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  1. /*
  2. * (C)opyright MMVI Anselm R. Garbe <garbeam at gmail dot com>
  3. * See LICENSE file for license details.
  4. */
  5. #include "dwm.h"
  6. /* static */
  7. static Client *
  8. minclient(void) {
  9. Client *c, *min;
  10. if((clients && clients->isfloat) || arrange == dofloat)
  11. return clients; /* don't touch floating order */
  12. for(min = c = clients; c; c = c->next)
  13. if(c->weight < min->weight)
  14. min = c;
  15. return min;
  16. }
  17. static Client *
  18. nexttiled(Client *c) {
  19. for(c = getnext(c); c && c->isfloat; c = getnext(c->next));
  20. return c;
  21. }
  22. static void
  23. reorder(void) {
  24. Client *c, *newclients, *tail;
  25. newclients = tail = NULL;
  26. while((c = minclient())) {
  27. detach(c);
  28. if(tail) {
  29. c->prev = tail;
  30. tail->next = c;
  31. tail = c;
  32. }
  33. else
  34. tail = newclients = c;
  35. }
  36. clients = newclients;
  37. }
  38. static void
  39. togglemax(Client *c)
  40. {
  41. XEvent ev;
  42. if((c->ismax = !c->ismax)) {
  43. c->rx = c->x; c->x = sx;
  44. c->ry = c->y; c->y = bh;
  45. c->rw = c->w; c->w = sw - 2 * BORDERPX;
  46. c->rh = c->h; c->h = sh - bh - 2 * BORDERPX;
  47. }
  48. else {
  49. c->x = c->rx;
  50. c->y = c->ry;
  51. c->w = c->rw;
  52. c->h = c->rh;
  53. }
  54. resize(c, True, TopLeft);
  55. while(XCheckMaskEvent(dpy, EnterWindowMask, &ev));
  56. }
  57. /* extern */
  58. void (*arrange)(Arg *) = DEFMODE;
  59. StackPos stackpos = STACKPOS;
  60. void
  61. detach(Client *c) {
  62. if(c->prev)
  63. c->prev->next = c->next;
  64. if(c->next)
  65. c->next->prev = c->prev;
  66. if(c == clients)
  67. clients = c->next;
  68. c->next = c->prev = NULL;
  69. }
  70. void
  71. dofloat(Arg *arg) {
  72. Client *c;
  73. for(c = clients; c; c = c->next) {
  74. if(isvisible(c)) {
  75. resize(c, True, TopLeft);
  76. }
  77. else
  78. ban(c);
  79. }
  80. if(!sel || !isvisible(sel)) {
  81. for(c = stack; c && !isvisible(c); c = c->snext);
  82. focus(c);
  83. }
  84. restack();
  85. }
  86. /* This algorithm is based on a (M)aster area and a (S)tacking area.
  87. * It supports following arrangements:
  88. * SSMMM MMMMM MMMSS
  89. * SSMMM SSSSS MMMSS
  90. */
  91. void
  92. dotile(Arg *arg) {
  93. unsigned int i, n, md, stackw, stackh, tw, th;
  94. Client *c;
  95. for(n = 0, c = nexttiled(clients); c; c = nexttiled(c->next))
  96. n++;
  97. if(stackpos == StackBottom) {
  98. md = ((sh - bh) * master) / 1000;
  99. stackw = sw;
  100. stackh = sh - bh - md;
  101. }
  102. else {
  103. md = (sw * master) / 1000;
  104. stackw = sw - md;
  105. stackh = sh - bh;
  106. }
  107. tw = stackw;
  108. if(n > 1)
  109. th = stackh / (n - 1);
  110. else
  111. th = stackh;
  112. for(i = 0, c = clients; c; c = c->next) {
  113. if(isvisible(c)) {
  114. if(c->isfloat) {
  115. resize(c, True, TopLeft);
  116. continue;
  117. }
  118. c->ismax = False;
  119. c->x = sx;
  120. c->y = sy + bh;
  121. if(n == 1) { /* only 1 window */
  122. c->w = sw - 2 * BORDERPX;
  123. c->h = sh - 2 * BORDERPX - bh;
  124. }
  125. else if(i == 0) { /* master window */
  126. if(stackpos == StackLeft)
  127. c->x += stackw;
  128. switch(stackpos) {
  129. case StackLeft:
  130. case StackRight:
  131. c->w = md - 2 * BORDERPX;
  132. c->h = sh - bh - 2 * BORDERPX;
  133. break;
  134. case StackBottom:
  135. c->w = sw - 2 * BORDERPX;
  136. c->h = md - 2 * BORDERPX;
  137. break;
  138. }
  139. }
  140. else { /* tile window */
  141. if(stackpos == StackRight)
  142. c->x += md;
  143. if(th > bh) {
  144. switch(stackpos) {
  145. case StackLeft:
  146. case StackRight:
  147. c->y = sy + (i - 1) * th + bh;
  148. if(i + 1 == n)
  149. c->h = sh - c->y - 2 * BORDERPX;
  150. break;
  151. case StackBottom:
  152. c->y = sy + md + (i - 1) * th + bh;
  153. if(i + 1 == n)
  154. c->h = sh - c->y - 2 * BORDERPX;
  155. break;
  156. }
  157. c->w = tw - 2 * BORDERPX;
  158. c->h = th - 2 * BORDERPX;
  159. }
  160. else { /* fallback if th < bh */
  161. if(stackpos == StackBottom)
  162. c->y += md;
  163. c->w = stackw - 2 * BORDERPX;
  164. c->h = stackh - 2 * BORDERPX;
  165. }
  166. }
  167. resize(c, False, TopLeft);
  168. i++;
  169. }
  170. else
  171. ban(c);
  172. }
  173. if(!sel || !isvisible(sel)) {
  174. for(c = stack; c && !isvisible(c); c = c->snext);
  175. focus(c);
  176. }
  177. restack();
  178. }
  179. void
  180. focusnext(Arg *arg) {
  181. Client *c;
  182. if(!sel)
  183. return;
  184. if(!(c = getnext(sel->next)))
  185. c = getnext(clients);
  186. if(c) {
  187. focus(c);
  188. restack();
  189. }
  190. }
  191. void
  192. focusprev(Arg *arg) {
  193. Client *c;
  194. if(!sel)
  195. return;
  196. if(!(c = getprev(sel->prev))) {
  197. for(c = clients; c && c->next; c = c->next);
  198. c = getprev(c);
  199. }
  200. if(c) {
  201. focus(c);
  202. restack();
  203. }
  204. }
  205. Bool
  206. isvisible(Client *c) {
  207. unsigned int i;
  208. for(i = 0; i < ntags; i++)
  209. if(c->tags[i] && seltag[i])
  210. return True;
  211. return False;
  212. }
  213. void
  214. resizecol(Arg *arg) {
  215. unsigned int n;
  216. Client *c;
  217. for(n = 0, c = clients; c; c = c->next)
  218. if(isvisible(c) && !c->isfloat)
  219. n++;
  220. if(!sel || sel->isfloat || n < 2 || (arrange == dofloat))
  221. return;
  222. if(sel == getnext(clients)) {
  223. if(master + arg->i > 950 || master + arg->i < 50)
  224. return;
  225. master += arg->i;
  226. }
  227. else {
  228. if(master - arg->i > 950 || master - arg->i < 50)
  229. return;
  230. master -= arg->i;
  231. }
  232. arrange(NULL);
  233. }
  234. void
  235. restack(void) {
  236. Client *c;
  237. XEvent ev;
  238. if(!sel) {
  239. drawstatus();
  240. return;
  241. }
  242. if(sel->isfloat || arrange == dofloat) {
  243. XRaiseWindow(dpy, sel->win);
  244. XRaiseWindow(dpy, sel->twin);
  245. }
  246. if(arrange != dofloat) {
  247. if(!sel->isfloat) {
  248. XLowerWindow(dpy, sel->twin);
  249. XLowerWindow(dpy, sel->win);
  250. }
  251. for(c = nexttiled(clients); c; c = nexttiled(c->next)) {
  252. if(c == sel)
  253. continue;
  254. XLowerWindow(dpy, c->twin);
  255. XLowerWindow(dpy, c->win);
  256. }
  257. }
  258. drawall();
  259. XSync(dpy, False);
  260. while(XCheckMaskEvent(dpy, EnterWindowMask, &ev));
  261. }
  262. void
  263. togglemode(Arg *arg) {
  264. arrange = (arrange == dofloat) ? dotile : dofloat;
  265. if(sel)
  266. arrange(NULL);
  267. else
  268. drawstatus();
  269. }
  270. void
  271. toggleview(Arg *arg) {
  272. unsigned int i;
  273. seltag[arg->i] = !seltag[arg->i];
  274. for(i = 0; i < ntags && !seltag[i]; i++);
  275. if(i == ntags)
  276. seltag[arg->i] = True; /* cannot toggle last view */
  277. reorder();
  278. arrange(NULL);
  279. }
  280. void
  281. togglestackpos(Arg *arg) {
  282. if(arrange == dofloat)
  283. return;
  284. if(stackpos == StackBottom)
  285. stackpos = STACKPOS;
  286. else
  287. stackpos = StackBottom;
  288. arrange(NULL);
  289. }
  290. void
  291. view(Arg *arg) {
  292. unsigned int i;
  293. for(i = 0; i < ntags; i++)
  294. seltag[i] = False;
  295. seltag[arg->i] = True;
  296. reorder();
  297. arrange(NULL);
  298. }
  299. void
  300. viewall(Arg *arg) {
  301. unsigned int i;
  302. for(i = 0; i < ntags; i++)
  303. seltag[i] = True;
  304. reorder();
  305. arrange(NULL);
  306. }
  307. void
  308. zoom(Arg *arg) {
  309. unsigned int n;
  310. Client *c;
  311. if(!sel)
  312. return;
  313. if(sel->isfloat || (arrange == dofloat)) {
  314. togglemax(sel);
  315. return;
  316. }
  317. for(n = 0, c = clients; c; c = c->next)
  318. if(isvisible(c) && !c->isfloat)
  319. n++;
  320. if(n < 2 || (arrange == dofloat))
  321. return;
  322. if((c = sel) == nexttiled(clients))
  323. if(!(c = nexttiled(c->next)))
  324. return;
  325. detach(c);
  326. if(clients)
  327. clients->prev = c;
  328. c->next = clients;
  329. clients = c;
  330. focus(c);
  331. arrange(NULL);
  332. }