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/* Sim Carol 2001 - By Bill Godfrey.
billg@bacchae.co.uk */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <assert.h>
typedef unsigned long term_t; /* Single term */
typedef enum
{
OP_NULL, /* Terminator sentinel. */
OP_ADD, /* max + min */
OP_MUL, /* max * min */
OP_SUB, /* max - min where (max!=min) */
OP_DIV /* max / min where (max%min==0) */
} op_t;
#define MAX_TERMS 10 /* Yuck. */
typedef struct
{
term_t t1;
term_t t2;
op_t op;
} step_t;
typedef struct
{
term_t unused[MAX_TERMS+1]; /* zero term array. */
step_t steps[MAX_TERMS]; /* .op=OP_NULL term array. */
term_t target; /* Desired target. */
term_t result; /* Obtained target, or ULONG_MAX */
} sol_t;
term_t distance(term_t targ, term_t result)
{
return (targ > result)?(targ-result):(result-targ);
}
size_t count_unused(sol_t *s)
{
term_t *t=s->unused;
size_t r=0;
while (*t)
{
++r;++t;
}
return r;
}
size_t count_steps(sol_t *s)
{
step_t *t=s->steps;
size_t r=0;
while (t->op != OP_NULL)
{
++r;++t;
}
return r;
}
term_t do_step(step_t *s)
{
term_t r;
assert(s->t1 >= s->t2);
switch (s->op)
{
case OP_ADD:
r=s->t1+s->t2; break;
case OP_MUL:
r=s->t1*s->t2; break;
case OP_SUB:
r=s->t1-s->t2; break;
case OP_DIV:
r=s->t1/s->t2; break;
default:
assert(!!"Shouldn't be here.");
}
return r;
}
const char ops[]=" +x-/"; /* char array for operator symbols. */
#ifdef USE_ASCII
#define LETNUM(a) ('A'+(a))
#else
const char letters[]="ABCDEFGHIJKLMNOPQRSTUVWXYZ";
#define LETNUM(a) (letters[a])
#endif
void disp_sol(sol_t *sol)
{
step_t *step=sol->steps;
size_t n=0;
while (step->op != OP_NULL)
{
printf("[%c] %5lu %c %5lu = %5lu\n",LETNUM(n++),step->t1,ops[step->op],step->t2,do_step(step));
++step;
}
printf("-- \n");
}
void disp_unused(char*str1,term_t *unu,char*str2)
{
size_t n;
printf("%s[ ",str1);
for(n=0; unu[n]; ++n)
{
printf("%lu ",unu[n]);
}
printf("]%s",str2);
}
void evaluate_sol(sol_t *sol, sol_t *anear)
{
term_t newdist,olddist;
olddist=distance(anear->target,anear->result);
newdist=distance(sol->target,sol->result);
if ((olddist==0) && (newdist==0)) /* We have already had a winner */
{
if (count_steps(sol) < count_steps(anear)) /* Less steps? */
{
*anear=*sol;
printf("Improved match.\n");
disp_sol(anear);
}
}
else if (newdist==0) /* First winner. */
{
*anear=*sol;
printf("-- \nFirst match.\n");
disp_sol(anear);
}
else if (newdist < olddist) /* A better nearest. */
{
*anear=*sol;
}
}
void update_unused(term_t *unused, size_t num_unused, term_t new, size_t t1, size_t t2)
{
size_t lastt=num_unused-1;
unused[t1]=new; /* Replace earlier term with new result. */
unused[t2]=unused[lastt]; /* Move last in list over t2 */
unused[lastt]=0;
}
void go_calc(sol_t *start, sol_t *nearest)
{
size_t t1,t2,maxt,mint;
term_t max,min;
op_t op;
size_t num_unused;
sol_t newsol;
step_t *newstep;
num_unused=count_unused(start);
#if 0
disp_unused("Consider ",start->unused,"\n");
#endif
for (t1=0; t1<(num_unused-1); ++t1)
for (t2=t1+1; t2<num_unused; ++t2)
for (op=OP_ADD; op<=OP_DIV; ++op)
{
if(start->unused[t1] > start->unused[t2])
{
maxt=t1; mint=t2;
}
else
{
maxt=t2; mint=t1;
}
max=start->unused[maxt];
min=start->unused[mint];
if ((op == OP_SUB) && (max==min))
{
break; /* a-b produces a zero. Try next operator */
}
if ((op == OP_DIV) && (max%min))
{
break; /* a/b leaves a remainder. */
}
if ((op == OP_MUL) && (min==1))
{
break; /* (a*1)=a wasted step. */
}
if ((op == OP_DIV) && (min==1))
{
break; /* (a/1)=a wasted step. */
}
/* Now apply max op min to a copy of start */
newsol=*start;
newstep=newsol.steps + count_steps(&newsol);
assert(newstep->op == OP_NULL);
newstep->t1=max;
newstep->t2=min;
newstep->op=op; /* Write new step in */
newstep[1].op=OP_NULL; /* Add sentinel */
newsol.result=do_step(newstep); /* Complete newstep */
#if 0
disp_unused("From ",start->unused," ");
printf("(%lu%c%lu)=%lu ",
max,ops[op],min,newsol.result);
#endif
update_unused(newsol.unused,num_unused,newsol.result,t1,t2);
#if 0
disp_unused("to ",newsol.unused,"\n");
#endif
evaluate_sol(&newsol,nearest);
#if 0
printf("IN\n");
#endif
go_calc(&newsol,nearest);
#if 0
printf("OUT\n");
#endif
}
}
int main(int argc, char *argv[])
{
int a;
sol_t start={0};
sol_t nearest={0};
size_t num_unused=0; /* Number of actual terms. */
int retval=EXIT_FAILURE;
int targetarg=0; /* Which argv[] points to the one after -t? */
int state=0; /* 1=seen a -t */
int toomanywarn=0; /* Has "too many" warning been delivered? */
fprintf(stderr,"Sim Carol 2001, By Bill Godfrey.\n");
for (a=1; a<argc; ++a)
{
if ((state==0) && (strcmp(argv[a],"-t")==0))
{
state=1; /* Getting target. */
}
else if ((state==0) && (num_unused < MAX_TERMS))
{
term_t newterm=atol(argv[a]);
if (newterm == 0)
{
fprintf(stderr,"Warning. \"%s\" is not a valid starting number. Ignoring.\n",argv[a]);
}
else
{
start.unused[num_unused++]=atol(argv[a]);
}
}
else if (state==1)
{
if (targetarg)
{
fprintf(stderr,"Warning. Already have a target. Ignoring \"-t\" \"%s\".\n",argv[a]);
}
else
{
start.target=atol(argv[a]);
targetarg=a;
}
state=0;
}
else if ((state==0) && (num_unused == MAX_TERMS) && (!toomanywarn))
{
fprintf(stderr,"Warning. Too many starting numbers. Ignoring all after %s.\n",argv[a]);
toomanywarn=1;
}
}
if (targetarg == 0)
{
fprintf(stderr,"Error. No target specified.\n");
goto tidyup;
}
if (start.target == 0)
{
fprintf(stderr,"Error. \"%s\" is not a valid target.\n",argv[targetarg]);
goto tidyup;
}
if (num_unused <2)
{
fprintf(stderr,"Error. Not enough starting numbers.\n");
goto tidyup;
}
start.unused[num_unused]=0; /* terminate the arrays */
start.steps[0].op=OP_NULL;
nearest.result=ULONG_MAX; /* Our first attempt has a long way to go. */
go_calc(&start,&nearest);
{
term_t dist=distance(nearest.target,nearest.result);
if (dist)
{
printf("Nearest answer %lu from target.\n",dist);
disp_sol(&nearest);
}
}
retval=EXIT_SUCCESS;
tidyup:
return retval;
}
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