/* * Copyright (c) 1981, 1993, 1994 * The Regents of the University of California. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the University of * California, Berkeley and its contributors. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef lint static char sccsid[] = "@(#)refresh.c 8.4 (Berkeley) 8/4/94"; #endif /* not lint */ #include #include "curses.h" static int curwin; static short ly, lx; static void domvcur __P((int, int, int, int)); static int makech __P((WINDOW *, int)); static void quickch __P((WINDOW *)); static void scrolln __P((WINDOW *, int, int, int, int, int)); /* * wrefresh -- * Make the current screen look like "win" over the area coverd by * win. */ int wrefresh(win) register WINDOW *win; { register __LINE *wlp; register int retval; register short wy; int dnum; /* Initialize loop parameters. */ ly = curscr->cury; lx = curscr->curx; wy = 0; curwin = (win == curscr); if (!curwin) for (wy = 0; wy < win->maxy; wy++) { wlp = win->lines[wy]; if (wlp->flags & __ISDIRTY) wlp->hash = __hash((char *) wlp->line, win->maxx * __LDATASIZE); } if (win->flags & __CLEAROK || curscr->flags & __CLEAROK || curwin) { if ((win->flags & __FULLWIN) || curscr->flags & __CLEAROK) { tputs(CL, 0, __cputchar); ly = 0; lx = 0; if (!curwin) { curscr->flags &= ~__CLEAROK; curscr->cury = 0; curscr->curx = 0; werase(curscr); } __touchwin(win); } win->flags &= ~__CLEAROK; } if (!CA) { if (win->curx != 0) putchar('\n'); if (!curwin) werase(curscr); } #ifdef DEBUG __CTRACE("wrefresh: (%0.2o): curwin = %d\n", win, curwin); __CTRACE("wrefresh: \tfirstch\tlastch\n"); #endif #ifndef NOQCH if ((win->flags & __FULLWIN) && !curwin) { /* * Invoke quickch() only if more than a quarter of the lines * in the window are dirty. */ for (wy = 0, dnum = 0; wy < win->maxy; wy++) if (win->lines[wy]->flags & (__ISDIRTY | __FORCEPAINT)) dnum++; if (!__noqch && dnum > (int) win->maxy / 4) quickch(win); } #endif #ifdef DEBUG { int i, j; __CTRACE("#####################################\n"); for (i = 0; i < curscr->maxy; i++) { __CTRACE("C: %d:", i); __CTRACE(" 0x%x \n", curscr->lines[i]->hash); for (j = 0; j < curscr->maxx; j++) __CTRACE("%c", curscr->lines[i]->line[j].ch); __CTRACE("\n"); for (j = 0; j < curscr->maxx; j++) __CTRACE("%x", curscr->lines[i]->line[j].attr); __CTRACE("\n"); __CTRACE("W: %d:", i); __CTRACE(" 0x%x \n", win->lines[i]->hash); __CTRACE(" 0x%x ", win->lines[i]->flags); for (j = 0; j < win->maxx; j++) __CTRACE("%c", win->lines[i]->line[j].ch); __CTRACE("\n"); for (j = 0; j < win->maxx; j++) __CTRACE("%x", win->lines[i]->line[j].attr); __CTRACE("\n"); } } #endif /* DEBUG */ for (wy = 0; wy < win->maxy; wy++) { #ifdef DEBUG __CTRACE("%d\t%d\t%d\n", wy, *win->lines[wy]->firstchp, *win->lines[wy]->lastchp); #endif if (!curwin) curscr->lines[wy]->hash = win->lines[wy]->hash; if (win->lines[wy]->flags & (__ISDIRTY | __FORCEPAINT)) { if (makech(win, wy) == ERR) return (ERR); else { if (*win->lines[wy]->firstchp >= win->ch_off) *win->lines[wy]->firstchp = win->maxx + win->ch_off; if (*win->lines[wy]->lastchp < win->maxx + win->ch_off) *win->lines[wy]->lastchp = win->ch_off; if (*win->lines[wy]->lastchp < *win->lines[wy]->firstchp) { #ifdef DEBUG __CTRACE("wrefresh: line %d notdirty \n", wy); #endif win->lines[wy]->flags &= ~__ISDIRTY; } } } #ifdef DEBUG __CTRACE("\t%d\t%d\n", *win->lines[wy]->firstchp, *win->lines[wy]->lastchp); #endif } #ifdef DEBUG __CTRACE("refresh: ly=%d, lx=%d\n", ly, lx); #endif if (win == curscr) domvcur(ly, lx, win->cury, win->curx); else { if (win->flags & __LEAVEOK) { curscr->cury = ly; curscr->curx = lx; ly -= win->begy; lx -= win->begx; if (ly >= 0 && ly < win->maxy && lx >= 0 && lx < win->maxx) { win->cury = ly; win->curx = lx; } else win->cury = win->curx = 0; } else { domvcur(ly, lx, win->cury + win->begy, win->curx + win->begx); curscr->cury = win->cury + win->begy; curscr->curx = win->curx + win->begx; } } retval = OK; (void)fflush(stdout); return (retval); } /* * makech -- * Make a change on the screen. */ static int makech(win, wy) register WINDOW *win; int wy; { static __LDATA blank = {' ', 0}; register int nlsp, clsp; /* Last space in lines. */ register int wx, lch, y; register __LDATA *nsp, *csp, *cp, *cep; u_int force; char *ce; /* Is the cursor still on the end of the last line? */ if (wy > 0 && win->lines[wy - 1]->flags & __ISPASTEOL) { domvcur(ly, lx, ly + 1, 0); ly++; lx = 0; } wx = *win->lines[wy]->firstchp - win->ch_off; if (wx < 0) wx = 0; else if (wx >= win->maxx) return (OK); lch = *win->lines[wy]->lastchp - win->ch_off; if (lch < 0) return (OK); else if (lch >= (int) win->maxx) lch = win->maxx - 1; y = wy + win->begy; if (curwin) csp = ␣ else csp = &curscr->lines[wy + win->begy]->line[wx + win->begx]; nsp = &win->lines[wy]->line[wx]; force = win->lines[wy]->flags & __FORCEPAINT; win->lines[wy]->flags &= ~__FORCEPAINT; if (CE && !curwin) { for (cp = &win->lines[wy]->line[win->maxx - 1]; cp->ch == ' ' && cp->attr == 0; cp--) if (cp <= win->lines[wy]->line) break; nlsp = cp - win->lines[wy]->line; } if (!curwin) ce = CE; else ce = NULL; if (force) { if (CM) tputs(tgoto(CM, lx, ly), 0, __cputchar); else { tputs(HO, 0, __cputchar); __mvcur(0, 0, ly, lx, 1); } } while (wx <= lch) { if (!force && memcmp(nsp, csp, sizeof(__LDATA)) == 0) { if (wx <= lch) { while (wx <= lch && memcmp(nsp, csp, sizeof(__LDATA)) == 0) { nsp++; if (!curwin) csp++; ++wx; } continue; } break; } domvcur(ly, lx, y, wx + win->begx); #ifdef DEBUG __CTRACE("makech: 1: wx = %d, ly= %d, lx = %d, newy = %d, newx = %d, force =%d\n", wx, ly, lx, y, wx + win->begx, force); #endif ly = y; lx = wx + win->begx; while ((force || memcmp(nsp, csp, sizeof(__LDATA)) != 0) && wx <= lch) { if (ce != NULL && win->maxx + win->begx == curscr->maxx && wx >= nlsp && nsp->ch == ' ') { /* Check for clear to end-of-line. */ cep = &curscr->lines[wy]->line[win->maxx - 1]; while (cep->ch == ' ' && cep->attr == 0) if (cep-- <= csp) break; clsp = cep - curscr->lines[wy]->line - win->begx * __LDATASIZE; #ifdef DEBUG __CTRACE("makech: clsp = %d, nlsp = %d\n", clsp, nlsp); #endif if ((clsp - nlsp >= strlen(CE) && clsp < win->maxx * __LDATASIZE) || wy == win->maxy - 1) { #ifdef DEBUG __CTRACE("makech: using CE\n"); #endif tputs(CE, 0, __cputchar); lx = wx + win->begx; while (wx++ <= clsp) { csp->ch = ' '; csp->attr = 0; csp++; } return (OK); } ce = NULL; } /* Enter/exit standout mode as appropriate. */ if (SO && (nsp->attr & __STANDOUT) != (curscr->flags & __WSTANDOUT)) { if (nsp->attr & __STANDOUT) { tputs(SO, 0, __cputchar); curscr->flags |= __WSTANDOUT; } else { tputs(SE, 0, __cputchar); curscr->flags &= ~__WSTANDOUT; } } wx++; if (wx >= win->maxx && wy == win->maxy - 1 && !curwin) if (win->flags & __SCROLLOK) { if (curscr->flags & __WSTANDOUT && win->flags & __ENDLINE) if (!MS) { tputs(SE, 0, __cputchar); curscr->flags &= ~__WSTANDOUT; } if (!(win->flags & __SCROLLWIN)) { if (!curwin) { csp->attr = nsp->attr; putchar(csp->ch = nsp->ch); } else putchar(nsp->ch); } if (wx + win->begx < curscr->maxx) { domvcur(ly, wx + win->begx, win->begy + win->maxy - 1, win->begx + win->maxx - 1); } ly = win->begy + win->maxy - 1; lx = win->begx + win->maxx - 1; return (OK); } if (wx < win->maxx || wy < win->maxy - 1 || !(win->flags & __SCROLLWIN)) { if (!curwin) { csp->attr = nsp->attr; putchar(csp->ch = nsp->ch); csp++; } else putchar(nsp->ch); } #ifdef DEBUG __CTRACE("makech: putchar(%c)\n", nsp->ch & 0177); #endif if (UC && (nsp->attr & __STANDOUT)) { putchar('\b'); tputs(UC, 0, __cputchar); } nsp++; #ifdef DEBUG __CTRACE("makech: 2: wx = %d, lx = %d\n", wx, lx); #endif } if (lx == wx + win->begx) /* If no change. */ break; lx = wx + win->begx; if (lx >= COLS && AM) lx = COLS - 1; else if (wx >= win->maxx) { domvcur(ly, lx, ly, win->maxx + win->begx - 1); lx = win->maxx + win->begx - 1; } #ifdef DEBUG __CTRACE("makech: 3: wx = %d, lx = %d\n", wx, lx); #endif } return (OK); } /* * domvcur -- * Do a mvcur, leaving standout mode if necessary. */ static void domvcur(oy, ox, ny, nx) int oy, ox, ny, nx; { if (curscr->flags & __WSTANDOUT && !MS) { tputs(SE, 0, __cputchar); curscr->flags &= ~__WSTANDOUT; } __mvcur(oy, ox, ny, nx, 1); } /* * Quickch() attempts to detect a pattern in the change of the window * in order to optimize the change, e.g., scroll n lines as opposed to * repainting the screen line by line. */ static void quickch(win) WINDOW *win; { #define THRESH (int) win->maxy / 4 register __LINE *clp, *tmp1, *tmp2; register int bsize, curs, curw, starts, startw, i, j; int n, target, cur_period, bot, top, sc_region; __LDATA buf[1024]; u_int blank_hash; /* * Find how many lines from the top of the screen are unchanged. */ for (top = 0; top < win->maxy; top++) if (win->lines[top]->flags & __FORCEPAINT || win->lines[top]->hash != curscr->lines[top]->hash || memcmp(win->lines[top]->line, curscr->lines[top]->line, win->maxx * __LDATASIZE) != 0) break; else win->lines[top]->flags &= ~__ISDIRTY; /* * Find how many lines from bottom of screen are unchanged. */ for (bot = win->maxy - 1; bot >= 0; bot--) if (win->lines[bot]->flags & __FORCEPAINT || win->lines[bot]->hash != curscr->lines[bot]->hash || memcmp(win->lines[bot]->line, curscr->lines[bot]->line, win->maxx * __LDATASIZE) != 0) break; else win->lines[bot]->flags &= ~__ISDIRTY; #ifdef NO_JERKINESS /* * If we have a bottom unchanged region return. Scrolling the * bottom region up and then back down causes a screen jitter. * This will increase the number of characters sent to the screen * but it looks better. */ if (bot < win->maxy - 1) return; #endif /* NO_JERKINESS */ /* * Search for the largest block of text not changed. * Invariants of the loop: * - Startw is the index of the beginning of the examined block in win. * - Starts is the index of the beginning of the examined block in * curscr. * - Curs is the index of one past the end of the exmined block in win. * - Curw is the index of one past the end of the exmined block in * curscr. * - bsize is the current size of the examined block. */ for (bsize = bot - top; bsize >= THRESH; bsize--) { for (startw = top; startw <= bot - bsize; startw++) for (starts = top; starts <= bot - bsize; starts++) { for (curw = startw, curs = starts; curs < starts + bsize; curw++, curs++) if (win->lines[curw]->flags & __FORCEPAINT || (win->lines[curw]->hash != curscr->lines[curs]->hash || memcmp(win->lines[curw]->line, curscr->lines[curs]->line, win->maxx * __LDATASIZE) != 0)) break; if (curs == starts + bsize) goto done; } } done: /* Did not find anything */ if (bsize < THRESH) return; #ifdef DEBUG __CTRACE("quickch:bsize=%d,starts=%d,startw=%d,curw=%d,curs=%d,top=%d,bot=%d\n", bsize, starts, startw, curw, curs, top, bot); #endif /* * Make sure that there is no overlap between the bottom and top * regions and the middle scrolled block. */ if (bot < curs) bot = curs - 1; if (top > starts) top = starts; n = startw - starts; #ifdef DEBUG __CTRACE("#####################################\n"); for (i = 0; i < curscr->maxy; i++) { __CTRACE("C: %d:", i); __CTRACE(" 0x%x \n", curscr->lines[i]->hash); for (j = 0; j < curscr->maxx; j++) __CTRACE("%c", curscr->lines[i]->line[j].ch); __CTRACE("\n"); for (j = 0; j < curscr->maxx; j++) __CTRACE("%x", curscr->lines[i]->line[j].attr); __CTRACE("\n"); __CTRACE("W: %d:", i); __CTRACE(" 0x%x \n", win->lines[i]->hash); __CTRACE(" 0x%x ", win->lines[i]->flags); for (j = 0; j < win->maxx; j++) __CTRACE("%c", win->lines[i]->line[j].ch); __CTRACE("\n"); for (j = 0; j < win->maxx; j++) __CTRACE("%x", win->lines[i]->line[j].attr); __CTRACE("\n"); } #endif /* So we don't have to call __hash() each time */ for (i = 0; i < win->maxx; i++) { buf[i].ch = ' '; buf[i].attr = 0; } blank_hash = __hash((char *) buf, win->maxx * __LDATASIZE); /* * Perform the rotation to maintain the consistency of curscr. * This is hairy since we are doing an *in place* rotation. * Invariants of the loop: * - I is the index of the current line. * - Target is the index of the target of line i. * - Tmp1 points to current line (i). * - Tmp2 and points to target line (target); * - Cur_period is the index of the end of the current period. * (see below). * * There are 2 major issues here that make this rotation non-trivial: * 1. Scrolling in a scrolling region bounded by the top * and bottom regions determined (whose size is sc_region). * 2. As a result of the use of the mod function, there may be a * period introduced, i.e., 2 maps to 4, 4 to 6, n-2 to 0, and * 0 to 2, which then causes all odd lines not to be rotated. * To remedy this, an index of the end ( = beginning) of the * current 'period' is kept, cur_period, and when it is reached, * the next period is started from cur_period + 1 which is * guaranteed not to have been reached since that would mean that * all records would have been reached. (think about it...). * * Lines in the rotation can have 3 attributes which are marked on the * line so that curscr is consistent with the visual screen. * 1. Not dirty -- lines inside the scrolled block, top region or * bottom region. * 2. Blank lines -- lines in the differential of the scrolling * region adjacent to top and bot regions * depending on scrolling direction. * 3. Dirty line -- all other lines are marked dirty. */ sc_region = bot - top + 1; i = top; tmp1 = curscr->lines[top]; cur_period = top; for (j = top; j <= bot; j++) { target = (i - top + n + sc_region) % sc_region + top; tmp2 = curscr->lines[target]; curscr->lines[target] = tmp1; /* Mark block as clean and blank out scrolled lines. */ clp = curscr->lines[target]; #ifdef DEBUG __CTRACE("quickch: n=%d startw=%d curw=%d i = %d target=%d ", n, startw, curw, i, target); #endif if ((target >= startw && target < curw) || target < top || target > bot) { #ifdef DEBUG __CTRACE("-- notdirty"); #endif win->lines[target]->flags &= ~__ISDIRTY; } else if ((n > 0 && target >= top && target < top + n) || (n < 0 && target <= bot && target > bot + n)) { if (clp->hash != blank_hash || memcmp(clp->line, buf, win->maxx * __LDATASIZE) !=0) { (void)memcpy(clp->line, buf, win->maxx * __LDATASIZE); #ifdef DEBUG __CTRACE("-- blanked out: dirty"); #endif clp->hash = blank_hash; __touchline(win, target, 0, win->maxx - 1, 0); } else { __touchline(win, target, 0, win->maxx - 1, 0); #ifdef DEBUG __CTRACE(" -- blank line already: dirty"); #endif } } else { #ifdef DEBUG __CTRACE(" -- dirty"); #endif __touchline(win, target, 0, win->maxx - 1, 0); } #ifdef DEBUG __CTRACE("\n"); #endif if (target == cur_period) { i = target + 1; tmp1 = curscr->lines[i]; cur_period = i; } else { tmp1 = tmp2; i = target; } } #ifdef DEBUG __CTRACE("$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$$\n"); for (i = 0; i < curscr->maxy; i++) { __CTRACE("C: %d:", i); for (j = 0; j < curscr->maxx; j++) __CTRACE("%c", curscr->lines[i]->line[j].ch); __CTRACE("\n"); __CTRACE("W: %d:", i); for (j = 0; j < win->maxx; j++) __CTRACE("%c", win->lines[i]->line[j].ch); __CTRACE("\n"); } #endif if (n != 0) { WINDOW *wp; scrolln(win, starts, startw, curs, bot, top); /* * Need to repoint any subwindow lines to the rotated * line structured. */ for (wp = win->nextp; wp != win; wp = wp->nextp) __set_subwin(win, wp); } } /* * scrolln -- * Scroll n lines, where n is starts - startw. */ static void scrolln(win, starts, startw, curs, bot, top) WINDOW *win; int starts, startw, curs, bot, top; { int i, oy, ox, n; oy = curscr->cury; ox = curscr->curx; n = starts - startw; /* * XXX * The initial tests that set __noqch don't let us reach here unless * we have either CS + HO + SF/sf/SR/sr, or AL + DL. SF/sf and SR/sr * scrolling can only shift the entire scrolling region, not just a * part of it, which means that the quickch() routine is going to be * sadly disappointed in us if we don't have CS as well. * * If CS, HO and SF/sf are set, can use the scrolling region. Because * the cursor position after CS is undefined, we need HO which gives us * the ability to move to somewhere without knowledge of the current * location of the cursor. Still call __mvcur() anyway, to update its * idea of where the cursor is. * * When the scrolling region has been set, the cursor has to be at the * last line of the region to make the scroll happen. * * Doing SF/SR or AL/DL appears faster on the screen than either sf/sr * or al/dl, and, some terminals have AL/DL, sf/sr, and CS, but not * SF/SR. So, if we're scrolling almost all of the screen, try and use * AL/DL, otherwise use the scrolling region. The "almost all" is a * shameless hack for vi. */ if (n > 0) { if (CS != NULL && HO != NULL && (SF != NULL || (AL == NULL || DL == NULL || top > 3 || bot + 3 < win->maxy) && sf != NULL)) { tputs(__tscroll(CS, top, bot + 1), 0, __cputchar); __mvcur(oy, ox, 0, 0, 1); tputs(HO, 0, __cputchar); __mvcur(0, 0, bot, 0, 1); if (SF != NULL) tputs(__tscroll(SF, n, 0), 0, __cputchar); else for (i = 0; i < n; i++) tputs(sf, 0, __cputchar); tputs(__tscroll(CS, 0, win->maxy), 0, __cputchar); __mvcur(bot, 0, 0, 0, 1); tputs(HO, 0, __cputchar); __mvcur(0, 0, oy, ox, 1); return; } /* Scroll up the block. */ __mvcur(oy, ox, top, 0, 1); if (SF != NULL && top == 0) tputs(__tscroll(SF, n, 0), 0, __cputchar); else if (DL != NULL) tputs(__tscroll(DL, n, 0), 0, __cputchar); else if (dl != NULL) for (i = 0; i < n; i++) tputs(dl, 0, __cputchar); else if (sf != NULL && top == 0) for (i = 0; i < n; i++) tputs(sf, 0, __cputchar); else abort(); /* Push down the bottom region. */ __mvcur(top, 0, bot - n + 1, 0, 1); if (AL != NULL) tputs(__tscroll(AL, n, 0), 0, __cputchar); else if (al != NULL) for (i = 0; i < n; i++) tputs(al, 0, __cputchar); else abort(); __mvcur(bot - n + 1, 0, oy, ox, 1); } else { /* * !!! * n < 0 * * If CS, HO and SR/sr are set, can use the scrolling region. * See the above comments for details. */ if (CS != NULL && HO != NULL && (SR != NULL || (AL == NULL || DL == NULL || top > 3 || bot + 3 < win->maxy) && sr != NULL)) { tputs(__tscroll(CS, top, bot + 1), 0, __cputchar); __mvcur(oy, ox, 0, 0, 1); tputs(HO, 0, __cputchar); __mvcur(0, 0, top, 0, 1); if (SR != NULL) tputs(__tscroll(SR, -n, 0), 0, __cputchar); else for (i = n; i < 0; i++) tputs(sr, 0, __cputchar); tputs(__tscroll(CS, 0, win->maxy), 0, __cputchar); __mvcur(top, 0, 0, 0, 1); tputs(HO, 0, __cputchar); __mvcur(0, 0, oy, ox, 1); return; } /* Preserve the bottom lines. */ __mvcur(oy, ox, bot + n + 1, 0, 1); if (SR != NULL && bot == win->maxy) tputs(__tscroll(SR, -n, 0), 0, __cputchar); else if (DL != NULL) tputs(__tscroll(DL, -n, 0), 0, __cputchar); else if (dl != NULL) for (i = n; i < 0; i++) tputs(dl, 0, __cputchar); else if (sr != NULL && bot == win->maxy) for (i = n; i < 0; i++) tputs(sr, 0, __cputchar); else abort(); /* Scroll the block down. */ __mvcur(bot + n + 1, 0, top, 0, 1); if (AL != NULL) tputs(__tscroll(AL, -n, 0), 0, __cputchar); else if (al != NULL) for (i = n; i < 0; i++) tputs(al, 0, __cputchar); else abort(); __mvcur(top, 0, oy, ox, 1); } }