#include "git-compat-util.h" #include "line-range.h" #include "cache.h" #include "tag.h" #include "blob.h" #include "tree.h" #include "diff.h" #include "commit.h" #include "decorate.h" #include "revision.h" #include "xdiff-interface.h" #include "strbuf.h" #include "log-tree.h" #include "graph.h" #include "userdiff.h" #include "line-log.h" #include "argv-array.h" static void range_set_grow(struct range_set *rs, size_t extra) { ALLOC_GROW(rs->ranges, rs->nr + extra, rs->alloc); } /* Either initialization would be fine */ #define RANGE_SET_INIT {0} void range_set_init(struct range_set *rs, size_t prealloc) { rs->alloc = rs->nr = 0; rs->ranges = NULL; if (prealloc) range_set_grow(rs, prealloc); } void range_set_release(struct range_set *rs) { free(rs->ranges); rs->alloc = rs->nr = 0; rs->ranges = NULL; } /* dst must be uninitialized! */ static void range_set_copy(struct range_set *dst, struct range_set *src) { range_set_init(dst, src->nr); memcpy(dst->ranges, src->ranges, src->nr*sizeof(struct range_set)); dst->nr = src->nr; } static void range_set_move(struct range_set *dst, struct range_set *src) { range_set_release(dst); dst->ranges = src->ranges; dst->nr = src->nr; dst->alloc = src->alloc; src->ranges = NULL; src->alloc = src->nr = 0; } /* tack on a _new_ range _at the end_ */ void range_set_append_unsafe(struct range_set *rs, long a, long b) { assert(a <= b); range_set_grow(rs, 1); rs->ranges[rs->nr].start = a; rs->ranges[rs->nr].end = b; rs->nr++; } void range_set_append(struct range_set *rs, long a, long b) { assert(rs->nr == 0 || rs->ranges[rs->nr-1].end <= a); range_set_append_unsafe(rs, a, b); } static int range_cmp(const void *_r, const void *_s) { const struct range *r = _r; const struct range *s = _s; /* this could be simply 'return r.start-s.start', but for the types */ if (r->start == s->start) return 0; if (r->start < s->start) return -1; return 1; } /* * Check that the ranges are non-empty, sorted and non-overlapping */ static void range_set_check_invariants(struct range_set *rs) { int i; if (!rs) return; if (rs->nr) assert(rs->ranges[0].start < rs->ranges[0].end); for (i = 1; i < rs->nr; i++) { assert(rs->ranges[i-1].end < rs->ranges[i].start); assert(rs->ranges[i].start < rs->ranges[i].end); } } /* * In-place pass of sorting and merging the ranges in the range set, * to establish the invariants when we get the ranges from the user */ void sort_and_merge_range_set(struct range_set *rs) { int i; int o = 0; /* output cursor */ QSORT(rs->ranges, rs->nr, range_cmp); for (i = 0; i < rs->nr; i++) { if (rs->ranges[i].start == rs->ranges[i].end) continue; if (o > 0 && rs->ranges[i].start <= rs->ranges[o-1].end) { if (rs->ranges[o-1].end < rs->ranges[i].end) rs->ranges[o-1].end = rs->ranges[i].end; } else { rs->ranges[o].start = rs->ranges[i].start; rs->ranges[o].end = rs->ranges[i].end; o++; } } assert(o <= rs->nr); rs->nr = o; range_set_check_invariants(rs); } /* * Union of range sets (i.e., sets of line numbers). Used to merge * them when searches meet at a common ancestor. * * This is also where the ranges are consolidated into canonical form: * overlapping and adjacent ranges are merged, and empty ranges are * removed. */ static void range_set_union(struct range_set *out, struct range_set *a, struct range_set *b) { int i = 0, j = 0, o = 0; struct range *ra = a->ranges; struct range *rb = b->ranges; /* cannot make an alias of out->ranges: it may change during grow */ assert(out->nr == 0); while (i < a->nr || j < b->nr) { struct range *new; if (i < a->nr && j < b->nr) { if (ra[i].start < rb[j].start) new = &ra[i++]; else if (ra[i].start > rb[j].start) new = &rb[j++]; else if (ra[i].end < rb[j].end) new = &ra[i++]; else new = &rb[j++]; } else if (i < a->nr) /* b exhausted */ new = &ra[i++]; else /* a exhausted */ new = &rb[j++]; if (new->start == new->end) ; /* empty range */ else if (!o || out->ranges[o-1].end < new->start) { range_set_grow(out, 1); out->ranges[o].start = new->start; out->ranges[o].end = new->end; o++; } else if (out->ranges[o-1].end < new->end) { out->ranges[o-1].end = new->end; } } out->nr = o; } /* * Difference of range sets (out = a \ b). Pass the "interesting" * ranges as 'a' and the target side of the diff as 'b': it removes * the ranges for which the commit is responsible. */ static void range_set_difference(struct range_set *out, struct range_set *a, struct range_set *b) { int i, j = 0; for (i = 0; i < a->nr; i++) { long start = a->ranges[i].start; long end = a->ranges[i].end; while (start < end) { while (j < b->nr && start >= b->ranges[j].end) /* * a: |------- * b: ------| */ j++; if (j >= b->nr || end < b->ranges[j].start) { /* * b exhausted, or * a: ----| * b: |---- */ range_set_append(out, start, end); break; } if (start >= b->ranges[j].start) { /* * a: |--???? * b: |------| */ start = b->ranges[j].end; } else if (end > b->ranges[j].start) { /* * a: |-----| * b: |--????? */ if (start < b->ranges[j].start) range_set_append(out, start, b->ranges[j].start); start = b->ranges[j].end; } } } } static void diff_ranges_init(struct diff_ranges *diff) { range_set_init(&diff->parent, 0); range_set_init(&diff->target, 0); } static void diff_ranges_release(struct diff_ranges *diff) { range_set_release(&diff->parent); range_set_release(&diff->target); } static void line_log_data_init(struct line_log_data *r) { memset(r, 0, sizeof(struct line_log_data)); range_set_init(&r->ranges, 0); } static void line_log_data_clear(struct line_log_data *r) { range_set_release(&r->ranges); if (r->pair) diff_free_filepair(r->pair); } static void free_line_log_data(struct line_log_data *r) { while (r) { struct line_log_data *next = r->next; line_log_data_clear(r); free(r); r = next; } } static struct line_log_data * search_line_log_data(struct line_log_data *list, const char *path, struct line_log_data **insertion_point) { struct line_log_data *p = list; if (insertion_point) *insertion_point = NULL; while (p) { int cmp = strcmp(p->path, path); if (!cmp) return p; if (insertion_point && cmp < 0) *insertion_point = p; p = p->next; } return NULL; } /* * Note: takes ownership of 'path', which happens to be what the only * caller needs. */ static void line_log_data_insert(struct line_log_data **list, char *path, long begin, long end) { struct line_log_data *ip; struct line_log_data *p = search_line_log_data(*list, path, &ip); if (p) { range_set_append_unsafe(&p->ranges, begin, end); free(path); return; } p = xcalloc(1, sizeof(struct line_log_data)); p->path = path; range_set_append(&p->ranges, begin, end); if (ip) { p->next = ip->next; ip->next = p; } else { p->next = *list; *list = p; } } struct collect_diff_cbdata { struct diff_ranges *diff; }; static int collect_diff_cb(long start_a, long count_a, long start_b, long count_b, void *data) { struct collect_diff_cbdata *d = data; if (count_a >= 0) range_set_append(&d->diff->parent, start_a, start_a + count_a); if (count_b >= 0) range_set_append(&d->diff->target, start_b, start_b + count_b); return 0; } static int collect_diff(mmfile_t *parent, mmfile_t *target, struct diff_ranges *out) { struct collect_diff_cbdata cbdata = {NULL}; xpparam_t xpp; xdemitconf_t xecfg; xdemitcb_t ecb; memset(&xpp, 0, sizeof(xpp)); memset(&xecfg, 0, sizeof(xecfg)); xecfg.ctxlen = xecfg.interhunkctxlen = 0; cbdata.diff = out; xecfg.hunk_func = collect_diff_cb; memset(&ecb, 0, sizeof(ecb)); ecb.priv = &cbdata; return xdi_diff(parent, target, &xpp, &xecfg, &ecb); } /* * These are handy for debugging. Removing them with #if 0 silences * the "unused function" warning. */ #if 0 static void dump_range_set(struct range_set *rs, const char *desc) { int i; printf("range set %s (%d items):\n", desc, rs->nr); for (i = 0; i < rs->nr; i++) printf("\t[%ld,%ld]\n", rs->ranges[i].start, rs->ranges[i].end); } static void dump_line_log_data(struct line_log_data *r) { char buf[4096]; while (r) { snprintf(buf, 4096, "file %s\n", r->path); dump_range_set(&r->ranges, buf); r = r->next; } } static void dump_diff_ranges(struct diff_ranges *diff, const char *desc) { int i; assert(diff->parent.nr == diff->target.nr); printf("diff ranges %s (%d items):\n", desc, diff->parent.nr); printf("\tparent\ttarget\n"); for (i = 0; i < diff->parent.nr; i++) { printf("\t[%ld,%ld]\t[%ld,%ld]\n", diff->parent.ranges[i].start, diff->parent.ranges[i].end, diff->target.ranges[i].start, diff->target.ranges[i].end); } } #endif static int ranges_overlap(struct range *a, struct range *b) { return !(a->end <= b->start || b->end <= a->start); } /* * Given a diff and the set of interesting ranges, determine all hunks * of the diff which touch (overlap) at least one of the interesting * ranges in the target. */ static void diff_ranges_filter_touched(struct diff_ranges *out, struct diff_ranges *diff, struct range_set *rs) { int i, j = 0; assert(out->target.nr == 0); for (i = 0; i < diff->target.nr; i++) { while (diff->target.ranges[i].start > rs->ranges[j].end) { j++; if (j == rs->nr) return; } if (ranges_overlap(&diff->target.ranges[i], &rs->ranges[j])) { range_set_append(&out->parent, diff->parent.ranges[i].start, diff->parent.ranges[i].end); range_set_append(&out->target, diff->target.ranges[i].start, diff->target.ranges[i].end); } } } /* * Adjust the line counts in 'rs' to account for the lines * added/removed in the diff. */ static void range_set_shift_diff(struct range_set *out, struct range_set *rs, struct diff_ranges *diff) { int i, j = 0; long offset = 0; struct range *src = rs->ranges; struct range *target = diff->target.ranges; struct range *parent = diff->parent.ranges; for (i = 0; i < rs->nr; i++) { while (j < diff->target.nr && src[i].start >= target[j].start) { offset += (parent[j].end-parent[j].start) - (target[j].end-target[j].start); j++; } range_set_append(out, src[i].start+offset, src[i].end+offset); } } /* * Given a diff and the set of interesting ranges, map the ranges * across the diff. That is: observe that the target commit takes * blame for all the + (target-side) ranges. So for every pair of * ranges in the diff that was touched, we remove the latter and add * its parent side. */ static void range_set_map_across_diff(struct range_set *out, struct range_set *rs, struct diff_ranges *diff, struct diff_ranges **touched_out) { struct diff_ranges *touched = xmalloc(sizeof(*touched)); struct range_set tmp1 = RANGE_SET_INIT; struct range_set tmp2 = RANGE_SET_INIT; diff_ranges_init(touched); diff_ranges_filter_touched(touched, diff, rs); range_set_difference(&tmp1, rs, &touched->target); range_set_shift_diff(&tmp2, &tmp1, diff); range_set_union(out, &tmp2, &touched->parent); range_set_release(&tmp1); range_set_release(&tmp2); *touched_out = touched; } static struct commit *check_single_commit(struct rev_info *revs) { struct object *commit = NULL; int found = -1; int i; for (i = 0; i < revs->pending.nr; i++) { struct object *obj = revs->pending.objects[i].item; if (obj->flags & UNINTERESTING) continue; obj = deref_tag(obj, NULL, 0); if (obj->type != OBJ_COMMIT) die("Non commit %s?", revs->pending.objects[i].name); if (commit) die("More than one commit to dig from: %s and %s?", revs->pending.objects[i].name, revs->pending.objects[found].name); commit = obj; found = i; } if (!commit) die("No commit specified?"); return (struct commit *) commit; } static void fill_blob_sha1(struct commit *commit, struct diff_filespec *spec) { unsigned mode; unsigned char sha1[20]; if (get_tree_entry(commit->object.oid.hash, spec->path, sha1, &mode)) die("There is no path %s in the commit", spec->path); fill_filespec(spec, sha1, 1, mode); return; } static void fill_line_ends(struct diff_filespec *spec, long *lines, unsigned long **line_ends) { int num = 0, size = 50; long cur = 0; unsigned long *ends = NULL; char *data = NULL; if (diff_populate_filespec(spec, 0)) die("Cannot read blob %s", oid_to_hex(&spec->oid)); ALLOC_ARRAY(ends, size); ends[cur++] = 0; data = spec->data; while (num < spec->size) { if (data[num] == '\n' || num == spec->size - 1) { ALLOC_GROW(ends, (cur + 1), size); ends[cur++] = num; } num++; } /* shrink the array to fit the elements */ REALLOC_ARRAY(ends, cur); *lines = cur-1; *line_ends = ends; } struct nth_line_cb { struct diff_filespec *spec; long lines; unsigned long *line_ends; }; static const char *nth_line(void *data, long line) { struct nth_line_cb *d = data; assert(d && line <= d->lines); assert(d->spec && d->spec->data); if (line == 0) return (char *)d->spec->data; else return (char *)d->spec->data + d->line_ends[line] + 1; } static struct line_log_data * parse_lines(struct commit *commit, const char *prefix, struct string_list *args) { long lines = 0; unsigned long *ends = NULL; struct nth_line_cb cb_data; struct string_list_item *item; struct line_log_data *ranges = NULL; struct line_log_data *p; for_each_string_list_item(item, args) { const char *name_part, *range_part; char *full_name; struct diff_filespec *spec; long begin = 0, end = 0; long anchor; name_part = skip_range_arg(item->string); if (!name_part || *name_part != ':' || !name_part[1]) die("-L argument not 'start,end:file' or ':funcname:file': %s", item->string); range_part = xstrndup(item->string, name_part - item->string); name_part++; full_name = prefix_path(prefix, prefix ? strlen(prefix) : 0, name_part); spec = alloc_filespec(full_name); fill_blob_sha1(commit, spec); fill_line_ends(spec, &lines, &ends); cb_data.spec = spec; cb_data.lines = lines; cb_data.line_ends = ends; p = search_line_log_data(ranges, full_name, NULL); if (p && p->ranges.nr) anchor = p->ranges.ranges[p->ranges.nr - 1].end + 1; else anchor = 1; if (parse_range_arg(range_part, nth_line, &cb_data, lines, anchor, &begin, &end, full_name)) die("malformed -L argument '%s'", range_part); if (lines < end || ((lines || begin) && lines < begin)) die("file %s has only %lu lines", name_part, lines); if (begin < 1) begin = 1; if (end < 1) end = lines; begin--; line_log_data_insert(&ranges, full_name, begin, end); free_filespec(spec); free(ends); ends = NULL; } for (p = ranges; p; p = p->next) sort_and_merge_range_set(&p->ranges); return ranges; } static struct line_log_data *line_log_data_copy_one(struct line_log_data *r) { struct line_log_data *ret = xmalloc(sizeof(*ret)); assert(r); line_log_data_init(ret); range_set_copy(&ret->ranges, &r->ranges); ret->path = xstrdup(r->path); return ret; } static struct line_log_data * line_log_data_copy(struct line_log_data *r) { struct line_log_data *ret = NULL; struct line_log_data *tmp = NULL, *prev = NULL; assert(r); ret = tmp = prev = line_log_data_copy_one(r); r = r->next; while (r) { tmp = line_log_data_copy_one(r); prev->next = tmp; prev = tmp; r = r->next; } return ret; } /* merge two range sets across files */ static struct line_log_data *line_log_data_merge(struct line_log_data *a, struct line_log_data *b) { struct line_log_data *head = NULL, **pp = &head; while (a || b) { struct line_log_data *src; struct line_log_data *src2 = NULL; struct line_log_data *d; int cmp; if (!a) cmp = 1; else if (!b) cmp = -1; else cmp = strcmp(a->path, b->path); if (cmp < 0) { src = a; a = a->next; } else if (cmp == 0) { src = a; a = a->next; src2 = b; b = b->next; } else { src = b; b = b->next; } d = xmalloc(sizeof(struct line_log_data)); line_log_data_init(d); d->path = xstrdup(src->path); *pp = d; pp = &d->next; if (src2) range_set_union(&d->ranges, &src->ranges, &src2->ranges); else range_set_copy(&d->ranges, &src->ranges); } return head; } static void add_line_range(struct rev_info *revs, struct commit *commit, struct line_log_data *range) { struct line_log_data *old = NULL; struct line_log_data *new = NULL; old = lookup_decoration(&revs->line_log_data, &commit->object); if (old && range) { new = line_log_data_merge(old, range); free_line_log_data(old); } else if (range) new = line_log_data_copy(range); if (new) add_decoration(&revs->line_log_data, &commit->object, new); } static void clear_commit_line_range(struct rev_info *revs, struct commit *commit) { struct line_log_data *r; r = lookup_decoration(&revs->line_log_data, &commit->object); if (!r) return; free_line_log_data(r); add_decoration(&revs->line_log_data, &commit->object, NULL); } static struct line_log_data *lookup_line_range(struct rev_info *revs, struct commit *commit) { struct line_log_data *ret = NULL; struct line_log_data *d; ret = lookup_decoration(&revs->line_log_data, &commit->object); for (d = ret; d; d = d->next) range_set_check_invariants(&d->ranges); return ret; } void line_log_init(struct rev_info *rev, const char *prefix, struct string_list *args) { struct commit *commit = NULL; struct line_log_data *range; commit = check_single_commit(rev); range = parse_lines(commit, prefix, args); add_line_range(rev, commit, range); if (!rev->diffopt.detect_rename) { struct line_log_data *r; struct argv_array array = ARGV_ARRAY_INIT; const char **paths; for (r = range; r; r = r->next) argv_array_push(&array, r->path); paths = argv_array_detach(&array); parse_pathspec(&rev->diffopt.pathspec, 0, PATHSPEC_PREFER_FULL, "", paths); /* strings are now owned by pathspec */ free(paths); } } static void move_diff_queue(struct diff_queue_struct *dst, struct diff_queue_struct *src) { assert(src != dst); memcpy(dst, src, sizeof(struct diff_queue_struct)); DIFF_QUEUE_CLEAR(src); } static void filter_diffs_for_paths(struct line_log_data *range, int keep_deletions) { int i; struct diff_queue_struct outq; DIFF_QUEUE_CLEAR(&outq); for (i = 0; i < diff_queued_diff.nr; i++) { struct diff_filepair *p = diff_queued_diff.queue[i]; struct line_log_data *rg = NULL; if (!DIFF_FILE_VALID(p->two)) { if (keep_deletions) diff_q(&outq, p); else diff_free_filepair(p); continue; } for (rg = range; rg; rg = rg->next) { if (!strcmp(rg->path, p->two->path)) break; } if (rg) diff_q(&outq, p); else diff_free_filepair(p); } free(diff_queued_diff.queue); diff_queued_diff = outq; } static inline int diff_might_be_rename(void) { int i; for (i = 0; i < diff_queued_diff.nr; i++) if (!DIFF_FILE_VALID(diff_queued_diff.queue[i]->one)) { /* fprintf(stderr, "diff_might_be_rename found creation of: %s\n", */ /* diff_queued_diff.queue[i]->two->path); */ return 1; } return 0; } static void queue_diffs(struct line_log_data *range, struct diff_options *opt, struct diff_queue_struct *queue, struct commit *commit, struct commit *parent) { assert(commit); DIFF_QUEUE_CLEAR(&diff_queued_diff); diff_tree_sha1(parent ? parent->tree->object.oid.hash : NULL, commit->tree->object.oid.hash, "", opt); if (opt->detect_rename) { filter_diffs_for_paths(range, 1); if (diff_might_be_rename()) diffcore_std(opt); filter_diffs_for_paths(range, 0); } move_diff_queue(queue, &diff_queued_diff); } static char *get_nth_line(long line, unsigned long *ends, void *data) { if (line == 0) return (char *)data; else return (char *)data + ends[line] + 1; } static void print_line(const char *prefix, char first, long line, unsigned long *ends, void *data, const char *color, const char *reset, FILE *file) { char *begin = get_nth_line(line, ends, data); char *end = get_nth_line(line+1, ends, data); int had_nl = 0; if (end > begin && end[-1] == '\n') { end--; had_nl = 1; } fputs(prefix, file); fputs(color, file); putc(first, file); fwrite(begin, 1, end-begin, file); fputs(reset, file); putc('\n', file); if (!had_nl) fputs("\\ No newline at end of file\n", file); } static char *output_prefix(struct diff_options *opt) { char *prefix = ""; if (opt->output_prefix) { struct strbuf *sb = opt->output_prefix(opt, opt->output_prefix_data); prefix = sb->buf; } return prefix; } static void dump_diff_hacky_one(struct rev_info *rev, struct line_log_data *range) { int i, j = 0; long p_lines, t_lines; unsigned long *p_ends = NULL, *t_ends = NULL; struct diff_filepair *pair = range->pair; struct diff_ranges *diff = &range->diff; struct diff_options *opt = &rev->diffopt; char *prefix = output_prefix(opt); const char *c_reset = diff_get_color(opt->use_color, DIFF_RESET); const char *c_frag = diff_get_color(opt->use_color, DIFF_FRAGINFO); const char *c_meta = diff_get_color(opt->use_color, DIFF_METAINFO); const char *c_old = diff_get_color(opt->use_color, DIFF_FILE_OLD); const char *c_new = diff_get_color(opt->use_color, DIFF_FILE_NEW); const char *c_context = diff_get_color(opt->use_color, DIFF_CONTEXT); if (!pair || !diff) return; if (pair->one->oid_valid) fill_line_ends(pair->one, &p_lines, &p_ends); fill_line_ends(pair->two, &t_lines, &t_ends); fprintf(opt->file, "%s%sdiff --git a/%s b/%s%s\n", prefix, c_meta, pair->one->path, pair->two->path, c_reset); fprintf(opt->file, "%s%s--- %s%s%s\n", prefix, c_meta, pair->one->oid_valid ? "a/" : "", pair->one->oid_valid ? pair->one->path : "/dev/null", c_reset); fprintf(opt->file, "%s%s+++ b/%s%s\n", prefix, c_meta, pair->two->path, c_reset); for (i = 0; i < range->ranges.nr; i++) { long p_start, p_end; long t_start = range->ranges.ranges[i].start; long t_end = range->ranges.ranges[i].end; long t_cur = t_start; int j_last; while (j < diff->target.nr && diff->target.ranges[j].end < t_start) j++; if (j == diff->target.nr || diff->target.ranges[j].start > t_end) continue; /* Scan ahead to determine the last diff that falls in this range */ j_last = j; while (j_last < diff->target.nr && diff->target.ranges[j_last].start < t_end) j_last++; if (j_last > j) j_last--; /* * Compute parent hunk headers: we know that the diff * has the correct line numbers (but not all hunks). * So it suffices to shift the start/end according to * the line numbers of the first/last hunk(s) that * fall in this range. */ if (t_start < diff->target.ranges[j].start) p_start = diff->parent.ranges[j].start - (diff->target.ranges[j].start-t_start); else p_start = diff->parent.ranges[j].start; if (t_end > diff->target.ranges[j_last].end) p_end = diff->parent.ranges[j_last].end + (t_end-diff->target.ranges[j_last].end); else p_end = diff->parent.ranges[j_last].end; if (!p_start && !p_end) { p_start = -1; p_end = -1; } /* Now output a diff hunk for this range */ fprintf(opt->file, "%s%s@@ -%ld,%ld +%ld,%ld @@%s\n", prefix, c_frag, p_start+1, p_end-p_start, t_start+1, t_end-t_start, c_reset); while (j < diff->target.nr && diff->target.ranges[j].start < t_end) { int k; for (; t_cur < diff->target.ranges[j].start; t_cur++) print_line(prefix, ' ', t_cur, t_ends, pair->two->data, c_context, c_reset, opt->file); for (k = diff->parent.ranges[j].start; k < diff->parent.ranges[j].end; k++) print_line(prefix, '-', k, p_ends, pair->one->data, c_old, c_reset, opt->file); for (; t_cur < diff->target.ranges[j].end && t_cur < t_end; t_cur++) print_line(prefix, '+', t_cur, t_ends, pair->two->data, c_new, c_reset, opt->file); j++; } for (; t_cur < t_end; t_cur++) print_line(prefix, ' ', t_cur, t_ends, pair->two->data, c_context, c_reset, opt->file); } free(p_ends); free(t_ends); } /* * NEEDSWORK: manually building a diff here is not the Right * Thing(tm). log -L should be built into the diff pipeline. */ static void dump_diff_hacky(struct rev_info *rev, struct line_log_data *range) { fprintf(rev->diffopt.file, "%s\n", output_prefix(&rev->diffopt)); while (range) { dump_diff_hacky_one(rev, range); range = range->next; } } /* * Unlike most other functions, this destructively operates on * 'range'. */ static int process_diff_filepair(struct rev_info *rev, struct diff_filepair *pair, struct line_log_data *range, struct diff_ranges **diff_out) { struct line_log_data *rg = range; struct range_set tmp; struct diff_ranges diff; mmfile_t file_parent, file_target; assert(pair->two->path); while (rg) { assert(rg->path); if (!strcmp(rg->path, pair->two->path)) break; rg = rg->next; } if (!rg) return 0; if (rg->ranges.nr == 0) return 0; assert(pair->two->oid_valid); diff_populate_filespec(pair->two, 0); file_target.ptr = pair->two->data; file_target.size = pair->two->size; if (pair->one->oid_valid) { diff_populate_filespec(pair->one, 0); file_parent.ptr = pair->one->data; file_parent.size = pair->one->size; } else { file_parent.ptr = ""; file_parent.size = 0; } diff_ranges_init(&diff); if (collect_diff(&file_parent, &file_target, &diff)) die("unable to generate diff for %s", pair->one->path); /* NEEDSWORK should apply some heuristics to prevent mismatches */ free(rg->path); rg->path = xstrdup(pair->one->path); range_set_init(&tmp, 0); range_set_map_across_diff(&tmp, &rg->ranges, &diff, diff_out); range_set_release(&rg->ranges); range_set_move(&rg->ranges, &tmp); diff_ranges_release(&diff); return ((*diff_out)->parent.nr > 0); } static struct diff_filepair *diff_filepair_dup(struct diff_filepair *pair) { struct diff_filepair *new = xmalloc(sizeof(struct diff_filepair)); new->one = pair->one; new->two = pair->two; new->one->count++; new->two->count++; return new; } static void free_diffqueues(int n, struct diff_queue_struct *dq) { int i, j; for (i = 0; i < n; i++) for (j = 0; j < dq[i].nr; j++) diff_free_filepair(dq[i].queue[j]); free(dq); } static int process_all_files(struct line_log_data **range_out, struct rev_info *rev, struct diff_queue_struct *queue, struct line_log_data *range) { int i, changed = 0; *range_out = line_log_data_copy(range); for (i = 0; i < queue->nr; i++) { struct diff_ranges *pairdiff = NULL; struct diff_filepair *pair = queue->queue[i]; if (process_diff_filepair(rev, pair, *range_out, &pairdiff)) { /* * Store away the diff for later output. We * tuck it in the ranges we got as _input_, * since that's the commit that caused the * diff. * * NEEDSWORK not enough when we get around to * doing something interesting with merges; * currently each invocation on a merge parent * trashes the previous one's diff. * * NEEDSWORK tramples over data structures not owned here */ struct line_log_data *rg = range; changed++; while (rg && strcmp(rg->path, pair->two->path)) rg = rg->next; assert(rg); rg->pair = diff_filepair_dup(queue->queue[i]); memcpy(&rg->diff, pairdiff, sizeof(struct diff_ranges)); } free(pairdiff); } return changed; } int line_log_print(struct rev_info *rev, struct commit *commit) { struct line_log_data *range = lookup_line_range(rev, commit); show_log(rev); dump_diff_hacky(rev, range); return 1; } static int process_ranges_ordinary_commit(struct rev_info *rev, struct commit *commit, struct line_log_data *range) { struct commit *parent = NULL; struct diff_queue_struct queue; struct line_log_data *parent_range; int changed; if (commit->parents) parent = commit->parents->item; queue_diffs(range, &rev->diffopt, &queue, commit, parent); changed = process_all_files(&parent_range, rev, &queue, range); if (parent) add_line_range(rev, parent, parent_range); return changed; } static int process_ranges_merge_commit(struct rev_info *rev, struct commit *commit, struct line_log_data *range) { struct diff_queue_struct *diffqueues; struct line_log_data **cand; struct commit **parents; struct commit_list *p; int i; int nparents = commit_list_count(commit->parents); if (nparents > 1 && rev->first_parent_only) nparents = 1; ALLOC_ARRAY(diffqueues, nparents); ALLOC_ARRAY(cand, nparents); ALLOC_ARRAY(parents, nparents); p = commit->parents; for (i = 0; i < nparents; i++) { parents[i] = p->item; p = p->next; queue_diffs(range, &rev->diffopt, &diffqueues[i], commit, parents[i]); } for (i = 0; i < nparents; i++) { int changed; cand[i] = NULL; changed = process_all_files(&cand[i], rev, &diffqueues[i], range); if (!changed) { /* * This parent can take all the blame, so we * don't follow any other path in history */ add_line_range(rev, parents[i], cand[i]); clear_commit_line_range(rev, commit); commit_list_append(parents[i], &commit->parents); free(parents); free(cand); free_diffqueues(nparents, diffqueues); /* NEEDSWORK leaking like a sieve */ return 0; } } /* * No single parent took the blame. We add the candidates * from the above loop to the parents. */ for (i = 0; i < nparents; i++) { add_line_range(rev, parents[i], cand[i]); } clear_commit_line_range(rev, commit); free(parents); free(cand); free_diffqueues(nparents, diffqueues); return 1; /* NEEDSWORK evil merge detection stuff */ /* NEEDSWORK leaking like a sieve */ } static int process_ranges_arbitrary_commit(struct rev_info *rev, struct commit *commit) { struct line_log_data *range = lookup_line_range(rev, commit); int changed = 0; if (range) { if (!commit->parents || !commit->parents->next) changed = process_ranges_ordinary_commit(rev, commit, range); else changed = process_ranges_merge_commit(rev, commit, range); } if (!changed) commit->object.flags |= TREESAME; return changed; } static enum rewrite_result line_log_rewrite_one(struct rev_info *rev, struct commit **pp) { for (;;) { struct commit *p = *pp; if (p->parents && p->parents->next) return rewrite_one_ok; if (p->object.flags & UNINTERESTING) return rewrite_one_ok; if (!(p->object.flags & TREESAME)) return rewrite_one_ok; if (!p->parents) return rewrite_one_noparents; *pp = p->parents->item; } } int line_log_filter(struct rev_info *rev) { struct commit *commit; struct commit_list *list = rev->commits; struct commit_list *out = NULL, **pp = &out; while (list) { struct commit_list *to_free = NULL; commit = list->item; if (process_ranges_arbitrary_commit(rev, commit)) { *pp = list; pp = &list->next; } else to_free = list; list = list->next; free(to_free); } *pp = NULL; for (list = out; list; list = list->next) rewrite_parents(rev, list->item, line_log_rewrite_one); rev->commits = out; return 0; }