mirrors/neovim
1
0
Fork 0
mirror of https://github.com/neovim/neovim.git synced 2025-09-15 07:48:18 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
e02790cad4b1ede5b32a1d77cabe40dd088ba4c0
neovim/src/ops.c
John Schmidt f5154d7451 Extract path.c from misc1.c
2014-03-29 13:29:52 -03:00

5247 lines
153 KiB
C
Raw Blame History

/* vi:set ts=8 sts=4 sw=4:
*
* 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.
*/
/*
* ops.c: implementation of various operators: op_shift, op_delete, op_tilde,
* op_change, op_yank, do_put, do_join
*/
#include <string.h>
#include "vim.h"
#include "ops.h"
#include "buffer.h"
#include "charset.h"
#include "edit.h"
#include "eval.h"
#include "ex_cmds.h"
#include "ex_cmds2.h"
#include "ex_getln.h"
#include "fold.h"
#include "getchar.h"
#include "indent.h"
#include "mark.h"
#include "mbyte.h"
#include "memline.h"
#include "message.h"
#include "misc1.h"
#include "misc2.h"
#include "move.h"
#include "normal.h"
#include "option.h"
#include "path.h"
#include "screen.h"
#include "search.h"
#include "term.h"
#include "ui.h"
#include "undo.h"
#include "window.h"
/*
* Number of registers.
* 0 = unnamed register, for normal yanks and puts
* 1..9 = registers '1' to '9', for deletes
* 10..35 = registers 'a' to 'z'
* 36 = delete register '-'
* 37 = Selection register '*'. Only if FEAT_CLIPBOARD defined
* 38 = Clipboard register '+'. Only if FEAT_CLIPBOARD and FEAT_X11 defined
*/
/*
* Symbolic names for some registers.
*/
#define DELETION_REGISTER 36
# define NUM_REGISTERS 37
/*
* Each yank register is an array of pointers to lines.
*/
static struct yankreg {
char_u **y_array; /* pointer to array of line pointers */
linenr_T y_size; /* number of lines in y_array */
char_u y_type; /* MLINE, MCHAR or MBLOCK */
colnr_T y_width; /* only set if y_type == MBLOCK */
} y_regs[NUM_REGISTERS];
static struct yankreg *y_current; /* ptr to current yankreg */
static int y_append; /* TRUE when appending */
static struct yankreg *y_previous = NULL; /* ptr to last written yankreg */
/*
* structure used by block_prep, op_delete and op_yank for blockwise operators
* also op_change, op_shift, op_insert, op_replace - AKelly
*/
struct block_def {
int startspaces; /* 'extra' cols before first char */
int endspaces; /* 'extra' cols after last char */
int textlen; /* chars in block */
char_u *textstart; /* pointer to 1st char (partially) in block */
colnr_T textcol; /* index of chars (partially) in block */
colnr_T start_vcol; /* start col of 1st char wholly inside block */
colnr_T end_vcol; /* start col of 1st char wholly after block */
int is_short; /* TRUE if line is too short to fit in block */
int is_MAX; /* TRUE if curswant==MAXCOL when starting */
int is_oneChar; /* TRUE if block within one character */
int pre_whitesp; /* screen cols of ws before block */
int pre_whitesp_c; /* chars of ws before block */
colnr_T end_char_vcols; /* number of vcols of post-block char */
colnr_T start_char_vcols; /* number of vcols of pre-block char */
};
static void shift_block(oparg_T *oap, int amount);
static void block_insert(oparg_T *oap, char_u *s, int b_insert,
struct block_def*bdp);
static int stuff_yank(int, char_u *);
static void put_reedit_in_typebuf(int silent);
static int put_in_typebuf(char_u *s, int esc, int colon,
int silent);
static void stuffescaped(char_u *arg, int literally);
static void mb_adjust_opend(oparg_T *oap);
static void free_yank(long);
static void free_yank_all(void);
static int yank_copy_line(struct block_def *bd, long y_idx);
static void dis_msg(char_u *p, int skip_esc);
static char_u *skip_comment(char_u *line, int process,
int include_space,
int *is_comment);
static void block_prep(oparg_T *oap, struct block_def *, linenr_T, int);
static void str_to_reg(struct yankreg *y_ptr, int type, char_u *str,
long len,
long blocklen);
static int ends_in_white(linenr_T lnum);
static int same_leader(linenr_T lnum, int, char_u *, int, char_u *);
static int fmt_check_par(linenr_T, int *, char_u **, int do_comments);
/*
* The names of operators.
* IMPORTANT: Index must correspond with defines in vim.h!!!
* The third field indicates whether the operator always works on lines.
*/
static char opchars[][3] =
{
{NUL, NUL, FALSE}, /* OP_NOP */
{'d', NUL, FALSE}, /* OP_DELETE */
{'y', NUL, FALSE}, /* OP_YANK */
{'c', NUL, FALSE}, /* OP_CHANGE */
{'<', NUL, TRUE}, /* OP_LSHIFT */
{'>', NUL, TRUE}, /* OP_RSHIFT */
{'!', NUL, TRUE}, /* OP_FILTER */
{'g', '~', FALSE}, /* OP_TILDE */
{'=', NUL, TRUE}, /* OP_INDENT */
{'g', 'q', TRUE}, /* OP_FORMAT */
{':', NUL, TRUE}, /* OP_COLON */
{'g', 'U', FALSE}, /* OP_UPPER */
{'g', 'u', FALSE}, /* OP_LOWER */
{'J', NUL, TRUE}, /* DO_JOIN */
{'g', 'J', TRUE}, /* DO_JOIN_NS */
{'g', '?', FALSE}, /* OP_ROT13 */
{'r', NUL, FALSE}, /* OP_REPLACE */
{'I', NUL, FALSE}, /* OP_INSERT */
{'A', NUL, FALSE}, /* OP_APPEND */
{'z', 'f', TRUE}, /* OP_FOLD */
{'z', 'o', TRUE}, /* OP_FOLDOPEN */
{'z', 'O', TRUE}, /* OP_FOLDOPENREC */
{'z', 'c', TRUE}, /* OP_FOLDCLOSE */
{'z', 'C', TRUE}, /* OP_FOLDCLOSEREC */
{'z', 'd', TRUE}, /* OP_FOLDDEL */
{'z', 'D', TRUE}, /* OP_FOLDDELREC */
{'g', 'w', TRUE}, /* OP_FORMAT2 */
{'g', '@', FALSE}, /* OP_FUNCTION */
};
/*
* Translate a command name into an operator type.
* Must only be called with a valid operator name!
*/
int get_op_type(int char1, int char2)
{
int i;
if (char1 == 'r') /* ignore second character */
return OP_REPLACE;
if (char1 == '~') /* when tilde is an operator */
return OP_TILDE;
for (i = 0;; ++i)
if (opchars[i][0] == char1 && opchars[i][1] == char2)
break;
return i;
}
/*
* Return TRUE if operator "op" always works on whole lines.
*/
int op_on_lines(int op)
{
return opchars[op][2];
}
/*
* Get first operator command character.
* Returns 'g' or 'z' if there is another command character.
*/
int get_op_char(int optype)
{
return opchars[optype][0];
}
/*
* Get second operator command character.
*/
int get_extra_op_char(int optype)
{
return opchars[optype][1];
}
/*
* op_shift - handle a shift operation
*/
void op_shift(oparg_T *oap, int curs_top, int amount)
{
long i;
int first_char;
char_u *s;
int block_col = 0;
if (u_save((linenr_T)(oap->start.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return;
if (oap->block_mode)
block_col = curwin->w_cursor.col;
for (i = oap->line_count; --i >= 0; ) {
first_char = *ml_get_curline();
if (first_char == NUL) /* empty line */
curwin->w_cursor.col = 0;
else if (oap->block_mode)
shift_block(oap, amount);
else
/* Move the line right if it doesn't start with '#', 'smartindent'
* isn't set or 'cindent' isn't set or '#' isn't in 'cino'. */
if (first_char != '#' || !preprocs_left()) {
shift_line(oap->op_type == OP_LSHIFT, p_sr, amount, FALSE);
}
++curwin->w_cursor.lnum;
}
changed_lines(oap->start.lnum, 0, oap->end.lnum + 1, 0L);
/* The cursor line is not in a closed fold */
foldOpenCursor();
if (oap->block_mode) {
curwin->w_cursor.lnum = oap->start.lnum;
curwin->w_cursor.col = block_col;
} else if (curs_top) { /* put cursor on first line, for ">>" */
curwin->w_cursor.lnum = oap->start.lnum;
beginline(BL_SOL | BL_FIX); /* shift_line() may have set cursor.col */
} else
--curwin->w_cursor.lnum; /* put cursor on last line, for ":>" */
if (oap->line_count > p_report) {
if (oap->op_type == OP_RSHIFT)
s = (char_u *)">";
else
s = (char_u *)"<";
if (oap->line_count == 1) {
if (amount == 1)
sprintf((char *)IObuff, _("1 line %sed 1 time"), s);
else
sprintf((char *)IObuff, _("1 line %sed %d times"), s, amount);
} else {
if (amount == 1)
sprintf((char *)IObuff, _("%ld lines %sed 1 time"),
oap->line_count, s);
else
sprintf((char *)IObuff, _("%ld lines %sed %d times"),
oap->line_count, s, amount);
}
msg(IObuff);
}
/*
* Set "'[" and "']" marks.
*/
curbuf->b_op_start = oap->start;
curbuf->b_op_end.lnum = oap->end.lnum;
curbuf->b_op_end.col = (colnr_T)STRLEN(ml_get(oap->end.lnum));
if (curbuf->b_op_end.col > 0)
--curbuf->b_op_end.col;
}
/*
* shift the current line one shiftwidth left (if left != 0) or right
* leaves cursor on first blank in the line
*/
void
shift_line (
int left,
int round,
int amount,
int call_changed_bytes /* call changed_bytes() */
)
{
int count;
int i, j;
int p_sw = (int)get_sw_value(curbuf);
count = get_indent(); /* get current indent */
if (round) { /* round off indent */
i = count / p_sw; /* number of p_sw rounded down */
j = count % p_sw; /* extra spaces */
if (j && left) /* first remove extra spaces */
--amount;
if (left) {
i -= amount;
if (i < 0)
i = 0;
} else
i += amount;
count = i * p_sw;
} else { /* original vi indent */
if (left) {
count -= p_sw * amount;
if (count < 0)
count = 0;
} else
count += p_sw * amount;
}
/* Set new indent */
if (State & VREPLACE_FLAG)
change_indent(INDENT_SET, count, FALSE, NUL, call_changed_bytes);
else
(void)set_indent(count, call_changed_bytes ? SIN_CHANGED : 0);
}
/*
* Shift one line of the current block one shiftwidth right or left.
* Leaves cursor on first character in block.
*/
static void shift_block(oparg_T *oap, int amount)
{
int left = (oap->op_type == OP_LSHIFT);
int oldstate = State;
int total;
char_u *newp, *oldp;
int oldcol = curwin->w_cursor.col;
int p_sw = (int)get_sw_value(curbuf);
int p_ts = (int)curbuf->b_p_ts;
struct block_def bd;
int incr;
colnr_T ws_vcol;
int i = 0, j = 0;
int len;
int old_p_ri = p_ri;
p_ri = 0; /* don't want revins in indent */
State = INSERT; /* don't want REPLACE for State */
block_prep(oap, &bd, curwin->w_cursor.lnum, TRUE);
if (bd.is_short)
return;
/* total is number of screen columns to be inserted/removed */
total = amount * p_sw;
oldp = ml_get_curline();
if (!left) {
/*
* 1. Get start vcol
* 2. Total ws vcols
* 3. Divvy into TABs & spp
* 4. Construct new string
*/
total += bd.pre_whitesp; /* all virtual WS upto & incl a split TAB */
ws_vcol = bd.start_vcol - bd.pre_whitesp;
if (bd.startspaces) {
if (has_mbyte)
bd.textstart += (*mb_ptr2len)(bd.textstart);
else
++bd.textstart;
}
for (; vim_iswhite(*bd.textstart); ) {
incr = lbr_chartabsize_adv(&bd.textstart, (colnr_T)(bd.start_vcol));
total += incr;
bd.start_vcol += incr;
}
/* OK, now total=all the VWS reqd, and textstart points at the 1st
* non-ws char in the block. */
if (!curbuf->b_p_et)
i = ((ws_vcol % p_ts) + total) / p_ts; /* number of tabs */
if (i)
j = ((ws_vcol % p_ts) + total) % p_ts; /* number of spp */
else
j = total;
/* if we're splitting a TAB, allow for it */
bd.textcol -= bd.pre_whitesp_c - (bd.startspaces != 0);
len = (int)STRLEN(bd.textstart) + 1;
newp = alloc_check((unsigned)(bd.textcol + i + j + len));
if (newp == NULL)
return;
memset(newp, NUL, (size_t)(bd.textcol + i + j + len));
memmove(newp, oldp, (size_t)bd.textcol);
copy_chars(newp + bd.textcol, (size_t)i, TAB);
copy_spaces(newp + bd.textcol + i, (size_t)j);
/* the end */
memmove(newp + bd.textcol + i + j, bd.textstart, (size_t)len);
} else { /* left */
colnr_T destination_col; /* column to which text in block will
be shifted */
char_u *verbatim_copy_end; /* end of the part of the line which is
copied verbatim */
colnr_T verbatim_copy_width; /* the (displayed) width of this part
of line */
unsigned fill; /* nr of spaces that replace a TAB */
unsigned new_line_len; /* the length of the line after the
block shift */
size_t block_space_width;
size_t shift_amount;
char_u *non_white = bd.textstart;
colnr_T non_white_col;
/*
* Firstly, let's find the first non-whitespace character that is
* displayed after the block's start column and the character's column
* number. Also, let's calculate the width of all the whitespace
* characters that are displayed in the block and precede the searched
* non-whitespace character.
*/
/* If "bd.startspaces" is set, "bd.textstart" points to the character,
* the part of which is displayed at the block's beginning. Let's start
* searching from the next character. */
if (bd.startspaces)
mb_ptr_adv(non_white);
/* The character's column is in "bd.start_vcol". */
non_white_col = bd.start_vcol;
while (vim_iswhite(*non_white)) {
incr = lbr_chartabsize_adv(&non_white, non_white_col);
non_white_col += incr;
}
block_space_width = non_white_col - oap->start_vcol;
/* We will shift by "total" or "block_space_width", whichever is less.
*/
shift_amount = (block_space_width < (size_t)total
? block_space_width : (size_t)total);
/* The column to which we will shift the text. */
destination_col = (colnr_T)(non_white_col - shift_amount);
/* Now let's find out how much of the beginning of the line we can
* reuse without modification. */
verbatim_copy_end = bd.textstart;
verbatim_copy_width = bd.start_vcol;
/* If "bd.startspaces" is set, "bd.textstart" points to the character
* preceding the block. We have to subtract its width to obtain its
* column number. */
if (bd.startspaces)
verbatim_copy_width -= bd.start_char_vcols;
while (verbatim_copy_width < destination_col) {
incr = lbr_chartabsize(verbatim_copy_end, verbatim_copy_width);
if (verbatim_copy_width + incr > destination_col)
break;
verbatim_copy_width += incr;
mb_ptr_adv(verbatim_copy_end);
}
/* If "destination_col" is different from the width of the initial
* part of the line that will be copied, it means we encountered a tab
* character, which we will have to partly replace with spaces. */
fill = destination_col - verbatim_copy_width;
/* The replacement line will consist of:
* - the beginning of the original line up to "verbatim_copy_end",
* - "fill" number of spaces,
* - the rest of the line, pointed to by non_white. */
new_line_len = (unsigned)(verbatim_copy_end - oldp)
+ fill
+ (unsigned)STRLEN(non_white) + 1;
newp = alloc_check(new_line_len);
if (newp == NULL)
return;
memmove(newp, oldp, (size_t)(verbatim_copy_end - oldp));
copy_spaces(newp + (verbatim_copy_end - oldp), (size_t)fill);
STRMOVE(newp + (verbatim_copy_end - oldp) + fill, non_white);
}
/* replace the line */
ml_replace(curwin->w_cursor.lnum, newp, FALSE);
changed_bytes(curwin->w_cursor.lnum, (colnr_T)bd.textcol);
State = oldstate;
curwin->w_cursor.col = oldcol;
p_ri = old_p_ri;
}
/*
* Insert string "s" (b_insert ? before : after) block :AKelly
* Caller must prepare for undo.
*/
static void block_insert(oparg_T *oap, char_u *s, int b_insert, struct block_def *bdp)
{
int p_ts;
int count = 0; /* extra spaces to replace a cut TAB */
int spaces = 0; /* non-zero if cutting a TAB */
colnr_T offset; /* pointer along new line */
unsigned s_len; /* STRLEN(s) */
char_u *newp, *oldp; /* new, old lines */
linenr_T lnum; /* loop var */
int oldstate = State;
State = INSERT; /* don't want REPLACE for State */
s_len = (unsigned)STRLEN(s);
for (lnum = oap->start.lnum + 1; lnum <= oap->end.lnum; lnum++) {
block_prep(oap, bdp, lnum, TRUE);
if (bdp->is_short && b_insert)
continue; /* OP_INSERT, line ends before block start */
oldp = ml_get(lnum);
if (b_insert) {
p_ts = bdp->start_char_vcols;
spaces = bdp->startspaces;
if (spaces != 0)
count = p_ts - 1; /* we're cutting a TAB */
offset = bdp->textcol;
} else { /* append */
p_ts = bdp->end_char_vcols;
if (!bdp->is_short) { /* spaces = padding after block */
spaces = (bdp->endspaces ? p_ts - bdp->endspaces : 0);
if (spaces != 0)
count = p_ts - 1; /* we're cutting a TAB */
offset = bdp->textcol + bdp->textlen - (spaces != 0);
} else { /* spaces = padding to block edge */
/* if $ used, just append to EOL (ie spaces==0) */
if (!bdp->is_MAX)
spaces = (oap->end_vcol - bdp->end_vcol) + 1;
count = spaces;
offset = bdp->textcol + bdp->textlen;
}
}
newp = alloc_check((unsigned)(STRLEN(oldp)) + s_len + count + 1);
if (newp == NULL)
continue;
/* copy up to shifted part */
memmove(newp, oldp, (size_t)(offset));
oldp += offset;
/* insert pre-padding */
copy_spaces(newp + offset, (size_t)spaces);
/* copy the new text */
memmove(newp + offset + spaces, s, (size_t)s_len);
offset += s_len;
if (spaces && !bdp->is_short) {
/* insert post-padding */
copy_spaces(newp + offset + spaces, (size_t)(p_ts - spaces));
/* We're splitting a TAB, don't copy it. */
oldp++;
/* We allowed for that TAB, remember this now */
count++;
}
if (spaces > 0)
offset += count;
STRMOVE(newp + offset, oldp);
ml_replace(lnum, newp, FALSE);
if (lnum == oap->end.lnum) {
/* Set "']" mark to the end of the block instead of the end of
* the insert in the first line. */
curbuf->b_op_end.lnum = oap->end.lnum;
curbuf->b_op_end.col = offset;
}
} /* for all lnum */
changed_lines(oap->start.lnum + 1, 0, oap->end.lnum + 1, 0L);
State = oldstate;
}
/*
* op_reindent - handle reindenting a block of lines.
*/
void op_reindent(oap, how)
oparg_T *oap;
int (*how)(void);
{
long i;
char_u *l;
int count;
linenr_T first_changed = 0;
linenr_T last_changed = 0;
linenr_T start_lnum = curwin->w_cursor.lnum;
/* Don't even try when 'modifiable' is off. */
if (!curbuf->b_p_ma) {
EMSG(_(e_modifiable));
return;
}
for (i = oap->line_count; --i >= 0 && !got_int; ) {
/* it's a slow thing to do, so give feedback so there's no worry that
* the computer's just hung. */
if (i > 1
&& (i % 50 == 0 || i == oap->line_count - 1)
&& oap->line_count > p_report)
smsg((char_u *)_("%ld lines to indent... "), i);
/*
* Be vi-compatible: For lisp indenting the first line is not
* indented, unless there is only one line.
*/
if (i != oap->line_count - 1 || oap->line_count == 1
|| how != get_lisp_indent) {
l = skipwhite(ml_get_curline());
if (*l == NUL) /* empty or blank line */
count = 0;
else
count = how(); /* get the indent for this line */
if (set_indent(count, SIN_UNDO)) {
/* did change the indent, call changed_lines() later */
if (first_changed == 0)
first_changed = curwin->w_cursor.lnum;
last_changed = curwin->w_cursor.lnum;
}
}
++curwin->w_cursor.lnum;
curwin->w_cursor.col = 0; /* make sure it's valid */
}
/* put cursor on first non-blank of indented line */
curwin->w_cursor.lnum = start_lnum;
beginline(BL_SOL | BL_FIX);
/* Mark changed lines so that they will be redrawn. When Visual
* highlighting was present, need to continue until the last line. When
* there is no change still need to remove the Visual highlighting. */
if (last_changed != 0)
changed_lines(first_changed, 0,
oap->is_VIsual ? start_lnum + oap->line_count :
last_changed + 1, 0L);
else if (oap->is_VIsual)
redraw_curbuf_later(INVERTED);
if (oap->line_count > p_report) {
i = oap->line_count - (i + 1);
if (i == 1)
MSG(_("1 line indented "));
else
smsg((char_u *)_("%ld lines indented "), i);
}
/* set '[ and '] marks */
curbuf->b_op_start = oap->start;
curbuf->b_op_end = oap->end;
}
/*
* Keep the last expression line here, for repeating.
*/
static char_u *expr_line = NULL;
/*
* Get an expression for the "\"=expr1" or "CTRL-R =expr1"
* Returns '=' when OK, NUL otherwise.
*/
int get_expr_register(void)
{
char_u *new_line;
new_line = getcmdline('=', 0L, 0);
if (new_line == NULL)
return NUL;
if (*new_line == NUL) /* use previous line */
vim_free(new_line);
else
set_expr_line(new_line);
return '=';
}
/*
* Set the expression for the '=' register.
* Argument must be an allocated string.
*/
void set_expr_line(char_u *new_line)
{
vim_free(expr_line);
expr_line = new_line;
}
/*
* Get the result of the '=' register expression.
* Returns a pointer to allocated memory, or NULL for failure.
*/
char_u *get_expr_line(void)
{
char_u *expr_copy;
char_u *rv;
static int nested = 0;
if (expr_line == NULL)
return NULL;
/* Make a copy of the expression, because evaluating it may cause it to be
* changed. */
expr_copy = vim_strsave(expr_line);
if (expr_copy == NULL)
return NULL;
/* When we are invoked recursively limit the evaluation to 10 levels.
* Then return the string as-is. */
if (nested >= 10)
return expr_copy;
++nested;
rv = eval_to_string(expr_copy, NULL, TRUE);
--nested;
vim_free(expr_copy);
return rv;
}
/*
* Get the '=' register expression itself, without evaluating it.
*/
char_u *get_expr_line_src(void)
{
if (expr_line == NULL)
return NULL;
return vim_strsave(expr_line);
}
/*
* Check if 'regname' is a valid name of a yank register.
* Note: There is no check for 0 (default register), caller should do this
*/
int
valid_yank_reg (
int regname,
int writing /* if TRUE check for writable registers */
)
{
if ( (regname > 0 && ASCII_ISALNUM(regname))
|| (!writing && vim_strchr((char_u *)
"/.%#:="
, regname) != NULL)
|| regname == '"'
|| regname == '-'
|| regname == '_'
)
return TRUE;
return FALSE;
}
/*
* Set y_current and y_append, according to the value of "regname".
* Cannot handle the '_' register.
* Must only be called with a valid register name!
*
* If regname is 0 and writing, use register 0
* If regname is 0 and reading, use previous register
*/
void get_yank_register(int regname, int writing)
{
int i;
y_append = FALSE;
if ((regname == 0 || regname == '"') && !writing && y_previous != NULL) {
y_current = y_previous;
return;
}
i = regname;
if (VIM_ISDIGIT(i))
i -= '0';
else if (ASCII_ISLOWER(i))
i = CharOrdLow(i) + 10;
else if (ASCII_ISUPPER(i)) {
i = CharOrdUp(i) + 10;
y_append = TRUE;
} else if (regname == '-')
i = DELETION_REGISTER;
else /* not 0-9, a-z, A-Z or '-': use register 0 */
i = 0;
y_current = &(y_regs[i]);
if (writing) /* remember the register we write into for do_put() */
y_previous = y_current;
}
/*
* Obtain the contents of a "normal" register. The register is made empty.
* The returned pointer has allocated memory, use put_register() later.
*/
void *
get_register (
int name,
int copy /* make a copy, if FALSE make register empty. */
)
{
struct yankreg *reg;
int i;
get_yank_register(name, 0);
reg = (struct yankreg *)alloc((unsigned)sizeof(struct yankreg));
if (reg != NULL) {
*reg = *y_current;
if (copy) {
/* If we run out of memory some or all of the lines are empty. */
if (reg->y_size == 0)
reg->y_array = NULL;
else
reg->y_array = (char_u **)alloc((unsigned)(sizeof(char_u *)
* reg->y_size));
if (reg->y_array != NULL) {
for (i = 0; i < reg->y_size; ++i)
reg->y_array[i] = vim_strsave(y_current->y_array[i]);
}
} else
y_current->y_array = NULL;
}
return (void *)reg;
}
/*
* Put "reg" into register "name". Free any previous contents and "reg".
*/
void put_register(int name, void *reg)
{
get_yank_register(name, 0);
free_yank_all();
*y_current = *(struct yankreg *)reg;
vim_free(reg);
}
void free_register(void *reg)
{
struct yankreg tmp;
tmp = *y_current;
*y_current = *(struct yankreg *)reg;
free_yank_all();
vim_free(reg);
*y_current = tmp;
}
/*
* return TRUE if the current yank register has type MLINE
*/
int yank_register_mline(int regname)
{
if (regname != 0 && !valid_yank_reg(regname, FALSE))
return FALSE;
if (regname == '_') /* black hole is always empty */
return FALSE;
get_yank_register(regname, FALSE);
return y_current->y_type == MLINE;
}
/*
* Start or stop recording into a yank register.
*
* Return FAIL for failure, OK otherwise.
*/
int do_record(int c)
{
char_u *p;
static int regname;
struct yankreg *old_y_previous, *old_y_current;
int retval;
if (Recording == FALSE) { /* start recording */
/* registers 0-9, a-z and " are allowed */
if (c < 0 || (!ASCII_ISALNUM(c) && c != '"'))
retval = FAIL;
else {
Recording = TRUE;
showmode();
regname = c;
retval = OK;
}
} else { /* stop recording */
/*
* Get the recorded key hits. K_SPECIAL and CSI will be escaped, this
* needs to be removed again to put it in a register. exec_reg then
* adds the escaping back later.
*/
Recording = FALSE;
MSG("");
p = get_recorded();
if (p == NULL)
retval = FAIL;
else {
/* Remove escaping for CSI and K_SPECIAL in multi-byte chars. */
vim_unescape_csi(p);
/*
* We don't want to change the default register here, so save and
* restore the current register name.
*/
old_y_previous = y_previous;
old_y_current = y_current;
retval = stuff_yank(regname, p);
y_previous = old_y_previous;
y_current = old_y_current;
}
}
return retval;
}
/*
* Stuff string "p" into yank register "regname" as a single line (append if
* uppercase). "p" must have been alloced.
*
* return FAIL for failure, OK otherwise
*/
static int stuff_yank(int regname, char_u *p)
{
char_u *lp;
char_u **pp;
/* check for read-only register */
if (regname != 0 && !valid_yank_reg(regname, TRUE)) {
vim_free(p);
return FAIL;
}
if (regname == '_') { /* black hole: don't do anything */
vim_free(p);
return OK;
}
get_yank_register(regname, TRUE);
if (y_append && y_current->y_array != NULL) {
pp = &(y_current->y_array[y_current->y_size - 1]);
lp = lalloc((long_u)(STRLEN(*pp) + STRLEN(p) + 1), TRUE);
if (lp == NULL) {
vim_free(p);
return FAIL;
}
STRCPY(lp, *pp);
STRCAT(lp, p);
vim_free(p);
vim_free(*pp);
*pp = lp;
} else {
free_yank_all();
if ((y_current->y_array =
(char_u **)alloc((unsigned)sizeof(char_u *))) == NULL) {
vim_free(p);
return FAIL;
}
y_current->y_array[0] = p;
y_current->y_size = 1;
y_current->y_type = MCHAR; /* used to be MLINE, why? */
}
return OK;
}
static int execreg_lastc = NUL;
/*
* execute a yank register: copy it into the stuff buffer
*
* return FAIL for failure, OK otherwise
*/
int
do_execreg (
int regname,
int colon, /* insert ':' before each line */
int addcr, /* always add '\n' to end of line */
int silent /* set "silent" flag in typeahead buffer */
)
{
long i;
char_u *p;
int retval = OK;
int remap;
if (regname == '@') { /* repeat previous one */
if (execreg_lastc == NUL) {
EMSG(_("E748: No previously used register"));
return FAIL;
}
regname = execreg_lastc;
}
/* check for valid regname */
if (regname == '%' || regname == '#' || !valid_yank_reg(regname, FALSE)) {
emsg_invreg(regname);
return FAIL;
}
execreg_lastc = regname;
if (regname == '_') /* black hole: don't stuff anything */
return OK;
if (regname == ':') { /* use last command line */
if (last_cmdline == NULL) {
EMSG(_(e_nolastcmd));
return FAIL;
}
vim_free(new_last_cmdline); /* don't keep the cmdline containing @: */
new_last_cmdline = NULL;
/* Escape all control characters with a CTRL-V */
p = vim_strsave_escaped_ext(
last_cmdline,
(char_u *)
"\001\002\003\004\005\006\007\010\011\012\013\014\015\016\017\020\021\022\023\024\025\026\027\030\031\032\033\034\035\036\037",
Ctrl_V, FALSE);
if (p != NULL) {
/* When in Visual mode "'<,'>" will be prepended to the command.
* Remove it when it's already there. */
if (VIsual_active && STRNCMP(p, "'<,'>", 5) == 0)
retval = put_in_typebuf(p + 5, TRUE, TRUE, silent);
else
retval = put_in_typebuf(p, TRUE, TRUE, silent);
}
vim_free(p);
} else if (regname == '=') {
p = get_expr_line();
if (p == NULL)
return FAIL;
retval = put_in_typebuf(p, TRUE, colon, silent);
vim_free(p);
} else if (regname == '.') { /* use last inserted text */
p = get_last_insert_save();
if (p == NULL) {
EMSG(_(e_noinstext));
return FAIL;
}
retval = put_in_typebuf(p, FALSE, colon, silent);
vim_free(p);
} else {
get_yank_register(regname, FALSE);
if (y_current->y_array == NULL)
return FAIL;
/* Disallow remaping for ":@r". */
remap = colon ? REMAP_NONE : REMAP_YES;
/*
* Insert lines into typeahead buffer, from last one to first one.
*/
put_reedit_in_typebuf(silent);
for (i = y_current->y_size; --i >= 0; ) {
char_u *escaped;
/* insert NL between lines and after last line if type is MLINE */
if (y_current->y_type == MLINE || i < y_current->y_size - 1
|| addcr) {
if (ins_typebuf((char_u *)"\n", remap, 0, TRUE, silent) == FAIL)
return FAIL;
}
escaped = vim_strsave_escape_csi(y_current->y_array[i]);
if (escaped == NULL)
return FAIL;
retval = ins_typebuf(escaped, remap, 0, TRUE, silent);
vim_free(escaped);
if (retval == FAIL)
return FAIL;
if (colon && ins_typebuf((char_u *)":", remap, 0, TRUE, silent)
== FAIL)
return FAIL;
}
Exec_reg = TRUE; /* disable the 'q' command */
}
return retval;
}
/*
* If "restart_edit" is not zero, put it in the typeahead buffer, so that it's
* used only after other typeahead has been processed.
*/
static void put_reedit_in_typebuf(int silent)
{
char_u buf[3];
if (restart_edit != NUL) {
if (restart_edit == 'V') {
buf[0] = 'g';
buf[1] = 'R';
buf[2] = NUL;
} else {
buf[0] = restart_edit == 'I' ? 'i' : restart_edit;
buf[1] = NUL;
}
if (ins_typebuf(buf, REMAP_NONE, 0, TRUE, silent) == OK)
restart_edit = NUL;
}
}
/*
* Insert register contents "s" into the typeahead buffer, so that it will be
* executed again.
* When "esc" is TRUE it is to be taken literally: Escape CSI characters and
* no remapping.
*/
static int
put_in_typebuf (
char_u *s,
int esc,
int colon, /* add ':' before the line */
int silent
)
{
int retval = OK;
put_reedit_in_typebuf(silent);
if (colon)
retval = ins_typebuf((char_u *)"\n", REMAP_NONE, 0, TRUE, silent);
if (retval == OK) {
char_u *p;
if (esc)
p = vim_strsave_escape_csi(s);
else
p = s;
if (p == NULL)
retval = FAIL;
else
retval = ins_typebuf(p, esc ? REMAP_NONE : REMAP_YES,
0, TRUE, silent);
if (esc)
vim_free(p);
}
if (colon && retval == OK)
retval = ins_typebuf((char_u *)":", REMAP_NONE, 0, TRUE, silent);
return retval;
}
/*
* Insert a yank register: copy it into the Read buffer.
* Used by CTRL-R command and middle mouse button in insert mode.
*
* return FAIL for failure, OK otherwise
*/
int
insert_reg (
int regname,
int literally /* insert literally, not as if typed */
)
{
long i;
int retval = OK;
char_u *arg;
int allocated;
/*
* It is possible to get into an endless loop by having CTRL-R a in
* register a and then, in insert mode, doing CTRL-R a.
* If you hit CTRL-C, the loop will be broken here.
*/
ui_breakcheck();
if (got_int)
return FAIL;
/* check for valid regname */
if (regname != NUL && !valid_yank_reg(regname, FALSE))
return FAIL;
if (regname == '.') /* insert last inserted text */
retval = stuff_inserted(NUL, 1L, TRUE);
else if (get_spec_reg(regname, &arg, &allocated, TRUE)) {
if (arg == NULL)
return FAIL;
stuffescaped(arg, literally);
if (allocated)
vim_free(arg);
} else { /* name or number register */
get_yank_register(regname, FALSE);
if (y_current->y_array == NULL)
retval = FAIL;
else {
for (i = 0; i < y_current->y_size; ++i) {
stuffescaped(y_current->y_array[i], literally);
/*
* Insert a newline between lines and after last line if
* y_type is MLINE.
*/
if (y_current->y_type == MLINE || i < y_current->y_size - 1)
stuffcharReadbuff('\n');
}
}
}
return retval;
}
/*
* Stuff a string into the typeahead buffer, such that edit() will insert it
* literally ("literally" TRUE) or interpret is as typed characters.
*/
static void stuffescaped(char_u *arg, int literally)
{
int c;
char_u *start;
while (*arg != NUL) {
/* Stuff a sequence of normal ASCII characters, that's fast. Also
* stuff K_SPECIAL to get the effect of a special key when "literally"
* is TRUE. */
start = arg;
while ((*arg >= ' '
&& *arg < DEL /* EBCDIC: chars above space are normal */
)
|| (*arg == K_SPECIAL && !literally))
++arg;
if (arg > start)
stuffReadbuffLen(start, (long)(arg - start));
/* stuff a single special character */
if (*arg != NUL) {
if (has_mbyte)
c = mb_cptr2char_adv(&arg);
else
c = *arg++;
if (literally && ((c < ' ' && c != TAB) || c == DEL))
stuffcharReadbuff(Ctrl_V);
stuffcharReadbuff(c);
}
}
}
/*
* If "regname" is a special register, return TRUE and store a pointer to its
* value in "argp".
*/
int
get_spec_reg (
int regname,
char_u **argp,
int *allocated, /* return: TRUE when value was allocated */
int errmsg /* give error message when failing */
)
{
int cnt;
*argp = NULL;
*allocated = FALSE;
switch (regname) {
case '%': /* file name */
if (errmsg)
check_fname(); /* will give emsg if not set */
*argp = curbuf->b_fname;
return TRUE;
case '#': /* alternate file name */
*argp = getaltfname(errmsg); /* may give emsg if not set */
return TRUE;
case '=': /* result of expression */
*argp = get_expr_line();
*allocated = TRUE;
return TRUE;
case ':': /* last command line */
if (last_cmdline == NULL && errmsg)
EMSG(_(e_nolastcmd));
*argp = last_cmdline;
return TRUE;
case '/': /* last search-pattern */
if (last_search_pat() == NULL && errmsg)
EMSG(_(e_noprevre));
*argp = last_search_pat();
return TRUE;
case '.': /* last inserted text */
*argp = get_last_insert_save();
*allocated = TRUE;
if (*argp == NULL && errmsg)
EMSG(_(e_noinstext));
return TRUE;
case Ctrl_F: /* Filename under cursor */
case Ctrl_P: /* Path under cursor, expand via "path" */
if (!errmsg)
return FALSE;
*argp = file_name_at_cursor(FNAME_MESS | FNAME_HYP
| (regname == Ctrl_P ? FNAME_EXP : 0), 1L, NULL);
*allocated = TRUE;
return TRUE;
case Ctrl_W: /* word under cursor */
case Ctrl_A: /* WORD (mnemonic All) under cursor */
if (!errmsg)
return FALSE;
cnt = find_ident_under_cursor(argp, regname == Ctrl_W
? (FIND_IDENT|FIND_STRING) : FIND_STRING);
*argp = cnt ? vim_strnsave(*argp, cnt) : NULL;
*allocated = TRUE;
return TRUE;
case '_': /* black hole: always empty */
*argp = (char_u *)"";
return TRUE;
}
return FALSE;
}
/*
* Paste a yank register into the command line.
* Only for non-special registers.
* Used by CTRL-R command in command-line mode
* insert_reg() can't be used here, because special characters from the
* register contents will be interpreted as commands.
*
* return FAIL for failure, OK otherwise
*/
int
cmdline_paste_reg (
int regname,
int literally, /* Insert text literally instead of "as typed" */
int remcr /* don't add trailing CR */
)
{
long i;
get_yank_register(regname, FALSE);
if (y_current->y_array == NULL)
return FAIL;
for (i = 0; i < y_current->y_size; ++i) {
cmdline_paste_str(y_current->y_array[i], literally);
/* Insert ^M between lines and after last line if type is MLINE.
* Don't do this when "remcr" is TRUE and the next line is empty. */
if (y_current->y_type == MLINE
|| (i < y_current->y_size - 1
&& !(remcr
&& i == y_current->y_size - 2
&& *y_current->y_array[i + 1] == NUL)))
cmdline_paste_str((char_u *)"\r", literally);
/* Check for CTRL-C, in case someone tries to paste a few thousand
* lines and gets bored. */
ui_breakcheck();
if (got_int)
return FAIL;
}
return OK;
}
/*
* Handle a delete operation.
*
* Return FAIL if undo failed, OK otherwise.
*/
int op_delete(oparg_T *oap)
{
int n;
linenr_T lnum;
char_u *ptr;
char_u *newp, *oldp;
struct block_def bd;
linenr_T old_lcount = curbuf->b_ml.ml_line_count;
int did_yank = FALSE;
int orig_regname = oap->regname;
if (curbuf->b_ml.ml_flags & ML_EMPTY) /* nothing to do */
return OK;
/* Nothing to delete, return here. Do prepare undo, for op_change(). */
if (oap->empty)
return u_save_cursor();
if (!curbuf->b_p_ma) {
EMSG(_(e_modifiable));
return FAIL;
}
if (has_mbyte)
mb_adjust_opend(oap);
/*
* Imitate the strange Vi behaviour: If the delete spans more than one
* line and motion_type == MCHAR and the result is a blank line, make the
* delete linewise. Don't do this for the change command or Visual mode.
*/
if ( oap->motion_type == MCHAR
&& !oap->is_VIsual
&& !oap->block_mode
&& oap->line_count > 1
&& oap->motion_force == NUL
&& oap->op_type == OP_DELETE) {
ptr = ml_get(oap->end.lnum) + oap->end.col;
if (*ptr != NUL)
ptr += oap->inclusive;
ptr = skipwhite(ptr);
if (*ptr == NUL && inindent(0))
oap->motion_type = MLINE;
}
/*
* Check for trying to delete (e.g. "D") in an empty line.
* Note: For the change operator it is ok.
*/
if ( oap->motion_type == MCHAR
&& oap->line_count == 1
&& oap->op_type == OP_DELETE
&& *ml_get(oap->start.lnum) == NUL) {
/*
* It's an error to operate on an empty region, when 'E' included in
* 'cpoptions' (Vi compatible).
*/
if (virtual_op)
/* Virtual editing: Nothing gets deleted, but we set the '[ and ']
* marks as if it happened. */
goto setmarks;
if (vim_strchr(p_cpo, CPO_EMPTYREGION) != NULL)
beep_flush();
return OK;
}
/*
* Do a yank of whatever we're about to delete.
* If a yank register was specified, put the deleted text into that
* register. For the black hole register '_' don't yank anything.
*/
if (oap->regname != '_') {
if (oap->regname != 0) {
/* check for read-only register */
if (!valid_yank_reg(oap->regname, TRUE)) {
beep_flush();
return OK;
}
get_yank_register(oap->regname, TRUE); /* yank into specif'd reg. */
if (op_yank(oap, TRUE, FALSE) == OK) /* yank without message */
did_yank = TRUE;
}
/*
* Put deleted text into register 1 and shift number registers if the
* delete contains a line break, or when a regname has been specified.
* Use the register name from before adjust_clip_reg() may have
* changed it.
*/
if (orig_regname != 0 || oap->motion_type == MLINE
|| oap->line_count > 1 || oap->use_reg_one) {
y_current = &y_regs[9];
free_yank_all(); /* free register nine */
for (n = 9; n > 1; --n)
y_regs[n] = y_regs[n - 1];
y_previous = y_current = &y_regs[1];
y_regs[1].y_array = NULL; /* set register one to empty */
if (op_yank(oap, TRUE, FALSE) == OK)
did_yank = TRUE;
}
/* Yank into small delete register when no named register specified
* and the delete is within one line. */
if ((
oap->regname == 0) && oap->motion_type != MLINE
&& oap->line_count == 1) {
oap->regname = '-';
get_yank_register(oap->regname, TRUE);
if (op_yank(oap, TRUE, FALSE) == OK)
did_yank = TRUE;
oap->regname = 0;
}
/*
* If there's too much stuff to fit in the yank register, then get a
* confirmation before doing the delete. This is crude, but simple.
* And it avoids doing a delete of something we can't put back if we
* want.
*/
if (!did_yank) {
int msg_silent_save = msg_silent;
msg_silent = 0; /* must display the prompt */
n = ask_yesno((char_u *)_("cannot yank; delete anyway"), TRUE);
msg_silent = msg_silent_save;
if (n != 'y') {
EMSG(_(e_abort));
return FAIL;
}
}
}
/*
* block mode delete
*/
if (oap->block_mode) {
if (u_save((linenr_T)(oap->start.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return FAIL;
for (lnum = curwin->w_cursor.lnum; lnum <= oap->end.lnum; ++lnum) {
block_prep(oap, &bd, lnum, TRUE);
if (bd.textlen == 0) /* nothing to delete */
continue;
/* Adjust cursor position for tab replaced by spaces and 'lbr'. */
if (lnum == curwin->w_cursor.lnum) {
curwin->w_cursor.col = bd.textcol + bd.startspaces;
curwin->w_cursor.coladd = 0;
}
/* n == number of chars deleted
* If we delete a TAB, it may be replaced by several characters.
* Thus the number of characters may increase!
*/
n = bd.textlen - bd.startspaces - bd.endspaces;
oldp = ml_get(lnum);
newp = alloc_check((unsigned)STRLEN(oldp) + 1 - n);
if (newp == NULL)
continue;
/* copy up to deleted part */
memmove(newp, oldp, (size_t)bd.textcol);
/* insert spaces */
copy_spaces(newp + bd.textcol,
(size_t)(bd.startspaces + bd.endspaces));
/* copy the part after the deleted part */
oldp += bd.textcol + bd.textlen;
STRMOVE(newp + bd.textcol + bd.startspaces + bd.endspaces, oldp);
/* replace the line */
ml_replace(lnum, newp, FALSE);
}
check_cursor_col();
changed_lines(curwin->w_cursor.lnum, curwin->w_cursor.col,
oap->end.lnum + 1, 0L);
oap->line_count = 0; /* no lines deleted */
} else if (oap->motion_type == MLINE) {
if (oap->op_type == OP_CHANGE) {
/* Delete the lines except the first one. Temporarily move the
* cursor to the next line. Save the current line number, if the
* last line is deleted it may be changed.
*/
if (oap->line_count > 1) {
lnum = curwin->w_cursor.lnum;
++curwin->w_cursor.lnum;
del_lines((long)(oap->line_count - 1), TRUE);
curwin->w_cursor.lnum = lnum;
}
if (u_save_cursor() == FAIL)
return FAIL;
if (curbuf->b_p_ai) { /* don't delete indent */
beginline(BL_WHITE); /* cursor on first non-white */
did_ai = TRUE; /* delete the indent when ESC hit */
ai_col = curwin->w_cursor.col;
} else
beginline(0); /* cursor in column 0 */
truncate_line(FALSE); /* delete the rest of the line */
/* leave cursor past last char in line */
if (oap->line_count > 1)
u_clearline(); /* "U" command not possible after "2cc" */
} else {
del_lines(oap->line_count, TRUE);
beginline(BL_WHITE | BL_FIX);
u_clearline(); /* "U" command not possible after "dd" */
}
} else {
if (virtual_op) {
int endcol = 0;
/* For virtualedit: break the tabs that are partly included. */
if (gchar_pos(&oap->start) == '\t') {
if (u_save_cursor() == FAIL) /* save first line for undo */
return FAIL;
if (oap->line_count == 1)
endcol = getviscol2(oap->end.col, oap->end.coladd);
coladvance_force(getviscol2(oap->start.col, oap->start.coladd));
oap->start = curwin->w_cursor;
if (oap->line_count == 1) {
coladvance(endcol);
oap->end.col = curwin->w_cursor.col;
oap->end.coladd = curwin->w_cursor.coladd;
curwin->w_cursor = oap->start;
}
}
/* Break a tab only when it's included in the area. */
if (gchar_pos(&oap->end) == '\t'
&& (int)oap->end.coladd < oap->inclusive) {
/* save last line for undo */
if (u_save((linenr_T)(oap->end.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return FAIL;
curwin->w_cursor = oap->end;
coladvance_force(getviscol2(oap->end.col, oap->end.coladd));
oap->end = curwin->w_cursor;
curwin->w_cursor = oap->start;
}
}
if (oap->line_count == 1) { /* delete characters within one line */
if (u_save_cursor() == FAIL) /* save line for undo */
return FAIL;
/* if 'cpoptions' contains '$', display '$' at end of change */
if ( vim_strchr(p_cpo, CPO_DOLLAR) != NULL
&& oap->op_type == OP_CHANGE
&& oap->end.lnum == curwin->w_cursor.lnum
&& !oap->is_VIsual
)
display_dollar(oap->end.col - !oap->inclusive);
n = oap->end.col - oap->start.col + 1 - !oap->inclusive;
if (virtual_op) {
/* fix up things for virtualedit-delete:
* break the tabs which are going to get in our way
*/
char_u *curline = ml_get_curline();
int len = (int)STRLEN(curline);
if (oap->end.coladd != 0
&& (int)oap->end.col >= len - 1
&& !(oap->start.coladd && (int)oap->end.col >= len - 1))
n++;
/* Delete at least one char (e.g, when on a control char). */
if (n == 0 && oap->start.coladd != oap->end.coladd)
n = 1;
/* When deleted a char in the line, reset coladd. */
if (gchar_cursor() != NUL)
curwin->w_cursor.coladd = 0;
}
if (oap->op_type == OP_DELETE
&& oap->inclusive
&& oap->end.lnum == curbuf->b_ml.ml_line_count
&& n > (int)STRLEN(ml_get(oap->end.lnum))) {
/* Special case: gH<Del> deletes the last line. */
del_lines(1L, FALSE);
} else {
(void)del_bytes((long)n, !virtual_op, oap->op_type == OP_DELETE
&& !oap->is_VIsual
);
}
} else { /* delete characters between lines */
pos_T curpos;
int delete_last_line;
/* save deleted and changed lines for undo */
if (u_save((linenr_T)(curwin->w_cursor.lnum - 1),
(linenr_T)(curwin->w_cursor.lnum + oap->line_count)) == FAIL)
return FAIL;
delete_last_line = (oap->end.lnum == curbuf->b_ml.ml_line_count);
truncate_line(TRUE); /* delete from cursor to end of line */
curpos = curwin->w_cursor; /* remember curwin->w_cursor */
++curwin->w_cursor.lnum;
del_lines((long)(oap->line_count - 2), FALSE);
if (delete_last_line)
oap->end.lnum = curbuf->b_ml.ml_line_count;
n = (oap->end.col + 1 - !oap->inclusive);
if (oap->inclusive && delete_last_line
&& n > (int)STRLEN(ml_get(oap->end.lnum))) {
/* Special case: gH<Del> deletes the last line. */
del_lines(1L, FALSE);
curwin->w_cursor = curpos; /* restore curwin->w_cursor */
if (curwin->w_cursor.lnum > curbuf->b_ml.ml_line_count)
curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count;
} else {
/* delete from start of line until op_end */
curwin->w_cursor.col = 0;
(void)del_bytes((long)n, !virtual_op, oap->op_type == OP_DELETE
&& !oap->is_VIsual
);
curwin->w_cursor = curpos; /* restore curwin->w_cursor */
}
if (curwin->w_cursor.lnum < curbuf->b_ml.ml_line_count)
(void)do_join(2, FALSE, FALSE, FALSE);
}
}
msgmore(curbuf->b_ml.ml_line_count - old_lcount);
setmarks:
if (oap->block_mode) {
curbuf->b_op_end.lnum = oap->end.lnum;
curbuf->b_op_end.col = oap->start.col;
} else
curbuf->b_op_end = oap->start;
curbuf->b_op_start = oap->start;
return OK;
}
/*
* Adjust end of operating area for ending on a multi-byte character.
* Used for deletion.
*/
static void mb_adjust_opend(oparg_T *oap)
{
char_u *p;
if (oap->inclusive) {
p = ml_get(oap->end.lnum);
oap->end.col += mb_tail_off(p, p + oap->end.col);
}
}
/*
* Replace a whole area with one character.
*/
int op_replace(oparg_T *oap, int c)
{
int n, numc;
int num_chars;
char_u *newp, *oldp;
size_t oldlen;
struct block_def bd;
char_u *after_p = NULL;
int had_ctrl_v_cr = (c == -1 || c == -2);
if ((curbuf->b_ml.ml_flags & ML_EMPTY ) || oap->empty)
return OK; /* nothing to do */
if (had_ctrl_v_cr)
c = (c == -1 ? '\r' : '\n');
if (has_mbyte)
mb_adjust_opend(oap);
if (u_save((linenr_T)(oap->start.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return FAIL;
/*
* block mode replace
*/
if (oap->block_mode) {
bd.is_MAX = (curwin->w_curswant == MAXCOL);
for (; curwin->w_cursor.lnum <= oap->end.lnum; ++curwin->w_cursor.lnum) {
curwin->w_cursor.col = 0; /* make sure cursor position is valid */
block_prep(oap, &bd, curwin->w_cursor.lnum, TRUE);
if (bd.textlen == 0 && (!virtual_op || bd.is_MAX))
continue; /* nothing to replace */
/* n == number of extra chars required
* If we split a TAB, it may be replaced by several characters.
* Thus the number of characters may increase!
*/
/* If the range starts in virtual space, count the initial
* coladd offset as part of "startspaces" */
if (virtual_op && bd.is_short && *bd.textstart == NUL) {
pos_T vpos;
vpos.lnum = curwin->w_cursor.lnum;
getvpos(&vpos, oap->start_vcol);
bd.startspaces += vpos.coladd;
n = bd.startspaces;
} else
/* allow for pre spaces */
n = (bd.startspaces ? bd.start_char_vcols - 1 : 0);
/* allow for post spp */
n += (bd.endspaces
&& !bd.is_oneChar
&& bd.end_char_vcols > 0) ? bd.end_char_vcols - 1 : 0;
/* Figure out how many characters to replace. */
numc = oap->end_vcol - oap->start_vcol + 1;
if (bd.is_short && (!virtual_op || bd.is_MAX))
numc -= (oap->end_vcol - bd.end_vcol) + 1;
/* A double-wide character can be replaced only up to half the
* times. */
if ((*mb_char2cells)(c) > 1) {
if ((numc & 1) && !bd.is_short) {
++bd.endspaces;
++n;
}
numc = numc / 2;
}
/* Compute bytes needed, move character count to num_chars. */
num_chars = numc;
numc *= (*mb_char2len)(c);
/* oldlen includes textlen, so don't double count */
n += numc - bd.textlen;
oldp = ml_get_curline();
oldlen = STRLEN(oldp);
newp = alloc_check((unsigned)oldlen + 1 + n);
if (newp == NULL)
continue;
memset(newp, NUL, (size_t)(oldlen + 1 + n));
/* copy up to deleted part */
memmove(newp, oldp, (size_t)bd.textcol);
oldp += bd.textcol + bd.textlen;
/* insert pre-spaces */
copy_spaces(newp + bd.textcol, (size_t)bd.startspaces);
/* insert replacement chars CHECK FOR ALLOCATED SPACE */
/* -1/-2 is used for entering CR literally. */
if (had_ctrl_v_cr || (c != '\r' && c != '\n')) {
if (has_mbyte) {
n = (int)STRLEN(newp);
while (--num_chars >= 0)
n += (*mb_char2bytes)(c, newp + n);
} else
copy_chars(newp + STRLEN(newp), (size_t)numc, c);
if (!bd.is_short) {
/* insert post-spaces */
copy_spaces(newp + STRLEN(newp), (size_t)bd.endspaces);
/* copy the part after the changed part */
STRMOVE(newp + STRLEN(newp), oldp);
}
} else {
/* Replacing with \r or \n means splitting the line. */
after_p = alloc_check(
(unsigned)(oldlen + 1 + n - STRLEN(newp)));
if (after_p != NULL)
STRMOVE(after_p, oldp);
}
/* replace the line */
ml_replace(curwin->w_cursor.lnum, newp, FALSE);
if (after_p != NULL) {
ml_append(curwin->w_cursor.lnum++, after_p, 0, FALSE);
appended_lines_mark(curwin->w_cursor.lnum, 1L);
oap->end.lnum++;
vim_free(after_p);
}
}
} else {
/*
* MCHAR and MLINE motion replace.
*/
if (oap->motion_type == MLINE) {
oap->start.col = 0;
curwin->w_cursor.col = 0;
oap->end.col = (colnr_T)STRLEN(ml_get(oap->end.lnum));
if (oap->end.col)
--oap->end.col;
} else if (!oap->inclusive)
dec(&(oap->end));
while (ltoreq(curwin->w_cursor, oap->end)) {
n = gchar_cursor();
if (n != NUL) {
if ((*mb_char2len)(c) > 1 || (*mb_char2len)(n) > 1) {
/* This is slow, but it handles replacing a single-byte
* with a multi-byte and the other way around. */
if (curwin->w_cursor.lnum == oap->end.lnum)
oap->end.col += (*mb_char2len)(c) - (*mb_char2len)(n);
n = State;
State = REPLACE;
ins_char(c);
State = n;
/* Backup to the replaced character. */
dec_cursor();
} else {
if (n == TAB) {
int end_vcol = 0;
if (curwin->w_cursor.lnum == oap->end.lnum) {
/* oap->end has to be recalculated when
* the tab breaks */
end_vcol = getviscol2(oap->end.col,
oap->end.coladd);
}
coladvance_force(getviscol());
if (curwin->w_cursor.lnum == oap->end.lnum)
getvpos(&oap->end, end_vcol);
}
pchar(curwin->w_cursor, c);
}
} else if (virtual_op && curwin->w_cursor.lnum == oap->end.lnum) {
int virtcols = oap->end.coladd;
if (curwin->w_cursor.lnum == oap->start.lnum
&& oap->start.col == oap->end.col && oap->start.coladd)
virtcols -= oap->start.coladd;
/* oap->end has been trimmed so it's effectively inclusive;
* as a result an extra +1 must be counted so we don't
* trample the NUL byte. */
coladvance_force(getviscol2(oap->end.col, oap->end.coladd) + 1);
curwin->w_cursor.col -= (virtcols + 1);
for (; virtcols >= 0; virtcols--) {
pchar(curwin->w_cursor, c);
if (inc(&curwin->w_cursor) == -1)
break;
}
}
/* Advance to next character, stop at the end of the file. */
if (inc_cursor() == -1)
break;
}
}
curwin->w_cursor = oap->start;
check_cursor();
changed_lines(oap->start.lnum, oap->start.col, oap->end.lnum + 1, 0L);
/* Set "'[" and "']" marks. */
curbuf->b_op_start = oap->start;
curbuf->b_op_end = oap->end;
return OK;
}
static int swapchars(int op_type, pos_T *pos, int length);
/*
* Handle the (non-standard vi) tilde operator. Also for "gu", "gU" and "g?".
*/
void op_tilde(oparg_T *oap)
{
pos_T pos;
struct block_def bd;
int did_change = FALSE;
if (u_save((linenr_T)(oap->start.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return;
pos = oap->start;
if (oap->block_mode) { /* Visual block mode */
for (; pos.lnum <= oap->end.lnum; ++pos.lnum) {
int one_change;
block_prep(oap, &bd, pos.lnum, FALSE);
pos.col = bd.textcol;
one_change = swapchars(oap->op_type, &pos, bd.textlen);
did_change |= one_change;
}
if (did_change)
changed_lines(oap->start.lnum, 0, oap->end.lnum + 1, 0L);
} else { /* not block mode */
if (oap->motion_type == MLINE) {
oap->start.col = 0;
pos.col = 0;
oap->end.col = (colnr_T)STRLEN(ml_get(oap->end.lnum));
if (oap->end.col)
--oap->end.col;
} else if (!oap->inclusive)
dec(&(oap->end));
if (pos.lnum == oap->end.lnum)
did_change = swapchars(oap->op_type, &pos,
oap->end.col - pos.col + 1);
else
for (;; ) {
did_change |= swapchars(oap->op_type, &pos,
pos.lnum == oap->end.lnum ? oap->end.col + 1 :
(int)STRLEN(ml_get_pos(&pos)));
if (ltoreq(oap->end, pos) || inc(&pos) == -1)
break;
}
if (did_change) {
changed_lines(oap->start.lnum, oap->start.col, oap->end.lnum + 1,
0L);
}
}
if (!did_change && oap->is_VIsual)
/* No change: need to remove the Visual selection */
redraw_curbuf_later(INVERTED);
/*
* Set '[ and '] marks.
*/
curbuf->b_op_start = oap->start;
curbuf->b_op_end = oap->end;
if (oap->line_count > p_report) {
if (oap->line_count == 1)
MSG(_("1 line changed"));
else
smsg((char_u *)_("%ld lines changed"), oap->line_count);
}
}
/*
* Invoke swapchar() on "length" bytes at position "pos".
* "pos" is advanced to just after the changed characters.
* "length" is rounded up to include the whole last multi-byte character.
* Also works correctly when the number of bytes changes.
* Returns TRUE if some character was changed.
*/
static int swapchars(int op_type, pos_T *pos, int length)
{
int todo;
int did_change = 0;
for (todo = length; todo > 0; --todo) {
if (has_mbyte) {
int len = (*mb_ptr2len)(ml_get_pos(pos));
/* we're counting bytes, not characters */
if (len > 0)
todo -= len - 1;
}
did_change |= swapchar(op_type, pos);
if (inc(pos) == -1) /* at end of file */
break;
}
return did_change;
}
/*
* If op_type == OP_UPPER: make uppercase,
* if op_type == OP_LOWER: make lowercase,
* if op_type == OP_ROT13: do rot13 encoding,
* else swap case of character at 'pos'
* returns TRUE when something actually changed.
*/
int swapchar(int op_type, pos_T *pos)
{
int c;
int nc;
c = gchar_pos(pos);
/* Only do rot13 encoding for ASCII characters. */
if (c >= 0x80 && op_type == OP_ROT13)
return FALSE;
if (op_type == OP_UPPER && c == 0xdf
&& (enc_latin1like || STRCMP(p_enc, "iso-8859-2") == 0)) {
pos_T sp = curwin->w_cursor;
/* Special handling of German sharp s: change to "SS". */
curwin->w_cursor = *pos;
del_char(FALSE);
ins_char('S');
ins_char('S');
curwin->w_cursor = sp;
inc(pos);
}
if (enc_dbcs != 0 && c >= 0x100) /* No lower/uppercase letter */
return FALSE;
nc = c;
if (MB_ISLOWER(c)) {
if (op_type == OP_ROT13)
nc = ROT13(c, 'a');
else if (op_type != OP_LOWER)
nc = MB_TOUPPER(c);
} else if (MB_ISUPPER(c)) {
if (op_type == OP_ROT13)
nc = ROT13(c, 'A');
else if (op_type != OP_UPPER)
nc = MB_TOLOWER(c);
}
if (nc != c) {
if (enc_utf8 && (c >= 0x80 || nc >= 0x80)) {
pos_T sp = curwin->w_cursor;
curwin->w_cursor = *pos;
/* don't use del_char(), it also removes composing chars */
del_bytes(utf_ptr2len(ml_get_cursor()), FALSE, FALSE);
ins_char(nc);
curwin->w_cursor = sp;
} else
pchar(*pos, nc);
return TRUE;
}
return FALSE;
}
/*
* op_insert - Insert and append operators for Visual mode.
*/
void op_insert(oparg_T *oap, long count1)
{
long ins_len, pre_textlen = 0;
char_u *firstline, *ins_text;
struct block_def bd;
int i;
/* edit() changes this - record it for OP_APPEND */
bd.is_MAX = (curwin->w_curswant == MAXCOL);
/* vis block is still marked. Get rid of it now. */
curwin->w_cursor.lnum = oap->start.lnum;
update_screen(INVERTED);
if (oap->block_mode) {
/* When 'virtualedit' is used, need to insert the extra spaces before
* doing block_prep(). When only "block" is used, virtual edit is
* already disabled, but still need it when calling
* coladvance_force(). */
if (curwin->w_cursor.coladd > 0) {
int old_ve_flags = ve_flags;
ve_flags = VE_ALL;
if (u_save_cursor() == FAIL)
return;
coladvance_force(oap->op_type == OP_APPEND
? oap->end_vcol + 1 : getviscol());
if (oap->op_type == OP_APPEND)
--curwin->w_cursor.col;
ve_flags = old_ve_flags;
}
/* Get the info about the block before entering the text */
block_prep(oap, &bd, oap->start.lnum, TRUE);
firstline = ml_get(oap->start.lnum) + bd.textcol;
if (oap->op_type == OP_APPEND)
firstline += bd.textlen;
pre_textlen = (long)STRLEN(firstline);
}
if (oap->op_type == OP_APPEND) {
if (oap->block_mode
&& curwin->w_cursor.coladd == 0
) {
/* Move the cursor to the character right of the block. */
curwin->w_set_curswant = TRUE;
while (*ml_get_cursor() != NUL
&& (curwin->w_cursor.col < bd.textcol + bd.textlen))
++curwin->w_cursor.col;
if (bd.is_short && !bd.is_MAX) {
/* First line was too short, make it longer and adjust the
* values in "bd". */
if (u_save_cursor() == FAIL)
return;
for (i = 0; i < bd.endspaces; ++i)
ins_char(' ');
bd.textlen += bd.endspaces;
}
} else {
curwin->w_cursor = oap->end;
check_cursor_col();
/* Works just like an 'i'nsert on the next character. */
if (!lineempty(curwin->w_cursor.lnum)
&& oap->start_vcol != oap->end_vcol)
inc_cursor();
}
}
edit(NUL, FALSE, (linenr_T)count1);
/* If user has moved off this line, we don't know what to do, so do
* nothing.
* Also don't repeat the insert when Insert mode ended with CTRL-C. */
if (curwin->w_cursor.lnum != oap->start.lnum || got_int)
return;
if (oap->block_mode) {
struct block_def bd2;
/* The user may have moved the cursor before inserting something, try
* to adjust the block for that. */
if (oap->start.lnum == curbuf->b_op_start.lnum && !bd.is_MAX) {
if (oap->op_type == OP_INSERT
&& oap->start.col != curbuf->b_op_start.col) {
oap->start.col = curbuf->b_op_start.col;
pre_textlen -= getviscol2(oap->start.col, oap->start.coladd)
- oap->start_vcol;
oap->start_vcol = getviscol2(oap->start.col, oap->start.coladd);
} else if (oap->op_type == OP_APPEND
&& oap->end.col >= curbuf->b_op_start.col) {
oap->start.col = curbuf->b_op_start.col;
/* reset pre_textlen to the value of OP_INSERT */
pre_textlen += bd.textlen;
pre_textlen -= getviscol2(oap->start.col, oap->start.coladd)
- oap->start_vcol;
oap->start_vcol = getviscol2(oap->start.col, oap->start.coladd);
oap->op_type = OP_INSERT;
}
}
/*
* Spaces and tabs in the indent may have changed to other spaces and
* tabs. Get the starting column again and correct the length.
* Don't do this when "$" used, end-of-line will have changed.
*/
block_prep(oap, &bd2, oap->start.lnum, TRUE);
if (!bd.is_MAX || bd2.textlen < bd.textlen) {
if (oap->op_type == OP_APPEND) {
pre_textlen += bd2.textlen - bd.textlen;
if (bd2.endspaces)
--bd2.textlen;
}
bd.textcol = bd2.textcol;
bd.textlen = bd2.textlen;
}
/*
* Subsequent calls to ml_get() flush the firstline data - take a
* copy of the required string.
*/
firstline = ml_get(oap->start.lnum) + bd.textcol;
if (oap->op_type == OP_APPEND)
firstline += bd.textlen;
if (pre_textlen >= 0
&& (ins_len = (long)STRLEN(firstline) - pre_textlen) > 0) {
ins_text = vim_strnsave(firstline, (int)ins_len);
if (ins_text != NULL) {
/* block handled here */
if (u_save(oap->start.lnum,
(linenr_T)(oap->end.lnum + 1)) == OK)
block_insert(oap, ins_text, (oap->op_type == OP_INSERT),
&bd);
curwin->w_cursor.col = oap->start.col;
check_cursor();
vim_free(ins_text);
}
}
}
}
/*
* op_change - handle a change operation
*
* return TRUE if edit() returns because of a CTRL-O command
*/
int op_change(oparg_T *oap)
{
colnr_T l;
int retval;
long offset;
linenr_T linenr;
long ins_len;
long pre_textlen = 0;
long pre_indent = 0;
char_u *firstline;
char_u *ins_text, *newp, *oldp;
struct block_def bd;
l = oap->start.col;
if (oap->motion_type == MLINE) {
l = 0;
if (!p_paste && curbuf->b_p_si
&& !curbuf->b_p_cin
)
can_si = TRUE; /* It's like opening a new line, do si */
}
/* First delete the text in the region. In an empty buffer only need to
* save for undo */
if (curbuf->b_ml.ml_flags & ML_EMPTY) {
if (u_save_cursor() == FAIL)
return FALSE;
} else if (op_delete(oap) == FAIL)
return FALSE;
if ((l > curwin->w_cursor.col) && !lineempty(curwin->w_cursor.lnum)
&& !virtual_op)
inc_cursor();
/* check for still on same line (<CR> in inserted text meaningless) */
/* skip blank lines too */
if (oap->block_mode) {
/* Add spaces before getting the current line length. */
if (virtual_op && (curwin->w_cursor.coladd > 0
|| gchar_cursor() == NUL))
coladvance_force(getviscol());
firstline = ml_get(oap->start.lnum);
pre_textlen = (long)STRLEN(firstline);
pre_indent = (long)(skipwhite(firstline) - firstline);
bd.textcol = curwin->w_cursor.col;
}
if (oap->motion_type == MLINE)
fix_indent();
retval = edit(NUL, FALSE, (linenr_T)1);
/*
* In Visual block mode, handle copying the new text to all lines of the
* block.
* Don't repeat the insert when Insert mode ended with CTRL-C.
*/
if (oap->block_mode && oap->start.lnum != oap->end.lnum && !got_int) {
/* Auto-indenting may have changed the indent. If the cursor was past
* the indent, exclude that indent change from the inserted text. */
firstline = ml_get(oap->start.lnum);
if (bd.textcol > (colnr_T)pre_indent) {
long new_indent = (long)(skipwhite(firstline) - firstline);
pre_textlen += new_indent - pre_indent;
bd.textcol += new_indent - pre_indent;
}
ins_len = (long)STRLEN(firstline) - pre_textlen;
if (ins_len > 0) {
/* Subsequent calls to ml_get() flush the firstline data - take a
* copy of the inserted text. */
if ((ins_text = alloc_check((unsigned)(ins_len + 1))) != NULL) {
vim_strncpy(ins_text, firstline + bd.textcol, (size_t)ins_len);
for (linenr = oap->start.lnum + 1; linenr <= oap->end.lnum;
linenr++) {
block_prep(oap, &bd, linenr, TRUE);
if (!bd.is_short || virtual_op) {
pos_T vpos;
/* If the block starts in virtual space, count the
* initial coladd offset as part of "startspaces" */
if (bd.is_short) {
vpos.lnum = linenr;
(void)getvpos(&vpos, oap->start_vcol);
} else
vpos.coladd = 0;
oldp = ml_get(linenr);
newp = alloc_check((unsigned)(STRLEN(oldp)
+ vpos.coladd
+ ins_len + 1));
if (newp == NULL)
continue;
/* copy up to block start */
memmove(newp, oldp, (size_t)bd.textcol);
offset = bd.textcol;
copy_spaces(newp + offset, (size_t)vpos.coladd);
offset += vpos.coladd;
memmove(newp + offset, ins_text, (size_t)ins_len);
offset += ins_len;
oldp += bd.textcol;
STRMOVE(newp + offset, oldp);
ml_replace(linenr, newp, FALSE);
}
}
check_cursor();
changed_lines(oap->start.lnum + 1, 0, oap->end.lnum + 1, 0L);
}
vim_free(ins_text);
}
}
return retval;
}
/*
* set all the yank registers to empty (called from main())
*/
void init_yank(void)
{
int i;
for (i = 0; i < NUM_REGISTERS; ++i)
y_regs[i].y_array = NULL;
}
#if defined(EXITFREE) || defined(PROTO)
void clear_registers(void)
{
int i;
for (i = 0; i < NUM_REGISTERS; ++i) {
y_current = &y_regs[i];
if (y_current->y_array != NULL)
free_yank_all();
}
}
#endif
/*
* Free "n" lines from the current yank register.
* Called for normal freeing and in case of error.
*/
static void free_yank(long n)
{
if (y_current->y_array != NULL) {
long i;
for (i = n; --i >= 0; ) {
vim_free(y_current->y_array[i]);
}
vim_free(y_current->y_array);
y_current->y_array = NULL;
}
}
static void free_yank_all(void)
{
free_yank(y_current->y_size);
}
/*
* Yank the text between "oap->start" and "oap->end" into a yank register.
* If we are to append (uppercase register), we first yank into a new yank
* register and then concatenate the old and the new one (so we keep the old
* one in case of out-of-memory).
*
* Return FAIL for failure, OK otherwise.
*/
int op_yank(oparg_T *oap, int deleting, int mess)
{
long y_idx; /* index in y_array[] */
struct yankreg *curr; /* copy of y_current */
struct yankreg newreg; /* new yank register when appending */
char_u **new_ptr;
linenr_T lnum; /* current line number */
long j;
int yanktype = oap->motion_type;
long yanklines = oap->line_count;
linenr_T yankendlnum = oap->end.lnum;
char_u *p;
char_u *pnew;
struct block_def bd;
/* check for read-only register */
if (oap->regname != 0 && !valid_yank_reg(oap->regname, TRUE)) {
beep_flush();
return FAIL;
}
if (oap->regname == '_') /* black hole: nothing to do */
return OK;
if (!deleting) /* op_delete() already set y_current */
get_yank_register(oap->regname, TRUE);
curr = y_current;
/* append to existing contents */
if (y_append && y_current->y_array != NULL)
y_current = &newreg;
else
free_yank_all(); /* free previously yanked lines */
/*
* If the cursor was in column 1 before and after the movement, and the
* operator is not inclusive, the yank is always linewise.
*/
if ( oap->motion_type == MCHAR
&& oap->start.col == 0
&& !oap->inclusive
&& (!oap->is_VIsual || *p_sel == 'o')
&& !oap->block_mode
&& oap->end.col == 0
&& yanklines > 1) {
yanktype = MLINE;
--yankendlnum;
--yanklines;
}
y_current->y_size = yanklines;
y_current->y_type = yanktype; /* set the yank register type */
y_current->y_width = 0;
y_current->y_array = (char_u **)lalloc_clear((long_u)(sizeof(char_u *) *
yanklines), TRUE);
if (y_current->y_array == NULL) {
y_current = curr;
return FAIL;
}
y_idx = 0;
lnum = oap->start.lnum;
if (oap->block_mode) {
/* Visual block mode */
y_current->y_type = MBLOCK; /* set the yank register type */
y_current->y_width = oap->end_vcol - oap->start_vcol;
if (curwin->w_curswant == MAXCOL && y_current->y_width > 0)
y_current->y_width--;
}
for (; lnum <= yankendlnum; lnum++, y_idx++) {
switch (y_current->y_type) {
case MBLOCK:
block_prep(oap, &bd, lnum, FALSE);
if (yank_copy_line(&bd, y_idx) == FAIL)
goto fail;
break;
case MLINE:
if ((y_current->y_array[y_idx] =
vim_strsave(ml_get(lnum))) == NULL)
goto fail;
break;
case MCHAR:
{
colnr_T startcol = 0, endcol = MAXCOL;
int is_oneChar = FALSE;
colnr_T cs, ce;
p = ml_get(lnum);
bd.startspaces = 0;
bd.endspaces = 0;
if (lnum == oap->start.lnum) {
startcol = oap->start.col;
if (virtual_op) {
getvcol(curwin, &oap->start, &cs, NULL, &ce);
if (ce != cs && oap->start.coladd > 0) {
/* Part of a tab selected -- but don't
* double-count it. */
bd.startspaces = (ce - cs + 1)
- oap->start.coladd;
startcol++;
}
}
}
if (lnum == oap->end.lnum) {
endcol = oap->end.col;
if (virtual_op) {
getvcol(curwin, &oap->end, &cs, NULL, &ce);
if (p[endcol] == NUL || (cs + oap->end.coladd < ce
/* Don't add space for double-wide
* char; endcol will be on last byte
* of multi-byte char. */
&& (*mb_head_off)(p, p + endcol) == 0
)) {
if (oap->start.lnum == oap->end.lnum
&& oap->start.col == oap->end.col) {
/* Special case: inside a single char */
is_oneChar = TRUE;
bd.startspaces = oap->end.coladd
- oap->start.coladd + oap->inclusive;
endcol = startcol;
} else {
bd.endspaces = oap->end.coladd
+ oap->inclusive;
endcol -= oap->inclusive;
}
}
}
}
if (endcol == MAXCOL)
endcol = (colnr_T)STRLEN(p);
if (startcol > endcol
|| is_oneChar
)
bd.textlen = 0;
else {
bd.textlen = endcol - startcol + oap->inclusive;
}
bd.textstart = p + startcol;
if (yank_copy_line(&bd, y_idx) == FAIL)
goto fail;
break;
}
/* NOTREACHED */
}
}
if (curr != y_current) { /* append the new block to the old block */
new_ptr = (char_u **)lalloc(
(long_u)(sizeof(char_u *) *
(curr->y_size + y_current->y_size)),
TRUE);
if (new_ptr == NULL)
goto fail;
for (j = 0; j < curr->y_size; ++j)
new_ptr[j] = curr->y_array[j];
vim_free(curr->y_array);
curr->y_array = new_ptr;
if (yanktype == MLINE) /* MLINE overrides MCHAR and MBLOCK */
curr->y_type = MLINE;
/* Concatenate the last line of the old block with the first line of
* the new block, unless being Vi compatible. */
if (curr->y_type == MCHAR && vim_strchr(p_cpo, CPO_REGAPPEND) == NULL) {
pnew = lalloc((long_u)(STRLEN(curr->y_array[curr->y_size - 1])
+ STRLEN(y_current->y_array[0]) + 1), TRUE);
if (pnew == NULL) {
y_idx = y_current->y_size - 1;
goto fail;
}
STRCPY(pnew, curr->y_array[--j]);
STRCAT(pnew, y_current->y_array[0]);
vim_free(curr->y_array[j]);
vim_free(y_current->y_array[0]);
curr->y_array[j++] = pnew;
y_idx = 1;
} else
y_idx = 0;
while (y_idx < y_current->y_size)
curr->y_array[j++] = y_current->y_array[y_idx++];
curr->y_size = j;
vim_free(y_current->y_array);
y_current = curr;
}
if (mess) { /* Display message about yank? */
if (yanktype == MCHAR
&& !oap->block_mode
&& yanklines == 1)
yanklines = 0;
/* Some versions of Vi use ">=" here, some don't... */
if (yanklines > p_report) {
/* redisplay now, so message is not deleted */
update_topline_redraw();
if (yanklines == 1) {
if (oap->block_mode)
MSG(_("block of 1 line yanked"));
else
MSG(_("1 line yanked"));
} else if (oap->block_mode)
smsg((char_u *)_("block of %ld lines yanked"), yanklines);
else
smsg((char_u *)_("%ld lines yanked"), yanklines);
}
}
/*
* Set "'[" and "']" marks.
*/
curbuf->b_op_start = oap->start;
curbuf->b_op_end = oap->end;
if (yanktype == MLINE
&& !oap->block_mode
) {
curbuf->b_op_start.col = 0;
curbuf->b_op_end.col = MAXCOL;
}
return OK;
fail: /* free the allocated lines */
free_yank(y_idx + 1);
y_current = curr;
return FAIL;
}
static int yank_copy_line(struct block_def *bd, long y_idx)
{
char_u *pnew;
if ((pnew = alloc(bd->startspaces + bd->endspaces + bd->textlen + 1))
== NULL)
return FAIL;
y_current->y_array[y_idx] = pnew;
copy_spaces(pnew, (size_t)bd->startspaces);
pnew += bd->startspaces;
memmove(pnew, bd->textstart, (size_t)bd->textlen);
pnew += bd->textlen;
copy_spaces(pnew, (size_t)bd->endspaces);
pnew += bd->endspaces;
*pnew = NUL;
return OK;
}
/*
* Put contents of register "regname" into the text.
* Caller must check "regname" to be valid!
* "flags": PUT_FIXINDENT make indent look nice
* PUT_CURSEND leave cursor after end of new text
* PUT_LINE force linewise put (":put")
*/
void
do_put (
int regname,
int dir, /* BACKWARD for 'P', FORWARD for 'p' */
long count,
int flags
)
{
char_u *ptr;
char_u *newp, *oldp;
int yanklen;
int totlen = 0; /* init for gcc */
linenr_T lnum;
colnr_T col;
long i; /* index in y_array[] */
int y_type;
long y_size;
int oldlen;
long y_width = 0;
colnr_T vcol;
int delcount;
int incr = 0;
long j;
struct block_def bd;
char_u **y_array = NULL;
long nr_lines = 0;
pos_T new_cursor;
int indent;
int orig_indent = 0; /* init for gcc */
int indent_diff = 0; /* init for gcc */
int first_indent = TRUE;
int lendiff = 0;
pos_T old_pos;
char_u *insert_string = NULL;
int allocated = FALSE;
long cnt;
if (flags & PUT_FIXINDENT)
orig_indent = get_indent();
curbuf->b_op_start = curwin->w_cursor; /* default for '[ mark */
curbuf->b_op_end = curwin->w_cursor; /* default for '] mark */
/*
* Using inserted text works differently, because the register includes
* special characters (newlines, etc.).
*/
if (regname == '.') {
(void)stuff_inserted((dir == FORWARD ? (count == -1 ? 'o' : 'a') :
(count == -1 ? 'O' : 'i')), count, FALSE);
/* Putting the text is done later, so can't really move the cursor to
* the next character. Use "l" to simulate it. */
if ((flags & PUT_CURSEND) && gchar_cursor() != NUL)
stuffcharReadbuff('l');
return;
}
/*
* For special registers '%' (file name), '#' (alternate file name) and
* ':' (last command line), etc. we have to create a fake yank register.
*/
if (get_spec_reg(regname, &insert_string, &allocated, TRUE)) {
if (insert_string == NULL)
return;
}
/* Autocommands may be executed when saving lines for undo, which may make
* y_array invalid. Start undo now to avoid that. */
u_save(curwin->w_cursor.lnum, curwin->w_cursor.lnum + 1);
if (insert_string != NULL) {
y_type = MCHAR;
if (regname == '=') {
/* For the = register we need to split the string at NL
* characters.
* Loop twice: count the number of lines and save them. */
for (;; ) {
y_size = 0;
ptr = insert_string;
while (ptr != NULL) {
if (y_array != NULL)
y_array[y_size] = ptr;
++y_size;
ptr = vim_strchr(ptr, '\n');
if (ptr != NULL) {
if (y_array != NULL)
*ptr = NUL;
++ptr;
/* A trailing '\n' makes the register linewise. */
if (*ptr == NUL) {
y_type = MLINE;
break;
}
}
}
if (y_array != NULL)
break;
y_array = (char_u **)alloc((unsigned)
(y_size * sizeof(char_u *)));
if (y_array == NULL)
goto end;
}
} else {
y_size = 1; /* use fake one-line yank register */
y_array = &insert_string;
}
} else {
get_yank_register(regname, FALSE);
y_type = y_current->y_type;
y_width = y_current->y_width;
y_size = y_current->y_size;
y_array = y_current->y_array;
}
if (y_type == MLINE) {
if (flags & PUT_LINE_SPLIT) {
/* "p" or "P" in Visual mode: split the lines to put the text in
* between. */
if (u_save_cursor() == FAIL)
goto end;
ptr = vim_strsave(ml_get_cursor());
if (ptr == NULL)
goto end;
ml_append(curwin->w_cursor.lnum, ptr, (colnr_T)0, FALSE);
vim_free(ptr);
ptr = vim_strnsave(ml_get_curline(), curwin->w_cursor.col);
if (ptr == NULL)
goto end;
ml_replace(curwin->w_cursor.lnum, ptr, FALSE);
++nr_lines;
dir = FORWARD;
}
if (flags & PUT_LINE_FORWARD) {
/* Must be "p" for a Visual block, put lines below the block. */
curwin->w_cursor = curbuf->b_visual.vi_end;
dir = FORWARD;
}
curbuf->b_op_start = curwin->w_cursor; /* default for '[ mark */
curbuf->b_op_end = curwin->w_cursor; /* default for '] mark */
}
if (flags & PUT_LINE) /* :put command or "p" in Visual line mode. */
y_type = MLINE;
if (y_size == 0 || y_array == NULL) {
EMSG2(_("E353: Nothing in register %s"),
regname == 0 ? (char_u *)"\"" : transchar(regname));
goto end;
}
if (y_type == MBLOCK) {
lnum = curwin->w_cursor.lnum + y_size + 1;
if (lnum > curbuf->b_ml.ml_line_count)
lnum = curbuf->b_ml.ml_line_count + 1;
if (u_save(curwin->w_cursor.lnum - 1, lnum) == FAIL)
goto end;
} else if (y_type == MLINE) {
lnum = curwin->w_cursor.lnum;
/* Correct line number for closed fold. Don't move the cursor yet,
* u_save() uses it. */
if (dir == BACKWARD)
(void)hasFolding(lnum, &lnum, NULL);
else
(void)hasFolding(lnum, NULL, &lnum);
if (dir == FORWARD)
++lnum;
/* In an empty buffer the empty line is going to be replaced, include
* it in the saved lines. */
if ((bufempty() ? u_save(0, 2) : u_save(lnum - 1, lnum)) == FAIL)
goto end;
if (dir == FORWARD)
curwin->w_cursor.lnum = lnum - 1;
else
curwin->w_cursor.lnum = lnum;
curbuf->b_op_start = curwin->w_cursor; /* for mark_adjust() */
} else if (u_save_cursor() == FAIL)
goto end;
yanklen = (int)STRLEN(y_array[0]);
if (ve_flags == VE_ALL && y_type == MCHAR) {
if (gchar_cursor() == TAB) {
/* Don't need to insert spaces when "p" on the last position of a
* tab or "P" on the first position. */
if (dir == FORWARD
? (int)curwin->w_cursor.coladd < curbuf->b_p_ts - 1
: curwin->w_cursor.coladd > 0)
coladvance_force(getviscol());
else
curwin->w_cursor.coladd = 0;
} else if (curwin->w_cursor.coladd > 0 || gchar_cursor() == NUL)
coladvance_force(getviscol() + (dir == FORWARD));
}
lnum = curwin->w_cursor.lnum;
col = curwin->w_cursor.col;
/*
* Block mode
*/
if (y_type == MBLOCK) {
char c = gchar_cursor();
colnr_T endcol2 = 0;
if (dir == FORWARD && c != NUL) {
if (ve_flags == VE_ALL)
getvcol(curwin, &curwin->w_cursor, &col, NULL, &endcol2);
else
getvcol(curwin, &curwin->w_cursor, NULL, NULL, &col);
if (has_mbyte)
/* move to start of next multi-byte character */
curwin->w_cursor.col += (*mb_ptr2len)(ml_get_cursor());
else if (c != TAB || ve_flags != VE_ALL)
++curwin->w_cursor.col;
++col;
} else
getvcol(curwin, &curwin->w_cursor, &col, NULL, &endcol2);
col += curwin->w_cursor.coladd;
if (ve_flags == VE_ALL
&& (curwin->w_cursor.coladd > 0
|| endcol2 == curwin->w_cursor.col)) {
if (dir == FORWARD && c == NUL)
++col;
if (dir != FORWARD && c != NUL)
++curwin->w_cursor.col;
if (c == TAB) {
if (dir == BACKWARD && curwin->w_cursor.col)
curwin->w_cursor.col--;
if (dir == FORWARD && col - 1 == endcol2)
curwin->w_cursor.col++;
}
}
curwin->w_cursor.coladd = 0;
bd.textcol = 0;
for (i = 0; i < y_size; ++i) {
int spaces;
char shortline;
bd.startspaces = 0;
bd.endspaces = 0;
vcol = 0;
delcount = 0;
/* add a new line */
if (curwin->w_cursor.lnum > curbuf->b_ml.ml_line_count) {
if (ml_append(curbuf->b_ml.ml_line_count, (char_u *)"",
(colnr_T)1, FALSE) == FAIL)
break;
++nr_lines;
}
/* get the old line and advance to the position to insert at */
oldp = ml_get_curline();
oldlen = (int)STRLEN(oldp);
for (ptr = oldp; vcol < col && *ptr; ) {
/* Count a tab for what it's worth (if list mode not on) */
incr = lbr_chartabsize_adv(&ptr, (colnr_T)vcol);
vcol += incr;
}
bd.textcol = (colnr_T)(ptr - oldp);
shortline = (vcol < col) || (vcol == col && !*ptr);
if (vcol < col) /* line too short, padd with spaces */
bd.startspaces = col - vcol;
else if (vcol > col) {
bd.endspaces = vcol - col;
bd.startspaces = incr - bd.endspaces;
--bd.textcol;
delcount = 1;
if (has_mbyte)
bd.textcol -= (*mb_head_off)(oldp, oldp + bd.textcol);
if (oldp[bd.textcol] != TAB) {
/* Only a Tab can be split into spaces. Other
* characters will have to be moved to after the
* block, causing misalignment. */
delcount = 0;
bd.endspaces = 0;
}
}
yanklen = (int)STRLEN(y_array[i]);
/* calculate number of spaces required to fill right side of block*/
spaces = y_width + 1;
for (j = 0; j < yanklen; j++)
spaces -= lbr_chartabsize(&y_array[i][j], 0);
if (spaces < 0)
spaces = 0;
/* insert the new text */
totlen = count * (yanklen + spaces) + bd.startspaces + bd.endspaces;
newp = alloc_check((unsigned)totlen + oldlen + 1);
if (newp == NULL)
break;
/* copy part up to cursor to new line */
ptr = newp;
memmove(ptr, oldp, (size_t)bd.textcol);
ptr += bd.textcol;
/* may insert some spaces before the new text */
copy_spaces(ptr, (size_t)bd.startspaces);
ptr += bd.startspaces;
/* insert the new text */
for (j = 0; j < count; ++j) {
memmove(ptr, y_array[i], (size_t)yanklen);
ptr += yanklen;
/* insert block's trailing spaces only if there's text behind */
if ((j < count - 1 || !shortline) && spaces) {
copy_spaces(ptr, (size_t)spaces);
ptr += spaces;
}
}
/* may insert some spaces after the new text */
copy_spaces(ptr, (size_t)bd.endspaces);
ptr += bd.endspaces;
/* move the text after the cursor to the end of the line. */
memmove(ptr, oldp + bd.textcol + delcount,
(size_t)(oldlen - bd.textcol - delcount + 1));
ml_replace(curwin->w_cursor.lnum, newp, FALSE);
++curwin->w_cursor.lnum;
if (i == 0)
curwin->w_cursor.col += bd.startspaces;
}
changed_lines(lnum, 0, curwin->w_cursor.lnum, nr_lines);
/* Set '[ mark. */
curbuf->b_op_start = curwin->w_cursor;
curbuf->b_op_start.lnum = lnum;
/* adjust '] mark */
curbuf->b_op_end.lnum = curwin->w_cursor.lnum - 1;
curbuf->b_op_end.col = bd.textcol + totlen - 1;
curbuf->b_op_end.coladd = 0;
if (flags & PUT_CURSEND) {
colnr_T len;
curwin->w_cursor = curbuf->b_op_end;
curwin->w_cursor.col++;
/* in Insert mode we might be after the NUL, correct for that */
len = (colnr_T)STRLEN(ml_get_curline());
if (curwin->w_cursor.col > len)
curwin->w_cursor.col = len;
} else
curwin->w_cursor.lnum = lnum;
} else {
/*
* Character or Line mode
*/
if (y_type == MCHAR) {
/* if type is MCHAR, FORWARD is the same as BACKWARD on the next
* char */
if (dir == FORWARD && gchar_cursor() != NUL) {
if (has_mbyte) {
int bytelen = (*mb_ptr2len)(ml_get_cursor());
/* put it on the next of the multi-byte character. */
col += bytelen;
if (yanklen) {
curwin->w_cursor.col += bytelen;
curbuf->b_op_end.col += bytelen;
}
} else {
++col;
if (yanklen) {
++curwin->w_cursor.col;
++curbuf->b_op_end.col;
}
}
}
curbuf->b_op_start = curwin->w_cursor;
}
/*
* Line mode: BACKWARD is the same as FORWARD on the previous line
*/
else if (dir == BACKWARD)
--lnum;
new_cursor = curwin->w_cursor;
/*
* simple case: insert into current line
*/
if (y_type == MCHAR && y_size == 1) {
do {
totlen = count * yanklen;
if (totlen > 0) {
oldp = ml_get(lnum);
newp = alloc_check((unsigned)(STRLEN(oldp) + totlen + 1));
if (newp == NULL)
goto end; /* alloc() gave an error message */
memmove(newp, oldp, (size_t)col);
ptr = newp + col;
for (i = 0; i < count; ++i) {
memmove(ptr, y_array[0], (size_t)yanklen);
ptr += yanklen;
}
STRMOVE(ptr, oldp + col);
ml_replace(lnum, newp, FALSE);
/* Place cursor on last putted char. */
if (lnum == curwin->w_cursor.lnum) {
/* make sure curwin->w_virtcol is updated */
changed_cline_bef_curs();
curwin->w_cursor.col += (colnr_T)(totlen - 1);
}
}
if (VIsual_active)
lnum++;
} while (
VIsual_active && lnum <= curbuf->b_visual.vi_end.lnum
);
curbuf->b_op_end = curwin->w_cursor;
/* For "CTRL-O p" in Insert mode, put cursor after last char */
if (totlen && (restart_edit != 0 || (flags & PUT_CURSEND)))
++curwin->w_cursor.col;
changed_bytes(lnum, col);
} else {
/*
* Insert at least one line. When y_type is MCHAR, break the first
* line in two.
*/
for (cnt = 1; cnt <= count; ++cnt) {
i = 0;
if (y_type == MCHAR) {
/*
* Split the current line in two at the insert position.
* First insert y_array[size - 1] in front of second line.
* Then append y_array[0] to first line.
*/
lnum = new_cursor.lnum;
ptr = ml_get(lnum) + col;
totlen = (int)STRLEN(y_array[y_size - 1]);
newp = alloc_check((unsigned)(STRLEN(ptr) + totlen + 1));
if (newp == NULL)
goto error;
STRCPY(newp, y_array[y_size - 1]);
STRCAT(newp, ptr);
/* insert second line */
ml_append(lnum, newp, (colnr_T)0, FALSE);
vim_free(newp);
oldp = ml_get(lnum);
newp = alloc_check((unsigned)(col + yanklen + 1));
if (newp == NULL)
goto error;
/* copy first part of line */
memmove(newp, oldp, (size_t)col);
/* append to first line */
memmove(newp + col, y_array[0], (size_t)(yanklen + 1));
ml_replace(lnum, newp, FALSE);
curwin->w_cursor.lnum = lnum;
i = 1;
}
for (; i < y_size; ++i) {
if ((y_type != MCHAR || i < y_size - 1)
&& ml_append(lnum, y_array[i], (colnr_T)0, FALSE)
== FAIL)
goto error;
lnum++;
++nr_lines;
if (flags & PUT_FIXINDENT) {
old_pos = curwin->w_cursor;
curwin->w_cursor.lnum = lnum;
ptr = ml_get(lnum);
if (cnt == count && i == y_size - 1)
lendiff = (int)STRLEN(ptr);
if (*ptr == '#' && preprocs_left())
indent = 0; /* Leave # lines at start */
else if (*ptr == NUL)
indent = 0; /* Ignore empty lines */
else if (first_indent) {
indent_diff = orig_indent - get_indent();
indent = orig_indent;
first_indent = FALSE;
} else if ((indent = get_indent() + indent_diff) < 0)
indent = 0;
(void)set_indent(indent, 0);
curwin->w_cursor = old_pos;
/* remember how many chars were removed */
if (cnt == count && i == y_size - 1)
lendiff -= (int)STRLEN(ml_get(lnum));
}
}
}
error:
/* Adjust marks. */
if (y_type == MLINE) {
curbuf->b_op_start.col = 0;
if (dir == FORWARD)
curbuf->b_op_start.lnum++;
}
mark_adjust(curbuf->b_op_start.lnum + (y_type == MCHAR),
(linenr_T)MAXLNUM, nr_lines, 0L);
/* note changed text for displaying and folding */
if (y_type == MCHAR)
changed_lines(curwin->w_cursor.lnum, col,
curwin->w_cursor.lnum + 1, nr_lines);
else
changed_lines(curbuf->b_op_start.lnum, 0,
curbuf->b_op_start.lnum, nr_lines);
/* put '] mark at last inserted character */
curbuf->b_op_end.lnum = lnum;
/* correct length for change in indent */
col = (colnr_T)STRLEN(y_array[y_size - 1]) - lendiff;
if (col > 1)
curbuf->b_op_end.col = col - 1;
else
curbuf->b_op_end.col = 0;
if (flags & PUT_CURSLINE) {
/* ":put": put cursor on last inserted line */
curwin->w_cursor.lnum = lnum;
beginline(BL_WHITE | BL_FIX);
} else if (flags & PUT_CURSEND) {
/* put cursor after inserted text */
if (y_type == MLINE) {
if (lnum >= curbuf->b_ml.ml_line_count)
curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count;
else
curwin->w_cursor.lnum = lnum + 1;
curwin->w_cursor.col = 0;
} else {
curwin->w_cursor.lnum = lnum;
curwin->w_cursor.col = col;
}
} else if (y_type == MLINE) {
/* put cursor on first non-blank in first inserted line */
curwin->w_cursor.col = 0;
if (dir == FORWARD)
++curwin->w_cursor.lnum;
beginline(BL_WHITE | BL_FIX);
} else /* put cursor on first inserted character */
curwin->w_cursor = new_cursor;
}
}
msgmore(nr_lines);
curwin->w_set_curswant = TRUE;
end:
if (allocated)
vim_free(insert_string);
if (regname == '=')
vim_free(y_array);
VIsual_active = FALSE;
/* If the cursor is past the end of the line put it at the end. */
adjust_cursor_eol();
}
/*
* When the cursor is on the NUL past the end of the line and it should not be
* there move it left.
*/
void adjust_cursor_eol(void)
{
if (curwin->w_cursor.col > 0
&& gchar_cursor() == NUL
&& (ve_flags & VE_ONEMORE) == 0
&& !(restart_edit || (State & INSERT))) {
/* Put the cursor on the last character in the line. */
dec_cursor();
if (ve_flags == VE_ALL) {
colnr_T scol, ecol;
/* Coladd is set to the width of the last character. */
getvcol(curwin, &curwin->w_cursor, &scol, NULL, &ecol);
curwin->w_cursor.coladd = ecol - scol + 1;
}
}
}
/*
* Return TRUE if lines starting with '#' should be left aligned.
*/
int preprocs_left(void)
{
return
(curbuf->b_p_si && !curbuf->b_p_cin) ||
(curbuf->b_p_cin && in_cinkeys('#', ' ', TRUE)
&& curbuf->b_ind_hash_comment == 0)
;
}
/* Return the character name of the register with the given number */
int get_register_name(int num)
{
if (num == -1)
return '"';
else if (num < 10)
return num + '0';
else if (num == DELETION_REGISTER)
return '-';
else {
return num + 'a' - 10;
}
}
/*
* ":dis" and ":registers": Display the contents of the yank registers.
*/
void ex_display(exarg_T *eap)
{
int i, n;
long j;
char_u *p;
struct yankreg *yb;
int name;
int attr;
char_u *arg = eap->arg;
int clen;
if (arg != NULL && *arg == NUL)
arg = NULL;
attr = hl_attr(HLF_8);
/* Highlight title */
MSG_PUTS_TITLE(_("\n--- Registers ---"));
for (i = -1; i < NUM_REGISTERS && !got_int; ++i) {
name = get_register_name(i);
if (arg != NULL && vim_strchr(arg, name) == NULL
#ifdef ONE_CLIPBOARD
/* Star register and plus register contain the same thing. */
&& (name != '*' || vim_strchr(arg, '+') == NULL)
#endif
)
continue; /* did not ask for this register */
if (i == -1) {
if (y_previous != NULL)
yb = y_previous;
else
yb = &(y_regs[0]);
} else
yb = &(y_regs[i]);
if (name == MB_TOLOWER(redir_reg)
|| (redir_reg == '"' && yb == y_previous))
continue; /* do not list register being written to, the
* pointer can be freed */
if (yb->y_array != NULL) {
msg_putchar('\n');
msg_putchar('"');
msg_putchar(name);
MSG_PUTS(" ");
n = (int)Columns - 6;
for (j = 0; j < yb->y_size && n > 1; ++j) {
if (j) {
MSG_PUTS_ATTR("^J", attr);
n -= 2;
}
for (p = yb->y_array[j]; *p && (n -= ptr2cells(p)) >= 0; ++p) {
clen = (*mb_ptr2len)(p);
msg_outtrans_len(p, clen);
p += clen - 1;
}
}
if (n > 1 && yb->y_type == MLINE)
MSG_PUTS_ATTR("^J", attr);
out_flush(); /* show one line at a time */
}
ui_breakcheck();
}
/*
* display last inserted text
*/
if ((p = get_last_insert()) != NULL
&& (arg == NULL || vim_strchr(arg, '.') != NULL) && !got_int) {
MSG_PUTS("\n\". ");
dis_msg(p, TRUE);
}
/*
* display last command line
*/
if (last_cmdline != NULL && (arg == NULL || vim_strchr(arg, ':') != NULL)
&& !got_int) {
MSG_PUTS("\n\": ");
dis_msg(last_cmdline, FALSE);
}
/*
* display current file name
*/
if (curbuf->b_fname != NULL
&& (arg == NULL || vim_strchr(arg, '%') != NULL) && !got_int) {
MSG_PUTS("\n\"% ");
dis_msg(curbuf->b_fname, FALSE);
}
/*
* display alternate file name
*/
if ((arg == NULL || vim_strchr(arg, '%') != NULL) && !got_int) {
char_u *fname;
linenr_T dummy;
if (buflist_name_nr(0, &fname, &dummy) != FAIL) {
MSG_PUTS("\n\"# ");
dis_msg(fname, FALSE);
}
}
/*
* display last search pattern
*/
if (last_search_pat() != NULL
&& (arg == NULL || vim_strchr(arg, '/') != NULL) && !got_int) {
MSG_PUTS("\n\"/ ");
dis_msg(last_search_pat(), FALSE);
}
/*
* display last used expression
*/
if (expr_line != NULL && (arg == NULL || vim_strchr(arg, '=') != NULL)
&& !got_int) {
MSG_PUTS("\n\"= ");
dis_msg(expr_line, FALSE);
}
}
/*
* display a string for do_dis()
* truncate at end of screen line
*/
static void
dis_msg (
char_u *p,
int skip_esc /* if TRUE, ignore trailing ESC */
)
{
int n;
int l;
n = (int)Columns - 6;
while (*p != NUL
&& !(*p == ESC && skip_esc && *(p + 1) == NUL)
&& (n -= ptr2cells(p)) >= 0) {
if (has_mbyte && (l = (*mb_ptr2len)(p)) > 1) {
msg_outtrans_len(p, l);
p += l;
} else
msg_outtrans_len(p++, 1);
}
ui_breakcheck();
}
/*
* If "process" is TRUE and the line begins with a comment leader (possibly
* after some white space), return a pointer to the text after it. Put a boolean
* value indicating whether the line ends with an unclosed comment in
* "is_comment".
* line - line to be processed,
* process - if FALSE, will only check whether the line ends with an unclosed
* comment,
* include_space - whether to also skip space following the comment leader,
* is_comment - will indicate whether the current line ends with an unclosed
* comment.
*/
static char_u *skip_comment(char_u *line, int process, int include_space, int *is_comment)
{
char_u *comment_flags = NULL;
int lead_len;
int leader_offset = get_last_leader_offset(line, &comment_flags);
*is_comment = FALSE;
if (leader_offset != -1) {
/* Let's check whether the line ends with an unclosed comment.
* If the last comment leader has COM_END in flags, there's no comment.
*/
while (*comment_flags) {
if (*comment_flags == COM_END
|| *comment_flags == ':')
break;
++comment_flags;
}
if (*comment_flags != COM_END)
*is_comment = TRUE;
}
if (process == FALSE)
return line;
lead_len = get_leader_len(line, &comment_flags, FALSE, include_space);
if (lead_len == 0)
return line;
/* Find:
* - COM_END,
* - colon,
* whichever comes first.
*/
while (*comment_flags) {
if (*comment_flags == COM_END
|| *comment_flags == ':') {
break;
}
++comment_flags;
}
/* If we found a colon, it means that we are not processing a line
* starting with a closing part of a three-part comment. That's good,
* because we don't want to remove those as this would be annoying.
*/
if (*comment_flags == ':' || *comment_flags == NUL)
line += lead_len;
return line;
}
/*
* Join 'count' lines (minimal 2) at cursor position.
* When "save_undo" is TRUE save lines for undo first.
* Set "use_formatoptions" to FALSE when e.g. processing
* backspace and comment leaders should not be removed.
*
* return FAIL for failure, OK otherwise
*/
int do_join(long count, int insert_space, int save_undo, int use_formatoptions)
{
char_u *curr = NULL;
char_u *curr_start = NULL;
char_u *cend;
char_u *newp;
char_u *spaces; /* number of spaces inserted before a line */
int endcurr1 = NUL;
int endcurr2 = NUL;
int currsize = 0; /* size of the current line */
int sumsize = 0; /* size of the long new line */
linenr_T t;
colnr_T col = 0;
int ret = OK;
int *comments = NULL;
int remove_comments = (use_formatoptions == TRUE)
&& has_format_option(FO_REMOVE_COMS);
int prev_was_comment;
if (save_undo && u_save((linenr_T)(curwin->w_cursor.lnum - 1),
(linenr_T)(curwin->w_cursor.lnum + count)) == FAIL)
return FAIL;
/* Allocate an array to store the number of spaces inserted before each
* line. We will use it to pre-compute the length of the new line and the
* proper placement of each original line in the new one. */
spaces = lalloc_clear((long_u)count, TRUE);
if (spaces == NULL)
return FAIL;
if (remove_comments) {
comments = (int *)lalloc_clear((long_u)count * sizeof(int), TRUE);
if (comments == NULL) {
vim_free(spaces);
return FAIL;
}
}
/*
* Don't move anything, just compute the final line length
* and setup the array of space strings lengths
*/
for (t = 0; t < count; ++t) {
curr = curr_start = ml_get((linenr_T)(curwin->w_cursor.lnum + t));
if (remove_comments) {
/* We don't want to remove the comment leader if the
* previous line is not a comment. */
if (t > 0 && prev_was_comment) {
char_u *new_curr = skip_comment(curr, TRUE, insert_space,
&prev_was_comment);
comments[t] = (int)(new_curr - curr);
curr = new_curr;
} else
curr = skip_comment(curr, FALSE, insert_space,
&prev_was_comment);
}
if (insert_space && t > 0) {
curr = skipwhite(curr);
if (*curr != ')' && currsize != 0 && endcurr1 != TAB
&& (!has_format_option(FO_MBYTE_JOIN)
|| (mb_ptr2char(curr) < 0x100 && endcurr1 < 0x100))
&& (!has_format_option(FO_MBYTE_JOIN2)
|| mb_ptr2char(curr) < 0x100 || endcurr1 < 0x100)
) {
/* don't add a space if the line is ending in a space */
if (endcurr1 == ' ')
endcurr1 = endcurr2;
else
++spaces[t];
/* extra space when 'joinspaces' set and line ends in '.' */
if ( p_js
&& (endcurr1 == '.'
|| (vim_strchr(p_cpo, CPO_JOINSP) == NULL
&& (endcurr1 == '?' || endcurr1 == '!'))))
++spaces[t];
}
}
currsize = (int)STRLEN(curr);
sumsize += currsize + spaces[t];
endcurr1 = endcurr2 = NUL;
if (insert_space && currsize > 0) {
if (has_mbyte) {
cend = curr + currsize;
mb_ptr_back(curr, cend);
endcurr1 = (*mb_ptr2char)(cend);
if (cend > curr) {
mb_ptr_back(curr, cend);
endcurr2 = (*mb_ptr2char)(cend);
}
} else {
endcurr1 = *(curr + currsize - 1);
if (currsize > 1)
endcurr2 = *(curr + currsize - 2);
}
}
line_breakcheck();
if (got_int) {
ret = FAIL;
goto theend;
}
}
/* store the column position before last line */
col = sumsize - currsize - spaces[count - 1];
/* allocate the space for the new line */
newp = alloc_check((unsigned)(sumsize + 1));
cend = newp + sumsize;
*cend = 0;
/*
* Move affected lines to the new long one.
*
* Move marks from each deleted line to the joined line, adjusting the
* column. This is not Vi compatible, but Vi deletes the marks, thus that
* should not really be a problem.
*/
for (t = count - 1;; --t) {
cend -= currsize;
memmove(cend, curr, (size_t)currsize);
if (spaces[t] > 0) {
cend -= spaces[t];
copy_spaces(cend, (size_t)(spaces[t]));
}
mark_col_adjust(curwin->w_cursor.lnum + t, (colnr_T)0, (linenr_T)-t,
(long)(cend - newp + spaces[t] - (curr - curr_start)));
if (t == 0)
break;
curr = curr_start = ml_get((linenr_T)(curwin->w_cursor.lnum + t - 1));
if (remove_comments)
curr += comments[t - 1];
if (insert_space && t > 1)
curr = skipwhite(curr);
currsize = (int)STRLEN(curr);
}
ml_replace(curwin->w_cursor.lnum, newp, FALSE);
/* Only report the change in the first line here, del_lines() will report
* the deleted line. */
changed_lines(curwin->w_cursor.lnum, currsize,
curwin->w_cursor.lnum + 1, 0L);
/*
* Delete following lines. To do this we move the cursor there
* briefly, and then move it back. After del_lines() the cursor may
* have moved up (last line deleted), so the current lnum is kept in t.
*/
t = curwin->w_cursor.lnum;
++curwin->w_cursor.lnum;
del_lines(count - 1, FALSE);
curwin->w_cursor.lnum = t;
/*
* Set the cursor column:
* Vi compatible: use the column of the first join
* vim: use the column of the last join
*/
curwin->w_cursor.col =
(vim_strchr(p_cpo, CPO_JOINCOL) != NULL ? currsize : col);
check_cursor_col();
curwin->w_cursor.coladd = 0;
curwin->w_set_curswant = TRUE;
theend:
vim_free(spaces);
if (remove_comments)
vim_free(comments);
return ret;
}
/*
* Return TRUE if the two comment leaders given are the same. "lnum" is
* the first line. White-space is ignored. Note that the whole of
* 'leader1' must match 'leader2_len' characters from 'leader2' -- webb
*/
static int same_leader(linenr_T lnum, int leader1_len, char_u *leader1_flags, int leader2_len, char_u *leader2_flags)
{
int idx1 = 0, idx2 = 0;
char_u *p;
char_u *line1;
char_u *line2;
if (leader1_len == 0)
return leader2_len == 0;
/*
* If first leader has 'f' flag, the lines can be joined only if the
* second line does not have a leader.
* If first leader has 'e' flag, the lines can never be joined.
* If fist leader has 's' flag, the lines can only be joined if there is
* some text after it and the second line has the 'm' flag.
*/
if (leader1_flags != NULL) {
for (p = leader1_flags; *p && *p != ':'; ++p) {
if (*p == COM_FIRST)
return leader2_len == 0;
if (*p == COM_END)
return FALSE;
if (*p == COM_START) {
if (*(ml_get(lnum) + leader1_len) == NUL)
return FALSE;
if (leader2_flags == NULL || leader2_len == 0)
return FALSE;
for (p = leader2_flags; *p && *p != ':'; ++p)
if (*p == COM_MIDDLE)
return TRUE;
return FALSE;
}
}
}
/*
* Get current line and next line, compare the leaders.
* The first line has to be saved, only one line can be locked at a time.
*/
line1 = vim_strsave(ml_get(lnum));
if (line1 != NULL) {
for (idx1 = 0; vim_iswhite(line1[idx1]); ++idx1)
;
line2 = ml_get(lnum + 1);
for (idx2 = 0; idx2 < leader2_len; ++idx2) {
if (!vim_iswhite(line2[idx2])) {
if (line1[idx1++] != line2[idx2])
break;
} else
while (vim_iswhite(line1[idx1]))
++idx1;
}
vim_free(line1);
}
return idx2 == leader2_len && idx1 == leader1_len;
}
/*
* Implementation of the format operator 'gq'.
*/
void
op_format (
oparg_T *oap,
int keep_cursor /* keep cursor on same text char */
)
{
long old_line_count = curbuf->b_ml.ml_line_count;
/* Place the cursor where the "gq" or "gw" command was given, so that "u"
* can put it back there. */
curwin->w_cursor = oap->cursor_start;
if (u_save((linenr_T)(oap->start.lnum - 1),
(linenr_T)(oap->end.lnum + 1)) == FAIL)
return;
curwin->w_cursor = oap->start;
if (oap->is_VIsual)
/* When there is no change: need to remove the Visual selection */
redraw_curbuf_later(INVERTED);
/* Set '[ mark at the start of the formatted area */
curbuf->b_op_start = oap->start;
/* For "gw" remember the cursor position and put it back below (adjusted
* for joined and split lines). */
if (keep_cursor)
saved_cursor = oap->cursor_start;
format_lines(oap->line_count, keep_cursor);
/*
* Leave the cursor at the first non-blank of the last formatted line.
* If the cursor was moved one line back (e.g. with "Q}") go to the next
* line, so "." will do the next lines.
*/
if (oap->end_adjusted && curwin->w_cursor.lnum < curbuf->b_ml.ml_line_count)
++curwin->w_cursor.lnum;
beginline(BL_WHITE | BL_FIX);
old_line_count = curbuf->b_ml.ml_line_count - old_line_count;
msgmore(old_line_count);
/* put '] mark on the end of the formatted area */
curbuf->b_op_end = curwin->w_cursor;
if (keep_cursor) {
curwin->w_cursor = saved_cursor;
saved_cursor.lnum = 0;
}
if (oap->is_VIsual) {
win_T *wp;
FOR_ALL_WINDOWS(wp)
{
if (wp->w_old_cursor_lnum != 0) {
/* When lines have been inserted or deleted, adjust the end of
* the Visual area to be redrawn. */
if (wp->w_old_cursor_lnum > wp->w_old_visual_lnum)
wp->w_old_cursor_lnum += old_line_count;
else
wp->w_old_visual_lnum += old_line_count;
}
}
}
}
/*
* Implementation of the format operator 'gq' for when using 'formatexpr'.
*/
void op_formatexpr(oparg_T *oap)
{
if (oap->is_VIsual)
/* When there is no change: need to remove the Visual selection */
redraw_curbuf_later(INVERTED);
if (fex_format(oap->start.lnum, oap->line_count, NUL) != 0)
/* As documented: when 'formatexpr' returns non-zero fall back to
* internal formatting. */
op_format(oap, FALSE);
}
int
fex_format (
linenr_T lnum,
long count,
int c /* character to be inserted */
)
{
int use_sandbox = was_set_insecurely((char_u *)"formatexpr",
OPT_LOCAL);
int r;
/*
* Set v:lnum to the first line number and v:count to the number of lines.
* Set v:char to the character to be inserted (can be NUL).
*/
set_vim_var_nr(VV_LNUM, lnum);
set_vim_var_nr(VV_COUNT, count);
set_vim_var_char(c);
/*
* Evaluate the function.
*/
if (use_sandbox)
++sandbox;
r = eval_to_number(curbuf->b_p_fex);
if (use_sandbox)
--sandbox;
set_vim_var_string(VV_CHAR, NULL, -1);
return r;
}
/*
* Format "line_count" lines, starting at the cursor position.
* When "line_count" is negative, format until the end of the paragraph.
* Lines after the cursor line are saved for undo, caller must have saved the
* first line.
*/
void
format_lines (
linenr_T line_count,
int avoid_fex /* don't use 'formatexpr' */
)
{
int max_len;
int is_not_par; /* current line not part of parag. */
int next_is_not_par; /* next line not part of paragraph */
int is_end_par; /* at end of paragraph */
int prev_is_end_par = FALSE; /* prev. line not part of parag. */
int next_is_start_par = FALSE;
int leader_len = 0; /* leader len of current line */
int next_leader_len; /* leader len of next line */
char_u *leader_flags = NULL; /* flags for leader of current line */
char_u *next_leader_flags; /* flags for leader of next line */
int do_comments; /* format comments */
int do_comments_list = 0; /* format comments with 'n' or '2' */
int advance = TRUE;
int second_indent = -1; /* indent for second line (comment
* aware) */
int do_second_indent;
int do_number_indent;
int do_trail_white;
int first_par_line = TRUE;
int smd_save;
long count;
int need_set_indent = TRUE; /* set indent of next paragraph */
int force_format = FALSE;
int old_State = State;
/* length of a line to force formatting: 3 * 'tw' */
max_len = comp_textwidth(TRUE) * 3;
/* check for 'q', '2' and '1' in 'formatoptions' */
do_comments = has_format_option(FO_Q_COMS);
do_second_indent = has_format_option(FO_Q_SECOND);
do_number_indent = has_format_option(FO_Q_NUMBER);
do_trail_white = has_format_option(FO_WHITE_PAR);
/*
* Get info about the previous and current line.
*/
if (curwin->w_cursor.lnum > 1)
is_not_par = fmt_check_par(curwin->w_cursor.lnum - 1
, &leader_len, &leader_flags, do_comments
);
else
is_not_par = TRUE;
next_is_not_par = fmt_check_par(curwin->w_cursor.lnum
, &next_leader_len, &next_leader_flags, do_comments
);
is_end_par = (is_not_par || next_is_not_par);
if (!is_end_par && do_trail_white)
is_end_par = !ends_in_white(curwin->w_cursor.lnum - 1);
curwin->w_cursor.lnum--;
for (count = line_count; count != 0 && !got_int; --count) {
/*
* Advance to next paragraph.
*/
if (advance) {
curwin->w_cursor.lnum++;
prev_is_end_par = is_end_par;
is_not_par = next_is_not_par;
leader_len = next_leader_len;
leader_flags = next_leader_flags;
}
/*
* The last line to be formatted.
*/
if (count == 1 || curwin->w_cursor.lnum == curbuf->b_ml.ml_line_count) {
next_is_not_par = TRUE;
next_leader_len = 0;
next_leader_flags = NULL;
} else {
next_is_not_par = fmt_check_par(curwin->w_cursor.lnum + 1
, &next_leader_len, &next_leader_flags, do_comments
);
if (do_number_indent)
next_is_start_par =
(get_number_indent(curwin->w_cursor.lnum + 1) > 0);
}
advance = TRUE;
is_end_par = (is_not_par || next_is_not_par || next_is_start_par);
if (!is_end_par && do_trail_white)
is_end_par = !ends_in_white(curwin->w_cursor.lnum);
/*
* Skip lines that are not in a paragraph.
*/
if (is_not_par) {
if (line_count < 0)
break;
} else {
/*
* For the first line of a paragraph, check indent of second line.
* Don't do this for comments and empty lines.
*/
if (first_par_line
&& (do_second_indent || do_number_indent)
&& prev_is_end_par
&& curwin->w_cursor.lnum < curbuf->b_ml.ml_line_count) {
if (do_second_indent && !lineempty(curwin->w_cursor.lnum + 1)) {
if (leader_len == 0 && next_leader_len == 0) {
/* no comment found */
second_indent =
get_indent_lnum(curwin->w_cursor.lnum + 1);
} else {
second_indent = next_leader_len;
do_comments_list = 1;
}
} else if (do_number_indent) {
if (leader_len == 0 && next_leader_len == 0) {
/* no comment found */
second_indent =
get_number_indent(curwin->w_cursor.lnum);
} else {
/* get_number_indent() is now "comment aware"... */
second_indent =
get_number_indent(curwin->w_cursor.lnum);
do_comments_list = 1;
}
}
}
/*
* When the comment leader changes, it's the end of the paragraph.
*/
if (curwin->w_cursor.lnum >= curbuf->b_ml.ml_line_count
|| !same_leader(curwin->w_cursor.lnum,
leader_len, leader_flags,
next_leader_len, next_leader_flags)
)
is_end_par = TRUE;
/*
* If we have got to the end of a paragraph, or the line is
* getting long, format it.
*/
if (is_end_par || force_format) {
if (need_set_indent)
/* replace indent in first line with minimal number of
* tabs and spaces, according to current options */
(void)set_indent(get_indent(), SIN_CHANGED);
/* put cursor on last non-space */
State = NORMAL; /* don't go past end-of-line */
coladvance((colnr_T)MAXCOL);
while (curwin->w_cursor.col && vim_isspace(gchar_cursor()))
dec_cursor();
/* do the formatting, without 'showmode' */
State = INSERT; /* for open_line() */
smd_save = p_smd;
p_smd = FALSE;
insertchar(NUL, INSCHAR_FORMAT
+ (do_comments ? INSCHAR_DO_COM : 0)
+ (do_comments && do_comments_list
? INSCHAR_COM_LIST : 0)
+ (avoid_fex ? INSCHAR_NO_FEX : 0), second_indent);
State = old_State;
p_smd = smd_save;
second_indent = -1;
/* at end of par.: need to set indent of next par. */
need_set_indent = is_end_par;
if (is_end_par) {
/* When called with a negative line count, break at the
* end of the paragraph. */
if (line_count < 0)
break;
first_par_line = TRUE;
}
force_format = FALSE;
}
/*
* When still in same paragraph, join the lines together. But
* first delete the leader from the second line.
*/
if (!is_end_par) {
advance = FALSE;
curwin->w_cursor.lnum++;
curwin->w_cursor.col = 0;
if (line_count < 0 && u_save_cursor() == FAIL)
break;
if (next_leader_len > 0) {
(void)del_bytes((long)next_leader_len, FALSE, FALSE);
mark_col_adjust(curwin->w_cursor.lnum, (colnr_T)0, 0L,
(long)-next_leader_len);
} else if (second_indent > 0) { /* the "leader" for FO_Q_SECOND */
char_u *p = ml_get_curline();
int indent = (int)(skipwhite(p) - p);
if (indent > 0) {
(void)del_bytes(indent, FALSE, FALSE);
mark_col_adjust(curwin->w_cursor.lnum,
(colnr_T)0, 0L, (long)-indent);
}
}
curwin->w_cursor.lnum--;
if (do_join(2, TRUE, FALSE, FALSE) == FAIL) {
beep_flush();
break;
}
first_par_line = FALSE;
/* If the line is getting long, format it next time */
if (STRLEN(ml_get_curline()) > (size_t)max_len)
force_format = TRUE;
else
force_format = FALSE;
}
}
line_breakcheck();
}
}
/*
* Return TRUE if line "lnum" ends in a white character.
*/
static int ends_in_white(linenr_T lnum)
{
char_u *s = ml_get(lnum);
size_t l;
if (*s == NUL)
return FALSE;
/* Don't use STRLEN() inside vim_iswhite(), SAS/C complains: "macro
* invocation may call function multiple times". */
l = STRLEN(s) - 1;
return vim_iswhite(s[l]);
}
/*
* Blank lines, and lines containing only the comment leader, are left
* untouched by the formatting. The function returns TRUE in this
* case. It also returns TRUE when a line starts with the end of a comment
* ('e' in comment flags), so that this line is skipped, and not joined to the
* previous line. A new paragraph starts after a blank line, or when the
* comment leader changes -- webb.
*/
static int fmt_check_par(linenr_T lnum, int *leader_len, char_u **leader_flags, int do_comments)
{
char_u *flags = NULL; /* init for GCC */
char_u *ptr;
ptr = ml_get(lnum);
if (do_comments)
*leader_len = get_leader_len(ptr, leader_flags, FALSE, TRUE);
else
*leader_len = 0;
if (*leader_len > 0) {
/*
* Search for 'e' flag in comment leader flags.
*/
flags = *leader_flags;
while (*flags && *flags != ':' && *flags != COM_END)
++flags;
}
return *skipwhite(ptr + *leader_len) == NUL
|| (*leader_len > 0 && *flags == COM_END)
|| startPS(lnum, NUL, FALSE);
}
/*
* Return TRUE when a paragraph starts in line "lnum". Return FALSE when the
* previous line is in the same paragraph. Used for auto-formatting.
*/
int paragraph_start(linenr_T lnum)
{
char_u *p;
int leader_len = 0; /* leader len of current line */
char_u *leader_flags = NULL; /* flags for leader of current line */
int next_leader_len = 0; /* leader len of next line */
char_u *next_leader_flags = NULL; /* flags for leader of next line */
int do_comments; /* format comments */
if (lnum <= 1)
return TRUE; /* start of the file */
p = ml_get(lnum - 1);
if (*p == NUL)
return TRUE; /* after empty line */
do_comments = has_format_option(FO_Q_COMS);
if (fmt_check_par(lnum - 1
, &leader_len, &leader_flags, do_comments
))
return TRUE; /* after non-paragraph line */
if (fmt_check_par(lnum
, &next_leader_len, &next_leader_flags, do_comments
))
return TRUE; /* "lnum" is not a paragraph line */
if (has_format_option(FO_WHITE_PAR) && !ends_in_white(lnum - 1))
return TRUE; /* missing trailing space in previous line. */
if (has_format_option(FO_Q_NUMBER) && (get_number_indent(lnum) > 0))
return TRUE; /* numbered item starts in "lnum". */
if (!same_leader(lnum - 1, leader_len, leader_flags,
next_leader_len, next_leader_flags))
return TRUE; /* change of comment leader. */
return FALSE;
}
/*
* prepare a few things for block mode yank/delete/tilde
*
* for delete:
* - textlen includes the first/last char to be (partly) deleted
* - start/endspaces is the number of columns that are taken by the
* first/last deleted char minus the number of columns that have to be
* deleted.
* for yank and tilde:
* - textlen includes the first/last char to be wholly yanked
* - start/endspaces is the number of columns of the first/last yanked char
* that are to be yanked.
*/
static void block_prep(oparg_T *oap, struct block_def *bdp, linenr_T lnum, int is_del)
{
int incr = 0;
char_u *pend;
char_u *pstart;
char_u *line;
char_u *prev_pstart;
char_u *prev_pend;
bdp->startspaces = 0;
bdp->endspaces = 0;
bdp->textlen = 0;
bdp->start_vcol = 0;
bdp->end_vcol = 0;
bdp->is_short = FALSE;
bdp->is_oneChar = FALSE;
bdp->pre_whitesp = 0;
bdp->pre_whitesp_c = 0;
bdp->end_char_vcols = 0;
bdp->start_char_vcols = 0;
line = ml_get(lnum);
pstart = line;
prev_pstart = line;
while (bdp->start_vcol < oap->start_vcol && *pstart) {
/* Count a tab for what it's worth (if list mode not on) */
incr = lbr_chartabsize(pstart, (colnr_T)bdp->start_vcol);
bdp->start_vcol += incr;
if (vim_iswhite(*pstart)) {
bdp->pre_whitesp += incr;
bdp->pre_whitesp_c++;
} else {
bdp->pre_whitesp = 0;
bdp->pre_whitesp_c = 0;
}
prev_pstart = pstart;
mb_ptr_adv(pstart);
}
bdp->start_char_vcols = incr;
if (bdp->start_vcol < oap->start_vcol) { /* line too short */
bdp->end_vcol = bdp->start_vcol;
bdp->is_short = TRUE;
if (!is_del || oap->op_type == OP_APPEND)
bdp->endspaces = oap->end_vcol - oap->start_vcol + 1;
} else {
/* notice: this converts partly selected Multibyte characters to
* spaces, too. */
bdp->startspaces = bdp->start_vcol - oap->start_vcol;
if (is_del && bdp->startspaces)
bdp->startspaces = bdp->start_char_vcols - bdp->startspaces;
pend = pstart;
bdp->end_vcol = bdp->start_vcol;
if (bdp->end_vcol > oap->end_vcol) { /* it's all in one character */
bdp->is_oneChar = TRUE;
if (oap->op_type == OP_INSERT)
bdp->endspaces = bdp->start_char_vcols - bdp->startspaces;
else if (oap->op_type == OP_APPEND) {
bdp->startspaces += oap->end_vcol - oap->start_vcol + 1;
bdp->endspaces = bdp->start_char_vcols - bdp->startspaces;
} else {
bdp->startspaces = oap->end_vcol - oap->start_vcol + 1;
if (is_del && oap->op_type != OP_LSHIFT) {
/* just putting the sum of those two into
* bdp->startspaces doesn't work for Visual replace,
* so we have to split the tab in two */
bdp->startspaces = bdp->start_char_vcols
- (bdp->start_vcol - oap->start_vcol);
bdp->endspaces = bdp->end_vcol - oap->end_vcol - 1;
}
}
} else {
prev_pend = pend;
while (bdp->end_vcol <= oap->end_vcol && *pend != NUL) {
/* Count a tab for what it's worth (if list mode not on) */
prev_pend = pend;
incr = lbr_chartabsize_adv(&pend, (colnr_T)bdp->end_vcol);
bdp->end_vcol += incr;
}
if (bdp->end_vcol <= oap->end_vcol
&& (!is_del
|| oap->op_type == OP_APPEND
|| oap->op_type == OP_REPLACE)) { /* line too short */
bdp->is_short = TRUE;
/* Alternative: include spaces to fill up the block.
* Disadvantage: can lead to trailing spaces when the line is
* short where the text is put */
/* if (!is_del || oap->op_type == OP_APPEND) */
if (oap->op_type == OP_APPEND || virtual_op)
bdp->endspaces = oap->end_vcol - bdp->end_vcol
+ oap->inclusive;
else
bdp->endspaces = 0; /* replace doesn't add characters */
} else if (bdp->end_vcol > oap->end_vcol) {
bdp->endspaces = bdp->end_vcol - oap->end_vcol - 1;
if (!is_del && bdp->endspaces) {
bdp->endspaces = incr - bdp->endspaces;
if (pend != pstart)
pend = prev_pend;
}
}
}
bdp->end_char_vcols = incr;
if (is_del && bdp->startspaces)
pstart = prev_pstart;
bdp->textlen = (int)(pend - pstart);
}
bdp->textcol = (colnr_T) (pstart - line);
bdp->textstart = pstart;
}
static void reverse_line(char_u *s);
static void reverse_line(char_u *s)
{
int i, j;
char_u c;
if ((i = (int)STRLEN(s) - 1) <= 0)
return;
curwin->w_cursor.col = i - curwin->w_cursor.col;
for (j = 0; j < i; j++, i--) {
c = s[i]; s[i] = s[j]; s[j] = c;
}
}
# define RLADDSUBFIX(ptr) if (curwin->w_p_rl) reverse_line(ptr);
/*
* add or subtract 'Prenum1' from a number in a line
* 'command' is CTRL-A for add, CTRL-X for subtract
*
* return FAIL for failure, OK otherwise
*/
int do_addsub(int command, linenr_T Prenum1)
{
int col;
char_u *buf1;
char_u buf2[NUMBUFLEN];
int hex; /* 'X' or 'x': hex; '0': octal */
static int hexupper = FALSE; /* 0xABC */
unsigned long n;
long_u oldn;
char_u *ptr;
int c;
int length = 0; /* character length of the number */
int todel;
int dohex;
int dooct;
int doalp;
int firstdigit;
int negative;
int subtract;
dohex = (vim_strchr(curbuf->b_p_nf, 'x') != NULL); /* "heX" */
dooct = (vim_strchr(curbuf->b_p_nf, 'o') != NULL); /* "Octal" */
doalp = (vim_strchr(curbuf->b_p_nf, 'p') != NULL); /* "alPha" */
ptr = ml_get_curline();
RLADDSUBFIX(ptr);
/*
* First check if we are on a hexadecimal number, after the "0x".
*/
col = curwin->w_cursor.col;
if (dohex)
while (col > 0 && vim_isxdigit(ptr[col]))
--col;
if ( dohex
&& col > 0
&& (ptr[col] == 'X'
|| ptr[col] == 'x')
&& ptr[col - 1] == '0'
&& vim_isxdigit(ptr[col + 1])) {
/*
* Found hexadecimal number, move to its start.
*/
--col;
} else {
/*
* Search forward and then backward to find the start of number.
*/
col = curwin->w_cursor.col;
while (ptr[col] != NUL
&& !vim_isdigit(ptr[col])
&& !(doalp && ASCII_ISALPHA(ptr[col])))
++col;
while (col > 0
&& vim_isdigit(ptr[col - 1])
&& !(doalp && ASCII_ISALPHA(ptr[col])))
--col;
}
/*
* If a number was found, and saving for undo works, replace the number.
*/
firstdigit = ptr[col];
RLADDSUBFIX(ptr);
if ((!VIM_ISDIGIT(firstdigit) && !(doalp && ASCII_ISALPHA(firstdigit)))
|| u_save_cursor() != OK) {
beep_flush();
return FAIL;
}
/* get ptr again, because u_save() may have changed it */
ptr = ml_get_curline();
RLADDSUBFIX(ptr);
if (doalp && ASCII_ISALPHA(firstdigit)) {
/* decrement or increment alphabetic character */
if (command == Ctrl_X) {
if (CharOrd(firstdigit) < Prenum1) {
if (isupper(firstdigit))
firstdigit = 'A';
else
firstdigit = 'a';
} else
firstdigit -= Prenum1;
} else {
if (26 - CharOrd(firstdigit) - 1 < Prenum1) {
if (isupper(firstdigit))
firstdigit = 'Z';
else
firstdigit = 'z';
} else
firstdigit += Prenum1;
}
curwin->w_cursor.col = col;
(void)del_char(FALSE);
ins_char(firstdigit);
} else {
negative = FALSE;
if (col > 0 && ptr[col - 1] == '-') { /* negative number */
--col;
negative = TRUE;
}
/* get the number value (unsigned) */
vim_str2nr(ptr + col, &hex, &length, dooct, dohex, NULL, &n);
/* ignore leading '-' for hex and octal numbers */
if (hex && negative) {
++col;
--length;
negative = FALSE;
}
/* add or subtract */
subtract = FALSE;
if (command == Ctrl_X)
subtract ^= TRUE;
if (negative)
subtract ^= TRUE;
oldn = n;
if (subtract)
n -= (unsigned long)Prenum1;
else
n += (unsigned long)Prenum1;
/* handle wraparound for decimal numbers */
if (!hex) {
if (subtract) {
if (n > oldn) {
n = 1 + (n ^ (unsigned long)-1);
negative ^= TRUE;
}
} else { /* add */
if (n < oldn) {
n = (n ^ (unsigned long)-1);
negative ^= TRUE;
}
}
if (n == 0)
negative = FALSE;
}
/*
* Delete the old number.
*/
curwin->w_cursor.col = col;
todel = length;
c = gchar_cursor();
/*
* Don't include the '-' in the length, only the length of the part
* after it is kept the same.
*/
if (c == '-')
--length;
while (todel-- > 0) {
if (c < 0x100 && isalpha(c)) {
if (isupper(c))
hexupper = TRUE;
else
hexupper = FALSE;
}
/* del_char() will mark line needing displaying */
(void)del_char(FALSE);
c = gchar_cursor();
}
/*
* Prepare the leading characters in buf1[].
* When there are many leading zeros it could be very long. Allocate
* a bit too much.
*/
buf1 = alloc((unsigned)length + NUMBUFLEN);
if (buf1 == NULL)
return FAIL;
ptr = buf1;
if (negative) {
*ptr++ = '-';
}
if (hex) {
*ptr++ = '0';
--length;
}
if (hex == 'x' || hex == 'X') {
*ptr++ = hex;
--length;
}
/*
* Put the number characters in buf2[].
*/
if (hex == 0)
sprintf((char *)buf2, "%lu", n);
else if (hex == '0')
sprintf((char *)buf2, "%lo", n);
else if (hex && hexupper)
sprintf((char *)buf2, "%lX", n);
else
sprintf((char *)buf2, "%lx", n);
length -= (int)STRLEN(buf2);
/*
* Adjust number of zeros to the new number of digits, so the
* total length of the number remains the same.
* Don't do this when
* the result may look like an octal number.
*/
if (firstdigit == '0' && !(dooct && hex == 0))
while (length-- > 0)
*ptr++ = '0';
*ptr = NUL;
STRCAT(buf1, buf2);
ins_str(buf1); /* insert the new number */
vim_free(buf1);
}
--curwin->w_cursor.col;
curwin->w_set_curswant = TRUE;
ptr = ml_get_buf(curbuf, curwin->w_cursor.lnum, TRUE);
RLADDSUBFIX(ptr);
return OK;
}
int read_viminfo_register(vir_T *virp, int force)
{
int eof;
int do_it = TRUE;
int size;
int limit;
int i;
int set_prev = FALSE;
char_u *str;
char_u **array = NULL;
/* We only get here (hopefully) if line[0] == '"' */
str = virp->vir_line + 1;
/* If the line starts with "" this is the y_previous register. */
if (*str == '"') {
set_prev = TRUE;
str++;
}
if (!ASCII_ISALNUM(*str) && *str != '-') {
if (viminfo_error("E577: ", _("Illegal register name"), virp->vir_line))
return TRUE; /* too many errors, pretend end-of-file */
do_it = FALSE;
}
get_yank_register(*str++, FALSE);
if (!force && y_current->y_array != NULL)
do_it = FALSE;
if (*str == '@') {
/* "x@: register x used for @@ */
if (force || execreg_lastc == NUL)
execreg_lastc = str[-1];
}
size = 0;
limit = 100; /* Optimized for registers containing <= 100 lines */
if (do_it) {
if (set_prev)
y_previous = y_current;
vim_free(y_current->y_array);
array = y_current->y_array =
(char_u **)alloc((unsigned)(limit * sizeof(char_u *)));
str = skipwhite(skiptowhite(str));
if (STRNCMP(str, "CHAR", 4) == 0)
y_current->y_type = MCHAR;
else if (STRNCMP(str, "BLOCK", 5) == 0)
y_current->y_type = MBLOCK;
else
y_current->y_type = MLINE;
/* get the block width; if it's missing we get a zero, which is OK */
str = skipwhite(skiptowhite(str));
y_current->y_width = getdigits(&str);
}
while (!(eof = viminfo_readline(virp))
&& (virp->vir_line[0] == TAB || virp->vir_line[0] == '<')) {
if (do_it) {
if (size >= limit) {
y_current->y_array = (char_u **)
alloc((unsigned)(limit * 2 * sizeof(char_u *)));
for (i = 0; i < limit; i++)
y_current->y_array[i] = array[i];
vim_free(array);
limit *= 2;
array = y_current->y_array;
}
str = viminfo_readstring(virp, 1, TRUE);
if (str != NULL)
array[size++] = str;
else
do_it = FALSE;
}
}
if (do_it) {
if (size == 0) {
vim_free(array);
y_current->y_array = NULL;
} else if (size < limit) {
y_current->y_array =
(char_u **)alloc((unsigned)(size * sizeof(char_u *)));
for (i = 0; i < size; i++)
y_current->y_array[i] = array[i];
vim_free(array);
}
y_current->y_size = size;
}
return eof;
}
void write_viminfo_registers(FILE *fp)
{
int i, j;
char_u *type;
char_u c;
int num_lines;
int max_num_lines;
int max_kbyte;
long len;
fputs(_("\n# Registers:\n"), fp);
/* Get '<' value, use old '"' value if '<' is not found. */
max_num_lines = get_viminfo_parameter('<');
if (max_num_lines < 0)
max_num_lines = get_viminfo_parameter('"');
if (max_num_lines == 0)
return;
max_kbyte = get_viminfo_parameter('s');
if (max_kbyte == 0)
return;
for (i = 0; i < NUM_REGISTERS; i++) {
if (y_regs[i].y_array == NULL)
continue;
/* Skip empty registers. */
num_lines = y_regs[i].y_size;
if (num_lines == 0
|| (num_lines == 1 && y_regs[i].y_type == MCHAR
&& *y_regs[i].y_array[0] == NUL))
continue;
if (max_kbyte > 0) {
/* Skip register if there is more text than the maximum size. */
len = 0;
for (j = 0; j < num_lines; j++)
len += (long)STRLEN(y_regs[i].y_array[j]) + 1L;
if (len > (long)max_kbyte * 1024L)
continue;
}
switch (y_regs[i].y_type) {
case MLINE:
type = (char_u *)"LINE";
break;
case MCHAR:
type = (char_u *)"CHAR";
break;
case MBLOCK:
type = (char_u *)"BLOCK";
break;
default:
sprintf((char *)IObuff, _("E574: Unknown register type %d"),
y_regs[i].y_type);
emsg(IObuff);
type = (char_u *)"LINE";
break;
}
if (y_previous == &y_regs[i])
fprintf(fp, "\"");
c = get_register_name(i);
fprintf(fp, "\"%c", c);
if (c == execreg_lastc)
fprintf(fp, "@");
fprintf(fp, "\t%s\t%d\n", type,
(int)y_regs[i].y_width
);
/* If max_num_lines < 0, then we save ALL the lines in the register */
if (max_num_lines > 0 && num_lines > max_num_lines)
num_lines = max_num_lines;
for (j = 0; j < num_lines; j++) {
putc('\t', fp);
viminfo_writestring(fp, y_regs[i].y_array[j]);
}
}
}
/*
* Return the type of a register.
* Used for getregtype()
* Returns MAUTO for error.
*/
char_u get_reg_type(int regname, long *reglen)
{
switch (regname) {
case '%': /* file name */
case '#': /* alternate file name */
case '=': /* expression */
case ':': /* last command line */
case '/': /* last search-pattern */
case '.': /* last inserted text */
case Ctrl_F: /* Filename under cursor */
case Ctrl_P: /* Path under cursor, expand via "path" */
case Ctrl_W: /* word under cursor */
case Ctrl_A: /* WORD (mnemonic All) under cursor */
case '_': /* black hole: always empty */
return MCHAR;
}
if (regname != NUL && !valid_yank_reg(regname, FALSE))
return MAUTO;
get_yank_register(regname, FALSE);
if (y_current->y_array != NULL) {
if (reglen != NULL && y_current->y_type == MBLOCK)
*reglen = y_current->y_width;
return y_current->y_type;
}
return MAUTO;
}
/*
* Return the contents of a register as a single allocated string.
* Used for "@r" in expressions and for getreg().
* Returns NULL for error.
*/
char_u *
get_reg_contents (
int regname,
int allowexpr, /* allow "=" register */
int expr_src /* get expression for "=" register */
)
{
long i;
char_u *retval;
int allocated;
long len;
/* Don't allow using an expression register inside an expression */
if (regname == '=') {
if (allowexpr) {
if (expr_src)
return get_expr_line_src();
return get_expr_line();
}
return NULL;
}
if (regname == '@') /* "@@" is used for unnamed register */
regname = '"';
/* check for valid regname */
if (regname != NUL && !valid_yank_reg(regname, FALSE))
return NULL;
if (get_spec_reg(regname, &retval, &allocated, FALSE)) {
if (retval == NULL)
return NULL;
if (!allocated)
retval = vim_strsave(retval);
return retval;
}
get_yank_register(regname, FALSE);
if (y_current->y_array == NULL)
return NULL;
/*
* Compute length of resulting string.
*/
len = 0;
for (i = 0; i < y_current->y_size; ++i) {
len += (long)STRLEN(y_current->y_array[i]);
/*
* Insert a newline between lines and after last line if
* y_type is MLINE.
*/
if (y_current->y_type == MLINE || i < y_current->y_size - 1)
++len;
}
retval = lalloc(len + 1, TRUE);
/*
* Copy the lines of the yank register into the string.
*/
if (retval != NULL) {
len = 0;
for (i = 0; i < y_current->y_size; ++i) {
STRCPY(retval + len, y_current->y_array[i]);
len += (long)STRLEN(retval + len);
/*
* Insert a NL between lines and after the last line if y_type is
* MLINE.
*/
if (y_current->y_type == MLINE || i < y_current->y_size - 1)
retval[len++] = '\n';
}
retval[len] = NUL;
}
return retval;
}
/*
* Store string "str" in register "name".
* "maxlen" is the maximum number of bytes to use, -1 for all bytes.
* If "must_append" is TRUE, always append to the register. Otherwise append
* if "name" is an uppercase letter.
* Note: "maxlen" and "must_append" don't work for the "/" register.
* Careful: 'str' is modified, you may have to use a copy!
* If "str" ends in '\n' or '\r', use linewise, otherwise use characterwise.
*/
void write_reg_contents(int name, char_u *str, int maxlen, int must_append)
{
write_reg_contents_ex(name, str, maxlen, must_append, MAUTO, 0L);
}
void write_reg_contents_ex(int name, char_u *str, int maxlen, int must_append, int yank_type, long block_len)
{
struct yankreg *old_y_previous, *old_y_current;
long len;
if (maxlen >= 0)
len = maxlen;
else
len = (long)STRLEN(str);
/* Special case: '/' search pattern */
if (name == '/') {
set_last_search_pat(str, RE_SEARCH, TRUE, TRUE);
return;
}
if (name == '=') {
char_u *p, *s;
p = vim_strnsave(str, (int)len);
if (p == NULL)
return;
if (must_append) {
s = concat_str(get_expr_line_src(), p);
vim_free(p);
p = s;
}
set_expr_line(p);
return;
}
if (!valid_yank_reg(name, TRUE)) { /* check for valid reg name */
emsg_invreg(name);
return;
}
if (name == '_') /* black hole: nothing to do */
return;
/* Don't want to change the current (unnamed) register */
old_y_previous = y_previous;
old_y_current = y_current;
get_yank_register(name, TRUE);
if (!y_append && !must_append)
free_yank_all();
str_to_reg(y_current, yank_type, str, len, block_len);
/* ':let @" = "val"' should change the meaning of the "" register */
if (name != '"')
y_previous = old_y_previous;
y_current = old_y_current;
}
/*
* Put a string into a register. When the register is not empty, the string
* is appended.
*/
static void
str_to_reg (
struct yankreg *y_ptr, /* pointer to yank register */
int yank_type, /* MCHAR, MLINE, MBLOCK, MAUTO */
char_u *str, /* string to put in register */
long len, /* length of string */
long blocklen /* width of Visual block */
)
{
int type; /* MCHAR, MLINE or MBLOCK */
int lnum;
long start;
long i;
int extra;
int newlines; /* number of lines added */
int extraline = 0; /* extra line at the end */
int append = FALSE; /* append to last line in register */
char_u *s;
char_u **pp;
long maxlen;
if (y_ptr->y_array == NULL) /* NULL means empty register */
y_ptr->y_size = 0;
if (yank_type == MAUTO)
type = ((len > 0 && (str[len - 1] == NL || str[len - 1] == CAR))
? MLINE : MCHAR);
else
type = yank_type;
/*
* Count the number of lines within the string
*/
newlines = 0;
for (i = 0; i < len; i++)
if (str[i] == '\n')
++newlines;
if (type == MCHAR || len == 0 || str[len - 1] != '\n') {
extraline = 1;
++newlines; /* count extra newline at the end */
}
if (y_ptr->y_size > 0 && y_ptr->y_type == MCHAR) {
append = TRUE;
--newlines; /* uncount newline when appending first line */
}
/*
* Allocate an array to hold the pointers to the new register lines.
* If the register was not empty, move the existing lines to the new array.
*/
pp = (char_u **)lalloc_clear((y_ptr->y_size + newlines)
* sizeof(char_u *), TRUE);
if (pp == NULL) /* out of memory */
return;
for (lnum = 0; lnum < y_ptr->y_size; ++lnum)
pp[lnum] = y_ptr->y_array[lnum];
vim_free(y_ptr->y_array);
y_ptr->y_array = pp;
maxlen = 0;
/*
* Find the end of each line and save it into the array.
*/
for (start = 0; start < len + extraline; start += i + 1) {
for (i = start; i < len; ++i) /* find the end of the line */
if (str[i] == '\n')
break;
i -= start; /* i is now length of line */
if (i > maxlen)
maxlen = i;
if (append) {
--lnum;
extra = (int)STRLEN(y_ptr->y_array[lnum]);
} else
extra = 0;
s = alloc((unsigned)(i + extra + 1));
if (s == NULL)
break;
if (extra)
memmove(s, y_ptr->y_array[lnum], (size_t)extra);
if (append)
vim_free(y_ptr->y_array[lnum]);
if (i)
memmove(s + extra, str + start, (size_t)i);
extra += i;
s[extra] = NUL;
y_ptr->y_array[lnum++] = s;
while (--extra >= 0) {
if (*s == NUL)
*s = '\n'; /* replace NUL with newline */
++s;
}
append = FALSE; /* only first line is appended */
}
y_ptr->y_type = type;
y_ptr->y_size = lnum;
if (type == MBLOCK)
y_ptr->y_width = (blocklen < 0 ? maxlen - 1 : blocklen);
else
y_ptr->y_width = 0;
}
void clear_oparg(oparg_T *oap)
{
memset(oap, 0, sizeof(oparg_T));
}
static long line_count_info(char_u *line, long *wc, long *cc,
long limit,
int eol_size);
/*
* Count the number of bytes, characters and "words" in a line.
*
* "Words" are counted by looking for boundaries between non-space and
* space characters. (it seems to produce results that match 'wc'.)
*
* Return value is byte count; word count for the line is added to "*wc".
* Char count is added to "*cc".
*
* The function will only examine the first "limit" characters in the
* line, stopping if it encounters an end-of-line (NUL byte). In that
* case, eol_size will be added to the character count to account for
* the size of the EOL character.
*/
static long line_count_info(char_u *line, long *wc, long *cc, long limit, int eol_size)
{
long i;
long words = 0;
long chars = 0;
int is_word = 0;
for (i = 0; i < limit && line[i] != NUL; ) {
if (is_word) {
if (vim_isspace(line[i])) {
words++;
is_word = 0;
}
} else if (!vim_isspace(line[i]))
is_word = 1;
++chars;
i += (*mb_ptr2len)(line + i);
}
if (is_word)
words++;
*wc += words;
/* Add eol_size if the end of line was reached before hitting limit. */
if (i < limit && line[i] == NUL) {
i += eol_size;
chars += eol_size;
}
*cc += chars;
return i;
}
/*
* Give some info about the position of the cursor (for "g CTRL-G").
* In Visual mode, give some info about the selected region. (In this case,
* the *_count_cursor variables store running totals for the selection.)
*/
void cursor_pos_info(void)
{
char_u *p;
char_u buf1[50];
char_u buf2[40];
linenr_T lnum;
long byte_count = 0;
long byte_count_cursor = 0;
long char_count = 0;
long char_count_cursor = 0;
long word_count = 0;
long word_count_cursor = 0;
int eol_size;
long last_check = 100000L;
long line_count_selected = 0;
pos_T min_pos, max_pos;
oparg_T oparg;
struct block_def bd;
/*
* Compute the length of the file in characters.
*/
if (curbuf->b_ml.ml_flags & ML_EMPTY) {
MSG(_(no_lines_msg));
} else {
if (get_fileformat(curbuf) == EOL_DOS)
eol_size = 2;
else
eol_size = 1;
if (VIsual_active) {
if (lt(VIsual, curwin->w_cursor)) {
min_pos = VIsual;
max_pos = curwin->w_cursor;
} else {
min_pos = curwin->w_cursor;
max_pos = VIsual;
}
if (*p_sel == 'e' && max_pos.col > 0)
--max_pos.col;
if (VIsual_mode == Ctrl_V) {
char_u * saved_sbr = p_sbr;
/* Make 'sbr' empty for a moment to get the correct size. */
p_sbr = empty_option;
oparg.is_VIsual = 1;
oparg.block_mode = TRUE;
oparg.op_type = OP_NOP;
getvcols(curwin, &min_pos, &max_pos,
&oparg.start_vcol, &oparg.end_vcol);
p_sbr = saved_sbr;
if (curwin->w_curswant == MAXCOL)
oparg.end_vcol = MAXCOL;
/* Swap the start, end vcol if needed */
if (oparg.end_vcol < oparg.start_vcol) {
oparg.end_vcol += oparg.start_vcol;
oparg.start_vcol = oparg.end_vcol - oparg.start_vcol;
oparg.end_vcol -= oparg.start_vcol;
}
}
line_count_selected = max_pos.lnum - min_pos.lnum + 1;
}
for (lnum = 1; lnum <= curbuf->b_ml.ml_line_count; ++lnum) {
/* Check for a CTRL-C every 100000 characters. */
if (byte_count > last_check) {
ui_breakcheck();
if (got_int)
return;
last_check = byte_count + 100000L;
}
/* Do extra processing for VIsual mode. */
if (VIsual_active
&& lnum >= min_pos.lnum && lnum <= max_pos.lnum) {
char_u *s = NULL;
long len = 0L;
switch (VIsual_mode) {
case Ctrl_V:
virtual_op = virtual_active();
block_prep(&oparg, &bd, lnum, 0);
virtual_op = MAYBE;
s = bd.textstart;
len = (long)bd.textlen;
break;
case 'V':
s = ml_get(lnum);
len = MAXCOL;
break;
case 'v':
{
colnr_T start_col = (lnum == min_pos.lnum)
? min_pos.col : 0;
colnr_T end_col = (lnum == max_pos.lnum)
? max_pos.col - start_col + 1 : MAXCOL;
s = ml_get(lnum) + start_col;
len = end_col;
}
break;
}
if (s != NULL) {
byte_count_cursor += line_count_info(s, &word_count_cursor,
&char_count_cursor, len, eol_size);
if (lnum == curbuf->b_ml.ml_line_count
&& !curbuf->b_p_eol
&& curbuf->b_p_bin
&& (long)STRLEN(s) < len)
byte_count_cursor -= eol_size;
}
} else {
/* In non-visual mode, check for the line the cursor is on */
if (lnum == curwin->w_cursor.lnum) {
word_count_cursor += word_count;
char_count_cursor += char_count;
byte_count_cursor = byte_count +
line_count_info(ml_get(lnum),
&word_count_cursor, &char_count_cursor,
(long)(curwin->w_cursor.col + 1), eol_size);
}
}
/* Add to the running totals */
byte_count += line_count_info(ml_get(lnum), &word_count,
&char_count, (long)MAXCOL, eol_size);
}
/* Correction for when last line doesn't have an EOL. */
if (!curbuf->b_p_eol && curbuf->b_p_bin)
byte_count -= eol_size;
if (VIsual_active) {
if (VIsual_mode == Ctrl_V && curwin->w_curswant < MAXCOL) {
getvcols(curwin, &min_pos, &max_pos, &min_pos.col,
&max_pos.col);
vim_snprintf((char *)buf1, sizeof(buf1), _("%ld Cols; "),
(long)(oparg.end_vcol - oparg.start_vcol + 1));
} else
buf1[0] = NUL;
if (char_count_cursor == byte_count_cursor
&& char_count == byte_count)
vim_snprintf((char *)IObuff, IOSIZE,
_("Selected %s%ld of %ld Lines; %ld of %ld Words; %ld of %ld Bytes"),
buf1, line_count_selected,
(long)curbuf->b_ml.ml_line_count,
word_count_cursor, word_count,
byte_count_cursor, byte_count);
else
vim_snprintf((char *)IObuff, IOSIZE,
_(
"Selected %s%ld of %ld Lines; %ld of %ld Words; %ld of %ld Chars; %ld of %ld Bytes"),
buf1, line_count_selected,
(long)curbuf->b_ml.ml_line_count,
word_count_cursor, word_count,
char_count_cursor, char_count,
byte_count_cursor, byte_count);
} else {
p = ml_get_curline();
validate_virtcol();
col_print(buf1, sizeof(buf1), (int)curwin->w_cursor.col + 1,
(int)curwin->w_virtcol + 1);
col_print(buf2, sizeof(buf2), (int)STRLEN(p), linetabsize(p));
if (char_count_cursor == byte_count_cursor
&& char_count == byte_count)
vim_snprintf((char *)IObuff, IOSIZE,
_("Col %s of %s; Line %ld of %ld; Word %ld of %ld; Byte %ld of %ld"),
(char *)buf1, (char *)buf2,
(long)curwin->w_cursor.lnum,
(long)curbuf->b_ml.ml_line_count,
word_count_cursor, word_count,
byte_count_cursor, byte_count);
else
vim_snprintf((char *)IObuff, IOSIZE,
_(
"Col %s of %s; Line %ld of %ld; Word %ld of %ld; Char %ld of %ld; Byte %ld of %ld"),
(char *)buf1, (char *)buf2,
(long)curwin->w_cursor.lnum,
(long)curbuf->b_ml.ml_line_count,
word_count_cursor, word_count,
char_count_cursor, char_count,
byte_count_cursor, byte_count);
}
byte_count = bomb_size();
if (byte_count > 0)
sprintf((char *)IObuff + STRLEN(IObuff), _("(+%ld for BOM)"),
byte_count);
/* Don't shorten this message, the user asked for it. */
p = p_shm;
p_shm = (char_u *)"";
msg(IObuff);
p_shm = p;
}
}
Reference in New Issue View Git Blame Copy Permalink