ref: ba4a1c07f1bc7622f8a3dcd4f2d383f4ec70fc1c
dir: /parse.c/
#include <u.h>
#include <libc.h>
#include <bio.h>
#include "awk.h"
#include "y.tab.h"
Node *nodealloc(int n)
{
Node *x;
x = (Node *) malloc(sizeof(Node) + (n-1)*sizeof(Node *));
if (x == nil)
FATAL("out of space in nodealloc");
x->nnext = nil;
x->lineno = lineno;
return(x);
}
Node *exptostat(Node *a)
{
a->ntype = NSTAT;
return(a);
}
Node *node1(int a, Node *b)
{
Node *x;
x = nodealloc(1);
x->nobj = a;
x->narg[0]=b;
return(x);
}
Node *node2(int a, Node *b, Node *c)
{
Node *x;
x = nodealloc(2);
x->nobj = a;
x->narg[0] = b;
x->narg[1] = c;
return(x);
}
Node *node3(int a, Node *b, Node *c, Node *d)
{
Node *x;
x = nodealloc(3);
x->nobj = a;
x->narg[0] = b;
x->narg[1] = c;
x->narg[2] = d;
return(x);
}
Node *node4(int a, Node *b, Node *c, Node *d, Node *e)
{
Node *x;
x = nodealloc(4);
x->nobj = a;
x->narg[0] = b;
x->narg[1] = c;
x->narg[2] = d;
x->narg[3] = e;
return(x);
}
Node *stat1(int a, Node *b)
{
Node *x;
x = node1(a,b);
x->ntype = NSTAT;
return(x);
}
Node *stat2(int a, Node *b, Node *c)
{
Node *x;
x = node2(a,b,c);
x->ntype = NSTAT;
return(x);
}
Node *stat3(int a, Node *b, Node *c, Node *d)
{
Node *x;
x = node3(a,b,c,d);
x->ntype = NSTAT;
return(x);
}
Node *stat4(int a, Node *b, Node *c, Node *d, Node *e)
{
Node *x;
x = node4(a,b,c,d,e);
x->ntype = NSTAT;
return(x);
}
Node *op1(int a, Node *b)
{
Node *x;
x = node1(a,b);
x->ntype = NEXPR;
return(x);
}
Node *op2(int a, Node *b, Node *c)
{
Node *x;
x = node2(a,b,c);
x->ntype = NEXPR;
return(x);
}
Node *op3(int a, Node *b, Node *c, Node *d)
{
Node *x;
x = node3(a,b,c,d);
x->ntype = NEXPR;
return(x);
}
Node *op4(int a, Node *b, Node *c, Node *d, Node *e)
{
Node *x;
x = node4(a,b,c,d,e);
x->ntype = NEXPR;
return(x);
}
Node *celltonode(Cell *a, int b)
{
Node *x;
a->ctype = OCELL;
a->csub = b;
x = node1(0, (Node *) a);
x->ntype = NVALUE;
return(x);
}
Node *rectonode(void) /* make $0 into a Node */
{
extern Cell *literal0;
return op1(INDIRECT, celltonode(literal0, CUNK));
}
Node *makearr(Node *p)
{
Cell *cp;
if (isvalue(p)) {
cp = (Cell *) (p->narg[0]);
if (isfcn(cp))
SYNTAX( "%s is a function, not an array", cp->nval );
else if (!isarr(cp)) {
if (freeable(cp))
xfree(cp->sval);
cp->sval = (char *) makesymtab(NSYMTAB);
cp->tval = ARR;
}
}
return p;
}
#define PA2NUM 50 /* max number of pat,pat patterns allowed */
int paircnt; /* number of them in use */
int pairstack[PA2NUM]; /* state of each pat,pat */
Node *pa2stat(Node *a, Node *b, Node *c) /* pat, pat {...} */
{
Node *x;
x = node4(PASTAT2, a, b, c, itonp(paircnt));
if (paircnt++ >= PA2NUM)
SYNTAX( "limited to %d pat,pat statements", PA2NUM );
x->ntype = NSTAT;
return(x);
}
Node *linkum(Node *a, Node *b)
{
Node *c;
if (exitstatus != nil) /* don't link things that are wrong */
return a;
if (a == nil)
return(b);
else if (b == nil)
return(a);
for (c = a; c->nnext != nil; c = c->nnext)
;
c->nnext = b;
return(a);
}
void defn(Cell *v, Node *vl, Node *st) /* turn on FCN bit in definition, */
{ /* body of function, arglist */
Node *p;
int n;
if (isarr(v)) {
SYNTAX( "`%s' is an array name and a function name", v->nval );
return;
}
v->tval = FCN;
v->sval = (char *) st;
n = 0; /* count arguments */
for (p = vl; p; p = p->nnext)
n++;
v->fval = n;
dprint( ("defining func %s (%d args)\n", v->nval, n) );
}
int isarg(char *s) /* is s in argument list for current function? */
{ /* return -1 if not, otherwise arg # */
extern Node *arglist;
Node *p = arglist;
int n;
for (n = 0; p != 0; p = p->nnext, n++)
if (strcmp(((Cell *)(p->narg[0]))->nval, s) == 0)
return n;
return -1;
}
int ptoi(void *p) /* convert pointer to integer */
{
return (int) (vlong) p; /* swearing that p fits, of course */
}
Node *itonp(int i) /* and vice versa */
{
return (Node *) (long) i;
}