/*********************************************************** Copyright 1991, 1992 by Stichting Mathematisch Centrum, Amsterdam, The Netherlands. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the names of Stichting Mathematisch Centrum or CWI not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. STICHTING MATHEMATISCH CENTRUM DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL STICHTING MATHEMATISCH CENTRUM BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* Integer object implementation */ #include "allobjects.h" /* Standard Booleans */ intobject FalseObject = { OB_HEAD_INIT(&Inttype) 0 }; intobject TrueObject = { OB_HEAD_INIT(&Inttype) 1 }; static object * err_ovf(msg) char *msg; { err_setstr(OverflowError, msg); return NULL; } /* Integers are quite normal objects, to make object handling uniform. (Using odd pointers to represent integers would save much space but require extra checks for this special case throughout the code.) Since, a typical Python program spends much of its time allocating and deallocating integers, these operations should be very fast. Therefore we use a dedicated allocation scheme with a much lower overhead (in space and time) than straight malloc(): a simple dedicated free list, filled when necessary with memory from malloc(). */ #define BLOCK_SIZE 1000 /* 1K less typical malloc overhead */ #define N_INTOBJECTS (BLOCK_SIZE / sizeof(intobject)) static intobject * fill_free_list() { intobject *p, *q; p = NEW(intobject, N_INTOBJECTS); if (p == NULL) return (intobject *)err_nomem(); q = p + N_INTOBJECTS; while (--q > p) *(intobject **)q = q-1; *(intobject **)q = NULL; return p + N_INTOBJECTS - 1; } static intobject *free_list = NULL; object * newintobject(ival) long ival; { register intobject *v; if (free_list == NULL) { if ((free_list = fill_free_list()) == NULL) return NULL; } v = free_list; free_list = *(intobject **)free_list; NEWREF(v); v->ob_type = &Inttype; v->ob_ival = ival; return (object *) v; } static void int_dealloc(v) intobject *v; { *(intobject **)v = free_list; free_list = v; } long getintvalue(op) register object *op; { if (!is_intobject(op)) { err_badcall(); return -1; } else return ((intobject *)op) -> ob_ival; } /* Methods */ /* ARGSUSED */ static int int_print(v, fp, flags) intobject *v; FILE *fp; int flags; /* Not used but required by interface */ { fprintf(fp, "%ld", v->ob_ival); return 0; } static object * int_repr(v) intobject *v; { char buf[20]; sprintf(buf, "%ld", v->ob_ival); return newstringobject(buf); } static int int_compare(v, w) intobject *v, *w; { register long i = v->ob_ival; register long j = w->ob_ival; return (i < j) ? -1 : (i > j) ? 1 : 0; } static object * int_add(v, w) intobject *v; intobject *w; { register long a, b, x; a = v->ob_ival; b = w->ob_ival; x = a + b; if ((x^a) < 0 && (x^b) < 0) return err_ovf("integer addition"); return newintobject(x); } static object * int_sub(v, w) intobject *v; intobject *w; { register long a, b, x; a = v->ob_ival; b = w->ob_ival; x = a - b; if ((x^a) < 0 && (x^~b) < 0) return err_ovf("integer subtraction"); return newintobject(x); } static object * int_mul(v, w) intobject *v; intobject *w; { register long a, b; double x; a = v->ob_ival; b = w->ob_ival; x = (double)a * (double)b; if (x > 0x7fffffff || x < (double) (long) 0x80000000) return err_ovf("integer multiplication"); return newintobject(a * b); } static int i_divmod(x, y, p_xdivy, p_xmody) register intobject *x, *y; long *p_xdivy, *p_xmody; { long xi = x->ob_ival; long yi = y->ob_ival; long xdivy, xmody; if (yi == 0) { err_setstr(ZeroDivisionError, "integer division or modulo"); return -1; } if (yi < 0) { if (xi < 0) xdivy = -xi / -yi; else xdivy = - (xi / -yi); } else { if (xi < 0) xdivy = - (-xi / yi); else xdivy = xi / yi; } xmody = xi - xdivy*yi; if (xmody < 0 && yi > 0 || xmody > 0 && yi < 0) { xmody += yi; xdivy -= 1; } *p_xdivy = xdivy; *p_xmody = xmody; return 0; } static object * int_div(x, y) intobject *x; intobject *y; { long d, m; if (i_divmod(x, y, &d, &m) < 0) return NULL; return newintobject(d); } static object * int_mod(x, y) intobject *x; intobject *y; { long d, m; if (i_divmod(x, y, &d, &m) < 0) return NULL; return newintobject(m); } static object * int_divmod(x, y) intobject *x; intobject *y; { object *v, *v0, *v1; long d, m; if (i_divmod(x, y, &d, &m) < 0) return NULL; v = newtupleobject(2); v0 = newintobject(d); v1 = newintobject(m); if (v == NULL || v0 == NULL || v1 == NULL || settupleitem(v, 0, v0) != 0 || settupleitem(v, 1, v1) != 0) { XDECREF(v); XDECREF(v0); XDECREF(v1); v = NULL; } return v; } static object * int_pow(v, w) intobject *v; intobject *w; { register long iv, iw, ix; iv = v->ob_ival; iw = w->ob_ival; if (iw < 0) { err_setstr(ValueError, "integer to the negative power"); return NULL; } ix = 1; while (--iw >= 0) { long prev = ix; ix = ix * iv; if (iv == 0) break; /* 0 to some power -- avoid ix / 0 */ if (ix / iv != prev) return err_ovf("integer pow()"); } return newintobject(ix); } static object * int_neg(v) intobject *v; { register long a, x; a = v->ob_ival; x = -a; if (a < 0 && x < 0) return err_ovf("integer negation"); return newintobject(x); } static object * int_pos(v) intobject *v; { INCREF(v); return (object *)v; } static object * int_abs(v) intobject *v; { if (v->ob_ival >= 0) return int_pos(v); else return int_neg(v); } static int int_nonzero(v) intobject *v; { return v->ob_ival != 0; } static object * int_invert(v) intobject *v; { return newintobject(~v->ob_ival); } static object * int_lshift(v, w) intobject *v; intobject *w; { register long a, b; a = v->ob_ival; b = w->ob_ival; if (b < 0) { err_setstr(ValueError, "negative shift count"); return NULL; } if (a == 0 || b == 0) { INCREF(v); return (object *) v; } if (b >= 32) { return newintobject(0L); } a = (unsigned long)a << b; return newintobject(a); } static object * int_rshift(v, w) intobject *v; intobject *w; { register long a, b; a = v->ob_ival; b = w->ob_ival; if (b < 0) { err_setstr(ValueError, "negative shift count"); return NULL; } if (a == 0 || b == 0) { INCREF(v); return (object *) v; } if (b >= 32) { if (a < 0) a = -1; else a = 0; } else { if (a < 0) a = ~( ~(unsigned long)a >> b ); else a = (unsigned long)a >> b; } return newintobject(a); } static object * int_and(v, w) intobject *v; intobject *w; { register long a, b; a = v->ob_ival; b = w->ob_ival; return newintobject(a & b); } static object * int_xor(v, w) intobject *v; intobject *w; { register long a, b; a = v->ob_ival; b = w->ob_ival; return newintobject(a ^ b); } static object * int_or(v, w) intobject *v; intobject *w; { register long a, b; a = v->ob_ival; b = w->ob_ival; return newintobject(a | b); } static object * int_int(v) object *v; { INCREF(v); return v; } static object * int_long(v) object *v; { long x = getintvalue(v); return newlongobject(x); } static object * int_float(v) object *v; { long x = getintvalue(v); return newfloatobject((double)x); } static object * int_oct(v) object *v; { char buf[20]; long x = getintvalue(v); if (x == 0) strcpy(buf, "0"); else if (x > 0) sprintf(buf, "0%lo", x); else sprintf(buf, "-0%lo", -x); return newstringobject(buf); } static object * int_hex(v) object *v; { char buf[20]; long x = getintvalue(v); if (x >= 0) sprintf(buf, "0x%lx", x); else sprintf(buf, "-0x%lx", -x); return newstringobject(buf); } static number_methods int_as_number = { int_add, /*nb_add*/ int_sub, /*nb_subtract*/ int_mul, /*nb_multiply*/ int_div, /*nb_divide*/ int_mod, /*nb_remainder*/ int_divmod, /*nb_divmod*/ int_pow, /*nb_power*/ int_neg, /*nb_negative*/ int_pos, /*nb_positive*/ int_abs, /*nb_absolute*/ int_nonzero, /*nb_nonzero*/ int_invert, /*nb_invert*/ int_lshift, /*nb_lshift*/ int_rshift, /*nb_rshift*/ int_and, /*nb_and*/ int_xor, /*nb_xor*/ int_or, /*nb_or*/ 0, /*nb_coerce*/ int_int, /*nb_int*/ int_long, /*nb_long*/ int_float, /*nb_float*/ int_oct, /*nb_oct*/ int_hex, /*nb_hex*/ }; typeobject Inttype = { OB_HEAD_INIT(&Typetype) 0, "int", sizeof(intobject), 0, int_dealloc, /*tp_dealloc*/ int_print, /*tp_print*/ 0, /*tp_getattr*/ 0, /*tp_setattr*/ int_compare, /*tp_compare*/ int_repr, /*tp_repr*/ &int_as_number, /*tp_as_number*/ 0, /*tp_as_sequence*/ 0, /*tp_as_mapping*/ };