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| /*
** Copyright (c) 2007 D. Richard Hipp
**
** This program is free software; you can redistribute it and/or
** modify it under the terms of the GNU General Public
** License version 2 as published by the Free Software Foundation.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
** General Public License for more details.
**
** You should have received a copy of the GNU General Public
** License along with this library; if not, write to the
** Free Software Foundation, Inc., 59 Temple Place - Suite 330,
** Boston, MA 02111-1307, USA.
**
** Author contact information:
** drh@hwaci.com
** http://www.hwaci.com/drh/
**
*******************************************************************************
**
** This file contains code used to compute a "diff" between two
** text files.
*/
#include "config.h"
#include "diff.h"
#include <assert.h>
#if 0
#define DEBUG(X) X
#else
#define DEBUG(X)
#endif
/*
** Information about each line of a file being diffed.
**
** The lower 20 bits of the hash are the length of the
** line. If any line is longer than 1048575 characters,
** the file is considered binary.
*/
typedef struct DLine DLine;
struct DLine {
const char *z; /* The text of the line */
unsigned int h; /* Hash of the line */
unsigned int iNext; /* Index+1 of next line with same the same hash */
/* an array of DLine elements services two purposes. The fields
** above are one per line of input text. But each entry is also
** a bucket in a hash table. */
unsigned int iHash; /* First entry+1 in the hash array */
};
/*
** Maximum length of a line in a text file. (8192)
*/
#define LENGTH_MASK_SZ 13
#define LENGTH_MASK ((1<<LENGTH_MASK_SZ)-1)
/*
** A context for running a diff.
*/
typedef struct DContext DContext;
struct DContext {
int *aEdit; /* Array of copy/delete/insert triples */
int nEdit; /* Number of integers (3x num of triples) in aEdit[] */
int nEditAlloc; /* Space allocated for aEdit[] */
DLine *aFrom; /* File on left side of the diff */
int nFrom; /* Number of lines in aFrom[] */
DLine *aTo; /* File on right side of the diff */
int nTo; /* Number of lines in aTo[] */
};
/*
** Return an array of DLine objects containing a pointer to the
** start of each line and a hash of that line. The lower
** bits of the hash store the length of each line.
**
** Trailing whitespace is removed from each line.
**
** Return 0 if the file is binary or contains a line that is
** too long.
*/
static DLine *break_into_lines(char *z, int *pnLine){
int nLine, i, j, k, x;
unsigned int h, h2;
DLine *a;
/* Count the number of lines. Allocate space to hold
** the returned array.
*/
for(i=j=0, nLine=1; z[i]; i++, j++){
int c = z[i];
if( c==0 ){
return 0;
}
if( c=='\n' && z[i+1]!=0 ){
nLine++;
if( j>LENGTH_MASK ){
return 0;
}
j = 0;
}
}
if( j>LENGTH_MASK ){
return 0;
}
a = malloc( nLine*sizeof(a[0]) );
if( a==0 ) fossil_panic("out of memory");
memset(a, 0, nLine*sizeof(a[0]) );
/* Fill in the array */
for(i=0; i<nLine; i++){
a[i].z = z;
for(j=0; z[j] && z[j]!='\n'; j++){}
for(k=j; k>0 && isspace(z[k-1]); k--){}
for(h=0, x=0; x<k; x++){
h = h ^ (h<<2) ^ z[x];
}
a[i].h = h = (h<<LENGTH_MASK_SZ) | k;;
h2 = h % nLine;
a[i].iNext = a[h2].iHash;
a[h2].iHash = i+1;
z += j+1;
}
/* Return results */
*pnLine = nLine;
return a;
}
/*
** Return true if two DLine elements are identical.
*/
static int same_dline(DLine *pA, DLine *pB){
return pA->h==pB->h && memcmp(pA->z,pB->z,pA->h & LENGTH_MASK)==0;
}
/*
** Append a single line of "diff" output to pOut.
*/
static void appendDiffLine(Blob *pOut, char *zPrefix, DLine *pLine){
blob_append(pOut, zPrefix, 1);
blob_append(pOut, pLine->z, pLine->h & LENGTH_MASK);
blob_append(pOut, "\n", 1);
}
/*
** Expand the size of aEdit[] array to hold nEdit elements.
*/
static void expandEdit(DContext *p, int nEdit){
int *a;
a = realloc(p->aEdit, nEdit*sizeof(int));
if( a==0 ){
free( p->aEdit );
p->nEdit = 0;
nEdit = 0;
}
p->aEdit = a;
p->nEditAlloc = nEdit;
}
/*
** Append a new COPY/DELETE/INSERT triple.
*/
static void appendTriple(DContext *p, int nCopy, int nDel, int nIns){
/* printf("APPEND %d/%d/%d\n", nCopy, nDel, nIns); */
if( p->nEdit>=3 ){
if( p->aEdit[p->nEdit-1]==0 ){
if( p->aEdit[p->nEdit-2]==0 ){
p->aEdit[p->nEdit-3] += nCopy;
p->aEdit[p->nEdit-2] += nDel;
p->aEdit[p->nEdit-1] += nIns;
return;
}
if( nCopy==0 ){
p->aEdit[p->nEdit-2] += nDel;
p->aEdit[p->nEdit-1] += nIns;
return;
}
}
if( nCopy==0 && nDel==0 ){
p->aEdit[p->nEdit-1] += nIns;
return;
}
}
if( p->nEdit+3>p->nEditAlloc ){
expandEdit(p, p->nEdit*2 + 15);
if( p->aEdit==0 ) return;
}
p->aEdit[p->nEdit++] = nCopy;
p->aEdit[p->nEdit++] = nDel;
p->aEdit[p->nEdit++] = nIns;
}
/*
** Given a diff context in which the aEdit[] array has been filled
** in, compute a context diff into pOut.
*/
static void contextDiff(DContext *p, Blob *pOut, int nContext){
DLine *A; /* Left side of the diff */
DLine *B; /* Right side of the diff */
int a = 0; /* Index of next line in A[] */
int b = 0; /* Index of next line in B[] */
int *R; /* Array of COPY/DELETE/INSERT triples */
int r; /* Index into R[] */
int nr; /* Number of COPY/DELETE/INSERT triples to process */
int mxr; /* Maximum value for r */
int na, nb; /* Number of lines shown from A and B */
int i, j; /* Loop counters */
int m; /* Number of lines to output */
int skip; /* Number of lines to skip */
A = p->aFrom;
B = p->aTo;
R = p->aEdit;
mxr = p->nEdit;
if( mxr>2 && R[mxr-1]==0 && R[mxr-2]==0 ){ mxr -= 3; }
for(r=0; r<mxr; r += 3*nr){
/* Figure out how many triples to show in a single block */
for(nr=1; R[r+nr*3]>0 && R[r+nr*3]<nContext*2; nr++){}
DEBUG( printf("r=%d nr=%d\n", r, nr); )
/* For the current block comprising nr triples, figure out
** how many lines of A and B are to be displayed
*/
if( R[r]>nContext ){
na = nb = nContext;
skip = R[r] - nContext;
}else{
na = nb = R[r];
skip = 0;
}
for(i=0; i<nr; i++){
na += R[r+i*3+1];
nb += R[r+i*3+2];
}
if( R[r+nr*3]>nContext ){
na += nContext;
nb += nContext;
}else{
na += R[r+nr*3];
nb += R[r+nr*3];
}
for(i=1; i<nr; i++){
na += R[r+i*3];
nb += R[r+i*3];
}
blob_appendf(pOut,"@@ -%d,%d +%d,%d @@\n", a+skip+1, na, b+skip+1, nb);
/* Show the initial common area */
a += skip;
b += skip;
m = R[r] - skip;
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &A[a+j]);
}
a += m;
b += m;
/* Show the differences */
for(i=0; i<nr; i++){
m = R[r+i*3+1];
for(j=0; j<m; j++){
appendDiffLine(pOut, "-", &A[a+j]);
}
a += m;
m = R[r+i*3+2];
for(j=0; j<m; j++){
appendDiffLine(pOut, "+", &B[b+j]);
}
b += m;
if( i<nr-1 ){
m = R[r+i*3+3];
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &B[b+j]);
}
b += m;
a += m;
}
}
/* Show the final common area */
assert( nr==i );
m = R[r+nr*3];
if( m>nContext ) m = nContext;
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &B[b+j]);
}
}
}
/*
** Compare two blocks of text on lines iS1 through iE1-1 of the aFrom[]
** file and lines iS2 through iE2-1 of the aTo[] file. Locate a sequence
** of lines in these two blocks that are exactly the same. Return
** the bounds of the matching sequence.
*/
static void longestCommonSequence(
DContext *p,
int iS1, int iE1,
int iS2, int iE2,
int *piSX, int *piEX,
int *piSY, int *piEY
){
int bestScore = -1000000000;
int i, j;
int iSX, iSY, iEX, iEY;
int score, skew, dist, mid;
*piSX = iS1;
*piEX = iS1;
*piSY = iS2;
*piEY = iS2;
mid = (iE1 + iS1)/2;
for(i=iS1; i<iE1; i++){
int limit = 0;
j = p->aTo[p->aFrom[i].h % p->nTo].iHash;
while( j>0
&& (j-1<iS2 || j>=iE2 || !same_dline(&p->aFrom[i], &p->aTo[j-1]))
){
if( limit++ > 10 ){
j = 0;
break;
}
j = p->aTo[j-1].iNext;
}
if( j==0 ) continue;
iSX = i;
iSY = j-1;
while( iSX>iS1 && iSY>iS2 && same_dline(&p->aFrom[iSX-1],&p->aTo[iSY-1]) ){
iSX--;
iSY--;
}
iEX = i+1;
iEY = j;
while( iEX<iE1 && iEY<iE2 && same_dline(&p->aFrom[iEX],&p->aTo[iEY]) ){
iEX++;
iEY++;
}
skew = (iSX-iS1) - (iSY-iS2);
if( skew<0 ) skew = -skew;
dist = (iSX+iEX)/2 - mid;
if( dist<0 ) dist = -dist;
score = (iEX - iSX) - 0.05*skew - 0.05*dist;
if( score>bestScore ){
bestScore = score;
*piSX = iSX;
*piSY = iSY;
*piEX = iEX;
*piEY = iEY;
}
}
/* printf("LCS(%d..%d/%d..%d) = %d..%d/%d..%d\n",
iS1, iE1, iS2, iE2, *piSX, *piEX, *piSY, *piEY); */
}
/*
** Do a single step in the difference. Compute a sequence of
** copy/delete/insert steps that will convert lines iS1 through iE1-1 of
** the input into lines iS2 through iE2-1 of the output and write
** that sequence into the difference context.
*/
static void diff_step(DContext *p, int iS1, int iE1, int iS2, int iE2){
int iSX, iEX, iSY, iEY;
if( iE1<=iS1 ){
if( iE2>iS2 ){
appendTriple(p, 0, 0, iE2-iS2);
}
return;
}
if( iE2<=iS2 ){
appendTriple(p, 0, iE1-iS1, 0);
return;
}
/* Find the longest matching segment between the two sequences */
longestCommonSequence(p, iS1, iE1, iS2, iE2, &iSX, &iEX, &iSY, &iEY);
if( iEX>iSX ){
/* Recursively diff either side of the matching segment */
diff_step(p, iS1, iSX, iS2, iSY);
if( iEX>iSX ){
appendTriple(p, iEX - iSX, 0, 0);
}
diff_step(p, iEX, iE1, iEY, iE2);
}else{
appendTriple(p, 0, iE1-iS1, iE2-iS2);
}
}
/*
** Generate a report of the differences between files pA and pB.
** If pOut is not NULL then a unified diff is appended there. It
** is assumed that pOut has already been initialized. If pOut is
** NULL, then a pointer to an array of integers is returned.
** The integers come in triples. For each triple,
** the elements are the number of lines copied, the number of
** lines deleted, and the number of lines inserted. The vector
** is terminated by a triple of all zeros.
**
** This diff utility does not work on binary files. If a binary
** file is encountered, 0 is returned and pOut is written with
** text "cannot compute difference between binary files".
*/
int *text_diff(
Blob *pA_Blob, /* FROM file */
Blob *pB_Blob, /* TO file */
Blob *pOut, /* Write unified diff here if not NULL */
int nContext /* Amount of context to unified diff */
){
DContext c;
int mnE, iS, iE1, iE2;
memset(&c, 0, sizeof(c));
c.aFrom = break_into_lines(blob_str(pA_Blob), &c.nFrom);
c.aTo = break_into_lines(blob_str(pB_Blob), &c.nTo);
if( c.aFrom==0 || c.aTo==0 ){
free(c.aFrom);
free(c.aTo);
if( pOut ){
blob_appendf(pOut, "cannot compute difference between binary files\n");
}
return 0;
}
/* Carve off the common header and footer */
iE1 = c.nFrom;
iE2 = c.nTo;
while( iE1>0 && iE2>0 && same_dline(&c.aFrom[iE1-1], &c.aTo[iE2-1]) ){
iE1--;
iE2--;
}
mnE = iE1<iE2 ? iE1 : iE2;
for(iS=0; iS<mnE && same_dline(&c.aFrom[iS],&c.aTo[iS]); iS++){}
/* do the difference */
if( iS>0 ){
appendTriple(&c, iS, 0, 0);
}
diff_step(&c, iS, iE1, iS, iE2);
if( iE1<c.nFrom ){
appendTriple(&c, c.nFrom - iE1, 0, 0);
}
expandEdit(&c, c.nEdit+3);
if( c.aEdit ){
c.aEdit[c.nEdit++] = 0;
c.aEdit[c.nEdit++] = 0;
c.aEdit[c.nEdit++] = 0;
}
if( pOut ){
/* Compute a context diff if requested */
contextDiff(&c, pOut, nContext);
free(c.aFrom);
free(c.aTo);
free(c.aEdit);
return 0;
}else{
/* If a context diff is not requested, then return the
** array of COPY/DELETE/INSERT triples after terminating the
** array with a triple of all zeros.
*/
free(c.aFrom);
free(c.aTo);
return c.aEdit;
}
}
#if 0 /********** Disabled and replaced by code above ************/
/*
** Generate a report of the differences between files pA and pB.
** If pOut is not NULL then a unified diff is appended there. It
** is assumed that pOut has already been initialized. If pOut is
** NULL, then a pointer to an array of integers is returned.
** The integers come in triples. For each triple,
** the elements are the number of lines copied, the number of
** lines deleted, and the number of lines inserted. The vector
** is terminated by a triple of all zeros.
**
** This diff utility does not work on binary files. If a binary
** file is encountered, 0 is returned and pOut is written with
** text "cannot compute difference between binary files".
**
****************************************************************************
**
** The core algorithm is a variation on the classic Wagner
** minimum edit distance with enhancements to reduce the runtime
** to be almost linear in the common case where the two files
** have a lot in common. For additional information see
** Eugene W. Myers, "An O(ND) Difference Algorithm And Its
** Variations"
**
** Consider comparing strings A and B. A=abcabba and B=cbabac
** We construct a "Wagner" matrix W with A along the X axis and
** B along the Y axis:
**
** c 6 *
** a 5 *
** b 4 * *
** a 3 *
** b 2 *
** B c 1 *
** 0 * * *
** 0 1 2 3 4 5 6 7
** a b c a b b a
** A
**
** (Note: we draw this Wagner matrix with the origin at the lower
** left whereas Myers uses the origin at the upper left. Otherwise,
** they are the same.)
**
** Let Y be the maximum y value or the number of characters in B.
** 6 in this example. X is the maximum x value or the number of
** elements in A. Here 7.
**
** Our goal is to find a path from (0,0) to (X,Y). The path can
** use horizontal, vertical, or diagonal steps. A diagonal from
** (x-1,y-1) to (x,y) is only allowed if A[x]==B[y]. A vertical
** steps corresponds to an insertion. A horizontal step corresponds
** to a deletion. We want to find the path with the fewest
** horizontal and vertical steps.
**
** Diagonal k consists of all points such that x-y==k. Diagonal
** zero begins at the origin. Diagonal 1 begins at (1,0).
** Diagonal -1 begins at (0,1). All diagonals move up and to the
** right at 45 degrees. Diagonal number increase from upper left
** to lower right.
**
** Myers matrix M is a lower right triangular matrix with indices d
** along the bottom and i vertically:
**
**
** i=4 | +4 \
** 3 | +3 +2 |
** 2 | +2 +1 0 |- k values. k = 2*i-d
** 1 | +1 0 -1 -2 |
** 0 | 0 -1 -2 -3 -4 /
** ---------------
** 0 1 2 3 4 = d
**
** Each element of the Myers matrix corresponds to a diagonal.
** The diagonal is k=2*i-d. The diagonal values are shown
** in the template above.
**
** Each entry in M represents the end-point on a path from (0,0).
** The end-point is on diagonal k. The value stored in M is
** q=x+y where (x,y) is the terminus of the path. A path
** to M[d][i] will come through either M[d-1][i-1] or
** though M[d-1][i], whichever holds the largest value of q.
** If both elements hold the same value, the path comes
** through M[d-1][i-1].
**
** The value of d is the number of insertions and deletions
** made so far on the path. M grows progressively. So the
** size of the M matrix is proportional to d*d. For the
** common case where A and B are similar, d will be small
** compared to X and Y so little memory is required. The
** original Wagner algorithm requires X*Y memory, which for
** larger files (100K lines) is more memory than we have at
** hand.
*/
int *text_diff(
Blob *pA_Blob, /* FROM file */
Blob *pB_Blob, /* TO file */
Blob *pOut, /* Write unified diff here if not NULL */
int nContext /* Amount of context to unified diff */
){
DLine *A, *B; /* Files being compared */
int X, Y; /* Number of elements in A and B */
int x, y; /* Indices: A[x] and B[y] */
int szM = 0; /* Number of rows and columns in M */
int **M = 0; /* Myers matrix */
int i, d; /* Indices on M. M[d][i] */
int k, q; /* Diagonal number and distinct from (0,0) */
int K, D; /* The diagonal and d for the final solution */
int *R = 0; /* Result vector */
int r; /* Loop variables */
int go = 1; /* Outer loop control */
int MAX; /* Largest of X and Y */
/* Break the two files being diffed into individual lines.
** Compute hashes on each line for fast comparison.
*/
A = break_into_lines(blob_str(pA_Blob), &X);
B = break_into_lines(blob_str(pB_Blob), &Y);
if( A==0 || B==0 ){
free(A);
free(B);
if( pOut ){
blob_appendf(pOut, "cannot compute difference between binary files\n");
}
return 0;
}
szM = 0;
MAX = X>Y ? X : Y;
if( MAX>2000 ) MAX = 2000;
for(d=0; go && d<=MAX; d++){
if( szM<d+1 ){
szM += szM + 10;
M = realloc(M, sizeof(M[0])*szM);
if( M==0 ){
fossil_panic("out of memory");
}
}
M[d] = malloc( sizeof(M[d][0])*(d+1) );
if( M[d]==0 ){
fossil_panic("out of memory");
}
for(i=0; i<=d; i++){
k = 2*i - d;
if( d==0 ){
q = 0;
}else if( i==0 ){
q = M[d-1][0];
}else if( i<d-1 && M[d-1][i-1] < M[d-1][i] ){
q = M[d-1][i];
}else{
q = M[d-1][i-1];
}
x = (k + q + 1)/2;
y = x - k;
if( x<0 || x>X || y<0 || y>Y ){
x = y = 0;
}else{
while( x<X && y<Y && same_dline(&A[x],&B[y]) ){ x++; y++; }
}
M[d][i] = x + y;
DEBUG( printf("M[%d][%i] = %d k=%d (%d,%d)\n", d, i, x+y, k, x, y); )
if( x==X && y==Y ){
go = 0;
break;
}
}
}
if( d>MAX ){
R = malloc( sizeof(R[0])*7 );
R[0] = 0;
R[1] = X;
R[2] = Y;
R[3] = 0;
R[4] = 0;
R[5] = 0;
R[6] = 0;
}else{
/* Reuse M[] as follows:
**
** M[d][1] = 1 if a line is inserted or 0 if a line is deleted.
** M[d][0] = number of lines copied after the ins or del above.
**
*/
D = d - 1;
K = X - Y;
for(d=D, i=(K+D)/2; d>0; d--){
DEBUG( printf("d=%d i=%d\n", d, i); )
if( i==d || (i>0 && M[d-1][i-1] > M[d-1][i]) ){
M[d][0] = M[d][i] - M[d-1][i-1] - 1;
M[d][1] = 0;
i--;
}else{
M[d][0] = M[d][i] - M[d-1][i] - 1;
M[d][1] = 1;
}
}
DEBUG(
printf("---------------\nM[0][0] = %5d\n", M[0][0]);
for(d=1; d<=D; d++){
printf("M[%d][0] = %5d M[%d][1] = %d\n",d,M[d][0],d,M[d][1]);
}
)
/* Allocate the output vector
*/
R = malloc( sizeof(R[0])*(D+2)*3 );
if( R==0 ){
fossil_fatal("out of memory");
}
/* Populate the output vector
*/
d = r = 0;
while( d<=D ){
int n;
R[r++] = M[d++][0]/2; /* COPY */
if( d>D ){
R[r++] = 0;
R[r++] = 0;
break;
}
if( M[d][1]==0 ){
n = 1;
while( M[d][0]==0 && d<D && M[d+1][1]==0 ){
d++;
n++;
}
R[r++] = n; /* DELETE */
if( d==D || M[d][0]>0 ){
R[r++] = 0; /* INSERT */
continue;
}
d++;
}else{
R[r++] = 0; /* DELETE */
}
assert( M[d][1]==1 );
n = 1;
while( M[d][0]==0 && d<D && M[d+1][1]==1 ){
d++;
n++;
}
R[r++] = n; /* INSERT */
}
R[r++] = 0;
R[r++] = 0;
R[r++] = 0;
}
/* Free the Myers matrix */
for(d=0; d<=D; d++){
free(M[d]);
}
free(M);
/* If pOut is defined, construct a unified diff into pOut and
** delete R
*/
if( pOut ){
int a = 0; /* Index of next line in A[] */
int b = 0; /* Index of next line in B[] */
int nr; /* Number of COPY/DELETE/INSERT triples to process */
int mxr; /* Maximum value for r */
int na, nb; /* Number of lines shown from A and B */
int i, j; /* Loop counters */
int m; /* Number of lines to output */
int skip; /* Number of lines to skip */
for(mxr=0; R[mxr+1] || R[mxr+2] || R[mxr+3]; mxr += 3){}
for(r=0; r<mxr; r += 3*nr){
/* Figure out how many triples to show in a single block */
for(nr=1; R[r+nr*3]>0 && R[r+nr*3]<nContext*2; nr++){}
DEBUG( printf("r=%d nr=%d\n", r, nr); )
/* For the current block comprising nr triples, figure out
** how many lines of A and B are to be displayed
*/
if( R[r]>nContext ){
na = nb = nContext;
skip = R[r] - nContext;
}else{
na = nb = R[r];
skip = 0;
}
for(i=0; i<nr; i++){
na += R[r+i*3+1];
nb += R[r+i*3+2];
}
if( R[r+nr*3]>nContext ){
na += nContext;
nb += nContext;
}else{
na += R[r+nr*3];
nb += R[r+nr*3];
}
for(i=1; i<nr; i++){
na += R[r+i*3];
nb += R[r+i*3];
}
blob_appendf(pOut,"@@ -%d,%d +%d,%d @@\n", a+skip+1, na, b+skip+1, nb);
/* Show the initial common area */
a += skip;
b += skip;
m = R[r] - skip;
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &A[a+j]);
}
a += m;
b += m;
/* Show the differences */
for(i=0; i<nr; i++){
m = R[r+i*3+1];
for(j=0; j<m; j++){
appendDiffLine(pOut, "-", &A[a+j]);
}
a += m;
m = R[r+i*3+2];
for(j=0; j<m; j++){
appendDiffLine(pOut, "+", &B[b+j]);
}
b += m;
if( i<nr-1 ){
m = R[r+i*3+3];
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &B[b+j]);
}
b += m;
a += m;
}
}
/* Show the final common area */
assert( nr==i );
m = R[r+nr*3];
if( m>nContext ) m = nContext;
for(j=0; j<m; j++){
appendDiffLine(pOut, " ", &B[b+j]);
}
}
free(R);
R = 0;
}
/* We no longer need the A[] and B[] vectors */
free(A);
free(B);
/* Return the result */
return R;
}
#endif /***************** End of the Wagner/Myers algorithm ************/
/*
** COMMAND: test-rawdiff
*/
void test_rawdiff_cmd(void){
Blob a, b;
int r;
int i;
int *R;
if( g.argc<4 ) usage("FILE1 FILE2 ...");
blob_read_from_file(&a, g.argv[2]);
for(i=3; i<g.argc; i++){
if( i>3 ) printf("-------------------------------\n");
blob_read_from_file(&b, g.argv[i]);
R = text_diff(&a, &b, 0, 0);
for(r=0; R[r] || R[r+1] || R[r+2]; r += 3){
printf(" copy %4d delete %4d insert %4d\n", R[r], R[r+1], R[r+2]);
}
/* free(R); */
blob_reset(&b);
}
}
/*
** COMMAND: test-udiff
*/
void test_udiff_cmd(void){
Blob a, b, out;
if( g.argc!=4 ) usage("FILE1 FILE2");
blob_read_from_file(&a, g.argv[2]);
blob_read_from_file(&b, g.argv[3]);
blob_zero(&out);
text_diff(&a, &b, &out, 3);
blob_write_to_file(&out, "-");
}
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