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Atari Mega Archive 1
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sozobon2.zoo
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hcc
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nodes.c
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C/C++ Source or Header
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1990-12-14
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9KB
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558 lines
/* Copyright (c) 1988 by Sozobon, Limited. Author: Johann Ruegg
*
* Permission is granted to anyone to use this software for any purpose
* on any computer system, and to redistribute it freely, with the
* following restrictions:
* 1) No charge may be made other than reasonable charges for reproduction.
* 2) Modified versions must be clearly marked as such.
* 3) The authors are not responsible for any harmful consequences
* of using this software, even if they result from defects in it.
*
* nodes.c
*
* Node allocation, deallocation, searching, printing
* and other node handling
*/
#include <stdio.h>
#include "param.h"
#include "nodes.h"
extern FILE *output;
NODE *freelist;
#define NODEINCR 100
extern int oflags[];
#define debug oflags['n'-'a']
#define NODELEN (sizeof(NODE)/4)
int nodesmade, nodesavail;
NODE *
allocnode()
{
char *calloc();
NODE *t;
int i;
retry:
if (freelist != 0) {
t = freelist;
freelist = t->n_next;
lclr(t, NODELEN);
nodesavail--;
if (debug)
printf("%lx+ ", t);
return t;
}
t = (NODE *)calloc(NODEINCR, sizeof(NODE));
if (t == 0) {
printf("malloc failure\n");
exit(1);
}
nodesmade += NODEINCR;
nodesavail += NODEINCR;
for (i=0; i<NODEINCR; i++)
t[i].n_next = &t[i+1];
t[NODEINCR-1].n_next = 0;
freelist = t;
goto retry;
}
freeunit(t)
NODE *t;
{
if (t->n_flags & N_ISFREE) {
printf("%lx ", t);
error("Freeing free node");
exit(1);
} else
t->n_flags |= N_ISFREE;
t->n_next = freelist;
freelist = t;
nodesavail++;
if (debug)
printf("%lx- ", t);
}
freenode(t)
NODE *t;
{
register NODE *nxt;
if (t == NULL) return;
again:
if (t->n_right)
freenode(t->n_right);
if (t->n_nmx)
freenode(t->n_nmx);
if (t->n_tptr && (t->n_flags & N_COPYT) == 0)
freenode(t->n_tptr);
nxt = t->n_left;
freeunit(t);
if (nxt) {
t = nxt;
goto again; /* minimize left recursion */
}
}
put_nnm(t)
NODE *t;
{
printf("%s", t->n_name);
while (t->n_nmx) {
t = t->n_nmx;
printf("%s", t->n_name);
}
}
qput_nnm(t, fd)
NODE *t;
FILE *fd;
{
fprintf(fd, "%s", t->n_name);
while (t->n_nmx) {
t = t->n_nmx;
fprintf(fd, "%s", t->n_name);
}
}
fput_nnm(t)
NODE *t;
{
fprintf(output, "%s", t->n_name);
while (t->n_nmx) {
t = t->n_nmx;
fprintf(output, "%s", t->n_name);
}
}
/* add a short string (less than NMXSIZE) to front of name */
nnmins(t, s)
NODEP t;
char *s;
{
register i, j;
char tbuf[NMSIZE];
NODEP n;
i = strlen(t->n_name);
j = strlen(s);
if (j > NMSIZE-1)
return; /* compiler error */
if (i+j <= NMSIZE-1) { /* fits in node */
strcpy(tbuf, t->n_name);
strcpy(t->n_name, s);
strcpy(t->n_name+j, tbuf);
} else {
n = allocnode();
n->n_nmx = t->n_nmx;
t->n_nmx = n;
strcpy(n->n_name, t->n_name);
strcpy(t->n_name, s);
}
}
/* add a short string (less than NMXSIZE) to end of name */
nnmadd(t, s)
NODE *t;
char *s;
{
register i,j;
int sizeb;
NODEP n;
/* find last node */
sizeb = NMSIZE;
while (t->n_nmx) {
t = t->n_nmx;
sizeb = NMXSIZE;
}
/* fits in current last node? */
i = strlen(s);
j = strlen(t->n_name);
if (i < sizeb-j) {
strcat(t->n_name, s);
return;
}
/* put all of s in new node */
n = allocnode();
t->n_nmx = n;
t = n;
strncpy(t->n_name, s, NMXSIZE-1);
t->n_name[NMXSIZE-1] = 0;
}
nscpy(t, s)
NODE *t;
char *s;
{
register i;
NODEP n;
i = strlen(s);
strncpy(t->n_name, s, NMSIZE-1);
t->n_name[NMSIZE-1] = 0;
i -= NMSIZE-1;
s += NMSIZE-1;
while (i > 0) {
n = allocnode();
t->n_nmx = n;
t = n;
strncpy(t->n_name, s, NMXSIZE-1);
t->n_name[NMXSIZE-1] = 0;
i -= NMXSIZE-1;
s += NMXSIZE-1;
}
}
putlist(head, np)
NODE **head, *np;
{
np->n_next = *head;
*head = np;
}
puthlist(head, np)
NODE *head[], *np;
{
putlist(&head[hash(np->n_name)], np);
}
NODE *
llook(head, np)
NODE *head, *np;
{
register NODEP p;
for (p=head; p != NULL; p = p->n_next)
if (xstrcmp(p, np) == 0) {
return p;
}
return NULL;
}
NODE *
hlook(head, np)
NODE *head[], *np;
{
register NODEP p;
p = head[hash(np->n_name)];
return llook(p, np);
}
hash(s)
register char *s;
{
register hval;
hval = 0;
while (*s)
hval += *s++;
return hval & (NHASH-1);
}
xstrcmp(p1, p2)
NODE *p1, *p2;
{
int rv;
if ((rv = strcmp(p1->n_name, p2->n_name)) != 0)
return rv;
if (p1->n_nmx == NULL) {
if (p2->n_nmx == NULL)
return 0;
return -1;
}
if (p2->n_nmx == NULL)
return 1;
return xstrcmp(p1->n_nmx, p2->n_nmx);
}
char *
scopy(s)
char *s;
{
int i;
char *p;
i = strlen(s)+1;
if (i > sizeof(NODE)) {
error("preproc name too big");
i = sizeof(NODE);
s[i-1] = 0;
}
p = (char *)allocnode();
strcpy(p, s);
return p;
}
sfree(s)
char *s;
{
NODEP np;
np = (NODEP)s;
np->n_flags = 0;
freeunit(np);
}
printlist(np)
NODE *np;
{
putchar('\n');
prln(np, 2);
}
prln(np, indent)
NODE *np;
{
register NODE *svl, *nxtl;
for (svl=np; svl != NULL; svl = nxtl) {
nxtl = svl->n_next;
svl->n_next = NULL;
prnode(svl,indent);
svl->n_next = nxtl;
/* special hack for tag list */
if ((svl->n_flags & N_BRKPR) && svl->n_right)
prln(svl->n_right, indent+2);
}
}
codeprint(np)
NODEP np;
{
putchar('\n');
cprnode(np,0);
}
cprnode(np,indent)
NODE *np;
{
int ni;
NODEP tp;
ni = indent+1;
while (indent--)
putchar(' ');
if (np == NULL) {
printf("<NULL>\n");
return;
}
put_nnm(np); /* Note: BRKPR doesnt break long names */
if (np->g_offs)
printf(" o%ld ", np->g_offs);
if (np->g_rno)
printf(" r%d ", np->g_rno);
if (np->g_needs)
printf(" n%x ", np->g_needs);
if (debug) {
printf("@%lx ", np);
if (np->n_flags & N_COPYT)
printf("C ");
if (np->n_flags & N_BRKPR)
printf("B ");
}
if (np->n_flags & N_BRKPR) {
putchar('\n');
return;
}
if (np->g_betw)
printf(" {%s}", np->g_betw);
if (np->g_code) {
if (np->n_flags & N_COPYT)
printf(" <%s>", np->g_code);
else
for (tp=np->g_code; tp; tp = tp->g_code)
printf(" <%s>", tp->n_name);
}
putchar(' ');
out_a(np, stdout);
putchar('\n');
if (np->n_left) {
cprnode(np->n_left,ni);
} else if (np->n_right)
cprnode(NULL, ni);
if (np->n_right) {
cprnode(np->n_right,ni);
}
}
printnode(np)
NODE *np;
{
putchar('\n');
prnode(np,0);
}
prnode(np,indent)
NODE *np;
{
int ni;
ni = indent+1;
while (indent--)
putchar(' ');
if (np == NULL) {
printf("<NULL>\n");
return;
}
put_nnm(np); /* Note: BRKPR doesnt break long names */
if (np->e_offs)
printf(" o%ld ", np->e_offs);
if (np->e_rno)
printf(" r%d ", np->e_rno);
if (np->e_fldw)
printf(" (%d,%d) ", np->e_fldw, np->e_fldo);
if (debug) {
printf("@%lx ", np);
if (np->n_flags & N_COPYT)
printf("C ");
if (np->n_flags & N_BRKPR)
printf("B ");
}
if (np->n_flags & N_BRKPR) {
putchar('\n');
return;
}
if (np->n_tptr) {
if (np->e_flags & 256) /* IMMEDID */
printf(" $$$ ");
tprint(np->n_tptr);
}
putchar('\n');
if (np->n_left) {
prnode(np->n_left,ni);
} else if (np->n_right)
prnode(NULL, ni);
if (np->n_right) {
prnode(np->n_right,ni);
}
}
tprint(np)
NODEP np;
{
while (np != NULL) {
putchar(' ');
put_nnm(np);
#ifdef HANS
if (np->t_size)
printf(" s%ld", np->t_size);
if (np->t_aln)
printf(" a%d", np->t_aln);
#endif
if (debug)
printf("@%lx", np);
np = np->n_tptr;
}
}
NODEP
copynode(op)
NODEP op;
{
NODEP np;
if (op == NULL) return NULL;
np = allocnode();
lcpy(np, op, NODELEN);
if (np->n_nmx)
np->n_nmx = copynode(np->n_nmx);
if (np->n_right)
np->n_right = copynode(np->n_right);
if (np->n_left)
np->n_left = copynode(np->n_left);
if (np->n_tptr)
np->n_flags |= N_COPYT;
return np;
}
NODEP
copyone(op)
NODEP op;
{
NODEP np;
if (op == NULL) return NULL;
np = allocnode();
lcpy(np, op, NODELEN);
if (np->n_nmx)
np->n_nmx = copyone(n
