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source: mainline/uspace/app/sbi/src/run_expr.c@ ea5dbaf

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Last change on this file since ea5dbaf was c5cb943d, checked in by Jiri Svoboda <jiri@…>, 15 years ago
Update SBI to rev. 291.
Property mode set to `100644`
File size: 61.4 KB

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1	/*
2	* Copyright (c) 2010 Jiri Svoboda
3	* All rights reserved.
4	*
5	* Redistribution and use in source and binary forms, with or without
6	* modification, are permitted provided that the following conditions
7	* are met:
8	*
9	* - Redistributions of source code must retain the above copyright
10	* notice, this list of conditions and the following disclaimer.
11	* - Redistributions in binary form must reproduce the above copyright
12	* notice, this list of conditions and the following disclaimer in the
13	* documentation and/or other materials provided with the distribution.
14	* - The name of the author may not be used to endorse or promote products
15	* derived from this software without specific prior written permission.
16	*
17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27	*/
28
29	/** @file Run expressions. */
30
31	#include <stdio.h>
32	#include <stdlib.h>
33	#include <assert.h>
34	#include "bigint.h"
35	#include "debug.h"
36	#include "intmap.h"
37	#include "list.h"
38	#include "mytypes.h"
39	#include "os/os.h"
40	#include "rdata.h"
41	#include "run.h"
42	#include "run_texpr.h"
43	#include "symbol.h"
44	#include "stree.h"
45	#include "strtab.h"
46	#include "tdata.h"
47
48	#include "run_expr.h"
49
50	static void run_nameref(run_t run, stree_nameref_t nameref,
51	rdata_item_t **res);
52
53	static void run_literal(run_t run, stree_literal_t literal,
54	rdata_item_t **res);
55	static void run_lit_bool(run_t run, stree_lit_bool_t lit_bool,
56	rdata_item_t **res);
57	static void run_lit_char(run_t run, stree_lit_char_t lit_char,
58	rdata_item_t **res);
59	static void run_lit_int(run_t run, stree_lit_int_t lit_int,
60	rdata_item_t **res);
61	static void run_lit_ref(run_t run, stree_lit_ref_t lit_ref,
62	rdata_item_t **res);
63	static void run_lit_string(run_t run, stree_lit_string_t lit_string,
64	rdata_item_t **res);
65
66	static void run_self_ref(run_t run, stree_self_ref_t self_ref,
67	rdata_item_t **res);
68
69	static void run_binop(run_t run, stree_binop_t binop, rdata_item_t **res);
70	static void run_binop_bool(run_t run, stree_binop_t binop, rdata_value_t *v1,
71	rdata_value_t v2, rdata_item_t *res);
72	static void run_binop_char(run_t run, stree_binop_t binop, rdata_value_t *v1,
73	rdata_value_t v2, rdata_item_t *res);
74	static void run_binop_int(run_t run, stree_binop_t binop, rdata_value_t *v1,
75	rdata_value_t v2, rdata_item_t *res);
76	static void run_binop_string(run_t run, stree_binop_t binop, rdata_value_t *v1,
77	rdata_value_t v2, rdata_item_t *res);
78	static void run_binop_ref(run_t run, stree_binop_t binop, rdata_value_t *v1,
79	rdata_value_t v2, rdata_item_t *res);
80	static void run_binop_enum(run_t run, stree_binop_t binop, rdata_value_t *v1,
81	rdata_value_t v2, rdata_item_t *res);
82
83	static void run_unop(run_t run, stree_unop_t unop, rdata_item_t **res);
84	static void run_unop_bool(run_t run, stree_unop_t unop, rdata_value_t *val,
85	rdata_item_t **res);
86	static void run_unop_int(run_t run, stree_unop_t unop, rdata_value_t *val,
87	rdata_item_t **res);
88
89	static void run_new(run_t run, stree_new_t new_op, rdata_item_t **res);
90	static void run_new_array(run_t run, stree_new_t new_op,
91	tdata_item_t titem, rdata_item_t *res);
92	static void run_new_object(run_t run, stree_new_t new_op,
93	tdata_item_t titem, rdata_item_t *res);
94
95	static void run_object_ctor(run_t run, rdata_var_t obj, list_t *arg_vals);
96
97	static void run_access(run_t run, stree_access_t access, rdata_item_t **res);
98	static void run_access_item(run_t run, stree_access_t access,
99	rdata_item_t arg, rdata_item_t *res);
100	static void run_access_ref(run_t run, stree_access_t access,
101	rdata_item_t arg, rdata_item_t *res);
102	static void run_access_deleg(run_t run, stree_access_t access,
103	rdata_item_t arg, rdata_item_t *res);
104	static void run_access_object(run_t run, stree_access_t access,
105	rdata_item_t arg, rdata_item_t *res);
106	static void run_access_object_static(run_t run, stree_access_t access,
107	rdata_var_t obj_var, rdata_item_t *res);
108	static void run_access_object_nonstatic(run_t run, stree_access_t access,
109	rdata_var_t obj_var, rdata_item_t *res);
110	static void run_access_symbol(run_t run, stree_access_t access,
111	rdata_item_t arg, rdata_item_t *res);
112
113	static void run_call(run_t run, stree_call_t call, rdata_item_t **res);
114	static void run_call_args(run_t run, list_t args, list_t *arg_vals);
115
116	static void run_index(run_t run, stree_index_t index, rdata_item_t **res);
117	static void run_index_array(run_t run, stree_index_t index,
118	rdata_item_t base, list_t args, rdata_item_t **res);
119	static void run_index_object(run_t run, stree_index_t index,
120	rdata_item_t base, list_t args, rdata_item_t **res);
121	static void run_index_string(run_t run, stree_index_t index,
122	rdata_item_t base, list_t args, rdata_item_t **res);
123	static void run_assign(run_t run, stree_assign_t assign, rdata_item_t **res);
124	static void run_as(run_t run, stree_as_t as_op, rdata_item_t **res);
125	static void run_box(run_t run, stree_box_t box, rdata_item_t **res);
126
127	/** Evaluate expression.
128	*
129	* Run the expression @a expr and store pointer to the result in *(@a res).
130	* If the expression has on value (assignment) then @c NULL is returned.
131	* @c NULL is also returned if an error or exception occurs.
132	*
133	* @param run Runner object
134	* @param expr Expression to run
135	* @param res Place to store result
136	*/
137	void run_expr(run_t run, stree_expr_t expr, rdata_item_t **res)
138	{
139	#ifdef DEBUG_RUN_TRACE
140	printf("Executing expression.\n");
141	#endif
142
143	switch (expr->ec) {
144	case ec_nameref:
145	run_nameref(run, expr->u.nameref, res);
146	break;
147	case ec_literal:
148	run_literal(run, expr->u.literal, res);
149	break;
150	case ec_self_ref:
151	run_self_ref(run, expr->u.self_ref, res);
152	break;
153	case ec_binop:
154	run_binop(run, expr->u.binop, res);
155	break;
156	case ec_unop:
157	run_unop(run, expr->u.unop, res);
158	break;
159	case ec_new:
160	run_new(run, expr->u.new_op, res);
161	break;
162	case ec_access:
163	run_access(run, expr->u.access, res);
164	break;
165	case ec_call:
166	run_call(run, expr->u.call, res);
167	break;
168	case ec_index:
169	run_index(run, expr->u.index, res);
170	break;
171	case ec_assign:
172	run_assign(run, expr->u.assign, res);
173	break;
174	case ec_as:
175	run_as(run, expr->u.as_op, res);
176	break;
177	case ec_box:
178	run_box(run, expr->u.box, res);
179	break;
180	}
181
182	#ifdef DEBUG_RUN_TRACE
183	printf("Expression result: ");
184	rdata_item_print(*res);
185	printf(".\n");
186	#endif
187	}
188
189	/** Evaluate name reference expression.
190	*
191	* @param run Runner object
192	* @param nameref Name reference
193	* @param res Place to store result
194	*/
195	static void run_nameref(run_t run, stree_nameref_t nameref,
196	rdata_item_t **res)
197	{
198	stree_symbol_t *sym;
199	rdata_item_t *item;
200	rdata_address_t *address;
201	rdata_addr_var_t *addr_var;
202	rdata_value_t *value;
203	rdata_var_t *var;
204	rdata_deleg_t *deleg_v;
205	rdata_symbol_t *symbol_v;
206
207	run_proc_ar_t *proc_ar;
208	stree_symbol_t *csi_sym;
209	stree_csi_t *csi;
210	rdata_object_t *obj;
211	rdata_var_t *member_var;
212
213	rdata_var_t *psobj;
214	rdata_var_t *sobj;
215	rdata_object_t *aobj;
216
217	#ifdef DEBUG_RUN_TRACE
218	printf("Run nameref.\n");
219	#endif
220
221	/*
222	* Look for a local variable.
223	*/
224	var = run_local_vars_lookup(run, nameref->name->sid);
225	if (var != NULL) {
226	/* Found a local variable. */
227	item = rdata_item_new(ic_address);
228	address = rdata_address_new(ac_var);
229	addr_var = rdata_addr_var_new();
230
231	item->u.address = address;
232	address->u.var_a = addr_var;
233	addr_var->vref = var;
234
235	*res = item;
236	#ifdef DEBUG_RUN_TRACE
237	printf("Found local variable.\n");
238	#endif
239	return;
240	}
241
242	/*
243	* Look for a class-wide or global symbol.
244	*/
245
246	/* Determine currently active object or CSI. */
247	proc_ar = run_get_current_proc_ar(run);
248
249	assert (proc_ar->obj != NULL);
250	assert(proc_ar->obj->vc == vc_object);
251	obj = proc_ar->obj->u.object_v;
252	csi_sym = obj->class_sym;
253
254	if (csi_sym != NULL) {
255	csi = symbol_to_csi(csi_sym);
256	assert(csi != NULL);
257	} else {
258	/* This happens in interactive mode. */
259	csi = NULL;
260	}
261
262	sym = symbol_lookup_in_csi(run->program, csi, nameref->name);
263
264	/* Existence should have been verified in type checking phase. */
265	assert(sym != NULL);
266
267	switch (sym->sc) {
268	case sc_csi:
269	#ifdef DEBUG_RUN_TRACE
270	printf("Referencing CSI.\n");
271	#endif
272	/* Obtain static object for the referenced CSI. */
273	psobj = run->gdata; /* XXX */
274	sobj = run_sobject_get(run, sym->u.csi, psobj,
275	nameref->name->sid);
276
277	/* Return reference to the object. */
278	run_reference(run, sobj, res);
279	break;
280	case sc_ctor:
281	/* It is not possible to reference a constructor explicitly. */
282	assert(b_false);
283	case sc_enum:
284	#ifdef DEBUG_RUN_TRACE
285	printf("Referencing enum.\n");
286	#endif
287	item = rdata_item_new(ic_value);
288	value = rdata_value_new();
289	var = rdata_var_new(vc_symbol);
290	symbol_v = rdata_symbol_new();
291
292	item->u.value = value;
293	value->var = var;
294	var->u.symbol_v = symbol_v;
295
296	symbol_v->sym = sym;
297	*res = item;
298	break;
299	case sc_deleg:
300	/* XXX TODO */
301	printf("Unimplemented: Delegate name reference.\n");
302	abort();
303	break;
304	case sc_fun:
305	/* There should be no global functions. */
306	assert(csi != NULL);
307
308	if (symbol_search_csi(run->program, csi, nameref->name)
309	== NULL) {
310	/* Function is not in the current object. */
311	printf("Error: Cannot access non-static member "
312	"function '");
313	symbol_print_fqn(sym);
314	printf("' from nested CSI '");
315	symbol_print_fqn(csi_sym);
316	printf("'.\n");
317	exit(1);
318	}
319
320	/* Construct delegate. */
321	item = rdata_item_new(ic_value);
322	value = rdata_value_new();
323	item->u.value = value;
324
325	var = rdata_var_new(vc_deleg);
326	deleg_v = rdata_deleg_new();
327	value->var = var;
328	var->u.deleg_v = deleg_v;
329
330	deleg_v->obj = proc_ar->obj;
331	deleg_v->sym = sym;
332
333	*res = item;
334	break;
335	case sc_var:
336	#ifdef DEBUG_RUN_TRACE
337	printf("Referencing member variable.\n");
338	#endif
339	/* There should be no global variables. */
340	assert(csi != NULL);
341
342	if (symbol_search_csi(run->program, csi, nameref->name)
343	== NULL && !stree_symbol_is_static(sym)) {
344	/* Variable is not in the current object. */
345	printf("Error: Cannot access non-static member "
346	"variable '");
347	symbol_print_fqn(sym);
348	printf("' from nested CSI '");
349	symbol_print_fqn(csi_sym);
350	printf("'.\n");
351	exit(1);
352	}
353
354	if (stree_symbol_is_static(sym)) {
355	/*
356	* XXX This is too slow!
357	*
358	* However fixing this is non-trivial. We would
359	* have to have pointer to static object available
360	* for each object (therefore also for each object
361	* type).
362	*/
363	sobj = run_sobject_find(run, sym->outer_csi);
364	assert(sobj->vc == vc_object);
365	aobj = sobj->u.object_v;
366	} else {
367	aobj = obj;
368	}
369
370	/* Find member variable in object. */
371	member_var = intmap_get(&aobj->fields, nameref->name->sid);
372	assert(member_var != NULL);
373
374	/* Return address of the variable. */
375	item = rdata_item_new(ic_address);
376	address = rdata_address_new(ac_var);
377	addr_var = rdata_addr_var_new();
378
379	item->u.address = address;
380	address->u.var_a = addr_var;
381	addr_var->vref = member_var;
382
383	*res = item;
384	break;
385	case sc_prop:
386	/* XXX TODO */
387	printf("Unimplemented: Property name reference.\n");
388	abort();
389	break;
390	}
391	}
392
393	/** Evaluate literal.
394	*
395	* @param run Runner object
396	* @param literal Literal
397	* @param res Place to store result
398	*/
399	static void run_literal(run_t run, stree_literal_t literal,
400	rdata_item_t **res)
401	{
402	#ifdef DEBUG_RUN_TRACE
403	printf("Run literal.\n");
404	#endif
405	switch (literal->ltc) {
406	case ltc_bool:
407	run_lit_bool(run, &literal->u.lit_bool, res);
408	break;
409	case ltc_char:
410	run_lit_char(run, &literal->u.lit_char, res);
411	break;
412	case ltc_int:
413	run_lit_int(run, &literal->u.lit_int, res);
414	break;
415	case ltc_ref:
416	run_lit_ref(run, &literal->u.lit_ref, res);
417	break;
418	case ltc_string:
419	run_lit_string(run, &literal->u.lit_string, res);
420	break;
421	}
422	}
423
424	/** Evaluate Boolean literal.
425	*
426	* @param run Runner object
427	* @param lit_bool Boolean literal
428	* @param res Place to store result
429	*/
430	static void run_lit_bool(run_t run, stree_lit_bool_t lit_bool,
431	rdata_item_t **res)
432	{
433	rdata_item_t *item;
434	rdata_value_t *value;
435	rdata_var_t *var;
436	rdata_bool_t *bool_v;
437
438	#ifdef DEBUG_RUN_TRACE
439	printf("Run Boolean literal.\n");
440	#endif
441	(void) run;
442
443	item = rdata_item_new(ic_value);
444	value = rdata_value_new();
445	var = rdata_var_new(vc_bool);
446	bool_v = rdata_bool_new();
447
448	item->u.value = value;
449	value->var = var;
450	var->u.bool_v = bool_v;
451	bool_v->value = lit_bool->value;
452
453	*res = item;
454	}
455
456	/** Evaluate character literal. */
457	static void run_lit_char(run_t run, stree_lit_char_t lit_char,
458	rdata_item_t **res)
459	{
460	rdata_item_t *item;
461	rdata_value_t *value;
462	rdata_var_t *var;
463	rdata_char_t *char_v;
464
465	#ifdef DEBUG_RUN_TRACE
466	printf("Run character literal.\n");
467	#endif
468	(void) run;
469
470	item = rdata_item_new(ic_value);
471	value = rdata_value_new();
472	var = rdata_var_new(vc_char);
473	char_v = rdata_char_new();
474
475	item->u.value = value;
476	value->var = var;
477	var->u.char_v = char_v;
478	bigint_clone(&lit_char->value, &char_v->value);
479
480	*res = item;
481	}
482
483	/** Evaluate integer literal.
484	*
485	* @param run Runner object
486	* @param lit_int Integer literal
487	* @param res Place to store result
488	*/
489	static void run_lit_int(run_t run, stree_lit_int_t lit_int,
490	rdata_item_t **res)
491	{
492	rdata_item_t *item;
493	rdata_value_t *value;
494	rdata_var_t *var;
495	rdata_int_t *int_v;
496
497	#ifdef DEBUG_RUN_TRACE
498	printf("Run integer literal.\n");
499	#endif
500	(void) run;
501
502	item = rdata_item_new(ic_value);
503	value = rdata_value_new();
504	var = rdata_var_new(vc_int);
505	int_v = rdata_int_new();
506
507	item->u.value = value;
508	value->var = var;
509	var->u.int_v = int_v;
510	bigint_clone(&lit_int->value, &int_v->value);
511
512	*res = item;
513	}
514
515	/** Evaluate reference literal (@c nil).
516	*
517	* @param run Runner object
518	* @param lit_ref Reference literal
519	* @param res Place to store result
520	*/
521	static void run_lit_ref(run_t run, stree_lit_ref_t lit_ref,
522	rdata_item_t **res)
523	{
524	rdata_item_t *item;
525	rdata_value_t *value;
526	rdata_var_t *var;
527	rdata_ref_t *ref_v;
528
529	#ifdef DEBUG_RUN_TRACE
530	printf("Run reference literal (nil).\n");
531	#endif
532	(void) run;
533	(void) lit_ref;
534
535	item = rdata_item_new(ic_value);
536	value = rdata_value_new();
537	var = rdata_var_new(vc_ref);
538	ref_v = rdata_ref_new();
539
540	item->u.value = value;
541	value->var = var;
542	var->u.ref_v = ref_v;
543	ref_v->vref = NULL;
544
545	*res = item;
546	}
547
548	/** Evaluate string literal.
549	*
550	* @param run Runner object
551	* @param lit_string String literal
552	* @param res Place to store result
553	*/
554	static void run_lit_string(run_t run, stree_lit_string_t lit_string,
555	rdata_item_t **res)
556	{
557	rdata_item_t *item;
558	rdata_value_t *value;
559	rdata_var_t *var;
560	rdata_string_t *string_v;
561
562	#ifdef DEBUG_RUN_TRACE
563	printf("Run integer literal.\n");
564	#endif
565	(void) run;
566
567	item = rdata_item_new(ic_value);
568	value = rdata_value_new();
569	var = rdata_var_new(vc_string);
570	string_v = rdata_string_new();
571
572	item->u.value = value;
573	value->var = var;
574	var->u.string_v = string_v;
575	string_v->value = lit_string->value;
576
577	*res = item;
578	}
579
580	/** Evaluate @c self reference.
581	*
582	* @param run Runner object
583	* @param self_ref Self reference
584	* @param res Place to store result
585	*/
586	static void run_self_ref(run_t run, stree_self_ref_t self_ref,
587	rdata_item_t **res)
588	{
589	run_proc_ar_t *proc_ar;
590
591	#ifdef DEBUG_RUN_TRACE
592	printf("Run self reference.\n");
593	#endif
594	(void) self_ref;
595	proc_ar = run_get_current_proc_ar(run);
596
597	/* Return reference to the currently active object. */
598	run_reference(run, proc_ar->obj, res);
599	}
600
601	/** Evaluate binary operation.
602	*
603	* @param run Runner object
604	* @param binop Binary operation
605	* @param res Place to store result
606	*/
607	static void run_binop(run_t run, stree_binop_t binop, rdata_item_t **res)
608	{
609	rdata_item_t rarg1_i, rarg2_i;
610	rdata_item_t rarg1_vi, rarg2_vi;
611	rdata_value_t v1, v2;
612
613	#ifdef DEBUG_RUN_TRACE
614	printf("Run binary operation.\n");
615	#endif
616	run_expr(run, binop->arg1, &rarg1_i);
617	if (run_is_bo(run)) {
618	*res = NULL;
619	return;
620	}
621
622	run_expr(run, binop->arg2, &rarg2_i);
623	if (run_is_bo(run)) {
624	*res = NULL;
625	return;
626	}
627
628	#ifdef DEBUG_RUN_TRACE
629	printf("Check binop argument results.\n");
630	#endif
631
632	run_cvt_value_item(run, rarg1_i, &rarg1_vi);
633	run_cvt_value_item(run, rarg2_i, &rarg2_vi);
634
635	v1 = rarg1_vi->u.value;
636	v2 = rarg2_vi->u.value;
637
638	if (v1->var->vc != v2->var->vc) {
639	printf("Unimplemented: Binary operation arguments have "
640	"different type.\n");
641	exit(1);
642	}
643
644	switch (v1->var->vc) {
645	case vc_bool:
646	run_binop_bool(run, binop, v1, v2, res);
647	break;
648	case vc_char:
649	run_binop_char(run, binop, v1, v2, res);
650	break;
651	case vc_int:
652	run_binop_int(run, binop, v1, v2, res);
653	break;
654	case vc_string:
655	run_binop_string(run, binop, v1, v2, res);
656	break;
657	case vc_ref:
658	run_binop_ref(run, binop, v1, v2, res);
659	break;
660	case vc_enum:
661	run_binop_enum(run, binop, v1, v2, res);
662	break;
663	case vc_deleg:
664	case vc_array:
665	case vc_object:
666	case vc_resource:
667	case vc_symbol:
668	assert(b_false);
669	}
670	}
671
672	/** Evaluate binary operation on bool arguments.
673	*
674	* @param run Runner object
675	* @param binop Binary operation
676	* @param v1 Value of first argument
677	* @param v2 Value of second argument
678	* @param res Place to store result
679	*/
680	static void run_binop_bool(run_t run, stree_binop_t binop, rdata_value_t *v1,
681	rdata_value_t v2, rdata_item_t *res)
682	{
683	rdata_item_t *item;
684	rdata_value_t *value;
685	rdata_var_t *var;
686	rdata_bool_t *bool_v;
687
688	bool_t b1, b2;
689
690	(void) run;
691
692	item = rdata_item_new(ic_value);
693	value = rdata_value_new();
694	var = rdata_var_new(vc_bool);
695	bool_v = rdata_bool_new();
696
697	item->u.value = value;
698	value->var = var;
699	var->u.bool_v = bool_v;
700
701	b1 = v1->var->u.bool_v->value;
702	b2 = v2->var->u.bool_v->value;
703
704	switch (binop->bc) {
705	case bo_plus:
706	case bo_minus:
707	case bo_mult:
708	assert(b_false);
709
710	case bo_equal:
711	bool_v->value = (b1 == b2);
712	break;
713	case bo_notequal:
714	bool_v->value = (b1 != b2);
715	break;
716	case bo_lt:
717	bool_v->value = (b1 == b_false) && (b2 == b_true);
718	break;
719	case bo_gt:
720	bool_v->value = (b1 == b_true) && (b2 == b_false);
721	break;
722	case bo_lt_equal:
723	bool_v->value = (b1 == b_false) \|\| (b2 == b_true);
724	break;
725	case bo_gt_equal:
726	bool_v->value = (b1 == b_true) \|\| (b2 == b_false);
727	break;
728
729	case bo_and:
730	bool_v->value = (b1 == b_true) && (b2 == b_true);
731	break;
732	case bo_or:
733	bool_v->value = (b1 == b_true) \|\| (b2 == b_true);
734	break;
735	}
736
737	*res = item;
738	}
739
740	/** Evaluate binary operation on char arguments.
741	*
742	* @param run Runner object
743	* @param binop Binary operation
744	* @param v1 Value of first argument
745	* @param v2 Value of second argument
746	* @param res Place to store result
747	*/
748	static void run_binop_char(run_t run, stree_binop_t binop, rdata_value_t *v1,
749	rdata_value_t v2, rdata_item_t *res)
750	{
751	rdata_item_t *item;
752	rdata_value_t *value;
753	rdata_var_t *var;
754	rdata_bool_t *bool_v;
755
756	bigint_t c1, c2;
757	bigint_t diff;
758	bool_t zf, nf;
759
760	(void) run;
761
762	item = rdata_item_new(ic_value);
763	value = rdata_value_new();
764
765	item->u.value = value;
766
767	c1 = &v1->var->u.char_v->value;
768	c2 = &v2->var->u.char_v->value;
769
770	var = rdata_var_new(vc_bool);
771	bool_v = rdata_bool_new();
772	var->u.bool_v = bool_v;
773	value->var = var;
774
775	bigint_sub(c1, c2, &diff);
776	zf = bigint_is_zero(&diff);
777	nf = bigint_is_negative(&diff);
778
779	switch (binop->bc) {
780	case bo_plus:
781	case bo_minus:
782	case bo_mult:
783	assert(b_false);
784
785	case bo_equal:
786	bool_v->value = zf;
787	break;
788	case bo_notequal:
789	bool_v->value = !zf;
790	break;
791	case bo_lt:
792	bool_v->value = (!zf && nf);
793	break;
794	case bo_gt:
795	bool_v->value = (!zf && !nf);
796	break;
797	case bo_lt_equal:
798	bool_v->value = (zf \|\| nf);
799	break;
800	case bo_gt_equal:
801	bool_v->value = !nf;
802	break;
803
804	case bo_and:
805	case bo_or:
806	assert(b_false);
807	}
808
809	*res = item;
810	}
811
812	/** Evaluate binary operation on int arguments.
813	*
814	* @param run Runner object
815	* @param binop Binary operation
816	* @param v1 Value of first argument
817	* @param v2 Value of second argument
818	* @param res Place to store result
819	*/
820	static void run_binop_int(run_t run, stree_binop_t binop, rdata_value_t *v1,
821	rdata_value_t v2, rdata_item_t *res)
822	{
823	rdata_item_t *item;
824	rdata_value_t *value;
825	rdata_var_t *var;
826	rdata_int_t *int_v;
827	rdata_bool_t *bool_v;
828
829	bigint_t i1, i2;
830	bigint_t diff;
831	bool_t done;
832	bool_t zf, nf;
833
834	(void) run;
835
836	item = rdata_item_new(ic_value);
837	value = rdata_value_new();
838
839	item->u.value = value;
840
841	i1 = &v1->var->u.int_v->value;
842	i2 = &v2->var->u.int_v->value;
843
844	done = b_true;
845
846	switch (binop->bc) {
847	case bo_plus:
848	int_v = rdata_int_new();
849	bigint_add(i1, i2, &int_v->value);
850	break;
851	case bo_minus:
852	int_v = rdata_int_new();
853	bigint_sub(i1, i2, &int_v->value);
854	break;
855	case bo_mult:
856	int_v = rdata_int_new();
857	bigint_mul(i1, i2, &int_v->value);
858	break;
859	default:
860	done = b_false;
861	break;
862	}
863
864	if (done) {
865	var = rdata_var_new(vc_int);
866	var->u.int_v = int_v;
867	value->var = var;
868	*res = item;
869	return;
870	}
871
872	var = rdata_var_new(vc_bool);
873	bool_v = rdata_bool_new();
874	var->u.bool_v = bool_v;
875	value->var = var;
876
877	/* Relational operation. */
878
879	bigint_sub(i1, i2, &diff);
880	zf = bigint_is_zero(&diff);
881	nf = bigint_is_negative(&diff);
882
883	switch (binop->bc) {
884	case bo_plus:
885	case bo_minus:
886	case bo_mult:
887	assert(b_false);
888
889	case bo_equal:
890	bool_v->value = zf;
891	break;
892	case bo_notequal:
893	bool_v->value = !zf;
894	break;
895	case bo_lt:
896	bool_v->value = (!zf && nf);
897	break;
898	case bo_gt:
899	bool_v->value = (!zf && !nf);
900	break;
901	case bo_lt_equal:
902	bool_v->value = (zf \|\| nf);
903	break;
904	case bo_gt_equal:
905	bool_v->value = !nf;
906	break;
907	case bo_and:
908	case bo_or:
909	assert(b_false);
910	}
911
912	*res = item;
913	}
914
915	/** Evaluate binary operation on string arguments.
916	*
917	* @param run Runner object
918	* @param binop Binary operation
919	* @param v1 Value of first argument
920	* @param v2 Value of second argument
921	* @param res Place to store result
922	*/
923	static void run_binop_string(run_t run, stree_binop_t binop, rdata_value_t *v1,
924	rdata_value_t v2, rdata_item_t *res)
925	{
926	rdata_item_t *item;
927	rdata_value_t *value;
928	rdata_var_t *var;
929	rdata_string_t *string_v;
930	rdata_bool_t *bool_v;
931	bool_t done;
932	bool_t zf;
933
934	const char s1, s2;
935
936	(void) run;
937
938	item = rdata_item_new(ic_value);
939	value = rdata_value_new();
940
941	item->u.value = value;
942
943	s1 = v1->var->u.string_v->value;
944	s2 = v2->var->u.string_v->value;
945
946	done = b_true;
947
948	switch (binop->bc) {
949	case bo_plus:
950	/* Concatenate strings. */
951	string_v = rdata_string_new();
952	string_v->value = os_str_acat(s1, s2);
953	break;
954	default:
955	done = b_false;
956	break;
957	}
958
959	if (done) {
960	var = rdata_var_new(vc_string);
961	var->u.string_v = string_v;
962	value->var = var;
963	*res = item;
964	return;
965	}
966
967	var = rdata_var_new(vc_bool);
968	bool_v = rdata_bool_new();
969	var->u.bool_v = bool_v;
970	value->var = var;
971
972	/* Relational operation. */
973
974	zf = os_str_cmp(s1, s2) == 0;
975
976	switch (binop->bc) {
977	case bo_equal:
978	bool_v->value = zf;
979	break;
980	case bo_notequal:
981	bool_v->value = !zf;
982	break;
983	default:
984	printf("Error: Invalid binary operation on string "
985	"arguments (%d).\n", binop->bc);
986	assert(b_false);
987	}
988
989	*res = item;
990	}
991
992	/** Evaluate binary operation on ref arguments.
993	*
994	* @param run Runner object
995	* @param binop Binary operation
996	* @param v1 Value of first argument
997	* @param v2 Value of second argument
998	* @param res Place to store result
999	*/
1000	static void run_binop_ref(run_t run, stree_binop_t binop, rdata_value_t *v1,
1001	rdata_value_t v2, rdata_item_t *res)
1002	{
1003	rdata_item_t *item;
1004	rdata_value_t *value;
1005	rdata_var_t *var;
1006	rdata_bool_t *bool_v;
1007
1008	rdata_var_t ref1, ref2;
1009
1010	(void) run;
1011
1012	item = rdata_item_new(ic_value);
1013	value = rdata_value_new();
1014	var = rdata_var_new(vc_bool);
1015	bool_v = rdata_bool_new();
1016
1017	item->u.value = value;
1018	value->var = var;
1019	var->u.bool_v = bool_v;
1020
1021	ref1 = v1->var->u.ref_v->vref;
1022	ref2 = v2->var->u.ref_v->vref;
1023
1024	switch (binop->bc) {
1025	case bo_equal:
1026	bool_v->value = (ref1 == ref2);
1027	break;
1028	case bo_notequal:
1029	bool_v->value = (ref1 != ref2);
1030	break;
1031	default:
1032	printf("Error: Invalid binary operation on reference "
1033	"arguments (%d).\n", binop->bc);
1034	assert(b_false);
1035	}
1036
1037	*res = item;
1038	}
1039
1040	/** Evaluate binary operation on enum arguments.
1041	*
1042	* @param run Runner object
1043	* @param binop Binary operation
1044	* @param v1 Value of first argument
1045	* @param v2 Value of second argument
1046	* @param res Place to store result
1047	*/
1048	static void run_binop_enum(run_t run, stree_binop_t binop, rdata_value_t *v1,
1049	rdata_value_t v2, rdata_item_t *res)
1050	{
1051	rdata_item_t *item;
1052	rdata_value_t *value;
1053	rdata_var_t *var;
1054	rdata_bool_t *bool_v;
1055
1056	rdata_var_t ref1, ref2;
1057
1058	(void) run;
1059
1060	item = rdata_item_new(ic_value);
1061	value = rdata_value_new();
1062	var = rdata_var_new(vc_bool);
1063	bool_v = rdata_bool_new();
1064
1065	item->u.value = value;
1066	value->var = var;
1067	var->u.bool_v = bool_v;
1068
1069	ref1 = v1->var->u.ref_v->vref;
1070	ref2 = v2->var->u.ref_v->vref;
1071
1072	switch (binop->bc) {
1073	case bo_equal:
1074	bool_v->value = (ref1 == ref2);
1075	break;
1076	case bo_notequal:
1077	bool_v->value = (ref1 != ref2);
1078	break;
1079	default:
1080	/* Should have been caught by static typing. */
1081	assert(b_false);
1082	}
1083
1084	*res = item;
1085	}
1086
1087	/** Evaluate unary operation.
1088	*
1089	* @param run Runner object
1090	* @param unop Unary operation
1091	* @param res Place to store result
1092	*/
1093	static void run_unop(run_t run, stree_unop_t unop, rdata_item_t **res)
1094	{
1095	rdata_item_t *rarg_i;
1096	rdata_item_t *rarg_vi;
1097	rdata_value_t *val;
1098
1099	#ifdef DEBUG_RUN_TRACE
1100	printf("Run unary operation.\n");
1101	#endif
1102	run_expr(run, unop->arg, &rarg_i);
1103	if (run_is_bo(run)) {
1104	*res = NULL;
1105	return;
1106	}
1107
1108	#ifdef DEBUG_RUN_TRACE
1109	printf("Check unop argument result.\n");
1110	#endif
1111	run_cvt_value_item(run, rarg_i, &rarg_vi);
1112
1113	val = rarg_vi->u.value;
1114
1115	switch (val->var->vc) {
1116	case vc_bool:
1117	run_unop_bool(run, unop, val, res);
1118	break;
1119	case vc_int:
1120	run_unop_int(run, unop, val, res);
1121	break;
1122	default:
1123	printf("Unimplemented: Unrary operation argument of "
1124	"type %d.\n", val->var->vc);
1125	run_raise_error(run);
1126	*res = NULL;
1127	break;
1128	}
1129	}
1130
1131	/** Evaluate unary operation on bool argument.
1132	*
1133	* @param run Runner object
1134	* @param unop Unary operation
1135	* @param val Value of argument
1136	* @param res Place to store result
1137	*/
1138	static void run_unop_bool(run_t run, stree_unop_t unop, rdata_value_t *val,
1139	rdata_item_t **res)
1140	{
1141	rdata_item_t *item;
1142	rdata_value_t *value;
1143	rdata_var_t *var;
1144	rdata_bool_t *bool_v;
1145
1146	(void) run;
1147
1148	item = rdata_item_new(ic_value);
1149	value = rdata_value_new();
1150	var = rdata_var_new(vc_bool);
1151	bool_v = rdata_bool_new();
1152
1153	item->u.value = value;
1154	value->var = var;
1155	var->u.bool_v = bool_v;
1156
1157	switch (unop->uc) {
1158	case uo_plus:
1159	case uo_minus:
1160	assert(b_false);
1161
1162	case uo_not:
1163	bool_v->value = !val->var->u.bool_v->value;
1164	break;
1165	}
1166
1167	*res = item;
1168	}
1169
1170	/** Evaluate unary operation on int argument.
1171	*
1172	* @param run Runner object
1173	* @param unop Unary operation
1174	* @param val Value of argument
1175	* @param res Place to store result
1176	*/
1177	static void run_unop_int(run_t run, stree_unop_t unop, rdata_value_t *val,
1178	rdata_item_t **res)
1179	{
1180	rdata_item_t *item;
1181	rdata_value_t *value;
1182	rdata_var_t *var;
1183	rdata_int_t *int_v;
1184
1185	(void) run;
1186
1187	item = rdata_item_new(ic_value);
1188	value = rdata_value_new();
1189	var = rdata_var_new(vc_int);
1190	int_v = rdata_int_new();
1191
1192	item->u.value = value;
1193	value->var = var;
1194	var->u.int_v = int_v;
1195
1196	switch (unop->uc) {
1197	case uo_plus:
1198	bigint_clone(&val->var->u.int_v->value, &int_v->value);
1199	break;
1200	case uo_minus:
1201	bigint_reverse_sign(&val->var->u.int_v->value,
1202	&int_v->value);
1203	break;
1204	case uo_not:
1205	assert(b_false);
1206	}
1207
1208	*res = item;
1209	}
1210
1211	/** Evaluate @c new operation.
1212	*
1213	* Evaluates operation per the @c new operator that creates a new
1214	* instance of some type.
1215	*
1216	* @param run Runner object
1217	* @param unop Unary operation
1218	* @param res Place to store result
1219	*/
1220	static void run_new(run_t run, stree_new_t new_op, rdata_item_t **res)
1221	{
1222	tdata_item_t *titem;
1223
1224	#ifdef DEBUG_RUN_TRACE
1225	printf("Run 'new' operation.\n");
1226	#endif
1227	/* Evaluate type expression */
1228	run_texpr(run->program, run_get_current_csi(run), new_op->texpr,
1229	&titem);
1230
1231	switch (titem->tic) {
1232	case tic_tarray:
1233	run_new_array(run, new_op, titem, res);
1234	break;
1235	case tic_tobject:
1236	run_new_object(run, new_op, titem, res);
1237	break;
1238	default:
1239	printf("Error: Invalid argument to operator 'new', "
1240	"expected object.\n");
1241	exit(1);
1242	}
1243	}
1244
1245	/** Create new array.
1246	*
1247	* @param run Runner object
1248	* @param new_op New operation
1249	* @param titem Type of new var node (tic_tarray)
1250	* @param res Place to store result
1251	*/
1252	static void run_new_array(run_t run, stree_new_t new_op,
1253	tdata_item_t titem, rdata_item_t *res)
1254	{
1255	tdata_array_t *tarray;
1256	rdata_array_t *array;
1257	rdata_var_t *array_var;
1258	rdata_var_t *elem_var;
1259
1260	rdata_item_t rexpr, rexpr_vi;
1261	rdata_var_t *rexpr_var;
1262
1263	stree_expr_t *expr;
1264
1265	list_node_t *node;
1266	int length;
1267	int i;
1268	int rc;
1269	int iextent;
1270
1271	#ifdef DEBUG_RUN_TRACE
1272	printf("Create new array.\n");
1273	#endif
1274	(void) run;
1275	(void) new_op;
1276
1277	assert(titem->tic == tic_tarray);
1278	tarray = titem->u.tarray;
1279
1280	/* Create the array. */
1281	assert(titem->u.tarray->rank > 0);
1282	array = rdata_array_new(titem->u.tarray->rank);
1283
1284	/* Compute extents. */
1285	node = list_first(&tarray->extents);
1286	if (node == NULL) {
1287	printf("Error: Extents must be specified when constructing "
1288	"an array with 'new'.\n");
1289	exit(1);
1290	}
1291
1292	i = 0; length = 1;
1293	while (node != NULL) {
1294	expr = list_node_data(node, stree_expr_t *);
1295
1296	/* Evaluate extent argument. */
1297	run_expr(run, expr, &rexpr);
1298	if (run_is_bo(run)) {
1299	*res = NULL;
1300	return;
1301	}
1302
1303	run_cvt_value_item(run, rexpr, &rexpr_vi);
1304	assert(rexpr_vi->ic == ic_value);
1305	rexpr_var = rexpr_vi->u.value->var;
1306
1307	if (rexpr_var->vc != vc_int) {
1308	printf("Error: Array extent must be an integer.\n");
1309	exit(1);
1310	}
1311
1312	#ifdef DEBUG_RUN_TRACE
1313	printf("Array extent: ");
1314	bigint_print(&rexpr_var->u.int_v->value);
1315	printf(".\n");
1316	#endif
1317	rc = bigint_get_value_int(&rexpr_var->u.int_v->value,
1318	&iextent);
1319	if (rc != EOK) {
1320	printf("Memory allocation failed (big int used).\n");
1321	exit(1);
1322	}
1323
1324	array->extent[i] = iextent;
1325	length = length * array->extent[i];
1326
1327	node = list_next(&tarray->extents, node);
1328	i += 1;
1329	}
1330
1331	array->element = calloc(length, sizeof(rdata_var_t *));
1332	if (array->element == NULL) {
1333	printf("Memory allocation failed.\n");
1334	exit(1);
1335	}
1336
1337	/* Create member variables */
1338	for (i = 0; i < length; ++i) {
1339	/* Create and initialize element. */
1340	run_var_new(run, tarray->base_ti, &elem_var);
1341
1342	array->element[i] = elem_var;
1343	}
1344
1345	/* Create array variable. */
1346	array_var = rdata_var_new(vc_array);
1347	array_var->u.array_v = array;
1348
1349	/* Create reference to the new array. */
1350	run_reference(run, array_var, res);
1351	}
1352
1353	/** Create new object.
1354	*
1355	* @param run Runner object
1356	* @param new_op New operation
1357	* @param titem Type of new var node (tic_tobject)
1358	* @param res Place to store result
1359	*/
1360	static void run_new_object(run_t run, stree_new_t new_op,
1361	tdata_item_t titem, rdata_item_t *res)
1362	{
1363	stree_csi_t *csi;
1364	rdata_item_t *obj_i;
1365	list_t arg_vals;
1366
1367	#ifdef DEBUG_RUN_TRACE
1368	printf("Create new object.\n");
1369	#endif
1370	/* Lookup object CSI. */
1371	assert(titem->tic == tic_tobject);
1372	csi = titem->u.tobject->csi;
1373
1374	/* Evaluate constructor arguments. */
1375	run_call_args(run, &new_op->ctor_args, &arg_vals);
1376	if (run_is_bo(run)) {
1377	*res = NULL;
1378	return;
1379	}
1380
1381	/* Create CSI instance. */
1382	run_new_csi_inst_ref(run, csi, sn_nonstatic, res);
1383
1384	/* Run the constructor. */
1385	run_dereference(run, *res, NULL, &obj_i);
1386	assert(obj_i->ic == ic_address);
1387	assert(obj_i->u.address->ac == ac_var);
1388	run_object_ctor(run, obj_i->u.address->u.var_a->vref, &arg_vals);
1389	}
1390
1391	/** Evaluate member acccess.
1392	*
1393	* Evaluate operation per the member access ('.') operator.
1394	*
1395	* @param run Runner object
1396	* @param access Access operation
1397	* @param res Place to store result
1398	*/
1399	static void run_access(run_t run, stree_access_t access, rdata_item_t **res)
1400	{
1401	rdata_item_t *rarg;
1402
1403	#ifdef DEBUG_RUN_TRACE
1404	printf("Run access operation.\n");
1405	#endif
1406	run_expr(run, access->arg, &rarg);
1407	if (run_is_bo(run)) {
1408	*res = NULL;
1409	return;
1410	}
1411
1412	if (rarg == NULL) {
1413	printf("Error: Sub-expression has no value.\n");
1414	exit(1);
1415	}
1416
1417	run_access_item(run, access, rarg, res);
1418	}
1419
1420	/** Evaluate member acccess (with base already evaluated).
1421	*
1422	* @param run Runner object
1423	* @param access Access operation
1424	* @param arg Evaluated base expression
1425	* @param res Place to store result
1426	*/
1427	static void run_access_item(run_t run, stree_access_t access,
1428	rdata_item_t arg, rdata_item_t *res)
1429	{
1430	var_class_t vc;
1431
1432	#ifdef DEBUG_RUN_TRACE
1433	printf("Run access operation on pre-evaluated base.\n");
1434	#endif
1435	vc = run_item_get_vc(run, arg);
1436
1437	switch (vc) {
1438	case vc_ref:
1439	run_access_ref(run, access, arg, res);
1440	break;
1441	case vc_deleg:
1442	run_access_deleg(run, access, arg, res);
1443	break;
1444	case vc_object:
1445	run_access_object(run, access, arg, res);
1446	break;
1447	case vc_symbol:
1448	run_access_symbol(run, access, arg, res);
1449	break;
1450
1451	case vc_bool:
1452	case vc_char:
1453	case vc_enum:
1454	case vc_int:
1455	case vc_string:
1456	case vc_array:
1457	case vc_resource:
1458	printf("Unimplemented: Using access operator ('.') "
1459	"with unsupported data type (value/%d).\n", vc);
1460	exit(1);
1461	}
1462	}
1463
1464	/** Evaluate reference acccess.
1465	*
1466	* @param run Runner object
1467	* @param access Access operation
1468	* @param arg Evaluated base expression
1469	* @param res Place to store result
1470	*/
1471	static void run_access_ref(run_t run, stree_access_t access,
1472	rdata_item_t arg, rdata_item_t *res)
1473	{
1474	rdata_item_t *darg;
1475
1476	/* Implicitly dereference. */
1477	run_dereference(run, arg, access->arg->cspan, &darg);
1478
1479	if (run->thread_ar->bo_mode != bm_none) {
1480	*res = run_recovery_item(run);
1481	return;
1482	}
1483
1484	/* Try again. */
1485	run_access_item(run, access, darg, res);
1486	}
1487
1488	/** Evaluate delegate member acccess.
1489	*
1490	* @param run Runner object
1491	* @param access Access operation
1492	* @param arg Evaluated base expression
1493	* @param res Place to store result
1494	*/
1495	static void run_access_deleg(run_t run, stree_access_t access,
1496	rdata_item_t arg, rdata_item_t *res)
1497	{
1498	(void) run;
1499	(void) access;
1500	(void) arg;
1501	(void) res;
1502
1503	printf("Error: Using '.' with delegate.\n");
1504	exit(1);
1505	}
1506
1507	/** Evaluate object member acccess.
1508	*
1509	* @param run Runner object
1510	* @param access Access operation
1511	* @param arg Evaluated base expression
1512	* @param res Place to store result
1513	*/
1514	static void run_access_object(run_t run, stree_access_t access,
1515	rdata_item_t arg, rdata_item_t *res)
1516	{
1517	rdata_var_t *obj_var;
1518	rdata_object_t *object;
1519
1520	#ifdef DEBUG_RUN_TRACE
1521	printf("Run object access operation.\n");
1522	#endif
1523	assert(arg->ic == ic_address);
1524	assert(arg->u.address->ac == ac_var);
1525
1526	obj_var = arg->u.address->u.var_a->vref;
1527	assert(obj_var->vc == vc_object);
1528
1529	object = obj_var->u.object_v;
1530
1531	if (object->static_obj == sn_static)
1532	run_access_object_static(run, access, obj_var, res);
1533	else
1534	run_access_object_nonstatic(run, access, obj_var, res);
1535	}
1536
1537	/** Evaluate static object member acccess.
1538	*
1539	* @param run Runner object
1540	* @param access Access operation
1541	* @param arg Evaluated base expression
1542	* @param res Place to store result
1543	*/
1544	static void run_access_object_static(run_t run, stree_access_t access,
1545	rdata_var_t obj_var, rdata_item_t *res)
1546	{
1547	rdata_object_t *object;
1548	stree_symbol_t *member;
1549	stree_csi_t *member_csi;
1550
1551	rdata_deleg_t *deleg_v;
1552	rdata_item_t *ritem;
1553	rdata_value_t *rvalue;
1554	rdata_var_t *rvar;
1555	rdata_address_t *address;
1556	rdata_addr_var_t *addr_var;
1557	rdata_addr_prop_t *addr_prop;
1558	rdata_aprop_named_t *aprop_named;
1559	rdata_deleg_t *deleg_p;
1560	rdata_var_t *mvar;
1561
1562	#ifdef DEBUG_RUN_TRACE
1563	printf("Run static object access operation.\n");
1564	#endif
1565	assert(obj_var->vc == vc_object);
1566	object = obj_var->u.object_v;
1567
1568	assert(object->static_obj == sn_static);
1569
1570	member = symbol_search_csi(run->program, object->class_sym->u.csi,
1571	access->member_name);
1572
1573	/* Member existence should be ensured by static type checking. */
1574	assert(member != NULL);
1575
1576	#ifdef DEBUG_RUN_TRACE
1577	printf("Found member '%s'.\n",
1578	strtab_get_str(access->member_name->sid));
1579	#endif
1580
1581	switch (member->sc) {
1582	case sc_csi:
1583	/* Get child static object. */
1584	member_csi = symbol_to_csi(member);
1585	assert(member_csi != NULL);
1586
1587	mvar = run_sobject_get(run, member_csi, obj_var,
1588	access->member_name->sid);
1589
1590	ritem = rdata_item_new(ic_address);
1591	address = rdata_address_new(ac_var);
1592	ritem->u.address = address;
1593
1594	addr_var = rdata_addr_var_new();
1595	address->u.var_a = addr_var;
1596	addr_var->vref = mvar;
1597
1598	*res = ritem;
1599	break;
1600	case sc_ctor:
1601	/* It is not possible to reference a constructor explicitly. */
1602	assert(b_false);
1603	case sc_deleg:
1604	printf("Error: Accessing object member which is a delegate.\n");
1605	exit(1);
1606	case sc_enum:
1607	printf("Error: Accessing object member which is an enum.\n");
1608	exit(1);
1609	case sc_fun:
1610	/* Construct anonymous delegate. */
1611	ritem = rdata_item_new(ic_value);
1612	rvalue = rdata_value_new();
1613	ritem->u.value = rvalue;
1614
1615	rvar = rdata_var_new(vc_deleg);
1616	rvalue->var = rvar;
1617
1618	deleg_v = rdata_deleg_new();
1619	rvar->u.deleg_v = deleg_v;
1620
1621	deleg_v->obj = obj_var;
1622	deleg_v->sym = member;
1623	*res = ritem;
1624	break;
1625	case sc_var:
1626	/* Get static object member variable. */
1627	mvar = intmap_get(&object->fields, access->member_name->sid);
1628
1629	ritem = rdata_item_new(ic_address);
1630	address = rdata_address_new(ac_var);
1631	ritem->u.address = address;
1632
1633	addr_var = rdata_addr_var_new();
1634	address->u.var_a = addr_var;
1635	addr_var->vref = mvar;
1636
1637	*res = ritem;
1638	break;
1639	case sc_prop:
1640	/* Construct named property address. */
1641	ritem = rdata_item_new(ic_address);
1642	address = rdata_address_new(ac_prop);
1643	addr_prop = rdata_addr_prop_new(apc_named);
1644	aprop_named = rdata_aprop_named_new();
1645	ritem->u.address = address;
1646	address->u.prop_a = addr_prop;
1647	addr_prop->u.named = aprop_named;
1648
1649	deleg_p = rdata_deleg_new();
1650	deleg_p->obj = obj_var;
1651	deleg_p->sym = member;
1652	addr_prop->u.named->prop_d = deleg_p;
1653
1654	*res = ritem;
1655	break;
1656	}
1657	}
1658
1659	/** Evaluate object member acccess.
1660	*
1661	* @param run Runner object
1662	* @param access Access operation
1663	* @param arg Evaluated base expression
1664	* @param res Place to store result
1665	*/
1666	static void run_access_object_nonstatic(run_t run, stree_access_t access,
1667	rdata_var_t obj_var, rdata_item_t *res)
1668	{
1669	rdata_object_t *object;
1670	stree_symbol_t *member;
1671	rdata_item_t *ritem;
1672	rdata_address_t *address;
1673	rdata_addr_var_t *addr_var;
1674	rdata_addr_prop_t *addr_prop;
1675	rdata_aprop_named_t *aprop_named;
1676	rdata_deleg_t *deleg_p;
1677
1678	rdata_value_t *value;
1679	rdata_deleg_t *deleg_v;
1680	rdata_var_t *var;
1681
1682	#ifdef DEBUG_RUN_TRACE
1683	printf("Run nonstatic object access operation.\n");
1684	#endif
1685	assert(obj_var->vc == vc_object);
1686	object = obj_var->u.object_v;
1687
1688	assert(object->static_obj == sn_nonstatic);
1689
1690	member = symbol_search_csi(run->program, object->class_sym->u.csi,
1691	access->member_name);
1692
1693	if (member == NULL) {
1694	printf("Error: Object of class '");
1695	symbol_print_fqn(object->class_sym);
1696	printf("' has no member named '%s'.\n",
1697	strtab_get_str(access->member_name->sid));
1698	exit(1);
1699	}
1700
1701	#ifdef DEBUG_RUN_TRACE
1702	printf("Found member '%s'.\n",
1703	strtab_get_str(access->member_name->sid));
1704	#endif
1705
1706	/* Make compiler happy. */
1707	ritem = NULL;
1708
1709	switch (member->sc) {
1710	case sc_csi:
1711	printf("Error: Accessing object member which is nested CSI.\n");
1712	exit(1);
1713	case sc_ctor:
1714	/* It is not possible to reference a constructor explicitly. */
1715	assert(b_false);
1716	case sc_deleg:
1717	printf("Error: Accessing object member which is a delegate.\n");
1718	exit(1);
1719	case sc_enum:
1720	printf("Error: Accessing object member which is an enum.\n");
1721	exit(1);
1722	case sc_fun:
1723	/* Construct anonymous delegate. */
1724	ritem = rdata_item_new(ic_value);
1725	value = rdata_value_new();
1726	ritem->u.value = value;
1727
1728	var = rdata_var_new(vc_deleg);
1729	value->var = var;
1730	deleg_v = rdata_deleg_new();
1731	var->u.deleg_v = deleg_v;
1732
1733	deleg_v->obj = obj_var;
1734	deleg_v->sym = member;
1735	break;
1736	case sc_var:
1737	/* Construct variable address item. */
1738	ritem = rdata_item_new(ic_address);
1739	address = rdata_address_new(ac_var);
1740	addr_var = rdata_addr_var_new();
1741	ritem->u.address = address;
1742	address->u.var_a = addr_var;
1743
1744	addr_var->vref = intmap_get(&object->fields,
1745	access->member_name->sid);
1746	assert(addr_var->vref != NULL);
1747	break;
1748	case sc_prop:
1749	/* Construct named property address. */
1750	ritem = rdata_item_new(ic_address);
1751	address = rdata_address_new(ac_prop);
1752	addr_prop = rdata_addr_prop_new(apc_named);
1753	aprop_named = rdata_aprop_named_new();
1754	ritem->u.address = address;
1755	address->u.prop_a = addr_prop;
1756	addr_prop->u.named = aprop_named;
1757
1758	deleg_p = rdata_deleg_new();
1759	deleg_p->obj = obj_var;
1760	deleg_p->sym = member;
1761	addr_prop->u.named->prop_d = deleg_p;
1762	break;
1763	}
1764
1765	*res = ritem;
1766	}
1767
1768	/** Evaluate symbol member acccess.
1769	*
1770	* @param run Runner object
1771	* @param access Access operation
1772	* @param arg Evaluated base expression
1773	* @param res Place to store result
1774	*/
1775	static void run_access_symbol(run_t run, stree_access_t access,
1776	rdata_item_t arg, rdata_item_t *res)
1777	{
1778	rdata_item_t *arg_vi;
1779	rdata_value_t *arg_val;
1780	rdata_symbol_t *symbol_v;
1781	stree_embr_t *embr;
1782
1783	rdata_item_t *ritem;
1784	rdata_value_t *rvalue;
1785	rdata_var_t *rvar;
1786	rdata_enum_t *enum_v;
1787
1788	#ifdef DEBUG_RUN_TRACE
1789	printf("Run symbol access operation.\n");
1790	#endif
1791	run_cvt_value_item(run, arg, &arg_vi);
1792	arg_val = arg_vi->u.value;
1793	assert(arg_val->var->vc == vc_symbol);
1794
1795	symbol_v = arg_val->var->u.symbol_v;
1796
1797	/* XXX Port CSI symbol reference to using vc_symbol */
1798	assert(symbol_v->sym->sc == sc_enum);
1799
1800	embr = stree_enum_find_mbr(symbol_v->sym->u.enum_d,
1801	access->member_name);
1802
1803	/* Member existence should be ensured by static type checking. */
1804	assert(embr != NULL);
1805
1806	#ifdef DEBUG_RUN_TRACE
1807	printf("Found enum member '%s'.\n",
1808	strtab_get_str(access->member_name->sid));
1809	#endif
1810	ritem = rdata_item_new(ic_value);
1811	rvalue = rdata_value_new();
1812	rvar = rdata_var_new(vc_enum);
1813	enum_v = rdata_enum_new();
1814
1815	ritem->u.value = rvalue;
1816	rvalue->var = rvar;
1817	rvar->u.enum_v = enum_v;
1818	enum_v->value = embr;
1819
1820	*res = ritem;
1821	}
1822
1823	/** Call a function.
1824	*
1825	* Call a function and return the result in @a res.
1826	*
1827	* @param run Runner object
1828	* @param call Call operation
1829	* @param res Place to store result
1830	*/
1831	static void run_call(run_t run, stree_call_t call, rdata_item_t **res)
1832	{
1833	rdata_item_t rdeleg, rdeleg_vi;
1834	rdata_deleg_t *deleg_v;
1835	list_t arg_vals;
1836
1837	stree_fun_t *fun;
1838	run_proc_ar_t *proc_ar;
1839
1840	#ifdef DEBUG_RUN_TRACE
1841	printf("Run call operation.\n");
1842	#endif
1843	run_expr(run, call->fun, &rdeleg);
1844	if (run_is_bo(run)) {
1845	*res = NULL;
1846	return;
1847	}
1848
1849	if (run->thread_ar->bo_mode != bm_none) {
1850	*res = run_recovery_item(run);
1851	return;
1852	}
1853
1854	run_cvt_value_item(run, rdeleg, &rdeleg_vi);
1855	assert(rdeleg_vi->ic == ic_value);
1856
1857	if (rdeleg_vi->u.value->var->vc != vc_deleg) {
1858	printf("Unimplemented: Call expression of this type (");
1859	rdata_item_print(rdeleg_vi);
1860	printf(").\n");
1861	exit(1);
1862	}
1863
1864	deleg_v = rdeleg_vi->u.value->var->u.deleg_v;
1865
1866	if (deleg_v->sym->sc != sc_fun) {
1867	printf("Error: Called symbol is not a function.\n");
1868	exit(1);
1869	}
1870
1871	#ifdef DEBUG_RUN_TRACE
1872	printf("Call function '");
1873	symbol_print_fqn(deleg_v->sym);
1874	printf("'\n");
1875	#endif
1876	/* Evaluate function arguments. */
1877	run_call_args(run, &call->args, &arg_vals);
1878	if (run_is_bo(run)) {
1879	*res = NULL;
1880	return;
1881	}
1882
1883	fun = symbol_to_fun(deleg_v->sym);
1884	assert(fun != NULL);
1885
1886	/* Create procedure activation record. */
1887	run_proc_ar_create(run, deleg_v->obj, fun->proc, &proc_ar);
1888
1889	/* Fill in argument values. */
1890	run_proc_ar_set_args(run, proc_ar, &arg_vals);
1891
1892	/* Run the function. */
1893	run_proc(run, proc_ar, res);
1894
1895	if (!run_is_bo(run) && fun->sig->rtype != NULL && *res == NULL) {
1896	printf("Error: Function '");
1897	symbol_print_fqn(deleg_v->sym);
1898	printf("' did not return a value.\n");
1899	exit(1);
1900	}
1901
1902	#ifdef DEBUG_RUN_TRACE
1903	printf("Returned from function call.\n");
1904	#endif
1905	}
1906
1907	/** Evaluate call arguments.
1908	*
1909	* Evaluate arguments to function or constructor.
1910	*
1911	* @param run Runner object
1912	* @param args Real arguments (list of stree_expr_t)
1913	* @param arg_vals Address of uninitialized list to store argument values
1914	* (list of rdata_item_t).
1915	*/
1916	static void run_call_args(run_t run, list_t args, list_t *arg_vals)
1917	{
1918	list_node_t *arg_n;
1919	stree_expr_t *arg;
1920	rdata_item_t rarg_i, rarg_vi;
1921
1922	/* Evaluate function arguments. */
1923	list_init(arg_vals);
1924	arg_n = list_first(args);
1925
1926	while (arg_n != NULL) {
1927	arg = list_node_data(arg_n, stree_expr_t *);
1928	run_expr(run, arg, &rarg_i);
1929	if (run_is_bo(run))
1930	return;
1931
1932	run_cvt_value_item(run, rarg_i, &rarg_vi);
1933
1934	list_append(arg_vals, rarg_vi);
1935	arg_n = list_next(args, arg_n);
1936	}
1937	}
1938
1939	/** Run index operation.
1940	*
1941	* Evaluate operation per the indexing ('[', ']') operator.
1942	*
1943	* @param run Runner object
1944	* @param index Index operation
1945	* @param res Place to store result
1946	*/
1947	static void run_index(run_t run, stree_index_t index, rdata_item_t **res)
1948	{
1949	rdata_item_t *rbase;
1950	rdata_item_t *base_i;
1951	list_node_t *node;
1952	stree_expr_t *arg;
1953	rdata_item_t rarg_i, rarg_vi;
1954	var_class_t vc;
1955	list_t arg_vals;
1956
1957	#ifdef DEBUG_RUN_TRACE
1958	printf("Run index operation.\n");
1959	#endif
1960	run_expr(run, index->base, &rbase);
1961	if (run_is_bo(run)) {
1962	*res = NULL;
1963	return;
1964	}
1965
1966	vc = run_item_get_vc(run, rbase);
1967
1968	/* Implicitly dereference. */
1969	if (vc == vc_ref) {
1970	run_dereference(run, rbase, index->base->cspan, &base_i);
1971	if (run_is_bo(run)) {
1972	*res = NULL;
1973	return;
1974	}
1975	} else {
1976	base_i = rbase;
1977	}
1978
1979	vc = run_item_get_vc(run, base_i);
1980
1981	/* Evaluate arguments (indices). */
1982	node = list_first(&index->args);
1983	list_init(&arg_vals);
1984
1985	while (node != NULL) {
1986	arg = list_node_data(node, stree_expr_t *);
1987	run_expr(run, arg, &rarg_i);
1988	if (run_is_bo(run)) {
1989	*res = NULL;
1990	return;
1991	}
1992
1993	run_cvt_value_item(run, rarg_i, &rarg_vi);
1994
1995	list_append(&arg_vals, rarg_vi);
1996
1997	node = list_next(&index->args, node);
1998	}
1999
2000	switch (vc) {
2001	case vc_array:
2002	run_index_array(run, index, base_i, &arg_vals, res);
2003	break;
2004	case vc_object:
2005	run_index_object(run, index, base_i, &arg_vals, res);
2006	break;
2007	case vc_string:
2008	run_index_string(run, index, base_i, &arg_vals, res);
2009	break;
2010	default:
2011	printf("Error: Indexing object of bad type (%d).\n", vc);
2012	exit(1);
2013	}
2014	}
2015
2016	/** Run index operation on array.
2017	*
2018	* @param run Runner object
2019	* @param index Index operation
2020	* @param base Evaluated base expression
2021	* @param args Evaluated indices (list of rdata_item_t)
2022	* @param res Place to store result
2023	*/
2024	static void run_index_array(run_t run, stree_index_t index,
2025	rdata_item_t base, list_t args, rdata_item_t **res)
2026	{
2027	list_node_t *node;
2028	rdata_array_t *array;
2029	rdata_item_t *arg;
2030
2031	int i;
2032	int elem_index;
2033	int arg_val;
2034	int rc;
2035
2036	rdata_item_t *ritem;
2037	rdata_address_t *address;
2038	rdata_addr_var_t *addr_var;
2039
2040	#ifdef DEBUG_RUN_TRACE
2041	printf("Run array index operation.\n");
2042	#endif
2043	(void) run;
2044
2045	assert(base->ic == ic_address);
2046	assert(base->u.address->ac == ac_var);
2047	assert(base->u.address->u.var_a->vref->vc == vc_array);
2048	array = base->u.address->u.var_a->vref->u.array_v;
2049
2050	/*
2051	* Linear index of the desired element. Elements are stored in
2052	* lexicographic order with the last index changing the fastest.
2053	*/
2054	elem_index = 0;
2055
2056	node = list_first(args);
2057	i = 0;
2058
2059	while (node != NULL) {
2060	if (i >= array->rank) {
2061	printf("Error: Too many indices for array of rank %d",
2062	array->rank);
2063	exit(1);
2064	}
2065
2066	arg = list_node_data(node, rdata_item_t *);
2067	assert(arg->ic == ic_value);
2068
2069	if (arg->u.value->var->vc != vc_int) {
2070	printf("Error: Array index is not an integer.\n");
2071	exit(1);
2072	}
2073
2074	rc = bigint_get_value_int(
2075	&arg->u.value->var->u.int_v->value,
2076	&arg_val);
2077
2078	if (rc != EOK \|\| arg_val < 0 \|\| arg_val >= array->extent[i]) {
2079	#ifdef DEBUG_RUN_TRACE
2080	printf("Error: Array index (value: %d) is out of range.\n",
2081	arg_val);
2082	#endif
2083	/* Raise Error.OutOfBounds */
2084	run_raise_exc(run,
2085	run->program->builtin->error_outofbounds,
2086	index->expr->cspan);
2087	/* XXX It should be cspan of the argument. */
2088	*res = run_recovery_item(run);
2089	return;
2090	}
2091
2092	elem_index = elem_index * array->extent[i] + arg_val;
2093
2094	node = list_next(args, node);
2095	i += 1;
2096	}
2097
2098	if (i < array->rank) {
2099	printf("Error: Too few indices for array of rank %d",
2100	array->rank);
2101	exit(1);
2102	}
2103
2104	/* Construct variable address item. */
2105	ritem = rdata_item_new(ic_address);
2106	address = rdata_address_new(ac_var);
2107	addr_var = rdata_addr_var_new();
2108	ritem->u.address = address;
2109	address->u.var_a = addr_var;
2110
2111	addr_var->vref = array->element[elem_index];
2112
2113	*res = ritem;
2114	}
2115
2116	/** Index an object (via its indexer).
2117	*
2118	* @param run Runner object
2119	* @param index Index operation
2120	* @param base Evaluated base expression
2121	* @param args Evaluated indices (list of rdata_item_t)
2122	* @param res Place to store result
2123	*/
2124	static void run_index_object(run_t run, stree_index_t index,
2125	rdata_item_t base, list_t args, rdata_item_t **res)
2126	{
2127	rdata_item_t *ritem;
2128	rdata_address_t *address;
2129	rdata_addr_prop_t *addr_prop;
2130	rdata_aprop_indexed_t *aprop_indexed;
2131	rdata_var_t *obj_var;
2132	stree_csi_t *obj_csi;
2133	rdata_deleg_t *object_d;
2134	stree_symbol_t *indexer_sym;
2135	stree_ident_t *indexer_ident;
2136
2137	list_node_t *node;
2138	rdata_item_t *arg;
2139
2140	#ifdef DEBUG_RUN_TRACE
2141	printf("Run object index operation.\n");
2142	#endif
2143	(void) index;
2144
2145	/* Construct property address item. */
2146	ritem = rdata_item_new(ic_address);
2147	address = rdata_address_new(ac_prop);
2148	addr_prop = rdata_addr_prop_new(apc_indexed);
2149	aprop_indexed = rdata_aprop_indexed_new();
2150	ritem->u.address = address;
2151	address->u.prop_a = addr_prop;
2152	addr_prop->u.indexed = aprop_indexed;
2153
2154	if (base->ic != ic_address \|\| base->u.address->ac != ac_var) {
2155	/* XXX Several other cases can occur. */
2156	printf("Unimplemented: Indexing object varclass via something "
2157	"which is not a simple variable reference.\n");
2158	exit(1);
2159	}
2160
2161	/* Find indexer symbol. */
2162	obj_var = base->u.address->u.var_a->vref;
2163	assert(obj_var->vc == vc_object);
2164	indexer_ident = stree_ident_new();
2165	indexer_ident->sid = strtab_get_sid(INDEXER_IDENT);
2166	obj_csi = symbol_to_csi(obj_var->u.object_v->class_sym);
2167	assert(obj_csi != NULL);
2168	indexer_sym = symbol_search_csi(run->program, obj_csi, indexer_ident);
2169
2170	if (indexer_sym == NULL) {
2171	printf("Error: Accessing object which does not have an "
2172	"indexer.\n");
2173	exit(1);
2174	}
2175
2176	/* Construct delegate. */
2177	object_d = rdata_deleg_new();
2178	object_d->obj = obj_var;
2179	object_d->sym = indexer_sym;
2180	aprop_indexed->object_d = object_d;
2181
2182	/* Copy list of argument values. */
2183	list_init(&aprop_indexed->args);
2184
2185	node = list_first(args);
2186	while (node != NULL) {
2187	arg = list_node_data(node, rdata_item_t *);
2188	list_append(&aprop_indexed->args, arg);
2189	node = list_next(args, node);
2190	}
2191
2192	*res = ritem;
2193	}
2194
2195	/** Run index operation on string.
2196	*
2197	* @param run Runner object
2198	* @param index Index operation
2199	* @param base Evaluated base expression
2200	* @param args Evaluated indices (list of rdata_item_t)
2201	* @param res Place to store result
2202	*/
2203	static void run_index_string(run_t run, stree_index_t index,
2204	rdata_item_t base, list_t args, rdata_item_t **res)
2205	{
2206	list_node_t *node;
2207	rdata_string_t *string;
2208	rdata_item_t *base_vi;
2209	rdata_item_t *arg;
2210
2211	int i;
2212	int elem_index;
2213	int arg_val;
2214	int rc1, rc2;
2215
2216	rdata_value_t *value;
2217	rdata_var_t *cvar;
2218	rdata_item_t *ritem;
2219	int cval;
2220
2221	#ifdef DEBUG_RUN_TRACE
2222	printf("Run string index operation.\n");
2223	#endif
2224	(void) run;
2225
2226	run_cvt_value_item(run, base, &base_vi);
2227	assert(base_vi->u.value->var->vc == vc_string);
2228	string = base_vi->u.value->var->u.string_v;
2229
2230	/*
2231	* Linear index of the desired element. Elements are stored in
2232	* lexicographic order with the last index changing the fastest.
2233	*/
2234	node = list_first(args);
2235	elem_index = 0;
2236
2237	i = 0;
2238	while (node != NULL) {
2239	if (i >= 1) {
2240	printf("Error: Too many indices string.\n");
2241	exit(1);
2242	}
2243
2244	arg = list_node_data(node, rdata_item_t *);
2245	assert(arg->ic == ic_value);
2246
2247	if (arg->u.value->var->vc != vc_int) {
2248	printf("Error: String index is not an integer.\n");
2249	exit(1);
2250	}
2251
2252	rc1 = bigint_get_value_int(
2253	&arg->u.value->var->u.int_v->value,
2254	&arg_val);
2255
2256	elem_index = arg_val;
2257
2258	node = list_next(args, node);
2259	i += 1;
2260	}
2261
2262	if (i < 1) {
2263	printf("Error: Too few indices for string.\n");
2264	exit(1);
2265	}
2266
2267	if (rc1 == EOK)
2268	rc2 = os_str_get_char(string->value, elem_index, &cval);
2269
2270	if (rc1 != EOK \|\| rc2 != EOK) {
2271	#ifdef DEBUG_RUN_TRACE
2272	printf("Error: String index (value: %d) is out of range.\n",
2273	arg_val);
2274	#endif
2275	/* Raise Error.OutOfBounds */
2276	run_raise_exc(run, run->program->builtin->error_outofbounds,
2277	index->expr->cspan);
2278	*res = run_recovery_item(run);
2279	return;
2280	}
2281
2282	/* Construct character value. */
2283	ritem = rdata_item_new(ic_value);
2284	value = rdata_value_new();
2285	ritem->u.value = value;
2286
2287	cvar = rdata_var_new(vc_char);
2288	cvar->u.char_v = rdata_char_new();
2289	bigint_init(&cvar->u.char_v->value, cval);
2290	value->var = cvar;
2291
2292	*res = ritem;
2293	}
2294
2295	/** Run assignment.
2296	*
2297	* Executes an assignment. @c NULL is always stored to @a res because
2298	* an assignment does not have a value.
2299	*
2300	* @param run Runner object
2301	* @param assign Assignment expression
2302	* @param res Place to store result
2303	*/
2304	static void run_assign(run_t run, stree_assign_t assign, rdata_item_t **res)
2305	{
2306	rdata_item_t rdest_i, rsrc_i;
2307	rdata_item_t *rsrc_vi;
2308
2309	#ifdef DEBUG_RUN_TRACE
2310	printf("Run assign operation.\n");
2311	#endif
2312	run_expr(run, assign->dest, &rdest_i);
2313	if (run_is_bo(run)) {
2314	*res = NULL;
2315	return;
2316	}
2317
2318	run_expr(run, assign->src, &rsrc_i);
2319	if (run_is_bo(run)) {
2320	*res = NULL;
2321	return;
2322	}
2323
2324	run_cvt_value_item(run, rsrc_i, &rsrc_vi);
2325	assert(rsrc_vi->ic == ic_value);
2326
2327	if (rdest_i->ic != ic_address) {
2328	printf("Error: Address expression required on left side of "
2329	"assignment operator.\n");
2330	exit(1);
2331	}
2332
2333	run_address_write(run, rdest_i->u.address, rsrc_vi->u.value);
2334
2335	*res = NULL;
2336	}
2337
2338	/** Execute @c as conversion.
2339	*
2340	* @param run Runner object
2341	* @param as_op @c as conversion expression
2342	* @param res Place to store result
2343	*/
2344	static void run_as(run_t run, stree_as_t as_op, rdata_item_t **res)
2345	{
2346	rdata_item_t *rarg_i;
2347	rdata_item_t *rarg_vi;
2348	rdata_item_t *rarg_di;
2349	rdata_var_t *arg_vref;
2350	tdata_item_t *dtype;
2351	run_proc_ar_t *proc_ar;
2352
2353	stree_symbol_t *obj_csi_sym;
2354	stree_csi_t *obj_csi;
2355
2356	#ifdef DEBUG_RUN_TRACE
2357	printf("Run @c as conversion operation.\n");
2358	#endif
2359	run_expr(run, as_op->arg, &rarg_i);
2360	if (run_is_bo(run)) {
2361	*res = NULL;
2362	return;
2363	}
2364
2365	/*
2366	* This should always be a reference if the argument is indeed
2367	* a class instance.
2368	*/
2369	assert(run_item_get_vc(run, rarg_i) == vc_ref);
2370	run_cvt_value_item(run, rarg_i, &rarg_vi);
2371	assert(rarg_vi->ic == ic_value);
2372
2373	if (rarg_vi->u.value->var->u.ref_v->vref == NULL) {
2374	/* Nil reference is always okay. */
2375	*res = rarg_vi;
2376	return;
2377	}
2378
2379	run_dereference(run, rarg_vi, NULL, &rarg_di);
2380
2381	/* Now we should have a variable address. */
2382	assert(rarg_di->ic == ic_address);
2383	assert(rarg_di->u.address->ac == ac_var);
2384
2385	arg_vref = rarg_di->u.address->u.var_a->vref;
2386
2387	proc_ar = run_get_current_proc_ar(run);
2388	/* XXX Memoize to avoid recomputing. */
2389	run_texpr(run->program, proc_ar->proc->outer_symbol->outer_csi,
2390	as_op->dtype, &dtype);
2391
2392	assert(arg_vref->vc == vc_object);
2393	obj_csi_sym = arg_vref->u.object_v->class_sym;
2394	obj_csi = symbol_to_csi(obj_csi_sym);
2395	assert(obj_csi != NULL);
2396
2397	if (tdata_is_csi_derived_from_ti(obj_csi, dtype) != b_true) {
2398	printf("Error: Run-time type conversion error. Object is "
2399	"of type '");
2400	symbol_print_fqn(obj_csi_sym);
2401	printf("' which is not derived from '");
2402	tdata_item_print(dtype);
2403	printf("'.\n");
2404	exit(1);
2405	}
2406
2407	*res = rarg_vi;
2408	}
2409
2410	/** Execute boxing operation.
2411	*
2412	* XXX We can scrap this special operation once we have constructors.
2413	*
2414	* @param run Runner object
2415	* @param box Boxing operation
2416	* @param res Place to store result
2417	*/
2418	static void run_box(run_t run, stree_box_t box, rdata_item_t **res)
2419	{
2420	rdata_item_t *rarg_i;
2421	rdata_item_t *rarg_vi;
2422
2423	stree_symbol_t *csi_sym;
2424	stree_csi_t *csi;
2425	builtin_t *bi;
2426	rdata_var_t *var;
2427	rdata_object_t *object;
2428
2429	sid_t mbr_name_sid;
2430	rdata_var_t *mbr_var;
2431
2432	#ifdef DEBUG_RUN_TRACE
2433	printf("Run boxing operation.\n");
2434	#endif
2435	run_expr(run, box->arg, &rarg_i);
2436	if (run_is_bo(run)) {
2437	*res = NULL;
2438	return;
2439	}
2440
2441	run_cvt_value_item(run, rarg_i, &rarg_vi);
2442	assert(rarg_vi->ic == ic_value);
2443
2444	bi = run->program->builtin;
2445
2446	/* Just to keep the compiler happy. */
2447	csi_sym = NULL;
2448
2449	switch (rarg_vi->u.value->var->vc) {
2450	case vc_bool: csi_sym = bi->boxed_bool; break;
2451	case vc_char: csi_sym = bi->boxed_char; break;
2452	case vc_int: csi_sym = bi->boxed_int; break;
2453	case vc_string: csi_sym = bi->boxed_string; break;
2454
2455	case vc_ref:
2456	case vc_deleg:
2457	case vc_enum:
2458	case vc_array:
2459	case vc_object:
2460	case vc_resource:
2461	case vc_symbol:
2462	assert(b_false);
2463	}
2464
2465	csi = symbol_to_csi(csi_sym);
2466	assert(csi != NULL);
2467
2468	/* Construct object of the relevant boxed type. */
2469	run_new_csi_inst_ref(run, csi, sn_nonstatic, res);
2470
2471	/* Set the 'Value' field */
2472
2473	assert((*res)->ic == ic_value);
2474	assert((*res)->u.value->var->vc == vc_ref);
2475	var = (*res)->u.value->var->u.ref_v->vref;
2476	assert(var->vc == vc_object);
2477	object = var->u.object_v;
2478
2479	mbr_name_sid = strtab_get_sid("Value");
2480	mbr_var = intmap_get(&object->fields, mbr_name_sid);
2481	assert(mbr_var != NULL);
2482
2483	rdata_var_write(mbr_var, rarg_vi->u.value);
2484	}
2485
2486	/** Create new CSI instance and return reference to it.
2487	*
2488	* Create a new object, instance of @a csi.
2489	* XXX This does not work with generics as @a csi cannot specify a generic
2490	* type.
2491	*
2492	* Initialize the fields with default values of their types, but do not
2493	* run any constructor.
2494	*
2495	* If @a sn is @c sn_nonstatic a regular object is created, containing all
2496	* non-static member variables. If @a sn is @c sn_static a static object
2497	* is created, containing all static member variables.
2498	*
2499	* @param run Runner object
2500	* @param csi CSI to create instance of
2501	* @param sn @c sn_static to create a static (class) object,
2502	* @c sn_nonstatic to create a regular object
2503	* @param res Place to store result
2504	*/
2505	void run_new_csi_inst_ref(run_t run, stree_csi_t csi, statns_t sn,
2506	rdata_item_t **res)
2507	{
2508	rdata_var_t *obj_var;
2509
2510	/* Create object. */
2511	run_new_csi_inst(run, csi, sn, &obj_var);
2512
2513	/* Create reference to the new object. */
2514	run_reference(run, obj_var, res);
2515	}
2516
2517	/** Create new CSI instance.
2518	*
2519	* Create a new object, instance of @a csi.
2520	* XXX This does not work with generics as @a csi cannot specify a generic
2521	* type.
2522	*
2523	* Initialize the fields with default values of their types, but do not
2524	* run any constructor.
2525	*
2526	* If @a sn is @c sn_nonstatic a regular object is created, containing all
2527	* non-static member variables. If @a sn is @c sn_static a static object
2528	* is created, containing all static member variables.
2529	*
2530	* @param run Runner object
2531	* @param csi CSI to create instance of
2532	* @param sn @c sn_static to create a static (class) object,
2533	* @c sn_nonstatic to create a regular object
2534	* @param res Place to store result
2535	*/
2536	void run_new_csi_inst(run_t run, stree_csi_t csi, statns_t sn,
2537	rdata_var_t **res)
2538	{
2539	rdata_object_t *obj;
2540	rdata_var_t *obj_var;
2541
2542	stree_symbol_t *csi_sym;
2543	stree_csimbr_t *csimbr;
2544	stree_var_t *var;
2545	statns_t var_sn;
2546
2547	rdata_var_t *mbr_var;
2548	list_node_t *node;
2549	tdata_item_t *field_ti;
2550
2551	csi_sym = csi_to_symbol(csi);
2552
2553	#ifdef DEBUG_RUN_TRACE
2554	printf("Create new instance of CSI '");
2555	symbol_print_fqn(csi_sym);
2556	printf("'.\n");
2557	#endif
2558
2559	/* Create the object. */
2560	obj = rdata_object_new();
2561	obj->class_sym = csi_sym;
2562	obj->static_obj = sn;
2563	intmap_init(&obj->fields);
2564
2565	obj_var = rdata_var_new(vc_object);
2566	obj_var->u.object_v = obj;
2567
2568	/* For this CSI and all base CSIs */
2569	while (csi != NULL) {
2570
2571	/* For all members */
2572	node = list_first(&csi->members);
2573	while (node != NULL) {
2574	csimbr = list_node_data(node, stree_csimbr_t *);
2575
2576	/* Is it a member variable? */
2577	if (csimbr->cc == csimbr_var) {
2578	var = csimbr->u.var;
2579
2580	/* Is it static/nonstatic? */
2581	var_sn = stree_symbol_has_attr(
2582	var_to_symbol(var), sac_static);
2583	if (var_sn == sn) {
2584	/* Compute field type. XXX Memoize. */
2585	run_texpr(run->program, csi, var->type,
2586	&field_ti);
2587
2588	/* Create and initialize field. */
2589	run_var_new(run, field_ti, &mbr_var);
2590
2591	/* Add to field map. */
2592	intmap_set(&obj->fields, var->name->sid,
2593	mbr_var);
2594	}
2595	}
2596
2597	node = list_next(&csi->members, node);
2598	}
2599
2600	/* Continue with base CSI */
2601	csi = csi->base_csi;
2602	}
2603
2604	*res = obj_var;
2605	}
2606
2607	/** Run constructor on an object.
2608	*
2609	* @param run Runner object
2610	* @param obj Object to run constructor on
2611	* @param arg_vals Argument values (list of rdata_item_t)
2612	*/
2613	static void run_object_ctor(run_t run, rdata_var_t obj, list_t *arg_vals)
2614	{
2615	stree_ident_t *ctor_ident;
2616	stree_symbol_t *csi_sym;
2617	stree_csi_t *csi;
2618	stree_symbol_t *ctor_sym;
2619	stree_ctor_t *ctor;
2620	run_proc_ar_t *proc_ar;
2621	rdata_item_t *res;
2622
2623	csi_sym = obj->u.object_v->class_sym;
2624	csi = symbol_to_csi(csi_sym);
2625	assert(csi != NULL);
2626
2627	#ifdef DEBUG_RUN_TRACE
2628	printf("Run object constructor from CSI '");
2629	symbol_print_fqn(csi_sym);
2630	printf("'.\n");
2631	#endif
2632	ctor_ident = stree_ident_new();
2633	ctor_ident->sid = strtab_get_sid(CTOR_IDENT);
2634
2635	/* Find constructor. */
2636	ctor_sym = symbol_search_csi_no_base(run->program, csi, ctor_ident);
2637	if (ctor_sym == NULL) {
2638	#ifdef DEBUG_RUN_TRACE
2639	printf("No constructor found.\n");
2640	#endif
2641	return;
2642	}
2643
2644	ctor = symbol_to_ctor(ctor_sym);
2645	assert(ctor != NULL);
2646
2647	/* Create procedure activation record. */
2648	run_proc_ar_create(run, obj, ctor->proc, &proc_ar);
2649
2650	/* Fill in argument values. */
2651	run_proc_ar_set_args(run, proc_ar, arg_vals);
2652
2653	/* Run the procedure. */
2654	run_proc(run, proc_ar, &res);
2655
2656	/* Constructor does not return a value. */
2657	assert(res == NULL);
2658
2659	#ifdef DEBUG_RUN_TRACE
2660	printf("Returned from constructor..\n");
2661	#endif
2662	}
2663
2664	/** Return boolean value of an item.
2665	*
2666	* Try to interpret @a item as a boolean value. If it is not a boolean
2667	* value, generate an error.
2668	*
2669	* @param run Runner object
2670	* @param item Input item
2671	* @return Resulting boolean value
2672	*/
2673	bool_t run_item_boolean_value(run_t run, rdata_item_t item)
2674	{
2675	rdata_item_t *vitem;
2676	rdata_var_t *var;
2677
2678	(void) run;
2679	run_cvt_value_item(run, item, &vitem);
2680
2681	assert(vitem->ic == ic_value);
2682	var = vitem->u.value->var;
2683
2684	assert(var->vc == vc_bool);
2685	return var->u.bool_v->value;
2686	}

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