2002-05-19 05:14:02 +00:00
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.\" Copyright (C) Caldera International Inc. 2001-2002. 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
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.\" met:
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.\"
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.\" Redistributions of source code and documentation must retain the above
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.\" copyright notice, this list of conditions and the following
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.\" disclaimer.
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.\"
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.\" Redistributions in binary form must reproduce the above copyright
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.\" notice, this list of conditions and the following disclaimer in the
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.\" documentation and/or other materials provided with the distribution.
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.\"
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.\" All advertising materials mentioning features or use of this software
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.\" must display the following acknowledgement:
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.\"
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.\" This product includes software developed or owned by Caldera
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.\" International, Inc. Neither the name of Caldera International, Inc.
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.\" nor the names of other contributors may be used to endorse or promote
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.\" products derived from this software without specific prior written
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.\" permission.
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.\"
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.\" USE OF THE SOFTWARE PROVIDED FOR UNDER THIS LICENSE BY CALDERA
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.\" INTERNATIONAL, INC. AND CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR
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.\" IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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.\" WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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.\" DISCLAIMED. IN NO EVENT SHALL CALDERA INTERNATIONAL, INC. BE LIABLE
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.\" FOR ANY DIRECT, INDIRECT INCIDENTAL, SPECIAL, EXEMPLARY, OR
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.\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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.\" SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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.\" BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
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.\" WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
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.\" OR OTHERWISE) RISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
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.\" IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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2002-05-19 04:37:39 +00:00
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.\" @(#)ssc 8.1 (Berkeley) 8/14/93
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.\"
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.\" $FreeBSD$
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.SH
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Appendix C: An Advanced Example
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.PP
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This Appendix gives an example of a grammar using some
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of the advanced features discussed in Section 10.
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The desk calculator example in Appendix A is
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modified to provide a desk calculator that
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does floating point interval arithmetic.
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The calculator understands floating point
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constants, the arithmetic operations +, \-, *, /,
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unary \-, and = (assignment), and has 26 floating
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point variables, ``a'' through ``z''.
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Moreover, it also understands
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.I intervals ,
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written
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.DS
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( x , y )
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.DE
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where
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.I x
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is less than or equal to
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.I y .
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There are 26 interval valued variables ``A'' through ``Z''
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that may also be used.
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The usage is similar to that in Appendix A; assignments
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return no value, and print nothing, while expressions print
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the (floating or interval) value.
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.PP
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This example explores a number of interesting features
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of Yacc and C.
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Intervals are represented by a structure, consisting of the
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left and right endpoint values, stored as
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.I double 's.
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This structure is given a type name, INTERVAL, by using
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.I typedef .
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The Yacc value stack can also contain floating point scalars, and
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integers (used to index into the arrays holding the variable values).
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Notice that this entire strategy depends strongly on being able to
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assign structures and unions in C.
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In fact, many of the actions call functions that return structures
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as well.
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.PP
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It is also worth noting the use of YYERROR to handle error conditions:
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division by an interval containing 0, and an interval presented in
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the wrong order.
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In effect, the error recovery mechanism of Yacc is used to throw away the
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rest of the offending line.
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.PP
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In addition to the mixing of types on the value stack,
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this grammar also demonstrates an interesting use of syntax to
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keep track of the type (e.g. scalar or interval) of intermediate
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expressions.
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Note that a scalar can be automatically promoted to an interval if
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the context demands an interval value.
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This causes a large number of conflicts when the grammar is run through
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Yacc: 18 Shift/Reduce and 26 Reduce/Reduce.
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The problem can be seen by looking at the two input lines:
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.DS
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2.5 + ( 3.5 \- 4. )
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.DE
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and
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.DS
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2.5 + ( 3.5 , 4. )
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.DE
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Notice that the 2.5 is to be used in an interval valued expression
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in the second example, but this fact is not known until
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the ``,'' is read; by this time, 2.5 is finished, and the parser cannot go back
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and change its mind.
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More generally, it might be necessary to look ahead an arbitrary number of
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tokens to decide whether to convert a scalar to an interval.
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This problem is evaded by having two rules for each binary interval
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valued operator: one when the left operand is a scalar, and one when
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the left operand is an interval.
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In the second case, the right operand must be an interval,
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so the conversion will be applied automatically.
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Despite this evasion, there are still many cases where the
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conversion may be applied or not, leading to the above
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conflicts.
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They are resolved by listing the rules that yield scalars first
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in the specification file; in this way, the conflicts will
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be resolved in the direction of keeping scalar
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valued expressions scalar valued until they are forced to become
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intervals.
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.PP
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This way of handling multiple types is very instructive, but not very general.
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If there were many kinds of expression types, instead of just two,
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the number of rules needed would increase dramatically, and the conflicts
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even more dramatically.
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Thus, while this example is instructive, it is better practice in a
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more normal programming language environment to
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keep the type information as part of the value, and not as part
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of the grammar.
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.PP
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Finally, a word about the lexical analysis.
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The only unusual feature is the treatment of floating point constants.
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The C library routine
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.I atof
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is used to do the actual conversion from a character string
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to a double precision value.
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If the lexical analyzer detects an error,
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it responds by returning a token that
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is illegal in the grammar, provoking a syntax error
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in the parser, and thence error recovery.
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.LD
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%{
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# include <stdio.h>
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# include <ctype.h>
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typedef struct interval {
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double lo, hi;
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} INTERVAL;
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INTERVAL vmul(), vdiv();
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double atof();
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double dreg[ 26 ];
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INTERVAL vreg[ 26 ];
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%}
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%start lines
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%union {
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int ival;
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double dval;
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INTERVAL vval;
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}
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%token <ival> DREG VREG /* indices into dreg, vreg arrays */
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%token <dval> CONST /* floating point constant */
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%type <dval> dexp /* expression */
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%type <vval> vexp /* interval expression */
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/* precedence information about the operators */
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%left \'+\' \'\-\'
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%left \'*\' \'/\'
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%left UMINUS /* precedence for unary minus */
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%%
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lines : /* empty */
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| lines line
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;
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line : dexp \'\en\'
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{ printf( "%15.8f\en", $1 ); }
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| vexp \'\en\'
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{ printf( "(%15.8f , %15.8f )\en", $1.lo, $1.hi ); }
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| DREG \'=\' dexp \'\en\'
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{ dreg[$1] = $3; }
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| VREG \'=\' vexp \'\en\'
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{ vreg[$1] = $3; }
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| error \'\en\'
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{ yyerrok; }
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;
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dexp : CONST
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| DREG
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{ $$ = dreg[$1]; }
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| dexp \'+\' dexp
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{ $$ = $1 + $3; }
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| dexp \'\-\' dexp
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{ $$ = $1 \- $3; }
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| dexp \'*\' dexp
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{ $$ = $1 * $3; }
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| dexp \'/\' dexp
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{ $$ = $1 / $3; }
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| \'\-\' dexp %prec UMINUS
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{ $$ = \- $2; }
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| \'(\' dexp \')\'
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{ $$ = $2; }
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;
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vexp : dexp
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{ $$.hi = $$.lo = $1; }
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| \'(\' dexp \',\' dexp \')\'
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{
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$$.lo = $2;
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$$.hi = $4;
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if( $$.lo > $$.hi ){
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printf( "interval out of order\en" );
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YYERROR;
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}
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}
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| VREG
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{ $$ = vreg[$1]; }
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| vexp \'+\' vexp
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{ $$.hi = $1.hi + $3.hi;
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$$.lo = $1.lo + $3.lo; }
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| dexp \'+\' vexp
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{ $$.hi = $1 + $3.hi;
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$$.lo = $1 + $3.lo; }
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| vexp \'\-\' vexp
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{ $$.hi = $1.hi \- $3.lo;
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$$.lo = $1.lo \- $3.hi; }
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| dexp \'\-\' vexp
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{ $$.hi = $1 \- $3.lo;
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$$.lo = $1 \- $3.hi; }
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| vexp \'*\' vexp
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{ $$ = vmul( $1.lo, $1.hi, $3 ); }
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| dexp \'*\' vexp
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{ $$ = vmul( $1, $1, $3 ); }
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| vexp \'/\' vexp
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{ if( dcheck( $3 ) ) YYERROR;
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$$ = vdiv( $1.lo, $1.hi, $3 ); }
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| dexp \'/\' vexp
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{ if( dcheck( $3 ) ) YYERROR;
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$$ = vdiv( $1, $1, $3 ); }
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| \'\-\' vexp %prec UMINUS
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{ $$.hi = \-$2.lo; $$.lo = \-$2.hi; }
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| \'(\' vexp \')\'
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{ $$ = $2; }
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;
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%%
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# define BSZ 50 /* buffer size for floating point numbers */
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/* lexical analysis */
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yylex(){
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register c;
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while( (c=getchar()) == \' \' ){ /* skip over blanks */ }
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if( isupper( c ) ){
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yylval.ival = c \- \'A\';
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return( VREG );
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}
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if( islower( c ) ){
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yylval.ival = c \- \'a\';
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return( DREG );
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}
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if( isdigit( c ) || c==\'.\' ){
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/* gobble up digits, points, exponents */
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char buf[BSZ+1], *cp = buf;
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int dot = 0, exp = 0;
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for( ; (cp\-buf)<BSZ ; ++cp,c=getchar() ){
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*cp = c;
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if( isdigit( c ) ) continue;
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if( c == \'.\' ){
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if( dot++ || exp ) return( \'.\' ); /* will cause syntax error */
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continue;
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}
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if( c == \'e\' ){
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if( exp++ ) return( \'e\' ); /* will cause syntax error */
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continue;
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}
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/* end of number */
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break;
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}
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*cp = \'\e0\';
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if( (cp\-buf) >= BSZ ) printf( "constant too long: truncated\en" );
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else ungetc( c, stdin ); /* push back last char read */
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yylval.dval = atof( buf );
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return( CONST );
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}
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return( c );
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}
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INTERVAL hilo( a, b, c, d ) double a, b, c, d; {
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/* returns the smallest interval containing a, b, c, and d */
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/* used by *, / routines */
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INTERVAL v;
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if( a>b ) { v.hi = a; v.lo = b; }
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else { v.hi = b; v.lo = a; }
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if( c>d ) {
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if( c>v.hi ) v.hi = c;
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if( d<v.lo ) v.lo = d;
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}
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else {
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if( d>v.hi ) v.hi = d;
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if( c<v.lo ) v.lo = c;
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}
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return( v );
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}
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INTERVAL vmul( a, b, v ) double a, b; INTERVAL v; {
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return( hilo( a*v.hi, a*v.lo, b*v.hi, b*v.lo ) );
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}
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dcheck( v ) INTERVAL v; {
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if( v.hi >= 0. && v.lo <= 0. ){
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printf( "divisor interval contains 0.\en" );
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return( 1 );
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}
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return( 0 );
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}
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INTERVAL vdiv( a, b, v ) double a, b; INTERVAL v; {
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return( hilo( a/v.hi, a/v.lo, b/v.hi, b/v.lo ) );
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}
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.DE
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.bp
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