mirror of
https://github.com/cc65/cc65.git
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338 lines
9.7 KiB
C
338 lines
9.7 KiB
C
/*
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!!DESCRIPTION!! C-Manual Chapter 7.5: Shift operators, 7.6 Relational operators, 7.7 Equality operator
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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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#define CQ26_INCLUDED
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/*
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section s26, which pokes around at the hardware
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trying to figure out the characteristics of the machine that
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it is running on, saves information that is subsequently
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used by sections s626, s72, and s757. If this program is
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to be broken up into smallish pieces, say for running on
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a microcomputer, take care to see that s26 is called before
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calling any of the latter three sections.
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*/
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/*
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2.6 Hardware Characteristics
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*/
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#ifndef NO_OLD_FUNC_DECL
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s26(pd0)
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struct defs *pd0;
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{
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#else
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s26(struct defs *pd0) {
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#endif
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static char qs26[8] = "s26 ";
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char *ps, *pt;
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char c0, c1;
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#ifndef NO_FLOATS
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float temp, one, delta;
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double tempd, oned;
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#endif
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static char s[] = "%3d bits in %ss.\n";
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static char s2[] = "%e is the least number that can be added to 1. (%s).\n";
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ps = qs26;
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pt = pd0->rfs;
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while(*pt++ = *ps++);
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/* Here, we shake the machinery a little to see what falls
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out. First, we find out how many bits are in a char. */
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pd0->cbits = 0;
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c0 = 0;
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c1 = 1;
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while(c0 != c1) {
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c1 = c1<<1;
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pd0->cbits = pd0->cbits+1;
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}
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/* That information lets us determine the size of everything else. */
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pd0->ibits = pd0->cbits * sizeof(int);
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pd0->sbits = pd0->cbits * sizeof(short);
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pd0->lbits = pd0->cbits * sizeof(long);
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pd0->ubits = pd0->cbits * sizeof(unsigned);
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#ifndef NO_FLOATS
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pd0->fbits = pd0->cbits * sizeof(float);
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pd0->dbits = pd0->cbits * sizeof(double);
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#endif
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/* We have now almost reconstructed the table in section 2.6, the
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exception being the range of the floating point hardware.
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Now there are just so many ways to conjure up a floating point
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representation system that it's damned near impossible to guess
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what's going on by writing a program to interpret bit patterns.
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Further, the information isn't all that useful, if we consider
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the fact that machines that won't handle numbers between 10**30
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and 10**-30 are very hard to find, and that people playing with
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numbers outside that range have a lot more to worry about than
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just the capacity of the characteristic.
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A much more useful measure is the precision, which can be ex-
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pressed in terms of the smallest number that can be added to
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1. without loss of significance. We calculate that here, for
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float and double. */
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#ifndef NO_FLOATS
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one = 1.;
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delta = 1.;
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temp = 0.;
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while(temp != one) {
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temp = one+delta;
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delta = delta/2.;
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}
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pd0->fprec = delta * 4.;
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oned = 1.;
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delta = 1.;
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tempd = 0.;
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while(tempd != oned) {
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tempd = oned+delta;
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delta = delta/2.;
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}
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pd0->dprec = delta * 4.;
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#endif
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/* Now, if anyone's interested, we publish the results. */
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#ifndef CQ26_INCLUDED
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if(pd0->flgm != 0) {
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printf(s,pd0->cbits,"char");
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printf(s,pd0->ibits,"int");
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printf(s,pd0->sbits,"short");
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printf(s,pd0->lbits,"long");
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printf(s,pd0->ubits,"unsigned");
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printf(s,pd0->fbits,"float");
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printf(s,pd0->dbits,"double");
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#ifndef NO_FLOATS
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printf(s2,pd0->fprec,"float");
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printf(s2,pd0->dprec,"double");
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#else
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printf("NO_FLOATS\n");
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#endif
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}
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#endif
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/* Since we are only exploring and perhaps reporting, but not
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testing any features, we cannot return an error code. */
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return 0;
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}
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#ifndef NO_OLD_FUNC_DECL
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s757(pd0) /* 7.5 Shift operators */
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/* 7.6 Relational operators */
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/* 7.7 Equality operator */
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struct defs *pd0;
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{
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#else
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int s757(struct defs *pd0){
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#endif
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static char s757er[] = "s757,er%d\n";
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static char qs757[8] = "s757 ";
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int rc;
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char *ps, *pt;
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int t,lrc,k,j,a,b,c,d,x[16],*p;
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unsigned rs, ls, rt, lt;
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ps = qs757;
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pt = pd0->rfs;
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rc = 0;
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while (*pt++ = *ps++);
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/* The shift operators << and >> group left-to-right.
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*/
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t = 40;
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if(t<<3<<2 != 1280 || t>>3>>2 != 1){
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rc = rc+1;
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if(pd0->flgd != 0) printf(s757er,1);
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}
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/* In the following test, an n-bit unsigned consisting
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of all 1s is shifted right (resp. left) k bits, 0<=k<n.
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We expect to find k 0s followed by n-k 1s (resp. n-k 1s
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followed by k 0s). If not, we complain.
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*/
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lrc = 0;
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for(k=0; k<pd0->ubits; k++){
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rs = 1;
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ls = rs<<(pd0->ubits-1);
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rt = 0;
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lt = ~rt>>k;
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rt = ~rt<<k;
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for(j=0; j<pd0->ubits;j++){
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if((j<k) != ((rs&rt) == 0) || (j<k) != ((ls<) == 0)) lrc = 1;
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rs = rs<<1;
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ls = ls>>1;
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}
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}
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if(lrc != 0){
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rc = rc+2;
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if(pd0->flgd != 0) printf(s757er,2);
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}
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/* The relational operators group left-to-right, but this
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fact is not very useful; a<b<c does not mean what it
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seems to...
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*/
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a = 3;
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b = 2;
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c = 1;
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if((a<b<c) != 1){
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rc = rc+4;
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if(pd0->flgd != 0) printf(s757er,4);
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}
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/* In general, we take note of the fact that if we got this
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far the relational operators have to be working. We test only
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that two pointers may be compared; the result depends on
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the relative locations in the address space of the
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pointed-to objects.
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*/
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if( &x[1] == &x[0] ){
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rc = rc+8;
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if(pd0->flgd != 0) printf(s757er,8);
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}
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if( &x[1] < &x[0] ) if(pd0->flgm != 0)
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printf("Increasing array elements assigned to decreasing locations\n");
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/* a<b == c<d whenever a<b and c<d have the same
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truth value. */
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lrc = 0;
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for(j=0;j<16;j++) x[j] = 1;
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x[1] = 0;
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x[4] = 0;
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x[6] = 0;
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x[7] = 0;
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x[9] = 0;
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x[13] = 0;
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for(a=0;a<2;a++)
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for(b=0;b<2;b++)
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for(c=0;c<2;c++)
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for(d=0;d<2;d++)
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if((a<b==c<d) != x[8*a+4*b+2*c+d] ) lrc = 1;
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if(lrc != 0){
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rc = rc+16;
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if(pd0->flgd != 0) printf(s757er,16);
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}
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/* A pointer to which zero has been assigned will
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appear to be equal to zero.
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*/
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p = 0;
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if(p != 0){
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rc = rc+32;
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if(pd0->flgd != 0) printf(s757er,32);
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}
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return rc;
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}
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/*********************************************************************************************
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the main loop that launches the sections
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*********************************************************************************************/
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#ifndef NO_TYPELESS_STRUCT_PTR
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int section(int j,struct* pd0){
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#else
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int section(int j,void* pd0){
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#endif
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switch(j){
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case 0: return s26(pd0);
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case 1: return s757(pd0);
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}
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}
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#define cq_sections 2
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/*
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C REFERENCE MANUAL (main)
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*/
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#ifndef NO_OLD_FUNC_DECL
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main(n,args)
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int n;
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char **args;
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{
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#else
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int main(int n,char **args) {
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#endif
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int j;
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static struct defs d0, *pd0;
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d0.flgs = 1; /* These flags dictate */
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d0.flgm = 1; /* the verbosity of */
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d0.flgd = 1; /* the program. */
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d0.flgl = 1;
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pd0 = &d0;
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for (j=0; j<cq_sections; j++) {
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d0.rrc=section(j,pd0);
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d0.crc=d0.crc+d0.rrc;
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if(d0.flgs != 0) printf("Section %s returned %d.\n",d0.rfs,d0.rrc);
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}
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if(d0.crc == 0) printf("\nNo errors detected.\n");
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else printf("\nFailed.\n");
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return d0.crc;
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}
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