File: overflow.hpp

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#ifndef _overflow_h_
#define _overflow_h_

#ifdef SIGNAL_ERROR
#error SIGNAL_ERROR
#endif

// methods for detecting arithmetic overflows

#include "exceptions.hpp"
#include <cassert>
#include <M2/config.h>

#if HAVE_STDINT_H
#if !defined(__STDC_LIMIT_MACROS)
#define __STDC_LIMIT_MACROS
#endif
#include <stdint.h>
#elif HAVE_INTTYPES_H
#include <inttypes.h>
#else
#error integer type definitions not available
#endif

#ifdef __GNUC__
#define expect_false(x) (__builtin_expect(x, 0))
#define expect_true(x) (__builtin_expect(x, 1))
#else
#define expect_false(x) (x)
#define expect_true(x) (x)
#endif

namespace safe {

void ov(const char *msg);

static inline int32_t fits_7(int32_t x, const char *msg)
{
  if
    expect_false(((uint32_t)x & ~0x7f) != 0) ov(msg);
  return x;
}
static inline int32_t fits_15(int32_t x, const char *msg)
{
  if
    expect_false(((uint32_t)x & ~0x7fff) != 0) ov(msg);
  return x;
}
static inline int32_t fits_31(int32_t x, const char *msg)
{
  if
    expect_false(x < 0) ov(msg);
  return x;
}

static inline int32_t fits_7(int32_t x)
{
  return fits_7(x, "monomial exponent overflow: fits_7");
}
static inline int32_t fits_15(int32_t x)
{
  return fits_15(x, "monomial exponent overflow: fits_15");
}
static inline int32_t fits_31(int32_t x)
{
  return fits_31(x, "monomial exponent overflow: fits_31");
}

static inline int32_t over_1(int32_t x) { return x < 0; }
static inline int32_t over_2(int32_t x)
{
  return (0x80008000u & (uint32_t)x) != 0;
}
static inline int32_t over_4(int32_t x)
{
  return (0x80808080u & (uint32_t)x) != 0;
}

static inline int32_t add(int32_t x, int32_t y, const char *msg)
{
  int32_t z = (uint32_t)x + (uint32_t)y;
  if
    expect_false((int32_t)((uint32_t)x ^ (uint32_t)z) < 0 &&
                 (int32_t)((uint32_t)x ^ (uint32_t)y) >= 0) ov(msg);
  return z;
}

static inline int32_t add(int32_t x, int32_t y)
{
  return add(x, y, "monomial exponent overflow: int32_t + int32_t");
}

static inline int32_t add_to(int32_t &x, int32_t y, const char *msg)
{
  int32_t z = (uint32_t)x + (uint32_t)y;
  if
    expect_false((int32_t)((uint32_t)x ^ (uint32_t)z) < 0 &&
                 (int32_t)((uint32_t)x ^ (uint32_t)y) >= 0) ov(msg);
  return x = z;
}

static inline int32_t add_to(int32_t &x, int32_t y)
{
  return add_to(x, y, "monomial exponent overflow: int32_t + int32_t");
}

static inline int32_t sub(int32_t x, int32_t y, const char *msg)
{
  int32_t z = (uint32_t)x - (uint32_t)y;
  if
    expect_false((int32_t)((uint32_t)x ^ (uint32_t)z) < 0 &&
                 (int32_t)((uint32_t)x ^ (uint32_t)y) < 0) ov(msg);
  return z;
}

static inline int32_t sub(int32_t x, int32_t y)
{
  return sub(x, y, "monomial exponent overflow: int32_t - int32_t");
}

static inline int32_t sub_from(int32_t &x, int32_t y, const char *msg)
{
  int32_t z = (uint32_t)x - (uint32_t)y;
  if
    expect_false((int32_t)((uint32_t)x ^ (uint32_t)z) < 0 &&
                 (int32_t)((uint32_t)x ^ (uint32_t)y) < 0) ov(msg);
  return x = z;
}

static inline int32_t sub_from(int32_t &x, int32_t y)
{
  return sub_from(x, y, "monomial exponent overflow: int32_t - int32_t");
}

static inline int32_t sub_pos(int32_t x, int32_t y, const char *msg)
{
  if (x <= y) return 0;
  int32_t z = (uint32_t)x - (uint32_t)y;
  if
    expect_false(z < 0) ov(msg);
  return z;
}
static inline int32_t sub_pos(int32_t x, int32_t y)
{
  return sub_pos(x, y, "monomial exponent overflow: int32_t - int32_t [pos]");
}

static inline int32_t minus(int32_t x, const char *msg)
{
  int32_t z = -(uint32_t)x;
  if
    expect_false(z == x && x != 0) ov(msg);
  return z;
}
static inline int32_t minus(int32_t x)
{
  return minus(x, "monomial exponent overflow: - int32_t");
}

static inline int32_t pos_add(int32_t x, int32_t y, const char *msg)
{
  assert(!over_1(x) && !over_1(y));
  int32_t z = (uint32_t)x + (uint32_t)y;
  if
    expect_false(over_1(z)) ov(msg);
  return z;
}
static inline int32_t pos_add(int32_t x, int32_t y)
{
  return pos_add(x, y, "monomial exponent overflow: pos int32_t + pos int32_t");
}
static inline int32_t pos_add_2(int32_t x, int32_t y, const char *msg)
{
  assert(!over_2(x) && !over_2(y));
  int32_t z = (uint32_t)x + (uint32_t)y;
  if
    expect_false(over_2(z)) ov(msg);
  return z;
}
static inline int32_t pos_add_2(int32_t x, int32_t y)
{
  return pos_add_2(
      x, y, "monomial exponent overflow: pos int32_t + pos int32_t, packed 2");
}
static inline int32_t pos_add_4(int32_t x, int32_t y, const char *msg)
{
  assert(!over_4(x) && !over_4(y));
  int32_t z = (uint32_t)x + (uint32_t)y;
  if
    expect_false(over_4(z)) ov(msg);
  return z;
}
static inline int32_t pos_add_4(int32_t x, int32_t y)
{
  return pos_add_4(
      x, y, "monomial exponent overflow: pos int32_t + pos int32_t, packed 4");
}

static inline int32_t mult(int32_t x, int32_t y, const char *msg)
{
  int64_t z = (int64_t)x * y;
  int32_t w = (int32_t)z;
  if
    expect_false(z != (int64_t)w) ov(msg);
  return w;
}
static inline int32_t mult(int32_t x, int32_t y)
{
  return mult(x, y, "monomial exponent overflow: int32_t * int32_t (mult)");
}

static inline int32_t mult_by(int32_t &x, int32_t y, const char *msg)
{
  int64_t z = (int64_t)x * y;
  int32_t w = (int32_t)z;
  if
    expect_false(z != (int64_t)w) ov(msg);
  return x = w;
}
static inline int32_t mult_by(int32_t &x, int32_t y)
{
  return mult_by(
      x, y, "monomial exponent overflow: int32_t * int32_t (mult_by)");
}

static inline int32_t div(int32_t x, int32_t y, const char *msg)
{
  if
    expect_false((uint32_t)x == -(uint32_t)x && x < 0 && y == -1) ov(msg);
  return x / y;
}
static inline int32_t div(int32_t x, int32_t y)
{
  return div(x, y, "monomial exponent overflow: int32 / int32");
}

static inline int32_t div_by(int32_t &x, int32_t y, const char *msg)
{
  if
    expect_false((uint32_t)x == -(uint32_t)x && x < 0 && y == -1) ov(msg);
  return x /= y;
}
static inline int32_t div_by(int32_t &x, int32_t y)
{
  return div_by(x, y, "monomial exponent overflow: int32 / int32");
}
}

#endif

// Local Variables:
// compile-command: "make -C $M2BUILDDIR/Macaulay2/e "
// indent-tabs-mode: nil
// End: