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line.c
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line.c
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/*
* Copyright (C) 1984-2024 Mark Nudelman
*
* You may distribute under the terms of either the GNU General Public
* License or the Less License, as specified in the README file.
*
* For more information, see the README file.
*/
/*
* Routines to manipulate the "line buffer".
* The line buffer holds a line of output as it is being built
* in preparation for output to the screen.
*/
#include "less.h"
#include "charset.h"
#include "position.h"
#if MSDOS_COMPILER==WIN32C
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#endif
#define MAX_PFX_WIDTH (MAX_LINENUM_WIDTH + MAX_STATUSCOL_WIDTH + 1)
static struct {
char *buf; /* Buffer which holds the current output line */
int *attr; /* Parallel to buf, to hold attributes */
size_t print; /* Index in buf of first printable char */
size_t end; /* Number of chars in buf */
char pfx[MAX_PFX_WIDTH]; /* Holds status column and line number */
int pfx_attr[MAX_PFX_WIDTH];
size_t pfx_end; /* Number of chars in pfx */
} linebuf;
/*
* Buffer of ansi sequences which have been shifted off the left edge
* of the screen.
*/
static struct xbuffer shifted_ansi;
/*
* Ring buffer of last ansi sequences sent.
* While sending a line, these will be resent at the end
* of any highlighted string, to restore text modes.
* {{ Not ideal, since we don't really know how many to resend. }}
*/
#define NUM_LAST_ANSIS 3
static struct xbuffer last_ansi;
static struct xbuffer last_ansis[NUM_LAST_ANSIS];
static int curr_last_ansi;
public size_t size_linebuf = 0; /* Size of line buffer (and attr buffer) */
static struct ansi_state *line_ansi = NULL;
static lbool ansi_in_line;
static int ff_starts_line;
static lbool hlink_in_line;
static int line_mark_attr;
static int cshift; /* Current left-shift of output line buffer */
public int hshift; /* Desired left-shift of output line buffer */
public int tabstops[TABSTOP_MAX] = { 0 }; /* Custom tabstops */
public int ntabstops = 1; /* Number of tabstops */
public int tabdefault = 8; /* Default repeated tabstops */
public POSITION highest_hilite; /* Pos of last hilite in file found so far */
static POSITION line_pos;
static int end_column; /* Printable length, accounting for backspaces, etc. */
static int right_curr;
static int right_column;
static int overstrike; /* Next char should overstrike previous char */
static int last_overstrike = AT_NORMAL;
static lbool is_null_line; /* There is no current line */
static LWCHAR pendc;
static POSITION pendpos;
static constant char *end_ansi_chars;
static constant char *mid_ansi_chars;
static constant char *osc_ansi_chars;
static int osc_ansi_allow_count;
static long *osc_ansi_allow;
static int in_hilite;
static lbool clear_after_line;
static int attr_swidth(int a);
static int attr_ewidth(int a);
static int do_append(LWCHAR ch, constant char *rep, POSITION pos);
extern int sigs;
extern int bs_mode;
extern int proc_backspace;
extern int proc_tab;
extern int proc_return;
extern int linenums;
extern int ctldisp;
extern int twiddle;
extern int status_col;
extern int status_col_width;
extern int linenum_width;
extern int auto_wrap, ignaw;
extern int bo_s_width, bo_e_width;
extern int ul_s_width, ul_e_width;
extern int bl_s_width, bl_e_width;
extern int so_s_width, so_e_width;
extern int sc_width, sc_height;
extern int utf_mode;
extern POSITION start_attnpos;
extern POSITION end_attnpos;
extern LWCHAR rscroll_char;
extern int rscroll_attr;
extern int use_color;
extern int status_line;
static char mbc_buf[MAX_UTF_CHAR_LEN];
static int mbc_buf_len = 0;
static int mbc_buf_index = 0;
static POSITION mbc_pos;
static size_t saved_line_end;
static int saved_end_column;
/* Configurable color map */
struct color_map { int attr; char color[12]; };
static struct color_map color_map[] = {
{ AT_UNDERLINE, "" },
{ AT_BOLD, "" },
{ AT_BLINK, "" },
{ AT_STANDOUT, "" },
{ AT_COLOR_ATTN, "Wm" },
{ AT_COLOR_BIN, "kR" },
{ AT_COLOR_CTRL, "kR" },
{ AT_COLOR_ERROR, "kY" },
{ AT_COLOR_LINENUM, "c" },
{ AT_COLOR_MARK, "Wb" },
{ AT_COLOR_PROMPT, "kC" },
{ AT_COLOR_RSCROLL, "kc" },
{ AT_COLOR_HEADER, "" },
{ AT_COLOR_SEARCH, "kG" },
{ AT_COLOR_SUBSEARCH(1), "ky" },
{ AT_COLOR_SUBSEARCH(2), "wb" },
{ AT_COLOR_SUBSEARCH(3), "YM" },
{ AT_COLOR_SUBSEARCH(4), "Yr" },
{ AT_COLOR_SUBSEARCH(5), "Wc" },
};
/* State while processing an ANSI escape sequence */
struct ansi_state {
osc8_state ostate; /* State while processing OSC8 sequence */
unsigned int otype; /* OSC type number */
unsigned int escs_in_seq;
};
/*
* Initialize from environment variables.
*/
public void init_line(void)
{
int ax;
constant char *s;
end_ansi_chars = lgetenv("LESSANSIENDCHARS");
if (isnullenv(end_ansi_chars))
end_ansi_chars = "m";
mid_ansi_chars = lgetenv("LESSANSIMIDCHARS");
if (isnullenv(mid_ansi_chars))
mid_ansi_chars = "0123456789:;[?!\"'#%()*+ ";
osc_ansi_chars = lgetenv("LESSANSIOSCCHARS");
if (isnullenv(osc_ansi_chars))
osc_ansi_chars = "";
osc_ansi_allow_count = 0;
s = lgetenv("LESSANSIOSCALLOW");
if (!isnullenv(s))
{
struct xbuffer xbuf;
xbuf_init(&xbuf);
for (;;)
{
long num;
s = skipspc(s);
if (*s == '\0')
break;
num = lstrtoulc(s, &s, 10);
s = skipspc(s);
if (*s == ',')
++s;
xbuf_add_data(&xbuf, (constant void *) &num, sizeof(num));
++osc_ansi_allow_count;
}
osc_ansi_allow = (long *) xbuf.data;
}
linebuf.buf = (char *) ecalloc(LINEBUF_SIZE, sizeof(char));
linebuf.attr = (int *) ecalloc(LINEBUF_SIZE, sizeof(int));
size_linebuf = LINEBUF_SIZE;
xbuf_init(&shifted_ansi);
xbuf_init(&last_ansi);
for (ax = 0; ax < NUM_LAST_ANSIS; ax++)
xbuf_init(&last_ansis[ax]);
curr_last_ansi = 0;
}
/*
* Expand the line buffer.
*/
static int expand_linebuf(void)
{
/* Double the size of the line buffer. */
size_t new_size = size_linebuf * 2;
char *new_buf = (char *) calloc(new_size, sizeof(char));
int *new_attr = (int *) calloc(new_size, sizeof(int));
if (new_buf == NULL || new_attr == NULL)
{
if (new_attr != NULL)
free(new_attr);
if (new_buf != NULL)
free(new_buf);
return 1;
}
/*
* We just calloc'd the buffers; copy the old contents.
*/
memcpy(new_buf, linebuf.buf, size_linebuf * sizeof(char));
memcpy(new_attr, linebuf.attr, size_linebuf * sizeof(int));
free(linebuf.attr);
free(linebuf.buf);
linebuf.buf = new_buf;
linebuf.attr = new_attr;
size_linebuf = new_size;
return 0;
}
/*
* Is a character ASCII?
*/
public lbool is_ascii_char(LWCHAR ch)
{
return (ch <= 0x7F);
}
/*
*/
static void inc_end_column(int w)
{
if (end_column > right_column && w > 0)
{
right_column = end_column;
right_curr = (int) linebuf.end;
}
end_column += w;
}
public POSITION line_position(void)
{
return line_pos;
}
/*
* Rewind the line buffer.
*/
public void prewind(void)
{
int ax;
linebuf.print = 6; /* big enough for longest UTF-8 sequence */
linebuf.pfx_end = 0;
for (linebuf.end = 0; linebuf.end < linebuf.print; linebuf.end++)
{
linebuf.buf[linebuf.end] = '\0';
linebuf.attr[linebuf.end] = 0;
}
end_column = 0;
right_curr = 0;
right_column = 0;
cshift = 0;
overstrike = 0;
last_overstrike = AT_NORMAL;
mbc_buf_len = 0;
is_null_line = FALSE;
pendc = '\0';
in_hilite = 0;
ansi_in_line = FALSE;
ff_starts_line = -1;
hlink_in_line = FALSE;
clear_after_line = FALSE;
line_mark_attr = 0;
line_pos = NULL_POSITION;
xbuf_reset(&shifted_ansi);
xbuf_reset(&last_ansi);
for (ax = 0; ax < NUM_LAST_ANSIS; ax++)
xbuf_reset(&last_ansis[ax]);
curr_last_ansi = 0;
}
/*
* Set a character in the line buffer.
*/
static void set_linebuf(size_t n, char ch, int attr)
{
if (n >= size_linebuf)
{
/*
* Won't fit in line buffer.
* Try to expand it.
*/
if (expand_linebuf())
return;
}
linebuf.buf[n] = ch;
linebuf.attr[n] = attr;
}
/*
* Append a character to the line buffer.
*/
static void add_linebuf(char ch, int attr, int w)
{
set_linebuf(linebuf.end++, ch, attr);
inc_end_column(w);
}
/*
* Append a string to the line buffer.
*/
static void addstr_linebuf(constant char *s, int attr, int cw)
{
for ( ; *s != '\0'; s++)
add_linebuf(*s, attr, cw);
}
/*
* Set a character in the line prefix buffer.
*/
static void set_pfx(size_t n, char ch, int attr)
{
linebuf.pfx[n] = ch;
linebuf.pfx_attr[n] = attr;
}
/*
* Append a character to the line prefix buffer.
*/
static void add_pfx(char ch, int attr)
{
set_pfx(linebuf.pfx_end++, ch, attr);
}
/*
* Insert the status column and line number into the line buffer.
*/
public void plinestart(POSITION pos)
{
LINENUM linenum = 0;
if (linenums == OPT_ONPLUS)
{
/*
* Get the line number and put it in the current line.
* {{ Note: since find_linenum calls forw_raw_line,
* it may seek in the input file, requiring the caller
* of plinestart to re-seek if necessary. }}
* {{ Since forw_raw_line modifies linebuf, we must
* do this first, before storing anything in linebuf. }}
*/
linenum = find_linenum(pos);
}
/*
* Display a status column if the -J option is set.
*/
if (status_col || status_line)
{
char c = posmark(pos);
if (c != 0)
line_mark_attr = AT_HILITE|AT_COLOR_MARK;
else if (start_attnpos != NULL_POSITION &&
pos >= start_attnpos && pos <= end_attnpos)
line_mark_attr = AT_HILITE|AT_COLOR_ATTN;
if (status_col)
{
add_pfx(c ? c : ' ', line_mark_attr); /* column 0: status */
while (linebuf.pfx_end < (size_t) status_col_width) /*{{type-issue}}*/
add_pfx(' ', AT_NORMAL);
}
}
/*
* Display the line number at the start of each line
* if the -N option is set.
*/
if (linenums == OPT_ONPLUS)
{
char buf[INT_STRLEN_BOUND(linenum) + 2];
size_t len;
size_t i;
linenum = vlinenum(linenum);
if (linenum == 0)
len = 0;
else
{
linenumtoa(linenum, buf, 10);
len = strlen(buf);
}
for (i = 0; i + len < (size_t) linenum_width; i++)
add_pfx(' ', AT_NORMAL);
for (i = 0; i < len; i++)
add_pfx(buf[i], AT_BOLD|AT_COLOR_LINENUM);
add_pfx(' ', AT_NORMAL);
}
end_column = (int) linebuf.pfx_end; /*{{type-issue}}*/
}
/*
* Return the width of the line prefix (status column and line number).
* {{ Actual line number can be wider than linenum_width. }}
*/
public int line_pfx_width(void)
{
int width = 0;
if (status_col)
width += status_col_width;
if (linenums == OPT_ONPLUS)
width += linenum_width + 1;
return width;
}
/*
* Shift line left so that the last char is just to the left
* of the first visible column.
*/
public void pshift_all(void)
{
size_t i;
for (i = linebuf.print; i < linebuf.end; i++)
if (linebuf.attr[i] == AT_ANSI)
xbuf_add_char(&shifted_ansi, linebuf.buf[i]);
linebuf.end = linebuf.print;
end_column = (int) linebuf.pfx_end; /*{{type-issue}}*/
line_pos = NULL_POSITION;
}
/*
* Return the printing width of the start (enter) sequence
* for a given character attribute.
*/
static int attr_swidth(int a)
{
int w = 0;
a = apply_at_specials(a);
if (a & AT_UNDERLINE)
w += ul_s_width;
if (a & AT_BOLD)
w += bo_s_width;
if (a & AT_BLINK)
w += bl_s_width;
if (a & AT_STANDOUT)
w += so_s_width;
return w;
}
/*
* Return the printing width of the end (exit) sequence
* for a given character attribute.
*/
static int attr_ewidth(int a)
{
int w = 0;
a = apply_at_specials(a);
if (a & AT_UNDERLINE)
w += ul_e_width;
if (a & AT_BOLD)
w += bo_e_width;
if (a & AT_BLINK)
w += bl_e_width;
if (a & AT_STANDOUT)
w += so_e_width;
return w;
}
/*
* Return the printing width of a given character and attribute,
* if the character were added after prev_ch.
* Adding a character with a given attribute may cause an enter or exit
* attribute sequence to be inserted, so this must be taken into account.
*/
public int pwidth(LWCHAR ch, int a, LWCHAR prev_ch, int prev_a)
{
int w;
if (ch == '\b')
{
/*
* Backspace moves backwards one or two positions.
*/
if (prev_a & (AT_ANSI|AT_BINARY))
return (int) strlen(prchar('\b')); /*{{type-issue}}*/
return (utf_mode && is_wide_char(prev_ch)) ? -2 : -1;
}
if (!utf_mode || is_ascii_char(ch))
{
if (control_char(ch))
{
/*
* Control characters do unpredictable things,
* so we don't even try to guess; say it doesn't move.
* This can only happen if the -r flag is in effect.
*/
return (0);
}
} else
{
if (is_composing_char(ch) || is_combining_char(prev_ch, ch))
{
/*
* Composing and combining chars take up no space.
*
* Some terminals, upon failure to compose a
* composing character with the character(s) that
* precede(s) it will actually take up one end_column
* for the composing character; there isn't much
* we could do short of testing the (complex)
* composition process ourselves and printing
* a binary representation when it fails.
*/
return (0);
}
}
/*
* Other characters take one or two columns,
* plus the width of any attribute enter/exit sequence.
*/
w = 1;
if (is_wide_char(ch))
w++;
if (linebuf.end > 0 && !is_at_equiv(linebuf.attr[linebuf.end-1], a))
w += attr_ewidth(linebuf.attr[linebuf.end-1]);
if (apply_at_specials(a) != AT_NORMAL &&
(linebuf.end == 0 || !is_at_equiv(linebuf.attr[linebuf.end-1], a)))
w += attr_swidth(a);
return (w);
}
/*
* Delete to the previous base character in the line buffer.
*/
static int backc(void)
{
LWCHAR ch;
char *p;
if (linebuf.end == 0)
return (0);
p = &linebuf.buf[linebuf.end];
ch = step_char(&p, -1, linebuf.buf);
/* Skip back to the next nonzero-width char. */
while (p > linebuf.buf)
{
LWCHAR prev_ch;
int width;
linebuf.end = ptr_diff(p, linebuf.buf);
prev_ch = step_char(&p, -1, linebuf.buf);
width = pwidth(ch, linebuf.attr[linebuf.end], prev_ch, linebuf.attr[linebuf.end-1]);
end_column -= width;
/* {{ right_column? }} */
if (width > 0)
break;
ch = prev_ch;
}
return (1);
}
/*
* Preserve the current position in the line buffer (for word wrapping).
*/
public void savec(void)
{
saved_line_end = linebuf.end;
saved_end_column = end_column;
}
/*
* Restore the position in the line buffer (start of line for word wrapping).
*/
public void loadc(void)
{
linebuf.end = saved_line_end;
end_column = saved_end_column;
}
/*
* Is a character the end of an ANSI escape sequence?
*/
public lbool is_ansi_end(LWCHAR ch)
{
if (!is_ascii_char(ch))
return (FALSE);
return (ch != 0 && strchr(end_ansi_chars, (char) ch) != NULL);
}
/*
* Can a char appear in an ANSI escape sequence, before the end char?
*/
public lbool is_ansi_middle(LWCHAR ch)
{
if (!is_ascii_char(ch))
return (FALSE);
if (is_ansi_end(ch))
return (FALSE);
return (ch != 0 && strchr(mid_ansi_chars, (char) ch) != NULL);
}
/*
* Skip past an ANSI escape sequence.
* pp is initially positioned just after the CSI_START char.
*/
public void skip_ansi(struct ansi_state *pansi, LWCHAR ch, constant char **pp, constant char *limit)
{
ansi_step(pansi, ch);
do {
ch = step_charc(pp, +1, limit);
} while (*pp < limit && ansi_step(pansi, ch) == ANSI_MID);
/* Note that we discard final char, for which is_ansi_end is true. */
}
/*
* Determine if a character starts an ANSI escape sequence.
* If so, return an ansi_state struct; otherwise return NULL.
*/
public struct ansi_state * ansi_start(LWCHAR ch)
{
struct ansi_state *pansi;
if (!IS_CSI_START(ch))
return NULL;
pansi = ecalloc(1, sizeof(struct ansi_state));
pansi->ostate = OSC_START;
pansi->otype = 0;
pansi->escs_in_seq = 0;
return pansi;
}
/*
* Is a character a valid intro char for an OSC sequence?
* An intro char is the one immediately after the ESC, usually ']'.
*/
static lbool valid_osc_intro(char ch, lbool content)
{
constant char *p = strchr(osc_ansi_chars, ch);
if (p == NULL)
return FALSE;
return (!content || p[1] == '*');
}
/*
* Is a given number a valid OSC type?
*/
static lbool valid_osc_type(int otype, lbool content)
{
int i;
if (!content)
return TRUE;
if (otype == 8)
return TRUE;
for (i = 0; i < osc_ansi_allow_count; i++)
if (osc_ansi_allow[i] == otype)
return TRUE;
return FALSE;
}
/*
* Helper function for ansi_step.
*/
static ansi_state osc_return(struct ansi_state *pansi, osc8_state ostate, ansi_state astate)
{
pansi->ostate = ostate;
return astate;
}
/*
* Determine whether the next char in an ANSI escape sequence
* ends the sequence.
*/
static ansi_state ansi_step2(struct ansi_state *pansi, LWCHAR ch, lbool content)
{
/*
* Pass thru OS commands. Assume OSC commands do not move the cursor.
* A "typed" OSC starts with ESC ] <integer> <semicolon>, followed by an
* arbitrary string, and ends with a String Terminator (ESC-backslash or BEL).
* An untyped OSC starts with ESC ] or ESC x where x is in osc_ansi_chars,
* and ends with ST.
* The only typed OSC we actually parse is OSC 8.
*/
switch (pansi->ostate)
{
case OSC_START:
if (IS_CSI_START(ch))
return osc_return(pansi, OSC_INTRO, ANSI_MID);
break;
case OSC_INTRO:
if (ch == ']')
return osc_return(pansi, OSC_TYPENUM, ANSI_MID);
if (is_ascii_char(ch) && valid_osc_intro((char) ch, content))
return osc_return(pansi, OSC_STRING, ANSI_MID);
if (IS_CSI_START(ch))
return osc_return(pansi, OSC_INTRO, ANSI_MID);
/* ESC not followed by bracket; restart. */
pansi->ostate = OSC_START;
break;
case OSC_TYPENUM:
if (ch >= '0' && ch <= '9')
{
if (ckd_mul(&pansi->otype, pansi->otype, 10) ||
ckd_add(&pansi->otype, pansi->otype, ch - '0'))
return osc_return(pansi, OSC_STRING, ANSI_MID);
return osc_return(pansi, OSC_TYPENUM, ANSI_MID);
}
if (ch == ';')
return osc_return(pansi, (pansi->otype == 8) ? OSC8_PARAMS : OSC_STRING, ANSI_MID);
/* OSC is untyped */
if (IS_CSI_START(ch))
return osc_return(pansi, OSC_END_CSI, ANSI_MID);
if (ch == '\7')
return osc_return(pansi, OSC_END, ANSI_END);
return osc_return(pansi, OSC_STRING, ANSI_MID);
case OSC8_PARAMS:
if (ch == ';')
return osc_return(pansi, OSC8_URI, ANSI_MID);
/* FALLTHRU */
case OSC8_URI:
case OSC_STRING:
/* Look for ST. */
if (ch == '\7')
return osc_return(pansi, OSC_END, valid_osc_type(pansi->otype, content) ? ANSI_END : ANSI_ERR);
if (IS_CSI_START(ch))
{
pansi->escs_in_seq++;
return osc_return(pansi, OSC_END_CSI, ANSI_MID);
}
/* Stay in same ostate */
return ANSI_MID;
case OSC_END_CSI:
/* Got ESC of ST, expect backslash next. */
if (ch == '\\')
return osc_return(pansi, OSC_END, valid_osc_type(pansi->otype, content) ? ANSI_END : ANSI_ERR);
/* ESC not followed by backslash. */
return osc_return(pansi, OSC_STRING, ANSI_MID);
case OSC_END:
return ANSI_END;
case OSC8_NOT:
/* cannot happen */
break;
}
/* Check for SGR sequences */
if (is_ansi_middle(ch))
return ANSI_MID;
if (is_ansi_end(ch))
return ANSI_END;
return ANSI_ERR;
}
public ansi_state ansi_step(struct ansi_state *pansi, LWCHAR ch)
{
return ansi_step2(pansi, ch, TRUE);
}
/*
* Return the current OSC8 parsing state.
*/
public osc8_state ansi_osc8_state(struct ansi_state *pansi)
{
return pansi->ostate;
}
/*
* Free an ansi_state structure.
*/
public void ansi_done(struct ansi_state *pansi)
{
free(pansi);
}
/*
* Will w characters in attribute a fit on the screen?
*/
static lbool fits_on_screen(int w, int a)
{
if (ctldisp == OPT_ON)
/* We're not counting, so say that everything fits. */
return TRUE;
return (end_column - cshift + w + attr_ewidth(a) <= sc_width);
}
/*
* Append a character and attribute to the line buffer.
*/
#define STORE_CHAR(ch,a,rep,pos) \
do { \
if (store_char((ch),(a),(rep),(pos))) return (1); \
} while (0)
static int store_char(LWCHAR ch, int a, constant char *rep, POSITION pos)
{
int w;
size_t i;
size_t replen;
char cs;
int ov;
ov = (a & (AT_UNDERLINE|AT_BOLD));
if (ov != AT_NORMAL)
last_overstrike = ov;
#if HILITE_SEARCH
{
int matches;
int resend_last = 0;
int hl_attr = 0;
if (pos != NULL_POSITION && a != AT_ANSI)
{
hl_attr = is_hilited_attr(pos, pos+1, 0, &matches);
if (hl_attr == 0 && status_line)
hl_attr = line_mark_attr;
}
if (hl_attr)
{
/*
* This character should be highlighted.
* Override the attribute passed in.
*/
a |= hl_attr;
if (highest_hilite != NULL_POSITION && pos != NULL_POSITION && pos > highest_hilite)
highest_hilite = pos;
in_hilite = 1;
} else
{
if (in_hilite)
{
/*
* This is the first non-hilited char after a hilite.
* Resend the last ANSI seq to restore color.
*/
resend_last = 1;
}
in_hilite = 0;
}
if (resend_last)
{
int ai;
for (ai = 0; ai < NUM_LAST_ANSIS; ai++)
{
int ax = (curr_last_ansi + ai) % NUM_LAST_ANSIS;
for (i = 0; i < last_ansis[ax].end; i++)
STORE_CHAR(last_ansis[ax].data[i], AT_ANSI, NULL, pos);
}
}
}
#endif
if (a == AT_ANSI) {
w = 0;
} else {
char *p = &linebuf.buf[linebuf.end];
LWCHAR prev_ch = (linebuf.end > 0) ? step_char(&p, -1, linebuf.buf) : 0;
int prev_a = (linebuf.end > 0) ? linebuf.attr[linebuf.end-1] : 0;
w = pwidth(ch, a, prev_ch, prev_a);
}
if (!fits_on_screen(w, a))
return (1);
if (rep == NULL)
{
cs = (char) ch;
rep = &cs;
replen = 1;
} else
{
replen = (size_t) utf_len(rep[0]); /*{{type-issue}}*/
}
if (cshift == hshift)
{
if (line_pos == NULL_POSITION)
line_pos = pos;
if (shifted_ansi.end > 0)
{
/* Copy shifted ANSI sequences to beginning of line. */
for (i = 0; i < shifted_ansi.end; i++)
add_linebuf((char) shifted_ansi.data[i], AT_ANSI, 0);
xbuf_reset(&shifted_ansi);
}
}
/* Add the char to the buf, even if we will left-shift it next. */
inc_end_column(w);
for (i = 0; i < replen; i++)
add_linebuf(*rep++, a, 0);
if (cshift < hshift)
{
/* We haven't left-shifted enough yet. */
if (a == AT_ANSI)
xbuf_add_char(&shifted_ansi, (char) ch); /* Save ANSI attributes */
if (linebuf.end > linebuf.print)
{
/* Shift left enough to put last byte of this char at print-1. */
size_t i;
for (i = 0; i < linebuf.print; i++)
{
linebuf.buf[i] = linebuf.buf[i+replen];
linebuf.attr[i] = linebuf.attr[i+replen];
}
linebuf.end -= replen;
cshift += w;
/*
* If the char we just left-shifted was double width,
* the 2 spaces we shifted may be too much.
* Represent the "half char" at start of line with a highlighted space.
*/
while (cshift > hshift)
{
add_linebuf(' ', rscroll_attr, 0);
cshift--;
}
}
}
return (0);
}
#define STORE_STRING(s,a,pos) \
do { if (store_string((s),(a),(pos))) return (1); } while (0)
static int store_string(constant char *s, int a, POSITION pos)
{
if (!fits_on_screen((int) strlen(s), a))
return 1;
for ( ; *s != 0; s++)
STORE_CHAR((LWCHAR)*s, a, NULL, pos);
return 0;
}
/*
* Return number of spaces from col to the next tab stop.
*/
static int tab_spaces(int col)
{
int to_tab = col - (int) linebuf.pfx_end; /*{{type-issue}}*/
if (ntabstops < 2 || to_tab >= tabstops[ntabstops-1])
to_tab = tabdefault -
((to_tab - tabstops[ntabstops-1]) % tabdefault);
else
{
int i;
for (i = ntabstops - 2; i >= 0; i--)
if (to_tab >= tabstops[i])
break;
to_tab = tabstops[i+1] - to_tab;
}
return to_tab;
}
/*
* Append a tab to the line buffer.
* Store spaces to represent the tab.
*/
#define STORE_TAB(a,pos) \
do { if (store_tab((a),(pos))) return (1); } while (0)
static int store_tab(int attr, POSITION pos)
{
int to_tab = tab_spaces(end_column);
do {
STORE_CHAR(' ', attr, " ", pos);
} while (--to_tab > 0);
return 0;
}
#define STORE_PRCHAR(c, pos) \
do { if (store_prchar((c), (pos))) return 1; } while (0)
static int store_prchar(LWCHAR c, POSITION pos)
{
/*
* Convert to printable representation.
*/
STORE_STRING(prchar(c), AT_BINARY|AT_COLOR_CTRL, pos);
return 0;
}