git/worktree.h

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#ifndef WORKTREE_H
#define WORKTREE_H
#include "cache.h"
#include "refs.h"
struct strbuf;
struct worktree {
char *path;
char *id;
char *head_ref; /* NULL if HEAD is broken or detached */
char *lock_reason; /* private - use worktree_lock_reason */
char *prune_reason; /* private - use worktree_prune_reason */
struct object_id head_oid;
int is_detached;
int is_bare;
int is_current;
int lock_reason_valid; /* private */
int prune_reason_valid; /* private */
};
/*
* Get the worktrees. The primary worktree will always be the first returned,
* and linked worktrees will follow in no particular order.
*
* The caller is responsible for freeing the memory from the returned
* worktrees by calling free_worktrees().
*/
struct worktree **get_worktrees(void);
/*
* Returns 1 if linked worktrees exist, 0 otherwise.
*/
int submodule_uses_worktrees(const char *path);
/*
* Return git dir of the worktree. Note that the path may be relative.
* If wt is NULL, git dir of current worktree is returned.
*/
const char *get_worktree_git_dir(const struct worktree *wt);
/*
* Search for the worktree identified unambiguously by `arg` -- typically
* supplied by the user via the command-line -- which may be a pathname or some
* shorthand uniquely identifying a worktree, thus making it convenient for the
* user to specify a worktree with minimal typing. For instance, if the last
* component (say, "foo") of a worktree's pathname is unique among worktrees
* (say, "work/foo" and "work/bar"), it can be used to identify the worktree
* unambiguously.
*
* `prefix` should be the `prefix` handed to top-level Git commands along with
* `argc` and `argv`.
*
* Return the worktree identified by `arg`, or NULL if not found.
*/
struct worktree *find_worktree(struct worktree **list,
const char *prefix,
const char *arg);
/*
* Return the worktree corresponding to `path`, or NULL if no such worktree
* exists.
*/
struct worktree *find_worktree_by_path(struct worktree **, const char *path);
/*
* Return true if the given worktree is the main one.
*/
int is_main_worktree(const struct worktree *wt);
/*
* Return the reason string if the given worktree is locked or NULL
* otherwise.
*/
const char *worktree_lock_reason(struct worktree *wt);
/*
* Return the reason string if the given worktree should be pruned, otherwise
* NULL if it should not be pruned. `expire` defines a grace period to prune
* the worktree when its path does not exist.
*/
const char *worktree_prune_reason(struct worktree *wt, timestamp_t expire);
/*
* Return true if worktree entry should be pruned, along with the reason for
* pruning. Otherwise, return false and the worktree's path in `wtpath`, or
* NULL if it cannot be determined. Caller is responsible for freeing
* returned path.
*
* `expire` defines a grace period to prune the worktree when its path
* does not exist.
*/
int should_prune_worktree(const char *id,
struct strbuf *reason,
char **wtpath,
timestamp_t expire);
#define WT_VALIDATE_WORKTREE_MISSING_OK (1 << 0)
/*
* Return zero if the worktree is in good condition. Error message is
* returned if "errmsg" is not NULL.
*/
int validate_worktree(const struct worktree *wt,
struct strbuf *errmsg,
unsigned flags);
/*
* Update worktrees/xxx/gitdir with the new path.
*/
void update_worktree_location(struct worktree *wt,
const char *path_);
typedef void (* worktree_repair_fn)(int iserr, const char *path,
const char *msg, void *cb_data);
/*
* Visit each registered linked worktree and repair corruptions. For each
* repair made or error encountered while attempting a repair, the callback
* function, if non-NULL, is called with the path of the worktree and a
* description of the repair or error, along with the callback user-data.
*/
void repair_worktrees(worktree_repair_fn, void *cb_data);
/*
* Repair administrative files corresponding to the worktree at the given path.
* The worktree's .git file pointing at the repository must be intact for the
* repair to succeed. Useful for re-associating an orphaned worktree with the
* repository if the worktree has been moved manually (without using "git
* worktree move"). For each repair made or error encountered while attempting
* a repair, the callback function, if non-NULL, is called with the path of the
* worktree and a description of the repair or error, along with the callback
* user-data.
*/
void repair_worktree_at_path(const char *, worktree_repair_fn, void *cb_data);
/*
* Free up the memory for worktree(s)
*/
void free_worktrees(struct worktree **);
/*
* Check if a per-worktree symref points to a ref in the main worktree
* or any linked worktree, and return the worktree that holds the ref,
* or NULL otherwise. The result may be destroyed by the next call.
*/
const struct worktree *find_shared_symref(const char *symref,
const char *target);
/*
* Similar to head_ref() for all HEADs _except_ one from the current
* worktree, which is covered by head_ref().
*/
int other_head_refs(each_ref_fn fn, void *cb_data);
int is_worktree_being_rebased(const struct worktree *wt, const char *target);
int is_worktree_being_bisected(const struct worktree *wt, const char *target);
/*
* Similar to git_path() but can produce paths for a specified
* worktree instead of current one
*/
const char *worktree_git_path(const struct worktree *wt,
const char *fmt, ...)
__attribute__((format (printf, 2, 3)));
refs: new ref types to make per-worktree refs visible to all worktrees One of the problems with multiple worktree is accessing per-worktree refs of one worktree from another worktree. This was sort of solved by multiple ref store, where the code can open the ref store of another worktree and has access to the ref space of that worktree. The problem with this is reporting. "HEAD" in another ref space is also called "HEAD" like in the current ref space. In order to differentiate them, all the code must somehow carry the ref store around and print something like "HEAD from this ref store". But that is not feasible (or possible with a _lot_ of work). With the current design, we pass a reference around as a string (so called "refname"). Extending this design to pass a string _and_ a ref store is a nightmare, especially when handling extended SHA-1 syntax. So we do it another way. Instead of entering a separate ref space, we make refs from other worktrees available in the current ref space. So "HEAD" is always HEAD of the current worktree, but then we can have "worktrees/blah/HEAD" to denote HEAD from a worktree named "blah". This syntax coincidentally matches the underlying directory structure which makes implementation a bit easier. The main worktree has to be treated specially because well... it's special from the beginning. So HEAD from the main worktree is acccessible via the name "main-worktree/HEAD" instead of "worktrees/main/HEAD" because "main" could be just another secondary worktree. This patch also makes it possible to specify refs from one worktree in another one, e.g. git log worktrees/foo/HEAD Signed-off-by: Nguyễn Thái Ngọc Duy <pclouds@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2018-10-21 08:08:54 +00:00
/*
* Parse a worktree ref (i.e. with prefix main-worktree/ or
* worktrees/) and return the position of the worktree's name and
* length (or NULL and zero if it's main worktree), and ref.
*
* All name, name_length and ref arguments could be NULL.
*/
int parse_worktree_ref(const char *worktree_ref, const char **name,
int *name_length, const char **ref);
/*
* Return a refname suitable for access from the current ref store.
*/
void strbuf_worktree_ref(const struct worktree *wt,
struct strbuf *sb,
const char *refname);
#endif