wmii/cmd/wm/mouse.c
Anselm R. Garbe f478c7f6d2 removed option to disable client bars, we don't allow that in the future because of intelligent stacks,
also removed option for per-client based border width, unnecessary bloat nobody really needs
2006-02-24 10:38:48 +01:00

651 lines
18 KiB
C

/*
* (C)opyright MMIV-MMVI Anselm R. Garbe <garbeam at gmail dot com>
* See LICENSE file for license details.
*/
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "wm.h"
Cursor
cursor_for_motion(Client *c, int x, int y)
{
int n, e, w, s, tn, te, tw, ts;
unsigned int bh, bw;
bw = def.border;
bh = bar_height();
if(!bw)
return normal_cursor;
/* rectangle attributes of client are used */
w = x < bw;
e = x >= c->frame.rect.width - bw;
n = y < bw;
s = y >= c->frame.rect.height - bw;
tw = x < (bh ? bh : 2 * bw);
te = x > c->frame.rect.width - (bh ? bh : 2 * bw);
tn = y < (bh ? bh : 2 * bw);
ts = s > c->frame.rect.height - (bh ? bh : 2 * bw);
if((w && n) || (w && tn) || (n && tw))
return nw_cursor;
else if((e && n) || (e && tn) || (n && te))
return ne_cursor;
else if((w && s) || (w && ts) || (s && tw))
return sw_cursor;
else if((e && s) || (e && ts) || (s && te))
return se_cursor;
else if(w)
return w_cursor;
else if(e)
return e_cursor;
else if(n)
return n_cursor;
else if(s)
return s_cursor;
return normal_cursor;
}
Align
xy_to_align(XRectangle * rect, int x, int y)
{
int w = x <= rect->x + rect->width / 2;
int n = y <= rect->y + rect->height / 2;
int e = x > rect->x + rect->width / 2;
int s = y > rect->y + rect->height / 2;
int nw = w && n;
int ne = e && n;
int sw = w && s;
int se = e && s;
if(nw)
return NWEST;
else if(ne)
return NEAST;
else if(se)
return SEAST;
else if(sw)
return SWEST;
else if(w)
return WEST;
else if(e)
return EAST;
else if(n)
return NORTH;
else if(s)
return SOUTH;
return CENTER;
}
Align
cursor_to_align(Cursor cursor)
{
if(cursor == w_cursor)
return WEST;
else if(cursor == nw_cursor)
return NWEST;
else if(cursor == n_cursor)
return NORTH;
else if(cursor == ne_cursor)
return NEAST;
else if(cursor == e_cursor)
return EAST;
else if(cursor == se_cursor)
return SEAST;
else if(cursor == s_cursor)
return SOUTH;
else if(cursor == sw_cursor)
return SWEST;
return CENTER; /* should not happen */
}
static int
check_vert_match(XRectangle * r, XRectangle * neighbor)
{
/* check if neighbor matches edge */
return (((neighbor->y <= r->y)
&& (neighbor->y + neighbor->height >= r->y))
|| ((neighbor->y >= r->y)
&& (r->y + r->height >= neighbor->y)));
}
static int
check_horiz_match(XRectangle * r, XRectangle * neighbor)
{
/* check if neighbor matches edge */
return (((neighbor->x <= r->x)
&& (neighbor->x + neighbor->width >= r->x))
|| ((neighbor->x >= r->x)
&& (r->x + r->width >= neighbor->x)));
}
static void
snap_move(XRectangle * r, XRectangle * rects,
unsigned int num, int snapw, int snaph)
{
int i, j, w = 0, n = 0, e = 0, s = 0;
/* snap to other windows */
for(i = 0; i <= snapw && !(w && e); i++) {
for(j = 0; j < num && !(w && e); j++) {
/* check west neighbors leftwards */
if(!w) {
if(r->x - i == (rects[j].x + rects[j].width)) {
/*
* west edge of neighbor found, check
* vert match
*/
w = check_vert_match(r, &rects[j]);
if(w)
r->x = rects[j].x + rects[j].width;
}
}
/* check west neighbors rightwards */
if(!w) {
if(r->x + i == (rects[j].x + rects[j].width)) {
/*
* west edge of neighbor found, check
* vert match
*/
w = check_vert_match(r, &rects[j]);
if(w)
r->x = rects[j].x + rects[j].width;
}
}
/* check east neighbors leftwards */
if(!e) {
if(r->x + r->width - i == rects[j].x) {
/*
* east edge of neighbor found, check
* vert match
*/
e = check_vert_match(r, &rects[j]);
if(e)
r->x = rects[j].x - r->width;
}
}
/* check east neighbors rightwards */
if(!e) {
if(r->x + r->width + i == rects[j].x) {
/*
* east edge of neighbor found, check
* vert match
*/
e = check_vert_match(r, &rects[j]);
if(e)
r->x = rects[j].x - r->width;
}
}
}
/* snap to west screen border */
if(!w && (r->x - i == rect.x)) {
w = 1;
r->x = rect.x;
}
/* snap to west screen border */
if(!w && (r->x + i == rect.x)) {
w = 1;
r->x = rect.x;
}
/* snap to east screen border */
if(!e && (r->x + r->width - i == rect.width)) {
e = 1;
r->x = rect.x + rect.width - r->width;
}
if(!e && (r->x + r->width + i == rect.width)) {
e = 1;
r->x = rect.x + rect.width - r->width;
}
}
for(i = 0; i <= snaph && !(n && s); i++) {
for(j = 0; j < num && !(n && s); j++) {
/* check north neighbors upwards */
if(!n) {
if(r->y - i == (rects[j].y + rects[j].height)) {
/*
* north edge of neighbor found,
* check horiz match
*/
n = check_horiz_match(r, &rects[j]);
if(n)
r->y = rects[j].y + rects[j].height;
}
}
/* check north neighbors downwards */
if(!n) {
if(r->y + i == (rects[j].y + rects[j].height)) {
/*
* north edge of neighbor found,
* check horiz match
*/
n = check_horiz_match(r, &rects[j]);
if(n)
r->y = rects[j].y + rects[j].height;
}
}
/* check south neighbors upwards */
if(!s) {
if(r->y + r->height - i == rects[j].y) {
/*
* south edge of neighbor found,
* check horiz match
*/
s = check_horiz_match(r, &rects[j]);
if(s)
r->y = rects[j].y - r->height;
}
}
/* check south neighbors downwards */
if(!s) {
if(r->y + r->height + i == rects[j].y) {
/*
* south edge of neighbor found,
* check horiz match
*/
s = check_horiz_match(r, &rects[j]);
if(s)
r->y = rects[j].y - r->height;
}
}
}
/* snap to north screen border */
if(!n && (r->y - i == rect.y)) {
n = 1;
r->y = rect.y;
}
if(!n && (r->y + i == rect.y)) {
n = 1;
r->y = rect.y;
}
/* snap to south screen border */
if(!s && (r->y + r->height - i == rect.height)) {
s = 1;
r->y = rect.y + rect.height - r->height;
}
if(!s && (r->y + r->height + i == rect.height)) {
s = 1;
r->y = rect.y + rect.height - r->height;
}
}
}
static void
draw_pseudo_border(XRectangle * r)
{
XRectangle pseudo = *r;
pseudo.x += 2;
pseudo.y += 2;
pseudo.width -= 4;
pseudo.height -= 4;
XDrawRectangles(dpy, root, gc_xor, &pseudo, 1);
XSync(dpy, False);
}
void
mouse_move(Client *c)
{
int px = 0, py = 0, wex, wey, ex, ey, first = 1, i;
Window dummy;
XEvent ev;
/* borders */
int snapw = rect.width * def.snap / 1000;
int snaph = rect.height * def.snap / 1000;
unsigned int num;
unsigned int dmask;
XRectangle *rects = rectangles(&num);
XRectangle frect = c->frame.rect;
XPoint pt;
XQueryPointer(dpy, c->frame.win, &dummy, &dummy, &i, &i, &wex, &wey, &dmask);
XTranslateCoordinates(dpy, c->frame.win, root, wex, wey, &ex, &ey, &dummy);
pt.x = ex;
pt.y = ey;
XSync(dpy, False);
XGrabServer(dpy);
while(XGrabPointer
(dpy, root, False, ButtonMotionMask | ButtonReleaseMask,
GrabModeAsync, GrabModeAsync, None, move_cursor,
CurrentTime) != GrabSuccess)
usleep(20000);
for(;;) {
while(!XCheckMaskEvent
(dpy, ButtonReleaseMask | ButtonMotionMask, &ev)) {
usleep(20000);
continue;
}
switch (ev.type) {
case ButtonRelease:
if(!first) {
draw_pseudo_border(&frect);
resize_client(c, &frect, &pt);
}
free(rects);
XUngrabPointer(dpy, CurrentTime /* ev.xbutton.time */ );
XUngrabServer(dpy);
XSync(dpy, False);
return;
break;
case MotionNotify:
pt.x = ev.xmotion.x;
pt.y = ev.xmotion.y;
XTranslateCoordinates(dpy, c->frame.win, root, ev.xmotion.x,
ev.xmotion.y, &px, &py, &dummy);
if(first)
first = 0;
else
draw_pseudo_border(&frect);
frect.x = px - ex;
frect.y = py - ey;
snap_move(&frect, rects, num, snapw, snaph);
draw_pseudo_border(&frect);
break;
}
}
}
static void
snap_resize(XRectangle * r, XRectangle * o, Align align,
XRectangle * rects, unsigned int num, int px, int ox, int py,
int oy, int snapw, int snaph)
{
int i, j, pend = 0;
int w, h;
/* x */
switch (align) {
case NEAST:
case EAST:
case SEAST:
w = px - r->x + (o->width - ox);
if(w < 10)
break;
r->width = w;
if(w <= snapw)
break;
/* snap to border */
for(i = 0; !pend && (i < snapw); i++) {
if(r->x + r->width - i == rect.x + rect.width) {
r->width -= i;
break;
}
if(r->x + r->width + i == rect.x + rect.width) {
r->width += i;
break;
}
for(j = 0; j < num; j++) {
if(r->x + r->width - i == rects[j].x) {
pend = check_vert_match(r, &rects[j]);
if(pend) {
r->width -= i;
break;
}
}
if(r->x + r->width + i == rects[j].x) {
pend = check_vert_match(r, &rects[j]);
if(pend) {
r->width += i;
break;
}
}
}
}
break;
case NWEST:
case WEST:
case SWEST:
w = r->width + r->x - px + ox;
if(w < 10)
break;
r->width = w;
r->x = px - ox;
if(w <= snapw)
break;
/* snap to border */
for(i = 0; !pend && (i < snapw); i++) {
if(r->x - i == rect.x) {
r->x -= i;
r->width += i;
break;
}
if(r->x + i == rect.x) {
r->x += i;
r->width -= i;
break;
}
for(j = 0; j < num; j++) {
if(r->x - i == rects[j].x + rects[j].width) {
pend = check_vert_match(r, &rects[j]);
if(pend) {
r->x -= i;
r->width += i;
break;
}
}
if(r->x + i == rects[j].x + rects[j].width) {
pend = check_vert_match(r, &rects[j]);
if(pend) {
r->x += i;
r->width -= i;
break;
}
}
}
}
break;
default:
break;
}
/* y */
pend = 0;
switch (align) {
case SWEST:
case SOUTH:
case SEAST:
h = py - r->y + (o->height - oy);
if(h < 10)
break;
r->height = h;
if(h <= snaph)
break;
/* snap to border */
for(i = 0; !pend && (i < snaph); i++) {
if(r->y + r->height - i == rect.y + rect.height) {
r->height -= i;
break;
}
if(r->y + r->height + i == rect.y + rect.height) {
r->height += i;
break;
}
for(j = 0; j < num; j++) {
if(r->y + r->height - i == rects[j].y) {
pend = check_horiz_match(r, &rects[j]);
if(pend) {
r->height -= i;
break;
}
}
if(r->y + r->height + i == rects[j].y) {
pend = check_horiz_match(r, &rects[j]);
if(pend) {
r->height += i;
break;
}
}
}
}
break;
case NWEST:
case NORTH:
case NEAST:
h = r->height + r->y - py + oy;
if(h < 10)
break;
r->height = h;
r->y = py - oy;
if(h <= snaph)
break;
/* snap to border */
for(i = 0; !pend && (i < snaph); i++) {
if(r->y - i == rect.y) {
r->y -= i;
r->height += i;
break;
}
if(r->y + i == rect.y) {
r->y += i;
r->height -= i;
break;
}
for(j = 0; j < num; j++) {
if(r->y - i == rects[j].y + rects[j].height) {
pend = check_horiz_match(r, &rects[j]);
if(pend) {
r->y -= i;
r->height += i;
break;
}
}
if(r->y + i == rects[j].y + rects[j].height) {
pend = check_horiz_match(r, &rects[j]);
if(pend) {
r->y += i;
r->height -= i;
break;
}
}
}
}
break;
default:
break;
}
}
void
mouse_resize(Client *c, Align align)
{
int px = 0, py = 0, i, ox, oy, first = 1;
Window dummy;
XEvent ev;
/* borders */
int snapw = rect.width * def.snap / 1000;
int snaph = rect.height * def.snap / 1000;
unsigned int dmask;
unsigned int num;
XRectangle *rects = rectangles(&num);
XRectangle frect = c->frame.rect;
XRectangle origin = frect;
XQueryPointer(dpy, c->frame.win, &dummy, &dummy, &i, &i, &ox, &oy, &dmask);
XSync(dpy, False);
XGrabServer(dpy);
while(XGrabPointer
(dpy, c->frame.win, False, ButtonMotionMask | ButtonReleaseMask,
GrabModeAsync, GrabModeAsync, None, resize_cursor,
CurrentTime) != GrabSuccess)
usleep(20000);
for(;;) {
while(!XCheckMaskEvent
(dpy, ButtonReleaseMask | ButtonMotionMask, &ev)) {
usleep(20000);
continue;
}
switch (ev.type) {
case ButtonRelease:
if(!first) {
XPoint pt;
draw_pseudo_border(&frect);
pt.x = px;
pt.y = py;
resize_client(c, &frect, &pt);
}
XUngrabPointer(dpy, CurrentTime /* ev.xbutton.time */ );
XUngrabServer(dpy);
XSync(dpy, False);
return;
break;
case MotionNotify:
XTranslateCoordinates(dpy, c->frame.win, root, ev.xmotion.x,
ev.xmotion.y, &px, &py, &dummy);
if(first)
first = 0;
else
draw_pseudo_border(&frect);
snap_resize(&frect, &origin, align, rects, num, px,
ox, py, oy, snapw, snaph);
draw_pseudo_border(&frect);
break;
}
}
}
void
grab_mouse(Window w, unsigned long mod, unsigned int button)
{
XGrabButton(dpy, button, mod, w, False,
ButtonPressMask, GrabModeAsync, GrabModeAsync, None, None);
if((mod != AnyModifier) && num_lock_mask) {
XGrabButton(dpy, button, mod | num_lock_mask, w, False,
ButtonPressMask, GrabModeAsync, GrabModeAsync, None, None);
XGrabButton(dpy, button, mod | num_lock_mask | LockMask, w,
False, ButtonPressMask, GrabModeAsync, GrabModeAsync, None, None);
}
}
void
ungrab_mouse(Window w, unsigned long mod, unsigned int button)
{
XUngrabButton(dpy, button, mod, w);
if(mod != AnyModifier && num_lock_mask) {
XUngrabButton(dpy, button, mod | num_lock_mask, w);
XUngrabButton(dpy, button, mod | num_lock_mask | LockMask, w);
}
}
char *
warp_mouse(char *arg)
{
const char *errstr;
char *sx = arg, *sy;
unsigned int x, y;
sy = strchr(sx, ' ');
if(!sy)
return "invalid argument";
*sy = 0;
sy++;
x = cext_strtonum(sx, 0, rect.width, &errstr);
if(errstr)
return "invalid x argument";
y = cext_strtonum(sy, 0, rect.height, &errstr);
if(errstr)
return "invalid y argument";
XWarpPointer(dpy, None, root, 0, 0, 0, 0, x, y);
XSync(dpy, False);
return nil;
}