/* * Copyright (C) the libgit2 contributors. All rights reserved. * * This file is part of libgit2, distributed under the GNU GPL v2 with * a Linking Exception. For full terms see the included COPYING file. */ #ifndef INCLUDE_iterator_h__ #define INCLUDE_iterator_h__ #include "common.h" #include "git2/index.h" #include "vector.h" #include "buffer.h" #include "ignore.h" typedef struct git_iterator git_iterator; typedef enum { GIT_ITERATOR_TYPE_EMPTY = 0, GIT_ITERATOR_TYPE_TREE = 1, GIT_ITERATOR_TYPE_INDEX = 2, GIT_ITERATOR_TYPE_WORKDIR = 3, GIT_ITERATOR_TYPE_FS = 4, } git_iterator_type_t; typedef enum { /** ignore case for entry sort order */ GIT_ITERATOR_IGNORE_CASE = (1u << 0), /** force case sensitivity for entry sort order */ GIT_ITERATOR_DONT_IGNORE_CASE = (1u << 1), /** return tree items in addition to blob items */ GIT_ITERATOR_INCLUDE_TREES = (1u << 2), /** don't flatten trees, requiring advance_into (implies INCLUDE_TREES) */ GIT_ITERATOR_DONT_AUTOEXPAND = (1u << 3), /** convert precomposed unicode to decomposed unicode */ GIT_ITERATOR_PRECOMPOSE_UNICODE = (1u << 4), /** include conflicts */ GIT_ITERATOR_INCLUDE_CONFLICTS = (1u << 5), } git_iterator_flag_t; typedef struct { int (*current)(const git_index_entry **, git_iterator *); int (*advance)(const git_index_entry **, git_iterator *); int (*advance_into)(const git_index_entry **, git_iterator *); int (*seek)(git_iterator *, const char *prefix); int (*reset)(git_iterator *, const char *start, const char *end); int (*at_end)(git_iterator *); void (*free)(git_iterator *); } git_iterator_callbacks; struct git_iterator { git_iterator_type_t type; git_iterator_callbacks *cb; git_repository *repo; char *start; char *end; int (*prefixcomp)(const char *str, const char *prefix); size_t stat_calls; unsigned int flags; }; extern int git_iterator_for_nothing( git_iterator **out, git_iterator_flag_t flags, const char *start, const char *end); /* tree iterators will match the ignore_case value from the index of the * repository, unless you override with a non-zero flag value */ extern int git_iterator_for_tree( git_iterator **out, git_tree *tree, git_iterator_flag_t flags, const char *start, const char *end); /* index iterators will take the ignore_case value from the index; the * ignore_case flags are not used */ extern int git_iterator_for_index( git_iterator **out, git_index *index, git_iterator_flag_t flags, const char *start, const char *end); extern int git_iterator_for_workdir_ext( git_iterator **out, git_repository *repo, const char *repo_workdir, git_index *index, git_tree *tree, git_iterator_flag_t flags, const char *start, const char *end); /* workdir iterators will match the ignore_case value from the index of the * repository, unless you override with a non-zero flag value */ GIT_INLINE(int) git_iterator_for_workdir( git_iterator **out, git_repository *repo, git_index *index, git_tree *tree, git_iterator_flag_t flags, const char *start, const char *end) { return git_iterator_for_workdir_ext(out, repo, NULL, index, tree, flags, start, end); } /* for filesystem iterators, you have to explicitly pass in the ignore_case * behavior that you desire */ extern int git_iterator_for_filesystem( git_iterator **out, const char *root, git_iterator_flag_t flags, const char *start, const char *end); extern void git_iterator_free(git_iterator *iter); /* Return a git_index_entry structure for the current value the iterator * is looking at or NULL if the iterator is at the end. * * The entry may noy be fully populated. Tree iterators will only have a * value mode, OID, and path. Workdir iterators will not have an OID (but * you can use `git_iterator_current_oid()` to calculate it on demand). * * You do not need to free the entry. It is still "owned" by the iterator. * Once you call `git_iterator_advance()` then the old entry is no longer * guaranteed to be valid - it may be freed or just overwritten in place. */ GIT_INLINE(int) git_iterator_current( const git_index_entry **entry, git_iterator *iter) { return iter->cb->current(entry, iter); } /** * Advance to the next item for the iterator. * * If GIT_ITERATOR_INCLUDE_TREES is set, this may be a tree item. If * GIT_ITERATOR_DONT_AUTOEXPAND is set, calling this again when on a tree * item will skip over all the items under that tree. */ GIT_INLINE(int) git_iterator_advance( const git_index_entry **entry, git_iterator *iter) { return iter->cb->advance(entry, iter); } /** * Iterate into a tree item (when GIT_ITERATOR_DONT_AUTOEXPAND is set). * * git_iterator_advance() steps through all items being iterated over * (either with or without trees, depending on GIT_ITERATOR_INCLUDE_TREES), * but if GIT_ITERATOR_DONT_AUTOEXPAND is set, it will skip to the next * sibling of a tree instead of going to the first child of the tree. In * that case, use this function to advance to the first child of the tree. * * If the current item is not a tree, this is a no-op. * * For filesystem and working directory iterators, a tree (i.e. directory) * can be empty. In that case, this function returns GIT_ENOTFOUND and * does not advance. That can't happen for tree and index iterators. */ GIT_INLINE(int) git_iterator_advance_into( const git_index_entry **entry, git_iterator *iter) { return iter->cb->advance_into(entry, iter); } /** * Advance into a tree or skip over it if it is empty. * * Because `git_iterator_advance_into` may return GIT_ENOTFOUND if the * directory is empty (only with filesystem and working directory * iterators) and a common response is to just call `git_iterator_advance` * when that happens, this bundles the two into a single simple call. */ GIT_INLINE(int) git_iterator_advance_into_or_over( const git_index_entry **entry, git_iterator *iter) { int error = iter->cb->advance_into(entry, iter); if (error == GIT_ENOTFOUND) { giterr_clear(); error = iter->cb->advance(entry, iter); } return error; } /* Seek is currently unimplemented */ GIT_INLINE(int) git_iterator_seek( git_iterator *iter, const char *prefix) { return iter->cb->seek(iter, prefix); } /** * Go back to the start of the iteration. * * This resets the iterator to the start of the iteration. It also allows * you to reset the `start` and `end` pathname boundaries of the iteration * when doing so. */ GIT_INLINE(int) git_iterator_reset( git_iterator *iter, const char *start, const char *end) { return iter->cb->reset(iter, start, end); } /** * Check if the iterator is at the end * * @return 0 if not at end, >0 if at end */ GIT_INLINE(int) git_iterator_at_end(git_iterator *iter) { return iter->cb->at_end(iter); } GIT_INLINE(git_iterator_type_t) git_iterator_type(git_iterator *iter) { return iter->type; } GIT_INLINE(git_repository *) git_iterator_owner(git_iterator *iter) { return iter->repo; } GIT_INLINE(git_iterator_flag_t) git_iterator_flags(git_iterator *iter) { return iter->flags; } GIT_INLINE(bool) git_iterator_ignore_case(git_iterator *iter) { return ((iter->flags & GIT_ITERATOR_IGNORE_CASE) != 0); } extern int git_iterator_set_ignore_case(git_iterator *iter, bool ignore_case); extern int git_iterator_current_tree_entry( const git_tree_entry **entry_out, git_iterator *iter); extern int git_iterator_current_parent_tree( const git_tree **tree_out, git_iterator *iter, const char *parent_path); extern bool git_iterator_current_is_ignored(git_iterator *iter); extern bool git_iterator_current_tree_is_ignored(git_iterator *iter); extern int git_iterator_cmp( git_iterator *iter, const char *path_prefix); /** * Get full path of the current item from a workdir iterator. This will * return NULL for a non-workdir iterator. The git_buf is still owned by * the iterator; this is exposed just for efficiency. */ extern int git_iterator_current_workdir_path( git_buf **path, git_iterator *iter); /* Return index pointer if index iterator, else NULL */ extern git_index *git_iterator_get_index(git_iterator *iter); typedef enum { GIT_ITERATOR_STATUS_NORMAL = 0, GIT_ITERATOR_STATUS_IGNORED = 1, GIT_ITERATOR_STATUS_EMPTY = 2 } git_iterator_status_t; /* Advance over a directory and check if it contains no files or just * ignored files. * * In a tree or the index, all directories will contain files, but in the * working directory it is possible to have an empty directory tree or a * tree that only contains ignored files. Many Git operations treat these * cases specially. This advances over a directory (presumably an * untracked directory) but checks during the scan if there are any files * and any non-ignored files. */ extern int git_iterator_advance_over_with_status( const git_index_entry **entry, git_iterator_status_t *status, git_iterator *iter); /** * Retrieve the index stored in the iterator. * * Only implemented for the workdir iterator */ extern int git_iterator_index(git_index **out, git_iterator *iter); typedef int (*git_iterator_walk_cb)( const git_index_entry **entries, void *data); /** * Walk the given iterators in lock-step. The given callback will be * called for each unique path, with the index entry in each iterator * (or NULL if the given iterator does not contain that path). */ extern int git_iterator_walk( git_iterator **iterators, size_t cnt, git_iterator_walk_cb cb, void *data); #endif