gri3-wm/src/table.c

406 lines
15 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* vim:ts=8:expandtab
*
* i3 - an improved dynamic tiling window manager
*
* © 2009 Michael Stapelberg and contributors
*
* See file LICENSE for license information.
*
* table.c: Functions/macros for easy modifying/accessing of _the_ table (defining our
* layout).
*
*/
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include <unistd.h>
#include <stdbool.h>
#include <assert.h>
#include "data.h"
#include "table.h"
#include "util.h"
#include "i3.h"
#include "layout.h"
#include "config.h"
#include "workspace.h"
int current_workspace = 0;
int num_workspaces = 1;
struct workspaces_head *workspaces;
/* Convenience pointer to the current workspace */
Workspace *c_ws;
int current_col = 0;
int current_row = 0;
/*
* Initialize table
*
*/
void init_table() {
workspaces = scalloc(sizeof(struct workspaces_head));
TAILQ_INIT(workspaces);
c_ws = scalloc(sizeof(Workspace));
workspace_set_name(c_ws, NULL);
TAILQ_INIT(&(c_ws->floating_clients));
TAILQ_INSERT_TAIL(workspaces, c_ws, workspaces);
}
static void new_container(Workspace *workspace, Container **container, int col, int row, bool skip_layout_switch) {
Container *new;
new = *container = calloc(sizeof(Container), 1);
CIRCLEQ_INIT(&(new->clients));
new->colspan = 1;
new->rowspan = 1;
new->col = col;
new->row = row;
new->workspace = workspace;
if (!skip_layout_switch)
switch_layout_mode(global_conn, new, config.container_mode);
new->stack_limit = config.container_stack_limit;
new->stack_limit_value = config.container_stack_limit_value;
}
/*
* Add one row to the table
*
*/
void expand_table_rows(Workspace *workspace) {
workspace->rows++;
workspace->height_factor = realloc(workspace->height_factor, sizeof(float) * workspace->rows);
workspace->height_factor[workspace->rows-1] = 0;
for (int c = 0; c < workspace->cols; c++) {
workspace->table[c] = realloc(workspace->table[c], sizeof(Container*) * workspace->rows);
new_container(workspace, &(workspace->table[c][workspace->rows-1]), c, workspace->rows-1, true);
}
/* We need to switch the layout in a separate step because it could
* happen that render_layout() (being called by switch_layout_mode())
* would access containers which were not yet initialized. */
for (int c = 0; c < workspace->cols; c++)
switch_layout_mode(global_conn, workspace->table[c][workspace->rows-1], config.container_mode);
}
/*
* Adds one row at the head of the table
*
*/
void expand_table_rows_at_head(Workspace *workspace) {
workspace->rows++;
workspace->height_factor = realloc(workspace->height_factor, sizeof(float) * workspace->rows);
LOG("rows = %d\n", workspace->rows);
for (int rows = (workspace->rows - 1); rows >= 1; rows--) {
LOG("Moving height_factor %d (%f) to %d\n", rows-1, workspace->height_factor[rows-1], rows);
workspace->height_factor[rows] = workspace->height_factor[rows-1];
}
workspace->height_factor[0] = 0;
for (int cols = 0; cols < workspace->cols; cols++)
workspace->table[cols] = realloc(workspace->table[cols], sizeof(Container*) * workspace->rows);
/* Move the other rows */
for (int cols = 0; cols < workspace->cols; cols++)
for (int rows = workspace->rows - 1; rows > 0; rows--) {
LOG("Moving row %d to %d\n", rows-1, rows);
workspace->table[cols][rows] = workspace->table[cols][rows-1];
workspace->table[cols][rows]->row = rows;
}
for (int cols = 0; cols < workspace->cols; cols++)
new_container(workspace, &(workspace->table[cols][0]), cols, 0, false);
}
/*
* Add one column to the table
*
*/
void expand_table_cols(Workspace *workspace) {
workspace->cols++;
workspace->width_factor = realloc(workspace->width_factor, sizeof(float) * workspace->cols);
workspace->width_factor[workspace->cols-1] = 0;
workspace->table = realloc(workspace->table, sizeof(Container**) * workspace->cols);
workspace->table[workspace->cols-1] = calloc(sizeof(Container*) * workspace->rows, 1);
for (int c = 0; c < workspace->rows; c++)
new_container(workspace, &(workspace->table[workspace->cols-1][c]), workspace->cols-1, c, true);
for (int c = 0; c < workspace->rows; c++)
switch_layout_mode(global_conn, workspace->table[workspace->cols-1][c], config.container_mode);
}
/*
* Inserts one column at the tables head
*
*/
void expand_table_cols_at_head(Workspace *workspace) {
workspace->cols++;
workspace->width_factor = realloc(workspace->width_factor, sizeof(float) * workspace->cols);
LOG("cols = %d\n", workspace->cols);
for (int cols = (workspace->cols - 1); cols >= 1; cols--) {
LOG("Moving width_factor %d (%f) to %d\n", cols-1, workspace->width_factor[cols-1], cols);
workspace->width_factor[cols] = workspace->width_factor[cols-1];
}
workspace->width_factor[0] = 0;
workspace->table = realloc(workspace->table, sizeof(Container**) * workspace->cols);
workspace->table[workspace->cols-1] = calloc(sizeof(Container*) * workspace->rows, 1);
/* Move the other columns */
for (int rows = 0; rows < workspace->rows; rows++)
for (int cols = workspace->cols - 1; cols > 0; cols--) {
LOG("Moving col %d to %d\n", cols-1, cols);
workspace->table[cols][rows] = workspace->table[cols-1][rows];
workspace->table[cols][rows]->col = cols;
}
for (int rows = 0; rows < workspace->rows; rows++)
new_container(workspace, &(workspace->table[0][rows]), 0, rows, false);
}
/*
* Shrinks the table by one column.
*
* The containers themselves are freed in move_columns_from() or move_rows_from(). Therefore, this
* function may only be called from move_*() or after making sure that the containers are freed
* properly.
*
*/
static void shrink_table_cols(Workspace *workspace) {
float free_space = workspace->width_factor[workspace->cols-1];
workspace->cols--;
/* Shrink the width_factor array */
workspace->width_factor = realloc(workspace->width_factor, sizeof(float) * workspace->cols);
/* Free the container-pointers */
free(workspace->table[workspace->cols]);
/* Re-allocate the table */
workspace->table = realloc(workspace->table, sizeof(Container**) * workspace->cols);
/* Distribute the free space */
if (free_space == 0)
return;
for (int cols = (workspace->cols-1); cols >= 0; cols--) {
if (workspace->width_factor[cols] == 0)
continue;
LOG("Added free space (%f) to %d (had %f)\n", free_space, cols,
workspace->width_factor[cols]);
workspace->width_factor[cols] += free_space;
break;
}
}
/*
* See shrink_table_cols()
*
*/
static void shrink_table_rows(Workspace *workspace) {
float free_space = workspace->height_factor[workspace->rows-1];
workspace->rows--;
for (int cols = 0; cols < workspace->cols; cols++)
workspace->table[cols] = realloc(workspace->table[cols], sizeof(Container*) * workspace->rows);
/* Shrink the height_factor array */
workspace->height_factor = realloc(workspace->height_factor, sizeof(float) * workspace->rows);
/* Distribute the free space */
if (free_space == 0)
return;
for (int rows = (workspace->rows-1); rows >= 0; rows--) {
if (workspace->height_factor[rows] == 0)
continue;
LOG("Added free space (%f) to %d (had %f)\n", free_space, rows,
workspace->height_factor[rows]);
workspace->height_factor[rows] += free_space;
break;
}
}
/*
* Performs simple bounds checking for the given column/row
*
*/
bool cell_exists(Workspace *ws, int col, int row) {
return (col >= 0 && col < ws->cols) &&
(row >= 0 && row < ws->rows);
}
static void free_container(xcb_connection_t *conn, Workspace *workspace, int col, int row) {
Container *old_container = workspace->table[col][row];
if (old_container->mode == MODE_STACK || old_container->mode == MODE_TABBED)
leave_stack_mode(conn, old_container);
free(old_container);
}
static void move_columns_from(xcb_connection_t *conn, Workspace *workspace, int cols) {
LOG("firstly freeing \n");
/* Free the columns which are cleaned up */
for (int rows = 0; rows < workspace->rows; rows++)
free_container(conn, workspace, cols-1, rows);
for (; cols < workspace->cols; cols++)
for (int rows = 0; rows < workspace->rows; rows++) {
LOG("at col = %d, row = %d\n", cols, rows);
Container *new_container = workspace->table[cols][rows];
LOG("moving cols = %d to cols -1 = %d\n", cols, cols-1);
workspace->table[cols-1][rows] = new_container;
new_container->row = rows;
new_container->col = cols-1;
}
}
static void move_rows_from(xcb_connection_t *conn, Workspace *workspace, int rows) {
for (int cols = 0; cols < workspace->cols; cols++)
free_container(conn, workspace, cols, rows-1);
for (; rows < workspace->rows; rows++)
for (int cols = 0; cols < workspace->cols; cols++) {
Container *new_container = workspace->table[cols][rows];
LOG("moving rows = %d to rows -1 = %d\n", rows, rows - 1);
workspace->table[cols][rows-1] = new_container;
new_container->row = rows-1;
new_container->col = cols;
}
}
/*
* Prints the tables contents in human-readable form for debugging
*
*/
void dump_table(xcb_connection_t *conn, Workspace *workspace) {
LOG("dump_table()\n");
FOR_TABLE(workspace) {
Container *con = workspace->table[cols][rows];
LOG("----\n");
LOG("at col=%d, row=%d\n", cols, rows);
LOG("currently_focused = %p\n", con->currently_focused);
Client *loop;
CIRCLEQ_FOREACH(loop, &(con->clients), clients) {
LOG("got client %08x / %s\n", loop->child, loop->name);
}
LOG("----\n");
}
LOG("done\n");
}
/*
* Shrinks the table by "compacting" it, that is, removing completely empty rows/columns
*
*/
void cleanup_table(xcb_connection_t *conn, Workspace *workspace) {
LOG("cleanup_table()\n");
/* Check for empty columns if we got more than one column */
for (int cols = 0; (workspace->cols > 1) && (cols < workspace->cols);) {
bool completely_empty = true;
for (int rows = 0; rows < workspace->rows; rows++)
if (workspace->table[cols][rows]->currently_focused != NULL) {
completely_empty = false;
break;
}
if (completely_empty) {
LOG("Removing completely empty column %d\n", cols);
if (cols < (workspace->cols - 1))
move_columns_from(conn, workspace, cols+1);
else {
for (int rows = 0; rows < workspace->rows; rows++)
free_container(conn, workspace, cols, rows);
}
shrink_table_cols(workspace);
if (workspace->current_col >= workspace->cols)
workspace->current_col = workspace->cols - 1;
} else cols++;
}
/* Check for empty rows if we got more than one row */
for (int rows = 0; (workspace->rows > 1) && (rows < workspace->rows);) {
bool completely_empty = true;
LOG("Checking row %d\n", rows);
for (int cols = 0; cols < workspace->cols; cols++)
if (workspace->table[cols][rows]->currently_focused != NULL) {
completely_empty = false;
break;
}
if (completely_empty) {
LOG("Removing completely empty row %d\n", rows);
if (rows < (workspace->rows - 1))
move_rows_from(conn, workspace, rows+1);
else {
for (int cols = 0; cols < workspace->cols; cols++)
free_container(conn, workspace, cols, rows);
}
shrink_table_rows(workspace);
if (workspace->current_row >= workspace->rows)
workspace->current_row = workspace->rows - 1;
} else rows++;
}
/* Boundary checking for current_col and current_row */
if (current_col >= c_ws->cols)
current_col = c_ws->cols-1;
if (current_row >= c_ws->rows)
current_row = c_ws->rows-1;
if (CUR_CELL->currently_focused != NULL)
set_focus(conn, CUR_CELL->currently_focused, true);
}
/*
* Fixes col/rowspan (makes sure there are no overlapping windows, obeys borders).
*
*/
void fix_colrowspan(xcb_connection_t *conn, Workspace *workspace) {
LOG("Fixing col/rowspan\n");
FOR_TABLE(workspace) {
Container *con = workspace->table[cols][rows];
if (con->colspan > 1) {
LOG("gots one with colspan %d (at %d c, %d r)\n", con->colspan, cols, rows);
while (con->colspan > 1 &&
(!cell_exists(workspace, cols + (con->colspan-1), rows) &&
workspace->table[cols + (con->colspan - 1)][rows]->currently_focused != NULL))
con->colspan--;
LOG("fixed it to %d\n", con->colspan);
}
if (con->rowspan > 1) {
LOG("gots one with rowspan %d (at %d c, %d r)\n", con->rowspan, cols, rows);
while (con->rowspan > 1 &&
(!cell_exists(workspace, cols, rows + (con->rowspan - 1)) &&
workspace->table[cols][rows + (con->rowspan - 1)]->currently_focused != NULL))
con->rowspan--;
LOG("fixed it to %d\n", con->rowspan);
}
}
}