1*0b459c2cSDavid du Colombier /* Analyze file differences for GNU DIFF.
2*0b459c2cSDavid du Colombier Copyright (C) 1988, 1989, 1992, 1993 Free Software Foundation, Inc.
3*0b459c2cSDavid du Colombier
4*0b459c2cSDavid du Colombier This file is part of GNU DIFF.
5*0b459c2cSDavid du Colombier
6*0b459c2cSDavid du Colombier GNU DIFF is free software; you can redistribute it and/or modify
7*0b459c2cSDavid du Colombier it under the terms of the GNU General Public License as published by
8*0b459c2cSDavid du Colombier the Free Software Foundation; either version 2, or (at your option)
9*0b459c2cSDavid du Colombier any later version.
10*0b459c2cSDavid du Colombier
11*0b459c2cSDavid du Colombier GNU DIFF is distributed in the hope that it will be useful,
12*0b459c2cSDavid du Colombier but WITHOUT ANY WARRANTY; without even the implied warranty of
13*0b459c2cSDavid du Colombier MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14*0b459c2cSDavid du Colombier GNU General Public License for more details.
15*0b459c2cSDavid du Colombier
16*0b459c2cSDavid du Colombier You should have received a copy of the GNU General Public License
17*0b459c2cSDavid du Colombier along with GNU DIFF; see the file COPYING. If not, write to
18*0b459c2cSDavid du Colombier the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
19*0b459c2cSDavid du Colombier
20*0b459c2cSDavid du Colombier /* The basic algorithm is described in:
21*0b459c2cSDavid du Colombier "An O(ND) Difference Algorithm and its Variations", Eugene Myers,
22*0b459c2cSDavid du Colombier Algorithmica Vol. 1 No. 2, 1986, pp. 251-266;
23*0b459c2cSDavid du Colombier see especially section 4.2, which describes the variation used below.
24*0b459c2cSDavid du Colombier Unless the --minimal option is specified, this code uses the TOO_EXPENSIVE
25*0b459c2cSDavid du Colombier heuristic, by Paul Eggert, to limit the cost to O(N**1.5 log N)
26*0b459c2cSDavid du Colombier at the price of producing suboptimal output for large inputs with
27*0b459c2cSDavid du Colombier many differences.
28*0b459c2cSDavid du Colombier
29*0b459c2cSDavid du Colombier The basic algorithm was independently discovered as described in:
30*0b459c2cSDavid du Colombier "Algorithms for Approximate String Matching", E. Ukkonen,
31*0b459c2cSDavid du Colombier Information and Control Vol. 64, 1985, pp. 100-118. */
32*0b459c2cSDavid du Colombier
33*0b459c2cSDavid du Colombier #include "diff.h"
34*0b459c2cSDavid du Colombier #include "cmpbuf.h"
35*0b459c2cSDavid du Colombier
36*0b459c2cSDavid du Colombier extern int no_discards;
37*0b459c2cSDavid du Colombier
38*0b459c2cSDavid du Colombier static int *xvec, *yvec; /* Vectors being compared. */
39*0b459c2cSDavid du Colombier static int *fdiag; /* Vector, indexed by diagonal, containing
40*0b459c2cSDavid du Colombier 1 + the X coordinate of the point furthest
41*0b459c2cSDavid du Colombier along the given diagonal in the forward
42*0b459c2cSDavid du Colombier search of the edit matrix. */
43*0b459c2cSDavid du Colombier static int *bdiag; /* Vector, indexed by diagonal, containing
44*0b459c2cSDavid du Colombier the X coordinate of the point furthest
45*0b459c2cSDavid du Colombier along the given diagonal in the backward
46*0b459c2cSDavid du Colombier search of the edit matrix. */
47*0b459c2cSDavid du Colombier static int too_expensive; /* Edit scripts longer than this are too
48*0b459c2cSDavid du Colombier expensive to compute. */
49*0b459c2cSDavid du Colombier
50*0b459c2cSDavid du Colombier #define SNAKE_LIMIT 20 /* Snakes bigger than this are considered `big'. */
51*0b459c2cSDavid du Colombier
52*0b459c2cSDavid du Colombier struct partition
53*0b459c2cSDavid du Colombier {
54*0b459c2cSDavid du Colombier int xmid, ymid; /* Midpoints of this partition. */
55*0b459c2cSDavid du Colombier int lo_minimal; /* Nonzero if low half will be analyzed minimally. */
56*0b459c2cSDavid du Colombier int hi_minimal; /* Likewise for high half. */
57*0b459c2cSDavid du Colombier };
58*0b459c2cSDavid du Colombier
59*0b459c2cSDavid du Colombier static int diag PARAMS((int, int, int, int, int, struct partition *));
60*0b459c2cSDavid du Colombier static struct change *add_change PARAMS((int, int, int, int, struct change *));
61*0b459c2cSDavid du Colombier static struct change *build_reverse_script PARAMS((struct file_data const[]));
62*0b459c2cSDavid du Colombier static struct change *build_script PARAMS((struct file_data const[]));
63*0b459c2cSDavid du Colombier static void briefly_report PARAMS((int, struct file_data const[]));
64*0b459c2cSDavid du Colombier static void compareseq PARAMS((int, int, int, int, int));
65*0b459c2cSDavid du Colombier static void discard_confusing_lines PARAMS((struct file_data[]));
66*0b459c2cSDavid du Colombier static void shift_boundaries PARAMS((struct file_data[]));
67*0b459c2cSDavid du Colombier
68*0b459c2cSDavid du Colombier /* Find the midpoint of the shortest edit script for a specified
69*0b459c2cSDavid du Colombier portion of the two files.
70*0b459c2cSDavid du Colombier
71*0b459c2cSDavid du Colombier Scan from the beginnings of the files, and simultaneously from the ends,
72*0b459c2cSDavid du Colombier doing a breadth-first search through the space of edit-sequence.
73*0b459c2cSDavid du Colombier When the two searches meet, we have found the midpoint of the shortest
74*0b459c2cSDavid du Colombier edit sequence.
75*0b459c2cSDavid du Colombier
76*0b459c2cSDavid du Colombier If MINIMAL is nonzero, find the minimal edit script regardless
77*0b459c2cSDavid du Colombier of expense. Otherwise, if the search is too expensive, use
78*0b459c2cSDavid du Colombier heuristics to stop the search and report a suboptimal answer.
79*0b459c2cSDavid du Colombier
80*0b459c2cSDavid du Colombier Set PART->(XMID,YMID) to the midpoint (XMID,YMID). The diagonal number
81*0b459c2cSDavid du Colombier XMID - YMID equals the number of inserted lines minus the number
82*0b459c2cSDavid du Colombier of deleted lines (counting only lines before the midpoint).
83*0b459c2cSDavid du Colombier Return the approximate edit cost; this is the total number of
84*0b459c2cSDavid du Colombier lines inserted or deleted (counting only lines before the midpoint),
85*0b459c2cSDavid du Colombier unless a heuristic is used to terminate the search prematurely.
86*0b459c2cSDavid du Colombier
87*0b459c2cSDavid du Colombier Set PART->LEFT_MINIMAL to nonzero iff the minimal edit script for the
88*0b459c2cSDavid du Colombier left half of the partition is known; similarly for PART->RIGHT_MINIMAL.
89*0b459c2cSDavid du Colombier
90*0b459c2cSDavid du Colombier This function assumes that the first lines of the specified portions
91*0b459c2cSDavid du Colombier of the two files do not match, and likewise that the last lines do not
92*0b459c2cSDavid du Colombier match. The caller must trim matching lines from the beginning and end
93*0b459c2cSDavid du Colombier of the portions it is going to specify.
94*0b459c2cSDavid du Colombier
95*0b459c2cSDavid du Colombier If we return the "wrong" partitions,
96*0b459c2cSDavid du Colombier the worst this can do is cause suboptimal diff output.
97*0b459c2cSDavid du Colombier It cannot cause incorrect diff output. */
98*0b459c2cSDavid du Colombier
99*0b459c2cSDavid du Colombier static int
diag(xoff,xlim,yoff,ylim,minimal,part)100*0b459c2cSDavid du Colombier diag (xoff, xlim, yoff, ylim, minimal, part)
101*0b459c2cSDavid du Colombier int xoff, xlim, yoff, ylim, minimal;
102*0b459c2cSDavid du Colombier struct partition *part;
103*0b459c2cSDavid du Colombier {
104*0b459c2cSDavid du Colombier int *const fd = fdiag; /* Give the compiler a chance. */
105*0b459c2cSDavid du Colombier int *const bd = bdiag; /* Additional help for the compiler. */
106*0b459c2cSDavid du Colombier int const *const xv = xvec; /* Still more help for the compiler. */
107*0b459c2cSDavid du Colombier int const *const yv = yvec; /* And more and more . . . */
108*0b459c2cSDavid du Colombier int const dmin = xoff - ylim; /* Minimum valid diagonal. */
109*0b459c2cSDavid du Colombier int const dmax = xlim - yoff; /* Maximum valid diagonal. */
110*0b459c2cSDavid du Colombier int const fmid = xoff - yoff; /* Center diagonal of top-down search. */
111*0b459c2cSDavid du Colombier int const bmid = xlim - ylim; /* Center diagonal of bottom-up search. */
112*0b459c2cSDavid du Colombier int fmin = fmid, fmax = fmid; /* Limits of top-down search. */
113*0b459c2cSDavid du Colombier int bmin = bmid, bmax = bmid; /* Limits of bottom-up search. */
114*0b459c2cSDavid du Colombier int c; /* Cost. */
115*0b459c2cSDavid du Colombier int odd = (fmid - bmid) & 1; /* True if southeast corner is on an odd
116*0b459c2cSDavid du Colombier diagonal with respect to the northwest. */
117*0b459c2cSDavid du Colombier
118*0b459c2cSDavid du Colombier fd[fmid] = xoff;
119*0b459c2cSDavid du Colombier bd[bmid] = xlim;
120*0b459c2cSDavid du Colombier
121*0b459c2cSDavid du Colombier for (c = 1;; ++c)
122*0b459c2cSDavid du Colombier {
123*0b459c2cSDavid du Colombier int d; /* Active diagonal. */
124*0b459c2cSDavid du Colombier int big_snake = 0;
125*0b459c2cSDavid du Colombier
126*0b459c2cSDavid du Colombier /* Extend the top-down search by an edit step in each diagonal. */
127*0b459c2cSDavid du Colombier fmin > dmin ? fd[--fmin - 1] = -1 : ++fmin;
128*0b459c2cSDavid du Colombier fmax < dmax ? fd[++fmax + 1] = -1 : --fmax;
129*0b459c2cSDavid du Colombier for (d = fmax; d >= fmin; d -= 2)
130*0b459c2cSDavid du Colombier {
131*0b459c2cSDavid du Colombier int x, y, oldx, tlo = fd[d - 1], thi = fd[d + 1];
132*0b459c2cSDavid du Colombier
133*0b459c2cSDavid du Colombier if (tlo >= thi)
134*0b459c2cSDavid du Colombier x = tlo + 1;
135*0b459c2cSDavid du Colombier else
136*0b459c2cSDavid du Colombier x = thi;
137*0b459c2cSDavid du Colombier oldx = x;
138*0b459c2cSDavid du Colombier y = x - d;
139*0b459c2cSDavid du Colombier while (x < xlim && y < ylim && xv[x] == yv[y])
140*0b459c2cSDavid du Colombier ++x, ++y;
141*0b459c2cSDavid du Colombier if (x - oldx > SNAKE_LIMIT)
142*0b459c2cSDavid du Colombier big_snake = 1;
143*0b459c2cSDavid du Colombier fd[d] = x;
144*0b459c2cSDavid du Colombier if (odd && bmin <= d && d <= bmax && bd[d] <= x)
145*0b459c2cSDavid du Colombier {
146*0b459c2cSDavid du Colombier part->xmid = x;
147*0b459c2cSDavid du Colombier part->ymid = y;
148*0b459c2cSDavid du Colombier part->lo_minimal = part->hi_minimal = 1;
149*0b459c2cSDavid du Colombier return 2 * c - 1;
150*0b459c2cSDavid du Colombier }
151*0b459c2cSDavid du Colombier }
152*0b459c2cSDavid du Colombier
153*0b459c2cSDavid du Colombier /* Similarly extend the bottom-up search. */
154*0b459c2cSDavid du Colombier bmin > dmin ? bd[--bmin - 1] = INT_MAX : ++bmin;
155*0b459c2cSDavid du Colombier bmax < dmax ? bd[++bmax + 1] = INT_MAX : --bmax;
156*0b459c2cSDavid du Colombier for (d = bmax; d >= bmin; d -= 2)
157*0b459c2cSDavid du Colombier {
158*0b459c2cSDavid du Colombier int x, y, oldx, tlo = bd[d - 1], thi = bd[d + 1];
159*0b459c2cSDavid du Colombier
160*0b459c2cSDavid du Colombier if (tlo < thi)
161*0b459c2cSDavid du Colombier x = tlo;
162*0b459c2cSDavid du Colombier else
163*0b459c2cSDavid du Colombier x = thi - 1;
164*0b459c2cSDavid du Colombier oldx = x;
165*0b459c2cSDavid du Colombier y = x - d;
166*0b459c2cSDavid du Colombier while (x > xoff && y > yoff && xv[x - 1] == yv[y - 1])
167*0b459c2cSDavid du Colombier --x, --y;
168*0b459c2cSDavid du Colombier if (oldx - x > SNAKE_LIMIT)
169*0b459c2cSDavid du Colombier big_snake = 1;
170*0b459c2cSDavid du Colombier bd[d] = x;
171*0b459c2cSDavid du Colombier if (!odd && fmin <= d && d <= fmax && x <= fd[d])
172*0b459c2cSDavid du Colombier {
173*0b459c2cSDavid du Colombier part->xmid = x;
174*0b459c2cSDavid du Colombier part->ymid = y;
175*0b459c2cSDavid du Colombier part->lo_minimal = part->hi_minimal = 1;
176*0b459c2cSDavid du Colombier return 2 * c;
177*0b459c2cSDavid du Colombier }
178*0b459c2cSDavid du Colombier }
179*0b459c2cSDavid du Colombier
180*0b459c2cSDavid du Colombier if (minimal)
181*0b459c2cSDavid du Colombier continue;
182*0b459c2cSDavid du Colombier
183*0b459c2cSDavid du Colombier /* Heuristic: check occasionally for a diagonal that has made
184*0b459c2cSDavid du Colombier lots of progress compared with the edit distance.
185*0b459c2cSDavid du Colombier If we have any such, find the one that has made the most
186*0b459c2cSDavid du Colombier progress and return it as if it had succeeded.
187*0b459c2cSDavid du Colombier
188*0b459c2cSDavid du Colombier With this heuristic, for files with a constant small density
189*0b459c2cSDavid du Colombier of changes, the algorithm is linear in the file size. */
190*0b459c2cSDavid du Colombier
191*0b459c2cSDavid du Colombier if (c > 200 && big_snake && heuristic)
192*0b459c2cSDavid du Colombier {
193*0b459c2cSDavid du Colombier int best;
194*0b459c2cSDavid du Colombier
195*0b459c2cSDavid du Colombier best = 0;
196*0b459c2cSDavid du Colombier for (d = fmax; d >= fmin; d -= 2)
197*0b459c2cSDavid du Colombier {
198*0b459c2cSDavid du Colombier int dd = d - fmid;
199*0b459c2cSDavid du Colombier int x = fd[d];
200*0b459c2cSDavid du Colombier int y = x - d;
201*0b459c2cSDavid du Colombier int v = (x - xoff) * 2 - dd;
202*0b459c2cSDavid du Colombier if (v > 12 * (c + (dd < 0 ? -dd : dd)))
203*0b459c2cSDavid du Colombier {
204*0b459c2cSDavid du Colombier if (v > best
205*0b459c2cSDavid du Colombier && xoff + SNAKE_LIMIT <= x && x < xlim
206*0b459c2cSDavid du Colombier && yoff + SNAKE_LIMIT <= y && y < ylim)
207*0b459c2cSDavid du Colombier {
208*0b459c2cSDavid du Colombier /* We have a good enough best diagonal;
209*0b459c2cSDavid du Colombier now insist that it end with a significant snake. */
210*0b459c2cSDavid du Colombier int k;
211*0b459c2cSDavid du Colombier
212*0b459c2cSDavid du Colombier for (k = 1; xv[x - k] == yv[y - k]; k++)
213*0b459c2cSDavid du Colombier if (k == SNAKE_LIMIT)
214*0b459c2cSDavid du Colombier {
215*0b459c2cSDavid du Colombier best = v;
216*0b459c2cSDavid du Colombier part->xmid = x;
217*0b459c2cSDavid du Colombier part->ymid = y;
218*0b459c2cSDavid du Colombier break;
219*0b459c2cSDavid du Colombier }
220*0b459c2cSDavid du Colombier }
221*0b459c2cSDavid du Colombier }
222*0b459c2cSDavid du Colombier }
223*0b459c2cSDavid du Colombier if (best > 0)
224*0b459c2cSDavid du Colombier {
225*0b459c2cSDavid du Colombier part->lo_minimal = 1;
226*0b459c2cSDavid du Colombier part->hi_minimal = 0;
227*0b459c2cSDavid du Colombier return 2 * c - 1;
228*0b459c2cSDavid du Colombier }
229*0b459c2cSDavid du Colombier
230*0b459c2cSDavid du Colombier best = 0;
231*0b459c2cSDavid du Colombier for (d = bmax; d >= bmin; d -= 2)
232*0b459c2cSDavid du Colombier {
233*0b459c2cSDavid du Colombier int dd = d - bmid;
234*0b459c2cSDavid du Colombier int x = bd[d];
235*0b459c2cSDavid du Colombier int y = x - d;
236*0b459c2cSDavid du Colombier int v = (xlim - x) * 2 + dd;
237*0b459c2cSDavid du Colombier if (v > 12 * (c + (dd < 0 ? -dd : dd)))
238*0b459c2cSDavid du Colombier {
239*0b459c2cSDavid du Colombier if (v > best
240*0b459c2cSDavid du Colombier && xoff < x && x <= xlim - SNAKE_LIMIT
241*0b459c2cSDavid du Colombier && yoff < y && y <= ylim - SNAKE_LIMIT)
242*0b459c2cSDavid du Colombier {
243*0b459c2cSDavid du Colombier /* We have a good enough best diagonal;
244*0b459c2cSDavid du Colombier now insist that it end with a significant snake. */
245*0b459c2cSDavid du Colombier int k;
246*0b459c2cSDavid du Colombier
247*0b459c2cSDavid du Colombier for (k = 0; xv[x + k] == yv[y + k]; k++)
248*0b459c2cSDavid du Colombier if (k == SNAKE_LIMIT - 1)
249*0b459c2cSDavid du Colombier {
250*0b459c2cSDavid du Colombier best = v;
251*0b459c2cSDavid du Colombier part->xmid = x;
252*0b459c2cSDavid du Colombier part->ymid = y;
253*0b459c2cSDavid du Colombier break;
254*0b459c2cSDavid du Colombier }
255*0b459c2cSDavid du Colombier }
256*0b459c2cSDavid du Colombier }
257*0b459c2cSDavid du Colombier }
258*0b459c2cSDavid du Colombier if (best > 0)
259*0b459c2cSDavid du Colombier {
260*0b459c2cSDavid du Colombier part->lo_minimal = 0;
261*0b459c2cSDavid du Colombier part->hi_minimal = 1;
262*0b459c2cSDavid du Colombier return 2 * c - 1;
263*0b459c2cSDavid du Colombier }
264*0b459c2cSDavid du Colombier }
265*0b459c2cSDavid du Colombier
266*0b459c2cSDavid du Colombier /* Heuristic: if we've gone well beyond the call of duty,
267*0b459c2cSDavid du Colombier give up and report halfway between our best results so far. */
268*0b459c2cSDavid du Colombier if (c >= too_expensive)
269*0b459c2cSDavid du Colombier {
270*0b459c2cSDavid du Colombier int fxybest, fxbest;
271*0b459c2cSDavid du Colombier int bxybest, bxbest;
272*0b459c2cSDavid du Colombier
273*0b459c2cSDavid du Colombier fxbest = bxbest = 0; /* Pacify `gcc -Wall'. */
274*0b459c2cSDavid du Colombier
275*0b459c2cSDavid du Colombier /* Find forward diagonal that maximizes X + Y. */
276*0b459c2cSDavid du Colombier fxybest = -1;
277*0b459c2cSDavid du Colombier for (d = fmax; d >= fmin; d -= 2)
278*0b459c2cSDavid du Colombier {
279*0b459c2cSDavid du Colombier int x = min (fd[d], xlim);
280*0b459c2cSDavid du Colombier int y = x - d;
281*0b459c2cSDavid du Colombier if (ylim < y)
282*0b459c2cSDavid du Colombier x = ylim + d, y = ylim;
283*0b459c2cSDavid du Colombier if (fxybest < x + y)
284*0b459c2cSDavid du Colombier {
285*0b459c2cSDavid du Colombier fxybest = x + y;
286*0b459c2cSDavid du Colombier fxbest = x;
287*0b459c2cSDavid du Colombier }
288*0b459c2cSDavid du Colombier }
289*0b459c2cSDavid du Colombier
290*0b459c2cSDavid du Colombier /* Find backward diagonal that minimizes X + Y. */
291*0b459c2cSDavid du Colombier bxybest = INT_MAX;
292*0b459c2cSDavid du Colombier for (d = bmax; d >= bmin; d -= 2)
293*0b459c2cSDavid du Colombier {
294*0b459c2cSDavid du Colombier int x = max (xoff, bd[d]);
295*0b459c2cSDavid du Colombier int y = x - d;
296*0b459c2cSDavid du Colombier if (y < yoff)
297*0b459c2cSDavid du Colombier x = yoff + d, y = yoff;
298*0b459c2cSDavid du Colombier if (x + y < bxybest)
299*0b459c2cSDavid du Colombier {
300*0b459c2cSDavid du Colombier bxybest = x + y;
301*0b459c2cSDavid du Colombier bxbest = x;
302*0b459c2cSDavid du Colombier }
303*0b459c2cSDavid du Colombier }
304*0b459c2cSDavid du Colombier
305*0b459c2cSDavid du Colombier /* Use the better of the two diagonals. */
306*0b459c2cSDavid du Colombier if ((xlim + ylim) - bxybest < fxybest - (xoff + yoff))
307*0b459c2cSDavid du Colombier {
308*0b459c2cSDavid du Colombier part->xmid = fxbest;
309*0b459c2cSDavid du Colombier part->ymid = fxybest - fxbest;
310*0b459c2cSDavid du Colombier part->lo_minimal = 1;
311*0b459c2cSDavid du Colombier part->hi_minimal = 0;
312*0b459c2cSDavid du Colombier }
313*0b459c2cSDavid du Colombier else
314*0b459c2cSDavid du Colombier {
315*0b459c2cSDavid du Colombier part->xmid = bxbest;
316*0b459c2cSDavid du Colombier part->ymid = bxybest - bxbest;
317*0b459c2cSDavid du Colombier part->lo_minimal = 0;
318*0b459c2cSDavid du Colombier part->hi_minimal = 1;
319*0b459c2cSDavid du Colombier }
320*0b459c2cSDavid du Colombier return 2 * c - 1;
321*0b459c2cSDavid du Colombier }
322*0b459c2cSDavid du Colombier }
323*0b459c2cSDavid du Colombier }
324*0b459c2cSDavid du Colombier
325*0b459c2cSDavid du Colombier /* Compare in detail contiguous subsequences of the two files
326*0b459c2cSDavid du Colombier which are known, as a whole, to match each other.
327*0b459c2cSDavid du Colombier
328*0b459c2cSDavid du Colombier The results are recorded in the vectors files[N].changed_flag, by
329*0b459c2cSDavid du Colombier storing a 1 in the element for each line that is an insertion or deletion.
330*0b459c2cSDavid du Colombier
331*0b459c2cSDavid du Colombier The subsequence of file 0 is [XOFF, XLIM) and likewise for file 1.
332*0b459c2cSDavid du Colombier
333*0b459c2cSDavid du Colombier Note that XLIM, YLIM are exclusive bounds.
334*0b459c2cSDavid du Colombier All line numbers are origin-0 and discarded lines are not counted.
335*0b459c2cSDavid du Colombier
336*0b459c2cSDavid du Colombier If MINIMAL is nonzero, find a minimal difference no matter how
337*0b459c2cSDavid du Colombier expensive it is. */
338*0b459c2cSDavid du Colombier
339*0b459c2cSDavid du Colombier static void
compareseq(xoff,xlim,yoff,ylim,minimal)340*0b459c2cSDavid du Colombier compareseq (xoff, xlim, yoff, ylim, minimal)
341*0b459c2cSDavid du Colombier int xoff, xlim, yoff, ylim, minimal;
342*0b459c2cSDavid du Colombier {
343*0b459c2cSDavid du Colombier int * const xv = xvec; /* Help the compiler. */
344*0b459c2cSDavid du Colombier int * const yv = yvec;
345*0b459c2cSDavid du Colombier
346*0b459c2cSDavid du Colombier /* Slide down the bottom initial diagonal. */
347*0b459c2cSDavid du Colombier while (xoff < xlim && yoff < ylim && xv[xoff] == yv[yoff])
348*0b459c2cSDavid du Colombier ++xoff, ++yoff;
349*0b459c2cSDavid du Colombier /* Slide up the top initial diagonal. */
350*0b459c2cSDavid du Colombier while (xlim > xoff && ylim > yoff && xv[xlim - 1] == yv[ylim - 1])
351*0b459c2cSDavid du Colombier --xlim, --ylim;
352*0b459c2cSDavid du Colombier
353*0b459c2cSDavid du Colombier /* Handle simple cases. */
354*0b459c2cSDavid du Colombier if (xoff == xlim)
355*0b459c2cSDavid du Colombier while (yoff < ylim)
356*0b459c2cSDavid du Colombier files[1].changed_flag[files[1].realindexes[yoff++]] = 1;
357*0b459c2cSDavid du Colombier else if (yoff == ylim)
358*0b459c2cSDavid du Colombier while (xoff < xlim)
359*0b459c2cSDavid du Colombier files[0].changed_flag[files[0].realindexes[xoff++]] = 1;
360*0b459c2cSDavid du Colombier else
361*0b459c2cSDavid du Colombier {
362*0b459c2cSDavid du Colombier int c;
363*0b459c2cSDavid du Colombier struct partition part;
364*0b459c2cSDavid du Colombier
365*0b459c2cSDavid du Colombier /* Find a point of correspondence in the middle of the files. */
366*0b459c2cSDavid du Colombier
367*0b459c2cSDavid du Colombier c = diag (xoff, xlim, yoff, ylim, minimal, &part);
368*0b459c2cSDavid du Colombier
369*0b459c2cSDavid du Colombier if (c == 1)
370*0b459c2cSDavid du Colombier {
371*0b459c2cSDavid du Colombier /* This should be impossible, because it implies that
372*0b459c2cSDavid du Colombier one of the two subsequences is empty,
373*0b459c2cSDavid du Colombier and that case was handled above without calling `diag'.
374*0b459c2cSDavid du Colombier Let's verify that this is true. */
375*0b459c2cSDavid du Colombier abort ();
376*0b459c2cSDavid du Colombier #if 0
377*0b459c2cSDavid du Colombier /* The two subsequences differ by a single insert or delete;
378*0b459c2cSDavid du Colombier record it and we are done. */
379*0b459c2cSDavid du Colombier if (part.xmid - part.ymid < xoff - yoff)
380*0b459c2cSDavid du Colombier files[1].changed_flag[files[1].realindexes[part.ymid - 1]] = 1;
381*0b459c2cSDavid du Colombier else
382*0b459c2cSDavid du Colombier files[0].changed_flag[files[0].realindexes[part.xmid]] = 1;
383*0b459c2cSDavid du Colombier #endif
384*0b459c2cSDavid du Colombier }
385*0b459c2cSDavid du Colombier else
386*0b459c2cSDavid du Colombier {
387*0b459c2cSDavid du Colombier /* Use the partitions to split this problem into subproblems. */
388*0b459c2cSDavid du Colombier compareseq (xoff, part.xmid, yoff, part.ymid, part.lo_minimal);
389*0b459c2cSDavid du Colombier compareseq (part.xmid, xlim, part.ymid, ylim, part.hi_minimal);
390*0b459c2cSDavid du Colombier }
391*0b459c2cSDavid du Colombier }
392*0b459c2cSDavid du Colombier }
393*0b459c2cSDavid du Colombier
394*0b459c2cSDavid du Colombier /* Discard lines from one file that have no matches in the other file.
395*0b459c2cSDavid du Colombier
396*0b459c2cSDavid du Colombier A line which is discarded will not be considered by the actual
397*0b459c2cSDavid du Colombier comparison algorithm; it will be as if that line were not in the file.
398*0b459c2cSDavid du Colombier The file's `realindexes' table maps virtual line numbers
399*0b459c2cSDavid du Colombier (which don't count the discarded lines) into real line numbers;
400*0b459c2cSDavid du Colombier this is how the actual comparison algorithm produces results
401*0b459c2cSDavid du Colombier that are comprehensible when the discarded lines are counted.
402*0b459c2cSDavid du Colombier
403*0b459c2cSDavid du Colombier When we discard a line, we also mark it as a deletion or insertion
404*0b459c2cSDavid du Colombier so that it will be printed in the output. */
405*0b459c2cSDavid du Colombier
406*0b459c2cSDavid du Colombier static void
discard_confusing_lines(filevec)407*0b459c2cSDavid du Colombier discard_confusing_lines (filevec)
408*0b459c2cSDavid du Colombier struct file_data filevec[];
409*0b459c2cSDavid du Colombier {
410*0b459c2cSDavid du Colombier unsigned int f, i;
411*0b459c2cSDavid du Colombier char *discarded[2];
412*0b459c2cSDavid du Colombier int *equiv_count[2];
413*0b459c2cSDavid du Colombier int *p;
414*0b459c2cSDavid du Colombier
415*0b459c2cSDavid du Colombier /* Allocate our results. */
416*0b459c2cSDavid du Colombier p = (int *) xmalloc ((filevec[0].buffered_lines + filevec[1].buffered_lines)
417*0b459c2cSDavid du Colombier * (2 * sizeof (int)));
418*0b459c2cSDavid du Colombier for (f = 0; f < 2; f++)
419*0b459c2cSDavid du Colombier {
420*0b459c2cSDavid du Colombier filevec[f].undiscarded = p; p += filevec[f].buffered_lines;
421*0b459c2cSDavid du Colombier filevec[f].realindexes = p; p += filevec[f].buffered_lines;
422*0b459c2cSDavid du Colombier }
423*0b459c2cSDavid du Colombier
424*0b459c2cSDavid du Colombier /* Set up equiv_count[F][I] as the number of lines in file F
425*0b459c2cSDavid du Colombier that fall in equivalence class I. */
426*0b459c2cSDavid du Colombier
427*0b459c2cSDavid du Colombier p = (int *) xmalloc (filevec[0].equiv_max * (2 * sizeof (int)));
428*0b459c2cSDavid du Colombier equiv_count[0] = p;
429*0b459c2cSDavid du Colombier equiv_count[1] = p + filevec[0].equiv_max;
430*0b459c2cSDavid du Colombier bzero (p, filevec[0].equiv_max * (2 * sizeof (int)));
431*0b459c2cSDavid du Colombier
432*0b459c2cSDavid du Colombier for (i = 0; i < filevec[0].buffered_lines; ++i)
433*0b459c2cSDavid du Colombier ++equiv_count[0][filevec[0].equivs[i]];
434*0b459c2cSDavid du Colombier for (i = 0; i < filevec[1].buffered_lines; ++i)
435*0b459c2cSDavid du Colombier ++equiv_count[1][filevec[1].equivs[i]];
436*0b459c2cSDavid du Colombier
437*0b459c2cSDavid du Colombier /* Set up tables of which lines are going to be discarded. */
438*0b459c2cSDavid du Colombier
439*0b459c2cSDavid du Colombier discarded[0] = xmalloc (sizeof (char)
440*0b459c2cSDavid du Colombier * (filevec[0].buffered_lines
441*0b459c2cSDavid du Colombier + filevec[1].buffered_lines));
442*0b459c2cSDavid du Colombier discarded[1] = discarded[0] + filevec[0].buffered_lines;
443*0b459c2cSDavid du Colombier bzero (discarded[0], sizeof (char) * (filevec[0].buffered_lines
444*0b459c2cSDavid du Colombier + filevec[1].buffered_lines));
445*0b459c2cSDavid du Colombier
446*0b459c2cSDavid du Colombier /* Mark to be discarded each line that matches no line of the other file.
447*0b459c2cSDavid du Colombier If a line matches many lines, mark it as provisionally discardable. */
448*0b459c2cSDavid du Colombier
449*0b459c2cSDavid du Colombier for (f = 0; f < 2; f++)
450*0b459c2cSDavid du Colombier {
451*0b459c2cSDavid du Colombier unsigned int end = filevec[f].buffered_lines;
452*0b459c2cSDavid du Colombier char *discards = discarded[f];
453*0b459c2cSDavid du Colombier int *counts = equiv_count[1 - f];
454*0b459c2cSDavid du Colombier int *equivs = filevec[f].equivs;
455*0b459c2cSDavid du Colombier unsigned int many = 5;
456*0b459c2cSDavid du Colombier unsigned int tem = end / 64;
457*0b459c2cSDavid du Colombier
458*0b459c2cSDavid du Colombier /* Multiply MANY by approximate square root of number of lines.
459*0b459c2cSDavid du Colombier That is the threshold for provisionally discardable lines. */
460*0b459c2cSDavid du Colombier while ((tem = tem >> 2) > 0)
461*0b459c2cSDavid du Colombier many *= 2;
462*0b459c2cSDavid du Colombier
463*0b459c2cSDavid du Colombier for (i = 0; i < end; i++)
464*0b459c2cSDavid du Colombier {
465*0b459c2cSDavid du Colombier int nmatch;
466*0b459c2cSDavid du Colombier if (equivs[i] == 0)
467*0b459c2cSDavid du Colombier continue;
468*0b459c2cSDavid du Colombier nmatch = counts[equivs[i]];
469*0b459c2cSDavid du Colombier if (nmatch == 0)
470*0b459c2cSDavid du Colombier discards[i] = 1;
471*0b459c2cSDavid du Colombier else if (nmatch > many)
472*0b459c2cSDavid du Colombier discards[i] = 2;
473*0b459c2cSDavid du Colombier }
474*0b459c2cSDavid du Colombier }
475*0b459c2cSDavid du Colombier
476*0b459c2cSDavid du Colombier /* Don't really discard the provisional lines except when they occur
477*0b459c2cSDavid du Colombier in a run of discardables, with nonprovisionals at the beginning
478*0b459c2cSDavid du Colombier and end. */
479*0b459c2cSDavid du Colombier
480*0b459c2cSDavid du Colombier for (f = 0; f < 2; f++)
481*0b459c2cSDavid du Colombier {
482*0b459c2cSDavid du Colombier unsigned int end = filevec[f].buffered_lines;
483*0b459c2cSDavid du Colombier register char *discards = discarded[f];
484*0b459c2cSDavid du Colombier
485*0b459c2cSDavid du Colombier for (i = 0; i < end; i++)
486*0b459c2cSDavid du Colombier {
487*0b459c2cSDavid du Colombier /* Cancel provisional discards not in middle of run of discards. */
488*0b459c2cSDavid du Colombier if (discards[i] == 2)
489*0b459c2cSDavid du Colombier discards[i] = 0;
490*0b459c2cSDavid du Colombier else if (discards[i] != 0)
491*0b459c2cSDavid du Colombier {
492*0b459c2cSDavid du Colombier /* We have found a nonprovisional discard. */
493*0b459c2cSDavid du Colombier register int j;
494*0b459c2cSDavid du Colombier unsigned int length;
495*0b459c2cSDavid du Colombier unsigned int provisional = 0;
496*0b459c2cSDavid du Colombier
497*0b459c2cSDavid du Colombier /* Find end of this run of discardable lines.
498*0b459c2cSDavid du Colombier Count how many are provisionally discardable. */
499*0b459c2cSDavid du Colombier for (j = i; j < end; j++)
500*0b459c2cSDavid du Colombier {
501*0b459c2cSDavid du Colombier if (discards[j] == 0)
502*0b459c2cSDavid du Colombier break;
503*0b459c2cSDavid du Colombier if (discards[j] == 2)
504*0b459c2cSDavid du Colombier ++provisional;
505*0b459c2cSDavid du Colombier }
506*0b459c2cSDavid du Colombier
507*0b459c2cSDavid du Colombier /* Cancel provisional discards at end, and shrink the run. */
508*0b459c2cSDavid du Colombier while (j > i && discards[j - 1] == 2)
509*0b459c2cSDavid du Colombier discards[--j] = 0, --provisional;
510*0b459c2cSDavid du Colombier
511*0b459c2cSDavid du Colombier /* Now we have the length of a run of discardable lines
512*0b459c2cSDavid du Colombier whose first and last are not provisional. */
513*0b459c2cSDavid du Colombier length = j - i;
514*0b459c2cSDavid du Colombier
515*0b459c2cSDavid du Colombier /* If 1/4 of the lines in the run are provisional,
516*0b459c2cSDavid du Colombier cancel discarding of all provisional lines in the run. */
517*0b459c2cSDavid du Colombier if (provisional * 4 > length)
518*0b459c2cSDavid du Colombier {
519*0b459c2cSDavid du Colombier while (j > i)
520*0b459c2cSDavid du Colombier if (discards[--j] == 2)
521*0b459c2cSDavid du Colombier discards[j] = 0;
522*0b459c2cSDavid du Colombier }
523*0b459c2cSDavid du Colombier else
524*0b459c2cSDavid du Colombier {
525*0b459c2cSDavid du Colombier register unsigned int consec;
526*0b459c2cSDavid du Colombier unsigned int minimum = 1;
527*0b459c2cSDavid du Colombier unsigned int tem = length / 4;
528*0b459c2cSDavid du Colombier
529*0b459c2cSDavid du Colombier /* MINIMUM is approximate square root of LENGTH/4.
530*0b459c2cSDavid du Colombier A subrun of two or more provisionals can stand
531*0b459c2cSDavid du Colombier when LENGTH is at least 16.
532*0b459c2cSDavid du Colombier A subrun of 4 or more can stand when LENGTH >= 64. */
533*0b459c2cSDavid du Colombier while ((tem = tem >> 2) > 0)
534*0b459c2cSDavid du Colombier minimum *= 2;
535*0b459c2cSDavid du Colombier minimum++;
536*0b459c2cSDavid du Colombier
537*0b459c2cSDavid du Colombier /* Cancel any subrun of MINIMUM or more provisionals
538*0b459c2cSDavid du Colombier within the larger run. */
539*0b459c2cSDavid du Colombier for (j = 0, consec = 0; j < length; j++)
540*0b459c2cSDavid du Colombier if (discards[i + j] != 2)
541*0b459c2cSDavid du Colombier consec = 0;
542*0b459c2cSDavid du Colombier else if (minimum == ++consec)
543*0b459c2cSDavid du Colombier /* Back up to start of subrun, to cancel it all. */
544*0b459c2cSDavid du Colombier j -= consec;
545*0b459c2cSDavid du Colombier else if (minimum < consec)
546*0b459c2cSDavid du Colombier discards[i + j] = 0;
547*0b459c2cSDavid du Colombier
548*0b459c2cSDavid du Colombier /* Scan from beginning of run
549*0b459c2cSDavid du Colombier until we find 3 or more nonprovisionals in a row
550*0b459c2cSDavid du Colombier or until the first nonprovisional at least 8 lines in.
551*0b459c2cSDavid du Colombier Until that point, cancel any provisionals. */
552*0b459c2cSDavid du Colombier for (j = 0, consec = 0; j < length; j++)
553*0b459c2cSDavid du Colombier {
554*0b459c2cSDavid du Colombier if (j >= 8 && discards[i + j] == 1)
555*0b459c2cSDavid du Colombier break;
556*0b459c2cSDavid du Colombier if (discards[i + j] == 2)
557*0b459c2cSDavid du Colombier consec = 0, discards[i + j] = 0;
558*0b459c2cSDavid du Colombier else if (discards[i + j] == 0)
559*0b459c2cSDavid du Colombier consec = 0;
560*0b459c2cSDavid du Colombier else
561*0b459c2cSDavid du Colombier consec++;
562*0b459c2cSDavid du Colombier if (consec == 3)
563*0b459c2cSDavid du Colombier break;
564*0b459c2cSDavid du Colombier }
565*0b459c2cSDavid du Colombier
566*0b459c2cSDavid du Colombier /* I advances to the last line of the run. */
567*0b459c2cSDavid du Colombier i += length - 1;
568*0b459c2cSDavid du Colombier
569*0b459c2cSDavid du Colombier /* Same thing, from end. */
570*0b459c2cSDavid du Colombier for (j = 0, consec = 0; j < length; j++)
571*0b459c2cSDavid du Colombier {
572*0b459c2cSDavid du Colombier if (j >= 8 && discards[i - j] == 1)
573*0b459c2cSDavid du Colombier break;
574*0b459c2cSDavid du Colombier if (discards[i - j] == 2)
575*0b459c2cSDavid du Colombier consec = 0, discards[i - j] = 0;
576*0b459c2cSDavid du Colombier else if (discards[i - j] == 0)
577*0b459c2cSDavid du Colombier consec = 0;
578*0b459c2cSDavid du Colombier else
579*0b459c2cSDavid du Colombier consec++;
580*0b459c2cSDavid du Colombier if (consec == 3)
581*0b459c2cSDavid du Colombier break;
582*0b459c2cSDavid du Colombier }
583*0b459c2cSDavid du Colombier }
584*0b459c2cSDavid du Colombier }
585*0b459c2cSDavid du Colombier }
586*0b459c2cSDavid du Colombier }
587*0b459c2cSDavid du Colombier
588*0b459c2cSDavid du Colombier /* Actually discard the lines. */
589*0b459c2cSDavid du Colombier for (f = 0; f < 2; f++)
590*0b459c2cSDavid du Colombier {
591*0b459c2cSDavid du Colombier char *discards = discarded[f];
592*0b459c2cSDavid du Colombier unsigned int end = filevec[f].buffered_lines;
593*0b459c2cSDavid du Colombier unsigned int j = 0;
594*0b459c2cSDavid du Colombier for (i = 0; i < end; ++i)
595*0b459c2cSDavid du Colombier if (no_discards || discards[i] == 0)
596*0b459c2cSDavid du Colombier {
597*0b459c2cSDavid du Colombier filevec[f].undiscarded[j] = filevec[f].equivs[i];
598*0b459c2cSDavid du Colombier filevec[f].realindexes[j++] = i;
599*0b459c2cSDavid du Colombier }
600*0b459c2cSDavid du Colombier else
601*0b459c2cSDavid du Colombier filevec[f].changed_flag[i] = 1;
602*0b459c2cSDavid du Colombier filevec[f].nondiscarded_lines = j;
603*0b459c2cSDavid du Colombier }
604*0b459c2cSDavid du Colombier
605*0b459c2cSDavid du Colombier free (discarded[0]);
606*0b459c2cSDavid du Colombier free (equiv_count[0]);
607*0b459c2cSDavid du Colombier }
608*0b459c2cSDavid du Colombier
609*0b459c2cSDavid du Colombier /* Adjust inserts/deletes of identical lines to join changes
610*0b459c2cSDavid du Colombier as much as possible.
611*0b459c2cSDavid du Colombier
612*0b459c2cSDavid du Colombier We do something when a run of changed lines include a
613*0b459c2cSDavid du Colombier line at one end and have an excluded, identical line at the other.
614*0b459c2cSDavid du Colombier We are free to choose which identical line is included.
615*0b459c2cSDavid du Colombier `compareseq' usually chooses the one at the beginning,
616*0b459c2cSDavid du Colombier but usually it is cleaner to consider the following identical line
617*0b459c2cSDavid du Colombier to be the "change". */
618*0b459c2cSDavid du Colombier
619*0b459c2cSDavid du Colombier int inhibit;
620*0b459c2cSDavid du Colombier
621*0b459c2cSDavid du Colombier static void
shift_boundaries(filevec)622*0b459c2cSDavid du Colombier shift_boundaries (filevec)
623*0b459c2cSDavid du Colombier struct file_data filevec[];
624*0b459c2cSDavid du Colombier {
625*0b459c2cSDavid du Colombier int f;
626*0b459c2cSDavid du Colombier
627*0b459c2cSDavid du Colombier if (inhibit)
628*0b459c2cSDavid du Colombier return;
629*0b459c2cSDavid du Colombier
630*0b459c2cSDavid du Colombier for (f = 0; f < 2; f++)
631*0b459c2cSDavid du Colombier {
632*0b459c2cSDavid du Colombier char *changed = filevec[f].changed_flag;
633*0b459c2cSDavid du Colombier char const *other_changed = filevec[1-f].changed_flag;
634*0b459c2cSDavid du Colombier int const *equivs = filevec[f].equivs;
635*0b459c2cSDavid du Colombier int i = 0;
636*0b459c2cSDavid du Colombier int j = 0;
637*0b459c2cSDavid du Colombier int i_end = filevec[f].buffered_lines;
638*0b459c2cSDavid du Colombier
639*0b459c2cSDavid du Colombier while (1)
640*0b459c2cSDavid du Colombier {
641*0b459c2cSDavid du Colombier int runlength, start, corresponding;
642*0b459c2cSDavid du Colombier
643*0b459c2cSDavid du Colombier /* Scan forwards to find beginning of another run of changes.
644*0b459c2cSDavid du Colombier Also keep track of the corresponding point in the other file. */
645*0b459c2cSDavid du Colombier
646*0b459c2cSDavid du Colombier while (i < i_end && changed[i] == 0)
647*0b459c2cSDavid du Colombier {
648*0b459c2cSDavid du Colombier while (other_changed[j++])
649*0b459c2cSDavid du Colombier continue;
650*0b459c2cSDavid du Colombier i++;
651*0b459c2cSDavid du Colombier }
652*0b459c2cSDavid du Colombier
653*0b459c2cSDavid du Colombier if (i == i_end)
654*0b459c2cSDavid du Colombier break;
655*0b459c2cSDavid du Colombier
656*0b459c2cSDavid du Colombier start = i;
657*0b459c2cSDavid du Colombier
658*0b459c2cSDavid du Colombier /* Find the end of this run of changes. */
659*0b459c2cSDavid du Colombier
660*0b459c2cSDavid du Colombier while (changed[++i])
661*0b459c2cSDavid du Colombier continue;
662*0b459c2cSDavid du Colombier while (other_changed[j])
663*0b459c2cSDavid du Colombier j++;
664*0b459c2cSDavid du Colombier
665*0b459c2cSDavid du Colombier do
666*0b459c2cSDavid du Colombier {
667*0b459c2cSDavid du Colombier /* Record the length of this run of changes, so that
668*0b459c2cSDavid du Colombier we can later determine whether the run has grown. */
669*0b459c2cSDavid du Colombier runlength = i - start;
670*0b459c2cSDavid du Colombier
671*0b459c2cSDavid du Colombier /* Move the changed region back, so long as the
672*0b459c2cSDavid du Colombier previous unchanged line matches the last changed one.
673*0b459c2cSDavid du Colombier This merges with previous changed regions. */
674*0b459c2cSDavid du Colombier
675*0b459c2cSDavid du Colombier while (start && equivs[start - 1] == equivs[i - 1])
676*0b459c2cSDavid du Colombier {
677*0b459c2cSDavid du Colombier changed[--start] = 1;
678*0b459c2cSDavid du Colombier changed[--i] = 0;
679*0b459c2cSDavid du Colombier while (changed[start - 1])
680*0b459c2cSDavid du Colombier start--;
681*0b459c2cSDavid du Colombier while (other_changed[--j])
682*0b459c2cSDavid du Colombier continue;
683*0b459c2cSDavid du Colombier }
684*0b459c2cSDavid du Colombier
685*0b459c2cSDavid du Colombier /* Set CORRESPONDING to the end of the changed run, at the last
686*0b459c2cSDavid du Colombier point where it corresponds to a changed run in the other file.
687*0b459c2cSDavid du Colombier CORRESPONDING == I_END means no such point has been found. */
688*0b459c2cSDavid du Colombier corresponding = other_changed[j - 1] ? i : i_end;
689*0b459c2cSDavid du Colombier
690*0b459c2cSDavid du Colombier /* Move the changed region forward, so long as the
691*0b459c2cSDavid du Colombier first changed line matches the following unchanged one.
692*0b459c2cSDavid du Colombier This merges with following changed regions.
693*0b459c2cSDavid du Colombier Do this second, so that if there are no merges,
694*0b459c2cSDavid du Colombier the changed region is moved forward as far as possible. */
695*0b459c2cSDavid du Colombier
696*0b459c2cSDavid du Colombier while (i != i_end && equivs[start] == equivs[i])
697*0b459c2cSDavid du Colombier {
698*0b459c2cSDavid du Colombier changed[start++] = 0;
699*0b459c2cSDavid du Colombier changed[i++] = 1;
700*0b459c2cSDavid du Colombier while (changed[i])
701*0b459c2cSDavid du Colombier i++;
702*0b459c2cSDavid du Colombier while (other_changed[++j])
703*0b459c2cSDavid du Colombier corresponding = i;
704*0b459c2cSDavid du Colombier }
705*0b459c2cSDavid du Colombier }
706*0b459c2cSDavid du Colombier while (runlength != i - start);
707*0b459c2cSDavid du Colombier
708*0b459c2cSDavid du Colombier /* If possible, move the fully-merged run of changes
709*0b459c2cSDavid du Colombier back to a corresponding run in the other file. */
710*0b459c2cSDavid du Colombier
711*0b459c2cSDavid du Colombier while (corresponding < i)
712*0b459c2cSDavid du Colombier {
713*0b459c2cSDavid du Colombier changed[--start] = 1;
714*0b459c2cSDavid du Colombier changed[--i] = 0;
715*0b459c2cSDavid du Colombier while (other_changed[--j])
716*0b459c2cSDavid du Colombier continue;
717*0b459c2cSDavid du Colombier }
718*0b459c2cSDavid du Colombier }
719*0b459c2cSDavid du Colombier }
720*0b459c2cSDavid du Colombier }
721*0b459c2cSDavid du Colombier
722*0b459c2cSDavid du Colombier /* Cons an additional entry onto the front of an edit script OLD.
723*0b459c2cSDavid du Colombier LINE0 and LINE1 are the first affected lines in the two files (origin 0).
724*0b459c2cSDavid du Colombier DELETED is the number of lines deleted here from file 0.
725*0b459c2cSDavid du Colombier INSERTED is the number of lines inserted here in file 1.
726*0b459c2cSDavid du Colombier
727*0b459c2cSDavid du Colombier If DELETED is 0 then LINE0 is the number of the line before
728*0b459c2cSDavid du Colombier which the insertion was done; vice versa for INSERTED and LINE1. */
729*0b459c2cSDavid du Colombier
730*0b459c2cSDavid du Colombier static struct change *
add_change(line0,line1,deleted,inserted,old)731*0b459c2cSDavid du Colombier add_change (line0, line1, deleted, inserted, old)
732*0b459c2cSDavid du Colombier int line0, line1, deleted, inserted;
733*0b459c2cSDavid du Colombier struct change *old;
734*0b459c2cSDavid du Colombier {
735*0b459c2cSDavid du Colombier struct change *new = (struct change *) xmalloc (sizeof (struct change));
736*0b459c2cSDavid du Colombier
737*0b459c2cSDavid du Colombier new->line0 = line0;
738*0b459c2cSDavid du Colombier new->line1 = line1;
739*0b459c2cSDavid du Colombier new->inserted = inserted;
740*0b459c2cSDavid du Colombier new->deleted = deleted;
741*0b459c2cSDavid du Colombier new->link = old;
742*0b459c2cSDavid du Colombier return new;
743*0b459c2cSDavid du Colombier }
744*0b459c2cSDavid du Colombier
745*0b459c2cSDavid du Colombier /* Scan the tables of which lines are inserted and deleted,
746*0b459c2cSDavid du Colombier producing an edit script in reverse order. */
747*0b459c2cSDavid du Colombier
748*0b459c2cSDavid du Colombier static struct change *
build_reverse_script(filevec)749*0b459c2cSDavid du Colombier build_reverse_script (filevec)
750*0b459c2cSDavid du Colombier struct file_data const filevec[];
751*0b459c2cSDavid du Colombier {
752*0b459c2cSDavid du Colombier struct change *script = 0;
753*0b459c2cSDavid du Colombier char *changed0 = filevec[0].changed_flag;
754*0b459c2cSDavid du Colombier char *changed1 = filevec[1].changed_flag;
755*0b459c2cSDavid du Colombier int len0 = filevec[0].buffered_lines;
756*0b459c2cSDavid du Colombier int len1 = filevec[1].buffered_lines;
757*0b459c2cSDavid du Colombier
758*0b459c2cSDavid du Colombier /* Note that changedN[len0] does exist, and contains 0. */
759*0b459c2cSDavid du Colombier
760*0b459c2cSDavid du Colombier int i0 = 0, i1 = 0;
761*0b459c2cSDavid du Colombier
762*0b459c2cSDavid du Colombier while (i0 < len0 || i1 < len1)
763*0b459c2cSDavid du Colombier {
764*0b459c2cSDavid du Colombier if (changed0[i0] || changed1[i1])
765*0b459c2cSDavid du Colombier {
766*0b459c2cSDavid du Colombier int line0 = i0, line1 = i1;
767*0b459c2cSDavid du Colombier
768*0b459c2cSDavid du Colombier /* Find # lines changed here in each file. */
769*0b459c2cSDavid du Colombier while (changed0[i0]) ++i0;
770*0b459c2cSDavid du Colombier while (changed1[i1]) ++i1;
771*0b459c2cSDavid du Colombier
772*0b459c2cSDavid du Colombier /* Record this change. */
773*0b459c2cSDavid du Colombier script = add_change (line0, line1, i0 - line0, i1 - line1, script);
774*0b459c2cSDavid du Colombier }
775*0b459c2cSDavid du Colombier
776*0b459c2cSDavid du Colombier /* We have reached lines in the two files that match each other. */
777*0b459c2cSDavid du Colombier i0++, i1++;
778*0b459c2cSDavid du Colombier }
779*0b459c2cSDavid du Colombier
780*0b459c2cSDavid du Colombier return script;
781*0b459c2cSDavid du Colombier }
782*0b459c2cSDavid du Colombier
783*0b459c2cSDavid du Colombier /* Scan the tables of which lines are inserted and deleted,
784*0b459c2cSDavid du Colombier producing an edit script in forward order. */
785*0b459c2cSDavid du Colombier
786*0b459c2cSDavid du Colombier static struct change *
build_script(filevec)787*0b459c2cSDavid du Colombier build_script (filevec)
788*0b459c2cSDavid du Colombier struct file_data const filevec[];
789*0b459c2cSDavid du Colombier {
790*0b459c2cSDavid du Colombier struct change *script = 0;
791*0b459c2cSDavid du Colombier char *changed0 = filevec[0].changed_flag;
792*0b459c2cSDavid du Colombier char *changed1 = filevec[1].changed_flag;
793*0b459c2cSDavid du Colombier int i0 = filevec[0].buffered_lines, i1 = filevec[1].buffered_lines;
794*0b459c2cSDavid du Colombier
795*0b459c2cSDavid du Colombier /* Note that changedN[-1] does exist, and contains 0. */
796*0b459c2cSDavid du Colombier
797*0b459c2cSDavid du Colombier while (i0 >= 0 || i1 >= 0)
798*0b459c2cSDavid du Colombier {
799*0b459c2cSDavid du Colombier if (changed0[i0 - 1] || changed1[i1 - 1])
800*0b459c2cSDavid du Colombier {
801*0b459c2cSDavid du Colombier int line0 = i0, line1 = i1;
802*0b459c2cSDavid du Colombier
803*0b459c2cSDavid du Colombier /* Find # lines changed here in each file. */
804*0b459c2cSDavid du Colombier while (changed0[i0 - 1]) --i0;
805*0b459c2cSDavid du Colombier while (changed1[i1 - 1]) --i1;
806*0b459c2cSDavid du Colombier
807*0b459c2cSDavid du Colombier /* Record this change. */
808*0b459c2cSDavid du Colombier script = add_change (i0, i1, line0 - i0, line1 - i1, script);
809*0b459c2cSDavid du Colombier }
810*0b459c2cSDavid du Colombier
811*0b459c2cSDavid du Colombier /* We have reached lines in the two files that match each other. */
812*0b459c2cSDavid du Colombier i0--, i1--;
813*0b459c2cSDavid du Colombier }
814*0b459c2cSDavid du Colombier
815*0b459c2cSDavid du Colombier return script;
816*0b459c2cSDavid du Colombier }
817*0b459c2cSDavid du Colombier
818*0b459c2cSDavid du Colombier /* If CHANGES, briefly report that two files differed. */
819*0b459c2cSDavid du Colombier static void
briefly_report(changes,filevec)820*0b459c2cSDavid du Colombier briefly_report (changes, filevec)
821*0b459c2cSDavid du Colombier int changes;
822*0b459c2cSDavid du Colombier struct file_data const filevec[];
823*0b459c2cSDavid du Colombier {
824*0b459c2cSDavid du Colombier if (changes)
825*0b459c2cSDavid du Colombier message (no_details_flag ? "Files %s and %s differ\n"
826*0b459c2cSDavid du Colombier : "Binary files %s and %s differ\n",
827*0b459c2cSDavid du Colombier filevec[0].name, filevec[1].name);
828*0b459c2cSDavid du Colombier }
829*0b459c2cSDavid du Colombier
830*0b459c2cSDavid du Colombier /* Report the differences of two files. DEPTH is the current directory
831*0b459c2cSDavid du Colombier depth. */
832*0b459c2cSDavid du Colombier int
diff_2_files(filevec,depth)833*0b459c2cSDavid du Colombier diff_2_files (filevec, depth)
834*0b459c2cSDavid du Colombier struct file_data filevec[];
835*0b459c2cSDavid du Colombier int depth;
836*0b459c2cSDavid du Colombier {
837*0b459c2cSDavid du Colombier int diags;
838*0b459c2cSDavid du Colombier int i;
839*0b459c2cSDavid du Colombier struct change *e, *p;
840*0b459c2cSDavid du Colombier struct change *script;
841*0b459c2cSDavid du Colombier int changes;
842*0b459c2cSDavid du Colombier
843*0b459c2cSDavid du Colombier
844*0b459c2cSDavid du Colombier /* If we have detected that either file is binary,
845*0b459c2cSDavid du Colombier compare the two files as binary. This can happen
846*0b459c2cSDavid du Colombier only when the first chunk is read.
847*0b459c2cSDavid du Colombier Also, --brief without any --ignore-* options means
848*0b459c2cSDavid du Colombier we can speed things up by treating the files as binary. */
849*0b459c2cSDavid du Colombier
850*0b459c2cSDavid du Colombier if (read_files (filevec, no_details_flag & ~ignore_some_changes))
851*0b459c2cSDavid du Colombier {
852*0b459c2cSDavid du Colombier /* Files with different lengths must be different. */
853*0b459c2cSDavid du Colombier if (filevec[0].stat.st_size != filevec[1].stat.st_size
854*0b459c2cSDavid du Colombier && (filevec[0].desc < 0 || S_ISREG (filevec[0].stat.st_mode))
855*0b459c2cSDavid du Colombier && (filevec[1].desc < 0 || S_ISREG (filevec[1].stat.st_mode)))
856*0b459c2cSDavid du Colombier changes = 1;
857*0b459c2cSDavid du Colombier
858*0b459c2cSDavid du Colombier /* Standard input equals itself. */
859*0b459c2cSDavid du Colombier else if (filevec[0].desc == filevec[1].desc)
860*0b459c2cSDavid du Colombier changes = 0;
861*0b459c2cSDavid du Colombier
862*0b459c2cSDavid du Colombier else
863*0b459c2cSDavid du Colombier /* Scan both files, a buffer at a time, looking for a difference. */
864*0b459c2cSDavid du Colombier {
865*0b459c2cSDavid du Colombier /* Allocate same-sized buffers for both files. */
866*0b459c2cSDavid du Colombier size_t buffer_size = buffer_lcm (STAT_BLOCKSIZE (filevec[0].stat),
867*0b459c2cSDavid du Colombier STAT_BLOCKSIZE (filevec[1].stat));
868*0b459c2cSDavid du Colombier for (i = 0; i < 2; i++)
869*0b459c2cSDavid du Colombier filevec[i].buffer = xrealloc (filevec[i].buffer, buffer_size);
870*0b459c2cSDavid du Colombier
871*0b459c2cSDavid du Colombier for (;; filevec[0].buffered_chars = filevec[1].buffered_chars = 0)
872*0b459c2cSDavid du Colombier {
873*0b459c2cSDavid du Colombier /* Read a buffer's worth from both files. */
874*0b459c2cSDavid du Colombier for (i = 0; i < 2; i++)
875*0b459c2cSDavid du Colombier if (0 <= filevec[i].desc)
876*0b459c2cSDavid du Colombier while (filevec[i].buffered_chars != buffer_size)
877*0b459c2cSDavid du Colombier {
878*0b459c2cSDavid du Colombier int r = read (filevec[i].desc,
879*0b459c2cSDavid du Colombier filevec[i].buffer
880*0b459c2cSDavid du Colombier + filevec[i].buffered_chars,
881*0b459c2cSDavid du Colombier buffer_size - filevec[i].buffered_chars);
882*0b459c2cSDavid du Colombier if (r == 0)
883*0b459c2cSDavid du Colombier break;
884*0b459c2cSDavid du Colombier if (r < 0)
885*0b459c2cSDavid du Colombier pfatal_with_name (filevec[i].name);
886*0b459c2cSDavid du Colombier filevec[i].buffered_chars += r;
887*0b459c2cSDavid du Colombier }
888*0b459c2cSDavid du Colombier
889*0b459c2cSDavid du Colombier /* If the buffers differ, the files differ. */
890*0b459c2cSDavid du Colombier if (filevec[0].buffered_chars != filevec[1].buffered_chars
891*0b459c2cSDavid du Colombier || (filevec[0].buffered_chars != 0
892*0b459c2cSDavid du Colombier && memcmp (filevec[0].buffer,
893*0b459c2cSDavid du Colombier filevec[1].buffer,
894*0b459c2cSDavid du Colombier filevec[0].buffered_chars) != 0))
895*0b459c2cSDavid du Colombier {
896*0b459c2cSDavid du Colombier changes = 1;
897*0b459c2cSDavid du Colombier break;
898*0b459c2cSDavid du Colombier }
899*0b459c2cSDavid du Colombier
900*0b459c2cSDavid du Colombier /* If we reach end of file, the files are the same. */
901*0b459c2cSDavid du Colombier if (filevec[0].buffered_chars != buffer_size)
902*0b459c2cSDavid du Colombier {
903*0b459c2cSDavid du Colombier changes = 0;
904*0b459c2cSDavid du Colombier break;
905*0b459c2cSDavid du Colombier }
906*0b459c2cSDavid du Colombier }
907*0b459c2cSDavid du Colombier }
908*0b459c2cSDavid du Colombier
909*0b459c2cSDavid du Colombier briefly_report (changes, filevec);
910*0b459c2cSDavid du Colombier }
911*0b459c2cSDavid du Colombier else
912*0b459c2cSDavid du Colombier {
913*0b459c2cSDavid du Colombier /* Allocate vectors for the results of comparison:
914*0b459c2cSDavid du Colombier a flag for each line of each file, saying whether that line
915*0b459c2cSDavid du Colombier is an insertion or deletion.
916*0b459c2cSDavid du Colombier Allocate an extra element, always zero, at each end of each vector. */
917*0b459c2cSDavid du Colombier
918*0b459c2cSDavid du Colombier size_t s = filevec[0].buffered_lines + filevec[1].buffered_lines + 4;
919*0b459c2cSDavid du Colombier filevec[0].changed_flag = xmalloc (s);
920*0b459c2cSDavid du Colombier bzero (filevec[0].changed_flag, s);
921*0b459c2cSDavid du Colombier filevec[0].changed_flag++;
922*0b459c2cSDavid du Colombier filevec[1].changed_flag = filevec[0].changed_flag
923*0b459c2cSDavid du Colombier + filevec[0].buffered_lines + 2;
924*0b459c2cSDavid du Colombier
925*0b459c2cSDavid du Colombier /* Some lines are obviously insertions or deletions
926*0b459c2cSDavid du Colombier because they don't match anything. Detect them now, and
927*0b459c2cSDavid du Colombier avoid even thinking about them in the main comparison algorithm. */
928*0b459c2cSDavid du Colombier
929*0b459c2cSDavid du Colombier discard_confusing_lines (filevec);
930*0b459c2cSDavid du Colombier
931*0b459c2cSDavid du Colombier /* Now do the main comparison algorithm, considering just the
932*0b459c2cSDavid du Colombier undiscarded lines. */
933*0b459c2cSDavid du Colombier
934*0b459c2cSDavid du Colombier xvec = filevec[0].undiscarded;
935*0b459c2cSDavid du Colombier yvec = filevec[1].undiscarded;
936*0b459c2cSDavid du Colombier diags = filevec[0].nondiscarded_lines + filevec[1].nondiscarded_lines + 3;
937*0b459c2cSDavid du Colombier fdiag = (int *) xmalloc (diags * (2 * sizeof (int)));
938*0b459c2cSDavid du Colombier bdiag = fdiag + diags;
939*0b459c2cSDavid du Colombier fdiag += filevec[1].nondiscarded_lines + 1;
940*0b459c2cSDavid du Colombier bdiag += filevec[1].nondiscarded_lines + 1;
941*0b459c2cSDavid du Colombier
942*0b459c2cSDavid du Colombier /* Set TOO_EXPENSIVE to be approximate square root of input size,
943*0b459c2cSDavid du Colombier bounded below by 256. */
944*0b459c2cSDavid du Colombier too_expensive = 1;
945*0b459c2cSDavid du Colombier for (i = filevec[0].nondiscarded_lines + filevec[1].nondiscarded_lines;
946*0b459c2cSDavid du Colombier i != 0; i >>= 2)
947*0b459c2cSDavid du Colombier too_expensive <<= 1;
948*0b459c2cSDavid du Colombier too_expensive = max (256, too_expensive);
949*0b459c2cSDavid du Colombier
950*0b459c2cSDavid du Colombier files[0] = filevec[0];
951*0b459c2cSDavid du Colombier files[1] = filevec[1];
952*0b459c2cSDavid du Colombier
953*0b459c2cSDavid du Colombier compareseq (0, filevec[0].nondiscarded_lines,
954*0b459c2cSDavid du Colombier 0, filevec[1].nondiscarded_lines, no_discards);
955*0b459c2cSDavid du Colombier
956*0b459c2cSDavid du Colombier free (fdiag - (filevec[1].nondiscarded_lines + 1));
957*0b459c2cSDavid du Colombier
958*0b459c2cSDavid du Colombier /* Modify the results slightly to make them prettier
959*0b459c2cSDavid du Colombier in cases where that can validly be done. */
960*0b459c2cSDavid du Colombier
961*0b459c2cSDavid du Colombier shift_boundaries (filevec);
962*0b459c2cSDavid du Colombier
963*0b459c2cSDavid du Colombier /* Get the results of comparison in the form of a chain
964*0b459c2cSDavid du Colombier of `struct change's -- an edit script. */
965*0b459c2cSDavid du Colombier
966*0b459c2cSDavid du Colombier if (output_style == OUTPUT_ED)
967*0b459c2cSDavid du Colombier script = build_reverse_script (filevec);
968*0b459c2cSDavid du Colombier else
969*0b459c2cSDavid du Colombier script = build_script (filevec);
970*0b459c2cSDavid du Colombier
971*0b459c2cSDavid du Colombier /* Set CHANGES if we had any diffs.
972*0b459c2cSDavid du Colombier If some changes are ignored, we must scan the script to decide. */
973*0b459c2cSDavid du Colombier if (ignore_blank_lines_flag || ignore_regexp_list)
974*0b459c2cSDavid du Colombier {
975*0b459c2cSDavid du Colombier struct change *next = script;
976*0b459c2cSDavid du Colombier changes = 0;
977*0b459c2cSDavid du Colombier
978*0b459c2cSDavid du Colombier while (next && changes == 0)
979*0b459c2cSDavid du Colombier {
980*0b459c2cSDavid du Colombier struct change *this, *end;
981*0b459c2cSDavid du Colombier int first0, last0, first1, last1, deletes, inserts;
982*0b459c2cSDavid du Colombier
983*0b459c2cSDavid du Colombier /* Find a set of changes that belong together. */
984*0b459c2cSDavid du Colombier this = next;
985*0b459c2cSDavid du Colombier end = find_change (next);
986*0b459c2cSDavid du Colombier
987*0b459c2cSDavid du Colombier /* Disconnect them from the rest of the changes, making them
988*0b459c2cSDavid du Colombier a hunk, and remember the rest for next iteration. */
989*0b459c2cSDavid du Colombier next = end->link;
990*0b459c2cSDavid du Colombier end->link = 0;
991*0b459c2cSDavid du Colombier
992*0b459c2cSDavid du Colombier /* Determine whether this hunk is really a difference. */
993*0b459c2cSDavid du Colombier analyze_hunk (this, &first0, &last0, &first1, &last1,
994*0b459c2cSDavid du Colombier &deletes, &inserts);
995*0b459c2cSDavid du Colombier
996*0b459c2cSDavid du Colombier /* Reconnect the script so it will all be freed properly. */
997*0b459c2cSDavid du Colombier end->link = next;
998*0b459c2cSDavid du Colombier
999*0b459c2cSDavid du Colombier if (deletes || inserts)
1000*0b459c2cSDavid du Colombier changes = 1;
1001*0b459c2cSDavid du Colombier }
1002*0b459c2cSDavid du Colombier }
1003*0b459c2cSDavid du Colombier else
1004*0b459c2cSDavid du Colombier changes = (script != 0);
1005*0b459c2cSDavid du Colombier
1006*0b459c2cSDavid du Colombier if (no_details_flag)
1007*0b459c2cSDavid du Colombier briefly_report (changes, filevec);
1008*0b459c2cSDavid du Colombier else
1009*0b459c2cSDavid du Colombier {
1010*0b459c2cSDavid du Colombier if (changes || ! no_diff_means_no_output)
1011*0b459c2cSDavid du Colombier {
1012*0b459c2cSDavid du Colombier /* Record info for starting up output,
1013*0b459c2cSDavid du Colombier to be used if and when we have some output to print. */
1014*0b459c2cSDavid du Colombier setup_output (files[0].name, files[1].name, depth);
1015*0b459c2cSDavid du Colombier
1016*0b459c2cSDavid du Colombier switch (output_style)
1017*0b459c2cSDavid du Colombier {
1018*0b459c2cSDavid du Colombier case OUTPUT_CONTEXT:
1019*0b459c2cSDavid du Colombier print_context_script (script, 0);
1020*0b459c2cSDavid du Colombier break;
1021*0b459c2cSDavid du Colombier
1022*0b459c2cSDavid du Colombier case OUTPUT_UNIFIED:
1023*0b459c2cSDavid du Colombier print_context_script (script, 1);
1024*0b459c2cSDavid du Colombier break;
1025*0b459c2cSDavid du Colombier
1026*0b459c2cSDavid du Colombier case OUTPUT_ED:
1027*0b459c2cSDavid du Colombier print_ed_script (script);
1028*0b459c2cSDavid du Colombier break;
1029*0b459c2cSDavid du Colombier
1030*0b459c2cSDavid du Colombier case OUTPUT_FORWARD_ED:
1031*0b459c2cSDavid du Colombier pr_forward_ed_script (script);
1032*0b459c2cSDavid du Colombier break;
1033*0b459c2cSDavid du Colombier
1034*0b459c2cSDavid du Colombier case OUTPUT_RCS:
1035*0b459c2cSDavid du Colombier print_rcs_script (script);
1036*0b459c2cSDavid du Colombier break;
1037*0b459c2cSDavid du Colombier
1038*0b459c2cSDavid du Colombier case OUTPUT_NORMAL:
1039*0b459c2cSDavid du Colombier print_normal_script (script);
1040*0b459c2cSDavid du Colombier break;
1041*0b459c2cSDavid du Colombier
1042*0b459c2cSDavid du Colombier case OUTPUT_IFDEF:
1043*0b459c2cSDavid du Colombier print_ifdef_script (script);
1044*0b459c2cSDavid du Colombier break;
1045*0b459c2cSDavid du Colombier
1046*0b459c2cSDavid du Colombier case OUTPUT_SDIFF:
1047*0b459c2cSDavid du Colombier print_sdiff_script (script);
1048*0b459c2cSDavid du Colombier }
1049*0b459c2cSDavid du Colombier
1050*0b459c2cSDavid du Colombier finish_output ();
1051*0b459c2cSDavid du Colombier }
1052*0b459c2cSDavid du Colombier }
1053*0b459c2cSDavid du Colombier
1054*0b459c2cSDavid du Colombier free (filevec[0].undiscarded);
1055*0b459c2cSDavid du Colombier
1056*0b459c2cSDavid du Colombier free (filevec[0].changed_flag - 1);
1057*0b459c2cSDavid du Colombier
1058*0b459c2cSDavid du Colombier for (i = 1; i >= 0; --i)
1059*0b459c2cSDavid du Colombier free (filevec[i].equivs);
1060*0b459c2cSDavid du Colombier
1061*0b459c2cSDavid du Colombier for (i = 0; i < 2; ++i)
1062*0b459c2cSDavid du Colombier free (filevec[i].linbuf + filevec[i].linbuf_base);
1063*0b459c2cSDavid du Colombier
1064*0b459c2cSDavid du Colombier for (e = script; e; e = p)
1065*0b459c2cSDavid du Colombier {
1066*0b459c2cSDavid du Colombier p = e->link;
1067*0b459c2cSDavid du Colombier free (e);
1068*0b459c2cSDavid du Colombier }
1069*0b459c2cSDavid du Colombier
1070*0b459c2cSDavid du Colombier if (! ROBUST_OUTPUT_STYLE (output_style))
1071*0b459c2cSDavid du Colombier for (i = 0; i < 2; ++i)
1072*0b459c2cSDavid du Colombier if (filevec[i].missing_newline)
1073*0b459c2cSDavid du Colombier {
1074*0b459c2cSDavid du Colombier error ("No newline at end of file %s", filevec[i].name, "");
1075*0b459c2cSDavid du Colombier changes = 2;
1076*0b459c2cSDavid du Colombier }
1077*0b459c2cSDavid du Colombier }
1078*0b459c2cSDavid du Colombier
1079*0b459c2cSDavid du Colombier if (filevec[0].buffer != filevec[1].buffer)
1080*0b459c2cSDavid du Colombier free (filevec[0].buffer);
1081*0b459c2cSDavid du Colombier free (filevec[1].buffer);
1082*0b459c2cSDavid du Colombier
1083*0b459c2cSDavid du Colombier return changes;
1084*0b459c2cSDavid du Colombier }
1085