mirror of
https://github.com/Russell-S-Harper/COMMON.git
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173 lines
3.8 KiB
Plaintext
173 lines
3.8 KiB
Plaintext
%define parse.error verbose
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%code requires {
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#include "xapp.h"
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}
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%{
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#include <stdlib.h>
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#include <stdio.h>
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#include <limits.h>
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#include <math.h>
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#include "xapp.h"
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#include "xapp.yy.h"
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%}
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%union {
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long long ival;
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char sval[TOKEN_LEN];
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}
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%token <sval> CONSTANT IDENTIFIER
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%token LEFT_OP RIGHT_OP LE_OP GE_OP NE_OP AND_OP OR_OP
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%type <ival> expr primary_expr unary_expr mult_expr add_expr shift_expr rel_expr eq_expr and_expr xor_expr or_expr logical_and_expr logical_or_expr
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%start expr
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%%
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primary_expr
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: '*' { fprintf(stderr, "SET (program counter * is not allowed)\n"); exit(1); }
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| IDENTIFIER { fprintf(stderr, "SET (unsubstituted constant '%s', use #define)\n", $1); exit(1); }
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| CONSTANT { $$ = parseCommon($1); }
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| '(' expr ')' { $$ = $2; }
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;
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unary_expr
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: primary_expr
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| '<' unary_expr { $$ = $2 & (0xff << INT_FRAC); }
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| '>' unary_expr { $$ = $2 >> CHAR_BIT & (0xff << INT_FRAC); }
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| '+' unary_expr { $$ = +$2; }
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| '-' unary_expr { $$ = -$2; }
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| '~' unary_expr { $$ = ~$2; }
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| '!' unary_expr { $$ = !$2; }
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;
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mult_expr
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: unary_expr
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| mult_expr '*' unary_expr { $$ = ($1 * $3) >> INT_FRAC; }
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| mult_expr '/' unary_expr { $$ = ($1 << INT_FRAC) / $3; }
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| mult_expr '%' unary_expr { $$ = $1 % $3; }
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;
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add_expr
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: mult_expr
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| add_expr '+' mult_expr { $$ = $1 + $3; }
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| add_expr '-' mult_expr { $$ = $1 - $3; }
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;
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shift_expr
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: add_expr
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| shift_expr LEFT_OP add_expr { $$ = shiftCommon($1, +$3); }
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| shift_expr RIGHT_OP add_expr { $$ = shiftCommon($1, -$3); }
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;
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rel_expr
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: shift_expr
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| rel_expr '<' shift_expr { $$ = ($1 < $3)? 1: 0; }
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| rel_expr '>' shift_expr { $$ = ($1 > $3)? 1: 0; }
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| rel_expr LE_OP shift_expr { $$ = ($1 <= $3)? 1: 0; }
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| rel_expr GE_OP shift_expr { $$ = ($1 >= $3)? 1: 0; }
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;
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eq_expr
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: rel_expr
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| eq_expr '=' rel_expr { $$ = ($1 == $3)? 1: 0; }
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| eq_expr NE_OP rel_expr { $$ = ($1 == $3)? 0: 1; }
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;
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and_expr
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: eq_expr
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| and_expr '&' eq_expr { $$ = $1 & $3; }
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;
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xor_expr
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: and_expr
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| xor_expr '^' and_expr { $$ = $1 ^ $3; }
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;
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or_expr
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: xor_expr
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| or_expr '|' xor_expr { $$ = $1 | $3; }
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;
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logical_and_expr
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: or_expr
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| logical_and_expr AND_OP or_expr { $$ = ($1 && $3)? 1: 0; }
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;
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logical_or_expr
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: logical_and_expr
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| logical_or_expr OR_OP logical_and_expr { $$ = ($1 || $3)? 1: 0; }
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;
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expr
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: logical_or_expr { result = $1; }
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;
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%%
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void yyerror(char const *s)
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{
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fprintf (stderr, "SET (%s)\n", s);
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exit(1);
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}
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long long parseCommon(const char *input)
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{
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char digit[2] = {'\0', '\0'};
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double base = 10.0, working = 0.0;
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int sign;
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long long output;
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/* Check the first character for a base specification */
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switch (*input) {
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case '$':
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base = 16.0;
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++input;
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break;
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case '&':
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base = 8.0;
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++input;
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break;
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case '%':
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base = 2.0;
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++input;
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break;
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}
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/* Get all the digits before the point */
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while (*input && *input != '.') {
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digit[0] = *input;
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working = working * base + (double)strtol(digit, NULL, base);
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++input;
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}
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/* Has a fraction? */
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if (*input == '.') {
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double fraction = 0.0, divisor = 1.0;
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++input;
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/* Get all the digits after the point */
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while (*input) {
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digit[0] = *input;
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fraction = fraction * base + (double)strtol(digit, NULL, base);
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divisor *= base;
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++input;
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}
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/* Convert to fraction and add it */
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working += fraction / divisor;
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}
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/* Convert to integer */
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sign = (working < 0.0)? -1: +1;
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output = sign * (long long)floor(fabs(working) * (double)(1 << INT_FRAC));
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/* Done */
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return output;
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}
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long long shiftCommon(long long base, long long amount)
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{
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double scaling = (double)(1 << INT_FRAC);
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double x = (double) base / scaling, y = (double) amount / scaling;
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double working = x * pow(2.0, y);
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int sign = (working < 0.0)? -1: +1;
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return sign * (long long)floor(fabs(working) * scaling);
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}
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