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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.
*/
/*
* misc2.c: Various functions.
*/
#include "vim.h"
static char_u *username = NULL; // cached result of mch_get_user_name()
static int coladvance2(pos_T *pos, int addspaces, int finetune, colnr_T wcol);
/*
* Return TRUE if in the current mode we need to use virtual.
*/
int
virtual_active(void)
{
// While an operator is being executed we return "virtual_op", because
// VIsual_active has already been reset, thus we can't check for "block"
// being used.
if (virtual_op != MAYBE)
return virtual_op;
return (ve_flags == VE_ALL
|| ((ve_flags & VE_BLOCK) && VIsual_active && VIsual_mode == Ctrl_V)
|| ((ve_flags & VE_INSERT) && (State & INSERT)));
}
/*
* Get the screen position of the cursor.
*/
int
getviscol(void)
{
colnr_T x;
getvvcol(curwin, &curwin->w_cursor, &x, NULL, NULL);
return (int)x;
}
/*
* Go to column "wcol", and add/insert white space as necessary to get the
* cursor in that column.
* The caller must have saved the cursor line for undo!
*/
int
coladvance_force(colnr_T wcol)
{
int rc = coladvance2(&curwin->w_cursor, TRUE, FALSE, wcol);
if (wcol == MAXCOL)
curwin->w_valid &= ~VALID_VIRTCOL;
else
{
// Virtcol is valid
curwin->w_valid |= VALID_VIRTCOL;
curwin->w_virtcol = wcol;
}
return rc;
}
/*
* Get the screen position of character col with a coladd in the cursor line.
*/
int
getviscol2(colnr_T col, colnr_T coladd UNUSED)
{
colnr_T x;
pos_T pos;
pos.lnum = curwin->w_cursor.lnum;
pos.col = col;
pos.coladd = coladd;
getvvcol(curwin, &pos, &x, NULL, NULL);
return (int)x;
}
/*
* Try to advance the Cursor to the specified screen column.
* If virtual editing: fine tune the cursor position.
* Note that all virtual positions off the end of a line should share
* a curwin->w_cursor.col value (n.b. this is equal to STRLEN(line)),
* beginning at coladd 0.
*
* return OK if desired column is reached, FAIL if not
*/
int
coladvance(colnr_T wcol)
{
int rc = getvpos(&curwin->w_cursor, wcol);
if (wcol == MAXCOL || rc == FAIL)
curwin->w_valid &= ~VALID_VIRTCOL;
else if (*ml_get_cursor() != TAB)
{
// Virtcol is valid when not on a TAB
curwin->w_valid |= VALID_VIRTCOL;
curwin->w_virtcol = wcol;
}
return rc;
}
/*
* Return in "pos" the position of the cursor advanced to screen column "wcol".
* return OK if desired column is reached, FAIL if not
*/
int
getvpos(pos_T *pos, colnr_T wcol)
{
return coladvance2(pos, FALSE, virtual_active(), wcol);
}
static int
coladvance2(
pos_T *pos,
int addspaces, // change the text to achieve our goal?
int finetune, // change char offset for the exact column
colnr_T wcol_arg) // column to move to (can be negative)
{
colnr_T wcol = wcol_arg;
int idx;
char_u *ptr;
char_u *line;
colnr_T col = 0;
int csize = 0;
int one_more;
#ifdef FEAT_LINEBREAK
int head = 0;
#endif
one_more = (State & INSERT)
|| restart_edit != NUL
|| (VIsual_active && *p_sel != 'o')
|| ((ve_flags & VE_ONEMORE) && wcol < MAXCOL);
line = ml_get_buf(curbuf, pos->lnum, FALSE);
if (wcol >= MAXCOL)
{
idx = (int)STRLEN(line) - 1 + one_more;
col = wcol;
if ((addspaces || finetune) && !VIsual_active)
{
curwin->w_curswant = linetabsize(line) + one_more;
if (curwin->w_curswant > 0)
--curwin->w_curswant;
}
}
else
{
int width = curwin->w_width - win_col_off(curwin);
if (finetune
&& curwin->w_p_wrap
&& curwin->w_width != 0
&& wcol >= (colnr_T)width)
{
csize = linetabsize(line);
if (csize > 0)
csize--;
if (wcol / width > (colnr_T)csize / width
&& ((State & INSERT) == 0 || (int)wcol > csize + 1))
{
// In case of line wrapping don't move the cursor beyond the
// right screen edge. In Insert mode allow going just beyond
// the last character (like what happens when typing and
// reaching the right window edge).
wcol = (csize / width + 1) * width - 1;
}
}
ptr = line;
while (col <= wcol && *ptr != NUL)
{
// Count a tab for what it's worth (if list mode not on)
#ifdef FEAT_LINEBREAK
csize = win_lbr_chartabsize(curwin, line, ptr, col, &head);
MB_PTR_ADV(ptr);
#else
csize = lbr_chartabsize_adv(line, &ptr, col);
#endif
col += csize;
}
idx = (int)(ptr - line);
/*
* Handle all the special cases. The virtual_active() check
* is needed to ensure that a virtual position off the end of
* a line has the correct indexing. The one_more comparison
* replaces an explicit add of one_more later on.
*/
if (col > wcol || (!virtual_active() && one_more == 0))
{
idx -= 1;
# ifdef FEAT_LINEBREAK
// Don't count the chars from 'showbreak'.
csize -= head;
# endif
col -= csize;
}
if (virtual_active()
&& addspaces
&& wcol >= 0
&& ((col != wcol && col != wcol + 1) || csize > 1))
{
// 'virtualedit' is set: The difference between wcol and col is
// filled with spaces.
if (line[idx] == NUL)
{
// Append spaces
int correct = wcol - col;
char_u *newline = alloc(idx + correct + 1);
int t;
if (newline == NULL)
return FAIL;
for (t = 0; t < idx; ++t)
newline[t] = line[t];
for (t = 0; t < correct; ++t)
newline[t + idx] = ' ';
newline[idx + correct] = NUL;
ml_replace(pos->lnum, newline, FALSE);
changed_bytes(pos->lnum, (colnr_T)idx);
idx += correct;
col = wcol;
}
else
{
// Break a tab
int linelen = (int)STRLEN(line);
int correct = wcol - col - csize + 1; // negative!!
char_u *newline;
int t, s = 0;
int v;
if (-correct > csize)
return FAIL;
newline = alloc(linelen + csize);
if (newline == NULL)
return FAIL;
for (t = 0; t < linelen; t++)
{
if (t != idx)
newline[s++] = line[t];
else
for (v = 0; v < csize; v++)
newline[s++] = ' ';
}
newline[linelen + csize - 1] = NUL;
ml_replace(pos->lnum, newline, FALSE);
changed_bytes(pos->lnum, idx);
idx += (csize - 1 + correct);
col += correct;
}
}
}
if (idx < 0)
pos->col = 0;
else
pos->col = idx;
pos->coladd = 0;
if (finetune)
{
if (wcol == MAXCOL)
{
// The width of the last character is used to set coladd.
if (!one_more)
{
colnr_T scol, ecol;
getvcol(curwin, pos, &scol, NULL, &ecol);
pos->coladd = ecol - scol;
}
}
else
{
int b = (int)wcol - (int)col;
// The difference between wcol and col is used to set coladd.
if (b > 0 && b < (MAXCOL - 2 * curwin->w_width))
pos->coladd = b;
col += b;
}
}
// prevent from moving onto a trail byte
if (has_mbyte)
mb_adjustpos(curbuf, pos);
if (wcol < 0 || col < wcol)
return FAIL;
return OK;
}
/*
* Increment the cursor position. See inc() for return values.
*/
int
inc_cursor(void)
{
return inc(&curwin->w_cursor);
}
/*
* Increment the line pointer "lp" crossing line boundaries as necessary.
* Return 1 when going to the next line.
* Return 2 when moving forward onto a NUL at the end of the line).
* Return -1 when at the end of file.
* Return 0 otherwise.
*/
int
inc(pos_T *lp)
{
char_u *p;
// when searching position may be set to end of a line
if (lp->col != MAXCOL)
{
p = ml_get_pos(lp);
if (*p != NUL) // still within line, move to next char (may be NUL)
{
if (has_mbyte)
{
int l = (*mb_ptr2len)(p);
lp->col += l;
return ((p[l] != NUL) ? 0 : 2);
}
lp->col++;
lp->coladd = 0;
return ((p[1] != NUL) ? 0 : 2);
}
}
if (lp->lnum != curbuf->b_ml.ml_line_count) // there is a next line
{
lp->col = 0;
lp->lnum++;
lp->coladd = 0;
return 1;
}
return -1;
}
/*
* incl(lp): same as inc(), but skip the NUL at the end of non-empty lines
*/
int
incl(pos_T *lp)
{
int r;
if ((r = inc(lp)) >= 1 && lp->col)
r = inc(lp);
return r;
}
/*
* dec(p)
*
* Decrement the line pointer 'p' crossing line boundaries as necessary.
* Return 1 when crossing a line, -1 when at start of file, 0 otherwise.
*/
int
dec_cursor(void)
{
return dec(&curwin->w_cursor);
}
int
dec(pos_T *lp)
{
char_u *p;
lp->coladd = 0;
if (lp->col == MAXCOL)
{
// past end of line
p = ml_get(lp->lnum);
lp->col = (colnr_T)STRLEN(p);
if (has_mbyte)
lp->col -= (*mb_head_off)(p, p + lp->col);
return 0;
}
if (lp->col > 0)
{
// still within line
lp->col--;
if (has_mbyte)
{
p = ml_get(lp->lnum);
lp->col -= (*mb_head_off)(p, p + lp->col);
}
return 0;
}
if (lp->lnum > 1)
{
// there is a prior line
lp->lnum--;
p = ml_get(lp->lnum);
lp->col = (colnr_T)STRLEN(p);
if (has_mbyte)
lp->col -= (*mb_head_off)(p, p + lp->col);
return 1;
}
// at start of file
return -1;
}
/*
* decl(lp): same as dec(), but skip the NUL at the end of non-empty lines
*/
int
decl(pos_T *lp)
{
int r;
if ((r = dec(lp)) == 1 && lp->col)
r = dec(lp);
return r;
}
/*
* Get the line number relative to the current cursor position, i.e. the
* difference between line number and cursor position. Only look for lines that
* can be visible, folded lines don't count.
*/
linenr_T
get_cursor_rel_lnum(
win_T *wp,
linenr_T lnum) // line number to get the result for
{
linenr_T cursor = wp->w_cursor.lnum;
linenr_T retval = 0;
#ifdef FEAT_FOLDING
if (hasAnyFolding(wp))
{
if (lnum > cursor)
{
while (lnum > cursor)
{
(void)hasFoldingWin(wp, lnum, &lnum, NULL, TRUE, NULL);
// if lnum and cursor are in the same fold,
// now lnum <= cursor
if (lnum > cursor)
retval++;
lnum--;
}
}
else if (lnum < cursor)
{
while (lnum < cursor)
{
(void)hasFoldingWin(wp, lnum, NULL, &lnum, TRUE, NULL);
// if lnum and cursor are in the same fold,
// now lnum >= cursor
if (lnum < cursor)
retval--;
lnum++;
}
}
// else if (lnum == cursor)
// retval = 0;
}
else
#endif
retval = lnum - cursor;
return retval;
}
/*
* Make sure "pos.lnum" and "pos.col" are valid in "buf".
* This allows for the col to be on the NUL byte.
*/
void
check_pos(buf_T *buf, pos_T *pos)
{
char_u *line;
colnr_T len;
if (pos->lnum > buf->b_ml.ml_line_count)
pos->lnum = buf->b_ml.ml_line_count;
if (pos->col > 0)
{
line = ml_get_buf(buf, pos->lnum, FALSE);
len = (colnr_T)STRLEN(line);
if (pos->col > len)
pos->col = len;
}
}
/*
* Make sure curwin->w_cursor.lnum is valid.
*/
void
check_cursor_lnum(void)
{
if (curwin->w_cursor.lnum > curbuf->b_ml.ml_line_count)
{
#ifdef FEAT_FOLDING
// If there is a closed fold at the end of the file, put the cursor in
// its first line. Otherwise in the last line.
if (!hasFolding(curbuf->b_ml.ml_line_count,
&curwin->w_cursor.lnum, NULL))
#endif
curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count;
}
if (curwin->w_cursor.lnum <= 0)
curwin->w_cursor.lnum = 1;
}
/*
* Make sure curwin->w_cursor.col is valid.
*/
void
check_cursor_col(void)
{
check_cursor_col_win(curwin);
}
/*
* Make sure win->w_cursor.col is valid.
*/
void
check_cursor_col_win(win_T *win)
{
colnr_T len;
colnr_T oldcol = win->w_cursor.col;
colnr_T oldcoladd = win->w_cursor.col + win->w_cursor.coladd;
len = (colnr_T)STRLEN(ml_get_buf(win->w_buffer, win->w_cursor.lnum, FALSE));
if (len == 0)
win->w_cursor.col = 0;
else if (win->w_cursor.col >= len)
{
// Allow cursor past end-of-line when:
// - in Insert mode or restarting Insert mode
// - in Visual mode and 'selection' isn't "old"
// - 'virtualedit' is set
if ((State & INSERT) || restart_edit
|| (VIsual_active && *p_sel != 'o')
|| (ve_flags & VE_ONEMORE)
|| virtual_active())
win->w_cursor.col = len;
else
{
win->w_cursor.col = len - 1;
// Move the cursor to the head byte.
if (has_mbyte)
mb_adjustpos(win->w_buffer, &win->w_cursor);
}
}
else if (win->w_cursor.col < 0)
win->w_cursor.col = 0;
// If virtual editing is on, we can leave the cursor on the old position,
// only we must set it to virtual. But don't do it when at the end of the
// line.
if (oldcol == MAXCOL)
win->w_cursor.coladd = 0;
else if (ve_flags == VE_ALL)
{
if (oldcoladd > win->w_cursor.col)
{
win->w_cursor.coladd = oldcoladd - win->w_cursor.col;
// Make sure that coladd is not more than the char width.
// Not for the last character, coladd is then used when the cursor
// is actually after the last character.
if (win->w_cursor.col + 1 < len && win->w_cursor.coladd > 0)
{
int cs, ce;
getvcol(win, &win->w_cursor, &cs, NULL, &ce);
if (win->w_cursor.coladd > ce - cs)
win->w_cursor.coladd = ce - cs;
}
}
else
// avoid weird number when there is a miscalculation or overflow
win->w_cursor.coladd = 0;
}
}
/*
* make sure curwin->w_cursor in on a valid character
*/
void
check_cursor(void)
{
check_cursor_lnum();
check_cursor_col();
}
#if defined(FEAT_TEXTOBJ) || defined(PROTO)
/*
* Make sure curwin->w_cursor is not on the NUL at the end of the line.
* Allow it when in Visual mode and 'selection' is not "old".
*/
void
adjust_cursor_col(void)
{
if (curwin->w_cursor.col > 0
&& (!VIsual_active || *p_sel == 'o')
&& gchar_cursor() == NUL)
--curwin->w_cursor.col;
}
#endif
/*
* When curwin->w_leftcol has changed, adjust the cursor position.
* Return TRUE if the cursor was moved.
*/
int
leftcol_changed(void)
{
long lastcol;
colnr_T s, e;
int retval = FALSE;
long siso = get_sidescrolloff_value();
changed_cline_bef_curs();
lastcol = curwin->w_leftcol + curwin->w_width - curwin_col_off() - 1;
validate_virtcol();
/*
* If the cursor is right or left of the screen, move it to last or first
* character.
*/
if (curwin->w_virtcol > (colnr_T)(lastcol - siso))
{
retval = TRUE;
coladvance((colnr_T)(lastcol - siso));
}
else if (curwin->w_virtcol < curwin->w_leftcol + siso)
{
retval = TRUE;
(void)coladvance((colnr_T)(curwin->w_leftcol + siso));
}
/*
* If the start of the character under the cursor is not on the screen,
* advance the cursor one more char. If this fails (last char of the
* line) adjust the scrolling.
*/
getvvcol(curwin, &curwin->w_cursor, &s, NULL, &e);
if (e > (colnr_T)lastcol)
{
retval = TRUE;
coladvance(s - 1);
}
else if (s < curwin->w_leftcol)
{
retval = TRUE;
if (coladvance(e + 1) == FAIL) // there isn't another character
{
curwin->w_leftcol = s; // adjust w_leftcol instead
changed_cline_bef_curs();
}
}
if (retval)
curwin->w_set_curswant = TRUE;
redraw_later(NOT_VALID);
return retval;
}
/**********************************************************************
* Various routines dealing with allocation and deallocation of memory.
*/
#if defined(MEM_PROFILE) || defined(PROTO)
# define MEM_SIZES 8200
static long_u mem_allocs[MEM_SIZES];
static long_u mem_frees[MEM_SIZES];
static long_u mem_allocated;
static long_u mem_freed;
static long_u mem_peak;
static long_u num_alloc;
static long_u num_freed;
static void
mem_pre_alloc_s(size_t *sizep)
{
*sizep += sizeof(size_t);
}
static void
mem_pre_alloc_l(size_t *sizep)
{
*sizep += sizeof(size_t);
}
static void
mem_post_alloc(
void **pp,
size_t size)
{
if (*pp == NULL)
return;
size -= sizeof(size_t);
*(long_u *)*pp = size;
if (size <= MEM_SIZES-1)
mem_allocs[size-1]++;
else
mem_allocs[MEM_SIZES-1]++;
mem_allocated += size;
if (mem_allocated - mem_freed > mem_peak)
mem_peak = mem_allocated - mem_freed;
num_alloc++;
*pp = (void *)((char *)*pp + sizeof(size_t));
}
static void
mem_pre_free(void **pp)
{
long_u size;
*pp = (void *)((char *)*pp - sizeof(size_t));
size = *(size_t *)*pp;
if (size <= MEM_SIZES-1)
mem_frees[size-1]++;
else
mem_frees[MEM_SIZES-1]++;
mem_freed += size;
num_freed++;
}
/*
* called on exit via atexit()
*/
void
vim_mem_profile_dump(void)
{
int i, j;
printf("\r\n");
j = 0;
for (i = 0; i < MEM_SIZES - 1; i++)
{
if (mem_allocs[i] || mem_frees[i])
{
if (mem_frees[i] > mem_allocs[i])
printf("\r\n%s", _("ERROR: "));
printf("[%4d / %4lu-%-4lu] ", i + 1, mem_allocs[i], mem_frees[i]);
j++;
if (j > 3)
{
j = 0;
printf("\r\n");
}
}
}
i = MEM_SIZES - 1;
if (mem_allocs[i])
{
printf("\r\n");
if (mem_frees[i] > mem_allocs[i])
puts(_("ERROR: "));
printf("[>%d / %4lu-%-4lu]", i, mem_allocs[i], mem_frees[i]);
}
printf(_("\n[bytes] total alloc-freed %lu-%lu, in use %lu, peak use %lu\n"),
mem_allocated, mem_freed, mem_allocated - mem_freed, mem_peak);
printf(_("[calls] total re/malloc()'s %lu, total free()'s %lu\n\n"),
num_alloc, num_freed);
}
#endif // MEM_PROFILE
#ifdef FEAT_EVAL
int
alloc_does_fail(size_t size)
{
if (alloc_fail_countdown == 0)
{
if (--alloc_fail_repeat <= 0)
alloc_fail_id = 0;
do_outofmem_msg(size);
return TRUE;
}
--alloc_fail_countdown;
return FALSE;
}
#endif
/*
* Some memory is reserved for error messages and for being able to
* call mf_release_all(), which needs some memory for mf_trans_add().
*/
#define KEEP_ROOM (2 * 8192L)
#define KEEP_ROOM_KB (KEEP_ROOM / 1024L)
/*
* The normal way to allocate memory. This handles an out-of-memory situation
* as well as possible, still returns NULL when we're completely out.
*/
void *
alloc(size_t size)
{
return lalloc(size, TRUE);
}
/*
* alloc() with an ID for alloc_fail().
*/
void *
alloc_id(size_t size, alloc_id_T id UNUSED)
{
#ifdef FEAT_EVAL
if (alloc_fail_id == id && alloc_does_fail(size))
return NULL;
#endif
return lalloc(size, TRUE);
}
/*
* Allocate memory and set all bytes to zero.
*/
void *
alloc_clear(size_t size)
{
void *p;
p = lalloc(size, TRUE);
if (p != NULL)
(void)vim_memset(p, 0, size);
return p;
}
/*
* Same as alloc_clear() but with allocation id for testing
*/
void *
alloc_clear_id(size_t size, alloc_id_T id UNUSED)
{
#ifdef FEAT_EVAL
if (alloc_fail_id == id && alloc_does_fail(size))
return NULL;
#endif
return alloc_clear(size);
}
/*
* Allocate memory like lalloc() and set all bytes to zero.
*/
void *
lalloc_clear(size_t size, int message)
{
void *p;
p = lalloc(size, message);
if (p != NULL)
(void)vim_memset(p, 0, size);
return p;
}
/*
* Low level memory allocation function.
* This is used often, KEEP IT FAST!
*/
void *
lalloc(size_t size, int message)
{
void *p; // pointer to new storage space
static int releasing = FALSE; // don't do mf_release_all() recursive
int try_again;
#if defined(HAVE_AVAIL_MEM)
static size_t allocated = 0; // allocated since last avail check
#endif
// Safety check for allocating zero bytes
if (size == 0)
{
// Don't hide this message
emsg_silent = 0;
iemsg(_("E341: Internal error: lalloc(0, )"));
return NULL;
}
#ifdef MEM_PROFILE
mem_pre_alloc_l(&size);
#endif
/*
* Loop when out of memory: Try to release some memfile blocks and
* if some blocks are released call malloc again.
*/
for (;;)
{
/*
* Handle three kind of systems:
* 1. No check for available memory: Just return.
* 2. Slow check for available memory: call mch_avail_mem() after
* allocating KEEP_ROOM amount of memory.
* 3. Strict check for available memory: call mch_avail_mem()
*/
if ((p = malloc(size)) != NULL)
{
#ifndef HAVE_AVAIL_MEM
// 1. No check for available memory: Just return.
goto theend;
#else
// 2. Slow check for available memory: call mch_avail_mem() after
// allocating (KEEP_ROOM / 2) amount of memory.
allocated += size;
if (allocated < KEEP_ROOM / 2)
goto theend;
allocated = 0;
// 3. check for available memory: call mch_avail_mem()
if (mch_avail_mem(TRUE) < KEEP_ROOM_KB && !releasing)
{
free(p); // System is low... no go!
p = NULL;
}
else
goto theend;
#endif
}
/*
* Remember that mf_release_all() is being called to avoid an endless
* loop, because mf_release_all() may call alloc() recursively.
*/
if (releasing)
break;
releasing = TRUE;
clear_sb_text(TRUE); // free any scrollback text
try_again = mf_release_all(); // release as many blocks as possible
releasing = FALSE;
if (!try_again)
break;
}
if (message && p == NULL)
do_outofmem_msg(size);
theend:
#ifdef MEM_PROFILE
mem_post_alloc(&p, size);
#endif
return p;
}
/*
* lalloc() with an ID for alloc_fail().
*/
#if defined(FEAT_SIGNS) || defined(PROTO)
void *
lalloc_id(size_t size, int message, alloc_id_T id UNUSED)
{
#ifdef FEAT_EVAL
if (alloc_fail_id == id && alloc_does_fail(size))
return NULL;
#endif
return (lalloc(size, message));
}
#endif
#if defined(MEM_PROFILE) || defined(PROTO)
/*
* realloc() with memory profiling.
*/
void *
mem_realloc(void *ptr, size_t size)
{
void *p;
mem_pre_free(&ptr);
mem_pre_alloc_s(&size);
p = realloc(ptr, size);
mem_post_alloc(&p, size);
return p;
}
#endif
/*
* Avoid repeating the error message many times (they take 1 second each).
* Did_outofmem_msg is reset when a character is read.
*/
void
do_outofmem_msg(size_t size)
{
if (!did_outofmem_msg)
{
// Don't hide this message
emsg_silent = 0;
// Must come first to avoid coming back here when printing the error
// message fails, e.g. when setting v:errmsg.
did_outofmem_msg = TRUE;
semsg(_("E342: Out of memory! (allocating %lu bytes)"), (long_u)size);
if (starting == NO_SCREEN)
// Not even finished with initializations and already out of
// memory? Then nothing is going to work, exit.
mch_exit(123);
}
}
#if defined(EXITFREE) || defined(PROTO)
/*
* Free everything that we allocated.
* Can be used to detect memory leaks, e.g., with ccmalloc.
* NOTE: This is tricky! Things are freed that functions depend on. Don't be
* surprised if Vim crashes...
* Some things can't be freed, esp. things local to a library function.
*/
void
free_all_mem(void)
{
buf_T *buf, *nextbuf;
// When we cause a crash here it is caught and Vim tries to exit cleanly.
// Don't try freeing everything again.
if (entered_free_all_mem)
return;
entered_free_all_mem = TRUE;
// Don't want to trigger autocommands from here on.
block_autocmds();
// Close all tabs and windows. Reset 'equalalways' to avoid redraws.
p_ea = FALSE;
if (first_tabpage != NULL && first_tabpage->tp_next != NULL)
do_cmdline_cmd((char_u *)"tabonly!");
if (!ONE_WINDOW)
do_cmdline_cmd((char_u *)"only!");
# if defined(FEAT_SPELL)
// Free all spell info.
spell_free_all();
# endif
# if defined(FEAT_BEVAL_TERM)
ui_remove_balloon();
# endif
# ifdef FEAT_PROP_POPUP
if (curwin != NULL)
close_all_popups(TRUE);
# endif
// Clear user commands (before deleting buffers).
ex_comclear(NULL);
// When exiting from mainerr_arg_missing curbuf has not been initialized,
// and not much else.
if (curbuf != NULL)
{
# ifdef FEAT_MENU
// Clear menus.
do_cmdline_cmd((char_u *)"aunmenu *");
# ifdef FEAT_MULTI_LANG
do_cmdline_cmd((char_u *)"menutranslate clear");
# endif
# endif
// Clear mappings, abbreviations, breakpoints.
do_cmdline_cmd((char_u *)"lmapclear");
do_cmdline_cmd((char_u *)"xmapclear");
do_cmdline_cmd((char_u *)"mapclear");
do_cmdline_cmd((char_u *)"mapclear!");
do_cmdline_cmd((char_u *)"abclear");
# if defined(FEAT_EVAL)
do_cmdline_cmd((char_u *)"breakdel *");
# endif
# if defined(FEAT_PROFILE)
do_cmdline_cmd((char_u *)"profdel *");
# endif
# if defined(FEAT_KEYMAP)
do_cmdline_cmd((char_u *)"set keymap=");
# endif
}
# ifdef FEAT_TITLE
free_titles();
# endif
# if defined(FEAT_SEARCHPATH)
free_findfile();
# endif
// Obviously named calls.
free_all_autocmds();
clear_termcodes();
free_all_marks();
alist_clear(&global_alist);
free_homedir();
free_users();
free_search_patterns();
free_old_sub();
free_last_insert();
free_insexpand_stuff();
free_prev_shellcmd();
free_regexp_stuff();
free_tag_stuff();
free_cd_dir();
# ifdef FEAT_SIGNS
free_signs();
# endif
# ifdef FEAT_EVAL
set_expr_line(NULL);
# endif
# ifdef FEAT_DIFF
if (curtab != NULL)
diff_clear(curtab);
# endif
clear_sb_text(TRUE); // free any scrollback text
// Free some global vars.
vim_free(username);
# ifdef FEAT_CLIPBOARD
vim_regfree(clip_exclude_prog);
# endif
vim_free(last_cmdline);
vim_free(new_last_cmdline);
set_keep_msg(NULL, 0);
// Clear cmdline history.
p_hi = 0;
init_history();
# ifdef FEAT_PROP_POPUP
clear_global_prop_types();
# endif
# ifdef FEAT_QUICKFIX
{
win_T *win;
tabpage_T *tab;
qf_free_all(NULL);
// Free all location lists
FOR_ALL_TAB_WINDOWS(tab, win)
qf_free_all(win);
}
# endif
// Close all script inputs.
close_all_scripts();
if (curwin != NULL)
// Destroy all windows. Must come before freeing buffers.
win_free_all();
// Free all option values. Must come after closing windows.
free_all_options();
// Free all buffers. Reset 'autochdir' to avoid accessing things that
// were freed already.
# ifdef FEAT_AUTOCHDIR
p_acd = FALSE;
# endif
for (buf = firstbuf; buf != NULL; )
{
bufref_T bufref;
set_bufref(&bufref, buf);
nextbuf = buf->b_next;
close_buffer(NULL, buf, DOBUF_WIPE, FALSE, FALSE);
if (bufref_valid(&bufref))
buf = nextbuf; // didn't work, try next one
else
buf = firstbuf;
}
# ifdef FEAT_ARABIC
free_arshape_buf();
# endif
// Clear registers.
clear_registers();
ResetRedobuff();
ResetRedobuff();
# if defined(FEAT_CLIENTSERVER) && defined(FEAT_X11)
vim_free(serverDelayedStartName);
# endif
// highlight info
free_highlight();
reset_last_sourcing();
if (first_tabpage != NULL)
{
free_tabpage(first_tabpage);
first_tabpage = NULL;
}
# ifdef UNIX
// Machine-specific free.
mch_free_mem();
# endif
// message history
for (;;)
if (delete_first_msg() == FAIL)
break;
# ifdef FEAT_JOB_CHANNEL
channel_free_all();
# endif
# ifdef FEAT_TIMERS
timer_free_all();
# endif
# ifdef FEAT_EVAL
// must be after channel_free_all() with unrefs partials
eval_clear();
# endif
# ifdef FEAT_JOB_CHANNEL
// must be after eval_clear() with unrefs jobs
job_free_all();
# endif
free_termoptions();
// screenlines (can't display anything now!)
free_screenlines();
# if defined(FEAT_SOUND)
sound_free();
# endif
# if defined(USE_XSMP)
xsmp_close();
# endif
# ifdef FEAT_GUI_GTK
gui_mch_free_all();
# endif
clear_hl_tables();
vim_free(IObuff);
vim_free(NameBuff);
# ifdef FEAT_QUICKFIX
check_quickfix_busy();
# endif
}
#endif
/*
* Copy "string" into newly allocated memory.
*/
char_u *
vim_strsave(char_u *string)
{
char_u *p;
size_t len;
len = STRLEN(string) + 1;
p = alloc(len);
if (p != NULL)
mch_memmove(p, string, len);
return p;
}
/*
* Copy up to "len" bytes of "string" into newly allocated memory and
* terminate with a NUL.
* The allocated memory always has size "len + 1", also when "string" is
* shorter.
*/
char_u *
vim_strnsave(char_u *string, size_t len)
{
char_u *p;
p = alloc(len + 1);
if (p != NULL)
{
STRNCPY(p, string, len);
p[len] = NUL;
}
return p;
}
/*
* Copy "p[len]" into allocated memory, ignoring NUL characters.
* Returns NULL when out of memory.
*/
char_u *
vim_memsave(char_u *p, size_t len)
{
char_u *ret = alloc(len);
if (ret != NULL)
mch_memmove(ret, p, len);
return ret;
}
/*
* Same as vim_strsave(), but any characters found in esc_chars are preceded
* by a backslash.
*/
char_u *
vim_strsave_escaped(char_u *string, char_u *esc_chars)
{
return vim_strsave_escaped_ext(string, esc_chars, '\\', FALSE);
}
/*
* Same as vim_strsave_escaped(), but when "bsl" is TRUE also escape
* characters where rem_backslash() would remove the backslash.
* Escape the characters with "cc".
*/
char_u *
vim_strsave_escaped_ext(
char_u *string,
char_u *esc_chars,
int cc,
int bsl)
{
char_u *p;
char_u *p2;
char_u *escaped_string;
unsigned length;
int l;
/*
* First count the number of backslashes required.
* Then allocate the memory and insert them.
*/
length = 1; // count the trailing NUL
for (p = string; *p; p++)
{
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
{
length += l; // count a multibyte char
p += l - 1;
continue;
}
if (vim_strchr(esc_chars, *p) != NULL || (bsl && rem_backslash(p)))
++length; // count a backslash
++length; // count an ordinary char
}
escaped_string = alloc(length);
if (escaped_string != NULL)
{
p2 = escaped_string;
for (p = string; *p; p++)
{
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
{
mch_memmove(p2, p, (size_t)l);
p2 += l;
p += l - 1; // skip multibyte char
continue;
}
if (vim_strchr(esc_chars, *p) != NULL || (bsl && rem_backslash(p)))
*p2++ = cc;
*p2++ = *p;
}
*p2 = NUL;
}
return escaped_string;
}
/*
* Return TRUE when 'shell' has "csh" in the tail.
*/
int
csh_like_shell(void)
{
return (strstr((char *)gettail(p_sh), "csh") != NULL);
}
/*
* Escape "string" for use as a shell argument with system().
* This uses single quotes, except when we know we need to use double quotes
* (MS-DOS and MS-Windows without 'shellslash' set).
* Escape a newline, depending on the 'shell' option.
* When "do_special" is TRUE also replace "!", "%", "#" and things starting
* with "<" like "<cfile>".
* When "do_newline" is FALSE do not escape newline unless it is csh shell.
* Returns the result in allocated memory, NULL if we have run out.
*/
char_u *
vim_strsave_shellescape(char_u *string, int do_special, int do_newline)
{
unsigned length;
char_u *p;
char_u *d;
char_u *escaped_string;
int l;
int csh_like;
// Only csh and similar shells expand '!' within single quotes. For sh and
// the like we must not put a backslash before it, it will be taken
// literally. If do_special is set the '!' will be escaped twice.
// Csh also needs to have "\n" escaped twice when do_special is set.
csh_like = csh_like_shell();
// First count the number of extra bytes required.
length = (unsigned)STRLEN(string) + 3; // two quotes and a trailing NUL
for (p = string; *p != NUL; MB_PTR_ADV(p))
{
# ifdef MSWIN
if (!p_ssl)
{
if (*p == '"')
++length; // " -> ""
}
else
# endif
if (*p == '\'')
length += 3; // ' => '\''
if ((*p == '\n' && (csh_like || do_newline))
|| (*p == '!' && (csh_like || do_special)))
{
++length; // insert backslash
if (csh_like && do_special)
++length; // insert backslash
}
if (do_special && find_cmdline_var(p, &l) >= 0)
{
++length; // insert backslash
p += l - 1;
}
}
// Allocate memory for the result and fill it.
escaped_string = alloc(length);
if (escaped_string != NULL)
{
d = escaped_string;
// add opening quote
# ifdef MSWIN
if (!p_ssl)
*d++ = '"';
else
# endif
*d++ = '\'';
for (p = string; *p != NUL; )
{
# ifdef MSWIN
if (!p_ssl)
{
if (*p == '"')
{
*d++ = '"';
*d++ = '"';
++p;
continue;
}
}
else
# endif
if (*p == '\'')
{
*d++ = '\'';
*d++ = '\\';
*d++ = '\'';
*d++ = '\'';
++p;
continue;
}
if ((*p == '\n' && (csh_like || do_newline))
|| (*p == '!' && (csh_like || do_special)))
{
*d++ = '\\';
if (csh_like && do_special)
*d++ = '\\';
*d++ = *p++;
continue;
}
if (do_special && find_cmdline_var(p, &l) >= 0)
{
*d++ = '\\'; // insert backslash
while (--l >= 0) // copy the var
*d++ = *p++;
continue;
}
MB_COPY_CHAR(p, d);
}
// add terminating quote and finish with a NUL
# ifdef MSWIN
if (!p_ssl)
*d++ = '"';
else
# endif
*d++ = '\'';
*d = NUL;
}
return escaped_string;
}
/*
* Like vim_strsave(), but make all characters uppercase.
* This uses ASCII lower-to-upper case translation, language independent.
*/
char_u *
vim_strsave_up(char_u *string)
{
char_u *p1;
p1 = vim_strsave(string);
vim_strup(p1);
return p1;
}
/*
* Like vim_strnsave(), but make all characters uppercase.
* This uses ASCII lower-to-upper case translation, language independent.
*/
char_u *
vim_strnsave_up(char_u *string, size_t len)
{
char_u *p1;
p1 = vim_strnsave(string, len);
vim_strup(p1);
return p1;
}
/*
* ASCII lower-to-upper case translation, language independent.
*/
void
vim_strup(
char_u *p)
{
char_u *p2;
int c;
if (p != NULL)
{
p2 = p;
while ((c = *p2) != NUL)
#ifdef EBCDIC
*p2++ = isalpha(c) ? toupper(c) : c;
#else
*p2++ = (c < 'a' || c > 'z') ? c : (c - 0x20);
#endif
}
}
#if defined(FEAT_EVAL) || defined(FEAT_SPELL) || defined(PROTO)
/*
* Make string "s" all upper-case and return it in allocated memory.
* Handles multi-byte characters as well as possible.
* Returns NULL when out of memory.
*/
char_u *
strup_save(char_u *orig)
{
char_u *p;
char_u *res;
res = p = vim_strsave(orig);
if (res != NULL)
while (*p != NUL)
{
int l;
if (enc_utf8)
{
int c, uc;
int newl;
char_u *s;
c = utf_ptr2char(p);
l = utf_ptr2len(p);
if (c == 0)
{
// overlong sequence, use only the first byte
c = *p;
l = 1;
}
uc = utf_toupper(c);
// Reallocate string when byte count changes. This is rare,
// thus it's OK to do another malloc()/free().
newl = utf_char2len(uc);
if (newl != l)
{
s = alloc(STRLEN(res) + 1 + newl - l);
if (s == NULL)
{
vim_free(res);
return NULL;
}
mch_memmove(s, res, p - res);
STRCPY(s + (p - res) + newl, p + l);
p = s + (p - res);
vim_free(res);
res = s;
}
utf_char2bytes(uc, p);
p += newl;
}
else if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
p += l; // skip multi-byte character
else
{
*p = TOUPPER_LOC(*p); // note that toupper() can be a macro
p++;
}
}
return res;
}
/*
* Make string "s" all lower-case and return it in allocated memory.
* Handles multi-byte characters as well as possible.
* Returns NULL when out of memory.
*/
char_u *
strlow_save(char_u *orig)
{
char_u *p;
char_u *res;
res = p = vim_strsave(orig);
if (res != NULL)
while (*p != NUL)
{
int l;
if (enc_utf8)
{
int c, lc;
int newl;
char_u *s;
c = utf_ptr2char(p);
l = utf_ptr2len(p);
if (c == 0)
{
// overlong sequence, use only the first byte
c = *p;
l = 1;
}
lc = utf_tolower(c);
// Reallocate string when byte count changes. This is rare,
// thus it's OK to do another malloc()/free().
newl = utf_char2len(lc);
if (newl != l)
{
s = alloc(STRLEN(res) + 1 + newl - l);
if (s == NULL)
{
vim_free(res);
return NULL;
}
mch_memmove(s, res, p - res);
STRCPY(s + (p - res) + newl, p + l);
p = s + (p - res);
vim_free(res);
res = s;
}
utf_char2bytes(lc, p);
p += newl;
}
else if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1)
p += l; // skip multi-byte character
else
{
*p = TOLOWER_LOC(*p); // note that tolower() can be a macro
p++;
}
}
return res;
}
#endif
/*
* delete spaces at the end of a string
*/
void
del_trailing_spaces(char_u *ptr)
{
char_u *q;
q = ptr + STRLEN(ptr);
while (--q > ptr && VIM_ISWHITE(q[0]) && q[-1] != '\\' && q[-1] != Ctrl_V)
*q = NUL;
}
/*
* Like strncpy(), but always terminate the result with one NUL.
* "to" must be "len + 1" long!
*/
void
vim_strncpy(char_u *to, char_u *from, size_t len)
{
STRNCPY(to, from, len);
to[len] = NUL;
}
/*
* Like strcat(), but make sure the result fits in "tosize" bytes and is
* always NUL terminated. "from" and "to" may overlap.
*/
void
vim_strcat(char_u *to, char_u *from, size_t tosize)
{
size_t tolen = STRLEN(to);
size_t fromlen = STRLEN(from);
if (tolen + fromlen + 1 > tosize)
{
mch_memmove(to + tolen, from, tosize - tolen - 1);
to[tosize - 1] = NUL;
}
else
mch_memmove(to + tolen, from, fromlen + 1);
}
/*
* Isolate one part of a string option where parts are separated with
* "sep_chars".
* The part is copied into "buf[maxlen]".
* "*option" is advanced to the next part.
* The length is returned.
*/
int
copy_option_part(
char_u **option,
char_u *buf,
int maxlen,
char *sep_chars)
{
int len = 0;
char_u *p = *option;
// skip '.' at start of option part, for 'suffixes'
if (*p == '.')
buf[len++] = *p++;
while (*p != NUL && vim_strchr((char_u *)sep_chars, *p) == NULL)
{
/*
* Skip backslash before a separator character and space.
*/
if (p[0] == '\\' && vim_strchr((char_u *)sep_chars, p[1]) != NULL)
++p;
if (len < maxlen - 1)
buf[len++] = *p;
++p;
}
buf[len] = NUL;
if (*p != NUL && *p != ',') // skip non-standard separator
++p;
p = skip_to_option_part(p); // p points to next file name
*option = p;
return len;
}
/*
* Replacement for free() that ignores NULL pointers.
* Also skip free() when exiting for sure, this helps when we caught a deadly
* signal that was caused by a crash in free().
* If you want to set NULL after calling this function, you should use
* VIM_CLEAR() instead.
*/
void
vim_free(void *x)
{
if (x != NULL && !really_exiting)
{
#ifdef MEM_PROFILE
mem_pre_free(&x);
#endif
free(x);
}
}
#ifndef HAVE_MEMSET
void *
vim_memset(void *ptr, int c, size_t size)
{
char *p = ptr;
while (size-- > 0)
*p++ = c;
return ptr;
}
#endif
#if (!defined(HAVE_STRCASECMP) && !defined(HAVE_STRICMP)) || defined(PROTO)
/*
* Compare two strings, ignoring case, using current locale.
* Doesn't work for multi-byte characters.
* return 0 for match, < 0 for smaller, > 0 for bigger
*/
int
vim_stricmp(char *s1, char *s2)
{
int i;
for (;;)
{
i = (int)TOLOWER_LOC(*s1) - (int)TOLOWER_LOC(*s2);
if (i != 0)
return i; // this character different
if (*s1 == NUL)
break; // strings match until NUL
++s1;
++s2;
}
return 0; // strings match
}
#endif
#if (!defined(HAVE_STRNCASECMP) && !defined(HAVE_STRNICMP)) || defined(PROTO)
/*
* Compare two strings, for length "len", ignoring case, using current locale.
* Doesn't work for multi-byte characters.
* return 0 for match, < 0 for smaller, > 0 for bigger
*/
int
vim_strnicmp(char *s1, char *s2, size_t len)
{
int i;
while (len > 0)
{
i = (int)TOLOWER_LOC(*s1) - (int)TOLOWER_LOC(*s2);
if (i != 0)
return i; // this character different
if (*s1 == NUL)
break; // strings match until NUL
++s1;
++s2;
--len;
}
return 0; // strings match
}
#endif
/*
* Version of strchr() and strrchr() that handle unsigned char strings
* with characters from 128 to 255 correctly. It also doesn't return a
* pointer to the NUL at the end of the string.
*/
char_u *
vim_strchr(char_u *string, int c)
{
char_u *p;
int b;
p = string;
if (enc_utf8 && c >= 0x80)
{
while (*p != NUL)
{
int l = utfc_ptr2len(p);
// Avoid matching an illegal byte here.
if (utf_ptr2char(p) == c && l > 1)
return p;
p += l;
}
return NULL;
}
if (enc_dbcs != 0 && c > 255)
{
int n2 = c & 0xff;
c = ((unsigned)c >> 8) & 0xff;
while ((b = *p) != NUL)
{
if (b == c && p[1] == n2)
return p;
p += (*mb_ptr2len)(p);
}
return NULL;
}
if (has_mbyte)
{
while ((b = *p) != NUL)
{
if (b == c)
return p;
p += (*mb_ptr2len)(p);
}
return NULL;
}
while ((b = *p) != NUL)
{
if (b == c)
return p;
++p;
}
return NULL;
}
/*
* Version of strchr() that only works for bytes and handles unsigned char
* strings with characters above 128 correctly. It also doesn't return a
* pointer to the NUL at the end of the string.
*/
char_u *
vim_strbyte(char_u *string, int c)
{
char_u *p = string;
while (*p != NUL)
{
if (*p == c)
return p;
++p;
}
return NULL;
}
/*
* Search for last occurrence of "c" in "string".
* Return NULL if not found.
* Does not handle multi-byte char for "c"!
*/
char_u *
vim_strrchr(char_u *string, int c)
{
char_u *retval = NULL;
char_u *p = string;
while (*p)
{
if (*p == c)
retval = p;
MB_PTR_ADV(p);
}
return retval;
}
/*
* Vim's version of strpbrk(), in case it's missing.
* Don't generate a prototype for this, causes problems when it's not used.
*/
#ifndef PROTO
# ifndef HAVE_STRPBRK
# ifdef vim_strpbrk
# undef vim_strpbrk
# endif
char_u *
vim_strpbrk(char_u *s, char_u *charset)
{
while (*s)
{
if (vim_strchr(charset, *s) != NULL)
return s;
MB_PTR_ADV(s);
}
return NULL;
}
# endif
#endif
/*
* Vim has its own isspace() function, because on some machines isspace()
* can't handle characters above 128.
*/
int
vim_isspace(int x)
{
return ((x >= 9 && x <= 13) || x == ' ');
}
/************************************************************************
* Functions for handling growing arrays.
*/
/*
* Clear an allocated growing array.
*/
void
ga_clear(garray_T *gap)
{
vim_free(gap->ga_data);
ga_init(gap);
}
/*
* Clear a growing array that contains a list of strings.
*/
void
ga_clear_strings(garray_T *gap)
{
int i;
for (i = 0; i < gap->ga_len; ++i)
vim_free(((char_u **)(gap->ga_data))[i]);
ga_clear(gap);
}
/*
* Initialize a growing array. Don't forget to set ga_itemsize and
* ga_growsize! Or use ga_init2().
*/
void
ga_init(garray_T *gap)
{
gap->ga_data = NULL;
gap->ga_maxlen = 0;
gap->ga_len = 0;
}
void
ga_init2(garray_T *gap, int itemsize, int growsize)
{
ga_init(gap);
gap->ga_itemsize = itemsize;
gap->ga_growsize = growsize;
}
/*
* Make room in growing array "gap" for at least "n" items.
* Return FAIL for failure, OK otherwise.
*/
int
ga_grow(garray_T *gap, int n)
{
if (gap->ga_maxlen - gap->ga_len < n)
return ga_grow_inner(gap, n);
return OK;
}
int
ga_grow_inner(garray_T *gap, int n)
{
size_t old_len;
size_t new_len;
char_u *pp;
if (n < gap->ga_growsize)
n = gap->ga_growsize;
// A linear growth is very inefficient when the array grows big. This
// is a compromise between allocating memory that won't be used and too
// many copy operations. A factor of 1.5 seems reasonable.
if (n < gap->ga_len / 2)
n = gap->ga_len / 2;
new_len = gap->ga_itemsize * (gap->ga_len + n);
pp = vim_realloc(gap->ga_data, new_len);
if (pp == NULL)
return FAIL;
old_len = gap->ga_itemsize * gap->ga_maxlen;
vim_memset(pp + old_len, 0, new_len - old_len);
gap->ga_maxlen = gap->ga_len + n;
gap->ga_data = pp;
return OK;
}
#if defined(FEAT_EVAL) || defined(FEAT_SEARCHPATH) || defined(PROTO)
/*
* For a growing array that contains a list of strings: concatenate all the
* strings with a separating "sep".
* Returns NULL when out of memory.
*/
char_u *
ga_concat_strings(garray_T *gap, char *sep)
{
int i;
int len = 0;
int sep_len = (int)STRLEN(sep);
char_u *s;
char_u *p;
for (i = 0; i < gap->ga_len; ++i)
len += (int)STRLEN(((char_u **)(gap->ga_data))[i]) + sep_len;
s = alloc(len + 1);
if (s != NULL)
{
*s = NUL;
p = s;
for (i = 0; i < gap->ga_len; ++i)
{
if (p != s)
{
STRCPY(p, sep);
p += sep_len;
}
STRCPY(p, ((char_u **)(gap->ga_data))[i]);
p += STRLEN(p);
}
}
return s;
}
#endif
#if defined(FEAT_VIMINFO) || defined(FEAT_EVAL) || defined(PROTO)
/*
* Make a copy of string "p" and add it to "gap".
* When out of memory nothing changes.
*/
void
ga_add_string(garray_T *gap, char_u *p)
{
char_u *cp = vim_strsave(p);
if (cp != NULL)
{
if (ga_grow(gap, 1) == OK)
((char_u **)(gap->ga_data))[gap->ga_len++] = cp;
else
vim_free(cp);
}
}
#endif
/*
* Concatenate a string to a growarray which contains bytes.
* When "s" is NULL does not do anything.
* Note: Does NOT copy the NUL at the end!
*/
void
ga_concat(garray_T *gap, char_u *s)
{
int len;
if (s == NULL || *s == NUL)
return;
len = (int)STRLEN(s);
if (ga_grow(gap, len) == OK)
{
mch_memmove((char *)gap->ga_data + gap->ga_len, s, (size_t)len);
gap->ga_len += len;
}
}
/*
* Append one byte to a growarray which contains bytes.
*/
void
ga_append(garray_T *gap, int c)
{
if (ga_grow(gap, 1) == OK)
{
*((char *)gap->ga_data + gap->ga_len) = c;
++gap->ga_len;
}
}
#if (defined(UNIX) && !defined(USE_SYSTEM)) || defined(MSWIN) \
|| defined(PROTO)
/*
* Append the text in "gap" below the cursor line and clear "gap".
*/
void
append_ga_line(garray_T *gap)
{
// Remove trailing CR.
if (gap->ga_len > 0
&& !curbuf->b_p_bin
&& ((char_u *)gap->ga_data)[gap->ga_len - 1] == CAR)
--gap->ga_len;
ga_append(gap, NUL);
ml_append(curwin->w_cursor.lnum++, gap->ga_data, 0, FALSE);
gap->ga_len = 0;
}
#endif
/************************************************************************
* functions that use lookup tables for various things, generally to do with
* special key codes.
*/
/*
* Some useful tables.
*/
static struct modmasktable
{
short mod_mask; // Bit-mask for particular key modifier
short mod_flag; // Bit(s) for particular key modifier
char_u name; // Single letter name of modifier
} mod_mask_table[] =
{
{MOD_MASK_ALT, MOD_MASK_ALT, (char_u)'M'},
{MOD_MASK_META, MOD_MASK_META, (char_u)'T'},
{MOD_MASK_CTRL, MOD_MASK_CTRL, (char_u)'C'},
{MOD_MASK_SHIFT, MOD_MASK_SHIFT, (char_u)'S'},
{MOD_MASK_MULTI_CLICK, MOD_MASK_2CLICK, (char_u)'2'},
{MOD_MASK_MULTI_CLICK, MOD_MASK_3CLICK, (char_u)'3'},
{MOD_MASK_MULTI_CLICK, MOD_MASK_4CLICK, (char_u)'4'},
#ifdef MACOS_X
{MOD_MASK_CMD, MOD_MASK_CMD, (char_u)'D'},
#endif
// 'A' must be the last one
{MOD_MASK_ALT, MOD_MASK_ALT, (char_u)'A'},
{0, 0, NUL}
// NOTE: when adding an entry, update MAX_KEY_NAME_LEN!
};
/*
* Shifted key terminal codes and their unshifted equivalent.
* Don't add mouse codes here, they are handled separately!
*/
#define MOD_KEYS_ENTRY_SIZE 5
static char_u modifier_keys_table[] =
{
// mod mask with modifier without modifier
MOD_MASK_SHIFT, '&', '9', '@', '1', // begin
MOD_MASK_SHIFT, '&', '0', '@', '2', // cancel
MOD_MASK_SHIFT, '*', '1', '@', '4', // command
MOD_MASK_SHIFT, '*', '2', '@', '5', // copy
MOD_MASK_SHIFT, '*', '3', '@', '6', // create
MOD_MASK_SHIFT, '*', '4', 'k', 'D', // delete char
MOD_MASK_SHIFT, '*', '5', 'k', 'L', // delete line
MOD_MASK_SHIFT, '*', '7', '@', '7', // end
MOD_MASK_CTRL, KS_EXTRA, (int)KE_C_END, '@', '7', // end
MOD_MASK_SHIFT, '*', '9', '@', '9', // exit
MOD_MASK_SHIFT, '*', '0', '@', '0', // find
MOD_MASK_SHIFT, '#', '1', '%', '1', // help
MOD_MASK_SHIFT, '#', '2', 'k', 'h', // home
MOD_MASK_CTRL, KS_EXTRA, (int)KE_C_HOME, 'k', 'h', // home
MOD_MASK_SHIFT, '#', '3', 'k', 'I', // insert
MOD_MASK_SHIFT, '#', '4', 'k', 'l', // left arrow
MOD_MASK_CTRL, KS_EXTRA, (int)KE_C_LEFT, 'k', 'l', // left arrow
MOD_MASK_SHIFT, '%', 'a', '%', '3', // message
MOD_MASK_SHIFT, '%', 'b', '%', '4', // move
MOD_MASK_SHIFT, '%', 'c', '%', '5', // next
MOD_MASK_SHIFT, '%', 'd', '%', '7', // options
MOD_MASK_SHIFT, '%', 'e', '%', '8', // previous
MOD_MASK_SHIFT, '%', 'f', '%', '9', // print
MOD_MASK_SHIFT, '%', 'g', '%', '0', // redo
MOD_MASK_SHIFT, '%', 'h', '&', '3', // replace
MOD_MASK_SHIFT, '%', 'i', 'k', 'r', // right arr.
MOD_MASK_CTRL, KS_EXTRA, (int)KE_C_RIGHT, 'k', 'r', // right arr.
MOD_MASK_SHIFT, '%', 'j', '&', '5', // resume
MOD_MASK_SHIFT, '!', '1', '&', '6', // save
MOD_MASK_SHIFT, '!', '2', '&', '7', // suspend
MOD_MASK_SHIFT, '!', '3', '&', '8', // undo
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_UP, 'k', 'u', // up arrow
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_DOWN, 'k', 'd', // down arrow
// vt100 F1
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_XF1, KS_EXTRA, (int)KE_XF1,
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_XF2, KS_EXTRA, (int)KE_XF2,
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_XF3, KS_EXTRA, (int)KE_XF3,
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_XF4, KS_EXTRA, (int)KE_XF4,
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F1, 'k', '1', // F1
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F2, 'k', '2',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F3, 'k', '3',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F4, 'k', '4',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F5, 'k', '5',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F6, 'k', '6',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F7, 'k', '7',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F8, 'k', '8',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F9, 'k', '9',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F10, 'k', ';', // F10
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F11, 'F', '1',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F12, 'F', '2',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F13, 'F', '3',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F14, 'F', '4',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F15, 'F', '5',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F16, 'F', '6',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F17, 'F', '7',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F18, 'F', '8',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F19, 'F', '9',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F20, 'F', 'A',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F21, 'F', 'B',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F22, 'F', 'C',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F23, 'F', 'D',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F24, 'F', 'E',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F25, 'F', 'F',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F26, 'F', 'G',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F27, 'F', 'H',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F28, 'F', 'I',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F29, 'F', 'J',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F30, 'F', 'K',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F31, 'F', 'L',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F32, 'F', 'M',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F33, 'F', 'N',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F34, 'F', 'O',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F35, 'F', 'P',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F36, 'F', 'Q',
MOD_MASK_SHIFT, KS_EXTRA, (int)KE_S_F37, 'F', 'R',
// TAB pseudo code
MOD_MASK_SHIFT, 'k', 'B', KS_EXTRA, (int)KE_TAB,
NUL
};
static struct key_name_entry
{
int key; // Special key code or ascii value
char_u *name; // Name of key
} key_names_table[] =
{
{' ', (char_u *)"Space"},
{TAB, (char_u *)"Tab"},
{K_TAB, (char_u *)"Tab"},
{NL, (char_u *)"NL"},
{NL, (char_u *)"NewLine"}, // Alternative name
{NL, (char_u *)"LineFeed"}, // Alternative name
{NL, (char_u *)"LF"}, // Alternative name
{CAR, (char_u *)"CR"},
{CAR, (char_u *)"Return"}, // Alternative name
{CAR, (char_u *)"Enter"}, // Alternative name
{K_BS, (char_u *)"BS"},
{K_BS, (char_u *)"BackSpace"}, // Alternative name
{ESC, (char_u *)"Esc"},
{CSI, (char_u *)"CSI"},
{K_CSI, (char_u *)"xCSI"},
{'|', (char_u *)"Bar"},
{'\\', (char_u *)"Bslash"},
{K_DEL, (char_u *)"Del"},
{K_DEL, (char_u *)"Delete"}, // Alternative name
{K_KDEL, (char_u *)"kDel"},
{K_UP, (char_u *)"Up"},
{K_DOWN, (char_u *)"Down"},
{K_LEFT, (char_u *)"Left"},
{K_RIGHT, (char_u *)"Right"},
{K_XUP, (char_u *)"xUp"},
{K_XDOWN, (char_u *)"xDown"},
{K_XLEFT, (char_u *)"xLeft"},
{K_XRIGHT, (char_u *)"xRight"},
{K_PS, (char_u *)"PasteStart"},
{K_PE, (char_u *)"PasteEnd"},
{K_F1, (char_u *)"F1"},
{K_F2, (char_u *)"F2"},
{K_F3, (char_u *)"F3"},
{K_F4, (char_u *)"F4"},
{K_F5, (char_u *)"F5"},
{K_F6, (char_u *)"F6"},
{K_F7, (char_u *)"F7"},
{K_F8, (char_u *)"F8"},
{K_F9, (char_u *)"F9"},
{K_F10, (char_u *)"F10"},
{K_F11, (char_u *)"F11"},
{K_F12, (char_u *)"F12"},
{K_F13, (char_u *)"F13"},
{K_F14, (char_u *)"F14"},
{K_F15, (char_u *)"F15"},
{K_F16, (char_u *)"F16"},
{K_F17, (char_u *)"F17"},
{K_F18, (char_u *)"F18"},
{K_F19, (char_u *)"F19"},
{K_F20, (char_u *)"F20"},
{K_F21, (char_u *)"F21"},
{K_F22, (char_u *)"F22"},
{K_F23, (char_u *)"F23"},
{K_F24, (char_u *)"F24"},
{K_F25, (char_u *)"F25"},
{K_F26, (char_u *)"F26"},
{K_F27, (char_u *)"F27"},
{K_F28, (char_u *)"F28"},
{K_F29, (char_u *)"F29"},
{K_F30, (char_u *)"F30"},
{K_F31, (char_u *)"F31"},
{K_F32, (char_u *)"F32"},
{K_F33, (char_u *)"F33"},
{K_F34, (char_u *)"F34"},
{K_F35, (char_u *)"F35"},
{K_F36, (char_u *)"F36"},
{K_F37, (char_u *)"F37"},
{K_XF1, (char_u *)"xF1"},
{K_XF2, (char_u *)"xF2"},
{K_XF3, (char_u *)"xF3"},
{K_XF4, (char_u *)"xF4"},
{K_HELP, (char_u *)"Help"},
{K_UNDO, (char_u *)"Undo"},
{K_INS, (char_u *)"Insert"},
{K_INS, (char_u *)"Ins"}, // Alternative name
{K_KINS, (char_u *)"kInsert"},
{K_HOME, (char_u *)"Home"},
{K_KHOME, (char_u *)"kHome"},
{K_XHOME, (char_u *)"xHome"},
{K_ZHOME, (char_u *)"zHome"},
{K_END, (char_u *)"End"},
{K_KEND, (char_u *)"kEnd"},
{K_XEND, (char_u *)"xEnd"},
{K_ZEND, (char_u *)"zEnd"},
{K_PAGEUP, (char_u *)"PageUp"},
{K_PAGEDOWN, (char_u *)"PageDown"},
{K_KPAGEUP, (char_u *)"kPageUp"},
{K_KPAGEDOWN, (char_u *)"kPageDown"},
{K_KPLUS, (char_u *)"kPlus"},
{K_KMINUS, (char_u *)"kMinus"},
{K_KDIVIDE, (char_u *)"kDivide"},
{K_KMULTIPLY, (char_u *)"kMultiply"},
{K_KENTER, (char_u *)"kEnter"},
{K_KPOINT, (char_u *)"kPoint"},
{K_K0, (char_u *)"k0"},
{K_K1, (char_u *)"k1"},
{K_K2, (char_u *)"k2"},
{K_K3, (char_u *)"k3"},
{K_K4, (char_u *)"k4"},
{K_K5, (char_u *)"k5"},
{K_K6, (char_u *)"k6"},
{K_K7, (char_u *)"k7"},
{K_K8, (char_u *)"k8"},
{K_K9, (char_u *)"k9"},
{'<', (char_u *)"lt"},
{K_MOUSE, (char_u *)"Mouse"},
#ifdef FEAT_MOUSE_NET
{K_NETTERM_MOUSE, (char_u *)"NetMouse"},
#endif
#ifdef FEAT_MOUSE_DEC
{K_DEC_MOUSE, (char_u *)"DecMouse"},
#endif
#ifdef FEAT_MOUSE_JSB
{K_JSBTERM_MOUSE, (char_u *)"JsbMouse"},
#endif
#ifdef FEAT_MOUSE_PTERM
{K_PTERM_MOUSE, (char_u *)"PtermMouse"},
#endif
#ifdef FEAT_MOUSE_URXVT
{K_URXVT_MOUSE, (char_u *)"UrxvtMouse"},
#endif
{K_SGR_MOUSE, (char_u *)"SgrMouse"},
{K_SGR_MOUSERELEASE, (char_u *)"SgrMouseRelelase"},
{K_LEFTMOUSE, (char_u *)"LeftMouse"},
{K_LEFTMOUSE_NM, (char_u *)"LeftMouseNM"},
{K_LEFTDRAG, (char_u *)"LeftDrag"},
{K_LEFTRELEASE, (char_u *)"LeftRelease"},
{K_LEFTRELEASE_NM, (char_u *)"LeftReleaseNM"},
{K_MOUSEMOVE, (char_u *)"MouseMove"},
{K_MIDDLEMOUSE, (char_u *)"MiddleMouse"},
{K_MIDDLEDRAG, (char_u *)"MiddleDrag"},
{K_MIDDLERELEASE, (char_u *)"MiddleRelease"},
{K_RIGHTMOUSE, (char_u *)"RightMouse"},
{K_RIGHTDRAG, (char_u *)"RightDrag"},
{K_RIGHTRELEASE, (char_u *)"RightRelease"},
{K_MOUSEDOWN, (char_u *)"ScrollWheelUp"},
{K_MOUSEUP, (char_u *)"ScrollWheelDown"},
{K_MOUSELEFT, (char_u *)"ScrollWheelRight"},
{K_MOUSERIGHT, (char_u *)"ScrollWheelLeft"},
{K_MOUSEDOWN, (char_u *)"MouseDown"}, // OBSOLETE: Use
{K_MOUSEUP, (char_u *)"MouseUp"}, // ScrollWheelXXX instead
{K_X1MOUSE, (char_u *)"X1Mouse"},
{K_X1DRAG, (char_u *)"X1Drag"},
{K_X1RELEASE, (char_u *)"X1Release"},
{K_X2MOUSE, (char_u *)"X2Mouse"},
{K_X2DRAG, (char_u *)"X2Drag"},
{K_X2RELEASE, (char_u *)"X2Release"},
{K_DROP, (char_u *)"Drop"},
{K_ZERO, (char_u *)"Nul"},
#ifdef FEAT_EVAL
{K_SNR, (char_u *)"SNR"},
#endif
{K_PLUG, (char_u *)"Plug"},
{K_CURSORHOLD, (char_u *)"CursorHold"},
{K_IGNORE, (char_u *)"Ignore"},
{0, NULL}
// NOTE: When adding a long name update MAX_KEY_NAME_LEN.
};
#define KEY_NAMES_TABLE_LEN (sizeof(key_names_table) / sizeof(struct key_name_entry))
/*
* Return the modifier mask bit (MOD_MASK_*) which corresponds to the given
* modifier name ('S' for Shift, 'C' for Ctrl etc).
*/
static int
name_to_mod_mask(int c)
{
int i;
c = TOUPPER_ASC(c);
for (i = 0; mod_mask_table[i].mod_mask != 0; i++)
if (c == mod_mask_table[i].name)
return mod_mask_table[i].mod_flag;
return 0;
}
/*
* Check if if there is a special key code for "key" that includes the
* modifiers specified.
*/
int
simplify_key(int key, int *modifiers)
{
int i;
int key0;
int key1;
if (*modifiers & (MOD_MASK_SHIFT | MOD_MASK_CTRL | MOD_MASK_ALT))
{
// TAB is a special case
if (key == TAB && (*modifiers & MOD_MASK_SHIFT))
{
*modifiers &= ~MOD_MASK_SHIFT;
return K_S_TAB;
}
key0 = KEY2TERMCAP0(key);
key1 = KEY2TERMCAP1(key);
for (i = 0; modifier_keys_table[i] != NUL; i += MOD_KEYS_ENTRY_SIZE)
if (key0 == modifier_keys_table[i + 3]
&& key1 == modifier_keys_table[i + 4]
&& (*modifiers & modifier_keys_table[i]))
{
*modifiers &= ~modifier_keys_table[i];
return TERMCAP2KEY(modifier_keys_table[i + 1],
modifier_keys_table[i + 2]);
}
}
return key;
}
/*
* Change <xHome> to <Home>, <xUp> to <Up>, etc.
*/
int
handle_x_keys(int key)
{
switch (key)
{
case K_XUP: return K_UP;
case K_XDOWN: return K_DOWN;
case K_XLEFT: return K_LEFT;
case K_XRIGHT: return K_RIGHT;
case K_XHOME: return K_HOME;
case K_ZHOME: return K_HOME;
case K_XEND: return K_END;
case K_ZEND: return K_END;
case K_XF1: return K_F1;
case K_XF2: return K_F2;
case K_XF3: return K_F3;
case K_XF4: return K_F4;
case K_S_XF1: return K_S_F1;
case K_S_XF2: return K_S_F2;
case K_S_XF3: return K_S_F3;
case K_S_XF4: return K_S_F4;
}
return key;
}
/*
* Return a string which contains the name of the given key when the given
* modifiers are down.
*/
char_u *
get_special_key_name(int c, int modifiers)
{
static char_u string[MAX_KEY_NAME_LEN + 1];
int i, idx;
int table_idx;
char_u *s;
string[0] = '<';
idx = 1;
// Key that stands for a normal character.
if (IS_SPECIAL(c) && KEY2TERMCAP0(c) == KS_KEY)
c = KEY2TERMCAP1(c);
/*
* Translate shifted special keys into unshifted keys and set modifier.
* Same for CTRL and ALT modifiers.
*/
if (IS_SPECIAL(c))
{
for (i = 0; modifier_keys_table[i] != 0; i += MOD_KEYS_ENTRY_SIZE)
if ( KEY2TERMCAP0(c) == (int)modifier_keys_table[i + 1]
&& (int)KEY2TERMCAP1(c) == (int)modifier_keys_table[i + 2])
{
modifiers |= modifier_keys_table[i];
c = TERMCAP2KEY(modifier_keys_table[i + 3],
modifier_keys_table[i + 4]);
break;
}
}
// try to find the key in the special key table
table_idx = find_special_key_in_table(c);
/*
* When not a known special key, and not a printable character, try to
* extract modifiers.
*/
if (c > 0 && (*mb_char2len)(c) == 1)
{
if (table_idx < 0
&& (!vim_isprintc(c) || (c & 0x7f) == ' ')
&& (c & 0x80))
{
c &= 0x7f;
modifiers |= MOD_MASK_ALT;
// try again, to find the un-alted key in the special key table
table_idx = find_special_key_in_table(c);
}
if (table_idx < 0 && !vim_isprintc(c) && c < ' ')
{
#ifdef EBCDIC
c = CtrlChar(c);
#else
c += '@';
#endif
modifiers |= MOD_MASK_CTRL;
}
}
// translate the modifier into a string
for (i = 0; mod_mask_table[i].name != 'A'; i++)
if ((modifiers & mod_mask_table[i].mod_mask)
== mod_mask_table[i].mod_flag)
{
string[idx++] = mod_mask_table[i].name;
string[idx++] = (char_u)'-';
}
if (table_idx < 0) // unknown special key, may output t_xx
{
if (IS_SPECIAL(c))
{
string[idx++] = 't';
string[idx++] = '_';
string[idx++] = KEY2TERMCAP0(c);
string[idx++] = KEY2TERMCAP1(c);
}
// Not a special key, only modifiers, output directly
else
{
if (has_mbyte && (*mb_char2len)(c) > 1)
idx += (*mb_char2bytes)(c, string + idx);
else if (vim_isprintc(c))
string[idx++] = c;
else
{
s = transchar(c);
while (*s)
string[idx++] = *s++;
}
}
}
else // use name of special key
{
size_t len = STRLEN(key_names_table[table_idx].name);
if (len + idx + 2 <= MAX_KEY_NAME_LEN)
{
STRCPY(string + idx, key_names_table[table_idx].name);
idx += (int)len;
}
}
string[idx++] = '>';
string[idx] = NUL;
return string;
}
/*
* Try translating a <> name at (*srcp)[] to dst[].
* Return the number of characters added to dst[], zero for no match.
* If there is a match, srcp is advanced to after the <> name.
* dst[] must be big enough to hold the result (up to six characters)!
*/
int
trans_special(
char_u **srcp,
char_u *dst,
int flags, // FSK_ values
int *did_simplify) // FSK_SIMPLIFY and found <C-H> or <A-x>
{
int modifiers = 0;
int key;
key = find_special_key(srcp, &modifiers, flags, did_simplify);
if (key == 0)
return 0;
return special_to_buf(key, modifiers, flags & FSK_KEYCODE, dst);
}
/*
* Put the character sequence for "key" with "modifiers" into "dst" and return
* the resulting length.
* When "keycode" is TRUE prefer key code, e.g. K_DEL instead of DEL.
* The sequence is not NUL terminated.
* This is how characters in a string are encoded.
*/
int
special_to_buf(int key, int modifiers, int keycode, char_u *dst)
{
int dlen = 0;
// Put the appropriate modifier in a string
if (modifiers != 0)
{
dst[dlen++] = K_SPECIAL;
dst[dlen++] = KS_MODIFIER;
dst[dlen++] = modifiers;
}
if (IS_SPECIAL(key))
{
dst[dlen++] = K_SPECIAL;
dst[dlen++] = KEY2TERMCAP0(key);
dst[dlen++] = KEY2TERMCAP1(key);
}
else if (has_mbyte && !keycode)
dlen += (*mb_char2bytes)(key, dst + dlen);
else if (keycode)
dlen = (int)(add_char2buf(key, dst + dlen) - dst);
else
dst[dlen++] = key;
return dlen;
}
/*
* Try translating a <> name at (*srcp)[], return the key and modifiers.
* srcp is advanced to after the <> name.
* returns 0 if there is no match.
*/
int
find_special_key(
char_u **srcp,
int *modp,
int flags, // FSK_ values
int *did_simplify) // found <C-H> or <A-x>
{
char_u *last_dash;
char_u *end_of_name;
char_u *src;
char_u *bp;
int in_string = flags & FSK_IN_STRING;
int modifiers;
int bit;
int key;
uvarnumber_T n;
int l;
src = *srcp;
if (src[0] != '<')
return 0;
if (src[1] == '*') // <*xxx>: do not simplify
++src;
// Find end of modifier list
last_dash = src;
for (bp = src + 1; *bp == '-' || vim_isIDc(*bp); bp++)
{
if (*bp == '-')
{
last_dash = bp;
if (bp[1] != NUL)
{
if (has_mbyte)
l = mb_ptr2len(bp + 1);
else
l = 1;
// Anything accepted, like <C-?>.
// <C-"> or <M-"> are not special in strings as " is
// the string delimiter. With a backslash it works: <M-\">
if (!(in_string && bp[1] == '"') && bp[l + 1] == '>')
bp += l;
else if (in_string && bp[1] == '\\' && bp[2] == '"'
&& bp[3] == '>')
bp += 2;
}
}
if (bp[0] == 't' && bp[1] == '_' && bp[2] && bp[3])
bp += 3; // skip t_xx, xx may be '-' or '>'
else if (STRNICMP(bp, "char-", 5) == 0)
{
vim_str2nr(bp + 5, NULL, &l, STR2NR_ALL, NULL, NULL, 0, TRUE);
if (l == 0)
{
emsg(_(e_invarg));
return 0;
}
bp += l + 5;
break;
}
}
if (*bp == '>') // found matching '>'
{
end_of_name = bp + 1;
// Which modifiers are given?
modifiers = 0x0;
for (bp = src + 1; bp < last_dash; bp++)
{
if (*bp != '-')
{
bit = name_to_mod_mask(*bp);
if (bit == 0x0)
break; // Illegal modifier name
modifiers |= bit;
}
}
/*
* Legal modifier name.
*/
if (bp >= last_dash)
{
if (STRNICMP(last_dash + 1, "char-", 5) == 0
&& VIM_ISDIGIT(last_dash[6]))
{
// <Char-123> or <Char-033> or <Char-0x33>
vim_str2nr(last_dash + 6, NULL, &l, STR2NR_ALL, NULL,
&n, 0, TRUE);
if (l == 0)
{
emsg(_(e_invarg));
return 0;
}
key = (int)n;
}
else
{
int off = 1;
// Modifier with single letter, or special key name.
if (in_string && last_dash[1] == '\\' && last_dash[2] == '"')
off = 2;
if (has_mbyte)
l = mb_ptr2len(last_dash + off);
else
l = 1;
if (modifiers != 0 && last_dash[l + off] == '>')
key = PTR2CHAR(last_dash + off);
else
{
key = get_special_key_code(last_dash + off);
if (!(flags & FSK_KEEP_X_KEY))
key = handle_x_keys(key);
}
}
/*
* get_special_key_code() may return NUL for invalid
* special key name.
*/
if (key != NUL)
{
/*
* Only use a modifier when there is no special key code that
* includes the modifier.
*/
key = simplify_key(key, &modifiers);
if (!(flags & FSK_KEYCODE))
{
// don't want keycode, use single byte code
if (key == K_BS)
key = BS;
else if (key == K_DEL || key == K_KDEL)
key = DEL;
}
// Normal Key with modifier: Try to make a single byte code.
if (!IS_SPECIAL(key))
key = extract_modifiers(key, &modifiers,
flags & FSK_SIMPLIFY, did_simplify);
*modp = modifiers;
*srcp = end_of_name;
return key;
}
}
}
return 0;
}
/*
* Some keys already have Shift included, pass them as normal keys.
* Not when Ctrl is also used, because <C-H> and <C-S-H> are different.
* Also for <A-S-a> and <M-S-a>.
*/
int
may_remove_shift_modifier(int modifiers, int key)
{
if ((modifiers == MOD_MASK_SHIFT
|| modifiers == (MOD_MASK_SHIFT | MOD_MASK_ALT)
|| modifiers == (MOD_MASK_SHIFT | MOD_MASK_META))
&& ((key >= '@' && key <= 'Z')
|| key == '^' || key == '_'
|| (key >= '{' && key <= '~')))
return modifiers & ~MOD_MASK_SHIFT;
return modifiers;
}
/*
* Try to include modifiers in the key.
* Changes "Shift-a" to 'A', "Alt-A" to 0xc0, etc.
* When "simplify" is FALSE don't do Ctrl and Alt.
* When "simplify" is TRUE and Ctrl or Alt is removed from modifiers set
* "did_simplify" when it's not NULL.
*/
int
extract_modifiers(int key, int *modp, int simplify, int *did_simplify)
{
int modifiers = *modp;
#ifdef MACOS_X
// Command-key really special, no fancynest
if (!(modifiers & MOD_MASK_CMD))
#endif
if ((modifiers & MOD_MASK_SHIFT) && ASCII_ISALPHA(key))
{
key = TOUPPER_ASC(key);
// With <C-S-a> we keep the shift modifier.
// With <S-a>, <A-S-a> and <S-A> we don't keep the shift modifier.
if (simplify || modifiers == MOD_MASK_SHIFT
|| modifiers == (MOD_MASK_SHIFT | MOD_MASK_ALT)
|| modifiers == (MOD_MASK_SHIFT | MOD_MASK_META))
modifiers &= ~MOD_MASK_SHIFT;
}
// <C-H> and <C-h> mean the same thing, always use "H"
if ((modifiers & MOD_MASK_CTRL) && ASCII_ISALPHA(key))
key = TOUPPER_ASC(key);
if (simplify && (modifiers & MOD_MASK_CTRL)
#ifdef EBCDIC
// TODO: EBCDIC Better use:
// && (Ctrl_chr(key) || key == '?')
// ???
&& strchr("?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_", key)
!= NULL
#else
&& ((key >= '?' && key <= '_') || ASCII_ISALPHA(key))
#endif
)
{
key = Ctrl_chr(key);
modifiers &= ~MOD_MASK_CTRL;
// <C-@> is <Nul>
if (key == 0)
key = K_ZERO;
if (did_simplify != NULL)
*did_simplify = TRUE;
}
#ifdef MACOS_X
// Command-key really special, no fancynest
if (!(modifiers & MOD_MASK_CMD))
#endif
if (simplify && (modifiers & MOD_MASK_ALT) && key < 0x80
&& !enc_dbcs) // avoid creating a lead byte
{
key |= 0x80;
modifiers &= ~MOD_MASK_ALT; // remove the META modifier
if (did_simplify != NULL)
*did_simplify = TRUE;
}
*modp = modifiers;
return key;
}
/*
* Try to find key "c" in the special key table.
* Return the index when found, -1 when not found.
*/
int
find_special_key_in_table(int c)
{
int i;
for (i = 0; key_names_table[i].name != NULL; i++)
if (c == key_names_table[i].key)
break;
if (key_names_table[i].name == NULL)
i = -1;
return i;
}
/*
* Find the special key with the given name (the given string does not have to
* end with NUL, the name is assumed to end before the first non-idchar).
* If the name starts with "t_" the next two characters are interpreted as a
* termcap name.
* Return the key code, or 0 if not found.
*/
int
get_special_key_code(char_u *name)
{
char_u *table_name;
char_u string[3];
int i, j;
/*
* If it's <t_xx> we get the code for xx from the termcap
*/
if (name[0] == 't' && name[1] == '_' && name[2] != NUL && name[3] != NUL)
{
string[0] = name[2];
string[1] = name[3];
string[2] = NUL;
if (add_termcap_entry(string, FALSE) == OK)
return TERMCAP2KEY(name[2], name[3]);
}
else
for (i = 0; key_names_table[i].name != NULL; i++)
{
table_name = key_names_table[i].name;
for (j = 0; vim_isIDc(name[j]) && table_name[j] != NUL; j++)
if (TOLOWER_ASC(table_name[j]) != TOLOWER_ASC(name[j]))
break;
if (!vim_isIDc(name[j]) && table_name[j] == NUL)
return key_names_table[i].key;
}
return 0;
}
char_u *
get_key_name(int i)
{
if (i >= (int)KEY_NAMES_TABLE_LEN)
return NULL;
return key_names_table[i].name;
}
/*
* Return the current end-of-line type: EOL_DOS, EOL_UNIX or EOL_MAC.
*/
int
get_fileformat(buf_T *buf)
{
int c = *buf->b_p_ff;
if (buf->b_p_bin || c == 'u')
return EOL_UNIX;
if (c == 'm')
return EOL_MAC;
return EOL_DOS;
}
/*
* Like get_fileformat(), but override 'fileformat' with "p" for "++opt=val"
* argument.
*/
int
get_fileformat_force(
buf_T *buf,
exarg_T *eap) // can be NULL!
{
int c;
if (eap != NULL && eap->force_ff != 0)
c = eap->force_ff;
else
{
if ((eap != NULL && eap->force_bin != 0)
? (eap->force_bin == FORCE_BIN) : buf->b_p_bin)
return EOL_UNIX;
c = *buf->b_p_ff;
}
if (c == 'u')
return EOL_UNIX;
if (c == 'm')
return EOL_MAC;
return EOL_DOS;
}
/*
* Set the current end-of-line type to EOL_DOS, EOL_UNIX or EOL_MAC.
* Sets both 'textmode' and 'fileformat'.
* Note: Does _not_ set global value of 'textmode'!
*/
void
set_fileformat(
int t,
int opt_flags) // OPT_LOCAL and/or OPT_GLOBAL
{
char *p = NULL;
switch (t)
{
case EOL_DOS:
p = FF_DOS;
curbuf->b_p_tx = TRUE;
break;
case EOL_UNIX:
p = FF_UNIX;
curbuf->b_p_tx = FALSE;
break;
case EOL_MAC:
p = FF_MAC;
curbuf->b_p_tx = FALSE;
break;
}
if (p != NULL)
set_string_option_direct((char_u *)"ff", -1, (char_u *)p,
OPT_FREE | opt_flags, 0);
// This may cause the buffer to become (un)modified.
check_status(curbuf);
redraw_tabline = TRUE;
#ifdef FEAT_TITLE
need_maketitle = TRUE; // set window title later
#endif
}
/*
* Return the default fileformat from 'fileformats'.
*/
int
default_fileformat(void)
{
switch (*p_ffs)
{
case 'm': return EOL_MAC;
case 'd': return EOL_DOS;
}
return EOL_UNIX;
}
/*
* Call shell. Calls mch_call_shell, with 'shellxquote' added.
*/
int
call_shell(char_u *cmd, int opt)
{
char_u *ncmd;
int retval;
#ifdef FEAT_PROFILE
proftime_T wait_time;
#endif
if (p_verbose > 3)
{
verbose_enter();
smsg(_("Calling shell to execute: \"%s\""), cmd == NULL ? p_sh : cmd);
out_char('\n');
cursor_on();
verbose_leave();
}
#ifdef FEAT_PROFILE
if (do_profiling == PROF_YES)
prof_child_enter(&wait_time);
#endif
if (*p_sh == NUL)
{
emsg(_(e_shellempty));
retval = -1;
}
else
{
#ifdef FEAT_GUI_MSWIN
// Don't hide the pointer while executing a shell command.
gui_mch_mousehide(FALSE);
#endif
#ifdef FEAT_GUI
++hold_gui_events;
#endif
// The external command may update a tags file, clear cached tags.
tag_freematch();
if (cmd == NULL || *p_sxq == NUL)
retval = mch_call_shell(cmd, opt);
else
{
char_u *ecmd = cmd;
if (*p_sxe != NUL && *p_sxq == '(')
{
ecmd = vim_strsave_escaped_ext(cmd, p_sxe, '^', FALSE);
if (ecmd == NULL)
ecmd = cmd;
}
ncmd = alloc(STRLEN(ecmd) + STRLEN(p_sxq) * 2 + 1);
if (ncmd != NULL)
{
STRCPY(ncmd, p_sxq);
STRCAT(ncmd, ecmd);
// When 'shellxquote' is ( append ).
// When 'shellxquote' is "( append )".
STRCAT(ncmd, *p_sxq == '(' ? (char_u *)")"
: *p_sxq == '"' && *(p_sxq+1) == '(' ? (char_u *)")\""
: p_sxq);
retval = mch_call_shell(ncmd, opt);
vim_free(ncmd);
}
else
retval = -1;
if (ecmd != cmd)
vim_free(ecmd);
}
#ifdef FEAT_GUI
--hold_gui_events;
#endif
/*
* Check the window size, in case it changed while executing the
* external command.
*/
shell_resized_check();
}
#ifdef FEAT_EVAL
set_vim_var_nr(VV_SHELL_ERROR, (long)retval);
# ifdef FEAT_PROFILE
if (do_profiling == PROF_YES)
prof_child_exit(&wait_time);
# endif
#endif
return retval;
}
/*
* VISUAL, SELECTMODE and OP_PENDING State are never set, they are equal to
* NORMAL State with a condition. This function returns the real State.
*/
int
get_real_state(void)
{
if (State & NORMAL)
{
if (VIsual_active)
{
if (VIsual_select)
return SELECTMODE;
return VISUAL;
}
else if (finish_op)
return OP_PENDING;
}
return State;
}
/*
* Return TRUE if "p" points to just after a path separator.
* Takes care of multi-byte characters.
* "b" must point to the start of the file name
*/
int
after_pathsep(char_u *b, char_u *p)
{
return p > b && vim_ispathsep(p[-1])
&& (!has_mbyte || (*mb_head_off)(b, p - 1) == 0);
}
/*
* Return TRUE if file names "f1" and "f2" are in the same directory.
* "f1" may be a short name, "f2" must be a full path.
*/
int
same_directory(char_u *f1, char_u *f2)
{
char_u ffname[MAXPATHL];
char_u *t1;
char_u *t2;
// safety check
if (f1 == NULL || f2 == NULL)
return FALSE;
(void)vim_FullName(f1, ffname, MAXPATHL, FALSE);
t1 = gettail_sep(ffname);
t2 = gettail_sep(f2);
return (t1 - ffname == t2 - f2
&& pathcmp((char *)ffname, (char *)f2, (int)(t1 - ffname)) == 0);
}
#if defined(FEAT_SESSION) || defined(FEAT_AUTOCHDIR) \
|| defined(MSWIN) || defined(FEAT_GUI_MAC) || defined(FEAT_GUI_GTK) \
|| defined(FEAT_NETBEANS_INTG) \
|| defined(PROTO)
/*
* Change to a file's directory.
* Caller must call shorten_fnames()!
* Return OK or FAIL.
*/
int
vim_chdirfile(char_u *fname, char *trigger_autocmd)
{
char_u old_dir[MAXPATHL];
char_u new_dir[MAXPATHL];
int res;
if (mch_dirname(old_dir, MAXPATHL) != OK)
*old_dir = NUL;
vim_strncpy(new_dir, fname, MAXPATHL - 1);
*gettail_sep(new_dir) = NUL;
if (pathcmp((char *)old_dir, (char *)new_dir, -1) == 0)
// nothing to do
res = OK;
else
{
res = mch_chdir((char *)new_dir) == 0 ? OK : FAIL;
if (res == OK && trigger_autocmd != NULL)
apply_autocmds(EVENT_DIRCHANGED, (char_u *)trigger_autocmd,
new_dir, FALSE, curbuf);
}
return res;
}
#endif
#if defined(STAT_IGNORES_SLASH) || defined(PROTO)
/*
* Check if "name" ends in a slash and is not a directory.
* Used for systems where stat() ignores a trailing slash on a file name.
* The Vim code assumes a trailing slash is only ignored for a directory.
*/
static int
illegal_slash(const char *name)
{
if (name[0] == NUL)
return FALSE; // no file name is not illegal
if (name[strlen(name) - 1] != '/')
return FALSE; // no trailing slash
if (mch_isdir((char_u *)name))
return FALSE; // trailing slash for a directory
return TRUE;
}
/*
* Special implementation of mch_stat() for Solaris.
*/
int
vim_stat(const char *name, stat_T *stp)
{
// On Solaris stat() accepts "file/" as if it was "file". Return -1 if
// the name ends in "/" and it's not a directory.
return illegal_slash(name) ? -1 : stat(name, stp);
}
#endif
#if defined(CURSOR_SHAPE) || defined(PROTO)
/*
* Handling of cursor and mouse pointer shapes in various modes.
*/
cursorentry_T shape_table[SHAPE_IDX_COUNT] =
{
// The values will be filled in from the 'guicursor' and 'mouseshape'
// defaults when Vim starts.
// Adjust the SHAPE_IDX_ defines when making changes!
{0, 0, 0, 700L, 400L, 250L, 0, 0, "n", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "v", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "i", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "r", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "c", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "ci", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "cr", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "o", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 700L, 400L, 250L, 0, 0, "ve", SHAPE_CURSOR+SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "e", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "s", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "sd", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "vs", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "vd", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "m", SHAPE_MOUSE},
{0, 0, 0, 0L, 0L, 0L, 0, 0, "ml", SHAPE_MOUSE},
{0, 0, 0, 100L, 100L, 100L, 0, 0, "sm", SHAPE_CURSOR},
};
#ifdef FEAT_MOUSESHAPE
/*
* Table with names for mouse shapes. Keep in sync with all the tables for
* mch_set_mouse_shape()!.
*/
static char * mshape_names[] =
{
"arrow", // default, must be the first one
"blank", // hidden
"beam",
"updown",
"udsizing",
"leftright",
"lrsizing",
"busy",
"no",
"crosshair",
"hand1",
"hand2",
"pencil",
"question",
"rightup-arrow",
"up-arrow",
NULL
};
#endif
/*
* Parse the 'guicursor' option ("what" is SHAPE_CURSOR) or 'mouseshape'
* ("what" is SHAPE_MOUSE).
* Returns error message for an illegal option, NULL otherwise.
*/
char *
parse_shape_opt(int what)
{
char_u *modep;
char_u *colonp;
char_u *commap;
char_u *slashp;
char_u *p, *endp;
int idx = 0; // init for GCC
int all_idx;
int len;
int i;
long n;
int found_ve = FALSE; // found "ve" flag
int round;
/*
* First round: check for errors; second round: do it for real.
*/
for (round = 1; round <= 2; ++round)
{
/*
* Repeat for all comma separated parts.
*/
#ifdef FEAT_MOUSESHAPE
if (what == SHAPE_MOUSE)
modep = p_mouseshape;
else
#endif
modep = p_guicursor;
while (*modep != NUL)
{
colonp = vim_strchr(modep, ':');
commap = vim_strchr(modep, ',');
if (colonp == NULL || (commap != NULL && commap < colonp))
return N_("E545: Missing colon");
if (colonp == modep)
return N_("E546: Illegal mode");
/*
* Repeat for all mode's before the colon.
* For the 'a' mode, we loop to handle all the modes.
*/
all_idx = -1;
while (modep < colonp || all_idx >= 0)
{
if (all_idx < 0)
{
// Find the mode.
if (modep[1] == '-' || modep[1] == ':')
len = 1;
else
len = 2;
if (len == 1 && TOLOWER_ASC(modep[0]) == 'a')
all_idx = SHAPE_IDX_COUNT - 1;
else
{
for (idx = 0; idx < SHAPE_IDX_COUNT; ++idx)
if (STRNICMP(modep, shape_table[idx].name, len)
== 0)
break;
if (idx == SHAPE_IDX_COUNT
|| (shape_table[idx].used_for & what) == 0)
return N_("E546: Illegal mode");
if (len == 2 && modep[0] == 'v' && modep[1] == 'e')
found_ve = TRUE;
}
modep += len + 1;
}
if (all_idx >= 0)
idx = all_idx--;
else if (round == 2)
{
#ifdef FEAT_MOUSESHAPE
if (what == SHAPE_MOUSE)
{
// Set the default, for the missing parts
shape_table[idx].mshape = 0;
}
else
#endif
{
// Set the defaults, for the missing parts
shape_table[idx].shape = SHAPE_BLOCK;
shape_table[idx].blinkwait = 700L;
shape_table[idx].blinkon = 400L;
shape_table[idx].blinkoff = 250L;
}
}
// Parse the part after the colon
for (p = colonp + 1; *p && *p != ','; )
{
#ifdef FEAT_MOUSESHAPE
if (what == SHAPE_MOUSE)
{
for (i = 0; ; ++i)
{
if (mshape_names[i] == NULL)
{
if (!VIM_ISDIGIT(*p))
return N_("E547: Illegal mouseshape");
if (round == 2)
shape_table[idx].mshape =
getdigits(&p) + MSHAPE_NUMBERED;
else
(void)getdigits(&p);
break;
}
len = (int)STRLEN(mshape_names[i]);
if (STRNICMP(p, mshape_names[i], len) == 0)
{
if (round == 2)
shape_table[idx].mshape = i;
p += len;
break;
}
}
}
else // if (what == SHAPE_MOUSE)
#endif
{
/*
* First handle the ones with a number argument.
*/
i = *p;
len = 0;
if (STRNICMP(p, "ver", 3) == 0)
len = 3;
else if (STRNICMP(p, "hor", 3) == 0)
len = 3;
else if (STRNICMP(p, "blinkwait", 9) == 0)
len = 9;
else if (STRNICMP(p, "blinkon", 7) == 0)
len = 7;
else if (STRNICMP(p, "blinkoff", 8) == 0)
len = 8;
if (len != 0)
{
p += len;
if (!VIM_ISDIGIT(*p))
return N_("E548: digit expected");
n = getdigits(&p);
if (len == 3) // "ver" or "hor"
{
if (n == 0)
return N_("E549: Illegal percentage");
if (round == 2)
{
if (TOLOWER_ASC(i) == 'v')
shape_table[idx].shape = SHAPE_VER;
else
shape_table[idx].shape = SHAPE_HOR;
shape_table[idx].percentage = n;
}
}
else if (round == 2)
{
if (len == 9)
shape_table[idx].blinkwait = n;
else if (len == 7)
shape_table[idx].blinkon = n;
else
shape_table[idx].blinkoff = n;
}
}
else if (STRNICMP(p, "block", 5) == 0)
{
if (round == 2)
shape_table[idx].shape = SHAPE_BLOCK;
p += 5;
}
else // must be a highlight group name then
{
endp = vim_strchr(p, '-');
if (commap == NULL) // last part
{
if (endp == NULL)
endp = p + STRLEN(p); // find end of part
}
else if (endp > commap || endp == NULL)
endp = commap;
slashp = vim_strchr(p, '/');
if (slashp != NULL && slashp < endp)
{
// "group/langmap_group"
i = syn_check_group(p, (int)(slashp - p));
p = slashp + 1;
}
if (round == 2)
{
shape_table[idx].id = syn_check_group(p,
(int)(endp - p));
shape_table[idx].id_lm = shape_table[idx].id;
if (slashp != NULL && slashp < endp)
shape_table[idx].id = i;
}
p = endp;
}
} // if (what != SHAPE_MOUSE)
if (*p == '-')
++p;
}
}
modep = p;
if (*modep == ',')
++modep;
}
}
// If the 's' flag is not given, use the 'v' cursor for 's'
if (!found_ve)
{
#ifdef FEAT_MOUSESHAPE
if (what == SHAPE_MOUSE)
{
shape_table[SHAPE_IDX_VE].mshape = shape_table[SHAPE_IDX_V].mshape;
}
else
#endif
{
shape_table[SHAPE_IDX_VE].shape = shape_table[SHAPE_IDX_V].shape;
shape_table[SHAPE_IDX_VE].percentage =
shape_table[SHAPE_IDX_V].percentage;
shape_table[SHAPE_IDX_VE].blinkwait =
shape_table[SHAPE_IDX_V].blinkwait;
shape_table[SHAPE_IDX_VE].blinkon =
shape_table[SHAPE_IDX_V].blinkon;
shape_table[SHAPE_IDX_VE].blinkoff =
shape_table[SHAPE_IDX_V].blinkoff;
shape_table[SHAPE_IDX_VE].id = shape_table[SHAPE_IDX_V].id;
shape_table[SHAPE_IDX_VE].id_lm = shape_table[SHAPE_IDX_V].id_lm;
}
}
return NULL;
}
# if defined(MCH_CURSOR_SHAPE) || defined(FEAT_GUI) \
|| defined(FEAT_MOUSESHAPE) || defined(PROTO)
/*
* Return the index into shape_table[] for the current mode.
* When "mouse" is TRUE, consider indexes valid for the mouse pointer.
*/
int
get_shape_idx(int mouse)
{
#ifdef FEAT_MOUSESHAPE
if (mouse && (State == HITRETURN || State == ASKMORE))
{
# ifdef FEAT_GUI
int x, y;
gui_mch_getmouse(&x, &y);
if (Y_2_ROW(y) == Rows - 1)
return SHAPE_IDX_MOREL;
# endif
return SHAPE_IDX_MORE;
}
if (mouse && drag_status_line)
return SHAPE_IDX_SDRAG;
if (mouse && drag_sep_line)
return SHAPE_IDX_VDRAG;
#endif
if (!mouse && State == SHOWMATCH)
return SHAPE_IDX_SM;
if (State & VREPLACE_FLAG)
return SHAPE_IDX_R;
if (State & REPLACE_FLAG)
return SHAPE_IDX_R;
if (State & INSERT)
return SHAPE_IDX_I;
if (State & CMDLINE)
{
if (cmdline_at_end())
return SHAPE_IDX_C;
if (cmdline_overstrike())
return SHAPE_IDX_CR;
return SHAPE_IDX_CI;
}
if (finish_op)
return SHAPE_IDX_O;
if (VIsual_active)
{
if (*p_sel == 'e')
return SHAPE_IDX_VE;
else
return SHAPE_IDX_V;
}
return SHAPE_IDX_N;
}
#endif
# if defined(FEAT_MOUSESHAPE) || defined(PROTO)
static int old_mouse_shape = 0;
/*
* Set the mouse shape:
* If "shape" is -1, use shape depending on the current mode,
* depending on the current state.
* If "shape" is -2, only update the shape when it's CLINE or STATUS (used
* when the mouse moves off the status or command line).
*/
void
update_mouseshape(int shape_idx)
{
int new_mouse_shape;
// Only works in GUI mode.
if (!gui.in_use || gui.starting)
return;
// Postpone the updating when more is to come. Speeds up executing of
// mappings.
if (shape_idx == -1 && char_avail())
{
postponed_mouseshape = TRUE;
return;
}
// When ignoring the mouse don't change shape on the statusline.
if (*p_mouse == NUL
&& (shape_idx == SHAPE_IDX_CLINE
|| shape_idx == SHAPE_IDX_STATUS
|| shape_idx == SHAPE_IDX_VSEP))
shape_idx = -2;
if (shape_idx == -2
&& old_mouse_shape != shape_table[SHAPE_IDX_CLINE].mshape
&& old_mouse_shape != shape_table[SHAPE_IDX_STATUS].mshape
&& old_mouse_shape != shape_table[SHAPE_IDX_VSEP].mshape)
return;
if (shape_idx < 0)
new_mouse_shape = shape_table[get_shape_idx(TRUE)].mshape;
else
new_mouse_shape = shape_table[shape_idx].mshape;
if (new_mouse_shape != old_mouse_shape)
{
mch_set_mouse_shape(new_mouse_shape);
old_mouse_shape = new_mouse_shape;
}
postponed_mouseshape = FALSE;
}
# endif
#endif // CURSOR_SHAPE
/*
* Change directory to "new_dir". If FEAT_SEARCHPATH is defined, search
* 'cdpath' for relative directory names, otherwise just mch_chdir().
*/
int
vim_chdir(char_u *new_dir)
{
#ifndef FEAT_SEARCHPATH
return mch_chdir((char *)new_dir);
#else
char_u *dir_name;
int r;
dir_name = find_directory_in_path(new_dir, (int)STRLEN(new_dir),
FNAME_MESS, curbuf->b_ffname);
if (dir_name == NULL)
return -1;
r = mch_chdir((char *)dir_name);
vim_free(dir_name);
return r;
#endif
}
/*
* Get user name from machine-specific function.
* Returns the user name in "buf[len]".
* Some systems are quite slow in obtaining the user name (Windows NT), thus
* cache the result.
* Returns OK or FAIL.
*/
int
get_user_name(char_u *buf, int len)
{
if (username == NULL)
{
if (mch_get_user_name(buf, len) == FAIL)
return FAIL;
username = vim_strsave(buf);
}
else
vim_strncpy(buf, username, len - 1);
return OK;
}
#ifndef HAVE_QSORT
/*
* Our own qsort(), for systems that don't have it.
* It's simple and slow. From the K&R C book.
*/
void
qsort(
void *base,
size_t elm_count,
size_t elm_size,
int (*cmp)(const void *, const void *))
{
char_u *buf;
char_u *p1;
char_u *p2;
int i, j;
int gap;
buf = alloc(elm_size);
if (buf == NULL)
return;
for (gap = elm_count / 2; gap > 0; gap /= 2)
for (i = gap; i < elm_count; ++i)
for (j = i - gap; j >= 0; j -= gap)
{
// Compare the elements.
p1 = (char_u *)base + j * elm_size;
p2 = (char_u *)base + (j + gap) * elm_size;
if ((*cmp)((void *)p1, (void *)p2) <= 0)
break;
// Exchange the elements.
mch_memmove(buf, p1, elm_size);
mch_memmove(p1, p2, elm_size);
mch_memmove(p2, buf, elm_size);
}
vim_free(buf);
}
#endif
/*
* Sort an array of strings.
*/
static int sort_compare(const void *s1, const void *s2);
static int
sort_compare(const void *s1, const void *s2)
{
return STRCMP(*(char **)s1, *(char **)s2);
}
void
sort_strings(
char_u **files,
int count)
{
qsort((void *)files, (size_t)count, sizeof(char_u *), sort_compare);
}
/*
* The putenv() implementation below comes from the "screen" program.
* Included with permission from Juergen Weigert.
* See pty.c for the copyright notice.
*/
/*
* putenv -- put value into environment
*
* Usage: i = putenv (string)
* int i;
* char *string;
*
* where string is of the form <name>=<value>.
* Putenv returns 0 normally, -1 on error (not enough core for malloc).
*
* Putenv may need to add a new name into the environment, or to
* associate a value longer than the current value with a particular
* name. So, to make life simpler, putenv() copies your entire
* environment into the heap (i.e. malloc()) from the stack
* (i.e. where it resides when your process is initiated) the first
* time you call it.
*
* (history removed, not very interesting. See the "screen" sources.)
*/
#if !defined(HAVE_SETENV) && !defined(HAVE_PUTENV)
#define EXTRASIZE 5 // increment to add to env. size
static int envsize = -1; // current size of environment
extern char **environ; // the global which is your env.
static int findenv(char *name); // look for a name in the env.
static int newenv(void); // copy env. from stack to heap
static int moreenv(void); // incr. size of env.
int
putenv(const char *string)
{
int i;
char *p;
if (envsize < 0)
{ // first time putenv called
if (newenv() < 0) // copy env. to heap
return -1;
}
i = findenv((char *)string); // look for name in environment
if (i < 0)
{ // name must be added
for (i = 0; environ[i]; i++);
if (i >= (envsize - 1))
{ // need new slot
if (moreenv() < 0)
return -1;
}
p = alloc(strlen(string) + 1);
if (p == NULL) // not enough core
return -1;
environ[i + 1] = 0; // new end of env.
}
else
{ // name already in env.
p = vim_realloc(environ[i], strlen(string) + 1);
if (p == NULL)
return -1;
}
sprintf(p, "%s", string); // copy into env.
environ[i] = p;
return 0;
}
static int
findenv(char *name)
{
char *namechar, *envchar;
int i, found;
found = 0;
for (i = 0; environ[i] && !found; i++)
{
envchar = environ[i];
namechar = name;
while (*namechar && *namechar != '=' && (*namechar == *envchar))
{
namechar++;
envchar++;
}
found = ((*namechar == '\0' || *namechar == '=') && *envchar == '=');
}
return found ? i - 1 : -1;
}
static int
newenv(void)
{
char **env, *elem;
int i, esize;
for (i = 0; environ[i]; i++)
;
esize = i + EXTRASIZE + 1;
env = ALLOC_MULT(char *, esize);
if (env == NULL)
return -1;
for (i = 0; environ[i]; i++)
{
elem = alloc(strlen(environ[i]) + 1);
if (elem == NULL)
return -1;
env[i] = elem;
strcpy(elem, environ[i]);
}
env[i] = 0;
environ = env;
envsize = esize;
return 0;
}
static int
moreenv(void)
{
int esize;
char **env;
esize = envsize + EXTRASIZE;
env = vim_realloc((char *)environ, esize * sizeof (*env));
if (env == 0)
return -1;
environ = env;
envsize = esize;
return 0;
}
# ifdef USE_VIMPTY_GETENV
/*
* Used for mch_getenv() for Mac.
*/
char_u *
vimpty_getenv(const char_u *string)
{
int i;
char_u *p;
if (envsize < 0)
return NULL;
i = findenv((char *)string);
if (i < 0)
return NULL;
p = vim_strchr((char_u *)environ[i], '=');
return (p + 1);
}
# endif
#endif // !defined(HAVE_SETENV) && !defined(HAVE_PUTENV)
#if defined(FEAT_EVAL) || defined(FEAT_SPELL) || defined(PROTO)
/*
* Return 0 for not writable, 1 for writable file, 2 for a dir which we have
* rights to write into.
*/
int
filewritable(char_u *fname)
{
int retval = 0;
#if defined(UNIX) || defined(VMS)
int perm = 0;
#endif
#if defined(UNIX) || defined(VMS)
perm = mch_getperm(fname);
#endif
if (
# ifdef MSWIN
mch_writable(fname) &&
# else
# if defined(UNIX) || defined(VMS)
(perm & 0222) &&
# endif
# endif
mch_access((char *)fname, W_OK) == 0
)
{
++retval;
if (mch_isdir(fname))
++retval;
}
return retval;
}
#endif
#if defined(FEAT_SPELL) || defined(FEAT_PERSISTENT_UNDO) || defined(PROTO)
/*
* Read 2 bytes from "fd" and turn them into an int, MSB first.
* Returns -1 when encountering EOF.
*/
int
get2c(FILE *fd)
{
int c, n;
n = getc(fd);
if (n == EOF) return -1;
c = getc(fd);
if (c == EOF) return -1;
return (n << 8) + c;
}
/*
* Read 3 bytes from "fd" and turn them into an int, MSB first.
* Returns -1 when encountering EOF.
*/
int
get3c(FILE *fd)
{
int c, n;
n = getc(fd);
if (n == EOF) return -1;
c = getc(fd);
if (c == EOF) return -1;
n = (n << 8) + c;
c = getc(fd);
if (c == EOF) return -1;
return (n << 8) + c;
}
/*
* Read 4 bytes from "fd" and turn them into an int, MSB first.
* Returns -1 when encountering EOF.
*/
int
get4c(FILE *fd)
{
int c;
// Use unsigned rather than int otherwise result is undefined
// when left-shift sets the MSB.
unsigned n;
c = getc(fd);
if (c == EOF) return -1;
n = (unsigned)c;
c = getc(fd);
if (c == EOF) return -1;
n = (n << 8) + (unsigned)c;
c = getc(fd);
if (c == EOF) return -1;
n = (n << 8) + (unsigned)c;
c = getc(fd);
if (c == EOF) return -1;
n = (n << 8) + (unsigned)c;
return (int)n;
}
/*
* Read a string of length "cnt" from "fd" into allocated memory.
* Returns NULL when out of memory or unable to read that many bytes.
*/
char_u *
read_string(FILE *fd, int cnt)
{
char_u *str;
int i;
int c;
// allocate memory
str = alloc(cnt + 1);
if (str != NULL)
{
// Read the string. Quit when running into the EOF.
for (i = 0; i < cnt; ++i)
{
c = getc(fd);
if (c == EOF)
{
vim_free(str);
return NULL;
}
str[i] = c;
}
str[i] = NUL;
}
return str;
}
/*
* Write a number to file "fd", MSB first, in "len" bytes.
*/
int
put_bytes(FILE *fd, long_u nr, int len)
{
int i;
for (i = len - 1; i >= 0; --i)
if (putc((int)(nr >> (i * 8)), fd) == EOF)
return FAIL;
return OK;
}
#endif
#if defined(FEAT_QUICKFIX) || defined(FEAT_SPELL) || defined(PROTO)
/*
* Return TRUE if string "s" contains a non-ASCII character (128 or higher).
* When "s" is NULL FALSE is returned.
*/
int
has_non_ascii(char_u *s)
{
char_u *p;
if (s != NULL)
for (p = s; *p != NUL; ++p)
if (*p >= 128)
return TRUE;
return FALSE;
}
#endif
#ifndef PROTO // proto is defined in vim.h
# ifdef ELAPSED_TIMEVAL
/*
* Return time in msec since "start_tv".
*/
long
elapsed(struct timeval *start_tv)
{
struct timeval now_tv;
gettimeofday(&now_tv, NULL);
return (now_tv.tv_sec - start_tv->tv_sec) * 1000L
+ (now_tv.tv_usec - start_tv->tv_usec) / 1000L;
}
# endif
# ifdef ELAPSED_TICKCOUNT
/*
* Return time in msec since "start_tick".
*/
long
elapsed(DWORD start_tick)
{
DWORD now = GetTickCount();
return (long)now - (long)start_tick;
}
# endif
#endif
#if defined(FEAT_JOB_CHANNEL) \
|| (defined(UNIX) && (!defined(USE_SYSTEM) \
|| (defined(FEAT_GUI) && defined(FEAT_TERMINAL)))) \
|| defined(PROTO)
/*
* Parse "cmd" and put the white-separated parts in "argv".
* "argv" is an allocated array with "argc" entries and room for 4 more.
* Returns FAIL when out of memory.
*/
int
mch_parse_cmd(char_u *cmd, int use_shcf, char ***argv, int *argc)
{
int i;
char_u *p, *d;
int inquote;
/*
* Do this loop twice:
* 1: find number of arguments
* 2: separate them and build argv[]
*/
for (i = 1; i <= 2; ++i)
{
p = skipwhite(cmd);
inquote = FALSE;
*argc = 0;
while (*p != NUL)
{
if (i == 2)
(*argv)[*argc] = (char *)p;
++*argc;
d = p;
while (*p != NUL && (inquote || (*p != ' ' && *p != TAB)))
{
if (p[0] == '"')
// quotes surrounding an argument and are dropped
inquote = !inquote;
else
{
if (rem_backslash(p))
{
// First pass: skip over "\ " and "\"".
// Second pass: Remove the backslash.
++p;
}
if (i == 2)
*d++ = *p;
}
++p;
}
if (*p == NUL)
{
if (i == 2)
*d++ = NUL;
break;
}
if (i == 2)
*d++ = NUL;
p = skipwhite(p + 1);
}
if (*argv == NULL)
{
if (use_shcf)
{
// Account for possible multiple args in p_shcf.
p = p_shcf;
for (;;)
{
p = skiptowhite(p);
if (*p == NUL)
break;
++*argc;
p = skipwhite(p);
}
}
*argv = ALLOC_MULT(char *, *argc + 4);
if (*argv == NULL) // out of memory
return FAIL;
}
}
return OK;
}
# if defined(FEAT_JOB_CHANNEL) || defined(PROTO)
/*
* Build "argv[argc]" from the string "cmd".
* "argv[argc]" is set to NULL;
* Return FAIL when out of memory.
*/
int
build_argv_from_string(char_u *cmd, char ***argv, int *argc)
{
char_u *cmd_copy;
int i;
// Make a copy, parsing will modify "cmd".
cmd_copy = vim_strsave(cmd);
if (cmd_copy == NULL
|| mch_parse_cmd(cmd_copy, FALSE, argv, argc) == FAIL)
{
vim_free(cmd_copy);
return FAIL;
}
for (i = 0; i < *argc; i++)
(*argv)[i] = (char *)vim_strsave((char_u *)(*argv)[i]);
(*argv)[*argc] = NULL;
vim_free(cmd_copy);
return OK;
}
/*
* Build "argv[argc]" from the list "l".
* "argv[argc]" is set to NULL;
* Return FAIL when out of memory.
*/
int
build_argv_from_list(list_T *l, char ***argv, int *argc)
{
listitem_T *li;
char_u *s;
// Pass argv[] to mch_call_shell().
*argv = ALLOC_MULT(char *, l->lv_len + 1);
if (*argv == NULL)
return FAIL;
*argc = 0;
FOR_ALL_LIST_ITEMS(l, li)
{
s = tv_get_string_chk(&li->li_tv);
if (s == NULL)
{
int i;
for (i = 0; i < *argc; ++i)
VIM_CLEAR((*argv)[i]);
return FAIL;
}
(*argv)[*argc] = (char *)vim_strsave(s);
*argc += 1;
}
(*argv)[*argc] = NULL;
return OK;
}
# endif
#endif
/*
* Change the behavior of vterm.
* 0: As usual.
* 1: Windows 10 version 1809
* The bug causes unstable handling of ambiguous width character.
* 2: Windows 10 version 1903 & 1909
* Use the wrong result because each result is different.
* 3: Windows 10 insider preview (current latest logic)
*/
int
get_special_pty_type(void)
{
#ifdef MSWIN
return get_conpty_type();
#else
return 0;
#endif
}
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