swayfx/sway/tree/layout.c

594 lines
16 KiB
C
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#define _POSIX_C_SOURCE 200809L
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#include <ctype.h>
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#include <math.h>
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#include <stdbool.h>
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#include <stdlib.h>
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#include <string.h>
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#include <wlr/types/wlr_output.h>
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#include <wlr/types/wlr_output_layout.h>
#include "sway/container.h"
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#include "sway/layout.h"
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#include "sway/output.h"
#include "sway/view.h"
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#include "sway/input/seat.h"
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#include "list.h"
#include "log.h"
swayc_t root_container;
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static void output_layout_change_notify(struct wl_listener *listener, void *data) {
struct wlr_box *layout_box = wlr_output_layout_get_box(
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root_container.sway_root->output_layout, NULL);
root_container.width = layout_box->width;
root_container.height = layout_box->height;
for (int i = 0 ; i < root_container.children->length; ++i) {
swayc_t *output_container = root_container.children->items[i];
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if (output_container->type != C_OUTPUT) {
continue;
}
struct sway_output *output = output_container->sway_output;
struct wlr_box *output_box = wlr_output_layout_get_box(
root_container.sway_root->output_layout, output->wlr_output);
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if (!output_box) {
continue;
}
output_container->x = output_box->x;
output_container->y = output_box->y;
output_container->width = output_box->width;
output_container->height = output_box->height;
}
arrange_windows(&root_container, -1, -1);
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}
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void init_layout(void) {
root_container.id = 0; // normally assigned in new_swayc()
root_container.type = C_ROOT;
root_container.layout = L_NONE;
root_container.name = strdup("root");
root_container.children = create_list();
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wl_signal_init(&root_container.events.destroy);
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root_container.sway_root = calloc(1, sizeof(*root_container.sway_root));
root_container.sway_root->output_layout = wlr_output_layout_create();
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wl_list_init(&root_container.sway_root->unmanaged_views);
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wl_signal_init(&root_container.sway_root->events.new_container);
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root_container.sway_root->output_layout_change.notify =
output_layout_change_notify;
wl_signal_add(&root_container.sway_root->output_layout->events.change,
&root_container.sway_root->output_layout_change);
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}
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static int index_child(const swayc_t *child) {
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// TODO handle floating
swayc_t *parent = child->parent;
int i, len;
len = parent->children->length;
for (i = 0; i < len; ++i) {
if (parent->children->items[i] == child) {
break;
}
}
if (!sway_assert(i < len, "Stray container")) {
return -1;
}
return i;
}
swayc_t *add_sibling(swayc_t *fixed, swayc_t *active) {
// TODO handle floating
swayc_t *parent = fixed->parent;
int i = index_child(fixed);
list_insert(parent->children, i + 1, active);
active->parent = parent;
return active->parent;
}
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void add_child(swayc_t *parent, swayc_t *child) {
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wlr_log(L_DEBUG, "Adding %p (%d, %fx%f) to %p (%d, %fx%f)",
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child, child->type, child->width, child->height,
parent, parent->type, parent->width, parent->height);
list_add(parent->children, child);
child->parent = parent;
// set focus for this container
/* TODO WLR
if (parent->type == C_WORKSPACE && child->type == C_VIEW && (parent->workspace_layout == L_TABBED || parent->workspace_layout == L_STACKED)) {
child = new_container(child, parent->workspace_layout);
}
*/
}
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swayc_t *remove_child(swayc_t *child) {
int i;
swayc_t *parent = child->parent;
for (i = 0; i < parent->children->length; ++i) {
if (parent->children->items[i] == child) {
list_del(parent->children, i);
break;
}
}
child->parent = NULL;
return parent;
}
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enum swayc_layouts default_layout(swayc_t *output) {
/* TODO WLR
if (config->default_layout != L_NONE) {
//return config->default_layout;
} else if (config->default_orientation != L_NONE) {
return config->default_orientation;
} else */if (output->width >= output->height) {
return L_HORIZ;
} else {
return L_VERT;
}
}
static int sort_workspace_cmp_qsort(const void *_a, const void *_b) {
swayc_t *a = *(void **)_a;
swayc_t *b = *(void **)_b;
int retval = 0;
if (isdigit(a->name[0]) && isdigit(b->name[0])) {
int a_num = strtol(a->name, NULL, 10);
int b_num = strtol(b->name, NULL, 10);
retval = (a_num < b_num) ? -1 : (a_num > b_num);
} else if (isdigit(a->name[0])) {
retval = -1;
} else if (isdigit(b->name[0])) {
retval = 1;
}
return retval;
}
void sort_workspaces(swayc_t *output) {
list_stable_sort(output->children, sort_workspace_cmp_qsort);
}
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static void apply_horiz_layout(swayc_t *container, const double x,
const double y, const double width,
const double height, const int start,
const int end);
static void apply_vert_layout(swayc_t *container, const double x,
const double y, const double width,
const double height, const int start,
const int end);
void arrange_windows(swayc_t *container, double width, double height) {
int i;
if (width == -1 || height == -1) {
width = container->width;
height = container->height;
}
// pixels are indivisible. if we don't round the pixels, then the view
// calculations will be off (e.g. 50.5 + 50.5 = 101, but in reality it's
// 50 + 50 = 100). doing it here cascades properly to all width/height/x/y.
width = floor(width);
height = floor(height);
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wlr_log(L_DEBUG, "Arranging layout for %p %s %fx%f+%f,%f", container,
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container->name, container->width, container->height, container->x,
container->y);
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double x = 0, y = 0;
switch (container->type) {
case C_ROOT:
// TODO: wlr_output_layout probably
for (i = 0; i < container->children->length; ++i) {
swayc_t *output = container->children->items[i];
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wlr_log(L_DEBUG, "Arranging output '%s' at %f,%f",
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output->name, output->x, output->y);
arrange_windows(output, -1, -1);
}
return;
case C_OUTPUT:
{
int _width, _height;
wlr_output_effective_resolution(
container->sway_output->wlr_output, &_width, &_height);
width = container->width = _width;
height = container->height = _height;
}
// arrange all workspaces:
for (i = 0; i < container->children->length; ++i) {
swayc_t *child = container->children->items[i];
arrange_windows(child, -1, -1);
}
return;
case C_WORKSPACE:
{
swayc_t *output = swayc_parent_by_type(container, C_OUTPUT);
struct wlr_box *area = &output->sway_output->usable_area;
wlr_log(L_DEBUG, "Usable area for ws: %dx%d@%d,%d",
area->width, area->height, area->x, area->y);
container->width = area->width;
container->height = area->height;
container->x = x = area->x;
container->y = y = area->y;
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wlr_log(L_DEBUG, "Arranging workspace '%s' at %f, %f",
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container->name, container->x, container->y);
}
// children are properly handled below
break;
case C_VIEW:
{
container->width = width;
container->height = height;
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view_set_size(container->sway_view,
container->width, container->height);
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wlr_log(L_DEBUG, "Set view to %.f x %.f @ %.f, %.f",
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container->width, container->height,
container->x, container->y);
}
return;
default:
container->width = width;
container->height = height;
x = container->x;
y = container->y;
break;
}
switch (container->layout) {
case L_HORIZ:
apply_horiz_layout(container, x, y, width, height, 0,
container->children->length);
break;
case L_VERT:
apply_vert_layout(container, x, y, width, height, 0,
container->children->length);
break;
default:
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wlr_log(L_DEBUG, "TODO: arrange layout type %d", container->layout);
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apply_horiz_layout(container, x, y, width, height, 0,
container->children->length);
break;
}
}
static void apply_horiz_layout(swayc_t *container,
const double x, const double y,
const double width, const double height,
const int start, const int end) {
double scale = 0;
// Calculate total width
for (int i = start; i < end; ++i) {
double *old_width = &((swayc_t *)container->children->items[i])->width;
if (*old_width <= 0) {
if (end - start > 1) {
*old_width = width / (end - start - 1);
} else {
*old_width = width;
}
}
scale += *old_width;
}
scale = width / scale;
// Resize windows
double child_x = x;
if (scale > 0.1) {
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wlr_log(L_DEBUG, "Arranging %p horizontally", container);
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for (int i = start; i < end; ++i) {
swayc_t *child = container->children->items[i];
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wlr_log(L_DEBUG,
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"Calculating arrangement for %p:%d (will scale %f by %f)",
child, child->type, width, scale);
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view_set_position(child->sway_view, child_x, y);
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if (i == end - 1) {
double remaining_width = x + width - child_x;
arrange_windows(child, remaining_width, height);
} else {
arrange_windows(child, child->width * scale, height);
}
child_x += child->width;
}
// update focused view border last because it may
// depend on the title bar geometry of its siblings.
/* TODO WLR
if (focused && container->children->length > 1) {
update_container_border(focused);
}
*/
}
}
void apply_vert_layout(swayc_t *container,
const double x, const double y,
const double width, const double height, const int start,
const int end) {
int i;
double scale = 0;
// Calculate total height
for (i = start; i < end; ++i) {
double *old_height = &((swayc_t *)container->children->items[i])->height;
if (*old_height <= 0) {
if (end - start > 1) {
*old_height = height / (end - start - 1);
} else {
*old_height = height;
}
}
scale += *old_height;
}
scale = height / scale;
// Resize
double child_y = y;
if (scale > 0.1) {
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wlr_log(L_DEBUG, "Arranging %p vertically", container);
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for (i = start; i < end; ++i) {
swayc_t *child = container->children->items[i];
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wlr_log(L_DEBUG,
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"Calculating arrangement for %p:%d (will scale %f by %f)",
child, child->type, height, scale);
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view_set_position(child->sway_view, x, child_y);
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if (i == end - 1) {
double remaining_height = y + height - child_y;
arrange_windows(child, width, remaining_height);
} else {
arrange_windows(child, width, child->height * scale);
}
child_y += child->height;
}
// update focused view border last because it may
// depend on the title bar geometry of its siblings.
/* TODO WLR
if (focused && container->children->length > 1) {
update_container_border(focused);
}
*/
}
}
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/**
* Get swayc in the direction of newly entered output.
*/
static swayc_t *get_swayc_in_output_direction(swayc_t *output,
enum movement_direction dir, struct sway_seat *seat) {
if (!output) {
return NULL;
}
swayc_t *ws = sway_seat_get_focus_inactive(seat, output);
if (ws->type != C_WORKSPACE) {
ws = swayc_parent_by_type(ws, C_WORKSPACE);
}
if (ws == NULL) {
wlr_log(L_ERROR, "got an output without a workspace");
return NULL;
}
if (ws->children->length > 0) {
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switch (dir) {
case MOVE_LEFT:
// get most right child of new output
return ws->children->items[ws->children->length-1];
case MOVE_RIGHT:
// get most left child of new output
return ws->children->items[0];
case MOVE_UP:
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case MOVE_DOWN: {
swayc_t *focused = sway_seat_get_focus_inactive(seat, ws);
if (focused && focused->parent) {
swayc_t *parent = focused->parent;
if (parent->layout == L_VERT) {
if (dir == MOVE_UP) {
// get child furthest down on new output
return parent->children->items[parent->children->length-1];
} else if (dir == MOVE_DOWN) {
// get child furthest up on new output
return parent->children->items[0];
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}
}
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return focused;
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}
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break;
}
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default:
break;
}
}
return ws;
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}
static void get_layout_center_position(swayc_t *container, int *x, int *y) {
// FIXME view coords are inconsistently referred to in layout/output systems
if (container->type == C_OUTPUT) {
*x = container->x + container->width/2;
*y = container->y + container->height/2;
} else {
swayc_t *output = swayc_parent_by_type(container, C_OUTPUT);
if (container->type == C_WORKSPACE) {
// Workspace coordinates are actually wrong/arbitrary, but should
// be same as output.
*x = output->x;
*y = output->y;
} else {
*x = output->x + container->x;
*y = output->y + container->y;
}
}
}
static bool sway_dir_to_wlr(enum movement_direction dir, enum wlr_direction *out) {
switch (dir) {
case MOVE_UP:
*out = WLR_DIRECTION_UP;
break;
case MOVE_DOWN:
*out = WLR_DIRECTION_DOWN;
break;
case MOVE_LEFT:
*out = WLR_DIRECTION_LEFT;
break;
case MOVE_RIGHT:
*out = WLR_DIRECTION_RIGHT;
break;
default:
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return false;
}
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return true;
}
static swayc_t *sway_output_from_wlr(struct wlr_output *output) {
if (output == NULL) {
return NULL;
}
for (int i = 0; i < root_container.children->length; ++i) {
swayc_t *o = root_container.children->items[i];
if (o->type == C_OUTPUT && o->sway_output->wlr_output == output) {
return o;
}
}
return NULL;
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}
static swayc_t *get_swayc_in_direction_under(swayc_t *container,
enum movement_direction dir, struct sway_seat *seat, swayc_t *limit) {
if (dir == MOVE_CHILD) {
return sway_seat_get_focus_inactive(seat, container);
}
swayc_t *parent = container->parent;
if (dir == MOVE_PARENT) {
if (parent->type == C_OUTPUT) {
return NULL;
} else {
return parent;
}
}
if (dir == MOVE_PREV || dir == MOVE_NEXT) {
int focused_idx = index_child(container);
if (focused_idx == -1) {
return NULL;
} else {
int desired = (focused_idx + (dir == MOVE_NEXT ? 1 : -1)) %
parent->children->length;
if (desired < 0) {
desired += parent->children->length;
}
return parent->children->items[desired];
}
}
// If moving to an adjacent output we need a starting position (since this
// output might border to multiple outputs).
//struct wlc_point abs_pos;
//get_layout_center_position(container, &abs_pos);
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// TODO WLR fullscreen
/*
if (container->type == C_VIEW && swayc_is_fullscreen(container)) {
wlr_log(L_DEBUG, "Moving from fullscreen view, skipping to output");
container = swayc_parent_by_type(container, C_OUTPUT);
get_layout_center_position(container, &abs_pos);
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swayc_t *output = swayc_adjacent_output(container, dir, &abs_pos, true);
return get_swayc_in_output_direction(output, dir);
}
if (container->type == C_WORKSPACE && container->fullscreen) {
sway_log(L_DEBUG, "Moving to fullscreen view");
return container->fullscreen;
}
*/
swayc_t *wrap_candidate = NULL;
while (true) {
// Test if we can even make a difference here
bool can_move = false;
int desired;
int idx = index_child(container);
if (parent->type == C_ROOT) {
enum wlr_direction wlr_dir = 0;
if (!sway_assert(sway_dir_to_wlr(dir, &wlr_dir),
"got invalid direction: %d", dir)) {
return NULL;
}
int lx, ly;
get_layout_center_position(container, &lx, &ly);
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struct wlr_output_layout *layout = root_container.sway_root->output_layout;
struct wlr_output *wlr_adjacent =
wlr_output_layout_adjacent_output(layout, wlr_dir,
container->sway_output->wlr_output, lx, ly);
swayc_t *adjacent = sway_output_from_wlr(wlr_adjacent);
if (!adjacent || adjacent == container) {
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return wrap_candidate;
}
swayc_t *next = get_swayc_in_output_direction(adjacent, dir, seat);
if (next == NULL) {
return NULL;
}
if (next->children && next->children->length) {
// TODO consider floating children as well
return sway_seat_get_focus_inactive(seat, next);
} else {
return next;
}
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} else {
if (dir == MOVE_LEFT || dir == MOVE_RIGHT) {
if (parent->layout == L_HORIZ || parent->layout == L_TABBED) {
can_move = true;
desired = idx + (dir == MOVE_LEFT ? -1 : 1);
}
} else {
if (parent->layout == L_VERT || parent->layout == L_STACKED) {
can_move = true;
desired = idx + (dir == MOVE_UP ? -1 : 1);
}
}
}
if (can_move) {
// TODO handle floating
if (desired < 0 || desired >= parent->children->length) {
can_move = false;
int len = parent->children->length;
if (!wrap_candidate && len > 1) {
if (desired < 0) {
wrap_candidate = parent->children->items[len-1];
} else {
wrap_candidate = parent->children->items[0];
}
if (config->force_focus_wrapping) {
return wrap_candidate;
}
}
} else {
wlr_log(L_DEBUG, "%s cont %d-%p dir %i sibling %d: %p", __func__,
idx, container, dir, desired, parent->children->items[desired]);
return parent->children->items[desired];
}
}
if (!can_move) {
container = parent;
parent = parent->parent;
if (!parent || container == limit) {
// wrapping is the last chance
return wrap_candidate;
}
}
}
}
swayc_t *get_swayc_in_direction(swayc_t *container, struct sway_seat *seat,
enum movement_direction dir) {
return get_swayc_in_direction_under(container, dir, seat, NULL);
}