#include "cache.h" #include "add-interactive.h" #include "color.h" #include "config.h" #include "diffcore.h" #include "revision.h" #include "refs.h" #include "string-list.h" #include "lockfile.h" #include "dir.h" #include "run-command.h" static void init_color(struct repository *r, struct add_i_state *s, const char *slot_name, char *dst, const char *default_color) { char *key = xstrfmt("color.interactive.%s", slot_name); const char *value; if (!s->use_color) dst[0] = '\0'; else if (repo_config_get_value(r, key, &value) || color_parse(value, dst)) strlcpy(dst, default_color, COLOR_MAXLEN); free(key); } void init_add_i_state(struct add_i_state *s, struct repository *r) { const char *value; s->r = r; if (repo_config_get_value(r, "color.interactive", &value)) s->use_color = -1; else s->use_color = git_config_colorbool("color.interactive", value); s->use_color = want_color(s->use_color); init_color(r, s, "header", s->header_color, GIT_COLOR_BOLD); init_color(r, s, "help", s->help_color, GIT_COLOR_BOLD_RED); init_color(r, s, "prompt", s->prompt_color, GIT_COLOR_BOLD_BLUE); init_color(r, s, "error", s->error_color, GIT_COLOR_BOLD_RED); init_color(r, s, "reset", s->reset_color, GIT_COLOR_RESET); init_color(r, s, "fraginfo", s->fraginfo_color, diff_get_color(s->use_color, DIFF_FRAGINFO)); init_color(r, s, "context", s->context_color, diff_get_color(s->use_color, DIFF_CONTEXT)); init_color(r, s, "old", s->file_old_color, diff_get_color(s->use_color, DIFF_FILE_OLD)); init_color(r, s, "new", s->file_new_color, diff_get_color(s->use_color, DIFF_FILE_NEW)); FREE_AND_NULL(s->interactive_diff_filter); git_config_get_string("interactive.difffilter", &s->interactive_diff_filter); FREE_AND_NULL(s->interactive_diff_algorithm); git_config_get_string("diff.algorithm", &s->interactive_diff_algorithm); git_config_get_bool("interactive.singlekey", &s->use_single_key); } void clear_add_i_state(struct add_i_state *s) { FREE_AND_NULL(s->interactive_diff_filter); FREE_AND_NULL(s->interactive_diff_algorithm); memset(s, 0, sizeof(*s)); s->use_color = -1; } /* * A "prefix item list" is a list of items that are identified by a string, and * a unique prefix (if any) is determined for each item. * * It is implemented in the form of a pair of `string_list`s, the first one * duplicating the strings, with the `util` field pointing at a structure whose * first field must be `size_t prefix_length`. * * That `prefix_length` field will be computed by `find_unique_prefixes()`; It * will be set to zero if no valid, unique prefix could be found. * * The second `string_list` is called `sorted` and does _not_ duplicate the * strings but simply reuses the first one's, with the `util` field pointing at * the `string_item_list` of the first `string_list`. It will be populated and * sorted by `find_unique_prefixes()`. */ struct prefix_item_list { struct string_list items; struct string_list sorted; int *selected; /* for multi-selections */ size_t min_length, max_length; }; #define PREFIX_ITEM_LIST_INIT \ { STRING_LIST_INIT_DUP, STRING_LIST_INIT_NODUP, NULL, 1, 4 } static void prefix_item_list_clear(struct prefix_item_list *list) { string_list_clear(&list->items, 1); string_list_clear(&list->sorted, 0); FREE_AND_NULL(list->selected); } static void extend_prefix_length(struct string_list_item *p, const char *other_string, size_t max_length) { size_t *len = p->util; if (!*len || memcmp(p->string, other_string, *len)) return; for (;;) { char c = p->string[*len]; /* * Is `p` a strict prefix of `other`? Or have we exhausted the * maximal length of the prefix? Or is the current character a * multi-byte UTF-8 one? If so, there is no valid, unique * prefix. */ if (!c || ++*len > max_length || !isascii(c)) { *len = 0; break; } if (c != other_string[*len - 1]) break; } } static void find_unique_prefixes(struct prefix_item_list *list) { size_t i; if (list->sorted.nr == list->items.nr) return; string_list_clear(&list->sorted, 0); /* Avoid reallocating incrementally */ list->sorted.items = xmalloc(st_mult(sizeof(*list->sorted.items), list->items.nr)); list->sorted.nr = list->sorted.alloc = list->items.nr; for (i = 0; i < list->items.nr; i++) { list->sorted.items[i].string = list->items.items[i].string; list->sorted.items[i].util = list->items.items + i; } string_list_sort(&list->sorted); for (i = 0; i < list->sorted.nr; i++) { struct string_list_item *sorted_item = list->sorted.items + i; struct string_list_item *item = sorted_item->util; size_t *len = item->util; *len = 0; while (*len < list->min_length) { char c = item->string[(*len)++]; if (!c || !isascii(c)) { *len = 0; break; } } if (i > 0) extend_prefix_length(item, sorted_item[-1].string, list->max_length); if (i + 1 < list->sorted.nr) extend_prefix_length(item, sorted_item[1].string, list->max_length); } } static ssize_t find_unique(const char *string, struct prefix_item_list *list) { int index = string_list_find_insert_index(&list->sorted, string, 1); struct string_list_item *item; if (list->items.nr != list->sorted.nr) BUG("prefix_item_list in inconsistent state (%"PRIuMAX " vs %"PRIuMAX")", (uintmax_t)list->items.nr, (uintmax_t)list->sorted.nr); if (index < 0) item = list->sorted.items[-1 - index].util; else if (index > 0 && starts_with(list->sorted.items[index - 1].string, string)) return -1; else if (index + 1 < list->sorted.nr && starts_with(list->sorted.items[index + 1].string, string)) return -1; else if (index < list->sorted.nr) item = list->sorted.items[index].util; else return -1; return item - list->items.items; } struct list_options { int columns; const char *header; void (*print_item)(int i, int selected, struct string_list_item *item, void *print_item_data); void *print_item_data; }; static void list(struct add_i_state *s, struct string_list *list, int *selected, struct list_options *opts) { int i, last_lf = 0; if (!list->nr) return; if (opts->header) color_fprintf_ln(stdout, s->header_color, "%s", opts->header); for (i = 0; i < list->nr; i++) { opts->print_item(i, selected ? selected[i] : 0, list->items + i, opts->print_item_data); if ((opts->columns) && ((i + 1) % (opts->columns))) { putchar('\t'); last_lf = 0; } else { putchar('\n'); last_lf = 1; } } if (!last_lf) putchar('\n'); } struct list_and_choose_options { struct list_options list_opts; const char *prompt; enum { SINGLETON = (1<<0), IMMEDIATE = (1<<1), } flags; void (*print_help)(struct add_i_state *s); }; #define LIST_AND_CHOOSE_ERROR (-1) #define LIST_AND_CHOOSE_QUIT (-2) /* * Returns the selected index in singleton mode, the number of selected items * otherwise. * * If an error occurred, returns `LIST_AND_CHOOSE_ERROR`. Upon EOF, * `LIST_AND_CHOOSE_QUIT` is returned. */ static ssize_t list_and_choose(struct add_i_state *s, struct prefix_item_list *items, struct list_and_choose_options *opts) { int singleton = opts->flags & SINGLETON; int immediate = opts->flags & IMMEDIATE; struct strbuf input = STRBUF_INIT; ssize_t res = singleton ? LIST_AND_CHOOSE_ERROR : 0; if (!singleton) { free(items->selected); CALLOC_ARRAY(items->selected, items->items.nr); } if (singleton && !immediate) BUG("singleton requires immediate"); find_unique_prefixes(items); for (;;) { char *p; strbuf_reset(&input); list(s, &items->items, items->selected, &opts->list_opts); color_fprintf(stdout, s->prompt_color, "%s", opts->prompt); fputs(singleton ? "> " : ">> ", stdout); fflush(stdout); if (strbuf_getline(&input, stdin) == EOF) { putchar('\n'); if (immediate) res = LIST_AND_CHOOSE_QUIT; break; } strbuf_trim(&input); if (!input.len) break; if (!strcmp(input.buf, "?")) { opts->print_help(s); continue; } p = input.buf; for (;;) { size_t sep = strcspn(p, " \t\r\n,"); int choose = 1; /* `from` is inclusive, `to` is exclusive */ ssize_t from = -1, to = -1; if (!sep) { if (!*p) break; p++; continue; } /* Input that begins with '-'; de-select */ if (*p == '-') { choose = 0; p++; sep--; } if (sep == 1 && *p == '*') { from = 0; to = items->items.nr; } else if (isdigit(*p)) { char *endp; /* * A range can be specified like 5-7 or 5-. * * Note: `from` is 0-based while the user input * is 1-based, hence we have to decrement by * one. We do not have to decrement `to` even * if it is 0-based because it is an exclusive * boundary. */ from = strtoul(p, &endp, 10) - 1; if (endp == p + sep) to = from + 1; else if (*endp == '-') { if (isdigit(*(++endp))) to = strtoul(endp, &endp, 10); else to = items->items.nr; /* extra characters after the range? */ if (endp != p + sep) from = -1; } } if (p[sep]) p[sep++] = '\0'; if (from < 0) { from = find_unique(p, items); if (from >= 0) to = from + 1; } if (from < 0 || from >= items->items.nr || (singleton && from + 1 != to)) { color_fprintf_ln(stdout, s->error_color, _("Huh (%s)?"), p); break; } else if (singleton) { res = from; break; } if (to > items->items.nr) to = items->items.nr; for (; from < to; from++) if (items->selected[from] != choose) { items->selected[from] = choose; res += choose ? +1 : -1; } p += sep; } if ((immediate && res != LIST_AND_CHOOSE_ERROR) || !strcmp(input.buf, "*")) break; } strbuf_release(&input); return res; } struct adddel { uintmax_t add, del; unsigned seen:1, unmerged:1, binary:1; }; struct file_item { size_t prefix_length; struct adddel index, worktree; }; static void add_file_item(struct string_list *files, const char *name) { struct file_item *item = xcalloc(sizeof(*item), 1); string_list_append(files, name)->util = item; } struct pathname_entry { struct hashmap_entry ent; const char *name; struct file_item *item; }; static int pathname_entry_cmp(const void *unused_cmp_data, const struct hashmap_entry *he1, const struct hashmap_entry *he2, const void *name) { const struct pathname_entry *e1 = container_of(he1, const struct pathname_entry, ent); const struct pathname_entry *e2 = container_of(he2, const struct pathname_entry, ent); return strcmp(e1->name, name ? (const char *)name : e2->name); } struct collection_status { enum { FROM_WORKTREE = 0, FROM_INDEX = 1 } mode; const char *reference; unsigned skip_unseen:1; size_t unmerged_count, binary_count; struct string_list *files; struct hashmap file_map; }; static void collect_changes_cb(struct diff_queue_struct *q, struct diff_options *options, void *data) { struct collection_status *s = data; struct diffstat_t stat = { 0 }; int i; if (!q->nr) return; compute_diffstat(options, &stat, q); for (i = 0; i < stat.nr; i++) { const char *name = stat.files[i]->name; int hash = strhash(name); struct pathname_entry *entry; struct file_item *file_item; struct adddel *adddel, *other_adddel; entry = hashmap_get_entry_from_hash(&s->file_map, hash, name, struct pathname_entry, ent); if (!entry) { if (s->skip_unseen) continue; add_file_item(s->files, name); entry = xcalloc(sizeof(*entry), 1); hashmap_entry_init(&entry->ent, hash); entry->name = s->files->items[s->files->nr - 1].string; entry->item = s->files->items[s->files->nr - 1].util; hashmap_add(&s->file_map, &entry->ent); } file_item = entry->item; adddel = s->mode == FROM_INDEX ? &file_item->index : &file_item->worktree; other_adddel = s->mode == FROM_INDEX ? &file_item->worktree : &file_item->index; adddel->seen = 1; adddel->add = stat.files[i]->added; adddel->del = stat.files[i]->deleted; if (stat.files[i]->is_binary) { if (!other_adddel->binary) s->binary_count++; adddel->binary = 1; } if (stat.files[i]->is_unmerged) { if (!other_adddel->unmerged) s->unmerged_count++; adddel->unmerged = 1; } } free_diffstat_info(&stat); } enum modified_files_filter { NO_FILTER = 0, WORKTREE_ONLY = 1, INDEX_ONLY = 2, }; static int get_modified_files(struct repository *r, enum modified_files_filter filter, struct prefix_item_list *files, const struct pathspec *ps, size_t *unmerged_count, size_t *binary_count) { struct object_id head_oid; int is_initial = !resolve_ref_unsafe("HEAD", RESOLVE_REF_READING, &head_oid, NULL); struct collection_status s = { 0 }; int i; if (discard_index(r->index) < 0 || repo_read_index_preload(r, ps, 0) < 0) return error(_("could not read index")); prefix_item_list_clear(files); s.files = &files->items; hashmap_init(&s.file_map, pathname_entry_cmp, NULL, 0); for (i = 0; i < 2; i++) { struct rev_info rev; struct setup_revision_opt opt = { 0 }; if (filter == INDEX_ONLY) s.mode = (i == 0) ? FROM_INDEX : FROM_WORKTREE; else s.mode = (i == 0) ? FROM_WORKTREE : FROM_INDEX; s.skip_unseen = filter && i; opt.def = is_initial ? empty_tree_oid_hex() : oid_to_hex(&head_oid); init_revisions(&rev, NULL); setup_revisions(0, NULL, &rev, &opt); rev.diffopt.output_format = DIFF_FORMAT_CALLBACK; rev.diffopt.format_callback = collect_changes_cb; rev.diffopt.format_callback_data = &s; if (ps) copy_pathspec(&rev.prune_data, ps); if (s.mode == FROM_INDEX) run_diff_index(&rev, 1); else { rev.diffopt.flags.ignore_dirty_submodules = 1; run_diff_files(&rev, 0); } if (ps) clear_pathspec(&rev.prune_data); } hashmap_free_entries(&s.file_map, struct pathname_entry, ent); if (unmerged_count) *unmerged_count = s.unmerged_count; if (binary_count) *binary_count = s.binary_count; /* While the diffs are ordered already, we ran *two* diffs... */ string_list_sort(&files->items); return 0; } static void render_adddel(struct strbuf *buf, struct adddel *ad, const char *no_changes) { if (ad->binary) strbuf_addstr(buf, _("binary")); else if (ad->seen) strbuf_addf(buf, "+%"PRIuMAX"/-%"PRIuMAX, (uintmax_t)ad->add, (uintmax_t)ad->del); else strbuf_addstr(buf, no_changes); } /* filters out prefixes which have special meaning to list_and_choose() */ static int is_valid_prefix(const char *prefix, size_t prefix_len) { return prefix_len && prefix && /* * We expect `prefix` to be NUL terminated, therefore this * `strcspn()` call is okay, even if it might do much more * work than strictly necessary. */ strcspn(prefix, " \t\r\n,") >= prefix_len && /* separators */ *prefix != '-' && /* deselection */ !isdigit(*prefix) && /* selection */ (prefix_len != 1 || (*prefix != '*' && /* "all" wildcard */ *prefix != '?')); /* prompt help */ } struct print_file_item_data { const char *modified_fmt, *color, *reset; struct strbuf buf, name, index, worktree; unsigned only_names:1; }; static void print_file_item(int i, int selected, struct string_list_item *item, void *print_file_item_data) { struct file_item *c = item->util; struct print_file_item_data *d = print_file_item_data; const char *highlighted = NULL; strbuf_reset(&d->index); strbuf_reset(&d->worktree); strbuf_reset(&d->buf); /* Format the item with the prefix highlighted. */ if (c->prefix_length > 0 && is_valid_prefix(item->string, c->prefix_length)) { strbuf_reset(&d->name); strbuf_addf(&d->name, "%s%.*s%s%s", d->color, (int)c->prefix_length, item->string, d->reset, item->string + c->prefix_length); highlighted = d->name.buf; } if (d->only_names) { printf("%c%2d: %s", selected ? '*' : ' ', i + 1, highlighted ? highlighted : item->string); return; } render_adddel(&d->worktree, &c->worktree, _("nothing")); render_adddel(&d->index, &c->index, _("unchanged")); strbuf_addf(&d->buf, d->modified_fmt, d->index.buf, d->worktree.buf, highlighted ? highlighted : item->string); printf("%c%2d: %s", selected ? '*' : ' ', i + 1, d->buf.buf); } static int run_status(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { if (get_modified_files(s->r, NO_FILTER, files, ps, NULL, NULL) < 0) return -1; list(s, &files->items, NULL, &opts->list_opts); putchar('\n'); return 0; } static int run_update(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { int res = 0, fd; size_t count, i; struct lock_file index_lock; if (get_modified_files(s->r, WORKTREE_ONLY, files, ps, NULL, NULL) < 0) return -1; if (!files->items.nr) { putchar('\n'); return 0; } opts->prompt = N_("Update"); count = list_and_choose(s, files, opts); if (count <= 0) { putchar('\n'); return 0; } fd = repo_hold_locked_index(s->r, &index_lock, LOCK_REPORT_ON_ERROR); if (fd < 0) { putchar('\n'); return -1; } for (i = 0; i < files->items.nr; i++) { const char *name = files->items.items[i].string; if (files->selected[i] && add_file_to_index(s->r->index, name, 0) < 0) { res = error(_("could not stage '%s'"), name); break; } } if (!res && write_locked_index(s->r->index, &index_lock, COMMIT_LOCK) < 0) res = error(_("could not write index")); if (!res) printf(Q_("updated %d path\n", "updated %d paths\n", count), (int)count); putchar('\n'); return res; } static void revert_from_diff(struct diff_queue_struct *q, struct diff_options *opt, void *data) { int i, add_flags = ADD_CACHE_OK_TO_ADD | ADD_CACHE_OK_TO_REPLACE; for (i = 0; i < q->nr; i++) { struct diff_filespec *one = q->queue[i]->one; struct cache_entry *ce; if (!(one->mode && !is_null_oid(&one->oid))) { remove_file_from_index(opt->repo->index, one->path); printf(_("note: %s is untracked now.\n"), one->path); } else { ce = make_cache_entry(opt->repo->index, one->mode, &one->oid, one->path, 0, 0); if (!ce) die(_("make_cache_entry failed for path '%s'"), one->path); add_index_entry(opt->repo->index, ce, add_flags); } } } static int run_revert(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { int res = 0, fd; size_t count, i, j; struct object_id oid; int is_initial = !resolve_ref_unsafe("HEAD", RESOLVE_REF_READING, &oid, NULL); struct lock_file index_lock; const char **paths; struct tree *tree; struct diff_options diffopt = { NULL }; if (get_modified_files(s->r, INDEX_ONLY, files, ps, NULL, NULL) < 0) return -1; if (!files->items.nr) { putchar('\n'); return 0; } opts->prompt = N_("Revert"); count = list_and_choose(s, files, opts); if (count <= 0) goto finish_revert; fd = repo_hold_locked_index(s->r, &index_lock, LOCK_REPORT_ON_ERROR); if (fd < 0) { res = -1; goto finish_revert; } if (is_initial) oidcpy(&oid, s->r->hash_algo->empty_tree); else { tree = parse_tree_indirect(&oid); if (!tree) { res = error(_("Could not parse HEAD^{tree}")); goto finish_revert; } oidcpy(&oid, &tree->object.oid); } ALLOC_ARRAY(paths, count + 1); for (i = j = 0; i < files->items.nr; i++) if (files->selected[i]) paths[j++] = files->items.items[i].string; paths[j] = NULL; parse_pathspec(&diffopt.pathspec, 0, PATHSPEC_PREFER_FULL | PATHSPEC_LITERAL_PATH, NULL, paths); diffopt.output_format = DIFF_FORMAT_CALLBACK; diffopt.format_callback = revert_from_diff; diffopt.flags.override_submodule_config = 1; diffopt.repo = s->r; if (do_diff_cache(&oid, &diffopt)) res = -1; else { diffcore_std(&diffopt); diff_flush(&diffopt); } free(paths); clear_pathspec(&diffopt.pathspec); if (!res && write_locked_index(s->r->index, &index_lock, COMMIT_LOCK) < 0) res = -1; else res = repo_refresh_and_write_index(s->r, REFRESH_QUIET, 0, 1, NULL, NULL, NULL); if (!res) printf(Q_("reverted %d path\n", "reverted %d paths\n", count), (int)count); finish_revert: putchar('\n'); return res; } static int get_untracked_files(struct repository *r, struct prefix_item_list *files, const struct pathspec *ps) { struct dir_struct dir = { 0 }; size_t i; struct strbuf buf = STRBUF_INIT; if (repo_read_index(r) < 0) return error(_("could not read index")); prefix_item_list_clear(files); setup_standard_excludes(&dir); add_pattern_list(&dir, EXC_CMDL, "--exclude option"); fill_directory(&dir, r->index, ps); for (i = 0; i < dir.nr; i++) { struct dir_entry *ent = dir.entries[i]; if (index_name_is_other(r->index, ent->name, ent->len)) { strbuf_reset(&buf); strbuf_add(&buf, ent->name, ent->len); add_file_item(&files->items, buf.buf); } } strbuf_release(&buf); return 0; } static int run_add_untracked(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { struct print_file_item_data *d = opts->list_opts.print_item_data; int res = 0, fd; size_t count, i; struct lock_file index_lock; if (get_untracked_files(s->r, files, ps) < 0) return -1; if (!files->items.nr) { printf(_("No untracked files.\n")); goto finish_add_untracked; } opts->prompt = N_("Add untracked"); d->only_names = 1; count = list_and_choose(s, files, opts); d->only_names = 0; if (count <= 0) goto finish_add_untracked; fd = repo_hold_locked_index(s->r, &index_lock, LOCK_REPORT_ON_ERROR); if (fd < 0) { res = -1; goto finish_add_untracked; } for (i = 0; i < files->items.nr; i++) { const char *name = files->items.items[i].string; if (files->selected[i] && add_file_to_index(s->r->index, name, 0) < 0) { res = error(_("could not stage '%s'"), name); break; } } if (!res && write_locked_index(s->r->index, &index_lock, COMMIT_LOCK) < 0) res = error(_("could not write index")); if (!res) printf(Q_("added %d path\n", "added %d paths\n", count), (int)count); finish_add_untracked: putchar('\n'); return res; } static int run_patch(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { int res = 0; ssize_t count, i, j; size_t unmerged_count = 0, binary_count = 0; if (get_modified_files(s->r, WORKTREE_ONLY, files, ps, &unmerged_count, &binary_count) < 0) return -1; if (unmerged_count || binary_count) { for (i = j = 0; i < files->items.nr; i++) { struct file_item *item = files->items.items[i].util; if (item->index.binary || item->worktree.binary) { free(item); free(files->items.items[i].string); } else if (item->index.unmerged || item->worktree.unmerged) { color_fprintf_ln(stderr, s->error_color, _("ignoring unmerged: %s"), files->items.items[i].string); free(item); free(files->items.items[i].string); } else files->items.items[j++] = files->items.items[i]; } files->items.nr = j; } if (!files->items.nr) { if (binary_count) fprintf(stderr, _("Only binary files changed.\n")); else fprintf(stderr, _("No changes.\n")); return 0; } opts->prompt = N_("Patch update"); count = list_and_choose(s, files, opts); if (count > 0) { struct argv_array args = ARGV_ARRAY_INIT; struct pathspec ps_selected = { 0 }; for (i = 0; i < files->items.nr; i++) if (files->selected[i]) argv_array_push(&args, files->items.items[i].string); parse_pathspec(&ps_selected, PATHSPEC_ALL_MAGIC & ~PATHSPEC_LITERAL, PATHSPEC_LITERAL_PATH, "", args.argv); res = run_add_p(s->r, ADD_P_ADD, NULL, &ps_selected); argv_array_clear(&args); clear_pathspec(&ps_selected); } return res; } static int run_diff(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts) { int res = 0; ssize_t count, i; struct object_id oid; int is_initial = !resolve_ref_unsafe("HEAD", RESOLVE_REF_READING, &oid, NULL); if (get_modified_files(s->r, INDEX_ONLY, files, ps, NULL, NULL) < 0) return -1; if (!files->items.nr) { putchar('\n'); return 0; } opts->prompt = N_("Review diff"); opts->flags = IMMEDIATE; count = list_and_choose(s, files, opts); opts->flags = 0; if (count > 0) { struct argv_array args = ARGV_ARRAY_INIT; argv_array_pushl(&args, "git", "diff", "-p", "--cached", oid_to_hex(!is_initial ? &oid : s->r->hash_algo->empty_tree), "--", NULL); for (i = 0; i < files->items.nr; i++) if (files->selected[i]) argv_array_push(&args, files->items.items[i].string); res = run_command_v_opt(args.argv, 0); argv_array_clear(&args); } putchar('\n'); return res; } static int run_help(struct add_i_state *s, const struct pathspec *unused_ps, struct prefix_item_list *unused_files, struct list_and_choose_options *unused_opts) { color_fprintf_ln(stdout, s->help_color, "status - %s", _("show paths with changes")); color_fprintf_ln(stdout, s->help_color, "update - %s", _("add working tree state to the staged set of changes")); color_fprintf_ln(stdout, s->help_color, "revert - %s", _("revert staged set of changes back to the HEAD version")); color_fprintf_ln(stdout, s->help_color, "patch - %s", _("pick hunks and update selectively")); color_fprintf_ln(stdout, s->help_color, "diff - %s", _("view diff between HEAD and index")); color_fprintf_ln(stdout, s->help_color, "add untracked - %s", _("add contents of untracked files to the staged set of changes")); return 0; } static void choose_prompt_help(struct add_i_state *s) { color_fprintf_ln(stdout, s->help_color, "%s", _("Prompt help:")); color_fprintf_ln(stdout, s->help_color, "1 - %s", _("select a single item")); color_fprintf_ln(stdout, s->help_color, "3-5 - %s", _("select a range of items")); color_fprintf_ln(stdout, s->help_color, "2-3,6-9 - %s", _("select multiple ranges")); color_fprintf_ln(stdout, s->help_color, "foo - %s", _("select item based on unique prefix")); color_fprintf_ln(stdout, s->help_color, "-... - %s", _("unselect specified items")); color_fprintf_ln(stdout, s->help_color, "* - %s", _("choose all items")); color_fprintf_ln(stdout, s->help_color, " - %s", _("(empty) finish selecting")); } typedef int (*command_t)(struct add_i_state *s, const struct pathspec *ps, struct prefix_item_list *files, struct list_and_choose_options *opts); struct command_item { size_t prefix_length; command_t command; }; struct print_command_item_data { const char *color, *reset; }; static void print_command_item(int i, int selected, struct string_list_item *item, void *print_command_item_data) { struct print_command_item_data *d = print_command_item_data; struct command_item *util = item->util; if (!util->prefix_length || !is_valid_prefix(item->string, util->prefix_length)) printf(" %2d: %s", i + 1, item->string); else printf(" %2d: %s%.*s%s%s", i + 1, d->color, (int)util->prefix_length, item->string, d->reset, item->string + util->prefix_length); } static void command_prompt_help(struct add_i_state *s) { const char *help_color = s->help_color; color_fprintf_ln(stdout, help_color, "%s", _("Prompt help:")); color_fprintf_ln(stdout, help_color, "1 - %s", _("select a numbered item")); color_fprintf_ln(stdout, help_color, "foo - %s", _("select item based on unique prefix")); color_fprintf_ln(stdout, help_color, " - %s", _("(empty) select nothing")); } int run_add_i(struct repository *r, const struct pathspec *ps) { struct add_i_state s = { NULL }; struct print_command_item_data data = { "[", "]" }; struct list_and_choose_options main_loop_opts = { { 4, N_("*** Commands ***"), print_command_item, &data }, N_("What now"), SINGLETON | IMMEDIATE, command_prompt_help }; struct { const char *string; command_t command; } command_list[] = { { "status", run_status }, { "update", run_update }, { "revert", run_revert }, { "add untracked", run_add_untracked }, { "patch", run_patch }, { "diff", run_diff }, { "quit", NULL }, { "help", run_help }, }; struct prefix_item_list commands = PREFIX_ITEM_LIST_INIT; struct print_file_item_data print_file_item_data = { "%12s %12s %s", NULL, NULL, STRBUF_INIT, STRBUF_INIT, STRBUF_INIT, STRBUF_INIT }; struct list_and_choose_options opts = { { 0, NULL, print_file_item, &print_file_item_data }, NULL, 0, choose_prompt_help }; struct strbuf header = STRBUF_INIT; struct prefix_item_list files = PREFIX_ITEM_LIST_INIT; ssize_t i; int res = 0; for (i = 0; i < ARRAY_SIZE(command_list); i++) { struct command_item *util = xcalloc(sizeof(*util), 1); util->command = command_list[i].command; string_list_append(&commands.items, command_list[i].string) ->util = util; } init_add_i_state(&s, r); /* * When color was asked for, use the prompt color for * highlighting, otherwise use square brackets. */ if (s.use_color) { data.color = s.prompt_color; data.reset = s.reset_color; } print_file_item_data.color = data.color; print_file_item_data.reset = data.reset; strbuf_addstr(&header, " "); strbuf_addf(&header, print_file_item_data.modified_fmt, _("staged"), _("unstaged"), _("path")); opts.list_opts.header = header.buf; if (discard_index(r->index) < 0 || repo_read_index(r) < 0 || repo_refresh_and_write_index(r, REFRESH_QUIET, 0, 1, NULL, NULL, NULL) < 0) warning(_("could not refresh index")); res = run_status(&s, ps, &files, &opts); for (;;) { struct command_item *util; i = list_and_choose(&s, &commands, &main_loop_opts); if (i < 0 || i >= commands.items.nr) util = NULL; else util = commands.items.items[i].util; if (i == LIST_AND_CHOOSE_QUIT || (util && !util->command)) { printf(_("Bye.\n")); res = 0; break; } if (util) res = util->command(&s, ps, &files, &opts); } prefix_item_list_clear(&files); strbuf_release(&print_file_item_data.buf); strbuf_release(&print_file_item_data.name); strbuf_release(&print_file_item_data.index); strbuf_release(&print_file_item_data.worktree); strbuf_release(&header); prefix_item_list_clear(&commands); clear_add_i_state(&s); return res; }