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freebsd-src/usr.bin/diff/diffreg.c
Ed Maste fb623aab39 diff: honour -B flag with -q 
PR:		278988
Reviewed by:	bapt
Sponsored by:	The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D45220
2024-05-17 20:03:56 -04:00

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/* $OpenBSD: diffreg.c,v 1.93 2019/06/28 13:35:00 deraadt Exp $ */
/*-
* SPDX-License-Identifier: BSD-4-Clause
*
* Copyright (C) Caldera International Inc. 2001-2002.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code and documentation must retain the above
* copyright notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed or owned by Caldera
* International, Inc.
* 4. Neither the name of Caldera International, Inc. nor the names of other
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* USE OF THE SOFTWARE PROVIDED FOR UNDER THIS LICENSE BY CALDERA
* INTERNATIONAL, INC. AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL CALDERA INTERNATIONAL, INC. BE LIABLE FOR ANY DIRECT,
* INDIRECT INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*-
* Copyright (c) 1991, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/capsicum.h>
#include <sys/stat.h>
#include <capsicum_helpers.h>
#include <ctype.h>
#include <err.h>
#include <errno.h>
#include <fcntl.h>
#include <limits.h>
#include <math.h>
#include <paths.h>
#include <regex.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "pr.h"
#include "diff.h"
#include "xmalloc.h"
/*
* diff - compare two files.
*/
/*
* Uses an algorithm due to Harold Stone, which finds a pair of longest
* identical subsequences in the two files.
*
* The major goal is to generate the match vector J. J[i] is the index of
* the line in file1 corresponding to line i file0. J[i] = 0 if there is no
* such line in file1.
*
* Lines are hashed so as to work in core. All potential matches are
* located by sorting the lines of each file on the hash (called
* ``value''). In particular, this collects the equivalence classes in
* file1 together. Subroutine equiv replaces the value of each line in
* file0 by the index of the first element of its matching equivalence in
* (the reordered) file1. To save space equiv squeezes file1 into a single
* array member in which the equivalence classes are simply concatenated,
* except that their first members are flagged by changing sign.
*
* Next the indices that point into member are unsorted into array class
* according to the original order of file0.
*
* The cleverness lies in routine stone. This marches through the lines of
* file0, developing a vector klist of "k-candidates". At step i
* a k-candidate is a matched pair of lines x,y (x in file0 y in file1)
* such that there is a common subsequence of length k between the first
* i lines of file0 and the first y lines of file1, but there is no such
* subsequence for any smaller y. x is the earliest possible mate to y that
* occurs in such a subsequence.
*
* Whenever any of the members of the equivalence class of lines in file1
* matable to a line in file0 has serial number less than the y of some
* k-candidate, that k-candidate with the smallest such y is replaced. The
* new k-candidate is chained (via pred) to the current k-1 candidate so
* that the actual subsequence can be recovered. When a member has serial
* number greater that the y of all k-candidates, the klist is extended. At
* the end, the longest subsequence is pulled out and placed in the array J
* by unravel.
*
* With J in hand, the matches there recorded are check'ed against reality
* to assure that no spurious matches have crept in due to hashing. If they
* have, they are broken, and "jackpot" is recorded -- a harmless matter
* except that a true match for a spuriously mated line may now be
* unnecessarily reported as a change.
*
* Much of the complexity of the program comes simply from trying to
* minimize core utilization and maximize the range of doable problems by
* dynamically allocating what is needed and reusing what is not. The core
* requirements for problems larger than somewhat are (in words)
* 2*length(file0) + length(file1) + 3*(number of k-candidates installed),
* typically about 6n words for files of length n.
*/
struct cand {
int x;
int y;
int pred;
};
static struct line {
int serial;
int value;
} *file[2];
/*
* The following struct is used to record change information when
* doing a "context" or "unified" diff. (see routine "change" to
* understand the highly mnemonic field names)
*/
struct context_vec {
int a; /* start line in old file */
int b; /* end line in old file */
int c; /* start line in new file */
int d; /* end line in new file */
};
enum readhash { RH_BINARY, RH_OK, RH_EOF };
static int diffreg_stone(char *, char *, int, int);
static FILE *opentemp(const char *);
static void output(char *, FILE *, char *, FILE *, int);
static void check(FILE *, FILE *, int);
static void range(int, int, const char *);
static void uni_range(int, int);
static void dump_context_vec(FILE *, FILE *, int);
static void dump_unified_vec(FILE *, FILE *, int);
static bool prepare(int, FILE *, size_t, int);
static void prune(void);
static void equiv(struct line *, int, struct line *, int, int *);
static void unravel(int);
static void unsort(struct line *, int, int *);
static void change(char *, FILE *, char *, FILE *, int, int, int, int, int *);
static void sort(struct line *, int);
static void print_header(const char *, const char *);
static void print_space(int, int, int);
static bool ignoreline_pattern(char *);
static bool ignoreline(char *, bool);
static int asciifile(FILE *);
static int fetch(long *, int, int, FILE *, int, int, int);
static int newcand(int, int, int);
static int search(int *, int, int);
static int skipline(FILE *);
static int stone(int *, int, int *, int *, int);
static enum readhash readhash(FILE *, int, unsigned *);
static int files_differ(FILE *, FILE *, int);
static char *match_function(const long *, int, FILE *);
static char *preadline(int, size_t, off_t);
static int *J; /* will be overlaid on class */
static int *class; /* will be overlaid on file[0] */
static int *klist; /* will be overlaid on file[0] after class */
static int *member; /* will be overlaid on file[1] */
static int clen;
static int inifdef; /* whether or not we are in a #ifdef block */
static int len[2];
static int pref, suff; /* length of prefix and suffix */
static int slen[2];
static int anychange;
static int hw, lpad,rpad; /* half width and padding */
static int edoffset;
static long *ixnew; /* will be overlaid on file[1] */
static long *ixold; /* will be overlaid on klist */
static struct cand *clist; /* merely a free storage pot for candidates */
static int clistlen; /* the length of clist */
static struct line *sfile[2]; /* shortened by pruning common prefix/suffix */
static int (*chrtran)(int); /* translation table for case-folding */
static struct context_vec *context_vec_start;
static struct context_vec *context_vec_end;
static struct context_vec *context_vec_ptr;
#define FUNCTION_CONTEXT_SIZE 55
static char lastbuf[FUNCTION_CONTEXT_SIZE];
static int lastline;
static int lastmatchline;
int
diffreg(char *file1, char *file2, int flags, int capsicum)
{
/*
* If we have set the algorithm with -A or --algorithm use that if we
* can and if not print an error.
*/
if (diff_algorithm_set) {
if (diff_algorithm == D_DIFFMYERS ||
diff_algorithm == D_DIFFPATIENCE) {
if (can_libdiff(flags))
return diffreg_new(file1, file2, flags, capsicum);
else
errx(2, "cannot use Myers algorithm with selected options");
} else {
/* Fallback to using stone. */
return diffreg_stone(file1, file2, flags, capsicum);
}
} else {
if (can_libdiff(flags))
return diffreg_new(file1, file2, flags, capsicum);
else
return diffreg_stone(file1, file2, flags, capsicum);
}
}
static int
clow2low(int c)
{
return (c);
}
static int
cup2low(int c)
{
return (tolower(c));
}
int
diffreg_stone(char *file1, char *file2, int flags, int capsicum)
{
FILE *f1, *f2;
int i, rval;
struct pr *pr = NULL;
cap_rights_t rights_ro;
f1 = f2 = NULL;
rval = D_SAME;
anychange = 0;
lastline = 0;
lastmatchline = 0;
/*
* In side-by-side mode, we need to print the left column, a
* change marker surrounded by padding, and the right column.
*
* If expanding tabs, we don't care about alignment, so we simply
* subtract 3 from the width and divide by two.
*
* If not expanding tabs, we need to ensure that the right column
* is aligned to a tab stop. We start with the same formula, then
* decrement until we reach a size that lets us tab-align the
* right column. We then adjust the width down if necessary for
* the padding calculation to work.
*
* Left padding is half the space left over, rounded down; right
* padding is whatever is needed to match the width.
*/
if (diff_format == D_SIDEBYSIDE) {
if (flags & D_EXPANDTABS) {
if (width > 3) {
hw = (width - 3) / 2;
} else {
/* not enough space */
hw = 0;
}
} else if (width <= 3 || width <= tabsize) {
/* not enough space */
hw = 0;
} else {
hw = (width - 3) / 2;
while (hw > 0 && roundup(hw + 3, tabsize) + hw > width)
hw--;
if (width - (roundup(hw + 3, tabsize) + hw) < tabsize)
width = roundup(hw + 3, tabsize) + hw;
}
lpad = (width - hw * 2 - 1) / 2;
rpad = (width - hw * 2 - 1) - lpad;
}
if (flags & D_IGNORECASE)
chrtran = cup2low;
else
chrtran = clow2low;
if (S_ISDIR(stb1.st_mode) != S_ISDIR(stb2.st_mode))
return (S_ISDIR(stb1.st_mode) ? D_MISMATCH1 : D_MISMATCH2);
if (strcmp(file1, "-") == 0 && strcmp(file2, "-") == 0)
goto closem;
if (flags & D_EMPTY1)
f1 = fopen(_PATH_DEVNULL, "r");
else {
if (!S_ISREG(stb1.st_mode)) {
if ((f1 = opentemp(file1)) == NULL ||
fstat(fileno(f1), &stb1) == -1) {
warn("%s", file1);
rval = D_ERROR;
status |= 2;
goto closem;
}
} else if (strcmp(file1, "-") == 0)
f1 = stdin;
else
f1 = fopen(file1, "r");
}
if (f1 == NULL) {
warn("%s", file1);
rval = D_ERROR;
status |= 2;
goto closem;
}
if (flags & D_EMPTY2)
f2 = fopen(_PATH_DEVNULL, "r");
else {
if (!S_ISREG(stb2.st_mode)) {
if ((f2 = opentemp(file2)) == NULL ||
fstat(fileno(f2), &stb2) == -1) {
warn("%s", file2);
rval = D_ERROR;
status |= 2;
goto closem;
}
} else if (strcmp(file2, "-") == 0)
f2 = stdin;
else
f2 = fopen(file2, "r");
}
if (f2 == NULL) {
warn("%s", file2);
rval = D_ERROR;
status |= 2;
goto closem;
}
if (lflag)
pr = start_pr(file1, file2);
if (capsicum) {
cap_rights_init(&rights_ro, CAP_READ, CAP_FSTAT, CAP_SEEK);
if (caph_rights_limit(fileno(f1), &rights_ro) < 0)
err(2, "unable to limit rights on: %s", file1);
if (caph_rights_limit(fileno(f2), &rights_ro) < 0)
err(2, "unable to limit rights on: %s", file2);
if (fileno(f1) == STDIN_FILENO || fileno(f2) == STDIN_FILENO) {
/* stdin has already been limited */
if (caph_limit_stderr() == -1)
err(2, "unable to limit stderr");
if (caph_limit_stdout() == -1)
err(2, "unable to limit stdout");
} else if (caph_limit_stdio() == -1)
err(2, "unable to limit stdio");
caph_cache_catpages();
caph_cache_tzdata();
if (caph_enter() < 0)
err(2, "unable to enter capability mode");
}
switch (files_differ(f1, f2, flags)) {
case 0:
goto closem;
case 1:
break;
default:
/* error */
rval = D_ERROR;
status |= 2;
goto closem;
}
if (diff_format == D_BRIEF && ignore_pats == NULL &&
(flags & (D_FOLDBLANKS|D_IGNOREBLANKS|D_IGNORECASE|
D_SKIPBLANKLINES|D_STRIPCR)) == 0)
{
rval = D_DIFFER;
status |= 1;
goto closem;
}
if ((flags & D_FORCEASCII) != 0) {
(void)prepare(0, f1, stb1.st_size, flags);
(void)prepare(1, f2, stb2.st_size, flags);
} else if (!asciifile(f1) || !asciifile(f2) ||
!prepare(0, f1, stb1.st_size, flags) ||
!prepare(1, f2, stb2.st_size, flags)) {
rval = D_BINARY;
status |= 1;
goto closem;
}
prune();
sort(sfile[0], slen[0]);
sort(sfile[1], slen[1]);
member = (int *)file[1];
equiv(sfile[0], slen[0], sfile[1], slen[1], member);
member = xreallocarray(member, slen[1] + 2, sizeof(*member));
class = (int *)file[0];
unsort(sfile[0], slen[0], class);
class = xreallocarray(class, slen[0] + 2, sizeof(*class));
klist = xcalloc(slen[0] + 2, sizeof(*klist));
clen = 0;
clistlen = 100;
clist = xcalloc(clistlen, sizeof(*clist));
i = stone(class, slen[0], member, klist, flags);
free(member);
free(class);
J = xreallocarray(J, len[0] + 2, sizeof(*J));
unravel(klist[i]);
free(clist);
free(klist);
ixold = xreallocarray(ixold, len[0] + 2, sizeof(*ixold));
ixnew = xreallocarray(ixnew, len[1] + 2, sizeof(*ixnew));
check(f1, f2, flags);
output(file1, f1, file2, f2, flags);
closem:
if (pr != NULL)
stop_pr(pr);
if (anychange) {
status |= 1;
if (rval == D_SAME)
rval = D_DIFFER;
}
if (f1 != NULL)
fclose(f1);
if (f2 != NULL)
fclose(f2);
return (rval);
}
/*
* Check to see if the given files differ.
* Returns 0 if they are the same, 1 if different, and -1 on error.
* XXX - could use code from cmp(1) [faster]
*/
static int
files_differ(FILE *f1, FILE *f2, int flags)
{
char buf1[BUFSIZ], buf2[BUFSIZ];
size_t i, j;
if ((flags & (D_EMPTY1|D_EMPTY2)) || stb1.st_size != stb2.st_size ||
(stb1.st_mode & S_IFMT) != (stb2.st_mode & S_IFMT))
return (1);
if (stb1.st_dev == stb2.st_dev && stb1.st_ino == stb2.st_ino)
return (0);
for (;;) {
i = fread(buf1, 1, sizeof(buf1), f1);
j = fread(buf2, 1, sizeof(buf2), f2);
if ((!i && ferror(f1)) || (!j && ferror(f2)))
return (-1);
if (i != j)
return (1);
if (i == 0)
return (0);
if (memcmp(buf1, buf2, i) != 0)
return (1);
}
}
static FILE *
opentemp(const char *f)
{
char buf[BUFSIZ], tempfile[PATH_MAX];
ssize_t nread;
int ifd, ofd;
if (strcmp(f, "-") == 0)
ifd = STDIN_FILENO;
else if ((ifd = open(f, O_RDONLY, 0644)) == -1)
return (NULL);
(void)strlcpy(tempfile, _PATH_TMP "/diff.XXXXXXXX", sizeof(tempfile));
if ((ofd = mkstemp(tempfile)) == -1) {
close(ifd);
return (NULL);
}
unlink(tempfile);
while ((nread = read(ifd, buf, BUFSIZ)) > 0) {
if (write(ofd, buf, nread) != nread) {
close(ifd);
close(ofd);
return (NULL);
}
}
close(ifd);
lseek(ofd, (off_t)0, SEEK_SET);
return (fdopen(ofd, "r"));
}
static bool
prepare(int i, FILE *fd, size_t filesize, int flags)
{
struct line *p;
unsigned h;
size_t sz, j = 0;
enum readhash r;
rewind(fd);
sz = MIN(filesize, SIZE_MAX) / 25;
if (sz < 100)
sz = 100;
p = xcalloc(sz + 3, sizeof(*p));
while ((r = readhash(fd, flags, &h)) != RH_EOF)
switch (r) {
case RH_EOF: /* otherwise clang complains */
case RH_BINARY:
return (false);
case RH_OK:
if (j == sz) {
sz = sz * 3 / 2;
p = xreallocarray(p, sz + 3, sizeof(*p));
}
p[++j].value = h;
}
len[i] = j;
file[i] = p;
return (true);
}
static void
prune(void)
{
int i, j;
for (pref = 0; pref < len[0] && pref < len[1] &&
file[0][pref + 1].value == file[1][pref + 1].value;
pref++)
;
for (suff = 0; suff < len[0] - pref && suff < len[1] - pref &&
file[0][len[0] - suff].value == file[1][len[1] - suff].value;
suff++)
;
for (j = 0; j < 2; j++) {
sfile[j] = file[j] + pref;
slen[j] = len[j] - pref - suff;
for (i = 0; i <= slen[j]; i++)
sfile[j][i].serial = i;
}
}
static void
equiv(struct line *a, int n, struct line *b, int m, int *c)
{
int i, j;
i = j = 1;
while (i <= n && j <= m) {
if (a[i].value < b[j].value)
a[i++].value = 0;
else if (a[i].value == b[j].value)
a[i++].value = j;
else
j++;
}
while (i <= n)
a[i++].value = 0;
b[m + 1].value = 0;
j = 0;
while (++j <= m) {
c[j] = -b[j].serial;
while (b[j + 1].value == b[j].value) {
j++;
c[j] = b[j].serial;
}
}
c[j] = -1;
}
static int
stone(int *a, int n, int *b, int *c, int flags)
{
int i, k, y, j, l;
int oldc, tc, oldl, sq;
unsigned numtries, bound;
if (flags & D_MINIMAL)
bound = UINT_MAX;
else {
sq = sqrt(n);
bound = MAX(256, sq);
}
k = 0;
c[0] = newcand(0, 0, 0);
for (i = 1; i <= n; i++) {
j = a[i];
if (j == 0)
continue;
y = -b[j];
oldl = 0;
oldc = c[0];
numtries = 0;
do {
if (y <= clist[oldc].y)
continue;
l = search(c, k, y);
if (l != oldl + 1)
oldc = c[l - 1];
if (l <= k) {
if (clist[c[l]].y <= y)
continue;
tc = c[l];
c[l] = newcand(i, y, oldc);
oldc = tc;
oldl = l;
numtries++;
} else {
c[l] = newcand(i, y, oldc);
k++;
break;
}
} while ((y = b[++j]) > 0 && numtries < bound);
}
return (k);
}
static int
newcand(int x, int y, int pred)
{
struct cand *q;
if (clen == clistlen) {
clistlen = clistlen * 11 / 10;
clist = xreallocarray(clist, clistlen, sizeof(*clist));
}
q = clist + clen;
q->x = x;
q->y = y;
q->pred = pred;
return (clen++);
}
static int
search(int *c, int k, int y)
{
int i, j, l, t;
if (clist[c[k]].y < y) /* quick look for typical case */
return (k + 1);
i = 0;
j = k + 1;
for (;;) {
l = (i + j) / 2;
if (l <= i)
break;
t = clist[c[l]].y;
if (t > y)
j = l;
else if (t < y)
i = l;
else
return (l);
}
return (l + 1);
}
static void
unravel(int p)
{
struct cand *q;
int i;
for (i = 0; i <= len[0]; i++)
J[i] = i <= pref ? i :
i > len[0] - suff ? i + len[1] - len[0] : 0;
for (q = clist + p; q->y != 0; q = clist + q->pred)
J[q->x + pref] = q->y + pref;
}
/*
* Check does double duty:
* 1. ferret out any fortuitous correspondences due to confounding by
* hashing (which result in "jackpot")
* 2. collect random access indexes to the two files
*/
static void
check(FILE *f1, FILE *f2, int flags)
{
int i, j, /* jackpot, */ c, d;
long ctold, ctnew;
rewind(f1);
rewind(f2);
j = 1;
ixold[0] = ixnew[0] = 0;
/* jackpot = 0; */
ctold = ctnew = 0;
for (i = 1; i <= len[0]; i++) {
if (J[i] == 0) {
ixold[i] = ctold += skipline(f1);
continue;
}
while (j < J[i]) {
ixnew[j] = ctnew += skipline(f2);
j++;
}
if (flags & (D_FOLDBLANKS | D_IGNOREBLANKS | D_IGNORECASE | D_STRIPCR)) {
for (;;) {
c = getc(f1);
d = getc(f2);
/*
* GNU diff ignores a missing newline
* in one file for -b or -w.
*/
if (flags & (D_FOLDBLANKS | D_IGNOREBLANKS)) {
if (c == EOF && isspace(d)) {
ctnew++;
break;
} else if (isspace(c) && d == EOF) {
ctold++;
break;
}
}
ctold++;
ctnew++;
if (flags & D_STRIPCR && (c == '\r' || d == '\r')) {
if (c == '\r') {
if ((c = getc(f1)) == '\n') {
ctold++;
} else {
ungetc(c, f1);
}
}
if (d == '\r') {
if ((d = getc(f2)) == '\n') {
ctnew++;
} else {
ungetc(d, f2);
}
}
break;
}
if ((flags & D_FOLDBLANKS) && isspace(c) &&
isspace(d)) {
do {
if (c == '\n')
break;
ctold++;
} while (isspace(c = getc(f1)));
do {
if (d == '\n')
break;
ctnew++;
} while (isspace(d = getc(f2)));
} else if (flags & D_IGNOREBLANKS) {
while (isspace(c) && c != '\n') {
c = getc(f1);
ctold++;
}
while (isspace(d) && d != '\n') {
d = getc(f2);
ctnew++;
}
}
if (chrtran(c) != chrtran(d)) {
/* jackpot++; */
J[i] = 0;
if (c != '\n' && c != EOF)
ctold += skipline(f1);
if (d != '\n' && c != EOF)
ctnew += skipline(f2);
break;
}
if (c == '\n' || c == EOF)
break;
}
} else {
for (;;) {
ctold++;
ctnew++;
if ((c = getc(f1)) != (d = getc(f2))) {
/* jackpot++; */
J[i] = 0;
if (c != '\n' && c != EOF)
ctold += skipline(f1);
if (d != '\n' && c != EOF)
ctnew += skipline(f2);
break;
}
if (c == '\n' || c == EOF)
break;
}
}
ixold[i] = ctold;
ixnew[j] = ctnew;
j++;
}
for (; j <= len[1]; j++) {
ixnew[j] = ctnew += skipline(f2);
}
/*
* if (jackpot)
* fprintf(stderr, "jackpot\n");
*/
}
/* shellsort CACM #201 */
static void
sort(struct line *a, int n)
{
struct line *ai, *aim, w;
int j, m = 0, k;
if (n == 0)
return;
for (j = 1; j <= n; j *= 2)
m = 2 * j - 1;
for (m /= 2; m != 0; m /= 2) {
k = n - m;
for (j = 1; j <= k; j++) {
for (ai = &a[j]; ai > a; ai -= m) {
aim = &ai[m];
if (aim < ai)
break; /* wraparound */
if (aim->value > ai[0].value ||
(aim->value == ai[0].value &&
aim->serial > ai[0].serial))
break;
w.value = ai[0].value;
ai[0].value = aim->value;
aim->value = w.value;
w.serial = ai[0].serial;
ai[0].serial = aim->serial;
aim->serial = w.serial;
}
}
}
}
static void
unsort(struct line *f, int l, int *b)
{
int *a, i;
a = xcalloc(l + 1, sizeof(*a));
for (i = 1; i <= l; i++)
a[f[i].serial] = f[i].value;
for (i = 1; i <= l; i++)
b[i] = a[i];
free(a);
}
static int
skipline(FILE *f)
{
int i, c;
for (i = 1; (c = getc(f)) != '\n' && c != EOF; i++)
continue;
return (i);
}
static void
output(char *file1, FILE *f1, char *file2, FILE *f2, int flags)
{
int i, j, m, i0, i1, j0, j1, nc;
rewind(f1);
rewind(f2);
m = len[0];
J[0] = 0;
J[m + 1] = len[1] + 1;
if (diff_format != D_EDIT) {
for (i0 = 1; i0 <= m; i0 = i1 + 1) {
while (i0 <= m && J[i0] == J[i0 - 1] + 1) {
if (diff_format == D_SIDEBYSIDE && suppress_common != 1) {
nc = fetch(ixold, i0, i0, f1, '\0', 1, flags);
print_space(nc, hw - nc + lpad + 1 + rpad, flags);
fetch(ixnew, J[i0], J[i0], f2, '\0', 0, flags);
printf("\n");
}
i0++;
}
j0 = J[i0 - 1] + 1;
i1 = i0 - 1;
while (i1 < m && J[i1 + 1] == 0)
i1++;
j1 = J[i1 + 1] - 1;
J[i1] = j1;
/*
* When using side-by-side, lines from both of the files are
* printed. The algorithm used by diff(1) identifies the ranges
* in which two files differ.
* See the change() function below.
* The for loop below consumes the shorter range, whereas one of
* the while loops deals with the longer one.
*/
if (diff_format == D_SIDEBYSIDE) {
for (i = i0, j = j0; i <= i1 && j <= j1; i++, j++)
change(file1, f1, file2, f2, i, i, j, j, &flags);
while (i <= i1) {
change(file1, f1, file2, f2, i, i, j + 1, j, &flags);
i++;
}
while (j <= j1) {
change(file1, f1, file2, f2, i + 1, i, j, j, &flags);
j++;
}
} else
change(file1, f1, file2, f2, i0, i1, j0, j1, &flags);
}
} else {
for (i0 = m; i0 >= 1; i0 = i1 - 1) {
while (i0 >= 1 && J[i0] == J[i0 + 1] - 1 && J[i0] != 0)
i0--;
j0 = J[i0 + 1] - 1;
i1 = i0 + 1;
while (i1 > 1 && J[i1 - 1] == 0)
i1--;
j1 = J[i1 - 1] + 1;
J[i1] = j1;
change(file1, f1, file2, f2, i1, i0, j1, j0, &flags);
}
}
if (m == 0)
change(file1, f1, file2, f2, 1, 0, 1, len[1], &flags);
if (diff_format == D_IFDEF || diff_format == D_GFORMAT) {
for (;;) {
#define c i0
if ((c = getc(f1)) == EOF)
return;
printf("%c", c);
}
#undef c
}
if (anychange != 0) {
if (diff_format == D_CONTEXT)
dump_context_vec(f1, f2, flags);
else if (diff_format == D_UNIFIED)
dump_unified_vec(f1, f2, flags);
}
}
static void
range(int a, int b, const char *separator)
{
printf("%d", a > b ? b : a);
if (a < b)
printf("%s%d", separator, b);
}
static void
uni_range(int a, int b)
{
if (a < b)
printf("%d,%d", a, b - a + 1);
else if (a == b)
printf("%d", b);
else
printf("%d,0", b);
}
static char *
preadline(int fd, size_t rlen, off_t off)
{
char *line;
ssize_t nr;
line = xmalloc(rlen + 1);
if ((nr = pread(fd, line, rlen, off)) == -1)
err(2, "preadline");
if (nr > 0 && line[nr-1] == '\n')
nr--;
line[nr] = '\0';
return (line);
}
static bool
ignoreline_pattern(char *line)
{
int ret;
ret = regexec(&ignore_re, line, 0, NULL, 0);
return (ret == 0); /* if it matched, it should be ignored. */
}
static bool
ignoreline(char *line, bool skip_blanks)
{
if (skip_blanks && *line == '\0')
return (true);
if (ignore_pats != NULL && ignoreline_pattern(line))
return (true);
return (false);
}
/*
* Indicate that there is a difference between lines a and b of the from file
* to get to lines c to d of the to file. If a is greater then b then there
* are no lines in the from file involved and this means that there were
* lines appended (beginning at b). If c is greater than d then there are
* lines missing from the to file.
*/
static void
change(char *file1, FILE *f1, char *file2, FILE *f2, int a, int b, int c, int d,
int *pflags)
{
static size_t max_context = 64;
long curpos;
int i, nc;
const char *walk;
bool skip_blanks, ignore;
skip_blanks = (*pflags & D_SKIPBLANKLINES);
restart:
if ((diff_format != D_IFDEF || diff_format == D_GFORMAT) &&
a > b && c > d)
return;
if (ignore_pats != NULL || skip_blanks) {
char *line;
/*
* All lines in the change, insert, or delete must match an ignore
* pattern for the change to be ignored.
*/
if (a <= b) { /* Changes and deletes. */
for (i = a; i <= b; i++) {
line = preadline(fileno(f1),
ixold[i] - ixold[i - 1], ixold[i - 1]);
ignore = ignoreline(line, skip_blanks);
free(line);
if (!ignore)
goto proceed;
}
}
if (a > b || c <= d) { /* Changes and inserts. */
for (i = c; i <= d; i++) {
line = preadline(fileno(f2),
ixnew[i] - ixnew[i - 1], ixnew[i - 1]);
ignore = ignoreline(line, skip_blanks);
free(line);
if (!ignore)
goto proceed;
}
}
return;
}
proceed:
if (*pflags & D_HEADER && diff_format != D_BRIEF) {
printf("%s %s %s\n", diffargs, file1, file2);
*pflags &= ~D_HEADER;
}
if (diff_format == D_CONTEXT || diff_format == D_UNIFIED) {
/*
* Allocate change records as needed.
*/
if (context_vec_start == NULL ||
context_vec_ptr == context_vec_end - 1) {
ptrdiff_t offset = -1;
if (context_vec_start != NULL)
offset = context_vec_ptr - context_vec_start;
max_context <<= 1;
context_vec_start = xreallocarray(context_vec_start,
max_context, sizeof(*context_vec_start));
context_vec_end = context_vec_start + max_context;
context_vec_ptr = context_vec_start + offset;
}
if (anychange == 0) {
/*
* Print the context/unidiff header first time through.
*/
print_header(file1, file2);
anychange = 1;
} else if (a > context_vec_ptr->b + (2 * diff_context) + 1 &&
c > context_vec_ptr->d + (2 * diff_context) + 1) {
/*
* If this change is more than 'diff_context' lines from the
* previous change, dump the record and reset it.
*/
if (diff_format == D_CONTEXT)
dump_context_vec(f1, f2, *pflags);
else
dump_unified_vec(f1, f2, *pflags);
}
context_vec_ptr++;
context_vec_ptr->a = a;
context_vec_ptr->b = b;
context_vec_ptr->c = c;
context_vec_ptr->d = d;
return;
}
if (anychange == 0)
anychange = 1;
switch (diff_format) {
case D_BRIEF:
return;
case D_NORMAL:
case D_EDIT:
range(a, b, ",");
printf("%c", a > b ? 'a' : c > d ? 'd' : 'c');
if (diff_format == D_NORMAL)
range(c, d, ",");
printf("\n");
break;
case D_REVERSE:
printf("%c", a > b ? 'a' : c > d ? 'd' : 'c');
range(a, b, " ");
printf("\n");
break;
case D_NREVERSE:
if (a > b)
printf("a%d %d\n", b, d - c + 1);
else {
printf("d%d %d\n", a, b - a + 1);
if (!(c > d))
/* add changed lines */
printf("a%d %d\n", b, d - c + 1);
}
break;
}
if (diff_format == D_GFORMAT) {
curpos = ftell(f1);
/* print through if append (a>b), else to (nb: 0 vs 1 orig) */
nc = ixold[a > b ? b : a - 1] - curpos;
for (i = 0; i < nc; i++)
printf("%c", getc(f1));
for (walk = group_format; *walk != '\0'; walk++) {
if (*walk == '%') {
walk++;
switch (*walk) {
case '<':
fetch(ixold, a, b, f1, '<', 1, *pflags);
break;
case '>':
fetch(ixnew, c, d, f2, '>', 0, *pflags);
break;
default:
printf("%%%c", *walk);
break;
}
continue;
}
printf("%c", *walk);
}
}
if (diff_format == D_SIDEBYSIDE) {
if (color && a > b)
printf("\033[%sm", add_code);
else if (color && c > d)
printf("\033[%sm", del_code);
if (a > b) {
print_space(0, hw + lpad, *pflags);
} else {
nc = fetch(ixold, a, b, f1, '\0', 1, *pflags);
print_space(nc, hw - nc + lpad, *pflags);
}
if (color && a > b)
printf("\033[%sm", add_code);
else if (color && c > d)
printf("\033[%sm", del_code);
printf("%c", (a > b) ? '>' : ((c > d) ? '<' : '|'));
if (color && c > d)
printf("\033[m");
print_space(hw + lpad + 1, rpad, *pflags);
fetch(ixnew, c, d, f2, '\0', 0, *pflags);
printf("\n");
}
if (diff_format == D_NORMAL || diff_format == D_IFDEF) {
fetch(ixold, a, b, f1, '<', 1, *pflags);
if (a <= b && c <= d && diff_format == D_NORMAL)
printf("---\n");
}
if (diff_format != D_GFORMAT && diff_format != D_SIDEBYSIDE)
fetch(ixnew, c, d, f2, diff_format == D_NORMAL ? '>' : '\0', 0, *pflags);
if (edoffset != 0 && diff_format == D_EDIT) {
/*
* A non-zero edoffset value for D_EDIT indicates that the last line
* printed was a bare dot (".") that has been escaped as ".." to
* prevent ed(1) from misinterpreting it. We have to add a
* substitute command to change this back and restart where we left
* off.
*/
printf(".\n");
printf("%ds/.//\n", a + edoffset - 1);
b = a + edoffset - 1;
a = b + 1;
c += edoffset;
goto restart;
}
if ((diff_format == D_EDIT || diff_format == D_REVERSE) && c <= d)
printf(".\n");
if (inifdef) {
printf("#endif /* %s */\n", ifdefname);
inifdef = 0;
}
}
static int
fetch(long *f, int a, int b, FILE *lb, int ch, int oldfile, int flags)
{
int i, j, c, lastc, col, nc, newcol;
edoffset = 0;
nc = 0;
col = 0;
/*
* When doing #ifdef's, copy down to current line
* if this is the first file, so that stuff makes it to output.
*/
if ((diff_format == D_IFDEF) && oldfile) {
long curpos = ftell(lb);
/* print through if append (a>b), else to (nb: 0 vs 1 orig) */
nc = f[a > b ? b : a - 1] - curpos;
for (i = 0; i < nc; i++)
printf("%c", getc(lb));
}
if (a > b)
return (0);
if (diff_format == D_IFDEF) {
if (inifdef) {
printf("#else /* %s%s */\n",
oldfile == 1 ? "!" : "", ifdefname);
} else {
if (oldfile)
printf("#ifndef %s\n", ifdefname);
else
printf("#ifdef %s\n", ifdefname);
}
inifdef = 1 + oldfile;
}
for (i = a; i <= b; i++) {
fseek(lb, f[i - 1], SEEK_SET);
nc = f[i] - f[i - 1];
if (diff_format == D_SIDEBYSIDE && hw < nc)
nc = hw;
if (diff_format != D_IFDEF && diff_format != D_GFORMAT &&
ch != '\0') {
if (color && (ch == '>' || ch == '+'))
printf("\033[%sm", add_code);
else if (color && (ch == '<' || ch == '-'))
printf("\033[%sm", del_code);
printf("%c", ch);
if (Tflag && (diff_format == D_NORMAL ||
diff_format == D_CONTEXT ||
diff_format == D_UNIFIED))
printf("\t");
else if (diff_format != D_UNIFIED)
printf(" ");
}
col = j = 0;
lastc = '\0';
while (j < nc && (hw == 0 || col < hw)) {
c = getc(lb);
if (flags & D_STRIPCR && c == '\r') {
if ((c = getc(lb)) == '\n')
j++;
else {
ungetc(c, lb);
c = '\r';
}
}
if (c == EOF) {
if (diff_format == D_EDIT ||
diff_format == D_REVERSE ||
diff_format == D_NREVERSE)
warnx("No newline at end of file");
else
printf("\n\\ No newline at end of file\n");
return (col);
}
/*
* when using --side-by-side, col needs to be increased
* in any case to keep the columns aligned
*/
if (c == '\t') {
/*
* Calculate where the tab would bring us.
* If it would take us to the end of the
* column, either clip it (if expanding
* tabs) or return right away (if not).
*/
newcol = roundup(col + 1, tabsize);
if ((flags & D_EXPANDTABS) == 0) {
if (hw > 0 && newcol >= hw)
return (col);
printf("\t");
} else {
if (hw > 0 && newcol > hw)
newcol = hw;
printf("%*s", newcol - col, "");
}
col = newcol;
} else {
if (diff_format == D_EDIT && j == 1 && c == '\n' &&
lastc == '.') {
/*
* Don't print a bare "." line since that will confuse
* ed(1). Print ".." instead and set the, global variable
* edoffset to an offset from which to restart. The
* caller must check the value of edoffset
*/
printf(".\n");
edoffset = i - a + 1;
return (edoffset);
}
/* when side-by-side, do not print a newline */
if (diff_format != D_SIDEBYSIDE || c != '\n') {
if (color && c == '\n')
printf("\033[m%c", c);
else
printf("%c", c);
col++;
}
}
j++;
lastc = c;
}
}
if (color && diff_format == D_SIDEBYSIDE)
printf("\033[m");
return (col);
}
/*
* Hash function taken from Robert Sedgewick, Algorithms in C, 3d ed., p 578.
*/
static enum readhash
readhash(FILE *f, int flags, unsigned *hash)
{
int i, t, space;
unsigned sum;
sum = 1;
space = 0;
for (i = 0;;) {
switch (t = getc(f)) {
case '\0':
if ((flags & D_FORCEASCII) == 0)
return (RH_BINARY);
goto hashchar;
case '\r':
if (flags & D_STRIPCR) {
t = getc(f);
if (t == '\n')
break;
ungetc(t, f);
}
/* FALLTHROUGH */
case '\t':
case '\v':
case '\f':
case ' ':
if ((flags & (D_FOLDBLANKS|D_IGNOREBLANKS)) != 0) {
space++;
continue;
}
/* FALLTHROUGH */
default:
hashchar:
if (space && (flags & D_IGNOREBLANKS) == 0) {
i++;
space = 0;
}
sum = sum * 127 + chrtran(t);
i++;
continue;
case EOF:
if (i == 0)
return (RH_EOF);
/* FALLTHROUGH */
case '\n':
break;
}
break;
}
*hash = sum;
return (RH_OK);
}
static int
asciifile(FILE *f)
{
unsigned char buf[BUFSIZ];
size_t cnt;
if (f == NULL)
return (1);
rewind(f);
cnt = fread(buf, 1, sizeof(buf), f);
return (memchr(buf, '\0', cnt) == NULL);
}
#define begins_with(s, pre) (strncmp(s, pre, sizeof(pre) - 1) == 0)
static char *
match_function(const long *f, int pos, FILE *fp)
{
unsigned char buf[FUNCTION_CONTEXT_SIZE];
size_t nc;
int last = lastline;
const char *state = NULL;
lastline = pos;
for (; pos > last; pos--) {
fseek(fp, f[pos - 1], SEEK_SET);
nc = f[pos] - f[pos - 1];
if (nc >= sizeof(buf))
nc = sizeof(buf) - 1;
nc = fread(buf, 1, nc, fp);
if (nc == 0)
continue;
buf[nc] = '\0';
buf[strcspn(buf, "\n")] = '\0';
if (most_recent_pat != NULL) {
int ret = regexec(&most_recent_re, buf, 0, NULL, 0);
if (ret != 0)
continue;
strlcpy(lastbuf, buf, sizeof(lastbuf));
lastmatchline = pos;
return (lastbuf);
} else if (isalpha(buf[0]) || buf[0] == '_' || buf[0] == '$'
|| buf[0] == '-' || buf[0] == '+') {
if (begins_with(buf, "private:")) {
if (!state)
state = " (private)";
} else if (begins_with(buf, "protected:")) {
if (!state)
state = " (protected)";
} else if (begins_with(buf, "public:")) {
if (!state)
state = " (public)";
} else {
strlcpy(lastbuf, buf, sizeof(lastbuf));
if (state)
strlcat(lastbuf, state, sizeof(lastbuf));
lastmatchline = pos;
return (lastbuf);
}
}
}
return (lastmatchline > 0 ? lastbuf : NULL);
}
/* dump accumulated "context" diff changes */
static void
dump_context_vec(FILE *f1, FILE *f2, int flags)
{
struct context_vec *cvp = context_vec_start;
int lowa, upb, lowc, upd, do_output;
int a, b, c, d;
char ch, *f;
if (context_vec_start > context_vec_ptr)
return;
b = d = 0; /* gcc */
lowa = MAX(1, cvp->a - diff_context);
upb = MIN(len[0], context_vec_ptr->b + diff_context);
lowc = MAX(1, cvp->c - diff_context);
upd = MIN(len[1], context_vec_ptr->d + diff_context);
printf("***************");
if (flags & (D_PROTOTYPE | D_MATCHLAST)) {
f = match_function(ixold, cvp->a - 1, f1);
if (f != NULL)
printf(" %s", f);
}
printf("\n*** ");
range(lowa, upb, ",");
printf(" ****\n");
/*
* Output changes to the "old" file. The first loop suppresses
* output if there were no changes to the "old" file (we'll see
* the "old" lines as context in the "new" list).
*/
do_output = 0;
for (; cvp <= context_vec_ptr; cvp++)
if (cvp->a <= cvp->b) {
cvp = context_vec_start;
do_output++;
break;
}
if (do_output) {
while (cvp <= context_vec_ptr) {
a = cvp->a;
b = cvp->b;
c = cvp->c;
d = cvp->d;
if (a <= b && c <= d)
ch = 'c';
else
ch = (a <= b) ? 'd' : 'a';
if (ch == 'a')
fetch(ixold, lowa, b, f1, ' ', 0, flags);
else {
fetch(ixold, lowa, a - 1, f1, ' ', 0, flags);
fetch(ixold, a, b, f1,
ch == 'c' ? '!' : '-', 0, flags);
}
lowa = b + 1;
cvp++;
}
fetch(ixold, b + 1, upb, f1, ' ', 0, flags);
}
/* output changes to the "new" file */
printf("--- ");
range(lowc, upd, ",");
printf(" ----\n");
do_output = 0;
for (cvp = context_vec_start; cvp <= context_vec_ptr; cvp++)
if (cvp->c <= cvp->d) {
cvp = context_vec_start;
do_output++;
break;
}
if (do_output) {
while (cvp <= context_vec_ptr) {
a = cvp->a;
b = cvp->b;
c = cvp->c;
d = cvp->d;
if (a <= b && c <= d)
ch = 'c';
else
ch = (a <= b) ? 'd' : 'a';
if (ch == 'd')
fetch(ixnew, lowc, d, f2, ' ', 0, flags);
else {
fetch(ixnew, lowc, c - 1, f2, ' ', 0, flags);
fetch(ixnew, c, d, f2,
ch == 'c' ? '!' : '+', 0, flags);
}
lowc = d + 1;
cvp++;
}
fetch(ixnew, d + 1, upd, f2, ' ', 0, flags);
}
context_vec_ptr = context_vec_start - 1;
}
/* dump accumulated "unified" diff changes */
static void
dump_unified_vec(FILE *f1, FILE *f2, int flags)
{
struct context_vec *cvp = context_vec_start;
int lowa, upb, lowc, upd;
int a, b, c, d;
char ch, *f;
if (context_vec_start > context_vec_ptr)
return;
b = d = 0; /* gcc */
lowa = MAX(1, cvp->a - diff_context);
upb = MIN(len[0], context_vec_ptr->b + diff_context);
lowc = MAX(1, cvp->c - diff_context);
upd = MIN(len[1], context_vec_ptr->d + diff_context);
printf("@@ -");
uni_range(lowa, upb);
printf(" +");
uni_range(lowc, upd);
printf(" @@");
if (flags & (D_PROTOTYPE | D_MATCHLAST)) {
f = match_function(ixold, cvp->a - 1, f1);
if (f != NULL)
printf(" %s", f);
}
printf("\n");
/*
* Output changes in "unified" diff format--the old and new lines
* are printed together.
*/
for (; cvp <= context_vec_ptr; cvp++) {
a = cvp->a;
b = cvp->b;
c = cvp->c;
d = cvp->d;
/*
* c: both new and old changes
* d: only changes in the old file
* a: only changes in the new file
*/
if (a <= b && c <= d)
ch = 'c';
else
ch = (a <= b) ? 'd' : 'a';
switch (ch) {
case 'c':
fetch(ixold, lowa, a - 1, f1, ' ', 0, flags);
fetch(ixold, a, b, f1, '-', 0, flags);
fetch(ixnew, c, d, f2, '+', 0, flags);
break;
case 'd':
fetch(ixold, lowa, a - 1, f1, ' ', 0, flags);
fetch(ixold, a, b, f1, '-', 0, flags);
break;
case 'a':
fetch(ixnew, lowc, c - 1, f2, ' ', 0, flags);
fetch(ixnew, c, d, f2, '+', 0, flags);
break;
}
lowa = b + 1;
lowc = d + 1;
}
fetch(ixnew, d + 1, upd, f2, ' ', 0, flags);
context_vec_ptr = context_vec_start - 1;
}
static void
print_header(const char *file1, const char *file2)
{
const char *time_format;
char buf[256];
struct tm tm1, tm2, *tm_ptr1, *tm_ptr2;
int nsec1 = stb1.st_mtim.tv_nsec;
int nsec2 = stb2.st_mtim.tv_nsec;
time_format = "%Y-%m-%d %H:%M:%S";
if (cflag)
time_format = "%c";
tm_ptr1 = localtime_r(&stb1.st_mtime, &tm1);
tm_ptr2 = localtime_r(&stb2.st_mtime, &tm2);
if (label[0] != NULL)
printf("%s %s\n", diff_format == D_CONTEXT ? "***" : "---",
label[0]);
else {
strftime(buf, sizeof(buf), time_format, tm_ptr1);
printf("%s %s\t%s", diff_format == D_CONTEXT ? "***" : "---",
file1, buf);
if (!cflag) {
strftime(buf, sizeof(buf), "%z", tm_ptr1);
printf(".%.9d %s", nsec1, buf);
}
printf("\n");
}
if (label[1] != NULL)
printf("%s %s\n", diff_format == D_CONTEXT ? "---" : "+++",
label[1]);
else {
strftime(buf, sizeof(buf), time_format, tm_ptr2);
printf("%s %s\t%s", diff_format == D_CONTEXT ? "---" : "+++",
file2, buf);
if (!cflag) {
strftime(buf, sizeof(buf), "%z", tm_ptr2);
printf(".%.9d %s", nsec2, buf);
}
printf("\n");
}
}
/*
* Prints n number of space characters either by using tab
* or single space characters.
* nc is the preceding number of characters
*/
static void
print_space(int nc, int n, int flags)
{
int col, newcol, tabstop;
col = nc;
newcol = nc + n;
/* first, use tabs if allowed */
if ((flags & D_EXPANDTABS) == 0) {
while ((tabstop = roundup(col + 1, tabsize)) <= newcol) {
printf("\t");
col = tabstop;
}
}
/* finish with spaces */
printf("%*s", newcol - col, "");
}
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