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Rhope Alpha 2a source import
author Mike Pavone <pavone@retrodev.com>
date Tue, 28 Apr 2009 23:06:07 +0000
parents
children 23dd9c766699
comparison
equal deleted inserted replaced
-1:000000000000 0:76568becd6d6
1 #ifdef WIN32
2 #include <windows.h>
3 #include <winsock.h>
4 #include <crtdbg.h>
5 #else
6 #ifdef SYLLABLE
7 #include <unistd.h>
8 #include <atheos/threads.h>
9 #else
10 #ifdef NINTENDO_DS
11 #include <nds.h>
12 #else
13 #include <unistd.h>
14 #include <pthread.h>
15 #endif
16 #endif
17 #endif
18 #include <stdio.h>
19 #include <stdlib.h>
20 #include <string.h>
21 #include <time.h>
22 #include "mt19937ar.h"
23 #include "interp.h"
24 #include "vis_threading.h"
25 #include "datum.h"
26 #include "parser.h"
27 #include "saveload.h"
28
29 #ifdef TEXT_FILE_DEBUG
30 FILE * debugfile;
31 #endif
32 char debugbuffer[1024];
33
34 //extern HWND hWnd;
35 extern char new_name_buf[256];
36 extern int buf_size;
37
38 int lock_fail_counter;
39 int lock_counter;
40
41 VIS_CRITICAL_SECTION(data_lock)
42 VIS_CRITICAL_SECTION(worker_queue_lock)
43 VIS_CRITICAL_SECTION(randlock)
44 VIS_Event(queue_add_event)
45
46 int program_count=1;
47 VIS_CRITICAL_SECTION(program_count_lock)
48
49 //#define ENABLE_PROFILING 1
50
51 #ifdef ENABLE_PROFILING
52
53 __int64 vis_profile_start_times[NUM_PROFS];
54 __int64 vis_profile_running_total[NUM_PROFS];
55 int vis_profile_counts[NUM_PROFS];
56
57 __declspec(naked)
58 unsigned __int64 __cdecl rdtsc(void)
59 {
60 __asm
61 {
62 rdtsc
63 ret ; return value at EDX:EAX
64 }
65 }
66
67
68 #define PROF_INIT_CUSTOM 0
69 #define PROF_WORKER_THREAD 1
70 #define PROF_PROCESS_WORKER 2
71 #define PROF_CLEANUP_CUSTOM 3
72 #define PROF_SUB_CALLBACK 4
73 #define PROF_CLEANUP_RELEASE_REFS 5
74 #define PROF_CLEANUP_CHECK 6
75 #define PROF_CLEANUP_FREELISTS 7
76 #define PROF_PROCESS_OUTPUTS 8
77 #define PROF_OPT_PREP_INPUT 9
78 #define PROF_RUN_OPT 10
79 #define PROF_ADDQUEUE 11
80 #define PROF_ADDQUEUE_MALLOC 12
81 #define PROF_OPT_LOOP 13
82 #define PROF_EXECUTE_WORKER 14
83 #define PROF_EXECUTE_OTHER 15
84 #define PROF_PREP_MAGIC 16
85 #define PROF_CONVERT_INPUTS 17
86 #define PROF_EXECUTE_CUSTOM 18
87 #define PROF_EXECUTE_BUILTIN 19
88 #define PROF_EMPTYFUNC 20
89 #define PROF_NOCODE 21
90 #define PROF_LESSERWHOLE 22
91 #define PROF_EQUALWHOLE 23
92 #define PROF_PARTIAL_EXEC 24
93 #define PROF_ADDWHOLE 25
94 #define PROF_FULL_EXEC 26
95 #define PROF_OPT_EXEC_USER 27
96 #define PROF_OPT_EXEC_BUILT 28
97 #define PROF_VIRTUAL_DECODE 27
98 #define PROF_VIRTUAL_EXECUTE 28
99
100
101 /*#define VIS_PROFILE_START(index) vis_profile_start_times[index] = rdtsc()
102 #define VIS_PROFILE_END(index) vis_profile_running_total[index] += (rdtsc()-vis_profile_start_times[index]); ++vis_profile_counts[index]
103
104 #else
105
106 #define VIS_PROFILE_START(index)
107 #define VIS_PROFILE_END(index)*/
108
109 #endif
110
111 queue_entry * worker_queue;
112 queue_section first_section;
113 queue_section * current_section;
114 int queue_start;
115 int queue_len;
116
117 BOOL execute_active=FALSE;
118
119 char text_buf[256];
120 int text_buf_size;
121 VIS_CRITICAL_SECTION(text_buf_lock)
122
123 #ifdef WIN32
124 WSADATA wsa_data;
125 #ifdef GUI_LIB
126 char errorbuffer[1024];
127 #endif
128 #endif
129
130
131 worker_instance * main_instance;
132
133 //company companylist[40];
134 //int num_companies=0;
135
136 datum * global_store_dict;
137 VIS_CRITICAL_SECTION(global_store_lock);
138
139
140 int empty_func(datum ** a, queue_entry * worker_entry)
141 {
142 return 0;
143 }
144
145 worker_impl empty_test = empty_func;
146 /*
147 void set_in_child(worker_def * parent, int worker_num, BOOL * in_child, BOOL value, int exclude_worker)
148 {
149 int j,i = parent->workerlist[worker_num].wire_down_lookup;
150 if(exclude_worker >= 0 && exclude_worker == worker_num)
151 return;
152 in_child[worker_num] = value;
153 while(parent->wirelist[j=parent->workers_to_wires_down[i]].start_worker == worker_num && j >= 0)
154 set_in_child(parent, parent->wirelist[j].end_worker, in_child, value);
155 }
156
157 void build_child_worker(worker_def * parent, int worker_num, int output_num)
158 {
159 int i,j, num_child_workers, num_child_wires, child_def;
160 BOOL * in_child = malloc(sizeof(BOOL)* parent->num_workers);
161 int * child_offsets = malloc(sizeof(int) * parent->num_workers);
162 for(i = 0; i < parent->num_workers; ++i)
163 {
164 in_child[i] = FALSE;
165 child_offsets[i] = -1;
166 }
167 i = parent->workerlist[worker_num].wire_down_lookup;
168 while(parent->wirelist[j=parent->workers_to_wires_down[i]].start_worker == worker_num && j >= 0)
169 {
170 if(parent->wirelist[j].output_num == output_num)
171 set_in_child(parent, parent->wirelist[j].end_worker, in_child, TRUE,-1);
172 }
173 i = parent->workerlist[worker_num].wire_down_lookup;
174 while(parent->wirelist[j=parent->workers_to_wires_down[i]].start_worker == worker_num && j >= 0)
175 {
176 if(parent->wirelist[j].output_num != output_num)
177 set_in_child(parent, parent->wirelist[j].end_worker, in_child, FALSE,-1);
178 }
179 for(i = 0; i < parent->num_workers; ++i)
180 {
181 if(i != worker_num && (parent->workerlist[i].type == 4 || (parent->workerlist[i].type == 2 && !in_child[i])))
182 set_in_child(parent, i, in_child, FALSE);
183 }
184 for(i = 0; i < parent->num_workers; ++i)
185 {
186 if(in_child[i])
187 child_offests[i] = num_child_workers++;
188 }
189 for(i = 0; i < parent->num_wires; ++i)
190 {
191 if(in_child[parent->wirelist[i].start_worker] || in_child[parent->wirelist[i].end_worker])
192 ++num_child_wires;
193 }
194 child_def = num_defs++;//needs lock or atomic incrememnt
195 deflist[child_def].workerlist = malloc(sizeof(worker)*num_child_workers);
196 deflist[child_def].wirelist = malloc(sizeof(wire)*num_child_wires);
197 for(i = 0; i < parent->num_workers; ++i)
198 {
199 if(in_child[i])
200 deflist[child_def].workerlist[child_offests[i]] = parent->workerlist[i];
201 }
202 } */
203
204 #define MAX_TRACE_DEPTH 40
205
206 void print_stack_trace(worker_instance * stack_instance)
207 {
208 int i = 0;
209 ERRORPUTS("Stack trace:\n");
210 while(stack_instance && i < MAX_TRACE_DEPTH)
211 {
212 ERRORPRINTF("%s\n", stack_instance->def->name);
213 stack_instance = stack_instance->caller_instance;
214 ++i;
215 }
216 if(stack_instance)
217 {
218 ERRORPUTS("Stack trace aborted after 40 entries\n");
219 }
220 }
221
222 void check_tail(worker_def * def)
223 {
224 custom_worker * worker = def->implement_func;
225 int i,j,k,endworker;
226 BOOL can_tail, outputs_handled[32];
227 for(i = 0; i < worker->num_workers; ++i)
228 {
229 if(worker->workerlist[i].type == WORKER)
230 {
231 can_tail = TRUE;
232 for(j = 0; j < def->num_outputs; ++j)
233 outputs_handled[j] = FALSE;
234 j = worker->workerlist[i].wire_down_lookup;
235 while((k=worker->workers_to_wires_down[j]) >= 0 && worker->wirelist[k].start_worker == i)
236 {
237 endworker = worker->wirelist[k].end_worker;
238 if(worker->workerlist[endworker].type != OUTPUT || worker->workerlist[endworker].io_num != worker->wirelist[k].output_num)
239 {
240 can_tail = FALSE;
241 break;
242 }
243 else
244 outputs_handled[worker->wirelist[k].output_num] = TRUE;
245 ++j;
246 }
247 if(can_tail)
248 {
249 for(j = 0; j < def->num_outputs; ++j)
250 if(!outputs_handled[j])
251 {
252 can_tail = FALSE;
253 break;
254 }
255 if(can_tail)
256 if(worker->workerlist[i].value_index == def)
257 worker->workerlist[i].type = TAIL_RECURSE;
258 else if(!def->num_stores)
259 worker->workerlist[i].type = TAIL_CALL;
260 }
261 }
262 }
263 }
264
265 BOOL method_match(char * name, char * method_name)
266 {
267 int i = 0;
268 while(name[i] != '\0' && method_name[i] != '@' && method_name[i] != '\0')
269 {
270 if(name[i] != method_name[i])
271 return FALSE;
272 ++i;
273 }
274 if(name[i] != '\0' || method_name[i] != '@')
275 return FALSE;
276 return TRUE;
277 }
278
279 worker_def * find_method(int type, char * name, int num_inputs, program * prog)
280 {
281 int i;
282 worker_def * output = NULL;
283 company * companylist = prog->companylist;
284 VIS_EnterCriticalSection(companylist[type].lock);
285 for(i = 0; i < companylist[type].num_methods; ++i)
286 {
287 //DEBUGPRINTF( "Checking method %s(%d,%d)\n", companylist[type].methodlist[i]->name, companylist[type].methodlist[i]->num_inputs, companylist[type].methodlist[i]->num_outputs);
288 if(companylist[type].methodlist[i]->num_inputs == num_inputs && method_match(name, companylist[type].methodlist[i]->name))
289 {
290 DEBUGPRINTF( "Found method: %s\n", companylist[type].methodlist[i]->name);
291 output = companylist[type].methodlist[i];
292 break;
293 }
294 }
295 VIS_LeaveCriticalSection(companylist[type].lock);
296 return output;
297 }
298
299 worker_def * find_method_noinputcheck(int type, char * name, program * prog)
300 {
301 int i;
302 worker_def * output = NULL;
303 company * companylist = prog->companylist;
304 VIS_EnterCriticalSection(companylist[type].lock);
305 for(i = 0; i < companylist[type].num_methods; ++i)
306 {
307 //DEBUGPRINTF( "Checking method %s(%d,%d)\n", companylist[type].methodlist[i]->name, companylist[type].methodlist[i]->num_inputs, companylist[type].methodlist[i]->num_outputs);
308 if(method_match(name, companylist[type].methodlist[i]->name))
309 {
310 DEBUGPRINTF( "Found method: %s\n", companylist[type].methodlist[i]->name);
311 output = companylist[type].methodlist[i];
312 break;
313 }
314 }
315 VIS_LeaveCriticalSection(companylist[type].lock);
316 return output;
317 }
318
319 worker_def * find_converter_method(int totype, int fromtype, program * prog)
320 {
321 int i;
322 company * companylist = prog->companylist;
323 DEBUGPRINTF( "Finding converter from %s to %s\n", companylist[fromtype].name, companylist[totype].name);
324 //DEBUGPRINTF( "Num methods %d\n", companylist[totype].num_methods);
325 for(i = 0; i < companylist[totype].num_methods; ++i)
326 {
327 //DEBUGPRINTF("methodlist[i]: %X\n", companylist[totype].methodlist[i]);
328 DEBUGPRINTF( "Checking method %s\n", companylist[totype].methodlist[i]->name);
329
330 if(companylist[totype].methodlist[i]->name[0] == '<' && method_match(companylist[fromtype].name, companylist[totype].methodlist[i]->name+1))
331 {
332 DEBUGPRINTF( "Found Method %s\n", companylist[totype].methodlist[i]->name);
333
334 return companylist[totype].methodlist[i];
335 }
336 }
337 return NULL;
338 }
339
340 worker_instance * init_custom_worker_type(int aworker, worker_instance * caller, worker_def * def, instance_callback callback, void * callback_data, datum ** params, int type)
341 {
342 int i, workerlist_size, j, add_index_count=0;
343 int add_index[32];
344 datum * work_params[32];
345 datum * temp_params[3];
346 global_store * store;
347 worker_instance * instance;
348 BOOL release_params = TRUE;
349 def_make_lookup(def);
350 workerlist_size = sizeof(worker_instance_data)*(def->implement_func->num_workers);
351 //DEBUGPRINTF("workerlist_size: %d * %d = %d, wirelist_size: %d * %d = %d.\n", sizeof(worker_instance_data), def->implement_func->num_workers, workerlist_size, sizeof(wire_instance_data), def->implement_func->num_wires, sizeof(wire_instance_data)*(def->implement_func->num_wires));
352 //DEBUGPRINTF("Before malloc(%d)\n",sizeof(worker_instance) + workerlist_size + sizeof(wire_instance_data)*(def->implement_func->num_wires));
353 if(type == TAIL_RECURSE || type == TAIL_CALL)
354 {
355 VIS_EnterCriticalSection(caller->counter_lock);
356 if(caller->in_progress_count <= 1 && !caller->in_queue_count)
357 {
358 VIS_LeaveCriticalSection(caller->counter_lock);
359 instance = caller;
360 for(i = 0; i < instance->num_workers; ++i)
361 {
362 if(instance->def->implement_func->workerlist[i].type != WORKER && instance->def->implement_func->workerlist[i].type != TAIL_RECURSE && instance->def->implement_func->workerlist[i].type != TAIL_CALL && instance->workerlist[i].value)
363 release_ref(instance->workerlist[i].value);
364 if(instance->workerlist[i].ready_count && instance->workerlist[i].ready_count < (instance->def->implement_func->workerlist[i].num_inputs + (instance->def->implement_func->workerlist[i].null_input ? 1 : 0)))
365 {
366 DEBUGPRINTF("Freeing params for worker number %d, ready_count: %d, num_inputs: %d, null_input: %d, instance: %X\n", i, instance->workerlist[i].ready_count,instance->def->implement_func->workerlist[i].num_inputs, instance->def->implement_func->workerlist[i].null_input, instance);
367 for(j = 0; j <= instance->def->implement_func->workerlist[i].num_inputs; ++j)
368 {
369 DEBUGPRINTF("Releasing param %d of worker %d\n", j, i);
370 release_ref(instance->workerlist[i].params[j]);
371 }
372 }
373 }
374 for(i = 0; i < def->num_inputs; ++i)
375 work_params[i] = params[i];
376 params = work_params;
377 if(type == TAIL_RECURSE)
378 {
379 instance->in_progress_count = 0;
380 //TODO: adjust profile counter?
381 goto init_workerlist;
382 }
383 else
384 {
385 aworker = instance->worker_in_caller;
386 callback = instance->callback;
387 callback_data = instance->callback_data;
388 caller = instance->caller_instance;
389 VIS_DeleteCriticalSection(instance->counter_lock);
390 free(instance);
391 }
392 }
393 else
394 {
395 VIS_LeaveCriticalSection(caller->counter_lock);
396 }
397 }
398
399
400 instance = MALLOC(sizeof(worker_instance) + workerlist_size/* + sizeof(wire_instance_data)*(def->implement_func->num_wires) */,"instance");
401
402 //DEBUGPRINTF("malloc returned %X.\n", instance);
403 VIS_PROFILE_START(PROF_INIT_CUSTOM);
404 //DEBUGPRINTF("init_custom_worker, instance: %X\n", instance);
405 #ifdef USER_PROFILE
406 QueryPerformanceCounter(&(instance->start));
407 #endif
408 instance->def = def;
409 instance->num_workers = def->implement_func->num_workers;
410 instance->workerlist = (worker_instance_data *)(((char *)instance) + sizeof(worker_instance));//malloc(sizeof(worker_instance_data)*(def->implement_func->num_workers));
411 //DEBUGPRINTF("workerlist at %X\n", instance->workerlist);
412
413 /*instance->num_wires = def->implement_func->num_wires;
414 instance->wirelist = (wire_instance_data *)(((char *)(instance->workerlist)) + workerlist_size);//malloc(sizeof(wire_instance_data)*(def->implement_func->num_wires));
415 DEBUGPRINTF("wirelist at %X\n", instance->wirelist);*/
416
417
418 instance->callback = callback;
419 instance->worker_in_caller = aworker;
420 instance->callback_data = callback_data;
421 instance->caller_instance = caller;
422 VIS_InitializeCriticalSection(instance->counter_lock);
423 instance->in_progress_count = 0;
424 instance->in_queue_count = 0;
425
426 if(def->num_stores)
427 {
428 instance->trans = MALLOC(sizeof(transaction) + sizeof(global_store_use) *(def->num_stores - 1),"transaction");
429 VIS_EnterCriticalSection(global_store_lock);
430 for(i = 0; i < def->num_stores; ++i)
431 {
432 temp_params[0] = add_ref(global_store_dict);
433 temp_params[1] = make_string(def->uses_stores[i], -1, def->program);
434 vis_dict_index(temp_params, NULL);
435 if(!temp_params[0])
436 {
437 printf("Error: Global store %s is not initialized\n", def->uses_stores[i]);
438 DEBUGPRINTF("Error: Global store %s is not initialized\n", def->uses_stores[i]);
439 VIS_LeaveCriticalSection(global_store_lock);
440 return NULL;
441 }
442 instance->trans->stores[i].store = temp_params[0]->c.generic.data;
443 instance->trans->stores[i].instance_data = instance->trans->stores[i].begin_data = add_ref(instance->trans->stores[i].store->data);
444 VIS_InitializeCriticalSection(instance->trans->stores[i].lock);
445 //Is this really necessary?
446 release_ref(temp_params[0]);
447 }
448 VIS_LeaveCriticalSection(global_store_lock);
449 instance->trans->num_stores = def->num_stores;
450 if((def->transaction_flags & TRANSACTION_WRITE) && (def->transaction_flags & TRANSACTION_TYPE_MASK) == TRANSACTION_RETRY)
451 {
452 release_params = FALSE;
453 for(i = 0; i < def->num_inputs; ++i)
454 instance->trans->params[i] = params[i];
455 }
456 } else {
457 instance->trans = NULL;
458 }
459
460
461 init_workerlist:
462 //DEBUGPUTS("init worker values\n");
463 for(i = 0; i < instance->num_workers; ++i)
464 {
465 // DEBUGPRINTF("InitializeCriticalSection on workerlist[%d].worker_lock (%X)\n", i, &(instance->workerlist[i].worker_lock));
466 VIS_InitializeCriticalSection(instance->workerlist[i].worker_lock);
467 //DEBUGPUTS("ready_count = 0\n");
468 instance->workerlist[i].ready_count = 0;
469 if(def->implement_func->workerlist[i].type == INPUT && params)
470 instance->workerlist[i].value = add_ref(params[def->implement_func->workerlist[i].io_num]);
471 else //if(def->implement_func->workerlist[i].type != 2)
472 instance->workerlist[i].value = NULL;
473 //DEBUGPRINTF("instance->workerlist[%d].value = %X\n", i, instance->workerlist[i].value);
474 for(j = 0; j <= def->implement_func->workerlist[i].num_inputs; ++j)
475 instance->workerlist[i].params[j] = NULL;
476 //DEBUGPRINTF("num_inputs: %d, null_input: %d\n", def->implement_func->workerlist[i].num_inputs, def->implement_func->workerlist[i].null_input);
477
478 //There's still a potential race condition here, but it's unlikely to occur except on a system with an insane number of cores/processors
479 //and only on custom workers that have more than 32 items that will be initially ready
480 if(!def->implement_func->workerlist[i].num_inputs && !def->implement_func->workerlist[i].null_input)
481 {
482 DEBUGPRINTF("adding worker %s(%d) to queue\n", def->implement_func->workerlist[i].name, i);
483 add_index[add_index_count++] = i;
484 if(add_index_count == 32)
485 {
486 add_multiple(add_index, add_index_count, instance);
487 add_index_count = 0;
488 }
489 //add_queue(i,instance);
490 }
491 }
492
493 if(params)
494 {
495 if(release_params)
496 {
497 //DEBUGPUTS("release params\n");
498 for(i = 0; i < def->num_inputs; ++i)
499 release_ref(params[i]);
500 }
501 }
502 if(add_index_count > 0)
503 add_multiple(add_index, add_index_count, instance);
504 VIS_PROFILE_END(PROF_INIT_CUSTOM);
505
506 return instance;
507 }
508
509 worker_instance * init_custom_worker(int aworker, worker_instance * caller, worker_def * def, instance_callback callback, void * callback_data, datum ** params)
510 {
511 return init_custom_worker_type(aworker, caller, def, callback, callback_data, params, WORKER);
512 }
513
514 void cleanup_check(queue_entry aworker)
515 {
516 char msg[256];
517 VIS_EnterCriticalSection(aworker.instance->counter_lock);
518 --(aworker.instance->in_progress_count);
519 DEBUGPRINTF( "Cleanup Check on %s<%d>:%X, in_progress: %d, in_queue: %d\n", aworker.instance->def->name, aworker.instance->worker_in_caller, aworker.instance, aworker.instance->in_progress_count,aworker.instance->in_queue_count);
520
521 if(aworker.instance->in_progress_count == 0 && aworker.instance->in_queue_count == 0)
522 {
523 VIS_LeaveCriticalSection(aworker.instance->counter_lock);
524 cleanup_custom_worker(aworker.instance, aworker.worker_num);
525 }
526 else
527 {
528 VIS_LeaveCriticalSection(aworker.instance->counter_lock);
529 }
530 }
531
532 void cleanup_custom_worker(worker_instance * instance, int worker_num)
533 {
534 BOOL do_commit = TRUE;
535 int i,j;
536 queue_entry incaller;
537 global_store * store;
538 #ifdef USER_PROFILE
539 LARGE_INTEGER end;
540 LARGE_INTEGER duration;
541 #endif
542 if(instance->trans)
543 {
544 if(instance->def->transaction_flags & TRANSACTION_WRITE)
545 {
546 VIS_EnterCriticalSection(global_store_lock);
547 if((instance->def->transaction_flags & TRANSACTION_TYPE_MASK) != TRANSACTION_FORCE)
548 {
549 for(i = 0; i < instance->trans->num_stores; ++i)
550 {
551 if(instance->trans->stores[i].begin_data != instance->trans->stores[i].store->data)
552 {
553 do_commit = FALSE;
554 break;
555 }
556 }
557 }
558 if(do_commit)
559 {
560 for(i = 0; i < instance->trans->num_stores; ++i)
561 {
562 release_ref(instance->trans->stores[i].store->data);
563 instance->trans->stores[i].store->data = instance->trans->stores[i].instance_data;
564 }
565 }
566 VIS_LeaveCriticalSection(global_store_lock);
567 if(!do_commit)//retry transaction
568 {
569 for(i = 0; i < instance->trans->num_stores; ++i)
570 release_ref(instance->trans->stores[i].instance_data);
571 puts("retrying transaction");
572 init_custom_worker(instance->worker_in_caller, instance->caller_instance, instance->def, instance->callback, instance->callback_data, instance->trans->params);
573 }
574 else if((instance->def->transaction_flags & TRANSACTION_TYPE_MASK) == TRANSACTION_RETRY)
575 for(i = 0; i < instance->def->num_inputs; ++i)
576 release_ref(instance->trans->params[i]);
577 }
578 else
579 {
580 for(i = 0; i < instance->trans->num_stores; ++i)
581 release_ref(instance->trans->stores[i].instance_data);
582 }
583 VIS_FREE(instance->trans, "transaction");
584 }
585 VIS_PROFILE_START(PROF_CLEANUP_CUSTOM);
586 DEBUGPRINTF("Cleaning up custom worker: %s:%X\n", instance->def->name, instance);
587
588 VIS_PROFILE_START(PROF_SUB_CALLBACK);
589 if(instance->callback && do_commit)
590 instance->callback(instance->caller_instance, instance->worker_in_caller, instance, instance->callback_data);
591 //DEBUGPUTS("About to release refs\n");
592 VIS_PROFILE_END(PROF_SUB_CALLBACK);
593 VIS_PROFILE_START(PROF_CLEANUP_RELEASE_REFS);
594 /*for(i = 0; i < instance->def->implement_func->num_wires; ++i)
595 {
596 if(instance->wirelist[i].data)
597 {
598 DEBUGPRINTF("release_ref on wire %d\n", i);
599
600 release_ref(instance->wirelist[i].data);
601 }
602 }*/
603 for(i = 0; i < instance->num_workers; ++i)
604 {
605 if(instance->def->implement_func->workerlist[i].type != WORKER && instance->def->implement_func->workerlist[i].type != TAIL_RECURSE && instance->def->implement_func->workerlist[i].type != TAIL_CALL && instance->workerlist[i].value)
606 {
607 DEBUGPRINTF( "release_ref on worker %d in instance %X\n", i, instance);
608 release_ref(instance->workerlist[i].value);
609 }
610 if(instance->workerlist[i].ready_count && instance->workerlist[i].ready_count < (instance->def->implement_func->workerlist[i].num_inputs + (instance->def->implement_func->workerlist[i].null_input ? 1 : 0)))
611 {
612 DEBUGPRINTF("Freeing params for worker number %d, ready_count: %d, num_inputs: %d, null_input: %d, instance: %X\n", i, instance->workerlist[i].ready_count,instance->def->implement_func->workerlist[i].num_inputs, instance->def->implement_func->workerlist[i].null_input, instance);
613 for(j = 0; j <= instance->def->implement_func->workerlist[i].num_inputs; ++j)
614 {
615 DEBUGPRINTF("Releasing param %d of worker %d\n", j, i);
616 release_ref(instance->workerlist[i].params[j]);
617 }
618 }
619 VIS_DeleteCriticalSection(instance->workerlist[i].worker_lock);
620 }
621 VIS_PROFILE_END(PROF_CLEANUP_RELEASE_REFS);
622 VIS_DeleteCriticalSection(instance->counter_lock);
623 //DEBUGPUTS("freeing lists\n");
624 #ifdef USER_PROFILE
625 if(do_commit)
626 {
627 QueryPerformanceCounter(&end);
628 duration.QuadPart = end.QuadPart - instance->start.QuadPart;
629 VIS_EnterCriticalSection(instance->def->lock);
630 instance->def->total.QuadPart += duration.QuadPart;
631 ++instance->def->count;
632 if(duration.QuadPart > instance->def->worst.QuadPart)
633 instance->def->worst.QuadPart = duration.QuadPart;
634 VIS_LeaveCriticalSection(instance->def->lock);
635 }
636 #endif
637 /*VIS_PROFILE_START(PROF_CLEANUP_FREELISTS);
638 free(instance->workerlist);
639 free(instance->wirelist);
640 VIS_PROFILE_END(PROF_CLEANUP_FREELISTS);*/
641 VIS_PROFILE_START(PROF_CLEANUP_CHECK);
642 if(instance->caller_instance && do_commit)
643 {
644 incaller.worker_num = instance->worker_in_caller;
645 incaller.instance = instance->caller_instance;
646 DEBUGPUTS("Calling cleanup_check on parent\n");
647 cleanup_check(incaller);
648 }
649 if(do_commit && instance->callback == main_callback)
650 release_program_ref(instance->def->program);
651 VIS_PROFILE_END(PROF_CLEANUP_CHECK);
652 VIS_PROFILE_START(PROF_CLEANUP_FREELISTS);
653 VIS_FREE(instance, "worker instance");
654 VIS_PROFILE_END(PROF_CLEANUP_FREELISTS);
655 VIS_PROFILE_END(PROF_CLEANUP_CUSTOM);
656 }
657 /*
658 void worker_complete(queue_entry aworker)
659 {
660 int i,j;
661 wire * wirelist;
662 int * workers_to_wires_down;
663 VIS_PROFILE_START(PROF_WORKER_COMPLETE);
664 DEBUGPUTS("worker_complete()\n");
665
666
667 i = aworker.instance->def->implement_func->workerlist[aworker.worker_num].wire_down_lookup;
668 wirelist = aworker.instance->def->implement_func->wirelist;
669 workers_to_wires_down = aworker.instance->def->implement_func->workers_to_wires_down;
670 while(wirelist[j=workers_to_wires_down[i]].start_worker == aworker.worker_num && j >= 0)
671 {
672 if(aworker.instance->wirelist[j].data)
673 {
674 DEBUGPRINTF("end_worker: %d, wirelist[%d].data = %X\n", wirelist[j].end_worker, j, aworker.instance->wirelist[j].data);
675 add_if_ready(wirelist[j].end_worker, aworker.instance);
676 }
677 ++i;
678 }
679 DEBUGPUTS("worker_complete done\n");
680 VIS_PROFILE_END(PROF_WORKER_COMPLETE);
681 }*/
682
683 void process_outputs(datum ** params, int aworker, worker_instance * instance)
684 {
685 BOOL flag=FALSE;
686 int i,j;
687 worker_def * def = instance->def;
688 //custom_worker *implement_func = def->implement_func;
689 wire * def_wires = def->implement_func->wirelist;
690 worker * def_workers = def->implement_func->workerlist;
691 VIS_PROFILE_START(PROF_PROCESS_OUTPUTS);
692 DEBUGPRINTF("Process outputs for worker %d in instance %X\n", aworker, instance);
693 DEBUGPRINTF("Num_inputs: %d, num_outputs: %d\n", def_workers[aworker].num_inputs, def_workers[aworker].num_outputs);
694 if(def_workers[aworker].num_outputs && instance->workerlist)
695 {
696 //DEBUGPRINTF("num_outputs: %d\n", def_workers[aworker].num_outputs);
697 i = def_workers[aworker].wire_down_lookup;
698 while((j=def->implement_func->workers_to_wires_down[i]) >= 0 && def_wires[j].start_worker == aworker)
699 {
700 //DEBUGPRINTF("Checking output: %d\n", def_wires[j].output_num);
701 DEBUGPRINTF("output[%d] = %X\n", def_wires[j].output_num, params[def_wires[j].output_num]);
702 DEBUGPRINTF("wire leads to worker %d, instance->workerlist: %X\n", def_wires[j].end_worker, instance->workerlist);
703 VIS_EnterCriticalSection(instance->workerlist[def_wires[j].end_worker].worker_lock);
704 if(params[def_wires[j].output_num] && !instance->workerlist[def_wires[j].end_worker].params[def_wires[j].input_num+1])
705 {
706 //DEBUGPRINTF( "add_ref on output %d\n", def_wires[j].output_num);
707 instance->workerlist[def_wires[j].end_worker].params[def_wires[j].input_num+1]=add_ref(params[def_wires[j].output_num]);
708 //DEBUGPRINTF("Ready count was: %d, ", instance->workerlist[def_wires[j].end_worker].ready_count);
709 ++instance->workerlist[def_wires[j].end_worker].ready_count;
710 DEBUGPRINTF("Ready count is now: %d\n", instance->workerlist[def_wires[j].end_worker].ready_count);
711 DEBUGPRINTF("num inputs: %d, null input: %d\n", instance->def->implement_func->workerlist[def_wires[j].end_worker].num_inputs, instance->def->implement_func->workerlist[def_wires[j].end_worker].null_input);
712 if(instance->workerlist[def_wires[j].end_worker].ready_count >= (instance->def->implement_func->workerlist[def_wires[j].end_worker].num_inputs + (instance->def->implement_func->workerlist[def_wires[j].end_worker].null_input ? 1 : 0)))
713 {
714 //DEBUGPUTS("flag = true\n");
715 flag = TRUE;
716 instance->workerlist[def_wires[j].end_worker].ready_count=0;
717 }
718 }
719 VIS_LeaveCriticalSection(instance->workerlist[def_wires[j].end_worker].worker_lock);
720 if(flag)
721 {
722 DEBUGPUTS("add_queue\n");
723 add_queue(def_wires[j].end_worker, instance);
724 //add_if_ready(def_wires[j].end_worker, instance);
725 flag = FALSE;
726 }
727 ++i;
728 }
729 //DEBUGPUTS("releasing refs\n");
730
731 for(i = 0; i < def_workers[aworker].num_outputs; ++i)
732 release_ref(params[i]);
733 }
734 VIS_PROFILE_END(PROF_PROCESS_OUTPUTS);
735 }
736
737 void main_callback(worker_instance * junkinst, int junk, worker_instance * main_instance, void * data)
738 {
739 //MessageBox(NULL, "Main Callback", "Visuality Debug", MB_OK);
740 VIS_EnterCriticalSection(program_count_lock);
741 --program_count;
742 if(program_count <= 0)
743 {
744 execute_active = FALSE;
745 VIS_SetEvent(queue_add_event);
746 }
747 VIS_LeaveCriticalSection(program_count_lock);
748 if(data)
749 release_ref((datum *)data);
750 }
751
752 void sub_callback(worker_instance * caller_instance, int caller_workernum, worker_instance * done_instance, void * data)
753 {
754 int i;
755 queue_entry incaller;
756 datum * params[32];
757 worker_def * def = done_instance->def;
758 custom_worker * implement_func = def->implement_func;
759
760 incaller.worker_num = caller_workernum;
761 incaller.instance = caller_instance;
762 for(i = 0; i < def->num_outputs; ++i)
763 params[i] = NULL;
764 for(i = 0; i < implement_func->num_workers; ++i)
765 {
766 if(implement_func->workerlist[i].type == 4)
767 {
768 if(!params[implement_func->workerlist[i].io_num])
769 {
770 params[implement_func->workerlist[i].io_num] = done_instance->workerlist[i].value;
771 DEBUGPRINTF("Output[%d] = %X\n", implement_func->workerlist[i].io_num, done_instance->workerlist[i].value);
772 done_instance->workerlist[i].value = NULL;
773 }
774 }
775 }
776 process_outputs(params, caller_workernum, caller_instance);
777 //worker_complete(incaller);
778 }
779
780 void pack_list_sub_callback(worker_instance * caller_instance, int caller_workernum, worker_instance * done_instance, void * data)
781 {
782 int i;
783 queue_entry incaller;
784 datum * params[32];
785 datum * workparams[2];
786
787 incaller.worker_num = caller_workernum;
788 incaller.instance = caller_instance;
789 for(i = 0; i < done_instance->def->num_outputs; ++i)
790 params[i] = NULL;
791 for(i = 0; i < done_instance->def->implement_func->num_workers; ++i)
792 {
793 if(done_instance->def->implement_func->workerlist[i].type == 4)
794 {
795 if(!params[done_instance->def->implement_func->workerlist[i].io_num])
796 {
797 params[done_instance->def->implement_func->workerlist[i].io_num] = done_instance->workerlist[i].value;
798 done_instance->workerlist[i].value = NULL;
799 }
800 }
801 }
802 workparams[0] = create_list(done_instance->def->program);
803 for(i = 0; i < done_instance->def->num_outputs; ++i)
804 {
805 workparams[1] = params[i];
806 vis_list_append(workparams, NULL);
807 }
808 process_outputs(workparams, caller_workernum, caller_instance);
809 //worker_complete(incaller);
810 }
811
812 void transaction_sub_callback(worker_instance * caller_instance, int caller_workernum, worker_instance * done_instance, void * data)
813 {
814 int i;
815
816 pack_list_sub_callback(caller_instance, caller_workernum, done_instance, NULL);
817 }
818
819 int global_argc;
820 char ** global_argv;
821 int spin_counter;
822
823 void prep_program(program * prog)
824 {
825 defchunk * current;
826 int i,j;
827 make_lookup_arrays(prog);
828 current = prog->defs;
829 while(current)
830 {
831 for(i = 0; i < current->num_defs; ++i)
832 {
833 #ifdef USER_PROFILE
834 current->deflist[i].count = 0;
835 current->deflist[i].total.QuadPart = 0;
836 current->deflist[i].worst.QuadPart = 0;
837 VIS_InitializeCriticalSection(current->deflist[i].lock);
838 #endif // USER_PROFILE
839 //DEBUGPRINTF("Checking worker %s with type %X\n", current->deflist[i].name, current->deflist[i].type);
840 if(current->deflist[i].type & USER_FLAG && (current->deflist[i].type & TYPE_MASK) == WORKER_TYPE)
841 {
842 //DEBUGPRINTF("Checking for constants in worker %s\n", current->deflist[i].name);
843 for(j = 0; j < current->deflist[i].implement_func->num_workers; ++j)
844 if(current->deflist[i].implement_func->workerlist[j].type == CONSTANT)
845 {
846 //current->deflist[i].implement_func->workerlist[j].value_index = (int)(get_constant(current->deflist[i].implement_func->workerlist[j].name,-1, initial_prog));
847 //DEBUGPRINTF("Set value_index for constant to %X in worker %s at index %d\n", current->deflist[i].implement_func->workerlist[j].value_index, current->deflist[i].name, j);
848 }
849 else if(current->deflist[i].implement_func->workerlist[j].type == WORKER || current->deflist[i].implement_func->workerlist[j].type == TAIL_CALL || current->deflist[i].implement_func->workerlist[j].type == TAIL_RECURSE)
850 {
851 current->deflist[i].implement_func->workerlist[j].num_inputs = ((worker_def *)current->deflist[i].implement_func->workerlist[j].value_index)->num_inputs;
852 current->deflist[i].implement_func->workerlist[j].num_outputs = ((worker_def *)current->deflist[i].implement_func->workerlist[j].value_index)->num_outputs;
853 }
854 else
855 current->deflist[i].implement_func->workerlist[j].value_index = 0;
856 //DEBUGPRINTF("optimize %d\n", i);
857 #ifdef ENABLE_OPT
858 optimize(current->deflist + i);
859 #endif
860 }
861 }
862 current = current->next;
863 }
864 }
865
866 void interp_start(int num_threads, BOOL use_this_thread, int argc, char ** argv, program * initial_prog)
867 {
868 defchunk * current;
869 datum * params[2];
870 int i, junk,create_threads,j;
871 #ifdef USER_PROFILE
872 LARGE_INTEGER frequency;
873 #endif
874 lock_fail_counter = 0;
875 lock_counter = 0;
876 spin_counter = 0;
877
878 #ifdef WIN32
879 //_CrtSetDbgFlag(_CRTDBG_CHECK_ALWAYS_DF | _CRTDBG_CHECK_CRT_DF | _CRTDBG_ALLOC_MEM_DF);
880 WSAStartup(MAKEWORD(1, 1), &wsa_data);
881 #endif
882 VIS_InitializeCriticalSection(randlock);
883
884 DEBUGPUTS("interp_start\n");
885 #ifdef ENABLE_PROFILING
886 for(i = 0; i < NUM_PROFS; ++i)
887 {
888 vis_profile_running_total[i] = 0;
889 vis_profile_counts[i] = 0;
890 }
891 VIS_PROFILE_START(PROF_EMPTYFUNC);
892 empty_test(NULL,NULL);
893 VIS_PROFILE_END(PROF_EMPTYFUNC);
894 VIS_PROFILE_START(PROF_NOCODE);
895 VIS_PROFILE_END(PROF_NOCODE);
896 #endif
897 global_argc = argc;
898 global_argv = argv;
899 init_sync_primitives();
900 init_datum_storage();
901 init_global_storage(initial_prog);
902 //init queue
903 current_section = &first_section;
904 DEBUGPRINTF("current_section = %X, &current_section = %X\n", current_section, &current_section);
905 worker_queue = current_section->entries;
906 current_section->last = NULL;
907 current_section->next = NULL;
908 queue_start = queue_len = 0;
909 // deflist[0].num_workers = num_workers;
910 // deflist[0].num_wires = num_wires;
911 prep_program(initial_prog);
912 //MessageBox(NULL, "Before fopen", "visdbg", MB_OK);
913 init_genrand(time(NULL));
914
915 execute_active = TRUE;
916 DEBUGPUTS("Before init_custom_worker on Main\n");
917 params[0] = create_list(initial_prog);
918 for(i = 0; i < argc; ++i)
919 {
920 params[1] = make_string(argv[i], -1, initial_prog);
921 vis_list_append(params, NULL);
922 }
923 main_instance = init_custom_worker(-1, NULL, initial_prog->defs->deflist, main_callback, NULL, params);
924
925 //num_datum = 0;
926 #if COMPILE_THREADS > 0
927 create_threads = COMPILE_THREADS;
928 if(num_threads > 0)
929 create_threads = num_threads;
930 if(use_this_thread)
931 --create_threads;
932
933 for(i = 0; i < create_threads; ++i)
934 {
935 #ifdef WIN32
936 CreateThread(NULL, 0, worker_thread, NULL, 0, &junk);
937 #else
938 #ifdef SYLLABLE
939 resume_thread(spawn_thread("vis_worker", worker_thread, 1, 0, NULL));
940 #else
941 pthread_t pid;
942 pthread_create(&pid, NULL, worker_thread, NULL);
943 #endif
944 #endif
945 }
946 if(use_this_thread)
947 worker_thread(NULL);
948 #else
949 worker_thread(NULL);
950 #endif
951 #ifdef ENABLE_PROFILING
952 for(i = 0; i < NUM_PROFS; ++i)
953 printf("%d:\t%f,\tcount: %d,\taverage: %f\n", i, (double)vis_profile_running_total[i], vis_profile_counts[i], ((double)vis_profile_running_total[i])/((double)vis_profile_counts[i]));
954 #endif
955
956 #ifdef USER_PROFILE
957 printf("%-33s%12s%7s%15s%12s\n\n", "Worker", "Total", "Count", "Average", "Worst");
958 current = initial_prog->defs;
959 while(current)
960 {
961 for(i = 0; i < current->num_defs; ++i)
962 {
963 if(current->deflist[i].count > 0)
964 {
965 printf("%-33s%12.0f%7d%15.2f%12.0f\n", current->deflist[i].name, (double)current->deflist[i].total.QuadPart, current->deflist[i].count, (double)current->deflist[i].total.QuadPart / (double)current->deflist[i].count, (double)current->deflist[i].worst.QuadPart);
966 }
967 }
968 current = current->next;
969 }
970 QueryPerformanceFrequency(&frequency);
971 printf("%.0f ticks per second\n", (double)frequency.QuadPart);
972 #endif
973 interp_stop();
974 }
975
976 void interp_stop()
977 {
978 int i;
979 execute_active = FALSE;
980 close_sync_primitives();
981 // Doesn't make sense in the context of multiple programs
982 // cleanup_custom_worker(main_instance);
983 #ifdef WIN32
984 WSACleanup();
985 #endif
986 #ifdef TEXT_FILE_DEBUG
987 fclose(debugfile);
988 #endif
989 }
990
991 extern
992 void init_sync_primitives()
993 {
994 int i;
995 DEBUGPUTS("Initializing data_lock\n");
996 VIS_InitializeCriticalSection(data_lock);
997 DEBUGPUTS("Initializing worker_queue_lock\n");
998 VIS_InitializeCriticalSection(worker_queue_lock);
999 DEBUGPUTS("Initializing text_buf_lock\n");
1000 VIS_InitializeCriticalSection(text_buf_lock);
1001 #ifdef SYLLABLE
1002 DEBUGPUTS("vis_window_init\n");
1003 vis_window_init();
1004 #endif
1005 VIS_CreateEvent(queue_add_event);//No security parameter, auto reset, starts signaled, no name
1006
1007 }
1008
1009 void close_sync_primitives()
1010 {
1011 int i;
1012 VIS_DeleteCriticalSection(data_lock);
1013 VIS_DeleteCriticalSection(worker_queue_lock);
1014 VIS_DestroyEvent(queue_add_event);
1015
1016 }
1017
1018 void init_global_storage(program * prog)
1019 {
1020 VIS_InitializeCriticalSection(global_store_lock);
1021 global_store_dict = create_dict(prog);
1022 }
1023
1024 void add_multiple(int * data, int num, worker_instance * instance)
1025 {
1026 int i, index;
1027 queue_section * temp;
1028 DEBUGPRINTF( "Adding %d workers\n", num);
1029
1030 VIS_EnterCriticalSection(instance->counter_lock);
1031 instance->in_queue_count += num;
1032 VIS_LeaveCriticalSection(instance->counter_lock);
1033 VIS_EnterCriticalSection(worker_queue_lock);
1034 for(i = 0; i < num; ++i)
1035 {
1036 if(queue_len >= QUEUE_SIZE)
1037 {
1038 if(current_section->next)
1039 {
1040 //DEBUGPUTS("Moving to next queue_section\n");
1041 current_section = current_section->next;
1042 }
1043 else
1044 {
1045 //DEBUGPUTS("Allocating new queue_section\n");
1046 VIS_PROFILE_START(PROF_ADDQUEUE_MALLOC);
1047 temp = MALLOC(sizeof(queue_section),"queue section");
1048 VIS_PROFILE_END(PROF_ADDQUEUE_MALLOC);
1049 temp->last = current_section;
1050 temp->next = NULL;
1051 current_section->next = temp;
1052 current_section = temp;
1053 }
1054 worker_queue = current_section->entries;
1055 queue_start = queue_len = 0;
1056 }
1057 if(queue_start+queue_len < QUEUE_SIZE)
1058 index = queue_start+queue_len;
1059 else
1060 index = queue_start+queue_len-QUEUE_SIZE;
1061 worker_queue[index].worker_num=data[i];
1062 worker_queue[index].instance = instance;
1063 ++queue_len;
1064 }
1065 VIS_LeaveCriticalSection(worker_queue_lock);
1066 //DEBUGPUTS("SetEvent\n");
1067 VIS_SetEvent(queue_add_event);
1068 }
1069
1070 void requeue(int data, worker_instance * instance)
1071 {
1072 add_queue(data, instance);
1073 VIS_EnterCriticalSection(instance->counter_lock);
1074 --(instance->in_progress_count);
1075 VIS_LeaveCriticalSection(instance->counter_lock);
1076 }
1077
1078 void add_queue(int data, worker_instance * instance)
1079 {
1080 int index;
1081 queue_section * temp;
1082 VIS_PROFILE_START(PROF_ADDQUEUE);
1083 VIS_EnterCriticalSection(instance->counter_lock);
1084 ++(instance->in_queue_count);
1085 VIS_LeaveCriticalSection(instance->counter_lock);
1086 VIS_EnterCriticalSection(worker_queue_lock);
1087 if(queue_len >= QUEUE_SIZE)
1088 {
1089 if(current_section->next)
1090 {
1091 //DEBUGPUTS("Moving to next queue_section\n");
1092 current_section = current_section->next;
1093 }
1094 else
1095 {
1096 //DEBUGPUTS("Allocating new queue_section\n");
1097 VIS_PROFILE_START(PROF_ADDQUEUE_MALLOC);
1098 temp = MALLOC(sizeof(queue_section),"queue section");
1099 VIS_PROFILE_END(PROF_ADDQUEUE_MALLOC);
1100 temp->last = current_section;
1101 temp->next = NULL;
1102 current_section->next = temp;
1103 current_section = temp;
1104 }
1105 worker_queue = current_section->entries;
1106 queue_start = queue_len = 0;
1107 }
1108 else if(queue_len == 0)
1109 {
1110 VIS_SetEvent(queue_add_event);
1111 //DEBUGPUTS("SetEvent\n");
1112 }
1113
1114 if(queue_start+queue_len < QUEUE_SIZE)
1115 index = queue_start+queue_len;
1116 else
1117 index = queue_start+queue_len-QUEUE_SIZE;
1118 worker_queue[index].worker_num=data;
1119 worker_queue[index].instance = instance;
1120 ++queue_len;
1121
1122 VIS_LeaveCriticalSection(worker_queue_lock);
1123 VIS_PROFILE_END(PROF_ADDQUEUE);
1124 }
1125
1126 /**
1127 * Retrieves a ready worker from the queue
1128 */
1129 queue_entry get_queue()
1130 {
1131 queue_entry data;
1132 queue_section * temp;
1133 //DEBUGPUTS("Begin get_queue()\n");
1134
1135 VIS_EnterCriticalSection(worker_queue_lock);
1136 while(!queue_len && execute_active)
1137 {
1138 //DEBUGPUTS("Queue empty, resetting event\n");
1139 VIS_ResetEvent(queue_add_event);
1140 VIS_LeaveCriticalSection(worker_queue_lock);
1141 //DEBUGPUTS("Waiting for queue_add_event\n");
1142 VIS_WaitEvent(queue_add_event);
1143 #ifdef NINTENDO_DS
1144 //TODO make the processor sleep while waiting for IRQs
1145 if(irq_queue_count > 0)
1146 run_queued_irqs();
1147 #endif
1148 VIS_EnterCriticalSection(worker_queue_lock);
1149 }
1150 if(queue_len > 0)
1151 {
1152 data = worker_queue[queue_start];
1153 //DEBUGPRINTF( "Next worker in queue: %d\n", data.worker_num);
1154 //DEBUGPRINTF("data.instance: %X, data.instance->workerlist: %X\n", data.instance, data.instance->workerlist);
1155 /*VIS_EnterCriticalSection(data.instance->workerlist[data.worker_num].worker_lock);
1156 DEBUGPUTS("Adjusting ready_count");
1157 data.instance->workerlist[data.worker_num].ready_count=0;
1158 VIS_LeaveCriticalSection(data.instance->workerlist[data.worker_num].worker_lock);*/
1159 ++queue_start;
1160 --queue_len;
1161 //DEBUGPUTS("Adjusted ready count.\n");
1162 //DEBUGPRINTF("current_section: %X\n", current_section);
1163 if(queue_len == 0 && current_section->last)
1164 {
1165 if(current_section->next != NULL)
1166 {
1167 //DEBUGPUTS("Freeing current_section->next.\n");
1168 VIS_FREE(current_section->next, "ready queue node");
1169 current_section->next = NULL;
1170 }
1171 current_section = current_section->last;
1172 worker_queue = current_section->entries;
1173 queue_start = 0;
1174 queue_len = QUEUE_SIZE;
1175 }
1176 else if(queue_start == QUEUE_SIZE)
1177 queue_start = 0;
1178 }
1179 else
1180 {
1181 //DEBUGPUTS("Queue empty\n");
1182 data.worker_num = -2;
1183 }
1184 VIS_LeaveCriticalSection(worker_queue_lock);
1185 //DEBUGPUTS("Left worker_queue_lock\n");
1186 //MessageBox(NULL,"AfterLeave","visdbg",MB_OK);
1187 if(data.worker_num >= 0)
1188 {
1189 VIS_EnterCriticalSection(data.instance->counter_lock);
1190 //DEBUGPUTS("Adjusting in_queue/in_progress counts.\n");
1191 --(data.instance->in_queue_count);
1192 ++(data.instance->in_progress_count);
1193 DEBUGPRINTF( "Counts for %s<%d> Instance:%X after get_queue: in_queue: %d in_progress: %d\n",data.instance->def->name, data.instance->worker_in_caller, data.instance, data.instance->in_queue_count, data.instance->in_progress_count);
1194
1195 VIS_LeaveCriticalSection(data.instance->counter_lock);
1196 }
1197 //DEBUGPUTS("End get_queue()\n");
1198
1199 return data;
1200 }
1201
1202 void def_make_lookup(worker_def * def)
1203 {
1204 int i, j, upoffset, offset;
1205 VIS_EnterCriticalSection(def->implement_func->lock);
1206 if(def->implement_func->dirty)
1207 {
1208 upoffset = offset = 0;
1209 for(i = 0; i < def->implement_func->num_workers; ++i)
1210 {
1211 def->implement_func->workerlist[i].wire_down_lookup=offset;
1212 def->implement_func->workerlist[i].wire_up_lookup=upoffset;
1213 for(j = 0; j < def->implement_func->num_wires; ++j)
1214 {
1215 if(def->implement_func->wirelist[j].start_worker == i)
1216 def->implement_func->workers_to_wires_down[offset++]=j;
1217 if(def->implement_func->wirelist[j].end_worker == i)
1218 def->implement_func->workers_to_wires_up[upoffset++]=j;
1219 }
1220 //Clear tail call info
1221 if(def->implement_func->workerlist[i].type == TAIL_CALL || def->implement_func->workerlist[i].type == TAIL_RECURSE)
1222 def->implement_func->workerlist[i].type = WORKER;
1223 }
1224 def->implement_func->workers_to_wires_down[offset]=-1;
1225 def->implement_func->workers_to_wires_up[upoffset]=-1;
1226 check_tail(def);
1227 def->implement_func->dirty = FALSE;
1228 }
1229 VIS_LeaveCriticalSection(def->implement_func->lock);
1230 }
1231
1232 /**
1233 * Generates lookup array to ease navigation between workers
1234 */
1235 void make_lookup_arrays(program * prog)
1236 {
1237 int i,j,k, offset, upoffset;
1238 worker_def * deflist;
1239 defchunk * current = prog->defs;
1240 while(current)
1241 {
1242 deflist = current->deflist;
1243 for(k = 0; k < current->num_defs; ++k)
1244 {
1245 if(deflist[k].type & USER_FLAG && (deflist[k].type & TYPE_MASK) == WORKER_TYPE)
1246 def_make_lookup(deflist + k);
1247 }
1248 current = current->next;
1249 }
1250 }
1251 extern char _end_bss[];
1252 void initpredefworkers(program * prog)
1253 {
1254 int current_def = 1;
1255 int current_company = 0;
1256 int current_method;
1257 int comp_room;
1258 company * this_comp;
1259 worker_def * aworker;
1260 create_company(prog, "Any Type", 0, 0, FALSE);
1261 create_company(prog, "Yes No", 0, 0, FALSE);
1262
1263 aworker = create_worker(prog, "Print", 1, 1, WORKER_TYPE);
1264 aworker->implement_func = (custom_worker *)vis_print;
1265 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1266
1267 aworker = create_worker(prog, "Random", 0, 1, WORKER_TYPE);
1268 aworker->implement_func = (custom_worker *)vis_random;
1269
1270 aworker = create_worker(prog, "Build", 1, 1, WORKER_TYPE);
1271 aworker->implement_func = (custom_worker *)vis_build;
1272 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1273
1274 aworker = create_worker(prog, "End", 1, 0, WORKER_TYPE);
1275 aworker->implement_func = (custom_worker *)vis_end;
1276 aworker->input_types[0] = ANY_TYPE;
1277
1278 create_worker(prog, "Append", 2, 1, MAGIC_TYPE);
1279 create_worker(prog, "+", 2, 1, MAGIC_TYPE);
1280 create_worker(prog, "-", 2, 1, MAGIC_TYPE);
1281 create_worker(prog, "*", 2, 1, MAGIC_TYPE);
1282 create_worker(prog, "/", 2, 1, MAGIC_TYPE);
1283 create_worker(prog, ">", 2, 1, MAGIC_TYPE);
1284 create_worker(prog, "<", 2, 1, MAGIC_TYPE);
1285 create_worker(prog, "=", 2, 1, MAGIC_TYPE);
1286
1287 aworker = create_worker(prog, "Get Input", 0, 1, WORKER_TYPE);
1288 aworker->implement_func = (custom_worker *)vis_getinput;
1289
1290 aworker = create_worker(prog, "If",1, 2, WORKER_TYPE);
1291 aworker->implement_func=(custom_worker *)vis_if;
1292 aworker->input_types[0] = BUILTIN_TYPE_YESNO;
1293
1294 aworker = create_worker(prog, "Type Of",1, 1, WORKER_TYPE);
1295 aworker->implement_func=(custom_worker *)vis_type_of;
1296 aworker->input_types[0] = ANY_TYPE;
1297
1298 aworker = create_worker(prog, "Init Store",1, 0, WORKER_TYPE);
1299 aworker->implement_func=(custom_worker *)init_global_store;
1300 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1301
1302 aworker = create_worker(prog, "Wait Forever", 0, 0, WORKER_TYPE);
1303 aworker->implement_func=(custom_worker *)vis_wait_forever;
1304
1305 #ifdef NINTENDO_DS
1306 aworker = create_worker(prog, "Register Handler", 2, 1, WORKER_TYPE);
1307 aworker->implement_func = (custom_worker *)vis_register_handler;
1308 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1309 aworker->input_types[1] = BUILTIN_TYPE_WORKER;
1310
1311 aworker = create_worker(prog, "Clear Handler", 1, 1, WORKER_TYPE);
1312 aworker->implement_func = (custom_worker *)vis_clear_handler;
1313 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1314
1315 aworker = create_worker(prog, "Held Keys", 0, 1, WORKER_TYPE);
1316 aworker->implement_func = (custom_worker *)vis_held_keys;
1317
1318 aworker = create_worker(prog, "Touch Position", 0, 2, WORKER_TYPE);
1319 aworker->implement_func = (custom_worker *)vis_touch_position;
1320 #endif
1321
1322 current_method = 0;
1323 //strcpy(companylist[current_company].name, "String");
1324 #ifdef SEGA
1325 this_comp = create_company(prog, "String", 6, 0, FALSE);
1326 #else
1327 this_comp = create_company(prog, "String", 7, 0, FALSE);
1328 #endif
1329 aworker = create_worker(prog, "<Whole Number@String",1, 1, WORKER_TYPE);
1330 aworker->implement_func=(custom_worker *)vis_inttostring;
1331 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1332 //add_method(this_comp, aworker);
1333
1334 #ifndef SEGA
1335
1336 aworker = create_worker(prog, "<Real Number@String",1, 1, WORKER_TYPE);
1337 aworker->implement_func=(custom_worker *)vis_realtostring;
1338 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1339 //add_method(this_comp, aworker);
1340 #endif
1341
1342 aworker = create_worker(prog, "=@String",2, 1, WORKER_TYPE);
1343 aworker->implement_func=(custom_worker *)vis_stringequal;
1344 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1345 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1346 //add_method(this_comp, aworker);
1347
1348 aworker = create_worker(prog, "<Yes No@String",1, 1, WORKER_TYPE);
1349 aworker->implement_func=(custom_worker *)vis_yesnotostring;
1350 aworker->input_types[0] = BUILTIN_TYPE_YESNO;
1351 //add_method(this_comp, aworker);
1352
1353 aworker = create_worker(prog, ">@String",2, 1, WORKER_TYPE);
1354 aworker->implement_func=(custom_worker *)vis_greaterstring;
1355 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1356 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1357 //add_method(this_comp, aworker);
1358
1359 aworker = create_worker(prog, "<@String",2, 1, WORKER_TYPE);
1360 aworker->implement_func=(custom_worker *)vis_lesserstring;
1361 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1362 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1363 //add_method(this_comp, aworker);
1364
1365 aworker = create_worker(prog, "Append@String",2, 1, WORKER_TYPE);
1366 aworker->implement_func=(custom_worker *)vis_append;
1367 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1368 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1369 //add_method(this_comp, aworker);
1370
1371 aworker = create_worker(prog, "Split@String",2, 1, WORKER_TYPE);
1372 aworker->implement_func=(custom_worker *)vis_string_split;
1373 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1374 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1375
1376 aworker = create_worker(prog, "Get Raw@String",2, 2, WORKER_TYPE);
1377 aworker->implement_func=(custom_worker *)vis_string_get_raw;
1378 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1379 aworker->input_types[1] = ANY_TYPE;
1380
1381 aworker = create_worker(prog, "Put Raw@String",2, 1, WORKER_TYPE);
1382 aworker->implement_func=(custom_worker *)vis_string_put_raw;
1383 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1384 aworker->input_types[1] = ANY_TYPE;
1385
1386 aworker = create_worker(prog, "Slice@String",2, 2, WORKER_TYPE);
1387 aworker->implement_func=(custom_worker *)vis_string_slice;
1388 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1389 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1390
1391 aworker = create_worker(prog, "Reverse@String",1, 1, WORKER_TYPE);
1392 aworker->implement_func=(custom_worker *)vis_string_reverse;
1393 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1394
1395 aworker = create_worker(prog, "Length@String",1, 1, WORKER_TYPE);
1396 aworker->implement_func=(custom_worker *)vis_string_length;
1397 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1398
1399 aworker = create_worker(prog, "Put Byte@String",2, 1, WORKER_TYPE);
1400 aworker->implement_func=(custom_worker *)vis_string_put_byte;
1401 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1402 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1403
1404 aworker = create_worker(prog, "Get DString@String",2, 4, WORKER_TYPE);
1405 aworker->implement_func=(custom_worker *)vis_string_get_dstring;
1406 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1407 aworker->input_types[1] = ANY_TYPE;
1408
1409 current_method = 0;
1410 this_comp = create_company(prog, "Whole Number", 6, 0, FALSE);
1411 aworker = create_worker(prog, "<String@Whole Number",1, 1, WORKER_TYPE);
1412 aworker->implement_func=(custom_worker *)vis_stringtoint;
1413 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1414
1415 aworker = create_worker(prog, "From Hex@Whole Number",1, 1, WORKER_TYPE);
1416 aworker->implement_func=(custom_worker *)vis_whole_fromhex;
1417 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1418 //add_method(this_comp, aworker);
1419
1420 aworker = create_worker(prog, "=@Whole Number",2, 1, WORKER_TYPE);
1421 aworker->implement_func=(custom_worker *)vis_wholeequal;
1422 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1423 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1424 //add_method(this_comp, aworker);
1425
1426 aworker = create_worker(prog, ">@Whole Number",2, 1, WORKER_TYPE);
1427 aworker->implement_func=(custom_worker *)vis_greaterint;
1428 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1429 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1430 //add_method(this_comp, aworker);
1431
1432 aworker = create_worker(prog, "<@Whole Number",2, 1, WORKER_TYPE);
1433 aworker->implement_func=(custom_worker *)vis_lesserint;
1434 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1435 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1436
1437 //add_method(this_comp, aworker);
1438
1439 aworker = create_worker(prog, "+@Whole Number", 2, 1, WORKER_TYPE);
1440 aworker->implement_func=(custom_worker *)vis_whole_add;
1441 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1442 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1443
1444 //add_method(this_comp, aworker);
1445
1446 aworker = create_worker(prog, "-@Whole Number", 2, 1, WORKER_TYPE);
1447 aworker->implement_func=(custom_worker *)vis_whole_subtract;
1448 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1449 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1450
1451 aworker = create_worker(prog, "*@Whole Number", 2, 1, WORKER_TYPE);
1452 aworker->implement_func=(custom_worker *)vis_whole_mult;
1453 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1454 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1455
1456 //add_method(this_comp, aworker);
1457
1458 aworker = create_worker(prog, "/@Whole Number", 2, 1, WORKER_TYPE);
1459 aworker->implement_func=(custom_worker *)vis_whole_div;
1460 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1461 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1462
1463 aworker = create_worker(prog, "&@Whole Number", 2, 1, WORKER_TYPE);
1464 aworker->implement_func=(custom_worker *)vis_whole_and;
1465 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1466 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1467
1468 aworker = create_worker(prog, "|@Whole Number", 2, 1, WORKER_TYPE);
1469 aworker->implement_func=(custom_worker *)vis_whole_or;
1470 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1471 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1472
1473 aworker = create_worker(prog, "LShift@Whole Number", 2, 1, WORKER_TYPE);
1474 aworker->implement_func=(custom_worker *)vis_whole_lsh;
1475 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1476 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1477
1478 aworker = create_worker(prog, "RShift@Whole Number", 2, 1, WORKER_TYPE);
1479 aworker->implement_func=(custom_worker *)vis_whole_rsh;
1480 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1481 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1482
1483 //add_method(this_comp, aworker);
1484
1485 current_method = 0;
1486 this_comp = create_company(prog, "Real Number", 6, 0, FALSE);//<string, =, >, <, +, -
1487 aworker = create_worker(prog, "<String@Real Number", 1, 1, WORKER_TYPE);
1488 aworker->implement_func=(custom_worker *)vis_stringtoreal;
1489 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1490 //add_method(this_comp, aworker);
1491
1492 aworker = create_worker(prog, "=@Real Number", 2, 1, WORKER_TYPE);
1493 aworker->implement_func=(custom_worker *)vis_realequal;
1494 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1495 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1496
1497 //add_method(this_comp, aworker);
1498
1499 aworker = create_worker(prog, ">@Real Number", 2, 1, WORKER_TYPE);
1500 aworker->implement_func=(custom_worker *)vis_greaterreal;
1501 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1502 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1503
1504 //add_method(this_comp, aworker);
1505
1506 aworker = create_worker(prog, "<@Real Number", 2, 1, WORKER_TYPE);
1507 aworker->implement_func=(custom_worker *)vis_lesserreal;
1508 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1509 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1510
1511 //add_method(this_comp, aworker);
1512
1513 aworker = create_worker(prog, "+@Real Number", 2, 1, WORKER_TYPE);
1514 aworker->implement_func=(custom_worker *)vis_real_add;
1515 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1516 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1517
1518 //add_method(this_comp, aworker);
1519
1520 aworker = create_worker(prog, "-@Real Number", 2, 1, WORKER_TYPE);
1521 aworker->implement_func=(custom_worker *)vis_real_subtract;
1522 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1523 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1524
1525 aworker = create_worker(prog, "/@Real Number", 2, 1, WORKER_TYPE);
1526 aworker->implement_func=(custom_worker *)vis_real_div;
1527 aworker->input_types[0] = BUILTIN_TYPE_REAL;
1528 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1529
1530 //add_method(this_comp, aworker);
1531
1532 current_method = 0;
1533 this_comp = create_company(prog, "List", 7, 1, FALSE);//Index, Append, Swap, Insert, Remove, Set, Length, New
1534 comp_room = add_comp_room(this_comp, "Length", 0, 0, ROOM_NO_ACCESS, ROOM_LONG);
1535
1536 aworker = create_worker(prog, "Index@List", 2, 2, WORKER_TYPE);
1537 aworker->implement_func=(custom_worker *)vis_list_index;
1538 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1539 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1540
1541 //add_method(this_comp, aworker);
1542
1543 aworker = create_worker(prog, "Append@List", 2, 1, WORKER_TYPE);
1544 aworker->implement_func=(custom_worker *)vis_list_append;
1545 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1546 aworker->input_types[1] = ANY_TYPE;
1547
1548 //add_method(this_comp, aworker);
1549
1550 aworker = create_worker(prog, "Swap@List",3, 1, WORKER_TYPE);
1551 aworker->implement_func=(custom_worker *)vis_list_swap;
1552 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1553 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1554 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
1555
1556 //add_method(this_comp, aworker);
1557
1558 aworker = create_worker(prog, "Insert@List",3, 1, WORKER_TYPE);
1559 aworker->implement_func=(custom_worker *)vis_list_insert;
1560 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1561 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1562 aworker->input_types[2] = ANY_TYPE;
1563
1564 //add_method(this_comp, aworker);
1565
1566 aworker = create_worker(prog, "Remove@List", 2, 1, WORKER_TYPE);
1567 aworker->implement_func=(custom_worker *)vis_list_remove;
1568 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1569 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1570
1571 //add_method(this_comp, aworker);
1572
1573 aworker = create_worker(prog, "Set@List",3, 1, WORKER_TYPE);
1574 aworker->implement_func=(custom_worker *)vis_list_set;
1575 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1576 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1577 aworker->input_types[2] = ANY_TYPE;
1578
1579 //add_method(this_comp, aworker);
1580
1581 aworker = create_worker(prog, "Length@List", 1, 1, WORKER_TYPE);
1582 aworker->implement_func = (custom_worker *)vis_list_length;
1583 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1584 //add_method(this_comp, aworker);
1585
1586 aworker = create_worker(prog, "New@List",0, 1, WORKER_TYPE);
1587 aworker->implement_func=(custom_worker *)vis_list_new;
1588 //add_method(this_comp, aworker);
1589
1590 aworker = create_worker(prog, "First@List", 1, 2, WORKER_TYPE);
1591 aworker->implement_func=(custom_worker *)vis_list_first;
1592 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1593
1594 aworker = create_worker(prog, "Next@List", 2, 2, WORKER_TYPE);
1595 aworker->implement_func=(custom_worker *)vis_list_next;
1596 aworker->input_types[0] = BUILTIN_TYPE_LIST;
1597 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1598
1599 current_method = 0;
1600 this_comp = create_company(prog, "Dictionary", 5, 0, FALSE);//Index, Swap, Remove, Set, Length, New
1601 aworker = create_worker(prog, "Index@Dictionary", 2, 2, WORKER_TYPE);
1602 aworker->implement_func=(custom_worker *)vis_dict_index;
1603 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1604 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1605
1606 //add_method(this_comp, aworker);
1607
1608 aworker = create_worker(prog, "Swap@Dictionary",3, 1, WORKER_TYPE);
1609 aworker->implement_func=(custom_worker *)vis_dict_swap;
1610 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1611 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1612 aworker->input_types[2] = BUILTIN_TYPE_STRING;
1613
1614 //add_method(this_comp, aworker);
1615
1616 aworker = create_worker(prog, "Remove@Dictionary", 2, 1, WORKER_TYPE);
1617 aworker->implement_func=(custom_worker *)vis_dict_remove;
1618 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1619 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1620
1621 //add_method(this_comp, aworker);
1622
1623 aworker = create_worker(prog, "Set@Dictionary",3, 1, WORKER_TYPE);
1624 aworker->implement_func=(custom_worker *)vis_dict_set;
1625 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1626 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1627 aworker->input_types[2] = ANY_TYPE;
1628
1629 aworker = create_worker(prog, "Length@Dictionary", 1, 1, WORKER_TYPE);
1630 aworker->implement_func=(custom_worker *)vis_dict_length;
1631 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1632
1633 //add_method(this_comp, aworker);
1634
1635 aworker = create_worker(prog, "New@Dictionary",0, 1, WORKER_TYPE);
1636 aworker->implement_func=(custom_worker *)vis_dict_new;
1637 //add_method(this_comp, aworker);
1638
1639 aworker = create_worker(prog, "First@Dictionary", 1, 2, WORKER_TYPE);
1640 aworker->implement_func=(custom_worker *)vis_dict_first;
1641 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1642
1643 aworker = create_worker(prog, "Next@Dictionary", 2, 2, WORKER_TYPE);
1644 aworker->implement_func=(custom_worker *)vis_dict_next;
1645 aworker->input_types[0] = BUILTIN_TYPE_DICT;
1646 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1647
1648 current_method = 0;
1649 #ifdef SEGA
1650 this_comp = create_company(prog, "File", 0, 0, FALSE);
1651 #else
1652
1653 this_comp = create_company(prog, "File", 7, 0, FALSE);//<String, Get FString, Get DString, Get Byte, Get Word, Get Long, Put String
1654 aworker = create_worker(prog, "<String@File", 1, 1, WORKER_TYPE);
1655 aworker->implement_func=(custom_worker *)vis_file_from_string;
1656 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1657 //add_method(this_comp, aworker);
1658
1659 aworker = create_worker(prog, "Get FString@File", 2, 2, WORKER_TYPE);
1660 aworker->implement_func=(custom_worker *)vis_file_get_fstring;
1661 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1662 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1663
1664 //add_method(this_comp, aworker);
1665
1666 aworker = create_worker(prog, "Get DString@File", 2, 4, WORKER_TYPE);
1667 aworker->implement_func=(custom_worker *)vis_file_get_dstring;
1668 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1669 aworker->input_types[1] = ANY_TYPE;
1670
1671 //add_method(this_comp, aworker);
1672
1673 aworker = create_worker(prog, "Get Byte@File", 1, 3, WORKER_TYPE);
1674 aworker->implement_func=(custom_worker *)vis_file_get_byte;
1675 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1676 //add_method(this_comp, aworker);
1677
1678 aworker = create_worker(prog, "Get Word@File", 1, 3, WORKER_TYPE);
1679 aworker->implement_func=(custom_worker *)vis_file_get_word;
1680 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1681 //add_method(this_comp, aworker);
1682
1683 aworker = create_worker(prog, "Get Long@File", 1, 3, WORKER_TYPE);
1684 aworker->implement_func=(custom_worker *)vis_file_get_long;
1685 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1686 //add_method(this_comp, aworker);
1687
1688 aworker = create_worker(prog, "Put String@File", 2, 1, WORKER_TYPE);
1689 aworker->implement_func=(custom_worker *)vis_file_put_string;
1690 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1691 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1692
1693 aworker = create_worker(prog, "Length@File", 1, 1, WORKER_TYPE);
1694 aworker->implement_func=(custom_worker *)vis_file_length;
1695 aworker->input_types[0] = BUILTIN_TYPE_FILE;
1696
1697 //add_method(this_comp, aworker);
1698 #endif
1699
1700 current_method = 0;
1701
1702 this_comp = create_company(prog, "Worker", 3, 0, FALSE);//<String, Do, Later: methods for manipulating
1703
1704 aworker = create_worker(prog, "<String@Worker", 1, 1, WORKER_TYPE);
1705 aworker->implement_func=(custom_worker *)vis_worker_from_string;
1706 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1707 //add_method(this_comp, aworker);
1708
1709 aworker = create_worker(prog, "Do@Worker", 2, 1, WORKER_TYPE);
1710 aworker->implement_func=(custom_worker *)vis_worker_do;
1711 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1712 aworker->input_types[1] = BUILTIN_TYPE_LIST;
1713
1714 aworker = create_worker(prog, "Set Input@Worker", 3, 1, WORKER_TYPE);
1715 aworker->implement_func=(custom_worker *)vis_worker_setinput;
1716 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1717 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1718 aworker->input_types[2] = ANY_TYPE;
1719 //add_method(this_comp, aworker);
1720
1721 aworker = create_worker(prog, "Add Worker Call@Worker", 2, 2, WORKER_TYPE);
1722 aworker->implement_func=(custom_worker *)vis_worker_add_worker_call;
1723 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1724 aworker->input_types[1] = BUILTIN_TYPE_WORKER;
1725
1726 aworker = create_worker(prog, "Add Wire@Worker", 5, 1, WORKER_TYPE);
1727 aworker->implement_func=(custom_worker *)vis_worker_add_wire;
1728 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1729 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1730 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
1731 aworker->input_types[3] = BUILTIN_TYPE_WHOLE;
1732 aworker->input_types[4] = BUILTIN_TYPE_WHOLE;
1733
1734 aworker = create_worker(prog, "Add Constant@Worker", 2, 2, WORKER_TYPE);
1735 aworker->implement_func=(custom_worker *)vis_worker_add_constant;
1736 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1737 aworker->input_types[1] = ANY_TYPE;
1738
1739 aworker = create_worker(prog, "Add Input@Worker", 3, 2, WORKER_TYPE);
1740 aworker->implement_func=(custom_worker *)vis_worker_add_input;
1741 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1742 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1743 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
1744
1745 aworker = create_worker(prog, "Add Output@Worker", 3, 2, WORKER_TYPE);
1746 aworker->implement_func=(custom_worker *)vis_worker_add_output;
1747 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1748 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1749 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
1750
1751 aworker = create_worker(prog, "Add Object Get@Worker", 2, 2, WORKER_TYPE);
1752 aworker->implement_func=(custom_worker *)vis_worker_add_objectget;
1753 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1754 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1755
1756 aworker = create_worker(prog, "Add Object Set@Worker", 2, 2, WORKER_TYPE);
1757 aworker->implement_func=(custom_worker *)vis_worker_add_objectset;
1758 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1759 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1760
1761 aworker = create_worker(prog, "Add Global Get@Worker", 3, 2, WORKER_TYPE);
1762 aworker->implement_func=(custom_worker *)vis_worker_add_globalget;
1763 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1764 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1765 aworker->input_types[2] = BUILTIN_TYPE_STRING;
1766
1767 aworker = create_worker(prog, "Add Global Set@Worker", 3, 2, WORKER_TYPE);
1768 aworker->implement_func=(custom_worker *)vis_worker_add_globalset;
1769 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1770 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1771 aworker->input_types[2] = BUILTIN_TYPE_STRING;
1772
1773 aworker = create_worker(prog, "Clear@Worker", 1, 1, WORKER_TYPE);
1774 aworker->implement_func=(custom_worker *)vis_worker_clear;
1775 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1776
1777 aworker = create_worker(prog, "Uses@Worker", 2, 1, WORKER_TYPE);
1778 aworker->implement_func=(custom_worker *)vis_worker_uses;
1779 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1780 aworker->input_types[1] = BUILTIN_TYPE_LIST;
1781
1782 aworker = create_worker(prog, "Set IO Counts@Worker", 3, 1, WORKER_TYPE);
1783 aworker->implement_func=(custom_worker *)vis_worker_setio_counts;
1784 aworker->input_types[0] = BUILTIN_TYPE_WORKER;
1785 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1786 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
1787
1788 aworker = create_worker(prog, "New@Worker", 1, 1, WORKER_TYPE);
1789 aworker->implement_func=(custom_worker *)vis_worker_new;
1790 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1791
1792 #ifdef GUI_LIB
1793 current_method = 0;
1794
1795 this_comp = create_company(prog, "Window", 3, 0, FALSE);
1796
1797 aworker = create_worker(prog, "New@Window", 3, 1, WORKER_TYPE);
1798 aworker->implement_func=(custom_worker *)vis_window_new;
1799 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1800 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1801 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1802 //add_method(this_comp, aworker);
1803
1804 aworker = create_worker(prog, "Add Widget@Window", 5, 1, WORKER_TYPE);
1805 aworker->implement_func=(custom_worker *)vis_window_add_widget;
1806 aworker->input_types[0] = BUILTIN_TYPE_WINDOW;
1807 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1808 aworker->input_types[2] = ANY_TYPE;
1809 aworker->input_types[3] = BUILTIN_TYPE_REAL;
1810 aworker->input_types[4] = BUILTIN_TYPE_REAL;
1811 //add_method(this_comp, aworker);
1812
1813 aworker = create_worker(prog, "Show@Window", 3, 1, WORKER_TYPE);
1814 aworker->implement_func=(custom_worker *)vis_window_show;
1815 aworker->input_types[0] = BUILTIN_TYPE_WINDOW;
1816 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1817 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1818 //add_method(this_comp, aworker);
1819
1820 current_method = 0;
1821 this_comp = create_company(prog, "Screen Window", 3, 0, FALSE);
1822
1823 aworker = create_worker(prog, "Get Value@Screen Window", 2, 1, WORKER_TYPE);
1824 aworker->implement_func=(custom_worker *)vis_window_get_value;
1825 aworker->input_types[0] = BUILTIN_TYPE_WINDOW_SHOWN;
1826 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1827 //add_method(this_comp, aworker);
1828
1829 aworker = create_worker(prog, "Set Value@Screen Window", 3, 0, WORKER_TYPE);
1830 aworker->implement_func=(custom_worker *)vis_window_set_value;
1831 aworker->input_types[0] = BUILTIN_TYPE_WINDOW_SHOWN;
1832 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1833 #ifdef SYLLABLE
1834 aworker->input_types[2] = ANY_TYPE;
1835 #else
1836 aworker->input_types[2] = BUILTIN_TYPE_STRING;
1837 #endif
1838 //add_method(this_comp, aworker);
1839
1840 aworker = create_worker(prog, "Wait Close@Screen Window", 1, 1, WORKER_TYPE);
1841 aworker->implement_func=(custom_worker *)vis_window_wait_close;
1842 aworker->input_types[0] = BUILTIN_TYPE_WINDOW_SHOWN;
1843 //add_method(this_comp, aworker);
1844
1845 #ifdef SYLLABLE
1846 aworker = create_worker(prog, "Add Widget@Screen Window", 5, 1, WORKER_TYPE);
1847 aworker->implement_func=(custom_worker *)vis_window_shown_addwidget;
1848 aworker->input_types[0] = BUILTIN_TYPE_WINDOW_SHOWN;
1849 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1850 aworker->input_types[2] = ANY_TYPE;
1851 aworker->input_types[3] = BUILTIN_TYPE_REAL;
1852 aworker->input_types[4] = BUILTIN_TYPE_REAL;
1853 #endif
1854
1855 current_method = 0;
1856 create_company(prog, "Button", 2, 0, FALSE);
1857
1858 aworker = create_worker(prog, "New@Button", 3, 1, WORKER_TYPE);
1859 aworker->implement_func=(custom_worker *)vis_button_new;
1860 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1861 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1862 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1863 //add_method(this_comp, aworker);
1864
1865 aworker = create_worker(prog, "Set Handler@Button", 3, 1, WORKER_TYPE);
1866 aworker->implement_func=(custom_worker *)vis_button_set_handler;
1867 aworker->input_types[0] = BUILTIN_TYPE_BUTTON;
1868 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1869 aworker->input_types[2] = BUILTIN_TYPE_WORKER;
1870 //add_method(this_comp, aworker);
1871
1872 current_method = 0;
1873 create_company(prog, "Input Box", 2, 0, FALSE);
1874
1875 aworker = create_worker(prog, "New@Input Box", 3, 1, WORKER_TYPE);
1876 aworker->implement_func=(custom_worker *)vis_inputbox_new;
1877 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1878 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1879 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1880 //add_method(this_comp, aworker);
1881
1882 aworker = create_worker(prog, "Set Type@Input Box", 2, 1, WORKER_TYPE);
1883 aworker->implement_func=(custom_worker *)vis_inputbox_settype;
1884 aworker->input_types[0] = BUILTIN_TYPE_INPUTBOX;
1885 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1886 //add_method(this_comp, aworker);
1887
1888 #endif
1889 #ifndef NO_NET
1890 this_comp = create_company(prog, "Net Client", 3, 0, FALSE);
1891 aworker = create_worker(prog, "New@Net Client", 2, 1, WORKER_TYPE);
1892 aworker->implement_func =(custom_worker *)net_client_new;
1893 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1894 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1895
1896 aworker = create_worker(prog, "Put String@Net Client", 2, 2, WORKER_TYPE);
1897 aworker->implement_func = (custom_worker *)net_client_put_string;
1898 aworker->input_types[0] = BUILTIN_TYPE_NETCLIENT;
1899 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1900
1901 aworker = create_worker(prog, "Get FString@Net Client", 2, 3, WORKER_TYPE);
1902 aworker->implement_func = (custom_worker *)net_client_get_fstring;
1903 aworker->input_types[0] = BUILTIN_TYPE_NETCLIENT;
1904 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
1905
1906 aworker = create_worker(prog, "Get DString@Net Client", 2, 4, WORKER_TYPE);
1907 aworker->implement_func = (custom_worker *)net_client_get_dstring;
1908 aworker->input_types[0] = BUILTIN_TYPE_NETCLIENT;
1909 aworker->input_types[1] = ANY_TYPE;
1910
1911 aworker = create_worker(prog, "Put Raw@Net Client", 2, 2, WORKER_TYPE);
1912 aworker->implement_func = (custom_worker *)net_client_put_raw;
1913 aworker->input_types[0] = BUILTIN_TYPE_NETCLIENT;
1914 aworker->input_types[1] = ANY_TYPE;
1915
1916 aworker = create_worker(prog, "Get Raw@Net Client", 2, 3, WORKER_TYPE);
1917 aworker->implement_func = (custom_worker *)net_client_get_raw;
1918 aworker->input_types[0] = BUILTIN_TYPE_NETCLIENT;
1919 aworker->input_types[1] = ANY_TYPE;
1920
1921 aworker = create_worker(prog, "Listen on Port", 2, 0, WORKER_TYPE);
1922 aworker->implement_func = (custom_worker *)vis_net_listenport;
1923 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
1924 aworker->input_types[1] = BUILTIN_TYPE_WORKER;
1925 #endif
1926
1927 create_company(prog, "Global Store", 0, 0, FALSE);
1928
1929 create_company(prog, "Program", 5, 0, FALSE);
1930
1931 aworker = create_worker(prog, "New@Program", 0, 1, WORKER_TYPE);
1932 aworker->implement_func = (custom_worker *)vis_program_new;
1933
1934 aworker = create_worker(prog, "New Worker@Program", 2, 2, WORKER_TYPE);
1935 aworker->implement_func = (custom_worker *)vis_program_new_worker;
1936 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
1937 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1938
1939 aworker = create_worker(prog, "Add Worker@Program", 2, 2, WORKER_TYPE);
1940 aworker->implement_func = (custom_worker *)vis_program_add_worker;
1941 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
1942 aworker->input_types[1] = BUILTIN_TYPE_WORKER;
1943
1944 aworker = create_worker(prog, "Add Builtins@Program", 1, 1, WORKER_TYPE);
1945 aworker->implement_func = (custom_worker *)vis_program_add_builtins;
1946 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
1947
1948 aworker = create_worker(prog, "Run@Program", 2, 1, WORKER_TYPE);
1949 aworker->implement_func = (custom_worker *)vis_program_run;
1950 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
1951 aworker->input_types[1] = ANY_TYPE;
1952
1953 aworker = create_worker(prog, "Find Worker@Program", 2, 2, WORKER_TYPE);
1954 aworker->implement_func = (custom_worker *)vis_program_find_worker;
1955 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
1956 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1957
1958 #ifdef GUI_LIB
1959 #ifdef SYLLABLE
1960 create_company(prog, "Custom Widget", 2, 0, FALSE);
1961
1962 aworker = create_worker(prog, "New@Custom Widget", 3, 1, WORKER_TYPE);
1963 aworker->implement_func=(custom_worker *)vis_customwidget_new;
1964 aworker->input_types[0] = BUILTIN_TYPE_STRING;
1965 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1966 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1967 //add_method(this_comp, aworker);
1968
1969 aworker = create_worker(prog, "Set Handler@Custom Widget", 3, 1, WORKER_TYPE);
1970 aworker->implement_func=(custom_worker *)vis_button_set_handler;
1971 aworker->input_types[0] = BUILTIN_TYPE_CUSTOM_WIDGET;
1972 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1973 aworker->input_types[2] = BUILTIN_TYPE_WORKER;
1974 //add_method(this_comp, aworker);
1975
1976 create_company(prog, "Screen Custom Widget", 3, 0, FALSE);
1977
1978 aworker = create_worker(prog, "Default Draw@Screen Custom Widget", 1, 1, WORKER_TYPE);
1979 aworker->implement_func=(custom_worker *)vis_screen_custom_defaultpaint;
1980 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
1981 //add_method(this_comp, aworker);
1982
1983 aworker = create_worker(prog, "Draw Line@Screen Custom Widget", 5, 1, WORKER_TYPE);
1984 aworker->implement_func=(custom_worker *)vis_screen_custom_drawline;
1985 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
1986 aworker->input_types[1] = BUILTIN_TYPE_REAL;
1987 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1988 aworker->input_types[3] = BUILTIN_TYPE_REAL;
1989 aworker->input_types[4] = BUILTIN_TYPE_REAL;
1990 //add_method(this_comp, aworker);
1991
1992 aworker = create_worker(prog, "Draw String@Screen Custom Widget", 4, 1, WORKER_TYPE);
1993 aworker->implement_func=(custom_worker *)vis_screen_custom_drawstring;
1994 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
1995 aworker->input_types[1] = BUILTIN_TYPE_STRING;
1996 aworker->input_types[2] = BUILTIN_TYPE_REAL;
1997 aworker->input_types[3] = BUILTIN_TYPE_REAL;
1998
1999 aworker = create_worker(prog, "Set Draw Color@Screen Custom Widget", 5, 1, WORKER_TYPE);
2000 aworker->implement_func=(custom_worker *)vis_screen_custom_setdrawcolor;
2001 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2002 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2003 aworker->input_types[2] = BUILTIN_TYPE_WHOLE;
2004 aworker->input_types[3] = BUILTIN_TYPE_WHOLE;
2005 aworker->input_types[4] = BUILTIN_TYPE_WHOLE;
2006
2007 aworker = create_worker(prog, "Move By@Screen Custom Widget", 3, 1, WORKER_TYPE);
2008 aworker->implement_func=(custom_worker *)vis_screen_custom_moveby;
2009 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2010 aworker->input_types[1] = BUILTIN_TYPE_REAL;
2011 aworker->input_types[2] = BUILTIN_TYPE_REAL;
2012
2013 aworker = create_worker(prog, "Set Handler@Screen Custom Widget", 3, 1, WORKER_TYPE);
2014 aworker->implement_func=(custom_worker *)vis_screen_custom_sethandler;
2015 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2016 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2017 aworker->input_types[2] = BUILTIN_TYPE_WORKER;
2018
2019 aworker = create_worker(prog, "Remove Handler@Screen Custom Widget", 2, 1, WORKER_TYPE);
2020 aworker->implement_func=(custom_worker *)vis_screen_custom_removehandler;
2021 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2022 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2023
2024 aworker = create_worker(prog, "Give Focus@Screen Custom Widget", 2, 1, WORKER_TYPE);
2025 aworker->implement_func=(custom_worker *)vis_screen_custom_givefocus;
2026 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2027 aworker->input_types[1] = BUILTIN_TYPE_YESNO;
2028
2029 aworker = create_worker(prog, "Add Widget@Screen Custom Widget", 5, 1, WORKER_TYPE);
2030 aworker->implement_func=(custom_worker *)vis_screen_custom_addwidget;
2031 aworker->input_types[0] = BUILTIN_TYPE_SCREEN_CUSTOM;
2032 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2033 aworker->input_types[2] = ANY_TYPE;
2034 aworker->input_types[3] = BUILTIN_TYPE_REAL;
2035 aworker->input_types[4] = BUILTIN_TYPE_REAL;
2036
2037 #endif
2038 #endif
2039 create_company(prog, "Buffer", 7, 0, FALSE);
2040
2041 aworker = create_worker(prog, "New@Buffer", 1, 1, WORKER_TYPE);
2042 aworker->implement_func=(custom_worker *)vis_buffer_new;
2043 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
2044
2045 aworker = create_worker(prog, "Lock@Buffer", 1, 1, WORKER_TYPE);
2046 aworker->implement_func=(custom_worker *)vis_buffer_lock;
2047 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2048
2049 aworker = create_worker(prog, "Unlock@Buffer", 1, 1, WORKER_TYPE);
2050 aworker->implement_func=(custom_worker *)vis_buffer_unlock;
2051 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2052
2053 aworker = create_worker(prog, "Put Byte@Buffer", 2, 1, WORKER_TYPE);
2054 aworker->implement_func=(custom_worker *)vis_buffer_putbyte;
2055 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2056 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2057
2058 aworker = create_worker(prog, "Write Byte@Buffer", 2, 1, WORKER_TYPE);
2059 aworker->implement_func=(custom_worker *)vis_buffer_writebyte;
2060 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2061 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2062
2063 aworker = create_worker(prog, "Put Word@Buffer", 2, 1, WORKER_TYPE);
2064 aworker->implement_func=(custom_worker *)vis_buffer_putshort;
2065 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2066 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2067
2068 aworker = create_worker(prog, "Write Word@Buffer", 2, 1, WORKER_TYPE);
2069 aworker->implement_func=(custom_worker *)vis_buffer_writeshort;
2070 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2071 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2072
2073 aworker = create_worker(prog, "Put Long@Buffer", 2, 1, WORKER_TYPE);
2074 aworker->implement_func=(custom_worker *)vis_buffer_putlong;
2075 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2076 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2077
2078 aworker = create_worker(prog, "Write Long@Buffer", 2, 1, WORKER_TYPE);
2079 aworker->implement_func=(custom_worker *)vis_buffer_writelong;
2080 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2081 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2082
2083 aworker = create_worker(prog, "Reset@Buffer", 1, 1, WORKER_TYPE);
2084 aworker->implement_func=(custom_worker *)vis_buffer_reset;
2085 aworker->input_types[0] = BUILTIN_TYPE_BUFFER;
2086
2087 #if defined(SEGA) || defined(NINTENDO_DS)
2088
2089 aworker = create_worker(prog, "From Address@Buffer", 2, 1, WORKER_TYPE);
2090 aworker->implement_func=(custom_worker *)vis_buffer_fromaddress;
2091 aworker->input_types[0] = BUILTIN_TYPE_WHOLE;
2092 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2093 #endif //SEGA
2094
2095 create_company(prog, "Blueprint", 4, 0, FALSE);
2096
2097 aworker = create_worker(prog, "New@Blueprint", 1, 1, WORKER_TYPE);
2098 aworker->implement_func=(custom_worker *)vis_blueprint_new;
2099 aworker->input_types[0] = BUILTIN_TYPE_STRING;
2100
2101 aworker = create_worker(prog, "Add Field@Blueprint", 3, 1, WORKER_TYPE);
2102 aworker->implement_func=(custom_worker *)vis_blueprint_addfield;
2103 aworker->input_types[0] = BUILTIN_TYPE_BLUEPRINT;
2104 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2105 aworker->input_types[2] = BUILTIN_TYPE_STRING;
2106
2107 aworker = create_worker(prog, "Name@Blueprint", 1, 1, WORKER_TYPE);
2108 aworker->implement_func=(custom_worker *)vis_blueprint_name;
2109 aworker->input_types[0] = BUILTIN_TYPE_BLUEPRINT;
2110
2111 aworker = create_worker(prog, "Get Fields@Blueprint", 1, 1, WORKER_TYPE);
2112 aworker->implement_func=(custom_worker *)vis_blueprint_getfields;
2113 aworker->input_types[0] = BUILTIN_TYPE_BLUEPRINT;
2114
2115 aworker = create_worker(prog, "Blueprint Of", 1, 1, WORKER_TYPE);
2116 aworker->implement_func=(custom_worker *)vis_get_blueprint;
2117 aworker->input_types[0] = ANY_TYPE;
2118
2119 aworker = create_worker(prog, "Get Field", 2, 2, WORKER_TYPE);
2120 aworker->implement_func=(custom_worker *)vis_get_field;
2121 aworker->input_types[0] = ANY_TYPE;
2122 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2123
2124 aworker = create_worker(prog, "Set Field", 3, 1, WORKER_TYPE);
2125 aworker->implement_func=(custom_worker *)vis_set_field;
2126 aworker->input_types[0] = ANY_TYPE;
2127 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2128 aworker->input_types[2] = ANY_TYPE;
2129
2130 aworker = create_worker(prog, "New Blueprint@Program", 2, 2, WORKER_TYPE);
2131 aworker->implement_func=(custom_worker *)vis_program_newblueprint;
2132 aworker->input_types[0] = BUILTIN_TYPE_PROGRAM;
2133 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2134
2135 #ifdef SYLLABLE
2136 create_company(prog, "Checkbox", 2, 0, FALSE);
2137
2138 aworker = create_worker(prog, "New@Checkbox", 4, 1, WORKER_TYPE);
2139 aworker->implement_func=(custom_worker *)vis_checkbox_new;
2140 aworker->input_types[0] = BUILTIN_TYPE_STRING;
2141 aworker->input_types[1] = BUILTIN_TYPE_REAL;
2142 aworker->input_types[2] = BUILTIN_TYPE_REAL;
2143 aworker->input_types[3] = BUILTIN_TYPE_YESNO;
2144
2145 aworker = create_worker(prog, "Set Handler@Checkbox", 3, 1, WORKER_TYPE);
2146 aworker->implement_func=(custom_worker *)vis_button_set_handler;
2147 aworker->input_types[0] = BUILTIN_TYPE_CHECKBOX;
2148 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2149 aworker->input_types[2] = BUILTIN_TYPE_WORKER;
2150
2151 create_company(prog, "Dropdown", 4, 0, FALSE);
2152
2153 aworker = create_worker(prog, "New@Dropdown", 3, 1, WORKER_TYPE);
2154 aworker->implement_func=(custom_worker *)vis_dropdown_new;
2155 aworker->input_types[0] = BUILTIN_TYPE_LIST;
2156 aworker->input_types[1] = BUILTIN_TYPE_REAL;
2157 aworker->input_types[2] = BUILTIN_TYPE_REAL;
2158
2159 aworker = create_worker(prog, "Set Handler@Dropdown", 3, 1, WORKER_TYPE);
2160 aworker->implement_func=(custom_worker *)vis_button_set_handler;
2161 aworker->input_types[0] = BUILTIN_TYPE_DROPDOWN;
2162 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2163 aworker->input_types[2] = BUILTIN_TYPE_WORKER;
2164
2165 aworker = create_worker(prog, "Set Text@Dropdown", 2, 1, WORKER_TYPE);
2166 aworker->implement_func=(custom_worker *)vis_dropdown_settext;
2167 aworker->input_types[0] = BUILTIN_TYPE_DROPDOWN;
2168 aworker->input_types[1] = BUILTIN_TYPE_STRING;
2169
2170 aworker = create_worker(prog, "Select@Dropdown", 2, 1, WORKER_TYPE);
2171 aworker->implement_func=(custom_worker *)vis_dropdown_select;
2172 aworker->input_types[0] = BUILTIN_TYPE_DROPDOWN;
2173 aworker->input_types[1] = BUILTIN_TYPE_WHOLE;
2174 #endif
2175
2176 /*if(current_def > num_defs)
2177 num_defs = current_def;
2178 if(current_company > num_companies)
2179 num_companies = current_company;*/
2180 }
2181
2182 void initworkers(program * prog)
2183 {
2184 //num_defs=0;
2185 //num_companies=0;
2186 create_worker(prog, "Main", 0, 0, USER_FLAG | WORKER_TYPE);
2187
2188 initpredefworkers(prog);
2189
2190 }
2191 /*
2192 void add_if_ready(int workerNum, worker_instance * instance)
2193 {
2194 //int i, j, n, old_ready_count;
2195 BOOL ready=FALSE;
2196 //int paramstore[32];
2197 //int * params = paramstore;
2198 DEBUGPUTS("add_if_ready\n");
2199 if(!instance || !instance->def)
2200 return;
2201 VIS_PROFILE_START(PROF_ADDREADY);
2202 DEBUGPRINTF( "add_if_ready on %s\n", instance->def->implement_func->workerlist[workerNum].name);
2203 VIS_EnterCriticalSection(instance->workerlist[workerNum].worker_lock);
2204 ++instance->workerlist[workerNum].ready_count;
2205 if(instance->workerlist[workerNum].ready_count >= (instance->def->implement_func->workerlist[workerNum].num_inputs + (instance->def->implement_func->workerlist[workerNum].null_input ? 1 : 0)))
2206 {
2207 ready = TRUE;
2208 instance->workerlist[workerNum].ready_count = 0;
2209 }
2210 VIS_LeaveCriticalSection(instance->workerlist[workerNum].worker_lock);
2211 if(ready)
2212 {
2213 DEBUGPRINTF("add_queue on %s\n", instance->def->implement_func->workerlist[workerNum].name);
2214 add_queue(workerNum, instance);
2215 }
2216 VIS_PROFILE_END(PROF_ADDREADY);
2217 }*/
2218 #define RETURN_CODE_EXIT 0xABCE1234
2219 #define RETURN_CODE_IDLE 0x00BADFAD
2220 #define RETURN_CODE_NORMAL 0xABBAABBA
2221 #define RETURN_CODE_PARALLEL 0xC001D00D
2222 #define GET_OP1(opcode) ((opcode & 0xF0000000) >> 28)
2223 #define GET_OP2(opcode) ((opcode & 0x0F000000) >> 24)
2224 #define GET_INST(opcode) ((opcode & 0x00FF0000) >> 16)
2225
2226 #define MOVE_INST 0x00
2227 #define ADDREF_INST 0x01
2228 #define RELEASE_INST 0x02
2229 #define LOAD_INST 0x03
2230 #define CALL_INST 0x04
2231 #define CALLB_INST 0x05
2232 #define CALLP_INST 0x06
2233 #define CALLBP_INST 0x07
2234 #define RETURN_INST 0x08
2235 #define BRANCH_INST 0x09
2236 #define BRANCHT_INST 0x0A
2237 #define BRANCHF_INST 0x0B
2238 #define WAIT_INST 0x0C
2239 #define ADD_INST 0x0D
2240 #define SUB_INST 0x0E
2241 #define SUBR_INST 0x0F
2242 #define GREATER_INST 0x10
2243 #define LESSER_INST 0x11
2244
2245 #define REGISTER_BIT 0x8
2246 #define NO_OPERAND 0x7
2247 #define OP_REG_MASK 0x7
2248 #define GET_REGNUM1(opcode) ((opcode & 0x0000FF00) >> 8)
2249 #define GET_REGNUM2(opcode) (opcode & 0x000000FF)
2250
2251 #define REG_DIRECT 0
2252 #define REG_INDIRECT 1
2253 #define IMMED_8 2
2254 #define IMMED_32 3
2255 #define STACK_8 4
2256 #define REG_REL_32 5
2257 #define PC_REL_8 6
2258
2259 #define STACK_REG 31
2260 #define PC_REG 30
2261
2262 #define OPC(inst, op1, reg1, op2, reg2) ((op1 << 28) | (op2 << 24) | (inst << 16) | ((reg1 & 0xff) << 8) | (reg2 & 0xFF))
2263
2264 //unsigned long test_program[] =
2265 //{
2266 // OPC(LOAD_INST, PC_REL_8, 8 /* Hi */, REG_DIRECT, 0),
2267 // OPC(CALLB_INST, IMMED_8, 1/* Print */, NO_OPERAND, 0),
2268 // OPC(RETURN_INST, NO_OPERAND, 0, NO_OPERAND, 0),
2269 // 26952//Hi
2270 //};
2271
2272 unsigned long test_program[] =
2273 {
2274 //Main:
2275 OPC(LOAD_INST, PC_REL_8, 20/* 10 */, REG_DIRECT, 0),
2276 OPC(LOAD_INST, PC_REL_8, 20/* 2 */, PC_REL_8, 28),
2277 OPC(LOAD_INST, PC_REL_8, 20/* 1 */, PC_REL_8, 28),
2278 OPC(CALL_INST, PC_REL_8, 28/* Fib: */, NO_OPERAND, 0),
2279 OPC(CALLB_INST, IMMED_8, 1/* Print */, NO_OPERAND, 0),
2280 OPC(RETURN_INST, NO_OPERAND, 0, NO_OPERAND, 0),
2281 0x3033,//'30'
2282 0x32,//'2'
2283 0x31,//'1'
2284 0,//2 storage
2285 0,//1 storage
2286 //Fib:
2287 OPC(ADD_INST, IMMED_8, 8, REG_DIRECT, STACK_REG),
2288 OPC(MOVE_INST, REG_DIRECT, 0, STACK_8, -4),
2289 OPC(ADDREF_INST, REG_INDIRECT, 0, NO_OPERAND, 0),
2290 OPC(ADDREF_INST, REG_INDIRECT, 0, NO_OPERAND, 0),
2291 OPC(MOVE_INST, PC_REL_8, -28/* 2 */, REG_DIRECT, 1),
2292 OPC(ADDREF_INST, REG_INDIRECT, 1, NO_OPERAND, 0),
2293 OPC(CALLB_INST, IMMED_8, 8/* < */, NO_OPERAND, 0),
2294 OPC(CALLB_INST, IMMED_8, 11/* If */, NO_OPERAND, 0),
2295 OPC(BRANCHT_INST, PC_REL_8, 64/* _Base */, REG_DIRECT, 0),
2296
2297 OPC(RELEASE_INST, REG_INDIRECT, 1, NO_OPERAND, 0),
2298 OPC(MOVE_INST, STACK_8, -4, REG_DIRECT, 0),
2299 OPC(MOVE_INST, PC_REL_8, -56/* 2 */, REG_DIRECT, 1),
2300 OPC(ADDREF_INST, REG_INDIRECT, 1, NO_OPERAND, 0),
2301 OPC(CALLB_INST, IMMED_8, 6/* - */, NO_OPERAND, 0),
2302 OPC(CALL_INST, PC_REL_8, -60/* Fib */, NO_OPERAND, 0),
2303 OPC(MOVE_INST, REG_DIRECT, 0, STACK_8, -8),
2304 OPC(MOVE_INST, STACK_8, -4, REG_DIRECT, 0),
2305 OPC(MOVE_INST, PC_REL_8, -76/* 1 */, REG_DIRECT, 1),
2306 OPC(ADDREF_INST, REG_INDIRECT, 1, NO_OPERAND, 0),
2307 OPC(CALLB_INST, IMMED_8, 6/* - */, NO_OPERAND, 0),
2308 OPC(CALL_INST, PC_REL_8, -84/* Fib */, NO_OPERAND, 0),
2309 OPC(MOVE_INST, STACK_8, -8, REG_DIRECT, 1),
2310 OPC(CALLB_INST, IMMED_8, 5/* + */, NO_OPERAND, 0),
2311 OPC(SUBR_INST, IMMED_8, 8, REG_DIRECT, STACK_REG),
2312 OPC(RETURN_INST, NO_OPERAND, 0, NO_OPERAND, 0),
2313 //_Base:
2314 OPC(RELEASE_INST, REG_INDIRECT, 0, NO_OPERAND, 0),
2315 OPC(MOVE_INST, PC_REL_8, -112/* 1 */, REG_DIRECT, 0),
2316 OPC(ADDREF_INST, REG_INDIRECT, 0, NO_OPERAND, 0),
2317 OPC(SUBR_INST, IMMED_8, 8, REG_DIRECT, STACK_REG),
2318 OPC(RETURN_INST, NO_OPERAND, 0, NO_OPERAND, 0),
2319
2320 };
2321
2322 unsigned long * get_effective_address(char op, unsigned short regnum, unsigned long ** pc, unsigned long * registers, unsigned long * immed)
2323 {
2324 unsigned long * add = NULL;
2325 unsigned long work;
2326 if(op != NO_OPERAND)
2327 {
2328 if(op & REGISTER_BIT)
2329 add = (unsigned long *)(registers[regnum] + registers[op & OP_REG_MASK]);
2330 else
2331 {
2332 switch(op)
2333 {
2334 case REG_DIRECT:
2335 add = registers + regnum;
2336 break;
2337 case REG_INDIRECT:
2338 add = (unsigned long *) registers[regnum];
2339 break;
2340 case IMMED_8:
2341 *immed = (char)regnum;
2342 add = (unsigned long *)immed;
2343 break;
2344 case IMMED_32:
2345 *immed = *((*pc)++);
2346 add = (unsigned long *)immed;
2347 break;
2348 case STACK_8:
2349 work = (char)regnum;
2350 add = (unsigned long *)(registers[STACK_REG] + work);
2351 break;
2352 case REG_REL_32:
2353 work = *((*pc)++);
2354 add = (unsigned long *)(registers[regnum] + work);
2355 break;
2356 case PC_REL_8:
2357 work = (char)regnum;
2358 add = (unsigned long *)(registers[PC_REG] + work);
2359 break;
2360 default:
2361 break;
2362 }
2363 }
2364 }
2365 return add;
2366 }
2367
2368 DWORD WINAPI virtual_processor(unsigned long * program, BOOL main)
2369 {
2370 int i;
2371 unsigned long **pc;
2372 unsigned long **stack;
2373 unsigned long registers[32];
2374 unsigned long opcode;
2375 unsigned long extra, extra2;
2376 queue_entry entry;
2377 stack_segment initial_stack;
2378 stack_segment * current = &initial_stack;
2379 char slot_usage[7];
2380 char op1, op2;
2381 char inst;
2382 unsigned long *add1, *add2;
2383 long immed1, immed2;
2384 initial_stack.size = MIN_STACK_SIZE;
2385 initial_stack.parent = initial_stack.child = NULL;
2386 initial_stack.data[0] = main ? RETURN_CODE_EXIT : RETURN_CODE_IDLE;
2387 pc = (unsigned long **)(&(registers[PC_REG]));
2388 stack = (unsigned long **)(&(registers[STACK_REG]));
2389 *pc = program;
2390 *stack = (unsigned long *)(initial_stack.data + 1);
2391 entry.instance = NULL;
2392 entry.worker_num = 0;
2393 DEBUGPRINTF("Virtual processor, Program start: %X\n", program);
2394 #ifdef ENABLE_PROFILING
2395 for(i = 0; i < NUM_PROFS; ++i)
2396 {
2397 vis_profile_running_total[i] = 0;
2398 vis_profile_counts[i] = 0;
2399 }
2400 VIS_PROFILE_START(PROF_EMPTYFUNC);
2401 empty_test(NULL,NULL);
2402 VIS_PROFILE_END(PROF_EMPTYFUNC);
2403 VIS_PROFILE_START(PROF_NOCODE);
2404 VIS_PROFILE_END(PROF_NOCODE);
2405 #endif
2406 while(execute_active)
2407 {
2408 VIS_PROFILE_START(PROF_VIRTUAL_DECODE);
2409 DEBUGPRINTF("PC: %X\n", *pc);
2410 opcode = *((*pc)++);
2411 op1 = GET_OP1(opcode);
2412 op2 = GET_OP2(opcode);
2413 add1 = get_effective_address(op1, GET_REGNUM1(opcode), pc, registers, &immed1);
2414 add2 = get_effective_address(op2, GET_REGNUM2(opcode), pc, registers, &immed2);
2415 DEBUGPRINTF("Opcode: %X, Instruction: %X, op1 %X, op2 %X\n", opcode, GET_INST(opcode), op1, op2);
2416 inst = GET_INST(opcode);
2417 VIS_PROFILE_END(PROF_VIRTUAL_DECODE);
2418 VIS_PROFILE_START(PROF_VIRTUAL_EXECUTE);
2419 switch(inst)
2420 {
2421 case MOVE_INST:
2422 *add2 = *add1;
2423 break;
2424 case ADDREF_INST:
2425 add_ref((datum *)add1);
2426 break;
2427 case RELEASE_INST:
2428 release_ref((datum *)add1);
2429 break;
2430 /*
2431 Temporarily commented out until multiple program support is finished
2432 case LOAD_INST:
2433 *add2 = (long)get_constant((char *)add1, -1);
2434 break;
2435 */
2436 case CALL_INST:
2437 *((*stack)++) = (unsigned long)*pc;
2438 *((*stack)++) = RETURN_CODE_NORMAL;
2439 *pc = add1;
2440 break;
2441 /*
2442 Temporarily commented out until multiple program support is finished
2443 case CALLB_INST:
2444 //TODO: Needs to be made 100% correct
2445 DEBUGPRINTF("Calling builtin: %s\n", deflist[*add1].name);
2446 execute_def(deflist + *add1, entry, (datum **)registers, NULL);
2447 break;*/
2448 case CALLP_INST:
2449 //TODO Implement me
2450 break;
2451 case CALLBP_INST:
2452 //TODO Implement me
2453 break;
2454 case RETURN_INST:
2455 switch(*(--(*stack)))
2456 {
2457 case RETURN_CODE_EXIT:
2458 execute_active = FALSE;
2459 break;
2460 case RETURN_CODE_IDLE:
2461 //TODO: Implement me
2462 break;
2463 case RETURN_CODE_NORMAL:
2464 *pc = (unsigned long *)*(--(*stack));
2465 break;
2466 default:
2467 break;
2468 }
2469 break;
2470 case BRANCH_INST:
2471 *pc = add1;
2472 break;
2473 case BRANCHT_INST:
2474 if(*add2)
2475 *pc = add1;
2476 break;
2477 case BRANCHF_INST:
2478 if(!*add2)
2479 *pc = add1;
2480 break;
2481 case WAIT_INST:
2482 //TODO: Implement Me
2483 break;
2484 case ADD_INST:
2485 *add2 = *add1 + *add2;
2486 break;
2487 case SUB_INST:
2488 *add2 = *add1 - *add2;
2489 break;
2490 case SUBR_INST:
2491 *add2 = *add2 - *add1;
2492 break;
2493 case GREATER_INST:
2494 *add2 = *add1 > *add2;
2495 break;
2496 case LESSER_INST:
2497 *add2 = *add1 < *add2;
2498 break;
2499 default:
2500 break;
2501 }
2502 VIS_PROFILE_END(PROF_VIRTUAL_EXECUTE);
2503 }
2504 #ifdef ENABLE_PROFILING
2505 for(i = 0; i < NUM_PROFS; ++i)
2506 printf("%d:\t%f,\tcount: %d,\taverage: %f\n", i, (double)vis_profile_running_total[i], vis_profile_counts[i], ((double)vis_profile_running_total[i])/((double)vis_profile_counts[i]));
2507 #endif
2508 return 0;
2509 }
2510
2511 void test_virtual()
2512 {
2513 // int i,j,k;
2514 program * prog = new_program(START_DEF_STORAGE, START_COMP_STORAGE);
2515 initpredefworkers(prog);
2516 init_sync_primitives();
2517 init_datum_storage();
2518 //TODO Uncomment me
2519 // init_global_storage();
2520 execute_active = TRUE;
2521 /* for(i = MOVE_INST; i <= LESSER_INST; ++i)
2522 {
2523 for(j = 0; j < 0x10; ++j)
2524 {
2525 for(k = 0; k < 0x10; ++k)
2526 {
2527 DEBUGPRINTF("i: %X, j: %X, k: %X, OPC: %X\n", i, j, k, OPC(i, j, j, k, k));
2528 }
2529 }
2530 }*/
2531 virtual_processor(test_program, TRUE);
2532 }
2533
2534 DWORD WINAPI worker_thread(LPVOID param)
2535 {
2536 queue_entry aworker;
2537 int temp_queue_len;
2538 while(execute_active)
2539 {
2540 VIS_PROFILE_START(PROF_WORKER_THREAD);
2541 #ifdef NINTENDO_DS
2542 if(irq_queue_count > 0)
2543 run_queued_irqs();
2544 #endif
2545 //DEBUGPUTS("Before WaitForSingleObect\n");
2546 /*VIS_EnterCriticalSection(worker_queue_lock);
2547 temp_queue_len = queue_len;
2548 VIS_LeaveCriticalSection(worker_queue_lock);*/
2549 //DEBUGPUTS("After WaitForSingleObject\n");
2550 aworker = get_queue();
2551 //DEBUGPUTS("After get_queue()\n");
2552 //while(execute_active && aworker.worker_num < 0)//temp_queue_len == 0 && execute_active)
2553 //{
2554 // VIS_WaitEvent(queue_add_event);
2555 // aworker = get_queue();
2556 /*#if COMPILE_THREADS > 0
2557 #ifdef WIN32
2558 Sleep(0);
2559 #else
2560 sleep(0);
2561 #endif
2562 #endif
2563 VIS_EnterCriticalSection(worker_queue_lock);
2564 temp_queue_len = queue_len;
2565 VIS_LeaveCriticalSection(worker_queue_lock);*/
2566 //}
2567
2568 if(aworker.worker_num >= 0)
2569 {
2570 //DEBUGPUTS("Before EnterCriticalSection\n");
2571
2572 /* VIS_EnterCriticalSection(worker_queue_lock);
2573 if(queue_len > 0)
2574 {
2575 DEBUGPUTS("SetEvent\n");
2576 VIS_SetEvent(queue_add_event);
2577 }
2578 VIS_LeaveCriticalSection(worker_queue_lock);*/
2579 DEBUGPRINTF( "\nExecuting: %s<%d>, Instance: %X\n", aworker.instance->def->implement_func->workerlist[aworker.worker_num].name,aworker.worker_num,aworker.instance);
2580
2581 if(process_worker(aworker) == 0)
2582 {
2583 //worker_complete(aworker);
2584 cleanup_check(aworker);
2585 //DEBUGPUTS("After cleanup_check\n");
2586
2587 }
2588
2589 }
2590 VIS_PROFILE_END(PROF_WORKER_THREAD);
2591 }
2592 VIS_SetEvent(queue_add_event);
2593 return 0;
2594 }
2595
2596 int set_comp_room(datum ** params, int room_index, queue_entry * entry, program * prog)
2597 {
2598 int i;
2599 char * data;
2600 //DEBUGPRINTF("params[0]->ref_count: %d\n", params[0]->ref_count);
2601 params[0] = copy_datum(params[0], 0);
2602 data = ((char *)(params[0]->c.generic.data) + (int)params[0]->company->room_list[room_index].set_func);
2603 DEBUGPRINTF("Set comp room: c.generic.data = %X, +get_func = %X\n", params[0]->c.generic.data, data);
2604 //TODO: input conversion
2605 switch(params[0]->company->room_list[room_index].get_func_type)
2606 {
2607 case ROOM_BYTE:
2608 *data = params[1]->c.integers.num_a;
2609 release_ref(params[1]);
2610 break;
2611 case ROOM_SHORT:
2612 *((short *)data) = params[1]->c.integers.num_a;
2613 release_ref(params[1]);
2614 break;
2615 case ROOM_LONG:
2616 *((long *)data) = params[1]->c.integers.num_a;
2617 release_ref(params[1]);
2618 break;
2619 case ROOM_SINGLE:
2620 *((float *)data) = params[1]->c.real;
2621 release_ref(params[1]);
2622 break;
2623 case ROOM_DOUBLE:
2624 *((double *)data) = params[1]->c.real;
2625 release_ref(params[1]);
2626 break;
2627 case ROOM_VIS_REF:
2628 release_ref(*((datum **)data));
2629 *((datum **)data) = params[1];
2630 break;
2631 case ROOM_CSTRING: //not implemented
2632 case ROOM_CSTRING_STRUCT:
2633 case ROOM_PSTRING:
2634 case ROOM_PSTRING_STRUCT:
2635 case ROOM_WORKER://not implemented
2636 case ROOM_VIS_OBJECT://not implemented
2637 default:
2638 release_ref(params[0]);
2639 release_ref(params[1]);
2640 params[0] = params[1] = NULL;
2641 puts("unimplemented company room type\n");
2642 break;
2643 }
2644 return 0;
2645 }
2646
2647 int set_comp_room_by_name(datum ** company, char * name, int * room_index_ret, queue_entry * entry, program * prog)
2648 {
2649 int i;
2650 for (i = 0; i < company[0]->company->num_rooms; ++i)
2651 if(!strcmp(name,company[0]->company->room_list[i].name))
2652 {
2653 if(room_index_ret)
2654 *room_index_ret = i;
2655 return set_comp_room(company, i, entry, prog);
2656 }
2657 if(room_index_ret)
2658 *room_index_ret = -1;
2659 return -1;
2660 }
2661
2662 int get_comp_room(datum ** company, int room_index, queue_entry * entry, program * prog)
2663 {
2664 int i;
2665 datum * out;
2666 queue_entry empty;
2667 char * data = ((char *)(company[0]->c.generic.data) + (int)company[0]->company->room_list[room_index].get_func);
2668 company[1] = NULL;
2669 DEBUGPRINTF("Get comp room: c.generic.data = %X, +get_func = %X\n", company[0]->c.generic.data, data);
2670 switch(company[0]->company->room_list[room_index].get_func_type)
2671 {
2672 case ROOM_BYTE:
2673 out = new_datum(BUILTIN_TYPE_WHOLE, 2, 0, prog);
2674 out->c.integers.num_a = *data;
2675 break;
2676 case ROOM_SHORT:
2677 out = new_datum(BUILTIN_TYPE_WHOLE, 2, 0, prog);
2678 out->c.integers.num_a = *((short *)data);
2679 break;
2680 case ROOM_LONG:
2681 out = new_datum(BUILTIN_TYPE_WHOLE, 2, 0, prog);
2682 out->c.integers.num_a = *((long *)data);
2683 break;
2684 case ROOM_SINGLE:
2685 out = new_datum(BUILTIN_TYPE_REAL, 3, 0, prog);
2686 out->c.real = *((float *)data);
2687 break;
2688 case ROOM_DOUBLE:
2689 out = new_datum(BUILTIN_TYPE_REAL, 3, 0, prog);
2690 out->c.real = *((double *)data);
2691 break;
2692 case ROOM_CSTRING:
2693 data = *((char **)data);
2694 case ROOM_CSTRING_STRUCT:
2695 out = new_datum(BUILTIN_TYPE_STRING, 1, strlen(data)+1, prog);
2696 strcpy(out->c.generic.data, data);
2697 break;
2698 case ROOM_PSTRING:
2699 data = *((char **)data);
2700 case ROOM_PSTRING_STRUCT:
2701 out = new_datum(BUILTIN_TYPE_STRING, 1, *((unsigned char *)data), prog);
2702 memcpy(out->c.generic.data, data, *((unsigned char *)data));
2703 ((char *)out->c.generic.data)[*((unsigned char *)data)] = '\0';
2704 break;
2705 case ROOM_VIS_REF:
2706 out = add_ref(*((datum **)data));
2707 if(!out) {
2708 company[1] = company[0];
2709 company[0] = NULL;
2710 }
2711 break;
2712 case ROOM_WORKER:
2713 if(entry)
2714 return execute_def((worker_def *)(company[0]->company->room_list[room_index].get_func), *entry, company, sub_callback);
2715 else
2716 {
2717 empty.instance = NULL;
2718 empty.worker_num = -1;
2719 return execute_def((worker_def *)(company[0]->company->room_list[room_index].get_func), empty, company, sub_callback);
2720 }
2721 case ROOM_VIS_OBJECT://not implemented
2722 default:
2723 out = NULL;
2724 puts("unimplemented company room type\n");
2725 break;
2726 }
2727 release_ref(company[0]);
2728 company[0] = out;
2729 return 0;
2730 }
2731
2732 int get_comp_room_by_name(datum ** company, char * name, int * room_index_ret, queue_entry * entry, program * prog)
2733 {
2734 int i;
2735 for (i = 0; i < company[0]->company->num_rooms; ++i)
2736 if(!strcmp(name,company[0]->company->room_list[i].name))
2737 {
2738 if(room_index_ret)
2739 *room_index_ret = i;
2740 return get_comp_room(company, i, entry, prog);
2741 }
2742 if(room_index_ret)
2743 *room_index_ret = -1;
2744 return -1;
2745 }
2746
2747 datum * literal_string(char * value, int len, program * prog)
2748 {
2749 char literalchar;
2750 BOOL literal;
2751 int i, bufpos, lenstr;
2752 datum * returnval;
2753
2754 if(len < 0) {
2755 len = strlen(value);
2756 }
2757
2758 literal = FALSE;
2759 lenstr = 0;
2760 for(i = 0; i < len; ++i)
2761 if(literal)
2762 literal = FALSE;
2763 else
2764 {
2765 ++lenstr;
2766 if(value[i] == '\\')
2767 literal = TRUE;
2768 }
2769 //DEBUGPRINTF("Allocating %d bytes for string constant\n", lenstr+1);
2770 returnval = new_datum(BUILTIN_TYPE_STRING, 1, lenstr+1, prog);
2771 bufpos = 0;
2772 for(i = 0; i < len; ++i)
2773 {
2774 if(literal)
2775 {
2776 literal = FALSE;
2777 switch(value[i])
2778 {
2779 case 'n': //newline
2780 literalchar = '\n';
2781 break;
2782 case 'r': //carriage return
2783 literalchar = '\r';
2784 break;
2785 case 't': // tab
2786 literalchar = '\t';
2787 break;
2788 case '0': //NULL
2789 literalchar = '\0';
2790 break;
2791 default:
2792 literalchar = value[i];
2793 break;
2794 }
2795 ((char *)returnval->c.generic.data)[bufpos++] = literalchar;
2796 }
2797 else
2798 {
2799 if(value[i] == '\\')
2800 literal = TRUE;
2801 else
2802 {
2803 ((char *)returnval->c.generic.data)[bufpos++] = value[i];
2804 }
2805 }
2806 }
2807 //DEBUGPRINTF("bufpos: %d\n", bufpos);
2808 ((char *)returnval->c.generic.data)[bufpos] = '\0';
2809 DEBUGPUTS("Constant Type: String\n");
2810 return returnval;
2811 }
2812
2813 datum * get_constant(char * value, int len, program * prog)
2814 {
2815 datum * params[2];
2816 datum * returnval;
2817 int i = 0,bufpos;
2818 int start;
2819 int lenstr;
2820 int leftcurly;
2821 int dotcount = 0;
2822 char literalchar;
2823 unsigned short const_type = ANY_TYPE;
2824 BOOL literal;
2825 if((len == 3 && memcmp(value, "Yes", len) == 0) || (len < 0 && strcmp(value, "Yes") == 0))
2826 {
2827 DEBUGPUTS("Constnat: Yes\n");
2828 returnval = new_datum(BUILTIN_TYPE_YESNO, 2, 0, prog);
2829 returnval->c.integers.num_a = 1;
2830 DEBUGPRINTF("Company: %s, integers.num_a: %d\n", returnval->company->name, returnval->c.integers.num_a);
2831 return returnval;
2832 }
2833 else if((len == 2 && memcmp(value, "No", len) == 0) || (len < 0 && strcmp(value, "No") == 0))
2834 {
2835 DEBUGPUTS("Constant: No\n");
2836 returnval = new_datum(BUILTIN_TYPE_YESNO, 2, 0, prog);
2837 returnval->c.integers.num_a = 0;
2838 DEBUGPRINTF("Company: %s, integers.num_a: %d\n", returnval->company->name, returnval->c.integers.num_a);
2839 return returnval;
2840 }
2841 if(value[0] == '{')
2842 {
2843 DEBUGPUTS("Constant type: List");
2844 params[0] = create_list(prog);
2845 i = start = 1;
2846 literal = FALSE;
2847 leftcurly = 0;
2848 for(;value[i] != 0 && (len < 0 || i < len); ++i)
2849 {
2850 if(literal)
2851 literal = FALSE;
2852 else
2853 {
2854 if(value[i] == '\\')
2855 literal = TRUE;
2856 else if(value[i] == '}')
2857 if(leftcurly)
2858 --leftcurly;
2859 else
2860 break;
2861 else if(value[i] == '{')
2862 ++leftcurly;
2863 else if(value[i] == ',' && !leftcurly)
2864 {
2865 params[1] = get_constant(value+start, i-start, prog);
2866 vis_list_append(params, NULL);
2867 start = i+1;
2868 }
2869 }
2870 }
2871 params[1]= get_constant(value+start, i-start, prog);
2872 vis_list_append(params, NULL);
2873 returnval = params[0];
2874 }
2875 else if(value[0] == '"')
2876 {
2877 if(len < 0) {
2878 len = strlen(value);
2879 }
2880 len -= 2;
2881 returnval = literal_string(value+1, len, prog);
2882
2883 }
2884 else
2885 {
2886 while(value[i] != 0 && (len < 0 || i < len))
2887 {
2888 if(value[i] >= '0' && value[i] <= '9')
2889 {
2890 if(const_type == ANY_TYPE)
2891 const_type = BUILTIN_TYPE_WHOLE;
2892 }
2893 else if(value[i] == '.')
2894 {
2895 if(dotcount)
2896 {
2897 const_type = BUILTIN_TYPE_STRING;
2898 }
2899 else
2900 {
2901 ++dotcount;
2902 if(const_type == BUILTIN_TYPE_WHOLE)
2903 const_type = BUILTIN_TYPE_REAL;
2904 }
2905 }
2906 else
2907 {
2908 //DEBUGPRINTF("Current character: %c resulted in String\n", value[i]);
2909 const_type = BUILTIN_TYPE_STRING;
2910 break;
2911 }
2912 ++i;
2913 }
2914
2915 if(const_type == BUILTIN_TYPE_WHOLE)
2916 {
2917 returnval = new_datum(const_type, 2, 0, prog);
2918 returnval->c.integers.num_a = atol(value);
2919 DEBUGPUTS("Constant Type: Whole Number\n");
2920 }
2921 else if(const_type == BUILTIN_TYPE_REAL)
2922 {
2923 returnval = new_datum(const_type, 3, 0, prog);
2924 returnval->c.real = atof(value);
2925 DEBUGPUTS("Constant Type: Real Number\n");
2926 }
2927 else
2928 {
2929 /* literal = FALSE;
2930 lenstr = 0;
2931 for(i = 0; (i < len || len < 0) && value[i] != 0; ++i)
2932 if(literal)
2933 literal = FALSE;
2934 else
2935 {
2936 ++lenstr;
2937 if(value[i] == '\\')
2938 literal = TRUE;
2939 }
2940 DEBUGPRINTF("Allocating %d bytes for string constant\n", lenstr+1);
2941 returnval = new_datum(BUILTIN_TYPE_STRING, 1, lenstr+1, prog);
2942 bufpos = 0;
2943 for(i = 0; (i < len || len < 0) && value[i] != 0; ++i)
2944 {
2945 DEBUGPRINTF("bufpos: %d\n", bufpos);
2946 if(literal)
2947 {
2948 literal = FALSE;
2949 switch(value[i])
2950 {
2951 case 'n': //newline
2952 literalchar = '\n';
2953 break;
2954 case 'r': //carriage return
2955 literalchar = '\r';
2956 break;
2957 case 't': // tab
2958 literalchar = '\t';
2959 break;
2960 case '0': //NULL
2961 literalchar = '\0';
2962 break;
2963 default:
2964 literalchar = value[i];
2965 break;
2966 }
2967 ((char *)returnval->c.generic.data)[bufpos++] = literalchar;
2968 }
2969 else
2970 {
2971 if(value[i] == '\\')
2972 literal = TRUE;
2973 else
2974 {
2975 ((char *)returnval->c.generic.data)[bufpos++] = value[i];
2976 }
2977 }
2978 }
2979 DEBUGPRINTF("bufpos: %d\n", bufpos);
2980 ((char *)returnval->c.generic.data)[bufpos] = '\0';
2981 DEBUGPUTS("Constant Type: String\n"); */
2982 returnval = literal_string(value, len, prog);
2983 }
2984 }
2985 return returnval;
2986 }
2987
2988 int execute_def(worker_def * process_def, queue_entry worker_entry, datum ** params, instance_callback callback)
2989 {
2990 return execute_def_type(process_def, worker_entry, params, callback, NULL, WORKER);
2991 }
2992 int execute_def_data(worker_def * process_def, queue_entry worker_entry, datum ** params, instance_callback callback, void * data)
2993 {
2994 return execute_def_type(process_def, worker_entry, params, callback, data, WORKER);
2995 }
2996
2997 int execute_def_type(worker_def * process_def, queue_entry worker_entry, datum ** params, instance_callback callback, void * data, int type)
2998 {
2999 int returnval, i;
3000 worker_instance * stack_instance;
3001 worker_def *temp_def, *converter;
3002 worker_def *parent_def = worker_entry.instance->def;
3003 unsigned short magic_cache_type;
3004 #ifdef USER_PROFILE
3005 LARGE_INTEGER start, end, duration;
3006 #endif
3007 VIS_PROFILE_START(PROF_PREP_MAGIC);
3008 if((process_def->type & TYPE_MASK) == MAGIC_TYPE)
3009 {
3010 DEBUGPRINTF( "Magic method: %s\n", process_def->name);
3011 if(!params || !params[0])
3012 {
3013 ERRORPRINTF("Error: null first parmeter or null parameter array for worker %s\n", process_def->name);
3014 print_stack_trace(worker_entry.instance);
3015 execute_active = FALSE;
3016 return -1;
3017 }
3018 VIS_EnterCriticalSection(parent_def->implement_func->workerlist[worker_entry.worker_num].lock);
3019 temp_def = parent_def->implement_func->workerlist[worker_entry.worker_num].magic_cache_implement;
3020 magic_cache_type = parent_def->implement_func->workerlist[worker_entry.worker_num].magic_cache_type;
3021 VIS_LeaveCriticalSection(parent_def->implement_func->workerlist[worker_entry.worker_num].lock);
3022 if(!temp_def || magic_cache_type != params[0]->company->type_id)
3023 {
3024 DEBUGPRINTF("Finding method %s with %d inputs for type %s(%d)\n", process_def->name, process_def->num_inputs, params[0]->company->name, params[0]->company->type_id);
3025 temp_def = find_method(params[0]->company->type_id,process_def->name, process_def->num_inputs, process_def->program);
3026 if(!temp_def)
3027 {
3028 for(i = 1; i < process_def->program->num_companies; ++i)
3029 {
3030 temp_def = find_method(i,process_def->name, process_def->num_inputs, process_def->program);
3031 if(temp_def)
3032 {
3033 converter = find_converter_method(temp_def->input_types[0], params[0]->company->type_id, process_def->program);
3034 if(converter)
3035 {
3036 ((worker_impl)converter->implement_func)(params, &worker_entry);
3037 break;
3038 }
3039 else
3040 {
3041 //DEBUGPRINTF("Error: Needed conversion from %s to %s for input %d of %s\n", params[0]->company->name, process_def->program->companylist[temp_def->input_types[0]].name, 0, temp_def->name);
3042 //printf("Warning: Needed conversion from %s to %s for input %d of %s for loose method call\n", params[0]->company->name, process_def->program->companylist[temp_def->input_types[0]].name, 0, temp_def->name);
3043 temp_def = NULL;
3044 }
3045 }
3046 }
3047 }
3048 if(temp_def)
3049 {
3050 VIS_EnterCriticalSection(parent_def->implement_func->workerlist[worker_entry.worker_num].lock);
3051 parent_def->implement_func->workerlist[worker_entry.worker_num].magic_cache_implement = temp_def;
3052 parent_def->implement_func->workerlist[worker_entry.worker_num].magic_cache_type = temp_def->input_types[0];
3053 VIS_LeaveCriticalSection(parent_def->implement_func->workerlist[worker_entry.worker_num].lock);
3054 }
3055 else
3056 {
3057 ERRORPRINTF("Error: Company %s doesn't implement worker %s. It implements the following:\n", params[0]->company->name, process_def->name);
3058 for(i = 0; i < params[0]->company->num_methods; ++i)
3059 {
3060 ERRORPRINTF("%s\n", params[0]->company->methodlist[i]->name);
3061 }
3062 print_stack_trace(worker_entry.instance);
3063 }
3064 }
3065 process_def = temp_def;
3066 }
3067 VIS_PROFILE_END(PROF_PREP_MAGIC);
3068 if(!process_def)
3069 {
3070 //DEBUGPUTS("Invalid def\n");
3071 VIS_PROFILE_END(PROF_EXECUTE_WORKER);
3072 execute_active = FALSE;
3073 return -2;
3074 }
3075
3076 VIS_PROFILE_START(PROF_CONVERT_INPUTS);
3077 for(i = 0; i < process_def->num_inputs; ++i)
3078 {
3079 DEBUGPRINTF("params[%d] = %X\n", i, params[i]);
3080 if(process_def->input_types[i] != ANY_TYPE && process_def->input_types[i] != params[i]->company->type_id)
3081 {
3082 DEBUGPRINTF("Input %d needs conversion from %d to %d\n", i, params[i]->company->type_id, process_def->input_types[i]);
3083 converter = find_converter_method(process_def->input_types[i], params[i]->company->type_id, process_def->program);
3084 if(!converter)
3085 {
3086 if(worker_entry.instance) {
3087 ERRORPRINTF("Error: Needed conversion from %s to %s for input %d of %s in worker %s\n", params[i]->company->name, process_def->program->companylist[process_def->input_types[i]].name, i, process_def->name, worker_entry.instance->def->name);
3088 } else {
3089 DEBUGPRINTF("Error: Needed conversion from %s to %s for input %d of %s\n", params[i]->company->name, process_def->program->companylist[process_def->input_types[i]].name, i, process_def->name);
3090 printf("Error: Needed conversion from %s to %s for input %d of %s", params[i]->company->name, process_def->program->companylist[process_def->input_types[i]].name, i, process_def->name);
3091 }
3092 execute_active = FALSE;
3093 VIS_PROFILE_END(PROF_PROCESS_WORKER);
3094 return -3;
3095 }
3096 ((worker_impl)(converter->implement_func))(params+i, &worker_entry);
3097 }
3098 }
3099 VIS_PROFILE_END(PROF_CONVERT_INPUTS);
3100
3101 if(process_def->type & USER_FLAG)
3102 {
3103 VIS_PROFILE_START(PROF_EXECUTE_CUSTOM);
3104 //
3105 init_custom_worker_type(worker_entry.worker_num, worker_entry.instance, process_def, callback, data, params, type);
3106 VIS_PROFILE_END(PROF_EXECUTE_CUSTOM);
3107 VIS_PROFILE_END(PROF_PROCESS_WORKER);
3108 VIS_PROFILE_END(PROF_EXECUTE_WORKER);
3109 return 1;
3110 }
3111 else
3112 {
3113 VIS_PROFILE_START(PROF_EXECUTE_BUILTIN);
3114 //DEBUGPRINTF("%s: before deflist[%d].implement_func: %X. vis_append: %X vis_print: %X\n",def->implement_func->workerlist[aworker].name, def->implement_func->workerlist[aworker].value_index, (int)deflist[def->implement_func->workerlist[aworker].value_index].implement_func, (int)vis_append, (int)vis_print);
3115 #ifdef USER_PROFILE
3116 QueryPerformanceCounter(&start);
3117 #endif
3118 returnval = ((worker_impl)(process_def->implement_func))(params, &worker_entry);
3119 #ifdef USER_PROFILE
3120 if(!returnval)
3121 {
3122 QueryPerformanceCounter(&end);
3123 duration.QuadPart = end.QuadPart - start.QuadPart;
3124 VIS_EnterCriticalSection(process_def->lock);
3125 process_def->total.QuadPart += duration.QuadPart;
3126 ++process_def->count;
3127 if(duration.QuadPart > process_def->worst.QuadPart)
3128 process_def->worst.QuadPart = duration.QuadPart;
3129 VIS_LeaveCriticalSection(process_def->lock);
3130 }
3131 #endif
3132 //DEBUGPUTS("Builtin worker returned\n");
3133 VIS_PROFILE_END(PROF_EXECUTE_BUILTIN);
3134 return returnval;
3135 }
3136 }
3137
3138 void wait_callback(worker_instance * caller_instance, int caller_workerenum, worker_instance * done_instance, void * data)
3139 {
3140 int i;
3141 def_done * done = (def_done *)data;
3142 //DEBUGPUTS("begin wait_callback\n");
3143 for(i = 0; i < done_instance->def->num_outputs; ++i)
3144 done->params[i] = NULL;
3145 for(i = 0; i < done_instance->def->implement_func->num_workers; ++i)
3146 {
3147 if(done_instance->def->implement_func->workerlist[i].type == 4)
3148 {
3149 if(!(done->params[done_instance->def->implement_func->workerlist[i].io_num]))
3150 {
3151 done->params[done_instance->def->implement_func->workerlist[i].io_num] = done_instance->workerlist[i].value;
3152 done_instance->workerlist[i].value = NULL;
3153 }
3154 }
3155 }
3156 //DEBUGPUTS("Before EnterCritical\n");
3157 VIS_EnterCriticalSection(done->lock);
3158 done->done_flag = TRUE;
3159 VIS_LeaveCriticalSection(done->lock);
3160 //DEBUGPUTS("After EnterCritical\n");
3161 }
3162
3163
3164 BOOL execute_def_wait(worker_def * def, datum ** params)
3165 {
3166 int val;
3167 def_done done;
3168 queue_entry entry;
3169 entry.worker_num = 0;
3170 entry.instance = NULL;
3171 VIS_InitializeCriticalSection(done.lock);
3172 done.done_flag = FALSE;
3173 done.params = params;
3174 val = execute_def_data(def, entry, params, wait_callback, &done);
3175 if(val == 0)
3176 return TRUE;
3177 else if (val < 0)
3178 return FALSE;
3179 while(1)
3180 {
3181 VIS_EnterCriticalSection(done.lock);
3182 if(done.done_flag)
3183 {
3184 VIS_DeleteCriticalSection(done.lock);
3185 break;
3186 }
3187 VIS_LeaveCriticalSection(done.lock);
3188 #if COMPILE_THREADS > 1
3189 #ifdef WIN32
3190 Sleep(0);
3191 #else
3192 sleep(0);
3193 #endif
3194 #endif
3195 }
3196 return TRUE;
3197 }
3198
3199 int process_worker(queue_entry worker_entry)
3200 {
3201 //datum * paramstore[32];
3202 datum ** params;// = paramstore;
3203 int i, j, start=0;
3204 global_store * store;
3205 char * varname;
3206 datum * varname_dat;
3207 datum * tempvalindex, *todelete;
3208 int got_params=0;
3209 int aworker = worker_entry.worker_num;
3210 worker_instance * instance = worker_entry.instance;
3211 worker_def * def = instance->def;
3212 worker_def * process_def;
3213 worker_def * temp_def;
3214 worker_def * converter;
3215 int returnval = 0;
3216 short const_type;
3217 char * last;
3218
3219 VIS_PROFILE_START(PROF_PROCESS_WORKER);
3220
3221 DEBUGPRINTF( "Processing worker %d with %d inputs and %d outputs\n", aworker,def->implement_func->workerlist[aworker].num_inputs, def->implement_func->workerlist[aworker].num_outputs);
3222 /*VIS_EnterCriticalSection(instance->workerlist[aworker].worker_lock);
3223 for(i = 0; i < def->implement_func->workerlist[aworker].num_inputs; ++i)
3224 {
3225 params[i] = instance->workerlist[aworker].params[i+1];
3226 DEBUGPRINTF("params[%d] = %X\n", i, params[i]);
3227 instance->workerlist[aworker].params[i+1] = NULL;
3228 }*/
3229 if(def->implement_func->workerlist[aworker].null_input)
3230 {
3231 //DEBUGPUTS("About to call release_ref\n");
3232 release_ref(instance->workerlist[aworker].params[0]);
3233 instance->workerlist[aworker].params[0] = NULL;
3234 }
3235 //VIS_LeaveCriticalSection(instance->workerlist[aworker].worker_lock);
3236 //DEBUGPRINTF("Param check complete. returnval: %d, start: %d\n", returnval, start);
3237 params = instance->workerlist[aworker].params+1;
3238
3239 if(def->implement_func->workerlist[aworker].type == WORKER || def->implement_func->workerlist[aworker].type == TAIL_RECURSE || def->implement_func->workerlist[aworker].type == TAIL_CALL)//Worker
3240 {
3241 VIS_PROFILE_START(PROF_EXECUTE_WORKER);
3242 //DEBUGPUTS("Worker\n");
3243 process_def = (worker_def *)(def->implement_func->workerlist[aworker].value_index);
3244 //DEBUGPUTS("Got process_def\n");
3245 DEBUGPRINTF("process_def->type: %X, type & TYPE_MASK: %X\n", process_def->type, (process_def->type & TYPE_MASK));
3246
3247 returnval = execute_def_type(process_def, worker_entry, params, sub_callback, NULL, def->implement_func->workerlist[aworker].type);
3248 DEBUGPRINTF("execute_def returned %d\n", returnval);
3249 if(returnval != 0)
3250 {
3251 VIS_PROFILE_END(PROF_PROCESS_WORKER);
3252 VIS_PROFILE_END(PROF_EXECUTE_WORKER);
3253 return returnval;
3254 }
3255 //DEBUGPRINTF("params[0] after execute_def: %X\n", params[0]);
3256
3257 //DEBUGPUTS("Before process_outputs\n");
3258
3259 process_outputs(params, aworker, instance);
3260 //DEBUGPUTS("After process_outputs\n");
3261
3262 VIS_PROFILE_END(PROF_EXECUTE_WORKER);
3263
3264 }
3265 else if(def->implement_func->workerlist[aworker].type == GET_GLOBAL)
3266 {
3267 varname = def->implement_func->workerlist[aworker].name + def->implement_func->workerlist[aworker].io_num;
3268 varname_dat = make_string(varname, -1, def->program);
3269 if(def->implement_func->workerlist[aworker].value_index < 0)
3270 {
3271 for(i = 0; i < instance->trans->num_stores; ++i)
3272 {
3273 VIS_EnterCriticalSection(instance->trans->stores[i].lock);
3274 params[0] = add_ref(instance->trans->stores[i].instance_data);
3275 VIS_LeaveCriticalSection(instance->trans->stores[i].lock);
3276 params[1] = add_ref(varname_dat);
3277 vis_dict_index(params, NULL);
3278
3279 if(params[0])
3280 {
3281 def->implement_func->workerlist[aworker].value_index = i;
3282 break;
3283 }
3284 }
3285 if(def->implement_func->workerlist[aworker].value_index < 0)
3286 {
3287 printf("Error: Variable %s not found in any global stores used by worker %s\n", varname, def->name);
3288 DEBUGPRINTF("Error: Variable %s not found in any global stores used by worker %s\n", varname, def->name);
3289 execute_active = FALSE;
3290 return -1;
3291 }
3292 }
3293 else
3294 {
3295 VIS_EnterCriticalSection(instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].lock);
3296 params[0] = add_ref(instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].instance_data);
3297 VIS_LeaveCriticalSection(instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].lock);
3298 params[1] = varname_dat;
3299 vis_dict_index(params, NULL);
3300 if(!params[0])
3301 {
3302 printf("Error: Global variable %s not found in worker %s\n", def->implement_func->workerlist[aworker].name, def->name);
3303 DEBUGPRINTF("Error: Global variable %s not found in worker %s\n", def->implement_func->workerlist[aworker].name, def->name);
3304 execute_active = FALSE;
3305 return -1;
3306 }
3307 }
3308 process_outputs(params, aworker, instance);
3309
3310
3311 }
3312 else if(def->implement_func->workerlist[aworker].type == SET_GLOBAL)
3313 {
3314 varname = def->implement_func->workerlist[aworker].name + def->implement_func->workerlist[aworker].io_num;
3315 varname_dat = make_string(varname, -1, def->program);
3316 params[2] = params[0];
3317 params[1] = varname_dat;
3318 VIS_EnterCriticalSection(instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].lock);
3319 //no add_ref here because we'll be replacing instance_data with the result of vis_dict set
3320 params[0] = instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].instance_data;
3321 vis_dict_set(params, NULL);
3322 instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].instance_data = params[0];
3323 VIS_LeaveCriticalSection(instance->trans->stores[(int)def->implement_func->workerlist[aworker].value_index].lock);
3324 //no outputs to process
3325 }
3326 else if(def->implement_func->workerlist[aworker].type == GET_COMP)
3327 {
3328 returnval = get_comp_room_by_name(params, def->implement_func->workerlist[aworker].name, NULL, &worker_entry, def->program);
3329 if(returnval)
3330 return returnval;
3331 process_outputs(params, aworker, instance);
3332 }
3333 else if(def->implement_func->workerlist[aworker].type == SET_COMP)
3334 {
3335 returnval = set_comp_room_by_name(params, def->implement_func->workerlist[aworker].name, NULL, &worker_entry, def->program);
3336 if(returnval)
3337 return returnval;
3338 process_outputs(params, aworker, instance);
3339 }
3340 else//Variable
3341 {
3342 VIS_PROFILE_START(PROF_EXECUTE_OTHER);
3343 if(def->implement_func->workerlist[aworker].num_inputs > 0 || def->implement_func->workerlist[aworker].type == INPUT) //Is this a Room or a constant?
3344 {
3345 todelete = NULL;
3346 VIS_EnterCriticalSection(instance->workerlist[aworker].worker_lock);
3347 if(def->implement_func->workerlist[aworker].type == OUTPUT)
3348 {
3349 todelete = instance->workerlist[aworker].value;
3350 instance->workerlist[aworker].value = params[0];
3351 DEBUGPRINTF("Setting room/output at pos %d to %X in instance %X\n", aworker, params[0], instance);
3352 }
3353 //tempvalindex = instance->workerlist[aworker].value;
3354 VIS_LeaveCriticalSection(instance->workerlist[aworker].worker_lock);
3355 if(def->implement_func->workerlist[aworker].type == INPUT)
3356 {
3357 params[0] = instance->workerlist[aworker].value;
3358 instance->workerlist[aworker].value = NULL;
3359 }
3360 if(todelete)
3361 release_ref(todelete);
3362 if(def->implement_func->workerlist[aworker].num_outputs)
3363 {
3364 //add_ref(tempvalindex);
3365 process_outputs(params/*&tempvalindex*/, aworker, instance);
3366 }
3367
3368 }
3369 else
3370 {
3371 //Hmm, do I potentially need another lock here?
3372 /*if(!(instance->def->implement_func->workerlist[aworker].value_index))
3373 {
3374 instance->def->implement_func->workerlist[aworker].value_index = (int)(tempvalindex=get_constant(def->implement_func->workerlist[aworker].name,-1));//(int)tempvalindex;
3375 }
3376 else*/
3377 tempvalindex = (datum *)instance->def->implement_func->workerlist[aworker].value_index;
3378 add_ref(tempvalindex);
3379 process_outputs(&tempvalindex, aworker, instance);
3380 }
3381 VIS_PROFILE_END(PROF_EXECUTE_OTHER);
3382 }
3383 VIS_PROFILE_END(PROF_PROCESS_WORKER);
3384 return returnval;
3385 }
3386
3387 #define OPT_RESULT 0
3388 #define OPT_CUST_RESULT 0x10000000
3389 #define OPT_CONST 0x20000000
3390 #define OPT_INPUT 0x30000000
3391
3392 int find_input_worker(custom_worker * cust, int aworker, int input, int *ret_output)
3393 {
3394 int o, p, wire_count;
3395 int out_worker;
3396 o = cust->workerlist[aworker].wire_up_lookup;
3397 wire_count = 0;
3398 while(cust->wirelist[p=cust->workers_to_wires_up[o]].end_worker == aworker && p >= 0)
3399 {
3400 if(cust->wirelist[p].input_num == input)
3401 {
3402 ++wire_count;
3403 out_worker = cust->wirelist[p].start_worker;
3404 DEBUGPRINTF("Input %d attached to %s(%d)\n", input, cust->workerlist[out_worker].name, out_worker);
3405 if(ret_output)
3406 *ret_output = cust->wirelist[p].output_num;
3407 }
3408 ++o;
3409 }
3410 DEBUGPRINTF("wire_count: %d\n", wire_count);
3411 if(wire_count == 1)
3412 return out_worker;
3413 return -1;
3414 }
3415
3416 int make_input_code(custom_worker * cust, BOOL * in_opt, int * pos_in_opt, int source_worker, int output_num, int index, opt_entry * opts, int * branch_flags, opt_entry ** branch_refs, int input_num, program * prog)
3417 {
3418 /*if(in_opt[source_worker])
3419 {
3420 if(prog->deflist[cust->workerlist[source_worker].value_index].type & USER_FLAG)
3421 {
3422 return OPT_CUST_RESULT | ((pos_in_opt[source_worker] & 0xFFFF) << 8) | (output_num & 0xFF);
3423 }
3424 else
3425 {
3426 if(strcmp(prog->deflist[cust->workerlist[source_worker].value_index].name, "If") == 0)
3427 {
3428 if(output_num == 0)
3429 {
3430 branch_flags[index] = 1;
3431 if(opts[pos_in_opt[source_worker]].branch1 <= index)
3432 opts[pos_in_opt[source_worker]].branch1 = index+1;
3433 }
3434 else
3435 {
3436 branch_flags[index] = 2;
3437 if(opts[pos_in_opt[source_worker]].branch2 <= index)
3438 opts[pos_in_opt[source_worker]].branch2 = index+1;
3439 }
3440 branch_refs[index] = opts + pos_in_opt[source_worker];
3441 }
3442 else if(branch_flags[pos_in_opt[source_worker]])
3443 {
3444 if(branch_flags[pos_in_opt[source_worker]] == 1)
3445 {
3446 branch_refs[pos_in_opt[source_worker]]->branch1 = index + 1;
3447 branch_flags[index] = 1;
3448 }
3449 else
3450 {
3451 branch_refs[pos_in_opt[source_worker]]->branch1 = index + 2;
3452 branch_flags[index] = 2;
3453 }
3454 branch_refs[index] = branch_refs[pos_in_opt[source_worker]];
3455 }
3456 else
3457 branch_flags[index] = 0;
3458 if(input_num >= 0)
3459 ++opts[pos_in_opt[source_worker]].output_refs[output_num];
3460 DEBUGPRINTF("OPT_RESULT: opt_num: %d, output_num: %d\n", pos_in_opt[source_worker], output_num);
3461 return OPT_RESULT | ((pos_in_opt[source_worker] & 0xFFFF) << 8) | (output_num & 0xFF);
3462 }
3463 }
3464 else if(cust->workerlist[source_worker].type == CONSTANT)
3465 {
3466 branch_flags[index] = 0;
3467 DEBUGPRINTF("OPT_CONST: %d\n", source_worker);
3468 return OPT_CONST | source_worker;
3469 }
3470 else if(cust->workerlist[source_worker].type == INPUT)
3471 {
3472 branch_flags[index] = 0;
3473 DEBUGPRINTF("OPT_INPUT: %d\n", cust->workerlist[source_worker].io_num);
3474 return OPT_INPUT | cust->workerlist[source_worker].io_num;
3475 }*/
3476 return -1;
3477 }
3478
3479 void optimize(worker_def * def)
3480 {
3481 /*
3482 int i,j,k,m,o,p;
3483 int * const_in;
3484 int num_entries = 0;
3485 int aworker;
3486 int adjust;
3487 int source_worker;
3488 int source_output;
3489 int source_null;
3490 int null_output;
3491 int wire_count;
3492 int * input_data;
3493 int current_null;
3494 int cust_result_count;
3495 int new_start;
3496 custom_worker * cust = def->implement_func;
3497 int start_current, end_current, new_current;
3498 worker_def * deflist = def->program->deflist;
3499 opt_entry * output = malloc(sizeof(opt_entry) * def->implement_func->num_workers);
3500 BOOL * in_opt = malloc(sizeof(BOOL) * cust->num_workers);
3501 int * branch_flags = malloc(sizeof(int) * cust->num_workers);
3502 opt_entry ** branch_refs = malloc(sizeof(int) * cust->num_workers);
3503 //BOOL * real_in_opt = malloc(sizeof(BOOL) * cust->num_workers);
3504 int * pos_in_opt = malloc(sizeof(int) * cust->num_workers);
3505 DEBUGPRINTF("deflist: %X\n", deflist);
3506 for(i = 0; i < cust->num_workers; ++i)
3507 {
3508 branch_flags[i] = 0;
3509 DEBUGPRINTF("%d: No input pass\n", i);
3510 DEBUGPRINTF("Examining: %s\n", cust->workerlist[i].name);
3511 if(cust->workerlist[i].num_inputs == 0 && !cust->workerlist[i].null_input && cust->workerlist[i].type == WORKER)
3512 {
3513 output[num_entries].def = deflist + cust->workerlist[i].value_index;
3514 DEBUGPRINTF("Set output[%d].def = %X\n", num_entries, output[num_entries].def);
3515 DEBUGPRINTF("opt: %d is %s\n\n", num_entries, cust->workerlist[i].name);
3516 output[num_entries].original_pos = i;
3517 output[num_entries].input_data = NULL;
3518 if(cust->workerlist[i].num_outputs)
3519 {
3520 output[num_entries].output_refs = malloc(sizeof(int)*cust->workerlist[i].num_outputs);
3521 for(j = 0; j < cust->workerlist[i].num_outputs; ++j)
3522 output[num_entries].output_refs[j] = 0;
3523 }
3524 else
3525 output[num_entries].output_refs = NULL;
3526 output[num_entries].branch1 = output[num_entries].branch2 = -1;
3527 //if(!(deflist[cust->workerlist[i].value_index].type & USER_FLAG))
3528 //{
3529 in_opt[i] = TRUE;
3530 pos_in_opt[i] = num_entries;
3531 //}
3532 //real_in_opt[i] = TRUE;
3533 ++num_entries;
3534 }
3535 else
3536 {
3537 //real_in_opt[i] = FALSE;
3538 in_opt[i] = FALSE;
3539 }
3540 }
3541 start_current = num_entries;
3542 for(i = 0; i < cust->num_workers; ++i)
3543 {
3544 DEBUGPRINTF("%d: Second pass\n", i);
3545 if(cust->workerlist[i].num_inputs == 0 && !cust->workerlist[i].null_input)
3546 {
3547 j = cust->workerlist[i].wire_down_lookup;
3548 while(cust->wirelist[k=cust->workers_to_wires_down[j]].start_worker == i && k >= 0)
3549 {
3550 aworker = cust->wirelist[k].end_worker;
3551 if(!in_opt[aworker])
3552 {
3553 DEBUGPRINTF("Examining: %s(%d)\n", cust->workerlist[aworker].name, aworker);
3554 if(cust->workerlist[i].null_input)
3555 adjust = 1;
3556 else
3557 adjust = 0;
3558 input_data = malloc(sizeof(int)* (cust->workerlist[aworker].num_inputs+adjust));
3559 for(m = (0-adjust); m < cust->workerlist[aworker].num_inputs; ++m)
3560 {
3561 DEBUGPRINTF("Input: %d\n", m);
3562 source_worker = find_input_worker(cust, aworker, m, &source_output);
3563 DEBUGPRINTF("source_worker: %d\n", source_worker);
3564 if(source_worker == -1)
3565 break;
3566 source_worker = make_input_code(cust, in_opt, pos_in_opt, source_worker, source_output, num_entries, output, branch_flags, branch_refs, m, def->program);
3567 DEBUGPRINTF("input code: %X\n", source_worker);
3568 if(source_worker == -1)
3569 break;
3570 input_data[m+adjust] = source_worker;
3571 if(source_worker == -1)
3572 break;
3573 }
3574 if(source_worker == -1)
3575 free(input_data);
3576 else
3577 {
3578 if(cust->workerlist[aworker].type == OUTPUT)
3579 output[num_entries].def = NULL;
3580 else
3581 output[num_entries].def = deflist + cust->workerlist[aworker].value_index;
3582 DEBUGPRINTF("Set output[%d].def = %X\n", num_entries, output[num_entries].def);
3583 DEBUGPRINTF("opt: %d is %s\n\n", num_entries, cust->workerlist[aworker].name);
3584 output[num_entries].original_pos = aworker;
3585 output[num_entries].input_data = input_data;
3586 output[num_entries].null_inputs = adjust;
3587 output[num_entries].branch1 = output[num_entries].branch2 = -1;
3588 if(cust->workerlist[aworker].num_outputs)
3589 {
3590 output[num_entries].output_refs = malloc(sizeof(int)*cust->workerlist[aworker].num_outputs);
3591 for(m = 0; m < cust->workerlist[aworker].num_outputs; ++m)
3592 output[num_entries].output_refs[m] = 0;
3593 }
3594 else
3595 output[num_entries].output_refs = NULL;
3596 //if(cust->workerlist[aworker].type != OUTPUT && !(deflist[cust->workerlist[aworker].value_index].type & USER_FLAG))
3597 //{
3598 in_opt[aworker] = TRUE;
3599 pos_in_opt[aworker] = num_entries;
3600 //}
3601 //real_in_opt[aworker] = TRUE;
3602 ++num_entries;
3603
3604 }
3605 }
3606 ++j;
3607 }
3608 }
3609 }
3610 DEBUGPUTS("Before While\n");
3611 end_current = num_entries;
3612 while(start_current != end_current)
3613 {
3614 DEBUGPRINTF("start_current: %d, end_current: %d\n", start_current, end_current);
3615 new_start = num_entries;
3616 for(i = start_current; i < end_current; ++i)
3617 {
3618 DEBUGPRINTF("opt: %d, def: %X, name: %s\n", i, output[i].def, cust->workerlist[output[i].original_pos].name);
3619 j = cust->workerlist[output[i].original_pos].wire_down_lookup;
3620 DEBUGPRINTF("wire_down_lookup: %d\n", j);
3621 while(cust->wirelist[k=cust->workers_to_wires_down[j]].start_worker == output[i].original_pos && k >= 0)
3622 {
3623 DEBUGPRINTF("Wire %d is attached to worker %d output %d and worker %d input %d\n", k, cust->wirelist[k].start_worker, cust->wirelist[k].output_num, cust->wirelist[k].end_worker, cust->wirelist[k].input_num);
3624 aworker = cust->wirelist[k].end_worker;
3625 //FIXME: Only works if constant/input attached to only one destination
3626 if(cust->workerlist[aworker].type == CONSTANT || cust->workerlist[aworker].type == INPUT)
3627 {
3628 DEBUGPRINTF("Worker is of type %d, ", cust->workerlist[aworker].type);
3629 aworker = cust->wirelist[cust->workers_to_wires_down[cust->workerlist[aworker].wire_down_lookup]].end_worker;
3630 DEBUGPRINTF("reruting to worker %d\n", aworker);
3631 }
3632 if(!in_opt[aworker])
3633 {
3634 DEBUGPRINTF("Examining: %s(%d)\n", cust->workerlist[aworker].name, aworker);
3635 if(cust->workerlist[i].null_input)
3636 adjust = 1;
3637 else
3638 adjust = 0;
3639 for(m = (0-adjust); m < cust->workerlist[aworker].num_inputs; ++m)
3640 {
3641 source_worker = find_input_worker(cust, aworker, m, &source_output);
3642 if(source_worker == -1)
3643 break;
3644 if(cust->workerlist[source_worker].null_input && cust->workerlist[source_worker].type != WORKER)
3645 ++adjust;
3646 }
3647 if(source_worker != -1)
3648 {
3649 current_null = 0;
3650 input_data = malloc(sizeof(int)* (cust->workerlist[aworker].num_inputs+adjust));
3651 cust_result_count = 0;
3652 for(m = (cust->workerlist[i].null_input ? -1 : 0); m < cust->workerlist[aworker].num_inputs; ++m)
3653 {
3654 DEBUGPRINTF("Input: %d\n", m);
3655 source_worker = find_input_worker(cust, aworker, m, &source_output);
3656 if(cust->workerlist[source_worker].null_input && cust->workerlist[source_worker].type != WORKER)
3657 {
3658 source_null = find_input_worker(cust, source_worker, -1, &null_output);
3659 if(source_null == -1)
3660 {
3661 source_worker = -1;
3662 break;
3663 }
3664 source_null = make_input_code(cust, in_opt, pos_in_opt, source_null, null_output, num_entries, output, branch_flags, branch_refs,-2, def->program);
3665 if((source_null & 0xF0000000) == OPT_CUST_RESULT)
3666 ++cust_result_count;
3667 if(source_null == -1)
3668 {
3669 source_worker = -1;
3670 break;
3671 }
3672 input_data[current_null++] = source_null;
3673 }
3674 DEBUGPRINTF("source_worker: %d\n", source_worker);
3675 source_worker = make_input_code(cust, in_opt, pos_in_opt, source_worker, source_output, num_entries, output, branch_flags, branch_refs, m, def->program);
3676 if((source_worker & 0xF0000000) == OPT_CUST_RESULT)
3677 ++cust_result_count;
3678 DEBUGPRINTF("input code: %d\n", source_worker);
3679 if(cust_result_count >= (cust->workerlist[aworker].num_inputs + adjust))
3680 source_worker = -1;
3681 if(source_worker == -1)
3682 break;
3683 input_data[m+adjust] = source_worker;
3684 }
3685 if(source_worker == -1)
3686 free(input_data);
3687 else
3688 {
3689 if(cust->workerlist[aworker].type == OUTPUT)
3690 output[num_entries].def = NULL;
3691 else
3692 output[num_entries].def = deflist + cust->workerlist[aworker].value_index;
3693 DEBUGPRINTF("Set output[%d].def = %X\n", num_entries, output[num_entries].def);
3694 DEBUGPRINTF("opt: %d is %s\n\n", num_entries, cust->workerlist[aworker].name);
3695 output[num_entries].original_pos = aworker;
3696 output[num_entries].input_data = input_data;
3697 output[num_entries].null_inputs = adjust;
3698 output[num_entries].branch1 = output[num_entries].branch2 = -1;
3699 if(cust->workerlist[aworker].num_outputs)
3700 {
3701 output[num_entries].output_refs = malloc(sizeof(int)*cust->workerlist[aworker].num_outputs);
3702 for(m = 0; m < cust->workerlist[aworker].num_outputs; ++m)
3703 output[num_entries].output_refs[m] = 0;
3704 }
3705 else
3706 output[num_entries].output_refs = NULL;
3707 //if(cust->workerlist[aworker].type != OUTPUT && !(deflist[cust->workerlist[aworker].value_index].type & USER_FLAG))
3708 //{
3709 in_opt[aworker] = TRUE;
3710 pos_in_opt[aworker] = num_entries;
3711 //}
3712 //real_in_opt[aworker] = TRUE;
3713 ++num_entries;
3714
3715 }
3716 }
3717 }
3718 ++j;
3719 }
3720 }
3721 start_current = new_start;
3722 end_current = num_entries;
3723 }
3724 def->optimized = output;
3725 def->opt_count = num_entries;
3726 DEBUGPUTS("optimize done\n\n\n");
3727 */
3728 }
3729
3730
3731 void run_optimized(worker_instance * instance, datum ** params)
3732 {
3733 int i = 0,j,k;
3734 unsigned short output, opt_num;
3735 datum * this_params[32];
3736 queue_entry entry;
3737 datum * val;
3738 BOOL skip;
3739 BOOL partial_flag;
3740 BOOL continue_flag;
3741 int count;
3742 int ready;
3743 int jump_from = -1;
3744 int jump_to = -1;
3745 int tmp, addnum;
3746 opt_entry * exec_list = instance->def->optimized;
3747 datum ** results = instance->opt_results;//malloc(sizeof(datum *) * instance->def->opt_count * 32);
3748 VIS_PROFILE_START(PROF_RUN_OPT);
3749 entry.instance = instance;
3750 for(i = 0; i < instance->def->opt_count; ++i)
3751 {
3752 VIS_PROFILE_START(PROF_OPT_LOOP);
3753 skip = FALSE;
3754 partial_flag = FALSE;
3755 continue_flag = FALSE;
3756 DEBUGPRINTF("\nPeparing exec_list[%d]\n", i);
3757 if(exec_list[i].def)
3758 {
3759 DEBUGPRINTF("Name: %s\n", exec_list[i].def->name);
3760 count = exec_list[i].def->num_inputs;
3761 }
3762 else
3763 count = 1;
3764 count += exec_list[i].null_inputs;
3765 //DEBUGPRINTF("Input count: %d\n", count);
3766 if(count && !exec_list[i].input_data)
3767 puts("Runtime Error: input data is NULL\n");
3768 //DEBUGPRINTF("input_data: %X\n", exec_list[i].input_data);
3769 VIS_PROFILE_START(PROF_OPT_PREP_INPUT);
3770 for(j = 0; j < count; ++j)
3771 {
3772 val = NULL;
3773 continue_flag = FALSE;
3774 switch(exec_list[i].input_data[j] & 0xF0000000)
3775 {
3776 case OPT_RESULT:
3777 output = exec_list[i].input_data[j] & 0xFF;
3778 opt_num = (exec_list[i].input_data[j] >> 8)& 0xFFFF;
3779 DEBUGPRINTF("OPT_RESULT for input %d, opt_num: %d, output: %d\n", j, opt_num, output);
3780 val = results[(opt_num * 32) | output];
3781 break;
3782 case OPT_CUST_RESULT:
3783 val = NULL;
3784 partial_flag = TRUE;
3785 continue_flag = TRUE;
3786 break;
3787 case OPT_INPUT:
3788 DEBUGPRINTF("OPT_INPUT for input %d\n", j);
3789 val = add_ref(params[exec_list[i].input_data[j] & 0xFF]);
3790 break;
3791 case OPT_CONST:
3792 DEBUGPRINTF("OPT_CONST for input %d\n", j);
3793 val = add_ref((datum *)(instance->def->implement_func->workerlist[exec_list[i].input_data[j] & 0xFFFFFF].value_index));
3794 break;
3795 default:
3796 puts("Runtime Error: Invalid bytecode\n");
3797 val = NULL;
3798 break;
3799 }
3800 if(!val && !continue_flag)
3801 {
3802 for(k = exec_list[i].null_inputs; k < j; ++k)
3803 release_ref(this_params[k]);
3804 skip = TRUE;
3805 break;
3806 }
3807 DEBUGPRINTF("this_params[%d] = %X\n", j, val);
3808 if(j >= exec_list[i].null_inputs)
3809 if(val)
3810 this_params[j] = /*add_ref(*/val/*)*/;
3811 else
3812 this_params[j] = NULL;
3813
3814 }
3815 VIS_PROFILE_END(PROF_OPT_PREP_INPUT);
3816 if(!skip)
3817 {
3818 if(partial_flag)
3819 {
3820 VIS_PROFILE_START(PROF_PARTIAL_EXEC);
3821 ready = 0;
3822 for(j = exec_list[i].null_inputs; j < count; ++j)
3823 if(this_params[j])
3824 {
3825 instance->workerlist[exec_list[i].original_pos].params[j-exec_list[i].null_inputs+1] = this_params[j];
3826 ++ready;
3827 }
3828 if(instance->def->implement_func->workerlist[exec_list[i].original_pos].null_input && this_params[exec_list[i].null_inputs-1])
3829 ++ready;
3830 DEBUGPRINTF("ready: %d\n", ready);
3831 skip = TRUE;
3832 VIS_EnterCriticalSection(instance->workerlist[exec_list[i].original_pos].worker_lock);
3833 instance->workerlist[exec_list[i].original_pos].ready_count += ready;
3834 if(instance->workerlist[exec_list[i].original_pos].ready_count >= (exec_list[i].def->num_inputs + (instance->def->implement_func->workerlist[exec_list[i].original_pos].null_input ? 1 : 0)))
3835 {
3836 skip = FALSE;
3837 instance->workerlist[exec_list[i].original_pos].ready_count = 0;
3838
3839 }
3840 DEBUGPRINTF("ready_count: %d\n", instance->workerlist[exec_list[i].original_pos].ready_count);
3841 VIS_LeaveCriticalSection(instance->workerlist[exec_list[i].original_pos].worker_lock);
3842 if(!skip)
3843 add_queue(exec_list[i].original_pos, instance);
3844 VIS_PROFILE_END(PROF_PARTIAL_EXEC);
3845 }
3846 else if(exec_list[i].def)
3847 {
3848 VIS_PROFILE_START(PROF_FULL_EXEC);
3849 DEBUGPRINTF("opt_exec: %s(%d)\n", exec_list[i].def->name, exec_list[i].original_pos);
3850 entry.worker_num = exec_list[i].original_pos;
3851 if(exec_list[i].def->type & USER_FLAG)
3852 {
3853 VIS_PROFILE_START(PROF_OPT_EXEC_USER);
3854 instance->workerlist[exec_list[i].original_pos].params[0] = NULL;
3855 memcpy(instance->workerlist[exec_list[i].original_pos].params+1, this_params + exec_list[i].null_inputs, sizeof(datum *) * exec_list[i].def->num_inputs);
3856 add_queue(exec_list[i].original_pos, instance);
3857 VIS_PROFILE_END(PROF_OPT_EXEC_USER);
3858 }
3859 else
3860 {
3861 VIS_PROFILE_START(PROF_OPT_EXEC_BUILT);
3862 if(execute_def(exec_list[i].def, entry, this_params + exec_list[i].null_inputs, sub_callback) == 0)
3863 {
3864 DEBUGPUTS("Exectuted with reslts\n");
3865 if(exec_list[i].output_refs)
3866 {
3867 for(j = exec_list[i].null_inputs; j < (exec_list[i].def->num_outputs+exec_list[i].null_inputs); ++j)
3868 {
3869 DEBUGPRINTF("output_refs[%d] = %d\n", j-exec_list[i].null_inputs, exec_list[i].output_refs[j-exec_list[i].null_inputs]);
3870 if(!exec_list[i].output_refs[j-exec_list[i].null_inputs])
3871 release_ref(this_params[j]);
3872 else if(exec_list[i].output_refs[j-exec_list[i].null_inputs] > 1)
3873 {
3874 /*DEBUGPRINTF("multi_add_ref(%X): %d\n", this_params[j], exec_list[i].output_refs[j-exec_list[i].null_inputs]-1);
3875 tmp = (int)(&(this_params[j]->ref_count));
3876 addnum = exec_list[i].output_refs[j-exec_list[i].null_inputs]-1;
3877 __asm
3878 {
3879 mov ebx, tmp
3880 mov eax, addnum
3881 lock xadd dword ptr [ebx], eax
3882 }*/
3883 VIS_EnterCriticalSection(this_params[j]->lock);
3884 this_params[j]->ref_count += exec_list[i].output_refs[j-exec_list[i].null_inputs]-1;
3885
3886 VIS_LeaveCriticalSection(this_params[j]->lock);
3887 }
3888 }
3889 memcpy(results + i*32, this_params + exec_list[i].null_inputs, sizeof(datum *) * exec_list[i].def->num_outputs);
3890 if(exec_list[i].branch1 >= 0)
3891 {
3892 if(this_params[exec_list[i].null_inputs])
3893 {
3894 jump_from = exec_list[i].branch1;
3895 jump_to = exec_list[i].branch2;
3896 }
3897 else
3898 {
3899 i = exec_list[i].branch1-1;
3900 }
3901 }
3902 }
3903 }
3904 /*else
3905 {
3906 for(j = exec_list[i].null_inputs; j < (exec_list[i].def->num_outputs + exec_list[i].null_inputs); ++j)
3907 results[(i*32)|j] = NULL;
3908 }*/
3909 VIS_PROFILE_END(PROF_OPT_EXEC_BUILT);
3910 }
3911 VIS_PROFILE_END(PROF_FULL_EXEC);
3912 DEBUGPUTS("Executed\n");
3913 }
3914 else
3915 instance->workerlist[exec_list[i].original_pos].value = this_params[exec_list[i].null_inputs];
3916 }
3917 else
3918 {
3919 DEBUGPUTS("Skipped\n");
3920 if(exec_list[i].def)
3921 {
3922 for(j = 0; j < exec_list[i].def->num_outputs; ++j)
3923 results[(i*32)|j] = NULL;
3924 }
3925 }
3926 if(jump_from >= 0 && (i+1) == jump_from)
3927 {
3928 i = jump_to-1;
3929 jump_from = -1;
3930 }
3931 VIS_PROFILE_END(PROF_OPT_LOOP);
3932 }
3933 DEBUGPUTS("run_optimized calling cleanup_check\n");
3934 for(i = 0; i < instance->def->num_inputs; ++i)
3935 release_ref(params[i]);
3936 cleanup_check(entry);
3937 VIS_PROFILE_END(PROF_RUN_OPT);
3938 }
3939
3940 int vis_print(datum ** inputlist, queue_entry * worker_entry)
3941 {
3942 int result;
3943 #ifdef CONSOLE
3944 puts((char *)inputlist[0]->c.generic.data);
3945 #else
3946 MessageBox(NULL, (char *)inputlist[0]->c.generic.data, "Visuality Output", MB_OK);
3947 #endif
3948 result = 1;
3949
3950 release_ref(inputlist[0]);
3951 inputlist[0] = new_datum(BUILTIN_TYPE_YESNO, 2, 0, worker_entry->instance->def->program);
3952 //No one else knows about this new datum yet so we can skip getting a lock
3953 datum_set_yesno(inputlist[0], result);
3954 return 0;
3955 }
3956
3957 int vis_end(datum ** inputlist, queue_entry * worker_entry)
3958 {
3959 // fprintf(outfile, "End worker reached.\n");
3960 execute_active=FALSE;
3961 release_ref(inputlist[0]);
3962 //interp_stop();
3963 return 0;
3964 }
3965
3966 #ifdef NINTENDO_DS
3967 const char keyLetters[15] = "ABESRLUD><XYMC";
3968 #define MAX_KEY_BITS 14
3969 #endif
3970
3971 int vis_getinput(datum ** inputlist, queue_entry * worker_entry)
3972 {
3973 #ifdef NINTENDO_DS
3974 int held,i,pos;
3975 char tempstring[14];
3976 scanKeys();
3977 held = keysHeld();
3978 if(held)
3979 {
3980 pos = 0;
3981 for(i = 0; i < MAX_KEY_BITS; ++i)
3982 if(held & (1 << i))
3983 tempstring[pos++] = keyLetters[i];
3984 inputlist[0] = new_datum(BUILTIN_TYPE_STRING, 1, pos+1, worker_entry->instance->def->program);
3985 memcpy(inputlist[0]->c.generic.data, tempstring, pos);
3986 ((char *)inputlist[0]->c.generic.data)[pos]='\0';
3987 return 0;
3988 }
3989 else
3990 {
3991 requeue(worker_entry->worker_num, worker_entry->instance);
3992 return 1;
3993 }
3994 #else
3995 #ifdef CONSOLE
3996 gets(text_buf);
3997 text_buf_size = strlen(text_buf);
3998 //Nasty hack for testing until I get around to supporting command line args propery
3999 //text_buf_size = strlen(global_argv[1]);
4000 #else
4001
4002 while(text_buf_size <= 0)
4003 {
4004 Sleep(30); //TODO: replace with I/O queue mechanism
4005 }
4006 #endif
4007 // VIS_EnterCriticalSection(text_buf_lock);
4008 DEBUGPRINTF("Allocating %d bytes\n", text_buf_size+1);
4009 inputlist[0] = new_datum(BUILTIN_TYPE_STRING, 1, text_buf_size+1, worker_entry->instance->def->program);
4010 DEBUGPUTS("Allocated datum.\n");
4011 memcpy(inputlist[0]->c.generic.data, text_buf, text_buf_size);
4012 DEBUGPUTS("Copied string.\n");
4013 ((char *)inputlist[0]->c.generic.data)[text_buf_size]='\0';
4014 DEBUGPRINTF("Input is %s\n", inputlist[0]->c.generic.data);
4015 text_buf_size = 0;
4016 // VIS_LeaveCriticalSection(text_buf_lock);
4017 return 0;
4018 #endif
4019 }
4020
4021 int vis_if(datum ** inputlist, queue_entry * worker_entry)
4022 {
4023 if(!(inputlist[0]->c.integers.num_a))
4024 {
4025 inputlist[1] = inputlist[0];
4026 inputlist[0] = NULL;
4027 }
4028 else
4029 inputlist[1] = NULL;
4030 return 0;
4031 }
4032
4033 int vis_build(datum ** inputlist, queue_entry * worker_entry)
4034 {
4035 int i,j;
4036 company * companylist = worker_entry->instance->def->program->companylist;
4037 int num_companies = worker_entry->instance->def->program->num_companies;
4038 DEBUGPRINTF("Looking for company named %s\n", inputlist[0]->c.generic.data);
4039 for(i = 0; i < num_companies; ++i)
4040 {
4041 DEBUGPRINTF("Checking company %d:%s\n", i, companylist[i].name);
4042 if(!strcmp(inputlist[0]->c.generic.data, companylist[i].name))
4043 break;
4044 }
4045 release_ref(inputlist[0]);
4046 if(i < num_companies && companylist[i].build_size > 0)
4047 {
4048 DEBUGPRINTF("Building company with size %d\n", companylist[i].build_size);
4049 inputlist[0] = new_datum(i, 1, companylist[i].build_size, worker_entry->instance->def->program);
4050 for(j = 0; j < companylist[i].build_size; ++j)
4051 ((char*)(inputlist[0]->c.generic.data))[j] = 0;
4052 }
4053 else
4054 {
4055 DEBUGPUTS("Could not find company\n");
4056 inputlist[0] = NULL;
4057 }
4058 return 0;
4059 }
4060
4061 int vis_wait_forever(datum ** inputlist, queue_entry * worker_entry)
4062 {
4063 return 1;
4064 }
4065
4066 int init_global_store(datum ** inputlist, queue_entry * worker_entry)
4067 {
4068 datum * params[3];
4069 global_store * store;
4070 datum * store_dat = new_datum(BUILTIN_TYPE_GLOBAL_STORE, 1, sizeof(global_store), worker_entry->instance->def->program);
4071 store = store_dat->c.generic.data;
4072 store->name = add_ref(inputlist[0]);
4073 store->data = create_dict(worker_entry->instance->def->program);
4074 VIS_EnterCriticalSection(global_store_lock);
4075 params[0] = global_store_dict;
4076 params[1] = inputlist[0];
4077 params[2] = store_dat;
4078 vis_dict_set(params, NULL);
4079 global_store_dict = params[0];
4080 DEBUGPUTS("Global store init complete\n");
4081 VIS_LeaveCriticalSection(global_store_lock);
4082 DEBUGPUTS("Released global_store_lock\n");
4083 inputlist[0] = NULL;
4084 return 0;
4085 }
4086
4087 int vis_type_of(datum ** inputlist, queue_entry * worker_entry)
4088 {
4089 datum * output = make_string(inputlist[0]->company->name, -1, worker_entry->instance->def->program);
4090 release_ref(inputlist[0]);
4091 inputlist[0] = output;
4092 return 0;
4093 }
4094
4095 int vis_random(datum ** inputlist, queue_entry * worker_entry)
4096 {
4097 inputlist[0] = new_datum(BUILTIN_TYPE_WHOLE, 2, 0, worker_entry->instance->def->program);
4098 VIS_EnterCriticalSection(randlock);
4099 inputlist[0]->c.integers.num_a = genrand_int32();
4100 VIS_LeaveCriticalSection(randlock);
4101 return 0;
4102 }