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|
/* $OpenBSD: layout.c,v 1.32 2017/03/11 15:16:35 nicm Exp $ */
/*
* Copyright (c) 2009 Nicholas Marriott <nicholas.marriott@gmail.com>
* Copyright (c) 2016 Stephen Kent <smkent@smkent.net>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER
* IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
* OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <sys/types.h>
#include <stdlib.h>
#include "tmux.h"
/*
* The window layout is a tree of cells each of which can be one of: a
* left-right container for a list of cells, a top-bottom container for a list
* of cells, or a container for a window pane.
*
* Each window has a pointer to the root of its layout tree (containing its
* panes), every pane has a pointer back to the cell containing it, and each
* cell a pointer to its parent cell.
*/
static u_int layout_resize_check(struct window *, struct layout_cell *,
enum layout_type);
static int layout_resize_pane_grow(struct window *, struct layout_cell *,
enum layout_type, int, int);
static int layout_resize_pane_shrink(struct window *, struct layout_cell *,
enum layout_type, int);
static int layout_need_status(struct layout_cell *, int);
static u_int layout_new_pane_size(struct window *, u_int,
struct layout_cell *, enum layout_type, u_int, u_int,
u_int);
static int layout_set_size_check(struct window *, struct layout_cell *,
enum layout_type, int);
static void layout_resize_child_cells(struct window *,
struct layout_cell *);
struct layout_cell *
layout_create_cell(struct layout_cell *lcparent)
{
struct layout_cell *lc;
lc = xmalloc(sizeof *lc);
lc->type = LAYOUT_WINDOWPANE;
lc->parent = lcparent;
TAILQ_INIT(&lc->cells);
lc->sx = UINT_MAX;
lc->sy = UINT_MAX;
lc->xoff = UINT_MAX;
lc->yoff = UINT_MAX;
lc->wp = NULL;
return (lc);
}
void
layout_free_cell(struct layout_cell *lc)
{
struct layout_cell *lcchild;
switch (lc->type) {
case LAYOUT_LEFTRIGHT:
case LAYOUT_TOPBOTTOM:
while (!TAILQ_EMPTY(&lc->cells)) {
lcchild = TAILQ_FIRST(&lc->cells);
TAILQ_REMOVE(&lc->cells, lcchild, entry);
layout_free_cell(lcchild);
}
break;
case LAYOUT_WINDOWPANE:
if (lc->wp != NULL)
lc->wp->layout_cell = NULL;
break;
}
free(lc);
}
void
layout_print_cell(struct layout_cell *lc, const char *hdr, u_int n)
{
struct layout_cell *lcchild;
log_debug("%s:%*s%p type %u [parent %p] wp=%p [%u,%u %ux%u]", hdr, n,
" ", lc, lc->type, lc->parent, lc->wp, lc->xoff, lc->yoff, lc->sx,
lc->sy);
switch (lc->type) {
case LAYOUT_LEFTRIGHT:
case LAYOUT_TOPBOTTOM:
TAILQ_FOREACH(lcchild, &lc->cells, entry)
layout_print_cell(lcchild, hdr, n + 1);
break;
case LAYOUT_WINDOWPANE:
break;
}
}
void
layout_set_size(struct layout_cell *lc, u_int sx, u_int sy, u_int xoff,
u_int yoff)
{
lc->sx = sx;
lc->sy = sy;
lc->xoff = xoff;
lc->yoff = yoff;
}
void
layout_make_leaf(struct layout_cell *lc, struct window_pane *wp)
{
lc->type = LAYOUT_WINDOWPANE;
TAILQ_INIT(&lc->cells);
wp->layout_cell = lc;
lc->wp = wp;
}
void
layout_make_node(struct layout_cell *lc, enum layout_type type)
{
if (type == LAYOUT_WINDOWPANE)
fatalx("bad layout type");
lc->type = type;
TAILQ_INIT(&lc->cells);
if (lc->wp != NULL)
lc->wp->layout_cell = NULL;
lc->wp = NULL;
}
/* Fix cell offsets based on their sizes. */
void
layout_fix_offsets(struct layout_cell *lc)
{
struct layout_cell *lcchild;
u_int xoff, yoff;
if (lc->type == LAYOUT_LEFTRIGHT) {
xoff = lc->xoff;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
lcchild->xoff = xoff;
lcchild->yoff = lc->yoff;
if (lcchild->type != LAYOUT_WINDOWPANE)
layout_fix_offsets(lcchild);
xoff += lcchild->sx + 1;
}
} else {
yoff = lc->yoff;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
lcchild->xoff = lc->xoff;
lcchild->yoff = yoff;
if (lcchild->type != LAYOUT_WINDOWPANE)
layout_fix_offsets(lcchild);
yoff += lcchild->sy + 1;
}
}
}
/*
* Returns 1 if we need to reserve space for the pane status line. This is the
* case for the most upper panes only.
*/
static int
layout_need_status(struct layout_cell *lc, int at_top)
{
struct layout_cell *first_lc;
if (lc->parent) {
if (lc->parent->type == LAYOUT_LEFTRIGHT)
return (layout_need_status(lc->parent, at_top));
if (at_top)
first_lc = TAILQ_FIRST(&lc->parent->cells);
else
first_lc = TAILQ_LAST(&lc->parent->cells,layout_cells);
if (lc == first_lc)
return (layout_need_status(lc->parent, at_top));
return (0);
}
return (1);
}
/* Update pane offsets and sizes based on their cells. */
void
layout_fix_panes(struct window *w, u_int wsx, u_int wsy)
{
struct window_pane *wp;
struct layout_cell *lc;
u_int sx, sy;
int shift, status, at_top;
status = options_get_number(w->options, "pane-border-status");
at_top = (status == 1);
TAILQ_FOREACH(wp, &w->panes, entry) {
if ((lc = wp->layout_cell) == NULL)
continue;
if (status != 0)
shift = layout_need_status(lc, at_top);
else
shift = 0;
wp->xoff = lc->xoff;
wp->yoff = lc->yoff;
if (shift && at_top)
wp->yoff += 1;
/*
* Layout cells are limited by the smallest size of other cells
* within the same row or column; if this isn't the case
* resizing becomes difficult.
*
* However, panes do not have to take up their entire cell, so
* they can be cropped to the window edge if the layout
* overflows and they are partly visible.
*
* This stops cells being hidden unnecessarily.
*/
/*
* Work out the horizontal size. If the pane is actually
* outside the window or the entire pane is already visible,
* don't crop.
*/
if (lc->xoff >= wsx || lc->xoff + lc->sx < wsx)
sx = lc->sx;
else {
sx = wsx - lc->xoff;
if (sx < 1)
sx = lc->sx;
}
/*
* Similarly for the vertical size; the minimum vertical size
* is two because scroll regions cannot be one line.
*/
if (lc->yoff >= wsy || lc->yoff + lc->sy < wsy)
sy = lc->sy;
else {
sy = wsy - lc->yoff;
if (sy < 2)
sy = lc->sy;
}
if (shift)
sy -= 1;
window_pane_resize(wp, sx, sy);
}
}
/* Count the number of available cells in a layout. */
u_int
layout_count_cells(struct layout_cell *lc)
{
struct layout_cell *lcchild;
u_int count;
switch (lc->type) {
case LAYOUT_WINDOWPANE:
return (1);
case LAYOUT_LEFTRIGHT:
case LAYOUT_TOPBOTTOM:
count = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry)
count += layout_count_cells(lcchild);
return (count);
default:
fatalx("bad layout type");
}
}
/* Calculate how much size is available to be removed from a cell. */
static u_int
layout_resize_check(struct window *w, struct layout_cell *lc,
enum layout_type type)
{
struct layout_cell *lcchild;
u_int available, minimum;
if (lc->type == LAYOUT_WINDOWPANE) {
/* Space available in this cell only. */
minimum = PANE_MINIMUM;
if (type == LAYOUT_LEFTRIGHT)
available = lc->sx;
else {
available = lc->sy;
minimum += layout_need_status(lc,
options_get_number(w->options,
"pane-border-status") == 1);
}
if (available > minimum)
available -= minimum;
else
available = 0;
} else if (lc->type == type) {
/* Same type: total of available space in all child cells. */
available = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry)
available += layout_resize_check(w, lcchild, type);
} else {
/* Different type: minimum of available space in child cells. */
minimum = UINT_MAX;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
available = layout_resize_check(w, lcchild, type);
if (available < minimum)
minimum = available;
}
available = minimum;
}
return (available);
}
/*
* Adjust cell size evenly, including altering its children. This function
* expects the change to have already been bounded to the space available.
*/
void
layout_resize_adjust(struct window *w, struct layout_cell *lc,
enum layout_type type, int change)
{
struct layout_cell *lcchild;
/* Adjust the cell size. */
if (type == LAYOUT_LEFTRIGHT)
lc->sx += change;
else
lc->sy += change;
/* If this is a leaf cell, that is all that is necessary. */
if (type == LAYOUT_WINDOWPANE)
return;
/* Child cell runs in a different direction. */
if (lc->type != type) {
TAILQ_FOREACH(lcchild, &lc->cells, entry)
layout_resize_adjust(w, lcchild, type, change);
return;
}
/*
* Child cell runs in the same direction. Adjust each child equally
* until no further change is possible.
*/
while (change != 0) {
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
if (change == 0)
break;
if (change > 0) {
layout_resize_adjust(w, lcchild, type, 1);
change--;
continue;
}
if (layout_resize_check(w, lcchild, type) > 0) {
layout_resize_adjust(w, lcchild, type, -1);
change++;
}
}
}
}
/* Destroy a cell and redistribute the space. */
void
layout_destroy_cell(struct window *w, struct layout_cell *lc,
struct layout_cell **lcroot)
{
struct layout_cell *lcother, *lcparent;
/*
* If no parent, this is the last pane so window close is imminent and
* there is no need to resize anything.
*/
lcparent = lc->parent;
if (lcparent == NULL) {
layout_free_cell(lc);
*lcroot = NULL;
return;
}
/* Merge the space into the previous or next cell. */
if (lc == TAILQ_FIRST(&lcparent->cells))
lcother = TAILQ_NEXT(lc, entry);
else
lcother = TAILQ_PREV(lc, layout_cells, entry);
if (lcparent->type == LAYOUT_LEFTRIGHT)
layout_resize_adjust(w, lcother, lcparent->type, lc->sx + 1);
else
layout_resize_adjust(w, lcother, lcparent->type, lc->sy + 1);
/* Remove this from the parent's list. */
TAILQ_REMOVE(&lcparent->cells, lc, entry);
layout_free_cell(lc);
/*
* If the parent now has one cell, remove the parent from the tree and
* replace it by that cell.
*/
lc = TAILQ_FIRST(&lcparent->cells);
if (TAILQ_NEXT(lc, entry) == NULL) {
TAILQ_REMOVE(&lcparent->cells, lc, entry);
lc->parent = lcparent->parent;
if (lc->parent == NULL) {
lc->xoff = 0; lc->yoff = 0;
*lcroot = lc;
} else
TAILQ_REPLACE(&lc->parent->cells, lcparent, lc, entry);
layout_free_cell(lcparent);
}
}
void
layout_init(struct window *w, struct window_pane *wp)
{
struct layout_cell *lc;
lc = w->layout_root = layout_create_cell(NULL);
layout_set_size(lc, w->sx, w->sy, 0, 0);
layout_make_leaf(lc, wp);
layout_fix_panes(w, w->sx, w->sy);
}
void
layout_free(struct window *w)
{
layout_free_cell(w->layout_root);
}
/* Resize the entire layout after window resize. */
void
layout_resize(struct window *w, u_int sx, u_int sy)
{
struct layout_cell *lc = w->layout_root;
int xlimit, ylimit, xchange, ychange;
/*
* Adjust horizontally. Do not attempt to reduce the layout lower than
* the minimum (more than the amount returned by layout_resize_check).
*
* This can mean that the window size is smaller than the total layout
* size: redrawing this is handled at a higher level, but it does leave
* a problem with growing the window size here: if the current size is
* < the minimum, growing proportionately by adding to each pane is
* wrong as it would keep the layout size larger than the window size.
* Instead, spread the difference between the minimum and the new size
* out proportionately - this should leave the layout fitting the new
* window size.
*/
xchange = sx - w->sx;
xlimit = layout_resize_check(w, lc, LAYOUT_LEFTRIGHT);
if (xchange < 0 && xchange < -xlimit)
xchange = -xlimit;
if (xlimit == 0) {
if (sx <= lc->sx) /* lc->sx is minimum possible */
xchange = 0;
else
xchange = sx - lc->sx;
}
if (xchange != 0)
layout_resize_adjust(w, lc, LAYOUT_LEFTRIGHT, xchange);
/* Adjust vertically in a similar fashion. */
ychange = sy - w->sy;
ylimit = layout_resize_check(w, lc, LAYOUT_TOPBOTTOM);
if (ychange < 0 && ychange < -ylimit)
ychange = -ylimit;
if (ylimit == 0) {
if (sy <= lc->sy) /* lc->sy is minimum possible */
ychange = 0;
else
ychange = sy - lc->sy;
}
if (ychange != 0)
layout_resize_adjust(w, lc, LAYOUT_TOPBOTTOM, ychange);
/* Fix cell offsets. */
layout_fix_offsets(lc);
layout_fix_panes(w, sx, sy);
}
/* Resize a pane to an absolute size. */
void
layout_resize_pane_to(struct window_pane *wp, enum layout_type type,
u_int new_size)
{
struct layout_cell *lc, *lcparent;
int change, size;
lc = wp->layout_cell;
/* Find next parent of the same type. */
lcparent = lc->parent;
while (lcparent != NULL && lcparent->type != type) {
lc = lcparent;
lcparent = lc->parent;
}
if (lcparent == NULL)
return;
/* Work out the size adjustment. */
if (type == LAYOUT_LEFTRIGHT)
size = lc->sx;
else
size = lc->sy;
if (lc == TAILQ_LAST(&lcparent->cells, layout_cells))
change = size - new_size;
else
change = new_size - size;
/* Resize the pane. */
layout_resize_pane(wp, type, change, 1);
}
/* Resize a single pane within the layout. */
void
layout_resize_pane(struct window_pane *wp, enum layout_type type, int change,
int opposite)
{
struct window *w = wp->window;
struct layout_cell *lc, *lcparent;
int needed, size;
lc = wp->layout_cell;
/* Find next parent of the same type. */
lcparent = lc->parent;
while (lcparent != NULL && lcparent->type != type) {
lc = lcparent;
lcparent = lc->parent;
}
if (lcparent == NULL)
return;
/* If this is the last cell, move back one. */
if (lc == TAILQ_LAST(&lcparent->cells, layout_cells))
lc = TAILQ_PREV(lc, layout_cells, entry);
/* Grow or shrink the cell. */
needed = change;
while (needed != 0) {
if (change > 0) {
size = layout_resize_pane_grow(w, lc, type, needed,
opposite);
needed -= size;
} else {
size = layout_resize_pane_shrink(w, lc, type, needed);
needed += size;
}
if (size == 0) /* no more change possible */
break;
}
/* Fix cell offsets. */
layout_fix_offsets(wp->window->layout_root);
layout_fix_panes(wp->window, wp->window->sx, wp->window->sy);
notify_window("window-layout-changed", wp->window);
}
/* Helper function to grow pane. */
static int
layout_resize_pane_grow(struct window *w, struct layout_cell *lc,
enum layout_type type, int needed, int opposite)
{
struct layout_cell *lcadd, *lcremove;
u_int size = 0;
/* Growing. Always add to the current cell. */
lcadd = lc;
/* Look towards the tail for a suitable cell for reduction. */
lcremove = TAILQ_NEXT(lc, entry);
while (lcremove != NULL) {
size = layout_resize_check(w, lcremove, type);
if (size > 0)
break;
lcremove = TAILQ_NEXT(lcremove, entry);
}
/* If none found, look towards the head. */
if (opposite && lcremove == NULL) {
lcremove = TAILQ_PREV(lc, layout_cells, entry);
while (lcremove != NULL) {
size = layout_resize_check(w, lcremove, type);
if (size > 0)
break;
lcremove = TAILQ_PREV(lcremove, layout_cells, entry);
}
}
if (lcremove == NULL)
return (0);
/* Change the cells. */
if (size > (u_int) needed)
size = needed;
layout_resize_adjust(w, lcadd, type, size);
layout_resize_adjust(w, lcremove, type, -size);
return (size);
}
/* Helper function to shrink pane. */
static int
layout_resize_pane_shrink(struct window *w, struct layout_cell *lc,
enum layout_type type, int needed)
{
struct layout_cell *lcadd, *lcremove;
u_int size;
/* Shrinking. Find cell to remove from by walking towards head. */
lcremove = lc;
do {
size = layout_resize_check(w, lcremove, type);
if (size != 0)
break;
lcremove = TAILQ_PREV(lcremove, layout_cells, entry);
} while (lcremove != NULL);
if (lcremove == NULL)
return (0);
/* And add onto the next cell (from the original cell). */
lcadd = TAILQ_NEXT(lc, entry);
if (lcadd == NULL)
return (0);
/* Change the cells. */
if (size > (u_int) -needed)
size = -needed;
layout_resize_adjust(w, lcadd, type, size);
layout_resize_adjust(w, lcremove, type, -size);
return (size);
}
/* Assign window pane to newly split cell. */
void
layout_assign_pane(struct layout_cell *lc, struct window_pane *wp)
{
layout_make_leaf(lc, wp);
layout_fix_panes(wp->window, wp->window->sx, wp->window->sy);
}
/* Calculate the new pane size for resized parent. */
static u_int
layout_new_pane_size(struct window *w, u_int previous, struct layout_cell *lc,
enum layout_type type, u_int size, u_int count_left, u_int size_left)
{
u_int new_size, min, max, available;
/* If this is the last cell, it can take all of the remaining size. */
if (count_left == 1)
return (size_left);
/* How much is available in this parent? */
available = layout_resize_check(w, lc, type);
/*
* Work out the minimum size of this cell and the new size
* proportionate to the previous size.
*/
min = (PANE_MINIMUM + 1) * (count_left - 1);
if (type == LAYOUT_LEFTRIGHT) {
if (lc->sx - available > min)
min = lc->sx - available;
new_size = (lc->sx * size) / previous;
} else {
if (lc->sy - available > min)
min = lc->sy - available;
new_size = (lc->sy * size) / previous;
}
/* Check against the maximum and minimum size. */
max = size_left - min;
if (new_size > max)
new_size = max;
if (new_size < PANE_MINIMUM)
new_size = PANE_MINIMUM;
return (new_size);
}
/* Check if the cell and all its children can be resized to a specific size. */
static int
layout_set_size_check(struct window *w, struct layout_cell *lc,
enum layout_type type, int size)
{
struct layout_cell *lcchild;
u_int new_size, available, previous, count, idx;
/* Cells with no children must just be bigger than minimum. */
if (lc->type == LAYOUT_WINDOWPANE)
return (size >= PANE_MINIMUM);
available = size;
/* Count number of children. */
count = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry)
count++;
/* Check new size will work for each child. */
if (lc->type == type) {
if (type == LAYOUT_LEFTRIGHT)
previous = lc->sx;
else
previous = lc->sy;
idx = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
new_size = layout_new_pane_size(w, previous, lcchild,
type, size, count - idx, available);
if (new_size > available)
return (0);
available -= (new_size + 1);
if (!layout_set_size_check(w, lcchild, type, new_size))
return (0);
idx++;
}
} else {
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
if (lcchild->type == LAYOUT_WINDOWPANE)
continue;
if (!layout_set_size_check(w, lcchild, type, size))
return (0);
}
}
return (1);
}
/* Resize all child cells to fit within the current cell. */
static void
layout_resize_child_cells(struct window *w, struct layout_cell *lc)
{
struct layout_cell *lcchild;
u_int previous, available, count, idx;
if (lc->type == LAYOUT_WINDOWPANE)
return;
/* What is the current size used? */
count = 0;
previous = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
count++;
if (lc->type == LAYOUT_LEFTRIGHT)
previous += lcchild->sx;
else if (lc->type == LAYOUT_TOPBOTTOM)
previous += lcchild->sy;
}
previous += (count - 1);
/* And how much is available? */
available = 0;
if (lc->type == LAYOUT_LEFTRIGHT)
available = lc->sx;
else if (lc->type == LAYOUT_TOPBOTTOM)
available = lc->sy;
/* Resize children into the new size. */
idx = 0;
TAILQ_FOREACH(lcchild, &lc->cells, entry) {
if (lc->type == LAYOUT_TOPBOTTOM) {
lcchild->sx = lc->sx;
lcchild->xoff = lc->xoff;
} else {
lcchild->sx = layout_new_pane_size(w, previous, lcchild,
lc->type, lc->sx, count - idx, available);
available -= (lcchild->sx + 1);
}
if (lc->type == LAYOUT_LEFTRIGHT)
lcchild->sy = lc->sy;
else {
lcchild->sy = layout_new_pane_size(w, previous, lcchild,
lc->type, lc->sy, count - idx, available);
available -= (lcchild->sy + 1);
}
layout_resize_child_cells(w, lcchild);
idx++;
}
}
/*
* Split a pane into two. size is a hint, or -1 for default half/half
* split. This must be followed by layout_assign_pane before much else happens!
*/
struct layout_cell *
layout_split_pane(struct window_pane *wp, enum layout_type type, int size,
int insert_before, int full_size)
{
struct layout_cell *lc, *lcparent, *lcnew, *lc1, *lc2;
u_int sx, sy, xoff, yoff, size1, size2;
u_int new_size, saved_size, resize_first = 0;
/*
* If full_size is specified, add a new cell at the top of the window
* layout. Otherwise, split the cell for the current pane.
*/
if (full_size)
lc = wp->window->layout_root;
else
lc = wp->layout_cell;
/* Copy the old cell size. */
sx = lc->sx;
sy = lc->sy;
xoff = lc->xoff;
yoff = lc->yoff;
/* Check there is enough space for the two new panes. */
switch (type) {
case LAYOUT_LEFTRIGHT:
if (sx < PANE_MINIMUM * 2 + 1)
return (NULL);
break;
case LAYOUT_TOPBOTTOM:
if (sy < PANE_MINIMUM * 2 + 1)
return (NULL);
break;
default:
fatalx("bad layout type");
}
/*
* Calculate new cell sizes. size is the target size or -1 for middle
* split, size1 is the size of the top/left and size2 the bottom/right.
*/
if (type == LAYOUT_LEFTRIGHT)
saved_size = sx;
else
saved_size = sy;
if (size < 0)
size2 = ((saved_size + 1) / 2) - 1;
else if (insert_before)
size2 = saved_size - size - 1;
else
size2 = size;
if (size2 < PANE_MINIMUM)
size2 = PANE_MINIMUM;
else if (size2 > saved_size - 2)
size2 = saved_size - 2;
size1 = saved_size - 1 - size2;
/* Which size are we using? */
if (insert_before)
new_size = size2;
else
new_size = size1;
/* Confirm there is enough space for full size pane. */
if (full_size && !layout_set_size_check(wp->window, lc, type, new_size))
return (NULL);
if (lc->parent != NULL && lc->parent->type == type) {
/*
* If the parent exists and is of the same type as the split,
* create a new cell and insert it after this one.
*/
lcparent = lc->parent;
lcnew = layout_create_cell(lcparent);
if (insert_before)
TAILQ_INSERT_BEFORE(lc, lcnew, entry);
else
TAILQ_INSERT_AFTER(&lcparent->cells, lc, lcnew, entry);
} else if (full_size && lc->parent == NULL && lc->type == type) {
/*
* If the new full size pane is the same type as the root
* split, insert the new pane under the existing root cell
* instead of creating a new root cell. The existing layout
* must be resized before inserting the new cell.
*/
if (lc->type == LAYOUT_LEFTRIGHT) {
lc->sx = new_size;
layout_resize_child_cells(wp->window, lc);
lc->sx = saved_size;
} else if (lc->type == LAYOUT_TOPBOTTOM) {
lc->sy = new_size;
layout_resize_child_cells(wp->window, lc);
lc->sy = saved_size;
}
resize_first = 1;
/* Create the new cell. */
lcnew = layout_create_cell(lc);
size = saved_size - 1 - new_size;
if (lc->type == LAYOUT_LEFTRIGHT)
layout_set_size(lcnew, size, sy, 0, 0);
else if (lc->type == LAYOUT_TOPBOTTOM)
layout_set_size(lcnew, sx, size, 0, 0);
if (insert_before)
TAILQ_INSERT_HEAD(&lc->cells, lcnew, entry);
else
TAILQ_INSERT_TAIL(&lc->cells, lcnew, entry);
} else {
/*
* Otherwise create a new parent and insert it.
*/
/* Create and insert the replacement parent. */
lcparent = layout_create_cell(lc->parent);
layout_make_node(lcparent, type);
layout_set_size(lcparent, sx, sy, xoff, yoff);
if (lc->parent == NULL)
wp->window->layout_root = lcparent;
else
TAILQ_REPLACE(&lc->parent->cells, lc, lcparent, entry);
/* Insert the old cell. */
lc->parent = lcparent;
TAILQ_INSERT_HEAD(&lcparent->cells, lc, entry);
/* Create the new child cell. */
lcnew = layout_create_cell(lcparent);
if (insert_before)
TAILQ_INSERT_HEAD(&lcparent->cells, lcnew, entry);
else
TAILQ_INSERT_TAIL(&lcparent->cells, lcnew, entry);
}
if (insert_before) {
lc1 = lcnew;
lc2 = lc;
} else {
lc1 = lc;
lc2 = lcnew;
}
/*
* Set new cell sizes. size1 is the size of the top/left and size2 the
* bottom/right.
*/
if (!resize_first && type == LAYOUT_LEFTRIGHT) {
layout_set_size(lc1, size1, sy, xoff, yoff);
layout_set_size(lc2, size2, sy, xoff + lc1->sx + 1, yoff);
} else if (!resize_first && type == LAYOUT_TOPBOTTOM) {
layout_set_size(lc1, sx, size1, xoff, yoff);
layout_set_size(lc2, sx, size2, xoff, yoff + lc1->sy + 1);
}
if (full_size) {
if (!resize_first)
layout_resize_child_cells(wp->window, lc);
layout_fix_offsets(wp->window->layout_root);
} else
layout_make_leaf(lc, wp);
return (lcnew);
}
/* Destroy the cell associated with a pane. */
void
layout_close_pane(struct window_pane *wp)
{
struct window *w = wp->window;
/* Remove the cell. */
layout_destroy_cell(w, wp->layout_cell, &w->layout_root);
/* Fix pane offsets and sizes. */
if (w->layout_root != NULL) {
layout_fix_offsets(w->layout_root);
layout_fix_panes(w, w->sx, w->sy);
}
notify_window("window-layout-changed", w);
}
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