File: //home/ubuntu/neovim/src/nvim/move.c
// 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/buffer_defs.h"
#include "nvim/cursor.h"
#include "nvim/diff.h"
#include "nvim/drawscreen.h"
#include "nvim/edit.h"
#include "nvim/errors.h"
#include "nvim/eval/typval.h"
#include "nvim/eval/window.h"
#include "nvim/fold.h"
#include "nvim/getchar.h"
#include "nvim/gettext_defs.h"
#include "nvim/globals.h"
#include "nvim/grid.h"
#include "nvim/highlight.h"
#include "nvim/highlight_defs.h"
#include "nvim/macros_defs.h"
#include "nvim/mark_defs.h"
#include "nvim/mbyte.h"
#include "nvim/memline.h"
#include "nvim/message.h"
#include "nvim/mouse.h"
#include "nvim/move.h"
#include "nvim/normal.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/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 limit_winheight,
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 (limit_winheight && 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, true, &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_cline_row changes and 'relativenumber' or 'cursorline' is set.
/// Also when concealing is on and 'concealcursor' is not active.
static void redraw_for_cursorline(win_T *wp)
FUNC_ATTR_NONNULL_ALL
{
if ((wp->w_valid & VALID_CROW) == 0 && !pum_visible()
&& (wp->w_p_rnu || win_cursorline_standout(wp))) {
// win_line() will redraw the number column and cursorline only.
redraw_later(wp, UPD_VALID);
}
}
/// Redraw when w_virtcol changes and
/// - 'cursorcolumn' is set, or
/// - 'cursorlineopt' contains "screenline", or
/// - 'concealcursor' is active, or
/// - Visual mode is active.
static void redraw_for_cursorcolumn(win_T *wp)
FUNC_ATTR_NONNULL_ALL
{
if (wp->w_valid & VALID_VIRTCOL) {
return;
}
// If the cursor moves horizontally when 'concealcursor' is active, then the
// current line needs to be redrawn to calculate the correct cursor position.
if (wp->w_p_cole > 0 && conceal_cursor_line(wp)) {
redrawWinline(wp, wp->w_cursor.lnum);
}
if (pum_visible()) {
return;
}
if (wp->w_p_cuc) {
// When 'cursorcolumn' is set 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);
}
// When current buffer's cursor moves in Visual mode, redraw it with UPD_INVERTED.
if (VIsual_active && wp->w_buffer == curbuf) {
redraw_buf_later(curbuf, UPD_INVERTED);
}
}
/// 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. When "extra2" is -1 calculate the padding.
/// 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)
{
if (extra2 == -1) {
extra2 = win_col_off(wp) - win_col_off2(wp);
}
// There is no marker overlap when in showbreak mode, thus no need to
// account for it. See wlv_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) {
return;
}
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 wp->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_skipcol = 0;
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(wp)) {
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, -1);
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;
}
hasFolding(wp, lnum, NULL, &lnum);
}
} 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(wp, false, false);
} else {
scroll_cursor_top(wp, scrolljump_value(wp), false);
check_botline = true;
}
} else {
// Make sure topline is the first line of a fold.
hasFolding(wp, wp->w_topline, &wp->w_topline, 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.
hasFolding(wp, loff.lnum, NULL, &loff.lnum);
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;
}
hasFolding(wp, 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(wp, scrolljump_value(wp), false);
} else {
scroll_cursor_halfway(wp, 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(wp);
}
}
*so_ptr = save_so;
}
/// Return the scrolljump value to use for the window "wp".
/// 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(win_T *wp)
{
int result = p_sj >= 0 ? (int)p_sj : (wp->w_height_inner * (int)(-p_sj)) / 100;
return result;
}
/// Return true when there are not 'scrolloff' lines above the cursor for window "wp".
static bool check_top_offset(win_T *wp)
{
int so = get_scrolloff_value(wp);
if (wp->w_cursor.lnum < wp->w_topline + so || hasAnyFolding(wp)) {
lineoff_T loff;
loff.lnum = wp->w_cursor.lnum;
loff.fill = 0;
int n = wp->w_topfill; // always have this context
// Count the visible screen lines above the cursor line.
while (n < so) {
topline_back(wp, &loff);
// Stop when included a line above the window.
if (loff.lnum < wp->w_topline
|| (loff.lnum == wp->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);
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(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);
}
/// Call changed_window_setting() for every window.
void changed_window_setting_all(void)
{
FOR_ALL_TAB_WINDOWS(tp, wp) {
changed_window_setting(wp);
}
}
// 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
hasFolding(wp, lnum, &lnum, 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);
}
// Make sure the value of wp->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 wp->w_wrow and wp->w_wcol are valid.
int cursor_valid(win_T *wp)
{
check_cursor_moved(wp);
return (wp->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(win_T *wp)
{
check_cursor_lnum(wp);
check_cursor_moved(wp);
if ((wp->w_valid & (VALID_WCOL|VALID_WROW)) != (VALID_WCOL|VALID_WROW)) {
curs_columns(wp, 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, true, &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 = hasFolding(wp, wp->w_cursor.lnum, NULL, 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(wp);
wp->w_valid |= VALID_CROW|VALID_CHEIGHT;
}
// Validate wp->w_virtcol only.
void validate_virtcol(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 wp->w_cline_height only.
void validate_cheight(win_T *wp)
{
check_cursor_moved(wp);
if (wp->w_valid & VALID_CHEIGHT) {
return;
}
wp->w_cline_height = plines_win_full(wp, wp->w_cursor.lnum,
NULL, &wp->w_cline_folded,
true, true);
wp->w_valid |= VALID_CHEIGHT;
}
// Validate w_wcol and w_virtcol only.
void validate_cursor_col(win_T *wp)
{
validate_virtcol(wp);
if (wp->w_valid & VALID_WCOL) {
return;
}
colnr_T col = wp->w_virtcol;
colnr_T off = win_col_off(wp);
col += off;
int width = wp->w_width_inner - off + win_col_off2(wp);
// long line wrapping, adjust wp->w_wrow
if (wp->w_p_wrap && col >= (colnr_T)wp->w_width_inner && width > 0) {
// use same formula as what is used in curs_columns()
col -= ((col - wp->w_width_inner) / width + 1) * width;
}
if (col > (int)wp->w_leftcol) {
col -= wp->w_leftcol;
} else {
col = 0;
}
wp->w_wcol = col;
wp->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)
+ ((wp != cmdwin_win) ? 0 : 1)
+ win_fdccol_count(wp) + (wp->w_scwidth * SIGN_WIDTH);
}
// 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;
}
// 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 = wp->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;
}
}
new_leftcol = MAX(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;
}
wp->w_skipcol = n > 0 ? width1 + (n - 1) * width2
: 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;
}
wp->w_skipcol = MAX(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;
colnr_T ccol = 0;
colnr_T 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 = hasFolding(wp, lnum, &lnum, NULL);
row = plines_m_win(wp, wp->w_topline, lnum - 1, INT_MAX);
// "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;
}
pos.col = MAX(pos.col, 0);
int row = 0;
int scol = 0;
int ccol = 0;
int 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);
}
/// Make sure the cursor is in the visible part of the topline after scrolling
/// the screen with 'smoothscroll'.
static void cursor_correct_sms(win_T *wp)
{
if (!wp->w_p_sms || !wp->w_p_wrap || wp->w_cursor.lnum != wp->w_topline) {
return;
}
int so = get_scrolloff_value(wp);
int width1 = wp->w_width_inner - win_col_off(wp);
int width2 = width1 + win_col_off2(wp);
int so_cols = so == 0 ? 0 : width1 + (so - 1) * width2;
int space_cols = (wp->w_height_inner - 1) * width2;
int size = so == 0 ? 0 : win_linetabsize(wp, wp->w_topline,
ml_get_buf(wp->w_buffer, wp->w_topline),
(colnr_T)MAXCOL);
if (wp->w_topline == 1 && wp->w_skipcol == 0) {
so_cols = 0; // Ignore 'scrolloff' at top of buffer.
} else if (so_cols > space_cols / 2) {
so_cols = space_cols / 2; // Not enough room: put cursor in the middle.
}
// Not enough screen lines in topline: ignore 'scrolloff'.
while (so_cols > size && so_cols - width2 >= width1 && width1 > 0) {
so_cols -= width2;
}
if (so_cols >= width1 && so_cols > size) {
so_cols -= width1;
}
// If there is no marker or we have non-zero scrolloff, just ignore it.
int overlap = (wp->w_skipcol == 0 || so_cols != 0) ? 0 : sms_marker_overlap(wp, -1);
int top = wp->w_skipcol + overlap + so_cols;
int bot = wp->w_skipcol + width1 + (wp->w_height_inner - 1) * width2 - so_cols;
validate_virtcol(wp);
colnr_T col = wp->w_virtcol;
if (col < top) {
if (col < width1) {
col += width1;
}
while (width2 > 0 && col < top) {
col += width2;
}
} else {
while (width2 > 0 && col >= bot) {
col -= width2;
}
}
if (col != wp->w_virtcol) {
wp->w_curswant = col;
coladvance(wp, wp->w_curswant);
// validate_virtcol() marked various things as valid, but after
// moving the cursor they need to be recomputed
wp->w_valid &= ~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW|VALID_VIRTCOL);
}
}
/// Scroll "count" lines up or down, and redraw.
void scroll_redraw(int up, linenr_T count)
{
linenr_T prev_topline = curwin->w_topline;
int prev_skipcol = curwin->w_skipcol;
int prev_topfill = curwin->w_topfill;
linenr_T prev_lnum = curwin->w_cursor.lnum;
bool moved = up
? scrollup(curwin, count, true)
: scrolldown(curwin, count, true);
if (get_scrolloff_value(curwin) > 0) {
// Adjust the cursor position for 'scrolloff'. Mark w_topline as
// valid, otherwise the screen jumps back at the end of the file.
cursor_correct(curwin);
check_cursor_moved(curwin);
curwin->w_valid |= VALID_TOPLINE;
// If moved back to where we were, at least move the cursor, otherwise
// we get stuck at one position. Don't move the cursor up if the
// first line of the buffer is already on the screen
while (curwin->w_topline == prev_topline
&& curwin->w_skipcol == prev_skipcol
&& curwin->w_topfill == prev_topfill) {
if (up) {
if (curwin->w_cursor.lnum > prev_lnum
|| cursor_down(1L, false) == FAIL) {
break;
}
} else {
if (curwin->w_cursor.lnum < prev_lnum
|| prev_topline == 1L
|| cursor_up(1L, false) == FAIL) {
break;
}
}
// Mark w_topline as valid, otherwise the screen jumps back at the
// end of the file.
check_cursor_moved(curwin);
curwin->w_valid |= VALID_TOPLINE;
}
}
if (moved) {
curwin->w_viewport_invalid = true;
}
cursor_correct_sms(curwin);
if (curwin->w_cursor.lnum != prev_lnum) {
coladvance(curwin, curwin->w_curswant);
}
redraw_later(curwin, UPD_VALID);
}
/// Scroll a 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(win_T *wp, linenr_T line_count, int byfold)
{
int done = 0; // total # of physical lines done
int width1 = 0;
int width2 = 0;
bool do_sms = wp->w_p_wrap && wp->w_p_sms;
if (do_sms) {
width1 = wp->w_width_inner - win_col_off(wp);
width2 = width1 + win_col_off2(wp);
}
// Make sure w_topline is at the first of a sequence of folded lines.
hasFolding(wp, wp->w_topline, &wp->w_topline, NULL);
validate_cursor(wp); // w_wrow needs to be valid
for (int todo = line_count; todo > 0; todo--) {
if (wp->w_topfill < win_get_fill(wp, wp->w_topline)
&& wp->w_topfill < wp->w_height_inner - 1) {
wp->w_topfill++;
done++;
} else {
// break when at the very top
if (wp->w_topline == 1 && (!do_sms || wp->w_skipcol < width1)) {
break;
}
if (do_sms && wp->w_skipcol >= width1) {
// scroll a screen line down
if (wp->w_skipcol >= width1 + width2) {
wp->w_skipcol -= width2;
} else {
wp->w_skipcol -= width1;
}
redraw_later(wp, UPD_NOT_VALID);
done++;
} else {
// scroll a text line down
wp->w_topline--;
wp->w_skipcol = 0;
wp->w_topfill = 0;
// A sequence of folded lines only counts for one logical line
linenr_T first;
if (hasFolding(wp, wp->w_topline, &first, NULL)) {
done++;
if (!byfold) {
todo -= wp->w_topline - first - 1;
}
wp->w_botline -= wp->w_topline - first;
wp->w_topline = first;
} else {
if (do_sms) {
int size = win_linetabsize(wp, wp->w_topline,
ml_get_buf(wp->w_buffer, wp->w_topline), MAXCOL);
if (size > width1) {
wp->w_skipcol = width1;
size -= width1;
redraw_later(wp, UPD_NOT_VALID);
}
while (size > width2) {
wp->w_skipcol += width2;
size -= width2;
}
done++;
} else {
done += plines_win_nofill(wp, wp->w_topline, true);
}
}
}
}
wp->w_botline--; // approximate w_botline
invalidate_botline(wp);
}
wp->w_wrow += done; // keep w_wrow updated
wp->w_cline_row += done; // keep w_cline_row updated
if (wp->w_cursor.lnum == wp->w_topline) {
wp->w_cline_row = 0;
}
check_topfill(wp, 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 = wp->w_wrow;
if (wp->w_p_wrap && wp->w_width_inner != 0) {
validate_virtcol(wp);
validate_cheight(wp);
wrow += wp->w_cline_height - 1 -
wp->w_virtcol / wp->w_width_inner;
}
bool moved = false;
while (wrow >= wp->w_height_inner && wp->w_cursor.lnum > 1) {
linenr_T first;
if (hasFolding(wp, wp->w_cursor.lnum, &first, NULL)) {
wrow--;
if (first == 1) {
wp->w_cursor.lnum = 1;
} else {
wp->w_cursor.lnum = first - 1;
}
} else {
wrow -= plines_win(wp, wp->w_cursor.lnum--, true);
}
wp->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(wp);
coladvance(wp, wp->w_curswant);
}
wp->w_cursor.lnum = MAX(wp->w_cursor.lnum, wp->w_topline);
return moved;
}
/// Scroll a 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(win_T *wp, linenr_T line_count, bool byfold)
{
linenr_T topline = wp->w_topline;
linenr_T botline = wp->w_botline;
bool do_sms = wp->w_p_wrap && wp->w_p_sms;
if (do_sms || (byfold && hasAnyFolding(wp)) || win_may_fill(wp)) {
int width1 = wp->w_width_inner - win_col_off(wp);
int width2 = width1 + win_col_off2(wp);
int size = 0;
const colnr_T prev_skipcol = wp->w_skipcol;
if (do_sms) {
size = linetabsize(wp, wp->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 (wp->w_topfill > 0) {
wp->w_topfill--;
} else {
linenr_T lnum = wp->w_topline;
if (byfold) {
// for a closed fold: go to the last line in the fold
hasFolding(wp, lnum, NULL, &lnum);
}
if (lnum == wp->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 = wp->w_skipcol > 0 ? width2 : width1;
wp->w_skipcol += add;
if (wp->w_skipcol >= size) {
if (lnum == wp->w_buffer->b_ml.ml_line_count) {
// at the last screen line, can't scroll further
wp->w_skipcol -= add;
break;
}
lnum++;
}
} else {
if (lnum >= wp->w_buffer->b_ml.ml_line_count) {
break;
}
lnum++;
}
if (lnum > wp->w_topline) {
// approximate w_botline
wp->w_botline += lnum - wp->w_topline;
wp->w_topline = lnum;
wp->w_topfill = win_get_fill(wp, lnum);
wp->w_skipcol = 0;
if (todo > 1 && do_sms) {
size = linetabsize(wp, wp->w_topline);
}
}
}
}
if (prev_skipcol > 0 || wp->w_skipcol > 0) {
// need to redraw more, because wl_size of the (new) topline may
// now be invalid
redraw_later(wp, UPD_NOT_VALID);
}
} else {
wp->w_topline += line_count;
wp->w_botline += line_count; // approximate w_botline
}
wp->w_topline = MIN(wp->w_topline, wp->w_buffer->b_ml.ml_line_count);
wp->w_botline = MIN(wp->w_botline, wp->w_buffer->b_ml.ml_line_count + 1);
check_topfill(wp, false);
if (hasAnyFolding(wp)) {
// Make sure w_topline is at the first of a sequence of folded lines.
hasFolding(wp, wp->w_topline, &wp->w_topline, NULL);
}
wp->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE);
if (wp->w_cursor.lnum < wp->w_topline) {
wp->w_cursor.lnum = wp->w_topline;
wp->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW|VALID_VIRTCOL);
coladvance(wp, wp->w_curswant);
}
bool moved = topline != wp->w_topline || botline != wp->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 - win_col_off(curwin);
if (width1 <= 0) {
return; // no text will be displayed
}
int width2 = width1 + win_col_off2(curwin);
int so = get_scrolloff_value(curwin);
colnr_T scrolloff_cols = so == 0 ? 0 : width1 + (so - 1) * width2;
bool scrolled = false;
validate_cheight(curwin);
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(curwin);
int overlap = sms_marker_overlap(curwin, -1);
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(curwin);
redraw_later(curwin, UPD_NOT_VALID);
return; // don't scroll in the other direction now
}
int row = 0;
colnr_T col = curwin->w_virtcol + scrolloff_cols;
// Avoid adjusting for 'scrolloff' beyond the text line height.
if (scrolloff_cols > 0) {
int size = win_linetabsize(curwin, curwin->w_topline,
ml_get(curwin->w_topline), (colnr_T)MAXCOL);
size = width1 + width2 * ((size - width1 + width2 - 1) / width2);
while (col > size) {
col -= width2;
}
}
col -= curwin->w_skipcol;
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;
wp->w_topfill = MAX(wp->w_topfill, 0);
}
}
}
win_check_anchored_floats(wp);
}
// Scroll the screen one line down, but don't do it if it would move the
// cursor off the screen.
void scrolldown_clamp(void)
{
bool can_fill = (curwin->w_topfill < win_get_fill(curwin, curwin->w_topline));
if (curwin->w_topline <= 1
&& !can_fill) {
return;
}
validate_cursor(curwin); // 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(curwin);
validate_virtcol(curwin);
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;
}
hasFolding(curwin, 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(curwin); // 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(curwin);
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 {
hasFolding(curwin, 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(wp, 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 (hasFolding(wp, lp->lnum, NULL, &lp->lnum)) {
// Add a closed fold
lp->height = 1;
} else {
lp->height = plines_win_nofill(wp, lp->lnum, true);
}
}
}
// 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(win_T *wp, int min_scroll, int always)
{
linenr_T old_topline = wp->w_topline;
int old_skipcol = wp->w_skipcol;
linenr_T old_topfill = wp->w_topfill;
int off = get_scrolloff_value(wp);
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(wp);
int scrolled = 0;
int used = wp->w_cline_height; // includes filler lines above
if (wp->w_cursor.lnum < wp->w_topline) {
scrolled = used;
}
linenr_T top; // just above displayed lines
linenr_T bot; // just below displayed lines
if (hasFolding(wp, wp->w_cursor.lnum, &top, &bot)) {
top--;
bot++;
} else {
top = wp->w_cursor.lnum - 1;
bot = wp->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(wp, wp->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(wp, top, &top, NULL)
? 1 // count one logical line for a sequence of folded lines
: plines_win_nofill(wp, top, true);
if (top < wp->w_topline) {
scrolled += i;
}
// If scrolling is needed, scroll at least 'sj' lines.
if ((new_topline >= wp->w_topline || scrolled > min_scroll) && extra >= off) {
break;
}
used += i;
if (extra + i <= off && bot < wp->w_buffer->b_ml.ml_line_count) {
if (hasFolding(wp, bot, NULL, &bot)) {
// count one logical line for a sequence of folded lines
used++;
} else {
used += plines_win(wp, bot, true);
}
}
if (used > wp->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 > wp->w_height_inner) {
scroll_cursor_halfway(wp, false, false);
} else {
// If "always" is false, only adjust topline to a lower value, higher
// value may happen with wrapping lines.
if (new_topline < wp->w_topline || always) {
wp->w_topline = new_topline;
}
wp->w_topline = MIN(wp->w_topline, wp->w_cursor.lnum);
wp->w_topfill = win_get_fill(wp, wp->w_topline);
if (wp->w_topfill > 0 && extra > off) {
wp->w_topfill -= extra - off;
wp->w_topfill = MAX(wp->w_topfill, 0);
}
check_topfill(wp, false);
if (wp->w_topline != old_topline) {
reset_skipcol(wp);
} else if (wp->w_topline == wp->w_cursor.lnum) {
validate_virtcol(wp);
if (wp->w_skipcol >= wp->w_virtcol) {
// TODO(vim): if the line doesn't fit may optimize w_skipcol instead
// of making it zero
reset_skipcol(wp);
}
}
if (wp->w_topline != old_topline
|| wp->w_skipcol != old_skipcol
|| wp->w_topfill != old_topfill) {
wp->w_valid &=
~(VALID_WROW|VALID_CROW|VALID_BOTLINE|VALID_BOTLINE_AP);
}
wp->w_valid |= VALID_TOPLINE;
wp->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(win_T *wp, int min_scroll, bool set_topbot)
{
lineoff_T loff;
linenr_T old_topline = wp->w_topline;
int old_skipcol = wp->w_skipcol;
int old_topfill = wp->w_topfill;
linenr_T old_botline = wp->w_botline;
int old_valid = wp->w_valid;
int old_empty_rows = wp->w_empty_rows;
linenr_T cln = wp->w_cursor.lnum; // Cursor Line Number
bool do_sms = wp->w_p_wrap && wp->w_p_sms;
if (set_topbot) {
int used = 0;
wp->w_botline = cln + 1;
loff.lnum = cln + 1;
loff.fill = 0;
while (true) {
topline_back_winheight(wp, &loff, false);
if (loff.height == MAXCOL) {
break;
}
if (used + loff.height > wp->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 < wp->w_height_inner) {
int plines_offset = used + loff.height - wp->w_height_inner;
used = wp->w_height_inner;
wp->w_topfill = loff.fill;
wp->w_topline = loff.lnum;
wp->w_skipcol = skipcol_from_plines(wp, plines_offset);
}
}
break;
}
wp->w_topfill = loff.fill;
wp->w_topline = loff.lnum;
used += loff.height;
}
set_empty_rows(wp, used);
wp->w_valid |= VALID_BOTLINE|VALID_BOTLINE_AP;
if (wp->w_topline != old_topline
|| wp->w_topfill != old_topfill
|| wp->w_skipcol != old_skipcol
|| wp->w_skipcol != 0) {
wp->w_valid &= ~(VALID_WROW|VALID_CROW);
if (wp->w_skipcol != old_skipcol) {
redraw_later(wp, UPD_NOT_VALID);
} else {
reset_skipcol(wp);
}
}
} else {
validate_botline(wp);
}
// The lines of the cursor line itself are always used.
int used = plines_win_nofill(wp, 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 >= wp->w_botline) {
scrolled = used;
if (cln == wp->w_botline) {
scrolled -= wp->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(wp, wp->w_topline, false);
int width1 = wp->w_width_inner - win_col_off(wp);
if (width1 > 0) {
int width2 = width1 + win_col_off2(wp);
int skip_lines = 0;
// A similar formula is used in curs_columns().
if (wp->w_skipcol > width1) {
skip_lines += (wp->w_skipcol - width1) / width2 + 1;
} else if (wp->w_skipcol > 0) {
skip_lines = 1;
}
top_plines -= skip_lines;
if (top_plines > wp->w_height_inner) {
scrolled += (top_plines - wp->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(wp, wp->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(wp, wp->w_botline) - wp->w_filler_rows;
int extra = 0;
int so = get_scrolloff_value(wp);
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 > wp->w_buffer->b_ml.ml_line_count)
&& loff.lnum <= wp->w_botline
&& (loff.lnum < wp->w_botline
|| loff.fill >= fill_below_window)) {
break;
}
// Add one line above
topline_back(wp, &loff);
if (loff.height == MAXCOL) {
used = MAXCOL;
} else {
used += loff.height;
}
if (used > wp->w_height_inner) {
break;
}
if (loff.lnum >= wp->w_botline
&& (loff.lnum > wp->w_botline
|| loff.fill <= fill_below_window)) {
// Count screen lines that are below the window.
scrolled += loff.height;
if (loff.lnum == wp->w_botline
&& loff.fill == 0) {
scrolled -= wp->w_empty_rows;
}
}
if (boff.lnum < wp->w_buffer->b_ml.ml_line_count) {
// Add one line below
botline_forw(wp, &boff);
used += boff.height;
if (used > wp->w_height_inner) {
break;
}
if (extra < (mouse_dragging > 0 ? mouse_dragging - 1 : so)
|| scrolled < min_scroll) {
extra += boff.height;
if (boff.lnum >= wp->w_botline
|| (boff.lnum + 1 == wp->w_botline
&& boff.fill > wp->w_filler_rows)) {
// Count screen lines that are below the window.
scrolled += boff.height;
if (boff.lnum == wp->w_botline
&& boff.fill == 0) {
scrolled -= wp->w_empty_rows;
}
}
}
}
}
linenr_T line_count;
// wp->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 > wp->w_height_inner) {
line_count = used;
// scroll minimal number of lines
} else {
line_count = 0;
boff.fill = wp->w_topfill;
boff.lnum = wp->w_topline - 1;
int i;
for (i = 0; i < scrolled && boff.lnum < wp->w_botline;) {
botline_forw(wp, &boff);
i += boff.height;
line_count++;
}
if (i < scrolled) { // below wp->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 >= wp->w_height_inner && line_count > min_scroll) {
scroll_cursor_halfway(wp, false, true);
} else if (line_count > 0) {
if (do_sms) {
scrollup(wp, scrolled, true); // TODO(vim):
} else {
scrollup(wp, 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 (wp->w_topline == old_topline && wp->w_skipcol == old_skipcol && set_topbot) {
wp->w_botline = old_botline;
wp->w_empty_rows = old_empty_rows;
wp->w_valid = old_valid;
}
wp->w_valid |= VALID_TOPLINE;
wp->w_viewport_invalid = true;
// Make sure cursor is still visible after adjusting skipcol for "zb".
if (set_topbot) {
cursor_correct_sms(wp);
}
}
/// 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(win_T *wp, bool atend, bool prefer_above)
{
linenr_T old_topline = wp->w_topline;
lineoff_T loff = { .lnum = wp->w_cursor.lnum };
lineoff_T boff = { .lnum = wp->w_cursor.lnum };
hasFolding(wp, loff.lnum, &loff.lnum, &boff.lnum);
int used = plines_win_nofill(wp, loff.lnum, true);
loff.fill = 0;
boff.fill = 0;
linenr_T topline = loff.lnum;
colnr_T skipcol = 0;
int want_height;
bool do_sms = wp->w_p_wrap && wp->w_p_sms;
if (do_sms) {
// 'smoothscroll' and 'wrap' are set
if (atend) {
want_height = (wp->w_height_inner - used) / 2;
used = 0;
} else {
want_height = wp->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(wp, &loff, false);
if (loff.height == MAXCOL) {
break;
}
used += loff.height;
if (!atend && boff.lnum < wp->w_buffer->b_ml.ml_line_count) {
botline_forw(wp, &boff);
used += boff.height;
}
if (used > want_height) {
if (used - loff.height < want_height) {
topline = loff.lnum;
topfill = loff.fill;
skipcol = skipcol_from_plines(wp, 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 < wp->w_buffer->b_ml.ml_line_count) {
botline_forw(wp, &boff);
used += boff.height;
if (used > wp->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(wp, &loff);
if (loff.height == MAXCOL) {
used = MAXCOL;
} else {
used += loff.height;
}
if (used > wp->w_height_inner) {
done = true;
break;
}
above += loff.height;
topline = loff.lnum;
topfill = loff.fill;
}
}
if (done) {
break;
}
}
if (!hasFolding(wp, topline, &wp->w_topline, NULL)
&& (wp->w_topline != topline || skipcol != 0 || wp->w_skipcol != 0)) {
wp->w_topline = topline;
if (skipcol != 0) {
wp->w_skipcol = skipcol;
redraw_later(wp, UPD_NOT_VALID);
} else if (do_sms) {
reset_skipcol(wp);
}
}
wp->w_topfill = topfill;
if (old_topline > wp->w_topline + wp->w_height_inner) {
wp->w_botfill = false;
}
check_topfill(wp, false);
wp->w_valid &= ~(VALID_WROW|VALID_CROW|VALID_BOTLINE|VALID_BOTLINE_AP);
wp->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(win_T *wp)
{
// 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(wp);
int below_wanted = get_scrolloff_value(wp);
if (mouse_dragging > 0) {
above_wanted = mouse_dragging - 1;
below_wanted = mouse_dragging - 1;
}
if (wp->w_topline == 1) {
above_wanted = 0;
int max_off = wp->w_height_inner / 2;
below_wanted = MIN(below_wanted, max_off);
}
validate_botline(wp);
if (wp->w_botline == wp->w_buffer->b_ml.ml_line_count + 1
&& mouse_dragging == 0) {
below_wanted = 0;
int max_off = (wp->w_height_inner - 1) / 2;
above_wanted = MIN(above_wanted, max_off);
}
// If there are sufficient file-lines above and below the cursor, we can
// return now.
linenr_T cln = wp->w_cursor.lnum; // Cursor Line Number
if (cln >= wp->w_topline + above_wanted
&& cln < wp->w_botline - below_wanted
&& !hasAnyFolding(wp)) {
return;
}
if (wp->w_p_sms && !wp->w_p_wrap) {
// 'smoothscroll' is active
if (wp->w_cline_height == wp->w_height_inner) {
// The cursor line just fits in the window, don't scroll.
reset_skipcol(wp);
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 = wp->w_topline;
linenr_T botline = wp->w_botline - 1;
// count filler lines as context
int above = wp->w_topfill; // screen lines above topline
int below = wp->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(wp, botline, &botline, NULL)) {
below++;
} else {
below += plines_win(wp, botline, true);
}
botline--;
}
if (above < above_wanted && (above < below || below >= below_wanted)) {
if (hasFolding(wp, topline, NULL, &topline)) {
above++;
} else {
above += plines_win_nofill(wp, topline, true);
}
// Count filler lines below this line as context.
if (topline < botline) {
above += win_get_fill(wp, topline + 1);
}
topline++;
}
}
if (topline == botline || botline == 0) {
wp->w_cursor.lnum = topline;
} else if (topline > botline) {
wp->w_cursor.lnum = botline;
} else {
if (cln < topline && wp->w_topline > 1) {
wp->w_cursor.lnum = topline;
wp->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW);
}
if (cln > botline && wp->w_botline <= wp->w_buffer->b_ml.ml_line_count) {
wp->w_cursor.lnum = botline;
wp->w_valid &=
~(VALID_WROW|VALID_WCOL|VALID_CHEIGHT|VALID_CROW);
}
}
wp->w_valid |= VALID_TOPLINE;
wp->w_viewport_invalid = true;
}
/// 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 int get_scroll_overlap(Direction dir)
{
lineoff_T loff;
int min_height = curwin->w_height_inner - 2;
validate_botline(curwin);
if ((dir == BACKWARD && curwin->w_topline == 1)
|| (dir == FORWARD && curwin->w_botline > curbuf->b_ml.ml_line_count)) {
return min_height + 2; // no overlap, still handle 'smoothscroll'
}
loff.lnum = dir == FORWARD ? curwin->w_botline : curwin->w_topline - 1;
loff.fill = win_get_fill(curwin, loff.lnum + (dir == BACKWARD))
- (dir == FORWARD ? curwin->w_filler_rows : curwin->w_topfill);
loff.height = loff.fill > 0 ? 1 : plines_win_nofill(curwin, loff.lnum, true);
int h1 = loff.height;
if (h1 > min_height) {
return min_height + 2; // no overlap
}
if (dir == FORWARD) {
topline_back(curwin, &loff);
} else {
botline_forw(curwin, &loff);
}
int h2 = loff.height;
if (h2 == MAXCOL || h2 + h1 > min_height) {
return min_height + 2; // no overlap
}
if (dir == FORWARD) {
topline_back(curwin, &loff);
} else {
botline_forw(curwin, &loff);
}
int h3 = loff.height;
if (h3 == MAXCOL || h3 + h2 > min_height) {
return min_height + 2; // no overlap
}
if (dir == FORWARD) {
topline_back(curwin, &loff);
} else {
botline_forw(curwin, &loff);
}
int h4 = loff.height;
if (h4 == MAXCOL || h4 + h3 + h2 > min_height || h3 + h2 + h1 > min_height) {
return min_height + 1; // 1 line overlap
} else {
return min_height; // 2 lines overlap
}
}
/// Scroll "count" lines with 'smoothscroll' in direction "dir". Return true
/// when scrolling happened. Adjust "curscount" for scrolling different amount
/// of lines when 'smoothscroll' is disabled.
static bool scroll_with_sms(Direction dir, int count, int *curscount)
{
int prev_sms = curwin->w_p_sms;
colnr_T prev_skipcol = curwin->w_skipcol;
linenr_T prev_topline = curwin->w_topline;
int prev_topfill = curwin->w_topfill;
curwin->w_p_sms = true;
scroll_redraw(dir == FORWARD, count);
// Not actually smoothscrolling but ended up with partially visible line.
// Continue scrolling until skipcol is zero.
if (!prev_sms && curwin->w_skipcol > 0) {
int fixdir = dir;
// Reverse the scroll direction when topline already changed. One line
// extra for scrolling backward so that consuming skipcol is symmetric.
if (labs(curwin->w_topline - prev_topline) > (dir == BACKWARD)) {
fixdir = dir * -1;
}
while (curwin->w_skipcol > 0
&& curwin->w_topline < curbuf->b_ml.ml_line_count) {
scroll_redraw(fixdir == FORWARD, 1);
*curscount += (fixdir == dir ? 1 : -1);
}
}
curwin->w_p_sms = prev_sms;
return curwin->w_topline == prev_topline
&& curwin->w_topfill == prev_topfill
&& curwin->w_skipcol == prev_skipcol;
}
/// Move screen "count" (half) pages up ("dir" is BACKWARD) or down ("dir" is
/// FORWARD) and update the screen. Handle moving the cursor and not scrolling
/// to reveal end of buffer lines for half-page scrolling with CTRL-D and CTRL-U.
///
/// @return FAIL for failure, OK otherwise.
int pagescroll(Direction dir, int count, bool half)
{
int nochange = true;
int buflen = curbuf->b_ml.ml_line_count;
colnr_T prev_col = curwin->w_cursor.col;
colnr_T prev_curswant = curwin->w_curswant;
linenr_T prev_lnum = curwin->w_cursor.lnum;
oparg_T oa = { 0 };
cmdarg_T ca = { 0 };
ca.oap = &oa;
if (half) {
// Scroll [count], 'scroll' or current window height lines.
if (count) {
curwin->w_p_scr = MIN(curwin->w_height_inner, count);
}
count = MIN(curwin->w_height_inner, (int)curwin->w_p_scr);
int curscount = count;
// Adjust count so as to not reveal end of buffer lines.
if (dir == FORWARD
&& (curwin->w_topline + curwin->w_height_inner + count > buflen || hasAnyFolding(curwin))) {
int n = plines_correct_topline(curwin, curwin->w_topline, NULL, false, NULL);
if (n - count < curwin->w_height_inner && curwin->w_topline < buflen) {
n += plines_m_win(curwin, curwin->w_topline + 1, buflen, curwin->w_height_inner + count);
}
if (n < curwin->w_height_inner + count) {
count = n - curwin->w_height_inner;
}
}
// (Try to) scroll the window unless already at the end of the buffer.
if (count > 0) {
nochange = scroll_with_sms(dir, count, &curscount);
curwin->w_cursor.lnum = prev_lnum;
curwin->w_cursor.col = prev_col;
curwin->w_curswant = prev_curswant;
}
// Move the cursor the same amount of screen lines.
if (curwin->w_p_wrap) {
nv_screengo(&oa, dir, curscount);
} else if (dir == FORWARD) {
cursor_down_inner(curwin, curscount);
} else {
cursor_up_inner(curwin, curscount);
}
} else {
// Scroll [count] times 'window' or current window height lines.
count *= ((ONE_WINDOW && p_window > 0 && p_window < Rows - 1)
? MAX(1, (int)p_window - 2) : get_scroll_overlap(dir));
nochange = scroll_with_sms(dir, count, &count);
if (!nochange) {
// Place cursor at top or bottom of window.
validate_botline(curwin);
curwin->w_cursor.lnum = (dir == FORWARD ? curwin->w_topline : curwin->w_botline - 1);
}
}
if (get_scrolloff_value(curwin) > 0) {
cursor_correct(curwin);
}
// Move cursor to first line of closed fold.
foldAdjustCursor(curwin);
nochange = nochange
&& prev_col == curwin->w_cursor.col
&& prev_lnum == curwin->w_cursor.lnum;
// Error if both the viewport and cursor did not change.
if (nochange) {
beep_flush();
} else if (!curwin->w_p_sms) {
beginline(BL_SOL | BL_FIX);
} else if (p_sol) {
nv_g_home_m_cmd(&ca);
}
return nochange;
}
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;
bool 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(curwin);
// Avoid a scroll here for the cursor position, 'scrollbind' is
// more important.
if (!curwin->w_p_scb) {
validate_cursor(curwin);
}
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;
}