Fixed overflow and underflow bugs when resizing.

This commit is contained in:
Fernando Tarlá Cardoso Lemos 2010-09-12 16:17:21 -03:00 committed by Michael Stapelberg
parent 182256bf71
commit b1060ff938
2 changed files with 34 additions and 157 deletions

View File

@ -39,13 +39,12 @@
*/ */
int get_unoccupied_x(Workspace *workspace) { int get_unoccupied_x(Workspace *workspace) {
double unoccupied = workspace->rect.width; double unoccupied = workspace->rect.width;
double default_factor = ((float)workspace->rect.width / workspace->cols) / workspace->rect.width; double default_factor = 1.0 / workspace->cols;
DLOG("get_unoccupied_x(), starting with %f, default_factor = %f\n", unoccupied, default_factor); DLOG("get_unoccupied_x(), starting with %f, default_factor = %f\n", unoccupied, default_factor);
for (int cols = 0; cols < workspace->cols; cols++) { for (int cols = 0; cols < workspace->cols; cols++) {
DLOG("width_factor[%d] = %f, unoccupied = %f\n", cols, workspace->width_factor[cols], unoccupied); DLOG("width_factor[%d] = %f, unoccupied = %f\n", cols, workspace->width_factor[cols], unoccupied);
if (workspace->width_factor[cols] == 0) if (workspace->width_factor[cols] == 0)
unoccupied -= workspace->rect.width * default_factor; unoccupied -= workspace->rect.width * default_factor;
} }
@ -58,7 +57,7 @@ int get_unoccupied_x(Workspace *workspace) {
int get_unoccupied_y(Workspace *workspace) { int get_unoccupied_y(Workspace *workspace) {
int height = workspace_height(workspace); int height = workspace_height(workspace);
double unoccupied = height; double unoccupied = height;
double default_factor = ((float)height / workspace->rows) / height; double default_factor = 1.0 / workspace->rows;
DLOG("get_unoccupied_y(), starting with %f, default_factor = %f\n", unoccupied, default_factor); DLOG("get_unoccupied_y(), starting with %f, default_factor = %f\n", unoccupied, default_factor);

View File

@ -155,6 +155,32 @@ int resize_graphical_handler(xcb_connection_t *conn, Workspace *ws, int first, i
return 1; return 1;
} }
/*
* Adjusts the container size factors according to the resizing parameters.
* This is an abstraction used by resize_container.
*/
static void adjust_container_factors(float *factors, int ws_size, int unoccupied_size,
int num_items, int first, int second, int pixels) {
/* Find the current sizes */
int sizes[num_items];
for (int i = 0; i < num_items; ++i)
sizes[i] = factors[i] == 0 ? ws_size / num_items : unoccupied_size * factors[i];
/* Adjust them */
sizes[first] += pixels;
sizes[second] -= pixels;
/* Calculate the new unoccupied size */
if (factors[first] == 0) unoccupied_size += ws_size / num_items;
if (factors[second] == 0) unoccupied_size += ws_size / num_items;
/* Calculate the new factors */
for (int i = 0; i < num_items; ++i) {
if (factors[i] != 0 || i == first || i == second)
factors[i] = (float)sizes[i] / unoccupied_size;
}
}
/* /*
* Resizes a column/row by the given amount of pixels. Called by * Resizes a column/row by the given amount of pixels. Called by
* resize_graphical_handler (the user clicked) or parse_resize_command (the * resize_graphical_handler (the user clicked) or parse_resize_command (the
@ -163,161 +189,13 @@ int resize_graphical_handler(xcb_connection_t *conn, Workspace *ws, int first, i
*/ */
void resize_container(xcb_connection_t *conn, Workspace *ws, int first, int second, void resize_container(xcb_connection_t *conn, Workspace *ws, int first, int second,
resize_orientation_t orientation, int pixels) { resize_orientation_t orientation, int pixels) {
/* TODO: refactor this, both blocks are very identical */
if (orientation == O_VERTICAL) { if (orientation == O_VERTICAL) {
int default_width = ws->rect.width / ws->cols; adjust_container_factors(ws->width_factor, ws->rect.width,
int old_unoccupied_x = get_unoccupied_x(ws); get_unoccupied_x(ws), ws->cols, first, second, pixels);
/* We pre-calculate the unoccupied space to see if we need to adapt sizes before
* doing the resize */
int new_unoccupied_x = old_unoccupied_x;
if (old_unoccupied_x == 0)
old_unoccupied_x = ws->rect.width;
if (ws->width_factor[first] == 0)
new_unoccupied_x += default_width;
if (ws->width_factor[second] == 0)
new_unoccupied_x += default_width;
DLOG("\n\n\n");
DLOG("old = %d, new = %d\n", old_unoccupied_x, new_unoccupied_x);
int cols_without_wf = 0;
int old_width, old_second_width;
for (int col = 0; col < ws->cols; col++)
if (ws->width_factor[col] == 0)
cols_without_wf++;
DLOG("old_unoccupied_x = %d\n", old_unoccupied_x);
DLOG("Updating first (before = %f)\n", ws->width_factor[first]);
/* Convert 0 (for default width_factor) to actual numbers */
if (ws->width_factor[first] == 0)
old_width = (old_unoccupied_x / max(cols_without_wf, 1));
else old_width = ws->width_factor[first] * old_unoccupied_x;
DLOG("second (before = %f)\n", ws->width_factor[second]);
if (ws->width_factor[second] == 0)
old_second_width = (old_unoccupied_x / max(cols_without_wf, 1));
else old_second_width = ws->width_factor[second] * old_unoccupied_x;
DLOG("middle = %f\n", ws->width_factor[first]);
/* If the space used for customly resized columns has changed we need to adapt the
* other customly resized columns, if any */
if (new_unoccupied_x != old_unoccupied_x)
for (int col = 0; col < ws->cols; col++) {
if (ws->width_factor[col] == 0)
continue;
DLOG("Updating other column (%d) (current width_factor = %f)\n", col, ws->width_factor[col]);
ws->width_factor[col] = (ws->width_factor[col] * old_unoccupied_x) / new_unoccupied_x;
DLOG("to %f\n", ws->width_factor[col]);
} }
else {
DLOG("Updating first (before = %f)\n", ws->width_factor[first]); adjust_container_factors(ws->height_factor, workspace_height(ws),
/* Convert 0 (for default width_factor) to actual numbers */ get_unoccupied_y(ws), ws->rows, first, second, pixels);
if (ws->width_factor[first] == 0)
ws->width_factor[first] = ((float)ws->rect.width / ws->cols) / new_unoccupied_x;
DLOG("first->width = %d, pixels = %d\n", old_width, pixels);
ws->width_factor[first] *= (float)(old_width + pixels) / old_width;
DLOG("-> %f\n", ws->width_factor[first]);
DLOG("Updating second (before = %f)\n", ws->width_factor[second]);
if (ws->width_factor[second] == 0)
ws->width_factor[second] = ((float)ws->rect.width / ws->cols) / new_unoccupied_x;
DLOG("middle = %f\n", ws->width_factor[second]);
DLOG("second->width = %d, pixels = %d\n", old_second_width, pixels);
ws->width_factor[second] *= (float)(old_second_width - pixels) / old_second_width;
DLOG("-> %f\n", ws->width_factor[second]);
DLOG("new unoccupied_x = %d\n", get_unoccupied_x(ws));
DLOG("\n\n\n");
} else {
int ws_height = workspace_height(ws);
int default_height = ws_height / ws->rows;
int old_unoccupied_y = get_unoccupied_y(ws);
/* We pre-calculate the unoccupied space to see if we need to adapt sizes before
* doing the resize */
int new_unoccupied_y = old_unoccupied_y;
if (old_unoccupied_y == 0)
old_unoccupied_y = ws_height;
if (ws->height_factor[first] == 0)
new_unoccupied_y += default_height;
if (ws->height_factor[second] == 0)
new_unoccupied_y += default_height;
int cols_without_hf = 0;
int old_height, old_second_height;
for (int row = 0; row < ws->rows; row++)
if (ws->height_factor[row] == 0)
cols_without_hf++;
DLOG("old_unoccupied_y = %d\n", old_unoccupied_y);
DLOG("Updating first (before = %f)\n", ws->height_factor[first]);
/* Convert 0 (for default width_factor) to actual numbers */
if (ws->height_factor[first] == 0)
old_height = (old_unoccupied_y / max(cols_without_hf, 1));
else old_height = ws->height_factor[first] * old_unoccupied_y;
DLOG("second (before = %f)\n", ws->height_factor[second]);
if (ws->height_factor[second] == 0)
old_second_height = (old_unoccupied_y / max(cols_without_hf, 1));
else old_second_height = ws->height_factor[second] * old_unoccupied_y;
DLOG("middle = %f\n", ws->height_factor[first]);
DLOG("\n\n\n");
DLOG("old = %d, new = %d\n", old_unoccupied_y, new_unoccupied_y);
/* If the space used for customly resized columns has changed we need to adapt the
* other customly resized columns, if any */
if (new_unoccupied_y != old_unoccupied_y)
for (int row = 0; row < ws->rows; row++) {
if (ws->height_factor[row] == 0)
continue;
DLOG("Updating other column (%d) (current width_factor = %f)\n", row, ws->height_factor[row]);
ws->height_factor[row] = (ws->height_factor[row] * old_unoccupied_y) / new_unoccupied_y;
DLOG("to %f\n", ws->height_factor[row]);
}
DLOG("Updating first (before = %f)\n", ws->height_factor[first]);
/* Convert 0 (for default width_factor) to actual numbers */
if (ws->height_factor[first] == 0)
ws->height_factor[first] = ((float)ws_height / ws->rows) / new_unoccupied_y;
DLOG("first->width = %d, pixels = %d\n", old_height, pixels);
ws->height_factor[first] *= (float)(old_height + pixels) / old_height;
DLOG("-> %f\n", ws->height_factor[first]);
DLOG("Updating second (before = %f)\n", ws->height_factor[second]);
if (ws->height_factor[second] == 0)
ws->height_factor[second] = ((float)ws_height / ws->rows) / new_unoccupied_y;
DLOG("middle = %f\n", ws->height_factor[second]);
DLOG("second->width = %d, pixels = %d\n", old_second_height, pixels);
ws->height_factor[second] *= (float)(old_second_height - pixels) / old_second_height;
DLOG("-> %f\n", ws->height_factor[second]);
DLOG("new unoccupied_y = %d\n", get_unoccupied_y(ws));
DLOG("\n\n\n");
} }
render_layout(conn); render_layout(conn);