/* * Copyright (c) 1981, 1993 * 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 /* from: static char sccsid[] = "@(#)cr_put.c 8.1 (Berkeley) 6/11/93"; */ static char *rcsid = "$Id: cr_put.c,v 1.6 1993/11/09 04:07:04 cgd Exp $"; #endif /* not lint */ #include #include #include #define HARDTABS 8 /* * Terminal driving and line formatting routines. Basic motion optimizations * are done here as well as formatting lines (printing of control characters, * line numbering and the like). */ /* Stub function for the users. */ int mvcur(ly, lx, y, x) int ly, lx, y, x; { return (__mvcur(ly, lx, y, x, 0)); } static void fgoto __P((int)); static int plod __P((int, int)); static void plodput __P((int)); static int tabcol __P((int, int)); static int outcol, outline, destcol, destline; /* * Sync the position of the output cursor. Most work here is rounding for * terminal boundaries getting the column position implied by wraparound or * the lack thereof and rolling up the screen to get destline on the screen. */ int __mvcur(ly, lx, y, x, in_refresh) int ly, lx, y, x, in_refresh; { #ifdef DEBUG __CTRACE("mvcur: moving cursor from (%d, %d) to (%d, %d)\n", ly, lx, y, x); #endif destcol = x; destline = y; outcol = lx; outline = ly; fgoto(in_refresh); return (OK); } static void fgoto(in_refresh) int in_refresh; { register int c, l; register char *cgp; if (destcol >= COLS) { destline += destcol / COLS; destcol %= COLS; } if (outcol >= COLS) { l = (outcol + 1) / COLS; outline += l; outcol %= COLS; if (AM == 0) { while (l > 0) { if (__pfast) if (CR) tputs(CR, 0, __cputchar); else putchar('\r'); if (NL) tputs(NL, 0, __cputchar); else putchar('\n'); l--; } outcol = 0; } if (outline > LINES - 1) { destline -= outline - (LINES - 1); outline = LINES - 1; } } if (destline >= LINES) { l = destline; destline = LINES - 1; if (outline < LINES - 1) { c = destcol; if (__pfast == 0 && !CA) destcol = 0; fgoto(in_refresh); destcol = c; } while (l >= LINES) { /* The following linefeed (or simulation thereof) is * supposed to scroll up the screen, since we are on * the bottom line. We make the assumption that * linefeed will scroll. If ns is in the capability * list this won't work. We should probably have an * sc capability but sf will generally take the place * if it works. * * Superbee glitch: in the middle of the screen have * to use esc B (down) because linefeed screws up in * "Efficient Paging" (what a joke) mode (which is * essential in some SB's because CRLF mode puts * garbage in at end of memory), but you must use * linefeed to scroll since down arrow won't go past * memory end. I turned this off after recieving Paul * Eggert's Superbee description which wins better. */ if (NL /* && !XB */ && __pfast) tputs(NL, 0, __cputchar); else putchar('\n'); l--; if (__pfast == 0) outcol = 0; } } if (destline < outline && !(CA || UP)) destline = outline; if (CA) { cgp = tgoto(CM, destcol, destline); /* * Need this condition due to inconsistent behavior * of backspace on the last column. */ if (outcol != COLS - 1 && plod(strlen(cgp), in_refresh) > 0) plod(0, in_refresh); else tputs(cgp, 0, __cputchar); } else plod(0, in_refresh); outline = destline; outcol = destcol; } /* * Move (slowly) to destination. * Hard thing here is using home cursor on really deficient terminals. * Otherwise just use cursor motions, hacking use of tabs and overtabbing * and backspace. */ static int plodcnt, plodflg; static void plodput(c) int c; { if (plodflg) --plodcnt; else putchar(c); } static int plod(cnt, in_refresh) int cnt, in_refresh; { register int i, j, k, soutcol, soutline; plodcnt = plodflg = cnt; soutcol = outcol; soutline = outline; /* * Consider homing and moving down/right from there, vs. moving * directly with local motions to the right spot. */ if (HO) { /* * i is the cost to home and tab/space to the right to get to * the proper column. This assumes ND space costs 1 char. So * i + destcol is cost of motion with home. */ if (GT) i = (destcol / HARDTABS) + (destcol % HARDTABS); else i = destcol; /* j is cost to move locally without homing. */ if (destcol >= outcol) { /* if motion is to the right */ j = destcol / HARDTABS - outcol / HARDTABS; if (GT && j) j += destcol % HARDTABS; else j = destcol - outcol; } else /* leftward motion only works if we can backspace. */ if (outcol - destcol <= i && (BS || BC)) /* Cheaper to backspace. */ i = j = outcol - destcol; else /* Impossibly expensive. */ j = i + 1; /* k is the absolute value of vertical distance. */ k = outline - destline; if (k < 0) k = -k; j += k; /* Decision. We may not have a choice if no UP. */ if (i + destline < j || (!UP && destline < outline)) { /* * Cheaper to home. Do it now and pretend it's a * regular local motion. */ tputs(HO, 0, plodput); outcol = outline = 0; } else if (LL) { /* * Quickly consider homing down and moving from there. * Assume cost of LL is 2. */ k = (LINES - 1) - destline; if (i + k + 2 < j && (k <= 0 || UP)) { tputs(LL, 0, plodput); outcol = 0; outline = LINES - 1; } } } else /* No home and no up means it's impossible. */ if (!UP && destline < outline) return (-1); if (GT) i = destcol % HARDTABS + destcol / HARDTABS; else i = destcol; #ifdef notdef if (BT && outcol > destcol && (j = (((outcol+7) & ~7) - destcol - 1) >> 3)) { j *= (k = strlen(BT)); if ((k += (destcol&7)) > 4) j += 8 - (destcol&7); else j += k; } else #endif j = outcol - destcol; /* * If we will later need a \n which will turn into a \r\n by the * system or the terminal, then don't bother to try to \r. */ if ((NONL || !__pfast) && outline < destline) goto dontcr; /* * If the terminal will do a \r\n and there isn't room for it, then * we can't afford a \r. */ if (NC && outline >= destline) goto dontcr; /* * If it will be cheaper, or if we can't back up, then send a return * preliminarily. */ if (j > i + 1 || outcol > destcol && !BS && !BC) { /* * BUG: this doesn't take the (possibly long) length of CR * into account. */ if (CR) tputs(CR, 0, plodput); else plodput('\r'); if (NC) { if (NL) tputs(NL, 0, plodput); else plodput('\n'); outline++; } outcol = 0; } dontcr: while (outline < destline) { outline++; if (NL) tputs(NL, 0, plodput); else plodput('\n'); if (plodcnt < 0) goto out; if (NONL || __pfast == 0) outcol = 0; } if (BT) k = strlen(BT); while (outcol > destcol) { if (plodcnt < 0) goto out; #ifdef notdef if (BT && outcol - destcol > k + 4) { tputs(BT, 0, plodput); outcol--; outcol &= ~7; continue; } #endif outcol--; if (BC) tputs(BC, 0, plodput); else plodput('\b'); } while (outline > destline) { outline--; tputs(UP, 0, plodput); if (plodcnt < 0) goto out; } if (GT && destcol - outcol > 1) { for (;;) { i = tabcol(outcol, HARDTABS); if (i > destcol) break; if (TA) tputs(TA, 0, plodput); else plodput('\t'); outcol = i; } if (destcol - outcol > 4 && i < COLS && (BC || BS)) { if (TA) tputs(TA, 0, plodput); else plodput('\t'); outcol = i; while (outcol > destcol) { outcol--; if (BC) tputs(BC, 0, plodput); else plodput('\b'); } } } while (outcol < destcol) { /* * Move one char to the right. We don't use ND space because * it's better to just print the char we are moving over. */ if (in_refresh) if (plodflg) /* Avoid a complex calculation. */ plodcnt--; else { i = curscr->lines[outline]->line[outcol].ch; if ((curscr->lines[outline]->line[outcol].attr & __STANDOUT) == (curscr->flags & __WSTANDOUT)) putchar(i); else goto nondes; } else nondes: if (ND) tputs(ND, 0, plodput); else plodput(' '); outcol++; if (plodcnt < 0) goto out; } out: if (plodflg) { outcol = soutcol; outline = soutline; } return (plodcnt); } /* * Return the column number that results from being in column col and * hitting a tab, where tabs are set every ts columns. Work right for * the case where col > COLS, even if ts does not divide COLS. */ static int tabcol(col, ts) int col, ts; { int offset; if (col >= COLS) { offset = COLS * (col / COLS); col -= offset; } else offset = 0; return (col + ts - (col % ts) + offset); }