/* diff.c - compare files line by line * * Copyright 2014 Sandeep Sharma * Copyright 2014 Ashwini Kumar * * See: http://cm.bell-labs.com/cm/cs/cstr/41.pdf USE_DIFF(NEWTOY(diff, "<2>2(color)(strip-trailing-cr)B(ignore-blank-lines)d(minimal)b(ignore-space-change)ut(expand-tabs)w(ignore-all-space)i(ignore-case)T(initial-tab)s(report-identical-files)q(brief)a(text)L(label)*S(starting-file):N(new-file)r(recursive)U(unified)#<0=3", TOYFLAG_USR|TOYFLAG_BIN|TOYFLAG_ARGFAIL(2))) config DIFF bool "diff" default n help usage: diff [-abBdiNqrTstw] [-L LABEL] [-S FILE] [-U LINES] FILE1 FILE2 -a Treat all files as text -b Ignore changes in the amount of whitespace -B Ignore changes whose lines are all blank -d Try hard to find a smaller set of changes -i Ignore case differences -L Use LABEL instead of the filename in the unified header -N Treat absent files as empty -q Output only whether files differ -r Recurse -S Start with FILE when comparing directories -T Make tabs line up by prefixing a tab when necessary -s Report when two files are the same -t Expand tabs to spaces in output -u Unified diff -U Output LINES lines of context -w Ignore all whitespace --color Colored output --strip-trailing-cr Strip trailing '\r's from input lines */ #define FOR_diff #include "toys.h" GLOBALS( long ct; char *start; struct arg_list *L_list; int dir_num, size, is_binary, status, change, len[2]; int *offset[2]; struct stat st[2]; ) #define MIN(x,y) ((x) < (y) ? (x) : (y)) #define MAX(x,y) ((x) > (y) ? (x) : (y)) #define IS_STDIN(s) ((s)[0] == '-' && !(s)[1]) struct v_vector { unsigned serial:31; unsigned last:1; union { unsigned hash; unsigned p; }; }; struct diff { long a, b, c, d, prev, suff; }; static struct dir_t { char **list; int nr_elm; } dir[2]; struct candidate { int a, b; struct candidate *prev, *next; }; static struct file_t { FILE *fp; int len; } file[2]; enum { SAME, DIFFER, }; enum { empty = 1 << 9, eol = 1 << 10, eof = 1 << 11, space = 1 << 12 }; static int comp(const void *a, const void* b) { int i = ((struct v_vector *)a)->hash - ((struct v_vector *)b)->hash; if (!i) i = ((struct v_vector *)a)->serial - ((struct v_vector *)b)->serial; return i; } static int search (struct candidate **K, int r, int k, int j) { int low = r, upper = k, mid; mid = (low + upper) / 2; while (low <= mid) { if (((struct candidate*)(K[mid]))->b < j && ((struct candidate*)(K[mid + 1]))->b > j) return mid; if (((struct candidate*)(K[mid]))->b < j) low = mid + 1; else if (((struct candidate*)(K[mid]))->b > j) upper = mid - 1; else return -1; mid = (low + upper) / 2; } return -1; } static struct candidate * new_candidate (int i, int j, struct candidate* prev) { struct candidate *c = xzalloc(sizeof(struct candidate)); c->a = i; c->b = j; c->prev = prev; return c; } static void free_candidates(struct candidate *c) { struct candidate *t = c; while ((t = c)) { c = c->next; free(t); } } /* * 1. Search K[r: k] for an element K[s] such that K[s]-> b < j and K[s + 1]->b > j * 2. if found do * 2.a. If K[s + 1]->b > j do K[r] = c; r = s+1 and c = candidate(i, j, K[s]) //we have a candidate * 2.b. if s = k (fence reached move it further) do K[k + 2] = K[k + 1], k++ * 3. if E[p].last true break i.e we have reached at the end of an equiv class * else p = p + 1 //keep traversing the equiv class. * 4. K[r] = c //Save the sucessfully filled k-candidate. */ static void do_merge(struct candidate **K, int *k, int i, struct v_vector *E, int p) { int r = 0, s, j; struct candidate *pr = 0, *c = K[0]; while (1) { j = E[p].serial; s = search(K, r, *k, j); if (s >= 0 && (((struct candidate*)(K[s]))->b < j && ((struct candidate*)(K[s + 1]))->b > j)) { if (((struct candidate*)(K[s + 1]))->b > j) { pr = K[s]; if (r && K[r]) c->next = K[r]; K[r] = c; r = s + 1; c = new_candidate(i , j, pr); } if (s == *k) { K[*k + 2] = K[*k + 1]; *k = *k + 1; break; } } if (E[p].last) break; else p = p + 1; } K[r] = c; } static FILE* read_stdin() { char *tmp_name; int tmpfd = xtempfile("stdin", &tmp_name); unlink(tmp_name); free(tmp_name); xsendfile(0, tmpfd); return fdopen(tmpfd, "r"); } static int read_tok(FILE *fp, off_t *off, int tok) { int t = 0, is_space; tok |= empty; while (!(tok & eol)) { t = fgetc(fp); if (FLAG(strip_trailing_cr) && t == '\r') { int t2 = fgetc(fp); if (t2 == '\n') { t = t2; if (off) (*off)++; } else { ungetc(t2, fp); } } if (off && t != EOF) *off += 1; is_space = isspace(t) || (t == EOF); tok |= (t & (eof + eol)); //set tok eof+eol when t is eof if (t == '\n') tok |= eol; if (toys.optflags & FLAG_i) if (t >= 'A' && t <= 'Z') t = tolower(t); if (toys.optflags & FLAG_w && is_space) continue; if (toys.optflags & FLAG_b) { if (tok & space) { if (is_space) continue; tok &= ~space; } else if (is_space) t = space + ' '; } tok &= ~(empty + 0xff); //remove empty and char too. tok |= t; //add most recent char break; } return tok; } int bcomp(const void *a, const void *b) { struct v_vector *l = (struct v_vector*)a, *r = (struct v_vector*)b; int ret = l->hash - r->hash; if (!ret) { if ((r -1)->last) return 0; else return -1; } return ret; } /* file[0] corresponds file 1 and file[1] correspond file 2. * 1. calc hashes for both the files and store them in vector(v[0], v[1]) * 2. sort file[1] with hash as primary and serial as sec. key * 3. Form the equivalance class of file[1] stored in e vector. It lists all the equivalence * classes of lines in file[1], with e.last = true on the last element of each class. * The elements are ordered by serial within classes. * 4. Form the p vector stored in p_vector. p_vector[i], if non-zero, now points in e vector * to the beginning of the equiv class of lines in file[1] equivalent to line * i in file[0]. * 5. Form the k-candidates as discribed in do_merge. * 6. Create a vector J[i] = j, such that i'th line in file[0] is j'th line of * file[1], i.e J comprises LCS */ static int * create_j_vector() { int tok, i, j, size = 100, k; off_t off; long hash; int *p_vector, *J; struct v_vector *v[2], *e; struct candidate **kcand, *pr; for (i = 0; i < 2; i++) { tok = off = 0; hash = 5831; v[i] = xzalloc(size * sizeof(struct v_vector)); TT.offset[i] = xzalloc(size * sizeof(int)); file[i].len = 0; fseek(file[i].fp, 0, SEEK_SET); while (1) { tok = read_tok(file[i].fp, &off, tok); if (!(tok & empty)) { hash = ((hash << 5) + hash) + (tok & 0xff); continue; } if (size == ++file[i].len) { size = size * 11 / 10; v[i] = xrealloc(v[i], size*sizeof(struct v_vector)); TT.offset[i] = xrealloc(TT.offset[i], size*sizeof(int)); } v[i][file[i].len].hash = hash & INT_MAX; TT.offset[i][file[i].len] = off; if ((tok & eof)) { TT.offset[i][file[i].len] = ++off; break; } hash = 5831; //next line tok = 0; } if (TT.offset[i][file[i].len] - TT.offset[i][file[i].len - 1] == 1) file[i].len--; } for (i = 0; i <= file[1].len; i++) v[1][i].serial = i; qsort(v[1] + 1, file[1].len, sizeof(struct v_vector), comp); e = v[1]; e[0].serial = 0; e[0].last = 1; for ( i = 1; i <= file[1].len; i++) { if ((i == file[1].len) || (v[1][i].hash != v[1][i+1].hash)) e[i].last = 1; else e[i].last = 0; } p_vector = xzalloc((file[0].len + 2) * sizeof(int)); for (i = 1; i <= file[0].len; i++) { void *r = bsearch(&v[0][i], (e + 1), file[1].len, sizeof(e[0]), bcomp); if (r) p_vector[i] = (struct v_vector*)r - e; } for (i = 1; i <= file[0].len; i++) e[i].p = p_vector[i]; free(p_vector); size = 100; kcand = xzalloc(size * sizeof(struct candidate*)); kcand[0] = new_candidate(0 , 0, NULL); kcand[1] = new_candidate(file[0].len+1, file[1].len+1, NULL); //the fence k = 0; //last successfully filled k candidate. for (i = 1; i <= file[0].len; i++) { if (!e[i].p) continue; if ((size - 2) == k) { size = size * 11 / 10; kcand = xrealloc(kcand, (size * sizeof(struct candidate*))); } do_merge(kcand, &k, i, e, e[i].p); } free(v[0]); //no need for v_vector now. free(v[1]); J = xzalloc((file[0].len + 2) * sizeof(int)); for (pr = kcand[k]; pr; pr = pr->prev) J[pr->a] = pr->b; J[file[0].len + 1] = file[1].len+1; //mark boundary for (i = k + 1; i >= 0; i--) free_candidates(kcand[i]); free(kcand); for (i = 1; i <= file[0].len; i++) { // jackpot? if (!J[i]) continue; fseek(file[0].fp, TT.offset[0][i - 1], SEEK_SET); fseek(file[1].fp, TT.offset[1][J[i] - 1], SEEK_SET); for (j = J[i]; i <= file[0].len && J[i] == j; i++, j++) { int tok0 = 0, tok1 = 0; do { tok0 = read_tok(file[0].fp, NULL, tok0); tok1 = read_tok(file[1].fp, NULL, tok1); if (((tok0 ^ tok1) & empty) || ((tok0 & 0xff) != (tok1 & 0xff))) J[i] = 0; } while (!(tok0 & tok1 & empty)); } } return J; } static int *diff(char **files) { size_t i ,j; int s, t; char *bufi, *bufj; TT.is_binary = 0; //loop calls to diff TT.status = SAME; for (i = 0; i < 2; i++) { if (IS_STDIN(files[i])) file[i].fp = read_stdin(); else file[i].fp = fopen(files[i], "r"); if (!file[i].fp){ perror_msg("%s",files[i]); TT.status = 2; return NULL; //return SAME } } s = sizeof(toybuf)/2; bufi = toybuf; bufj = (toybuf + s); fseek(file[0].fp, 0, SEEK_SET); fseek(file[1].fp, 0, SEEK_SET); if (toys.optflags & FLAG_a) return create_j_vector(); while (1) { i = fread(bufi, 1, s, file[0].fp); j = fread(bufj, 1, s, file[1].fp); if (i != j) TT.status = DIFFER; for (t = 0; t < i && !TT.is_binary; t++) if (!bufi[t]) TT.is_binary = 1; for (t = 0; t < j && !TT.is_binary; t++) if (!bufj[t]) TT.is_binary = 1; i = MIN(i, j); for (t = 0; t < i; t++) if (bufi[t] != bufj[t]) TT.status = DIFFER; if (!i || !j) break; } if (TT.is_binary || (TT.status == SAME)) return NULL; return create_j_vector(); } static void print_diff(int a, int b, char c, int *off_set, FILE *fp) { int i, j, cc, cl; char *reset = NULL; if (c != ' ' && (toys.optflags & FLAG_color)) { printf("\033[%dm", c == '+' ? 32 : 31); reset = "\033[0m"; } for (i = a; i <= b; i++) { fseek(fp, off_set[i - 1], SEEK_SET); putchar(c); if (toys.optflags & FLAG_T) putchar('\t'); for (j = 0, cl = 0; j < (off_set[i] - off_set[i - 1]); j++) { cc = fgetc(fp); if (cc == EOF) { printf("%s\n\\ No newline at end of file\n", reset ? reset : ""); return; } if ((cc == '\t') && (toys.optflags & FLAG_t)) do putchar(' '); while (++cl & 7); else { putchar(cc); //xputc has calls to fflush, it hurts performance badly. cl++; } } } if (reset) printf("%s", reset); } static char *concat_file_path(char *path, char *default_path) { char *final_path; if ('/' == path[strlen(path) - 1]) { while (*default_path == '/') ++default_path; final_path = xmprintf("%s%s", path, default_path); } else if (*default_path != '/') final_path = xmprintf("%s/%s", path, default_path); else final_path = xmprintf("%s%s", path, default_path); return final_path; } static int skip(struct dirtree *node) { int len = strlen(toys.optargs[TT.dir_num]), ret = 0; char *tmp = NULL, *ptr, *f_path = dirtree_path(node, NULL); struct stat st; ptr = f_path; ptr += len; if (ptr[0]) { tmp = concat_file_path(toys.optargs[1 - TT.dir_num], ptr); if (tmp && !stat(tmp, &st)) ret = 0; //it is there on other side else ret = 1; //not present on other side. } free(f_path); if (tmp) free(tmp); return ret; //add otherwise } static void add_to_list(struct dirtree *node) { char *full_path; dir[TT.dir_num].list = xrealloc(dir[TT.dir_num].list, (TT.size + 1)*sizeof(char*)); TT.size++; full_path = dirtree_path(node, NULL); dir[TT.dir_num].list[TT.size - 1] = full_path; } static int list_dir (struct dirtree *node) { int ret = 0; if (!dirtree_notdotdot(node)) return 0; if (S_ISDIR(node->st.st_mode) && !node->parent) { //add root dirs. add_to_list(node); return (DIRTREE_RECURSE|DIRTREE_SYMFOLLOW); } if (S_ISDIR(node->st.st_mode) && (toys.optflags & FLAG_r)) { if (!(toys.optflags & FLAG_N)) ret = skip(node); if (!ret) return (DIRTREE_RECURSE|DIRTREE_SYMFOLLOW); else { add_to_list(node); //only at one side. return 0; } } else { add_to_list(node); return S_ISDIR(node->st.st_mode) ? 0 : (DIRTREE_RECURSE|DIRTREE_SYMFOLLOW); } } static int cmp(const void *p1, const void *p2) { return strcmp(* (char * const *)p1, * (char * const *)p2); } // quote and escape filenames that have awkward characters char *quote_filename(char *filename) { char *to = "abfnrtv\"\\", *from = "\a\b\f\n\r\t\v\"\\"; char *result, *s, *t; size_t len = 0; int quote = 0; // calculate memory usage and presence of quotes for (s = filename; *s; s++) { if (*s == '\a' || *s == '\b' || *s == '\f' || *s == '\r' || *s == '\v' || *s == '\n' || *s == '\t' || *s == '"' || *s == '\\') { quote = 1; len += 2; } else if (*s == ' ') { quote = 1; len++; } else if (*s < 0x20 || *s >= 0x80) { quote = 1; len += 4; } else { len++; } } // construct the new string result = xmalloc(len + (quote ? 2 : 0) + 1); t = result; if (quote) *t++ = '"'; for (s = filename; *s; s++) { if (*s == '\a' || *s == '\b' || *s == '\f' || *s == '\r' || *s == '\v' || *s == '\n' || *s == '\t' || *s == '"' || *s == '\\') { *t = '\\'; t[1] = to[strchr(from, *s) - from]; t += 2; } else if (*s < 0x20 || *s >= 0x80) { sprintf(t, "\\%.3o", *s); t += 4; } else { *t++ = *s; } } if (quote) *t++ = '"'; *t = 0; return result; } static void show_label(char *prefix, char *filename, struct stat *sb) { char date[36]; char *quoted_file; quoted_file = quote_filename(filename); printf("%s %s\t%s\n", prefix, quoted_file, format_iso_time(date, sizeof(date), &sb->st_mtim)); free(quoted_file); } static void do_diff(char **files) { long i = 1, size = 1, x = 0, change = 0, ignore_white, start1, end1, start2, end2; struct diff *d; struct arg_list *llist = TT.L_list; int *J; TT.offset[0] = TT.offset[1] = NULL; J = diff(files); if (!J) return; //No need to compare, have to status only d = xzalloc(size *sizeof(struct diff)); do { ignore_white = 0; for (d[x].a = i; d[x].a <= file[0].len; d[x].a++) { if (J[d[x].a] != (J[d[x].a - 1] + 1)) break; else continue; } d[x].c = (J[d[x].a - 1] + 1); for (d[x].b = (d[x].a - 1); d[x].b <= file[0].len; d[x].b++) { if (J[d[x].b + 1]) break; else continue; } d[x].d = (J[d[x].b + 1] - 1); if ((toys.optflags & FLAG_B)) { if (d[x].a <= d[x].b) { if ((TT.offset[0][d[x].b] - TT.offset[0][d[x].a - 1]) == (d[x].b - d[x].a + 1)) ignore_white = 1; } else if (d[x].c <= d[x].d){ if ((TT.offset[1][d[x].d] - TT.offset[1][d[x].c - 1]) == (d[x].d - d[x].c + 1)) ignore_white = 1; } } if ((d[x].a <= d[x].b || d[x].c <= d[x].d) && !ignore_white) change = 1; //is we have diff ? if (!ignore_white) d = xrealloc(d, (x + 2) *sizeof(struct diff)); i = d[x].b + 1; if (i > file[0].len) break; J[d[x].b] = d[x].d; if (!ignore_white) x++; } while (i <= file[0].len); i = x+1; TT.status = change; //update status, may change bcoz of -w etc. if (!(toys.optflags & FLAG_q) && change) { //start of !FLAG_q if (toys.optflags & FLAG_color) printf("\033[1m"); if (toys.optflags & FLAG_L) printf("--- %s\n", llist->arg); else show_label("---", files[0], &(TT).st[0]); if (((toys.optflags & FLAG_L) && !llist->next) || !(toys.optflags & FLAG_L)) show_label("+++", files[1], &(TT).st[1]); else { while (llist->next) llist = llist->next; printf("+++ %s\n", llist->arg); } if (toys.optflags & FLAG_color) printf("\033[0m"); struct diff *t, *ptr1 = d, *ptr2 = d; while (i) { long a,b; if (TT.ct > file[0].len) TT.ct = file[0].len; //trim context to file len. if (ptr1->b < ptr1->a && ptr1->d < ptr1->c) { i--; continue; } //Handle the context stuff a = ptr1->a; b = ptr1->b; b = MIN(file[0].len, b); if (i == x + 1) ptr1->suff = MAX(1,a - TT.ct); else { if ((ptr1 - 1)->prev >= (ptr1->a - TT.ct)) ptr1->suff = (ptr1 - 1)->prev + 1; else ptr1->suff = ptr1->a - TT.ct; } calc_ct: if (i > 1) { if ((ptr2->b + TT.ct) >= (ptr2 + 1)->a) { ptr2++; i--; goto calc_ct; } else ptr2->prev = ptr2->b + TT.ct; } else ptr2->prev = ptr2->b; start1 = (ptr2->prev - ptr1->suff + 1); end1 = (start1 == 1) ? -1 : start1; start2 = MAX(1, ptr1->c - (ptr1->a - ptr1->suff)); end2 = ptr2->prev - ptr2->b + ptr2->d; if (toys.optflags & FLAG_color) printf("\033[36m"); printf("@@ -%ld", start1 ? ptr1->suff: (ptr1->suff -1)); if (end1 != -1) printf(",%ld ", ptr2->prev-ptr1->suff + 1); else putchar(' '); printf("+%ld", (end2 - start2 + 1) ? start2: (start2 -1)); if ((end2 - start2 +1) != 1) printf(",%ld ", (end2 - start2 +1)); else putchar(' '); printf("@@"); if (toys.optflags & FLAG_color) printf("\033[0m"); putchar('\n'); for (t = ptr1; t <= ptr2; t++) { if (t== ptr1) print_diff(t->suff, t->a-1, ' ', TT.offset[0], file[0].fp); print_diff(t->a, t->b, '-', TT.offset[0], file[0].fp); print_diff(t->c, t->d, '+', TT.offset[1], file[1].fp); if (t == ptr2) print_diff(t->b+1, (t)->prev, ' ', TT.offset[0], file[0].fp); else print_diff(t->b+1, (t+1)->a-1, ' ', TT.offset[0], file[0].fp); } ptr2++; ptr1 = ptr2; i--; } //end of while } //End of !FLAG_q free(d); free(J); free(TT.offset[0]); free(TT.offset[1]); } static void show_status(char **files) { switch (TT.status) { case SAME: if (toys.optflags & FLAG_s) printf("Files %s and %s are identical\n",files[0], files[1]); break; case DIFFER: if ((toys.optflags & FLAG_q) || TT.is_binary) printf("Files %s and %s differ\n",files[0], files[1]); break; } } static void create_empty_entry(int l , int r, int j) { struct stat st[2]; char *f[2], *path[2]; int i; if (j > 0 && (toys.optflags & FLAG_N)) { path[0] = concat_file_path(dir[0].list[0], dir[1].list[r] + TT.len[1]); f[0] = "/dev/null"; path[1] = f[1] = dir[1].list[r]; stat(f[1], &st[0]); st[1] = st[0]; } else if (j < 0 && (toys.optflags & FLAG_N)) { path[1] = concat_file_path(dir[1].list[0], dir[0].list[l] + TT.len[0]); f[1] = "/dev/null"; path[0] = f[0] = dir[0].list[l]; stat(f[0], &st[0]); st[1] = st[0]; } if (!j) { for (i = 0; i < 2; i++) { path[i] = f[i] = dir[i].list[!i ? l: r]; stat(f[i], &st[i]); } } if (S_ISDIR(st[0].st_mode) && S_ISDIR(st[1].st_mode)) printf("Common subdirectories: %s and %s\n", path[0], path[1]); else if (!S_ISREG(st[0].st_mode) && !S_ISDIR(st[0].st_mode)) printf("File %s is not a regular file or directory " "and was skipped\n", path[0]); else if (!S_ISREG(st[1].st_mode) && !S_ISDIR(st[1].st_mode)) printf("File %s is not a regular file or directory " "and was skipped\n", path[1]); else if (S_ISDIR(st[0].st_mode) != S_ISDIR(st[1].st_mode)) { if (S_ISDIR(st[0].st_mode)) printf("File %s is a %s while file %s is a" " %s\n", path[0], "directory", path[1], "regular file"); else printf("File %s is a %s while file %s is a" " %s\n", path[0], "regular file", path[1], "directory"); } else { do_diff(f); show_status(path); if (file[0].fp) fclose(file[0].fp); if (file[1].fp) fclose(file[1].fp); } if ((toys.optflags & FLAG_N) && j) { if (j > 0) free(path[0]); else free(path[1]); } } static void diff_dir(int *start) { int l, r, j = 0; l = start[0]; //left side file start r = start[1]; //right side file start while (l < dir[0].nr_elm && r < dir[1].nr_elm) { if ((j = strcmp ((dir[0].list[l] + TT.len[0]), (dir[1].list[r] + TT.len[1]))) && !(toys.optflags & FLAG_N)) { if (j > 0) { printf ("Only in %s: %s\n", dir[1].list[0], dir[1].list[r] + TT.len[1]); free(dir[1].list[r]); r++; } else { printf ("Only in %s: %s\n", dir[0].list[0], dir[0].list[l] + TT.len[0]); free(dir[0].list[l]); l++; } TT.status = DIFFER; } else { create_empty_entry(l, r, j); //create non empty dirs/files if -N. if (j > 0) { free(dir[1].list[r]); r++; } else if (j < 0) { free(dir[0].list[l]); l++; } else { free(dir[1].list[r]); free(dir[0].list[l]); l++; r++; } } } if (l == dir[0].nr_elm) { while (r < dir[1].nr_elm) { if (!(toys.optflags & FLAG_N)) { printf ("Only in %s: %s\n", dir[1].list[0], dir[1].list[r] + TT.len[1]); TT.status = DIFFER; } else create_empty_entry(l, r, 1); free(dir[1].list[r]); r++; } } else if (r == dir[1].nr_elm) { while (l < dir[0].nr_elm) { if (!(toys.optflags & FLAG_N)) { printf ("Only in %s: %s\n", dir[0].list[0], dir[0].list[l] + TT.len[0]); TT.status = DIFFER; } else create_empty_entry(l, r, -1); free(dir[0].list[l]); l++; } } free(dir[0].list[0]); //we are done, free root nodes too free(dir[1].list[0]); } void diff_main(void) { int j = 0, k = 1, start[2] = {1, 1}; char *files[2]; toys.exitval = 2; if ((toys.optflags & FLAG_color) && !isatty(1)) toys.optflags ^= FLAG_color; for (j = 0; j < 2; j++) { files[j] = toys.optargs[j]; if (IS_STDIN(files[j])) { if (fstat(0, &TT.st[j]) == -1) perror_exit("can't fstat %s", files[j]); } else { xstat(files[j], &TT.st[j]); } } if ((IS_STDIN(files[0]) || IS_STDIN(files[1])) && (S_ISDIR(TT.st[0].st_mode) || S_ISDIR(TT.st[1].st_mode))) error_exit("can't compare stdin to directory"); if ((TT.st[0].st_ino == TT.st[1].st_ino) //physicaly same device && (TT.st[0].st_dev == TT.st[1].st_dev)) { toys.exitval = 0; return show_status(files); } if (S_ISDIR(TT.st[0].st_mode) && S_ISDIR(TT.st[1].st_mode)) { for (j = 0; j < 2; j++) { memset(&dir[j], 0, sizeof(struct dir_t)); dirtree_flagread(files[j], DIRTREE_SYMFOLLOW, list_dir); dir[j].nr_elm = TT.size; //size updated in list_dir qsort(&(dir[j].list[1]), (TT.size - 1), sizeof(char*), cmp); TT.len[j] = strlen(dir[j].list[0]); //calc root node len TT.len[j] += (dir[j].list[0][TT.len[j] -1] != '/'); if (toys.optflags & FLAG_S) { while (k < TT.size && strcmp(dir[j].list[k] + TT.len[j], TT.start) < 0) { start[j] += 1; k++; } } TT.dir_num++; TT.size = 0; k = 1; } diff_dir(start); free(dir[0].list); //free array free(dir[1].list); } else { if (S_ISDIR(TT.st[0].st_mode) || S_ISDIR(TT.st[1].st_mode)) { int d = S_ISDIR(TT.st[0].st_mode); char *slash = strrchr(files[d], '/'); files[1 - d] = concat_file_path(files[1 - d], slash ? slash + 1 : files[d]); if ((stat(files[1 - d], &TT.st[1 - d])) == -1) perror_exit("%s", files[1 - d]); } do_diff(files); show_status(files); if (file[0].fp) fclose(file[0].fp); if (file[1].fp) fclose(file[1].fp); } toys.exitval = TT.status; //exit status will be the status }