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  2.   soft-fp
  3.   op-1.h
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/* Software floating-point emulation.
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   Basic one-word fraction declaration and manipulation.
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   Copyright (C) 1997-2018 Free Software Foundation, Inc.
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   This file is part of the GNU C Library.
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   Contributed by Richard Henderson (rth@cygnus.com),
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		  Jakub Jelinek (jj@ultra.linux.cz),
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		  David S. Miller (davem@redhat.com) and
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		  Peter Maydell (pmaydell@chiark.greenend.org.uk).
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   The GNU C Library is free software; you can redistribute it and/or
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   modify it under the terms of the GNU Lesser General Public
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   License as published by the Free Software Foundation; either
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   version 2.1 of the License, or (at your option) any later version.
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   In addition to the permissions in the GNU Lesser General Public
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   License, the Free Software Foundation gives you unlimited
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   permission to link the compiled version of this file into
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   combinations with other programs, and to distribute those
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   combinations without any restriction coming from the use of this
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   file.  (The Lesser General Public License restrictions do apply in
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   other respects; for example, they cover modification of the file,
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   and distribution when not linked into a combine executable.)
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   The GNU C Library is distributed in the hope that it will be useful,
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   but WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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   Lesser General Public License for more details.
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   You should have received a copy of the GNU Lesser General Public
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   License along with the GNU C Library; if not, see
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   <http://www.gnu.org/licenses/>.  */
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#ifndef SOFT_FP_OP_1_H
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#define SOFT_FP_OP_1_H	1
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#define _FP_FRAC_DECL_1(X)	_FP_W_TYPE X##_f _FP_ZERO_INIT
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#define _FP_FRAC_COPY_1(D, S)	(D##_f = S##_f)
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#define _FP_FRAC_SET_1(X, I)	(X##_f = I)
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#define _FP_FRAC_HIGH_1(X)	(X##_f)
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#define _FP_FRAC_LOW_1(X)	(X##_f)
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#define _FP_FRAC_WORD_1(X, w)	(X##_f)
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#define _FP_FRAC_ADDI_1(X, I)	(X##_f += I)
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#define _FP_FRAC_SLL_1(X, N)			\
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  do						\
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    {						\
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      if (__builtin_constant_p (N) && (N) == 1)	\
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	X##_f += X##_f;				\
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      else					\
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	X##_f <<= (N);				\
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    }						\
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  while (0)
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#define _FP_FRAC_SRL_1(X, N)	(X##_f >>= N)
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/* Right shift with sticky-lsb.  */
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#define _FP_FRAC_SRST_1(X, S, N, sz)	__FP_FRAC_SRST_1 (X##_f, S, (N), (sz))
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#define _FP_FRAC_SRS_1(X, N, sz)	__FP_FRAC_SRS_1 (X##_f, (N), (sz))
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#define __FP_FRAC_SRST_1(X, S, N, sz)			\
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  do							\
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    {							\
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      S = (__builtin_constant_p (N) && (N) == 1		\
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	   ? X & 1					\
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	   : (X << (_FP_W_TYPE_SIZE - (N))) != 0);	\
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      X = X >> (N);					\
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    }							\
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  while (0)
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#define __FP_FRAC_SRS_1(X, N, sz)				\
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  (X = (X >> (N) | (__builtin_constant_p (N) && (N) == 1	\
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		    ? X & 1					\
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		    : (X << (_FP_W_TYPE_SIZE - (N))) != 0)))
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#define _FP_FRAC_ADD_1(R, X, Y)	(R##_f = X##_f + Y##_f)
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#define _FP_FRAC_SUB_1(R, X, Y)	(R##_f = X##_f - Y##_f)
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#define _FP_FRAC_DEC_1(X, Y)	(X##_f -= Y##_f)
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#define _FP_FRAC_CLZ_1(z, X)	__FP_CLZ ((z), X##_f)
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/* Predicates.  */
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#define _FP_FRAC_NEGP_1(X)	((_FP_WS_TYPE) X##_f < 0)
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#define _FP_FRAC_ZEROP_1(X)	(X##_f == 0)
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#define _FP_FRAC_OVERP_1(fs, X)	(X##_f & _FP_OVERFLOW_##fs)
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#define _FP_FRAC_CLEAR_OVERP_1(fs, X)	(X##_f &= ~_FP_OVERFLOW_##fs)
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#define _FP_FRAC_HIGHBIT_DW_1(fs, X)	(X##_f & _FP_HIGHBIT_DW_##fs)
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#define _FP_FRAC_EQ_1(X, Y)	(X##_f == Y##_f)
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#define _FP_FRAC_GE_1(X, Y)	(X##_f >= Y##_f)
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#define _FP_FRAC_GT_1(X, Y)	(X##_f > Y##_f)
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#define _FP_ZEROFRAC_1		0
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#define _FP_MINFRAC_1		1
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#define _FP_MAXFRAC_1		(~(_FP_WS_TYPE) 0)
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/* Unpack the raw bits of a native fp value.  Do not classify or
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   normalize the data.  */
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#define _FP_UNPACK_RAW_1(fs, X, val)			\
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  do							\
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    {							\
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      union _FP_UNION_##fs _FP_UNPACK_RAW_1_flo;	\
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      _FP_UNPACK_RAW_1_flo.flt = (val);			\
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							\
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      X##_f = _FP_UNPACK_RAW_1_flo.bits.frac;		\
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      X##_e = _FP_UNPACK_RAW_1_flo.bits.exp;		\
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      X##_s = _FP_UNPACK_RAW_1_flo.bits.sign;		\
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    }							\
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  while (0)
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#define _FP_UNPACK_RAW_1_P(fs, X, val)			\
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  do							\
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    {							\
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      union _FP_UNION_##fs *_FP_UNPACK_RAW_1_P_flo	\
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	= (union _FP_UNION_##fs *) (val);		\
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							\
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      X##_f = _FP_UNPACK_RAW_1_P_flo->bits.frac;	\
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      X##_e = _FP_UNPACK_RAW_1_P_flo->bits.exp;		\
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      X##_s = _FP_UNPACK_RAW_1_P_flo->bits.sign;	\
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    }							\
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  while (0)
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/* Repack the raw bits of a native fp value.  */
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#define _FP_PACK_RAW_1(fs, val, X)		\
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  do						\
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    {						\
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      union _FP_UNION_##fs _FP_PACK_RAW_1_flo;	\
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						\
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      _FP_PACK_RAW_1_flo.bits.frac = X##_f;	\
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      _FP_PACK_RAW_1_flo.bits.exp  = X##_e;	\
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      _FP_PACK_RAW_1_flo.bits.sign = X##_s;	\
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						\
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      (val) = _FP_PACK_RAW_1_flo.flt;		\
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    }						\
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  while (0)
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#define _FP_PACK_RAW_1_P(fs, val, X)			\
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  do							\
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    {							\
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      union _FP_UNION_##fs *_FP_PACK_RAW_1_P_flo	\
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	= (union _FP_UNION_##fs *) (val);		\
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							\
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      _FP_PACK_RAW_1_P_flo->bits.frac = X##_f;		\
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      _FP_PACK_RAW_1_P_flo->bits.exp  = X##_e;		\
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      _FP_PACK_RAW_1_P_flo->bits.sign = X##_s;		\
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    }							\
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  while (0)
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/* Multiplication algorithms: */
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/* Basic.  Assuming the host word size is >= 2*FRACBITS, we can do the
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   multiplication immediately.  */
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#define _FP_MUL_MEAT_DW_1_imm(wfracbits, R, X, Y)	\
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  do							\
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    {							\
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      R##_f = X##_f * Y##_f;				\
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    }							\
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  while (0)
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#define _FP_MUL_MEAT_1_imm(wfracbits, R, X, Y)				\
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  do									\
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    {									\
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      _FP_MUL_MEAT_DW_1_imm ((wfracbits), R, X, Y);			\
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      /* Normalize since we know where the msb of the multiplicands	\
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	 were (bit B), we know that the msb of the of the product is	\
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	 at either 2B or 2B-1.  */					\
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      _FP_FRAC_SRS_1 (R, (wfracbits)-1, 2*(wfracbits));			\
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    }									\
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  while (0)
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/* Given a 1W * 1W => 2W primitive, do the extended multiplication.  */
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#define _FP_MUL_MEAT_DW_1_wide(wfracbits, R, X, Y, doit)	\
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  do								\
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    {								\
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      doit (R##_f1, R##_f0, X##_f, Y##_f);			\
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    }								\
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  while (0)
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#define _FP_MUL_MEAT_1_wide(wfracbits, R, X, Y, doit)			\
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  do									\
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    {									\
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      _FP_FRAC_DECL_2 (_FP_MUL_MEAT_1_wide_Z);				\
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      _FP_MUL_MEAT_DW_1_wide ((wfracbits), _FP_MUL_MEAT_1_wide_Z,	\
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			      X, Y, doit);				\
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      /* Normalize since we know where the msb of the multiplicands	\
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	 were (bit B), we know that the msb of the of the product is	\
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	 at either 2B or 2B-1.  */					\
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      _FP_FRAC_SRS_2 (_FP_MUL_MEAT_1_wide_Z, (wfracbits)-1,		\
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		      2*(wfracbits));					\
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      R##_f = _FP_MUL_MEAT_1_wide_Z_f0;					\
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    }									\
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  while (0)
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/* Finally, a simple widening multiply algorithm.  What fun!  */
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#define _FP_MUL_MEAT_DW_1_hard(wfracbits, R, X, Y)			\
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  do									\
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    {									\
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      _FP_W_TYPE _FP_MUL_MEAT_DW_1_hard_xh, _FP_MUL_MEAT_DW_1_hard_xl;	\
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      _FP_W_TYPE _FP_MUL_MEAT_DW_1_hard_yh, _FP_MUL_MEAT_DW_1_hard_yl;	\
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      _FP_FRAC_DECL_2 (_FP_MUL_MEAT_DW_1_hard_a);			\
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									\
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      /* Split the words in half.  */					\
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      _FP_MUL_MEAT_DW_1_hard_xh = X##_f >> (_FP_W_TYPE_SIZE/2);		\
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      _FP_MUL_MEAT_DW_1_hard_xl						\
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	= X##_f & (((_FP_W_TYPE) 1 << (_FP_W_TYPE_SIZE/2)) - 1);	\
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      _FP_MUL_MEAT_DW_1_hard_yh = Y##_f >> (_FP_W_TYPE_SIZE/2);		\
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      _FP_MUL_MEAT_DW_1_hard_yl						\
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	= Y##_f & (((_FP_W_TYPE) 1 << (_FP_W_TYPE_SIZE/2)) - 1);	\
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									\
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      /* Multiply the pieces.  */					\
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      R##_f0 = _FP_MUL_MEAT_DW_1_hard_xl * _FP_MUL_MEAT_DW_1_hard_yl;	\
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      _FP_MUL_MEAT_DW_1_hard_a_f0					\
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	= _FP_MUL_MEAT_DW_1_hard_xh * _FP_MUL_MEAT_DW_1_hard_yl;	\
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      _FP_MUL_MEAT_DW_1_hard_a_f1					\
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	= _FP_MUL_MEAT_DW_1_hard_xl * _FP_MUL_MEAT_DW_1_hard_yh;	\
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      R##_f1 = _FP_MUL_MEAT_DW_1_hard_xh * _FP_MUL_MEAT_DW_1_hard_yh;	\
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									\
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      /* Reassemble into two full words.  */				\
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      if ((_FP_MUL_MEAT_DW_1_hard_a_f0 += _FP_MUL_MEAT_DW_1_hard_a_f1)	\
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	  < _FP_MUL_MEAT_DW_1_hard_a_f1)				\
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	R##_f1 += (_FP_W_TYPE) 1 << (_FP_W_TYPE_SIZE/2);		\
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      _FP_MUL_MEAT_DW_1_hard_a_f1					\
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	= _FP_MUL_MEAT_DW_1_hard_a_f0 >> (_FP_W_TYPE_SIZE/2);		\
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      _FP_MUL_MEAT_DW_1_hard_a_f0					\
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	= _FP_MUL_MEAT_DW_1_hard_a_f0 << (_FP_W_TYPE_SIZE/2);		\
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      _FP_FRAC_ADD_2 (R, R, _FP_MUL_MEAT_DW_1_hard_a);			\
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    }									\
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  while (0)
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#define _FP_MUL_MEAT_1_hard(wfracbits, R, X, Y)			\
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  do								\
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    {								\
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      _FP_FRAC_DECL_2 (_FP_MUL_MEAT_1_hard_z);			\
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      _FP_MUL_MEAT_DW_1_hard ((wfracbits),			\
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			      _FP_MUL_MEAT_1_hard_z, X, Y);	\
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								\
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      /* Normalize.  */						\
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      _FP_FRAC_SRS_2 (_FP_MUL_MEAT_1_hard_z,			\
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		      (wfracbits) - 1, 2*(wfracbits));		\
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      R##_f = _FP_MUL_MEAT_1_hard_z_f0;				\
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    }								\
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  while (0)
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/* Division algorithms: */
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/* Basic.  Assuming the host word size is >= 2*FRACBITS, we can do the
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   division immediately.  Give this macro either _FP_DIV_HELP_imm for
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   C primitives or _FP_DIV_HELP_ldiv for the ISO function.  Which you
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   choose will depend on what the compiler does with divrem4.  */
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#define _FP_DIV_MEAT_1_imm(fs, R, X, Y, doit)				\
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  do									\
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    {									\
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      _FP_W_TYPE _FP_DIV_MEAT_1_imm_q, _FP_DIV_MEAT_1_imm_r;		\
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      X##_f <<= (X##_f < Y##_f						\
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		 ? R##_e--, _FP_WFRACBITS_##fs				\
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		 : _FP_WFRACBITS_##fs - 1);				\
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      doit (_FP_DIV_MEAT_1_imm_q, _FP_DIV_MEAT_1_imm_r, X##_f, Y##_f);	\
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      R##_f = _FP_DIV_MEAT_1_imm_q | (_FP_DIV_MEAT_1_imm_r != 0);	\
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    }									\
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  while (0)
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/* GCC's longlong.h defines a 2W / 1W => (1W,1W) primitive udiv_qrnnd
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   that may be useful in this situation.  This first is for a primitive
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   that requires normalization, the second for one that does not.  Look
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   for UDIV_NEEDS_NORMALIZATION to tell which your machine needs.  */
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#define _FP_DIV_MEAT_1_udiv_norm(fs, R, X, Y)				\
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  do									\
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    {									\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_norm_nh;				\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_norm_nl;				\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_norm_q;				\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_norm_r;				\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_norm_y;				\
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									\
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      /* Normalize Y -- i.e. make the most significant bit set.  */	\
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      _FP_DIV_MEAT_1_udiv_norm_y = Y##_f << _FP_WFRACXBITS_##fs;	\
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									\
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      /* Shift X op correspondingly high, that is, up one full word.  */ \
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      if (X##_f < Y##_f)						\
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	{								\
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	  R##_e--;							\
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	  _FP_DIV_MEAT_1_udiv_norm_nl = 0;				\
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	  _FP_DIV_MEAT_1_udiv_norm_nh = X##_f;				\
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	}								\
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      else								\
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	{								\
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	  _FP_DIV_MEAT_1_udiv_norm_nl = X##_f << (_FP_W_TYPE_SIZE - 1);	\
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	  _FP_DIV_MEAT_1_udiv_norm_nh = X##_f >> 1;			\
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	}								\
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									\
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      udiv_qrnnd (_FP_DIV_MEAT_1_udiv_norm_q,				\
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		  _FP_DIV_MEAT_1_udiv_norm_r,				\
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		  _FP_DIV_MEAT_1_udiv_norm_nh,				\
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		  _FP_DIV_MEAT_1_udiv_norm_nl,				\
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		  _FP_DIV_MEAT_1_udiv_norm_y);				\
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      R##_f = (_FP_DIV_MEAT_1_udiv_norm_q				\
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	       | (_FP_DIV_MEAT_1_udiv_norm_r != 0));			\
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    }									\
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  while (0)
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#define _FP_DIV_MEAT_1_udiv(fs, R, X, Y)				\
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  do									\
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    {									\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_nh, _FP_DIV_MEAT_1_udiv_nl;	\
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      _FP_W_TYPE _FP_DIV_MEAT_1_udiv_q, _FP_DIV_MEAT_1_udiv_r;		\
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      if (X##_f < Y##_f)						\
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	{								\
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	  R##_e--;							\
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	  _FP_DIV_MEAT_1_udiv_nl = X##_f << _FP_WFRACBITS_##fs;		\
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	  _FP_DIV_MEAT_1_udiv_nh = X##_f >> _FP_WFRACXBITS_##fs;	\
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	}								\
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      else								\
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	{								\
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	  _FP_DIV_MEAT_1_udiv_nl = X##_f << (_FP_WFRACBITS_##fs - 1);	\
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	  _FP_DIV_MEAT_1_udiv_nh = X##_f >> (_FP_WFRACXBITS_##fs + 1);	\
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	}								\
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      udiv_qrnnd (_FP_DIV_MEAT_1_udiv_q, _FP_DIV_MEAT_1_udiv_r,		\
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		  _FP_DIV_MEAT_1_udiv_nh, _FP_DIV_MEAT_1_udiv_nl,	\
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		  Y##_f);						\
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      R##_f = _FP_DIV_MEAT_1_udiv_q | (_FP_DIV_MEAT_1_udiv_r != 0);	\
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    }									\
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  while (0)
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/* Square root algorithms:
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   We have just one right now, maybe Newton approximation
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   should be added for those machines where division is fast.  */
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#define _FP_SQRT_MEAT_1(R, S, T, X, q)		\
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  do						\
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    {						\
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      while ((q) != _FP_WORK_ROUND)		\
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	{					\
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	  T##_f = S##_f + (q);			\
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	  if (T##_f <= X##_f)			\
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	    {					\
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	      S##_f = T##_f + (q);		\
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	      X##_f -= T##_f;			\
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	      R##_f += (q);			\
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	    }					\
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	  _FP_FRAC_SLL_1 (X, 1);		\
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	  (q) >>= 1;				\
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	}					\
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      if (X##_f)				\
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	{					\
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	  if (S##_f < X##_f)			\
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	    R##_f |= _FP_WORK_ROUND;		\
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	  R##_f |= _FP_WORK_STICKY;		\
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	}					\
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    }						\
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  while (0)
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/* Assembly/disassembly for converting to/from integral types.
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   No shifting or overflow handled here.  */
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#define _FP_FRAC_ASSEMBLE_1(r, X, rsize)	((r) = X##_f)
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#define _FP_FRAC_DISASSEMBLE_1(X, r, rsize)	(X##_f = (r))
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/* Convert FP values between word sizes.  */
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#define _FP_FRAC_COPY_1_1(D, S)		(D##_f = S##_f)
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#endif /* !SOFT_FP_OP_1_H */

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