/* EVAL.C: Expresion evaluation functions for MicroEMACS written 1986 by Daniel Lawrence */ #include #include "estruct.h" #include "edef.h" #include "evar.h" varinit() /* initialize the user variable list */ { register int i; for (i=0; i < MAXVARS; i++) uv[i].u_name[0] = 0; } char *gtfun(fname) /* evaluate a function */ char *fname; /* name of function to evaluate */ { register int fnum; /* index to function to eval */ register int status; /* return status */ char arg1[NSTRING]; /* value of first argument */ char arg2[NSTRING]; /* value of second argument */ char arg3[NSTRING]; /* value of third argument */ static char result[2 * NSTRING]; /* string result */ #if ENVFUNC char *getenv(); #endif /* look the function up in the function table */ fname[3] = 0; /* only first 3 chars significant */ mklower(fname); /* and let it be upper or lower case */ for (fnum = 0; fnum < NFUNCS; fnum++) if (strcmp(fname, funcs[fnum].f_name) == 0) break; /* return errorm on a bad reference */ if (fnum == NFUNCS) return(errorm); /* if needed, retrieve the first argument */ if (funcs[fnum].f_type >= MONAMIC) { if ((status = macarg(arg1)) != TRUE) return(errorm); /* if needed, retrieve the second argument */ if (funcs[fnum].f_type >= DYNAMIC) { if ((status = macarg(arg2)) != TRUE) return(errorm); /* if needed, retrieve the third argument */ if (funcs[fnum].f_type >= TRINAMIC) if ((status = macarg(arg3)) != TRUE) return(errorm); } } /* and now evaluate it! */ switch (fnum) { case UFADD: return(itoa(atoi(arg1) + atoi(arg2))); case UFSUB: return(itoa(atoi(arg1) - atoi(arg2))); case UFTIMES: return(itoa(atoi(arg1) * atoi(arg2))); case UFDIV: return(itoa(atoi(arg1) / atoi(arg2))); case UFMOD: return(itoa(atoi(arg1) % atoi(arg2))); case UFNEG: return(itoa(-atoi(arg1))); case UFCAT: strcpy(result, arg1); return(strcat(result, arg2)); case UFLEFT: return(strncpy(result, arg1, atoi(arg2))); case UFRIGHT: return(strcpy(result, &arg1[atoi(arg2)-1])); case UFMID: return(strncpy(result, &arg1[atoi(arg2)-1], atoi(arg3))); case UFNOT: return(ltos(stol(arg1) == FALSE)); case UFEQUAL: return(ltos(atoi(arg1) == atoi(arg2))); case UFLESS: return(ltos(atoi(arg1) < atoi(arg2))); case UFGREATER: return(ltos(atoi(arg1) > atoi(arg2))); case UFSEQUAL: return(ltos(strcmp(arg1, arg2) == 0)); case UFSLESS: return(ltos(strcmp(arg1, arg2) < 0)); case UFSGREAT: return(ltos(strcmp(arg1, arg2) > 0)); case UFIND: return(getval(arg1)); case UFAND: return(ltos(stol(arg1) && stol(arg2))); case UFOR: return(ltos(stol(arg1) || stol(arg2))); case UFLENGTH: return(itoa(strlen(arg1))); case UFUPPER: return(mkupper(arg1)); case UFLOWER: return(mklower(arg1)); case UFTRUTH: return(ltos(atoi(arg1) == 42)); case UFASCII: return(itoa((int)arg1[0])); case UFCHR: result[0] = atoi(arg1); result[1] = 0; return(result); case UFGTKEY: result[0] = tgetc(); result[1] = 0; return(result); case UFRND: return(itoa((ernd() % abs(atoi(arg1))) + 1)); case UFABS: return(itoa(abs(atoi(arg1)))); case UFSINDEX: return(itoa(sindex(arg1, arg2))); case UFENV: #if ENVFUNC return(getenv(arg1) == NULL ? "" : getenv(arg1)); #else return(""); #endif case UFBIND: return(transbind(arg1)); } exit(-11); /* never should get here */ } char *gtusr(vname) /* look up a user var's value */ char *vname; /* name of user variable to fetch */ { register int vnum; /* ordinal number of user var */ /* scan the list looking for the user var name */ for (vnum = 0; vnum < MAXVARS; vnum++) if (strcmp(vname, uv[vnum].u_name) == 0) break; /* return errorm on a bad reference */ if (vnum == MAXVARS) return(errorm); return(uv[vnum].u_value); } char *gtenv(vname) char *vname; /* name of environment variable to retrieve */ { register int vnum; /* ordinal number of var refrenced */ char *getkill(); /* scan the list, looking for the referenced name */ for (vnum = 0; vnum < NEVARS; vnum++) if (strcmp(vname, envars[vnum]) == 0) break; /* return errorm on a bad reference */ if (vnum == NEVARS) return(errorm); /* otherwise, fetch the appropriate value */ switch (vnum) { case EVFILLCOL: return(itoa(fillcol)); case EVPAGELEN: return(itoa(term.t_nrow + 1)); case EVCURCOL: return(itoa(getccol(FALSE))); case EVCURLINE: return(itoa(getcline())); case EVRAM: return(itoa((int)(envram / 1024l))); case EVFLICKER: return(ltos(flickcode)); case EVCURWIDTH:return(itoa(term.t_nrow)); case EVCBUFNAME:return(curbp->b_bname); case EVCFNAME: return(curbp->b_fname); case EVSRES: return(sres); case EVDEBUG: return(ltos(macbug)); case EVSTATUS: return(ltos(cmdstatus)); case EVPALETTE: return(palstr); case EVASAVE: return(itoa(gasave)); case EVACOUNT: return(itoa(gacount)); case EVLASTKEY: return(itoa(lastkey)); case EVCURCHAR: return(curwp->w_dotp->l_used == curwp->w_doto ? itoa('\n') : itoa(lgetc(curwp->w_dotp, curwp->w_doto))); case EVDISCMD: return(ltos(discmd)); case EVVERSION: return(VERSION); case EVPROGNAME:return(PROGNAME); case EVSEED: return(itoa(seed)); case EVDISINP: return(ltos(disinp)); case EVWLINE: return(itoa(curwp->w_ntrows)); case EVCWLINE: return(itoa(getwpos())); case EVTARGET: saveflag = lastflag; return(itoa(curgoal)); case EVSEARCH: return(pat); case EVREPLACE: return(rpat); case EVMATCH: return((patmatch == NULL)? "": patmatch); case EVKILL: return(getkill()); case EVCMODE: return(itoa(curbp->b_mode)); case EVGMODE: return(itoa(gmode)); case EVTPAUSE: return(itoa(term.t_pause)); case EVPENDING: #if TYPEAH return(ltos(typahead())); #else return(falsem); #endif case EVLWIDTH: return(itoa(llength(curwp->w_dotp))); case EVLINE: return(getctext()); } exit(-12); /* again, we should never get here */ } char *getkill() /* return some of the contents of the kill buffer */ { register int size; /* max number of chars to return */ char value[NSTRING]; /* temp buffer for value */ if (kbufh == NULL) /* no kill buffer....just a null string */ value[0] = 0; else { /* copy in the contents... */ if (kused < NSTRING) size = kused; else size = NSTRING - 1; strncpy(value, kbufh->d_chunk, size); } /* and return the constructed value */ return(value); } int setvar(f, n) /* set a variable */ int f; /* default flag */ int n; /* numeric arg (can overide prompted value) */ { register int status; /* status return */ #if DEBUGM register char *sp; /* temp string pointer */ register char *ep; /* ptr to end of outline */ #endif VDESC vd; /* variable num/type */ char var[NVSIZE+1]; /* name of variable to fetch */ char value[NSTRING]; /* value to set variable to */ /* first get the variable to set.. */ if (clexec == FALSE) { status = mlreply("Variable to set: ", &var[0], NVSIZE); if (status != TRUE) return(status); } else { /* macro line argument */ /* grab token and skip it */ execstr = token(execstr, var); } /* check the legality and find the var */ findvar(var, &vd); /* if its not legal....bitch */ if (vd.v_type == -1) { mlwrite("%%No such variable as '%s'", var); return(FALSE); } /* get the value for that variable */ if (f == TRUE) strcpy(value, itoa(n)); else { status = mlreply("Value: ", &value[0], NSTRING); if (status != TRUE) return(status); } /* and set the appropriate value */ status = svar(&vd, value); #if DEBUGM /* if $debug == TRUE, every assignment will echo a statment to that effect here. */ if (macbug) { strcpy(outline, "((("); /* assignment status */ strcat(outline, ltos(status)); strcat(outline, ":"); /* variable name */ strcat(outline, var); strcat(outline, ":"); /* and lastly the value we tried to assign */ strcat(outline, value); strcat(outline, ")))"); /* expand '%' to "%%" so mlwrite wont bitch */ sp = outline; while (*sp) if (*sp++ == '%') { /* advance to the end */ ep = --sp; while (*ep++) ; /* null terminate the string one out */ *(ep + 1) = 0; /* copy backwards */ while(ep-- > sp) *(ep + 1) = *ep; /* and advance sp past the new % */ sp += 2; } /* write out the debug line */ mlforce(outline); update(TRUE); /* and get the keystroke to hold the output */ if (get1key() == abortc) { mlforce("[Macro aborted]"); status = FALSE; } } #endif /* and return it */ return(status); } findvar(var, vd) /* find a variables type and name */ char *var; /* name of var to get */ VDESC *vd; /* structure to hold type and ptr */ { register int vnum; /* subscript in varable arrays */ register int vtype; /* type to return */ fvar: vtype = -1; switch (var[0]) { case '$': /* check for legal enviromnent var */ for (vnum = 0; vnum < NEVARS; vnum++) if (strcmp(&var[1], envars[vnum]) == 0) { vtype = TKENV; break; } break; case '%': /* check for existing legal user variable */ for (vnum = 0; vnum < MAXVARS; vnum++) if (strcmp(&var[1], uv[vnum].u_name) == 0) { vtype = TKVAR; break; } if (vnum < MAXVARS) break; /* create a new one??? */ for (vnum = 0; vnum < MAXVARS; vnum++) if (uv[vnum].u_name[0] == 0) { vtype = TKVAR; strcpy(uv[vnum].u_name, &var[1]); break; } break; case '&': /* indirect operator? */ var[4] = 0; if (strcmp(&var[1], "ind") == 0) { /* grab token, and eval it */ execstr = token(execstr, var); strcpy(var, getval(var)); goto fvar; } } /* return the results */ vd->v_num = vnum; vd->v_type = vtype; return; } int svar(var, value) /* set a variable */ VDESC *var; /* variable to set */ char *value; /* value to set to */ { register int vnum; /* ordinal number of var refrenced */ register int vtype; /* type of variable to set */ register int status; /* status return */ register int c; /* translated character */ register char * sp; /* scratch string pointer */ /* simplify the vd structure (we are gonna look at it a lot) */ vnum = var->v_num; vtype = var->v_type; /* and set the appropriate value */ status = TRUE; switch (vtype) { case TKVAR: /* set a user variable */ if (uv[vnum].u_value != NULL) free(uv[vnum].u_value); sp = malloc(strlen(value) + 1); if (sp == NULL) return(FALSE); strcpy(sp, value); uv[vnum].u_value = sp; break; case TKENV: /* set an environment variable */ status = TRUE; /* by default */ switch (vnum) { case EVFILLCOL: fillcol = atoi(value); break; case EVPAGELEN: status = newsize(TRUE, atoi(value)); break; case EVCURCOL: status = setccol(atoi(value)); break; case EVCURLINE: status = gotoline(TRUE, atoi(value)); break; case EVRAM: break; case EVFLICKER: flickcode = stol(value); break; case EVCURWIDTH:status = newwidth(TRUE, atoi(value)); break; case EVCBUFNAME:strcpy(curbp->b_bname, value); curwp->w_flag |= WFMODE; break; case EVCFNAME: strcpy(curbp->b_fname, value); curwp->w_flag |= WFMODE; break; case EVSRES: status = TTrez(value); break; case EVDEBUG: macbug = stol(value); break; case EVSTATUS: cmdstatus = stol(value); break; case EVPALETTE: strncpy(palstr, value, 48); spal(palstr); break; case EVASAVE: gasave = atoi(value); break; case EVACOUNT: gacount = atoi(value); break; case EVLASTKEY: lastkey = atoi(value); break; case EVCURCHAR: ldelete(1, FALSE); /* delete 1 char */ c = atoi(value); if (c == '\n') lnewline(FALSE, 1); else linsert(1, c); backchar(FALSE, 1); break; case EVDISCMD: discmd = stol(value); break; case EVVERSION: break; case EVPROGNAME:break; case EVSEED: seed = atoi(value); break; case EVDISINP: disinp = stol(value); break; case EVWLINE: status = resize(TRUE, atoi(value)); break; case EVCWLINE: status = forwline(TRUE, atoi(value) - getwpos()); break; case EVTARGET: curgoal = atoi(value); thisflag = saveflag; break; case EVSEARCH: strcpy(pat, value); rvstrcpy(tap, pat); mcclear(); break; case EVREPLACE: strcpy(rpat, value); break; case EVMATCH: break; case EVKILL: break; case EVCMODE: curbp->b_mode = atoi(value); curwp->w_flag |= WFMODE; break; case EVGMODE: gmode = atoi(value); break; case EVTPAUSE: term.t_pause = atoi(value); break; case EVPENDING: break; case EVLWIDTH: break; case EVLINE: putctext(value); } break; } return(status); } /* atoi: ascii string to integer......This is too inconsistant to use the system's */ atoi(st) char *st; { int result; /* resulting number */ int sign; /* sign of resulting number */ char c; /* current char being examined */ result = 0; sign = 1; /* skip preceding whitespace */ while (*st == ' ' || *st == '\t') ++st; /* check for sign */ if (*st == '-') { sign = -1; ++st; } if (*st == '+') ++st; /* scan digits, build value */ while ((c = *st++)) if (c >= '0' && c <= '9') result = result * 10 + c - '0'; else return(0); return(result * sign); } /* itoa: integer to ascii string.......... This is too inconsistant to use the system's */ char *itoa(i) int i; /* integer to translate to a string */ { register int digit; /* current digit being used */ register char *sp; /* pointer into result */ register int sign; /* sign of resulting number */ static char result[INTWIDTH+1]; /* resulting string */ /* record the sign...*/ sign = 1; if (i < 0) { sign = -1; i = -i; } /* and build the string (backwards!) */ sp = result + INTWIDTH; *sp = 0; do { digit = i % 10; *(--sp) = '0' + digit; /* and install the new digit */ i = i / 10; } while (i); /* and fix the sign */ if (sign == -1) { *(--sp) = '-'; /* and install the minus sign */ } return(sp); } int gettyp(token) /* find the type of a passed token */ char *token; /* token to analyze */ { register char c; /* first char in token */ /* grab the first char (this is all we need) */ c = *token; /* no blanks!!! */ if (c == 0) return(TKNUL); /* a numeric literal? */ if (c >= '0' && c <= '9') return(TKLIT); switch (c) { case '"': return(TKSTR); case '!': return(TKDIR); case '@': return(TKARG); case '#': return(TKBUF); case '$': return(TKENV); case '%': return(TKVAR); case '&': return(TKFUN); case '*': return(TKLBL); default: return(TKCMD); } } char *getval(token) /* find the value of a token */ char *token; /* token to evaluate */ { register int status; /* error return */ register BUFFER *bp; /* temp buffer pointer */ register int blen; /* length of buffer argument */ register int distmp; /* temporary discmd flag */ char pad[20]; /* pad 20 bytes on stack for safety */ char buf[NSTRING]; /* string buffer for some returns */ switch (gettyp(token)) { case TKNUL: return(""); case TKARG: /* interactive argument */ strcpy(token, getval(&token[1])); distmp = discmd; /* echo it always! */ discmd = TRUE; status = getstring(token, buf, NSTRING, ctoec('\n')); discmd = distmp; if (status == ABORT) return(errorm); return(buf); case TKBUF: /* buffer contents fetch */ /* grab the right buffer */ strcpy(token, getval(&token[1])); bp = bfind(token, FALSE, 0); if (bp == NULL) return(errorm); /* if the buffer is displayed, get the window vars instead of the buffer vars */ if (bp->b_nwnd > 0) { curbp->b_dotp = curwp->w_dotp; curbp->b_doto = curwp->w_doto; } /* make sure we are not at the end */ if (bp->b_linep == bp->b_dotp) return(errorm); /* grab the line as an argument */ blen = bp->b_dotp->l_used - bp->b_doto; if (blen > NSTRING) blen = NSTRING; strncpy(buf, bp->b_dotp->l_text + bp->b_doto, blen); buf[blen] = 0; /* and step the buffer's line ptr ahead a line */ bp->b_dotp = bp->b_dotp->l_fp; bp->b_doto = 0; /* if displayed buffer, reset window ptr vars*/ if (bp->b_nwnd > 0) { curwp->w_dotp = curbp->b_dotp; curwp->w_doto = 0; curwp->w_flag |= WFMOVE; } /* and return the spoils */ return(buf); case TKVAR: return(gtusr(token+1)); case TKENV: return(gtenv(token+1)); case TKFUN: return(gtfun(token+1)); case TKDIR: return(errorm); case TKLBL: return(itoa(gtlbl(token))); case TKLIT: return(token); case TKSTR: return(token+1); case TKCMD: return(token); } } gtlbl(token) /* find the line number of the given label */ char *token; /* label name to find */ { return(1); } int stol(val) /* convert a string to a numeric logical */ char *val; /* value to check for stol */ { /* check for logical values */ if (val[0] == 'F') return(FALSE); if (val[0] == 'T') return(TRUE); /* check for numeric truth (!= 0) */ return((atoi(val) != 0)); } char *ltos(val) /* numeric logical to string logical */ int val; /* value to translate */ { if (val) return(truem); else return(falsem); } char *mkupper(str) /* make a string upper case */ char *str; /* string to upper case */ { char *sp; sp = str; while (*sp) { if ('a' <= *sp && *sp <= 'z') *sp += 'A' - 'a'; ++sp; } return(str); } char *mklower(str) /* make a string lower case */ char *str; /* string to lower case */ { char *sp; sp = str; while (*sp) { if ('A' <= *sp && *sp <= 'Z') *sp += 'a' - 'A'; ++sp; } return(str); } int abs(x) /* take the absolute value of an integer */ int x; { return(x < 0 ? -x : x); } int ernd() /* returns a random integer */ { seed = abs(seed * 1721 + 10007); return(seed); } int sindex(source, pattern) /* find pattern within source */ char *source; /* source string to search */ char *pattern; /* string to look for */ { char *sp; /* ptr to current position to scan */ char *csp; /* ptr to source string during comparison */ char *cp; /* ptr to place to check for equality */ /* scanning through the source string */ sp = source; while (*sp) { /* scan through the pattern */ cp = pattern; csp = sp; while (*cp) { if (!eq(*cp, *csp)) break; ++cp; ++csp; } /* was it a match? */ if (*cp == 0) return((int)(sp - source) + 1); ++sp; } /* no match at all.. */ return(0); }