blob: 8d770d203ff78f487b9497cf0603436cb56d4e74 [file] [log] [blame]
#include "cache.h"
#include "add-interactive.h"
#include "advice.h"
#include "alloc.h"
#include "editor.h"
#include "environment.h"
#include "gettext.h"
#include "object-name.h"
#include "strbuf.h"
#include "run-command.h"
#include "strvec.h"
#include "pathspec.h"
#include "color.h"
#include "diff.h"
#include "compat/terminal.h"
#include "prompt.h"
enum prompt_mode_type {
PROMPT_MODE_CHANGE = 0, PROMPT_DELETION, PROMPT_ADDITION, PROMPT_HUNK,
PROMPT_MODE_MAX, /* must be last */
};
struct patch_mode {
/*
* The magic constant 4 is chosen such that all patch modes
* provide enough space for three command-line arguments followed by a
* trailing `NULL`.
*/
const char *diff_cmd[4], *apply_args[4], *apply_check_args[4];
unsigned is_reverse:1, index_only:1, apply_for_checkout:1;
const char *prompt_mode[PROMPT_MODE_MAX];
const char *edit_hunk_hint, *help_patch_text;
};
static struct patch_mode patch_mode_add = {
.diff_cmd = { "diff-files", NULL },
.apply_args = { "--cached", NULL },
.apply_check_args = { "--cached", NULL },
.prompt_mode = {
N_("Stage mode change [y,n,q,a,d%s,?]? "),
N_("Stage deletion [y,n,q,a,d%s,?]? "),
N_("Stage addition [y,n,q,a,d%s,?]? "),
N_("Stage this hunk [y,n,q,a,d%s,?]? ")
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for staging."),
.help_patch_text =
N_("y - stage this hunk\n"
"n - do not stage this hunk\n"
"q - quit; do not stage this hunk or any of the remaining "
"ones\n"
"a - stage this hunk and all later hunks in the file\n"
"d - do not stage this hunk or any of the later hunks in "
"the file\n")
};
static struct patch_mode patch_mode_stash = {
.diff_cmd = { "diff-index", "HEAD", NULL },
.apply_args = { "--cached", NULL },
.apply_check_args = { "--cached", NULL },
.prompt_mode = {
N_("Stash mode change [y,n,q,a,d%s,?]? "),
N_("Stash deletion [y,n,q,a,d%s,?]? "),
N_("Stash addition [y,n,q,a,d%s,?]? "),
N_("Stash this hunk [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for stashing."),
.help_patch_text =
N_("y - stash this hunk\n"
"n - do not stash this hunk\n"
"q - quit; do not stash this hunk or any of the remaining "
"ones\n"
"a - stash this hunk and all later hunks in the file\n"
"d - do not stash this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_reset_head = {
.diff_cmd = { "diff-index", "--cached", NULL },
.apply_args = { "-R", "--cached", NULL },
.apply_check_args = { "-R", "--cached", NULL },
.is_reverse = 1,
.index_only = 1,
.prompt_mode = {
N_("Unstage mode change [y,n,q,a,d%s,?]? "),
N_("Unstage deletion [y,n,q,a,d%s,?]? "),
N_("Unstage addition [y,n,q,a,d%s,?]? "),
N_("Unstage this hunk [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for unstaging."),
.help_patch_text =
N_("y - unstage this hunk\n"
"n - do not unstage this hunk\n"
"q - quit; do not unstage this hunk or any of the remaining "
"ones\n"
"a - unstage this hunk and all later hunks in the file\n"
"d - do not unstage this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_reset_nothead = {
.diff_cmd = { "diff-index", "-R", "--cached", NULL },
.apply_args = { "--cached", NULL },
.apply_check_args = { "--cached", NULL },
.index_only = 1,
.prompt_mode = {
N_("Apply mode change to index [y,n,q,a,d%s,?]? "),
N_("Apply deletion to index [y,n,q,a,d%s,?]? "),
N_("Apply addition to index [y,n,q,a,d%s,?]? "),
N_("Apply this hunk to index [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for applying."),
.help_patch_text =
N_("y - apply this hunk to index\n"
"n - do not apply this hunk to index\n"
"q - quit; do not apply this hunk or any of the remaining "
"ones\n"
"a - apply this hunk and all later hunks in the file\n"
"d - do not apply this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_checkout_index = {
.diff_cmd = { "diff-files", NULL },
.apply_args = { "-R", NULL },
.apply_check_args = { "-R", NULL },
.is_reverse = 1,
.prompt_mode = {
N_("Discard mode change from worktree [y,n,q,a,d%s,?]? "),
N_("Discard deletion from worktree [y,n,q,a,d%s,?]? "),
N_("Discard addition from worktree [y,n,q,a,d%s,?]? "),
N_("Discard this hunk from worktree [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for discarding."),
.help_patch_text =
N_("y - discard this hunk from worktree\n"
"n - do not discard this hunk from worktree\n"
"q - quit; do not discard this hunk or any of the remaining "
"ones\n"
"a - discard this hunk and all later hunks in the file\n"
"d - do not discard this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_checkout_head = {
.diff_cmd = { "diff-index", NULL },
.apply_for_checkout = 1,
.apply_check_args = { "-R", NULL },
.is_reverse = 1,
.prompt_mode = {
N_("Discard mode change from index and worktree [y,n,q,a,d%s,?]? "),
N_("Discard deletion from index and worktree [y,n,q,a,d%s,?]? "),
N_("Discard addition from index and worktree [y,n,q,a,d%s,?]? "),
N_("Discard this hunk from index and worktree [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for discarding."),
.help_patch_text =
N_("y - discard this hunk from index and worktree\n"
"n - do not discard this hunk from index and worktree\n"
"q - quit; do not discard this hunk or any of the remaining "
"ones\n"
"a - discard this hunk and all later hunks in the file\n"
"d - do not discard this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_checkout_nothead = {
.diff_cmd = { "diff-index", "-R", NULL },
.apply_for_checkout = 1,
.apply_check_args = { NULL },
.prompt_mode = {
N_("Apply mode change to index and worktree [y,n,q,a,d%s,?]? "),
N_("Apply deletion to index and worktree [y,n,q,a,d%s,?]? "),
N_("Apply addition to index and worktree [y,n,q,a,d%s,?]? "),
N_("Apply this hunk to index and worktree [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for applying."),
.help_patch_text =
N_("y - apply this hunk to index and worktree\n"
"n - do not apply this hunk to index and worktree\n"
"q - quit; do not apply this hunk or any of the remaining "
"ones\n"
"a - apply this hunk and all later hunks in the file\n"
"d - do not apply this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_worktree_head = {
.diff_cmd = { "diff-index", NULL },
.apply_args = { "-R", NULL },
.apply_check_args = { "-R", NULL },
.is_reverse = 1,
.prompt_mode = {
N_("Discard mode change from worktree [y,n,q,a,d%s,?]? "),
N_("Discard deletion from worktree [y,n,q,a,d%s,?]? "),
N_("Discard addition from worktree [y,n,q,a,d%s,?]? "),
N_("Discard this hunk from worktree [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for discarding."),
.help_patch_text =
N_("y - discard this hunk from worktree\n"
"n - do not discard this hunk from worktree\n"
"q - quit; do not discard this hunk or any of the remaining "
"ones\n"
"a - discard this hunk and all later hunks in the file\n"
"d - do not discard this hunk or any of the later hunks in "
"the file\n"),
};
static struct patch_mode patch_mode_worktree_nothead = {
.diff_cmd = { "diff-index", "-R", NULL },
.apply_args = { NULL },
.apply_check_args = { NULL },
.prompt_mode = {
N_("Apply mode change to worktree [y,n,q,a,d%s,?]? "),
N_("Apply deletion to worktree [y,n,q,a,d%s,?]? "),
N_("Apply addition to worktree [y,n,q,a,d%s,?]? "),
N_("Apply this hunk to worktree [y,n,q,a,d%s,?]? "),
},
.edit_hunk_hint = N_("If the patch applies cleanly, the edited hunk "
"will immediately be marked for applying."),
.help_patch_text =
N_("y - apply this hunk to worktree\n"
"n - do not apply this hunk to worktree\n"
"q - quit; do not apply this hunk or any of the remaining "
"ones\n"
"a - apply this hunk and all later hunks in the file\n"
"d - do not apply this hunk or any of the later hunks in "
"the file\n"),
};
struct hunk_header {
unsigned long old_offset, old_count, new_offset, new_count;
/*
* Start/end offsets to the extra text after the second `@@` in the
* hunk header, e.g. the function signature. This is expected to
* include the newline.
*/
size_t extra_start, extra_end, colored_extra_start, colored_extra_end;
unsigned suppress_colored_line_range:1;
};
struct hunk {
size_t start, end, colored_start, colored_end, splittable_into;
ssize_t delta;
enum { UNDECIDED_HUNK = 0, SKIP_HUNK, USE_HUNK } use;
struct hunk_header header;
};
struct add_p_state {
struct add_i_state s;
struct strbuf answer, buf;
/* parsed diff */
struct strbuf plain, colored;
struct file_diff {
struct hunk head;
struct hunk *hunk;
size_t hunk_nr, hunk_alloc;
unsigned deleted:1, added:1, mode_change:1,binary:1;
} *file_diff;
size_t file_diff_nr;
/* patch mode */
struct patch_mode *mode;
const char *revision;
};
static void add_p_state_clear(struct add_p_state *s)
{
size_t i;
strbuf_release(&s->answer);
strbuf_release(&s->buf);
strbuf_release(&s->plain);
strbuf_release(&s->colored);
for (i = 0; i < s->file_diff_nr; i++)
free(s->file_diff[i].hunk);
free(s->file_diff);
clear_add_i_state(&s->s);
}
__attribute__((format (printf, 2, 3)))
static void err(struct add_p_state *s, const char *fmt, ...)
{
va_list args;
va_start(args, fmt);
fputs(s->s.error_color, stderr);
vfprintf(stderr, fmt, args);
fputs(s->s.reset_color, stderr);
fputc('\n', stderr);
va_end(args);
}
static void setup_child_process(struct add_p_state *s,
struct child_process *cp, ...)
{
va_list ap;
const char *arg;
va_start(ap, cp);
while ((arg = va_arg(ap, const char *)))
strvec_push(&cp->args, arg);
va_end(ap);
cp->git_cmd = 1;
strvec_pushf(&cp->env,
INDEX_ENVIRONMENT "=%s", s->s.r->index_file);
}
static int parse_range(const char **p,
unsigned long *offset, unsigned long *count)
{
char *pend;
*offset = strtoul(*p, &pend, 10);
if (pend == *p)
return -1;
if (*pend != ',') {
*count = 1;
*p = pend;
return 0;
}
*count = strtoul(pend + 1, (char **)p, 10);
return *p == pend + 1 ? -1 : 0;
}
static int parse_hunk_header(struct add_p_state *s, struct hunk *hunk)
{
struct hunk_header *header = &hunk->header;
const char *line = s->plain.buf + hunk->start, *p = line;
char *eol = memchr(p, '\n', s->plain.len - hunk->start);
if (!eol)
eol = s->plain.buf + s->plain.len;
if (!skip_prefix(p, "@@ -", &p) ||
parse_range(&p, &header->old_offset, &header->old_count) < 0 ||
!skip_prefix(p, " +", &p) ||
parse_range(&p, &header->new_offset, &header->new_count) < 0 ||
!skip_prefix(p, " @@", &p))
return error(_("could not parse hunk header '%.*s'"),
(int)(eol - line), line);
hunk->start = eol - s->plain.buf + (*eol == '\n');
header->extra_start = p - s->plain.buf;
header->extra_end = hunk->start;
if (!s->colored.len) {
header->colored_extra_start = header->colored_extra_end = 0;
return 0;
}
/* Now find the extra text in the colored diff */
line = s->colored.buf + hunk->colored_start;
eol = memchr(line, '\n', s->colored.len - hunk->colored_start);
if (!eol)
eol = s->colored.buf + s->colored.len;
p = memmem(line, eol - line, "@@ -", 4);
if (p && (p = memmem(p + 4, eol - p - 4, " @@", 3))) {
header->colored_extra_start = p + 3 - s->colored.buf;
} else {
/* could not parse colored hunk header, leave as-is */
header->colored_extra_start = hunk->colored_start;
header->suppress_colored_line_range = 1;
}
hunk->colored_start = eol - s->colored.buf + (*eol == '\n');
header->colored_extra_end = hunk->colored_start;
return 0;
}
static int is_octal(const char *p, size_t len)
{
if (!len)
return 0;
while (len--)
if (*p < '0' || *(p++) > '7')
return 0;
return 1;
}
static void complete_file(char marker, struct hunk *hunk)
{
if (marker == '-' || marker == '+')
/*
* Last hunk ended in non-context line (i.e. it
* appended lines to the file, so there are no
* trailing context lines).
*/
hunk->splittable_into++;
}
static int parse_diff(struct add_p_state *s, const struct pathspec *ps)
{
struct strvec args = STRVEC_INIT;
const char *diff_algorithm = s->s.interactive_diff_algorithm;
struct strbuf *plain = &s->plain, *colored = NULL;
struct child_process cp = CHILD_PROCESS_INIT;
char *p, *pend, *colored_p = NULL, *colored_pend = NULL, marker = '\0';
size_t file_diff_alloc = 0, i, color_arg_index;
struct file_diff *file_diff = NULL;
struct hunk *hunk = NULL;
int res;
strvec_pushv(&args, s->mode->diff_cmd);
if (diff_algorithm)
strvec_pushf(&args, "--diff-algorithm=%s", diff_algorithm);
if (s->revision) {
struct object_id oid;
strvec_push(&args,
/* could be on an unborn branch */
!strcmp("HEAD", s->revision) &&
repo_get_oid(the_repository, "HEAD", &oid) ?
empty_tree_oid_hex() : s->revision);
}
color_arg_index = args.nr;
/* Use `--no-color` explicitly, just in case `diff.color = always`. */
strvec_pushl(&args, "--no-color", "--ignore-submodules=dirty", "-p",
"--", NULL);
for (i = 0; i < ps->nr; i++)
strvec_push(&args, ps->items[i].original);
setup_child_process(s, &cp, NULL);
strvec_pushv(&cp.args, args.v);
res = capture_command(&cp, plain, 0);
if (res) {
strvec_clear(&args);
return error(_("could not parse diff"));
}
if (!plain->len) {
strvec_clear(&args);
return 0;
}
strbuf_complete_line(plain);
if (want_color_fd(1, -1)) {
struct child_process colored_cp = CHILD_PROCESS_INIT;
const char *diff_filter = s->s.interactive_diff_filter;
setup_child_process(s, &colored_cp, NULL);
xsnprintf((char *)args.v[color_arg_index], 8, "--color");
strvec_pushv(&colored_cp.args, args.v);
colored = &s->colored;
res = capture_command(&colored_cp, colored, 0);
strvec_clear(&args);
if (res)
return error(_("could not parse colored diff"));
if (diff_filter) {
struct child_process filter_cp = CHILD_PROCESS_INIT;
setup_child_process(s, &filter_cp,
diff_filter, NULL);
filter_cp.git_cmd = 0;
filter_cp.use_shell = 1;
strbuf_reset(&s->buf);
if (pipe_command(&filter_cp,
colored->buf, colored->len,
&s->buf, colored->len,
NULL, 0) < 0)
return error(_("failed to run '%s'"),
diff_filter);
strbuf_swap(colored, &s->buf);
}
strbuf_complete_line(colored);
colored_p = colored->buf;
colored_pend = colored_p + colored->len;
}
strvec_clear(&args);
/* parse files and hunks */
p = plain->buf;
pend = p + plain->len;
while (p != pend) {
char *eol = memchr(p, '\n', pend - p);
const char *deleted = NULL, *mode_change = NULL;
if (!eol)
eol = pend;
if (starts_with(p, "diff ") ||
starts_with(p, "* Unmerged path ")) {
complete_file(marker, hunk);
ALLOC_GROW_BY(s->file_diff, s->file_diff_nr, 1,
file_diff_alloc);
file_diff = s->file_diff + s->file_diff_nr - 1;
hunk = &file_diff->head;
hunk->start = p - plain->buf;
if (colored_p)
hunk->colored_start = colored_p - colored->buf;
marker = '\0';
} else if (p == plain->buf)
BUG("diff starts with unexpected line:\n"
"%.*s\n", (int)(eol - p), p);
else if (file_diff->deleted)
; /* keep the rest of the file in a single "hunk" */
else if (starts_with(p, "@@ ") ||
(hunk == &file_diff->head &&
(skip_prefix(p, "deleted file", &deleted)))) {
if (marker == '-' || marker == '+')
/*
* Should not happen; previous hunk did not end
* in a context line? Handle it anyway.
*/
hunk->splittable_into++;
ALLOC_GROW_BY(file_diff->hunk, file_diff->hunk_nr, 1,
file_diff->hunk_alloc);
hunk = file_diff->hunk + file_diff->hunk_nr - 1;
hunk->start = p - plain->buf;
if (colored)
hunk->colored_start = colored_p - colored->buf;
if (deleted)
file_diff->deleted = 1;
else if (parse_hunk_header(s, hunk) < 0)
return -1;
/*
* Start counting into how many hunks this one can be
* split
*/
marker = *p;
} else if (hunk == &file_diff->head &&
starts_with(p, "new file")) {
file_diff->added = 1;
} else if (hunk == &file_diff->head &&
skip_prefix(p, "old mode ", &mode_change) &&
is_octal(mode_change, eol - mode_change)) {
if (file_diff->mode_change)
BUG("double mode change?\n\n%.*s",
(int)(eol - plain->buf), plain->buf);
if (file_diff->hunk_nr)
BUG("mode change in the middle?\n\n%.*s",
(int)(eol - plain->buf), plain->buf);
/*
* Do *not* change `hunk`: the mode change pseudo-hunk
* is _part of_ the header "hunk".
*/
file_diff->mode_change = 1;
ALLOC_GROW_BY(file_diff->hunk, file_diff->hunk_nr, 1,
file_diff->hunk_alloc);
file_diff->hunk->start = p - plain->buf;
if (colored_p)
file_diff->hunk->colored_start =
colored_p - colored->buf;
} else if (hunk == &file_diff->head &&
skip_prefix(p, "new mode ", &mode_change) &&
is_octal(mode_change, eol - mode_change)) {
/*
* Extend the "mode change" pseudo-hunk to include also
* the "new mode" line.
*/
if (!file_diff->mode_change)
BUG("'new mode' without 'old mode'?\n\n%.*s",
(int)(eol - plain->buf), plain->buf);
if (file_diff->hunk_nr != 1)
BUG("mode change in the middle?\n\n%.*s",
(int)(eol - plain->buf), plain->buf);
if (p - plain->buf != file_diff->hunk->end)
BUG("'new mode' does not immediately follow "
"'old mode'?\n\n%.*s",
(int)(eol - plain->buf), plain->buf);
} else if (hunk == &file_diff->head &&
starts_with(p, "Binary files "))
file_diff->binary = 1;
if (!!file_diff->deleted + !!file_diff->added +
!!file_diff->mode_change > 1)
BUG("diff can only contain delete *or* add *or* a "
"mode change?!?\n%.*s",
(int)(eol - (plain->buf + file_diff->head.start)),
plain->buf + file_diff->head.start);
if ((marker == '-' || marker == '+') && *p == ' ')
hunk->splittable_into++;
if (marker && *p != '\\')
marker = *p;
p = eol == pend ? pend : eol + 1;
hunk->end = p - plain->buf;
if (colored) {
char *colored_eol = memchr(colored_p, '\n',
colored_pend - colored_p);
if (colored_eol)
colored_p = colored_eol + 1;
else if (p != pend)
/* non-colored has more lines? */
goto mismatched_output;
else if (colored_p == colored_pend)
/* last line has no matching colored one? */
goto mismatched_output;
else
colored_p = colored_pend;
hunk->colored_end = colored_p - colored->buf;
}
if (mode_change) {
if (file_diff->hunk_nr != 1)
BUG("mode change in hunk #%d???",
(int)file_diff->hunk_nr);
/* Adjust the end of the "mode change" pseudo-hunk */
file_diff->hunk->end = hunk->end;
if (colored)
file_diff->hunk->colored_end = hunk->colored_end;
}
}
complete_file(marker, hunk);
/* non-colored shorter than colored? */
if (colored_p != colored_pend) {
mismatched_output:
error(_("mismatched output from interactive.diffFilter"));
advise(_("Your filter must maintain a one-to-one correspondence\n"
"between its input and output lines."));
return -1;
}
return 0;
}
static size_t find_next_line(struct strbuf *sb, size_t offset)
{
char *eol;
if (offset >= sb->len)
BUG("looking for next line beyond buffer (%d >= %d)\n%s",
(int)offset, (int)sb->len, sb->buf);
eol = memchr(sb->buf + offset, '\n', sb->len - offset);
if (!eol)
return sb->len;
return eol - sb->buf + 1;
}
static void render_hunk(struct add_p_state *s, struct hunk *hunk,
ssize_t delta, int colored, struct strbuf *out)
{
struct hunk_header *header = &hunk->header;
if (hunk->header.old_offset != 0 || hunk->header.new_offset != 0) {
/*
* Generate the hunk header dynamically, except for special
* hunks (such as the diff header).
*/
const char *p;
size_t len;
unsigned long old_offset = header->old_offset;
unsigned long new_offset = header->new_offset;
if (!colored) {
p = s->plain.buf + header->extra_start;
len = header->extra_end - header->extra_start;
} else if (header->suppress_colored_line_range) {
strbuf_add(out,
s->colored.buf + header->colored_extra_start,
header->colored_extra_end -
header->colored_extra_start);
strbuf_add(out, s->colored.buf + hunk->colored_start,
hunk->colored_end - hunk->colored_start);
return;
} else {
strbuf_addstr(out, s->s.fraginfo_color);
p = s->colored.buf + header->colored_extra_start;
len = header->colored_extra_end
- header->colored_extra_start;
}
if (s->mode->is_reverse)
old_offset -= delta;
else
new_offset += delta;
strbuf_addf(out, "@@ -%lu", old_offset);
if (header->old_count != 1)
strbuf_addf(out, ",%lu", header->old_count);
strbuf_addf(out, " +%lu", new_offset);
if (header->new_count != 1)
strbuf_addf(out, ",%lu", header->new_count);
strbuf_addstr(out, " @@");
if (len)
strbuf_add(out, p, len);
else if (colored)
strbuf_addf(out, "%s\n", s->s.reset_color);
else
strbuf_addch(out, '\n');
}
if (colored)
strbuf_add(out, s->colored.buf + hunk->colored_start,
hunk->colored_end - hunk->colored_start);
else
strbuf_add(out, s->plain.buf + hunk->start,
hunk->end - hunk->start);
}
static void render_diff_header(struct add_p_state *s,
struct file_diff *file_diff, int colored,
struct strbuf *out)
{
/*
* If there was a mode change, the first hunk is a pseudo hunk that
* corresponds to the mode line in the header. If the user did not want
* to stage that "hunk", we actually have to cut it out from the header.
*/
int skip_mode_change =
file_diff->mode_change && file_diff->hunk->use != USE_HUNK;
struct hunk *head = &file_diff->head, *first = file_diff->hunk;
if (!skip_mode_change) {
render_hunk(s, head, 0, colored, out);
return;
}
if (colored) {
const char *p = s->colored.buf;
strbuf_add(out, p + head->colored_start,
first->colored_start - head->colored_start);
strbuf_add(out, p + first->colored_end,
head->colored_end - first->colored_end);
} else {
const char *p = s->plain.buf;
strbuf_add(out, p + head->start, first->start - head->start);
strbuf_add(out, p + first->end, head->end - first->end);
}
}
/* Coalesce hunks again that were split */
static int merge_hunks(struct add_p_state *s, struct file_diff *file_diff,
size_t *hunk_index, int use_all, struct hunk *merged)
{
size_t i = *hunk_index, delta;
struct hunk *hunk = file_diff->hunk + i;
/* `header` corresponds to the merged hunk */
struct hunk_header *header = &merged->header, *next;
if (!use_all && hunk->use != USE_HUNK)
return 0;
*merged = *hunk;
/* We simply skip the colored part (if any) when merging hunks */
merged->colored_start = merged->colored_end = 0;
for (; i + 1 < file_diff->hunk_nr; i++) {
hunk++;
next = &hunk->header;
/*
* Stop merging hunks when:
*
* - the hunk is not selected for use, or
* - the hunk does not overlap with the already-merged hunk(s)
*/
if ((!use_all && hunk->use != USE_HUNK) ||
header->new_offset >= next->new_offset + merged->delta ||
header->new_offset + header->new_count
< next->new_offset + merged->delta)
break;
/*
* If the hunks were not edited, and overlap, we can simply
* extend the line range.
*/
if (merged->start < hunk->start && merged->end > hunk->start) {
merged->end = hunk->end;
merged->colored_end = hunk->colored_end;
delta = 0;
} else {
const char *plain = s->plain.buf;
size_t overlapping_line_count = header->new_offset
+ header->new_count - merged->delta
- next->new_offset;
size_t overlap_end = hunk->start;
size_t overlap_start = overlap_end;
size_t overlap_next, len, j;
/*
* One of the hunks was edited: the modified hunk was
* appended to the strbuf `s->plain`.
*
* Let's ensure that at least the last context line of
* the first hunk overlaps with the corresponding line
* of the second hunk, and then merge.
*/
for (j = 0; j < overlapping_line_count; j++) {
overlap_next = find_next_line(&s->plain,
overlap_end);
if (overlap_next > hunk->end)
BUG("failed to find %d context lines "
"in:\n%.*s",
(int)overlapping_line_count,
(int)(hunk->end - hunk->start),
plain + hunk->start);
if (plain[overlap_end] != ' ')
return error(_("expected context line "
"#%d in\n%.*s"),
(int)(j + 1),
(int)(hunk->end
- hunk->start),
plain + hunk->start);
overlap_start = overlap_end;
overlap_end = overlap_next;
}
len = overlap_end - overlap_start;
if (len > merged->end - merged->start ||
memcmp(plain + merged->end - len,
plain + overlap_start, len))
return error(_("hunks do not overlap:\n%.*s\n"
"\tdoes not end with:\n%.*s"),
(int)(merged->end - merged->start),
plain + merged->start,
(int)len, plain + overlap_start);
/*
* Since the start-end ranges are not adjacent, we
* cannot simply take the union of the ranges. To
* address that, we temporarily append the union of the
* lines to the `plain` strbuf.
*/
if (merged->end != s->plain.len) {
size_t start = s->plain.len;
strbuf_add(&s->plain, plain + merged->start,
merged->end - merged->start);
plain = s->plain.buf;
merged->start = start;
merged->end = s->plain.len;
}
strbuf_add(&s->plain,
plain + overlap_end,
hunk->end - overlap_end);
merged->end = s->plain.len;
merged->splittable_into += hunk->splittable_into;
delta = merged->delta;
merged->delta += hunk->delta;
}
header->old_count = next->old_offset + next->old_count
- header->old_offset;
header->new_count = next->new_offset + delta
+ next->new_count - header->new_offset;
}
if (i == *hunk_index)
return 0;
*hunk_index = i;
return 1;
}
static void reassemble_patch(struct add_p_state *s,
struct file_diff *file_diff, int use_all,
struct strbuf *out)
{
struct hunk *hunk;
size_t save_len = s->plain.len, i;
ssize_t delta = 0;
render_diff_header(s, file_diff, 0, out);
for (i = file_diff->mode_change; i < file_diff->hunk_nr; i++) {
struct hunk merged = { 0 };
hunk = file_diff->hunk + i;
if (!use_all && hunk->use != USE_HUNK)
delta += hunk->header.old_count
- hunk->header.new_count;
else {
/* merge overlapping hunks into a temporary hunk */
if (merge_hunks(s, file_diff, &i, use_all, &merged))
hunk = &merged;
render_hunk(s, hunk, delta, 0, out);
/*
* In case `merge_hunks()` used `plain` as a scratch
* pad (this happens when an edited hunk had to be
* coalesced with another hunk).
*/
strbuf_setlen(&s->plain, save_len);
delta += hunk->delta;
}
}
}
static int split_hunk(struct add_p_state *s, struct file_diff *file_diff,
size_t hunk_index)
{
int colored = !!s->colored.len, first = 1;
struct hunk *hunk = file_diff->hunk + hunk_index;
size_t splittable_into;
size_t end, colored_end, current, colored_current = 0, context_line_count;
struct hunk_header remaining, *header;
char marker, ch;
if (hunk_index >= file_diff->hunk_nr)
BUG("invalid hunk index: %d (must be >= 0 and < %d)",
(int)hunk_index, (int)file_diff->hunk_nr);
if (hunk->splittable_into < 2)
return 0;
splittable_into = hunk->splittable_into;
end = hunk->end;
colored_end = hunk->colored_end;
remaining = hunk->header;
file_diff->hunk_nr += splittable_into - 1;
ALLOC_GROW(file_diff->hunk, file_diff->hunk_nr, file_diff->hunk_alloc);
if (hunk_index + splittable_into < file_diff->hunk_nr)
memmove(file_diff->hunk + hunk_index + splittable_into,
file_diff->hunk + hunk_index + 1,
(file_diff->hunk_nr - hunk_index - splittable_into)
* sizeof(*hunk));
hunk = file_diff->hunk + hunk_index;
hunk->splittable_into = 1;
memset(hunk + 1, 0, (splittable_into - 1) * sizeof(*hunk));
header = &hunk->header;
header->old_count = header->new_count = 0;
current = hunk->start;
if (colored)
colored_current = hunk->colored_start;
marker = '\0';
context_line_count = 0;
while (splittable_into > 1) {
ch = s->plain.buf[current];
if (!ch)
BUG("buffer overrun while splitting hunks");
/*
* Is this the first context line after a chain of +/- lines?
* Then record the start of the next split hunk.
*/
if ((marker == '-' || marker == '+') && ch == ' ') {
first = 0;
hunk[1].start = current;
if (colored)
hunk[1].colored_start = colored_current;
context_line_count = 0;
}
/*
* Was the previous line a +/- one? Alternatively, is this the
* first line (and not a +/- one)?
*
* Then just increment the appropriate counter and continue
* with the next line.
*/
if (marker != ' ' || (ch != '-' && ch != '+')) {
next_hunk_line:
/* Comment lines are attached to the previous line */
if (ch == '\\')
ch = marker ? marker : ' ';
/* current hunk not done yet */
if (ch == ' ')
context_line_count++;
else if (ch == '-')
header->old_count++;
else if (ch == '+')
header->new_count++;
else
BUG("unhandled diff marker: '%c'", ch);
marker = ch;
current = find_next_line(&s->plain, current);
if (colored)
colored_current =
find_next_line(&s->colored,
colored_current);
continue;
}
/*
* We got us the start of a new hunk!
*
* This is a context line, so it is shared with the previous
* hunk, if any.
*/
if (first) {
if (header->old_count || header->new_count)
BUG("counts are off: %d/%d",
(int)header->old_count,
(int)header->new_count);
header->old_count = context_line_count;
header->new_count = context_line_count;
context_line_count = 0;
first = 0;
goto next_hunk_line;
}
remaining.old_offset += header->old_count;
remaining.old_count -= header->old_count;
remaining.new_offset += header->new_count;
remaining.new_count -= header->new_count;
/* initialize next hunk header's offsets */
hunk[1].header.old_offset =
header->old_offset + header->old_count;
hunk[1].header.new_offset =
header->new_offset + header->new_count;
/* add one split hunk */
header->old_count += context_line_count;
header->new_count += context_line_count;
hunk->end = current;
if (colored)
hunk->colored_end = colored_current;
hunk++;
hunk->splittable_into = 1;
hunk->use = hunk[-1].use;
header = &hunk->header;
header->old_count = header->new_count = context_line_count;
context_line_count = 0;
splittable_into--;
marker = ch;
}
/* last hunk simply gets the rest */
if (header->old_offset != remaining.old_offset)
BUG("miscounted old_offset: %lu != %lu",
header->old_offset, remaining.old_offset);
if (header->new_offset != remaining.new_offset)
BUG("miscounted new_offset: %lu != %lu",
header->new_offset, remaining.new_offset);
header->old_count = remaining.old_count;
header->new_count = remaining.new_count;
hunk->end = end;
if (colored)
hunk->colored_end = colored_end;
return 0;
}
static void recolor_hunk(struct add_p_state *s, struct hunk *hunk)
{
const char *plain = s->plain.buf;
size_t current, eol, next;
if (!s->colored.len)
return;
hunk->colored_start = s->colored.len;
for (current = hunk->start; current < hunk->end; ) {
for (eol = current; eol < hunk->end; eol++)
if (plain[eol] == '\n')
break;
next = eol + (eol < hunk->end);
if (eol > current && plain[eol - 1] == '\r')
eol--;
strbuf_addstr(&s->colored,
plain[current] == '-' ?
s->s.file_old_color :
plain[current] == '+' ?
s->s.file_new_color :
s->s.context_color);
strbuf_add(&s->colored, plain + current, eol - current);
strbuf_addstr(&s->colored, s->s.reset_color);
if (next > eol)
strbuf_add(&s->colored, plain + eol, next - eol);
current = next;
}
hunk->colored_end = s->colored.len;
}
static int edit_hunk_manually(struct add_p_state *s, struct hunk *hunk)
{
size_t i;
strbuf_reset(&s->buf);
strbuf_commented_addf(&s->buf, _("Manual hunk edit mode -- see bottom for "
"a quick guide.\n"));
render_hunk(s, hunk, 0, 0, &s->buf);
strbuf_commented_addf(&s->buf,
_("---\n"
"To remove '%c' lines, make them ' ' lines "
"(context).\n"
"To remove '%c' lines, delete them.\n"
"Lines starting with %c will be removed.\n"),
s->mode->is_reverse ? '+' : '-',
s->mode->is_reverse ? '-' : '+',
comment_line_char);
strbuf_commented_addf(&s->buf, "%s", _(s->mode->edit_hunk_hint));
/*
* TRANSLATORS: 'it' refers to the patch mentioned in the previous
* messages.
*/
strbuf_commented_addf(&s->buf,
_("If it does not apply cleanly, you will be "
"given an opportunity to\n"
"edit again. If all lines of the hunk are "
"removed, then the edit is\n"
"aborted and the hunk is left unchanged.\n"));
if (strbuf_edit_interactively(&s->buf, "addp-hunk-edit.diff", NULL) < 0)
return -1;
/* strip out commented lines */
hunk->start = s->plain.len;
for (i = 0; i < s->buf.len; ) {
size_t next = find_next_line(&s->buf, i);
if (s->buf.buf[i] != comment_line_char)
strbuf_add(&s->plain, s->buf.buf + i, next - i);
i = next;
}
hunk->end = s->plain.len;
if (hunk->end == hunk->start)
/* The user aborted editing by deleting everything */
return 0;
recolor_hunk(s, hunk);
/*
* If the hunk header is intact, parse it, otherwise simply use the
* hunk header prior to editing (which will adjust `hunk->start` to
* skip the hunk header).
*/
if (s->plain.buf[hunk->start] == '@' &&
parse_hunk_header(s, hunk) < 0)
return error(_("could not parse hunk header"));
return 1;
}
static ssize_t recount_edited_hunk(struct add_p_state *s, struct hunk *hunk,
size_t orig_old_count, size_t orig_new_count)
{
struct hunk_header *header = &hunk->header;
size_t i;
header->old_count = header->new_count = 0;
for (i = hunk->start; i < hunk->end; ) {
switch (s->plain.buf[i]) {
case '-':
header->old_count++;
break;
case '+':
header->new_count++;
break;
case ' ': case '\r': case '\n':
header->old_count++;
header->new_count++;
break;
}
i = find_next_line(&s->plain, i);
}
return orig_old_count - orig_new_count
- header->old_count + header->new_count;
}
static int run_apply_check(struct add_p_state *s,
struct file_diff *file_diff)
{
struct child_process cp = CHILD_PROCESS_INIT;
strbuf_reset(&s->buf);
reassemble_patch(s, file_diff, 1, &s->buf);
setup_child_process(s, &cp,
"apply", "--check", NULL);
strvec_pushv(&cp.args, s->mode->apply_check_args);
if (pipe_command(&cp, s->buf.buf, s->buf.len, NULL, 0, NULL, 0))
return error(_("'git apply --cached' failed"));
return 0;
}
static int read_single_character(struct add_p_state *s)
{
if (s->s.use_single_key) {
int res = read_key_without_echo(&s->answer);
printf("%s\n", res == EOF ? "" : s->answer.buf);
return res;
}
if (git_read_line_interactively(&s->answer) == EOF)
return EOF;
return 0;
}
static int prompt_yesno(struct add_p_state *s, const char *prompt)
{
for (;;) {
color_fprintf(stdout, s->s.prompt_color, "%s", _(prompt));
fflush(stdout);
if (read_single_character(s) == EOF)
return -1;
switch (tolower(s->answer.buf[0])) {
case 'n': return 0;
case 'y': return 1;
}
}
}
static int edit_hunk_loop(struct add_p_state *s,
struct file_diff *file_diff, struct hunk *hunk)
{
size_t plain_len = s->plain.len, colored_len = s->colored.len;
struct hunk backup;
backup = *hunk;
for (;;) {
int res = edit_hunk_manually(s, hunk);
if (res == 0) {
/* abandoned */
*hunk = backup;
return -1;
}
if (res > 0) {
hunk->delta +=
recount_edited_hunk(s, hunk,
backup.header.old_count,
backup.header.new_count);
if (!run_apply_check(s, file_diff))
return 0;
}
/* Drop edits (they were appended to s->plain) */
strbuf_setlen(&s->plain, plain_len);
strbuf_setlen(&s->colored, colored_len);
*hunk = backup;
/*
* TRANSLATORS: do not translate [y/n]
* The program will only accept that input at this point.
* Consider translating (saying "no" discards!) as
* (saying "n" for "no" discards!) if the translation
* of the word "no" does not start with n.
*/
res = prompt_yesno(s, _("Your edited hunk does not apply. "
"Edit again (saying \"no\" discards!) "
"[y/n]? "));
if (res < 1)
return -1;
}
}
static int apply_for_checkout(struct add_p_state *s, struct strbuf *diff,
int is_reverse)
{
const char *reverse = is_reverse ? "-R" : NULL;
struct child_process check_index = CHILD_PROCESS_INIT;
struct child_process check_worktree = CHILD_PROCESS_INIT;
struct child_process apply_index = CHILD_PROCESS_INIT;
struct child_process apply_worktree = CHILD_PROCESS_INIT;
int applies_index, applies_worktree;
setup_child_process(s, &check_index,
"apply", "--cached", "--check", reverse, NULL);
applies_index = !pipe_command(&check_index, diff->buf, diff->len,
NULL, 0, NULL, 0);
setup_child_process(s, &check_worktree,
"apply", "--check", reverse, NULL);
applies_worktree = !pipe_command(&check_worktree, diff->buf, diff->len,
NULL, 0, NULL, 0);
if (applies_worktree && applies_index) {
setup_child_process(s, &apply_index,
"apply", "--cached", reverse, NULL);
pipe_command(&apply_index, diff->buf, diff->len,
NULL, 0, NULL, 0);
setup_child_process(s, &apply_worktree,
"apply", reverse, NULL);
pipe_command(&apply_worktree, diff->buf, diff->len,
NULL, 0, NULL, 0);
return 1;
}
if (!applies_index) {
err(s, _("The selected hunks do not apply to the index!"));
if (prompt_yesno(s, _("Apply them to the worktree "
"anyway? ")) > 0) {
setup_child_process(s, &apply_worktree,
"apply", reverse, NULL);
return pipe_command(&apply_worktree, diff->buf,
diff->len, NULL, 0, NULL, 0);
}
err(s, _("Nothing was applied.\n"));
} else
/* As a last resort, show the diff to the user */
fwrite(diff->buf, diff->len, 1, stderr);
return 0;
}
#define SUMMARY_HEADER_WIDTH 20
#define SUMMARY_LINE_WIDTH 80
static void summarize_hunk(struct add_p_state *s, struct hunk *hunk,
struct strbuf *out)
{
struct hunk_header *header = &hunk->header;
struct strbuf *plain = &s->plain;
size_t len = out->len, i;
strbuf_addf(out, " -%lu,%lu +%lu,%lu ",
header->old_offset, header->old_count,
header->new_offset, header->new_count);
if (out->len - len < SUMMARY_HEADER_WIDTH)
strbuf_addchars(out, ' ',
SUMMARY_HEADER_WIDTH + len - out->len);
for (i = hunk->start; i < hunk->end; i = find_next_line(plain, i))
if (plain->buf[i] != ' ')
break;
if (i < hunk->end)
strbuf_add(out, plain->buf + i, find_next_line(plain, i) - i);
if (out->len - len > SUMMARY_LINE_WIDTH)
strbuf_setlen(out, len + SUMMARY_LINE_WIDTH);
strbuf_complete_line(out);
}
#define DISPLAY_HUNKS_LINES 20
static size_t display_hunks(struct add_p_state *s,
struct file_diff *file_diff, size_t start_index)
{
size_t end_index = start_index + DISPLAY_HUNKS_LINES;
if (end_index > file_diff->hunk_nr)
end_index = file_diff->hunk_nr;
while (start_index < end_index) {
struct hunk *hunk = file_diff->hunk + start_index++;
strbuf_reset(&s->buf);
strbuf_addf(&s->buf, "%c%2d: ", hunk->use == USE_HUNK ? '+'
: hunk->use == SKIP_HUNK ? '-' : ' ',
(int)start_index);
summarize_hunk(s, hunk, &s->buf);
fputs(s->buf.buf, stdout);
}
return end_index;
}
static const char help_patch_remainder[] =
N_("j - leave this hunk undecided, see next undecided hunk\n"
"J - leave this hunk undecided, see next hunk\n"
"k - leave this hunk undecided, see previous undecided hunk\n"
"K - leave this hunk undecided, see previous hunk\n"
"g - select a hunk to go to\n"
"/ - search for a hunk matching the given regex\n"
"s - split the current hunk into smaller hunks\n"
"e - manually edit the current hunk\n"
"? - print help\n");
static int patch_update_file(struct add_p_state *s,
struct file_diff *file_diff)
{
size_t hunk_index = 0;
ssize_t i, undecided_previous, undecided_next;
struct hunk *hunk;
char ch;
struct child_process cp = CHILD_PROCESS_INIT;
int colored = !!s->colored.len, quit = 0;
enum prompt_mode_type prompt_mode_type;
enum {
ALLOW_GOTO_PREVIOUS_HUNK = 1 << 0,
ALLOW_GOTO_PREVIOUS_UNDECIDED_HUNK = 1 << 1,
ALLOW_GOTO_NEXT_HUNK = 1 << 2,
ALLOW_GOTO_NEXT_UNDECIDED_HUNK = 1 << 3,
ALLOW_SEARCH_AND_GOTO = 1 << 4,
ALLOW_SPLIT = 1 << 5,
ALLOW_EDIT = 1 << 6
} permitted = 0;
/* Empty added files have no hunks */
if (!file_diff->hunk_nr && !file_diff->added)
return 0;
strbuf_reset(&s->buf);
render_diff_header(s, file_diff, colored, &s->buf);
fputs(s->buf.buf, stdout);
for (;;) {
if (hunk_index >= file_diff->hunk_nr)
hunk_index = 0;
hunk = file_diff->hunk_nr
? file_diff->hunk + hunk_index
: &file_diff->head;
undecided_previous = -1;
undecided_next = -1;
if (file_diff->hunk_nr) {
for (i = hunk_index - 1; i >= 0; i--)
if (file_diff->hunk[i].use == UNDECIDED_HUNK) {
undecided_previous = i;
break;
}
for (i = hunk_index + 1; i < file_diff->hunk_nr; i++)
if (file_diff->hunk[i].use == UNDECIDED_HUNK) {
undecided_next = i;
break;
}
}
/* Everything decided? */
if (undecided_previous < 0 && undecided_next < 0 &&
hunk->use != UNDECIDED_HUNK)
break;
strbuf_reset(&s->buf);
if (file_diff->hunk_nr) {
render_hunk(s, hunk, 0, colored, &s->buf);
fputs(s->buf.buf, stdout);
strbuf_reset(&s->buf);
if (undecided_previous >= 0) {
permitted |= ALLOW_GOTO_PREVIOUS_UNDECIDED_HUNK;
strbuf_addstr(&s->buf, ",k");
}
if (hunk_index) {
permitted |= ALLOW_GOTO_PREVIOUS_HUNK;
strbuf_addstr(&s->buf, ",K");
}
if (undecided_next >= 0) {
permitted |= ALLOW_GOTO_NEXT_UNDECIDED_HUNK;
strbuf_addstr(&s->buf, ",j");
}
if (hunk_index + 1 < file_diff->hunk_nr) {
permitted |= ALLOW_GOTO_NEXT_HUNK;
strbuf_addstr(&s->buf, ",J");
}
if (file_diff->hunk_nr > 1) {
permitted |= ALLOW_SEARCH_AND_GOTO;
strbuf_addstr(&s->buf, ",g,/");
}
if (hunk->splittable_into > 1) {
permitted |= ALLOW_SPLIT;
strbuf_addstr(&s->buf, ",s");
}
if (hunk_index + 1 > file_diff->mode_change &&
!file_diff->deleted) {
permitted |= ALLOW_EDIT;
strbuf_addstr(&s->buf, ",e");
}
}
if (file_diff->deleted)
prompt_mode_type = PROMPT_DELETION;
else if (file_diff->added)
prompt_mode_type = PROMPT_ADDITION;
else if (file_diff->mode_change && !hunk_index)
prompt_mode_type = PROMPT_MODE_CHANGE;
else
prompt_mode_type = PROMPT_HUNK;
printf("%s(%"PRIuMAX"/%"PRIuMAX") ", s->s.prompt_color,
(uintmax_t)hunk_index + 1,
(uintmax_t)(file_diff->hunk_nr
? file_diff->hunk_nr
: 1));
printf(_(s->mode->prompt_mode[prompt_mode_type]),
s->buf.buf);
if (*s->s.reset_color)
fputs(s->s.reset_color, stdout);
fflush(stdout);
if (read_single_character(s) == EOF)
break;
if (!s->answer.len)
continue;
ch = tolower(s->answer.buf[0]);
if (ch == 'y') {
hunk->use = USE_HUNK;
soft_increment:
hunk_index = undecided_next < 0 ?
file_diff->hunk_nr : undecided_next;
} else if (ch == 'n') {
hunk->use = SKIP_HUNK;
goto soft_increment;
} else if (ch == 'a') {
if (file_diff->hunk_nr) {
for (; hunk_index < file_diff->hunk_nr; hunk_index++) {
hunk = file_diff->hunk + hunk_index;
if (hunk->use == UNDECIDED_HUNK)
hunk->use = USE_HUNK;
}
} else if (hunk->use == UNDECIDED_HUNK) {
hunk->use = USE_HUNK;
}
} else if (ch == 'd' || ch == 'q') {
if (file_diff->hunk_nr) {
for (; hunk_index < file_diff->hunk_nr; hunk_index++) {
hunk = file_diff->hunk + hunk_index;
if (hunk->use == UNDECIDED_HUNK)
hunk->use = SKIP_HUNK;
}
} else if (hunk->use == UNDECIDED_HUNK) {
hunk->use = SKIP_HUNK;
}
if (ch == 'q') {
quit = 1;
break;
}
} else if (s->answer.buf[0] == 'K') {
if (permitted & ALLOW_GOTO_PREVIOUS_HUNK)
hunk_index--;
else
err(s, _("No previous hunk"));
} else if (s->answer.buf[0] == 'J') {
if (permitted & ALLOW_GOTO_NEXT_HUNK)
hunk_index++;
else
err(s, _("No next hunk"));
} else if (s->answer.buf[0] == 'k') {
if (permitted & ALLOW_GOTO_PREVIOUS_UNDECIDED_HUNK)
hunk_index = undecided_previous;
else
err(s, _("No previous hunk"));
} else if (s->answer.buf[0] == 'j') {
if (permitted & ALLOW_GOTO_NEXT_UNDECIDED_HUNK)
hunk_index = undecided_next;
else
err(s, _("No next hunk"));
} else if (s->answer.buf[0] == 'g') {
char *pend;
unsigned long response;
if (!(permitted & ALLOW_SEARCH_AND_GOTO)) {
err(s, _("No other hunks to goto"));
continue;
}
strbuf_remove(&s->answer, 0, 1);
strbuf_trim(&s->answer);
i = hunk_index - DISPLAY_HUNKS_LINES / 2;
if (i < (int)file_diff->mode_change)
i = file_diff->mode_change;
while (s->answer.len == 0) {
i = display_hunks(s, file_diff, i);
printf("%s", i < file_diff->hunk_nr ?
_("go to which hunk (<ret> to see "
"more)? ") : _("go to which hunk? "));
fflush(stdout);
if (strbuf_getline(&s->answer,
stdin) == EOF)
break;
strbuf_trim_trailing_newline(&s->answer);
}
strbuf_trim(&s->answer);
response = strtoul(s->answer.buf, &pend, 10);
if (*pend || pend == s->answer.buf)
err(s, _("Invalid number: '%s'"),
s->answer.buf);
else if (0 < response && response <= file_diff->hunk_nr)
hunk_index = response - 1;
else
err(s, Q_("Sorry, only %d hunk available.",
"Sorry, only %d hunks available.",
file_diff->hunk_nr),
(int)file_diff->hunk_nr);
} else if (s->answer.buf[0] == '/') {
regex_t regex;
int ret;
if (!(permitted & ALLOW_SEARCH_AND_GOTO)) {
err(s, _("No other hunks to search"));
continue;
}
strbuf_remove(&s->answer, 0, 1);
strbuf_trim_trailing_newline(&s->answer);
if (s->answer.len == 0) {
printf("%s", _("search for regex? "));
fflush(stdout);
if (strbuf_getline(&s->answer,
stdin) == EOF)
break;
strbuf_trim_trailing_newline(&s->answer);
if (s->answer.len == 0)
continue;
}
ret = regcomp(&regex, s->answer.buf,
REG_EXTENDED | REG_NOSUB | REG_NEWLINE);
if (ret) {
char errbuf[1024];
regerror(ret, &regex, errbuf, sizeof(errbuf));
err(s, _("Malformed search regexp %s: %s"),
s->answer.buf, errbuf);
continue;
}
i = hunk_index;
for (;;) {
/* render the hunk into a scratch buffer */
render_hunk(s, file_diff->hunk + i, 0, 0,
&s->buf);
if (regexec(&regex, s->buf.buf, 0, NULL, 0)
!= REG_NOMATCH)
break;
i++;
if (i == file_diff->hunk_nr)
i = 0;
if (i != hunk_index)
continue;
err(s, _("No hunk matches the given pattern"));
break;
}
hunk_index = i;
} else if (s->answer.buf[0] == 's') {
size_t splittable_into = hunk->splittable_into;
if (!(permitted & ALLOW_SPLIT))
err(s, _("Sorry, cannot split this hunk"));
else if (!split_hunk(s, file_diff,
hunk - file_diff->hunk))
color_fprintf_ln(stdout, s->s.header_color,
_("Split into %d hunks."),
(int)splittable_into);
} else if (s->answer.buf[0] == 'e') {
if (!(permitted & ALLOW_EDIT))
err(s, _("Sorry, cannot edit this hunk"));
else if (edit_hunk_loop(s, file_diff, hunk) >= 0) {
hunk->use = USE_HUNK;
goto soft_increment;
}
} else {
const char *p = _(help_patch_remainder), *eol = p;
color_fprintf(stdout, s->s.help_color, "%s",
_(s->mode->help_patch_text));
/*
* Show only those lines of the remainder that are
* actually applicable with the current hunk.
*/
for (; *p; p = eol + (*eol == '\n')) {
eol = strchrnul(p, '\n');
/*
* `s->buf` still contains the part of the
* commands shown in the prompt that are not
* always available.
*/
if (*p != '?' && !strchr(s->buf.buf, *p))
continue;
color_fprintf_ln(stdout, s->s.help_color,
"%.*s", (int)(eol - p), p);
}
}
}
/* Any hunk to be used? */
for (i = 0; i < file_diff->hunk_nr; i++)
if (file_diff->hunk[i].use == USE_HUNK)
break;
if (i < file_diff->hunk_nr ||
(!file_diff->hunk_nr && file_diff->head.use == USE_HUNK)) {
/* At least one hunk selected: apply */
strbuf_reset(&s->buf);
reassemble_patch(s, file_diff, 0, &s->buf);
discard_index(s->s.r->index);
if (s->mode->apply_for_checkout)
apply_for_checkout(s, &s->buf,
s->mode->is_reverse);
else {
setup_child_process(s, &cp, "apply", NULL);
strvec_pushv(&cp.args, s->mode->apply_args);
if (pipe_command(&cp, s->buf.buf, s->buf.len,
NULL, 0, NULL, 0))
error(_("'git apply' failed"));
}
if (repo_read_index(s->s.r) >= 0)
repo_refresh_and_write_index(s->s.r, REFRESH_QUIET, 0,
1, NULL, NULL, NULL);
}
putchar('\n');
return quit;
}
int run_add_p(struct repository *r, enum add_p_mode mode,
const char *revision, const struct pathspec *ps)
{
struct add_p_state s = {
{ r }, STRBUF_INIT, STRBUF_INIT, STRBUF_INIT, STRBUF_INIT
};
size_t i, binary_count = 0;
init_add_i_state(&s.s, r);
if (mode == ADD_P_STASH)
s.mode = &patch_mode_stash;
else if (mode == ADD_P_RESET) {
/*
* NEEDSWORK: Instead of comparing to the literal "HEAD",
* compare the commit objects instead so that other ways of
* saying the same thing (such as "@") are also handled
* appropriately.
*
* This applies to the cases below too.
*/
if (!revision || !strcmp(revision, "HEAD"))
s.mode = &patch_mode_reset_head;
else
s.mode = &patch_mode_reset_nothead;
} else if (mode == ADD_P_CHECKOUT) {
if (!revision)
s.mode = &patch_mode_checkout_index;
else if (!strcmp(revision, "HEAD"))
s.mode = &patch_mode_checkout_head;
else
s.mode = &patch_mode_checkout_nothead;
} else if (mode == ADD_P_WORKTREE) {
if (!revision)
s.mode = &patch_mode_checkout_index;
else if (!strcmp(revision, "HEAD"))
s.mode = &patch_mode_worktree_head;
else
s.mode = &patch_mode_worktree_nothead;
} else
s.mode = &patch_mode_add;
s.revision = revision;
discard_index(r->index);
if (repo_read_index(r) < 0 ||
(!s.mode->index_only &&
repo_refresh_and_write_index(r, REFRESH_QUIET, 0, 1,
NULL, NULL, NULL) < 0) ||
parse_diff(&s, ps) < 0) {
add_p_state_clear(&s);
return -1;
}
for (i = 0; i < s.file_diff_nr; i++)
if (s.file_diff[i].binary && !s.file_diff[i].hunk_nr)
binary_count++;
else if (patch_update_file(&s, s.file_diff + i))
break;
if (s.file_diff_nr == 0)
fprintf(stderr, _("No changes.\n"));
else if (binary_count == s.file_diff_nr)
fprintf(stderr, _("Only binary files changed.\n"));
add_p_state_clear(&s);
return 0;
}