/* * 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 #include #include #include #include #include #include #include #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 table’s 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 table’s 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); } } }