1 /****************************************************************
2 Copyright (C) Lucent Technologies 1997
3 All Rights Reserved
4
5 Permission to use, copy, modify, and distribute this software and
6 its documentation for any purpose and without fee is hereby
7 granted, provided that the above copyright notice appear in all
8 copies and that both that the copyright notice and this
9 permission notice and warranty disclaimer appear in supporting
10 documentation, and that the name Lucent Technologies or any of
11 its entities not be used in advertising or publicity pertaining
12 to distribution of the software without specific, written prior
13 permission.
14
15 LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
16 INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS.
17 IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY
18 SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
19 WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER
20 IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
21 ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
22 THIS SOFTWARE.
23 ****************************************************************/
24
25 #define DEBUG
26 #include <stdio.h>
27 #include <string.h>
28 #include <stdlib.h>
29 #include "awk.h"
30 #include "ytab.h"
31
nodealloc(int n)32 Node *nodealloc(int n)
33 {
34 Node *x;
35
36 x = (Node *) malloc(sizeof(Node) + (n-1)*sizeof(Node *));
37 if (x == NULL)
38 FATAL("out of space in nodealloc");
39 x->nnext = NULL;
40 x->lineno = lineno;
41 return(x);
42 }
43
exptostat(Node * a)44 Node *exptostat(Node *a)
45 {
46 a->ntype = NSTAT;
47 return(a);
48 }
49
node1(int a,Node * b)50 Node *node1(int a, Node *b)
51 {
52 Node *x;
53
54 x = nodealloc(1);
55 x->nobj = a;
56 x->narg[0]=b;
57 return(x);
58 }
59
node2(int a,Node * b,Node * c)60 Node *node2(int a, Node *b, Node *c)
61 {
62 Node *x;
63
64 x = nodealloc(2);
65 x->nobj = a;
66 x->narg[0] = b;
67 x->narg[1] = c;
68 return(x);
69 }
70
node3(int a,Node * b,Node * c,Node * d)71 Node *node3(int a, Node *b, Node *c, Node *d)
72 {
73 Node *x;
74
75 x = nodealloc(3);
76 x->nobj = a;
77 x->narg[0] = b;
78 x->narg[1] = c;
79 x->narg[2] = d;
80 return(x);
81 }
82
node4(int a,Node * b,Node * c,Node * d,Node * e)83 Node *node4(int a, Node *b, Node *c, Node *d, Node *e)
84 {
85 Node *x;
86
87 x = nodealloc(4);
88 x->nobj = a;
89 x->narg[0] = b;
90 x->narg[1] = c;
91 x->narg[2] = d;
92 x->narg[3] = e;
93 return(x);
94 }
95
stat1(int a,Node * b)96 Node *stat1(int a, Node *b)
97 {
98 Node *x;
99
100 x = node1(a,b);
101 x->ntype = NSTAT;
102 return(x);
103 }
104
stat2(int a,Node * b,Node * c)105 Node *stat2(int a, Node *b, Node *c)
106 {
107 Node *x;
108
109 x = node2(a,b,c);
110 x->ntype = NSTAT;
111 return(x);
112 }
113
stat3(int a,Node * b,Node * c,Node * d)114 Node *stat3(int a, Node *b, Node *c, Node *d)
115 {
116 Node *x;
117
118 x = node3(a,b,c,d);
119 x->ntype = NSTAT;
120 return(x);
121 }
122
stat4(int a,Node * b,Node * c,Node * d,Node * e)123 Node *stat4(int a, Node *b, Node *c, Node *d, Node *e)
124 {
125 Node *x;
126
127 x = node4(a,b,c,d,e);
128 x->ntype = NSTAT;
129 return(x);
130 }
131
op1(int a,Node * b)132 Node *op1(int a, Node *b)
133 {
134 Node *x;
135
136 x = node1(a,b);
137 x->ntype = NEXPR;
138 return(x);
139 }
140
op2(int a,Node * b,Node * c)141 Node *op2(int a, Node *b, Node *c)
142 {
143 Node *x;
144
145 x = node2(a,b,c);
146 x->ntype = NEXPR;
147 return(x);
148 }
149
op3(int a,Node * b,Node * c,Node * d)150 Node *op3(int a, Node *b, Node *c, Node *d)
151 {
152 Node *x;
153
154 x = node3(a,b,c,d);
155 x->ntype = NEXPR;
156 return(x);
157 }
158
op4(int a,Node * b,Node * c,Node * d,Node * e)159 Node *op4(int a, Node *b, Node *c, Node *d, Node *e)
160 {
161 Node *x;
162
163 x = node4(a,b,c,d,e);
164 x->ntype = NEXPR;
165 return(x);
166 }
167
celltonode(Cell * a,int b)168 Node *celltonode(Cell *a, int b)
169 {
170 Node *x;
171
172 a->ctype = OCELL;
173 a->csub = b;
174 x = node1(0, (Node *) a);
175 x->ntype = NVALUE;
176 return(x);
177 }
178
rectonode(void)179 Node *rectonode(void) /* make $0 into a Node */
180 {
181 extern Cell *literal0;
182 return op1(INDIRECT, celltonode(literal0, CUNK));
183 }
184
makearr(Node * p)185 Node *makearr(Node *p)
186 {
187 Cell *cp;
188
189 if (isvalue(p)) {
190 cp = (Cell *) (p->narg[0]);
191 if (isfcn(cp))
192 SYNTAX( "%s is a function, not an array", cp->nval );
193 else if (!isarr(cp)) {
194 xfree(cp->sval);
195 cp->sval = (char *) makesymtab(NSYMTAB);
196 cp->tval = ARR;
197 }
198 }
199 return p;
200 }
201
202 #define PA2NUM 50 /* max number of pat,pat patterns allowed */
203 int paircnt; /* number of them in use */
204 int pairstack[PA2NUM]; /* state of each pat,pat */
205
pa2stat(Node * a,Node * b,Node * c)206 Node *pa2stat(Node *a, Node *b, Node *c) /* pat, pat {...} */
207 {
208 Node *x;
209
210 x = node4(PASTAT2, a, b, c, itonp(paircnt));
211 if (paircnt++ >= PA2NUM)
212 SYNTAX( "limited to %d pat,pat statements", PA2NUM );
213 x->ntype = NSTAT;
214 return(x);
215 }
216
linkum(Node * a,Node * b)217 Node *linkum(Node *a, Node *b)
218 {
219 Node *c;
220
221 if (errorflag) /* don't link things that are wrong */
222 return a;
223 if (a == NULL)
224 return(b);
225 else if (b == NULL)
226 return(a);
227 for (c = a; c->nnext != NULL; c = c->nnext)
228 ;
229 c->nnext = b;
230 return(a);
231 }
232
defn(Cell * v,Node * vl,Node * st)233 void defn(Cell *v, Node *vl, Node *st) /* turn on FCN bit in definition, */
234 { /* body of function, arglist */
235 Node *p;
236 int n;
237
238 if (isarr(v)) {
239 SYNTAX( "`%s' is an array name and a function name", v->nval );
240 return;
241 }
242 if (isarg(v->nval) != -1) {
243 SYNTAX( "`%s' is both function name and argument name", v->nval );
244 return;
245 }
246
247 v->tval = FCN;
248 v->sval = (char *) st;
249 n = 0; /* count arguments */
250 for (p = vl; p; p = p->nnext)
251 n++;
252 v->fval = n;
253 dprintf( ("defining func %s (%d args)\n", v->nval, n) );
254 }
255
isarg(const char * s)256 int isarg(const char *s) /* is s in argument list for current function? */
257 { /* return -1 if not, otherwise arg # */
258 extern Node *arglist;
259 Node *p = arglist;
260 int n;
261
262 for (n = 0; p != 0; p = p->nnext, n++)
263 if (strcmp(((Cell *)(p->narg[0]))->nval, s) == 0)
264 return n;
265 return -1;
266 }
267
ptoi(void * p)268 int ptoi(void *p) /* convert pointer to integer */
269 {
270 return (int) (long) p; /* swearing that p fits, of course */
271 }
272
itonp(int i)273 Node *itonp(int i) /* and vice versa */
274 {
275 return (Node *) (long) i;
276 }
277