/* ported to C by pancake for r2 in 2012-2017 */ // TODO: integrate floating point support // TODO: do not use global variables /* Reference Chapter 6: "The C++ Programming Language", Special Edition. Bjarne Stroustrup,Addison-Wesley Pub Co; 3 edition (February 15, 2000) ISBN: 0201700735 */ #include #include #include #include /* accessors */ static inline RNumCalcValue Nset(ut64 v) { RNumCalcValue n; n.d = (double)v; n.n = v; return n; } static inline RNumCalcValue Nsetf(double v) { RNumCalcValue n; n.d = v; n.n = (ut64)v; return n; } //UNUSED static inline RNumCalcValue Naddf(RNumCalcValue n, double v) { n.d += v; n.n += (ut64)v; return n; } static inline RNumCalcValue Naddi(RNumCalcValue n, ut64 v) { n.d += (double)v; n.n += v; return n; } static inline RNumCalcValue Nsubi(RNumCalcValue n, ut64 v) { n.d -= (double)v; n.n -= v; return n; } static inline RNumCalcValue Nneg(RNumCalcValue n) { n.n = ~n.n; return n; } static inline RNumCalcValue Norr(RNumCalcValue n, RNumCalcValue v) { n.d = v.d; n.n |= v.n; return n; } static inline RNumCalcValue Nxor(RNumCalcValue n, RNumCalcValue v) { n.d = v.d; n.n ^= v.n; return n; } static inline RNumCalcValue Nand(RNumCalcValue n, RNumCalcValue v) { n.d = v.d; n.n &= v.n; return n; } static inline RNumCalcValue Nadd(RNumCalcValue n, RNumCalcValue v) { n.d += v.d; n.n += v.n; return n; } static inline RNumCalcValue Nsub(RNumCalcValue n, RNumCalcValue v) { n.d -= v.d; n.n -= v.n; return n; } static inline RNumCalcValue Nmul(RNumCalcValue n, RNumCalcValue v) { n.d *= v.d; n.n *= v.n; return n; } static inline RNumCalcValue Nshl(RNumCalcValue n, RNumCalcValue v) { n.d += v.d; n.n <<= v.n; return n; } static inline RNumCalcValue Nshr(RNumCalcValue n, RNumCalcValue v) { n.d += v.d; n.n >>= v.n; return n; } static inline RNumCalcValue Nrol(RNumCalcValue n, RNumCalcValue v) { n.d += v.d; n.n = (n.n << v.n) | (n.n >> (sizeof(n.n) * 8 - v.n)); return n; } static inline RNumCalcValue Nror(RNumCalcValue n, RNumCalcValue v) { n.d += v.d; n.n = (n.n >> v.n) | (n.n << (sizeof(n.n) * 8 - v.n)); return n; } static inline RNumCalcValue Nmod(RNumCalcValue n, RNumCalcValue v) { if (v.d) { n.d = (n.d - (n.d / v.d)); } else { n.d = 0; } if (v.n) { n.n %= v.n; } else { n.n = 0; } return n; } static inline RNumCalcValue Ndiv(RNumCalcValue n, RNumCalcValue v) { if (v.d) { n.d /= v.d; } else { n.d = 0; } if (v.n) { n.n /= v.n; } else { n.n = 0; } return n; } static RNumCalcValue expr(RNum*, RNumCalc*, int); static RNumCalcValue term(RNum*, RNumCalc*, int); static void error(RNum*, RNumCalc*, const char *); static RNumCalcValue prim(RNum*, RNumCalc*, int); static RNumCalcToken get_token(RNum*, RNumCalc*); static void error(RNum *num, RNumCalc *nc, const char *s) { nc->errors++; nc->calc_err = s; //fprintf (stderr, "error: %s\n", s); } static RNumCalcValue expr(RNum *num, RNumCalc *nc, int get) { RNumCalcValue left = term (num, nc, get); for (;;) { switch (nc->curr_tok) { case RNCSHL: left = Nshl (left, term (num, nc, 1)); break; case RNCSHR: left = Nshr (left, term (num, nc, 1)); break; case RNCROL: left = Nrol (left, term (num, nc, 1)); break; case RNCROR: left = Nror (left, term (num, nc, 1)); break; case RNCPLUS: left = Nadd (left, term (num, nc, 1)); break; case RNCMINUS: left = Nsub (left, term (num, nc, 1)); break; case RNCXOR: left = Nxor (left, term (num, nc, 1)); break; case RNCORR: left = Norr (left, term (num, nc, 1)); break; case RNCAND: left = Nand (left, term (num, nc, 1)); break; default: return left; } } return left; } static RNumCalcValue term(RNum *num, RNumCalc *nc, int get) { RNumCalcValue left = prim (num, nc, get); for (;;) { if (nc->curr_tok == RNCMUL) { left = Nmul (left, prim (num, nc, 1)); } else if (nc->curr_tok == RNCMOD) { RNumCalcValue d = prim (num, nc, 1); if (!d.d) { //error (num, nc, "divide by 0"); return d; } left = Nmod (left, d); } else if (nc->curr_tok == RNCDIV) { RNumCalcValue d = prim (num, nc, 1); if (num != NULL && (!d.d || !d.n)) { num->dbz = 1; return d; } left = Ndiv (left, d); } else { return left; } } } static RNumCalcValue prim(RNum *num, RNumCalc *nc, int get) { RNumCalcValue v = {0}; if (get) { get_token (num, nc); } switch (nc->curr_tok) { case RNCNUMBER: v = nc->number_value; get_token (num, nc); return v; case RNCNAME: //fprintf (stderr, "error: unknown keyword (%s)\n", nc->string_value); //double& v = table[nc->string_value]; r_str_trim (nc->string_value); v = Nset (r_num_get (num, nc->string_value)); get_token (num, nc); if (nc->curr_tok == RNCASSIGN) { v = expr (num, nc, 1); } if (nc->curr_tok == RNCINC) { Naddi (v, 1); } if (nc->curr_tok == RNCDEC) { Nsubi (v, 1); } return v; case RNCNEG: get_token (num, nc); return Nneg (nc->number_value); //prim (num, nc, 1), 1); case RNCINC: return Naddi (prim (num, nc, 1), 1); case RNCDEC: return Naddi (prim (num, nc, 1), -1); case RNCORR: return Norr (v, prim (num, nc, 1)); case RNCMINUS: return Nsub (v, prim (num, nc, 1)); case RNCLEFTP: v = expr (num, nc, 1); if (nc->curr_tok == RNCRIGHTP) { get_token (num, nc); } else { error (num, nc, " ')' expected"); } case RNCEND: case RNCXOR: case RNCAND: case RNCPLUS: case RNCMOD: case RNCMUL: case RNCDIV: case RNCPRINT: case RNCASSIGN: case RNCRIGHTP: case RNCSHL: case RNCSHR: case RNCROL: case RNCROR: return v; //default: error (num, nc, "primary expected"); } return v; } static void cin_putback (RNum *num, RNumCalc *nc, char c) { nc->oc = c; } R_API const char *r_num_calc_index(RNum *num, const char *p) { if (!num) { return NULL; } if (p) { num->nc.calc_buf = p; num->nc.calc_len = strlen (p); num->nc.calc_i = 0; } return num->nc.calc_buf + num->nc.calc_i; } static int cin_get(RNum *num, RNumCalc *nc, char *c) { if (nc->oc) { *c = nc->oc; nc->oc = 0; } else { if (!nc->calc_buf || !*nc->calc_buf) { return 0; } *c = nc->calc_buf[nc->calc_i]; if (*c) { nc->calc_i++; } else { return 0; } } return 1; } static int cin_get_num(RNum *num, RNumCalc *nc, RNumCalcValue *n) { double d; char str[R_NUMCALC_STRSZ + 1]; // TODO: move into the heap? int i = 0; char c; str[0] = 0; while (cin_get (num, nc, &c)) { if (c != '_' && c!=':' && c!='.' && !isalnum ((ut8)c)) { cin_putback (num, nc, c); break; } if (i < R_NUMCALC_STRSZ) { str[i++] = c; } } str[i] = 0; *n = Nset (r_num_get (num, str)); if (IS_DIGIT (*str) && strchr (str, '.')) { if (sscanf (str, "%lf", &d) < 1) { return 0; } if (n->n < d) { *n = Nsetf (d); } n->d = d; } return 1; } static RNumCalcToken get_token(RNum *num, RNumCalc *nc) { char ch = 0, c = 0; do { if (!cin_get (num, nc, &ch)) { return nc->curr_tok = RNCEND; } } while (ch != '\n' && isspace ((ut8)ch)); switch (ch) { case 0: case ';': case '\n': return nc->curr_tok = RNCEND; case '+': // added for ++name and name++ if (cin_get (num, nc, &c) && c == '+') { return nc->curr_tok = RNCINC; } cin_putback (num, nc, c); return nc->curr_tok = (RNumCalcToken) ch; // negate hack case '~': if (cin_get (num, nc, &c) && c == '-') { return nc->curr_tok = RNCNEG; } cin_putback (num, nc, c); return nc->curr_tok = (RNumCalcToken) ch; // negative number case '-': if (cin_get (num, nc, &c) && c == '-') { return nc->curr_tok = RNCDEC; } cin_putback (num, nc, c); return nc->curr_tok = (RNumCalcToken) ch; case '<': if (cin_get (num, nc, &c) && c == '<') { if (cin_get (num, nc, &c) && c == '<') { return nc->curr_tok = RNCROL; } cin_putback (num, nc, c); return nc->curr_tok = RNCSHL; } cin_putback (num, nc, c); return nc->curr_tok = RNCEND; case '>': if (cin_get (num, nc, &c) && c == '>') { if (cin_get (num, nc, &c) && c == '>') { return nc->curr_tok = RNCROR; } cin_putback (num, nc, c); return nc->curr_tok = RNCSHR; } cin_putback (num, nc, c); return nc->curr_tok = RNCEND; case '^': case '&': case '|': case '*': case '%': case '/': case '(': case ')': case '=': return nc->curr_tok = (RNumCalcToken) ch; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case '.': cin_putback (num, nc, ch); if (!cin_get_num (num, nc, &nc->number_value)) { error (num, nc, "invalid number conversion"); return 1; } return nc->curr_tok = RNCNUMBER; #define isvalidchar(x) \ (isalnum(x) || (x)==':' || (x)=='$' || (x)=='.' || (x)=='_' || (x)=='?' || (x)=='\\' \ || (x)==' ' || (x)=='[' || (x)==']' || (x)=='}' || (x)=='{' || ((x)>='0'&&(x)<='9')) default: { int i = 0; #define stringValueAppend(x) { \ const size_t max = sizeof (nc->string_value) - 1; \ if (i < max) nc->string_value[i++] = x; \ else nc->string_value[max] = 0; \ } stringValueAppend(ch); if (ch == '[') { while (cin_get (num, nc, &ch) && ch!=']') { if (i > R_NUMCALC_STRSZ - 1) { error (num, nc, "string too long"); return 0; } stringValueAppend(ch); } stringValueAppend(ch); } else { while (cin_get (num, nc, &ch) && isvalidchar ((unsigned char)ch)) { if (i >= R_NUMCALC_STRSZ) { error (num, nc, "string too long"); return 0; } stringValueAppend(ch); } } stringValueAppend(0); if (ch!='\'') { cin_putback (num, nc, ch); } return nc->curr_tok = RNCNAME; } } } static void load_token(RNum *num, RNumCalc *nc, const char *s) { nc->calc_i = 0; nc->calc_len = strlen (s); nc->calc_buf = s; nc->calc_err = NULL; } R_API ut64 r_num_calc(RNum *num, const char *str, const char **err) { RNumCalcValue n; RNumCalc *nc, nc_local; if (!str || !*str) { return 0LL; } if (num) { nc = &num->nc; num->dbz = 0; } else { nc = &nc_local; } /* init */ nc->curr_tok = RNCPRINT; nc->number_value.d = 0.0; nc->number_value.n = 0LL; nc->errors = 0; nc->oc = 0; nc->calc_err = NULL; nc->calc_i = 0; nc->calc_len = 0; nc->calc_buf = NULL; nc->under_calc = true; load_token (num, nc, str); get_token (num, nc); n = expr (num, nc, 0); if (err) { *err = nc->calc_err; } if (num) { num->fvalue = n.d; } nc->under_calc = false; return n.n; } #ifdef TEST int main(int argc, char* argv[]) { RNumCalcValue n; RNumCalc nc; while (!feof (stdin)) { get_token (nc); if (nc.curr_tok == RNCEND) { break; } if (nc.curr_tok == RNCPRINT) { continue; } n = expr (num, nc, 0); if (n.d == ((double)(int)n.d)) { printf ("%llx\n", n.n); } else { printf ("%lf\n", n.d); } } return nc->errors; } #endif