ref: d81da34389f192fee51865798fc86ff7e521617a
dir: /eval.c/
/* evaluation of integer expressions */ #include <ctype.h> #include <stdio.h> #include <string.h> #include "roff.h" #define SCHAR "icpPvmnu" /* scale indicators */ static int defunit = 0; /* default scale indicator */ static int abspos = 0; /* absolute position like |1i */ static int readunit(int c, int n) { switch (c) { case 'i': return n * SC_IN; case 'c': return n * SC_IN * 50 / 127; case 'p': return n * SC_IN / 72; case 'P': return n * SC_IN / 6; case 'v': return n * n_v; case 'm': return n * n_s * SC_IN / 72; case 'n': return n * n_s * SC_IN / 144; case 'u': return n; } return n; } static int evalnum(char **_s) { char *s = *_s; int n = 0; /* the result */ int mag = 0; /* n should be divided by mag */ while (isdigit((unsigned char) *s) || *s == '.') { if (*s == '.') { mag = 1; s++; continue; } mag *= 10; n = n * 10 + *s++ - '0'; } if (mag > MAXFRAC) { n /= mag / MAXFRAC; mag /= mag / MAXFRAC; } n = readunit(*s && strchr(SCHAR, *s) ? *s++ : defunit, n); *_s = s; return n / (mag > 0 ? mag : 1); } static int evaljmp(char **s, int c) { if (**s == c) { (*s)++; return 0; } return 1; } static int evalisnum(char **s) { return **s == '.' || isdigit((unsigned char) **s); } static int evalexpr(char **s); static int evalatom(char **s); static int evalatom(char **s) { int ret; if (evalisnum(s)) return evalnum(s); if (!evaljmp(s, '-')) return -evalatom(s); if (!evaljmp(s, '+')) return evalatom(s); if (!evaljmp(s, '|')) return abspos + evalatom(s); if (!evaljmp(s, '(')) { ret = evalexpr(s); evaljmp(s, ')'); return ret; } return 0; } static int nonzero(int n) { if (!n) errdie("neatroff: divide by zero\n"); return n; } static int evalexpr(char **s) { int ret = evalatom(s); while (**s) { if (!evaljmp(s, '+')) ret += evalatom(s); else if (!evaljmp(s, '-')) ret -= evalatom(s); else if (!evaljmp(s, '/')) ret /= nonzero(evalatom(s)); else if (!evaljmp(s, '*')) ret *= evalatom(s); else if (!evaljmp(s, '%')) ret %= nonzero(evalatom(s)); else if (!evaljmp(s, '<')) ret = !evaljmp(s, '=') ? ret <= evalatom(s) : ret < evalatom(s); else if (!evaljmp(s, '>')) ret = !evaljmp(s, '=') ? ret >= evalatom(s) : ret > evalatom(s); else if (!evaljmp(s, '=') + !evaljmp(s, '=')) ret = ret == evalatom(s); else if (!evaljmp(s, '&')) ret = ret > 0 && evalatom(s) > 0; else if (!evaljmp(s, ':')) ret = ret > 0 || evalatom(s) > 0; else break; } return ret; } /* evaluate *s and update s to point to the last character read */ int eval_up(char **s, int unit) { defunit = unit; if (unit == 'v') abspos = -n_d; if (unit == 'm') abspos = n_lb - f_hpos(); return evalexpr(s); } /* evaluate s relative to its previous value */ int eval_re(char *s, int orig, int unit) { int n; int rel = 0; /* n should be added to orig */ if (*s == '+' || *s == '-') { rel = *s == '+' ? 1 : -1; s++; } n = eval_up(&s, unit); if (rel) return rel > 0 ? orig + n : orig - n; return n; } /* evaluate s */ int eval(char *s, int unit) { return eval_up(&s, unit); }