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730 lines
20 KiB
C
730 lines
20 KiB
C
/*
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!!DESCRIPTION!! C-Manual Chapter 8.1: storage class specifiers
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!!ORIGIN!! LCC 4.1 Testsuite
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!!LICENCE!! own, freely distributeable for non-profit. read CPYRIGHT.LCC
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*/
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#include "common.h"
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struct defs {
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int cbits; /* No. of bits per char */
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int ibits; /* int */
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int sbits; /* short */
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int lbits; /* long */
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int ubits; /* unsigned */
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int fbits; /* float */
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int dbits; /* double */
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#ifndef NO_FLOATS
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float fprec; /* Smallest number that can be */
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float dprec; /* significantly added to 1. */
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#endif
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int flgs; /* Print return codes, by section */
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int flgm; /* Announce machine dependencies */
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int flgd; /* give explicit diagnostics */
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int flgl; /* Report local return codes. */
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int rrc; /* recent return code */
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int crc; /* Cumulative return code */
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char rfs[8]; /* Return from section */
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};
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int lbits; /* long */
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int ubits; /* unsigned */
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int fbits; /* float */
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int dbits; /* double */
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#ifndef NO_FLOATS
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float fprec; /* Smallest number that can be */
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float dprec; /* significantly added to 1. */
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#endif
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int flgs; /* Print return codes, by section */
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int flgm; /* Announce machine dependencies */
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int flgd; /* give explicit diagnostics */
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int flgl; /* Report local return codes. */
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int rrc; /* recent return code */
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int crc; /* Cumulative return code */
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char rfs[8]; /* Return from section */
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#ifdef NO_IMPLICIT_FUNC_PROTOTYPES
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regc();
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regp();
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regi();
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#endif
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#ifndef NO_OLD_FUNC_DECL
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s81(pd0) /* 8.1 Storage Class Specifiers */
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struct defs *pd0;
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#else
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int s81(struct defs *pd0)
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#endif
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{
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static char s81er[] = "s81,er%d\n";
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static char qs81[8] = "s81 ";
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char *ps, *pt;
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int k, rc, j, crc, prc, irc;
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register char rchar;
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char nrchar;
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register int *rptr;
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int *nrptr;
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register int rint;
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int nrint;
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static char badtest[] = "Register count for %s is unreliable.\n";
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static char goodtest[] = "%d registers assigned to %s variables.\n";
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rc = 0;
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crc = 0;
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prc = 0;
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irc = 0;
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ps = qs81;
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pt = pd0->rfs;
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while(*pt++ = *ps++);
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/* The storage class specifiers are:
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auto
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static
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extern
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register
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typedef
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The first three of these were treated earlier, in s4. The last
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will be checked in s88. "Register" remains.
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There are three flavors of register, viz., char, int and pointer.
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We wish first to ascertain that the representations as register
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are consistent with the corresponding nonregister representations.
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*/
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k = 1;
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for (j=0; j<50; j++){
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rchar = k;
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nrchar = k;
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rptr = &k;
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nrptr = &k;
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rint = k;
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nrint = k;
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if ( rchar != nrchar ) crc = 1;
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if ( rptr != nrptr ) prc = 1;
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if ( rint != nrint ) irc = 1;
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k = k<<1;
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}
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if ( crc != 0 ) {
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rc = rc+1;
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if( pd0 -> flgd != 0 ) printf(s81er,1);
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}
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if ( prc != 0 ) {
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rc = rc+2;
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if( pd0 -> flgd != 0 ) printf(s81er,2);
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}
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if ( irc != 0 ) {
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rc = rc+4;
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if( pd0 -> flgd != 0 ) printf(s81er,4);
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}
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/* Now we check to see if variables are actually being assigned
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to registers. */
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k = regc();
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if ( pd0->flgm != 0 ) {
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if ( k < 0 ) printf(badtest,"char");
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else printf(goodtest,k,"char");
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}
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k = regp();
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if ( pd0->flgm != 0 ) {
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if ( k<0 ) printf(badtest,"pointer");
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else printf(goodtest,k,"pointer");
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}
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k = regi();
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if ( pd0->flgm != 0 ) {
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if ( k<0 ) printf(badtest,"int");
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else printf(goodtest,k,"int");
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}
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return rc;
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}
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regc() { /* char to register assignment */
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/* Testing a variable whose storage class has been spec-
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ified as "register" is somewhat tricky, but it can be done in a
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fairly reliable fashion by taking advantage of our knowledge of the
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ways in which compilers operate. If we declare a collection of vari-
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ables of the same storage class, we would expect that, when storage
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for these variables is actually allocated, the variables will be
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bunched together and ordered according to one of the following
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criteria:
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(a) the order in which they were defined.
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(b) the order in which they are used.
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(c) alphabetically.
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(d) the order in which they appear in the compiler's
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symbol table.
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(e) some other way.
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Hence, if we define a sequence of variables in close alpha-
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betical order, and use them in the same order in which we define
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them, we would expect the differences between the addresses of
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successive variables to be constant, except in case (d) where the
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symbol table is a hash table, or in case (e). If a subsequence in
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the middle of this sequence is selected, and for this subsequence,
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every other variable is specified to be "register", and address
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differences are taken between adjacent nonregister variables, we would
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still expect to find constant differences if the "register" vari-
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ables were actually assigned to registers, and some other diff-
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erences if they were not. Specifically, if we had N variables
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specified as "register" of which the first n were actually ass-
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igned to registers, we would expect the sequence of differences
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to consist of a number of occurrences of some number, followed by
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N-n occurrences of some other number, followed by several occurr-
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ences of the first number. If we get a sequence like this, we can
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determine, by simple subtraction, how many (if any) variables are
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being assigned to registers. If we get some other sequence, we know
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that the test is invalid. */
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char r00;
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char r01;
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char r02;
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char r03;
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register char r04;
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char r05;
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register char r06;
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char r07;
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register char r08;
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char r09;
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register char r10;
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char r11;
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register char r12;
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char r13;
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register char r14;
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char r15;
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register char r16;
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char r17;
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register char r18;
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char r19;
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register char r20;
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char r21;
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register char r22;
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char r23;
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register char r24;
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char r25;
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register char r26;
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char r27;
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register char r28;
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char r29;
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register char r30;
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char r31;
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register char r32;
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char r33;
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register char r34;
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char r35;
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char r36;
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char r37;
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char r38;
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int s, n1, n2, nr, j, d[22];
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r00 = 0;
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r01 = 1;
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r02 = 2;
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r03 = 3;
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r04 = 4;
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r05 = 5;
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r06 = 6;
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r07 = 7;
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r08 = 8;
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r09 = 9;
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r10 = 10;
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r11 = 11;
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r12 = 12;
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r13 = 13;
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r14 = 14;
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r15 = 15;
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r16 = 16;
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r17 = 17;
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r18 = 18;
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r19 = 19;
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r20 = 20;
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r21 = 21;
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r22 = 22;
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r23 = 23;
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r24 = 24;
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r25 = 25;
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r26 = 26;
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r27 = 27;
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r28 = 28;
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r29 = 29;
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r30 = 30;
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r31 = 31;
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r32 = 32;
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r33 = 33;
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r34 = 34;
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r35 = 35;
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r36 = 36;
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r37 = 37;
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r38 = 38;
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d[0] = &r01 - &r00;
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d[1] = &r02 - &r01;
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d[2] = &r03 - &r02;
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d[3] = &r05 - &r03;
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d[4] = &r07 - &r05;
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d[5] = &r09 - &r07;
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d[6] = &r11 - &r09;
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d[7] = &r13 - &r11;
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d[8] = &r15 - &r13;
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d[9] = &r17 - &r15;
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d[10] = &r19 - &r17;
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d[11] = &r21 - &r19;
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d[12] = &r23 - &r21;
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d[13] = &r25 - &r23;
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d[14] = &r27 - &r25;
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d[15] = &r29 - &r27;
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d[16] = &r31 - &r29;
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d[17] = &r33 - &r31;
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d[18] = &r35 - &r33;
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d[19] = &r36 - &r35;
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d[20] = &r37 - &r36;
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d[21] = &r38 - &r37;
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/* The following FSM analyzes the string of differences. It accepts
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strings of the form a+b+a+ and returns 16 minus the number of bs,
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which is the number of variables that actually got into registers.
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Otherwise it signals rejection by returning -1., indicating that the
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test is unreliable. */
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n1 = d[0];
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s = 1;
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for (j=0; j<22; j++)
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switch (s) {
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case 1: if (d[j] != n1) {
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n2 = d[j];
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s = 2;
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nr = 1;
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}
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break;
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case 2: if (d[j] == n1) {
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s = 3;
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break;
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}
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if (d[j] == n2) {
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nr = nr+1;
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break;
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}
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s = 4;
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break;
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case 3: if (d[j] != n1) s = 4;
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break;
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}
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;
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if (s == 3) return 16-nr;
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else return -1;
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}
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regi() { /* int to register assignment */
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/* Testing a variable whose storage class has been spec-
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ified as "register" is somewhat tricky, but it can be done in a
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fairly reliable fashion by taking advantage of our knowledge of the
|
|
ways in which compilers operate. If we declare a collection of vari-
|
|
ables of the same storage class, we would expect that, when storage
|
|
for these variables is actually allocated, the variables will be
|
|
bunched together and ordered according to one of the following
|
|
criteria:
|
|
|
|
(a) the order in which they were defined.
|
|
(b) the order in which they are used.
|
|
(c) alphabetically.
|
|
(d) the order in which they appear in the compiler's
|
|
symbol table.
|
|
(e) some other way.
|
|
|
|
Hence, if we define a sequence of variables in close alpha-
|
|
betical order, and use them in the same order in which we define
|
|
them, we would expect the differences between the addresses of
|
|
successive variables to be constant, except in case (d) where the
|
|
symbol table is a hash table, or in case (e). If a subsequence in
|
|
the middle of this sequence is selected, and for this subsequence,
|
|
every other variable is specified to be "register", and address
|
|
differences are taken between adjacent nonregister variables, we would
|
|
still expect to find constant differences if the "register" vari-
|
|
ables were actually assigned to registers, and some other diff-
|
|
erences if they were not. Specifically, if we had N variables
|
|
specified as "register" of which the first n were actually ass-
|
|
igned to registers, we would expect the sequence of differences
|
|
to consist of a number of occurrences of some number, followed by
|
|
N-n occurrences of some other number, followed by several occurr-
|
|
ences of the first number. If we get a sequence like this, we can
|
|
determine, by simple subtraction, how many (if any) variables are
|
|
being assigned to registers. If we get some other sequence, we know
|
|
that the test is invalid. */
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int r00;
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int r01;
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int r02;
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int r03;
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register int r04;
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int r05;
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register int r06;
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int r07;
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register int r08;
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int r09;
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register int r10;
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int r11;
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register int r12;
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int r13;
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register int r14;
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int r15;
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register int r16;
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int r17;
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register int r18;
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int r19;
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register int r20;
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int r21;
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register int r22;
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int r23;
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register int r24;
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int r25;
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register int r26;
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int r27;
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register int r28;
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int r29;
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register int r30;
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int r31;
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register int r32;
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int r33;
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register int r34;
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int r35;
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int r36;
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int r37;
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int r38;
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int s, n1, n2, nr, j, d[22];
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r00 = 0;
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r01 = 1;
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r02 = 2;
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r03 = 3;
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r04 = 4;
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r05 = 5;
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r06 = 6;
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r07 = 7;
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r08 = 8;
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r09 = 9;
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r10 = 10;
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r11 = 11;
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r12 = 12;
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r13 = 13;
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r14 = 14;
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r15 = 15;
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r16 = 16;
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r17 = 17;
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r18 = 18;
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r19 = 19;
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r20 = 20;
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r21 = 21;
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r22 = 22;
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r23 = 23;
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r24 = 24;
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r25 = 25;
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r26 = 26;
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r27 = 27;
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r28 = 28;
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r29 = 29;
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r30 = 30;
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r31 = 31;
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r32 = 32;
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r33 = 33;
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r34 = 34;
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r35 = 35;
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r36 = 36;
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r37 = 37;
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r38 = 38;
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d[0] = &r01 - &r00;
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d[1] = &r02 - &r01;
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d[2] = &r03 - &r02;
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d[3] = &r05 - &r03;
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d[4] = &r07 - &r05;
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d[5] = &r09 - &r07;
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d[6] = &r11 - &r09;
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d[7] = &r13 - &r11;
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d[8] = &r15 - &r13;
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d[9] = &r17 - &r15;
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d[10] = &r19 - &r17;
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d[11] = &r21 - &r19;
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d[12] = &r23 - &r21;
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d[13] = &r25 - &r23;
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d[14] = &r27 - &r25;
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d[15] = &r29 - &r27;
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d[16] = &r31 - &r29;
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d[17] = &r33 - &r31;
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d[18] = &r35 - &r33;
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d[19] = &r36 - &r35;
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d[20] = &r37 - &r36;
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d[21] = &r38 - &r37;
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/* The following FSM analyzes the string of differences. It accepts
|
|
strings of the form a+b+a+ and returns 16 minus the number of bs,
|
|
which is the number of variables that actually got into registers.
|
|
Otherwise it signals rejection by returning -1., indicating that the
|
|
test is unreliable. */
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n1 = d[0];
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s = 1;
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for (j=0; j<22; j++)
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switch (s) {
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case 1: if (d[j] != n1) {
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n2 = d[j];
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s = 2;
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nr = 1;
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}
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break;
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case 2: if (d[j] == n1) {
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s = 3;
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break;
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}
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if (d[j] == n2) {
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nr = nr+1;
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break;
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}
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s = 4;
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break;
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case 3: if (d[j] != n1) s = 4;
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break;
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}
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;
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if (s == 3) return 16-nr;
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else return -1;
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}
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regp() { /* pointer to register assignment */
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|
/* Testing a variable whose storage class has been spec-
|
|
ified as "register" is somewhat tricky, but it can be done in a
|
|
fairly reliable fashion by taking advantage of our knowledge of the
|
|
ways in which compilers operate. If we declare a collection of vari-
|
|
ables of the same storage class, we would expect that, when storage
|
|
for these variables is actually allocated, the variables will be
|
|
bunched together and ordered according to one of the following
|
|
criteria:
|
|
|
|
(a) the order in which they were defined.
|
|
(b) the order in which they are used.
|
|
(c) alphabetically.
|
|
(d) the order in which they appear in the compiler's
|
|
symbol table.
|
|
(e) some other way.
|
|
|
|
Hence, if we define a sequence of variables in close alpha-
|
|
betical order, and use them in the same order in which we define
|
|
them, we would expect the differences between the addresses of
|
|
successive variables to be constant, except in case (d) where the
|
|
symbol table is a hash table, or in case (e). If a subsequence in
|
|
the middle of this sequence is selected, and for this subsequence,
|
|
every other variable is specified to be "register", and address
|
|
differences are taken between adjacent nonregister variables, we would
|
|
still expect to find constant differences if the "register" vari-
|
|
ables were actually assigned to registers, and some other diff-
|
|
erences if they were not. Specifically, if we had N variables
|
|
specified as "register" of which the first n were actually ass-
|
|
igned to registers, we would expect the sequence of differences
|
|
to consist of a number of occurrences of some number, followed by
|
|
N-n occurrences of some other number, followed by several occurr-
|
|
ences of the first number. If we get a sequence like this, we can
|
|
determine, by simple subtraction, how many (if any) variables are
|
|
being assigned to registers. If we get some other sequence, we know
|
|
that the test is invalid. */
|
|
|
|
int *r00;
|
|
int *r01;
|
|
int *r02;
|
|
int *r03;
|
|
register int *r04;
|
|
int *r05;
|
|
register int *r06;
|
|
int *r07;
|
|
register int *r08;
|
|
int *r09;
|
|
register int *r10;
|
|
int *r11;
|
|
register int *r12;
|
|
int *r13;
|
|
register int *r14;
|
|
int *r15;
|
|
register int *r16;
|
|
int *r17;
|
|
register int *r18;
|
|
int *r19;
|
|
register int *r20;
|
|
int *r21;
|
|
register int *r22;
|
|
int *r23;
|
|
register int *r24;
|
|
int *r25;
|
|
register int *r26;
|
|
int *r27;
|
|
register int *r28;
|
|
int *r29;
|
|
register int *r30;
|
|
int *r31;
|
|
register int *r32;
|
|
int *r33;
|
|
register int *r34;
|
|
int *r35;
|
|
int *r36;
|
|
int *r37;
|
|
int *r38;
|
|
|
|
int s, n1, n2, nr, j, d[22];
|
|
|
|
r00 = (int *)&r00;
|
|
r01 = (int *)&r01;
|
|
r02 = (int *)&r02;
|
|
r03 = (int *)&r03;
|
|
r04 = (int *)&r05;
|
|
r05 = (int *)&r05;
|
|
r06 = (int *)&r07;
|
|
r07 = (int *)&r07;
|
|
r08 = (int *)&r09;
|
|
r09 = (int *)&r09;
|
|
r10 = (int *)&r11;
|
|
r11 = (int *)&r11;
|
|
r12 = (int *)&r13;
|
|
r13 = (int *)&r13;
|
|
r14 = (int *)&r15;
|
|
r15 = (int *)&r15;
|
|
r16 = (int *)&r17;
|
|
r17 = (int *)&r17;
|
|
r18 = (int *)&r19;
|
|
r19 = (int *)&r19;
|
|
r20 = (int *)&r21;
|
|
r21 = (int *)&r21;
|
|
r22 = (int *)&r23;
|
|
r23 = (int *)&r23;
|
|
r24 = (int *)&r25;
|
|
r25 = (int *)&r25;
|
|
r26 = (int *)&r27;
|
|
r27 = (int *)&r27;
|
|
r28 = (int *)&r29;
|
|
r29 = (int *)&r29;
|
|
r30 = (int *)&r31;
|
|
r31 = (int *)&r31;
|
|
r32 = (int *)&r33;
|
|
r33 = (int *)&r33;
|
|
r34 = (int *)&r35;
|
|
r35 = (int *)&r35;
|
|
r36 = (int *)&r36;
|
|
r37 = (int *)&r37;
|
|
r38 = (int *)&r38;
|
|
|
|
d[0] = &r01 - &r00;
|
|
d[1] = &r02 - &r01;
|
|
d[2] = &r03 - &r02;
|
|
d[3] = &r05 - &r03;
|
|
d[4] = &r07 - &r05;
|
|
d[5] = &r09 - &r07;
|
|
d[6] = &r11 - &r09;
|
|
d[7] = &r13 - &r11;
|
|
d[8] = &r15 - &r13;
|
|
d[9] = &r17 - &r15;
|
|
d[10] = &r19 - &r17;
|
|
d[11] = &r21 - &r19;
|
|
d[12] = &r23 - &r21;
|
|
d[13] = &r25 - &r23;
|
|
d[14] = &r27 - &r25;
|
|
d[15] = &r29 - &r27;
|
|
d[16] = &r31 - &r29;
|
|
d[17] = &r33 - &r31;
|
|
d[18] = &r35 - &r33;
|
|
d[19] = &r36 - &r35;
|
|
d[20] = &r37 - &r36;
|
|
d[21] = &r38 - &r37;
|
|
|
|
/* The following FSM analyzes the string of differences. It accepts
|
|
strings of the form a+b+a+ and returns 16 minus the number of bs,
|
|
which is the number of variables that actually got into registers.
|
|
Otherwise it signals rejection by returning -1., indicating that the
|
|
test is unreliable. */
|
|
|
|
n1 = d[0];
|
|
s = 1;
|
|
for (j=0; j<22; j++)
|
|
switch (s) {
|
|
case 1: if (d[j] != n1) {
|
|
n2 = d[j];
|
|
s = 2;
|
|
nr = 1;
|
|
}
|
|
break;
|
|
case 2: if (d[j] == n1) {
|
|
s = 3;
|
|
break;
|
|
}
|
|
if (d[j] == n2) {
|
|
nr = nr+1;
|
|
break;
|
|
}
|
|
s = 4;
|
|
break;
|
|
case 3: if (d[j] != n1) s = 4;
|
|
break;
|
|
}
|
|
;
|
|
|
|
if (s == 3) return 16-nr;
|
|
else return -1;
|
|
}
|
|
|
|
/*********************************************************************************************
|
|
the main loop that launches the sections
|
|
*********************************************************************************************/
|
|
|
|
#ifndef NO_TYPELESS_STRUCT_PTR
|
|
int section(int j,struct* pd0){
|
|
#else
|
|
int section(int j,void* pd0){
|
|
#endif
|
|
switch(j){
|
|
case 0: return s81(pd0);
|
|
}
|
|
}
|
|
|
|
#define cq_sections 1
|
|
|
|
/*
|
|
C REFERENCE MANUAL (main)
|
|
*/
|
|
|
|
#ifndef NO_OLD_FUNC_DECL
|
|
main(n,args)
|
|
int n;
|
|
char **args;
|
|
{
|
|
#else
|
|
int main(int n,char **args) {
|
|
#endif
|
|
|
|
int j;
|
|
static struct defs d0, *pd0;
|
|
|
|
d0.flgs = 1; /* These flags dictate */
|
|
d0.flgm = 1; /* the verbosity of */
|
|
d0.flgd = 1; /* the program. */
|
|
d0.flgl = 1;
|
|
|
|
pd0 = &d0;
|
|
|
|
for (j=0; j<cq_sections; j++) {
|
|
d0.rrc=section(j,pd0);
|
|
d0.crc=d0.crc+d0.rrc;
|
|
if(d0.flgs != 0) printf("Section %s returned %d.\n",d0.rfs,d0.rrc);
|
|
}
|
|
|
|
if(d0.crc == 0) printf("\nNo errors detected.\n");
|
|
else printf("\nFailed.\n");
|
|
|
|
return d0.crc;
|
|
}
|