/[cvs]/stack/stack.c
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Annotation of /stack/stack.c

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Revision 1.77 - (hide annotations)
Wed Feb 13 19:53:55 2002 UTC (22 years, 2 months ago) by teddy
Branch: MAIN
Changes since 1.76: +28 -10 lines
File MIME type: text/plain 
(quit): Free all memory before exiting.
(forget): Call 'forget_sym' to do the work.
(forget_sym): New internal function that doesn't do hashing.
1 teddy 1.52 /* printf, sscanf, fgets, fprintf */
2 masse 1.1 #include <stdio.h>
3 teddy 1.52 /* exit, EXIT_SUCCESS, malloc, free */
4 masse 1.1 #include <stdlib.h>
5     /* NULL */
6     #include <stddef.h>
7 teddy 1.3 /* dlopen, dlsym, dlerror */
8 masse 1.1 #include <dlfcn.h>
9 teddy 1.52 /* strcmp, strcpy, strlen, strcat, strdup */
10 masse 1.47 #include <string.h>
11 masse 1.1
12 masse 1.72 #define HASHTBLSIZE 2048
13 masse 1.1
14 teddy 1.28 /* First, define some types. */
15    
16     /* A value of some type */
17     typedef struct {
18 masse 1.16 enum {
19 teddy 1.28 integer,
20 teddy 1.18 string,
21 masse 1.16 func, /* Function pointer */
22 teddy 1.28 symb,
23 masse 1.16 list
24 teddy 1.18 } type; /* Type of stack element */
25    
26 masse 1.1 union {
27 teddy 1.28 void *ptr; /* Pointer to the content */
28 masse 1.16 int val; /* ...or an integer */
29     } content; /* Stores a pointer or an integer */
30 masse 1.1
31 teddy 1.28 int refcount; /* Reference counter */
32    
33     } value;
34    
35     /* A symbol with a name and possible value */
36     /* (These do not need reference counters, they are kept unique by
37     hashing.) */
38     typedef struct symbol_struct {
39     char *id; /* Symbol name */
40     value *val; /* The value (if any) bound to it */
41     struct symbol_struct *next; /* In case of hashing conflicts, a */
42     } symbol; /* symbol is a kind of stack item. */
43    
44     /* A type for a hash table for symbols */
45     typedef symbol *hashtbl[HASHTBLSIZE]; /* Hash table declaration */
46    
47     /* An item (value) on a stack */
48     typedef struct stackitem_struct
49     {
50     value *item; /* The value on the stack */
51 teddy 1.56 /* (This is never NULL) */
52 teddy 1.28 struct stackitem_struct *next; /* Next item */
53 masse 1.1 } stackitem;
54    
55 teddy 1.28 /* An environment; gives access to the stack and a hash table of
56     defined symbols */
57     typedef struct {
58     stackitem *head; /* Head of the stack */
59     hashtbl symbols; /* Hash table of all variable bindings */
60 teddy 1.33 int err; /* Error flag */
61 masse 1.46 int non_eval_flag;
62 masse 1.70 char *in_string; /* Input pending to be read */
63 teddy 1.28 } environment;
64    
65     /* A type for pointers to external functions */
66     typedef void (*funcp)(environment *); /* funcp is a pointer to a void
67     function (environment *) */
68 masse 1.1
69 teddy 1.28 /* Initialize a newly created environment */
70     void init_env(environment *env)
71 masse 1.1 {
72 masse 1.46 int i;
73 masse 1.1
74 masse 1.70 env->in_string= NULL;
75 masse 1.46 env->err= 0;
76     env->non_eval_flag= 0;
77 masse 1.1 for(i= 0; i<HASHTBLSIZE; i++)
78 teddy 1.28 env->symbols[i]= NULL;
79 masse 1.1 }
80    
81 teddy 1.48 void printerr(const char* in_string) {
82     fprintf(stderr, "Err: %s\n", in_string);
83     }
84    
85     /* Throw away a value */
86     void free_val(value *val){
87     stackitem *item, *temp;
88    
89     val->refcount--; /* Decrease the reference count */
90     if(val->refcount == 0){
91     switch (val->type){ /* and free the contents if necessary */
92     case string:
93     free(val->content.ptr);
94     break;
95     case list: /* lists needs to be freed recursively */
96     item=val->content.ptr;
97     while(item != NULL) { /* for all stack items */
98     free_val(item->item); /* free the value */
99     temp=item->next; /* save next ptr */
100     free(item); /* free the stackitem */
101     item=temp; /* go to next stackitem */
102     }
103     free(val); /* Free the actual list value */
104     break;
105 teddy 1.54 case integer:
106     case func:
107     case symb:
108 teddy 1.48 break;
109     }
110     }
111     }
112    
113     /* Discard the top element of the stack. */
114     extern void toss(environment *env)
115     {
116     stackitem *temp= env->head;
117    
118     if((env->head)==NULL) {
119     printerr("Too Few Arguments");
120     env->err=1;
121     return;
122     }
123    
124     free_val(env->head->item); /* Free the value */
125     env->head= env->head->next; /* Remove the top stack item */
126     free(temp); /* Free the old top stack item */
127     }
128    
129 teddy 1.27 /* Returns a pointer to a pointer to an element in the hash table. */
130 teddy 1.28 symbol **hash(hashtbl in_hashtbl, const char *in_string)
131 masse 1.1 {
132 masse 1.46 int i= 0;
133     unsigned int out_hash= 0;
134 teddy 1.18 char key= '\0';
135 teddy 1.28 symbol **position;
136 masse 1.1
137 masse 1.16 while(1){ /* Hash in_string */
138 masse 1.1 key= in_string[i++];
139     if(key=='\0')
140     break;
141     out_hash= out_hash*32+key;
142     }
143    
144     out_hash= out_hash%HASHTBLSIZE;
145     position= &(in_hashtbl[out_hash]);
146    
147 masse 1.25 while(1){
148 teddy 1.18 if(*position==NULL) /* If empty */
149 masse 1.1 return position;
150    
151 teddy 1.18 if(strcmp(in_string, (*position)->id)==0) /* If match */
152 masse 1.1 return position;
153    
154 masse 1.16 position= &((*position)->next); /* Try next */
155 masse 1.1 }
156     }
157    
158 teddy 1.29 /* Push a value onto the stack */
159 masse 1.72 void push_val(environment *env, value *val)
160 teddy 1.29 {
161     stackitem *new_item= malloc(sizeof(stackitem));
162     new_item->item= val;
163     val->refcount++;
164 masse 1.75 new_item->next= env->head;
165     env->head= new_item;
166 teddy 1.29 }
167    
168 teddy 1.28 /* Push an integer onto the stack. */
169 masse 1.72 void push_int(environment *env, int in_val)
170 masse 1.1 {
171 teddy 1.28 value *new_value= malloc(sizeof(value));
172    
173     new_value->content.val= in_val;
174     new_value->type= integer;
175     new_value->refcount=1;
176 masse 1.1
177 masse 1.75 push_val(env, new_value);
178 masse 1.1 }
179    
180 masse 1.14 /* Copy a string onto the stack. */
181 masse 1.72 void push_cstring(environment *env, const char *in_string)
182 masse 1.1 {
183 teddy 1.28 value *new_value= malloc(sizeof(value));
184    
185     new_value->content.ptr= malloc(strlen(in_string)+1);
186     strcpy(new_value->content.ptr, in_string);
187     new_value->type= string;
188     new_value->refcount=1;
189 masse 1.1
190 masse 1.75 push_val(env, new_value);
191 masse 1.1 }
192    
193 teddy 1.48 /* Mangle a symbol name to a valid C identifier name */
194 teddy 1.51 char *mangle_str(const char *old_string){
195 teddy 1.48 char validchars[]
196     ="0123456789abcdef";
197     char *new_string, *current;
198    
199 teddy 1.50 new_string=malloc((strlen(old_string)*2)+4);
200 teddy 1.48 strcpy(new_string, "sx_"); /* Stack eXternal */
201     current=new_string+3;
202     while(old_string[0] != '\0'){
203 teddy 1.53 current[0]=validchars[(unsigned char)(old_string[0])/16];
204     current[1]=validchars[(unsigned char)(old_string[0])%16];
205 teddy 1.48 current+=2;
206     old_string++;
207     }
208     current[0]='\0';
209    
210     return new_string; /* The caller must free() it */
211     }
212    
213     extern void mangle(environment *env){
214     value *new_value;
215     char *new_string;
216    
217     if((env->head)==NULL) {
218     printerr("Too Few Arguments");
219     env->err=1;
220     return;
221     }
222    
223     if(env->head->item->type!=string) {
224     printerr("Bad Argument Type");
225     env->err=2;
226     return;
227     }
228    
229 teddy 1.51 new_string= mangle_str((const char *)(env->head->item->content.ptr));
230 teddy 1.48
231     toss(env);
232     if(env->err) return;
233    
234     new_value= malloc(sizeof(value));
235     new_value->content.ptr= new_string;
236     new_value->type= string;
237     new_value->refcount=1;
238    
239 masse 1.72 push_val(env, new_value);
240 teddy 1.48 }
241    
242 teddy 1.28 /* Push a symbol onto the stack. */
243 teddy 1.35 void push_sym(environment *env, const char *in_string)
244 masse 1.1 {
245 teddy 1.28 value *new_value; /* A new symbol value */
246     /* ...which might point to... */
247 teddy 1.29 symbol **new_symbol; /* (if needed) A new actual symbol */
248 teddy 1.28 /* ...which, if possible, will be bound to... */
249     value *new_fvalue; /* (if needed) A new function value */
250     /* ...which will point to... */
251     void *funcptr; /* A function pointer */
252    
253     static void *handle= NULL; /* Dynamic linker handle */
254 teddy 1.48 const char *dlerr; /* Dynamic linker error */
255     char *mangled; /* Mangled function name */
256 teddy 1.28
257     new_value= malloc(sizeof(value));
258    
259     /* The new value is a symbol */
260     new_value->type= symb;
261     new_value->refcount= 1;
262    
263     /* Look up the symbol name in the hash table */
264 teddy 1.29 new_symbol= hash(env->symbols, in_string);
265     new_value->content.ptr= *new_symbol;
266 teddy 1.28
267 teddy 1.30 if(*new_symbol==NULL) { /* If symbol was undefined */
268 teddy 1.28
269     /* Create a new symbol */
270 teddy 1.30 (*new_symbol)= malloc(sizeof(symbol));
271 teddy 1.29 (*new_symbol)->val= NULL; /* undefined value */
272     (*new_symbol)->next= NULL;
273     (*new_symbol)->id= malloc(strlen(in_string)+1);
274     strcpy((*new_symbol)->id, in_string);
275 masse 1.1
276 teddy 1.28 /* Intern the new symbol in the hash table */
277 teddy 1.29 new_value->content.ptr= *new_symbol;
278 masse 1.1
279 teddy 1.28 /* Try to load the symbol name as an external function, to see if
280     we should bind the symbol to a new function pointer value */
281 masse 1.16 if(handle==NULL) /* If no handle */
282 teddy 1.28 handle= dlopen(NULL, RTLD_LAZY);
283 masse 1.6
284 teddy 1.28 funcptr= dlsym(handle, in_string); /* Get function pointer */
285 teddy 1.48 dlerr=dlerror();
286     if(dlerr != NULL) { /* If no function was found */
287 teddy 1.51 mangled=mangle_str(in_string);
288 teddy 1.48 funcptr= dlsym(handle, mangled); /* try mangling it */
289     free(mangled);
290     dlerr=dlerror();
291     }
292     if(dlerr==NULL) { /* If a function was found */
293 teddy 1.28 new_fvalue= malloc(sizeof(value)); /* Create a new value */
294     new_fvalue->type=func; /* The new value is a function pointer */
295     new_fvalue->content.ptr=funcptr; /* Store function pointer */
296 teddy 1.29 (*new_symbol)->val= new_fvalue; /* Bind the symbol to the new
297     function value */
298 teddy 1.28 new_fvalue->refcount= 1;
299     }
300 masse 1.1 }
301 masse 1.75 push_val(env, new_value);
302 masse 1.1 }
303    
304 masse 1.14 /* Print newline. */
305 masse 1.34 extern void nl()
306 masse 1.8 {
307     printf("\n");
308     }
309 masse 1.1
310 teddy 1.37 /* Gets the type of a value */
311     extern void type(environment *env){
312     int typenum;
313    
314     if((env->head)==NULL) {
315     printerr("Too Few Arguments");
316     env->err=1;
317     return;
318     }
319     typenum=env->head->item->type;
320     toss(env);
321     switch(typenum){
322     case integer:
323     push_sym(env, "integer");
324     break;
325     case string:
326     push_sym(env, "string");
327     break;
328     case symb:
329     push_sym(env, "symbol");
330     break;
331     case func:
332     push_sym(env, "function");
333     break;
334     case list:
335     push_sym(env, "list");
336     break;
337     }
338     }
339    
340 masse 1.14 /* Prints the top element of the stack. */
341 teddy 1.28 void print_h(stackitem *stack_head)
342 masse 1.8 {
343 teddy 1.28 switch(stack_head->item->type) {
344     case integer:
345     printf("%d", stack_head->item->content.val);
346 teddy 1.2 break;
347     case string:
348 masse 1.58 printf("%s", (char*)stack_head->item->content.ptr);
349 teddy 1.2 break;
350 teddy 1.28 case symb:
351 teddy 1.45 printf("%s", ((symbol *)(stack_head->item->content.ptr))->id);
352 masse 1.6 break;
353 teddy 1.35 case func:
354     printf("#<function %p>", (funcp)(stack_head->item->content.ptr));
355     break;
356     case list:
357 teddy 1.38 /* A list is just a stack, so make stack_head point to it */
358     stack_head=(stackitem *)(stack_head->item->content.ptr);
359     printf("[ ");
360     while(stack_head != NULL) {
361     print_h(stack_head);
362     printf(" ");
363     stack_head=stack_head->next;
364     }
365 teddy 1.39 printf("]");
366 teddy 1.35 break;
367 teddy 1.2 }
368 masse 1.1 }
369    
370 teddy 1.28 extern void print_(environment *env) {
371 teddy 1.35 if(env->head==NULL) {
372 teddy 1.36 printerr("Too Few Arguments");
373 teddy 1.35 env->err=1;
374     return;
375     }
376 teddy 1.28 print_h(env->head);
377     }
378    
379 masse 1.14 /* Prints the top element of the stack and then discards it. */
380 teddy 1.28 extern void print(environment *env)
381 masse 1.8 {
382 teddy 1.28 print_(env);
383 teddy 1.35 if(env->err) return;
384 teddy 1.28 toss(env);
385 masse 1.8 }
386    
387 masse 1.14 /* Only to be called by function printstack. */
388 teddy 1.28 void print_st(stackitem *stack_head, long counter)
389 masse 1.8 {
390     if(stack_head->next != NULL)
391     print_st(stack_head->next, counter+1);
392     printf("%ld: ", counter);
393 teddy 1.28 print_h(stack_head);
394 masse 1.8 nl();
395     }
396    
397 masse 1.14 /* Prints the stack. */
398 teddy 1.28 extern void printstack(environment *env)
399 masse 1.1 {
400 teddy 1.35 if(env->head == NULL) {
401     return;
402 masse 1.1 }
403 teddy 1.35 print_st(env->head, 1);
404     nl();
405 masse 1.1 }
406    
407 masse 1.26 /* Swap the two top elements on the stack. */
408 teddy 1.28 extern void swap(environment *env)
409 masse 1.26 {
410 teddy 1.28 stackitem *temp= env->head;
411 masse 1.26
412 masse 1.46 if(env->head==NULL || env->head->next==NULL) {
413 teddy 1.36 printerr("Too Few Arguments");
414 teddy 1.35 env->err=1;
415 masse 1.26 return;
416 teddy 1.28 }
417 masse 1.26
418 teddy 1.28 env->head= env->head->next;
419     temp->next= env->head->next;
420     env->head->next= temp;
421 masse 1.26 }
422    
423 teddy 1.56 /* Rotate the first three elements on the stack. */
424     extern void rot(environment *env)
425     {
426     stackitem *temp= env->head;
427    
428     if(env->head==NULL || env->head->next==NULL
429     || env->head->next->next==NULL) {
430     printerr("Too Few Arguments");
431     env->err=1;
432     return;
433     }
434    
435     env->head= env->head->next->next;
436     temp->next->next= env->head->next;
437     env->head->next= temp;
438     }
439    
440 teddy 1.33 /* Recall a value from a symbol, if bound */
441 teddy 1.31 extern void rcl(environment *env)
442     {
443     value *val;
444    
445     if(env->head == NULL) {
446 teddy 1.36 printerr("Too Few Arguments");
447 teddy 1.35 env->err=1;
448 teddy 1.31 return;
449     }
450    
451     if(env->head->item->type!=symb) {
452 teddy 1.36 printerr("Bad Argument Type");
453     env->err=2;
454 teddy 1.31 return;
455     }
456 teddy 1.35
457 teddy 1.31 val=((symbol *)(env->head->item->content.ptr))->val;
458 teddy 1.33 if(val == NULL){
459 teddy 1.36 printerr("Unbound Variable");
460     env->err=3;
461 teddy 1.33 return;
462     }
463 teddy 1.31 toss(env); /* toss the symbol */
464 teddy 1.35 if(env->err) return;
465 masse 1.72 push_val(env, val); /* Return its bound value */
466 teddy 1.31 }
467 masse 1.26
468 teddy 1.29 /* If the top element is a symbol, determine if it's bound to a
469     function value, and if it is, toss the symbol and execute the
470     function. */
471 teddy 1.28 extern void eval(environment *env)
472 masse 1.1 {
473     funcp in_func;
474 masse 1.44 value* temp_val;
475     stackitem* iterator;
476    
477 teddy 1.29 if(env->head==NULL) {
478 teddy 1.36 printerr("Too Few Arguments");
479 teddy 1.35 env->err=1;
480 masse 1.1 return;
481 masse 1.17 }
482 masse 1.1
483 teddy 1.64 eval_start:
484    
485 masse 1.46 switch(env->head->item->type) {
486     /* if it's a symbol */
487     case symb:
488 teddy 1.35 rcl(env); /* get its contents */
489     if(env->err) return;
490     if(env->head->item->type!=symb){ /* don't recurse symbols */
491 teddy 1.64 goto eval_start;
492 teddy 1.29 }
493 teddy 1.59 return;
494 masse 1.22
495 masse 1.46 /* If it's a lone function value, run it */
496     case func:
497 teddy 1.29 in_func= (funcp)(env->head->item->content.ptr);
498 teddy 1.28 toss(env);
499 teddy 1.35 if(env->err) return;
500 teddy 1.59 return (*in_func)(env);
501 masse 1.44
502 masse 1.46 /* If it's a list */
503     case list:
504 masse 1.44 temp_val= env->head->item;
505     env->head->item->refcount++;
506     toss(env);
507     if(env->err) return;
508     iterator= (stackitem*)temp_val->content.ptr;
509 teddy 1.59 while(iterator!=NULL) {
510 masse 1.72 push_val(env, iterator->item);
511 masse 1.44 if(env->head->item->type==symb
512     && strcmp(";", ((symbol*)(env->head->item->content.ptr))->id)==0) {
513     toss(env);
514     if(env->err) return;
515 teddy 1.59 if(iterator->next == NULL){
516     free_val(temp_val);
517 teddy 1.64 goto eval_start;
518 teddy 1.59 }
519 masse 1.44 eval(env);
520 masse 1.46 if(env->err) return;
521 masse 1.44 }
522     iterator= iterator->next;
523     }
524     free_val(temp_val);
525 teddy 1.59 return;
526 masse 1.46
527 masse 1.71 default:
528 teddy 1.59 return;
529 masse 1.26 }
530 masse 1.1 }
531    
532 masse 1.44 /* Reverse (flip) a list */
533 teddy 1.40 extern void rev(environment *env){
534 masse 1.76 stackitem *item, *temp, *prev= NULL;
535 teddy 1.40
536     if((env->head)==NULL) {
537     printerr("Too Few Arguments");
538     env->err=1;
539     return;
540     }
541    
542     if(env->head->item->type!=list) {
543     printerr("Bad Argument Type");
544     env->err=2;
545     return;
546     }
547    
548 masse 1.76 item= (stackitem *)(env->head->item->content.ptr);
549     while(item->next!=NULL){
550     temp= item->next;
551     item->next= prev;
552     prev= item;
553     item= temp;
554 teddy 1.40 }
555 masse 1.76 item->next= prev;
556    
557     env->head->item->content.ptr=item;
558 teddy 1.40 }
559    
560 masse 1.19 /* Make a list. */
561 teddy 1.28 extern void pack(environment *env)
562 masse 1.19 {
563 teddy 1.28 stackitem *iterator, *temp;
564     value *pack;
565 masse 1.19
566 teddy 1.28 iterator= env->head;
567 masse 1.19
568 masse 1.73 if(iterator==NULL
569     || (iterator->item->type==symb
570     && ((symbol*)(iterator->item->content.ptr))->id[0]=='[')) {
571 masse 1.24 temp= NULL;
572 teddy 1.28 toss(env);
573 masse 1.24 } else {
574     /* Search for first delimiter */
575 teddy 1.28 while(iterator->next!=NULL
576 masse 1.73 && (iterator->next->item->type!=symb
577     || ((symbol*)(iterator->next->item->content.ptr))->id[0]!='['))
578 masse 1.24 iterator= iterator->next;
579    
580     /* Extract list */
581 teddy 1.28 temp= env->head;
582     env->head= iterator->next;
583 masse 1.24 iterator->next= NULL;
584    
585 teddy 1.28 if(env->head!=NULL)
586     toss(env);
587 masse 1.24 }
588 masse 1.19
589     /* Push list */
590 teddy 1.28 pack= malloc(sizeof(value));
591 masse 1.19 pack->type= list;
592     pack->content.ptr= temp;
593 teddy 1.28 pack->refcount= 1;
594    
595 masse 1.74 push_val(env, pack);
596 teddy 1.40 rev(env);
597 masse 1.19 }
598    
599 masse 1.16 /* Relocate elements of the list on the stack. */
600 teddy 1.28 extern void expand(environment *env)
601 masse 1.1 {
602 masse 1.8 stackitem *temp, *new_head;
603    
604 masse 1.16 /* Is top element a list? */
605 teddy 1.36 if(env->head==NULL) {
606     printerr("Too Few Arguments");
607 teddy 1.35 env->err=1;
608 masse 1.8 return;
609 masse 1.17 }
610 teddy 1.36 if(env->head->item->type!=list) {
611     printerr("Bad Argument Type");
612     env->err=2;
613     return;
614     }
615 masse 1.43
616     rev(env);
617    
618     if(env->err)
619     return;
620 masse 1.8
621 masse 1.16 /* The first list element is the new stack head */
622 teddy 1.28 new_head= temp= env->head->item->content.ptr;
623 masse 1.8
624 teddy 1.28 env->head->item->refcount++;
625     toss(env);
626 masse 1.24
627 teddy 1.28 /* Find the end of the list */
628 masse 1.8 while(temp->next!=NULL)
629     temp= temp->next;
630    
631 teddy 1.28 /* Connect the tail of the list with the old stack head */
632     temp->next= env->head;
633     env->head= new_head; /* ...and voila! */
634    
635 teddy 1.5 }
636 masse 1.11
637 masse 1.14 /* Compares two elements by reference. */
638 teddy 1.28 extern void eq(environment *env)
639 masse 1.11 {
640     void *left, *right;
641     int result;
642    
643 teddy 1.28 if((env->head)==NULL || env->head->next==NULL) {
644 teddy 1.36 printerr("Too Few Arguments");
645 teddy 1.35 env->err=1;
646 masse 1.11 return;
647 masse 1.17 }
648 masse 1.11
649 teddy 1.28 left= env->head->item->content.ptr;
650     swap(env);
651     right= env->head->item->content.ptr;
652 masse 1.11 result= (left==right);
653    
654 teddy 1.28 toss(env); toss(env);
655 masse 1.72 push_int(env, result);
656 masse 1.11 }
657    
658 masse 1.14 /* Negates the top element on the stack. */
659 teddy 1.28 extern void not(environment *env)
660 masse 1.11 {
661 teddy 1.28 int val;
662 masse 1.11
663 teddy 1.36 if((env->head)==NULL) {
664     printerr("Too Few Arguments");
665 teddy 1.35 env->err=1;
666 masse 1.11 return;
667 masse 1.17 }
668 masse 1.11
669 teddy 1.36 if(env->head->item->type!=integer) {
670     printerr("Bad Argument Type");
671     env->err=2;
672     return;
673     }
674    
675 teddy 1.28 val= env->head->item->content.val;
676     toss(env);
677 masse 1.72 push_int(env, !val);
678 masse 1.11 }
679    
680 masse 1.14 /* Compares the two top elements on the stack and return 0 if they're the
681     same. */
682 teddy 1.28 extern void neq(environment *env)
683 masse 1.11 {
684 teddy 1.28 eq(env);
685     not(env);
686 masse 1.11 }
687 masse 1.12
688 masse 1.14 /* Give a symbol some content. */
689 teddy 1.28 extern void def(environment *env)
690 masse 1.12 {
691 teddy 1.28 symbol *sym;
692 masse 1.12
693 teddy 1.28 /* Needs two values on the stack, the top one must be a symbol */
694 teddy 1.36 if(env->head==NULL || env->head->next==NULL) {
695     printerr("Too Few Arguments");
696 teddy 1.35 env->err=1;
697 masse 1.12 return;
698 masse 1.17 }
699 masse 1.12
700 teddy 1.36 if(env->head->item->type!=symb) {
701     printerr("Bad Argument Type");
702     env->err=2;
703     return;
704     }
705    
706 teddy 1.28 /* long names are a pain */
707     sym=env->head->item->content.ptr;
708    
709     /* if the symbol was bound to something else, throw it away */
710     if(sym->val != NULL)
711     free_val(sym->val);
712    
713     /* Bind the symbol to the value */
714     sym->val= env->head->next->item;
715     sym->val->refcount++; /* Increase the reference counter */
716 masse 1.12
717 teddy 1.28 toss(env); toss(env);
718 masse 1.12 }
719 masse 1.10
720 teddy 1.77 extern void clear(environment *);
721     void forget_sym(symbol **);
722    
723 masse 1.14 /* Quit stack. */
724 teddy 1.28 extern void quit(environment *env)
725 teddy 1.5 {
726 teddy 1.77 long i;
727    
728     clear(env);
729     if (env->err) return;
730     for(i= 0; i<HASHTBLSIZE; i++) {
731     if (env->symbols[i]!= NULL) {
732     forget_sym(&(env->symbols[i]));
733     env->symbols[i]= NULL;
734     }
735     }
736 teddy 1.5 exit(EXIT_SUCCESS);
737 masse 1.24 }
738    
739     /* Clear stack */
740 teddy 1.28 extern void clear(environment *env)
741 masse 1.24 {
742 teddy 1.28 while(env->head!=NULL)
743     toss(env);
744 masse 1.1 }
745    
746 teddy 1.33 /* List all defined words */
747 masse 1.32 extern void words(environment *env)
748     {
749     symbol *temp;
750     int i;
751    
752     for(i= 0; i<HASHTBLSIZE; i++) {
753     temp= env->symbols[i];
754     while(temp!=NULL) {
755     printf("%s\n", temp->id);
756     temp= temp->next;
757     }
758     }
759     }
760 masse 1.34
761 teddy 1.77 /* Internal forget function */
762     void forget_sym(symbol **hash_entry) {
763     symbol *temp;
764    
765     temp= *hash_entry;
766     *hash_entry= (*hash_entry)->next;
767    
768     if(temp->val!=NULL) {
769     free_val(temp->val);
770     }
771     free(temp->id);
772     free(temp);
773     }
774    
775 masse 1.34 /* Forgets a symbol (remove it from the hash table) */
776     extern void forget(environment *env)
777     {
778     char* sym_id;
779     stackitem *stack_head= env->head;
780    
781 teddy 1.36 if(stack_head==NULL) {
782     printerr("Too Few Arguments");
783     env->err=1;
784     return;
785     }
786    
787     if(stack_head->item->type!=symb) {
788     printerr("Bad Argument Type");
789     env->err=2;
790 masse 1.34 return;
791     }
792    
793     sym_id= ((symbol*)(stack_head->item->content.ptr))->id;
794     toss(env);
795    
796 teddy 1.77 return forget_sym(hash(env->symbols, sym_id));
797 teddy 1.36 }
798    
799     /* Returns the current error number to the stack */
800     extern void errn(environment *env){
801 masse 1.72 push_int(env, env->err);
802 teddy 1.36 }
803 masse 1.32
804 masse 1.69 extern void read(environment*);
805    
806 masse 1.1 int main()
807     {
808 teddy 1.28 environment myenv;
809 masse 1.1
810 teddy 1.28 init_env(&myenv);
811 masse 1.1
812 masse 1.69 while(1) {
813 masse 1.70 if(myenv.in_string==NULL)
814 masse 1.71 printstack(&myenv);
815 masse 1.69 read(&myenv);
816 teddy 1.35 if(myenv.err) {
817     printf("(error %d) ", myenv.err);
818     myenv.err=0;
819 masse 1.71 } else if(myenv.head!=NULL
820     && myenv.head->item->type==symb
821 masse 1.69 && ((symbol*)(myenv.head->item->content.ptr))->id[0]==';') {
822     toss(&myenv); /* No error check in main */
823     eval(&myenv);
824 teddy 1.35 }
825 masse 1.1 }
826 teddy 1.41 quit(&myenv);
827 teddy 1.42 return EXIT_FAILURE;
828 teddy 1.48 }
829    
830     /* + */
831     extern void sx_2b(environment *env) {
832     int a, b;
833 masse 1.49 size_t len;
834     char* new_string;
835     value *a_val, *b_val;
836 teddy 1.48
837     if((env->head)==NULL || env->head->next==NULL) {
838     printerr("Too Few Arguments");
839     env->err=1;
840 masse 1.49 return;
841     }
842    
843     if(env->head->item->type==string
844     && env->head->next->item->type==string) {
845     a_val= env->head->item;
846     b_val= env->head->next->item;
847     a_val->refcount++;
848     b_val->refcount++;
849     toss(env); if(env->err) return;
850     toss(env); if(env->err) return;
851     len= strlen(a_val->content.ptr)+strlen(b_val->content.ptr)+1;
852     new_string= malloc(len);
853     strcpy(new_string, b_val->content.ptr);
854     strcat(new_string, a_val->content.ptr);
855     free_val(a_val); free_val(b_val);
856 masse 1.72 push_cstring(env, new_string);
857 masse 1.49 free(new_string);
858 teddy 1.48 return;
859     }
860    
861     if(env->head->item->type!=integer
862     || env->head->next->item->type!=integer) {
863     printerr("Bad Argument Type");
864     env->err=2;
865     return;
866     }
867     a=env->head->item->content.val;
868     toss(env);
869     if(env->err) return;
870 teddy 1.62 if(env->head->item->refcount == 1)
871     env->head->item->content.val += a;
872     else {
873     b=env->head->item->content.val;
874     toss(env);
875     if(env->err) return;
876 masse 1.72 push_int(env, a+b);
877 teddy 1.62 }
878 masse 1.1 }
879 teddy 1.55
880 teddy 1.60 /* - */
881     extern void sx_2d(environment *env) {
882 teddy 1.62 int a, b;
883 teddy 1.60
884     if((env->head)==NULL || env->head->next==NULL) {
885     printerr("Too Few Arguments");
886     env->err=1;
887     return;
888     }
889    
890     if(env->head->item->type!=integer
891     || env->head->next->item->type!=integer) {
892     printerr("Bad Argument Type");
893     env->err=2;
894     return;
895     }
896     a=env->head->item->content.val;
897     toss(env);
898     if(env->err) return;
899 teddy 1.62 if(env->head->item->refcount == 1)
900     env->head->item->content.val -= a;
901     else {
902     b=env->head->item->content.val;
903     toss(env);
904     if(env->err) return;
905 masse 1.72 push_int(env, b-a);
906 teddy 1.62 }
907 teddy 1.60 }
908    
909 teddy 1.61 /* > */
910     extern void sx_3e(environment *env) {
911 teddy 1.62 int a, b;
912 teddy 1.61
913     if((env->head)==NULL || env->head->next==NULL) {
914     printerr("Too Few Arguments");
915     env->err=1;
916     return;
917     }
918    
919     if(env->head->item->type!=integer
920     || env->head->next->item->type!=integer) {
921     printerr("Bad Argument Type");
922     env->err=2;
923     return;
924     }
925     a=env->head->item->content.val;
926     toss(env);
927     if(env->err) return;
928 teddy 1.62 if(env->head->item->refcount == 1)
929     env->head->item->content.val = (env->head->item->content.val > a);
930     else {
931     b=env->head->item->content.val;
932     toss(env);
933     if(env->err) return;
934 masse 1.72 push_int(env, b>a);
935 teddy 1.62 }
936 teddy 1.61 }
937    
938 teddy 1.55 /* Return copy of a value */
939     value *copy_val(value *old_value){
940     stackitem *old_item, *new_item, *prev_item;
941    
942     value *new_value=malloc(sizeof(value));
943    
944     new_value->type=old_value->type;
945     new_value->refcount=0; /* This is increased if/when this
946     value is referenced somewhere, like
947     in a stack item or a variable */
948     switch(old_value->type){
949     case integer:
950     new_value->content.val=old_value->content.val;
951     break;
952     case string:
953     (char *)(new_value->content.ptr)
954     = strdup((char *)(old_value->content.ptr));
955     break;
956     case func:
957     case symb:
958     new_value->content.ptr=old_value->content.ptr;
959     break;
960     case list:
961     new_value->content.ptr=NULL;
962    
963     prev_item=NULL;
964     old_item=(stackitem *)(old_value->content.ptr);
965    
966     while(old_item != NULL) { /* While list is not empty */
967     new_item= malloc(sizeof(stackitem));
968     new_item->item=copy_val(old_item->item); /* recurse */
969     new_item->next=NULL;
970     if(prev_item != NULL) /* If this wasn't the first item */
971     prev_item->next=new_item; /* point the previous item to the
972     new item */
973     else
974     new_value->content.ptr=new_item;
975     old_item=old_item->next;
976     prev_item=new_item;
977     }
978     break;
979     }
980     return new_value;
981     }
982    
983     /* duplicates an item on the stack */
984     extern void dup(environment *env) {
985     if((env->head)==NULL) {
986     printerr("Too Few Arguments");
987     env->err=1;
988     return;
989     }
990 masse 1.72 push_val(env, copy_val(env->head->item));
991 teddy 1.55 }
992 teddy 1.56
993 teddy 1.59 /* "if", If-Then */
994 masse 1.57 extern void sx_6966(environment *env) {
995 teddy 1.56
996     int truth;
997    
998     if((env->head)==NULL || env->head->next==NULL) {
999     printerr("Too Few Arguments");
1000     env->err=1;
1001     return;
1002     }
1003    
1004     if(env->head->next->item->type != integer) {
1005     printerr("Bad Argument Type");
1006     env->err=2;
1007     return;
1008     }
1009    
1010     swap(env);
1011     if(env->err) return;
1012    
1013     truth=env->head->item->content.val;
1014    
1015     toss(env);
1016     if(env->err) return;
1017    
1018     if(truth)
1019     eval(env);
1020     else
1021     toss(env);
1022     }
1023    
1024     /* If-Then-Else */
1025 masse 1.57 extern void ifelse(environment *env) {
1026 teddy 1.56
1027     int truth;
1028    
1029     if((env->head)==NULL || env->head->next==NULL
1030     || env->head->next->next==NULL) {
1031     printerr("Too Few Arguments");
1032     env->err=1;
1033     return;
1034     }
1035    
1036     if(env->head->next->next->item->type != integer) {
1037     printerr("Bad Argument Type");
1038     env->err=2;
1039     return;
1040     }
1041    
1042     rot(env);
1043     if(env->err) return;
1044    
1045     truth=env->head->item->content.val;
1046    
1047     toss(env);
1048     if(env->err) return;
1049    
1050     if(!truth)
1051     swap(env);
1052     if(env->err) return;
1053    
1054     toss(env);
1055     if(env->err) return;
1056    
1057     eval(env);
1058 masse 1.58 }
1059    
1060     /* while */
1061     extern void sx_7768696c65(environment *env) {
1062    
1063     int truth;
1064 masse 1.63 value *loop, *test;
1065 masse 1.58
1066     if((env->head)==NULL || env->head->next==NULL) {
1067     printerr("Too Few Arguments");
1068     env->err=1;
1069     return;
1070     }
1071    
1072 masse 1.63 loop= env->head->item;
1073     loop->refcount++;
1074     toss(env); if(env->err) return;
1075    
1076     test= env->head->item;
1077     test->refcount++;
1078     toss(env); if(env->err) return;
1079    
1080 masse 1.58 do {
1081 masse 1.72 push_val(env, test);
1082 masse 1.63 eval(env);
1083 masse 1.58
1084     if(env->head->item->type != integer) {
1085     printerr("Bad Argument Type");
1086     env->err=2;
1087     return;
1088     }
1089    
1090     truth= env->head->item->content.val;
1091     toss(env); if(env->err) return;
1092    
1093     if(truth) {
1094 masse 1.72 push_val(env, loop);
1095 masse 1.58 eval(env);
1096     } else {
1097     toss(env);
1098     }
1099    
1100     } while(truth);
1101 masse 1.63
1102     free_val(test);
1103     free_val(loop);
1104 teddy 1.56 }
1105 masse 1.65
1106     /* For-loop */
1107     extern void sx_666f72(environment *env) {
1108    
1109     value *loop, *foo;
1110     stackitem *iterator;
1111    
1112     if((env->head)==NULL || env->head->next==NULL) {
1113     printerr("Too Few Arguments");
1114     env->err=1;
1115     return;
1116     }
1117    
1118     if(env->head->next->item->type != list) {
1119     printerr("Bad Argument Type");
1120     env->err=2;
1121     return;
1122     }
1123    
1124     loop= env->head->item;
1125     loop->refcount++;
1126     toss(env); if(env->err) return;
1127    
1128     foo= env->head->item;
1129     foo->refcount++;
1130     toss(env); if(env->err) return;
1131    
1132     iterator= foo->content.ptr;
1133    
1134     while(iterator!=NULL) {
1135 masse 1.72 push_val(env, iterator->item);
1136     push_val(env, loop);
1137 masse 1.65 eval(env); if(env->err) return;
1138     iterator= iterator->next;
1139     }
1140    
1141     free_val(loop);
1142     free_val(foo);
1143     }
1144 masse 1.66
1145     /* 'to' */
1146     extern void to(environment *env) {
1147     int i, start, ending;
1148 masse 1.74 stackitem *temp_head;
1149     value *temp_val;
1150 masse 1.66
1151     if((env->head)==NULL || env->head->next==NULL) {
1152     printerr("Too Few Arguments");
1153     env->err=1;
1154     return;
1155     }
1156    
1157     if(env->head->item->type!=integer
1158     || env->head->next->item->type!=integer) {
1159     printerr("Bad Argument Type");
1160     env->err=2;
1161     return;
1162     }
1163    
1164     ending= env->head->item->content.val;
1165     toss(env); if(env->err) return;
1166     start= env->head->item->content.val;
1167     toss(env); if(env->err) return;
1168    
1169 masse 1.74 temp_head= env->head;
1170     env->head= NULL;
1171 masse 1.66
1172 masse 1.67 if(ending>=start) {
1173 masse 1.74 for(i= ending; i>=start; i--)
1174 masse 1.72 push_int(env, i);
1175 masse 1.67 } else {
1176 masse 1.74 for(i= ending; i<=start; i++)
1177 masse 1.72 push_int(env, i);
1178 masse 1.67 }
1179 masse 1.66
1180 masse 1.74 temp_val= malloc(sizeof(value));
1181     temp_val->content.ptr= env->head;
1182     temp_val->refcount= 1;
1183     temp_val->type= list;
1184     env->head= temp_head;
1185     push_val(env, temp_val);
1186 masse 1.66 }
1187 masse 1.68
1188     /* Read a string */
1189     extern void readline(environment *env) {
1190     char in_string[101];
1191    
1192     fgets(in_string, 100, stdin);
1193 masse 1.72 push_cstring(env, in_string);
1194 masse 1.68 }
1195    
1196     /* Read a value and place on stack */
1197     extern void read(environment *env) {
1198 masse 1.71 const char symbform[]= "%[a-zA-Z0-9!$%*+./:<=>?@^_~-]%[\001-\377]";
1199     const char strform[]= "\"%[^\"]\"%[\001-\377]";
1200     const char intform[]= "%i%[\001-\377]";
1201     const char blankform[]= "%*[ \t]%[\001-\377]";
1202     const char ebrackform[]= "%*1[]]%[\001-\377]";
1203     const char semicform[]= "%*1[;]%[\001-\377]";
1204     const char bbrackform[]= "%*1[[]%[\001-\377]";
1205 masse 1.68
1206 masse 1.71 int itemp;
1207 masse 1.68 static int depth= 0;
1208     char *rest, *match;
1209     size_t inlength;
1210    
1211 masse 1.70 if(env->in_string==NULL) {
1212 masse 1.68 readline(env); if(env->err) return;
1213    
1214 masse 1.70 env->in_string= malloc(strlen(env->head->item->content.ptr)+1);
1215     strcpy(env->in_string, env->head->item->content.ptr);
1216 masse 1.68 toss(env); if(env->err) return;
1217     }
1218    
1219 masse 1.70 inlength= strlen(env->in_string)+1;
1220 masse 1.68 match= malloc(inlength);
1221     rest= malloc(inlength);
1222    
1223 masse 1.70 if(sscanf(env->in_string, blankform, rest)) {
1224 masse 1.71 ;
1225 masse 1.70 } else if(sscanf(env->in_string, intform, &itemp, rest) > 0) {
1226 masse 1.72 push_int(env, itemp);
1227 masse 1.70 } else if(sscanf(env->in_string, strform, match, rest) > 0) {
1228 masse 1.72 push_cstring(env, match);
1229 masse 1.70 } else if(sscanf(env->in_string, symbform, match, rest) > 0) {
1230 masse 1.68 push_sym(env, match);
1231 masse 1.70 } else if(sscanf(env->in_string, ebrackform, rest) > 0) {
1232 masse 1.68 pack(env); if(env->err) return;
1233     if(depth!=0) depth--;
1234 masse 1.70 } else if(sscanf(env->in_string, semicform, rest) > 0) {
1235 masse 1.68 push_sym(env, ";");
1236 masse 1.70 } else if(sscanf(env->in_string, bbrackform, rest) > 0) {
1237 masse 1.68 push_sym(env, "[");
1238     depth++;
1239     } else {
1240     free(rest);
1241     rest= NULL;
1242     }
1243    
1244 masse 1.70 free(env->in_string);
1245 masse 1.68 free(match);
1246    
1247 masse 1.70 env->in_string= rest;
1248 masse 1.68
1249 masse 1.71 if(depth)
1250 masse 1.68 return read(env);
1251     }
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