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#include <errno.h>
#include <math.h>
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include <wlc/wlc.h>
#include "sway/commands.h"
#include "sway/layout.h"
#include "sway/focus.h"
#include "sway/input_state.h"
#include "sway/handlers.h"
#include "log.h"
enum resize_dim_types {
RESIZE_DIM_PX,
RESIZE_DIM_PPT,
RESIZE_DIM_DEFAULT,
};
static bool set_size_floating(int new_dimension, bool use_width) {
swayc_t *view = get_focused_float(swayc_active_workspace());
if (view) {
if (use_width) {
int current_width = view->width;
view->desired_width = new_dimension;
floating_view_sane_size(view);
int new_x = view->x + (int)(((view->desired_width - current_width) / 2) * -1);
view->width = view->desired_width;
view->x = new_x;
update_geometry(view);
} else {
int current_height = view->height;
view->desired_height = new_dimension;
floating_view_sane_size(view);
int new_y = view->y + (int)(((view->desired_height - current_height) / 2) * -1);
view->height = view->desired_height;
view->y = new_y;
update_geometry(view);
}
return true;
}
return false;
}
static bool resize_floating(int amount, bool use_width) {
swayc_t *view = get_focused_float(swayc_active_workspace());
if (view) {
if (use_width) {
return set_size_floating(view->width + amount, true);
} else {
return set_size_floating(view->height + amount, false);
}
}
return false;
}
/**
* returns the index of the container's child that is first in a group.
* This index is > to the <after> argument.
* This makes the function usable to walk through the groups in a container.
*/
static int next_group_index(swayc_t *container, int after) {
if (after < 0) {
return 0;
} else if (is_auto_layout(container->layout)) {
if ((uint_fast32_t) after < container->nb_master) {
return container->nb_master;
} else {
uint_fast32_t grp_idx = 0;
for (int i = container->nb_master; i < container->children->length; ) {
uint_fast32_t grp_sz = (container->children->length - i) /
(container->nb_slave_groups - grp_idx);
if (after - i < (int) grp_sz) {
return i + grp_sz;
}
i += grp_sz;
}
return container->children->length;
}
} else {
// return after + 1;
return container->children->length;
}
}
/**
* Return the number of children in the slave groups. This corresponds to the children
* that are not members of the master group.
*/
static inline uint_fast32_t slave_count(swayc_t *container) {
return container->children->length - container->nb_master;
}
/**
* given the index of a container's child, return the index of the first child of the group
* which index is a member of.
*/
static int group_start_index(swayc_t *container, int index) {
if (index < 0 || ! is_auto_layout(container->layout) || (uint_fast32_t) index < container->nb_master) {
return 0;
} else {
uint_fast32_t grp_sz = slave_count(container) / container->nb_slave_groups;
uint_fast32_t remainder = slave_count(container) % container->nb_slave_groups;
if ((index - container->nb_master) / grp_sz < container->nb_slave_groups - remainder) {
return ((index - container->nb_master) / grp_sz) * grp_sz + container->nb_master;
} else {
int idx2 = (container->nb_slave_groups - remainder) * grp_sz + container->nb_master;
return idx2 + ((idx2 - index) / (grp_sz + 1)) * (grp_sz + 1);
}
}
}
/**
* given the index of a container's child, return the index of the first child of the group
* that follows the one which index is a member of.
*/
static int group_end_index(swayc_t *container, int index) {
if (index < 0 || ! is_auto_layout(container->layout)) {
return container->children->length;
} else {
uint_fast32_t grp_sz = slave_count(container) / container->nb_slave_groups;
uint_fast32_t remainder = slave_count(container) % container->nb_slave_groups;
if ((index - container->nb_master) / grp_sz < container->nb_slave_groups - remainder) {
return ((index - container->nb_master) / grp_sz + 1) * grp_sz + container->nb_master;
} else {
int idx2 = (container->nb_slave_groups - remainder) * grp_sz + container->nb_master;
return idx2 + ((idx2 - index) / (grp_sz + 1) + 1) * (grp_sz + 1);
}
}
}
/**
* Return the combined number of master and slave groups in the container.
*/
static inline uint_fast32_t group_count(swayc_t *container) {
return MIN(container->nb_slave_groups, slave_count(container)) + (container->nb_master ? 1 : 0);
}
/**
* return the index of the Group containing <index>th child of <container>.
* The index is the order of the group along the container's major axis (starting at 0).
*/
static uint_fast32_t group_index(swayc_t *container, int index) {
bool master_first = (container->layout == L_AUTO_LEFT || container->layout == L_AUTO_TOP);
int nb_slaves = slave_count(container);
if (index < (int) container->nb_master) {
if (master_first || nb_slaves <= 0) {
return 0;
} else {
return MIN(container->nb_slave_groups, nb_slaves);
}
} else {
uint_fast32_t grp_idx = 0;
for (int i = container->nb_master; i < container->children->length; ) {
uint_fast32_t grp_sz = (container->children->length - i) /
(container->nb_slave_groups - grp_idx);
if (index - i < (int) grp_sz) {
break;
}
}
return grp_idx + (master_first ? 1 : 0);
}
}
static bool resize_tiled(int amount, bool use_width) {
swayc_t *container = get_focused_view(swayc_active_workspace());
swayc_t *parent = container->parent;
int idx_focused = 0;
bool use_major = false;
uint_fast32_t nb_before = 0;
uint_fast32_t nb_after = 0;
// 1. Identify a container ancestor that will allow the focused child to grow in the requested
// direction.
while (container->parent) {
parent = container->parent;
if ((parent->children && parent->children->length > 1) &&
(is_auto_layout(parent->layout) || (use_width ? parent->layout == L_HORIZ :
parent->layout == L_VERT))) {
// check if container has siblings that can provide/absorb the space needed for
// the resize operation.
use_major = use_width
? parent->layout == L_AUTO_LEFT || parent->layout == L_AUTO_RIGHT
: parent->layout == L_AUTO_TOP || parent->layout == L_AUTO_BOTTOM;
// Note: use_major will be false for L_HORIZ and L_VERT
idx_focused = index_child(container);
if (idx_focused < 0) {
sway_log(L_ERROR, "Something weird is happening, child container not "
"present in its parent's children list.");
continue;
}
if (use_major) {
nb_before = group_index(parent, idx_focused);
nb_after = group_count(parent) - nb_before - 1;
} else {
nb_before = idx_focused - group_start_index(parent, idx_focused);
nb_after = next_group_index(parent, idx_focused) - idx_focused - 1;
}
if (nb_before || nb_after) {
break;
}
}
container = parent; /* continue up the tree to the next ancestor */
}
if (parent == &root_container) {
return true;
}
sway_log(L_DEBUG, "Found the proper parent: %p. It has %" PRIuFAST32 " before conts, and %"
PRIuFAST32 " after conts", parent, nb_before, nb_after);
// 2. Ensure that the resize operation will not make one of the resized containers drop
// below the "sane" size threshold.
bool valid = true;
swayc_t *focused = parent->children->items[idx_focused];
int start = use_major ? 0 : group_start_index(parent, idx_focused);
int end = use_major ? parent->children->length : group_end_index(parent, idx_focused);
for (int i = start; i < end; ) {
swayc_t *sibling = parent->children->items[i];
double pixels = amount;
bool is_before = use_width ? sibling->x < focused->x : sibling->y < focused->y;
bool is_after = use_width ? sibling->x > focused->x : sibling->y > focused->y;
if (is_before || is_after) {
pixels = -pixels;
pixels /= is_before ? nb_before : nb_after;
if (nb_after != 0 && nb_before != 0) {
pixels /= 2;
}
}
if (use_width ?
sibling->width + pixels < min_sane_w :
sibling->height + pixels < min_sane_h) {
valid = false;
break;
}
i = use_major ? next_group_index(parent, i) : (i + 1);
}
// 3. Apply the size change
if (valid) {
for (int i = 0; i < parent->children->length; ++i) {
swayc_t *sibling = parent->children->items[i];
double pixels = amount;
bool is_before = use_width ? sibling->x < focused->x : sibling->y < focused->y;
bool is_after = use_width ? sibling->x > focused->x : sibling->y > focused->y;
if (is_before || is_after) {
pixels = -pixels;
pixels /= is_before ? nb_before : nb_after;
if (nb_after != 0 && nb_before != 0) {
pixels /= 2;
}
sway_log(L_DEBUG, "%p: %s", sibling, is_before ? "before" : "after");
recursive_resize(sibling, pixels,
use_width ?
(is_before ? WLC_RESIZE_EDGE_RIGHT : WLC_RESIZE_EDGE_LEFT) :
(is_before ? WLC_RESIZE_EDGE_BOTTOM : WLC_RESIZE_EDGE_TOP));
} else {
sway_log(L_DEBUG, "%p: same pos", sibling);
recursive_resize(sibling, pixels,
use_width ? WLC_RESIZE_EDGE_LEFT : WLC_RESIZE_EDGE_TOP);
recursive_resize(sibling, pixels,
use_width ? WLC_RESIZE_EDGE_RIGHT : WLC_RESIZE_EDGE_BOTTOM);
}
}
// Recursive resize does not handle positions, let arrange_windows
// take care of that.
arrange_windows(swayc_active_workspace(), -1, -1);
}
return true;
}
static bool set_size_tiled(int amount, bool use_width) {
int desired;
swayc_t *focused = get_focused_view(swayc_active_workspace());
if (use_width) {
desired = amount - focused->width;
} else {
desired = amount - focused->height;
}
return resize_tiled(desired, use_width);
}
static bool set_size(int dimension, bool use_width) {
swayc_t *focused = get_focused_view_include_floating(swayc_active_workspace());
if (focused) {
if (focused->is_floating) {
return set_size_floating(dimension, use_width);
} else {
return set_size_tiled(dimension, use_width);
}
}
return false;
}
static bool resize(int dimension, bool use_width, enum resize_dim_types dim_type) {
swayc_t *focused = get_focused_view_include_floating(swayc_active_workspace());
// translate "10 ppt" (10%) to appropriate # of pixels in case we need it
float ppt_dim = (float)dimension / 100;
if (use_width) {
ppt_dim = focused->width * ppt_dim;
} else {
ppt_dim = focused->height * ppt_dim;
}
if (focused) {
if (focused->is_floating) {
// floating view resize dimensions should default to px, so only
// use ppt if specified
if (dim_type == RESIZE_DIM_PPT) {
dimension = (int)ppt_dim;
}
return resize_floating(dimension, use_width);
} else {
// tiled view resize dimensions should default to ppt, so only use
// px if specified
if (dim_type != RESIZE_DIM_PX) {
dimension = (int)ppt_dim;
}
return resize_tiled(dimension, use_width);
}
}
return false;
}
static struct cmd_results *cmd_resize_set(int argc, char **argv) {
struct cmd_results *error = NULL;
if ((error = checkarg(argc, "resize set", EXPECTED_AT_LEAST, 2))) {
return error;
}
if (strcasecmp(argv[0], "width") == 0 || strcasecmp(argv[0], "height") == 0) {
// handle `reset set width 100 px height 100 px` syntax, also allows
// specifying only one dimension for a `resize set`
int cmd_num = 0;
int dim;
while ((cmd_num + 1) < argc) {
dim = (int)strtol(argv[cmd_num + 1], NULL, 10);
if (errno == ERANGE || dim == 0) {
errno = 0;
return cmd_results_new(CMD_INVALID, "resize set",
"Expected 'resize set <width|height> <amount> [px] [<width|height> <amount> [px]]'");
}
if (strcasecmp(argv[cmd_num], "width") == 0) {
set_size(dim, true);
} else if (strcasecmp(argv[cmd_num], "height") == 0) {
set_size(dim, false);
} else {
return cmd_results_new(CMD_INVALID, "resize set",
"Expected 'resize set <width|height> <amount> [px] [<width|height> <amount> [px]]'");
}
cmd_num += 2;
if (cmd_num < argc && strcasecmp(argv[cmd_num], "px") == 0) {
// if this was `resize set width 400 px height 300 px`, disregard the `px` arg
cmd_num++;
}
}
} else {
// handle `reset set 100 px 100 px` syntax
int width = (int)strtol(argv[0], NULL, 10);
if (errno == ERANGE || width == 0) {
errno = 0;
return cmd_results_new(CMD_INVALID, "resize set",
"Expected 'resize set <width> [px] <height> [px]'");
}
int height_arg = 1;
if (strcasecmp(argv[1], "px") == 0) {
height_arg = 2;
}
int height = (int)strtol(argv[height_arg], NULL, 10);
if (errno == ERANGE || height == 0) {
errno = 0;
return cmd_results_new(CMD_INVALID, "resize set",
"Expected 'resize set <width> [px] <height> [px]'");
}
set_size(width, true);
set_size(height, false);
}
return cmd_results_new(CMD_SUCCESS, NULL, NULL);
}
struct cmd_results *cmd_resize(int argc, char **argv) {
struct cmd_results *error = NULL;
if (config->reading) return cmd_results_new(CMD_FAILURE, "resize", "Can't be used in config file.");
if (!config->active) return cmd_results_new(CMD_FAILURE, "resize", "Can only be used when sway is running.");
if (strcasecmp(argv[0], "set") == 0) {
return cmd_resize_set(argc - 1, &argv[1]);
}
if ((error = checkarg(argc, "resize", EXPECTED_AT_LEAST, 2))) {
return error;
}
int dim_arg = argc - 1;
enum resize_dim_types dim_type = RESIZE_DIM_DEFAULT;
if (strcasecmp(argv[dim_arg], "ppt") == 0) {
dim_type = RESIZE_DIM_PPT;
dim_arg--;
} else if (strcasecmp(argv[dim_arg], "px") == 0) {
dim_type = RESIZE_DIM_PX;
dim_arg--;
}
int amount = (int)strtol(argv[dim_arg], NULL, 10);
if (errno == ERANGE || amount == 0) {
errno = 0;
amount = 10; // this is the default resize dimension used by i3 for both px and ppt
sway_log(L_DEBUG, "Tried to get resize dimension out of '%s' but failed; setting dimension to default %d",
argv[dim_arg], amount);
}
bool use_width = false;
if (strcasecmp(argv[1], "width") == 0) {
use_width = true;
} else if (strcasecmp(argv[1], "height") != 0) {
return cmd_results_new(CMD_INVALID, "resize",
"Expected 'resize <shrink|grow> <width|height> [<amount>] [px|ppt]'");
}
if (strcasecmp(argv[0], "shrink") == 0) {
amount *= -1;
} else if (strcasecmp(argv[0], "grow") != 0) {
return cmd_results_new(CMD_INVALID, "resize",
"Expected 'resize <shrink|grow> <width|height> [<amount>] [px|ppt]'");
}
resize(amount, use_width, dim_type);
return cmd_results_new(CMD_SUCCESS, NULL, NULL);
}
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