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@ -99,36 +99,39 @@ dofloat(Arg *arg) { |
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/* This algorithm is based on a (M)aster area and a (S)tacking area.
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/* This algorithm is based on a (M)aster area and a (S)tacking area.
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* It supports following arrangements: |
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* It supports following arrangements: |
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* MMMS MMMM SMMM |
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* SSMMM MMMMM MMMSS |
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* MMMS MMMM SMMM |
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* SSMMM SSSSS MMMSS |
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* MMMS SSSS SMMM |
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*/ |
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*/ |
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void |
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void |
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dotile(Arg *arg) { |
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dotile(Arg *arg) { |
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int h, i, n, w; |
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int i, n, stackw, stackh, tw, th; |
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Client *c; |
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Client *c; |
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for(n = 0, c = nexttiled(clients); c; c = nexttiled(c->next)) |
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for(n = 0, c = nexttiled(clients); c; c = nexttiled(c->next)) |
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n++; |
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n++; |
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if(isvertical) { |
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if(stackpos == StackBottom) { |
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if(stackpos == StackBottom) { |
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w = sw; |
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stackw = sw; |
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stackh = sh - bh - master; |
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} |
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else { |
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stackw = sw - master; |
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stackh = sh - bh; |
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} |
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if(isvertical) { |
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tw = stackw; |
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if(n > 1) |
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if(n > 1) |
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h = (sh - bh) / (n - 1); |
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th = stackh / (n - 1); |
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else |
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else |
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h = sh - bh; |
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th = stackh; |
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} |
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} |
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else { |
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else { |
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w = sw - master; |
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th = stackh; |
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if(n > 1) |
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if(n > 1) |
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h = (sh - bh) / (n - 1); |
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tw = stackw / (n - 1); |
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else |
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else |
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h = sh - bh; |
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tw = stackw; |
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} |
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} |
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else { /* horizontal stack */ |
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} |
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} |
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for(i = 0, c = clients; c; c = c->next) { |
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for(i = 0, c = clients; c; c = c->next) { |
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@ -138,32 +141,59 @@ dotile(Arg *arg) { |
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continue; |
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continue; |
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} |
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} |
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c->ismax = False; |
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c->ismax = False; |
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if(n == 1) { |
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if(n == 1) { /* only 1 window */ |
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c->x = sx; |
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c->x = sx; |
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c->y = sy + bh; |
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c->y = sy + bh; |
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c->w = sw - 2 * BORDERPX; |
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c->w = sw - 2 * BORDERPX; |
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c->h = sh - 2 * BORDERPX - bh; |
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c->h = sh - 2 * BORDERPX - bh; |
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} |
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} |
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else if(i == 0) { |
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else if(i == 0) { /* master window */ |
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c->x = sx; |
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c->x = sx; |
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if(stackpos == StackLeft) |
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c->x += master; |
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c->y = sy + bh; |
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c->y = sy + bh; |
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if(isvertical) { |
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c->w = master - 2 * BORDERPX; |
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c->w = master - 2 * BORDERPX; |
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c->h = sh - 2 * BORDERPX - bh; |
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c->h = sh - 2 * BORDERPX - bh; |
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} |
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} |
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else if(h > bh) { |
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else { |
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c->x = sx + master; |
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c->w = sw; |
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c->y = sy + (i - 1) * h + bh; |
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c->h = master - 2 * BORDERPX; |
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c->w = w - 2 * BORDERPX; |
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} |
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if(i + 1 == n) |
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} |
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else if((isvertical && th > bh) || (!isvertical && tw > MINW)) { |
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/* tile window */ |
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c->x = sx; |
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if(isvertical) |
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c->y = sy + (i - 1) * th + bh; |
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else |
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c->y = sy + bh; |
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if(stackpos == StackRight) |
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c->x += master; |
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else if(stackpos == StackBottom) |
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c->y += master; |
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c->w = tw - 2 * BORDERPX; |
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c->h = th - 2 * BORDERPX; |
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if(i + 1 == n) { /* fixes for last tile to take up rest space */ |
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if(isvertical) |
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c->h = sh - c->y - 2 * BORDERPX; |
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c->h = sh - c->y - 2 * BORDERPX; |
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else { |
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if(stackpos == StackLeft) |
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c->w = master - c->x - 2 * BORDERPX; |
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else |
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else |
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c->h = h - 2 * BORDERPX; |
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c->w = sw - c->x - 2 * BORDERPX; |
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} |
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} |
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} |
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} |
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else { /* fallback if h < bh */ |
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else { /* fallback if th < bh resp. tw < MINW */ |
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c->x = sx + master; |
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c->x = sx; |
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c->y = sy + bh; |
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c->y = sy + bh; |
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c->w = w - 2 * BORDERPX; |
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if(stackpos == StackRight) |
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c->h = sh - 2 * BORDERPX - bh; |
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c->x += master; |
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else if(stackpos == StackBottom) |
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c->y += master; |
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c->w = stackw - 2 * BORDERPX; |
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c->h = stackh - 2 * BORDERPX; |
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} |
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} |
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resize(c, False, TopLeft); |
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resize(c, False, TopLeft); |
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i++; |
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i++; |
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@ -232,12 +262,12 @@ resizecol(Arg *arg) { |
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return; |
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return; |
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if(sel == getnext(clients)) { |
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if(sel == getnext(clients)) { |
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if(master + arg->i > sw - 100 || master + arg->i < 100) |
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if(master + arg->i > sw - MINW || master + arg->i < MINW) |
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return; |
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return; |
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master += arg->i; |
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master += arg->i; |
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} |
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} |
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else { |
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else { |
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if(master - arg->i > sw - 100 || master - arg->i < 100) |
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if(master - arg->i > sw - MINW || master - arg->i < MINW) |
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return; |
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return; |
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master -= arg->i; |
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master -= arg->i; |
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} |
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} |
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