverse_translate, translate, c); - rx_bitset_union (CHAR_SET_SIZE, cs, it); - append = match; - - append_node: - /* This genericly appends the rexp APPEND to *LAST_EXPRESSION - * and then parses the next character normally. - */ - if (*last_expression) + default: + /* Expects the character in `c'. */ + normal_char: { - struct rexp_node * concat - = rx_mk_r_concat (&rxb->rx, *last_expression, append); - if (!concat) - return REG_ESPACE; - *last_expression = concat; - last_expression = &concat->params.pair.right; + rx_Bitset cs = rx_cset(&rxb->rx); + struct rexp_node *match = rx_mk_r_cset(&rxb->rx, cs); + rx_Bitset it; + + if (!(cs && match)) + return REG_ESPACE; + it = inverse_translation(rxb, validate_inv_tr, + inverse_translate, translate, c); + rx_bitset_union(CHAR_SET_SIZE, cs, it); + append = match; + + append_node: + /* This genericly appends the rexp APPEND to *LAST_EXPRESSION + * and then parses the next character normally. + */ + if (*last_expression) { + struct rexp_node *concat + = rx_mk_r_concat(&rxb->rx, *last_expression, append); + + if (!concat) + return REG_ESPACE; + *last_expression = concat; + last_expression = &concat->params.pair.right; + } else + *last_expression = append; } - else - *last_expression = append; - } - } /* switch (c) */ - } /* while p != pend */ - - - { - int win_se = paramc; - params = (params - ? ((struct re_se_params *) - realloc (params, - sizeof (*params) * (1 + paramc))) - : ((struct re_se_params *) - malloc (sizeof (*params)))); - if (!params) - return REG_ESPACE; - ++paramc; - params[win_se].se = re_se_win; - { - struct rexp_node * se - = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)win_se); - struct rexp_node * concat - = rx_mk_r_concat (&rxb->rx, rexp, se); - if (!(se && concat)) - return REG_ESPACE; - rexp = concat; - } - } + } /* switch (c) */ + } /* while p != pend */ + + + { + int win_se = paramc; + + params = (params ? ((struct re_se_params *) + realloc(params, + sizeof(*params) * (1 + paramc))) + : ((struct re_se_params *) + malloc(sizeof(*params)))); + if (!params) + return REG_ESPACE; + ++paramc; + params[win_se].se = re_se_win; + { + struct rexp_node *se + = rx_mk_r_side_effect(&rxb->rx, (rx_side_effect) win_se); + struct rexp_node *concat = rx_mk_r_concat(&rxb->rx, rexp, se); + + if (!(se && concat)) + return REG_ESPACE; + rexp = concat; + } + } - /* Through the pattern now. */ + /* Through the pattern now. */ - if (!COMPILE_STACK_EMPTY) - return REG_EPAREN; + if (!COMPILE_STACK_EMPTY) + return REG_EPAREN; - free (compile_stack.stack); + free(compile_stack.stack); - orig_rexp = rexp; + orig_rexp = rexp; #ifdef RX_DEBUG - if (rx_debug_compile) - { - dbug_rxb = rxb; - fputs ("\n\nCompiling ", stdout); - fwrite (pattern, 1, size, stdout); - fputs (":\n", stdout); - rxb->se_params = params; - print_rexp (&rxb->rx, orig_rexp, 2, re_seprint, stdout); - } + if (rx_debug_compile) { + dbug_rxb = rxb; + fputs("\n\nCompiling ", stdout); + fwrite(pattern, 1, size, stdout); + fputs(":\n", stdout); + rxb->se_params = params; + print_rexp(&rxb->rx, orig_rexp, 2, re_seprint, stdout); + } #endif - { - rx_Bitset cs = rx_cset(&rxb->rx); - rx_Bitset cs2 = rx_cset(&rxb->rx); - char * se_map = (char *) alloca (paramc); - struct rexp_node * new_rexp = 0; + { + rx_Bitset cs = rx_cset(&rxb->rx); + rx_Bitset cs2 = rx_cset(&rxb->rx); + char *se_map = (char *) alloca(paramc); + struct rexp_node *new_rexp = 0; - bzero (se_map, paramc); - find_backrefs (se_map, rexp, params); - fewer_side_effects = - remove_unecessary_side_effects (&rxb->rx, se_map, - rx_copy_rexp (&rxb->rx, rexp), params); + bzero(se_map, paramc); + find_backrefs(se_map, rexp, params); + fewer_side_effects = + remove_unecessary_side_effects(&rxb->rx, se_map, + rx_copy_rexp(&rxb->rx, rexp), + params); - speed_up_alt (&rxb->rx, rexp, 0); - speed_up_alt (&rxb->rx, fewer_side_effects, 1); + speed_up_alt(&rxb->rx, rexp, 0); + speed_up_alt(&rxb->rx, fewer_side_effects, 1); - { - char * syntax_parens = rxb->syntax_parens; - if (syntax_parens == (char *)0x1) - rexp = remove_unecessary_side_effects - (&rxb->rx, se_map, rexp, params); - else if (syntax_parens) - { - int x; - for (x = 0; x < paramc; ++x) - if (( (params[x].se == re_se_lparen) - || (params[x].se == re_se_rparen)) - && (!syntax_parens [params[x].op1])) - se_map [x] = 1; - rexp = remove_unecessary_side_effects - (&rxb->rx, se_map, rexp, params); - } - } + { + char *syntax_parens = rxb->syntax_parens; + + if (syntax_parens == (char *) 0x1) + rexp = remove_unecessary_side_effects + (&rxb->rx, se_map, rexp, params); + else if (syntax_parens) { + int x; + + for (x = 0; x < paramc; ++x) + if (((params[x].se == re_se_lparen) + || (params[x].se == re_se_rparen)) + && (!syntax_parens[params[x].op1])) + se_map[x] = 1; + rexp = remove_unecessary_side_effects + (&rxb->rx, se_map, rexp, params); + } + } - /* At least one more optimization would be nice to have here but i ran out - * of time. The idea would be to delay side effects. - * For examle, `(abc)' is the same thing as `abc()' except that the - * left paren is offset by 3 (which we know at compile time). - * (In this comment, write that second pattern `abc(:3:)' - * where `(:3:' is a syntactic unit.) - * - * Trickier: `(abc|defg)' is the same as `(abc(:3:|defg(:4:))' - * (The paren nesting may be hard to follow -- that's an alternation - * of `abc(:3:' and `defg(:4:' inside (purely syntactic) parens - * followed by the closing paren from the original expression.) - * - * Neither the expression tree representation nor the the nfa make - * this very easy to write. :( - */ - - /* What we compile is different than what the parser returns. - * Suppose the parser returns expression R. - * Let R' be R with unnecessary register assignments removed - * (see REMOVE_UNECESSARY_SIDE_EFFECTS, above). - * - * What we will compile is the expression: - * - * m{try}R{win}\|s{try}R'{win} - * - * {try} and {win} denote side effect epsilons (see EXPLORE_FUTURE). - * - * When trying a match, we insert an `m' at the beginning of the - * string if the user wants registers to be filled, `s' if not. - */ - new_rexp = - rx_mk_r_alternate - (&rxb->rx, - rx_mk_r_concat (&rxb->rx, rx_mk_r_cset (&rxb->rx, cs2), rexp), - rx_mk_r_concat (&rxb->rx, - rx_mk_r_cset (&rxb->rx, cs), fewer_side_effects)); - - if (!(new_rexp && cs && cs2)) - return REG_ESPACE; - RX_bitset_enjoin (cs2, '\0'); /* prefixed to the rexp used for matching. */ - RX_bitset_enjoin (cs, '\1'); /* prefixed to the rexp used for searching. */ - rexp = new_rexp; - } + /* At least one more optimization would be nice to have here but i ran out + * of time. The idea would be to delay side effects. + * For examle, `(abc)' is the same thing as `abc()' except that the + * left paren is offset by 3 (which we know at compile time). + * (In this comment, write that second pattern `abc(:3:)' + * where `(:3:' is a syntactic unit.) + * + * Trickier: `(abc|defg)' is the same as `(abc(:3:|defg(:4:))' + * (The paren nesting may be hard to follow -- that's an alternation + * of `abc(:3:' and `defg(:4:' inside (purely syntactic) parens + * followed by the closing paren from the original expression.) + * + * Neither the expression tree representation nor the the nfa make + * this very easy to write. :( + */ + + /* What we compile is different than what the parser returns. + * Suppose the parser returns expression R. + * Let R' be R with unnecessary register assignments removed + * (see REMOVE_UNECESSARY_SIDE_EFFECTS, above). + * + * What we will compile is the expression: + * + * m{try}R{win}\|s{try}R'{win} + * + * {try} and {win} denote side effect epsilons (see EXPLORE_FUTURE). + * + * When trying a match, we insert an `m' at the beginning of the + * string if the user wants registers to be filled, `s' if not. + */ + new_rexp = + rx_mk_r_alternate + (&rxb->rx, + rx_mk_r_concat(&rxb->rx, rx_mk_r_cset(&rxb->rx, cs2), rexp), + rx_mk_r_concat(&rxb->rx, + rx_mk_r_cset(&rxb->rx, cs), + fewer_side_effects)); + + if (!(new_rexp && cs && cs2)) + return REG_ESPACE; + RX_bitset_enjoin(cs2, '\0'); /* prefixed to the rexp used for matching. */ + RX_bitset_enjoin(cs, '\1'); /* prefixed to the rexp used for searching. */ + rexp = new_rexp; + } #ifdef RX_DEBUG - if (rx_debug_compile) - { - fputs ("\n...which is compiled as:\n", stdout); - print_rexp (&rxb->rx, rexp, 2, re_seprint, stdout); - } + if (rx_debug_compile) { + fputs("\n...which is compiled as:\n", stdout); + print_rexp(&rxb->rx, rexp, 2, re_seprint, stdout); + } #endif - { - struct rx_nfa_state *start = 0; - struct rx_nfa_state *end = 0; - - if (!rx_build_nfa (&rxb->rx, rexp, &start, &end)) - return REG_ESPACE; /* */ - else - { - void * mem = (void *)rxb->buffer; - unsigned long size = rxb->allocated; - int start_id; - char * perm_mem; - int iterator_size = paramc * sizeof (params[0]); - - end->is_final = 1; - start->is_start = 1; - rx_name_nfa_states (&rxb->rx); - start_id = start->id; + { + struct rx_nfa_state *start = 0; + struct rx_nfa_state *end = 0; + + if (!rx_build_nfa(&rxb->rx, rexp, &start, &end)) + return REG_ESPACE; /* */ + else { + void *mem = (void *) rxb->buffer; + unsigned long size = rxb->allocated; + int start_id; + char *perm_mem; + int iterator_size = paramc * sizeof(params[0]); + + end->is_final = 1; + start->is_start = 1; + rx_name_nfa_states(&rxb->rx); + start_id = start->id; #ifdef RX_DEBUG - if (rx_debug_compile) - { - fputs ("...giving the NFA: \n", stdout); - dbug_rxb = rxb; - print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout); - } -#endif - if (!rx_eclose_nfa (&rxb->rx)) - return REG_ESPACE; - else - { - rx_delete_epsilon_transitions (&rxb->rx); - - /* For compatability reasons, we need to shove the - * compiled nfa into one chunk of malloced memory. - */ - rxb->rx.reserved = ( sizeof (params[0]) * paramc - + rx_sizeof_bitset (rxb->rx.local_cset_size)); + if (rx_debug_compile) { + fputs("...giving the NFA: \n", stdout); + dbug_rxb = rxb; + print_nfa(&rxb->rx, rxb->rx.nfa_states, re_seprint, + stdout); + } +#endif + if (!rx_eclose_nfa(&rxb->rx)) + return REG_ESPACE; + else { + rx_delete_epsilon_transitions(&rxb->rx); + + /* For compatability reasons, we need to shove the + * compiled nfa into one chunk of malloced memory. + */ + rxb->rx.reserved = (sizeof(params[0]) * paramc + + + rx_sizeof_bitset(rxb-> + rx.local_cset_size)); #ifdef RX_DEBUG - if (rx_debug_compile) - { - dbug_rxb = rxb; - fputs ("...which cooks down (uncompactified) to: \n", stdout); - print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout); - } -#endif - if (!rx_compactify_nfa (&rxb->rx, &mem, &size)) - return REG_ESPACE; - rxb->buffer = mem; - rxb->allocated = size; - rxb->rx.buffer = mem; - rxb->rx.allocated = size; - perm_mem = ((char *)rxb->rx.buffer - + rxb->rx.allocated - rxb->rx.reserved); - rxb->se_params = ((struct re_se_params *)perm_mem); - bcopy (params, rxb->se_params, iterator_size); - perm_mem += iterator_size; - rxb->fastset = (rx_Bitset) perm_mem; - rxb->start = rx_id_to_nfa_state (&rxb->rx, start_id); - } - rx_bitset_null (rxb->rx.local_cset_size, rxb->fastset); - rxb->can_match_empty = compute_fastset (rxb, orig_rexp); - rxb->match_regs_on_stack = - registers_on_stack (rxb, orig_rexp, 0, params); - rxb->search_regs_on_stack = - registers_on_stack (rxb, fewer_side_effects, 0, params); - if (rxb->can_match_empty) - rx_bitset_universe (rxb->rx.local_cset_size, rxb->fastset); - rxb->is_anchored = is_anchored (orig_rexp, (rx_side_effect) re_se_hat); - rxb->begbuf_only = is_anchored (orig_rexp, - (rx_side_effect) re_se_begbuf); - } - rx_free_rexp (&rxb->rx, rexp); - if (params) - free (params); + if (rx_debug_compile) { + dbug_rxb = rxb; + fputs("...which cooks down (uncompactified) to: \n", + stdout); + print_nfa(&rxb->rx, rxb->rx.nfa_states, re_seprint, + stdout); + } +#endif + if (!rx_compactify_nfa(&rxb->rx, &mem, &size)) + return REG_ESPACE; + rxb->buffer = mem; + rxb->allocated = size; + rxb->rx.buffer = mem; + rxb->rx.allocated = size; + perm_mem = ((char *) rxb->rx.buffer + + rxb->rx.allocated - rxb->rx.reserved); + rxb->se_params = ((struct re_se_params *) perm_mem); + bcopy(params, rxb->se_params, iterator_size); + perm_mem += iterator_size; + rxb->fastset = (rx_Bitset) perm_mem; + rxb->start = rx_id_to_nfa_state(&rxb->rx, start_id); + } + rx_bitset_null(rxb->rx.local_cset_size, rxb->fastset); + rxb->can_match_empty = compute_fastset(rxb, orig_rexp); + rxb->match_regs_on_stack = + registers_on_stack(rxb, orig_rexp, 0, params); + rxb->search_regs_on_stack = + registers_on_stack(rxb, fewer_side_effects, 0, params); + if (rxb->can_match_empty) + rx_bitset_universe(rxb->rx.local_cset_size, rxb->fastset); + rxb->is_anchored = + is_anchored(orig_rexp, (rx_side_effect) re_se_hat); + rxb->begbuf_only = + is_anchored(orig_rexp, (rx_side_effect) re_se_begbuf); + } + rx_free_rexp(&rxb->rx, rexp); + if (params) + free(params); #ifdef RX_DEBUG - if (rx_debug_compile) - { - dbug_rxb = rxb; - fputs ("...which cooks down to: \n", stdout); - print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout); - } + if (rx_debug_compile) { + dbug_rxb = rxb; + fputs("...which cooks down to: \n", stdout); + print_nfa(&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout); + } #endif - } - return REG_NOERROR; + } + return REG_NOERROR; } - + /* This table gives an error message for each of the error codes listed in regex.h. Obviously the order here has to be same as there. */ -__const__ char * rx_error_msg[] = -{ 0, /* REG_NOERROR */ - "No match", /* REG_NOMATCH */ - "Invalid regular expression", /* REG_BADPAT */ - "Invalid collation character", /* REG_ECOLLATE */ - "Invalid character class name", /* REG_ECTYPE */ - "Trailing backslash", /* REG_EESCAPE */ - "Invalid back reference", /* REG_ESUBREG */ - "Unmatched [ or [^", /* REG_EBRACK */ - "Unmatched ( or \\(", /* REG_EPAREN */ - "Unmatched \\{", /* REG_EBRACE */ - "Invalid content of \\{\\}", /* REG_BADBR */ - "Invalid range end", /* REG_ERANGE */ - "Memory exhausted", /* REG_ESPACE */ - "Invalid preceding regular expression", /* REG_BADRPT */ - "Premature end of regular expression", /* REG_EEND */ - "Regular expression too big", /* REG_ESIZE */ - "Unmatched ) or \\)", /* REG_ERPAREN */ +__const__ char *rx_error_msg[] = { 0, /* REG_NOERROR */ + "No match", /* REG_NOMATCH */ + "Invalid regular expression", /* REG_BADPAT */ + "Invalid collation character", /* REG_ECOLLATE */ + "Invalid character class name", /* REG_ECTYPE */ + "Trailing backslash", /* REG_EESCAPE */ + "Invalid back reference", /* REG_ESUBREG */ + "Unmatched [ or [^", /* REG_EBRACK */ + "Unmatched ( or \\(", /* REG_EPAREN */ + "Unmatched \\{", /* REG_EBRACE */ + "Invalid content of \\{\\}", /* REG_BADBR */ + "Invalid range end", /* REG_ERANGE */ + "Memory exhausted", /* REG_ESPACE */ + "Invalid preceding regular expression", /* REG_BADRPT */ + "Premature end of regular expression", /* REG_EEND */ + "Regular expression too big", /* REG_ESIZE */ + "Unmatched ) or \\)", /* REG_ERPAREN */ }; - -char rx_slowmap [256] = -{ - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, - 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + +char rx_slowmap[256] = { + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, }; #ifdef __STDC__ -RX_DECL void -rx_blow_up_fastmap (struct re_pattern_buffer * rxb) +RX_DECL void rx_blow_up_fastmap(struct re_pattern_buffer *rxb) #else -RX_DECL void -rx_blow_up_fastmap (rxb) - struct re_pattern_buffer * rxb; +RX_DECL void rx_blow_up_fastmap(rxb) +struct re_pattern_buffer *rxb; #endif { - int x; - for (x = 0; x < 256; ++x) /* &&&& 3.6 % */ - rxb->fastmap [x] = !!RX_bitset_member (rxb->fastset, x); - rxb->fastmap_accurate = 1; + int x; + + for (x = 0; x < 256; ++x) /* &&&& 3.6 % */ + rxb->fastmap[x] = !!RX_bitset_member(rxb->fastset, x); + rxb->fastmap_accurate = 1; } + - #if !defined(REGEX_MALLOC) && !defined(__GNUC__) #define RE_SEARCH_2_FN inner_re_search_2 #define RE_S2_QUAL static #else #define RE_SEARCH_2_FN re_search_2 -#define RE_S2_QUAL +#define RE_S2_QUAL #endif -struct re_search_2_closure -{ - __const__ char * string1; - int size1; - __const__ char * string2; - int size2; +struct re_search_2_closure { + __const__ char *string1; + int size1; + __const__ char *string2; + int size2; }; RE_S2_QUAL int - RE_SEARCH_2_FN (struct re_pattern_buffer *, - __const__ char *, - int, __const__ char *, int, int, - int, struct re_registers *, int); -int re_rx_search (struct re_pattern_buffer *, int, - int, int, int, rx_get_burst_fn, - rx_back_check_fn, rx_fetch_char_fn, - void *, struct re_registers *, - struct rx_search_state *, - struct rx_search_state *); +RE_SEARCH_2_FN(struct re_pattern_buffer *, + __const__ char *, + int, __const__ char *, int, int, + + int, struct re_registers *, int); +int re_rx_search(struct re_pattern_buffer *, int, + int, int, int, rx_get_burst_fn, + rx_back_check_fn, rx_fetch_char_fn, + void *, struct re_registers *, + + struct rx_search_state *, struct rx_search_state *); #if !defined(REGEX_MALLOC) && !defined(__GNUC__) -int re_search_2 (struct re_pattern_buffer *, - __const__ char *, int, - __const__ char *, int, - int, int, struct re_registers *, - int); -#endif -int re_search (struct re_pattern_buffer *, - __const__ char *, int, int, int, - struct re_registers *); -int re_match_2 (struct re_pattern_buffer *, - __const__ char *, int, - __const__ char *, int, - int, struct re_registers *, int); -int re_match (struct re_pattern_buffer *, - __const__ char *, int, int, - struct re_registers *); -reg_syntax_t re_set_syntax (reg_syntax_t); -void re_set_registers (struct re_pattern_buffer *, - struct re_registers *, unsigned, - regoff_t *, regoff_t *); -static int cplx_se_sublist_len (struct rx_se_list *); -static int posix_se_list_order (struct rx *, struct rx_se_list *, - struct rx_se_list *); +int re_search_2(struct re_pattern_buffer *, + __const__ char *, int, + __const__ char *, int, + + int, int, struct re_registers *, int); +#endif +int re_search(struct re_pattern_buffer *, + + __const__ char *, int, int, int, struct re_registers *); +int re_match_2(struct re_pattern_buffer *, + __const__ char *, int, + __const__ char *, int, int, struct re_registers *, int); +int re_match(struct re_pattern_buffer *, + + __const__ char *, int, int, struct re_registers *); +reg_syntax_t re_set_syntax(reg_syntax_t); +void re_set_registers(struct re_pattern_buffer *, + struct re_registers *, unsigned, + regoff_t *, regoff_t *); +static int cplx_se_sublist_len(struct rx_se_list *); +static int posix_se_list_order(struct rx *, struct rx_se_list *, + + struct rx_se_list *); __const__ char - *re_compile_pattern (__const__ char *, int, - struct re_pattern_buffer *); -int re_compile_fastmap (struct re_pattern_buffer *); -char *re_comp (__const__ char *); -int re_exec (__const__ char *); -int regcomp (regex_t *, __const__ char *, int); -int regexec (__const__ regex_t *, - __const__ char *, size_t, - regmatch_t pmatch[], int); -size_t regerror (int, __const__ regex_t *, - char *, size_t); +*re_compile_pattern(__const__ char *, int, struct re_pattern_buffer *); +int re_compile_fastmap(struct re_pattern_buffer *); +char *re_comp(__const__ char *); +int re_exec(__const__ char *); +int regcomp(regex_t *, __const__ char *, int); +int regexec(__const__ regex_t *, + __const__ char *, size_t, regmatch_t pmatch[], int); +size_t regerror(int, __const__ regex_t *, char *, size_t); #ifdef __STDC__ static __inline__ enum rx_get_burst_return -re_search_2_get_burst ( struct rx_string_position * pos, - void * vclosure, int stop ) +re_search_2_get_burst(struct rx_string_position *pos, + void *vclosure, int stop) #else static __inline__ enum rx_get_burst_return -re_search_2_get_burst (pos, vclosure, stop) - struct rx_string_position * pos; - void * vclosure; - int stop; -#endif -{ - struct re_search_2_closure * closure; - closure = (struct re_search_2_closure *)vclosure; - if (!closure->string2) - { - int inset; - - inset = pos->pos - pos->string; - if ((inset < -1) || (inset > closure->size1)) - return rx_get_burst_no_more; - else - { - pos->pos = (__const__ unsigned char *) closure->string1 + inset; - pos->string = (__const__ unsigned char *) closure->string1; - pos->size = closure->size1; - pos->end = ((__const__ unsigned char *) - MIN(closure->string1 + closure->size1, - closure->string1 + stop)); - pos->offset = 0; - return ((pos->pos < pos->end) - ? rx_get_burst_ok - : rx_get_burst_no_more); - } - } - else if (!closure->string1) - { - int inset; - - inset = pos->pos - pos->string; - pos->pos = (__const__ unsigned char *) closure->string2 + inset; - pos->string = (__const__ unsigned char *) closure->string2; - pos->size = closure->size2; - pos->end = ((__const__ unsigned char *) - MIN(closure->string2 + closure->size2, - closure->string2 + stop)); - pos->offset = 0; - return ((pos->pos < pos->end) - ? rx_get_burst_ok - : rx_get_burst_no_more); - } - else - { - int inset; - - inset = pos->pos - pos->string + pos->offset; - if (inset < closure->size1) - { - pos->pos = (__const__ unsigned char *) closure->string1 + inset; - pos->string = (__const__ unsigned char *) closure->string1; - pos->size = closure->size1; - pos->end = ((__const__ unsigned char *) - MIN(closure->string1 + closure->size1, - closure->string1 + stop)); - pos->offset = 0; - return rx_get_burst_ok; - } - else - { - pos->pos = ((__const__ unsigned char *) - closure->string2 + inset - closure->size1); - pos->string = (__const__ unsigned char *) closure->string2; - pos->size = closure->size2; - pos->end = ((__const__ unsigned char *) - MIN(closure->string2 + closure->size2, - closure->string2 + stop - closure->size1)); - pos->offset = closure->size1; - return ((pos->pos < pos->end) - ? rx_get_burst_ok - : rx_get_burst_no_more); +re_search_2_get_burst(pos, vclosure, stop) +struct rx_string_position *pos; +void *vclosure; +int stop; +#endif +{ + struct re_search_2_closure *closure; + + closure = (struct re_search_2_closure *) vclosure; + if (!closure->string2) { + int inset; + + inset = pos->pos - pos->string; + if ((inset < -1) || (inset > closure->size1)) + return rx_get_burst_no_more; + else { + pos->pos = + (__const__ unsigned char *) closure->string1 + inset; + pos->string = (__const__ unsigned char *) closure->string1; + pos->size = closure->size1; + pos->end = ((__const__ unsigned char *) + MIN(closure->string1 + closure->size1, + closure->string1 + stop)); + pos->offset = 0; + return ((pos->pos < pos->end) + ? rx_get_burst_ok : rx_get_burst_no_more); + } + } else if (!closure->string1) { + int inset; + + inset = pos->pos - pos->string; + pos->pos = (__const__ unsigned char *) closure->string2 + inset; + pos->string = (__const__ unsigned char *) closure->string2; + pos->size = closure->size2; + pos->end = ((__const__ unsigned char *) + MIN(closure->string2 + closure->size2, + closure->string2 + stop)); + pos->offset = 0; + return ((pos->pos < pos->end) + ? rx_get_burst_ok : rx_get_burst_no_more); + } else { + int inset; + + inset = pos->pos - pos->string + pos->offset; + if (inset < closure->size1) { + pos->pos = + (__const__ unsigned char *) closure->string1 + inset; + pos->string = (__const__ unsigned char *) closure->string1; + pos->size = closure->size1; + pos->end = ((__const__ unsigned char *) + MIN(closure->string1 + closure->size1, + closure->string1 + stop)); + pos->offset = 0; + return rx_get_burst_ok; + } else { + pos->pos = ((__const__ unsigned char *) + closure->string2 + inset - closure->size1); + pos->string = (__const__ unsigned char *) closure->string2; + pos->size = closure->size2; + pos->end = ((__const__ unsigned char *) + MIN(closure->string2 + closure->size2, + closure->string2 + stop - closure->size1)); + pos->offset = closure->size1; + return ((pos->pos < pos->end) + ? rx_get_burst_ok : rx_get_burst_no_more); + } } - } } #ifdef __STDC__ static __inline__ enum rx_back_check_return -re_search_2_back_check ( struct rx_string_position * pos, - int lparen, int rparen, unsigned char * translate, - void * vclosure, int stop ) +re_search_2_back_check(struct rx_string_position *pos, + int lparen, int rparen, unsigned char *translate, + void *vclosure, int stop) #else static __inline__ enum rx_back_check_return -re_search_2_back_check (pos, lparen, rparen, translate, vclosure, stop) - struct rx_string_position * pos; - int lparen; - int rparen; - unsigned char * translate; - void * vclosure; - int stop; -#endif -{ - struct rx_string_position there; - struct rx_string_position past; - - there = *pos; - there.pos = there.string + lparen - there.offset; - re_search_2_get_burst (&there, vclosure, stop); - - past = *pos; - past.pos = past.string + rparen - there.offset; - re_search_2_get_burst (&past, vclosure, stop); - - ++pos->pos; - re_search_2_get_burst (pos, vclosure, stop); - - while ( (there.pos != past.pos) - && (pos->pos != pos->end)) - if (TRANSLATE(*there.pos) != TRANSLATE(*pos->pos)) - return rx_back_check_fail; - else - { - ++there.pos; +re_search_2_back_check(pos, lparen, rparen, translate, vclosure, stop) +struct rx_string_position *pos; +int lparen; +int rparen; +unsigned char *translate; +void *vclosure; +int stop; +#endif +{ + struct rx_string_position there; + struct rx_string_position past; + + there = *pos; + there.pos = there.string + lparen - there.offset; + re_search_2_get_burst(&there, vclosure, stop); + + past = *pos; + past.pos = past.string + rparen - there.offset; + re_search_2_get_burst(&past, vclosure, stop); + ++pos->pos; - if (there.pos == there.end) - re_search_2_get_burst (&there, vclosure, stop); - if (pos->pos == pos->end) - re_search_2_get_burst (pos, vclosure, stop); - } + re_search_2_get_burst(pos, vclosure, stop); + + while ((there.pos != past.pos) + && (pos->pos != pos->end)) + if (TRANSLATE(*there.pos) != TRANSLATE(*pos->pos)) + return rx_back_check_fail; + else { + ++there.pos; + ++pos->pos; + if (there.pos == there.end) + re_search_2_get_burst(&there, vclosure, stop); + if (pos->pos == pos->end) + re_search_2_get_burst(pos, vclosure, stop); + } - if (there.pos != past.pos) - return rx_back_check_fail; - --pos->pos; - re_search_2_get_burst (pos, vclosure, stop); - return rx_back_check_pass; + if (there.pos != past.pos) + return rx_back_check_fail; + --pos->pos; + re_search_2_get_burst(pos, vclosure, stop); + return rx_back_check_pass; } #ifdef __STDC__ static __inline__ int -re_search_2_fetch_char ( struct rx_string_position * pos, int offset, - void * app_closure, int stop ) +re_search_2_fetch_char(struct rx_string_position *pos, int offset, + void *app_closure, int stop) #else static __inline__ int -re_search_2_fetch_char (pos, offset, app_closure, stop) - struct rx_string_position * pos; - int offset; - void * app_closure; - int stop; -#endif -{ - struct re_search_2_closure * closure; - closure = (struct re_search_2_closure *)app_closure; - if (offset == 0) - { - if (pos->pos >= pos->string) - return *pos->pos; - else - { - if ( (pos->string == (__const__ unsigned char *) closure->string2) - && (closure->string1) - && (closure->size1)) - return closure->string1[closure->size1 - 1]; - else - return 0; /* sure, why not. */ +re_search_2_fetch_char(pos, offset, app_closure, stop) +struct rx_string_position *pos; +int offset; +void *app_closure; +int stop; +#endif +{ + struct re_search_2_closure *closure; + + closure = (struct re_search_2_closure *) app_closure; + if (offset == 0) { + if (pos->pos >= pos->string) + return *pos->pos; + else { + if ( + (pos->string == + (__const__ unsigned char *) closure->string2) + && (closure->string1) && (closure->size1)) + return closure->string1[closure->size1 - 1]; + else + return 0; /* sure, why not. */ + } } - } - if (pos->pos == pos->end) - return *closure->string2; - else + if (pos->pos == pos->end) + return *closure->string2; + else #if 0 - return pos->pos[1]; + return pos->pos[1]; #else - return pos->pos[offset]; /* FIXME */ + return pos->pos[offset]; /* FIXME */ #endif } #ifdef __STDC__ RE_S2_QUAL int -RE_SEARCH_2_FN (struct re_pattern_buffer *rxb, - __const__ char * string1, int size1, - __const__ char * string2, int size2, - int startpos, int range, - struct re_registers *regs, - int stop) +RE_SEARCH_2_FN(struct re_pattern_buffer *rxb, + __const__ char *string1, int size1, + __const__ char *string2, int size2, + int startpos, int range, + struct re_registers *regs, int stop) #else RE_S2_QUAL int -RE_SEARCH_2_FN (rxb, - string1, size1, string2, size2, startpos, range, regs, stop) - struct re_pattern_buffer *rxb; - __const__ char * string1; - int size1; - __const__ char * string2; - int size2; - int startpos; - int range; - struct re_registers *regs; - int stop; -#endif -{ - int answer; - struct re_search_2_closure closure; - closure.string1 = string1; - closure.size1 = size1; - closure.string2 = string2; - closure.size2 = size2; - answer = rx_search (rxb, startpos, range, stop, size1 + size2, - re_search_2_get_burst, - re_search_2_back_check, - re_search_2_fetch_char, - (void *)&closure, - regs, - 0, - 0); - switch (answer) - { - case rx_search_continuation: - abort (); - case rx_search_error: - return -2; - case rx_search_soft_fail: - case rx_search_fail: - return -1; - default: - return answer; - } +RE_SEARCH_2_FN(rxb, + string1, size1, string2, size2, startpos, range, regs, stop) +struct re_pattern_buffer *rxb; +__const__ char *string1; +int size1; +__const__ char *string2; +int size2; +int startpos; +int range; +struct re_registers *regs; +int stop; +#endif +{ + int answer; + struct re_search_2_closure closure; + + closure.string1 = string1; + closure.size1 = size1; + closure.string2 = string2; + closure.size2 = size2; + answer = rx_search(rxb, startpos, range, stop, size1 + size2, + re_search_2_get_burst, + re_search_2_back_check, + re_search_2_fetch_char, + (void *) &closure, regs, 0, 0); + switch (answer) { + case rx_search_continuation: + abort(); + case rx_search_error: + return -2; + case rx_search_soft_fail: + case rx_search_fail: + return -1; + default: + return answer; + } } /* Export rx_search to callers outside this file. */ #ifdef __STDC__ int -re_rx_search ( struct re_pattern_buffer * rxb, int startpos, int range, - int stop, int total_size, rx_get_burst_fn get_burst, - rx_back_check_fn back_check, rx_fetch_char_fn fetch_char, - void * app_closure, struct re_registers * regs, - struct rx_search_state * resume_state, - struct rx_search_state * save_state ) +re_rx_search(struct re_pattern_buffer *rxb, int startpos, int range, + int stop, int total_size, rx_get_burst_fn get_burst, + rx_back_check_fn back_check, rx_fetch_char_fn fetch_char, + void *app_closure, struct re_registers *regs, + struct rx_search_state *resume_state, + struct rx_search_state *save_state) #else int -re_rx_search (rxb, startpos, range, stop, total_size, - get_burst, back_check, fetch_char, - app_closure, regs, resume_state, save_state) - struct re_pattern_buffer * rxb; - int startpos; - int range; - int stop; - int total_size; - rx_get_burst_fn get_burst; - rx_back_check_fn back_check; - rx_fetch_char_fn fetch_char; - void * app_closure; - struct re_registers * regs; - struct rx_search_state * resume_state; - struct rx_search_state * save_state; -#endif -{ - return rx_search (rxb, startpos, range, stop, total_size, - get_burst, back_check, fetch_char, app_closure, - regs, resume_state, save_state); +re_rx_search(rxb, startpos, range, stop, total_size, + get_burst, back_check, fetch_char, + app_closure, regs, resume_state, save_state) +struct re_pattern_buffer *rxb; +int startpos; +int range; +int stop; +int total_size; +rx_get_burst_fn get_burst; +rx_back_check_fn back_check; +rx_fetch_char_fn fetch_char; +void *app_closure; +struct re_registers *regs; +struct rx_search_state *resume_state; +struct rx_search_state *save_state; +#endif +{ + return rx_search(rxb, startpos, range, stop, total_size, + get_burst, back_check, fetch_char, app_closure, + regs, resume_state, save_state); } #if !defined(REGEX_MALLOC) && !defined(__GNUC__) #ifdef __STDC__ int -re_search_2 (struct re_pattern_buffer *rxb, - __const__ char * string1, int size1, - __const__ char * string2, int size2, - int startpos, int range, - struct re_registers *regs, - int stop) +re_search_2(struct re_pattern_buffer *rxb, + __const__ char *string1, int size1, + __const__ char *string2, int size2, + int startpos, int range, struct re_registers *regs, int stop) #else int -re_search_2 (rxb, string1, size1, string2, size2, startpos, range, regs, stop) - struct re_pattern_buffer *rxb; - __const__ char * string1; - int size1; - __const__ char * string2; - int size2; - int startpos; - int range; - struct re_registers *regs; - int stop; +re_search_2(rxb, string1, size1, string2, size2, startpos, range, regs, + stop) +struct re_pattern_buffer *rxb; +__const__ char *string1; +int size1; +__const__ char *string2; +int size2; +int startpos; +int range; +struct re_registers *regs; +int stop; #endif { - int ret; - ret = inner_re_search_2 (rxb, string1, size1, string2, size2, startpos, - range, regs, stop); - alloca (0); - return ret; + int ret; + + ret = inner_re_search_2(rxb, string1, size1, string2, size2, startpos, + range, regs, stop); + alloca(0); + return ret; } #endif @@ -6873,93 +6651,88 @@ re_search_2 (rxb, string1, size1, string2, size2, startpos, range, regs, stop) #ifdef __STDC__ int -re_search (struct re_pattern_buffer * rxb, __const__ char *string, - int size, int startpos, int range, - struct re_registers *regs) +re_search(struct re_pattern_buffer *rxb, __const__ char *string, + int size, int startpos, int range, struct re_registers *regs) #else -int -re_search (rxb, string, size, startpos, range, regs) - struct re_pattern_buffer * rxb; - __const__ char * string; - int size; - int startpos; - int range; - struct re_registers *regs; +int re_search(rxb, string, size, startpos, range, regs) +struct re_pattern_buffer *rxb; +__const__ char *string; +int size; +int startpos; +int range; +struct re_registers *regs; #endif { - return re_search_2 (rxb, 0, 0, string, size, startpos, range, regs, size); + return re_search_2(rxb, 0, 0, string, size, startpos, range, regs, + size); } #ifdef __STDC__ int -re_match_2 (struct re_pattern_buffer * rxb, - __const__ char * string1, int size1, - __const__ char * string2, int size2, - int pos, struct re_registers *regs, int stop) -#else -int -re_match_2 (rxb, string1, size1, string2, size2, pos, regs, stop) - struct re_pattern_buffer * rxb; - __const__ char * string1; - int size1; - __const__ char * string2; - int size2; - int pos; - struct re_registers *regs; - int stop; -#endif -{ - struct re_registers some_regs; - regoff_t start; - regoff_t end; - int srch; - int save = rxb->regs_allocated; - struct re_registers * regs_to_pass = regs; - char *old_fastmap = rxb->fastmap; - - if (!regs) - { - some_regs.start = &start; - some_regs.end = &end; - some_regs.num_regs = 1; - regs_to_pass = &some_regs; - rxb->regs_allocated = REGS_FIXED; - } +re_match_2(struct re_pattern_buffer *rxb, + __const__ char *string1, int size1, + __const__ char *string2, int size2, + int pos, struct re_registers *regs, int stop) +#else +int re_match_2(rxb, string1, size1, string2, size2, pos, regs, stop) +struct re_pattern_buffer *rxb; +__const__ char *string1; +int size1; +__const__ char *string2; +int size2; +int pos; +struct re_registers *regs; +int stop; +#endif +{ + struct re_registers some_regs; + regoff_t start; + regoff_t end; + int srch; + int save = rxb->regs_allocated; + struct re_registers *regs_to_pass = regs; + char *old_fastmap = rxb->fastmap; + + if (!regs) { + some_regs.start = &start; + some_regs.end = &end; + some_regs.num_regs = 1; + regs_to_pass = &some_regs; + rxb->regs_allocated = REGS_FIXED; + } - rxb->fastmap = NULL; - srch = re_search_2 (rxb, string1, size1, string2, size2, - pos, 1, regs_to_pass, stop); - rxb->fastmap = old_fastmap; - if (regs_to_pass != regs) - rxb->regs_allocated = save; - if (srch < 0) - return srch; - return regs_to_pass->end[0] - regs_to_pass->start[0]; + rxb->fastmap = NULL; + srch = re_search_2(rxb, string1, size1, string2, size2, + pos, 1, regs_to_pass, stop); + rxb->fastmap = old_fastmap; + if (regs_to_pass != regs) + rxb->regs_allocated = save; + if (srch < 0) + return srch; + return regs_to_pass->end[0] - regs_to_pass->start[0]; } /* re_match is like re_match_2 except it takes only a single string. */ #ifdef __STDC__ int -re_match (struct re_pattern_buffer * rxb, - __const__ char * string, - int size, int pos, - struct re_registers *regs) +re_match(struct re_pattern_buffer *rxb, + __const__ char *string, + int size, int pos, struct re_registers *regs) #else -int -re_match (rxb, string, size, pos, regs) - struct re_pattern_buffer * rxb; - __const__ char *string; - int size; - int pos; - struct re_registers *regs; +int re_match(rxb, string, size, pos, regs) +struct re_pattern_buffer *rxb; +__const__ char *string; +int size; +int pos; +struct re_registers *regs; #endif { - return re_match_2 (rxb, string, size, 0, 0, pos, regs, size); + return re_match_2(rxb, string, size, 0, 0, pos, regs, size); } + - /* Set by `re_set_syntax' to the current regexp syntax to recognize. Can also be assigned to arbitrarily: each pattern buffer stores its own syntax, so it can be changed between regex compilations. */ @@ -6974,18 +6747,16 @@ reg_syntax_t re_syntax_options = RE_SYNTAX_EMACS; defined in regex.h. We return the old syntax. */ #ifdef __STDC__ -reg_syntax_t -re_set_syntax (reg_syntax_t syntax) +reg_syntax_t re_set_syntax(reg_syntax_t syntax) #else -reg_syntax_t -re_set_syntax (syntax) - reg_syntax_t syntax; +reg_syntax_t re_set_syntax(syntax) +reg_syntax_t syntax; #endif { - reg_syntax_t ret = re_syntax_options; + reg_syntax_t ret = re_syntax_options; - re_syntax_options = syntax; - return ret; + re_syntax_options = syntax; + return ret; } @@ -7004,127 +6775,116 @@ re_set_syntax (syntax) #ifdef __STDC__ void -re_set_registers (struct re_pattern_buffer *bufp, - struct re_registers *regs, - unsigned num_regs, - regoff_t * starts, regoff_t * ends) -#else -void -re_set_registers (bufp, regs, num_regs, starts, ends) - struct re_pattern_buffer *bufp; - struct re_registers *regs; - unsigned num_regs; - regoff_t * starts; - regoff_t * ends; -#endif -{ - if (num_regs) - { - bufp->regs_allocated = REGS_REALLOCATE; - regs->num_regs = num_regs; - regs->start = starts; - regs->end = ends; - } - else - { - bufp->regs_allocated = REGS_UNALLOCATED; - regs->num_regs = 0; - regs->start = regs->end = (regoff_t) 0; - } +re_set_registers(struct re_pattern_buffer *bufp, + struct re_registers *regs, + unsigned num_regs, regoff_t * starts, regoff_t * ends) +#else +void re_set_registers(bufp, regs, num_regs, starts, ends) +struct re_pattern_buffer *bufp; +struct re_registers *regs; +unsigned num_regs; +regoff_t *starts; +regoff_t *ends; +#endif +{ + if (num_regs) { + bufp->regs_allocated = REGS_REALLOCATE; + regs->num_regs = num_regs; + regs->start = starts; + regs->end = ends; + } else { + bufp->regs_allocated = REGS_UNALLOCATED; + regs->num_regs = 0; + regs->start = regs->end = (regoff_t) 0; + } } + - #ifdef __STDC__ -static int -cplx_se_sublist_len (struct rx_se_list * list) +static int cplx_se_sublist_len(struct rx_se_list *list) #else -static int -cplx_se_sublist_len (list) - struct rx_se_list * list; +static int cplx_se_sublist_len(list) +struct rx_se_list *list; #endif { - int x = 0; - while (list) - { - if ((long)list->car >= 0) - ++x; - list = list->cdr; - } - return x; + int x = 0; + + while (list) { + if ((long) list->car >= 0) + ++x; + list = list->cdr; + } + return x; } /* For rx->se_list_cmp */ #ifdef __STDC__ -static int -posix_se_list_order (struct rx * rx, - struct rx_se_list * a, struct rx_se_list * b) -#else -static int -posix_se_list_order (rx, a, b) - struct rx * rx; - struct rx_se_list * a; - struct rx_se_list * b; -#endif -{ - int al = cplx_se_sublist_len (a); - int bl = cplx_se_sublist_len (b); - - if (!al && !bl) - return ((a == b) - ? 0 - : ((a < b) ? -1 : 1)); - - else if (!al) - return -1; - - else if (!bl) - return 1; - - else - { - rx_side_effect * av = ((rx_side_effect *) - alloca (sizeof (rx_side_effect) * (al + 1))); - rx_side_effect * bv = ((rx_side_effect *) - alloca (sizeof (rx_side_effect) * (bl + 1))); - struct rx_se_list * ap = a; - struct rx_se_list * bp = b; - int ai, bi; - - for (ai = al - 1; ai >= 0; --ai) - { - while ((long)ap->car < 0) - ap = ap->cdr; - av[ai] = ap->car; - ap = ap->cdr; - } - av[al] = (rx_side_effect)-2; - for (bi = bl - 1; bi >= 0; --bi) - { - while ((long)bp->car < 0) - bp = bp->cdr; - bv[bi] = bp->car; - bp = bp->cdr; - } - bv[bl] = (rx_side_effect)-1; +static int +posix_se_list_order(struct rx *rx, + struct rx_se_list *a, struct rx_se_list *b) +#else +static int posix_se_list_order(rx, a, b) +struct rx *rx; +struct rx_se_list *a; +struct rx_se_list *b; +#endif +{ + int al = cplx_se_sublist_len(a); + int bl = cplx_se_sublist_len(b); + + if (!al && !bl) + return ((a == b) + ? 0 : ((a < b) ? -1 : 1)); + + else if (!al) + return -1; + + else if (!bl) + return 1; + + else { + rx_side_effect *av = ((rx_side_effect *) + alloca(sizeof(rx_side_effect) * (al + 1))); + rx_side_effect *bv = ((rx_side_effect *) + alloca(sizeof(rx_side_effect) * (bl + 1))); + struct rx_se_list *ap = a; + struct rx_se_list *bp = b; + int ai, bi; + + for (ai = al - 1; ai >= 0; --ai) { + while ((long) ap->car < 0) + ap = ap->cdr; + av[ai] = ap->car; + ap = ap->cdr; + } + av[al] = (rx_side_effect) - 2; + for (bi = bl - 1; bi >= 0; --bi) { + while ((long) bp->car < 0) + bp = bp->cdr; + bv[bi] = bp->car; + bp = bp->cdr; + } + bv[bl] = (rx_side_effect) - 1; - { - int ret; - int x = 0; - while (av[x] == bv[x]) - ++x; - ret = (((unsigned *)(av[x]) < (unsigned *)(bv[x])) ? -1 : 1); - return ret; - } - } + { + int ret; + int x = 0; + + while (av[x] == bv[x]) + ++x; + ret = (((unsigned *) (av[x]) < (unsigned *) (bv[x])) ? -1 : 1); + return ret; + } + } } + - /* re_compile_pattern is the GNU regular expression compiler: it compiles PATTERN (of length SIZE) and puts the result in RXB. Returns 0 if the pattern was valid, otherwise an error string. @@ -7135,66 +6895,62 @@ posix_se_list_order (rx, a, b) We call rx_compile to do the actual compilation. */ #ifdef __STDC__ -__const__ char * -re_compile_pattern (__const__ char *pattern, - int length, - struct re_pattern_buffer * rxb) +__const__ char *re_compile_pattern(__const__ char *pattern, + int length, + struct re_pattern_buffer *rxb) #else -__const__ char * -re_compile_pattern (pattern, length, rxb) - __const__ char *pattern; - int length; - struct re_pattern_buffer * rxb; +__const__ char *re_compile_pattern(pattern, length, rxb) +__const__ char *pattern; +int length; +struct re_pattern_buffer *rxb; #endif { - reg_errcode_t ret; + reg_errcode_t ret; + + /* GNU code is written to assume at least RE_NREGS registers will be set + (and at least one extra will be -1). */ + rxb->regs_allocated = REGS_UNALLOCATED; - /* GNU code is written to assume at least RE_NREGS registers will be set - (and at least one extra will be -1). */ - rxb->regs_allocated = REGS_UNALLOCATED; + /* And GNU code determines whether or not to get register information + by passing null for the REGS argument to re_match, etc., not by + setting no_sub. */ + rxb->no_sub = 0; - /* And GNU code determines whether or not to get register information - by passing null for the REGS argument to re_match, etc., not by - setting no_sub. */ - rxb->no_sub = 0; + rxb->rx.local_cset_size = 256; - rxb->rx.local_cset_size = 256; + /* Match anchors at newline. */ + rxb->newline_anchor = 1; - /* Match anchors at newline. */ - rxb->newline_anchor = 1; - - rxb->re_nsub = 0; - rxb->start = 0; - rxb->se_params = 0; - rxb->rx.nodec = 0; - rxb->rx.epsnodec = 0; - rxb->rx.instruction_table = 0; - rxb->rx.nfa_states = 0; - rxb->rx.se_list_cmp = posix_se_list_order; - rxb->rx.start_set = 0; + rxb->re_nsub = 0; + rxb->start = 0; + rxb->se_params = 0; + rxb->rx.nodec = 0; + rxb->rx.epsnodec = 0; + rxb->rx.instruction_table = 0; + rxb->rx.nfa_states = 0; + rxb->rx.se_list_cmp = posix_se_list_order; + rxb->rx.start_set = 0; - ret = rx_compile (pattern, length, re_syntax_options, rxb); - alloca (0); - return rx_error_msg[(int) ret]; + ret = rx_compile(pattern, length, re_syntax_options, rxb); + alloca(0); + return rx_error_msg[(int) ret]; } #ifdef __STDC__ -int -re_compile_fastmap (struct re_pattern_buffer * rxb) +int re_compile_fastmap(struct re_pattern_buffer *rxb) #else -int -re_compile_fastmap (rxb) - struct re_pattern_buffer * rxb; +int re_compile_fastmap(rxb) +struct re_pattern_buffer *rxb; #endif { - rx_blow_up_fastmap (rxb); - return 0; + rx_blow_up_fastmap(rxb); + return 0; } + - /* Entry points compatible with 4.2 BSD regex library. We don't define them if this is an Emacs or POSIX compilation. */ @@ -7204,73 +6960,69 @@ re_compile_fastmap (rxb) static struct re_pattern_buffer rx_comp_buf; #ifdef __STDC__ -char * -re_comp (__const__ char *s) +char *re_comp(__const__ char *s) #else -char * -re_comp (s) - __const__ char *s; +char *re_comp(s) +__const__ char *s; #endif { - reg_errcode_t ret; + reg_errcode_t ret; - if (!s || (*s == '\0')) - { - if (!rx_comp_buf.buffer) - return "No previous regular expression"; - return 0; - } + if (!s || (*s == '\0')) { + if (!rx_comp_buf.buffer) + return "No previous regular expression"; + return 0; + } - if (!rx_comp_buf.fastmap) - { - rx_comp_buf.fastmap = (char *) malloc (1 << CHARBITS); - if (!rx_comp_buf.fastmap) - return "Memory exhausted"; - } + if (!rx_comp_buf.fastmap) { + rx_comp_buf.fastmap = (char *) malloc(1 << CHARBITS); + if (!rx_comp_buf.fastmap) + return "Memory exhausted"; + } - /* Since `rx_exec' always passes NULL for the `regs' argument, we - don't need to initialize the pattern buffer fields which affect it. */ + /* Since `rx_exec' always passes NULL for the `regs' argument, we + don't need to initialize the pattern buffer fields which affect it. */ - /* Match anchors at newlines. */ - rx_comp_buf.newline_anchor = 1; + /* Match anchors at newlines. */ + rx_comp_buf.newline_anchor = 1; - rx_comp_buf.re_nsub = 0; - rx_comp_buf.start = 0; - rx_comp_buf.se_params = 0; - rx_comp_buf.rx.nodec = 0; - rx_comp_buf.rx.epsnodec = 0; - rx_comp_buf.rx.instruction_table = 0; - rx_comp_buf.rx.nfa_states = 0; - rx_comp_buf.rx.start = 0; - rx_comp_buf.rx.se_list_cmp = posix_se_list_order; - rx_comp_buf.rx.start_set = 0; - rx_comp_buf.rx.local_cset_size = 256; + rx_comp_buf.re_nsub = 0; + rx_comp_buf.start = 0; + rx_comp_buf.se_params = 0; + rx_comp_buf.rx.nodec = 0; + rx_comp_buf.rx.epsnodec = 0; + rx_comp_buf.rx.instruction_table = 0; + rx_comp_buf.rx.nfa_states = 0; + rx_comp_buf.rx.start = 0; + rx_comp_buf.rx.se_list_cmp = posix_se_list_order; + rx_comp_buf.rx.start_set = 0; + rx_comp_buf.rx.local_cset_size = 256; - ret = rx_compile (s, strlen (s), re_syntax_options, &rx_comp_buf); - alloca (0); + ret = rx_compile(s, strlen(s), re_syntax_options, &rx_comp_buf); + alloca(0); - /* Yes, we're discarding `__const__' here. */ - return (char *) rx_error_msg[(int) ret]; + /* Yes, we're discarding `__const__' here. */ + return (char *) rx_error_msg[(int) ret]; } #ifdef __STDC__ -int -re_exec (__const__ char *s) +int re_exec(__const__ char *s) #else -int -re_exec (s) - __const__ char *s; +int re_exec(s) +__const__ char *s; #endif { - __const__ int len = strlen (s); - return - 0 <= re_search (&rx_comp_buf, s, len, 0, len, (struct re_registers *) 0); -} -#endif /* not emacs and not _POSIX_SOURCE */ + __const__ int len = strlen(s); + return + 0 <= re_search(&rx_comp_buf, s, len, 0, len, + (struct re_registers *) 0); +} +#endif /* not emacs and not _POSIX_SOURCE */ + /* POSIX.2 functions. Don't define these for Emacs. */ #if !defined(emacs) @@ -7311,78 +7063,76 @@ re_exec (s) #ifdef __STDC__ -int -regcomp (regex_t * preg, __const__ char * pattern, int cflags) +int regcomp(regex_t * preg, __const__ char *pattern, int cflags) #else -int -regcomp (preg, pattern, cflags) - regex_t * preg; - __const__ char * pattern; - int cflags; -#endif -{ - reg_errcode_t ret; - unsigned syntax - = cflags & REG_EXTENDED ? RE_SYNTAX_POSIX_EXTENDED : RE_SYNTAX_POSIX_BASIC; - - /* regex_compile will allocate the space for the compiled pattern. */ - preg->buffer = 0; - preg->allocated = 0; - preg->fastmap = malloc (256); - if (!preg->fastmap) - return REG_ESPACE; - preg->fastmap_accurate = 0; - - if (cflags & REG_ICASE) - { - unsigned i; - - preg->translate = (unsigned char *) malloc (256); - if (!preg->translate) - return (int) REG_ESPACE; - - /* Map uppercase characters to corresponding lowercase ones. */ - for (i = 0; i < CHAR_SET_SIZE; i++) - preg->translate[i] = isupper (i) ? tolower (i) : i; - } - else - preg->translate = 0; - - /* If REG_NEWLINE is set, newlines are treated differently. */ - if (cflags & REG_NEWLINE) - { /* REG_NEWLINE implies neither . nor [^...] match newline. */ - syntax &= ~RE_DOT_NEWLINE; - syntax |= RE_HAT_LISTS_NOT_NEWLINE; - /* It also changes the matching behavior. */ - preg->newline_anchor = 1; - } - else - preg->newline_anchor = 0; - - preg->no_sub = !!(cflags & REG_NOSUB); - - /* POSIX says a null character in the pattern terminates it, so we - can use strlen here in compiling the pattern. */ - preg->re_nsub = 0; - preg->start = 0; - preg->se_params = 0; - preg->syntax_parens = 0; - preg->rx.nodec = 0; - preg->rx.epsnodec = 0; - preg->rx.instruction_table = 0; - preg->rx.nfa_states = 0; - preg->rx.local_cset_size = 256; - preg->rx.start = 0; - preg->rx.se_list_cmp = posix_se_list_order; - preg->rx.start_set = 0; - ret = rx_compile (pattern, strlen (pattern), syntax, preg); - alloca (0); +int regcomp(preg, pattern, cflags) +regex_t *preg; +__const__ char *pattern; +int cflags; +#endif +{ + reg_errcode_t ret; + unsigned syntax - /* POSIX doesn't distinguish between an unmatched open-group and an - unmatched close-group: both are REG_EPAREN. */ - if (ret == REG_ERPAREN) ret = REG_EPAREN; + = + cflags & REG_EXTENDED ? RE_SYNTAX_POSIX_EXTENDED : + RE_SYNTAX_POSIX_BASIC; - return (int) ret; + /* regex_compile will allocate the space for the compiled pattern. */ + preg->buffer = 0; + preg->allocated = 0; + preg->fastmap = malloc(256); + if (!preg->fastmap) + return REG_ESPACE; + preg->fastmap_accurate = 0; + + if (cflags & REG_ICASE) { + unsigned i; + + preg->translate = (unsigned char *) malloc(256); + if (!preg->translate) + return (int) REG_ESPACE; + + /* Map uppercase characters to corresponding lowercase ones. */ + for (i = 0; i < CHAR_SET_SIZE; i++) + preg->translate[i] = isupper(i) ? tolower(i) : i; + } else + preg->translate = 0; + + /* If REG_NEWLINE is set, newlines are treated differently. */ + if (cflags & REG_NEWLINE) { /* REG_NEWLINE implies neither . nor [^...] match newline. */ + syntax &= ~RE_DOT_NEWLINE; + syntax |= RE_HAT_LISTS_NOT_NEWLINE; + /* It also changes the matching behavior. */ + preg->newline_anchor = 1; + } else + preg->newline_anchor = 0; + + preg->no_sub = !!(cflags & REG_NOSUB); + + /* POSIX says a null character in the pattern terminates it, so we + can use strlen here in compiling the pattern. */ + preg->re_nsub = 0; + preg->start = 0; + preg->se_params = 0; + preg->syntax_parens = 0; + preg->rx.nodec = 0; + preg->rx.epsnodec = 0; + preg->rx.instruction_table = 0; + preg->rx.nfa_states = 0; + preg->rx.local_cset_size = 256; + preg->rx.start = 0; + preg->rx.se_list_cmp = posix_se_list_order; + preg->rx.start_set = 0; + ret = rx_compile(pattern, strlen(pattern), syntax, preg); + alloca(0); + + /* POSIX doesn't distinguish between an unmatched open-group and an + unmatched close-group: both are REG_EPAREN. */ + if (ret == REG_ERPAREN) + ret = REG_EPAREN; + + return (int) ret; } @@ -7402,73 +7152,66 @@ regcomp (preg, pattern, cflags) #ifdef __STDC__ int -regexec (__const__ regex_t *preg, __const__ char *string, - size_t nmatch, regmatch_t pmatch[], - int eflags) +regexec(__const__ regex_t * preg, __const__ char *string, + size_t nmatch, regmatch_t pmatch[], int eflags) #else -int -regexec (preg, string, nmatch, pmatch, eflags) - __const__ regex_t *preg; - __const__ char *string; - size_t nmatch; - regmatch_t pmatch[]; - int eflags; -#endif -{ - int ret; - struct re_registers regs; - regex_t private_preg; - int len = strlen (string); - boolean want_reg_info = !preg->no_sub && nmatch > 0; - - private_preg = *preg; - - private_preg.not_bol = !!(eflags & REG_NOTBOL); - private_preg.not_eol = !!(eflags & REG_NOTEOL); - - /* The user has told us exactly how many registers to return - * information about, via `nmatch'. We have to pass that on to the - * matching routines. - */ - private_preg.regs_allocated = REGS_FIXED; - - if (want_reg_info) - { - regs.num_regs = nmatch; - regs.start = (( regoff_t *) malloc ((nmatch) * sizeof ( regoff_t))); - regs.end = (( regoff_t *) malloc ((nmatch) * sizeof ( regoff_t))); - if (regs.start == 0 || regs.end == 0) - return (int) REG_NOMATCH; - } +int regexec(preg, string, nmatch, pmatch, eflags) +__const__ regex_t *preg; +__const__ char *string; +size_t nmatch; +regmatch_t pmatch[]; +int eflags; +#endif +{ + int ret; + struct re_registers regs; + regex_t private_preg; + int len = strlen(string); + boolean want_reg_info = !preg->no_sub && nmatch > 0; - /* Perform the searching operation. */ - ret = re_search (&private_preg, - string, len, - /* start: */ 0, - /* range: */ len, - want_reg_info ? ®s : (struct re_registers *) 0); - - /* Copy the register information to the POSIX structure. */ - if (want_reg_info) - { - if (ret >= 0) - { - unsigned r; - - for (r = 0; r < nmatch; r++) - { - pmatch[r].rm_so = regs.start[r]; - pmatch[r].rm_eo = regs.end[r]; - } - } - - /* If we needed the temporary register info, free the space now. */ - free (regs.start); - free (regs.end); - } + private_preg = *preg; + + private_preg.not_bol = !!(eflags & REG_NOTBOL); + private_preg.not_eol = !!(eflags & REG_NOTEOL); - /* We want zero return to mean success, unlike `re_search'. */ - return ret >= 0 ? (int) REG_NOERROR : (int) REG_NOMATCH; + /* The user has told us exactly how many registers to return + * information about, via `nmatch'. We have to pass that on to the + * matching routines. + */ + private_preg.regs_allocated = REGS_FIXED; + + if (want_reg_info) { + regs.num_regs = nmatch; + regs.start = ((regoff_t *) malloc((nmatch) * sizeof(regoff_t))); + regs.end = ((regoff_t *) malloc((nmatch) * sizeof(regoff_t))); + if (regs.start == 0 || regs.end == 0) + return (int) REG_NOMATCH; + } + + /* Perform the searching operation. */ + ret = re_search(&private_preg, string, len, + /* start: */ 0, + /* range: */ len, + want_reg_info ? ®s : (struct re_registers *) 0); + + /* Copy the register information to the POSIX structure. */ + if (want_reg_info) { + if (ret >= 0) { + unsigned r; + + for (r = 0; r < nmatch; r++) { + pmatch[r].rm_so = regs.start[r]; + pmatch[r].rm_eo = regs.end[r]; + } + } + + /* If we needed the temporary register info, free the space now. */ + free(regs.start); + free(regs.end); + } + + /* We want zero return to mean success, unlike `re_search'. */ + return ret >= 0 ? (int) REG_NOERROR : (int) REG_NOMATCH; } @@ -7477,60 +7220,54 @@ regexec (preg, string, nmatch, pmatch, eflags) #ifdef __STDC__ size_t -regerror (int errcode, __const__ regex_t *preg, - char *errbuf, size_t errbuf_size) -#else -size_t -regerror (errcode, preg, errbuf, errbuf_size) - int errcode; - __const__ regex_t *preg; - char *errbuf; - size_t errbuf_size; -#endif -{ - __const__ char *msg - = rx_error_msg[errcode] == 0 ? "Success" : rx_error_msg[errcode]; - size_t msg_size = strlen (msg) + 1; /* Includes the 0. */ - - if (errbuf_size != 0) - { - if (msg_size > errbuf_size) - { - strncpy (errbuf, msg, errbuf_size - 1); - errbuf[errbuf_size - 1] = 0; - } - else - strcpy (errbuf, msg); - } +regerror(int errcode, __const__ regex_t * preg, + char *errbuf, size_t errbuf_size) +#else +size_t regerror(errcode, preg, errbuf, errbuf_size) +int errcode; +__const__ regex_t *preg; +char *errbuf; +size_t errbuf_size; +#endif +{ + __const__ char *msg + = rx_error_msg[errcode] == 0 ? "Success" : rx_error_msg[errcode]; + size_t msg_size = strlen(msg) + 1; /* Includes the 0. */ + + if (errbuf_size != 0) { + if (msg_size > errbuf_size) { + strncpy(errbuf, msg, errbuf_size - 1); + errbuf[errbuf_size - 1] = 0; + } else + strcpy(errbuf, msg); + } - return msg_size; + return msg_size; } /* Free dynamically allocated space used by PREG. */ #ifdef __STDC__ -void -regfree (regex_t *preg) +void regfree(regex_t * preg) #else -void -regfree (preg) - regex_t *preg; +void regfree(preg) +regex_t *preg; #endif { - if (preg->buffer != 0) - free (preg->buffer); - preg->buffer = 0; - preg->allocated = 0; + if (preg->buffer != 0) + free(preg->buffer); + preg->buffer = 0; + preg->allocated = 0; - if (preg->fastmap != 0) - free (preg->fastmap); - preg->fastmap = 0; - preg->fastmap_accurate = 0; + if (preg->fastmap != 0) + free(preg->fastmap); + preg->fastmap = 0; + preg->fastmap_accurate = 0; - if (preg->translate != 0) - free (preg->translate); - preg->translate = 0; + if (preg->translate != 0) + free(preg->translate); + preg->translate = 0; } -#endif /* not emacs */ +#endif /* not emacs */ -- cgit v1.2.3