freebsd-skq/gnu/lib/libregex/test/test.c
1993-07-30 20:16:53 +00:00

783 lines
22 KiB
C

/* test.c: testing routines for regex.c. */
#include <assert.h>
#ifdef STDC_HEADERS
#include <stdlib.h>
#else
char *malloc ();
char *realloc ();
#endif
/* Just to be complete, we make both the system V/ANSI and the BSD
versions of the string functions available. */
#if USG || STDC_HEADERS
#include <string.h>
#define index strchr
#define rindex strrchr
#define bcmp(s1, s2, len) memcmp ((s1), (s2), (len))
#define bcopy(from, to, len) memcpy ((to), (from), (len))
#define bzero(s, len) memset ((s), 0, (len))
#else
#include <strings.h>
#define strchr index
#define strrchr rindex
#ifndef NEED_MEMORY_H
#define memcmp(s1, s2, n) bcmp ((s1), (s2), (n))
#define memcpy(to, from, len) bcopy ((from), (to), (len))
#endif
extern char *strtok ();
extern char *strstr ();
#endif /* not USG or STDC_HEADERS */
/* SunOS 4.1 declares memchr in <memory.h>, not <string.h>. I don't
understand why. */
#if NEED_MEMORY_H
#include <memory.h>
#endif
#include "test.h"
#define BYTEWIDTH 8
extern void print_partial_compiled_pattern ();
extern void print_compiled_pattern ();
extern void print_double_string ();
/* If nonzero, the results of every test are displayed. */
boolean verbose = false;
/* If nonzero, don't do register testing. */
boolean omit_register_tests = true;
/* Says whether the current test should match or fail to match. */
boolean test_should_match;
static void
set_all_registers (start0, end0, start1, end1,
start2, end2, start3, end3,
start4, end4, start5, end5,
start6, end6, start7, end7,
start8, end8, start9, end9, regs)
int start0; int end0; int start1; int end1;
int start2; int end2; int start3; int end3;
int start4; int end4; int start5; int end5;
int start6; int end6; int start7; int end7;
int start8; int end8; int start9; int end9;
struct re_registers *regs;
{
unsigned r;
regs->start[0] = start0; regs->end[0] = end0;
regs->start[1] = start1; regs->end[1] = end1;
regs->start[2] = start2; regs->end[2] = end2;
regs->start[3] = start3; regs->end[3] = end3;
regs->start[4] = start4; regs->end[4] = end4;
regs->start[5] = start5; regs->end[5] = end5;
regs->start[6] = start6; regs->end[6] = end6;
regs->start[7] = start7; regs->end[7] = end7;
regs->start[8] = start8; regs->end[8] = end8;
regs->start[9] = start9; regs->end[9] = end9;
for (r = 10; r < regs->num_regs; r++)
{
regs->start[r] = -1;
regs->end[r] = -1;
}
}
/* Return the concatenation of S1 and S2. This would be a prime place
to use varargs. */
char *
concat (s1, s2)
char *s1;
char *s2;
{
char *answer = xmalloc (strlen (s1) + strlen (s2) + 1);
strcpy (answer, s1);
strcat (answer, s2);
return answer;
}
#define OK_TO_SEARCH (nonconst_buf.fastmap_accurate && (str1 || str2))
/* We ignore the `can_be_null' argument. Should just be removed. */
void
general_test (pattern_should_be_valid, match_whole_string,
pat, str1, str2, start, range, end, correct_fastmap,
correct_regs, can_be_null)
unsigned pattern_should_be_valid;
unsigned match_whole_string;
const char *pat;
char *str1, *str2;
int start, range, end;
char *correct_fastmap;
struct re_registers *correct_regs;
int can_be_null;
{
struct re_pattern_buffer nonconst_buf;
struct re_pattern_buffer old_buf;
struct re_registers regs;
const char *r;
char fastmap[1 << BYTEWIDTH];
unsigned *regs_correct = NULL;
unsigned all_regs_correct = 1;
boolean fastmap_internal_error = false;
unsigned match = 0;
unsigned match_1 = 0;
unsigned match_2 = 0;
unsigned invalid_pattern = 0;
boolean internal_error_1 = false;
boolean internal_error_2 = false;
nonconst_buf.allocated = 8;
nonconst_buf.buffer = xmalloc (nonconst_buf.allocated);
nonconst_buf.fastmap = fastmap;
nonconst_buf.translate = 0;
assert (pat != NULL);
r = re_compile_pattern (pat, strlen (pat), &nonconst_buf);
/* Kludge: if we are doing POSIX testing, we really should have
called regcomp, not re_compile_pattern. As it happens, the only
way in which it matters is that re_compile_pattern sets the
newline/anchor field for matching (part of what happens when
REG_NEWLINE is given to regcomp). We have to undo that for POSIX
matching. */
if (t == posix_basic_test || t == posix_extended_test)
nonconst_buf.newline_anchor = 0;
invalid_pattern = r != NULL;
if (!r)
{
int r;
if (!pattern_should_be_valid)
printf ("\nShould have been an invalid pattern but wasn't:\n");
else
{
fastmap_internal_error = (re_compile_fastmap (&nonconst_buf) == -2);
if (correct_fastmap)
nonconst_buf.fastmap_accurate =
memcmp (nonconst_buf.fastmap, correct_fastmap, 1 << BYTEWIDTH)
== 0;
if (OK_TO_SEARCH)
{
old_buf = nonconst_buf;
old_buf.buffer = (unsigned char *) xmalloc (nonconst_buf.used);
memcpy (old_buf.buffer, nonconst_buf.buffer, nonconst_buf.used);
/* If only one string is null, call re_match or re_search,
which is what the user would probably do. */
if (str1 == NULL && str2 != NULL
|| str2 == NULL && str1 != NULL)
{
char *the_str = str1 == NULL ? str2 : str1;
match_1
= match_whole_string
? (r = re_match (&nonconst_buf, the_str,
strlen (the_str), start, &regs))
== strlen (the_str)
: (r = re_search (&nonconst_buf,
the_str, strlen (the_str),
start, range, &regs))
>= 0;
if (r == -2)
internal_error_1 = true;
}
else
match_1 = 1;
/* Also call with re_match_2 or re_search_2, as they might
do this. (Also can check calling with either string1
or string2 or both null.) */
if (match_whole_string)
{
r = re_match_2 (&nonconst_buf,
str1, SAFE_STRLEN (str1),
str2, SAFE_STRLEN (str2),
start, &regs, end);
match_2 = r == SAFE_STRLEN (str1) + SAFE_STRLEN (str2);
}
else
{
r = re_search_2 (&nonconst_buf,
str1, SAFE_STRLEN (str1),
str2, SAFE_STRLEN (str2),
start, range, &regs, end);
match_2 = r >= 0;
}
if (r == -2)
internal_error_2 = true;
match = match_1 & match_2;
if (correct_regs)
{
unsigned reg;
if (regs_correct != NULL)
free (regs_correct);
regs_correct
= (unsigned *) xmalloc (regs.num_regs * sizeof (unsigned));
for (reg = 0;
reg < regs.num_regs && reg < correct_regs->num_regs;
reg++)
{
regs_correct[reg]
= (regs.start[reg] == correct_regs->start[reg]
&& regs.end[reg] == correct_regs->end[reg])
#ifdef EMPTY_REGS_CONFUSED
/* There is confusion in the standard about
the registers in some patterns which can
match either the empty string or not match.
For example, in `((a*))*' against the empty
string, the two registers can either match
the empty string (be 0/0), or not match
(because of the outer *) (be -1/-1). (Or
one can do one and one can do the other.) */
|| (regs.start[reg] == -1 && regs.end[reg] == -1
&& correct_regs->start[reg]
== correct_regs->end[reg])
#endif
;
all_regs_correct &= regs_correct[reg];
}
}
} /* OK_TO_SEARCH */
}
}
if (fastmap_internal_error)
printf ("\n\nInternal error in re_compile_fastmap:");
if (internal_error_1)
{
if (!fastmap_internal_error)
printf ("\n");
printf ("\nInternal error in re_match or re_search:");
}
if (internal_error_2)
{
if (!internal_error_1)
printf ("\n");
printf ("\nInternal error in re_match_2 or re_search_2:");
}
if ((OK_TO_SEARCH && ((match && !test_should_match)
|| (!match && test_should_match))
|| (correct_regs && !all_regs_correct))
|| !nonconst_buf.fastmap_accurate
|| invalid_pattern
|| !pattern_should_be_valid
|| internal_error_1 || internal_error_2
|| verbose)
{
if (OK_TO_SEARCH && match && !test_should_match)
{
printf ("\n\nMatched but shouldn't have:\n");
if (match_1)
printf ("The single match/search succeeded.\n");
if (match_2)
printf ("The double match/search succeeded.\n");
}
else if (OK_TO_SEARCH && !match && test_should_match)
{
printf ("\n\nDidn't match but should have:\n");
if (!match_1)
printf ("The single match/search failed.\n");
if (!match_2)
printf ("The double match/search failed.\n");
}
else if (invalid_pattern && pattern_should_be_valid)
printf ("\n\nInvalid pattern (%s):\n", r);
else if (!nonconst_buf.fastmap_accurate && pattern_should_be_valid)
printf ("\n\nIncorrect fastmap:\n");
else if (OK_TO_SEARCH && correct_regs && !all_regs_correct)
printf ("\n\nNot all registers were correct:\n");
else if (verbose)
printf ("\n\nTest was OK:\n");
if ((!(invalid_pattern && !pattern_should_be_valid)) || verbose)
printf (" Pattern: `%s'.\n", pat);
if (pattern_should_be_valid || verbose
|| internal_error_1 || internal_error_2)
{
printf(" Strings: ");
printf ("`%s' and ", str1 == NULL ? "NULL" : str1);
printf ("`%s'.\n", str2 == NULL ? "NULL" : str2);
if ((OK_TO_SEARCH || verbose || internal_error_1 || internal_error_2)
&& !invalid_pattern)
{
if (memcmp (old_buf.buffer, nonconst_buf.buffer,
nonconst_buf.used) != 0
&& !invalid_pattern)
{
printf(" (%s)\n", r ? r : "Valid regular expression");
printf ("\n Compiled pattern before matching: ");
print_compiled_pattern (&old_buf);
printf ("\n Compiled pattern after matching: ");
}
else
printf ("\n Compiled pattern: ");
print_compiled_pattern (&nonconst_buf);
}
if (correct_fastmap && (!nonconst_buf.fastmap_accurate || verbose))
{
printf ("\n The fastmap should have been: ");
print_fastmap (correct_fastmap);
printf ("\n Fastmap: ");
print_fastmap (fastmap);
printf ("\n Compiled pattern before matching: ");
print_compiled_pattern (&nonconst_buf);
}
if ((!all_regs_correct || verbose) && correct_regs)
{
unsigned this_reg;
printf ("\n Incorrect registers:");
for (this_reg = 0; this_reg < regs.num_regs; this_reg++)
{
if (!regs_correct[this_reg])
{
printf ("\n Register %d's start was %2d. ", this_reg,
regs.start[this_reg]);
printf ("\tIt should have been %d.\n",
correct_regs->start[this_reg]);
printf (" Register %d's end was %2d. ", this_reg,
regs.end[this_reg]);
printf ("\tIt should have been %d.\n",
correct_regs->end[this_reg]);
}
}
}
}
}
if (nonconst_buf.buffer != NULL)
free (nonconst_buf.buffer);
if (OK_TO_SEARCH)
{
free (old_buf.buffer);
if (correct_regs)
free (regs_correct);
}
nonconst_buf.buffer = old_buf.buffer = NULL;
regs_correct = NULL;
regs.start = regs.end = NULL;
} /* general_test */
void
test_search_return (match_start_wanted, pattern, string)
int match_start_wanted;
const char *pattern;
char *string;
{
struct re_pattern_buffer buf;
char fastmap[1 << BYTEWIDTH];
const char *compile_return;
int match_start;
static num_times_called = 0;
num_times_called++;
buf.allocated = 1;
buf.buffer = xmalloc (buf.allocated);
assert (pattern != NULL);
buf.translate = 0;
compile_return = re_compile_pattern (pattern, strlen (pattern), &buf);
if (compile_return)
{
printf ("\n\nInvalid pattern in test_match_start:\n");
printf ("%s\n", compile_return);
}
else
{
buf.fastmap = fastmap;
match_start = re_search (&buf, string, strlen (string),
0, strlen (string), 0);
if (match_start != match_start_wanted)
printf ("\nWanted search to start at %d but started at %d.\n",
match_start, match_start_wanted);
}
free (buf.buffer);
buf.buffer = NULL;
}
#define SET_FASTMAP() \
{ \
unsigned this_char; \
\
memset (correct_fastmap, invert, (1 << BYTEWIDTH)); \
\
for (this_char = 0; this_char < strlen (fastmap_string); this_char++)\
correct_fastmap[fastmap_string[this_char]] = !invert; \
correct_fastmap['\n'] = match_newline; \
}
void
test_fastmap (pat, fastmap_string, invert, match_newline)
const char *pat;
char *fastmap_string;
unsigned invert;
unsigned match_newline;
{
char correct_fastmap[(1 << BYTEWIDTH)];
SET_FASTMAP ();
general_test (1, 0, pat, NULL, NULL, -1, 0, -1, correct_fastmap, 0, -1);
}
void
test_fastmap_search (pat, str, fastmap_string, invert, match_newline,
can_be_null, start0, end0)
const char *pat;
char *str;
char *fastmap_string;
unsigned invert;
unsigned match_newline;
int can_be_null;
int start0;
int end0;
{
char correct_fastmap[(1 << BYTEWIDTH)];
struct re_registers correct_regs;
correct_regs.num_regs = RE_NREGS;
correct_regs.start = (int *) xmalloc (RE_NREGS * sizeof (int));
correct_regs.end = (int *) xmalloc (RE_NREGS * sizeof (int));
set_all_registers (start0, end0, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1,
-1, -1, -1, -1, -1, -1, -1, -1, &correct_regs);
SET_FASTMAP ();
general_test (1, 0, pat, str, NULL, 0, SAFE_STRLEN (str), SAFE_STRLEN (str),
correct_fastmap, &correct_regs, can_be_null);
free (correct_regs.start);
free (correct_regs.end);
}
void
test_all_registers (pat, str1, str2,
start0, end0, start1, end1,
start2, end2, start3, end3,
start4, end4, start5, end5,
start6, end6, start7, end7,
start8, end8, start9, end9)
char *pat; char *str1; char *str2;
int start0; int end0; int start1; int end1;
int start2; int end2; int start3; int end3;
int start4; int end4; int start5; int end5;
int start6; int end6; int start7; int end7;
int start8; int end8; int start9; int end9;
{
struct re_registers correct_regs;
if (omit_register_tests) return;
correct_regs.num_regs = RE_NREGS;
correct_regs.start = (int *) xmalloc (RE_NREGS * sizeof (int));
correct_regs.end = (int *) xmalloc (RE_NREGS * sizeof (int));
set_all_registers (start0, end0, start1, end1, start2, end2, start3, end3,
start4, end4, start5, end5, start6, end6, start7, end7,
start8, end8, start9, end9, &correct_regs);
general_test (1, 0, pat, str1, str2, 0,
SAFE_STRLEN (str1) + SAFE_STRLEN (str2),
SAFE_STRLEN (str1) + SAFE_STRLEN (str2),
NULL, &correct_regs, -1);
free (correct_regs.start);
free (correct_regs.end);
}
void
invalid_pattern (error_code_expected, pattern)
int error_code_expected;
char *pattern;
{
regex_t pattern_buffer;
int cflags
= re_syntax_options == RE_SYNTAX_POSIX_EXTENDED
|| re_syntax_options == RE_SYNTAX_POSIX_MINIMAL_EXTENDED
? REG_EXTENDED : 0;
test_compile (0, error_code_expected, pattern, &pattern_buffer, cflags);
}
void
valid_pattern (pattern)
char *pattern;
{
regex_t pattern_buffer;
int cflags
= re_syntax_options == RE_SYNTAX_POSIX_EXTENDED
|| re_syntax_options == RE_SYNTAX_POSIX_MINIMAL_EXTENDED
? REG_EXTENDED : 0;
test_compile (1, 0, pattern, &pattern_buffer, cflags);
}
char *
delimiters_to_ops (source, left_delimiter, right_delimiter)
char *source;
char left_delimiter;
char right_delimiter;
{
static char *answer = NULL;
char *tmp = NULL;
boolean double_size = false;
unsigned source_char;
unsigned answer_char = 0;
assert (source != NULL);
switch (left_delimiter)
{
case '(': if (!(re_syntax_options & RE_NO_BK_PARENS))
double_size = true;
break;
case '{': if (!(re_syntax_options & RE_NO_BK_BRACES))
double_size = true;
break;
default: printf ("Found strange delimiter %c in delimiter_to_ops.\n",
left_delimiter);
printf ("The source was `%s'\n", source);
exit (0);
}
if (answer == source)
{
tmp = (char *) xmalloc (strlen (source) + 1);
strcpy (tmp, source);
source = tmp;
}
if (answer)
{
free (answer);
answer = NULL;
}
answer = (char *) xmalloc ((double_size
? strlen (source) << 1
: strlen (source))
+ 1);
if (!double_size)
strcpy (answer, source);
else
{
for (source_char = 0; source_char < strlen (source); source_char++)
{
if (source[source_char] == left_delimiter
|| source[source_char] == right_delimiter)
answer[answer_char++] = '\\';
answer[answer_char++] = source[source_char];
}
answer[answer_char] = 0;
}
return answer;
}
void
print_pattern_info (pattern, pattern_buffer_ptr)
const char *pattern;
regex_t *pattern_buffer_ptr;
{
printf (" Pattern: `%s'.\n", pattern);
printf (" Compiled pattern: ");
print_compiled_pattern (pattern_buffer_ptr);
}
void
valid_nonposix_pattern (pattern)
char *pattern;
{
struct re_pattern_buffer nonconst_buf;
nonconst_buf.allocated = 0;
nonconst_buf.buffer = NULL;
nonconst_buf.translate = NULL;
assert (pattern != NULL);
if (re_compile_pattern (pattern, strlen (pattern), &nonconst_buf))
{
printf ("Couldn't compile the pattern.\n");
print_pattern_info (pattern, &nonconst_buf);
}
}
void
compile_and_print_pattern (pattern)
char *pattern;
{
struct re_pattern_buffer nonconst_buf;
nonconst_buf.allocated = 0;
nonconst_buf.buffer = NULL;
if (re_compile_pattern (pattern, strlen (pattern), &nonconst_buf))
printf ("Couldn't compile the pattern.\n");
print_pattern_info (pattern, &nonconst_buf);
}
void
test_case_fold (pattern, string)
const char *pattern;
char* string;
{
struct re_pattern_buffer nonconst_buf;
const char *ret;
init_pattern_buffer (&nonconst_buf);
nonconst_buf.translate = upcase;
assert (pattern != NULL);
ret = re_compile_pattern (pattern, strlen (pattern), &nonconst_buf);
if (ret)
{
printf ("\nShould have been a valid pattern but wasn't.\n");
print_pattern_info (pattern, &nonconst_buf);
}
else
{
if (test_should_match
&& re_match (&nonconst_buf, string, strlen (string), 0, 0)
!= strlen (string))
{
printf ("Match failed for case fold.\n");
printf (" Pattern: `%s'.\n", pattern);
printf (" String: `%s'.\n", string == NULL ? "NULL" : string);
}
}
}
void
test_match_n_times (n, pattern, string)
unsigned n;
char* pattern;
char* string;
{
struct re_pattern_buffer buf;
const char *r;
unsigned match = 0;
unsigned this_match;
buf.allocated = 0;
buf.buffer = NULL;
buf.translate = 0;
assert (pattern != NULL);
r = re_compile_pattern (pattern, strlen (pattern), &buf);
if (r)
{
printf ("Didn't compile.\n");
printf (" Pattern: %s.\n", pattern);
}
else
{
for (this_match = 1; this_match <= n; this_match++)
match = (re_match (&buf, string, strlen (string),
0, 0)
== strlen (string));
if (match && !test_should_match)
printf ("\n\nMatched but shouldn't have:\n");
else if (!match && test_should_match)
printf ("\n\nDidn't match but should have:\n");
if ((match && !test_should_match) || (!match && test_should_match))
{
printf(" The string to match was: ");
if (string)
printf ("`%s' and ", string);
else
printf ("`'");
printf (" Pattern: %s.\n", pattern);
printf (" Compiled pattern: %s.\n", pattern);
print_compiled_pattern (&buf);
}
}
}
void
test_match_2 (pat, str1, str2)
const char *pat;
char *str1;
char *str2;
{
general_test (1, 1, pat, str1, str2, 0, 1,
SAFE_STRLEN (str1) + SAFE_STRLEN (str2), NULL, 0, -1);
}
void
test_match (pat, str)
const char *pat;
char *str;
{
test_match_2 (pat, str, NULL);
test_match_2 (pat, NULL, str);
}