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/*
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* Copyright (c) 2002-2005 The TenDRA Project <http://www.tendra.org/>.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are met:
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*
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* 1. Redistributions of source code must retain the above copyright notice,
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* this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright notice,
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* this list of conditions and the following disclaimer in the documentation
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* and/or other materials provided with the distribution.
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* 3. Neither the name of The TenDRA Project nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific, prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS
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* IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
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* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR
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* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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* EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
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* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
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* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
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* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*
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* $Id$
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*/
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/*
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/*
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Crown Copyright (c) 1997
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Crown Copyright (c) 1997
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This TenDRA(r) Computer Program is subject to Copyright
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This TenDRA(r) Computer Program is subject to Copyright
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owned by the United Kingdom Secretary of State for Defence
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owned by the United Kingdom Secretary of State for Defence
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acting through the Defence Evaluation and Research Agency
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acting through the Defence Evaluation and Research Agency
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(DERA). It is made available to Recipients with a
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(DERA). It is made available to Recipients with a
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royalty-free licence for its use, reproduction, transfer
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royalty-free licence for its use, reproduction, transfer
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to other parties and amendment for any purpose not excluding
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to other parties and amendment for any purpose not excluding
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product development provided that any such use et cetera
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product development provided that any such use et cetera
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shall be deemed to be acceptance of the following conditions:-
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shall be deemed to be acceptance of the following conditions:-
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(1) Its Recipients shall ensure that this Notice is
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(1) Its Recipients shall ensure that this Notice is
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reproduced upon any copies or amended versions of it;
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reproduced upon any copies or amended versions of it;
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(2) Any amended version of it shall be clearly marked to
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(2) Any amended version of it shall be clearly marked to
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show both the nature of and the organisation responsible
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show both the nature of and the organisation responsible
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for the relevant amendment or amendments;
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for the relevant amendment or amendments;
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(3) Its onward transfer from a recipient to another
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(3) Its onward transfer from a recipient to another
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party shall be deemed to be that party's acceptance of
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party shall be deemed to be that party's acceptance of
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these conditions;
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these conditions;
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(4) DERA gives no warranty or assurance as to its
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(4) DERA gives no warranty or assurance as to its
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quality or suitability for any purpose and DERA accepts
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quality or suitability for any purpose and DERA accepts
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no liability whatsoever in relation to any use to which
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no liability whatsoever in relation to any use to which
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it may be put.
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it may be put.
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*/
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*/
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/*
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/*
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CONSTANT EVALUATION MACROS
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CONSTANT EVALUATION MACROS
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All the calculation routines are based on lists of unsigned int's
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All the calculation routines are based on lists of unsigned int's
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holding values in the range [0,0xffff]. The type unsigned long is
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holding values in the range [0, 0xffff]. The type unsigned long is
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guaranteed to contain at least the range [0,0xffffffff]. All
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guaranteed to contain at least the range [0, 0xffffffff]. All
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calculations are performed in this double precision type to allow for
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calculations are performed in this double precision type to allow for
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overflows. The macros LO_HALF, HI_HALF, EXTEND_VALUE and COMBINE_VALUES
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overflows. The macros LO_HALF, HI_HALF, EXTEND_VALUE and COMBINE_VALUES
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are used for converting to and from the extended type.
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are used for converting to and from the extended type.
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*/
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*/
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#define NAT_DIGITS 16
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#define NAT_DIGITS 16
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#define NAT_MASK ( ( unsigned ) 0xffff )
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#define NAT_MASK ((unsigned)0xffff)
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#define LO_HALF( A ) ( ( unsigned ) ( ( A ) & NAT_MASK ) )
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#define LO_HALF(A) ((unsigned)((A) & NAT_MASK))
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#define HI_HALF( A ) ( LO_HALF ( ( A ) >> NAT_DIGITS ) )
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#define HI_HALF(A) (LO_HALF((A) >> NAT_DIGITS))
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#define EXTEND_VALUE( A ) ( ( unsigned long ) ( A ) )
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#define EXTEND_VALUE(A) ((unsigned long)(A))
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#define COMBINE_VALUES( A, B ) ( EXTEND_VALUE ( A ) +\
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#define COMBINE_VALUES(A, B) (EXTEND_VALUE(A) +\
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( EXTEND_VALUE ( B ) << NAT_DIGITS ) )
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(EXTEND_VALUE(B) << NAT_DIGITS))
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#define EXTENDED_MAX COMBINE_VALUES ( NAT_MASK, NAT_MASK )
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#define EXTENDED_MAX COMBINE_VALUES(NAT_MASK, NAT_MASK)
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/*
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/*
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CONSTANT EVALUATION DECLARATIONS
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CONSTANT EVALUATION DECLARATIONS
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The routines in this module are concerned with constructing and
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The routines in this module are concerned with constructing and
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performing calculations with integer constant expressions.
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performing calculations with integer constant expressions.
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*/
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*/
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extern void init_constant PROTO_S ( ( void ) ) ;
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extern void init_constant(void);
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extern void init_float PROTO_S ( ( FLOAT_TYPE ) ) ;
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extern void init_float(FLOAT_TYPE);
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extern FLOAT get_float PROTO_S ( ( TYPE, int ) ) ;
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extern FLOAT get_float(TYPE, int);
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extern NAT make_nat_literal PROTO_S ( ( NAT, unsigned, unsigned ) ) ;
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extern NAT make_nat_literal(NAT, unsigned, unsigned);
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extern NAT make_large_nat PROTO_S ( ( LIST ( unsigned ) ) ) ;
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extern NAT make_large_nat(LIST(unsigned));
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extern NAT make_nat_value PROTO_S ( ( unsigned ) ) ;
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extern NAT make_nat_value(unsigned long);
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extern NAT make_small_nat PROTO_S ( ( int ) ) ;
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extern NAT make_small_nat(int);
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extern unsigned long get_nat_value PROTO_S ( ( NAT ) ) ;
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extern unsigned long get_nat_value(NAT);
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extern NAT negate_nat PROTO_S ( ( NAT ) ) ;
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extern NAT negate_nat(NAT);
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extern NAT binary_nat_op PROTO_S ( ( unsigned, NAT, NAT ) ) ;
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extern NAT binary_nat_op(unsigned, NAT, NAT);
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extern int compare_nat PROTO_S ( ( NAT, NAT ) ) ;
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extern int compare_nat(NAT, NAT);
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extern int eq_nat PROTO_S ( ( NAT, NAT ) ) ;
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extern int eq_nat(NAT, NAT);
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extern int check_nat_range PROTO_S ( ( TYPE, NAT ) ) ;
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extern int check_nat_range(TYPE, NAT);
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extern int check_type_size PROTO_S ( ( TYPE, NAT ) ) ;
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extern int check_type_size(TYPE, NAT);
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extern NAT max_type_value PROTO_S ( ( TYPE, int ) ) ;
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extern NAT max_type_value(TYPE, int);
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extern void check_bounds PROTO_S ( ( int, TYPE, EXP ) ) ;
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extern void check_bounds(int, TYPE, EXP);
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extern unsigned eval_const_cond PROTO_S ( ( EXP ) ) ;
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extern unsigned eval_const_cond(EXP);
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extern unsigned no_bits PROTO_S ( ( unsigned ) ) ;
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extern unsigned no_bits(unsigned);
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extern int divides_nat PROTO_S ( ( EXP, EXP ) ) ;
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extern int divides_nat(EXP, EXP);
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extern int is_zero_nat PROTO_S ( ( NAT ) ) ;
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extern int is_zero_nat(NAT);
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extern int is_negative_nat PROTO_S ( ( NAT ) ) ;
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extern int is_negative_nat(NAT);
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extern int is_error_nat PROTO_S ( ( NAT ) ) ;
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extern int is_error_nat(NAT);
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extern int is_calc_nat PROTO_S ( ( NAT ) ) ;
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extern int is_calc_nat(NAT);
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extern int is_zero_exp PROTO_S ( ( EXP ) ) ;
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extern int is_zero_exp(EXP);
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extern int is_literal PROTO_S ( ( EXP ) ) ;
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extern int is_literal(EXP);
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/*
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/*
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CONSTANT EVALUATION ROUTINES
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CONSTANT EVALUATION ROUTINES
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These routines are concerned with the evaluation of integer constant
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These routines are concerned with the evaluation of integer constant
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expressions. They are so designed that the int_lit expressions are
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expressions. They are so designed that the int_lit expressions are
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precisely the constant-expressions from the grammar.
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precisely the constant-expressions from the grammar.
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*/
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*/
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extern EXP make_test_nat PROTO_S ( ( EXP ) ) ;
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extern EXP make_test_nat(EXP);
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extern EXP make_unary_nat PROTO_S ( ( unsigned, EXP ) ) ;
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extern EXP make_unary_nat(unsigned, EXP);
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extern EXP make_binary_nat PROTO_S ( ( unsigned, EXP, EXP ) ) ;
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extern EXP make_binary_nat(unsigned, EXP, EXP);
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extern EXP make_compare_nat PROTO_S ( ( NTEST, EXP, EXP ) ) ;
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extern EXP make_compare_nat(NTEST, EXP, EXP);
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extern EXP make_cond_nat PROTO_S ( ( EXP, EXP, EXP ) ) ;
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extern EXP make_cond_nat(EXP, EXP, EXP);
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extern EXP make_cast_nat PROTO_S ( ( TYPE, EXP, ERROR *, unsigned ) ) ;
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extern EXP make_cast_nat(TYPE, EXP, ERROR *, unsigned);
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extern EXP make_int_exp PROTO_S ( ( TYPE, unsigned, NAT ) ) ;
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extern EXP make_int_exp(TYPE, unsigned, NAT);
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extern NAT make_nat_exp PROTO_S ( ( EXP, ERROR * ) ) ;
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extern NAT make_nat_exp(EXP, ERROR *);
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extern EXP calc_nat_value PROTO_S ( ( NAT, TYPE ) ) ;
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extern EXP calc_nat_value(NAT, TYPE);
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#define SMALL_NAT_SIZE 257
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#define SMALL_NAT_SIZE 257
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#define SMALL_NAT_ALLOC 17
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#define SMALL_NAT_ALLOC 17
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#define SMALL_FLT_SIZE 2
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#define SMALL_FLT_SIZE 2
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extern NAT small_neg_nat [ SMALL_NAT_SIZE ] ;
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extern NAT small_neg_nat[SMALL_NAT_SIZE];
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extern NAT small_nat [ SMALL_NAT_SIZE ] ;
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extern NAT small_nat[SMALL_NAT_SIZE];
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extern string small_number [ SMALL_FLT_SIZE ] ;
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extern string small_number[SMALL_FLT_SIZE];
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#endif
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#endif
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