i3/src/util.c

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/*
* vim:ts=8:expandtab
*
* i3 - an improved dynamic tiling window manager
*
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* © 2009 Michael Stapelberg and contributors
*
* See file LICENSE for license information.
*
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* util.c: Utility functions, which can be useful everywhere.
*
*/
#include <sys/wait.h>
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#include <stdarg.h>
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#include <iconv.h>
#if defined(__OpenBSD__)
#include <sys/cdefs.h>
#endif
#include <fcntl.h>
#include "all.h"
//static iconv_t conversion_descriptor = 0;
struct keyvalue_table_head by_parent = TAILQ_HEAD_INITIALIZER(by_parent);
struct keyvalue_table_head by_child = TAILQ_HEAD_INITIALIZER(by_child);
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int min(int a, int b) {
return (a < b ? a : b);
}
int max(int a, int b) {
return (a > b ? a : b);
}
/*
* Updates *destination with new_value and returns true if it was changed or false
* if it was the same
*
*/
bool update_if_necessary(uint32_t *destination, const uint32_t new_value) {
uint32_t old_value = *destination;
return ((*destination = new_value) != old_value);
}
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/*
* The s* functions (safe) are wrappers around malloc, strdup, , which exits if one of
* the called functions returns NULL, meaning that there is no more memory available
*
*/
void *smalloc(size_t size) {
void *result = malloc(size);
exit_if_null(result, "Error: out of memory (malloc(%zd))\n", size);
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return result;
}
void *scalloc(size_t size) {
void *result = calloc(size, 1);
exit_if_null(result, "Error: out of memory (calloc(%zd))\n", size);
return result;
}
void *srealloc(void *ptr, size_t size) {
void *result = realloc(ptr, size);
exit_if_null(result, "Error: out memory (realloc(%zd))\n", size);
return result;
}
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char *sstrdup(const char *str) {
char *result = strdup(str);
exit_if_null(result, "Error: out of memory (strdup())\n");
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return result;
}
#if 0
/*
* The table_* functions emulate the behaviour of libxcb-wm, which in libxcb 0.3.4 suddenly
* vanished. Great.
*
*/
bool table_put(struct keyvalue_table_head *head, uint32_t key, void *value) {
struct keyvalue_element *element = scalloc(sizeof(struct keyvalue_element));
element->key = key;
element->value = value;
TAILQ_INSERT_TAIL(head, element, elements);
return true;
}
void *table_remove(struct keyvalue_table_head *head, uint32_t key) {
struct keyvalue_element *element;
TAILQ_FOREACH(element, head, elements)
if (element->key == key) {
void *value = element->value;
TAILQ_REMOVE(head, element, elements);
free(element);
return value;
}
return NULL;
}
void *table_get(struct keyvalue_table_head *head, uint32_t key) {
struct keyvalue_element *element;
TAILQ_FOREACH(element, head, elements)
if (element->key == key)
return element->value;
return NULL;
}
#endif
/*
* Starts the given application by passing it through a shell. We use double fork
* to avoid zombie processes. As the started applications parent exits (immediately),
* the application is reparented to init (process-id 1), which correctly handles
* childs, so we dont have to do it :-).
*
* The shell is determined by looking for the SHELL environment variable. If it
* does not exist, /bin/sh is used.
*
*/
void start_application(const char *command) {
LOG("executing: %s\n", command);
if (fork() == 0) {
/* Child process */
if (fork() == 0) {
/* Stores the path of the shell */
static const char *shell = NULL;
if (shell == NULL)
if ((shell = getenv("SHELL")) == NULL)
shell = "/bin/sh";
/* This is the child */
execl(shell, shell, "-c", command, (void*)NULL);
/* not reached */
}
exit(0);
}
wait(0);
}
/*
* Checks a generic cookie for errors and quits with the given message if there
* was an error.
*
*/
void check_error(xcb_connection_t *conn, xcb_void_cookie_t cookie, char *err_message) {
xcb_generic_error_t *error = xcb_request_check(conn, cookie);
if (error != NULL) {
fprintf(stderr, "ERROR: %s (X error %d)\n", err_message , error->error_code);
xcb_disconnect(conn);
exit(-1);
}
}
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#if 0
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/*
* Converts the given string to UCS-2 big endian for use with
* xcb_image_text_16(). The amount of real glyphs is stored in real_strlen,
* a buffer containing the UCS-2 encoded string (16 bit per glyph) is
* returned. It has to be freed when done.
*
*/
char *convert_utf8_to_ucs2(char *input, int *real_strlen) {
size_t input_size = strlen(input) + 1;
/* UCS-2 consumes exactly two bytes for each glyph */
int buffer_size = input_size * 2;
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char *buffer = smalloc(buffer_size);
size_t output_size = buffer_size;
/* We need to use an additional pointer, because iconv() modifies it */
char *output = buffer;
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/* We convert the input into UCS-2 big endian */
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if (conversion_descriptor == 0) {
conversion_descriptor = iconv_open("UCS-2BE", "UTF-8");
if (conversion_descriptor == 0) {
fprintf(stderr, "error opening the conversion context\n");
exit(1);
}
}
/* Get the conversion descriptor back to original state */
iconv(conversion_descriptor, NULL, NULL, NULL, NULL);
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/* Convert our text */
int rc = iconv(conversion_descriptor, (void*)&input, &input_size, &output, &output_size);
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if (rc == (size_t)-1) {
perror("Converting to UCS-2 failed");
if (real_strlen != NULL)
*real_strlen = 0;
return NULL;
}
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if (real_strlen != NULL)
*real_strlen = ((buffer_size - output_size) / 2) - 1;
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return buffer;
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}
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/*
* Returns the client which comes next in focus stack (= was selected before) for
* the given container, optionally excluding the given client.
*
*/
Client *get_last_focused_client(xcb_connection_t *conn, Container *container, Client *exclude) {
Client *current;
SLIST_FOREACH(current, &(container->workspace->focus_stack), focus_clients)
if ((current->container == container) && ((exclude == NULL) || (current != exclude)))
return current;
return NULL;
}
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/*
* Sets the given client as focused by updating the data structures correctly,
* updating the X input focus and finally re-decorating both windows (to signalize
* the user the new focus situation)
*
*/
void set_focus(xcb_connection_t *conn, Client *client, bool set_anyways) {
/* The dock window cannot be focused, but enter notifies are still handled correctly */
if (client->dock)
return;
/* Store the old client */
Client *old_client = SLIST_FIRST(&(c_ws->focus_stack));
/* Check if the focus needs to be changed at all */
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if (!set_anyways && (old_client == client))
return;
/* Store current_row/current_col */
c_ws->current_row = current_row;
c_ws->current_col = current_col;
c_ws = client->workspace;
ewmh_update_current_desktop();
/* Load current_col/current_row if we switch to a client without a container */
current_col = c_ws->current_col;
current_row = c_ws->current_row;
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/* Update container */
if (client->container != NULL) {
client->container->currently_focused = client;
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current_col = client->container->col;
current_row = client->container->row;
}
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CLIENT_LOG(client);
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/* Set focus to the entered window, and flush xcb buffer immediately */
xcb_set_input_focus(conn, XCB_INPUT_FOCUS_POINTER_ROOT, client->child, XCB_CURRENT_TIME);
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ewmh_update_active_window(client->child);
//xcb_warp_pointer(conn, XCB_NONE, client->child, 0, 0, 0, 0, 10, 10);
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if (client->container != NULL) {
/* Get the client which was last focused in this particular container, it may be a different
one than old_client */
Client *last_focused = get_last_focused_client(conn, client->container, NULL);
/* In stacking containers, raise the client in respect to the one which was focused before */
if ((client->container->mode == MODE_STACK || client->container->mode == MODE_TABBED) &&
client->container->workspace->fullscreen_client == NULL) {
/* We need to get the client again, this time excluding the current client, because
* we might have just gone into stacking mode and need to raise */
Client *last_focused = get_last_focused_client(conn, client->container, client);
if (last_focused != NULL) {
DLOG("raising above frame %p / child %p\n", last_focused->frame, last_focused->child);
uint32_t values[] = { last_focused->frame, XCB_STACK_MODE_ABOVE };
xcb_configure_window(conn, client->frame, XCB_CONFIG_WINDOW_SIBLING | XCB_CONFIG_WINDOW_STACK_MODE, values);
}
}
/* If it is the same one as old_client, we save us the unnecessary redecorate */
if ((last_focused != NULL) && (last_focused != old_client))
redecorate_window(conn, last_focused);
}
/* If the last client was a floating client, we need to go to the next
* tiling client in stack and re-decorate it. */
if (old_client != NULL && client_is_floating(old_client)) {
DLOG("Coming from floating client, searching next tiling...\n");
Client *current;
SLIST_FOREACH(current, &(client->workspace->focus_stack), focus_clients) {
if (client_is_floating(current))
continue;
DLOG("Found window: %p / child %p\n", current->frame, current->child);
redecorate_window(conn, current);
break;
}
}
SLIST_REMOVE(&(client->workspace->focus_stack), client, Client, focus_clients);
SLIST_INSERT_HEAD(&(client->workspace->focus_stack), client, focus_clients);
/* Clear the urgency flag if set (necessary when i3 sets the flag, for
* example when automatically putting windows on the workspace of their
* leader) */
client->urgent = false;
workspace_update_urgent_flag(client->workspace);
/* If were in stacking mode, this renders the container to update changes in the title
bars and to raise the focused client */
if ((old_client != NULL) && (old_client != client) && !old_client->dock)
redecorate_window(conn, old_client);
/* redecorate_window flushes, so we dont need to */
redecorate_window(conn, client);
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}
/*
* Called when the user switches to another mode or when the container is
* destroyed and thus needs to be cleaned up.
*
*/
void leave_stack_mode(xcb_connection_t *conn, Container *container) {
/* When going out of stacking mode, we need to close the window */
struct Stack_Window *stack_win = &(container->stack_win);
SLIST_REMOVE(&stack_wins, stack_win, Stack_Window, stack_windows);
xcb_free_gc(conn, stack_win->pixmap.gc);
xcb_free_pixmap(conn, stack_win->pixmap.id);
xcb_destroy_window(conn, stack_win->window);
stack_win->rect.width = -1;
stack_win->rect.height = -1;
}
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/*
* Switches the layout of the given container taking care of the necessary house-keeping
*
*/
void switch_layout_mode(xcb_connection_t *conn, Container *container, int mode) {
if (mode == MODE_STACK || mode == MODE_TABBED) {
/* When were already in stacking mode, nothing has to be done */
if ((mode == MODE_STACK && container->mode == MODE_STACK) ||
(mode == MODE_TABBED && container->mode == MODE_TABBED))
return;
if (container->mode == MODE_STACK || container->mode == MODE_TABBED)
goto after_stackwin;
/* When entering stacking mode, we need to open a window on
* which we can draw the title bars of the clients, it has
* height 1 because we dont bother here with calculating the
* correct height - it will be adjusted when rendering anyways.
* Also, we need to use max(width, 1) because windows cannot
* be created with either width == 0 or height == 0. */
Rect rect = {container->x, container->y, max(container->width, 1), 1};
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uint32_t mask = 0;
uint32_t values[2];
/* Dont generate events for our new window, it should *not* be managed */
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mask |= XCB_CW_OVERRIDE_REDIRECT;
values[0] = 1;
/* We want to know when… */
mask |= XCB_CW_EVENT_MASK;
values[1] = XCB_EVENT_MASK_ENTER_WINDOW | /* …mouse is moved into our window */
XCB_EVENT_MASK_BUTTON_PRESS | /* …mouse is pressed */
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XCB_EVENT_MASK_EXPOSURE; /* …our window needs to be redrawn */
struct Stack_Window *stack_win = &(container->stack_win);
stack_win->window = create_window(conn, rect, XCB_WINDOW_CLASS_INPUT_OUTPUT, XCB_CURSOR_LEFT_PTR, false, mask, values);
stack_win->rect.height = 0;
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/* Initialize the entry for our cached pixmap. It will be
* created as soon as its needed (see cached_pixmap_prepare). */
memset(&(stack_win->pixmap), 0, sizeof(struct Cached_Pixmap));
stack_win->pixmap.referred_rect = &stack_win->rect;
stack_win->pixmap.referred_drawable = stack_win->window;
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stack_win->container = container;
SLIST_INSERT_HEAD(&stack_wins, stack_win, stack_windows);
} else {
if (container->mode == MODE_STACK || container->mode == MODE_TABBED)
leave_stack_mode(conn, container);
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}
after_stackwin:
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container->mode = mode;
/* Force reconfiguration of each client */
Client *client;
CIRCLEQ_FOREACH(client, &(container->clients), clients)
client->force_reconfigure = true;
render_layout(conn);
if (container->currently_focused != NULL) {
/* We need to make sure that this client is above *each* of the
* other clients in this container */
Client *last_focused = get_last_focused_client(conn, container, container->currently_focused);
CIRCLEQ_FOREACH(client, &(container->clients), clients) {
if (client == container->currently_focused || client == last_focused)
continue;
DLOG("setting %08x below %08x / %08x\n", client->frame, container->currently_focused->frame);
uint32_t values[] = { container->currently_focused->frame, XCB_STACK_MODE_BELOW };
xcb_configure_window(conn, client->frame,
XCB_CONFIG_WINDOW_SIBLING | XCB_CONFIG_WINDOW_STACK_MODE, values);
}
if (last_focused != NULL) {
DLOG("Putting last_focused directly underneath the currently focused\n");
uint32_t values[] = { container->currently_focused->frame, XCB_STACK_MODE_BELOW };
xcb_configure_window(conn, last_focused->frame,
XCB_CONFIG_WINDOW_SIBLING | XCB_CONFIG_WINDOW_STACK_MODE, values);
}
set_focus(conn, container->currently_focused, true);
}
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}
/*
* Gets the first matching client for the given window class/window title.
* If the paramater specific is set to a specific client, only this one
* will be checked.
*
*/
Client *get_matching_client(xcb_connection_t *conn, const char *window_classtitle,
Client *specific) {
char *to_class, *to_title, *to_title_ucs = NULL;
int to_title_ucs_len = 0;
Client *matching = NULL;
to_class = sstrdup(window_classtitle);
/* If a title was specified, split both strings at the slash */
if ((to_title = strstr(to_class, "/")) != NULL) {
*(to_title++) = '\0';
/* Convert to UCS-2 */
to_title_ucs = convert_utf8_to_ucs2(to_title, &to_title_ucs_len);
}
/* If we were given a specific client we only check if that one matches */
if (specific != NULL) {
if (client_matches_class_name(specific, to_class, to_title, to_title_ucs, to_title_ucs_len))
matching = specific;
goto done;
}
DLOG("Getting clients for class \"%s\" / title \"%s\"\n", to_class, to_title);
Workspace *ws;
TAILQ_FOREACH(ws, workspaces, workspaces) {
if (ws->output == NULL)
continue;
Client *client;
SLIST_FOREACH(client, &(ws->focus_stack), focus_clients) {
DLOG("Checking client with class=%s / %s, name=%s\n", client->window_class_instance,
client->window_class_class, client->name);
if (!client_matches_class_name(client, to_class, to_title, to_title_ucs, to_title_ucs_len))
continue;
matching = client;
goto done;
}
}
done:
free(to_class);
FREE(to_title_ucs);
return matching;
}
#endif
/*
* Goes through the list of arguments (for exec()) and checks if the given argument
* is present. If not, it copies the arguments (because we cannot realloc it) and
* appends the given argument.
*
*/
static char **append_argument(char **original, char *argument) {
int num_args;
for (num_args = 0; original[num_args] != NULL; num_args++) {
DLOG("original argument: \"%s\"\n", original[num_args]);
/* If the argument is already present we return the original pointer */
if (strcmp(original[num_args], argument) == 0)
return original;
}
/* Copy the original array */
char **result = smalloc((num_args+2) * sizeof(char*));
memcpy(result, original, num_args * sizeof(char*));
result[num_args] = argument;
result[num_args+1] = NULL;
return result;
}
#define y(x, ...) yajl_gen_ ## x (gen, ##__VA_ARGS__)
#define ystr(str) yajl_gen_string(gen, (unsigned char*)str, strlen(str))
void store_restart_layout() {
yajl_gen gen = yajl_gen_alloc(NULL, NULL);
dump_node(gen, croot, true);
const unsigned char *payload;
unsigned int length;
y(get_buf, &payload, &length);
char *globbed = glob_path("~/.i3/_restart.json");
int fd = open(globbed, O_WRONLY | O_CREAT | O_TRUNC, S_IRUSR | S_IWUSR);
free(globbed);
if (fd == -1) {
perror("open()");
return;
}
int written = 0;
while (written < length) {
int n = write(fd, payload + written, length - written);
/* TODO: correct error-handling */
if (n == -1) {
perror("write()");
return;
}
if (n == 0) {
printf("write == 0?\n");
return;
}
written += n;
printf("written: %d of %d\n", written, length);
}
close(fd);
printf("layout: %.*s\n", length, payload);
y(free);
}
/*
* Restart i3 in-place
* appends -a to argument list to disable autostart
*
*/
void i3_restart() {
store_restart_layout();
restore_geometry();
//ipc_shutdown();
LOG("restarting \"%s\"...\n", start_argv[0]);
/* make sure -a is in the argument list or append it */
start_argv = append_argument(start_argv, "-a");
execvp(start_argv[0], start_argv);
/* not reached */
}
#if 0
#if defined(__OpenBSD__)
/*
* Taken from FreeBSD
* Find the first occurrence of the byte string s in byte string l.
*
*/
void *memmem(const void *l, size_t l_len, const void *s, size_t s_len) {
register char *cur, *last;
const char *cl = (const char *)l;
const char *cs = (const char *)s;
/* we need something to compare */
if (l_len == 0 || s_len == 0)
return NULL;
/* "s" must be smaller or equal to "l" */
if (l_len < s_len)
return NULL;
/* special case where s_len == 1 */
if (s_len == 1)
return memchr(l, (int)*cs, l_len);
/* the last position where its possible to find "s" in "l" */
last = (char *)cl + l_len - s_len;
for (cur = (char *)cl; cur <= last; cur++)
if (cur[0] == cs[0] && memcmp(cur, cs, s_len) == 0)
return cur;
return NULL;
}
#endif
#endif