mirror of
https://github.com/bakkeby/dwm-flexipatch
synced 2024-11-18 21:28:09 +00:00
436 lines
14 KiB
C
436 lines
14 KiB
C
/* Flexwintitle properties, you can override these in your config.h if you want. */
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#ifndef FLEXWINTITLE_BORDERS
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#define FLEXWINTITLE_BORDERS 1 // 0 = off, 1 = on
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#endif
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#ifndef FLEXWINTITLE_SHOWFLOATING
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#define FLEXWINTITLE_SHOWFLOATING 0 // whether to show titles for floating windows, hidden clients are always shown
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#endif
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#ifndef FLEXWINTITLE_MASTERWEIGHT
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#define FLEXWINTITLE_MASTERWEIGHT 9 // master weight compared to stack, hidden and floating window titles
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#endif
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#ifndef FLEXWINTITLE_STACKWEIGHT
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#define FLEXWINTITLE_STACKWEIGHT 3 // stack weight compared to master, hidden and floating window titles
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#endif
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#ifndef FLEXWINTITLE_HIDDENWEIGHT
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#define FLEXWINTITLE_HIDDENWEIGHT 1 // hidden window title weight
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#endif
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#ifndef FLEXWINTITLE_FLOATWEIGHT
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#define FLEXWINTITLE_FLOATWEIGHT 1 // floating window title weight, set to 0 to not show floating windows
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#endif
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#define SCHEMEFOR(c) getschemefor(m, c, groupactive == c)
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enum { GRP_NOSELECTION, GRP_MASTER, GRP_STACK1, GRP_STACK2, GRP_FLOAT, GRP_HIDDEN };
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int
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width_flexwintitle(Bar *bar, BarArg *a)
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{
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return a->w;
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}
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int
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draw_flexwintitle(Bar *bar, BarArg *a)
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{
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drw_rect(drw, a->x, a->y, a->w, a->h, 1, 1);
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return flextitlecalculate(bar->mon, a->x, a->w, -1, flextitledraw, NULL, a);
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}
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int
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click_flexwintitle(Bar *bar, Arg *arg, BarArg *a)
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{
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flextitlecalculate(bar->mon, 0, a->w, a->x, flextitleclick, arg, a);
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return ClkWinTitle;
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}
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Client *
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flextitledrawarea(Monitor *m, Client *c, int x, int r, int w, int max_clients, int scheme, int draw_tiled, int draw_hidden, int draw_floating,
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int passx, void(*tabfn)(Monitor *, Client *, int, int, int, int, Arg *arg, BarArg *barg), Arg *arg, BarArg *barg)
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{
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int i;
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for (i = 0; c && i < max_clients; c = c->next) {
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if (
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ISVISIBLE(c) &&
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(
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(draw_tiled && !c->isfloating && !HIDDEN(c)) ||
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(draw_floating && c->isfloating && !HIDDEN(c)) ||
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(draw_hidden && HIDDEN(c))
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)
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) {
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tabfn(m, c, passx, x, w + (i < r ? 1 : 0), scheme, arg, barg);
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x += w + (i < r ? 1 : 0);
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i++;
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}
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}
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return c;
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}
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int
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getschemefor(Monitor *m, int group, int activegroup)
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{
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switch (group) {
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case GRP_NOSELECTION:
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case GRP_MASTER:
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case GRP_STACK1:
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case GRP_STACK2:
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#if BSTACK_LAYOUT
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if (m->lt[m->sellt]->arrange == &bstack)
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return (activegroup ? SchemeFlexActLTR : SchemeFlexInaLTR);
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#endif // BSTACK_LAYOUT
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#if BSTACKHORIZ_LAYOUT
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if (m->lt[m->sellt]->arrange == &bstackhoriz) {
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if (group == GRP_MASTER)
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return (activegroup ? SchemeFlexActLTR : SchemeFlexInaLTR);
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else
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return (activegroup ? SchemeFlexActTTB : SchemeFlexInaTTB);
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}
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#endif // BSTACKHORIZ_LAYOUT
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#if CENTEREDMASTER_LAYOUT
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if (m->lt[m->sellt]->arrange == ¢eredmaster)
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return (activegroup ? SchemeFlexActTTB : SchemeFlexInaTTB);
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#endif // CENTEREDMASTER_LAYOUT
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#if CENTEREDFLOATINGMASTER_LAYOUT
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if (m->lt[m->sellt]->arrange == ¢eredfloatingmaster)
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return (activegroup ? SchemeFlexActLTR : SchemeFlexInaLTR);
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#endif // CENTEREDFLOATINGMASTER_LAYOUT
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#if COLUMNS_LAYOUT
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if (m->lt[m->sellt]->arrange == &col) {
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if (group == GRP_MASTER)
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return (activegroup ? SchemeFlexActLTR : SchemeFlexInaLTR);
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else
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return (activegroup ? SchemeFlexActTTB : SchemeFlexInaTTB);
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}
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#endif // COLUMNS_LAYOUT
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#if DECK_LAYOUT
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if (m->lt[m->sellt]->arrange == &deck) {
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if (group == GRP_MASTER)
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return (activegroup ? SchemeFlexActTTB : SchemeFlexInaTTB);
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else
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return (activegroup ? SchemeFlexActMONO : SchemeFlexInaMONO);
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}
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#endif // DECK_LAYOUT
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#if FIBONACCI_DWINDLE_LAYOUT
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if (m->lt[m->sellt]->arrange == &dwindle)
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return (activegroup ? SchemeFlexActDWDL : SchemeFlexInaDWDL);
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#endif // FIBONACCI_DWINDLE_LAYOUT
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#if FIBONACCI_SPIRAL_LAYOUT
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if (m->lt[m->sellt]->arrange == &spiral)
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return (activegroup ? SchemeFlexActSPRL : SchemeFlexInaSPRL);
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#endif // FIBONACCI_SPIRAL_LAYOUT
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#if FLEXTILE_DELUXE_LAYOUT
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if (m->lt[m->sellt]->arrange == &flextile)
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return (activegroup ? SchemeFlexActTTB + m->ltaxis[group] : SchemeFlexInaTTB + m->ltaxis[group]);
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#endif // FLEXTILE_DELUXE_LAYOUT
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#if GAPPLESSGRID_LAYOUT
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if (m->lt[m->sellt]->arrange == &gaplessgrid)
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return (activegroup ? SchemeFlexActGRID : SchemeFlexInaGRID);
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#endif // GAPPLESSGRID_LAYOUT
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#if GRIDMODE_LAYOUT
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if (m->lt[m->sellt]->arrange == &grid)
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return (activegroup ? SchemeFlexActGRDM : SchemeFlexInaGRDM);
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#endif // GRIDMODE_LAYOUT
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#if HORIZGRID_LAYOUT
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if (m->lt[m->sellt]->arrange == &horizgrid)
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return (activegroup ? SchemeFlexActHGRD : SchemeFlexInaHGRD);
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#endif // HORIZGRID_LAYOUT
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#if NROWGRID_LAYOUT
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if (m->lt[m->sellt]->arrange == &nrowgrid)
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return (activegroup ? SchemeFlexActGRD1 : SchemeFlexInaGRD1);
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#endif // NROWGRID_LAYOUT
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#if TILE_LAYOUT
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if (m->lt[m->sellt]->arrange == &tile)
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return (activegroup ? SchemeFlexActTTB : SchemeFlexInaTTB);
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#endif // TILE_LAYOUT
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#if MONOCLE_LAYOUT
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if (m->lt[m->sellt]->arrange == &monocle)
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return (activegroup ? SchemeFlexActMONO : SchemeFlexInaMONO);
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#endif // MONOCLE_LAYOUT
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return SchemeTitleNorm;
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case GRP_HIDDEN:
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return SchemeHid;
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case GRP_FLOAT:
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return (activegroup ? SchemeFlexActFloat : SchemeFlexInaFloat);
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}
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return SchemeTitleNorm;
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}
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int
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getselschemefor(int scheme)
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{
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if (scheme == SchemeFlexActFloat || scheme == SchemeFlexInaFloat)
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return SchemeFlexSelFloat;
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if (scheme >= SchemeFlexInaTTB)
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return scheme + SchemeFlexInaTTB - SchemeFlexActTTB;
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if (scheme >= SchemeFlexActTTB)
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return scheme + SchemeFlexSelTTB - SchemeFlexActTTB;
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return SchemeTitleSel;
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}
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void
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flextitledraw(Monitor *m, Client *c, int unused, int x, int w, int tabscheme, Arg *arg, BarArg *barg)
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{
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if (!c)
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return;
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int i, nclienttags = 0, nviewtags = 0, pad = lrpad / 2;
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int clientscheme = (
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c == selmon->sel
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? getselschemefor(tabscheme)
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: HIDDEN(c)
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? SchemeHid
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: c->isurgent
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? SchemeUrg
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: tabscheme
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);
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drw_setscheme(drw, scheme[clientscheme]);
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XSetWindowBorder(dpy, c->win, scheme[clientscheme][ColBorder].pixel);
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if (w <= TEXTW("A") - lrpad + pad) // reduce text padding if wintitle is too small
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pad = (w - TEXTW("A") + lrpad < 0 ? 0 : (w - TEXTW("A") + lrpad) / 2);
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#if BAR_CENTEREDWINDOWNAME_PATCH
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else if (TEXTW(c->name) < w)
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pad = (w - TEXTW(c->name) + lrpad) / 2;
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#endif // BAR_CENTEREDWINDOWNAME_PATCH
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drw_text(drw, x, barg->y, w, barg->h, pad, c->name, 0, False);
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drawstateindicator(m, c, 1, x + 2, barg->y, w, barg->h, 0, 0, 0);
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if (FLEXWINTITLE_BORDERS) {
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XSetForeground(drw->dpy, drw->gc, scheme[SchemeSel][ColBorder].pixel);
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XFillRectangle(drw->dpy, drw->drawable, drw->gc, x, barg->y, 1, barg->h);
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XFillRectangle(drw->dpy, drw->drawable, drw->gc, x + w - (x + w >= barg->w ? 1 : 0), barg->y, 1, barg->h);
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}
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/* Optional tags icons */
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for (i = 0; i < NUMTAGS; i++) {
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if ((m->tagset[m->seltags] >> i) & 1)
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nviewtags++;
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if ((c->tags >> i) & 1)
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nclienttags++;
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}
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if (TAGSINDICATOR == 2 || nclienttags > 1 || nviewtags > 1)
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drawindicator(m, c, 1, x, barg->y, w, barg->h, 0, 0, 0, INDICATOR_RIGHT_TAGS);
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}
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#ifndef HIDDEN
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#define HIDDEN(C) 0
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#endif
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void
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flextitleclick(Monitor *m, Client *c, int passx, int x, int w, int unused, Arg *arg, BarArg *barg)
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{
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if (passx >= x && passx <= x + w)
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arg->v = c;
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}
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int
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flextitlecalculate(
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Monitor *m, int offx, int tabw, int passx,
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void(*tabfn)(Monitor *, Client *, int, int, int, int, Arg *arg, BarArg *barg),
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Arg *arg, BarArg *barg
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) {
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Client *c;
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int n, center = 0, mirror = 0, fixed = 0; // layout configuration
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int clientsnmaster = 0, clientsnstack = 0, clientsnfloating = 0, clientsnhidden = 0;
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int i, w, r, num = 0, den, fulllayout = 0;
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int clientsnstack2 = 0;
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int groupactive = 0;
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int selidx = 0;
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int dualstack = 0;
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int rw, rr;
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int mas_x = offx, st1_x = offx, st2_x = offx, hid_x = offx, flt_x = offx;
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int mas_w, st1_w, st2_w, hid_w;
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for (i = 0, c = m->clients; c; c = c->next) {
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if (!ISVISIBLE(c))
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continue;
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if (HIDDEN(c)) {
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if (FLEXWINTITLE_HIDDENWEIGHT)
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clientsnhidden++;
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continue;
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}
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if (c->isfloating) {
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if (FLEXWINTITLE_FLOATWEIGHT)
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clientsnfloating++;
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continue;
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}
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if (m->sel == c)
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selidx = i;
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if (i < m->nmaster)
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clientsnmaster++;
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#if FLEXTILE_DELUXE_LAYOUT
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else if (m->nstack) {
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if (clientsnstack < m->nstack)
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clientsnstack++;
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else
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clientsnstack2++;
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}
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#endif // FLEXTILE_DELUXE_LAYOUT
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else if ((i - m->nmaster) % 2)
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clientsnstack2++;
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else
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clientsnstack++;
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i++;
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}
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if (!m->sel)
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groupactive = GRP_NOSELECTION;
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else if (HIDDEN(m->sel))
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groupactive = GRP_HIDDEN;
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else if (m->sel->isfloating)
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groupactive = GRP_FLOAT;
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else if (selidx < clientsnmaster)
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groupactive = GRP_MASTER;
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else if (selidx < clientsnmaster + clientsnstack)
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groupactive = GRP_STACK1;
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else if (selidx < clientsnmaster + clientsnstack + clientsnstack2)
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groupactive = GRP_STACK2;
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n = clientsnmaster + clientsnstack + clientsnstack2 + clientsnfloating + clientsnhidden;
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if (n == 0)
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return 0;
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#if FLEXTILE_DELUXE_LAYOUT
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else if (m->lt[m->sellt]->arrange == &flextile) {
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int layout = m->ltaxis[LAYOUT];
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if (layout < 0) {
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mirror = 1;
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layout *= -1;
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}
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if (layout > FLOATING_MASTER) {
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layout -= FLOATING_MASTER;
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fixed = 1;
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}
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if (layout == SPLIT_HORIZONTAL_DUAL_STACK || layout == SPLIT_HORIZONTAL_DUAL_STACK_FIXED)
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dualstack = 1;
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else if (layout == SPLIT_CENTERED_VERTICAL && (fixed || n - m->nmaster > 1))
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center = 1;
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else if (layout == FLOATING_MASTER)
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center = 1;
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else if (layout == SPLIT_CENTERED_HORIZONTAL) {
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if (fixed || n - m->nmaster > 1)
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center = 1;
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}
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}
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#endif // FLEXTILE_DELUXE_LAYOUT
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#if CENTEREDMASTER_LAYOUT
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else if (m->lt[m->sellt]->arrange == ¢eredmaster && (fixed || n - m->nmaster > 1))
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center = 1;
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#endif // CENTEREDMASTER_LAYOUT
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#if CENTEREDFLOATINGMASTER_LAYOUT
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else if (m->lt[m->sellt]->arrange == ¢eredfloatingmaster)
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center = 1;
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#endif // CENTEREDFLOATINGMASTER_LAYOUT
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/* Certain layouts have no master / stack areas */
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if (!m->lt[m->sellt]->arrange // floating layout
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|| (!n || (!fixed && m->nmaster && n <= m->nmaster)) // no master
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#if MONOCLE_LAYOUT
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|| m->lt[m->sellt]->arrange == &monocle
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#endif // MONOCLE_LAYOUT
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#if GRIDMODE_LAYOUT
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|| m->lt[m->sellt]->arrange == &grid
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#endif // GRIDMODE_LAYOUT
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#if HORIZGRID_LAYOUT
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|| m->lt[m->sellt]->arrange == &horizgrid
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#endif // HORIZGRID_LAYOUT
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#if GAPPLESSGRID_LAYOUT
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|| m->lt[m->sellt]->arrange == &gaplessgrid
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#endif // GAPPLESSGRID_LAYOUT
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#if NROWGRID_LAYOUT
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|| m->lt[m->sellt]->arrange == &nrowgrid
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#endif // NROWGRID_LAYOUT
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#if FLEXTILE_DELUXE_LAYOUT
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|| (m->lt[m->sellt]->arrange == &flextile && m->ltaxis[LAYOUT] == NO_SPLIT)
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#endif // FLEXTILE_DELUXE_LAYOUT
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)
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fulllayout = 1;
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num = tabw;
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c = m->clients;
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/* floating mode */
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if ((fulllayout && FLEXWINTITLE_FLOATWEIGHT > 0) || clientsnmaster + clientsnstack == 0 || !m->lt[m->sellt]->arrange) {
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den = clientsnmaster + clientsnstack + clientsnstack2 + clientsnfloating + clientsnhidden;
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w = num / den;
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r = num % den; // rest
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c = flextitledrawarea(m, c, mas_x, r, w, den, !m->lt[m->sellt]->arrange ? SchemeFlexActFloat : SCHEMEFOR(GRP_MASTER), 1, FLEXWINTITLE_HIDDENWEIGHT, FLEXWINTITLE_FLOATWEIGHT, passx, tabfn, arg, barg); // floating
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/* no master and stack mode, e.g. monocole, grid layouts, fibonacci */
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} else if (fulllayout) {
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den = clientsnmaster + clientsnstack + clientsnstack2 + clientsnhidden;
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w = num / den;
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r = num % den; // rest
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c = flextitledrawarea(m, c, mas_x, r, w, den, SCHEMEFOR(GRP_MASTER), 1, FLEXWINTITLE_HIDDENWEIGHT, 0, passx, tabfn, arg, barg); // full
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/* tiled mode */
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} else {
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den = clientsnmaster * FLEXWINTITLE_MASTERWEIGHT + (clientsnstack + clientsnstack2) * FLEXWINTITLE_STACKWEIGHT + clientsnfloating * FLEXWINTITLE_FLOATWEIGHT + clientsnhidden * FLEXWINTITLE_HIDDENWEIGHT;
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w = num / den; // weight width per client
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r = num % den; // weight rest width
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rw = r / n; // rest incr per client
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rr = r % n; // rest rest
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#if FLEXTILE_DELUXE_LAYOUT
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if ((!center && !dualstack) || (center && n <= m->nmaster + (m->nstack ? m->nstack : 1)))
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#else
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if ((!center && !dualstack) || (center && n <= m->nmaster + 1))
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#endif // FLEXTILE_DELUXE_LAYOUT
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{
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clientsnstack += clientsnstack2;
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clientsnstack2 = 0;
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if (groupactive == GRP_STACK2)
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groupactive = GRP_STACK1;
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}
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mas_w = clientsnmaster * rw + w * clientsnmaster * FLEXWINTITLE_MASTERWEIGHT + (rr > 0 ? MIN(rr, clientsnmaster) : 0);
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rr -= clientsnmaster;
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st1_w = clientsnstack * (rw + w * FLEXWINTITLE_STACKWEIGHT) + (rr > 0 ? MIN(rr, clientsnstack) : 0);
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rr -= clientsnstack;
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st2_w = clientsnstack2 * (rw + w * FLEXWINTITLE_STACKWEIGHT) + (rr > 0 ? MIN(rr, clientsnstack2) : 0);
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rr -= clientsnstack2;
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hid_w = clientsnhidden * (rw + w * FLEXWINTITLE_HIDDENWEIGHT) + (rr > 0 ? MIN(rr, clientsnhidden) : 0);
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rr -= clientsnhidden;
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rr = r % n;
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if (mirror) {
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if (center && clientsnstack2) {
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mas_x = st1_x + st1_w;
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st2_x = mas_x + mas_w;
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hid_x = st2_x + st2_w;
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} else {
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if (clientsnstack2) {
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st2_x = st1_x + st1_w;
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mas_x = st2_x + st2_w;
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} else
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mas_x = st1_x + st1_w;
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hid_x = mas_x + mas_w;
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}
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} else {
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if (center && clientsnstack2) {
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mas_x = st2_x + st2_w;
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st1_x = mas_x + mas_w;
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hid_x = st1_x + st1_w;
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} else {
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st1_x = mas_x + mas_w;
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if (clientsnstack2) {
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st2_x = st1_x + st1_w;
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hid_x = st2_x + st2_w;
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} else
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hid_x = st1_x + st1_w;
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}
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}
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flt_x = hid_x + hid_w;
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c = flextitledrawarea(m, c, mas_x, rr, w * FLEXWINTITLE_MASTERWEIGHT + rw, clientsnmaster, SCHEMEFOR(GRP_MASTER), 1, 0, 0, passx, tabfn, arg, barg); // master
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rr -= clientsnmaster;
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c = flextitledrawarea(m, c, st1_x, rr, w * FLEXWINTITLE_STACKWEIGHT + rw, clientsnstack, SCHEMEFOR(GRP_STACK1), 1, 0, 0, passx, tabfn, arg, barg); // stack1
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rr -= clientsnstack;
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if (clientsnstack2) {
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c = flextitledrawarea(m, c, st2_x, rr, w * FLEXWINTITLE_STACKWEIGHT + rw, clientsnstack2, SCHEMEFOR(GRP_STACK2), 1, 0, 0, passx, tabfn, arg, barg); // stack2
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rr -= clientsnstack2;
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}
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|
c = flextitledrawarea(m, m->clients, hid_x, rr, w * FLEXWINTITLE_HIDDENWEIGHT + rw, clientsnhidden, SCHEMEFOR(GRP_HIDDEN), 0, 1, 0, passx, tabfn, arg, barg); // hidden
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rr -= clientsnhidden;
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c = flextitledrawarea(m, m->clients, flt_x, rr, w * FLEXWINTITLE_FLOATWEIGHT + rw, clientsnfloating, SCHEMEFOR(GRP_FLOAT), 0, 0, 1, passx, tabfn, arg, barg); // floating
|
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}
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return 1;
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} |