196 lines
4.8 KiB
C
196 lines
4.8 KiB
C
void
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floatpos(const Arg *arg)
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{
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Client *c = selmon->sel;
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if (!c || (selmon->lt[selmon->sellt]->arrange && !c->isfloating))
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return;
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setfloatpos(c, (char *)arg->v);
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resizeclient(c, c->x, c->y, c->w, c->h);
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#if !FOCUSONCLICK_PATCH
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XRaiseWindow(dpy, c->win);
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XWarpPointer(dpy, None, c->win, 0, 0, 0, 0, c->w/2, c->h/2);
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#endif // FOCUSONCLICK_PATCH
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}
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void
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setfloatpos(Client *c, const char *floatpos)
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{
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char xCh, yCh, wCh, hCh;
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int x, y, w, h, wx, ww, wy, wh;
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#if FLOATPOS_RESPECT_GAPS_PATCH && VANITYGAPS_PATCH
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int oh, ov, ih, iv;
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unsigned int n;
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#endif // FLOATPOS_RESPECT_GAPS_PATCH | VANITYGAPS_PATCH
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if (!c || !floatpos)
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return;
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if (selmon->lt[selmon->sellt]->arrange && !c->isfloating)
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return;
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switch(sscanf(floatpos, "%d%c %d%c %d%c %d%c", &x, &xCh, &y, &yCh, &w, &wCh, &h, &hCh)) {
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case 4:
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if (xCh == 'w' || xCh == 'W') {
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w = x; wCh = xCh;
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h = y; hCh = yCh;
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x = -1; xCh = 'C';
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y = -1; yCh = 'C';
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} else if (xCh == 'p' || xCh == 'P') {
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w = x; wCh = xCh;
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h = y; hCh = yCh;
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x = 0; xCh = 'G';
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y = 0; yCh = 'G';
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} else if (xCh == 'm' || xCh == 'M') {
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getrootptr(&x, &y);
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} else {
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w = 0; wCh = 0;
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h = 0; hCh = 0;
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}
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break;
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case 8:
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if (xCh == 'm' || xCh == 'M')
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getrootptr(&x, &y);
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break;
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default:
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return;
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}
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#if FLOATPOS_RESPECT_GAPS_PATCH && VANITYGAPS_PATCH
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getgaps(c->mon, &oh, &ov, &ih, &iv, &n);
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wx = c->mon->wx + ov;
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wy = c->mon->wy + oh;
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ww = c->mon->ww - 2*ov;
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wh = c->mon->wh - 2*oh;
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#else
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wx = c->mon->wx;
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wy = c->mon->wy;
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ww = c->mon->ww;
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wh = c->mon->wh;
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#endif // FLOATPOS_RESPECT_GAPS_PATCH | VANITYGAPS_PATCH
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getfloatpos(x, xCh, w, wCh, wx, ww, c->x, c->w, c->bw, floatposgrid_x, &c->x, &c->w);
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getfloatpos(y, yCh, h, hCh, wy, wh, c->y, c->h, c->bw, floatposgrid_y, &c->y, &c->h);
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}
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/* p - position, s - size, cp and cs represents current position and size */
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void
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getfloatpos(int pos, char pCh, int size, char sCh, int min_p, int max_s, int cp, int cs, int cbw, int defgrid, int *out_p, int *out_s)
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{
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int abs_p, abs_s, i, delta, rest;
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abs_p = pCh == 'A' || pCh == 'a';
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abs_s = sCh == 'A' || sCh == 'a';
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cs += 2*cbw;
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switch(pCh) {
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case 'A': // absolute position
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cp = pos;
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break;
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case 'a': // absolute relative position
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cp += pos;
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break;
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case 'y':
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case 'x': // client relative position
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cp = MIN(cp + pos, min_p + max_s);
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break;
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case 'Y':
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case 'X': // client position relative to monitor
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cp = min_p + MIN(pos, max_s);
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break;
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case 'S': // fixed client position (sticky)
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case 'C': // fixed client position (center)
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case 'Z': // fixed client right-hand position (position + size)
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if (pos == -1)
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break;
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pos = MAX(MIN(pos, max_s), 0);
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if (pCh == 'Z')
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cs = abs((cp + cs) - (min_p + pos));
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else if (pCh == 'C')
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cs = abs((cp + cs / 2) - (min_p + pos));
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else
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cs = abs(cp - (min_p + pos));
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cp = min_p + pos;
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sCh = 0; // size determined by position, override defined size
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break;
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case 'G': // grid
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if (pos <= 0)
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pos = defgrid; // default configurable
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if (size == 0 || pos < 2 || (sCh != 'p' && sCh != 'P'))
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break;
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delta = (max_s - cs) / (pos - 1);
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rest = max_s - cs - delta * (pos - 1);
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if (sCh == 'P') {
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if (size < 1 || size > pos)
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break;
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cp = min_p + delta * (size - 1);
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} else {
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for (i = 0; i < pos && cp >= min_p + delta * i + (i > pos - rest ? i + rest - pos + 1 : 0); i++);
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cp = min_p + delta * (MAX(MIN(i + size, pos), 1) - 1) + (i > pos - rest ? i + rest - pos + 1 : 0);
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}
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break;
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}
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switch(sCh) {
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case 'A': // absolute size
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cs = size;
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break;
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case 'a': // absolute relative size
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cs = MAX(1, cs + size);
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break;
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case '%': // client size percentage in relation to monitor window area size
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if (size <= 0)
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break;
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size = max_s * MIN(size, 100) / 100;
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/* falls through */
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case 'h':
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case 'w': // size relative to client
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if (sCh == 'w' || sCh == 'h') {
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if (size == 0)
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break;
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size += cs;
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}
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/* falls through */
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case 'H':
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case 'W': // normal size, position takes precedence
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if (pCh == 'S' && cp + size > min_p + max_s)
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size = min_p + max_s - cp;
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else if (size > max_s)
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size = max_s;
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if (pCh == 'C') { // fixed client center, expand or contract client
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delta = size - cs;
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if (delta < 0 || (cp - delta / 2 + size <= min_p + max_s))
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cp -= delta / 2;
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else if (cp - delta / 2 < min_p)
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cp = min_p;
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else if (delta)
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cp = min_p + max_s;
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} else if (pCh == 'Z')
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cp -= size - cs;
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cs = size;
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break;
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}
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if (pCh == '%') // client mid-point position in relation to monitor window area size
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cp = min_p + max_s * MAX(MIN(pos, 100), 0) / 100 - (cs) / 2;
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if (pCh == 'm' || pCh == 'M')
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cp = pos - cs / 2;
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if (!abs_p && cp < min_p)
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cp = min_p;
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if (cp + cs > min_p + max_s && !(abs_p && abs_s)) {
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if (abs_p || cp == min_p)
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cs = min_p + max_s - cp;
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else
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cp = min_p + max_s - cs;
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}
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*out_p = cp;
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*out_s = MAX(cs - 2*cbw, 1);
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}
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