/* * Copyright (c) 1980, 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 static char sccsid[] = "@(#)fancy.c 8.1 (Berkeley) 5/31/93"; #endif /* not lint */ #include #include #include #include "back.h" char PC; /* padding character */ char *BC; /* backspace sequence */ char *CD; /* clear to end of screen sequence */ char *CE; /* clear to end of line sequence */ char *CL; /* clear screen sequence */ char *CM; /* cursor movement instructions */ char *HO; /* home cursor sequence */ char *MC; /* column cursor movement map */ char *ML; /* row cursor movement map */ char *ND; /* forward cursor sequence */ char *UP; /* up cursor sequence */ int lHO; /* length of HO */ int lBC; /* length of BC */ int lND; /* length of ND */ int lUP; /* length of UP */ int CO; /* number of columns */ int LI; /* number of lines */ int *linect; /* array of lengths of lines on screen (the actual screen is not stored) */ /* two letter codes */ char tcap[] = "bccdceclcmhomcmlndup"; /* corresponding strings */ char **tstr[] = { &BC, &CD, &CE, &CL, &CM, &HO, &MC, &ML, &ND, &UP }; int buffnum; /* pointer to output buffer */ char tbuf[1024]; /* buffer for decoded termcap entries */ int oldb[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0}; int oldr; int oldw; /* "real" cursor positions, so * it knows when to reposition. * These are -1 if curr and curc * are accurate */ int realr; int realc; int addbuf __P((int)); fboard () { register int i, j, l; curmove (0,0); /* do top line */ for (i = 0; i < 53; i++) fancyc ('_'); curmove (15,0); /* do botttom line */ for (i = 0; i < 53; i++) fancyc ('_'); l = 1; /* do vertical lines */ for (i = 52; i > -1; i -= 28) { curmove ( (l == 1? 1: 15) ,i); fancyc ('|'); for (j = 0; j < 14; j++) { curmove (curr+l,curc-1); fancyc ('|'); } if (i == 24) i += 32; l = -l; /* alternate directions */ } curmove (2,1); /* label positions 13-18 */ for (i = 13; i < 18; i++) { fancyc ('1'); fancyc ((i % 10)+'0'); curmove (curr,curc+2); } fancyc ('1'); fancyc ('8'); curmove (2,29); /* label positions 19-24 */ fancyc ('1'); fancyc ('9'); for (i = 20; i < 25; i++) { curmove (curr,curc+2); fancyc ('2'); fancyc ((i % 10)+'0'); } curmove (14,1); /* label positions 12-7 */ fancyc ('1'); fancyc ('2'); for (i = 11; i > 6; i--) { curmove (curr,curc+2); fancyc (i > 9? '1': ' '); fancyc ((i % 10)+'0'); } curmove (14,30); /* label positions 6-1 */ fancyc ('6'); for (i = 5; i > 0; i--) { curmove (curr,curc+3); fancyc (i+'0'); } for (i = 12; i > 6; i--) /* print positions 12-7 */ if (board[i]) bsect (board[i],13,1+4*(12-i),-1); if (board[0]) /* print red men on bar */ bsect (board[0],13,25,-1); for (i = 6; i > 0; i--) /* print positions 6-1 */ if (board[i]) bsect (board[i],13,29+4*(6-i),-1); l = (off[1] < 0? off[1]+15: off[1]); /* print white's home */ bsect (l,3,54,1); curmove (8,25); /* print the word BAR */ fancyc ('B'); fancyc ('A'); fancyc ('R'); for (i = 13; i < 19; i++) /* print positions 13-18 */ if (board[i]) bsect (board[i],3,1+4*(i-13),1); if (board[25]) /* print white's men on bar */ bsect (board[25],3,25,1); for (i = 19; i < 25; i++) /* print positions 19-24 */ if (board[i]) bsect (board[i],3,29+4*(i-19),1); l = (off[0] < 0? off[0]+15: off[0]); /* print red's home */ bsect (-l,13,54,-1); for (i = 0; i < 26; i++) /* save board position * for refresh later */ oldb[i] = board[i]; oldr = (off[1] < 0? off[1]+15: off[1]); oldw = -(off[0] < 0? off[0]+15: off[0]); } /* * bsect (b,rpos,cpos,cnext) * Print the contents of a board position. "b" has the value of the * position, "rpos" is the row to start printing, "cpos" is the column to * start printing, and "cnext" is positive if the position starts at the top * and negative if it starts at the bottom. The value of "cpos" is checked * to see if the position is a player's home, since those are printed * differently. */ bsect (b,rpos,cpos,cnext) int b; /* contents of position */ int rpos; /* row of position */ int cpos; /* column of position */ int cnext; /* direction of position */ { register int j; /* index */ register int n; /* number of men on position */ register int bct; /* counter */ int k; /* index */ char pc; /* color of men on position */ n = abs(b); /* initialize n and pc */ pc = (b > 0? 'r': 'w'); if (n < 6 && cpos < 54) /* position cursor at start */ curmove (rpos,cpos+1); else curmove (rpos,cpos); for (j = 0; j < 5; j++) { /* print position row by row */ for (k = 0; k < 15; k += 5) /* print men */ if (n > j+k) fancyc (pc); if (j < 4) { /* figure how far to * back up for next * row */ if (n < 6) { /* stop if none left */ if (j+1 == n) break; bct = 1; /* single column */ } else { if (n < 11) { /* two columns */ if (cpos == 54) { /* home pos */ if (j+5 >= n) bct = 1; else bct = 2; } if (cpos < 54) { /* not home */ if (j+6 >= n) bct = 1; else bct = 2; } } else { /* three columns */ if (j+10 >= n) bct = 2; else bct = 3; } } curmove (curr+cnext,curc-bct); /* reposition cursor */ } } } refresh() { register int i, r, c; r = curr; /* save current position */ c = curc; for (i = 12; i > 6; i--) /* fix positions 12-7 */ if (board[i] != oldb[i]) { fixpos (oldb[i],board[i],13,1+(12-i)*4,-1); oldb[i] = board[i]; } if (board[0] != oldb[0]) { /* fix red men on bar */ fixpos (oldb[0],board[0],13,25,-1); oldb[0] = board[0]; } for (i = 6; i > 0; i--) /* fix positions 6-1 */ if (board[i] != oldb[i]) { fixpos (oldb[i],board[i],13,29+(6-i)*4,-1); oldb[i] = board[i]; } i = -(off[0] < 0? off[0]+15: off[0]); /* fix white's home */ if (oldw != i) { fixpos (oldw,i,13,54,-1); oldw = i; } for (i = 13; i < 19; i++) /* fix positions 13-18 */ if (board[i] != oldb[i]) { fixpos (oldb[i],board[i],3,1+(i-13)*4,1); oldb[i] = board[i]; } if (board[25] != oldb[25]) { /* fix white men on bar */ fixpos (oldb[25],board[25],3,25,1); oldb[25] = board[25]; } for (i = 19; i < 25; i++) /* fix positions 19-24 */ if (board[i] != oldb[i]) { fixpos (oldb[i],board[i],3,29+(i-19)*4,1); oldb[i] = board[i]; } i = (off[1] < 0? off[1]+15: off[1]); /* fix red's home */ if (oldr != i) { fixpos (oldr,i,3,54,1); oldr = i; } curmove (r,c); /* return to saved position */ newpos(); buflush(); } fixpos (old,new,r,c,inc) int old, new, r, c, inc; { register int o, n, nv; int ov, nc; char col; if (old*new >= 0) { ov = abs(old); nv = abs(new); col = (old+new > 0? 'r': 'w'); o = (ov-1)/5; n = (nv-1)/5; if (o == n) { if (o == 2) nc = c+2; if (o == 1) nc = c < 54? c: c+1; if (o == 0) nc = c < 54? c+1: c; if (ov > nv) fixcol (r+inc*(nv-n*5),nc,abs(ov-nv),' ',inc); else fixcol (r+inc*(ov-o*5),nc,abs(ov-nv),col,inc); return; } else { if (c < 54) { if (o+n == 1) { if (n) { fixcol (r,c,abs(nv-5),col,inc); if (ov != 5) fixcol (r+inc*ov,c+1,abs(ov-5),col,inc); } else { fixcol (r,c,abs(ov-5),' ',inc); if (nv != 5) fixcol (r+inc*nv,c+1,abs(nv-5),' ',inc); } return; } if (n == 2) { if (ov != 10) fixcol (r+inc*(ov-5),c,abs(ov-10),col,inc); fixcol (r,c+2,abs(nv-10),col,inc); } else { if (nv != 10) fixcol (r+inc*(nv-5),c,abs(nv-10),' ',inc); fixcol (r,c+2,abs(ov-10),' ',inc); } return; } if (n > o) { fixcol (r+inc*(ov%5),c+o,abs(5*n-ov),col,inc); if (nv != 5*n) fixcol (r,c+n,abs(5*n-nv),col,inc); } else { fixcol (r+inc*(nv%5),c+n,abs(5*n-nv),' ',inc); if (ov != 5*o) fixcol (r,c+o,abs(5*o-ov),' ',inc); } return; } } nv = abs(new); fixcol (r,c+1,nv,new > 0? 'r': 'w',inc); if (abs(old) <= abs(new)) return; fixcol (r+inc*new,c+1,abs(old+new),' ',inc); } fixcol (r,c,l,ch,inc) register int l, ch; int r, c, inc; { register int i; curmove (r,c); fancyc (ch); for (i = 1; i < l; i++) { curmove (curr+inc,curc-1); fancyc (ch); } } curmove (r,c) register int r, c; { if (curr == r && curc == c) return; if (realr == -1) { realr = curr; realc = curc; } curr = r; curc = c; } newpos () { register int r; /* destination row */ register int c; /* destination column */ register int mode = -1; /* mode of movement */ int count = 1000; /* character count */ int i; /* index */ int j; /* index */ int n; /* temporary variable */ char *m; /* string containing CM movement */ if (realr == -1) /* see if already there */ return; r = curr; /* set current and dest. positions */ c = curc; curr = realr; curc = realc; /* double check position */ if (curr == r && curc == c) { realr = realc = -1; return; } if (CM) { /* try CM to get there */ mode = 0; m = (char *)tgoto (CM,c,r); count = strlen (m); } /* try HO and local movement */ if (HO && (n = r+c*lND+lHO) < count) { mode = 1; count = n; } /* try various LF combinations */ if (r >= curr) { /* CR, LF, and ND */ if ((n = (r-curr)+c*lND+1) < count) { mode = 2; count = n; } /* LF, ND */ if (c >= curc && (n = (r-curr)+(c-curc)*lND) < count) { mode = 3; count = n; } /* LF, BS */ if (c < curc && (n = (r-curr)+(curc-c)*lBC) < count) { mode = 4; count = n; } } /* try corresponding UP combinations */ if (r < curr) { /* CR, UP, and ND */ if ((n = (curr-r)*lUP+c*lND+1) < count) { mode = 5; count = n; } /* UP and ND */ if (c >= curc && (n = (curr-r)*lUP+(c-curc)*lND) < count) { mode = 6; count = n; } /* UP and BS */ if (c < curc && (n = (curr-r)*lUP+(curc-c)*lBC) < count) { mode = 7; count = n; } } /* space over */ if (curr == r && c > curc && linect[r] < curc && c-curc < count) mode = 8; switch (mode) { case -1: /* error! */ write (2,"\r\nInternal cursor error.\r\n",26); getout(); /* direct cursor motion */ case 0: tputs (m,abs(curr-r),addbuf); break; /* relative to "home" */ case 1: tputs (HO,r,addbuf); for (i = 0; i < r; i++) addbuf ('\012'); for (i = 0; i < c; i++) tputs (ND,1,addbuf); break; /* CR and down and over */ case 2: addbuf ('\015'); for (i = 0; i < r-curr; i++) addbuf ('\012'); for (i = 0; i < c; i++) tputs (ND,1,addbuf); break; /* down and over */ case 3: for (i = 0; i < r-curr; i++) addbuf ('\012'); for (i = 0; i < c-curc; i++) tputs (ND,1,addbuf); break; /* down and back */ case 4: for (i = 0; i < r-curr; i++) addbuf ('\012'); for (i = 0; i < curc-c; i++) addbuf ('\010'); break; /* CR and up and over */ case 5: addbuf ('\015'); for (i = 0; i < curr-r; i++) tputs (UP,1,addbuf); for (i = 0; i < c; i++) tputs (ND,1,addbuf); break; /* up and over */ case 6: for (i = 0; i < curr-r; i++) tputs (UP,1,addbuf); for (i = 0; i < c-curc; i++) tputs (ND,1,addbuf); break; /* up and back */ case 7: for (i = 0; i < curr-r; i++) tputs (UP,1,addbuf); for (i = 0; i < curc-c; i++) { if (BC) tputs (BC,1,addbuf); else addbuf ('\010'); } break; /* safe space */ case 8: for (i = 0; i < c-curc; i++) addbuf (' '); } /* fix positions */ curr = r; curc = c; realr = -1; realc = -1; } clear () { register int i; /* double space if can't clear */ if (CL == 0) { writel ("\n\n"); return; } curr = curc = 0; /* fix position markers */ realr = realc = -1; for (i = 0; i < 24; i++) /* clear line counts */ linect[i] = -1; buffnum = -1; /* ignore leftover buffer contents */ tputs (CL,CO,addbuf); /* put CL in buffer */ } fancyc (c) register char c; /* character to output */ { register int sp; /* counts spaces in a tab */ if (c == '\007') { /* bells go in blindly */ addbuf (c); return; } /* process tabs, use spaces if the * the tab should be erasing things, * otherwise use cursor movement * routines. Note this does not use * hardware tabs at all. */ if (c == '\t') { sp = (curc+8) & (~ 7); /* compute spaces */ /* check line length */ if (linect[curr] >= curc || sp < 4) { for (; sp > curc; sp--) addbuf (' '); curc = sp; /* fix curc */ } else curmove (curr,sp); return; } /* do newline be calling newline */ if (c == '\n') { newline(); return; } /* ignore any other control chars */ if (c < ' ') return; /* if an erasing space or non-space, * just add it to buffer. Otherwise * use cursor movement routine, so that * multiple spaces will be grouped * together */ if (c > ' ' || linect[curr] >= curc) { newpos (); /* make sure position correct */ addbuf (c); /* add character to buffer */ /* fix line length */ if (c == ' ' && linect[curr] == curc) linect[curr]--; else if (linect[curr] < curc) linect[curr] = curc; curc++; /* fix curc */ } else /* use cursor movement routine */ curmove (curr,curc+1); } clend() { register int i; register char *s; if (CD) { tputs (CD,CO-curr,addbuf); for (i = curr; i < LI; i++) linect[i] = -1; return; } curmove (i = curr,0); cline(); while (curr < LI-1) { curmove (curr+1,0); if (linect[curr] > -1) cline (); } curmove (i,0); } cline () { register int i; register int c; register char *s; if (curc > linect[curr]) return; newpos (); if (CE) { tputs (CE,1,addbuf); linect[curr] = curc-1; } else { c = curc-1; while (linect[curr] > c) { addbuf (' '); curc++; linect[curr]--; } curmove (curr,c+1); } } newline () { cline(); if (curr == LI-1) curmove (begscr,0); else curmove (curr+1,0); } int getcaps (s) const char *s; { register char *code; /* two letter code */ register char ***cap; /* pointer to cap string */ char *bufp; /* pointer to cap buffer */ char tentry[1024]; /* temporary uncoded caps buffer */ tgetent (tentry, (char *)s); /* get uncoded termcap entry */ LI = tgetnum ("li"); /* get number of lines */ if (LI == -1) LI = 12; CO = tgetnum ("co"); /* get number of columns */ if (CO == -1) CO = 65; bufp = tbuf; /* get padding character */ tgetstr ("pc",&bufp); if (bufp != tbuf) PC = *tbuf; else PC = 0; bufp = tbuf; /* get string entries */ cap = tstr; for (code = tcap; *code; code += 2) **cap++ = (char *)tgetstr (code,&bufp); /* get pertinent lengths */ if (HO) lHO = strlen (HO); if (BC) lBC = strlen (BC); else lBC = 1; if (UP) lUP = strlen (UP); if (ND) lND = strlen (ND); if (LI < 24 || CO < 72 || !(CL && UP && ND)) return (0); linect = (int *)calloc (LI+1,sizeof(int)); return (1); }