v24i023: GNU Diff, version 1.15, Part08/08
Rich Salz
rsalz at uunet.uu.net
Tue Feb 26 08:14:35 AEST 1991
Submitted-by: Paul Eggert <eggert at twinsun.com>
Posting-number: Volume 24, Issue 23
Archive-name: gnudiff1.15/part08
#! /bin/sh
# This is a shell archive. Remove anything before this line, then unpack
# it by saving it into a file and typing "sh file". To overwrite existing
# files, type "sh file -c". You can also feed this as standard input via
# unshar, or by typing "sh <file", e.g.. If this archive is complete, you
# will see the following message at the end:
# "End of archive 8 (of 8)."
# Contents: diff3.c
# Wrapped by eggert at ata on Mon Jan 7 11:25:32 1991
PATH=/bin:/usr/bin:/usr/ucb ; export PATH
if test -f 'diff3.c' -a "${1}" != "-c" ; then
echo shar: Will not clobber existing file \"'diff3.c'\"
else
echo shar: Extracting \"'diff3.c'\" \(46642 characters\)
sed "s/^X//" >'diff3.c' <<'END_OF_FILE'
X/* Three-way file comparison program (diff3) for Project GNU
X Copyright (C) 1988, 1989 Free Software Foundation, Inc.
X
X This program is free software; you can redistribute it and/or modify
X it under the terms of the GNU General Public License as published by
X the Free Software Foundation; either version 1, or (at your option)
X any later version.
X
X This program is distributed in the hope that it will be useful,
X but WITHOUT ANY WARRANTY; without even the implied warranty of
X MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
X GNU General Public License for more details.
X
X You should have received a copy of the GNU General Public License
X along with this program; if not, write to the Free Software
X Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
X
X
X/* Written by Randy Smith */
X
X#ifdef __STDC__
X#define VOID void
X#else
X#define VOID char
X#endif
X
X/*
X * Include files.
X */
X#include <stdio.h>
X#include <ctype.h>
X#include <sys/types.h>
X#include <sys/stat.h>
X
X#ifdef USG
X#include <fcntl.h>
X
X/* Define needed BSD functions in terms of sysV library. */
X
X#define bcmp(s1,s2,n) memcmp((s1),(s2),(n))
X#define bzero(s,n) memset((s),0,(n))
X
X#ifndef XENIX
X#define dup2(f,t) (close(t),fcntl((f),F_DUPFD,(t)))
X#endif
X
X#define vfork fork
X
X#else /* not USG */
X#include <sys/wait.h>
X#endif /* not USG */
X
X#ifndef WEXITSTATUS
X#define WEXITSTATUS(stat_val) ((unsigned)(stat_val) >> 8)
X#undef WIFEXITED /* Avoid 4.3BSD incompatibility with Posix. */
X#endif
X#ifndef WIFEXITED
X#define WIFEXITED(stat_val) (((stat_val) & 255) == 0)
X#endif
X
X#ifdef sparc
X/* vfork clobbers registers on the Sparc, so don't use it. */
X#define vfork fork
X#endif
X
X/*
X * Internal data structures and macros for the diff3 program; includes
X * data structures for both diff3 diffs and normal diffs.
X */
X
X/*
X * Different files within a diff
X */
X#define FILE0 0
X#define FILE1 1
X#define FILE2 2
X
X/*
X * Three way diffs are build out of two two-way diffs; the file which
X * the two two-way diffs share is:
X */
X#define FILEC FILE0
X
X/* The ranges are indexed by */
X#define START 0
X#define END 1
X
Xenum diff_type {
X ERROR, /* Should not be used */
X ADD, /* Two way diff add */
X CHANGE, /* Two way diff change */
X DELETE, /* Two way diff delete */
X DIFF_ALL, /* All three are different */
X DIFF_1ST, /* Only the first is different */
X DIFF_2ND, /* Only the second */
X DIFF_3RD /* Only the third */
X};
X
X/* Two-way diff */
Xstruct diff_block {
X int ranges[2][2]; /* Ranges are inclusive */
X char **lines[2]; /* The actual lines (may contain nulls) */
X int *lengths[2]; /* Line lengths (including newlines, if any) */
X struct diff_block *next;
X};
X
X/* Three-way diff */
X
Xstruct diff3_block {
X enum diff_type correspond; /* Type of diff */
X int ranges[3][2]; /* Ranges are inclusive */
X char **lines[3]; /* The actual lines (may contain nulls) */
X int *lengths[3]; /* Line lengths (including newlines, if any) */
X struct diff3_block *next;
X};
X
X/*
X * Access the ranges on a diff block.
X */
X#define D_LOWLINE(diff, filenum) \
X ((diff)->ranges[filenum][START])
X#define D_HIGHLINE(diff, filenum) \
X ((diff)->ranges[filenum][END])
X#define D_NUMLINES(diff, filenum) \
X (D_HIGHLINE((diff), (filenum)) - D_LOWLINE((diff), (filenum)) + 1)
X
X/*
X * Access the line numbers in a file in a diff by relative line
X * numbers (i.e. line number within the diff itself). Note that these
X * are lvalues and can be used for assignment.
X */
X#define D_RELNUM(diff, filenum, linenum) \
X (*((diff)->lines[filenum] + linenum))
X#define D_RELLEN(diff, filenum, linenum) \
X (*((diff)->lengths[filenum] + linenum))
X
X/*
X * And get at them directly, when that should be necessary.
X */
X#define D_LINEARRAY(diff, filenum) \
X ((diff)->lines[filenum])
X#define D_LENARRAY(diff, filenum) \
X ((diff)->lengths[filenum])
X
X/*
X * Next block.
X */
X#define D_NEXT(diff) ((diff)->next)
X
X/*
X * Access the type of a diff3 block.
X */
X#define D3_TYPE(diff) ((diff)->correspond)
X
X/*
X * Line mappings based on diffs. The first maps off the top of the
X * diff, the second off of the bottom.
X */
X#define D_HIGH_MAPLINE(diff, fromfile, tofile, lineno) \
X ((lineno) \
X - D_HIGHLINE ((diff), (fromfile)) \
X + D_HIGHLINE ((diff), (tofile)))
X
X#define D_LOW_MAPLINE(diff, fromfile, tofile, lineno) \
X ((lineno) \
X - D_LOWLINE ((diff), (fromfile)) \
X + D_LOWLINE ((diff), (tofile)))
X
X/*
X * General memory allocation function.
X */
X#define ALLOCATE(number, type) \
X (type *) xmalloc ((number) * sizeof (type))
X
X/*
X * Options variables for flags set on command line.
X *
X * ALWAYS_TEXT: Treat all files as text files; never treat as binary.
X *
X * EDSCRIPT: Write out an ed script instead of the standard diff3 format.
X *
X * FLAGGING: Indicates that in the case of overlapping diffs (type
X * DIFF_ALL), the lines which would normally be deleted from file 1
X * should be preserved with a special flagging mechanism.
X *
X * DONT_WRITE_OVERLAP: 1 if information for overlapping diffs should
X * not be output.
X *
X * DONT_WRITE_SIMPLE: 1 if information for non-overlapping diffs
X * should not be output.
X *
X * FINALWRITE: 1 if a :wq should be included at the end of the script
X * to write out the file being edited.
X *
X * MERGE: output a merged file.
X */
Xint always_text;
Xint edscript;
Xint flagging;
Xint dont_write_overlap;
Xint dont_write_simple;
Xint finalwrite;
Xint merge;
X
Xextern int optind;
X
Xchar *argv0;
X
X/*
X * Forward function declarations.
X */
Xstruct diff_block *process_diff ();
Xstruct diff3_block *make_3way_diff ();
Xvoid output_diff3 ();
Xint output_diff3_edscript ();
Xint output_diff3_merge ();
Xvoid usage ();
X
Xstruct diff3_block *using_to_diff3_block ();
Xint copy_stringlist ();
Xstruct diff3_block *create_diff3_block ();
Xint compare_line_list ();
X
Xchar *read_diff ();
Xenum diff_type process_diff_control ();
Xchar *scan_diff_line ();
X
Xstruct diff3_block *reverse_diff3_blocklist ();
X
XVOID *xmalloc ();
XVOID *xrealloc ();
X
Xchar diff_program[] = DIFF_PROGRAM;
X
X/*
X * Main program. Calls diff twice on two pairs of input files,
X * combines the two diffs, and outputs them.
X */
Xmain (argc, argv)
X int argc;
X char **argv;
X{
X int c, i;
X int mapping[3];
X int rev_mapping[3];
X int incompat;
X int overlaps_found;
X struct diff_block *thread1, *thread2;
X struct diff3_block *diff;
X int tag_count = 0;
X /* Element 0 is for file 0, element 1 is for file 2. */
X char *tag_strings[2];
X extern char *optarg;
X char *commonname;
X struct stat statb;
X
X incompat = 0;
X tag_strings[0] = tag_strings[1] = 0;
X
X argv0 = argv[0];
X
X while ((c = getopt (argc, argv, "aeimx3EXL:")) != EOF)
X {
X switch (c)
X {
X case 'a':
X always_text = 1;
X break;
X case 'x':
X dont_write_simple = 1;
X incompat++;
X break;
X case '3':
X dont_write_overlap = 1;
X incompat++;
X break;
X case 'i':
X finalwrite = 1;
X break;
X case 'm':
X merge = 1;
X break;
X case 'X':
X dont_write_simple = 1;
X /* Falls through */
X case 'E':
X flagging = 1;
X /* Falls through */
X case 'e':
X incompat++;
X break;
X case 'L':
X /* Handle one or two -L arguments. */
X if (tag_count < 2)
X {
X tag_strings[tag_count++] = optarg;
X break;
X }
X /* Falls through */
X case '?':
X default:
X usage ();
X /* NOTREACHED */
X }
X }
X
X edscript = incompat & ~merge; /* -eExX3 without -m implies ed script. */
X flagging |= ~incompat & merge; /* -m without -eExX3 implies -E. */
X
X if (incompat > 1 /* Ensure at most one of -eExX3. */
X || finalwrite & (~incompat | merge)
X /* -i needs one of -eExX3; -i -m would rewrite input file. */
X || tag_count && ! flagging /* -L requires one of -EX. */
X || argc - optind != 3)
X usage ();
X
X if (tag_strings[0] == 0)
X tag_strings[0] = argv[optind];
X if (tag_strings[1] == 0)
X tag_strings[1] = argv[optind + 2];
X
X if (*argv[optind] == '-' && *(argv[optind] + 1) == '\0')
X {
X /* Sigh. We've got standard input as the first arg. We can't */
X /* call diff twice on stdin */
X if (! strcmp (argv[optind + 1], "-") || ! strcmp (argv[optind + 2], "-"))
X fatal ("`-' specified for more than one input file");
X mapping[0] = 1;
X mapping[1] = 2;
X mapping[2] = 0;
X rev_mapping[1] = 0;
X rev_mapping[2] = 1;
X rev_mapping[0] = 2;
X }
X else
X {
X /* Normal, what you'd expect */
X mapping[0] = 0;
X mapping[1] = 1;
X mapping[2] = 2;
X rev_mapping[0] = 0;
X rev_mapping[1] = 1;
X rev_mapping[2] = 2;
X }
X
X for (i = 0; i < 3; i++)
X if (argv[optind + i][0] != '-' || argv[optind + i][1] != '\0')
X if (stat (argv[optind + i], &statb) < 0)
X perror_with_exit (argv[optind + i]);
X else if ((statb.st_mode & S_IFMT) == S_IFDIR)
X {
X fprintf (stderr, "%s: %s: Is a directory\n", argv0,
X argv[optind + i]);
X exit (2);
X }
X
X
X commonname = argv[optind + rev_mapping[0]];
X thread1 = process_diff (commonname, argv[optind + rev_mapping[1]]);
X thread2 = process_diff (commonname, argv[optind + rev_mapping[2]]);
X diff = make_3way_diff (thread1, thread2);
X if (edscript)
X overlaps_found
X = output_diff3_edscript (stdout, diff, mapping, rev_mapping,
X tag_strings[0], argv[optind+1], tag_strings[1]);
X else if (merge)
X {
X if (! freopen (commonname, "r", stdin))
X perror_with_exit (commonname);
X overlaps_found
X = output_diff3_merge (stdin, stdout, diff, mapping, rev_mapping,
X tag_strings[0], argv[optind+1], tag_strings[1]);
X if (ferror (stdin))
X fatal ("read error");
X }
X else
X {
X output_diff3 (stdout, diff, mapping, rev_mapping);
X overlaps_found = 0;
X }
X
X if (ferror (stdout) || fflush (stdout) != 0)
X fatal ("write error");
X exit (overlaps_found);
X}
X
X/*
X * Explain, patiently and kindly, how to use this program. Then exit.
X */
Xvoid
Xusage ()
X{
X fprintf (stderr, "Usage:\t%s [-exEX3 [-i | -m] [-L label1 -L label3]] file1 file2 file3\n",
X argv0);
X fprintf (stderr, "\tOnly one of [exEX3] allowed\n");
X exit (2);
X}
X
X/*
X * Routines that combine the two diffs together into one. The
X * algorithm used follows:
X *
X * File0 is shared in common between the two diffs.
X * Diff01 is the diff between 0 and 1.
X * Diff02 is the diff between 0 and 2.
X *
X * 1) Find the range for the first block in File0.
X * a) Take the lowest of the two ranges (in File0) in the two
X * current blocks (one from each diff) as being the low
X * water mark. Assign the upper end of this block as
X * being the high water mark and move the current block up
X * one. Mark the block just moved over as to be used.
X * b) Check the next block in the diff that the high water
X * mark is *not* from.
X *
X * *If* the high water mark is above
X * the low end of the range in that block,
X *
X * mark that block as to be used and move the current
X * block up. Set the high water mark to the max of
X * the high end of this block and the current. Repeat b.
X *
X * 2) Find the corresponding ranges in Files1 (from the blocks
X * in diff01; line per line outside of diffs) and in File2.
X * Create a diff3_block, reserving space as indicated by the ranges.
X *
X * 3) Copy all of the pointers for file0 in. At least for now,
X * do bcmp's between corresponding strings in the two diffs.
X *
X * 4) Copy all of the pointers for file1 and 2 in. Get what you
X * need from file0 (when there isn't a diff block, it's
X * identical to file0 within the range between diff blocks).
X *
X * 5) If the diff blocks you used came from only one of the two
X * strings of diffs, then that file (i.e. the one other than
X * file 0 in that diff) is the odd person out. If you used
X * diff blocks from both sets, check to see if files 1 and 2 match:
X *
X * Same number of lines? If so, do a set of bcmp's (if a
X * bcmp matches; copy the pointer over; it'll be easier later
X * if you have to do any compares). If they match, 1 & 2 are
X * the same. If not, all three different.
X *
X * Then you do it again, until you run out of blocks.
X *
X */
X
X/*
X * This routine makes a three way diff (chain of diff3_block's) from two
X * two way diffs (chains of diff_block's). It is assumed that each of
X * the two diffs passed are off of the same file (i.e. that each of the
X * diffs were made "from" the same file). The three way diff pointer
X * returned will have numbering 0--the common file, 1--the other file
X * in diff1, and 2--the other file in diff2.
X */
Xstruct diff3_block *
Xmake_3way_diff (thread1, thread2)
X struct diff_block *thread1, *thread2;
X{
X/*
X * This routine works on the two diffs passed to it as threads.
X * Thread number 0 is diff1, thread number 1 is diff2. The USING
X * array is set to the base of the list of blocks to be used to
X * construct each block of the three way diff; if no blocks from a
X * particular thread are to be used, that element of the using array
X * is set to 0. The elements LAST_USING array are set to the last
X * elements on each of the using lists.
X *
X * The HIGH_WATER_MARK is set to the highest line number in File 0
X * described in any of the diffs in either of the USING lists. The
X * HIGH_WATER_THREAD names the thread. Similarly the BASE_WATER_MARK
X * and BASE_WATER_THREAD describe the lowest line number in File 0
X * described in any of the diffs in either of the USING lists. The
X * HIGH_WATER_DIFF is the diff from which the HIGH_WATER_MARK was
X * taken.
X *
X * The HIGH_WATER_DIFF should always be equal to LAST_USING
X * [HIGH_WATER_THREAD]. The OTHER_DIFF is the next diff to check for
X * higher water, and should always be equal to
X * CURRENT[HIGH_WATER_THREAD ^ 0x1]. The OTHER_THREAD is the thread
X * in which the OTHER_DIFF is, and hence should always be equal to
X * HIGH_WATER_THREAD ^ 0x1.
X *
X * The variable LAST_DIFF is kept set to the last diff block produced
X * by this routine, for line correspondence purposes between that diff
X * and the one currently being worked on. It is initialized to
X * ZERO_DIFF before any blocks have been created.
X */
X
X struct diff_block
X *using[2],
X *last_using[2],
X *current[2];
X
X int
X high_water_mark;
X
X int
X high_water_thread,
X base_water_thread,
X other_thread;
X
X struct diff_block
X *high_water_diff,
X *other_diff;
X
X struct diff3_block
X *result,
X *tmpblock,
X *result_last,
X *last_diff;
X
X static struct diff3_block zero_diff = {
X ERROR,
X { {0, 0}, {0, 0}, {0, 0} },
X { (char **) 0, (char **) 0, (char **) 0 },
X { (int *) 0, (int *) 0, (int *) 0 },
X (struct diff3_block *) 0
X };
X
X /* Initialization */
X result = result_last = (struct diff3_block *) 0;
X current[0] = thread1; current[1] = thread2;
X last_diff = &zero_diff;
X
X /* Sniff up the threads until we reach the end */
X
X while (current[0] || current[1])
X {
X using[0] = using[1] = last_using[0] = last_using[1] =
X (struct diff_block *) 0;
X
X /* Setup low and high water threads, diffs, and marks. */
X if (!current[0])
X base_water_thread = 1;
X else if (!current[1])
X base_water_thread = 0;
X else
X base_water_thread =
X (D_LOWLINE (current[0], FILE0) > D_LOWLINE (current[1], FILE0));
X
X high_water_thread = base_water_thread;
X
X high_water_diff = current[high_water_thread];
X
X#if 0
X /* low and high waters start off same diff */
X base_water_mark = D_LOWLINE (high_water_diff, FILE0);
X#endif
X
X high_water_mark = D_HIGHLINE (high_water_diff, FILE0);
X
X /* Make the diff you just got info from into the using class */
X using[high_water_thread]
X = last_using[high_water_thread]
X = high_water_diff;
X current[high_water_thread] = high_water_diff->next;
X last_using[high_water_thread]->next
X = (struct diff_block *) 0;
X
X /* And mark the other diff */
X other_thread = high_water_thread ^ 0x1;
X other_diff = current[other_thread];
X
X /* Shuffle up the ladder, checking the other diff to see if it
X needs to be incorporated */
X while (other_diff
X && D_LOWLINE (other_diff, FILE0) <= high_water_mark + 1)
X {
X
X /* Incorporate this diff into the using list. Note that
X this doesn't take it off the current list */
X if (using[other_thread])
X last_using[other_thread]->next = other_diff;
X else
X using[other_thread] = other_diff;
X last_using[other_thread] = other_diff;
X
X /* Take it off the current list. Note that this following
X code assumes that other_diff enters it equal to
X current[high_water_thread ^ 0x1] */
X current[other_thread]
X = current[other_thread]->next;
X other_diff->next
X = (struct diff_block *) 0;
X
X /* Set the high_water stuff
X If this comparison is equal, then this is the last pass
X through this loop; since diff blocks within a given
X thread cannot overlap, the high_water_mark will be
X *below* the range_start of either of the next diffs. */
X
X if (high_water_mark < D_HIGHLINE (other_diff, FILE0))
X {
X high_water_thread ^= 1;
X high_water_diff = other_diff;
X high_water_mark = D_HIGHLINE (other_diff, FILE0);
X }
X
X /* Set the other diff */
X other_thread = high_water_thread ^ 0x1;
X other_diff = current[other_thread];
X }
X
X /* The using lists contain a list of all of the blocks to be
X included in this diff3_block. Create it. */
X
X tmpblock = using_to_diff3_block (using, last_using,
X base_water_thread, high_water_thread,
X last_diff);
X
X if (!tmpblock)
X fatal ("internal: screwup in format of diff blocks");
X
X /* Put it on the list */
X if (result)
X result_last->next = tmpblock;
X else
X result = tmpblock;
X result_last = tmpblock;
X
X /* Setup corresponding lines correctly */
X last_diff = tmpblock;
X }
X return result;
X}
X
X/*
X * using_to_diff3_block:
X * This routine takes two lists of blocks (from two separate diff
X * threads) and puts them together into one diff3 block.
X * It then returns a pointer to this diff3 block or 0 for failure.
X *
X * All arguments besides using are for the convenience of the routine;
X * they could be derived from the using array.
X * LAST_USING is a pair of pointers to the last blocks in the using
X * structure.
X * LOW_THREAD and HIGH_THREAD tell which threads contain the lowest
X * and highest line numbers for File0.
X * last_diff contains the last diff produced in the calling routine.
X * This is used for lines mappings which would still be identical to
X * the state that diff ended in.
X *
X * A distinction should be made in this routine between the two diffs
X * that are part of a normal two diff block, and the three diffs that
X * are part of a diff3_block.
X */
Xstruct diff3_block *
Xusing_to_diff3_block (using, last_using, low_thread, high_thread, last_diff)
X struct diff_block
X *using[2],
X *last_using[2];
X int low_thread, high_thread;
X struct diff3_block *last_diff;
X{
X int lowc, highc, low1, high1, low2, high2;
X struct diff3_block *result;
X struct diff_block *ptr;
X int i;
X int current0line;
X
X /* Find the range in file0 */
X lowc = using[low_thread]->ranges[0][START];
X highc = last_using[high_thread]->ranges[0][END];
X
X /* Find the ranges in the other files.
X If using[x] is null, that means that the file to which that diff
X refers is equivalent to file 0 over this range */
X
X if (using[0])
X {
X low1 = D_LOW_MAPLINE (using[0], FILE0, FILE1, lowc);
X high1 = D_HIGH_MAPLINE (last_using[0], FILE0, FILE1, highc);
X }
X else
X {
X low1 = D_HIGH_MAPLINE (last_diff, FILEC, FILE1, lowc);
X high1 = D_HIGH_MAPLINE (last_diff, FILEC, FILE1, highc);
X }
X
X /*
X * Note that in the following, we use file 1 relative to the diff,
X * and file 2 relative to the corresponding lines struct.
X */
X if (using[1])
X {
X low2 = D_LOW_MAPLINE (using[1], FILE0, FILE1, lowc);
X high2 = D_HIGH_MAPLINE (last_using[1], FILE0, FILE1, highc);
X }
X else
X {
X low2 = D_HIGH_MAPLINE (last_diff, FILEC, FILE2, lowc);
X high2 = D_HIGH_MAPLINE (last_diff, FILEC, FILE2, highc);
X }
X
X /* Create a block with the appropriate sizes */
X result = create_diff3_block (lowc, highc, low1, high1, low2, high2);
X
X /* Copy over all of the information for File 0. Return with a zero
X if any of the compares failed. */
X for (ptr = using[0]; ptr; ptr = D_NEXT (ptr))
X {
X int result_offset = D_LOWLINE (ptr, FILE0) - lowc;
X int copy_size
X = D_HIGHLINE (ptr, FILE0) - D_LOWLINE (ptr, FILE0) + 1;
X
X if (!copy_stringlist (D_LINEARRAY (ptr, FILE0),
X D_LENARRAY (ptr, FILE0),
X D_LINEARRAY (result, FILEC) + result_offset,
X D_LENARRAY (result, FILEC) + result_offset,
X copy_size))
X return 0;
X }
X
X for (ptr = using[1]; ptr; ptr = D_NEXT (ptr))
X {
X int result_offset = D_LOWLINE (ptr, FILEC) - lowc;
X int copy_size
X = D_HIGHLINE (ptr, FILEC) - D_LOWLINE (ptr, FILEC) + 1;
X
X if (!copy_stringlist (D_LINEARRAY (ptr, FILE0),
X D_LENARRAY (ptr, FILE0),
X D_LINEARRAY (result, FILEC) + result_offset,
X D_LENARRAY (result, FILEC) + result_offset,
X copy_size))
X return 0;
X }
X
X /* Copy stuff for file 1. First deal with anything that might be
X before the first diff. */
X
X for (i = 0;
X i + low1 < (using[0] ? D_LOWLINE (using[0], FILE1) : high1 + 1);
X i++)
X {
X D_RELNUM (result, FILE1, i) = D_RELNUM (result, FILEC, i);
X D_RELLEN (result, FILE1, i) = D_RELLEN (result, FILEC, i);
X }
X
X for (ptr = using[0]; ptr; ptr = D_NEXT (ptr))
X {
X int result_offset = D_LOWLINE (ptr, FILE1) - low1;
X int copy_size
X = D_HIGHLINE (ptr, FILE1) - D_LOWLINE (ptr, FILE1) + 1;
X
X if (!copy_stringlist (D_LINEARRAY (ptr, FILE1),
X D_LENARRAY (ptr, FILE1),
X D_LINEARRAY (result, FILE1) + result_offset,
X D_LENARRAY (result, FILE1) + result_offset,
X copy_size))
X return 0;
X
X /* Catch the lines between here and the next diff */
X current0line = D_HIGHLINE (ptr, FILE0) + 1 - lowc;
X for (i = D_HIGHLINE (ptr, FILE1) + 1 - low1;
X i < (D_NEXT (ptr) ?
X D_LOWLINE (D_NEXT (ptr), FILE1) :
X high1 + 1) - low1;
X i++)
X {
X D_RELNUM (result, FILE1, i)
X = D_RELNUM (result, FILEC, current0line);
X D_RELLEN (result, FILE1, i)
X = D_RELLEN (result, FILEC, current0line++);
X }
X }
X
X /* Copy stuff for file 2. First deal with anything that might be
X before the first diff. */
X
X for (i = 0;
X i + low2 < (using[1] ? D_LOWLINE (using[1], FILE1) : high2 + 1);
X i++)
X {
X D_RELNUM (result, FILE2, i) = D_RELNUM (result, FILEC, i);
X D_RELLEN (result, FILE2, i) = D_RELLEN (result, FILEC, i);
X }
X
X for (ptr = using[1]; ptr; ptr = D_NEXT (ptr))
X {
X int result_offset = D_LOWLINE (ptr, FILE1) - low2;
X int copy_size
X = D_HIGHLINE (ptr, FILE1) - D_LOWLINE (ptr, FILE1) + 1;
X
X if (!copy_stringlist (D_LINEARRAY (ptr, FILE1),
X D_LENARRAY (ptr, FILE1),
X D_LINEARRAY (result, FILE2) + result_offset,
X D_LENARRAY (result, FILE2) + result_offset,
X copy_size))
X return 0;
X
X /* Catch the lines between here and the next diff */
X current0line = D_HIGHLINE (ptr, FILE0) + 1 - lowc;
X for (i = D_HIGHLINE (ptr, FILE1) + 1 - low2;
X i < (D_NEXT (ptr) ?
X D_LOWLINE (D_NEXT (ptr), FILE1) :
X high2 + 1) - low2;
X i++)
X {
X D_RELNUM (result, FILE2, i)
X = D_RELNUM (result, FILEC, current0line);
X D_RELLEN (result, FILE2, i)
X = D_RELLEN (result, FILEC, current0line++);
X }
X }
X
X /* Set correspond */
X if (!using[0])
X D3_TYPE (result) = DIFF_3RD;
X else if (!using[1])
X D3_TYPE (result) = DIFF_2ND;
X else
X {
X int nl1
X = D_HIGHLINE (result, FILE1) - D_LOWLINE (result, FILE1) + 1;
X int nl2
X = D_HIGHLINE (result, FILE2) - D_LOWLINE (result, FILE2) + 1;
X
X if (nl1 != nl2
X || !compare_line_list (D_LINEARRAY (result, FILE1),
X D_LENARRAY (result, FILE1),
X D_LINEARRAY (result, FILE2),
X D_LENARRAY (result, FILE2),
X nl1))
X D3_TYPE (result) = DIFF_ALL;
X else
X D3_TYPE (result) = DIFF_1ST;
X }
X
X return result;
X}
X
X/*
X * This routine copies pointers from a list of strings to a different list
X * of strings. If a spot in the second list is already filled, it
X * makes sure that it is filled with the same string; if not it
X * returns 0, the copy incomplete.
X * Upon successful completion of the copy, it returns 1.
X */
Xint
Xcopy_stringlist (fromptrs, fromlengths, toptrs, tolengths, copynum)
X char *fromptrs[], *toptrs[];
X int *fromlengths, *tolengths;
X int copynum;
X{
X register char
X **f = fromptrs,
X **t = toptrs;
X register int
X *fl = fromlengths,
X *tl = tolengths;
X
X while (copynum--)
X {
X if (*t)
X { if (*fl != *tl || bcmp (*f, *t, *fl)) return 0; }
X else
X { *t = *f ; *tl = *fl; }
X
X t++; f++; tl++; fl++;
X }
X return 1;
X}
X
X/*
X * Create a diff3_block, with ranges as specified in the arguments.
X * Allocate the arrays for the various pointers (and zero them) based
X * on the arguments passed. Return the block as a result.
X */
Xstruct diff3_block *
Xcreate_diff3_block (low0, high0, low1, high1, low2, high2)
X register int low0, high0, low1, high1, low2, high2;
X{
X struct diff3_block *result = ALLOCATE (1, struct diff3_block);
X int numlines;
X
X D3_TYPE (result) = ERROR;
X D_NEXT (result) = 0;
X
X /* Assign ranges */
X D_LOWLINE (result, FILE0) = low0;
X D_HIGHLINE (result, FILE0) = high0;
X D_LOWLINE (result, FILE1) = low1;
X D_HIGHLINE (result, FILE1) = high1;
X D_LOWLINE (result, FILE2) = low2;
X D_HIGHLINE (result, FILE2) = high2;
X
X /* Allocate and zero space */
X numlines = D_NUMLINES (result, FILE0);
X if (numlines)
X {
X D_LINEARRAY (result, FILE0) = ALLOCATE (numlines, char *);
X D_LENARRAY (result, FILE0) = ALLOCATE (numlines, int);
X bzero (D_LINEARRAY (result, FILE0), (numlines * sizeof (char *)));
X bzero (D_LENARRAY (result, FILE0), (numlines * sizeof (int)));
X }
X else
X {
X D_LINEARRAY (result, FILE0) = (char **) 0;
X D_LENARRAY (result, FILE0) = (int *) 0;
X }
X
X numlines = D_NUMLINES (result, FILE1);
X if (numlines)
X {
X D_LINEARRAY (result, FILE1) = ALLOCATE (numlines, char *);
X D_LENARRAY (result, FILE1) = ALLOCATE (numlines, int);
X bzero (D_LINEARRAY (result, FILE1), (numlines * sizeof (char *)));
X bzero (D_LENARRAY (result, FILE1), (numlines * sizeof (int)));
X }
X else
X {
X D_LINEARRAY (result, FILE1) = (char **) 0;
X D_LENARRAY (result, FILE1) = (int *) 0;
X }
X
X numlines = D_NUMLINES (result, FILE2);
X if (numlines)
X {
X D_LINEARRAY (result, FILE2) = ALLOCATE (numlines, char *);
X D_LENARRAY (result, FILE2) = ALLOCATE (numlines, int);
X bzero (D_LINEARRAY (result, FILE2), (numlines * sizeof (char *)));
X bzero (D_LENARRAY (result, FILE2), (numlines * sizeof (int)));
X }
X else
X {
X D_LINEARRAY (result, FILE2) = (char **) 0;
X D_LENARRAY (result, FILE2) = (int *) 0;
X }
X
X /* Return */
X return result;
X}
X
X/*
X * Compare two lists of lines of text.
X * Return 1 if they are equivalent, 0 if not.
X */
Xint
Xcompare_line_list (list1, lengths1, list2, lengths2, nl)
X char *list1[], *list2[];
X int *lengths1, *lengths2;
X int nl;
X{
X char
X **l1 = list1,
X **l2 = list2;
X int
X *lgths1 = lengths1,
X *lgths2 = lengths2;
X
X while (nl--)
X if (!*l1 || !*l2 || *lgths1 != *lgths2++
X || bcmp (*l1++, *l2++, *lgths1++))
X return 0;
X return 1;
X}
X
X/*
X * Routines to input and parse two way diffs.
X */
X
Xextern char **environ;
X
X#define DIFF_CHUNK_SIZE 10000
X
Xstruct diff_block *
Xprocess_diff (filea, fileb)
X char *filea, *fileb;
X{
X char *diff_contents;
X char *diff_limit;
X char *scan_diff;
X enum diff_type dt;
X int i;
X struct diff_block *block_list, *block_list_end, *bptr;
X
X diff_limit = read_diff (filea, fileb, &diff_contents);
X scan_diff = diff_contents;
X bptr = block_list_end = block_list = (struct diff_block *) 0;
X
X while (scan_diff < diff_limit)
X {
X bptr = ALLOCATE (1, struct diff_block);
X bptr->next = 0;
X bptr->lines[0] = bptr->lines[1] = (char **) 0;
X bptr->lengths[0] = bptr->lengths[1] = (int *) 0;
X
X dt = process_diff_control (&scan_diff, bptr);
X if (dt == ERROR || *scan_diff != '\n')
X {
X fprintf (stderr, "%s: diff error: ", argv0);
X do
X {
X putc (*scan_diff, stderr);
X }
X while (*scan_diff++ != '\n');
X exit (2);
X }
X scan_diff++;
X
X /* Force appropriate ranges to be null, if necessary */
X switch (dt)
X {
X case ADD:
X bptr->ranges[0][0]++;
X break;
X case DELETE:
X bptr->ranges[1][0]++;
X break;
X case CHANGE:
X break;
X default:
X fatal ("internal: Bad diff type in process_diff");
X break;
X }
X
X /* Allocate space for the pointers for the lines from filea, and
X parcel them out among these pointers */
X if (dt != ADD)
X {
X bptr->lines[0] = ALLOCATE ((bptr->ranges[0][END]
X - bptr->ranges[0][START] + 1),
X char *);
X bptr->lengths[0] = ALLOCATE ((bptr->ranges[0][END]
X - bptr->ranges[0][START] + 1),
X int);
X for (i = 0; i <= (bptr->ranges[0][END]
X - bptr->ranges[0][START]); i++)
X scan_diff = scan_diff_line (scan_diff,
X &(bptr->lines[0][i]),
X &(bptr->lengths[0][i]),
X diff_limit,
X '<');
X }
X
X /* Get past the separator for changes */
X if (dt == CHANGE)
X {
X if (strncmp (scan_diff, "---\n", 4))
X fatal ("Bad diff format: bad change separator");
X scan_diff += 4;
X }
X
X /* Allocate space for the pointers for the lines from fileb, and
X parcel them out among these pointers */
X if (dt != DELETE)
X {
X bptr->lines[1] = ALLOCATE ((bptr->ranges[1][END]
X - bptr->ranges[1][START] + 1),
X char *);
X bptr->lengths[1] = ALLOCATE ((bptr->ranges[1][END]
X - bptr->ranges[1][START] + 1),
X int);
X for (i = 0; i <= (bptr->ranges[1][END]
X - bptr->ranges[1][START]); i++)
X scan_diff = scan_diff_line (scan_diff,
X &(bptr->lines[1][i]),
X &(bptr->lengths[1][i]),
X diff_limit,
X '>');
X }
X
X /* Place this block on the blocklist */
X if (block_list_end)
X block_list_end->next = bptr;
X else
X block_list = bptr;
X
X block_list_end = bptr;
X
X }
X
X return block_list;
X}
X
X/*
X * This routine will parse a normal format diff control string. It
X * returns the type of the diff (ERROR if the format is bad). All of
X * the other important information is filled into to the structure
X * pointed to by db, and the string pointer (whose location is passed
X * to this routine) is updated to point beyond the end of the string
X * parsed. Note that only the ranges in the diff_block will be set by
X * this routine.
X *
X * If some specific pair of numbers has been reduced to a single
X * number, then both corresponding numbers in the diff block are set
X * to that number. In general these numbers are interpetted as ranges
X * inclusive, unless being used by the ADD or DELETE commands. It is
X * assumed that these will be special cased in a superior routine.
X */
X
Xenum diff_type
Xprocess_diff_control (string, db)
X char **string;
X struct diff_block *db;
X{
X char *s = *string;
X int holdnum;
X enum diff_type type;
X
X/* These macros are defined here because they can use variables
X defined in this function. Don't try this at home kids, we're
X trained professionals!
X
X Also note that SKIPWHITE only recognizes tabs and spaces, and
X that READNUM can only read positive, integral numbers */
X
X#define SKIPWHITE(s) { while (*s == ' ' || *s == '\t') s++; }
X#define READNUM(s, num) \
X { if (!isdigit (*s)) return ERROR; holdnum = 0; \
X do { holdnum = (*s++ - '0' + holdnum * 10); } \
X while (isdigit (*s)); (num) = holdnum; }
X
X /* Read first set of digits */
X SKIPWHITE (s);
X READNUM (s, db->ranges[0][START]);
X
X /* Was that the only digit? */
X SKIPWHITE(s);
X if (*s == ',')
X {
X /* Get the next digit */
X s++;
X READNUM (s, db->ranges[0][END]);
X }
X else
X db->ranges[0][END] = db->ranges[0][START];
X
X /* Get the letter */
X SKIPWHITE (s);
X switch (*s)
X {
X case 'a':
X type = ADD;
X break;
X case 'c':
X type = CHANGE;
X break;
X case 'd':
X type = DELETE;
X break;
X default:
X return ERROR; /* Bad format */
X }
X s++; /* Past letter */
X
X /* Read second set of digits */
X SKIPWHITE (s);
X READNUM (s, db->ranges[1][START]);
X
X /* Was that the only digit? */
X SKIPWHITE(s);
X if (*s == ',')
X {
X /* Get the next digit */
X s++;
X READNUM (s, db->ranges[1][END]);
X SKIPWHITE (s); /* To move to end */
X }
X else
X db->ranges[1][END] = db->ranges[1][START];
X
X *string = s;
X return type;
X}
X
Xchar *
Xread_diff (filea, fileb, output_placement)
X char *filea, *fileb;
X char **output_placement;
X{
X char *argv[6];
X char **ap;
X int fds[2];
X char *diff_result;
X int current_chunk_size;
X int bytes;
X int total;
X int pid, w;
X int wstatus;
X
X ap = argv;
X *ap++ = diff_program;
X if (always_text)
X *ap++ = "-a";
X *ap++ = "--";
X *ap++ = filea;
X *ap++ = fileb;
X *ap = (char *) 0;
X
X if (pipe (fds) < 0)
X perror_with_exit ("Pipe failed");
X
X pid = vfork ();
X if (pid == 0)
X {
X /* Child */
X close (fds[0]);
X if (fds[1] != fileno (stdout))
X {
X dup2 (fds[1], fileno (stdout));
X close (fds[1]);
X }
X execve (diff_program, argv, environ);
X /* Avoid stdio, because the parent process's buffers are inherited. */
X write (fileno (stderr), diff_program, strlen (diff_program));
X write (fileno (stderr), ": not found\n", 12);
X _exit (2);
X }
X
X if (pid == -1)
X perror_with_exit ("Fork failed");
X
X close (fds[1]); /* Prevent erroneous lack of EOF */
X current_chunk_size = DIFF_CHUNK_SIZE;
X diff_result = (char *) xmalloc (current_chunk_size);
X total = 0;
X do {
X bytes = myread (fds[0],
X diff_result + total,
X current_chunk_size - total);
X total += bytes;
X if (total == current_chunk_size)
X diff_result = (char *) xrealloc (diff_result, (current_chunk_size *= 2));
X } while (bytes);
X
X if (total != 0 && diff_result[total-1] != '\n')
X fatal ("bad diff format; incomplete last line");
X
X *output_placement = diff_result;
X
X do
X if ((w = wait (&wstatus)) == -1)
X perror_with_exit ("Wait failed");
X while (w != pid);
X
X if (! (WIFEXITED (wstatus) && WEXITSTATUS (wstatus) < 2))
X fatal ("Subsidiary diff failed");
X
X return diff_result + total;
X}
X
X
X/*
X * Scan a regular diff line (consisting of > or <, followed by a
X * space, followed by text (including nulls) up to a newline.
X *
X * This next routine began life as a macro and many parameters in it
X * are used as call-by-reference values.
X */
Xchar *
Xscan_diff_line (scan_ptr, set_start, set_length, limit, firstchar)
X char *scan_ptr, **set_start;
X int *set_length;
X char *limit;
X char firstchar;
X{
X char *line_ptr;
X
X if (!(scan_ptr[0] == (firstchar)
X && scan_ptr[1] == ' '))
X fatal ("Bad diff format; incorrect leading line chars");
X
X *set_start = line_ptr = scan_ptr + 2;
X while (*line_ptr++ != '\n')
X ;
X
X /* Include newline if the original line ended in a newline,
X or if an edit script is being generated.
X Copy any missing newline message to stderr if an edit script is being
X generated, because edit scripts cannot handle missing newlines.
X Return the beginning of the next line. */
X *set_length = line_ptr - *set_start;
X if (line_ptr < limit && *line_ptr == '\\')
X {
X if (edscript)
X fprintf (stderr, "%s:", argv0);
X else
X --*set_length;
X line_ptr++;
X do
X {
X if (edscript)
X putc (*line_ptr, stderr);
X }
X while (*line_ptr++ != '\n');
X }
X
X return line_ptr;
X}
X
X/*
X * This routine outputs a three way diff passed as a list of
X * diff3_block's.
X * The argument MAPPING is indexed by external file number (in the
X * argument list) and contains the internal file number (from the
X * diff passed). This is important because the user expects his
X * outputs in terms of the argument list number, and the diff passed
X * may have been done slightly differently (if the first argument in
X * the argument list was the standard input, for example).
X * REV_MAPPING is the inverse of MAPPING.
X */
Xvoid
Xoutput_diff3 (outputfile, diff, mapping, rev_mapping)
X FILE *outputfile;
X struct diff3_block *diff;
X int mapping[3], rev_mapping[3];
X{
X int i;
X int oddoneout;
X char *cp;
X struct diff3_block *ptr;
X int line;
X int length;
X int dontprint;
X static int skew_increment[3] = { 2, 3, 1 }; /* 0==>2==>1==>3 */
X
X for (ptr = diff; ptr; ptr = D_NEXT (ptr))
X {
X char x[2];
X
X switch (ptr->correspond)
X {
X case DIFF_ALL:
X x[0] = '\0';
X dontprint = 3; /* Print them all */
X oddoneout = 3; /* Nobody's odder than anyone else */
X break;
X case DIFF_1ST:
X case DIFF_2ND:
X case DIFF_3RD:
X oddoneout = rev_mapping[(int) ptr->correspond - (int) DIFF_1ST];
X
X x[0] = oddoneout + '1';
X x[1] = '\0';
X dontprint = oddoneout==0;
X break;
X default:
X fatal ("internal: Bad diff type passed to output");
X }
X fprintf (outputfile, "====%s\n", x);
X
X /* Go 0, 2, 1 if the first and third outputs are equivalent. */
X for (i = 0; i < 3;
X i = (oddoneout == 1 ? skew_increment[i] : i + 1))
X {
X int realfile = mapping[i];
X int
X lowt = D_LOWLINE (ptr, realfile),
X hight = D_HIGHLINE (ptr, realfile);
X
X fprintf (outputfile, "%d:", i + 1);
X switch (lowt - hight)
X {
X case 1:
X fprintf (outputfile, "%da\n", lowt - 1);
X break;
X case 0:
X fprintf (outputfile, "%dc\n", lowt);
X break;
X default:
X fprintf (outputfile, "%d,%dc\n", lowt, hight);
X break;
X }
X
X if (i == dontprint) continue;
X
X for (line = 0; line < hight - lowt + 1; line++)
X {
X fprintf (outputfile, " ");
X cp = D_RELNUM (ptr, realfile, line);
X length = D_RELLEN (ptr, realfile, line);
X fwrite (cp, sizeof (char), length, outputfile);
X }
X if (line != 0 && cp[length - 1] != '\n')
X fprintf (outputfile, "\n\\ No newline at end of file\n");
X }
X }
X}
X
X/*
X * This routine outputs a diff3 set of blocks as an ed script. This
X * script applies the changes between file's 2 & 3 to file 1. It
X * takes the precise format of the ed script to be output from global
X * variables set during options processing. Note that it does
X * destructive things to the set of diff3 blocks it is passed; it
X * reverses their order (this gets around the problems involved with
X * changing line numbers in an ed script).
X *
X * Note that this routine has the same problem of mapping as the last
X * one did; the variable MAPPING maps from file number according to
X * the argument list to file number according to the diff passed. All
X * files listed below are in terms of the argument list.
X * REV_MAPPING is the inverse of MAPPING.
X *
X * The arguments FILE0, FILE1 and FILE2 are the strings to print
X * as the names of the three files. These may be the actual names,
X * or may be the arguments specified with -L.
X *
X * Returns 1 if overlaps were found.
X */
X
Xint
Xoutput_diff3_edscript (outputfile, diff, mapping, rev_mapping,
X file0, file1, file2)
X FILE *outputfile;
X struct diff3_block *diff;
X int mapping[3], rev_mapping[3];
X char *file0, *file1, *file2;
X{
X int i;
X int leading_dot;
X int overlaps_found = 0;
X struct diff3_block *newblock, *thisblock;
X
X leading_dot = 0;
X
X newblock = reverse_diff3_blocklist (diff);
X
X for (thisblock = newblock; thisblock; thisblock = thisblock->next)
X {
X /* Must do mapping correctly. */
X enum diff_type type
X = ((thisblock->correspond == DIFF_ALL) ?
X DIFF_ALL :
X ((enum diff_type)
X (((int) DIFF_1ST)
X + rev_mapping[(int) thisblock->correspond - (int) DIFF_1ST])));
X
X /* If we aren't supposed to do this output block, skip it */
X if (type == DIFF_2ND || type == DIFF_1ST
X || (type == DIFF_3RD && dont_write_simple)
X || (type == DIFF_ALL && dont_write_overlap))
X continue;
X
X if (flagging && type == DIFF_ALL)
X /* Do special flagging */
X {
X
X /* Put in lines from FILE2 with bracket */
X fprintf (outputfile, "%da\n",
X D_HIGHLINE (thisblock, mapping[FILE0]));
X fprintf (outputfile, "=======\n");
X for (i = 0;
X i < D_NUMLINES (thisblock, mapping[FILE2]);
X i++)
X {
X if (D_RELNUM (thisblock, mapping[FILE2], i)[0] == '.')
X { leading_dot = 1; fprintf(outputfile, "."); }
X fwrite (D_RELNUM (thisblock, mapping[FILE2], i), sizeof (char),
X D_RELLEN (thisblock, mapping[FILE2], i), outputfile);
X }
X fprintf (outputfile, ">>>>>>> %s\n.\n", file2);
X overlaps_found = 1;
X
X /* Add in code to take care of leading dots, if necessary. */
X if (leading_dot)
X {
X fprintf (outputfile, "%d,%ds/^\\.\\./\\./\n",
X D_HIGHLINE (thisblock, mapping[FILE0]) + 1,
X (D_HIGHLINE (thisblock, mapping[FILE0])
X + D_NUMLINES (thisblock, mapping[FILE2])));
X leading_dot = 0;
X }
X
X /* Put in code to do initial bracket of lines from FILE0 */
X fprintf (outputfile, "%da\n<<<<<<< %s\n.\n",
X D_LOWLINE (thisblock, mapping[FILE0]) - 1,
X file0);
X }
X else if (D_NUMLINES (thisblock, mapping[FILE2]) == 0)
X /* Write out a delete */
X {
X if (D_NUMLINES (thisblock, mapping[FILE0]) == 1)
X fprintf (outputfile, "%dd\n",
X D_LOWLINE (thisblock, mapping[FILE0]));
X else
X fprintf (outputfile, "%d,%dd\n",
X D_LOWLINE (thisblock, mapping[FILE0]),
X D_HIGHLINE (thisblock, mapping[FILE0]));
X }
X else
X /* Write out an add or change */
X {
X switch (D_NUMLINES (thisblock, mapping[FILE0]))
X {
X case 0:
X fprintf (outputfile, "%da\n",
X D_HIGHLINE (thisblock, mapping[FILE0]));
X break;
X case 1:
X fprintf (outputfile, "%dc\n",
X D_HIGHLINE (thisblock, mapping[FILE0]));
X break;
X default:
X fprintf (outputfile, "%d,%dc\n",
X D_LOWLINE (thisblock, mapping[FILE0]),
X D_HIGHLINE (thisblock, mapping[FILE0]));
X break;
X }
X for (i = 0;
X i < D_NUMLINES (thisblock, mapping[FILE2]);
X i++)
X {
X if (D_RELNUM (thisblock, mapping[FILE2], i)[0] == '.')
X { leading_dot = 1; fprintf (outputfile, "."); }
X fwrite (D_RELNUM (thisblock, mapping[FILE2], i), sizeof (char),
X D_RELLEN (thisblock, mapping[FILE2], i), outputfile);
X }
X fprintf (outputfile, ".\n");
X
X /* Add in code to take care of leading dots, if necessary. */
X if (leading_dot)
X {
X fprintf (outputfile, "%d,%ds/^\\.\\./\\./\n",
X D_HIGHLINE (thisblock, mapping[FILE0]) + 1,
X (D_HIGHLINE (thisblock, mapping[FILE0])
X + D_NUMLINES (thisblock, mapping[FILE2])));
X leading_dot = 0;
X }
X }
X }
X if (finalwrite) fprintf (outputfile, "w\nq\n");
X return overlaps_found;
X}
X
X/*
X * Read from COMMONFILE and output to OUTPUTFILE a set of diff3_ blocks DIFF
X * as a merged file. This acts like 'ed file0 <[output_diff3_edscript]',
X * except that it works even for binary data or incomplete lines.
X *
X * As before, MAPPING maps from arg list file number to diff file number,
X * REV_MAPPING is its inverse,
X * and FILE0, FILE1, and FILE2 are the names of the files.
X *
X * Returns 1 if overlaps were found.
X */
X
Xint
Xoutput_diff3_merge (commonfile, outputfile, diff, mapping, rev_mapping,
X file0, file1, file2)
X FILE *commonfile, *outputfile;
X struct diff3_block *diff;
X int mapping[3], rev_mapping[3];
X char *file0, *file1, *file2;
X{
X int c, i;
X int overlaps_found = 0;
X struct diff3_block *b;
X int linesread = 0;
X
X for (b = diff; b; b = b->next)
X {
X /* Must do mapping correctly */
X enum diff_type type
X = ((b->correspond == DIFF_ALL) ?
X DIFF_ALL :
X ((enum diff_type)
X (((int) DIFF_1ST)
X + rev_mapping[(int) b->correspond - (int) DIFF_1ST])));
X
X /* If we aren't supposed to do this output block, skip it. */
X if (type == DIFF_2ND || type == DIFF_1ST
X || (type == DIFF_3RD && dont_write_simple)
X || (type == DIFF_ALL && dont_write_overlap))
X continue;
X
X /* Copy I lines from common file. */
X i = D_LOWLINE (b, FILE0) - linesread - 1;
X linesread += i;
X while (0 <= --i)
X {
X while ((c = getc(commonfile)) != '\n')
X {
X if (c == EOF)
X fatal ("input file shrank");
X putc (c, outputfile);
X }
X putc (c, outputfile);
X }
X
X if (flagging && type == DIFF_ALL)
X /* Do special flagging. */
X {
X /* Put in lines from FILE0 with bracket. */
X fprintf (outputfile, "<<<<<<< %s\n", file0);
X for (i = 0;
X i < D_NUMLINES (b, mapping[FILE0]);
X i++)
X fwrite (D_RELNUM (b, mapping[FILE0], i), sizeof (char),
X D_RELLEN (b, mapping[FILE0], i), outputfile);
X fprintf (outputfile, "=======\n");
X overlaps_found = 1;
X }
X
X /* Put in lines from FILE2. */
X for (i = 0;
X i < D_NUMLINES (b, mapping[FILE2]);
X i++)
X fwrite (D_RELNUM (b, mapping[FILE2], i), sizeof (char),
X D_RELLEN (b, mapping[FILE2], i), outputfile);
X
X if (flagging && type == DIFF_ALL)
X fprintf (outputfile, ">>>>>>> %s\n", file2);
X
X /* Skip I lines in common file. */
X i = D_NUMLINES (b, FILE0);
X linesread += i;
X while (0 <= --i)
X while ((c = getc(commonfile)) != '\n')
X if (c == EOF)
X {
X if (i || b->next)
X fatal ("input file shrank");
X return overlaps_found;
X }
X }
X /* Copy rest of common file. */
X while ((c = getc (commonfile)) != EOF)
X putc (c, outputfile);
X return overlaps_found;
X}
X
X/*
X * Reverse the order of the list of diff3 blocks.
X */
Xstruct diff3_block *
Xreverse_diff3_blocklist (diff)
X struct diff3_block *diff;
X{
X register struct diff3_block *tmp, *next, *prev;
X
X for (tmp = diff, prev = (struct diff3_block *) 0;
X tmp; tmp = next)
X {
X next = tmp->next;
X tmp->next = prev;
X prev = tmp;
X }
X
X return prev;
X}
X
Xint
Xmyread (fd, ptr, size)
X int fd, size;
X char *ptr;
X{
X int result = read (fd, ptr, size);
X if (result < 0)
X perror_with_exit ("Read failed");
X return result;
X}
X
XVOID *
Xxmalloc (size)
X int size;
X{
X VOID *result = (VOID *) malloc (size ? size : 1);
X if (!result)
X fatal ("Malloc failed");
X return result;
X}
X
XVOID *
Xxrealloc (ptr, size)
X VOID *ptr;
X int size;
X{
X VOID *result = (VOID *) realloc (ptr, size ? size : 1);
X if (!result)
X fatal ("Malloc failed");
X return result;
X}
X
Xfatal (string)
X char *string;
X{
X fprintf (stderr, "%s: %s\n", argv0, string);
X exit (2);
X}
X
Xperror_with_exit (string)
X char *string;
X{
X perror (string);
X exit (2);
X}
END_OF_FILE
if test 46642 -ne `wc -c <'diff3.c'`; then
echo shar: \"'diff3.c'\" unpacked with wrong size!
fi
# end of 'diff3.c'
fi
echo shar: End of archive 8 \(of 8\).
cp /dev/null ark8isdone
MISSING=""
for I in 1 2 3 4 5 6 7 8 ; do
if test ! -f ark${I}isdone ; then
MISSING="${MISSING} ${I}"
fi
done
if test "${MISSING}" = "" ; then
echo You have unpacked all 8 archives.
rm -f ark[1-9]isdone
else
echo You still need to unpack the following archives:
echo " " ${MISSING}
fi
## End of shell archive.
exit 0
exit 0 # Just in case...
--
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