git/apply.h

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#ifndef APPLY_H
#define APPLY_H
enum apply_ws_error_action {
nowarn_ws_error,
warn_on_ws_error,
die_on_ws_error,
correct_ws_error
};
enum apply_ws_ignore {
ignore_ws_none,
ignore_ws_change
};
enum apply_verbosity {
verbosity_silent = -1,
verbosity_normal = 0,
verbosity_verbose = 1
};
/*
* We need to keep track of how symlinks in the preimage are
* manipulated by the patches. A patch to add a/b/c where a/b
* is a symlink should not be allowed to affect the directory
* the symlink points at, but if the same patch removes a/b,
* it is perfectly fine, as the patch removes a/b to make room
* to create a directory a/b so that a/b/c can be created.
*
* See also "struct string_list symlink_changes" in "struct
* apply_state".
*/
#define APPLY_SYMLINK_GOES_AWAY 01
#define APPLY_SYMLINK_IN_RESULT 02
struct apply_state {
const char *prefix;
/* Lock file */
apply: move lockfile into `apply_state` We have two users of `struct apply_state` and the related functionality in apply.c. Each user sets up its `apply_state` by handing over a pointer to its static `lock_file`. (Before 076aa2cbd (tempfile: auto-allocate tempfiles on heap, 2017-09-05), we could never free lockfiles, so making them static was a reasonable approach.) Other than that, they never directly access their `lock_file`s, which are instead handled by the functionality in apply.c. To make life easier for the caller and to make it less tempting for a future caller to mess with the lock, make apply.c fully responsible for setting up the `lock_file`. As mentioned above, it is now safe to free a `lock_file`, so we can make the `struct apply_state` contain an actual `struct lock_file` instead of a pointer to one. The user in builtin/apply.c is rather simple. For builtin/am.c, we might worry that the lock state is actually meant to be inherited across calls. But the lock is only taken as `apply_all_patches()` executes, and code inspection shows that it will always be released. Alternatively, we can observe that the lock itself is never queried directly. When we decide whether we should lock, we check a related variable `newfd`. That variable is not inherited, so from the point of view of apply.c, the state machine really is reset with each call to `init_apply_state()`. (It would be a bug if `newfd` and the lock status were not in sync. The duplication of information in `newfd` and the lock will be addressed in the next patch.) Signed-off-by: Martin Ågren <martin.agren@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-10-06 04:32:09 +08:00
struct lock_file lock_file;
/* These control what gets looked at and modified */
int apply; /* this is not a dry-run */
int cached; /* apply to the index only */
int check; /* preimage must match working tree, don't actually apply */
int check_index; /* preimage must match the indexed version */
int update_index; /* check_index && apply */
int ita_only; /* add intent-to-add entries to the index */
/* These control cosmetic aspect of the output */
int diffstat; /* just show a diffstat, and don't actually apply */
int numstat; /* just show a numeric diffstat, and don't actually apply */
int summary; /* just report creation, deletion, etc, and don't actually apply */
/* These boolean parameters control how the apply is done */
int allow_overlap;
int apply_in_reverse;
int apply_with_reject;
int no_add;
int threeway;
int unidiff_zero;
int unsafe_paths;
/* Other non boolean parameters */
const char *index_file;
enum apply_verbosity apply_verbosity;
const char *fake_ancestor;
const char *patch_input_file;
int line_termination;
struct strbuf root;
int p_value;
int p_value_known;
unsigned int p_context;
/* Exclude and include path parameters */
struct string_list limit_by_name;
int has_include;
/* Various "current state" */
int linenr; /* current line number */
struct string_list symlink_changes; /* we have to track symlinks */
/*
* For "diff-stat" like behaviour, we keep track of the biggest change
* we've seen, and the longest filename. That allows us to do simple
* scaling.
*/
int max_change;
int max_len;
/*
* Records filenames that have been touched, in order to handle
* the case where more than one patches touch the same file.
*/
struct string_list fn_table;
/*
* This is to save reporting routines before using
* set_error_routine() or set_warn_routine() to install muting
* routines when in verbosity_silent mode.
*/
void (*saved_error_routine)(const char *err, va_list params);
void (*saved_warn_routine)(const char *warn, va_list params);
/* These control whitespace errors */
enum apply_ws_error_action ws_error_action;
enum apply_ws_ignore ws_ignore_action;
const char *whitespace_option;
int whitespace_error;
int squelch_whitespace_errors;
int applied_after_fixing_ws;
};
extern int apply_parse_options(int argc, const char **argv,
struct apply_state *state,
int *force_apply, int *options,
const char * const *apply_usage);
extern int init_apply_state(struct apply_state *state,
apply: move lockfile into `apply_state` We have two users of `struct apply_state` and the related functionality in apply.c. Each user sets up its `apply_state` by handing over a pointer to its static `lock_file`. (Before 076aa2cbd (tempfile: auto-allocate tempfiles on heap, 2017-09-05), we could never free lockfiles, so making them static was a reasonable approach.) Other than that, they never directly access their `lock_file`s, which are instead handled by the functionality in apply.c. To make life easier for the caller and to make it less tempting for a future caller to mess with the lock, make apply.c fully responsible for setting up the `lock_file`. As mentioned above, it is now safe to free a `lock_file`, so we can make the `struct apply_state` contain an actual `struct lock_file` instead of a pointer to one. The user in builtin/apply.c is rather simple. For builtin/am.c, we might worry that the lock state is actually meant to be inherited across calls. But the lock is only taken as `apply_all_patches()` executes, and code inspection shows that it will always be released. Alternatively, we can observe that the lock itself is never queried directly. When we decide whether we should lock, we check a related variable `newfd`. That variable is not inherited, so from the point of view of apply.c, the state machine really is reset with each call to `init_apply_state()`. (It would be a bug if `newfd` and the lock status were not in sync. The duplication of information in `newfd` and the lock will be addressed in the next patch.) Signed-off-by: Martin Ågren <martin.agren@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2017-10-06 04:32:09 +08:00
const char *prefix);
extern void clear_apply_state(struct apply_state *state);
extern int check_apply_state(struct apply_state *state, int force_apply);
/*
* Some aspects of the apply behavior are controlled by the following
* bits in the "options" parameter passed to apply_all_patches().
*/
#define APPLY_OPT_INACCURATE_EOF (1<<0) /* accept inaccurate eof */
#define APPLY_OPT_RECOUNT (1<<1) /* accept inaccurate line count */
extern int apply_all_patches(struct apply_state *state,
int argc,
const char **argv,
int options);
#endif