Delete vanitygaps.c

2023-12-11 19:13:54 +01:00 · 2023-12-11 19:13:54 +01:00 · d39023a95f
parent 9d55d4d9c6
commit d39023a95f
1 changed files with 0 additions and 472 deletions
--- a/vanitygaps.c
+++ b/vanitygaps.c
@ -1,472 +0,0 @@
 /* Key binding functions */
 static void defaultgaps(const Arg *arg);
 static void incrgaps(const Arg *arg);
 static void incrigaps(const Arg *arg);
 static void incrogaps(const Arg *arg);
 static void incrohgaps(const Arg *arg);
 static void incrovgaps(const Arg *arg);
 static void incrihgaps(const Arg *arg);
 static void incrivgaps(const Arg *arg);
 static void togglegaps(const Arg *arg);
 /* Layouts (delete the ones you do not need) */
 static void tile(Monitor *m);
 static void dwindle(Monitor *m);
 static void fibonacci(Monitor *m, int s);
 static void centeredmaster(Monitor *m);
 static void spiral(Monitor *m);
 /* Internals */
 static void getgaps(Monitor *m, int *oh, int *ov, int *ih, int *iv, unsigned int *nc);
 static void getfacts(Monitor *m, int msize, int ssize, float *mf, float *sf, int *mr, int *sr);
 static void setgaps(int oh, int ov, int ih, int iv);
 /* Settings */
 #if !PERTAG_PATCH
 static int enablegaps = 1;
 #endif // PERTAG_PATCH
 void
 setgaps(int oh, int ov, int ih, int iv)
 {
 	if (oh < 0) oh = 0;
 	if (ov < 0) ov = 0;
 	if (ih < 0) ih = 0;
 	if (iv < 0) iv = 0;
 	selmon->gappoh = oh;
 	selmon->gappov = ov;
 	selmon->gappih = ih;
 	selmon->gappiv = iv;
 	arrange(selmon);
 }
 void
 togglegaps(const Arg *arg)
 {
 	#if PERTAG_PATCH
 	selmon->pertag->enablegaps[selmon->pertag->curtag] = !selmon->pertag->enablegaps[selmon->pertag->curtag];
 	#else
 	enablegaps = !enablegaps;
 	#endif // PERTAG_PATCH
 	arrange(NULL);
 }
 void
 defaultgaps(const Arg *arg)
 {
 	setgaps(gappoh, gappov, gappih, gappiv);
 }
 void
 incrgaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh + arg->i,
 		selmon->gappov + arg->i,
 		selmon->gappih + arg->i,
 		selmon->gappiv + arg->i
 	);
 }
 void
 incrigaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh,
 		selmon->gappov,
 		selmon->gappih + arg->i,
 		selmon->gappiv + arg->i
 	);
 }
 void
 incrogaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh + arg->i,
 		selmon->gappov + arg->i,
 		selmon->gappih,
 		selmon->gappiv
 	);
 }
 void
 incrohgaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh + arg->i,
 		selmon->gappov,
 		selmon->gappih,
 		selmon->gappiv
 	);
 }
 void
 incrovgaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh,
 		selmon->gappov + arg->i,
 		selmon->gappih,
 		selmon->gappiv
 	);
 }
 void
 incrihgaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh,
 		selmon->gappov,
 		selmon->gappih + arg->i,
 		selmon->gappiv
 	);
 }
 void
 incrivgaps(const Arg *arg)
 {
 	setgaps(
 		selmon->gappoh,
 		selmon->gappov,
 		selmon->gappih,
 		selmon->gappiv + arg->i
 	);
 }
 void
 getgaps(Monitor *m, int *oh, int *ov, int *ih, int *iv, unsigned int *nc)
 {
 	unsigned int n, oe, ie;
 	#if PERTAG_PATCH
 	oe = ie = selmon->pertag->enablegaps[selmon->pertag->curtag];
 	#else
 	oe = ie = enablegaps;
 	#endif // PERTAG_PATCH
 	Client *c;
 	for (n = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), n++);
 	if (smartgaps && n == 1) {
 		oe = 0; // outer gaps disabled when only one client
 	}
 	*oh = m->gappoh*oe; // outer horizontal gap
 	*ov = m->gappov*oe; // outer vertical gap
 	*ih = m->gappih*ie; // inner horizontal gap
 	*iv = m->gappiv*ie; // inner vertical gap
 	*nc = n;            // number of clients
 }
 void
 getfacts(Monitor *m, int msize, int ssize, float *mf, float *sf, int *mr, int *sr)
 {
 	unsigned int n;
 	float mfacts = 0, sfacts = 0;
 	int mtotal = 0, stotal = 0;
 	Client *c;
 	for (n = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), n++)
 		if (n < m->nmaster)
 			mfacts += c->cfact;
 		else
 			sfacts += c->cfact;
 	for (n = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), n++)
 		if (n < m->nmaster)
 			mtotal += msize * (c->cfact / mfacts);
 		else
 			stotal += ssize * (c->cfact / sfacts);
 	*mf = mfacts; // total factor of master area
 	*sf = sfacts; // total factor of stack area
 	*mr = msize - mtotal; // the remainder (rest) of pixels after a cfacts master split
 	*sr = ssize - stotal; // the remainder (rest) of pixels after a cfacts stack split
 }
 /***
 * Layouts
 */
 /*
 * Centred master layout + gaps
 * https://dwm.suckless.org/patches/centeredmaster/
 */
 void
 centeredmaster(Monitor *m)
 {
 	unsigned int i, n;
 	int oh, ov, ih, iv;
 	int mx = 0, my = 0, mh = 0, mw = 0;
 	int lx = 0, ly = 0, lw = 0, lh = 0;
 	int rx = 0, ry = 0, rw = 0, rh = 0;
 	float mfacts = 0, lfacts = 0, rfacts = 0;
 	int mtotal = 0, ltotal = 0, rtotal = 0;
 	int mrest = 0, lrest = 0, rrest = 0;
 	Client *c;
 	getgaps(m, &oh, &ov, &ih, &iv, &n);
 	if (n == 0)
 		return;
 	/* initialize areas */
 	mx = m->wx + ov;
 	my = m->wy + oh;
 	mh = m->wh - 2*oh - ih * ((!m->nmaster ? n : MIN(n, m->nmaster)) - 1);
 	mw = m->ww - 2*ov;
 	lh = m->wh - 2*oh - ih * (((n - m->nmaster) / 2) - 1);
 	rh = m->wh - 2*oh - ih * (((n - m->nmaster) / 2) - ((n - m->nmaster) % 2 ? 0 : 1));
 	if (m->nmaster && n > m->nmaster) {
 		/* go mfact box in the center if more than nmaster clients */
 		if (n - m->nmaster > 1) {
 			/* ||<-S->|<---M--->|<-S->|| */
 			mw = (m->ww - 2*ov - 2*iv) * m->mfact;
 			lw = (m->ww - mw - 2*ov - 2*iv) / 2;
 			rw = (m->ww - mw - 2*ov - 2*iv) - lw;
 			mx += lw + iv;
 		} else {
 			/* ||<---M--->|<-S->|| */
 			mw = (mw - iv) * m->mfact;
 			lw = 0;
 			rw = m->ww - mw - iv - 2*ov;
 		}
 		lx = m->wx + ov;
 		ly = m->wy + oh;
 		rx = mx + mw + iv;
 		ry = m->wy + oh;
 	}
 	/* calculate facts */
 	for (n = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), n++) {
 		if (!m->nmaster || n < m->nmaster)
 			mfacts += c->cfact;
 		else if ((n - m->nmaster) % 2)
 			lfacts += c->cfact; // total factor of left hand stack area
 		else
 			rfacts += c->cfact; // total factor of right hand stack area
 	}
 	for (n = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), n++)
 		if (!m->nmaster || n < m->nmaster)
 			mtotal += mh * (c->cfact / mfacts);
 		else if ((n - m->nmaster) % 2)
 			ltotal += lh * (c->cfact / lfacts);
 		else
 			rtotal += rh * (c->cfact / rfacts);
 	mrest = mh - mtotal;
 	lrest = lh - ltotal;
 	rrest = rh - rtotal;
 	for (i = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), i++) {
 		if (!m->nmaster || i < m->nmaster) {
 			/* nmaster clients are stacked vertically, in the center of the screen */
 			resize(c, mx, my, mw - (2*c->bw), mh * (c->cfact / mfacts) + (i < mrest ? 1 : 0) - (2*c->bw), 0);
 			my += HEIGHT(c) + ih;
 		} else {
 			/* stack clients are stacked vertically */
 			if ((i - m->nmaster) % 2 ) {
 				resize(c, lx, ly, lw - (2*c->bw), lh * (c->cfact / lfacts) + ((i - 2*m->nmaster) < 2*lrest ? 1 : 0) - (2*c->bw), 0);
 				ly += HEIGHT(c) + ih;
 			} else {
 				resize(c, rx, ry, rw - (2*c->bw), rh * (c->cfact / rfacts) + ((i - 2*m->nmaster) < 2*rrest ? 1 : 0) - (2*c->bw), 0);
 				ry += HEIGHT(c) + ih;
 			}
 		}
 	}
 }
 void
 centeredfloatingmaster(Monitor *m)
 {
 	unsigned int i, n;
 	float mfacts, sfacts;
 	float mivf = 1.0; // master inner vertical gap factor
 	int oh, ov, ih, iv, mrest, srest;
 	int mx = 0, my = 0, mh = 0, mw = 0;
 	int sx = 0, sy = 0, sh = 0, sw = 0;
 	Client *c;
 	getgaps(m, &oh, &ov, &ih, &iv, &n);
 	if (n == 0)
 		return;
 	sx = mx = m->wx + ov;
 	sy = my = m->wy + oh;
 	sh = mh = m->wh - 2*oh;
 	mw = m->ww - 2*ov - iv*(n - 1);
 	sw = m->ww - 2*ov - iv*(n - m->nmaster - 1);
 	if (m->nmaster && n > m->nmaster) {
 		mivf = 0.8;
 		/* go mfact box in the center if more than nmaster clients */
 		if (m->ww > m->wh) {
 			mw = m->ww * m->mfact - iv*mivf*(MIN(n, m->nmaster) - 1);
 			mh = m->wh * 0.9;
 		} else {
 			mw = m->ww * 0.9 - iv*mivf*(MIN(n, m->nmaster) - 1);
 			mh = m->wh * m->mfact;
 		}
 		mx = m->wx + (m->ww - mw) / 2;
 		my = m->wy + (m->wh - mh - 2*oh) / 2;
 		sx = m->wx + ov;
 		sy = m->wy + oh;
 		sh = m->wh - 2*oh;
 	}
 	getfacts(m, mw, sw, &mfacts, &sfacts, &mrest, &srest);
 	for (i = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), i++)
 		if (i < m->nmaster) {
 			/* nmaster clients are stacked horizontally, in the center of the screen */
 			resize(c, mx, my, mw * (c->cfact / mfacts) + (i < mrest ? 1 : 0) - (2*c->bw), mh - (2*c->bw), 0);
 			mx += WIDTH(c) + iv*mivf;
 		} else {
 			/* stack clients are stacked horizontally */
 			resize(c, sx, sy, sw * (c->cfact / sfacts) + ((i - m->nmaster) < srest ? 1 : 0) - (2*c->bw), sh - (2*c->bw), 0);
 			sx += WIDTH(c) + iv;
 		}
 }
 /*
 * Fibonacci layout + gaps
 * https://dwm.suckless.org/patches/fibonacci/
 */
 void
 fibonacci(Monitor *m, int s)
 {
 	unsigned int i, n;
 	int nx, ny, nw, nh;
 	int oh, ov, ih, iv;
 	int nv, hrest = 0, wrest = 0, r = 1;
 	Client *c;
 	getgaps(m, &oh, &ov, &ih, &iv, &n);
 	if (n == 0)
 		return;
 	nx = m->wx + ov;
 	ny = m->wy + oh;
 	nw = m->ww - 2*ov;
 	nh = m->wh - 2*oh;
 	for (i = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next)) {
 		if (r) {
 			if ((i % 2 && (nh - ih) / 2 <= (bh + 2*c->bw))
 			   || (!(i % 2) && (nw - iv) / 2 <= (bh + 2*c->bw))) {
 				r = 0;
 			}
 			if (r && i < n - 1) {
 				if (i % 2) {
 					nv = (nh - ih) / 2;
 					hrest = nh - 2*nv - ih;
 					nh = nv;
 				} else {
 					nv = (nw - iv) / 2;
 					wrest = nw - 2*nv - iv;
 					nw = nv;
 				}
 				if ((i % 4) == 2 && !s)
 					nx += nw + iv;
 				else if ((i % 4) == 3 && !s)
 					ny += nh + ih;
 			}
 			if ((i % 4) == 0) {
 				if (s) {
 					ny += nh + ih;
 					nh += hrest;
 				}
 				else {
 					nh -= hrest;
 					ny -= nh + ih;
 				}
 			}
 			else if ((i % 4) == 1) {
 				nx += nw + iv;
 				nw += wrest;
 			}
 			else if ((i % 4) == 2) {
 				ny += nh + ih;
 				nh += hrest;
 				if (i < n - 1)
 					nw += wrest;
 			}
 			else if ((i % 4) == 3) {
 				if (s) {
 					nx += nw + iv;
 					nw -= wrest;
 				} else {
 					nw -= wrest;
 					nx -= nw + iv;
 					nh += hrest;
 				}
 			}
 			if (i == 0)	{
 				if (n != 1) {
 					nw = (m->ww - iv - 2*ov) - (m->ww - iv - 2*ov) * (1 - m->mfact);
 					wrest = 0;
 				}
 				ny = m->wy + oh;
 			}
 			else if (i == 1)
 				nw = m->ww - nw - iv - 2*ov;
 			i++;
 		}
 		resize(c, nx, ny, nw - (2*c->bw), nh - (2*c->bw), False);
 	}
 }
 void
 dwindle(Monitor *m)
 {
 	fibonacci(m, 1);
 }
 void
 spiral(Monitor *m)
 {
 	fibonacci(m, 0);
 }
 static void
 tile(Monitor *m)
 {
 	unsigned int i, n;
 	int oh, ov, ih, iv;
 	int mx = 0, my = 0, mh = 0, mw = 0;
 	int sx = 0, sy = 0, sh = 0, sw = 0;
 	float mfacts, sfacts;
 	int mrest, srest;
 	Client *c;
 	getgaps(m, &oh, &ov, &ih, &iv, &n);
 	if (n == 0)
 		return;
 	sx = mx = m->wx + ov;
 	sy = my = m->wy + oh;
 	mh = m->wh - 2*oh - ih * (MIN(n, m->nmaster) - 1);
 	sh = m->wh - 2*oh - ih * (n - m->nmaster - 1);
 	sw = mw = m->ww - 2*ov;
 	if (m->nmaster && n > m->nmaster) {
 		sw = (mw - iv) * (1 - m->mfact);
 		mw = mw - iv - sw;
 		sx = mx + mw + iv;
 	}
 	getfacts(m, mh, sh, &mfacts, &sfacts, &mrest, &srest);
 	for (i = 0, c = nexttiled(m->clients); c; c = nexttiled(c->next), i++)
 		if (i < m->nmaster) {
 			resize(c, mx, my, mw - (2*c->bw), mh * (c->cfact / mfacts) + (i < mrest ? 1 : 0) - (2*c->bw), 0);
 			my += HEIGHT(c) + ih;
 		} else {
 			resize(c, sx, sy, sw - (2*c->bw), sh * (c->cfact / sfacts) + ((i - m->nmaster) < srest ? 1 : 0) - (2*c->bw), 0);
 			sy += HEIGHT(c) + ih;
 		}
 }