8d9254fc8a
From-SVN: r279813
392 lines
8.5 KiB
C
392 lines
8.5 KiB
C
/* Simple data type for real numbers for the GNU compiler.
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Copyright (C) 2002-2020 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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/* This library supports real numbers;
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inf and nan are NOT supported.
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It is written to be simple and fast.
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Value of sreal is
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x = sig * 2 ^ exp
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where
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sig = significant
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(for < 64-bit machines sig = sig_lo + sig_hi * 2 ^ SREAL_PART_BITS)
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exp = exponent
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One uint64_t is used for the significant.
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Only a half of significant bits is used (in normalized sreals) so that we do
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not have problems with overflow, for example when c->sig = a->sig * b->sig.
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So the precision is 32-bit.
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Invariant: The numbers are normalized before and after each call of sreal_*.
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Normalized sreals:
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All numbers (except zero) meet following conditions:
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SREAL_MIN_SIG <= sig && sig <= SREAL_MAX_SIG
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-SREAL_MAX_EXP <= exp && exp <= SREAL_MAX_EXP
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If the number would be too large, it is set to upper bounds of these
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conditions.
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If the number is zero or would be too small it meets following conditions:
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sig == 0 && exp == -SREAL_MAX_EXP
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*/
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#include "config.h"
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#include "system.h"
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#include <math.h>
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#include "coretypes.h"
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#include "sreal.h"
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#include "selftest.h"
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#include "backend.h"
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#include "tree.h"
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#include "gimple.h"
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#include "cgraph.h"
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#include "data-streamer.h"
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/* Print the content of struct sreal. */
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void
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sreal::dump (FILE *file) const
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{
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fprintf (file, "(%" PRIi64 " * 2^%d)", (int64_t)m_sig, m_exp);
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}
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DEBUG_FUNCTION void
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debug (const sreal &ref)
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{
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ref.dump (stderr);
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}
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DEBUG_FUNCTION void
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debug (const sreal *ptr)
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{
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if (ptr)
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debug (*ptr);
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else
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fprintf (stderr, "<nil>\n");
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}
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/* Shift this right by S bits. Needed: 0 < S <= SREAL_BITS.
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When the most significant bit shifted out is 1, add 1 to this (rounding).
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*/
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void
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sreal::shift_right (int s)
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{
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gcc_checking_assert (s > 0);
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gcc_checking_assert (s <= SREAL_BITS);
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/* Exponent should never be so large because shift_right is used only by
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sreal_add and sreal_sub ant thus the number cannot be shifted out from
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exponent range. */
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gcc_checking_assert (m_exp + s <= SREAL_MAX_EXP);
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m_exp += s;
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m_sig += (int64_t) 1 << (s - 1);
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m_sig >>= s;
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}
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/* Return integer value of *this. */
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int64_t
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sreal::to_int () const
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{
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int64_t sign = SREAL_SIGN (m_sig);
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if (m_exp <= -SREAL_BITS)
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return 0;
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if (m_exp >= SREAL_PART_BITS)
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return sign * INTTYPE_MAXIMUM (int64_t);
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if (m_exp > 0)
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return sign * (SREAL_ABS ((int64_t)m_sig) << m_exp);
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if (m_exp < 0)
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return m_sig >> -m_exp;
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return m_sig;
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}
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/* Return value of *this as double.
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This should be used for debug output only. */
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double
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sreal::to_double () const
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{
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double val = m_sig;
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if (m_exp)
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val = ldexp (val, m_exp);
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return val;
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}
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/* Return *this + other. */
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sreal
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sreal::operator+ (const sreal &other) const
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{
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int dexp;
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sreal tmp;
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int64_t r_sig, r_exp;
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const sreal *a_p = this, *b_p = &other, *bb;
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if (a_p->m_exp < b_p->m_exp)
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std::swap (a_p, b_p);
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dexp = a_p->m_exp - b_p->m_exp;
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r_exp = a_p->m_exp;
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if (dexp > SREAL_BITS)
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{
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r_sig = a_p->m_sig;
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sreal r;
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r.m_sig = r_sig;
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r.m_exp = r_exp;
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return r;
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}
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if (dexp == 0)
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bb = b_p;
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else
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{
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tmp = *b_p;
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tmp.shift_right (dexp);
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bb = &tmp;
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}
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r_sig = a_p->m_sig + (int64_t)bb->m_sig;
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sreal r (r_sig, r_exp);
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return r;
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}
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/* Return *this - other. */
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sreal
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sreal::operator- (const sreal &other) const
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{
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int dexp;
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sreal tmp;
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int64_t r_sig, r_exp;
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const sreal *bb;
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const sreal *a_p = this, *b_p = &other;
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int64_t sign = 1;
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if (a_p->m_exp < b_p->m_exp)
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{
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sign = -1;
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std::swap (a_p, b_p);
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}
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dexp = a_p->m_exp - b_p->m_exp;
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r_exp = a_p->m_exp;
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if (dexp > SREAL_BITS)
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{
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r_sig = sign * a_p->m_sig;
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sreal r;
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r.m_sig = r_sig;
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r.m_exp = r_exp;
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return r;
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}
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if (dexp == 0)
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bb = b_p;
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else
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{
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tmp = *b_p;
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tmp.shift_right (dexp);
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bb = &tmp;
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}
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r_sig = sign * ((int64_t) a_p->m_sig - (int64_t)bb->m_sig);
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sreal r (r_sig, r_exp);
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return r;
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}
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/* Return *this * other. */
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sreal
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sreal::operator* (const sreal &other) const
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{
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sreal r;
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if (absu_hwi (m_sig) < SREAL_MIN_SIG
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|| absu_hwi (other.m_sig) < SREAL_MIN_SIG)
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{
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r.m_sig = 0;
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r.m_exp = -SREAL_MAX_EXP;
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}
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else
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r.normalize (m_sig * (int64_t) other.m_sig, m_exp + other.m_exp);
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return r;
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}
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/* Return *this / other. */
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sreal
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sreal::operator/ (const sreal &other) const
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{
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gcc_checking_assert (other.m_sig != 0);
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sreal r (SREAL_SIGN (m_sig)
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* ((int64_t)SREAL_ABS (m_sig) << SREAL_PART_BITS) / other.m_sig,
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m_exp - other.m_exp - SREAL_PART_BITS);
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return r;
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}
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/* Stream sreal value to OB. */
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void
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sreal::stream_out (struct output_block *ob)
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{
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streamer_write_hwi (ob, m_sig);
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streamer_write_hwi (ob, m_exp);
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}
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/* Read sreal value from IB. */
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sreal
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sreal::stream_in (class lto_input_block *ib)
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{
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sreal val;
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val.m_sig = streamer_read_hwi (ib);
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val.m_exp = streamer_read_hwi (ib);
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return val;
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}
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#if CHECKING_P
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namespace selftest {
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/* Selftests for sreals. */
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/* Verify basic sreal operations. */
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static void
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sreal_verify_basics (void)
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{
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sreal minimum = INT_MIN/2;
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sreal maximum = INT_MAX/2;
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sreal seven = 7;
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sreal minus_two = -2;
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sreal minus_nine = -9;
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ASSERT_EQ (INT_MIN/2, minimum.to_int ());
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ASSERT_EQ (INT_MAX/2, maximum.to_int ());
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ASSERT_FALSE (minus_two < minus_two);
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ASSERT_FALSE (seven < seven);
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ASSERT_TRUE (seven > minus_two);
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ASSERT_TRUE (minus_two < seven);
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ASSERT_TRUE (minus_two != seven);
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ASSERT_EQ (minus_two, -2);
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ASSERT_EQ (seven, 7);
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ASSERT_EQ ((seven << 10) >> 10, 7);
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ASSERT_EQ (seven + minus_nine, -2);
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}
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/* Helper function that performs basic arithmetics and comparison
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of given arguments A and B. */
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static void
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verify_aritmetics (int64_t a, int64_t b)
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{
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ASSERT_EQ (a, -(-(sreal (a))).to_int ());
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ASSERT_EQ (a < b, sreal (a) < sreal (b));
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ASSERT_EQ (a <= b, sreal (a) <= sreal (b));
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ASSERT_EQ (a == b, sreal (a) == sreal (b));
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ASSERT_EQ (a != b, sreal (a) != sreal (b));
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ASSERT_EQ (a > b, sreal (a) > sreal (b));
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ASSERT_EQ (a >= b, sreal (a) >= sreal (b));
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ASSERT_EQ (a + b, (sreal (a) + sreal (b)).to_int ());
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ASSERT_EQ (a - b, (sreal (a) - sreal (b)).to_int ());
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ASSERT_EQ (b + a, (sreal (b) + sreal (a)).to_int ());
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ASSERT_EQ (b - a, (sreal (b) - sreal (a)).to_int ());
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}
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/* Verify arithmetics for interesting numbers. */
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static void
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sreal_verify_arithmetics (void)
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{
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int values[] = {-14123413, -7777, -17, -10, -2, 0, 17, 139, 1234123};
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unsigned c = sizeof (values) / sizeof (int);
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for (unsigned i = 0; i < c; i++)
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for (unsigned j = 0; j < c; j++)
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{
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int a = values[i];
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int b = values[j];
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verify_aritmetics (a, b);
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}
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}
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/* Helper function that performs various shifting test of a given
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argument A. */
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static void
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verify_shifting (int64_t a)
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{
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sreal v = a;
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for (unsigned i = 0; i < 16; i++)
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ASSERT_EQ (a << i, (v << i).to_int());
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a = a << 16;
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v = v << 16;
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for (unsigned i = 0; i < 16; i++)
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ASSERT_EQ (a >> i, (v >> i).to_int());
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}
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/* Verify shifting for interesting numbers. */
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static void
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sreal_verify_shifting (void)
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{
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int values[] = {0, 17, 32, 139, 1024, 55555, 1234123};
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unsigned c = sizeof (values) / sizeof (int);
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for (unsigned i = 0; i < c; i++)
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verify_shifting (values[i]);
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}
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/* Verify division by (of) a negative value. */
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static void
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sreal_verify_negative_division (void)
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{
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ASSERT_EQ (sreal (1) / sreal (1), sreal (1));
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ASSERT_EQ (sreal (-1) / sreal (-1), sreal (1));
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ASSERT_EQ (sreal (-1234567) / sreal (-1234567), sreal (1));
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ASSERT_EQ (sreal (-1234567) / sreal (1234567), sreal (-1));
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ASSERT_EQ (sreal (1234567) / sreal (-1234567), sreal (-1));
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}
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/* Run all of the selftests within this file. */
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void sreal_c_tests ()
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{
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sreal_verify_basics ();
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sreal_verify_arithmetics ();
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sreal_verify_shifting ();
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sreal_verify_negative_division ();
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}
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} // namespace selftest
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#endif /* CHECKING_P */
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