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Vim/src/message.c

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/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* message.c: functions for displaying messages on the command line
*/
#define MESSAGE_FILE // don't include prototype for smsg()
#define USING_FLOAT_STUFF
#include "vim.h"
static void add_msg_hist(char_u *s, int len, int attr);
static void hit_return_msg(void);
static void msg_home_replace_attr(char_u *fname, int attr);
static void msg_puts_attr_len(char *str, int maxlen, int attr);
static void msg_puts_display(char_u *str, int maxlen, int attr, int recurse);
static void msg_scroll_up(void);
static void inc_msg_scrolled(void);
static void store_sb_text(char_u **sb_str, char_u *s, int attr, int *sb_col, int finish);
static void t_puts(int *t_col, char_u *t_s, char_u *s, int attr);
static void msg_puts_printf(char_u *str, int maxlen);
static int do_more_prompt(int typed_char);
static void msg_screen_putchar(int c, int attr);
static void msg_moremsg(int full);
static int msg_check_screen(void);
static void redir_write(char_u *s, int maxlen);
#ifdef FEAT_CON_DIALOG
static char_u *msg_show_console_dialog(char_u *message, char_u *buttons, int dfltbutton);
static int confirm_msg_used = FALSE; // displaying confirm_msg
static char_u *confirm_msg = NULL; // ":confirm" message
static char_u *confirm_msg_tail; // tail of confirm_msg
static void display_confirm_msg(void);
#endif
#ifdef FEAT_JOB_CHANNEL
static int emsg_to_channel_log = FALSE;
#endif
struct msg_hist
{
struct msg_hist *next;
char_u *msg;
int attr;
};
static struct msg_hist *first_msg_hist = NULL;
static struct msg_hist *last_msg_hist = NULL;
static int msg_hist_len = 0;
static FILE *verbose_fd = NULL;
static int verbose_did_open = FALSE;
/*
* When writing messages to the screen, there are many different situations.
* A number of variables is used to remember the current state:
* msg_didany TRUE when messages were written since the last time the
* user reacted to a prompt.
* Reset: After hitting a key for the hit-return prompt,
* hitting <CR> for the command line or input().
* Set: When any message is written to the screen.
* msg_didout TRUE when something was written to the current line.
* Reset: When advancing to the next line, when the current
* text can be overwritten.
* Set: When any message is written to the screen.
* msg_nowait No extra delay for the last drawn message.
* Used in normal_cmd() before the mode message is drawn.
* emsg_on_display There was an error message recently. Indicates that there
* should be a delay before redrawing.
* msg_scroll The next message should not overwrite the current one.
* msg_scrolled How many lines the screen has been scrolled (because of
* messages). Used in update_screen() to scroll the screen
* back. Incremented each time the screen scrolls a line.
* msg_scrolled_ign TRUE when msg_scrolled is non-zero and msg_puts_attr()
* writes something without scrolling should not make
* need_wait_return to be set. This is a hack to make ":ts"
* work without an extra prompt.
* lines_left Number of lines available for messages before the
* more-prompt is to be given. -1 when not set.
* need_wait_return TRUE when the hit-return prompt is needed.
* Reset: After giving the hit-return prompt, when the user
* has answered some other prompt.
* Set: When the ruler or typeahead display is overwritten,
* scrolling the screen for some message.
* keep_msg Message to be displayed after redrawing the screen, in
* main_loop().
* This is an allocated string or NULL when not used.
*/
/*
* msg(s) - displays the string 's' on the status line
* When terminal not initialized (yet) mch_errmsg(..) is used.
* return TRUE if wait_return not called
*/
int
msg(char *s)
{
return msg_attr_keep(s, 0, FALSE);
}
/*
* Like msg() but keep it silent when 'verbosefile' is set.
*/
int
verb_msg(char *s)
{
int n;
verbose_enter();
n = msg_attr_keep(s, 0, FALSE);
verbose_leave();
return n;
}
int
msg_attr(char *s, int attr)
{
return msg_attr_keep(s, attr, FALSE);
}
int
msg_attr_keep(
char *s,
int attr,
int keep) // TRUE: set keep_msg if it doesn't scroll
{
static int entered = 0;
int retval;
char_u *buf = NULL;
// Skip messages not matching ":filter pattern".
// Don't filter when there is an error.
if (!emsg_on_display && message_filtered((char_u *)s))
return TRUE;
#ifdef FEAT_EVAL
if (attr == 0)
set_vim_var_string(VV_STATUSMSG, (char_u *)s, -1);
#endif
/*
* It is possible that displaying a messages causes a problem (e.g.,
* when redrawing the window), which causes another message, etc.. To
* break this loop, limit the recursiveness to 3 levels.
*/
if (entered >= 3)
return TRUE;
++entered;
// Add message to history (unless it's a repeated kept message or a
// truncated message)
if ((char_u *)s != keep_msg
|| (*s != '<'
&& last_msg_hist != NULL
&& last_msg_hist->msg != NULL
&& STRCMP(s, last_msg_hist->msg)))
add_msg_hist((char_u *)s, -1, attr);
#ifdef FEAT_JOB_CHANNEL
if (emsg_to_channel_log)
// Write message in the channel log.
ch_log(NULL, "ERROR: %s", (char *)s);
#endif
// Truncate the message if needed.
msg_start();
buf = msg_strtrunc((char_u *)s, FALSE);
if (buf != NULL)
s = (char *)buf;
msg_outtrans_attr((char_u *)s, attr);
msg_clr_eos();
retval = msg_end();
if (keep && retval && vim_strsize((char_u *)s)
< (int)(Rows - cmdline_row - 1) * Columns + sc_col)
set_keep_msg((char_u *)s, 0);
vim_free(buf);
--entered;
return retval;
}
/*
* Truncate a string such that it can be printed without causing a scroll.
* Returns an allocated string or NULL when no truncating is done.
*/
char_u *
msg_strtrunc(
char_u *s,
int force) // always truncate
{
char_u *buf = NULL;
int len;
int room;
// May truncate message to avoid a hit-return prompt
if ((!msg_scroll && !need_wait_return && shortmess(SHM_TRUNCALL)
&& !exmode_active && msg_silent == 0) || force)
{
len = vim_strsize(s);
if (msg_scrolled != 0)
// Use all the columns.
room = (int)(Rows - msg_row) * Columns - 1;
else
// Use up to 'showcmd' column.
room = (int)(Rows - msg_row - 1) * Columns + sc_col - 1;
if (len > room && room > 0)
{
if (enc_utf8)
// may have up to 18 bytes per cell (6 per char, up to two
// composing chars)
len = (room + 2) * 18;
else if (enc_dbcs == DBCS_JPNU)
// may have up to 2 bytes per cell for euc-jp
len = (room + 2) * 2;
else
len = room + 2;
buf = alloc(len);
if (buf != NULL)
trunc_string(s, buf, room, len);
}
}
return buf;
}
/*
* Truncate a string "s" to "buf" with cell width "room".
* "s" and "buf" may be equal.
*/
void
trunc_string(
char_u *s,
char_u *buf,
int room_in,
int buflen)
{
size_t room = room_in - 3; // "..." takes 3 chars
size_t half;
size_t len = 0;
int e;
int i;
int n;
if (room_in < 3)
room = 0;
half = room / 2;
// First part: Start of the string.
for (e = 0; len < half && e < buflen; ++e)
{
if (s[e] == NUL)
{
// text fits without truncating!
buf[e] = NUL;
return;
}
n = ptr2cells(s + e);
if (len + n > half)
break;
len += n;
buf[e] = s[e];
if (has_mbyte)
for (n = (*mb_ptr2len)(s + e); --n > 0; )
{
if (++e == buflen)
break;
buf[e] = s[e];
}
}
// Last part: End of the string.
i = e;
if (enc_dbcs != 0)
{
// For DBCS going backwards in a string is slow, but
// computing the cell width isn't too slow: go forward
// until the rest fits.
n = vim_strsize(s + i);
while (len + n > room)
{
n -= ptr2cells(s + i);
i += (*mb_ptr2len)(s + i);
}
}
else if (enc_utf8)
{
// For UTF-8 we can go backwards easily.
half = i = (int)STRLEN(s);
for (;;)
{
do
half = half - utf_head_off(s, s + half - 1) - 1;
while (half > 0 && utf_iscomposing(utf_ptr2char(s + half)));
n = ptr2cells(s + half);
if (len + n > room || half == 0)
break;
len += n;
i = (int)half;
}
}
else
{
for (i = (int)STRLEN(s);
i - 1 >= 0 && len + (n = ptr2cells(s + i - 1)) <= room; --i)
len += n;
}
if (i <= e + 3)
{
// text fits without truncating
if (s != buf)
{
len = STRLEN(s);
if (len >= (size_t)buflen)
len = buflen - 1;
len = len - e + 1;
if (len < 1)
buf[e - 1] = NUL;
else
mch_memmove(buf + e, s + e, len);
}
}
else if (e + 3 < buflen)
{
// set the middle and copy the last part
mch_memmove(buf + e, "...", (size_t)3);
len = STRLEN(s + i) + 1;
if (len >= (size_t)buflen - e - 3)
len = buflen - e - 3 - 1;
mch_memmove(buf + e + 3, s + i, len);
buf[e + 3 + len - 1] = NUL;
}
else
{
// can't fit in the "...", just truncate it
buf[e - 1] = NUL;
}
}
/*
* Automatic prototype generation does not understand this function.
* Note: Caller of smsg() and smsg_attr() must check the resulting string is
* shorter than IOSIZE!!!
*/
#ifndef PROTO
int vim_snprintf(char *str, size_t str_m, const char *fmt, ...);
int
smsg(const char *s, ...)
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just
// give the raw message so the user at least gets a hint.
return msg((char *)s);
}
else
{
va_list arglist;
va_start(arglist, s);
vim_vsnprintf((char *)IObuff, IOSIZE, s, arglist);
va_end(arglist);
return msg((char *)IObuff);
}
}
int
smsg_attr(int attr, const char *s, ...)
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just
// give the raw message so the user at least gets a hint.
return msg_attr((char *)s, attr);
}
else
{
va_list arglist;
va_start(arglist, s);
vim_vsnprintf((char *)IObuff, IOSIZE, s, arglist);
va_end(arglist);
return msg_attr((char *)IObuff, attr);
}
}
int
smsg_attr_keep(int attr, const char *s, ...)
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just
// give the raw message so the user at least gets a hint.
return msg_attr_keep((char *)s, attr, TRUE);
}
else
{
va_list arglist;
va_start(arglist, s);
vim_vsnprintf((char *)IObuff, IOSIZE, s, arglist);
va_end(arglist);
return msg_attr_keep((char *)IObuff, attr, TRUE);
}
}
#endif
/*
* Remember the last sourcing name/lnum used in an error message, so that it
* isn't printed each time when it didn't change.
*/
static int last_sourcing_lnum = 0;
static char_u *last_sourcing_name = NULL;
/*
* Reset the last used sourcing name/lnum. Makes sure it is displayed again
* for the next error message;
*/
void
reset_last_sourcing(void)
{
VIM_CLEAR(last_sourcing_name);
last_sourcing_lnum = 0;
}
/*
* Return TRUE if "SOURCING_NAME" differs from "last_sourcing_name".
*/
static int
other_sourcing_name(void)
{
if (SOURCING_NAME != NULL)
{
if (last_sourcing_name != NULL)
return STRCMP(SOURCING_NAME, last_sourcing_name) != 0;
return TRUE;
}
return FALSE;
}
/*
* Get the message about the source, as used for an error message.
* Returns an allocated string with room for one more character.
* Returns NULL when no message is to be given.
*/
static char_u *
get_emsg_source(void)
{
char_u *Buf, *p;
if (SOURCING_NAME != NULL && other_sourcing_name())
{
char_u *sname = estack_sfile();
char_u *tofree = sname;
if (sname == NULL)
sname = SOURCING_NAME;
p = (char_u *)_("Error detected while processing %s:");
Buf = alloc(STRLEN(sname) + STRLEN(p));
if (Buf != NULL)
sprintf((char *)Buf, (char *)p, sname);
vim_free(tofree);
return Buf;
}
return NULL;
}
/*
* Get the message about the source lnum, as used for an error message.
* Returns an allocated string with room for one more character.
* Returns NULL when no message is to be given.
*/
static char_u *
get_emsg_lnum(void)
{
char_u *Buf, *p;
// lnum is 0 when executing a command from the command line
// argument, we don't want a line number then
if (SOURCING_NAME != NULL
&& (other_sourcing_name() || SOURCING_LNUM != last_sourcing_lnum)
&& SOURCING_LNUM != 0)
{
p = (char_u *)_("line %4ld:");
Buf = alloc(STRLEN(p) + 20);
if (Buf != NULL)
sprintf((char *)Buf, (char *)p, (long)SOURCING_LNUM);
return Buf;
}
return NULL;
}
/*
* Display name and line number for the source of an error.
* Remember the file name and line number, so that for the next error the info
* is only displayed if it changed.
*/
void
msg_source(int attr)
{
char_u *p;
++no_wait_return;
p = get_emsg_source();
if (p != NULL)
{
msg_attr((char *)p, attr);
vim_free(p);
}
p = get_emsg_lnum();
if (p != NULL)
{
msg_attr((char *)p, HL_ATTR(HLF_N));
vim_free(p);
last_sourcing_lnum = SOURCING_LNUM; // only once for each line
}
// remember the last sourcing name printed, also when it's empty
if (SOURCING_NAME == NULL || other_sourcing_name())
{
vim_free(last_sourcing_name);
if (SOURCING_NAME == NULL)
last_sourcing_name = NULL;
else
last_sourcing_name = vim_strsave(SOURCING_NAME);
}
--no_wait_return;
}
/*
* Return TRUE if not giving error messages right now:
* If "emsg_off" is set: no error messages at the moment.
* If "msg" is in 'debug': do error message but without side effects.
* If "emsg_skip" is set: never do error messages.
*/
static int
emsg_not_now(void)
{
if ((emsg_off > 0 && vim_strchr(p_debug, 'm') == NULL
&& vim_strchr(p_debug, 't') == NULL)
#ifdef FEAT_EVAL
|| emsg_skip > 0
#endif
)
return TRUE;
return FALSE;
}
#if defined(FEAT_EVAL) || defined(PROTO)
static garray_T ignore_error_list = GA_EMPTY;
void
ignore_error_for_testing(char_u *error)
{
if (ignore_error_list.ga_itemsize == 0)
ga_init2(&ignore_error_list, sizeof(char_u *), 1);
if (STRCMP("RESET", error) == 0)
ga_clear_strings(&ignore_error_list);
else
ga_add_string(&ignore_error_list, error);
}
static int
ignore_error(char_u *msg)
{
int i;
for (i = 0; i < ignore_error_list.ga_len; ++i)
if (strstr((char *)msg,
(char *)((char_u **)(ignore_error_list.ga_data))[i]) != NULL)
return TRUE;
return FALSE;
}
#endif
#if !defined(HAVE_STRERROR) || defined(PROTO)
/*
* Replacement for perror() that behaves more or less like emsg() was called.
* v:errmsg will be set and called_emsg will be incremented.
*/
void
do_perror(char *msg)
{
perror(msg);
++emsg_silent;
emsg(msg);
--emsg_silent;
}
#endif
/*
* emsg_core() - display an error message
*
* Rings the bell, if appropriate, and calls message() to do the real work
* When terminal not initialized (yet) mch_errmsg(..) is used.
*
* Return TRUE if wait_return not called.
* Note: caller must check 'emsg_not_now()' before calling this.
*/
static int
emsg_core(char_u *s)
{
int attr;
char_u *p;
int r;
#ifdef FEAT_EVAL
int ignore = FALSE;
int severe;
#endif
#ifdef FEAT_EVAL
// When testing some errors are turned into a normal message.
if (ignore_error(s))
// don't call msg() if it results in a dialog
return msg_use_printf() ? FALSE : msg((char *)s);
#endif
++called_emsg;
#ifdef FEAT_EVAL
// If "emsg_severe" is TRUE: When an error exception is to be thrown,
// prefer this message over previous messages for the same command.
severe = emsg_severe;
emsg_severe = FALSE;
#endif
if (!emsg_off || vim_strchr(p_debug, 't') != NULL)
{
#ifdef FEAT_EVAL
/*
* Cause a throw of an error exception if appropriate. Don't display
* the error message in this case. (If no matching catch clause will
* be found, the message will be displayed later on.) "ignore" is set
* when the message should be ignored completely (used for the
* interrupt message).
*/
if (cause_errthrow(s, severe, &ignore) == TRUE)
{
if (!ignore)
++did_emsg;
return TRUE;
}
// set "v:errmsg", also when using ":silent! cmd"
set_vim_var_string(VV_ERRMSG, s, -1);
#endif
/*
* When using ":silent! cmd" ignore error messages.
* But do write it to the redirection file.
*/
if (emsg_silent != 0)
{
if (emsg_noredir == 0)
{
msg_start();
p = get_emsg_source();
if (p != NULL)
{
STRCAT(p, "\n");
redir_write(p, -1);
vim_free(p);
}
p = get_emsg_lnum();
if (p != NULL)
{
STRCAT(p, "\n");
redir_write(p, -1);
vim_free(p);
}
redir_write(s, -1);
}
#ifdef FEAT_JOB_CHANNEL
ch_log(NULL, "ERROR silent: %s", (char *)s);
#endif
return TRUE;
}
ex_exitval = 1;
// Reset msg_silent, an error causes messages to be switched back on.
msg_silent = 0;
cmd_silent = FALSE;
if (global_busy) // break :global command
++global_busy;
if (p_eb)
beep_flush(); // also includes flush_buffers()
else
flush_buffers(FLUSH_MINIMAL); // flush internal buffers
++did_emsg; // flag for DoOneCmd()
#ifdef FEAT_EVAL
did_uncaught_emsg = TRUE;
#endif
}
emsg_on_display = TRUE; // remember there is an error message
++msg_scroll; // don't overwrite a previous message
attr = HL_ATTR(HLF_E); // set highlight mode for error messages
if (msg_scrolled != 0)
need_wait_return = TRUE; // needed in case emsg() is called after
// wait_return has reset need_wait_return
// and a redraw is expected because
// msg_scrolled is non-zero
#ifdef FEAT_JOB_CHANNEL
emsg_to_channel_log = TRUE;
#endif
/*
* Display name and line number for the source of the error.
*/
msg_source(attr);
/*
* Display the error message itself.
*/
msg_nowait = FALSE; // wait for this msg
r = msg_attr((char *)s, attr);
#ifdef FEAT_JOB_CHANNEL
emsg_to_channel_log = FALSE;
#endif
return r;
}
/*
* Print an error message.
*/
int
emsg(char *s)
{
// Skip this if not giving error messages at the moment.
if (!emsg_not_now())
return emsg_core((char_u *)s);
return TRUE; // no error messages at the moment
}
#ifndef PROTO // manual proto with __attribute__
/*
* Print an error message with format string and variable arguments.
* Note: caller must not pass 'IObuff' as 1st argument.
*/
int
semsg(const char *s, ...)
{
// Skip this if not giving error messages at the moment.
if (!emsg_not_now())
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just
// give the raw message so the user at least gets a hint.
return emsg_core((char_u *)s);
}
else
{
va_list ap;
va_start(ap, s);
vim_vsnprintf((char *)IObuff, IOSIZE, s, ap);
va_end(ap);
return emsg_core(IObuff);
}
}
return TRUE; // no error messages at the moment
}
#endif
/*
* Same as emsg(...), but abort on error when ABORT_ON_INTERNAL_ERROR is
* defined. It is used for internal errors only, so that they can be
* detected when fuzzing vim.
*/
void
iemsg(char *s)
{
if (!emsg_not_now())
emsg_core((char_u *)s);
#ifdef ABORT_ON_INTERNAL_ERROR
abort();
#endif
}
#ifndef PROTO // manual proto with __attribute__
/*
* Same as semsg(...) but abort on error when ABORT_ON_INTERNAL_ERROR is
* defined. It is used for internal errors only, so that they can be
* detected when fuzzing vim.
* Note: caller must not pass 'IObuff' as 1st argument.
*/
void
siemsg(const char *s, ...)
{
if (!emsg_not_now())
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just
// give the raw message so the user at least gets a hint.
emsg_core((char_u *)s);
}
else
{
va_list ap;
va_start(ap, s);
vim_vsnprintf((char *)IObuff, IOSIZE, s, ap);
va_end(ap);
emsg_core(IObuff);
}
}
# ifdef ABORT_ON_INTERNAL_ERROR
abort();
# endif
}
#endif
/*
* Give an "Internal error" message.
*/
void
internal_error(char *where)
{
siemsg(_(e_intern2), where);
}
// emsg3() and emsgn() are in misc2.c to avoid warnings for the prototypes.
void
emsg_invreg(int name)
{
semsg(_("E354: Invalid register name: '%s'"), transchar(name));
}
/*
* Give an error message which contains %s for "name[len]".
*/
void
emsg_namelen(char *msg, char_u *name, int len)
{
char_u *copy = vim_strnsave((char_u *)name, len);
semsg(msg, copy == NULL ? "NULL" : (char *)copy);
}
/*
* Like msg(), but truncate to a single line if p_shm contains 't', or when
* "force" is TRUE. This truncates in another way as for normal messages.
* Careful: The string may be changed by msg_may_trunc()!
* Returns a pointer to the printed message, if wait_return() not called.
*/
char *
msg_trunc_attr(char *s, int force, int attr)
{
int n;
char *ts;
// Add message to history before truncating
add_msg_hist((char_u *)s, -1, attr);
ts = (char *)msg_may_trunc(force, (char_u *)s);
msg_hist_off = TRUE;
n = msg_attr(ts, attr);
msg_hist_off = FALSE;
if (n)
return ts;
return NULL;
}
/*
* Check if message "s" should be truncated at the start (for filenames).
* Return a pointer to where the truncated message starts.
* Note: May change the message by replacing a character with '<'.
*/
char_u *
msg_may_trunc(int force, char_u *s)
{
int n;
int room;
room = (int)(Rows - cmdline_row - 1) * Columns + sc_col - 1;
if ((force || (shortmess(SHM_TRUNC) && !exmode_active))
&& (n = (int)STRLEN(s) - room) > 0)
{
if (has_mbyte)
{
int size = vim_strsize(s);
// There may be room anyway when there are multibyte chars.
if (size <= room)
return s;
for (n = 0; size >= room; )
{
size -= (*mb_ptr2cells)(s + n);
n += (*mb_ptr2len)(s + n);
}
--n;
}
s += n;
*s = '<';
}
return s;
}
static void
add_msg_hist(
char_u *s,
int len, // -1 for undetermined length
int attr)
{
struct msg_hist *p;
if (msg_hist_off || msg_silent != 0)
return;
// Don't let the message history get too big
while (msg_hist_len > MAX_MSG_HIST_LEN)
(void)delete_first_msg();
// allocate an entry and add the message at the end of the history
p = ALLOC_ONE(struct msg_hist);
if (p != NULL)
{
if (len < 0)
len = (int)STRLEN(s);
// remove leading and trailing newlines
while (len > 0 && *s == '\n')
{
++s;
--len;
}
while (len > 0 && s[len - 1] == '\n')
--len;
p->msg = vim_strnsave(s, len);
p->next = NULL;
p->attr = attr;
if (last_msg_hist != NULL)
last_msg_hist->next = p;
last_msg_hist = p;
if (first_msg_hist == NULL)
first_msg_hist = last_msg_hist;
++msg_hist_len;
}
}
/*
* Delete the first (oldest) message from the history.
* Returns FAIL if there are no messages.
*/
int
delete_first_msg(void)
{
struct msg_hist *p;
if (msg_hist_len <= 0)
return FAIL;
p = first_msg_hist;
first_msg_hist = p->next;
if (first_msg_hist == NULL)
last_msg_hist = NULL; // history is empty
vim_free(p->msg);
vim_free(p);
--msg_hist_len;
return OK;
}
/*
* ":messages" command.
*/
void
ex_messages(exarg_T *eap)
{
struct msg_hist *p;
char_u *s;
int c = 0;
if (STRCMP(eap->arg, "clear") == 0)
{
int keep = eap->addr_count == 0 ? 0 : eap->line2;
while (msg_hist_len > keep)
(void)delete_first_msg();
return;
}
if (*eap->arg != NUL)
{
emsg(_(e_invarg));
return;
}
msg_hist_off = TRUE;
p = first_msg_hist;
if (eap->addr_count != 0)
{
// Count total messages
for (; p != NULL && !got_int; p = p->next)
c++;
c -= eap->line2;
// Skip without number of messages specified
for (p = first_msg_hist; p != NULL && !got_int && c > 0;
p = p->next, c--);
}
if (p == first_msg_hist)
{
s = mch_getenv((char_u *)"LANG");
if (s != NULL && *s != NUL)
// The next comment is extracted by xgettext and put in po file for
// translators to read.
msg_attr(
// Translator: Please replace the name and email address
// with the appropriate text for your translation.
_("Messages maintainer: Bram Moolenaar <Bram@vim.org>"),
HL_ATTR(HLF_T));
}
// Display what was not skipped.
for (; p != NULL && !got_int; p = p->next)
if (p->msg != NULL)
msg_attr((char *)p->msg, p->attr);
msg_hist_off = FALSE;
}
#if defined(FEAT_CON_DIALOG) || defined(FIND_REPLACE_DIALOG) || defined(PROTO)
/*
* Call this after prompting the user. This will avoid a hit-return message
* and a delay.
*/
void
msg_end_prompt(void)
{
need_wait_return = FALSE;
emsg_on_display = FALSE;
cmdline_row = msg_row;
msg_col = 0;
msg_clr_eos();
lines_left = -1;
}
#endif
/*
* Wait for the user to hit a key (normally Enter).
* If "redraw" is TRUE, clear and redraw the screen.
* If "redraw" is FALSE, just redraw the screen.
* If "redraw" is -1, don't redraw at all.
*/
void
wait_return(int redraw)
{
int c;
int oldState;
int tmpState;
int had_got_int;
int save_reg_recording;
FILE *save_scriptout;
if (redraw == TRUE)
must_redraw = CLEAR;
// If using ":silent cmd", don't wait for a return. Also don't set
// need_wait_return to do it later.
if (msg_silent != 0)
return;
/*
* When inside vgetc(), we can't wait for a typed character at all.
* With the global command (and some others) we only need one return at
* the end. Adjust cmdline_row to avoid the next message overwriting the
* last one.
*/
if (vgetc_busy > 0)
return;
need_wait_return = TRUE;
if (no_wait_return)
{
if (!exmode_active)
cmdline_row = msg_row;
return;
}
redir_off = TRUE; // don't redirect this message
oldState = State;
if (quit_more)
{
c = CAR; // just pretend CR was hit
quit_more = FALSE;
got_int = FALSE;
}
else if (exmode_active)
{
msg_puts(" "); // make sure the cursor is on the right line
c = CAR; // no need for a return in ex mode
got_int = FALSE;
}
else
{
// Make sure the hit-return prompt is on screen when 'guioptions' was
// just changed.
screenalloc(FALSE);
State = HITRETURN;
setmouse();
#ifdef USE_ON_FLY_SCROLL
dont_scroll = TRUE; // disallow scrolling here
#endif
cmdline_row = msg_row;
// Avoid the sequence that the user types ":" at the hit-return prompt
// to start an Ex command, but the file-changed dialog gets in the
// way.
if (need_check_timestamps)
check_timestamps(FALSE);
hit_return_msg();
do
{
// Remember "got_int", if it is set vgetc() probably returns a
// CTRL-C, but we need to loop then.
had_got_int = got_int;
// Don't do mappings here, we put the character back in the
// typeahead buffer.
++no_mapping;
++allow_keys;
// Temporarily disable Recording. If Recording is active, the
// character will be recorded later, since it will be added to the
// typebuf after the loop
save_reg_recording = reg_recording;
save_scriptout = scriptout;
reg_recording = 0;
scriptout = NULL;
c = safe_vgetc();
if (had_got_int && !global_busy)
got_int = FALSE;
--no_mapping;
--allow_keys;
reg_recording = save_reg_recording;
scriptout = save_scriptout;
#ifdef FEAT_CLIPBOARD
// Strange way to allow copying (yanking) a modeless selection at
// the hit-enter prompt. Use CTRL-Y, because the same is used in
// Cmdline-mode and it's harmless when there is no selection.
if (c == Ctrl_Y && clip_star.state == SELECT_DONE)
{
clip_copy_modeless_selection(TRUE);
c = K_IGNORE;
}
#endif
/*
* Allow scrolling back in the messages.
* Also accept scroll-down commands when messages fill the screen,
* to avoid that typing one 'j' too many makes the messages
* disappear.
*/
if (p_more && !p_cp)
{
if (c == 'b' || c == 'k' || c == 'u' || c == 'g'
|| c == K_UP || c == K_PAGEUP)
{
if (msg_scrolled > Rows)
// scroll back to show older messages
do_more_prompt(c);
else
{
msg_didout = FALSE;
c = K_IGNORE;
msg_col =
#ifdef FEAT_RIGHTLEFT
cmdmsg_rl ? Columns - 1 :
#endif
0;
}
if (quit_more)
{
c = CAR; // just pretend CR was hit
quit_more = FALSE;
got_int = FALSE;
}
else if (c != K_IGNORE)
{
c = K_IGNORE;
hit_return_msg();
}
}
else if (msg_scrolled > Rows - 2
&& (c == 'j' || c == 'd' || c == 'f'
|| c == K_DOWN || c == K_PAGEDOWN))
c = K_IGNORE;
}
} while ((had_got_int && c == Ctrl_C)
|| c == K_IGNORE
#ifdef FEAT_GUI
|| c == K_VER_SCROLLBAR || c == K_HOR_SCROLLBAR
#endif
|| c == K_LEFTDRAG || c == K_LEFTRELEASE
|| c == K_MIDDLEDRAG || c == K_MIDDLERELEASE
|| c == K_RIGHTDRAG || c == K_RIGHTRELEASE
|| c == K_MOUSELEFT || c == K_MOUSERIGHT
|| c == K_MOUSEDOWN || c == K_MOUSEUP
|| c == K_MOUSEMOVE
|| (!mouse_has(MOUSE_RETURN)
&& mouse_row < msg_row
&& (c == K_LEFTMOUSE
|| c == K_MIDDLEMOUSE
|| c == K_RIGHTMOUSE
|| c == K_X1MOUSE
|| c == K_X2MOUSE))
);
ui_breakcheck();
/*
* Avoid that the mouse-up event causes visual mode to start.
*/
if (c == K_LEFTMOUSE || c == K_MIDDLEMOUSE || c == K_RIGHTMOUSE
|| c == K_X1MOUSE || c == K_X2MOUSE)
(void)jump_to_mouse(MOUSE_SETPOS, NULL, 0);
else if (vim_strchr((char_u *)"\r\n ", c) == NULL && c != Ctrl_C)
{
// Put the character back in the typeahead buffer. Don't use the
// stuff buffer, because lmaps wouldn't work.
ins_char_typebuf(c);
do_redraw = TRUE; // need a redraw even though there is
// typeahead
}
}
redir_off = FALSE;
/*
* If the user hits ':', '?' or '/' we get a command line from the next
* line.
*/
if (c == ':' || c == '?' || c == '/')
{
if (!exmode_active)
cmdline_row = msg_row;
skip_redraw = TRUE; // skip redraw once
do_redraw = FALSE;
#ifdef FEAT_TERMINAL
skip_term_loop = TRUE;
#endif
}
/*
* If the window size changed set_shellsize() will redraw the screen.
* Otherwise the screen is only redrawn if 'redraw' is set and no ':'
* typed.
*/
tmpState = State;
State = oldState; // restore State before set_shellsize
setmouse();
msg_check();
#if defined(UNIX) || defined(VMS)
/*
* When switching screens, we need to output an extra newline on exit.
*/
if (swapping_screen() && !termcap_active)
newline_on_exit = TRUE;
#endif
need_wait_return = FALSE;
did_wait_return = TRUE;
emsg_on_display = FALSE; // can delete error message now
lines_left = -1; // reset lines_left at next msg_start()
reset_last_sourcing();
if (keep_msg != NULL && vim_strsize(keep_msg) >=
(Rows - cmdline_row - 1) * Columns + sc_col)
VIM_CLEAR(keep_msg); // don't redisplay message, it's too long
if (tmpState == SETWSIZE) // got resize event while in vgetc()
{
starttermcap(); // start termcap before redrawing
shell_resized();
}
else if (!skip_redraw
&& (redraw == TRUE || (msg_scrolled != 0 && redraw != -1)))
{
starttermcap(); // start termcap before redrawing
redraw_later(VALID);
}
}
/*
* Write the hit-return prompt.
*/
static void
hit_return_msg(void)
{
int save_p_more = p_more;
p_more = FALSE; // don't want see this message when scrolling back
if (msg_didout) // start on a new line
msg_putchar('\n');
if (got_int)
msg_puts(_("Interrupt: "));
msg_puts_attr(_("Press ENTER or type command to continue"), HL_ATTR(HLF_R));
if (!msg_use_printf())
msg_clr_eos();
p_more = save_p_more;
}
/*
* Set "keep_msg" to "s". Free the old value and check for NULL pointer.
*/
void
set_keep_msg(char_u *s, int attr)
{
vim_free(keep_msg);
if (s != NULL && msg_silent == 0)
keep_msg = vim_strsave(s);
else
keep_msg = NULL;
keep_msg_more = FALSE;
keep_msg_attr = attr;
}
#if defined(FEAT_TERMRESPONSE) || defined(PROTO)
/*
* If there currently is a message being displayed, set "keep_msg" to it, so
* that it will be displayed again after redraw.
*/
void
set_keep_msg_from_hist(void)
{
if (keep_msg == NULL && last_msg_hist != NULL && msg_scrolled == 0
&& (State & NORMAL))
set_keep_msg(last_msg_hist->msg, last_msg_hist->attr);
}
#endif
/*
* Prepare for outputting characters in the command line.
*/
void
msg_start(void)
{
int did_return = FALSE;
if (!msg_silent)
VIM_CLEAR(keep_msg);
#ifdef FEAT_EVAL
if (need_clr_eos)
{
// Halfway an ":echo" command and getting an (error) message: clear
// any text from the command.
need_clr_eos = FALSE;
msg_clr_eos();
}
#endif
if (!msg_scroll && full_screen) // overwrite last message
{
msg_row = cmdline_row;
msg_col =
#ifdef FEAT_RIGHTLEFT
cmdmsg_rl ? Columns - 1 :
#endif
0;
}
else if (msg_didout) // start message on next line
{
msg_putchar('\n');
did_return = TRUE;
if (exmode_active != EXMODE_NORMAL)
cmdline_row = msg_row;
}
if (!msg_didany || lines_left < 0)
msg_starthere();
if (msg_silent == 0)
{
msg_didout = FALSE; // no output on current line yet
cursor_off();
}
// when redirecting, may need to start a new line.
if (!did_return)
redir_write((char_u *)"\n", -1);
}
/*
* Note that the current msg position is where messages start.
*/
void
msg_starthere(void)
{
lines_left = cmdline_row;
msg_didany = FALSE;
}
void
msg_putchar(int c)
{
msg_putchar_attr(c, 0);
}
void
msg_putchar_attr(int c, int attr)
{
char_u buf[MB_MAXBYTES + 1];
if (IS_SPECIAL(c))
{
buf[0] = K_SPECIAL;
buf[1] = K_SECOND(c);
buf[2] = K_THIRD(c);
buf[3] = NUL;
}
else
buf[(*mb_char2bytes)(c, buf)] = NUL;
msg_puts_attr((char *)buf, attr);
}
void
msg_outnum(long n)
{
char buf[20];
sprintf(buf, "%ld", n);
msg_puts(buf);
}
void
msg_home_replace(char_u *fname)
{
msg_home_replace_attr(fname, 0);
}
#if defined(FEAT_FIND_ID) || defined(PROTO)
void
msg_home_replace_hl(char_u *fname)
{
msg_home_replace_attr(fname, HL_ATTR(HLF_D));
}
#endif
static void
msg_home_replace_attr(char_u *fname, int attr)
{
char_u *name;
name = home_replace_save(NULL, fname);
if (name != NULL)
msg_outtrans_attr(name, attr);
vim_free(name);
}
/*
* Output 'len' characters in 'str' (including NULs) with translation
* if 'len' is -1, output up to a NUL character.
* Use attributes 'attr'.
* Return the number of characters it takes on the screen.
*/
int
msg_outtrans(char_u *str)
{
return msg_outtrans_attr(str, 0);
}
int
msg_outtrans_attr(char_u *str, int attr)
{
return msg_outtrans_len_attr(str, (int)STRLEN(str), attr);
}
int
msg_outtrans_len(char_u *str, int len)
{
return msg_outtrans_len_attr(str, len, 0);
}
/*
* Output one character at "p". Return pointer to the next character.
* Handles multi-byte characters.
*/
char_u *
msg_outtrans_one(char_u *p, int attr)
{
int l;
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
{
msg_outtrans_len_attr(p, l, attr);
return p + l;
}
msg_puts_attr((char *)transchar_byte(*p), attr);
return p + 1;
}
int
msg_outtrans_len_attr(char_u *msgstr, int len, int attr)
{
int retval = 0;
char_u *str = msgstr;
char_u *plain_start = msgstr;
char_u *s;
int mb_l;
int c;
// if MSG_HIST flag set, add message to history
if (attr & MSG_HIST)
{
add_msg_hist(str, len, attr);
attr &= ~MSG_HIST;
}
// If the string starts with a composing character first draw a space on
// which the composing char can be drawn.
if (enc_utf8 && utf_iscomposing(utf_ptr2char(msgstr)))
msg_puts_attr(" ", attr);
/*
* Go over the string. Special characters are translated and printed.
* Normal characters are printed several at a time.
*/
while (--len >= 0)
{
if (enc_utf8)
// Don't include composing chars after the end.
mb_l = utfc_ptr2len_len(str, len + 1);
else if (has_mbyte)
mb_l = (*mb_ptr2len)(str);
else
mb_l = 1;
if (has_mbyte && mb_l > 1)
{
c = (*mb_ptr2char)(str);
if (vim_isprintc(c))
// printable multi-byte char: count the cells.
retval += (*mb_ptr2cells)(str);
else
{
// unprintable multi-byte char: print the printable chars so
// far and the translation of the unprintable char.
if (str > plain_start)
msg_puts_attr_len((char *)plain_start,
(int)(str - plain_start), attr);
plain_start = str + mb_l;
msg_puts_attr((char *)transchar(c),
attr == 0 ? HL_ATTR(HLF_8) : attr);
retval += char2cells(c);
}
len -= mb_l - 1;
str += mb_l;
}
else
{
s = transchar_byte(*str);
if (s[1] != NUL)
{
// unprintable char: print the printable chars so far and the
// translation of the unprintable char.
if (str > plain_start)
msg_puts_attr_len((char *)plain_start,
(int)(str - plain_start), attr);
plain_start = str + 1;
msg_puts_attr((char *)s, attr == 0 ? HL_ATTR(HLF_8) : attr);
retval += (int)STRLEN(s);
}
else
++retval;
++str;
}
}
if (str > plain_start)
// print the printable chars at the end
msg_puts_attr_len((char *)plain_start, (int)(str - plain_start), attr);
return retval;
}
#if defined(FEAT_QUICKFIX) || defined(PROTO)
void
msg_make(char_u *arg)
{
int i;
static char_u *str = (char_u *)"eeffoc", *rs = (char_u *)"Plon#dqg#vxjduB";
arg = skipwhite(arg);
for (i = 5; *arg && i >= 0; --i)
if (*arg++ != str[i])
break;
if (i < 0)
{
msg_putchar('\n');
for (i = 0; rs[i]; ++i)
msg_putchar(rs[i] - 3);
}
}
#endif
/*
* Output the string 'str' up to a NUL character.
* Return the number of characters it takes on the screen.
*
* If K_SPECIAL is encountered, then it is taken in conjunction with the
* following character and shown as <F1>, <S-Up> etc. Any other character
* which is not printable shown in <> form.
* If 'from' is TRUE (lhs of a mapping), a space is shown as <Space>.
* If a character is displayed in one of these special ways, is also
* highlighted (its highlight name is '8' in the p_hl variable).
* Otherwise characters are not highlighted.
* This function is used to show mappings, where we want to see how to type
* the character/string -- webb
*/
int
msg_outtrans_special(
char_u *strstart,
int from, // TRUE for lhs of a mapping
int maxlen) // screen columns, 0 for unlimited
{
char_u *str = strstart;
int retval = 0;
char *text;
int attr;
int len;
attr = HL_ATTR(HLF_8);
while (*str != NUL)
{
// Leading and trailing spaces need to be displayed in <> form.
if ((str == strstart || str[1] == NUL) && *str == ' ')
{
text = "<Space>";
++str;
}
else
text = (char *)str2special(&str, from);
len = vim_strsize((char_u *)text);
if (maxlen > 0 && retval + len >= maxlen)
break;
// Highlight special keys
msg_puts_attr(text, len > 1
&& (*mb_ptr2len)((char_u *)text) <= 1 ? attr : 0);
retval += len;
}
return retval;
}
#if defined(FEAT_EVAL) || defined(PROTO)
/*
* Return the lhs or rhs of a mapping, with the key codes turned into printable
* strings, in an allocated string.
*/
char_u *
str2special_save(
char_u *str,
int is_lhs) // TRUE for lhs, FALSE for rhs
{
garray_T ga;
char_u *p = str;
ga_init2(&ga, 1, 40);
while (*p != NUL)
ga_concat(&ga, str2special(&p, is_lhs));
ga_append(&ga, NUL);
return (char_u *)ga.ga_data;
}
#endif
/*
* Return the printable string for the key codes at "*sp".
* Used for translating the lhs or rhs of a mapping to printable chars.
* Advances "sp" to the next code.
*/
char_u *
str2special(
char_u **sp,
int from) // TRUE for lhs of mapping
{
int c;
static char_u buf[7];
char_u *str = *sp;
int modifiers = 0;
int special = FALSE;
if (has_mbyte)
{
char_u *p;
// Try to un-escape a multi-byte character. Return the un-escaped
// string if it is a multi-byte character.
p = mb_unescape(sp);
if (p != NULL)
return p;
}
c = *str;
if (c == K_SPECIAL && str[1] != NUL && str[2] != NUL)
{
if (str[1] == KS_MODIFIER)
{
modifiers = str[2];
str += 3;
c = *str;
}
if (c == K_SPECIAL && str[1] != NUL && str[2] != NUL)
{
c = TO_SPECIAL(str[1], str[2]);
str += 2;
}
if (IS_SPECIAL(c) || modifiers) // special key
special = TRUE;
}
if (has_mbyte && !IS_SPECIAL(c))
{
int len = (*mb_ptr2len)(str);
// For multi-byte characters check for an illegal byte.
if (has_mbyte && MB_BYTE2LEN(*str) > len)
{
transchar_nonprint(buf, c);
*sp = str + 1;
return buf;
}
// Since 'special' is TRUE the multi-byte character 'c' will be
// processed by get_special_key_name()
c = (*mb_ptr2char)(str);
*sp = str + len;
}
else
*sp = str + 1;
// Make unprintable characters in <> form, also <M-Space> and <Tab>.
// Use <Space> only for lhs of a mapping.
if (special || char2cells(c) > 1 || (from && c == ' '))
return get_special_key_name(c, modifiers);
buf[0] = c;
buf[1] = NUL;
return buf;
}
/*
* Translate a key sequence into special key names.
*/
void
str2specialbuf(char_u *sp, char_u *buf, int len)
{
char_u *s;
*buf = NUL;
while (*sp)
{
s = str2special(&sp, FALSE);
if ((int)(STRLEN(s) + STRLEN(buf)) < len)
STRCAT(buf, s);
}
}
/*
* print line for :print or :list command
*/
void
msg_prt_line(char_u *s, int list)
{
int c;
int col = 0;
int n_extra = 0;
int c_extra = 0;
int c_final = 0;
char_u *p_extra = NULL; // init to make SASC shut up
int n;
int attr = 0;
char_u *trail = NULL;
int l;
char_u buf[MB_MAXBYTES + 1];
if (curwin->w_p_list)
list = TRUE;
// find start of trailing whitespace
if (list && lcs_trail)
{
trail = s + STRLEN(s);
while (trail > s && VIM_ISWHITE(trail[-1]))
--trail;
}
// output a space for an empty line, otherwise the line will be
// overwritten
if (*s == NUL && !(list && lcs_eol != NUL))
msg_putchar(' ');
while (!got_int)
{
if (n_extra > 0)
{
--n_extra;
if (n_extra == 0 && c_final)
c = c_final;
else if (c_extra)
c = c_extra;
else
c = *p_extra++;
}
else if (has_mbyte && (l = (*mb_ptr2len)(s)) > 1)
{
col += (*mb_ptr2cells)(s);
if (lcs_nbsp != NUL && list
&& (mb_ptr2char(s) == 160
|| mb_ptr2char(s) == 0x202f))
{
mb_char2bytes(lcs_nbsp, buf);
buf[(*mb_ptr2len)(buf)] = NUL;
}
else
{
mch_memmove(buf, s, (size_t)l);
buf[l] = NUL;
}
msg_puts((char *)buf);
s += l;
continue;
}
else
{
attr = 0;
c = *s++;
if (c == TAB && (!list || lcs_tab1))
{
// tab amount depends on current column
#ifdef FEAT_VARTABS
n_extra = tabstop_padding(col, curbuf->b_p_ts,
curbuf->b_p_vts_array) - 1;
#else
n_extra = curbuf->b_p_ts - col % curbuf->b_p_ts - 1;
#endif
if (!list)
{
c = ' ';
c_extra = ' ';
c_final = NUL;
}
else
{
c = (n_extra == 0 && lcs_tab3) ? lcs_tab3 : lcs_tab1;
c_extra = lcs_tab2;
c_final = lcs_tab3;
attr = HL_ATTR(HLF_8);
}
}
else if (c == 160 && list && lcs_nbsp != NUL)
{
c = lcs_nbsp;
attr = HL_ATTR(HLF_8);
}
else if (c == NUL && list && lcs_eol != NUL)
{
p_extra = (char_u *)"";
c_extra = NUL;
c_final = NUL;
n_extra = 1;
c = lcs_eol;
attr = HL_ATTR(HLF_AT);
--s;
}
else if (c != NUL && (n = byte2cells(c)) > 1)
{
n_extra = n - 1;
p_extra = transchar_byte(c);
c_extra = NUL;
c_final = NUL;
c = *p_extra++;
// Use special coloring to be able to distinguish <hex> from
// the same in plain text.
attr = HL_ATTR(HLF_8);
}
else if (c == ' ' && trail != NULL && s > trail)
{
c = lcs_trail;
attr = HL_ATTR(HLF_8);
}
else if (c == ' ' && list && lcs_space != NUL)
{
c = lcs_space;
attr = HL_ATTR(HLF_8);
}
}
if (c == NUL)
break;
msg_putchar_attr(c, attr);
col++;
}
msg_clr_eos();
}
/*
* Use screen_puts() to output one multi-byte character.
* Return the pointer "s" advanced to the next character.
*/
static char_u *
screen_puts_mbyte(char_u *s, int l, int attr)
{
int cw;
msg_didout = TRUE; // remember that line is not empty
cw = (*mb_ptr2cells)(s);
if (cw > 1 && (
#ifdef FEAT_RIGHTLEFT
cmdmsg_rl ? msg_col <= 1 :
#endif
msg_col == Columns - 1))
{
// Doesn't fit, print a highlighted '>' to fill it up.
msg_screen_putchar('>', HL_ATTR(HLF_AT));
return s;
}
screen_puts_len(s, l, msg_row, msg_col, attr);
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
{
msg_col -= cw;
if (msg_col == 0)
{
msg_col = Columns;
++msg_row;
}
}
else
#endif
{
msg_col += cw;
if (msg_col >= Columns)
{
msg_col = 0;
++msg_row;
}
}
return s + l;
}
/*
* Output a string to the screen at position msg_row, msg_col.
* Update msg_row and msg_col for the next message.
*/
void
msg_puts(char *s)
{
msg_puts_attr(s, 0);
}
void
msg_puts_title(char *s)
{
msg_puts_attr(s, HL_ATTR(HLF_T));
}
/*
* Show a message in such a way that it always fits in the line. Cut out a
* part in the middle and replace it with "..." when necessary.
* Does not handle multi-byte characters!
*/
static void
msg_outtrans_long_len_attr(char_u *longstr, int len, int attr)
{
int slen = len;
int room;
room = Columns - msg_col;
if (len > room && room >= 20)
{
slen = (room - 3) / 2;
msg_outtrans_len_attr(longstr, slen, attr);
msg_puts_attr("...", HL_ATTR(HLF_8));
}
msg_outtrans_len_attr(longstr + len - slen, slen, attr);
}
void
msg_outtrans_long_attr(char_u *longstr, int attr)
{
msg_outtrans_long_len_attr(longstr, (int)STRLEN(longstr), attr);
}
/*
* Basic function for writing a message with highlight attributes.
*/
void
msg_puts_attr(char *s, int attr)
{
msg_puts_attr_len(s, -1, attr);
}
/*
* Like msg_puts_attr(), but with a maximum length "maxlen" (in bytes).
* When "maxlen" is -1 there is no maximum length.
* When "maxlen" is >= 0 the message is not put in the history.
*/
static void
msg_puts_attr_len(char *str, int maxlen, int attr)
{
/*
* If redirection is on, also write to the redirection file.
*/
redir_write((char_u *)str, maxlen);
/*
* Don't print anything when using ":silent cmd".
*/
if (msg_silent != 0)
return;
// if MSG_HIST flag set, add message to history
if ((attr & MSG_HIST) && maxlen < 0)
{
add_msg_hist((char_u *)str, -1, attr);
attr &= ~MSG_HIST;
}
// When writing something to the screen after it has scrolled, requires a
// wait-return prompt later. Needed when scrolling, resetting
// need_wait_return after some prompt, and then outputting something
// without scrolling
// Not needed when only using CR to move the cursor.
if (msg_scrolled != 0 && !msg_scrolled_ign && STRCMP(str, "\r") != 0)
need_wait_return = TRUE;
msg_didany = TRUE; // remember that something was outputted
/*
* If there is no valid screen, use fprintf so we can see error messages.
* If termcap is not active, we may be writing in an alternate console
* window, cursor positioning may not work correctly (window size may be
* different, e.g. for Win32 console) or we just don't know where the
* cursor is.
*/
if (msg_use_printf())
msg_puts_printf((char_u *)str, maxlen);
else
msg_puts_display((char_u *)str, maxlen, attr, FALSE);
}
/*
* The display part of msg_puts_attr_len().
* May be called recursively to display scroll-back text.
*/
static void
msg_puts_display(
char_u *str,
int maxlen,
int attr,
int recurse)
{
char_u *s = str;
char_u *t_s = str; // string from "t_s" to "s" is still todo
int t_col = 0; // screen cells todo, 0 when "t_s" not used
int l;
int cw;
char_u *sb_str = str;
int sb_col = msg_col;
int wrap;
int did_last_char;
did_wait_return = FALSE;
while ((maxlen < 0 || (int)(s - str) < maxlen) && *s != NUL)
{
/*
* We are at the end of the screen line when:
* - When outputting a newline.
* - When outputting a character in the last column.
*/
if (!recurse && msg_row >= Rows - 1 && (*s == '\n' || (
#ifdef FEAT_RIGHTLEFT
cmdmsg_rl
? (
msg_col <= 1
|| (*s == TAB && msg_col <= 7)
|| (has_mbyte && (*mb_ptr2cells)(s) > 1 && msg_col <= 2))
:
#endif
((*s != '\r' && msg_col + t_col >= Columns - 1)
|| (*s == TAB && msg_col + t_col >= ((Columns - 1) & ~7))
|| (has_mbyte && (*mb_ptr2cells)(s) > 1
&& msg_col + t_col >= Columns - 2)))))
{
/*
* The screen is scrolled up when at the last row (some terminals
* scroll automatically, some don't. To avoid problems we scroll
* ourselves).
*/
if (t_col > 0)
// output postponed text
t_puts(&t_col, t_s, s, attr);
// When no more prompt and no more room, truncate here
if (msg_no_more && lines_left == 0)
break;
// Scroll the screen up one line.
msg_scroll_up();
msg_row = Rows - 2;
if (msg_col >= Columns) // can happen after screen resize
msg_col = Columns - 1;
// Display char in last column before showing more-prompt.
if (*s >= ' '
#ifdef FEAT_RIGHTLEFT
&& !cmdmsg_rl
#endif
)
{
if (has_mbyte)
{
if (enc_utf8 && maxlen >= 0)
// avoid including composing chars after the end
l = utfc_ptr2len_len(s, (int)((str + maxlen) - s));
else
l = (*mb_ptr2len)(s);
s = screen_puts_mbyte(s, l, attr);
}
else
msg_screen_putchar(*s++, attr);
did_last_char = TRUE;
}
else
did_last_char = FALSE;
if (p_more)
// store text for scrolling back
store_sb_text(&sb_str, s, attr, &sb_col, TRUE);
inc_msg_scrolled();
need_wait_return = TRUE; // may need wait_return in main()
redraw_cmdline = TRUE;
if (cmdline_row > 0 && !exmode_active)
--cmdline_row;
/*
* If screen is completely filled and 'more' is set then wait
* for a character.
*/
if (lines_left > 0)
--lines_left;
if (p_more && lines_left == 0 && State != HITRETURN
&& !msg_no_more && !exmode_active)
{
#ifdef FEAT_CON_DIALOG
if (do_more_prompt(NUL))
s = confirm_msg_tail;
#else
(void)do_more_prompt(NUL);
#endif
if (quit_more)
return;
}
// When we displayed a char in last column need to check if there
// is still more.
if (did_last_char)
continue;
}
wrap = *s == '\n'
|| msg_col + t_col >= Columns
|| (has_mbyte && (*mb_ptr2cells)(s) > 1
&& msg_col + t_col >= Columns - 1);
if (t_col > 0 && (wrap || *s == '\r' || *s == '\b'
|| *s == '\t' || *s == BELL))
// output any postponed text
t_puts(&t_col, t_s, s, attr);
if (wrap && p_more && !recurse)
// store text for scrolling back
store_sb_text(&sb_str, s, attr, &sb_col, TRUE);
if (*s == '\n') // go to next line
{
msg_didout = FALSE; // remember that line is empty
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
msg_col = Columns - 1;
else
#endif
msg_col = 0;
if (++msg_row >= Rows) // safety check
msg_row = Rows - 1;
}
else if (*s == '\r') // go to column 0
{
msg_col = 0;
}
else if (*s == '\b') // go to previous char
{
if (msg_col)
--msg_col;
}
else if (*s == TAB) // translate Tab into spaces
{
do
msg_screen_putchar(' ', attr);
while (msg_col & 7);
}
else if (*s == BELL) // beep (from ":sh")
vim_beep(BO_SH);
else
{
if (has_mbyte)
{
cw = (*mb_ptr2cells)(s);
if (enc_utf8 && maxlen >= 0)
// avoid including composing chars after the end
l = utfc_ptr2len_len(s, (int)((str + maxlen) - s));
else
l = (*mb_ptr2len)(s);
}
else
{
cw = 1;
l = 1;
}
// When drawing from right to left or when a double-wide character
// doesn't fit, draw a single character here. Otherwise collect
// characters and draw them all at once later.
if (
# ifdef FEAT_RIGHTLEFT
cmdmsg_rl ||
# endif
(cw > 1 && msg_col + t_col >= Columns - 1))
{
if (l > 1)
s = screen_puts_mbyte(s, l, attr) - 1;
else
msg_screen_putchar(*s, attr);
}
else
{
// postpone this character until later
if (t_col == 0)
t_s = s;
t_col += cw;
s += l - 1;
}
}
++s;
}
// output any postponed text
if (t_col > 0)
t_puts(&t_col, t_s, s, attr);
if (p_more && !recurse)
store_sb_text(&sb_str, s, attr, &sb_col, FALSE);
msg_check();
}
/*
* Return TRUE when ":filter pattern" was used and "msg" does not match
* "pattern".
*/
int
message_filtered(char_u *msg)
{
int match;
if (cmdmod.filter_regmatch.regprog == NULL)
return FALSE;
match = vim_regexec(&cmdmod.filter_regmatch, msg, (colnr_T)0);
return cmdmod.filter_force ? match : !match;
}
/*
* Scroll the screen up one line for displaying the next message line.
*/
static void
msg_scroll_up(void)
{
#ifdef FEAT_GUI
// Remove the cursor before scrolling, ScreenLines[] is going
// to become invalid.
if (gui.in_use)
gui_undraw_cursor();
#endif
// scrolling up always works
mch_disable_flush();
screen_del_lines(0, 0, 1, (int)Rows, TRUE, 0, NULL);
mch_enable_flush();
if (!can_clear((char_u *)" "))
{
// Scrolling up doesn't result in the right background. Set the
// background here. It's not efficient, but avoids that we have to do
// it all over the code.
screen_fill((int)Rows - 1, (int)Rows, 0, (int)Columns, ' ', ' ', 0);
// Also clear the last char of the last but one line if it was not
// cleared before to avoid a scroll-up.
if (ScreenAttrs[LineOffset[Rows - 2] + Columns - 1] == (sattr_T)-1)
screen_fill((int)Rows - 2, (int)Rows - 1,
(int)Columns - 1, (int)Columns, ' ', ' ', 0);
}
}
/*
* Increment "msg_scrolled".
*/
static void
inc_msg_scrolled(void)
{
#ifdef FEAT_EVAL
if (*get_vim_var_str(VV_SCROLLSTART) == NUL)
{
char_u *p = SOURCING_NAME;
char_u *tofree = NULL;
int len;
// v:scrollstart is empty, set it to the script/function name and line
// number
if (p == NULL)
p = (char_u *)_("Unknown");
else
{
len = (int)STRLEN(p) + 40;
tofree = alloc(len);
if (tofree != NULL)
{
vim_snprintf((char *)tofree, len, _("%s line %ld"),
p, (long)SOURCING_LNUM);
p = tofree;
}
}
set_vim_var_string(VV_SCROLLSTART, p, -1);
vim_free(tofree);
}
#endif
++msg_scrolled;
if (must_redraw < VALID)
must_redraw = VALID;
}
/*
* To be able to scroll back at the "more" and "hit-enter" prompts we need to
* store the displayed text and remember where screen lines start.
*/
typedef struct msgchunk_S msgchunk_T;
struct msgchunk_S
{
msgchunk_T *sb_next;
msgchunk_T *sb_prev;
char sb_eol; // TRUE when line ends after this text
int sb_msg_col; // column in which text starts
int sb_attr; // text attributes
char_u sb_text[1]; // text to be displayed, actually longer
};
static msgchunk_T *last_msgchunk = NULL; // last displayed text
static msgchunk_T *msg_sb_start(msgchunk_T *mps);
typedef enum {
SB_CLEAR_NONE = 0,
SB_CLEAR_ALL,
SB_CLEAR_CMDLINE_BUSY,
SB_CLEAR_CMDLINE_DONE
} sb_clear_T;
// When to clear text on next msg.
static sb_clear_T do_clear_sb_text = SB_CLEAR_NONE;
/*
* Store part of a printed message for displaying when scrolling back.
*/
static void
store_sb_text(
char_u **sb_str, // start of string
char_u *s, // just after string
int attr,
int *sb_col,
int finish) // line ends
{
msgchunk_T *mp;
if (do_clear_sb_text == SB_CLEAR_ALL
|| do_clear_sb_text == SB_CLEAR_CMDLINE_DONE)
{
clear_sb_text(do_clear_sb_text == SB_CLEAR_ALL);
do_clear_sb_text = SB_CLEAR_NONE;
}
if (s > *sb_str)
{
mp = alloc(sizeof(msgchunk_T) + (s - *sb_str));
if (mp != NULL)
{
mp->sb_eol = finish;
mp->sb_msg_col = *sb_col;
mp->sb_attr = attr;
vim_strncpy(mp->sb_text, *sb_str, s - *sb_str);
if (last_msgchunk == NULL)
{
last_msgchunk = mp;
mp->sb_prev = NULL;
}
else
{
mp->sb_prev = last_msgchunk;
last_msgchunk->sb_next = mp;
last_msgchunk = mp;
}
mp->sb_next = NULL;
}
}
else if (finish && last_msgchunk != NULL)
last_msgchunk->sb_eol = TRUE;
*sb_str = s;
*sb_col = 0;
}
/*
* Finished showing messages, clear the scroll-back text on the next message.
*/
void
may_clear_sb_text(void)
{
do_clear_sb_text = SB_CLEAR_ALL;
}
/*
* Starting to edit the command line, do not clear messages now.
*/
void
sb_text_start_cmdline(void)
{
do_clear_sb_text = SB_CLEAR_CMDLINE_BUSY;
msg_sb_eol();
}
/*
* Ending to edit the command line. Clear old lines but the last one later.
*/
void
sb_text_end_cmdline(void)
{
do_clear_sb_text = SB_CLEAR_CMDLINE_DONE;
}
/*
* Clear any text remembered for scrolling back.
* When "all" is FALSE keep the last line.
* Called when redrawing the screen.
*/
void
clear_sb_text(int all)
{
msgchunk_T *mp;
msgchunk_T **lastp;
if (all)
lastp = &last_msgchunk;
else
{
if (last_msgchunk == NULL)
return;
lastp = &last_msgchunk->sb_prev;
}
while (*lastp != NULL)
{
mp = (*lastp)->sb_prev;
vim_free(*lastp);
*lastp = mp;
}
}
/*
* "g<" command.
*/
void
show_sb_text(void)
{
msgchunk_T *mp;
// Only show something if there is more than one line, otherwise it looks
// weird, typing a command without output results in one line.
mp = msg_sb_start(last_msgchunk);
if (mp == NULL || mp->sb_prev == NULL)
vim_beep(BO_MESS);
else
{
do_more_prompt('G');
wait_return(FALSE);
}
}
/*
* Move to the start of screen line in already displayed text.
*/
static msgchunk_T *
msg_sb_start(msgchunk_T *mps)
{
msgchunk_T *mp = mps;
while (mp != NULL && mp->sb_prev != NULL && !mp->sb_prev->sb_eol)
mp = mp->sb_prev;
return mp;
}
/*
* Mark the last message chunk as finishing the line.
*/
void
msg_sb_eol(void)
{
if (last_msgchunk != NULL)
last_msgchunk->sb_eol = TRUE;
}
/*
* Display a screen line from previously displayed text at row "row".
* Returns a pointer to the text for the next line (can be NULL).
*/
static msgchunk_T *
disp_sb_line(int row, msgchunk_T *smp)
{
msgchunk_T *mp = smp;
char_u *p;
for (;;)
{
msg_row = row;
msg_col = mp->sb_msg_col;
p = mp->sb_text;
if (*p == '\n') // don't display the line break
++p;
msg_puts_display(p, -1, mp->sb_attr, TRUE);
if (mp->sb_eol || mp->sb_next == NULL)
break;
mp = mp->sb_next;
}
return mp->sb_next;
}
/*
* Output any postponed text for msg_puts_attr_len().
*/
static void
t_puts(
int *t_col,
char_u *t_s,
char_u *s,
int attr)
{
// output postponed text
msg_didout = TRUE; // remember that line is not empty
screen_puts_len(t_s, (int)(s - t_s), msg_row, msg_col, attr);
msg_col += *t_col;
*t_col = 0;
// If the string starts with a composing character don't increment the
// column position for it.
if (enc_utf8 && utf_iscomposing(utf_ptr2char(t_s)))
--msg_col;
if (msg_col >= Columns)
{
msg_col = 0;
++msg_row;
}
}
/*
* Returns TRUE when messages should be printed with mch_errmsg().
* This is used when there is no valid screen, so we can see error messages.
* If termcap is not active, we may be writing in an alternate console
* window, cursor positioning may not work correctly (window size may be
* different, e.g. for Win32 console) or we just don't know where the
* cursor is.
*/
int
msg_use_printf(void)
{
return (!msg_check_screen()
#if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL))
# ifdef VIMDLL
|| (!gui.in_use && !termcap_active)
# else
|| !termcap_active
# endif
#endif
|| (swapping_screen() && !termcap_active)
);
}
/*
* Print a message when there is no valid screen.
*/
static void
msg_puts_printf(char_u *str, int maxlen)
{
char_u *s = str;
char_u *buf = NULL;
char_u *p = s;
#ifdef MSWIN
if (!(silent_mode && p_verbose == 0))
mch_settmode(TMODE_COOK); // handle CR and NL correctly
#endif
while ((maxlen < 0 || (int)(s - str) < maxlen) && *s != NUL)
{
if (!(silent_mode && p_verbose == 0))
{
// NL --> CR NL translation (for Unix, not for "--version")
if (*s == NL)
{
int n = (int)(s - p);
buf = alloc(n + 3);
if (buf != NULL)
{
memcpy(buf, p, n);
if (!info_message)
buf[n++] = CAR;
buf[n++] = NL;
buf[n++] = NUL;
if (info_message) // informative message, not an error
mch_msg((char *)buf);
else
mch_errmsg((char *)buf);
vim_free(buf);
}
p = s + 1;
}
}
// primitive way to compute the current column
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
{
if (*s == CAR || *s == NL)
msg_col = Columns - 1;
else
--msg_col;
}
else
#endif
{
if (*s == CAR || *s == NL)
msg_col = 0;
else
++msg_col;
}
++s;
}
if (*p != NUL && !(silent_mode && p_verbose == 0))
{
int c = -1;
if (maxlen > 0 && STRLEN(p) > (size_t)maxlen)
{
c = p[maxlen];
p[maxlen] = 0;
}
if (info_message)
mch_msg((char *)p);
else
mch_errmsg((char *)p);
if (c != -1)
p[maxlen] = c;
}
msg_didout = TRUE; // assume that line is not empty
#ifdef MSWIN
if (!(silent_mode && p_verbose == 0))
mch_settmode(TMODE_RAW);
#endif
}
/*
* Show the more-prompt and handle the user response.
* This takes care of scrolling back and displaying previously displayed text.
* When at hit-enter prompt "typed_char" is the already typed character,
* otherwise it's NUL.
* Returns TRUE when jumping ahead to "confirm_msg_tail".
*/
static int
do_more_prompt(int typed_char)
{
static int entered = FALSE;
int used_typed_char = typed_char;
int oldState = State;
int c;
#ifdef FEAT_CON_DIALOG
int retval = FALSE;
#endif
int toscroll;
msgchunk_T *mp_last = NULL;
msgchunk_T *mp;
int i;
// We get called recursively when a timer callback outputs a message. In
// that case don't show another prompt. Also when at the hit-Enter prompt
// and nothing was typed.
if (entered || (State == HITRETURN && typed_char == 0))
return FALSE;
entered = TRUE;
if (typed_char == 'G')
{
// "g<": Find first line on the last page.
mp_last = msg_sb_start(last_msgchunk);
for (i = 0; i < Rows - 2 && mp_last != NULL
&& mp_last->sb_prev != NULL; ++i)
mp_last = msg_sb_start(mp_last->sb_prev);
}
State = ASKMORE;
setmouse();
if (typed_char == NUL)
msg_moremsg(FALSE);
for (;;)
{
/*
* Get a typed character directly from the user.
*/
if (used_typed_char != NUL)
{
c = used_typed_char; // was typed at hit-enter prompt
used_typed_char = NUL;
}
else
c = get_keystroke();
#if defined(FEAT_MENU) && defined(FEAT_GUI)
if (c == K_MENU)
{
int idx = get_menu_index(current_menu, ASKMORE);
// Used a menu. If it starts with CTRL-Y, it must
// be a "Copy" for the clipboard. Otherwise
// assume that we end
if (idx == MENU_INDEX_INVALID)
continue;
c = *current_menu->strings[idx];
if (c != NUL && current_menu->strings[idx][1] != NUL)
ins_typebuf(current_menu->strings[idx] + 1,
current_menu->noremap[idx], 0, TRUE,
current_menu->silent[idx]);
}
#endif
toscroll = 0;
switch (c)
{
case BS: // scroll one line back
case K_BS:
case 'k':
case K_UP:
toscroll = -1;
break;
case CAR: // one extra line
case NL:
case 'j':
case K_DOWN:
toscroll = 1;
break;
case 'u': // Up half a page
toscroll = -(Rows / 2);
break;
case 'd': // Down half a page
toscroll = Rows / 2;
break;
case 'b': // one page back
case K_PAGEUP:
toscroll = -(Rows - 1);
break;
case ' ': // one extra page
case 'f':
case K_PAGEDOWN:
case K_LEFTMOUSE:
toscroll = Rows - 1;
break;
case 'g': // all the way back to the start
toscroll = -999999;
break;
case 'G': // all the way to the end
toscroll = 999999;
lines_left = 999999;
break;
case ':': // start new command line
#ifdef FEAT_CON_DIALOG
if (!confirm_msg_used)
#endif
{
// Since got_int is set all typeahead will be flushed, but we
// want to keep this ':', remember that in a special way.
typeahead_noflush(':');
#ifdef FEAT_TERMINAL
skip_term_loop = TRUE;
#endif
cmdline_row = Rows - 1; // put ':' on this line
skip_redraw = TRUE; // skip redraw once
need_wait_return = FALSE; // don't wait in main()
}
// FALLTHROUGH
case 'q': // quit
case Ctrl_C:
case ESC:
#ifdef FEAT_CON_DIALOG
if (confirm_msg_used)
{
// Jump to the choices of the dialog.
retval = TRUE;
}
else
#endif
{
got_int = TRUE;
quit_more = TRUE;
}
// When there is some more output (wrapping line) display that
// without another prompt.
lines_left = Rows - 1;
break;
#ifdef FEAT_CLIPBOARD
case Ctrl_Y:
// Strange way to allow copying (yanking) a modeless
// selection at the more prompt. Use CTRL-Y,
// because the same is used in Cmdline-mode and at the
// hit-enter prompt. However, scrolling one line up
// might be expected...
if (clip_star.state == SELECT_DONE)
clip_copy_modeless_selection(TRUE);
continue;
#endif
default: // no valid response
msg_moremsg(TRUE);
continue;
}
if (toscroll != 0)
{
if (toscroll < 0)
{
// go to start of last line
if (mp_last == NULL)
mp = msg_sb_start(last_msgchunk);
else if (mp_last->sb_prev != NULL)
mp = msg_sb_start(mp_last->sb_prev);
else
mp = NULL;
// go to start of line at top of the screen
for (i = 0; i < Rows - 2 && mp != NULL && mp->sb_prev != NULL;
++i)
mp = msg_sb_start(mp->sb_prev);
if (mp != NULL && mp->sb_prev != NULL)
{
// Find line to be displayed at top.
for (i = 0; i > toscroll; --i)
{
if (mp == NULL || mp->sb_prev == NULL)
break;
mp = msg_sb_start(mp->sb_prev);
if (mp_last == NULL)
mp_last = msg_sb_start(last_msgchunk);
else
mp_last = msg_sb_start(mp_last->sb_prev);
}
if (toscroll == -1 && screen_ins_lines(0, 0, 1,
(int)Rows, 0, NULL) == OK)
{
// display line at top
(void)disp_sb_line(0, mp);
}
else
{
// redisplay all lines
screenclear();
for (i = 0; mp != NULL && i < Rows - 1; ++i)
{
mp = disp_sb_line(i, mp);
++msg_scrolled;
}
}
toscroll = 0;
}
}
else
{
// First display any text that we scrolled back.
while (toscroll > 0 && mp_last != NULL)
{
// scroll up, display line at bottom
msg_scroll_up();
inc_msg_scrolled();
screen_fill((int)Rows - 2, (int)Rows - 1, 0,
(int)Columns, ' ', ' ', 0);
mp_last = disp_sb_line((int)Rows - 2, mp_last);
--toscroll;
}
}
if (toscroll <= 0)
{
// displayed the requested text, more prompt again
screen_fill((int)Rows - 1, (int)Rows, 0,
(int)Columns, ' ', ' ', 0);
msg_moremsg(FALSE);
continue;
}
// display more text, return to caller
lines_left = toscroll;
}
break;
}
// clear the --more-- message
screen_fill((int)Rows - 1, (int)Rows, 0, (int)Columns, ' ', ' ', 0);
State = oldState;
setmouse();
if (quit_more)
{
msg_row = Rows - 1;
msg_col = 0;
}
#ifdef FEAT_RIGHTLEFT
else if (cmdmsg_rl)
msg_col = Columns - 1;
#endif
entered = FALSE;
#ifdef FEAT_CON_DIALOG
return retval;
#else
return FALSE;
#endif
}
#if defined(USE_MCH_ERRMSG) || defined(PROTO)
#ifdef mch_errmsg
# undef mch_errmsg
#endif
#ifdef mch_msg
# undef mch_msg
#endif
#if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL))
static void
mch_errmsg_c(char *str)
{
int len = (int)STRLEN(str);
DWORD nwrite = 0;
DWORD mode = 0;
HANDLE h = GetStdHandle(STD_ERROR_HANDLE);
if (GetConsoleMode(h, &mode) && enc_codepage >= 0
&& (int)GetConsoleCP() != enc_codepage)
{
WCHAR *w = enc_to_utf16((char_u *)str, &len);
WriteConsoleW(h, w, len, &nwrite, NULL);
vim_free(w);
}
else
{
fprintf(stderr, "%s", str);
}
}
#endif
/*
* Give an error message. To be used when the screen hasn't been initialized
* yet. When stderr can't be used, collect error messages until the GUI has
* started and they can be displayed in a message box.
*/
void
mch_errmsg(char *str)
{
#if !defined(MSWIN) || defined(FEAT_GUI_MSWIN)
int len;
#endif
#if (defined(UNIX) || defined(FEAT_GUI)) && !defined(ALWAYS_USE_GUI) && !defined(VIMDLL)
// On Unix use stderr if it's a tty.
// When not going to start the GUI also use stderr.
// On Mac, when started from Finder, stderr is the console.
if (
# ifdef UNIX
# ifdef MACOS_X
(isatty(2) && strcmp("/dev/console", ttyname(2)) != 0)
# else
isatty(2)
# endif
# ifdef FEAT_GUI
||
# endif
# endif
# ifdef FEAT_GUI
!(gui.in_use || gui.starting)
# endif
)
{
fprintf(stderr, "%s", str);
return;
}
#endif
#if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL))
# ifdef VIMDLL
if (!(gui.in_use || gui.starting))
# endif
{
mch_errmsg_c(str);
return;
}
#endif
#if !defined(MSWIN) || defined(FEAT_GUI_MSWIN)
// avoid a delay for a message that isn't there
emsg_on_display = FALSE;
len = (int)STRLEN(str) + 1;
if (error_ga.ga_growsize == 0)
{
error_ga.ga_growsize = 80;
error_ga.ga_itemsize = 1;
}
if (ga_grow(&error_ga, len) == OK)
{
mch_memmove((char_u *)error_ga.ga_data + error_ga.ga_len,
(char_u *)str, len);
# ifdef UNIX
// remove CR characters, they are displayed
{
char_u *p;
p = (char_u *)error_ga.ga_data + error_ga.ga_len;
for (;;)
{
p = vim_strchr(p, '\r');
if (p == NULL)
break;
*p = ' ';
}
}
# endif
--len; // don't count the NUL at the end
error_ga.ga_len += len;
}
#endif
}
#if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL))
static void
mch_msg_c(char *str)
{
int len = (int)STRLEN(str);
DWORD nwrite = 0;
DWORD mode;
HANDLE h = GetStdHandle(STD_OUTPUT_HANDLE);
if (GetConsoleMode(h, &mode) && enc_codepage >= 0
&& (int)GetConsoleCP() != enc_codepage)
{
WCHAR *w = enc_to_utf16((char_u *)str, &len);
WriteConsoleW(h, w, len, &nwrite, NULL);
vim_free(w);
}
else
{
printf("%s", str);
}
}
#endif
/*
* Give a message. To be used when the screen hasn't been initialized yet.
* When there is no tty, collect messages until the GUI has started and they
* can be displayed in a message box.
*/
void
mch_msg(char *str)
{
#if (defined(UNIX) || defined(FEAT_GUI)) && !defined(ALWAYS_USE_GUI) && !defined(VIMDLL)
// On Unix use stdout if we have a tty. This allows "vim -h | more" and
// uses mch_errmsg() when started from the desktop.
// When not going to start the GUI also use stdout.
// On Mac, when started from Finder, stderr is the console.
if (
# ifdef UNIX
# ifdef MACOS_X
(isatty(2) && strcmp("/dev/console", ttyname(2)) != 0)
# else
isatty(2)
# endif
# ifdef FEAT_GUI
||
# endif
# endif
# ifdef FEAT_GUI
!(gui.in_use || gui.starting)
# endif
)
{
printf("%s", str);
return;
}
#endif
#if defined(MSWIN) && (!defined(FEAT_GUI_MSWIN) || defined(VIMDLL))
# ifdef VIMDLL
if (!(gui.in_use || gui.starting))
# endif
{
mch_msg_c(str);
return;
}
#endif
#if !defined(MSWIN) || defined(FEAT_GUI_MSWIN)
mch_errmsg(str);
#endif
}
#endif // USE_MCH_ERRMSG
/*
* Put a character on the screen at the current message position and advance
* to the next position. Only for printable ASCII!
*/
static void
msg_screen_putchar(int c, int attr)
{
msg_didout = TRUE; // remember that line is not empty
screen_putchar(c, msg_row, msg_col, attr);
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
{
if (--msg_col == 0)
{
msg_col = Columns;
++msg_row;
}
}
else
#endif
{
if (++msg_col >= Columns)
{
msg_col = 0;
++msg_row;
}
}
}
static void
msg_moremsg(int full)
{
int attr;
char_u *s = (char_u *)_("-- More --");
attr = HL_ATTR(HLF_M);
screen_puts(s, (int)Rows - 1, 0, attr);
if (full)
screen_puts((char_u *)
_(" SPACE/d/j: screen/page/line down, b/u/k: up, q: quit "),
(int)Rows - 1, vim_strsize(s), attr);
}
/*
* Repeat the message for the current mode: ASKMORE, EXTERNCMD, CONFIRM or
* exmode_active.
*/
void
repeat_message(void)
{
if (State == ASKMORE)
{
msg_moremsg(TRUE); // display --more-- message again
msg_row = Rows - 1;
}
#ifdef FEAT_CON_DIALOG
else if (State == CONFIRM)
{
display_confirm_msg(); // display ":confirm" message again
msg_row = Rows - 1;
}
#endif
else if (State == EXTERNCMD)
{
windgoto(msg_row, msg_col); // put cursor back
}
else if (State == HITRETURN || State == SETWSIZE)
{
if (msg_row == Rows - 1)
{
// Avoid drawing the "hit-enter" prompt below the previous one,
// overwrite it. Esp. useful when regaining focus and a
// FocusGained autocmd exists but didn't draw anything.
msg_didout = FALSE;
msg_col = 0;
msg_clr_eos();
}
hit_return_msg();
msg_row = Rows - 1;
}
}
/*
* msg_check_screen - check if the screen is initialized.
* Also check msg_row and msg_col, if they are too big it may cause a crash.
* While starting the GUI the terminal codes will be set for the GUI, but the
* output goes to the terminal. Don't use the terminal codes then.
*/
static int
msg_check_screen(void)
{
if (!full_screen || !screen_valid(FALSE))
return FALSE;
if (msg_row >= Rows)
msg_row = Rows - 1;
if (msg_col >= Columns)
msg_col = Columns - 1;
return TRUE;
}
/*
* Clear from current message position to end of screen.
* Skip this when ":silent" was used, no need to clear for redirection.
*/
void
msg_clr_eos(void)
{
if (msg_silent == 0)
msg_clr_eos_force();
}
/*
* Clear from current message position to end of screen.
* Note: msg_col is not updated, so we remember the end of the message
* for msg_check().
*/
void
msg_clr_eos_force(void)
{
if (msg_use_printf())
{
if (full_screen) // only when termcap codes are valid
{
if (*T_CD)
out_str(T_CD); // clear to end of display
else if (*T_CE)
out_str(T_CE); // clear to end of line
}
}
else
{
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
{
screen_fill(msg_row, msg_row + 1, 0, msg_col + 1, ' ', ' ', 0);
screen_fill(msg_row + 1, (int)Rows, 0, (int)Columns, ' ', ' ', 0);
}
else
#endif
{
screen_fill(msg_row, msg_row + 1, msg_col, (int)Columns,
' ', ' ', 0);
screen_fill(msg_row + 1, (int)Rows, 0, (int)Columns, ' ', ' ', 0);
}
}
}
/*
* Clear the command line.
*/
void
msg_clr_cmdline(void)
{
msg_row = cmdline_row;
msg_col = 0;
msg_clr_eos_force();
}
/*
* end putting a message on the screen
* call wait_return if the message does not fit in the available space
* return TRUE if wait_return not called.
*/
int
msg_end(void)
{
/*
* If the string is larger than the window,
* or the ruler option is set and we run into it,
* we have to redraw the window.
* Do not do this if we are abandoning the file or editing the command line.
*/
if (!exiting && need_wait_return && !(State & CMDLINE))
{
wait_return(FALSE);
return FALSE;
}
out_flush();
return TRUE;
}
/*
* If the written message runs into the shown command or ruler, we have to
* wait for hit-return and redraw the window later.
*/
void
msg_check(void)
{
if (msg_row == Rows - 1 && msg_col >= sc_col)
{
need_wait_return = TRUE;
redraw_cmdline = TRUE;
}
}
/*
* May write a string to the redirection file.
* When "maxlen" is -1 write the whole string, otherwise up to "maxlen" bytes.
*/
static void
redir_write(char_u *str, int maxlen)
{
char_u *s = str;
static int cur_col = 0;
// Don't do anything for displaying prompts and the like.
if (redir_off)
return;
// If 'verbosefile' is set prepare for writing in that file.
if (*p_vfile != NUL && verbose_fd == NULL)
verbose_open();
if (redirecting())
{
// If the string doesn't start with CR or NL, go to msg_col
if (*s != '\n' && *s != '\r')
{
while (cur_col < msg_col)
{
#ifdef FEAT_EVAL
if (redir_execute)
execute_redir_str((char_u *)" ", -1);
else if (redir_reg)
write_reg_contents(redir_reg, (char_u *)" ", -1, TRUE);
else if (redir_vname)
var_redir_str((char_u *)" ", -1);
else
#endif
if (redir_fd != NULL)
fputs(" ", redir_fd);
if (verbose_fd != NULL)
fputs(" ", verbose_fd);
++cur_col;
}
}
#ifdef FEAT_EVAL
if (redir_execute)
execute_redir_str(s, maxlen);
else if (redir_reg)
write_reg_contents(redir_reg, s, maxlen, TRUE);
else if (redir_vname)
var_redir_str(s, maxlen);
#endif
// Write and adjust the current column.
while (*s != NUL && (maxlen < 0 || (int)(s - str) < maxlen))
{
#ifdef FEAT_EVAL
if (!redir_reg && !redir_vname && !redir_execute)
#endif
if (redir_fd != NULL)
putc(*s, redir_fd);
if (verbose_fd != NULL)
putc(*s, verbose_fd);
if (*s == '\r' || *s == '\n')
cur_col = 0;
else if (*s == '\t')
cur_col += (8 - cur_col % 8);
else
++cur_col;
++s;
}
if (msg_silent != 0) // should update msg_col
msg_col = cur_col;
}
}
int
redirecting(void)
{
return redir_fd != NULL || *p_vfile != NUL
#ifdef FEAT_EVAL
|| redir_reg || redir_vname || redir_execute
#endif
;
}
/*
* Before giving verbose message.
* Must always be called paired with verbose_leave()!
*/
void
verbose_enter(void)
{
if (*p_vfile != NUL)
++msg_silent;
}
/*
* After giving verbose message.
* Must always be called paired with verbose_enter()!
*/
void
verbose_leave(void)
{
if (*p_vfile != NUL)
if (--msg_silent < 0)
msg_silent = 0;
}
/*
* Like verbose_enter() and set msg_scroll when displaying the message.
*/
void
verbose_enter_scroll(void)
{
if (*p_vfile != NUL)
++msg_silent;
else
// always scroll up, don't overwrite
msg_scroll = TRUE;
}
/*
* Like verbose_leave() and set cmdline_row when displaying the message.
*/
void
verbose_leave_scroll(void)
{
if (*p_vfile != NUL)
{
if (--msg_silent < 0)
msg_silent = 0;
}
else
cmdline_row = msg_row;
}
/*
* Called when 'verbosefile' is set: stop writing to the file.
*/
void
verbose_stop(void)
{
if (verbose_fd != NULL)
{
fclose(verbose_fd);
verbose_fd = NULL;
}
verbose_did_open = FALSE;
}
/*
* Open the file 'verbosefile'.
* Return FAIL or OK.
*/
int
verbose_open(void)
{
if (verbose_fd == NULL && !verbose_did_open)
{
// Only give the error message once.
verbose_did_open = TRUE;
verbose_fd = mch_fopen((char *)p_vfile, "a");
if (verbose_fd == NULL)
{
semsg(_(e_notopen), p_vfile);
return FAIL;
}
}
return OK;
}
/*
* Give a warning message (for searching).
* Use 'w' highlighting and may repeat the message after redrawing
*/
void
give_warning(char_u *message, int hl)
{
// Don't do this for ":silent".
if (msg_silent != 0)
return;
// Don't want a hit-enter prompt here.
++no_wait_return;
#ifdef FEAT_EVAL
set_vim_var_string(VV_WARNINGMSG, message, -1);
#endif
VIM_CLEAR(keep_msg);
if (hl)
keep_msg_attr = HL_ATTR(HLF_W);
else
keep_msg_attr = 0;
if (msg_attr((char *)message, keep_msg_attr) && msg_scrolled == 0)
set_keep_msg(message, keep_msg_attr);
msg_didout = FALSE; // overwrite this message
msg_nowait = TRUE; // don't wait for this message
msg_col = 0;
--no_wait_return;
}
#if defined(FEAT_EVAL) || defined(PROTO)
void
give_warning2(char_u *message, char_u *a1, int hl)
{
if (IObuff == NULL)
{
// Very early in initialisation and already something wrong, just give
// the raw message so the user at least gets a hint.
give_warning((char_u *)message, hl);
}
else
{
vim_snprintf((char *)IObuff, IOSIZE, (char *)message, a1);
give_warning(IObuff, hl);
}
}
#endif
/*
* Advance msg cursor to column "col".
*/
void
msg_advance(int col)
{
if (msg_silent != 0) // nothing to advance to
{
msg_col = col; // for redirection, may fill it up later
return;
}
if (col >= Columns) // not enough room
col = Columns - 1;
#ifdef FEAT_RIGHTLEFT
if (cmdmsg_rl)
while (msg_col > Columns - col)
msg_putchar(' ');
else
#endif
while (msg_col < col)
msg_putchar(' ');
}
#if defined(FEAT_CON_DIALOG) || defined(PROTO)
/*
* Used for "confirm()" function, and the :confirm command prefix.
* Versions which haven't got flexible dialogs yet, and console
* versions, get this generic handler which uses the command line.
*
* type = one of:
* VIM_QUESTION, VIM_INFO, VIM_WARNING, VIM_ERROR or VIM_GENERIC
* title = title string (can be NULL for default)
* (neither used in console dialogs at the moment)
*
* Format of the "buttons" string:
* "Button1Name\nButton2Name\nButton3Name"
* The first button should normally be the default/accept
* The second button should be the 'Cancel' button
* Other buttons- use your imagination!
* A '&' in a button name becomes a shortcut, so each '&' should be before a
* different letter.
*/
int
do_dialog(
int type UNUSED,
char_u *title UNUSED,
char_u *message,
char_u *buttons,
int dfltbutton,
char_u *textfield UNUSED, // IObuff for inputdialog(), NULL
// otherwise
int ex_cmd) // when TRUE pressing : accepts default and starts
// Ex command
{
int oldState;
int retval = 0;
char_u *hotkeys;
int c;
int i;
#ifndef NO_CONSOLE
// Don't output anything in silent mode ("ex -s")
if (silent_mode)
return dfltbutton; // return default option
#endif
#ifdef FEAT_GUI_DIALOG
// When GUI is running and 'c' not in 'guioptions', use the GUI dialog
if (gui.in_use && vim_strchr(p_go, GO_CONDIALOG) == NULL)
{
c = gui_mch_dialog(type, title, message, buttons, dfltbutton,
textfield, ex_cmd);
// avoid a hit-enter prompt without clearing the cmdline
need_wait_return = FALSE;
emsg_on_display = FALSE;
cmdline_row = msg_row;
// Flush output to avoid that further messages and redrawing is done
// in the wrong order.
out_flush();
gui_mch_update();
return c;
}
#endif
oldState = State;
State = CONFIRM;
setmouse();
/*
* Since we wait for a keypress, don't make the
* user press RETURN as well afterwards.
*/
++no_wait_return;
hotkeys = msg_show_console_dialog(message, buttons, dfltbutton);
if (hotkeys != NULL)
{
for (;;)
{
// Get a typed character directly from the user.
c = get_keystroke();
switch (c)
{
case CAR: // User accepts default option
case NL:
retval = dfltbutton;
break;
case Ctrl_C: // User aborts/cancels
case ESC:
retval = 0;
break;
default: // Could be a hotkey?
if (c < 0) // special keys are ignored here
continue;
if (c == ':' && ex_cmd)
{
retval = dfltbutton;
ins_char_typebuf(':');
break;
}
// Make the character lowercase, as chars in "hotkeys" are.
c = MB_TOLOWER(c);
retval = 1;
for (i = 0; hotkeys[i]; ++i)
{
if (has_mbyte)
{
if ((*mb_ptr2char)(hotkeys + i) == c)
break;
i += (*mb_ptr2len)(hotkeys + i) - 1;
}
else
if (hotkeys[i] == c)
break;
++retval;
}
if (hotkeys[i])
break;
// No hotkey match, so keep waiting
continue;
}
break;
}
vim_free(hotkeys);
}
State = oldState;
setmouse();
--no_wait_return;
msg_end_prompt();
return retval;
}
/*
* Copy one character from "*from" to "*to", taking care of multi-byte
* characters. Return the length of the character in bytes.
*/
static int
copy_char(
char_u *from,
char_u *to,
int lowercase) // make character lower case
{
int len;
int c;
if (has_mbyte)
{
if (lowercase)
{
c = MB_TOLOWER((*mb_ptr2char)(from));
return (*mb_char2bytes)(c, to);
}
else
{
len = (*mb_ptr2len)(from);
mch_memmove(to, from, (size_t)len);
return len;
}
}
else
{
if (lowercase)
*to = (char_u)TOLOWER_LOC(*from);
else
*to = *from;
return 1;
}
}
/*
* Format the dialog string, and display it at the bottom of
* the screen. Return a string of hotkey chars (if defined) for
* each 'button'. If a button has no hotkey defined, the first character of
* the button is used.
* The hotkeys can be multi-byte characters, but without combining chars.
*
* Returns an allocated string with hotkeys, or NULL for error.
*/
static char_u *
msg_show_console_dialog(
char_u *message,
char_u *buttons,
int dfltbutton)
{
int len = 0;
#define HOTK_LEN (has_mbyte ? MB_MAXBYTES : 1)
int lenhotkey = HOTK_LEN; // count first button
char_u *hotk = NULL;
char_u *msgp = NULL;
char_u *hotkp = NULL;
char_u *r;
int copy;
#define HAS_HOTKEY_LEN 30
char_u has_hotkey[HAS_HOTKEY_LEN];
int first_hotkey = FALSE; // first char of button is hotkey
int idx;
has_hotkey[0] = FALSE;
/*
* First loop: compute the size of memory to allocate.
* Second loop: copy to the allocated memory.
*/
for (copy = 0; copy <= 1; ++copy)
{
r = buttons;
idx = 0;
while (*r)
{
if (*r == DLG_BUTTON_SEP)
{
if (copy)
{
*msgp++ = ',';
*msgp++ = ' '; // '\n' -> ', '
// advance to next hotkey and set default hotkey
if (has_mbyte)
hotkp += STRLEN(hotkp);
else
++hotkp;
hotkp[copy_char(r + 1, hotkp, TRUE)] = NUL;
if (dfltbutton)
--dfltbutton;
// If no hotkey is specified first char is used.
if (idx < HAS_HOTKEY_LEN - 1 && !has_hotkey[++idx])
first_hotkey = TRUE;
}
else
{
len += 3; // '\n' -> ', '; 'x' -> '(x)'
lenhotkey += HOTK_LEN; // each button needs a hotkey
if (idx < HAS_HOTKEY_LEN - 1)
has_hotkey[++idx] = FALSE;
}
}
else if (*r == DLG_HOTKEY_CHAR || first_hotkey)
{
if (*r == DLG_HOTKEY_CHAR)
++r;
first_hotkey = FALSE;
if (copy)
{
if (*r == DLG_HOTKEY_CHAR) // '&&a' -> '&a'
*msgp++ = *r;
else
{
// '&a' -> '[a]'
*msgp++ = (dfltbutton == 1) ? '[' : '(';
msgp += copy_char(r, msgp, FALSE);
*msgp++ = (dfltbutton == 1) ? ']' : ')';
// redefine hotkey
hotkp[copy_char(r, hotkp, TRUE)] = NUL;
}
}
else
{
++len; // '&a' -> '[a]'
if (idx < HAS_HOTKEY_LEN - 1)
has_hotkey[idx] = TRUE;
}
}
else
{
// everything else copy literally
if (copy)
msgp += copy_char(r, msgp, FALSE);
}
// advance to the next character
MB_PTR_ADV(r);
}
if (copy)
{
*msgp++ = ':';
*msgp++ = ' ';
*msgp = NUL;
}
else
{
len += (int)(STRLEN(message)
+ 2 // for the NL's
+ STRLEN(buttons)
+ 3); // for the ": " and NUL
lenhotkey++; // for the NUL
// If no hotkey is specified first char is used.
if (!has_hotkey[0])
{
first_hotkey = TRUE;
len += 2; // "x" -> "[x]"
}
/*
* Now allocate and load the strings
*/
vim_free(confirm_msg);
confirm_msg = alloc(len);
if (confirm_msg == NULL)
return NULL;
*confirm_msg = NUL;
hotk = alloc(lenhotkey);
if (hotk == NULL)
return NULL;
*confirm_msg = '\n';
STRCPY(confirm_msg + 1, message);
msgp = confirm_msg + 1 + STRLEN(message);
hotkp = hotk;
// Define first default hotkey. Keep the hotkey string NUL
// terminated to avoid reading past the end.
hotkp[copy_char(buttons, hotkp, TRUE)] = NUL;
// Remember where the choices start, displaying starts here when
// "hotkp" typed at the more prompt.
confirm_msg_tail = msgp;
*msgp++ = '\n';
}
}
display_confirm_msg();
return hotk;
}
/*
* Display the ":confirm" message. Also called when screen resized.
*/
static void
display_confirm_msg(void)
{
// avoid that 'q' at the more prompt truncates the message here
++confirm_msg_used;
if (confirm_msg != NULL)
msg_puts_attr((char *)confirm_msg, HL_ATTR(HLF_M));
--confirm_msg_used;
}
#endif // FEAT_CON_DIALOG
#if defined(FEAT_CON_DIALOG) || defined(FEAT_GUI_DIALOG)
int
vim_dialog_yesno(
int type,
char_u *title,
char_u *message,
int dflt)
{
if (do_dialog(type,
title == NULL ? (char_u *)_("Question") : title,
message,
(char_u *)_("&Yes\n&No"), dflt, NULL, FALSE) == 1)
return VIM_YES;
return VIM_NO;
}
int
vim_dialog_yesnocancel(
int type,
char_u *title,
char_u *message,
int dflt)
{
switch (do_dialog(type,
title == NULL ? (char_u *)_("Question") : title,
message,
(char_u *)_("&Yes\n&No\n&Cancel"), dflt, NULL, FALSE))
{
case 1: return VIM_YES;
case 2: return VIM_NO;
}
return VIM_CANCEL;
}
int
vim_dialog_yesnoallcancel(
int type,
char_u *title,
char_u *message,
int dflt)
{
switch (do_dialog(type,
title == NULL ? (char_u *)"Question" : title,
message,
(char_u *)_("&Yes\n&No\nSave &All\n&Discard All\n&Cancel"),
dflt, NULL, FALSE))
{
case 1: return VIM_YES;
case 2: return VIM_NO;
case 3: return VIM_ALL;
case 4: return VIM_DISCARDALL;
}
return VIM_CANCEL;
}
#endif // FEAT_GUI_DIALOG || FEAT_CON_DIALOG
#if defined(FEAT_EVAL)
static char *e_printf = N_("E766: Insufficient arguments for printf()");
/*
* Get number argument from "idxp" entry in "tvs". First entry is 1.
*/
static varnumber_T
tv_nr(typval_T *tvs, int *idxp)
{
int idx = *idxp - 1;
varnumber_T n = 0;
int err = FALSE;
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
n = tv_get_number_chk(&tvs[idx], &err);
if (err)
n = 0;
}
return n;
}
/*
* Get string argument from "idxp" entry in "tvs". First entry is 1.
* If "tofree" is NULL tv_get_string_chk() is used. Some types (e.g. List)
* are not converted to a string.
* If "tofree" is not NULL echo_string() is used. All types are converted to
* a string with the same format as ":echo". The caller must free "*tofree".
* Returns NULL for an error.
*/
static char *
tv_str(typval_T *tvs, int *idxp, char_u **tofree)
{
int idx = *idxp - 1;
char *s = NULL;
static char_u numbuf[NUMBUFLEN];
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
if (tofree != NULL)
s = (char *)echo_string(&tvs[idx], tofree, numbuf, get_copyID());
else
s = (char *)tv_get_string_chk(&tvs[idx]);
}
return s;
}
# ifdef FEAT_FLOAT
/*
* Get float argument from "idxp" entry in "tvs". First entry is 1.
*/
static double
tv_float(typval_T *tvs, int *idxp)
{
int idx = *idxp - 1;
double f = 0;
if (tvs[idx].v_type == VAR_UNKNOWN)
emsg(_(e_printf));
else
{
++*idxp;
if (tvs[idx].v_type == VAR_FLOAT)
f = tvs[idx].vval.v_float;
else if (tvs[idx].v_type == VAR_NUMBER)
f = (double)tvs[idx].vval.v_number;
else
emsg(_("E807: Expected Float argument for printf()"));
}
return f;
}
# endif
#endif
#ifdef FEAT_FLOAT
/*
* Return the representation of infinity for printf() function:
* "-inf", "inf", "+inf", " inf", "-INF", "INF", "+INF" or " INF".
*/
static const char *
infinity_str(int positive,
char fmt_spec,
int force_sign,
int space_for_positive)
{
static const char *table[] =
{
"-inf", "inf", "+inf", " inf",
"-INF", "INF", "+INF", " INF"
};
int idx = positive * (1 + force_sign + force_sign * space_for_positive);
if (ASCII_ISUPPER(fmt_spec))
idx += 4;
return table[idx];
}
#endif
/*
* This code was included to provide a portable vsnprintf() and snprintf().
* Some systems may provide their own, but we always use this one for
* consistency.
*
* This code is based on snprintf.c - a portable implementation of snprintf
* by Mark Martinec <mark.martinec@ijs.si>, Version 2.2, 2000-10-06.
* Included with permission. It was heavily modified to fit in Vim.
* The original code, including useful comments, can be found here:
* http://www.ijs.si/software/snprintf/
*
* This snprintf() only supports the following conversion specifiers:
* s, c, d, u, o, x, X, p (and synonyms: i, D, U, O - see below)
* with flags: '-', '+', ' ', '0' and '#'.
* An asterisk is supported for field width as well as precision.
*
* Limited support for floating point was added: 'f', 'F', 'e', 'E', 'g', 'G'.
*
* Length modifiers 'h' (short int) and 'l' (long int) and 'll' (long long int)
* are supported.
*
* The locale is not used, the string is used as a byte string. This is only
* relevant for double-byte encodings where the second byte may be '%'.
*
* It is permitted for "str_m" to be zero, and it is permitted to specify NULL
* pointer for resulting string argument if "str_m" is zero (as per ISO C99).
*
* The return value is the number of characters which would be generated
* for the given input, excluding the trailing NUL. If this value
* is greater or equal to "str_m", not all characters from the result
* have been stored in str, output bytes beyond the ("str_m"-1) -th character
* are discarded. If "str_m" is greater than zero it is guaranteed
* the resulting string will be NUL-terminated.
*/
/*
* When va_list is not supported we only define vim_snprintf().
*
* vim_vsnprintf_typval() can be invoked with either "va_list" or a list of
* "typval_T". When the latter is not used it must be NULL.
*/
// When generating prototypes all of this is skipped, cproto doesn't
// understand this.
#ifndef PROTO
// Like vim_vsnprintf() but append to the string.
int
vim_snprintf_add(char *str, size_t str_m, const char *fmt, ...)
{
va_list ap;
int str_l;
size_t len = STRLEN(str);
size_t space;
if (str_m <= len)
space = 0;
else
space = str_m - len;
va_start(ap, fmt);
str_l = vim_vsnprintf(str + len, space, fmt, ap);
va_end(ap);
return str_l;
}
int
vim_snprintf(char *str, size_t str_m, const char *fmt, ...)
{
va_list ap;
int str_l;
va_start(ap, fmt);
str_l = vim_vsnprintf(str, str_m, fmt, ap);
va_end(ap);
return str_l;
}
int
vim_vsnprintf(
char *str,
size_t str_m,
const char *fmt,
va_list ap)
{
return vim_vsnprintf_typval(str, str_m, fmt, ap, NULL);
}
int
vim_vsnprintf_typval(
char *str,
size_t str_m,
const char *fmt,
va_list ap,
typval_T *tvs)
{
size_t str_l = 0;
const char *p = fmt;
int arg_idx = 1;
if (p == NULL)
p = "";
while (*p != NUL)
{
if (*p != '%')
{
char *q = strchr(p + 1, '%');
size_t n = (q == NULL) ? STRLEN(p) : (size_t)(q - p);
// Copy up to the next '%' or NUL without any changes.
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l, p, n > avail ? avail : n);
}
p += n;
str_l += n;
}
else
{
size_t min_field_width = 0, precision = 0;
int zero_padding = 0, precision_specified = 0, justify_left = 0;
int alternate_form = 0, force_sign = 0;
// If both the ' ' and '+' flags appear, the ' ' flag should be
// ignored.
int space_for_positive = 1;
// allowed values: \0, h, l, L
char length_modifier = '\0';
// temporary buffer for simple numeric->string conversion
# if defined(FEAT_FLOAT)
# define TMP_LEN 350 // On my system 1e308 is the biggest number possible.
// That sounds reasonable to use as the maximum
// printable.
# elif defined(FEAT_NUM64)
# define TMP_LEN 66
# else
# define TMP_LEN 34
# endif
char tmp[TMP_LEN];
// string address in case of string argument
const char *str_arg = NULL;
// natural field width of arg without padding and sign
size_t str_arg_l;
// unsigned char argument value - only defined for c conversion.
// N.B. standard explicitly states the char argument for the c
// conversion is unsigned
unsigned char uchar_arg;
// number of zeros to be inserted for numeric conversions as
// required by the precision or minimal field width
size_t number_of_zeros_to_pad = 0;
// index into tmp where zero padding is to be inserted
size_t zero_padding_insertion_ind = 0;
// current conversion specifier character
char fmt_spec = '\0';
// buffer for 's' and 'S' specs
char_u *tofree = NULL;
p++; // skip '%'
// parse flags
while (*p == '0' || *p == '-' || *p == '+' || *p == ' '
|| *p == '#' || *p == '\'')
{
switch (*p)
{
case '0': zero_padding = 1; break;
case '-': justify_left = 1; break;
case '+': force_sign = 1; space_for_positive = 0; break;
case ' ': force_sign = 1;
// If both the ' ' and '+' flags appear, the ' '
// flag should be ignored
break;
case '#': alternate_form = 1; break;
case '\'': break;
}
p++;
}
// If the '0' and '-' flags both appear, the '0' flag should be
// ignored.
// parse field width
if (*p == '*')
{
int j;
p++;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
if (j >= 0)
min_field_width = j;
else
{
min_field_width = -j;
justify_left = 1;
}
}
else if (VIM_ISDIGIT((int)(*p)))
{
// size_t could be wider than unsigned int; make sure we treat
// argument like common implementations do
unsigned int uj = *p++ - '0';
while (VIM_ISDIGIT((int)(*p)))
uj = 10 * uj + (unsigned int)(*p++ - '0');
min_field_width = uj;
}
// parse precision
if (*p == '.')
{
p++;
precision_specified = 1;
if (*p == '*')
{
int j;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
p++;
if (j >= 0)
precision = j;
else
{
precision_specified = 0;
precision = 0;
}
}
else if (VIM_ISDIGIT((int)(*p)))
{
// size_t could be wider than unsigned int; make sure we
// treat argument like common implementations do
unsigned int uj = *p++ - '0';
while (VIM_ISDIGIT((int)(*p)))
uj = 10 * uj + (unsigned int)(*p++ - '0');
precision = uj;
}
}
// parse 'h', 'l' and 'll' length modifiers
if (*p == 'h' || *p == 'l')
{
length_modifier = *p;
p++;
if (length_modifier == 'l' && *p == 'l')
{
// double l = long long
# ifdef FEAT_NUM64
length_modifier = 'L';
# else
length_modifier = 'l'; // treat it as a single 'l'
# endif
p++;
}
}
fmt_spec = *p;
// common synonyms:
switch (fmt_spec)
{
case 'i': fmt_spec = 'd'; break;
case 'D': fmt_spec = 'd'; length_modifier = 'l'; break;
case 'U': fmt_spec = 'u'; length_modifier = 'l'; break;
case 'O': fmt_spec = 'o'; length_modifier = 'l'; break;
default: break;
}
# if defined(FEAT_EVAL) && defined(FEAT_NUM64)
switch (fmt_spec)
{
case 'd': case 'u': case 'o': case 'x': case 'X':
if (tvs != NULL && length_modifier == '\0')
length_modifier = 'L';
}
# endif
// get parameter value, do initial processing
switch (fmt_spec)
{
// '%' and 'c' behave similar to 's' regarding flags and field
// widths
case '%':
case 'c':
case 's':
case 'S':
str_arg_l = 1;
switch (fmt_spec)
{
case '%':
str_arg = p;
break;
case 'c':
{
int j;
j =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
// standard demands unsigned char
uchar_arg = (unsigned char)j;
str_arg = (char *)&uchar_arg;
break;
}
case 's':
case 'S':
str_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_str(tvs, &arg_idx, &tofree) :
# endif
va_arg(ap, char *);
if (str_arg == NULL)
{
str_arg = "[NULL]";
str_arg_l = 6;
}
// make sure not to address string beyond the specified
// precision !!!
else if (!precision_specified)
str_arg_l = strlen(str_arg);
// truncate string if necessary as requested by precision
else if (precision == 0)
str_arg_l = 0;
else
{
// Don't put the #if inside memchr(), it can be a
// macro.
// memchr on HP does not like n > 2^31 !!!
char *q = memchr(str_arg, '\0',
precision <= (size_t)0x7fffffffL ? precision
: (size_t)0x7fffffffL);
str_arg_l = (q == NULL) ? precision
: (size_t)(q - str_arg);
}
if (fmt_spec == 'S')
{
if (min_field_width != 0)
min_field_width += STRLEN(str_arg)
- mb_string2cells((char_u *)str_arg, -1);
if (precision)
{
char_u *p1;
size_t i = 0;
for (p1 = (char_u *)str_arg; *p1;
p1 += mb_ptr2len(p1))
{
i += (size_t)mb_ptr2cells(p1);
if (i > precision)
break;
}
str_arg_l = precision = p1 - (char_u *)str_arg;
}
}
break;
default:
break;
}
break;
case 'd': case 'u':
case 'b': case 'B':
case 'o':
case 'x': case 'X':
case 'p':
{
// NOTE: the u, b, o, x, X and p conversion specifiers
// imply the value is unsigned; d implies a signed
// value
// 0 if numeric argument is zero (or if pointer is
// NULL for 'p'), +1 if greater than zero (or nonzero
// for unsigned arguments), -1 if negative (unsigned
// argument is never negative)
int arg_sign = 0;
// only defined for length modifier h, or for no
// length modifiers
int int_arg = 0;
unsigned int uint_arg = 0;
// only defined for length modifier l
long int long_arg = 0;
unsigned long int ulong_arg = 0;
# ifdef FEAT_NUM64
// only defined for length modifier ll
varnumber_T llong_arg = 0;
uvarnumber_T ullong_arg = 0;
# endif
// only defined for b conversion
uvarnumber_T bin_arg = 0;
// pointer argument value -only defined for p
// conversion
void *ptr_arg = NULL;
if (fmt_spec == 'p')
{
length_modifier = '\0';
ptr_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (void *)tv_str(tvs, &arg_idx,
NULL) :
# endif
va_arg(ap, void *);
if (ptr_arg != NULL)
arg_sign = 1;
}
else if (fmt_spec == 'b' || fmt_spec == 'B')
{
bin_arg =
# if defined(FEAT_EVAL)
tvs != NULL ?
(uvarnumber_T)tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, uvarnumber_T);
if (bin_arg != 0)
arg_sign = 1;
}
else if (fmt_spec == 'd')
{
// signed
switch (length_modifier)
{
case '\0':
case 'h':
// char and short arguments are passed as int.
int_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, int);
if (int_arg > 0)
arg_sign = 1;
else if (int_arg < 0)
arg_sign = -1;
break;
case 'l':
long_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, long int);
if (long_arg > 0)
arg_sign = 1;
else if (long_arg < 0)
arg_sign = -1;
break;
# ifdef FEAT_NUM64
case 'L':
llong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, varnumber_T);
if (llong_arg > 0)
arg_sign = 1;
else if (llong_arg < 0)
arg_sign = -1;
break;
# endif
}
}
else
{
// unsigned
switch (length_modifier)
{
case '\0':
case 'h':
uint_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (unsigned)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, unsigned int);
if (uint_arg != 0)
arg_sign = 1;
break;
case 'l':
ulong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (unsigned long)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, unsigned long int);
if (ulong_arg != 0)
arg_sign = 1;
break;
# ifdef FEAT_NUM64
case 'L':
ullong_arg =
# if defined(FEAT_EVAL)
tvs != NULL ? (uvarnumber_T)
tv_nr(tvs, &arg_idx) :
# endif
va_arg(ap, uvarnumber_T);
if (ullong_arg != 0)
arg_sign = 1;
break;
# endif
}
}
str_arg = tmp;
str_arg_l = 0;
// NOTE:
// For d, i, u, o, x, and X conversions, if precision is
// specified, the '0' flag should be ignored. This is so
// with Solaris 2.6, Digital UNIX 4.0, HPUX 10, Linux,
// FreeBSD, NetBSD; but not with Perl.
if (precision_specified)
zero_padding = 0;
if (fmt_spec == 'd')
{
if (force_sign && arg_sign >= 0)
tmp[str_arg_l++] = space_for_positive ? ' ' : '+';
// leave negative numbers for sprintf to handle, to
// avoid handling tricky cases like (short int)-32768
}
else if (alternate_form)
{
if (arg_sign != 0
&& (fmt_spec == 'b' || fmt_spec == 'B'
|| fmt_spec == 'x' || fmt_spec == 'X') )
{
tmp[str_arg_l++] = '0';
tmp[str_arg_l++] = fmt_spec;
}
// alternate form should have no effect for p
// conversion, but ...
}
zero_padding_insertion_ind = str_arg_l;
if (!precision_specified)
precision = 1; // default precision is 1
if (precision == 0 && arg_sign == 0)
{
// When zero value is formatted with an explicit
// precision 0, the resulting formatted string is
// empty (d, i, u, b, B, o, x, X, p).
}
else
{
char f[6];
int f_l = 0;
// construct a simple format string for sprintf
f[f_l++] = '%';
if (!length_modifier)
;
else if (length_modifier == 'L')
{
# ifdef FEAT_NUM64
# ifdef MSWIN
f[f_l++] = 'I';
f[f_l++] = '6';
f[f_l++] = '4';
# else
f[f_l++] = 'l';
f[f_l++] = 'l';
# endif
# else
f[f_l++] = 'l';
# endif
}
else
f[f_l++] = length_modifier;
f[f_l++] = fmt_spec;
f[f_l++] = '\0';
if (fmt_spec == 'p')
str_arg_l += sprintf(tmp + str_arg_l, f, ptr_arg);
else if (fmt_spec == 'b' || fmt_spec == 'B')
{
char b[8 * sizeof(uvarnumber_T)];
size_t b_l = 0;
uvarnumber_T bn = bin_arg;
do
{
b[sizeof(b) - ++b_l] = '0' + (bn & 0x1);
bn >>= 1;
}
while (bn != 0);
memcpy(tmp + str_arg_l, b + sizeof(b) - b_l, b_l);
str_arg_l += b_l;
}
else if (fmt_spec == 'd')
{
// signed
switch (length_modifier)
{
case '\0':
case 'h': str_arg_l += sprintf(
tmp + str_arg_l, f, int_arg);
break;
case 'l': str_arg_l += sprintf(
tmp + str_arg_l, f, long_arg);
break;
# ifdef FEAT_NUM64
case 'L': str_arg_l += sprintf(
tmp + str_arg_l, f, llong_arg);
break;
# endif
}
}
else
{
// unsigned
switch (length_modifier)
{
case '\0':
case 'h': str_arg_l += sprintf(
tmp + str_arg_l, f, uint_arg);
break;
case 'l': str_arg_l += sprintf(
tmp + str_arg_l, f, ulong_arg);
break;
# ifdef FEAT_NUM64
case 'L': str_arg_l += sprintf(
tmp + str_arg_l, f, ullong_arg);
break;
# endif
}
}
// include the optional minus sign and possible
// "0x" in the region before the zero padding
// insertion point
if (zero_padding_insertion_ind < str_arg_l
&& tmp[zero_padding_insertion_ind] == '-')
zero_padding_insertion_ind++;
if (zero_padding_insertion_ind + 1 < str_arg_l
&& tmp[zero_padding_insertion_ind] == '0'
&& (tmp[zero_padding_insertion_ind + 1] == 'x'
|| tmp[zero_padding_insertion_ind + 1] == 'X'))
zero_padding_insertion_ind += 2;
}
{
size_t num_of_digits = str_arg_l
- zero_padding_insertion_ind;
if (alternate_form && fmt_spec == 'o'
// unless zero is already the first
// character
&& !(zero_padding_insertion_ind < str_arg_l
&& tmp[zero_padding_insertion_ind] == '0'))
{
// assure leading zero for alternate-form
// octal numbers
if (!precision_specified
|| precision < num_of_digits + 1)
{
// precision is increased to force the
// first character to be zero, except if a
// zero value is formatted with an
// explicit precision of zero
precision = num_of_digits + 1;
}
}
// zero padding to specified precision?
if (num_of_digits < precision)
number_of_zeros_to_pad = precision - num_of_digits;
}
// zero padding to specified minimal field width?
if (!justify_left && zero_padding)
{
int n = (int)(min_field_width - (str_arg_l
+ number_of_zeros_to_pad));
if (n > 0)
number_of_zeros_to_pad += n;
}
break;
}
# ifdef FEAT_FLOAT
case 'f':
case 'F':
case 'e':
case 'E':
case 'g':
case 'G':
{
// Floating point.
double f;
double abs_f;
char format[40];
int l;
int remove_trailing_zeroes = FALSE;
f =
# if defined(FEAT_EVAL)
tvs != NULL ? tv_float(tvs, &arg_idx) :
# endif
va_arg(ap, double);
abs_f = f < 0 ? -f : f;
if (fmt_spec == 'g' || fmt_spec == 'G')
{
// Would be nice to use %g directly, but it prints
// "1.0" as "1", we don't want that.
if ((abs_f >= 0.001 && abs_f < 10000000.0)
|| abs_f == 0.0)
fmt_spec = ASCII_ISUPPER(fmt_spec) ? 'F' : 'f';
else
fmt_spec = fmt_spec == 'g' ? 'e' : 'E';
remove_trailing_zeroes = TRUE;
}
if ((fmt_spec == 'f' || fmt_spec == 'F') &&
# ifdef VAX
abs_f > 1.0e38
# else
abs_f > 1.0e307
# endif
)
{
// Avoid a buffer overflow
STRCPY(tmp, infinity_str(f > 0.0, fmt_spec,
force_sign, space_for_positive));
str_arg_l = STRLEN(tmp);
zero_padding = 0;
}
else
{
if (isnan(f))
{
// Not a number: nan or NAN
STRCPY(tmp, ASCII_ISUPPER(fmt_spec) ? "NAN"
: "nan");
str_arg_l = 3;
zero_padding = 0;
}
else if (isinf(f))
{
STRCPY(tmp, infinity_str(f > 0.0, fmt_spec,
force_sign, space_for_positive));
str_arg_l = STRLEN(tmp);
zero_padding = 0;
}
else
{
// Regular float number
format[0] = '%';
l = 1;
if (force_sign)
format[l++] = space_for_positive ? ' ' : '+';
if (precision_specified)
{
size_t max_prec = TMP_LEN - 10;
// Make sure we don't get more digits than we
// have room for.
if ((fmt_spec == 'f' || fmt_spec == 'F')
&& abs_f > 1.0)
max_prec -= (size_t)log10(abs_f);
if (precision > max_prec)
precision = max_prec;
l += sprintf(format + l, ".%d", (int)precision);
}
format[l] = fmt_spec == 'F' ? 'f' : fmt_spec;
format[l + 1] = NUL;
str_arg_l = sprintf(tmp, format, f);
}
if (remove_trailing_zeroes)
{
int i;
char *tp;
// Using %g or %G: remove superfluous zeroes.
if (fmt_spec == 'f' || fmt_spec == 'F')
tp = tmp + str_arg_l - 1;
else
{
tp = (char *)vim_strchr((char_u *)tmp,
fmt_spec == 'e' ? 'e' : 'E');
if (tp != NULL)
{
// Remove superfluous '+' and leading
// zeroes from the exponent.
if (tp[1] == '+')
{
// Change "1.0e+07" to "1.0e07"
STRMOVE(tp + 1, tp + 2);
--str_arg_l;
}
i = (tp[1] == '-') ? 2 : 1;
while (tp[i] == '0')
{
// Change "1.0e07" to "1.0e7"
STRMOVE(tp + i, tp + i + 1);
--str_arg_l;
}
--tp;
}
}
if (tp != NULL && !precision_specified)
// Remove trailing zeroes, but keep the one
// just after a dot.
while (tp > tmp + 2 && *tp == '0'
&& tp[-1] != '.')
{
STRMOVE(tp, tp + 1);
--tp;
--str_arg_l;
}
}
else
{
char *tp;
// Be consistent: some printf("%e") use 1.0e+12
// and some 1.0e+012. Remove one zero in the last
// case.
tp = (char *)vim_strchr((char_u *)tmp,
fmt_spec == 'e' ? 'e' : 'E');
if (tp != NULL && (tp[1] == '+' || tp[1] == '-')
&& tp[2] == '0'
&& vim_isdigit(tp[3])
&& vim_isdigit(tp[4]))
{
STRMOVE(tp + 2, tp + 3);
--str_arg_l;
}
}
}
if (zero_padding && min_field_width > str_arg_l
&& (tmp[0] == '-' || force_sign))
{
// padding 0's should be inserted after the sign
number_of_zeros_to_pad = min_field_width - str_arg_l;
zero_padding_insertion_ind = 1;
}
str_arg = tmp;
break;
}
# endif
default:
// unrecognized conversion specifier, keep format string
// as-is
zero_padding = 0; // turn zero padding off for non-numeric
// conversion
justify_left = 1;
min_field_width = 0; // reset flags
// discard the unrecognized conversion, just keep *
// the unrecognized conversion character
str_arg = p;
str_arg_l = 0;
if (*p != NUL)
str_arg_l++; // include invalid conversion specifier
// unchanged if not at end-of-string
break;
}
if (*p != NUL)
p++; // step over the just processed conversion specifier
// insert padding to the left as requested by min_field_width;
// this does not include the zero padding in case of numerical
// conversions
if (!justify_left)
{
// left padding with blank or zero
int pn = (int)(min_field_width - (str_arg_l + number_of_zeros_to_pad));
if (pn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, zero_padding ? '0' : ' ',
(size_t)pn > avail ? avail
: (size_t)pn);
}
str_l += pn;
}
}
// zero padding as requested by the precision or by the minimal
// field width for numeric conversions required?
if (number_of_zeros_to_pad == 0)
{
// will not copy first part of numeric right now, *
// force it to be copied later in its entirety
zero_padding_insertion_ind = 0;
}
else
{
// insert first part of numerics (sign or '0x') before zero
// padding
int zn = (int)zero_padding_insertion_ind;
if (zn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l, str_arg,
(size_t)zn > avail ? avail
: (size_t)zn);
}
str_l += zn;
}
// insert zero padding as requested by the precision or min
// field width
zn = (int)number_of_zeros_to_pad;
if (zn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, '0',
(size_t)zn > avail ? avail
: (size_t)zn);
}
str_l += zn;
}
}
// insert formatted string
// (or as-is conversion specifier for unknown conversions)
{
int sn = (int)(str_arg_l - zero_padding_insertion_ind);
if (sn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
mch_memmove(str + str_l,
str_arg + zero_padding_insertion_ind,
(size_t)sn > avail ? avail : (size_t)sn);
}
str_l += sn;
}
}
// insert right padding
if (justify_left)
{
// right blank padding to the field width
int pn = (int)(min_field_width
- (str_arg_l + number_of_zeros_to_pad));
if (pn > 0)
{
if (str_l < str_m)
{
size_t avail = str_m - str_l;
vim_memset(str + str_l, ' ',
(size_t)pn > avail ? avail
: (size_t)pn);
}
str_l += pn;
}
}
vim_free(tofree);
}
}
if (str_m > 0)
{
// make sure the string is nul-terminated even at the expense of
// overwriting the last character (shouldn't happen, but just in case)
//
str[str_l <= str_m - 1 ? str_l : str_m - 1] = '\0';
}
if (tvs != NULL && tvs[arg_idx - 1].v_type != VAR_UNKNOWN)
emsg(_("E767: Too many arguments to printf()"));
// Return the number of characters formatted (excluding trailing nul
// character), that is, the number of characters that would have been
// written to the buffer if it were large enough.
return (int)str_l;
}
#endif // PROTO
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