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neovim/src/nvim/move.c
Luuk van Baal 4a34da82c1 perf(column): keep track of number of lines that hold up the 'signcolumn' 
Problem:  The entire marktree needs to be traversed each time a sign is
          removed from the sentinel line.
Solution: Remove sentinel line and instead keep track of the number of
          lines that hold up the 'signcolumn' in "max_count". Adjust this
          number for added/removed signs, and set it to 0 when the
          maximum number of signs on a line changes. Only when
          "max_count" is decremented to 0 due to sign removal do we need
          to check the entire buffer.

          Also replace "invalid_top" and "invalid_bot" with a map of
          invalid ranges, further reducing the number of lines to be
          checked.

          Also improve tree traversal when counting the number of signs.
          Instead of looping over the to be checked range and counting
          the overlap for each row, keep track of the overlap in an
          array and add this to the count.
2023-12-07 14:22:24 +00:00

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// move.c: Functions for moving the cursor and scrolling text.
//
// There are two ways to move the cursor:
// 1. Move the cursor directly, the text is scrolled to keep the cursor in the
// window.
// 2. Scroll the text, the cursor is moved into the text visible in the
// window.
// The 'scrolloff' option makes this a bit complicated.
#include <assert.h>
#include <limits.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
#include "nvim/ascii_defs.h"
#include "nvim/buffer.h"
#include "nvim/cursor.h"
#include "nvim/diff.h"
#include "nvim/drawscreen.h"
#include "nvim/edit.h"
#include "nvim/eval/typval.h"
#include "nvim/eval/window.h"
#include "nvim/fold.h"
#include "nvim/getchar.h"
#include "nvim/gettext.h"
#include "nvim/globals.h"
#include "nvim/grid.h"
#include "nvim/highlight.h"
#include "nvim/macros_defs.h"
#include "nvim/mark.h"
#include "nvim/mbyte.h"
#include "nvim/memline.h"
#include "nvim/message.h"
#include "nvim/mouse.h"
#include "nvim/move.h"
#include "nvim/option.h"
#include "nvim/option_vars.h"
#include "nvim/plines.h"
#include "nvim/popupmenu.h"
#include "nvim/pos_defs.h"
#include "nvim/search.h"
#include "nvim/sign_defs.h"
#include "nvim/strings.h"
#include "nvim/types_defs.h"
#include "nvim/vim_defs.h"
#include "nvim/window.h"
#include "nvim/winfloat.h"
typedef struct {
linenr_T lnum; // line number
int fill; // filler lines
int height; // height of added line
} lineoff_T;
#ifdef INCLUDE_GENERATED_DECLARATIONS
# include "move.c.generated.h"
#endif
/// Get the number of screen lines skipped with "wp->w_skipcol".
int adjust_plines_for_skipcol(win_T *wp)
{
if (wp->w_skipcol == 0) {
return 0;
}
int width = wp->w_width_inner - win_col_off(wp);
int w2 = width + win_col_off2(wp);
if (wp->w_skipcol >= width && w2 > 0) {
return (wp->w_skipcol - width) / w2 + 1;
}
return 0;
}
/// Return how many lines "lnum" will take on the screen, taking into account
/// whether it is the first line, whether w_skipcol is non-zero and limiting to
/// the window height.
static int plines_correct_topline(win_T *wp, linenr_T lnum, linenr_T *nextp, bool *foldedp)
{
int n = plines_win_full(wp, lnum, nextp, foldedp, true, false);
if (lnum == wp->w_topline) {
n -= adjust_plines_for_skipcol(wp);
}
if (n > wp->w_height_inner) {
return wp->w_height_inner;
}
return n;
}
// Compute wp->w_botline for the current wp->w_topline. Can be called after
// wp->w_topline changed.
static void comp_botline(win_T *wp)
{
linenr_T lnum;
int done;
// If w_cline_row is valid, start there.
// Otherwise have to start at w_topline.
check_cursor_moved(wp);
if (wp->w_valid & VALID_CROW) {
lnum = wp->w_cursor.lnum;
done = wp->w_cline_row;
} else {
lnum = wp->w_topline;
done = 0;
}
for (; lnum <= wp->w_buffer->b_ml.ml_line_count; lnum++) {
linenr_T last = lnum;
bool folded;
int n = plines_correct_topline(wp, lnum, &last, &folded);
if (lnum <= wp->w_cursor.lnum && last >= wp->w_cursor.lnum) {
wp->w_cline_row = done;
wp->w_cline_height = n;
wp->w_cline_folded = folded;
redraw_for_cursorline(wp);
wp->w_valid |= (VALID_CROW|VALID_CHEIGHT);
}
if (done + n > wp->w_height_inner) {
break;
}
done += n;
lnum = last;
}
// wp->w_botline is the line that is just below the window
wp->w_botline = lnum;
wp->w_valid |= VALID_BOTLINE|VALID_BOTLINE_AP;
wp->w_viewport_invalid = true;
set_empty_rows(wp, done);
win_check_anchored_floats(wp);
}
/// Redraw when w_virtcol changes and 'cursorcolumn' is set or 'cursorlineopt'
/// contains "screenline" or when the "CurSearch" highlight is in use.
/// Also when concealing is on and 'concealcursor' is active.
static void redraw_for_cursorcolumn(win_T *wp)
FUNC_ATTR_NONNULL_ALL
{
if ((wp->w_valid & VALID_VIRTCOL) == 0 && !pum_visible()) {
if (wp->w_p_cuc
|| (win_hl_attr(wp, HLF_LC) != win_hl_attr(wp, HLF_L) && using_hlsearch())) {
// When 'cursorcolumn' is set or "CurSearch" is in use
// need to redraw with UPD_SOME_VALID.
redraw_later(wp, UPD_SOME_VALID);
} else if (wp->w_p_cul && (wp->w_p_culopt_flags & CULOPT_SCRLINE)) {
// When 'cursorlineopt' contains "screenline" need to redraw with UPD_VALID.
redraw_later(wp, UPD_VALID);
}
}
// If the cursor moves horizontally when 'concealcursor' is active, then the
// current line needs to be redrawn in order to calculate the correct
// cursor position.
if ((wp->w_valid & VALID_VIRTCOL) == 0 && wp->w_p_cole > 0 && conceal_cursor_line(wp)) {
redrawWinline(wp, wp->w_cursor.lnum);
}
}
/// Calculates how much the 'listchars' "precedes" or 'smoothscroll' "<<<"
/// marker overlaps with buffer text for window "wp".
/// Parameter "extra2" should be the padding on the 2nd line, not the first
/// line.
/// Returns the number of columns of overlap with buffer text, excluding the
/// extra padding on the ledge.
int sms_marker_overlap(win_T *wp, int extra2)
{
// There is no marker overlap when in showbreak mode, thus no need to
// account for it. See grid_put_linebuf().
if (*get_showbreak_value(wp) != NUL) {
return 0;
}
// Overlap when 'list' and 'listchars' "precedes" are set is 1.
if (wp->w_p_list && wp->w_p_lcs_chars.prec) {
return 1;
}
return extra2 > 3 ? 0 : 3 - extra2;
}
/// Calculates the skipcol offset for window "wp" given how many
/// physical lines we want to scroll down.
static int skipcol_from_plines(win_T *wp, int plines_off)
{
int width1 = wp->w_width_inner - win_col_off(wp);
int skipcol = 0;
if (plines_off > 0) {
skipcol += width1;
}
if (plines_off > 1) {
skipcol += (width1 + win_col_off2(wp)) * (plines_off - 1);
}
return skipcol;
}
/// Set wp->w_skipcol to zero and redraw later if needed.
static void reset_skipcol(win_T *wp)
{
if (wp->w_skipcol != 0) {
wp->w_skipcol = 0;
// Should use the least expensive way that displays all that changed.
// UPD_NOT_VALID is too expensive, UPD_REDRAW_TOP does not redraw
// enough when the top line gets another screen line.
redraw_later(wp, UPD_SOME_VALID);
}
}
// Update curwin->w_topline to move the cursor onto the screen.
void update_topline(win_T *wp)
{
bool check_botline = false;
OptInt *so_ptr = wp->w_p_so >= 0 ? &wp->w_p_so : &p_so;
OptInt save_so = *so_ptr;
// Cursor is updated instead when this is true for 'splitkeep'.
if (skip_update_topline) {
return;
}
// If there is no valid screen and when the window height is zero just use
// the cursor line.
if (!default_grid.chars || wp->w_height_inner == 0) {
wp->w_topline = wp->w_cursor.lnum;
wp->w_botline = wp->w_topline;
wp->w_viewport_invalid = true;
wp->w_scbind_pos = 1;
return;
}
check_cursor_moved(wp);
if (wp->w_valid & VALID_TOPLINE) {
return;
}
// When dragging with the mouse, don't scroll that quickly
if (mouse_dragging > 0) {
*so_ptr = mouse_dragging - 1;
}
linenr_T old_topline = wp->w_topline;
int old_topfill = wp->w_topfill;
// If the buffer is empty, always set topline to 1.
if (buf_is_empty(wp->w_buffer)) { // special case - file is empty
if (wp->w_topline != 1) {
redraw_later(wp, UPD_NOT_VALID);
}
wp->w_topline = 1;
wp->w_botline = 2;
wp->w_valid |= VALID_BOTLINE|VALID_BOTLINE_AP;
wp->w_viewport_invalid = true;
wp->w_scbind_pos = 1;
} else {
bool check_topline = false;
// If the cursor is above or near the top of the window, scroll the window
// to show the line the cursor is in, with 'scrolloff' context.
if (wp->w_topline > 1 || wp->w_skipcol > 0) {
// If the cursor is above topline, scrolling is always needed.
// If the cursor is far below topline and there is no folding,
// scrolling down is never needed.
if (wp->w_cursor.lnum < wp->w_topline) {
check_topline = true;
} else if (check_top_offset()) {
check_topline = true;
} else if (wp->w_skipcol > 0 && wp->w_cursor.lnum == wp->w_topline) {
colnr_T vcol;
// Check that the cursor position is visible. Add columns for
// the marker displayed in the top-left if needed.
getvvcol(wp, &wp->w_cursor, &vcol, NULL, NULL);
int overlap = sms_marker_overlap(wp, win_col_off(wp) - win_col_off2(wp));
if (wp->w_skipcol + overlap > vcol) {
check_topline = true;
}
}
}
// Check if there are more filler lines than allowed.
if (!check_topline && wp->w_topfill > win_get_fill(wp, wp->w_topline)) {
check_topline = true;
}
if (check_topline) {
int halfheight = wp->w_height_inner / 2 - 1;
if (halfheight < 2) {
halfheight = 2;
}
int64_t n;
if (hasAnyFolding(wp)) {
// Count the number of logical lines between the cursor and
// topline + p_so (approximation of how much will be
// scrolled).
n = 0;
for (linenr_T lnum = wp->w_cursor.lnum;
lnum < wp->w_topline + *so_ptr; lnum++) {
n++;
// stop at end of file or when we know we are far off
assert(wp->w_buffer != 0);
if (lnum >= wp->w_buffer->b_ml.ml_line_count || n >= halfheight) {
break;
}
(void)hasFoldingWin(wp, lnum, NULL, &lnum, true, NULL);
}
} else {
n = wp->w_topline + *so_ptr - wp->w_cursor.lnum;
}
// If we weren't very close to begin with, we scroll to put the
// cursor in the middle of the window. Otherwise put the cursor
// near the top of the window.
if (n >= halfheight) {
scroll_cursor_halfway(false, false);
} else {
scroll_cursor_top(scrolljump_value(), false);
check_botline = true;
}
} else {
// Make sure topline is the first line of a fold.
(void)hasFoldingWin(wp, wp->w_topline, &wp->w_topline, NULL, true, NULL);
check_botline = true;
}
}
// If the cursor is below the bottom of the window, scroll the window
// to put the cursor on the window.
// When w_botline is invalid, recompute it first, to avoid a redraw later.
// If w_botline was approximated, we might need a redraw later in a few
// cases, but we don't want to spend (a lot of) time recomputing w_botline
// for every small change.
if (check_botline) {
if (!(wp->w_valid & VALID_BOTLINE_AP)) {
validate_botline(wp);
}
assert(wp->w_buffer != 0);
if (wp->w_botline <= wp->w_buffer->b_ml.ml_line_count) {
if (wp->w_cursor.lnum < wp->w_botline) {
if ((wp->w_cursor.lnum >= wp->w_botline - *so_ptr || hasAnyFolding(wp))) {
lineoff_T loff;
// Cursor is (a few lines) above botline, check if there are
// 'scrolloff' window lines below the cursor. If not, need to
// scroll.
int n = wp->w_empty_rows;
loff.lnum = wp->w_cursor.lnum;
// In a fold go to its last line.
(void)hasFoldingWin(wp, loff.lnum, NULL, &loff.lnum, true, NULL);
loff.fill = 0;
n += wp->w_filler_rows;
loff.height = 0;
while (loff.lnum < wp->w_botline
&& (loff.lnum + 1 < wp->w_botline || loff.fill == 0)) {
n += loff.height;
if (n >= *so_ptr) {
break;
}
botline_forw(wp, &loff);
}
if (n >= *so_ptr) {
// sufficient context, no need to scroll
check_botline = false;
}
} else {
// sufficient context, no need to scroll
check_botline = false;
}
}
if (check_botline) {
int line_count = 0;
if (hasAnyFolding(wp)) {
// Count the number of logical lines between the cursor and
// botline - p_so (approximation of how much will be
// scrolled).
for (linenr_T lnum = wp->w_cursor.lnum;
lnum >= wp->w_botline - *so_ptr; lnum--) {
line_count++;
// stop at end of file or when we know we are far off
if (lnum <= 0 || line_count > wp->w_height_inner + 1) {
break;
}
(void)hasFolding(lnum, &lnum, NULL);
}
} else {
line_count = wp->w_cursor.lnum - wp->w_botline + 1 + (int)(*so_ptr);
}
if (line_count <= wp->w_height_inner + 1) {
scroll_cursor_bot(scrolljump_value(), false);
} else {
scroll_cursor_halfway(false, false);
}
}
}
}
wp->w_valid |= VALID_TOPLINE;
wp->w_viewport_invalid = true;
win_check_anchored_floats(wp);
// Need to redraw when topline changed.
if (wp->w_topline != old_topline
|| wp->w_topfill != old_topfill) {
dollar_vcol = -1;
redraw_later(wp, UPD_VALID);
// When 'smoothscroll' is not set, should reset w_skipcol.
if (!wp->w_p_sms) {
reset_skipcol(wp);
} else if (wp->w_skipcol != 0) {
redraw_later(wp, UPD_SOME_VALID);
}
// May need to set w_skipcol when cursor in w_topline.
if (wp->w_cursor.lnum == wp->w_topline) {
validate_cursor();
}
}
*so_ptr = save_so;
}
// Return the scrolljump value to use for the current window.
// When 'scrolljump' is positive use it as-is.
// When 'scrolljump' is negative use it as a percentage of the window height.
static int scrolljump_value(void)
{
int result = p_sj >= 0 ? (int)p_sj : (curwin->w_height_inner * (int)(-p_sj)) / 100;
return result;
}
// Return true when there are not 'scrolloff' lines above the cursor for the
// current window.
static bool check_top_offset(void)
{
int so = get_scrolloff_value(curwin);
if (curwin->w_cursor.lnum < curwin->w_topline + so
|| hasAnyFolding(curwin)) {
lineoff_T loff;
loff.lnum = curwin->w_cursor.lnum;
loff.fill = 0;
int n = curwin->w_topfill; // always have this context
// Count the visible screen lines above the cursor line.
while (n < so) {
topline_back(curwin, &loff);
// Stop when included a line above the window.
if (loff.lnum < curwin->w_topline
|| (loff.lnum == curwin->w_topline
&& loff.fill > 0)) {
break;
}
n += loff.height;
}
if (n < so) {
return true;
}
}
return false;
}
/// Update w_curswant.
void update_curswant_force(void)
{
validate_virtcol();
curwin->w_curswant = curwin->w_virtcol;
curwin->w_set_curswant = false;
}
/// Update w_curswant if w_set_curswant is set.
void update_curswant(void)
{
if (curwin->w_set_curswant) {
update_curswant_force();
}
}
// Check if the cursor has moved. Set the w_valid flag accordingly.
void check_cursor_moved(win_T *wp)
{
if (wp->w_cursor.lnum != wp->w_valid_cursor.lnum) {
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL
|VALID_CHEIGHT|VALID_CROW|VALID_TOPLINE);
wp->w_valid_cursor = wp->w_cursor;
wp->w_valid_leftcol = wp->w_leftcol;
wp->w_valid_skipcol = wp->w_skipcol;
wp->w_viewport_invalid = true;
} else if (wp->w_skipcol != wp->w_valid_skipcol) {
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL
|VALID_CHEIGHT|VALID_CROW
|VALID_BOTLINE|VALID_BOTLINE_AP);
wp->w_valid_cursor = wp->w_cursor;
wp->w_valid_leftcol = wp->w_leftcol;
wp->w_valid_skipcol = wp->w_skipcol;
} else if (wp->w_cursor.col != wp->w_valid_cursor.col
|| wp->w_leftcol != wp->w_valid_leftcol
|| wp->w_cursor.coladd !=
wp->w_valid_cursor.coladd) {
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL);
wp->w_valid_cursor.col = wp->w_cursor.col;
wp->w_valid_leftcol = wp->w_leftcol;
wp->w_valid_cursor.coladd = wp->w_cursor.coladd;
wp->w_viewport_invalid = true;
}
}
// Call this function when some window settings have changed, which require
// the cursor position, botline and topline to be recomputed and the window to
// be redrawn. E.g, when changing the 'wrap' option or folding.
void changed_window_setting(void)
{
changed_window_setting_win(curwin);
}
void changed_window_setting_win(win_T *wp)
{
wp->w_lines_valid = 0;
changed_line_abv_curs_win(wp);
wp->w_valid &= ~(VALID_BOTLINE|VALID_BOTLINE_AP|VALID_TOPLINE);
redraw_later(wp, UPD_NOT_VALID);
}
// Set wp->w_topline to a certain number.
void set_topline(win_T *wp, linenr_T lnum)
{
linenr_T prev_topline = wp->w_topline;
// go to first of folded lines
(void)hasFoldingWin(wp, lnum, &lnum, NULL, true, NULL);
// Approximate the value of w_botline
wp->w_botline += lnum - wp->w_topline;
wp->w_topline = lnum;
wp->w_topline_was_set = true;
if (lnum != prev_topline) {
// Keep the filler lines when the topline didn't change.
wp->w_topfill = 0;
}
wp->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE|VALID_TOPLINE);
// Don't set VALID_TOPLINE here, 'scrolloff' needs to be checked.
redraw_later(wp, UPD_VALID);
}
/// Call this function when the length of the cursor line (in screen
/// characters) has changed, and the change is before the cursor.
/// If the line length changed the number of screen lines might change,
/// requiring updating w_topline. That may also invalidate w_crow.
/// Need to take care of w_botline separately!
void changed_cline_bef_curs(win_T *wp)
{
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL|VALID_CROW
|VALID_CHEIGHT|VALID_TOPLINE);
}
// Call this function when the length of a line (in screen characters) above
// the cursor have changed.
// Need to take care of w_botline separately!
void changed_line_abv_curs(void)
{
curwin->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL|VALID_CROW
|VALID_CHEIGHT|VALID_TOPLINE);
}
void changed_line_abv_curs_win(win_T *wp)
{
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL|VALID_CROW
|VALID_CHEIGHT|VALID_TOPLINE);
}
/// Display of line has changed for "buf", invalidate cursor position and
/// w_botline.
void changed_line_display_buf(buf_T *buf)
{
FOR_ALL_WINDOWS_IN_TAB(wp, curtab) {
if (wp->w_buffer == buf) {
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_VIRTCOL
|VALID_CROW|VALID_CHEIGHT
|VALID_TOPLINE|VALID_BOTLINE|VALID_BOTLINE_AP);
}
}
}
// Make sure the value of curwin->w_botline is valid.
void validate_botline(win_T *wp)
{
if (!(wp->w_valid & VALID_BOTLINE)) {
comp_botline(wp);
}
}
// Mark wp->w_botline as invalid (because of some change in the buffer).
void invalidate_botline(win_T *wp)
{
wp->w_valid &= ~(VALID_BOTLINE|VALID_BOTLINE_AP);
}
void approximate_botline_win(win_T *wp)
{
wp->w_valid &= ~VALID_BOTLINE;
}
// Return true if curwin->w_wrow and curwin->w_wcol are valid.
int cursor_valid(void)
{
check_cursor_moved(curwin);
return (curwin->w_valid & (VALID_WROW|VALID_WCOL)) == (VALID_WROW|VALID_WCOL);
}
// Validate cursor position. Makes sure w_wrow and w_wcol are valid.
// w_topline must be valid, you may need to call update_topline() first!
void validate_cursor(void)
{
check_cursor();
check_cursor_moved(curwin);
if ((curwin->w_valid & (VALID_WCOL|VALID_WROW)) != (VALID_WCOL|VALID_WROW)) {
curs_columns(curwin, true);
}
}
// Compute wp->w_cline_row and wp->w_cline_height, based on the current value
// of wp->w_topline.
static void curs_rows(win_T *wp)
{
// Check if wp->w_lines[].wl_size is invalid
int all_invalid = (!redrawing()
|| wp->w_lines_valid == 0
|| wp->w_lines[0].wl_lnum > wp->w_topline);
int i = 0;
wp->w_cline_row = 0;
for (linenr_T lnum = wp->w_topline; lnum < wp->w_cursor.lnum; i++) {
bool valid = false;
if (!all_invalid && i < wp->w_lines_valid) {
if (wp->w_lines[i].wl_lnum < lnum || !wp->w_lines[i].wl_valid) {
continue; // skip changed or deleted lines
}
if (wp->w_lines[i].wl_lnum == lnum) {
// Check for newly inserted lines below this row, in which
// case we need to check for folded lines.
if (!wp->w_buffer->b_mod_set
|| wp->w_lines[i].wl_lastlnum < wp->w_cursor.lnum
|| wp->w_buffer->b_mod_top
> wp->w_lines[i].wl_lastlnum + 1) {
valid = true;
}
} else if (wp->w_lines[i].wl_lnum > lnum) {
i--; // hold at inserted lines
}
}
if (valid && (lnum != wp->w_topline || (wp->w_skipcol == 0 && !win_may_fill(wp)))) {
lnum = wp->w_lines[i].wl_lastlnum + 1;
// Cursor inside folded lines, don't count this row
if (lnum > wp->w_cursor.lnum) {
break;
}
wp->w_cline_row += wp->w_lines[i].wl_size;
} else {
linenr_T last = lnum;
bool folded;
int n = plines_correct_topline(wp, lnum, &last, &folded);
lnum = last + 1;
if (folded && lnum > wp->w_cursor.lnum) {
break;
}
wp->w_cline_row += n;
}
}
check_cursor_moved(wp);
if (!(wp->w_valid & VALID_CHEIGHT)) {
if (all_invalid
|| i == wp->w_lines_valid
|| (i < wp->w_lines_valid
&& (!wp->w_lines[i].wl_valid
|| wp->w_lines[i].wl_lnum != wp->w_cursor.lnum))) {
wp->w_cline_height = plines_win_full(wp, wp->w_cursor.lnum, NULL,
&wp->w_cline_folded, true, true);
} else if (i > wp->w_lines_valid) {
// a line that is too long to fit on the last screen line
wp->w_cline_height = 0;
wp->w_cline_folded = hasFoldingWin(wp, wp->w_cursor.lnum, NULL,
NULL, true, NULL);
} else {
wp->w_cline_height = wp->w_lines[i].wl_size;
wp->w_cline_folded = wp->w_lines[i].wl_folded;
}
}
redraw_for_cursorline(curwin);
wp->w_valid |= VALID_CROW|VALID_CHEIGHT;
}
// Validate curwin->w_virtcol only.
void validate_virtcol(void)
{
validate_virtcol_win(curwin);
}
// Validate wp->w_virtcol only.
void validate_virtcol_win(win_T *wp)
{
check_cursor_moved(wp);
if (wp->w_valid & VALID_VIRTCOL) {
return;
}
getvvcol(wp, &wp->w_cursor, NULL, &(wp->w_virtcol), NULL);
redraw_for_cursorcolumn(wp);
wp->w_valid |= VALID_VIRTCOL;
}
// Validate curwin->w_cline_height only.
void validate_cheight(void)
{
check_cursor_moved(curwin);
if (curwin->w_valid & VALID_CHEIGHT) {
return;
}
curwin->w_cline_height = plines_win_full(curwin, curwin->w_cursor.lnum,
NULL, &curwin->w_cline_folded,
true, true);
curwin->w_valid |= VALID_CHEIGHT;
}
// Validate w_wcol and w_virtcol only.
void validate_cursor_col(void)
{
validate_virtcol();
if (curwin->w_valid & VALID_WCOL) {
return;
}
colnr_T col = curwin->w_virtcol;
colnr_T off = curwin_col_off();
col += off;
int width = curwin->w_width_inner - off + curwin_col_off2();
// long line wrapping, adjust curwin->w_wrow
if (curwin->w_p_wrap && col >= (colnr_T)curwin->w_width_inner
&& width > 0) {
// use same formula as what is used in curs_columns()
col -= ((col - curwin->w_width_inner) / width + 1) * width;
}
if (col > (int)curwin->w_leftcol) {
col -= curwin->w_leftcol;
} else {
col = 0;
}
curwin->w_wcol = col;
curwin->w_valid |= VALID_WCOL;
}
// Compute offset of a window, occupied by absolute or relative line number,
// fold column and sign column (these don't move when scrolling horizontally).
int win_col_off(win_T *wp)
{
return ((wp->w_p_nu || wp->w_p_rnu || *wp->w_p_stc != NUL)
? (number_width(wp) + (*wp->w_p_stc == NUL)) : 0)
+ ((cmdwin_type == 0 || wp != curwin) ? 0 : 1)
+ win_fdccol_count(wp) + (wp->w_scwidth * SIGN_WIDTH);
}
int curwin_col_off(void)
{
return win_col_off(curwin);
}
// Return the difference in column offset for the second screen line of a
// wrapped line. It's positive if 'number' or 'relativenumber' is on and 'n'
// is in 'cpoptions'.
int win_col_off2(win_T *wp)
{
if ((wp->w_p_nu || wp->w_p_rnu || *wp->w_p_stc != NUL)
&& vim_strchr(p_cpo, CPO_NUMCOL) != NULL) {
return number_width(wp) + (*wp->w_p_stc == NUL);
}
return 0;
}
int curwin_col_off2(void)
{
return win_col_off2(curwin);
}
// Compute wp->w_wcol and wp->w_virtcol.
// Also updates wp->w_wrow and wp->w_cline_row.
// Also updates wp->w_leftcol.
// @param may_scroll when true, may scroll horizontally
void curs_columns(win_T *wp, int may_scroll)
{
colnr_T startcol;
colnr_T endcol;
// First make sure that w_topline is valid (after moving the cursor).
update_topline(wp);
// Next make sure that w_cline_row is valid.
if (!(wp->w_valid & VALID_CROW)) {
curs_rows(wp);
}
// Compute the number of virtual columns.
if (wp->w_cline_folded) {
// In a folded line the cursor is always in the first column
startcol = wp->w_virtcol = endcol = wp->w_leftcol;
} else {
getvvcol(wp, &wp->w_cursor, &startcol, &(wp->w_virtcol), &endcol);
}
// remove '$' from change command when cursor moves onto it
if (startcol > dollar_vcol) {
dollar_vcol = -1;
}
int extra = win_col_off(wp);
wp->w_wcol = wp->w_virtcol + extra;
endcol += extra;
// Now compute w_wrow, counting screen lines from w_cline_row.
wp->w_wrow = wp->w_cline_row;
int n;
int width1 = wp->w_width_inner - extra; // text width for first screen line
int width2 = 0; // text width for second and later screen line
bool did_sub_skipcol = false;
if (width1 <= 0) {
// No room for text, put cursor in last char of window.
// If not wrapping, the last non-empty line.
wp->w_wcol = wp->w_width_inner - 1;
if (wp->w_p_wrap) {
wp->w_wrow = wp->w_height_inner - 1;
} else {
wp->w_wrow = wp->w_height_inner - 1 - wp->w_empty_rows;
}
} else if (wp->w_p_wrap && wp->w_width_inner != 0) {
width2 = width1 + win_col_off2(wp);
// skip columns that are not visible
if (wp->w_cursor.lnum == wp->w_topline
&& wp->w_skipcol > 0
&& wp->w_wcol >= wp->w_skipcol) {
// Deduct by multiples of width2. This allows the long line wrapping
// formula below to correctly calculate the w_wcol value when wrapping.
if (wp->w_skipcol <= width1) {
wp->w_wcol -= width2;
} else {
wp->w_wcol -= width2 * (((wp->w_skipcol - width1) / width2) + 1);
}
did_sub_skipcol = true;
}
// long line wrapping, adjust wp->w_wrow
if (wp->w_wcol >= wp->w_width_inner) {
// this same formula is used in validate_cursor_col()
n = (wp->w_wcol - wp->w_width_inner) / width2 + 1;
wp->w_wcol -= n * width2;
wp->w_wrow += n;
}
} else if (may_scroll
&& !wp->w_cline_folded) {
// No line wrapping: compute wp->w_leftcol if scrolling is on and line
// is not folded.
// If scrolling is off, wp->w_leftcol is assumed to be 0
// If Cursor is left of the screen, scroll rightwards.
// If Cursor is right of the screen, scroll leftwards
// If we get closer to the edge than 'sidescrolloff', scroll a little
// extra
int siso = get_sidescrolloff_value(wp);
int off_left = startcol - wp->w_leftcol - siso;
int off_right = endcol - wp->w_leftcol - wp->w_width_inner + siso + 1;
if (off_left < 0 || off_right > 0) {
int diff = (off_left < 0) ? -off_left : off_right;
// When far off or not enough room on either side, put cursor in
// middle of window.
int new_leftcol;
if (p_ss == 0 || diff >= width1 / 2 || off_right >= off_left) {
new_leftcol = curwin->w_wcol - extra - width1 / 2;
} else {
if (diff < p_ss) {
assert(p_ss <= INT_MAX);
diff = (int)p_ss;
}
if (off_left < 0) {
new_leftcol = wp->w_leftcol - diff;
} else {
new_leftcol = wp->w_leftcol + diff;
}
}
if (new_leftcol < 0) {
new_leftcol = 0;
}
if (new_leftcol != (int)wp->w_leftcol) {
wp->w_leftcol = new_leftcol;
win_check_anchored_floats(wp);
// screen has to be redrawn with new wp->w_leftcol
redraw_later(wp, UPD_NOT_VALID);
}
}
wp->w_wcol -= wp->w_leftcol;
} else if (wp->w_wcol > (int)wp->w_leftcol) {
wp->w_wcol -= wp->w_leftcol;
} else {
wp->w_wcol = 0;
}
// Skip over filler lines. At the top use w_topfill, there
// may be some filler lines above the window.
if (wp->w_cursor.lnum == wp->w_topline) {
wp->w_wrow += wp->w_topfill;
} else {
wp->w_wrow += win_get_fill(wp, wp->w_cursor.lnum);
}
int plines = 0;
int so = get_scrolloff_value(wp);
colnr_T prev_skipcol = wp->w_skipcol;
if ((wp->w_wrow >= wp->w_height_inner
|| ((prev_skipcol > 0
|| wp->w_wrow + so >= wp->w_height_inner)
&& (plines = plines_win_nofill(wp, wp->w_cursor.lnum, false)) - 1
>= wp->w_height_inner))
&& wp->w_height_inner != 0
&& wp->w_cursor.lnum == wp->w_topline
&& width2 > 0
&& wp->w_width_inner != 0) {
// Cursor past end of screen. Happens with a single line that does
// not fit on screen. Find a skipcol to show the text around the
// cursor. Avoid scrolling all the time. compute value of "extra":
// 1: Less than "p_so" lines above
// 2: Less than "p_so" lines below
// 3: both of them
extra = 0;
if (wp->w_skipcol + so * width2 > wp->w_virtcol) {
extra = 1;
}
// Compute last display line of the buffer line that we want at the
// bottom of the window.
if (plines == 0) {
plines = plines_win(wp, wp->w_cursor.lnum, false);
}
plines--;
if (plines > wp->w_wrow + so) {
assert(so <= INT_MAX);
n = wp->w_wrow + so;
} else {
n = plines;
}
if ((colnr_T)n >= wp->w_height_inner + wp->w_skipcol / width2 - so) {
extra += 2;
}
if (extra == 3 || wp->w_height_inner <= so * 2) {
// not enough room for 'scrolloff', put cursor in the middle
n = wp->w_virtcol / width2;
if (n > wp->w_height_inner / 2) {
n -= wp->w_height_inner / 2;
} else {
n = 0;
}
// don't skip more than necessary
if (n > plines - wp->w_height_inner + 1) {
n = plines - wp->w_height_inner + 1;
}
if (n > 0) {
curwin->w_skipcol = width1 + (n - 1) * width2;
} else {
curwin->w_skipcol = 0;
}
} else if (extra == 1) {
// less than 'scrolloff' lines above, decrease skipcol
assert(so <= INT_MAX);
extra = (wp->w_skipcol + so * width2 - wp->w_virtcol + width2 - 1) / width2;
if (extra > 0) {
if ((colnr_T)(extra * width2) > wp->w_skipcol) {
extra = wp->w_skipcol / width2;
}
wp->w_skipcol -= extra * width2;
}
} else if (extra == 2) {
// less than 'scrolloff' lines below, increase skipcol
endcol = (n - wp->w_height_inner + 1) * width2;
while (endcol > wp->w_virtcol) {
endcol -= width2;
}
if (endcol > wp->w_skipcol) {
wp->w_skipcol = endcol;
}
}
// adjust w_wrow for the changed w_skipcol
if (did_sub_skipcol) {
wp->w_wrow -= (wp->w_skipcol - prev_skipcol) / width2;
} else {
wp->w_wrow -= wp->w_skipcol / width2;
}
if (wp->w_wrow >= wp->w_height_inner) {
// small window, make sure cursor is in it
extra = wp->w_wrow - wp->w_height_inner + 1;
wp->w_skipcol += extra * width2;
wp->w_wrow -= extra;
}
// extra could be either positive or negative
extra = (prev_skipcol - wp->w_skipcol) / width2;
win_scroll_lines(wp, 0, extra);
} else if (!wp->w_p_sms) {
wp->w_skipcol = 0;
}
if (prev_skipcol != wp->w_skipcol) {
redraw_later(wp, UPD_SOME_VALID);
}
redraw_for_cursorcolumn(wp);
// now w_leftcol and w_skipcol are valid, avoid check_cursor_moved()
// thinking otherwise
wp->w_valid_leftcol = wp->w_leftcol;
wp->w_valid_skipcol = wp->w_skipcol;
wp->w_valid |= VALID_WCOL|VALID_WROW|VALID_VIRTCOL;
}
/// Compute the screen position of text character at "pos" in window "wp"
/// The resulting values are one-based, zero when character is not visible.
///
/// @param[out] rowp screen row
/// @param[out] scolp start screen column
/// @param[out] ccolp cursor screen column
/// @param[out] ecolp end screen column
void textpos2screenpos(win_T *wp, pos_T *pos, int *rowp, int *scolp, int *ccolp, int *ecolp,
bool local)
{
colnr_T scol = 0, ccol = 0, ecol = 0;
int row = 0;
colnr_T coloff = 0;
bool visible_row = false;
bool is_folded = false;
linenr_T lnum = pos->lnum;
if (lnum >= wp->w_topline && lnum <= wp->w_botline) {
is_folded = hasFoldingWin(wp, lnum, &lnum, NULL, true, NULL);
row = plines_m_win(wp, wp->w_topline, lnum - 1, false);
// "row" should be the screen line where line "lnum" begins, which can
// be negative if "lnum" is "w_topline" and "w_skipcol" is non-zero.
row -= adjust_plines_for_skipcol(wp);
// Add filler lines above this buffer line.
row += lnum == wp->w_topline ? wp->w_topfill : win_get_fill(wp, lnum);
visible_row = true;
} else if (!local || lnum < wp->w_topline) {
row = 0;
} else {
row = wp->w_height_inner - 1;
}
bool existing_row = (lnum > 0 && lnum <= wp->w_buffer->b_ml.ml_line_count);
if ((local || visible_row) && existing_row) {
const colnr_T off = win_col_off(wp);
if (is_folded) {
row += (local ? 0 : wp->w_winrow + wp->w_winrow_off) + 1;
coloff = (local ? 0 : wp->w_wincol + wp->w_wincol_off) + 1 + off;
} else {
assert(lnum == pos->lnum);
getvcol(wp, pos, &scol, &ccol, &ecol);
// similar to what is done in validate_cursor_col()
colnr_T col = scol;
col += off;
int width = wp->w_width_inner - off + win_col_off2(wp);
// long line wrapping, adjust row
if (wp->w_p_wrap && col >= (colnr_T)wp->w_width_inner && width > 0) {
// use same formula as what is used in curs_columns()
int rowoff = visible_row ? ((col - wp->w_width_inner) / width + 1) : 0;
col -= rowoff * width;
row += rowoff;
}
col -= wp->w_leftcol;
if (col >= 0 && col < wp->w_width_inner && row >= 0 && row < wp->w_height_inner) {
coloff = col - scol + (local ? 0 : wp->w_wincol + wp->w_wincol_off) + 1;
row += (local ? 0 : wp->w_winrow + wp->w_winrow_off) + 1;
} else {
// character is left, right or below of the window
scol = ccol = ecol = 0;
if (local) {
coloff = col < 0 ? -1 : wp->w_width_inner + 1;
} else {
row = 0;
}
}
}
}
*rowp = row;
*scolp = scol + coloff;
*ccolp = ccol + coloff;
*ecolp = ecol + coloff;
}
/// "screenpos({winid}, {lnum}, {col})" function
void f_screenpos(typval_T *argvars, typval_T *rettv, EvalFuncData fptr)
{
tv_dict_alloc_ret(rettv);
dict_T *dict = rettv->vval.v_dict;
win_T *wp = find_win_by_nr_or_id(&argvars[0]);
if (wp == NULL) {
return;
}
pos_T pos = {
.lnum = (linenr_T)tv_get_number(&argvars[1]),
.col = (colnr_T)tv_get_number(&argvars[2]) - 1,
.coladd = 0
};
if (pos.lnum > wp->w_buffer->b_ml.ml_line_count) {
semsg(_(e_invalid_line_number_nr), pos.lnum);
return;
}
int row = 0;
int scol = 0, ccol = 0, ecol = 0;
textpos2screenpos(wp, &pos, &row, &scol, &ccol, &ecol, false);
tv_dict_add_nr(dict, S_LEN("row"), row);
tv_dict_add_nr(dict, S_LEN("col"), scol);
tv_dict_add_nr(dict, S_LEN("curscol"), ccol);
tv_dict_add_nr(dict, S_LEN("endcol"), ecol);
}
/// Convert a virtual (screen) column to a character column. The first column
/// is one. For a multibyte character, the column number of the first byte is
/// returned.
static int virtcol2col(win_T *wp, linenr_T lnum, int vcol)
{
int offset = vcol2col(wp, lnum, vcol - 1, NULL);
char *line = ml_get_buf(wp->w_buffer, lnum);
char *p = line + offset;
if (*p == NUL) {
if (p == line) { // empty line
return 0;
}
// Move to the first byte of the last char.
MB_PTR_BACK(line, p);
}
return (int)(p - line + 1);
}
/// "virtcol2col({winid}, {lnum}, {col})" function
void f_virtcol2col(typval_T *argvars, typval_T *rettv, EvalFuncData fptr)
{
rettv->vval.v_number = -1;
if (tv_check_for_number_arg(argvars, 0) == FAIL
|| tv_check_for_number_arg(argvars, 1) == FAIL
|| tv_check_for_number_arg(argvars, 2) == FAIL) {
return;
}
win_T *wp = find_win_by_nr_or_id(&argvars[0]);
if (wp == NULL) {
return;
}
bool error = false;
linenr_T lnum = (linenr_T)tv_get_number_chk(&argvars[1], &error);
if (error || lnum < 0 || lnum > wp->w_buffer->b_ml.ml_line_count) {
return;
}
int screencol = (int)tv_get_number_chk(&argvars[2], &error);
if (error || screencol < 0) {
return;
}
rettv->vval.v_number = virtcol2col(wp, lnum, screencol);
}
/// Scroll the current window down by "line_count" logical lines. "CTRL-Y"
///
/// @param line_count number of lines to scroll
/// @param byfold if true, count a closed fold as one line
bool scrolldown(linenr_T line_count, int byfold)
{
int done = 0; // total # of physical lines done
int width1 = 0;
int width2 = 0;
bool do_sms = curwin->w_p_wrap && curwin->w_p_sms;
if (do_sms) {
width1 = curwin->w_width_inner - curwin_col_off();
width2 = width1 + curwin_col_off2();
}
// Make sure w_topline is at the first of a sequence of folded lines.
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
validate_cursor(); // w_wrow needs to be valid
for (int todo = line_count; todo > 0; todo--) {
if (curwin->w_topfill < win_get_fill(curwin, curwin->w_topline)
&& curwin->w_topfill < curwin->w_height_inner - 1) {
curwin->w_topfill++;
done++;
} else {
// break when at the very top
if (curwin->w_topline == 1 && (!do_sms || curwin->w_skipcol < width1)) {
break;
}
if (do_sms && curwin->w_skipcol >= width1) {
// scroll a screen line down
if (curwin->w_skipcol >= width1 + width2) {
curwin->w_skipcol -= width2;
} else {
curwin->w_skipcol -= width1;
}
redraw_later(curwin, UPD_NOT_VALID);
done++;
} else {
// scroll a text line down
curwin->w_topline--;
curwin->w_skipcol = 0;
curwin->w_topfill = 0;
// A sequence of folded lines only counts for one logical line
linenr_T first;
if (hasFolding(curwin->w_topline, &first, NULL)) {
done++;
if (!byfold) {
todo -= curwin->w_topline - first - 1;
}
curwin->w_botline -= curwin->w_topline - first;
curwin->w_topline = first;
} else {
if (do_sms) {
int size = win_linetabsize(curwin, curwin->w_topline,
ml_get(curwin->w_topline), MAXCOL);
if (size > width1) {
curwin->w_skipcol = width1;
size -= width1;
redraw_later(curwin, UPD_NOT_VALID);
}
while (size > width2) {
curwin->w_skipcol += width2;
size -= width2;
}
done++;
} else {
done += plines_win_nofill(curwin, curwin->w_topline, true);
}
}
}
}
curwin->w_botline--; // approximate w_botline
invalidate_botline(curwin);
}
curwin->w_wrow += done; // keep w_wrow updated
curwin->w_cline_row += done; // keep w_cline_row updated
if (curwin->w_cursor.lnum == curwin->w_topline) {
curwin->w_cline_row = 0;
}
check_topfill(curwin, true);
// Compute the row number of the last row of the cursor line
// and move the cursor onto the displayed part of the window.
int wrow = curwin->w_wrow;
if (curwin->w_p_wrap && curwin->w_width_inner != 0) {
validate_virtcol();
validate_cheight();
wrow += curwin->w_cline_height - 1 -
curwin->w_virtcol / curwin->w_width_inner;
}
bool moved = false;
while (wrow >= curwin->w_height_inner && curwin->w_cursor.lnum > 1) {
linenr_T first;
if (hasFolding(curwin->w_cursor.lnum, &first, NULL)) {
wrow--;
if (first == 1) {
curwin->w_cursor.lnum = 1;
} else {
curwin->w_cursor.lnum = first - 1;
}
} else {
wrow -= plines_win(curwin, curwin->w_cursor.lnum--, true);
}
curwin->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW|VALID_VIRTCOL);
moved = true;
}
if (moved) {
// Move cursor to first line of closed fold.
foldAdjustCursor();
coladvance(curwin->w_curswant);
}
if (curwin->w_cursor.lnum == curwin->w_topline && do_sms) {
int so = get_scrolloff_value(curwin);
colnr_T scrolloff_cols = so == 0 ? 0 : width1 + (so - 1) * width2;
// make sure the cursor is in the visible text
validate_virtcol();
colnr_T col = curwin->w_virtcol - curwin->w_skipcol + scrolloff_cols;
int row = 0;
if (col >= width1) {
col -= width1;
row++;
}
if (col > width2 && width2 > 0) {
row += (int)col / width2;
}
if (row >= curwin->w_height_inner) {
curwin->w_curswant = curwin->w_virtcol - (row - curwin->w_height_inner + 1) * width2;
coladvance(curwin->w_curswant);
}
}
return moved;
}
/// Scroll the current window up by "line_count" logical lines. "CTRL-E"
///
/// @param line_count number of lines to scroll
/// @param byfold if true, count a closed fold as one line
bool scrollup(linenr_T line_count, int byfold)
{
linenr_T topline = curwin->w_topline;
linenr_T botline = curwin->w_botline;
int do_sms = curwin->w_p_wrap && curwin->w_p_sms;
if (do_sms || (byfold && hasAnyFolding(curwin)) || win_may_fill(curwin)) {
int width1 = curwin->w_width_inner - curwin_col_off();
int width2 = width1 + curwin_col_off2();
int size = 0;
const colnr_T prev_skipcol = curwin->w_skipcol;
if (do_sms) {
size = linetabsize(curwin, curwin->w_topline);
}
// diff mode: first consume "topfill"
// 'smoothscroll': increase "w_skipcol" until it goes over the end of
// the line, then advance to the next line.
// folding: count each sequence of folded lines as one logical line.
for (int todo = line_count; todo > 0; todo--) {
if (curwin->w_topfill > 0) {
curwin->w_topfill--;
} else {
linenr_T lnum = curwin->w_topline;
if (byfold) {
// for a closed fold: go to the last line in the fold
(void)hasFolding(lnum, NULL, &lnum);
}
if (lnum == curwin->w_topline && do_sms) {
// 'smoothscroll': increase "w_skipcol" until it goes over
// the end of the line, then advance to the next line.
int add = curwin->w_skipcol > 0 ? width2 : width1;
curwin->w_skipcol += add;
if (curwin->w_skipcol >= size) {
if (lnum == curbuf->b_ml.ml_line_count) {
// at the last screen line, can't scroll further
curwin->w_skipcol -= add;
break;
}
lnum++;
}
} else {
if (lnum >= curbuf->b_ml.ml_line_count) {
break;
}
lnum++;
}
if (lnum > curwin->w_topline) {
// approximate w_botline
curwin->w_botline += lnum - curwin->w_topline;
curwin->w_topline = lnum;
curwin->w_topfill = win_get_fill(curwin, lnum);
curwin->w_skipcol = 0;
if (todo > 1 && do_sms) {
size = linetabsize(curwin, curwin->w_topline);
}
}
}
}
if (prev_skipcol > 0 || curwin->w_skipcol > 0) {
// need to redraw more, because wl_size of the (new) topline may
// now be invalid
redraw_later(curwin, UPD_NOT_VALID);
}
} else {
curwin->w_topline += line_count;
curwin->w_botline += line_count; // approximate w_botline
}
if (curwin->w_topline > curbuf->b_ml.ml_line_count) {
curwin->w_topline = curbuf->b_ml.ml_line_count;
}
if (curwin->w_botline > curbuf->b_ml.ml_line_count + 1) {
curwin->w_botline = curbuf->b_ml.ml_line_count + 1;
}
check_topfill(curwin, false);
if (hasAnyFolding(curwin)) {
// Make sure w_topline is at the first of a sequence of folded lines.
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
}
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
if (curwin->w_cursor.lnum < curwin->w_topline) {
curwin->w_cursor.lnum = curwin->w_topline;
curwin->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW|VALID_VIRTCOL);
coladvance(curwin->w_curswant);
}
if (curwin->w_cursor.lnum == curwin->w_topline && do_sms && curwin->w_skipcol > 0) {
int col_off = curwin_col_off();
int col_off2 = curwin_col_off2();
int width1 = curwin->w_width_inner - col_off;
int width2 = width1 + col_off2;
int extra2 = col_off - col_off2;
int so = get_scrolloff_value(curwin);
colnr_T scrolloff_cols = so == 0 ? 0 : width1 + (so - 1) * width2;
int space_cols = (curwin->w_height_inner - 1) * width2;
// If we have non-zero scrolloff, just ignore the marker as we are
// going past it anyway.
int overlap = scrolloff_cols != 0 ? 0 : sms_marker_overlap(curwin, extra2);
// Make sure the cursor is in a visible part of the line, taking
// 'scrolloff' into account, but using screen lines.
// If there are not enough screen lines put the cursor in the middle.
if (scrolloff_cols > space_cols / 2) {
scrolloff_cols = space_cols / 2;
}
validate_virtcol();
if (curwin->w_virtcol < curwin->w_skipcol + overlap + scrolloff_cols) {
colnr_T col = curwin->w_virtcol;
if (col < width1) {
col += width1;
}
while (col < curwin->w_skipcol + overlap + scrolloff_cols) {
col += width2;
}
curwin->w_curswant = col;
coladvance(curwin->w_curswant);
// validate_virtcol() marked various things as valid, but after
// moving the cursor they need to be recomputed
curwin->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW|VALID_VIRTCOL);
}
}
bool moved = topline != curwin->w_topline || botline != curwin->w_botline;
return moved;
}
/// Called after changing the cursor column: make sure that curwin->w_skipcol is
/// valid for 'smoothscroll'.
void adjust_skipcol(void)
{
if (!curwin->w_p_wrap || !curwin->w_p_sms || curwin->w_cursor.lnum != curwin->w_topline) {
return;
}
int width1 = curwin->w_width_inner - curwin_col_off();
if (width1 <= 0) {
return; // no text will be displayed
}
int width2 = width1 + curwin_col_off2();
int so = get_scrolloff_value(curwin);
colnr_T scrolloff_cols = so == 0 ? 0 : width1 + (so - 1) * width2;
bool scrolled = false;
validate_cheight();
if (curwin->w_cline_height == curwin->w_height_inner
// w_cline_height may be capped at w_height_inner, check there aren't
// actually more lines.
&& plines_win(curwin, curwin->w_cursor.lnum, false) <= curwin->w_height_inner) {
// the line just fits in the window, don't scroll
reset_skipcol(curwin);
return;
}
validate_virtcol();
int overlap = sms_marker_overlap(curwin, curwin_col_off() - curwin_col_off2());
while (curwin->w_skipcol > 0
&& curwin->w_virtcol < curwin->w_skipcol + overlap + scrolloff_cols) {
// scroll a screen line down
if (curwin->w_skipcol >= width1 + width2) {
curwin->w_skipcol -= width2;
} else {
curwin->w_skipcol -= width1;
}
scrolled = true;
}
if (scrolled) {
validate_virtcol();
redraw_later(curwin, UPD_NOT_VALID);
return; // don't scroll in the other direction now
}
colnr_T col = curwin->w_virtcol - curwin->w_skipcol + scrolloff_cols;
int row = 0;
if (col >= width1) {
col -= width1;
row++;
}
if (col > width2) {
row += (int)col / width2;
}
if (row >= curwin->w_height_inner) {
if (curwin->w_skipcol == 0) {
curwin->w_skipcol += width1;
row--;
}
if (row >= curwin->w_height_inner) {
curwin->w_skipcol += (row - curwin->w_height_inner) * width2;
}
redraw_later(curwin, UPD_NOT_VALID);
}
}
/// Don't end up with too many filler lines in the window.
///
/// @param down when true scroll down when not enough space
void check_topfill(win_T *wp, bool down)
{
if (wp->w_topfill > 0) {
int n = plines_win_nofill(wp, wp->w_topline, true);
if (wp->w_topfill + n > wp->w_height_inner) {
if (down && wp->w_topline > 1) {
wp->w_topline--;
wp->w_topfill = 0;
} else {
wp->w_topfill = wp->w_height_inner - n;
if (wp->w_topfill < 0) {
wp->w_topfill = 0;
}
}
}
}
win_check_anchored_floats(curwin);
}
// Use as many filler lines as possible for w_topline. Make sure w_topline
// is still visible.
static void max_topfill(void)
{
int n = plines_win_nofill(curwin, curwin->w_topline, true);
if (n >= curwin->w_height_inner) {
curwin->w_topfill = 0;
} else {
curwin->w_topfill = win_get_fill(curwin, curwin->w_topline);
if (curwin->w_topfill + n > curwin->w_height_inner) {
curwin->w_topfill = curwin->w_height_inner - n;
}
}
}
// Scroll the screen one line down, but don't do it if it would move the
// cursor off the screen.
void scrolldown_clamp(void)
{
int can_fill = (curwin->w_topfill < win_get_fill(curwin, curwin->w_topline));
if (curwin->w_topline <= 1
&& !can_fill) {
return;
}
validate_cursor(); // w_wrow needs to be valid
// Compute the row number of the last row of the cursor line
// and make sure it doesn't go off the screen. Make sure the cursor
// doesn't go past 'scrolloff' lines from the screen end.
int end_row = curwin->w_wrow;
if (can_fill) {
end_row++;
} else {
end_row += plines_win_nofill(curwin, curwin->w_topline - 1, true);
}
if (curwin->w_p_wrap && curwin->w_width_inner != 0) {
validate_cheight();
validate_virtcol();
end_row += curwin->w_cline_height - 1 -
curwin->w_virtcol / curwin->w_width_inner;
}
if (end_row < curwin->w_height_inner - get_scrolloff_value(curwin)) {
if (can_fill) {
curwin->w_topfill++;
check_topfill(curwin, true);
} else {
curwin->w_topline--;
curwin->w_topfill = 0;
}
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
curwin->w_botline--; // approximate w_botline
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
}
}
// Scroll the screen one line up, but don't do it if it would move the cursor
// off the screen.
void scrollup_clamp(void)
{
if (curwin->w_topline == curbuf->b_ml.ml_line_count
&& curwin->w_topfill == 0) {
return;
}
validate_cursor(); // w_wrow needs to be valid
// Compute the row number of the first row of the cursor line
// and make sure it doesn't go off the screen. Make sure the cursor
// doesn't go before 'scrolloff' lines from the screen start.
int start_row = (curwin->w_wrow
- plines_win_nofill(curwin, curwin->w_topline, true)
- curwin->w_topfill);
if (curwin->w_p_wrap && curwin->w_width_inner != 0) {
validate_virtcol();
start_row -= curwin->w_virtcol / curwin->w_width_inner;
}
if (start_row >= get_scrolloff_value(curwin)) {
if (curwin->w_topfill > 0) {
curwin->w_topfill--;
} else {
(void)hasFolding(curwin->w_topline, NULL, &curwin->w_topline);
curwin->w_topline++;
}
curwin->w_botline++; // approximate w_botline
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
}
}
// Add one line above "lp->lnum". This can be a filler line, a closed fold or
// a (wrapped) text line. Uses and sets "lp->fill".
// Returns the height of the added line in "lp->height".
// Lines above the first one are incredibly high: MAXCOL.
// When "winheight" is true limit to window height.
static void topline_back_winheight(win_T *wp, lineoff_T *lp, int winheight)
{
if (lp->fill < win_get_fill(wp, lp->lnum)) {
// Add a filler line
lp->fill++;
lp->height = 1;
} else {
lp->lnum--;
lp->fill = 0;
if (lp->lnum < 1) {
lp->height = MAXCOL;
} else if (hasFolding(lp->lnum, &lp->lnum, NULL)) {
// Add a closed fold
lp->height = 1;
} else {
lp->height = plines_win_nofill(wp, lp->lnum, winheight);
}
}
}
static void topline_back(win_T *wp, lineoff_T *lp)
{
topline_back_winheight(wp, lp, true);
}
// Add one line below "lp->lnum". This can be a filler line, a closed fold or
// a (wrapped) text line. Uses and sets "lp->fill".
// Returns the height of the added line in "lp->height".
// Lines below the last one are incredibly high.
static void botline_forw(win_T *wp, lineoff_T *lp)
{
if (lp->fill < win_get_fill(wp, lp->lnum + 1)) {
// Add a filler line.
lp->fill++;
lp->height = 1;
} else {
lp->lnum++;
lp->fill = 0;
assert(wp->w_buffer != 0);
if (lp->lnum > wp->w_buffer->b_ml.ml_line_count) {
lp->height = MAXCOL;
} else if (hasFoldingWin(wp, lp->lnum, NULL, &lp->lnum, true, NULL)) {
// Add a closed fold
lp->height = 1;
} else {
lp->height = plines_win_nofill(wp, lp->lnum, true);
}
}
}
// Switch from including filler lines below lp->lnum to including filler
// lines above loff.lnum + 1. This keeps pointing to the same line.
// When there are no filler lines nothing changes.
static void botline_topline(lineoff_T *lp)
{
if (lp->fill > 0) {
lp->lnum++;
lp->fill = win_get_fill(curwin, lp->lnum) - lp->fill + 1;
}
}
// Switch from including filler lines above lp->lnum to including filler
// lines below loff.lnum - 1. This keeps pointing to the same line.
// When there are no filler lines nothing changes.
static void topline_botline(lineoff_T *lp)
{
if (lp->fill > 0) {
lp->fill = win_get_fill(curwin, lp->lnum) - lp->fill + 1;
lp->lnum--;
}
}
// Recompute topline to put the cursor at the top of the window.
// Scroll at least "min_scroll" lines.
// If "always" is true, always set topline (for "zt").
void scroll_cursor_top(int min_scroll, int always)
{
linenr_T old_topline = curwin->w_topline;
int old_skipcol = curwin->w_skipcol;
linenr_T old_topfill = curwin->w_topfill;
int off = get_scrolloff_value(curwin);
if (mouse_dragging > 0) {
off = mouse_dragging - 1;
}
// Decrease topline until:
// - it has become 1
// - (part of) the cursor line is moved off the screen or
// - moved at least 'scrolljump' lines and
// - at least 'scrolloff' lines above and below the cursor
validate_cheight();
int scrolled = 0;
int used = curwin->w_cline_height; // includes filler lines above
if (curwin->w_cursor.lnum < curwin->w_topline) {
scrolled = used;
}
linenr_T top; // just above displayed lines
linenr_T bot; // just below displayed lines
if (hasFolding(curwin->w_cursor.lnum, &top, &bot)) {
top--;
bot++;
} else {
top = curwin->w_cursor.lnum - 1;
bot = curwin->w_cursor.lnum + 1;
}
linenr_T new_topline = top + 1;
// "used" already contains the number of filler lines above, don't add it
// again.
// Hide filler lines above cursor line by adding them to "extra".
int extra = win_get_fill(curwin, curwin->w_cursor.lnum);
// Check if the lines from "top" to "bot" fit in the window. If they do,
// set new_topline and advance "top" and "bot" to include more lines.
while (top > 0) {
int i = hasFolding(top, &top, NULL)
? 1 // count one logical line for a sequence of folded lines
: plines_win_nofill(curwin, top, true);
if (top < curwin->w_topline) {
scrolled += i;
}
// If scrolling is needed, scroll at least 'sj' lines.
if ((new_topline >= curwin->w_topline || scrolled > min_scroll) && extra >= off) {
break;
}
used += i;
if (extra + i <= off && bot < curbuf->b_ml.ml_line_count) {
if (hasFolding(bot, NULL, &bot)) {
// count one logical line for a sequence of folded lines
used++;
} else {
used += plines_win(curwin, bot, true);
}
}
if (used > curwin->w_height_inner) {
break;
}
extra += i;
new_topline = top;
top--;
bot++;
}
// If we don't have enough space, put cursor in the middle.
// This makes sure we get the same position when using "k" and "j"
// in a small window.
if (used > curwin->w_height_inner) {
scroll_cursor_halfway(false, false);
} else {
// If "always" is false, only adjust topline to a lower value, higher
// value may happen with wrapping lines.
if (new_topline < curwin->w_topline || always) {
curwin->w_topline = new_topline;
}
if (curwin->w_topline > curwin->w_cursor.lnum) {
curwin->w_topline = curwin->w_cursor.lnum;
}
curwin->w_topfill = win_get_fill(curwin, curwin->w_topline);
if (curwin->w_topfill > 0 && extra > off) {
curwin->w_topfill -= extra - off;
if (curwin->w_topfill < 0) {
curwin->w_topfill = 0;
}
}
check_topfill(curwin, false);
if (curwin->w_topline != old_topline) {
reset_skipcol(curwin);
} else if (curwin->w_topline == curwin->w_cursor.lnum) {
validate_virtcol();
if (curwin->w_skipcol >= curwin->w_virtcol) {
// TODO(vim): if the line doesn't fit may optimize w_skipcol instead
// of making it zero
reset_skipcol(curwin);
}
}
if (curwin->w_topline != old_topline
|| curwin->w_skipcol != old_skipcol
|| curwin->w_topfill != old_topfill) {
curwin->w_valid &=
~(VALID_WROW|VALID_CROW|VALID_BOTLINE|VALID_BOTLINE_AP);
}
curwin->w_valid |= VALID_TOPLINE;
curwin->w_viewport_invalid = true;
}
}
// Set w_empty_rows and w_filler_rows for window "wp", having used up "used"
// screen lines for text lines.
void set_empty_rows(win_T *wp, int used)
{
wp->w_filler_rows = 0;
if (used == 0) {
wp->w_empty_rows = 0; // single line that doesn't fit
} else {
wp->w_empty_rows = wp->w_height_inner - used;
if (wp->w_botline <= wp->w_buffer->b_ml.ml_line_count) {
wp->w_filler_rows = win_get_fill(wp, wp->w_botline);
if (wp->w_empty_rows > wp->w_filler_rows) {
wp->w_empty_rows -= wp->w_filler_rows;
} else {
wp->w_filler_rows = wp->w_empty_rows;
wp->w_empty_rows = 0;
}
}
}
}
/// Recompute topline to put the cursor at the bottom of the window.
/// When scrolling scroll at least "min_scroll" lines.
/// If "set_topbot" is true, set topline and botline first (for "zb").
/// This is messy stuff!!!
void scroll_cursor_bot(int min_scroll, int set_topbot)
{
lineoff_T loff;
linenr_T old_topline = curwin->w_topline;
int old_skipcol = curwin->w_skipcol;
int old_topfill = curwin->w_topfill;
linenr_T old_botline = curwin->w_botline;
int old_valid = curwin->w_valid;
int old_empty_rows = curwin->w_empty_rows;
linenr_T cln = curwin->w_cursor.lnum; // Cursor Line Number
int do_sms = curwin->w_p_wrap && curwin->w_p_sms;
if (set_topbot) {
bool set_skipcol = false;
int used = 0;
curwin->w_botline = cln + 1;
loff.fill = 0;
for (curwin->w_topline = curwin->w_botline;
curwin->w_topline > 1;
curwin->w_topline = loff.lnum) {
loff.lnum = curwin->w_topline;
topline_back_winheight(curwin, &loff, false);
if (loff.height == MAXCOL) {
break;
}
if (used + loff.height > curwin->w_height_inner) {
if (do_sms) {
// 'smoothscroll' and 'wrap' are set. The above line is
// too long to show in its entirety, so we show just a part
// of it.
if (used < curwin->w_height_inner) {
int plines_offset = used + loff.height - curwin->w_height_inner;
used = curwin->w_height_inner;
curwin->w_topfill = loff.fill;
curwin->w_topline = loff.lnum;
curwin->w_skipcol = skipcol_from_plines(curwin, plines_offset);
set_skipcol = true;
}
}
break;
}
used += loff.height;
curwin->w_topfill = loff.fill;
}
set_empty_rows(curwin, used);
curwin->w_valid |= VALID_BOTLINE|VALID_BOTLINE_AP;
if (curwin->w_topline != old_topline
|| curwin->w_topfill != old_topfill
|| set_skipcol
|| curwin->w_skipcol != 0) {
curwin->w_valid &= ~(VALID_WROW|VALID_CROW);
if (set_skipcol) {
redraw_later(curwin, UPD_NOT_VALID);
} else {
reset_skipcol(curwin);
}
}
} else {
validate_botline(curwin);
}
// The lines of the cursor line itself are always used.
int used = plines_win_nofill(curwin, cln, true);
int scrolled = 0;
// If the cursor is on or below botline, we will at least scroll by the
// height of the cursor line, which is "used". Correct for empty lines,
// which are really part of botline.
if (cln >= curwin->w_botline) {
scrolled = used;
if (cln == curwin->w_botline) {
scrolled -= curwin->w_empty_rows;
}
if (do_sms) {
// 'smoothscroll' and 'wrap' are set.
// Calculate how many screen lines the current top line of window
// occupies. If it is occupying more than the entire window, we
// need to scroll the additional clipped lines to scroll past the
// top line before we can move on to the other lines.
int top_plines = plines_win_nofill(curwin, curwin->w_topline, false);
int skip_lines = 0;
int width1 = curwin->w_width_inner - curwin_col_off();
if (width1 > 0) {
int width2 = width1 + curwin_col_off2();
// similar formula is used in curs_columns()
if (curwin->w_skipcol > width1) {
skip_lines += (curwin->w_skipcol - width1) / width2 + 1;
} else if (curwin->w_skipcol > 0) {
skip_lines = 1;
}
top_plines -= skip_lines;
if (top_plines > curwin->w_height_inner) {
scrolled += (top_plines - curwin->w_height_inner);
}
}
}
}
lineoff_T boff;
// Stop counting lines to scroll when
// - hitting start of the file
// - scrolled nothing or at least 'sj' lines
// - at least 'so' lines below the cursor
// - lines between botline and cursor have been counted
if (!hasFolding(curwin->w_cursor.lnum, &loff.lnum, &boff.lnum)) {
loff.lnum = cln;
boff.lnum = cln;
}
loff.fill = 0;
boff.fill = 0;
int fill_below_window = win_get_fill(curwin, curwin->w_botline) - curwin->w_filler_rows;
int extra = 0;
int so = get_scrolloff_value(curwin);
while (loff.lnum > 1) {
// Stop when scrolled nothing or at least "min_scroll", found "extra"
// context for 'scrolloff' and counted all lines below the window.
if ((((scrolled <= 0 || scrolled >= min_scroll)
&& extra >= (mouse_dragging > 0 ? mouse_dragging - 1 : so))
|| boff.lnum + 1 > curbuf->b_ml.ml_line_count)
&& loff.lnum <= curwin->w_botline
&& (loff.lnum < curwin->w_botline
|| loff.fill >= fill_below_window)) {
break;
}
// Add one line above
topline_back(curwin, &loff);
if (loff.height == MAXCOL) {
used = MAXCOL;
} else {
used += loff.height;
}
if (used > curwin->w_height_inner) {
break;
}
if (loff.lnum >= curwin->w_botline
&& (loff.lnum > curwin->w_botline
|| loff.fill <= fill_below_window)) {
// Count screen lines that are below the window.
scrolled += loff.height;
if (loff.lnum == curwin->w_botline
&& loff.fill == 0) {
scrolled -= curwin->w_empty_rows;
}
}
if (boff.lnum < curbuf->b_ml.ml_line_count) {
// Add one line below
botline_forw(curwin, &boff);
used += boff.height;
if (used > curwin->w_height_inner) {
break;
}
if (extra < (mouse_dragging > 0 ? mouse_dragging - 1 : so)
|| scrolled < min_scroll) {
extra += boff.height;
if (boff.lnum >= curwin->w_botline
|| (boff.lnum + 1 == curwin->w_botline
&& boff.fill > curwin->w_filler_rows)) {
// Count screen lines that are below the window.
scrolled += boff.height;
if (boff.lnum == curwin->w_botline
&& boff.fill == 0) {
scrolled -= curwin->w_empty_rows;
}
}
}
}
}
linenr_T line_count;
// curwin->w_empty_rows is larger, no need to scroll
if (scrolled <= 0) {
line_count = 0;
// more than a screenfull, don't scroll but redraw
} else if (used > curwin->w_height_inner) {
line_count = used;
// scroll minimal number of lines
} else {
line_count = 0;
boff.fill = curwin->w_topfill;
boff.lnum = curwin->w_topline - 1;
int i;
for (i = 0; i < scrolled && boff.lnum < curwin->w_botline;) {
botline_forw(curwin, &boff);
i += boff.height;
line_count++;
}
if (i < scrolled) { // below curwin->w_botline, don't scroll
line_count = 9999;
}
}
// Scroll up if the cursor is off the bottom of the screen a bit.
// Otherwise put it at 1/2 of the screen.
if (line_count >= curwin->w_height_inner && line_count > min_scroll) {
scroll_cursor_halfway(false, true);
} else if (line_count > 0) {
if (do_sms) {
scrollup(scrolled, true); // TODO(vim):
} else {
scrollup(line_count, true);
}
}
// If topline didn't change we need to restore w_botline and w_empty_rows
// (we changed them).
// If topline did change, update_screen() will set botline.
if (curwin->w_topline == old_topline && curwin->w_skipcol == old_skipcol && set_topbot) {
curwin->w_botline = old_botline;
curwin->w_empty_rows = old_empty_rows;
curwin->w_valid = old_valid;
}
curwin->w_valid |= VALID_TOPLINE;
curwin->w_viewport_invalid = true;
}
/// Recompute topline to put the cursor halfway across the window
///
/// @param atend if true, also put the cursor halfway to the end of the file.
///
void scroll_cursor_halfway(bool atend, bool prefer_above)
{
linenr_T old_topline = curwin->w_topline;
lineoff_T loff = { .lnum = curwin->w_cursor.lnum };
lineoff_T boff = { .lnum = curwin->w_cursor.lnum };
(void)hasFolding(loff.lnum, &loff.lnum, &boff.lnum);
int used = plines_win_nofill(curwin, loff.lnum, true);
loff.fill = 0;
boff.fill = 0;
linenr_T topline = loff.lnum;
colnr_T skipcol = 0;
int want_height;
bool do_sms = curwin->w_p_wrap && curwin->w_p_sms;
if (do_sms) {
// 'smoothscroll' and 'wrap' are set
if (atend) {
want_height = (curwin->w_height_inner - used) / 2;
used = 0;
} else {
want_height = curwin->w_height_inner;
}
}
int topfill = 0;
while (topline > 1) {
// If using smoothscroll, we can precisely scroll to the
// exact point where the cursor is halfway down the screen.
if (do_sms) {
topline_back_winheight(curwin, &loff, false);
if (loff.height == MAXCOL) {
break;
}
used += loff.height;
if (!atend && boff.lnum < curbuf->b_ml.ml_line_count) {
botline_forw(curwin, &boff);
used += boff.height;
}
if (used > want_height) {
if (used - loff.height < want_height) {
topline = loff.lnum;
topfill = loff.fill;
skipcol = skipcol_from_plines(curwin, used - want_height);
}
break;
}
topline = loff.lnum;
topfill = loff.fill;
continue;
}
// If not using smoothscroll, we have to iteratively find how many
// lines to scroll down to roughly fit the cursor.
// This may not be right in the middle if the lines'
// physical height > 1 (e.g. 'wrap' is on).
// Depending on "prefer_above" we add a line above or below first.
// Loop twice to avoid duplicating code.
bool done = false;
int above = 0;
int below = 0;
for (int round = 1; round <= 2; round++) {
if (prefer_above
? (round == 2 && below < above)
: (round == 1 && below <= above)) {
// add a line below the cursor
if (boff.lnum < curbuf->b_ml.ml_line_count) {
botline_forw(curwin, &boff);
used += boff.height;
if (used > curwin->w_height_inner) {
done = true;
break;
}
below += boff.height;
} else {
below++; // count a "~" line
if (atend) {
used++;
}
}
}
if (prefer_above
? (round == 1 && below >= above)
: (round == 1 && below > above)) {
// add a line above the cursor
topline_back(curwin, &loff);
if (loff.height == MAXCOL) {
used = MAXCOL;
} else {
used += loff.height;
}
if (used > curwin->w_height_inner) {
done = true;
break;
}
above += loff.height;
topline = loff.lnum;
topfill = loff.fill;
}
}
if (done) {
break;
}
}
if (!hasFolding(topline, &curwin->w_topline, NULL)
&& (curwin->w_topline != topline || skipcol != 0 || curwin->w_skipcol != 0)) {
curwin->w_topline = topline;
if (skipcol != 0) {
curwin->w_skipcol = skipcol;
redraw_later(curwin, UPD_NOT_VALID);
} else if (do_sms) {
reset_skipcol(curwin);
}
}
curwin->w_topfill = topfill;
if (old_topline > curwin->w_topline + curwin->w_height_inner) {
curwin->w_botfill = false;
}
check_topfill(curwin, false);
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE|VALID_BOTLINE_AP);
curwin->w_valid |= VALID_TOPLINE;
}
// Correct the cursor position so that it is in a part of the screen at least
// 'so' lines from the top and bottom, if possible.
// If not possible, put it at the same position as scroll_cursor_halfway().
// When called topline must be valid!
void cursor_correct(void)
{
// How many lines we would like to have above/below the cursor depends on
// whether the first/last line of the file is on screen.
int above_wanted = get_scrolloff_value(curwin);
int below_wanted = get_scrolloff_value(curwin);
if (mouse_dragging > 0) {
above_wanted = mouse_dragging - 1;
below_wanted = mouse_dragging - 1;
}
if (curwin->w_topline == 1) {
above_wanted = 0;
int max_off = curwin->w_height_inner / 2;
if (below_wanted > max_off) {
below_wanted = max_off;
}
}
validate_botline(curwin);
if (curwin->w_botline == curbuf->b_ml.ml_line_count + 1
&& mouse_dragging == 0) {
below_wanted = 0;
int max_off = (curwin->w_height_inner - 1) / 2;
if (above_wanted > max_off) {
above_wanted = max_off;
}
}
// If there are sufficient file-lines above and below the cursor, we can
// return now.
linenr_T cln = curwin->w_cursor.lnum; // Cursor Line Number
if (cln >= curwin->w_topline + above_wanted
&& cln < curwin->w_botline - below_wanted
&& !hasAnyFolding(curwin)) {
return;
}
if (curwin->w_p_sms && !curwin->w_p_wrap) {
// 'smoothscroll' is active
if (curwin->w_cline_height == curwin->w_height_inner) {
// The cursor line just fits in the window, don't scroll.
reset_skipcol(curwin);
return;
}
// TODO(vim): If the cursor line doesn't fit in the window then only adjust w_skipcol.
}
// Narrow down the area where the cursor can be put by taking lines from
// the top and the bottom until:
// - the desired context lines are found
// - the lines from the top is past the lines from the bottom
linenr_T topline = curwin->w_topline;
linenr_T botline = curwin->w_botline - 1;
// count filler lines as context
int above = curwin->w_topfill; // screen lines above topline
int below = curwin->w_filler_rows; // screen lines below botline
while ((above < above_wanted || below < below_wanted) && topline < botline) {
if (below < below_wanted && (below <= above || above >= above_wanted)) {
if (hasFolding(botline, &botline, NULL)) {
below++;
} else {
below += plines_win(curwin, botline, true);
}
botline--;
}
if (above < above_wanted && (above < below || below >= below_wanted)) {
if (hasFolding(topline, NULL, &topline)) {
above++;
} else {
above += plines_win_nofill(curwin, topline, true);
}
// Count filler lines below this line as context.
if (topline < botline) {
above += win_get_fill(curwin, topline + 1);
}
topline++;
}
}
if (topline == botline || botline == 0) {
curwin->w_cursor.lnum = topline;
} else if (topline > botline) {
curwin->w_cursor.lnum = botline;
} else {
if (cln < topline && curwin->w_topline > 1) {
curwin->w_cursor.lnum = topline;
curwin->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW);
}
if (cln > botline && curwin->w_botline <= curbuf->b_ml.ml_line_count) {
curwin->w_cursor.lnum = botline;
curwin->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW);
}
}
curwin->w_valid |= VALID_TOPLINE;
curwin->w_viewport_invalid = true;
}
/// Move screen "count" pages up ("dir" is BACKWARD) or down ("dir" is FORWARD)
/// and update the screen.
///
/// @return FAIL for failure, OK otherwise.
int onepage(Direction dir, int count)
{
int retval = OK;
lineoff_T loff;
linenr_T old_topline = curwin->w_topline;
int so = get_scrolloff_value(curwin);
if (curbuf->b_ml.ml_line_count == 1) { // nothing to do
beep_flush();
return FAIL;
}
for (; count > 0; count--) {
validate_botline(curwin);
// It's an error to move a page up when the first line is already on
// the screen. It's an error to move a page down when the last line
// is on the screen and the topline is 'scrolloff' lines from the
// last line.
if (dir == FORWARD
? ((curwin->w_topline >= curbuf->b_ml.ml_line_count - so)
&& curwin->w_botline > curbuf->b_ml.ml_line_count)
: (curwin->w_topline == 1
&& curwin->w_topfill == win_get_fill(curwin, curwin->w_topline))) {
beep_flush();
retval = FAIL;
break;
}
loff.fill = 0;
if (dir == FORWARD) {
if (ONE_WINDOW && p_window > 0 && p_window < Rows - 1) {
// Vi compatible scrolling
if (p_window <= 2) {
curwin->w_topline++;
} else {
curwin->w_topline += (linenr_T)p_window - 2;
}
if (curwin->w_topline > curbuf->b_ml.ml_line_count) {
curwin->w_topline = curbuf->b_ml.ml_line_count;
}
curwin->w_cursor.lnum = curwin->w_topline;
} else if (curwin->w_botline > curbuf->b_ml.ml_line_count) {
// at end of file
curwin->w_topline = curbuf->b_ml.ml_line_count;
curwin->w_topfill = 0;
curwin->w_valid &= ~(VALID_WROW|VALID_CROW);
} else {
// For the overlap, start with the line just below the window
// and go upwards.
loff.lnum = curwin->w_botline;
loff.fill = win_get_fill(curwin, loff.lnum)
- curwin->w_filler_rows;
get_scroll_overlap(&loff, -1);
curwin->w_topline = loff.lnum;
curwin->w_topfill = loff.fill;
check_topfill(curwin, false);
curwin->w_cursor.lnum = curwin->w_topline;
curwin->w_valid &= ~(VALID_WCOL|VALID_CHEIGHT|VALID_WROW|
VALID_CROW|VALID_BOTLINE|VALID_BOTLINE_AP);
}
} else { // dir == BACKWARDS
if (curwin->w_topline == 1) {
// Include max number of filler lines
max_topfill();
continue;
}
if (ONE_WINDOW && p_window > 0 && p_window < Rows - 1) {
// Vi compatible scrolling (sort of)
if (p_window <= 2) {
curwin->w_topline--;
} else {
curwin->w_topline -= (linenr_T)p_window - 2;
}
if (curwin->w_topline < 1) {
curwin->w_topline = 1;
}
curwin->w_cursor.lnum = curwin->w_topline + (linenr_T)p_window - 1;
if (curwin->w_cursor.lnum > curbuf->b_ml.ml_line_count) {
curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count;
}
continue;
}
// Find the line at the top of the window that is going to be the
// line at the bottom of the window. Make sure this results in
// the same line as before doing CTRL-F.
loff.lnum = curwin->w_topline - 1;
loff.fill = win_get_fill(curwin, loff.lnum + 1) - curwin->w_topfill;
get_scroll_overlap(&loff, 1);
if (loff.lnum >= curbuf->b_ml.ml_line_count) {
loff.lnum = curbuf->b_ml.ml_line_count;
loff.fill = 0;
} else {
botline_topline(&loff);
}
curwin->w_cursor.lnum = loff.lnum;
// Find the line just above the new topline to get the right line
// at the bottom of the window.
int n = 0;
while (n <= curwin->w_height_inner && loff.lnum >= 1) {
topline_back(curwin, &loff);
if (loff.height == MAXCOL) {
n = MAXCOL;
} else {
n += loff.height;
}
}
if (loff.lnum < 1) { // at begin of file
curwin->w_topline = 1;
max_topfill();
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
} else {
// Go two lines forward again.
topline_botline(&loff);
botline_forw(curwin, &loff);
botline_forw(curwin, &loff);
botline_topline(&loff);
// We're at the wrong end of a fold now.
(void)hasFoldingWin(curwin, loff.lnum, &loff.lnum, NULL, true, NULL);
// Always scroll at least one line. Avoid getting stuck on
// very long lines.
if (loff.lnum >= curwin->w_topline
&& (loff.lnum > curwin->w_topline
|| loff.fill >= curwin->w_topfill)) {
// First try using the maximum number of filler lines. If
// that's not enough, backup one line.
loff.fill = curwin->w_topfill;
if (curwin->w_topfill < win_get_fill(curwin, curwin->w_topline)) {
max_topfill();
}
if (curwin->w_topfill == loff.fill) {
curwin->w_topline--;
curwin->w_topfill = 0;
curwin->w_valid &= ~(VALID_WROW|VALID_CROW);
}
comp_botline(curwin);
curwin->w_cursor.lnum = curwin->w_botline - 1;
curwin->w_valid &= ~(VALID_WCOL|VALID_CHEIGHT|VALID_WROW|VALID_CROW);
} else {
curwin->w_topline = loff.lnum;
curwin->w_topfill = loff.fill;
check_topfill(curwin, false);
curwin->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
}
}
}
}
foldAdjustCursor();
cursor_correct();
check_cursor_col();
if (retval == OK) {
beginline(BL_SOL | BL_FIX);
}
curwin->w_valid &= ~(VALID_WCOL|VALID_WROW|VALID_VIRTCOL);
if (retval == OK && dir == FORWARD) {
// Avoid the screen jumping up and down when 'scrolloff' is non-zero.
// But make sure we scroll at least one line (happens with mix of long
// wrapping lines and non-wrapping line).
if (check_top_offset()) {
scroll_cursor_top(1, false);
if (curwin->w_topline <= old_topline
&& old_topline < curbuf->b_ml.ml_line_count) {
curwin->w_topline = old_topline + 1;
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
}
} else if (curwin->w_botline > curbuf->b_ml.ml_line_count) {
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
}
}
redraw_later(curwin, UPD_VALID);
return retval;
}
// Decide how much overlap to use for page-up or page-down scrolling.
// This is symmetric, so that doing both keeps the same lines displayed.
// Three lines are examined:
//
// before CTRL-F after CTRL-F / before CTRL-B
// etc. l1
// l1 last but one line ------------
// l2 last text line l2 top text line
// ------------- l3 second text line
// l3 etc.
static void get_scroll_overlap(lineoff_T *lp, int dir)
{
int min_height = curwin->w_height_inner - 2;
if (lp->fill > 0) {
lp->height = 1;
} else {
lp->height = plines_win_nofill(curwin, lp->lnum, true);
}
int h1 = lp->height;
if (h1 > min_height) {
return; // no overlap
}
lineoff_T loff0 = *lp;
if (dir > 0) {
botline_forw(curwin, lp);
} else {
topline_back(curwin, lp);
}
int h2 = lp->height;
if (h2 == MAXCOL || h2 + h1 > min_height) {
*lp = loff0; // no overlap
return;
}
lineoff_T loff1 = *lp;
if (dir > 0) {
botline_forw(curwin, lp);
} else {
topline_back(curwin, lp);
}
int h3 = lp->height;
if (h3 == MAXCOL || h3 + h2 > min_height) {
*lp = loff0; // no overlap
return;
}
lineoff_T loff2 = *lp;
if (dir > 0) {
botline_forw(curwin, lp);
} else {
topline_back(curwin, lp);
}
int h4 = lp->height;
if (h4 == MAXCOL || h4 + h3 + h2 > min_height || h3 + h2 + h1 > min_height) {
*lp = loff1; // 1 line overlap
} else {
*lp = loff2; // 2 lines overlap
}
}
// Scroll 'scroll' lines up or down.
void halfpage(bool flag, linenr_T Prenum)
{
int scrolled = 0;
int i;
if (Prenum) {
curwin->w_p_scr = (Prenum > curwin->w_height_inner) ? curwin->w_height_inner
: Prenum;
}
assert(curwin->w_p_scr <= INT_MAX);
int n = curwin->w_p_scr <= curwin->w_height_inner ? (int)curwin->w_p_scr
: curwin->w_height_inner;
update_topline(curwin);
validate_botline(curwin);
int room = curwin->w_empty_rows + curwin->w_filler_rows;
if (flag) {
// scroll the text up
while (n > 0 && curwin->w_botline <= curbuf->b_ml.ml_line_count) {
if (curwin->w_topfill > 0) {
i = 1;
n--;
curwin->w_topfill--;
} else {
i = plines_win_nofill(curwin, curwin->w_topline, true);
n -= i;
if (n < 0 && scrolled > 0) {
break;
}
(void)hasFolding(curwin->w_topline, NULL, &curwin->w_topline);
curwin->w_topline++;
curwin->w_topfill = win_get_fill(curwin, curwin->w_topline);
if (curwin->w_cursor.lnum < curbuf->b_ml.ml_line_count) {
curwin->w_cursor.lnum++;
curwin->w_valid &=
~(VALID_VIRTCOL|VALID_CHEIGHT|VALID_WCOL);
}
}
curwin->w_valid &= ~(VALID_CROW|VALID_WROW);
scrolled += i;
// Correct w_botline for changed w_topline.
// Won't work when there are filler lines.
if (win_may_fill(curwin)) {
curwin->w_valid &= ~(VALID_BOTLINE|VALID_BOTLINE_AP);
} else {
room += i;
do {
i = plines_win(curwin, curwin->w_botline, true);
if (i > room) {
break;
}
(void)hasFolding(curwin->w_botline, NULL, &curwin->w_botline);
curwin->w_botline++;
room -= i;
} while (curwin->w_botline <= curbuf->b_ml.ml_line_count);
}
}
// When hit bottom of the file: move cursor down.
if (n > 0) {
if (hasAnyFolding(curwin)) {
while (--n >= 0
&& curwin->w_cursor.lnum < curbuf->b_ml.ml_line_count) {
(void)hasFolding(curwin->w_cursor.lnum, NULL,
&curwin->w_cursor.lnum);
curwin->w_cursor.lnum++;
}
} else {
curwin->w_cursor.lnum += n;
}
check_cursor_lnum(curwin);
}
} else {
// scroll the text down
while (n > 0 && curwin->w_topline > 1) {
if (curwin->w_topfill < win_get_fill(curwin, curwin->w_topline)) {
i = 1;
n--;
curwin->w_topfill++;
} else {
i = plines_win_nofill(curwin, curwin->w_topline - 1, true);
n -= i;
if (n < 0 && scrolled > 0) {
break;
}
curwin->w_topline--;
(void)hasFolding(curwin->w_topline, &curwin->w_topline, NULL);
curwin->w_topfill = 0;
}
curwin->w_valid &= ~(VALID_CROW|VALID_WROW|
VALID_BOTLINE|VALID_BOTLINE_AP);
scrolled += i;
if (curwin->w_cursor.lnum > 1) {
curwin->w_cursor.lnum--;
curwin->w_valid &= ~(VALID_VIRTCOL|VALID_CHEIGHT|VALID_WCOL);
}
}
// When hit top of the file: move cursor up.
if (n > 0) {
if (curwin->w_cursor.lnum <= (linenr_T)n) {
curwin->w_cursor.lnum = 1;
} else if (hasAnyFolding(curwin)) {
while (--n >= 0 && curwin->w_cursor.lnum > 1) {
curwin->w_cursor.lnum--;
(void)hasFolding(curwin->w_cursor.lnum,
&curwin->w_cursor.lnum, NULL);
}
} else {
curwin->w_cursor.lnum -= n;
}
}
}
// Move cursor to first line of closed fold.
foldAdjustCursor();
check_topfill(curwin, !flag);
cursor_correct();
beginline(BL_SOL | BL_FIX);
redraw_later(curwin, UPD_VALID);
}
void do_check_cursorbind(void)
{
static win_T *prev_curwin = NULL;
static pos_T prev_cursor = { 0, 0, 0 };
if (curwin == prev_curwin && equalpos(curwin->w_cursor, prev_cursor)) {
return;
}
prev_curwin = curwin;
prev_cursor = curwin->w_cursor;
linenr_T line = curwin->w_cursor.lnum;
colnr_T col = curwin->w_cursor.col;
colnr_T coladd = curwin->w_cursor.coladd;
colnr_T curswant = curwin->w_curswant;
int set_curswant = curwin->w_set_curswant;
win_T *old_curwin = curwin;
buf_T *old_curbuf = curbuf;
int old_VIsual_select = VIsual_select;
int old_VIsual_active = VIsual_active;
// loop through the cursorbound windows
VIsual_select = VIsual_active = false;
FOR_ALL_WINDOWS_IN_TAB(wp, curtab) {
curwin = wp;
curbuf = curwin->w_buffer;
// skip original window and windows with 'nocursorbind'
if (curwin != old_curwin && curwin->w_p_crb) {
if (curwin->w_p_diff) {
curwin->w_cursor.lnum =
diff_get_corresponding_line(old_curbuf, line);
} else {
curwin->w_cursor.lnum = line;
}
curwin->w_cursor.col = col;
curwin->w_cursor.coladd = coladd;
curwin->w_curswant = curswant;
curwin->w_set_curswant = set_curswant;
// Make sure the cursor is in a valid position. Temporarily set
// "restart_edit" to allow the cursor to be beyond the EOL.
{
int restart_edit_save = restart_edit;
restart_edit = true;
check_cursor();
// Avoid a scroll here for the cursor position, 'scrollbind' is
// more important.
if (!curwin->w_p_scb) {
validate_cursor();
}
restart_edit = restart_edit_save;
}
// Correct cursor for multi-byte character.
mb_adjust_cursor();
redraw_later(curwin, UPD_VALID);
// Only scroll when 'scrollbind' hasn't done this.
if (!curwin->w_p_scb) {
update_topline(curwin);
}
curwin->w_redr_status = true;
}
}
// reset current-window
VIsual_select = old_VIsual_select;
VIsual_active = old_VIsual_active;
curwin = old_curwin;
curbuf = old_curbuf;
}
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